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PROJECT MANUAL
FOR
JOHN A. DOBSON ARENA
ADDITIONS AND RENOVATIONS PROJECT
Vail. Colorado
PRO.JECT NO.9906
ODELL ARCHITECIS, P.C.
32055 CASILE COURT; SUITE
EVERGREEN, CO 80439
ffiN
Februory 12,2OOl
DEPARTMENT OF COMM'S DEVELOPMENTTO\^/NOFVAIL
75 S. FRONTAGE ROAD
VAIL, CO 81657
970479-2738
NOTE: THIS PERMT MUST BE POSTED ON IOBSITE AT ALL TIMES
ADD/ALT COMM BUILD PERMT Permit #: 801-0035
Job Address: 321 W MEADOW DR VAIL Status . . . : ISSLIED
Location.......: DOBSON ICE ARENA Applied. . : 03/73/2007
Parcel No....: 210706407005 Issued. . . : 05/03/2007
ProjectNo.: Expires...: l0/3O/2W7
OVINER TOI{N OF VAII-, O3/L3/20OL Phone:
C/O FINANCE DEPT
75 S FROIITAGE RD
VAIL eO 81657
License:
APPr-,rCAr{:r R.A. NEIJSON & ASSOCIATES, rN03/13/2OOt Phone: 97O-949-5L52
P. O. DRjAWER 54OO
AVON, CO
8L620
License: 170-A
CoNTRACTOR R.A. NELSON & ASSOCIATES, IN03/13/2OOa Phone: 97O-949-sL52
P. O. DRAWER 54OO
AVON, CO
81520
License: 1"70-A
Desciption:
Add storage room,locker rooms,upper office,replace ice rink
slab,install ped bridge and road realignment and other
cosmetic improvements
Occupancy: A
Type Construction: I FR Type I Fire-Resistive
TypeOccupancy: ??
Valuation: 2,985,155.00
Fireplace Information: Restrictedl
AddSqFe 0
# of Gas Appliances: 0 # of Gas logs: 0 # oI
Wood Pellet:FEE SUMMARY
Building-> $10,298.00 RestuarantPlanReview->S0. o0 Total Calculated FeeF> 5L1 ,494.7o
Plan Check-> SG,G93-?0 DRB Fe€-------> $5OO.OO Addidonal Fees-> r7,494.7O)
lnvestigation->
WilI Call--->
So. oo Recreation Fee------->
93.00 Clean-upDeposit------>
$0.00 Total Permit Fee---._>
SO. OO Pavments-_--->
$0 .00
s0.00
s0. 00TorAL FEE9--------> sL1 ,4e4 .70 BALANCE DUE->
Approvals:Ifdm: 05100 BUIL,DING DEPARTI{ENI
05/01/2001 GRG Action: AP
ItEN: O54OO PI,AIINING DEPARTMEITT
o5/0L/20oL George Action: APPR
PAGE 2
Permit #: 801-0035
CONDITIONS OF APPROVAL
as of 05-03-2001 Status: ISSUED
PermitType: ADD/ALTCOMMBUILDPERMT Applied: 03/13/2001.
Applicant R.A. NELSON & ASSOCIATES,INC Issued: 05/03/2001.
970-949-5152 ToExpire: 10/30/200L
Job Address: 321 W MEADOW DR VAIL
Location: DOBSONICEARENA
ParcelNo: 210106407005
Description:
Add storage room,locker rooms,upper office,replace ice rink
slab,install ped bridge and road realignment and other
cosmetic improvements
Conditions:
Cond: 1
(FIRE): FIRE DEPARTMENT APPROVAL IS REQUIRED BEFORE ANY
WORK CAN BE STARTED.
Cond: 12
(BLDG.): FIELD INSPECTIONS ARE REQTIIRED TO CHECK FOR CODE
COMPLIANCE.
Cond: CON00O1678
See notes on plans and plan review attached to plans for
conditions.
Cond:14
(BLDG.): ALL PENETRATIONS IN WALTS,CEILINGS,AND FLOORS TO
BE SEALED WITH AN APPROVED FIRE MATERIAL.
Cond: 20
(BLDG.): FIELD INSPECTIONS BY FIRE AND BUILDING DEPARTMENTS
ARE REQTIIRED TO CHECK FOR CODE COMPLIANCE BEFORE BEING USED
FOROCCCUPANCY.
Cond: CON0O04679
Use of this facility by more than 1,000 persons is not
permitted without prior review and approval of specific
events by the Town of Vail Fire Dept. and/or Building
Safety & Inspection Services.
Cond: CON0004680
That the applicant repair and replace the irrigation in
accordance with the requirements of Gregg Barrie, Town of
VaiI Landscape Architect as indicated in the letter dated
5/7/Ol (attached).
Cond: CON0004681
That the applicant comply with each of the Planning &
Environmental Commission conditions of approval as
indicated in the letter dated fuly 28,1999
IIEM: O55OO FIRE DEPARTMEIIT
It.em: 05500 PUBIJIC WORKS
See page 2 of this Document for any conditions that may apply to this permit.
DECLARATIONS
I hereby acknowledge that I have read this applicatiory filled out in full the information required, completed an
accurate plot plan, and state that all the information as required is correct. I agree to comply with the information and
plot plan, to comply with all Town ordinances and state laws, and to build this structure according to the towns zoning
and subdivision codet design review approved, Uniform Building Code and other ordinances of the Town applicable
thereto.
REQUESTS FOR INSPECTION SHALL BE MADE TWENTY.FOUR HOURS IN ADVANCE BY 479-2138 OR AT OUR OFFICE FROM 8:00 AM - 5
PM,
Send Clean-up Deposit To: N/A
ruREOF OR CONTRACTOR FOR HIMSELF AND OWNEFf
SII
APPLICATION !' ruor BE AccEprED rr rrvcoru,pfEjfr#ffdfB, _ 8ffj
wvv hFyAa
75 S. Frontage Rd.Vail, Colorato 81657
Proj
Building Permit #:"
RECDMAR t3Z00r 97 O- 47 9-2749 (Inspections)
plum bing. mechanical. etc..lPermits are req uired
Parcef # 216I_064_Oi
Job Name: J0HN A. DOBSON ARENA
ApDITi0N! & RENoVATTONS PROJECT
lob Address: .321 WEST MEADOt^ls DRIVE(321 EAST LIONSHEAD CiRCLE), VAIL,
Detaiied description of work;ROADWAY RE-ALIGNMENT, PEDESTRIAN BRIDGE.
epair( ) Derno(X) Other( )WorkType: Inte-ior( ) Exterior( ) eottrlly Does an EHU exist at this location: yes ( ) No ( )
Type of Bldg.: Single-famity ( ) Two-famrly ( ) N4utti_famriy ( )Commercjal Q( ) Restaurant ( ) Other ( )
No. of Existing Dweiling Units in thjs buildinq: *' NtA No. of Accommodation Units in this buiidina:
Gas Loos ( ) Woodipellet ( ) Wood Burnine ( ) N/A
: Gas Appliances ( ) Gas let ( ) Wood.Burninq (NOT ALLOWEDDoes a Fire Aiarm Exist: -YesllJ-ffi Does a Fire Sprinkier sviieffi
ConEct Ajsessprs_Office at Z0-92g-9640 or yisit
COMPLETE VALUATIONS FOR. BUILDING PERMTT (Labor & Materials)
for Parcel #
BUILDING: $ 2,140,969 ELECTRICAL; $ 16g.699 OTHER: $394-420PLUMBING: g 146,5g5 MECHANICAL: $ 135.55g TorAL:52.985.155
!EFL,B,'D CLEANUP DEPOSTT TO; _1f-\-j4
CONTMCTOR INFORMATION
tlenerat contractor:
_84_!E!!!l\t & AssocradEs.- rNc.
Town of Vail Reg. No.;
120-A
Contact ano Phone #t: -
R. BRIAN BRAZEF qTO-g4g-5152ContractorSignature:/-ID fur/l.
* :t * * * * * t? * * * * * * * :r * * rr * * * -! * * :r * * * * * * * * *,r * * * FO R O FFICE
F :/everyoneforms/bldgperm
. {:;'it P
o
NOTE: THIS PERMIT MUST BE POSTED ON JOBSITE AT ALL TIMES
ALARM PERMIT
Job Address: 321 W MEADOW DRVAIL--\|Locatron.....: ,D\2 ) p---
ParcelNo...: 210106407005
Prqect No :
OWNER TOIIN OF VA,IL
C/O FINAT.ICE DEPT
75 S FRONTAGE RD
vArr, co 81657
License:
CONTRACTOR COMMERCIAII SPECIAI.'ISTS OF
WESTERN COLORADO, I-,LC
P.O. BOX 1572
STLVERTHORNE, CO 80498
License: 161-S
05/L4/200L Phone:
05/t4/20OL Phone: 970-513-7100
Desciption: add detection devices in locker room and mech area,
mezzanine, dobson ice areira.
Valuation: $13.846.00
*'l*********,}....t.||.,ljt**,:*.'''*'*'*|'*...t|tit||*|**'tt'.*****i*....FEEst'MMARY*|'|.|.*...'.|*..
a*'rttaaaaa'tttt*r**
Approvals:IteM: 05600 FIRE DEPARTMEbIT
05/L4/2ooL nvaugtran Action: AP
ilaaa't|'tt*latt||*a|***|***'t,i,|:i:i:l:l:i:l:|:i
CONDITIONS OF APPROVAL
t:t,t:!,t,1****t**l'|a'lllr*'r**ll*t,tt*tltt'*t**llltl**:*,1***lllll,t'ti**'l*l**a'l*'|:l:l:i*aaaa|,a
DECLARATIONS
I hereby acknowledge that I have read this application, filled out in full the information required, completed an accurate plot plaq and
state that all the information as required is correct. I agree to comply with the information and plot plan, to comply with all Town
ordinances and state laws, and to build this structure according to the towns zoning and subdivision codes, desigr review approved,
Uniform Building Code and other ordinances of the Town applicable thereto.
REQIJ'ESTS FOR TNSPECTION SIIALL BE MADE TWENTY-tr'OUR HOUR$IN ADVANCE BY 79-2135 FRoM 8:fi) AM - 5 PM.
? cs<>t -oo< (
A0l-0023
ISSUED
05n4/2001
05/15/2001
rr/rU200l
TOWN OF VAIL FIRE DEPARTMENT
75 S.FRONTAGEROAD
VAIL, CO 81657
970-479-2t35
Electfical-->
DRB Fe€->
Investigalion-->
Will Call-------->
TOTAL FEES->
VAIL FIRE DEPARTMENT
9252. OO
so.00
so. oo
s3.00
9255 - oo
s2ss.00
s2ss.00
9255.00
9o.oo
Tolal Calculaled Fees->
Additional Fees------>
Tolal Permit F€e---->
Pe],nen1s------'------->
BALA]\CE DUIE->
/ A'OL0L-<-/,7, | -./(/,'-+-'e\srcNArune oF owNER oR coNTRACToR FoR HMSELF AND owNE
**+***+ **++:f + *++ ****+***+ +*]***** * * **++ ** * f * **** ** {. *'r,}*:r'f * * *** * }*** * * ******* **** **** *
TOWN OF VAIL, COLORADOCopy Reprinted on 0$l$2001 at ll:17:14 05/15/2001
Statflient
'f ++***+:f +*+++,f +**:* * ++ ***t* + '| *++ + * 't +t**+* ++ + + **t!t * t *'|*{.*,},}*'l'*!*******{r+,f ***+:t:f * ******* ***r* '1.{r*'*
Statement Number: ROOOOOO?5? Amount: $255.00 05/L5/2OOLIL:15 AM
Payment l'[ethod: Check Init : DF
NotaEion: CHECK #10068
Permit No: A01- 0023 Type : ALARIII PERI4IT
Parce1 No: 21010540 70 05
Site Address: 32L lI MEADOVI DR VAIIJ
Location:
Total Fees: S255.00
ThiE Payment: $255.00 Total ALL Pmts: $255'00
Bafance: S0 . 00
** *!t!i * * ***{' 'i * * + + **r}* + * * * * * *'*'1. * {. * *'t* +* * * * * * *'* * * * +* *'}* * *,t * * * *** * * **:t** *'}+ + * * * * * * * '*** * * * * * * ** * *
ACCOUNT ITEM LIST:
Account Code Descriotion Current Pmts
EP OO1OOOO31114OO TEMPORARY POt^lER PERI'1ITS
l^lc OO1O()OO31128OO I^IILL CALL INSPECTION FEE
252.00
3. 00
75 S. Frontage Rd.
Colorado 81657
AppucArro{}LL Nor BE AccEprED rr rrcouefffi"J:rt*1
Buildino Permit #:
Alarm drmit*: 4ol@f-
97 O - 47 9 -2135 ( I ncpdctions )
Commercial &Fire Alarm shop are required at time of. application submittal and must include inlbrmation listed on the Vail,
2"o page of this form. Application will not be accepted without this
information.
Aseff//s Olfre at 970-or visit
WorkClass: New() Addfion( ) Remodel(/ Repair( ) Rero-fit( ) Otrrer( )
iypeof Bldg.: Single-family( ) Two-family( ) MultFfamily( ) Commercial ( ) Restaurant( ) Other(
COMPTETE VALUATIOT{S FOR AIARJII PERMIT (labor & Mated'IS)
Fire Ahrm: g oo
Parcel # (Required if no bldg. Permit # is above) zro106r+07e,c-6
robName: Johx A, Dobsort AzeuA
SuMivision: Vni I Liort*t*S
171-\ZZZ
Detailed Location of work (i.e., floor, unit #, bHg. #
ech.Ovt AEEA OU MNi or.l Mezz
rc.5 i:riuc
No. of Accorrynodation Units in this building:No. of Existing Dwelling UniE in thb building: O
Does a Fire Alarm Exist: Yes (/) No
COMRACTOR IMORMATION
Fire Alarm Contractor:
Comlaela n u Sreci hLtlT3
Town of Vail Reg, No.:
t6t-5
Contact and Phone #'s:c;fiil o;i "" 6't) stg'z t oo
Contractor Signature:
*r rr rr *i. ti * trr. ** *ri.*nr t i *rr.**r * * ri.FOR OFFICE USE ONLY*"*fttrt*tit*i.*trtt**rttr*.t**t:i**!^*
F:/e\€ryon4fu nns/al rm perm
)sS=
TOWNOFVAIL
75 S. FRONTAGEROAD
VAIL, CO 81657
970-479-2138
DEPARTMENT oF COMMUT DEVELOPMENT
NOTE: THIS PERMIT MUST BE POSTED ON TOBSITE AT ALL TIMES
DEMO. OF PART/ALL BLDG. Permit #: D01-0008
Job Address: 321 W MEADOW DR VAIL Status . . . : ISSUED
Location.......: DOBSON ICE ARENA Applied. . : 04/02/2001.
ParcelNo....: 210106407005 Issued...: 04/1'0/2001'
ProjectNo.: R4:SOi - O DS t Expires.. ': 10/07/200'l'
OV|INER TOltiN OF VAIIr 04 / 02 / 20OL Phone :
C/O FINANCE DEPT
75 S FRONTAGE RD
vArL co 81657
License:
APPLICA.I\TT R.A. NEITSON & ASSOCIATES, IN04/02/2OO\ Phone: 97o-949-5L52
P. O. DRAWER 54OO
AVON, CO
47620
I-,icense:
coMrRAcToR R.A. NELSON & ASSOCTATES, rN04/02/2O01- Phone:
P. O. DRAWER 54OO
AVON, CO
81520
I-,icense : 170 -A
Desciption:
DEMOLITION FOR ADDITION & RENOVATION TO EXISTING ICE ARENA,
INCLTIDING REMOVAL OF EXISTING ICE RINK REFRIGERATION SYSTEM.
Occupancy: 1'2.'1. 1'2.1
TypeConshuction: I-FR
Type Occupancy: ??
Valuation: $30,000.00 Add So Ft: 4062
Fireplace Information: Restricted: # of Gas Appliances: 0 # of Gas Logs: 0 # of
Wood Pellet:
Building---> g35o.oo Restuarant Plan Review--> $0.00 Total Calculated Fees--> S353-00
Plan Check-> SO.0O DRB Fee*---------------> $O.OO Additional Fees---> (9353.00)
Investigation-> $0 . 00 Recreation Fee-----------> $O . OO Total Permit Fee----> $0. 00
Witl Call---> $3 . oo Clean-up DePosit------> So . oo Payments-----------> $0 ' 00
TOTAL FEES-------> 5353.00 BALANCE DUE---> $0.00
Approvals:IEe'm: 051-O0 BUILDING DEPARTMENT
04/02/2001 GRG Action: AP
O4/O9/2OOA GP(G ACIiON: AP DEMOIJITION ONLY.
Item: 05400 PLANI{ING DEPARTMEMf
Item: 05600 FIRE DEPARTMEI{T
Iten: 05500 PI,BI-,IC WORKS
il;;;;ililffi;;il;;ffi ffi ffi ;ffi ;il;;".-- :-**-
DECLARATIONS
I hereby acknowledge that I have read this applicatiory filled out in full the information required, completed an
accurate plot plan, and state that all the information as required is correct. I agree to comply with the information and
plot plan, to comply with all Town ordinances and state 1aws, and to build this structure according to the towns zoning
and subdivision codes, design review approved, Uniform Building Code and other ordinances of the Town applicable
thereto.
REQUESTS FOR INSPECTION SHALL BE MADE TWENTY-FOUR HOURS IN ADVANCE BY TELEPHONE AT 2138 OR AT OUR OFFICE FROM 8:00 AM - 5
PM.
Send Clean-up Deposit To: NONE
SIGNA CTOR FOR HIMSELF AND OWNET
PAGE 2
+,**+******************!i*********X.**'i**+{.*****:**'t,t****'t*r.,t*:t ****,t ****{.** '}****** * ** ** *i**:l*+* +**:t*+,}*:t***+
CONDITIONS OF APPROVAL
Permit #: DOl -0008 as of 04- I 0-2001 Status: ISSUED
:t*'1.*+'**,1.****'t*****{.**,f+*+*:t*'1.*{.**,1.**************'t *'t+'}*****************+*****,1.****,1.*t *:1.,t * * *{.** * * **:1. *:*** 't *
Permit Type: DEMO. OF PART/ALL BLDG. Applied: 04/02/2001
Applicant: R.A. NELSON & ASSOCIATES, INC lssued: 04/1012001
970-949-5152 To Expire: 10107/2001
Job Address: 321 W MEADOW DR VAIL
Location: DOBSON ICE ARENA
ParcelNo: 210106407005
Description:
DEMOLITION FOR ADDITION & RENOVATION TO EXISTING ICE ARENA,
INCLUDING REMOVAL OF EXISTING ICE RINK REFRIGERATION SYSTEM.
Conditions:
Cond: I
(FIRE): FIRE DEPARTMENT APPROVAL IS REQUIRED BEFORE ANY
WORK CAN BE STARTED.
Entry: O4llO/2001 By: Ceorge Action: COND No
demolition activity shall occur which causes harm or
damage to tree # l 5 as identified on the Tree
Preservation Plan. Additionallt, this tree shall NOT
be transplanted or removed without the written
consent ofthe property owner, the Town of Vail.
Failure to comply with this condition will cause a
red tag to be issued for the project and a stay of
further construction activity shall occur.Cond: l2
(BLDG.): FIELD INSPECTIONS ARE REQUIRED To CHECK FOR CODE
COMPLIANCE.
Cond: CON0004623
ALL WORK MUST COMPLY WITH DRB, PEC & TOWN COUNCIL APPROVALS
& ALL OTHER APPLICABLE ORDINANCES & REGULATIONS OF THE TOWN
OF VAIL.
Cond: CON0004624
STAGING PLAN, STACING OF MATERIALS, USE OF PUBLIC STREETS,
ETC., MUST COMPLY WITH ALL APPLICABLE ORDINANCES &
REGULATIONS OF THE TOWN OF VAIL. CONTACT LEONARD SANDOVAL
AT 479-2198 TO COORDINATE THESE ISSUES.
acv'4e/tt
-oo5(APPLICATION WILL NOT BE ACCEPTED IF INCOMPLETE OR
Project #:
Building
Separate Permits are required for electrical, plumbing, mechanical, etc. !
@e7
NVt{0Fvnt
75 S. Frontage Rd.
Vail, Colorado 81657
2L49
CONTRACTOR INFORMATION
General Contractor:
72 a;eL*rnl
Town of Vail Reg. No.:
{r
Crntact and Phone #'s:4"/ - a"f,7 --6lzu
*
COMPLETE VATUATIONS FOR BUILDING PERMIT (Labor & MAtCTiAIS
BUILDING: $ELECTRIC.AL: $OTHER: $
PLUMBING: $MECHANICAL: $forAL:S 1OrcO
*
ParceI
*************************************"FOR OFFICE USE ONLY**r.****:s*******'t*********************r.
Other Fees:
DRB Fees:
F :/everyone/formtbldg perm
of Construction:
For Parcel # Contact Aswsorc Office at 97O-328-864O or visit
parcel,number)
Job Name: f,c a-Job Address:32,t- E Ltaats//z.c.D cte-
Legal ltescription ll Lot:Block:Filing:Subdivision:
Owners Name: V E-D Address:onon r4T?=44,y
ArchitxtlQe,yyr:Address:Phone:a-a € ?e, {?s<
Engineer:Address:Phone:
Detailed description of work:
/asE-z-z-- Dt:z,z:za
WorkClass: New() Addition( ) Remodel ( ) Repair(; Oemo$C) Other( )
Work Type: Interior$Q Exterior ( ) Both ( )Does an EHU exist at this location: Yes ( ) No ( )
Typeof Bldg.: Single-family( ) Two{amily( ) Multi-family( ) Commerclal\Restaurant( ) Other( )
No. of Existing Dwelling Units in this building: n/ /*No. of Accommodation Units in this building: .,?/.y
No/Type of Fireplaces Existinq: Gas Aooliances (z) Gasloqs (d) Wood/Pellet (c) Wood Burninq b) ,"1/l+
Nofype of Fireplaces Proposed: Gas Appliances (d Gas Loqs bz) Wood/Pellet ( 4 Wood Burning (NOT ALLOWED)
Does a Fire Alarm Exist: Yes pq No ( )Does a Fire Sprinkler System Exist: Yes^k ) No ( )
itAR e a eool
fHl
Questions? Callthe Building Team at 479-2325
r0l,f'N
Project Name:
Department of Community Development
DaLzsez^J
Project Address:7a,f c z- za,-zs /1u *i> Cr I
/ This Checklist must be completed before a Building Permit appliation is
accepted.
.o- .-All pages of application is complete
s-+las DRB approval obtained (if required) Provide a copy of approval form
o Condominium Association letter of approval attached if project is a Multi-Family complex
-a- Complete site plan submitted
w--Tublic Way Permit application included if applicable (refer to Public Works checklist)
ffaging plan included (refer to Public Works checklist) No dumpster,parkino or materlal storaoe
allowed on roadwavs and shoulderc without written aoproval
-o--456-estos test and results submitted if demolition is occurring
D----Atahitect stamp and signature (All Commercial and Multi family)
..p Full flodr plans including building sections and elevations(4 sets of plans for Multi-Family and
. Commercial)
o Window and door scheoure
.a Full structural plans, including design criteria (ie.loads)
e Structural Engineer stamp and signature on structural plans (All Commercial and Multi Family)
-#oils Report must be submitted prior to footing inspection
o Fire resistive assemblies specified and penetrations indicated
o Smoke detectors shown on olans
o Types and quantity of fireplaces shown
Applicant's Signature:
Date of submittal:
F:/everyone/forms/bldperm2
Received By:
BUILDING PERMIT ISSUANCE TIME FRAME
If this permit requires a Town of Vail Fire Department Approval, Engineer's (Public Works)
review and approval, a Planning Department review or Health Department review, and a review
by the Building Depaftment, the estimated time for a total review will take as long as three (3)
weeks.
All commercial (large or small) and all multi-family permits will have to follow the above
mentioned maximum requirements. Residential and small projects should take a lesser amount
of time. However, if residential or smaller projects impact the various above mentioned
departments with regard to necessary review, these projects may also take three (3) weeks to
review and approve.
Every attempt will be made by this department to expedite this permit as soon as possible,
I, the undersigned, understand the plan check procedure and time frame. I also understand
that if the permit is not picked up by the expiration date, that I must still pay the plan check fee
and that if I fail to do so it may affect future permits that I apply for.
Agreed to by:
Print name
Signature
Project Name:
Date:
F : everyone/forms/bldperm3
WHEN A "PUBLIC WAY PERMIT" IS REQUIRED
PLEASE READ AND CHECK OFF EACH OF THE FOLLOWING QUESTIONS REGARDING THE NEED FOR A
"PUBUC WAY PERMIT'':\
Is this a new residence? YES- NOj
Does demolition work being performe{ regrire the use of the Right-of-Way, easements or
public property? YES__X:_ NO_
Is any utility work needed? YES X NO-
Is the driveway being repaved? YES-V No-
Is any dginage work being done that affects the Right-of-Way, easements, or public property?
YES_ I _ NO_
a
o
Is a "Revocable Right-of-Way Permit" required? YES
parking or fencing?
Is a different access needed to the site other than the existing driveway? YES->( - NO
Is the $i9ht-of-Way, easements or public property to be used for staging,
YES )< NO---7--
If answer is NO, is a parking, staging or fencing plan required by Public Works?
YES \1 NO_------_-'-
If you answered YES to any of these questions, a "Public Way Permit" must be obtained.
"Public Way Permit" applications may be obtained at the Public Work's office or at Community
Development (a sample is attached). If you have any questions please call Leonard Sandoval in Public
Works at 479-2t98.
I HAVE READ AND ANSWERED ALL THE ABOVE QUESTIONS.
Company Name
Date Signed:?-?r-a I
tr
o
o
tr
D
NO
Contractor Signature
Job or Project Name: Pab5or'
F r/everyone/forms/bldperm4
PUBLIC WORKS AND THE PUBLIC WAY PERMIT PROCESS
How it relates to Building Permits:
Fill out the attached check list with the Buildino Permit Aoplication.
If yes was answered to any of the questions then a "Public Way" permit is required. You
can pick up an application at either Community Development, located at 75 South Frontage
Road or Public Works, located at 1309 Elkhorn Drive.
Notice sign-offs for utility companies. ALL utilities must field verifo (locate) respective
utilities prior to signing application. Some utility companies require up to 48 hours notice to
schedule a locate.
A construction traffic control/staging plan must be prepared on a separate sheet of paper.
An approved site plan may also be used. This plan will show locations of all traffic control
devices (signs, cones, etc.) and the work zone, (area of construction, staging, etc.). This
plan will expire on November 1st and will need to be resubmitted for consideration for
approval through the winter. Be aware that your resubmission for winter may be denied
depending on the location of construction.
Sketch of work being performed must be submitted indicating dimensions (length, width
and depth of work). This may be drawn on the traffic control plan or a site plan for the job.
Submit completed application to the Public Work's office for review. If required, locates will
be scheduled for the Town of Vail electricians and irrigation crew. The locates take place in
the morning, but may require up to 48 hours to perform.
The Public Workt Construction Inspector will review the application and approve or deny
the permit. You will be contacted as to the status and any requiremenG that may be
needed. Most permits are released within 48 hours of being received, but please allow up
to one (1) week to process.
As soon as the permit is approved, the Building Department will be notified, allowing the
"Building Permit" to be released. Please do not confuse the "Public Way Permit" with a
"Building PermiY'.
) NOTE: The above pnocess is for work in a public way ONLY. Public Way
Permits are valid only until November 15th. A new Public Way Permit is required
each year if work is not complete. Re-application each November 15th does not
mean an automatic nenewal.
2.,7 r-a/
F:/everyone/forms/bldperm5
Date Signed
Iil/WNAF
DRAINAGE AND CULVERT INSPECTIONS ARE REOUIRED BY PUBLIC WORKS!
Please read and check off each of the items below:
a The Town of Vail Building Department has developed the following procedures to
ensure that new construction sites have adequately established proper drainage
from building sites along and adjacent to Town of Vail roads or streets.
The Town of Vail Public Works Department will be required to inspect and approve
drainage adjacent to Town of Vail roads or streets and the installation of temporary
or permanent culverts at access points from the road or street onto the construction
site. Such approval must be obtained prior to any requests for inspection by the
Town of Vail Building Department for footings, temporary electrical or any other
inspection. Please call Leonard Sandoval at479-2798 to request an inspection from
the Public Works Department. Allow a minimum of 24 hour notice.
o Also, the Town of Vail Public Works Department will be approving all final drainage
and culvert installation with resulting road patching as necessary. Such approval
must be obtained prior to any Final Certificate of Occupancy issuance.
-'2Agreed to by: f4of.-
Project Name:
Date Signed:
Dabs;ea'
Print Name
F:/everyone/forms/bldperm6
MATERHL STOMGE AND COT{STRUCTION PARKING
Please read and check off each of the items below.
(Copies of complete text are available upon request)
CODE 5-2-lO: DEPOSTTS Ol{ PUBIJC WAYS PROHIBITED
o Unlawful deposits: Subject to subsection C thereof, it is unlawful for any person to litter, track or
deposit, or cause to be littered, tracked or deposited, sand, gravel, rocks, mud, dirt, snow, icg or any
other debris or material upon any street sidewalk, alley or public place, or any portion thereof.
D Notice; Abatement: The Director of Public Works may notifo and require any person who violates or
causes another to violate the provision of subsection A hereof, or who has in the Director's employment
a person who violates or ctruses another to violate the same, top remove such sand, gravel, rocks, mud,
dirt, snow, ice or any other debris or material within twenty four (24) hours after receipt of said noUce
by the Director of Public Works. In the event the person so notified does not comply with the notice
within the period of time herein specified, the Director of Public Work, or other authorized agent, may
cause any such sand, gravel, rocks, mud, dirt, snow, ice, debris or any o*ter material to be removed
from any street or alley at the expense of the notified.
o Summons and Penalty: As an alternative to the notice for removal provided in subsection B above,
any person who violates or causes another to violate the same, may be issued a summons to appear
before the Municipal Court of the Town for said violations, and upon being found guilty of a violation
hereunder be punished as provided in Section 14-1 of this code.
o Notice and Penalty: It is unlawful for any person to fail or refuse to comply with the notice of the
Director of Public Works as provided in subsection B hereof, and any such person shall, in addition to
payment of the expense of removal incurred by the Director of Public Works, as provided in subsection B
hereof, upon being found guilty of a violation hereunder, be punishable as provided in Section 1-4-1 of
this Code. (1997 Code: Ordinance 6 (1979).
CODES 7-3A-1 AND 7-3A-3: PARKING OBSTRUCTING TRAFFIC & IMPOUNDMENT AUTHORIZED
o No person shall park any vehicle upon a street or at any other place within this Municipality in such a
manner or under such conditions as to interfere with the free movement of vehicular traffic or proper
street or highway maintenance. (Ord. 2(1968) 5 1)
o Whenever any police omcer finds a vehicle attended or unattended, standing upon any portion of a
street or upon any place within this Municipality in such a manner as to constitute a violation of any
seqtion of this Article, or left unattended for a period of twenty four (24) hours or more and presumed to
be abandoned under the conditions prescribed by Colorado Revised Statutes section 42-4-1102, as
amendd, the officer shall require the vehicle to be removed or cause it to be removed and placed in
storage in the nearest garage or other place of safety designated or maintained by this Municipality, and
the charges for towing and storage of such vehicle shall be charged to the owner of the vehicle in
addition to a ten dollar ($10) impoundment charge. (Ord. 2(1968) $ 3: Ord. 28(1981) 5 1)
I have read and will comply with the above code provisions:
Position or Relationshio to Proiect:
Date Signed: ? -a-?e (
F:/everyone/form s/b ldperm 7
ortr"^r oF coMMUN,r" orurrorn?.,
NOTE: THIS PERMIT MUST BE POSTED ON JOBSITE AT ALL TIMES
ELECTzuCAL PERMIT
32I WMEADOWDRVAIL
DOBSON ICE ARENA
210106407005(Ktot -00{/
OWNER TOI|IN OF VAIL
C,/O FIf.IAIICE DEPT
?5 S FROMTAGE RD
vArL co 81657
Lricense:
09/28/TOOL Phone:
COMIRACIOR A.K. ELECTRIC 09/28/2OOI Phone: 970-390-3258
2103 ZEMATT IJA]iIE I'NIT 2]-03-A
VAIL, CO
8L651
I-,icense : 117 -E
APPLICAI{T A.K. ELECTRIC 09/2e/20ot Phone: 970-390-32s8
2103 ZEMATT LANE UNIT 2].03-A
VAIL, CO
81657
Iricense z Ll,1 -E
E0t-0222
ISSUED
09t28/2001
t0t03/2001
04t0t/2002
TOWN OFVAIL
75 S.FRONTAGEROAD
VAIL. CO 81657
970-479-2t38
Job Address:
Location.....:
Parcel No...:
Project No :
Desciption:
Valuation:
INSTALL NEW SUBPANEL FEEDER
$1.250.00
Electrical----->
DRB Fee----->
lnvestigalion->
wi ca[-_->
TOTAL FEES->
s53 .00
(953 . 00 )
s0 .00
s0. o0
F0. o0
950.0o
s0.0o
s0.00
$3.00
$s3 .00
FEE SLIMMARY *,r***,*****.*:.tartr.rlt..:.*trtt******+++**t*tr'r'r*,t*:r*'r.......
Toial Calculated Fees--
Mditional Fees------'
Total Permit Fee-.-.,'
Pal,nent\-/
BALANCE DUE.->
Approvals:IEEm: 06000 ELECTRICAL DEPARTMEMI
O9/28/2ooL DF Action: AP
Item: 05500 FIRE DEPARTMBf,|
CONDITIONS OF APPROVAL
Cond: 12
(BIrDG.): FIELD INSPECIIONS ARE REQUIRED TO CHECK FOR CODE COMPI-,IAIiICE.
DECLARATIONS
I hereby acknowledge that I have read this application, filled out in full the information required, completed an accurate plot plan, and
state that all the information as required is correct. I agree to comply with the information and plot plan, to comply with all Town
ordinances and state laws, and to build this structure according to the towns zoning and
Uniform Buitding Code and other ordinances of the Town applicable thereto.
ivision codes^ design review approved,
I
AppucArrorCIrLL Nor BE AccEprED rF rNcoMpLtR us
MVTIWVAILIY
Electrical Permit #:
97 0-479-2149 (Inspections)
75 S. Frontlge Rd.
vai" coloraio 81657
E blr#"-
''YitrP"""V10n*,,No.:Town of Vail Req.,trl7 Contact and Phone #'s:
{n
:OUP]NC/fiQ. FEET FOR NEW BUILDS and VALUATIONS FOR ALL OTHERS (Labor & Materials
ELECTRICAL VALUATION: $AMOUNT OF SQ FT IN STRUCTURE:
Contact Assessors Office at 97O-328-864O or visit #
Parcel # (Required if no bldg. permit # is provided above)
robName: D"bso... lf,e-e Are"--Job Address:
Legal Description ll Lots ll Block: ll Filing:Subdivision:
Owners Name: 7 , O, /./, ll Address:Phone:
Englneerl @ lPhone:
WorkClass: New() Ad$tion( ) Remodel ( )
/Repair( ) TempPower( )Other ( )
Work Type: lnterior l,/f Exterior ( ) Both ( )Does an EHU exist at this locatioo: Yes ( ) No ( )
---
Type of Bldg.: Single-family ( ) Duplex ( ) MultFfamily ( ) Commercial (/f Reshurant ( ) Of'er ( )
No. of Existing Dwelling Units in this building:No. of Accommodation Units in this building:
Is this permit for a hot tub: Yes ( ) No ( )
Does a Fire Alarm Exist: Yes ( ) No ( )Ooes a fire Sprinkler System Exist: Yes ( ) No ( )
for Parcel
***************************************FOR OFFICE USE ONLY*****,t*************:t*****************
\5
F :/everyone/f ormtelecp€rm
"\,\s
TOWNOFVAIL
75 S.FRONTAGEROAD
VAIL, CO 81657
970-479-2138
Permit #: E01-00114
Status...: FINAL
Applied.. : 04/10/2001
Issued. . : 05/24/2007
Expires. .: 12/11./2001.
Phone:
otoort,* oF coMMUNrrv per,nr-?rrrsNr
NOTE: THIS PERMIT MUST BE POSTED ON TOBSITE AT ALL TIMES
ELECTRICAL PERMIT
fob Address: 321 W MEADOW DR VAIL
Location.....: DOBSON ICE ARENA
ParcelNo...: 210106407005
Project No : PfLSO, 'OOS I
04/to/20oLOVINER TO}{N OF VAIL
C/O FINANCE DEPT
75 S FROI\TIAGE RD
vArL co 81657
I-,icense:
APPI'ICANT VALIJEY SERVICE EI,ECTRICAI-, INO4/10/2001 Phone: 970-963-L990
VAI-,,I-,EY HI TECH SYSTEMS
898 HWY 13, #101
CARBONDATE, CO 81623
I-,icense: 292-E
CoNTRACTOR VALLEY SERVTCE ETJECTRTCAL TN04/1-0/2OOL Phone : 97O-963-L990
VAI,I-,EY HI TECH SYSTEMS
898 HWY 13, #101
CARBONDAI-,E, CO 4L623
Iricensel. 292-E
Desciption: Electrical for renovations to Dobson Ice Arena.
Valuation: 5168.070.00
FEE SUMN{ARY
Electrical----->
DRB Fee----->
lnvestigation---->
Will Call----> 93. oo Payments----------1 90.00
TOTAL FEES_> 32 , 933 . oo BALANCE DUE__-_> So. oo
Approvals:Itdn: 05000 EI-,ECTRICAL DEPARTMENT
05/24/2OOr GP(G Action: AP Plans reviewed by Ernst Glatzle.
CONDITIONSOF APPROVAL
Cond:12
(BI_,DG.): FIELD INSPECTIONS ARE REQUIRED TO CHECK FOR CODE COMPLIANCE.
DECLARATIONS
I hereby acknowledge that I have read this applicatioO filled out in full the in-formation required, completed an
accurate plot plary and state that all the inlormation as required is correct. I agree to comply with the information and
plot plan, to comply with all Town ordinances and state laws, and to build this structure according to the towns zoninf
and subdivision codes, design review approved, Uniform Building Code and other ordinances of the Town applicable
s2,930.00
s0.00
90.00
Total Calculqted Fees->
Additional Fees-------->
Total Permit Fee------->
$2, 933.00
92,933 .00)
90.00
thereto.
REQUESTS FOR INSPECTION SHALL BE MADE TWENTY-FOUR HOURS IN ADVANCE BY TELEPHONE AT 479-2138 OR AT OUR OFFICE FROM 8:00 AM - 5
PM.
SIGNATURE OF OWNER OR CONTRACTOR FOR HIMSELF ANDOWNEI
j(Iol -oosl
PERIIIT
Fcontacr Eagl e CoLn t y
at 970-328-8640 for
PI\RCEL /l:
/ APPLTCATION MUST BE FTLLED OUT COMPLETELY OR lT MAy NOT BE ACCEPTEDvr* t * * * * * * * * * * * * * * * * * * rt * * * * * rt * *'t PERMIT INFORMATION * * * * * * * * * * * * * * * * * * * * * * * * * * * * *It 4rr^ vr\r r^,. r\''rt
v-[ ]-Building [ ]-Prumbing ft-nt""tri"ut [ ]-Mechani-car I J-other: ,,
rob Name r-DoV,*{&*JA-- Job Addre =s: V?b E ho#ft.;x>Cz-, U".-
Legal DescripLion: Lot_ B)"ock_ Filing SugorvrsroN, , . . .,,/ Oowners Name: W Address: 1oo S,Fe"rnear,?o,\f xJy_pn.Tpj--11 jlul
Ph.
General Descriptionz EeNaV Nnorl4 to Pa>aavl \r;€Ng,
work class: [ ]-New [)Q-atteration ff-Additional I 1:nepair [ ]-other
Architect:
Address . 7,O,
Plumbing Contractor:
Address:
Address:
llumber of Dwelling Units:Numb-er of Accomnodation dnits:
lrnber
and Type of Fireplaces: Gas Appliances cas Logs__ Wood/pelJ_et
f * * * '} * * * * * * * * * * * * * *'t * * * * * * * * * * * * )r * VALUATf ONS * * * tr * * * * * * * '{
.i * * * * * * .^ * * * * * * * * * * * * *IBUILDfNG: $OTHtiR: $PLUMBING: $TOTAL: $I
INFORMAI'ION * * * * * * *.* * * * * * * * * * * * * * * * * * * rr
Town of Vai)_ 11gg; l,,lg.Phone Number:
r'lL cctrica l Contracto t .
\ddress : ejeA+' -, ez, *@i Town of Vail
Phone i.lr:mber:
Town rrf Vail
Phone Number:
Res. No.2q?-e
11e--l-taa:t2qa-,-
{echanical contractor:
trddress:
t * * * * * * * * * * * ** * * * * * *:t rt rt rt * J< rt * * rt * rt
3UILDING PERMIT FEE:
?LUMBING PERMIT FEE:.'IECHANICAL PERHIT FEE:
'LECTRICAL
FEE:
)THER TYPE OF FEE:.]DFT FFET.
omments;
Reg. NO.
Tovrir of Vail Reg. NO.
Photre Nurnber:
FOR OFFfCE USE * * * * * * * * rr * * * * * * * * * * * * * * * * * * * * * *
BUTLDING PI,AN CHECK PEE:
PLUMBING PI,AN CHECK FEE:MECHANICAL PI,AN CHECK FEE:
.RECREATTON FEE:
CLEAN-UP DEPOSIT:
TOTAL PERMIT FEES:
BUJ,I,,DINt;:
SIGNA'I'URE;
ZONING:
SIGNATUM:
v*** * * * * ** * * **** * ** * ***** * * * CONTRACTOROeneral cont.ractor: fe. l, Al;LZ;i
ELECTRICAT: $ fu6,Q'lo. rc
MECP;ANTCA
-L 5 fud, Nlon-,C>ETC z-n-
VALUATION
..I FA}J ITO NF9r|CTT II FPT'NTI 'T''\.
I t.'
lnwn n ufll
75 south lrontage road
Yail, colorado 81657
(303) 479-2I.38 or 479-2L39
TO:
FROM:
DATE:
QlIFlTFt.r.n.
rn summary, ordinance No. 6 states that it is unrawfur for anyperson to litter, track or deposit.any ,"if,-r""i, s.nd, d.ebrisor rnateriar, including trash dunrpsters, portabre toilets andworl:men vehicfes. upon any street, sia.waii, -;ii;y or publicprace or any portion theieof. ih. rrght-of-way on arr Town ofVail streets and.lSog= is approximately 5 ft- off pavement.This ordinance wirr be striliiy--enforced by the Town of VaiLPubric works Department. perslns rouna-viir;;i"; this ord.inancewilt be given a 24 hour wri-tten notice to remove said mate,riar..fn the event the person so notified.does not comply with thenotice within rhe 24 hour.tine sp.ci;i;;,"ti.-i"[ric worksDepartment wilt remove said mate;i;i-;a-in"^'I"pli=e of personnotified. The provisions of this orornance shal"l not beapplicable to clnstruction. rnaintenance or repair projects ofany street or atLey or any utiritie; i; a;"-;i;;i_._""y.
To review ordinance No, o in fulL, please stop by the Torvn of:::i"::i1:i"3""if;1:'il:i:=:4 ";;;i" a copv- riran-x vou ror your
olllce ol communlly development
ALL CONTRACTORS CURRENTLYL REGISTERED WITH THETOWN OF VAIL
TowN oF vArL PUBLIC WoRKS/COMMUNITY DEVELOPMENT
MARCH 16, 1988
CONSTRUCTION PARKING & MATERIAL STORAGE
os i 1- i onl Re tEEfEnE nIE
Fgta'f tr, Aoot
contractor, owner)
,tContaci Eag'l e Cou:rcy Ass
ar 97O-328-8540 for Pdrcc i
l.),\ttcliL /l:
WN OF VAIL
PERfiIT APPI,ICATION FORI.T
DA.TE: 4-a, - c't
!",,:::.'_,::3 RECEIVED
P E RI.II T
MAY162001 ,
UTC
T
lectrical [ ]-Mechani-caI [ ]-Other
Job Nar,re r-fuW',AL
LegaI Descript:ion: Lot
cwners Narne : l oir, 2*
hrchitect:
General Description : €e tc .1-1C
r;srt( C:f.aSS: [ ; -reW ffi-
llumber of Dwellinq Units:
RUTLDTNG T $
:ijunber and Type of F::eplac$ Cast ----I'
ii * * *.^ * * Jr** ******* **.{.*** *** rr*f ** **tI
ob Addres=, 24
FiIinq qnRnrrrcrn\r.
/ !''J.,lJl l.\r:\,,\.
pair [ ]-other
Accomnodation Units:
s Logs__ Wood/pellet
**** *.i * l* )k * *./r******)k* * * * * *
INFORMA?ION *rf******
PI-,UMBING: $
)l rrnl-.i h- /.\^F{-F-^r-.'J- ul|tj-lJ_I l(j LOItLracEor:',ddress:
lechanical Contractor:',ddress:
r x * * :t * rk * >f * * tr * * * * * * * * * * rk * tr * * i.. * rr * *
]UILDING PERMIT FEE:
TLUMBING PERMIT FEE:
IEC}IANTCAL PERMIT FEE:
JLECTRICAL FEE:
r"FltF Q TI./DF nI' ;=E ,
,IRB FEE:
!,rtr.tg I I L> .
R.ECREATION FEE:
CTEAN-UP DEPOSTT:
TOTAL PER-I.{IT FEES:
FT.F.lnDT
MECP.ANT
a!l, Re
umber:
Va,il Reg. NO.
ilrt.rhar,
ii of Vail Reg. NO.one l.{unber:
USE ******rr***r************:l*:t* rkrr.xxING PI.AN CHECK PEE:
ING P:,AN CHECK iEE:C}IANICAL PI,AN CI{ECK FEE:
nlT't'i nl l,L'"vv-{Jr,/Il!r:t o
STG}IA'I.UR.B;
STAVATTlruF.
(',.-.,.::.-.;::.,-;;G
APPLICATION MUST
[ ]-Buj-lding [ ]-Plunlc
.Ltul
ter--:r{-iai
VALUATICN
.]LEA}T I]P DP,OSII REFIIND TO:
TOWN OFVAIL FIRE DEPARTMENT O
75 S.FRONTAGEROAD
VAIL. CO 81657
970-479-2135
OWNER TOI{N OF VAII,
C/O FINANCE DEPT
75 S FRONTAGE RD
vArL co 81657
License:
CoNTRACTOR L. NOTHHAFT & soN, rNc.
4101 FOX STREET
DENVER CO
I021-5
License:134-S
Desciption: install fire sprinkler system/renovate existing
Valuation: $19,300.00
ta*t*l*lll*:|*lat'l:t*:itrt*ta:t:a:l*t:f******+**:tt:t*tl+'i***+*)tl')t***:t********t';
93.00
Item: 05600 FIRE DEPARTMENT
05/22/20OL rmraughan AcEion: AP
CONDITION OF APPROVAL
Cond: 12
(BLDG.):FIELDINSPECTIONSAREREQUIREDTOCHECKFORCODECOMPLIANCE'
DECLARATIONS
I hereby acknowledge that I have read this application, filled out in full the information required, completed an accurate plot plaq and
state that all the information as required is conect. I agree to comply with the information and plot plan, to comply with all Town
ordinances and state laws, and to build this structure according to thi towns zoning and subdivision codes, design review approved"
Uniform Building Code and other ordinances of the Town applicable thereto'
REQUESTS FOR TNSPBCTTON SHALL BE MADE TWENTY-FOUR HOURS IN ADVANCE BY TELEPUONE AT 479-2135 FROM t:fll AM - 5 PIW
VAIL FIRE DEPARTMENT
NOTE: THIS PERMIT MUST BE POSTED ON JOBSITE AT ALL TIMES
Permit #:SPRINKLERPERMIT
Job Address: 321 W MEADOW DRVAIL
Location.....:
ParcelNo...: 210106407005
Project No :
Status . .
Applied.
Issued .
Expires .
F0l-0013
ISSUED
0sn41200r
06/ l8/2001
tzl15/2001
FEE SUMIVIARY i+**'r*)tt***,t*tt***'tt*'t**'t***'r*+:l:|'l:r**+*t"ttt***'rt'tt*t'r't*tf'
Mechanical->
Plan Check-->
Investigalion-> $o.oo TOTAL FEES-----"--->
54oo . oo Restuarant Plan Review->
s1oo. oo DRB Fee-------"--->
9s03.00
Total Calculat€d Fe€s-->
Additional Fees----->
Total Permit Fee----->
Payments-"----->
BALAI\CE DUE->
9503.00
(9s03.00 )
s0.0o-'9O.OO
s0.00
will call->
o5/14/2ooL nn""''?r'o
V+
05/L4/200L Phone:303-433-3329
OR CONTRACTOR FORHMSET.F AND OWNE
TOWN OFVAIL
75 S.FRONTAGEROAD
VAIL. CO 81657
970-479-2t38
ort"^r oF coMMUN,r" orurroo"t
NOTE: THIS PERMIT MUST BE POSTED ON JOBSITE AT ALL TIMES
MECHANICALPERMIT Permit #: MOI-0064
Job Address: 321 W MEADOW DR VAIL Status . . . : ISSUED
Location.....: DOBSON ICE ARENA Applied . . : 05/ll/2001
ParcelNo...: 210106407005 Issued. .', 05123/2001
ProjectNo : Expires. .: ll/l9l200l
OI{NER TOv\lN OF VAIL O5/Ll/200a Phone:
c/o FrNAr{cE DEPT
75 S FROIfTAGE RD
VAIL CO 8r_657
License:
COMTRACTOR COLORADO PLIJMBING SERVICE, I05/LL/200L Phone: 970-625-0766
2335 AIRPORT ROAD
RIFI-,E CO
8165 0
License: 117-M
A,PPLICAI{I COLORADO PI-,ttMBrNG SERVTCE, r05/LL/200L Phone: 970-625-0766
2335 AIRPORT ROAD
RIFLE CO
8L550
License: l-17 -M
Desciption: INSTALL 8 FAN COILUNITS AND I AIRHANDLER
Valuation: $103,000.00
Fireplace lnformation: Restricted; Y i ofGas Appliances: 0 # ofcas lrgs: O # of- Wood_ Pellet 0
:','|.t'|...'''.||'...'...'*.****t**'*|itt++*'.t'|.|.t'trt*t*+*+*****..*FEEsUMMARY......,}.....':''t||'|....'|:|l'.....'.|.*'..'.t3:r'r**|'r|||*'|
Nlechsnical-> S2,o5o.oo Restuarar Pl8n Review-> go.oo Total Calculaled Fees-> 92.578.00
plan Check-> Ssls.oo DRB Fee*--> go.OO Additional Fees-----> S2,5?8.00)
Investigation-> 90 , oo ToTAL FEES--> $2 , 5?8 . OO Total Permil Fee----> $0 . 00
Will Call---> 93 . oo Payments--------------> 9o ' o0
BALANCE DUE----'> 90. oo
******ttttat't'*ll*'tItem: 05100 BUILDING DEPARTMENT
OS/LL/2OOI GRG Action: AP See 801-0035 for mechanical p1ans.
CONDITION OF APPROVAL
Cond: 12
(BLDG.): FIELD INSPECTIONS ARE REQUIRED TO CIIECK FOR CODE COMPL,IANCE.
Cond:. 22
(BLDG.): COMBUSTIONAIR IS REQUIRED PER SEC. 701 OF THE 1997 UMC, OR SECTION
701 0F Tr{E 1997 rMC,
Cond: 23
(BIDG.): INSTAL,LATION MUST CONFORM TO MANUFACTURES INSTRUCTIONS AI{D TO CIIAPTER
10 OF TIIE 1997 I'MC, CHAPTER 10 OF THE 1997 IMC.
Cond: 25
(BLDG.): GAS APPLIANCES SHAL,,L BE VElrrED ACCORDING TO CIIAPTER I Al'lD SHAIL
TERMTNATE As spEcrFrED rN r"!lo, oF rrrE r.ee7 wc, o* o*"t?B oF rrrE 1997 r'c.
Cond: 29
(BLDG.): ACCESS TO HEATING EQUTPMENT MUST COMPLY WITH CHAPTER 3 AND SEC.1Ol? OF
TIIE 1997 I]II'C AND CHAPTER 3 OF THE 1997 IMC.
Cond: 31
(BI-,DG')r BOILERS SHALI-, BE MOIJIIITED ON FLOORS OF NONCOMBUSTIBLE CONSI. IINI-,ESS
LISTED FOR MOITNTING ON COMBUSTIBLE FLOORING.
Cond: 32
(BI-,DG.): PERMIT,PL,,ANS AND CODE AIIAIYSIS MUST BE POSTED IN MECHANICAL ROOM PRIOR
TO AIT INSPECTTON REQTTEST.
Cond: 30
(BLDG.): DRAINAGE OF IUECITANICAI-, ROOMS CONTAIIIING HEjATING OR HOT-WATER SITPPLY
BOILERS SHAIL BE EQUIPPED WITH A FLOOR DRAIN PER SEC. 1022 OF TIIE 1997 IMC, OR
sEcTroN r-004.6 0F THE 1997 IMC.
DECLARATIONS
I hereby acknowledge that I have read this application, filled out in full the infomration required" completed an accurate plot plan, and
state that all the information as required is correct. I agree to comply with the information and plot plan, to comply with all Town
ordinances and state laws, and to build this structure according to the towns zoning and subdivision codes, desigr review approved,
Uniform Building Code and other ordinances ofthe Town applicable thereto.
REQUESTS FOR INSPECTION SHALL BE MADD TWENTY-FOLIR HOLIRS IN ADVAI{CE BY TELEPHONE AT 4?9-2138 OR AT OL,'R oFFIcE FROM 8:00 AM - 5 PM.
OF OWNER OR CO HMSELFANDOWNE
APPIJCATTOEI WILL Ilt()T gE ACCEPTED IFINGOHPLETE OR
Ttfrtlwn
75 s. Fr$tagE'Rd"
Yail, Colrado ETGFZ
Plwide fltedranbl Roorl bfdrt draur to s(al€ t rndude:c lfednnkat Room Dirneniors
Froject #:
&rilding hrrni!{;
Medranical Permit#:
"'"48'mflnsPedions)
= @cSustfonf,bDtlct, Hffi*t#ffiFffinol-me E6dpantcr(/$ccstrc:ts I
Pg-mit will not be acce.oied wihout trre roUov,rarga
Offi.te dt 97O-32&BflO or vistT fw P?rd #E4# (ncqu
Jobl,lanE: \ ^
w.if k -,tw.r : fotu' t<l nnry tt-l Repair( ) ourer ( )
Soiler l-palon: LttE br( ). E)(Eii, t I l@.f I Does an Ei-iU €xist at thfs lccationl yes ( ) l{o ( )
-i5_E:
Type ofBdg: slngde-falnily i ) Dugre!( ( ) l."uenw ( ) commercar c+ n*ta.r,aon ( ) otter( )
No- of fxE5ng Dmcftg Untts in this U"iUfrgt ilo. of Ar.-mrnodatjon ttrils in thb br.rildirrgl
ffi
" @q:rs!"ffi "ld bt'rnnre firepia
R ECE IV EI]
aoHPIrrE vAlttATroil FoR ltEC|rArflau pERrrrr (Iabor & rraEriats)
USE OilLY*****:Ex+*:r+****f:Fx*-:G******.:!*
E 6,€rtlhcJfo.!|lt||actrDai||l
llv0z:B l00e ll IE[1
yFretucatCgq.dcorln6lw >]%..&nura"
Town of Vail Reoeg. llo.:
Itz -n
Cor1acand Phorre-ifil
E--r, E--- pzrlr__r_n>z^ l,_
CortaOr 9gnatrre:
I 'd 8660'0N
{ fiJ (:r- 1109 I
\
Tll'r'VN OF VAIL
75 S.FRONTAGEROAD
vArL, co 81657
970-479-2t38
Mechanical--> S?,460.00 RestuarantPlanReview->
Plan check--> s1,865.00 DRB Fee->
Investigati on->
Will Call--->
oetrueNr oF coMMr.JNrrv oBvsr,oprr.ilr
NOTE: THIS PERMIT MUST BE POSTED ON JOBSITE AT ALL TIMES
MECHANICAL PERMIT Permit #: M0l-0075-sot'635 l:t1::€ot-aot.{ ?o( -oo > I
Job Address: 321 W MEADOW DR VAIL Status . . . : ISSUED
Location.....: DOBSON ICE ARENA Applied . . : 05/21/2001
Parcel No...: 210106407005 Issued. . : 06/21/2001
ProjectNo : PR5O\-OO5 I Expires. .: 12/18/2001
OWNER TOvilN OF VAIL O5/2!/200I Phone:
C,/O FI}TANCE DEPT
75 S FROIiTTAGE F.D
vAIr, co 8L657
License:
CONTRACTOR COMMERCIAIJ REFRIGERATION, IN05/2L/2O0L Phone: (800) 414-0990
421-Lt6 AVE. N.W.
EDMONTOIT
A3
CANADA T6S 1-G3
License: 247 -lI
APPIJICANT COMMERCIAL REFRIGERATION, IN05/2L/200L Phone: (800) 414-0990
42L-Lt6 AVE. N.W.
EDMONTON
AB
CA]{ADA T6S 1-G3
I-,icense : 247 -M
Desciption: INSTALL NEW ICE RINK REFRIGERATION SYSTEM.
Valuation: $372,095.00
Fireplace Information: Restricted:# ofGas Appliances: 0 4 ofGas logs: 0 # of Wood Pellsl 0
FEE SUMMARY ****'r***'t** *. I
SO. OO TOTAL FEES----> 59,328. OO Total Permit Fee--->
Paymenls------..-->
BALA}]CE DLTE->
So.oo Tolal Calculated Fees-> S9.328-00
io. oo Additional Fe€s---- . $9,328.00)
$0.00
$0.00
$0.00
$3.00
It.em: 05100 BUILDING DEPARTMN:r
O5/2L/2OOa GP<G Act.ion: AP
CONDITION OF APPROVAL
Cond: 12
(BI-,DG.): FIELD INSPECTIONS ARE REQUIRED TO CHECK FOR CODE COMPLIANCE.
Cond: COliIO004748
INSTALTIJATION MUST CONFORM TO TIIE APPROVED PIJAIiIS, MANI]FACTURER'S INSTAIJLATION
INSTRUCIIONS AI.ID TO THE APPI-.,ICABLE PROVISIONS OF THE 1997 ITNIFORM MECHANICAL
CODE (III4C) OR TIIE 1998 INTERNATIONAI, MECHANICAI, CODB (IMC) .
DECLARATIONS
I iuc5.v-actnowtedge that I have read thisf,,,rur,on, filled out in full the informati- *t"d, completed an accurate ptot plan, and
state thai all the information as required is correct. I agee to comply with the information and plot plan, to comply with all Town
ordinances and state laws, and to build this sfuchre according to the towns zoning and subdivision codes, desigr review approved,
Uniform Building Code and other ordinances of the Town applicable thereto.
REQIJESTS FOR INSPECTION SHALL BE MADE TWENTY.FOUR HOI'RS IN ADVANCE BY AT 479-2t38 0R AT OFFICE FROM 8:(X) AM - 5 PM.
SIGNATURE OF OWNER OR CONTRACTOR FOR HMSELF AND OWNE
*+ +:i + ***:* ***** *+**++ +* + {r '*:t r*
'* * * *:*:* * t {r * * * *'} f ***l*'l:*'t**** ** +* *'t:}***:l:} **:f **** * **++,t,* ++*+**++****
TOWN OF VAIL, COLORADOCopy Reprinted on 0'64+2001 at 09:(D:36 (06,1041200l
Stal€m€ot
* ** *:*** * *** * * *** * * * ***'t*** * * * ** * * * lr'i!t** * ** * * * *** * * * ** *:*'i*** * * * ** * * * ** * * * ****** * ** *** * **:f * ** *
StatemenE Number: R0000008?9 Amount: $?46.00 06/04/2OOL09:09 A
Payment Method: Check Init: DF
NotaE.ion: CHECK # 5550
Permit No: 801-0150 Type: ADD/ALT COMM BUILD PEru,rT
Parcel No: 21010 9101012
Site Address : t778 SITNBIIRST DR VAIIJ
Location: GOLF CL,ttB
Total Fees: $745.00
This Payment: 9745.00 ToEaf AL,L Pmte: $745.00
Balance: S0.0O
r* + ++ * * + ** * * * * * * * * ** * 't**'** * * * * * * * * * * * ** * * * * * * * ** * 'l 't * * * *'l** 't * * * * + * * * * * * * *,t,f * * * ** ** * + * *!** * +,* * **
ACCOUNT ITEMLIST:
Account Code Descriotion Current Prnts
BP OO1OOOO31111OO BUILDING PERMIT FEES
DR 00100003112200 DESIGN REVIET^I FEES
PF O()1OOOO31123OO PLAN CHECK FEES
tllc OO1OOOO31128OO MLL CALL INSPECTION FEE
420.00
50.00
273.00
3. 00
TO\^/N OF VAIL
75 S.FRONTAGEROAD
VAIL, CO 81657
970479-2138
o?oorrr* oF coMMUNrt orurJorr*,
NOTE: THIS PERMT MUST BE POSTED ON IOBSITE AT ALL TIMES
MECHANICALPERMIT Permit #: M01.-0279
|ob Address: 321 W MEADOW DR VAIL Status . . . : ISSUED
Location.....: DOBSON ICE ARENA Applied . . : 72/27 /2001.
ParcelNo...: 210106407005 Issued. .: 12/27/2001.
ProjectNo : Expires. .: 06/25/2002
oulNER TOWN OF VAIL L2/27/2OOL plrone:
c/o FINANCE DEPT
75 S FRONTAGE RD
VAII_, CO 81557
License;
coNrRAcToR FAT,CON Pr.,IrMBrNG & HEATING !2/27/2OO1- Phone: 97O-434-O556
3187 MESA AVENUE, SUITE A
GRAND .]I'NCTION CO
815 04
I-,icense:. 1-75-P
APPLTICANI FAIJCON PLIIMBING & HEATING L2/27(2OOL Phone: 9'IO-434-05s6
3187 MESA AVENUE, SUTTE A
GRAND iTNCTION CO
81504
I-,icense : 175 -P
Desciption: CONNECT EXISTING SNOWMELT SYSTEM IN ROADWAY TO EXISITNG
BOILERPLANT
Valuation: $2,000.00
Fireplace Information: Restricted: Y # of Gas Appliances: 0 # of Gas Logs: 0 # of
Wood Pelle[
Mechanical->
Plan Check:->
Investigation->
Will Call--->
$4o. oo Restuarant Plan Review->
$10.00 DRB Fee------>
$0. oo TOTAL FEES------->
$3.00
S0-00 Additional Fees______> (953.00)
So. oo Total Calculated Fees-->
$53 . OO Total Pemrit Fee->
Payments------------->
BALANCE DUE.--->
$s3.00
$0. 0o
s0.00
$0.00
Item: 05100 BUIL,DING DEPARTMEIflI
I2/27/200a CDAVIS Action: AP
Itern: 05500 FIRE DEPARTMENI
CONDITION OF APPROVALCond:12
.i"..",."...".-l;.-1i."."*""::::-"::::.:..T:.:i:::":::.::-:::-:i31*"-?3-"*l-"il-"-'flli;
DECLARATIONS
I hereby acknowledge that I have read this application, filled out in full the information required, comPleted an
accurate plot plar1 and state that all the information as required is correct. I agree to comply with the information and
*?*.*" according to the towns zoning
and subdivisioncodes, design review approved Uniform BuildingCode and other ordinances of the Town applicable
thereto.
REQI,JESIS FORINMCNON SHALL BE MADE TWENTY-FOURHOURS IN ADVANCE BY
PM.
479-2138 0R AT OUR OmCE FROM &m AM -5
OR CONTRACTOR FOR HIIvISELF AND OIVNIET
,
t
mmtfiurfr.
75 S. Frontage Rd.
Vall,C.olondo 816!tz
Proiect#:
Plovlde Jrlcc-lrenicrl Room Ltyout dr.wtt to.calo to Inctudo:o Mcclunlcal Room Dlncniionso Gomburtion Air Duct Size and Locrdono Flue, Vent and Gar Une Sizc rnd locdono Hcat Lq Calculatlonro EqulpmcntArt/SpecShGets
Permit will not be accepted wlthout the fo[owing:
and Phone #'si q70-
^(at*l Cell ?za-791,-tqr
Parcel #
Job Narne: blU fu*"
WorkClass: t'Gw( ) Addttion ( ) Alteration(X Repatr( ) Odrer( )
E*erior( ) Other( )Doesan EHUodstatthblocauon: yes( ) No( )TypeofBldg:s|ng|e-hm||y()Duplo((lr'r,ru.a'''i@nt()ober()
No. of E:dsdng Drvdling Units in thb bulldln$No. dAccornmodation Unlts in tfils building:
to an EPA Phase II devke? Yes (
I
,t{.*****{.{rrt ***:t**********FOR OFFJ
f : /crGryom/hmr/nrcdrpcnn
Y*rttlt***tl.*rt,ttl.:l.l*rt rtrl.!i,1.*1.***,lr*****
You m|st obtain Deslgn Revierv Board (DRB) approval lf any of tfre mechanirnl work will inuotrc AilrfexEriorwor{c rhb includes
",td
L-tot-'ti.i6d !,remoarino r.pborentotdrivuay snow mensystems' Pleasc contact a plannei at--i)s-ztze tcfo,€ ;i#itting your mechanicar permttappllcaffon. "sr'ert -srt'rl
The Tourn otvail has ado$ed thc 1998 rnternationat Medrantcat corte (rMG) u,ih the 1997 unilbrmMechanicat Code (uMC) is aniGpalri ari"-"tir*
All nw construGton rrlltrin tfie Tonn of vbtl is oonsirlercd b be of unusualty ught construcdon, thusall combustion air is rcquircd to fiil;'fnrm outstse ure structure tbr mechanlcal cquiprnenLRetbrcnethe 1997 uubSec. ?OL.i.---" "
rn sepEmber of 1991, th€ vail Torrn coundl adophd an ordlnance whlc{t rgtricts te aonstruction anduse of open heartt frrcplaces wilain iunrcipir uounoirrei-'lin"e that time tfi€ ordinane hasunderyone nurnerous-chinges and dlslli", q"qs rbfiompdirc y"fifft**;"-in addressingthe airquattB issue. rrrffireureEirJii:i,c crfteria has been ado6c:
' consotcuon of open heldfi wood burnlng fireplaces is no longer permitgl wlttrin Town of vallmunlclpat OounAaries.
o Dsqtlhllr[its - Each nm dweiling unit may contain:
Phase il cettifi- siiilr,e| orirning deutce and no npr€ Eran tm (2) gas apprianes
OR
T\no (2) 9"o lo9 fireplaces and no moredran two (2) g.o apptiance llrcplaces (B bent).o Re#cteilDrrelriml-unrF - Each nerr rcsffcted rrweiling unit may ontain:one (1) gas tog tirepE"e i"i ric ln"lr" ttan one (1) gas app*ance rrrcprace.o Arommpda'o4 Unlts - Erch new accommodation unit may ontain:One (1) gas log fireptace o" one-(-rig"s apgfiance fircptace.
rf trc ol morc seDarab dwelling units or accommodation units are combined to brm one taryeruni!' the combinci ul!t*v-t Li" JiiI frttlmin-g !*pr""e (irone arready exlse) and no moretlran 2 sas appriance nrcpricesJ;;;;;.rt up to two eristing firepraces to gas
rf dut{ng drc course of a rerrodcf an cxisdng noodburning fircpface is altered or moyed, the unitmust tfi€n complv rriur all proyisio;;fr'"Luin"rr"". ih;t-tE;firedace musr be converteo tonah,mt gr* or rapraccd ur in epl prrase-il-certined uniL
F:/crrryonr/form/mrchpcrn
TOWN OF VAIL
75 S.FRONTACEROAD
vAlL, CO b1657
970-479-2138
o"t*rru*r oF coMMr.rNrrY DEvELo#.t
NOTE: THIS PERMIT MUST BE POSTED ON JOBSITE AT ALL TIMES
MECHANICAL PERMIT Permit #: M03-0110
36t' oos5-
Job Address: 321 W MEADOW DR VAIL Status. . . : ISSUED
[,ocation.....: DOBSON ICE ARENA Applied . . : 07110/2003
Parcel No...: 210106407005 Issued . . : 07/31n003
ProjectNo : ?RtO( -oo51 Expires. .: 0l/27/2004
owNER Tov{N oF vArrr o7/to/2o03 phone:
c/o FINANCE DEPT
75 S FRONTAGE RD
VAIIJ CO 81557
Lricense:
coNrRAcroR MEADOW MOITNTATN pr,nMBrNG/HEO7 /LO/2003 Phone z 97O-479-298L
P-O. BOX 4564
VAIL, CO
81658
License : 24L-14
APPI,ICANT MEJADOW MOI'NTAIN PLIJMBING,/HEO7 /LO/2OO3 PhONE: 97O-479-29AL
P.O. BOX 4554
VAIIJ, CO
81_658
I-,icense z 24L-Yl
Desciption: removal of 2 existing boilers and one domestic water heater
Valuation: $59.E27.13
FireDlace Informslion: Restricted: Y # ofcas Appliances: 0 # ofcas Logs: 0 # of Wood Pellel: 0
**'t1+*tl.+*,t**,}||*t|'ll|t*:*||,l*,t|'|+t|*|'l+*+|.}+|*.|'..||'t*|*..|||'|*.*|
Investigalion->
will calt->
$0.00 TOTAL FEES--.--_> $1, 503 .00 Total Permit Fee-->
$3.00 Payments-----...---;'
BALANCE DUE--_->
Item: 05100 BUILDING DEPARTMEII1I
o7/3t/2oo3 ccD Action: AP
Item: 05600 FIRE DEPAR1'I!{H[r
CONDITION OF APPROVALCond:12
(Bi-,DG.): FIELD INSPECTIONS ARB REQUIRED TO CHECK FOR CODE COMPLIAIICE.
Cond: 22
(BLDG.): COMBUSTIOIIAIR rS REQUIRED PER SEC. 701 OF THE 1997 I]MC, OR SECTION
701 0F THE 1997 rMC.
Cond:23
(BL,DG. ) : INSTALLATION MUST CONFORM TO MANUFACTITRES INSTRUCTIONS AIID TO CI{APTER
10 OF TIIE 1997 I'MC, CHAPTER 10 OF THE 1997 IMC.
Cond: 25
Mechanical--> S1, 200. 00 Restuarant Plan Review->
Plan Check-> 5300. 00 DRB Fee---->
$o.oo Total Calculaled Fees-> $1,503-00
50.00 Additional F€es*_> 91.503.00)
$0.00
$0. 0o
$0. 00
(BI,DG.i, EAS APPIJIA}ICES STTAI,}C VENTED ACCORDING TO CHAPTEtr 8 AND SHAI,L
TERMINATE AS SPECIFTED rN SEC.806 OF THE 1997 UMC, OR CHAPTER I OF TIIE 1997 rMC.
Cond: 29
(BL'DG.): ACCESS TO HEATING EQUIPMECf MUST COMPIJY WITH CHAPTER 3 AIID SEC.1017 OF
THE 1.997 I'MC A}ID CHAPTER 3 OF THE 1997 IMC.
Cond: 31
(BL,DG,): BOILTERS SIIALL BE MOUN:fED ON FLOORS OF NONCOMBUSTIBL,E CONST. I]NI-,ESS
I,ISTED FOR MOI'MTING ON COMBUSTIBI,E FI-,OORING.
Cond: 32
(BLDG.): PERMIT,PLANS AND CODE AI.IAIJYSIS MUST BE
TO ATiI INSPECTTON REQI'EST.
Cond: 30
(BL,DG.): DRAINAGE OF MECHAI{ICAL ROOMS CONTAINING
BOIIJERS SHALIJ BE EQUIPPED WITII A FIJOOR DR,ATN PER
sEcTroN 1004.6 0F THE 1997 IMC.
POSTED IN MECIANICAIJ ROOM PRIOR
HEATING OR HOT-WATER SUPPLY
sEc. 1022 0F Tr{E L997 tMC, OR
DECLARATIONS
I hereby acknowledge that I have read this application, filled out in full the information required, completed an accurate plot plan,
and state that all the information as required is correct. I agree to comply with the information and plot plan, to comply with all
Town ordinances and state laws, and to build this shucfure according to the towns zoning and subdivision codes, design review
approved, Uniform Building Code and other ordinances of the Town applicable thereto.
REQUESTS FOR INSPECTION SHALL BE MADE TWENTY.FOUR HOURS IN ADVANCE BY TELEPHONE T 479-2149 OR AT OUR OFFICE FROM E:00 AM - 4 PM.fl
SIGNATURE OF OWNER OR CONTRACTOR FOR HIMSELF AND OWNEF
JuI OS O3 1O:3?a NaneTet Panker s7o-cs-slEr P.:.?-_---
Panrft#:
lcrl Room lryout
Air DUrt Sizslltc
lledranical Fermit#:
L{)q- aqsa
Permtt will not be aacepterl wlthout the follo,ving:
q'lq -e.qY
COMPLETEV & uacr'nls)
EVttEE eU rrG to.
Job rthm: bbsor :rce.l*na,Job Addrcss:
",'l
ELtan(h€"j c
LesatDescrrptpn_J Lot, J; ll Bbck / I rune, u$o*t*oa I suuoiru*,
'ztoaEnelerReubi/r 0 n; -6,0g
Defiafied d€scripdon of yrrodr;
-Kltrovol otr \ro Qxts+,Vn .bo,-lers anA one dorars{tc rr.rs.ler h"Jn"frtPvn a)
8"il"r L"."6on DoesanEllUeGtattlrblocathn: Yes( ) No( )
TlpeofEldg; E
-
No. dEdsung Dwd[ng uniB in firs nntutngE @'No. dAeorrunodation untb in frts bulkting|. 6l
XgllypeofFlreolacesEctsilno: GsADilanes( ) GasLms( I Wood/peltert \ wrm{Brrnrtnn/ \
rgTvp" of F
IsEFaottretr
** *,ttFtl*tl.*****r**r** *r**d.**
F:/rErFn /,lbm./ncdrpcnn
,i**rr**:r***|t ***r:!r*** **rt**,I* *
TOWN OF VAIL
75 S.FRONTACEROAD
VAIL, CO 81657
970-479-2t38
orrt "r"r oF coMM'*r"orurroort
NOTE: THIS PERMIT MUST BE POSTED ON JOBSITE AT ALL TIMES
PLUMBINGPERMIT Permit #: P0l-0037
Job Address: 321 W MEADOW DR VAIL Status . . . : ISSUED
Location.....: DOBSON ICE ARENA Applied . . : 05/ll/2001
ParcelNo...: 210106407005 Issued. .: 05123/2001
ProjectNo : Expires. .: ll/19/2001
OWNER TOWN OF VAIL O5/tL/200a Phone:
C/O FINA}ICE DEPT
75 S FROI{TTAGE RD
vArL co 81657
License:
COMRACTOR COLORADO PLIJMBING SERVICE 0s/rI/2001 Phone: 9'10-625-0766
2335 AIRPORT ROAD
RIFLE CO
81-6 50
License : 1-29 -P
APPLICAI{I COIORADO PLITMBING SERVICE 05/LL/200L Phone: 970-625-0766
2335 AIRPORT ROAD
RIFLE CO
81650
License : L29-P
Desciption: RENOVATION OF BATHROOMS AND LOCKER ROOM
Valuation: $90,000.00
# ofGas Appliances: ?? # ofGas l,ogs: ?? # of Wood Pallel: ??
,r,r,r,r,r,r,a,r,r*,i******tr FEE sLMMARy t**'*rrr*r*aatttaataaattatttttllt,l***t**ti++rr*rr'ra*:r:r:r:r*tataFireolac€ Information: Restricted: ??
Plumbing-> 51,350.00 Restuarant Plan Revie$-> So-oo Total Calculated Fees--> 51,690.50
pl8n Check-> S33?.so DRB F€e---------> 5o.oo Additional Fees-.-> $1,.690.50)
Invesigation-> so.oo ToTAL FEES-------> S1,59O.5O Tolal Petmit Fe€-> s0.00
Will Call-> 93. OO Pa)'ments----> 90.00
BALANCE DUE--._->90.00
aalaaat,lllf**tt,l**
Ilem: 05100 BUILDING DEPARTMEIiIT
0sl11l2001 GRG
Itemr 05600 FIRE DEPARTMENT
Action: AP See 801-0035 for P1ans'
CONDITION OF APPROVAL
Cond: 12
(BI-,DG. ) : FIETD INSPECTIONS ARE REQUIRED TO CIIECK FOR CODE COMPLIANCE.
*aaataaa******l*l+
DECLARATIONS
I hueby acknowledge that I have read this application, frlled out in fr:ll the information required, completed an accurate plot plan, and
state that all the information as required is correct. I agree to comply with the information and plot plan, to comply with all Town
ordinances and state laws, and to build this sfucture according to the towns zoning and subdivision codes, desip rwiew approved,
Uniform Building Code and other ordinances of the Town applicable thereto.
REQTJESTS FOR INSPECTION SHALL BE MADE -FOUR HOIJRS IN ADVANCE BY TELEPHoNE AT 479-2138 oR AT OLrR OFFICE FROM 8:00 AM - 5 pM.
o
TWENTY
SIGNATURE OF OWNER OR CO FOR HIMSELF AND OWNE
afnu ""(fufrr{ vPQ*^He-tudt
APFTJICATIOil WILI. T{OT BE IF ITTCOIIPTETE ORsNMlwvMly
75 $. ftontage Rd,
Vail, Colorado 81657
Proiect #:
Building ttennit #:
Plumbing Perrnit #:
97o.479-2149 (Inspections)
U
N
u
N
s
\a
(-\
f\U
COTIIPLETE VATUATIOTI FOR.PERUIT (Labor e ilaEriab)
Aswnffie
r*l**r*r***r*!kr*r!r*:l***.r+**+r **:r**** tr*FOR OFFICE USE 01{ LY*t**:r:r +*r}*r!tr*r*t*a***i**t*-l**ttt*tr
OlficrFec '.Dafr! Rraircd: r
DRI f€e+, t-ffi,--I
Pftrnnersl0nof*.ii- ..,.,:..:i U i'
RECEIVED
MAY | 1 2001
F/el,e yoney'turmvd n|bfEm
*
Jd.N*'fuBsa'
Work0ass: Nerv( ) MdiUmF4 Alter*ionft) Repair( ) Ofter( )
TypeofBldg.:Single-family( ) Duphx( ) Multi-family('(|-Comm€rcld$) Restaurant( )Oter( )
No. of AcomJnodauon Unlts in this building:ilo. of &isung Durclling UniB ln thls building:
b an EPA Phase tr device? Yes ( ) No
0 'd 8668 0N flVtZ:B l00Z'Il'Ieil
7
lnwn nf
75 south frontage rold
va il, c o lo ra do 816 57
(303) /.79-2138 or 479-2139
FROI'I :
Dii -l i, :
SUBJECT:
Tn qtrrnrnrr-!r r'\-l iri, Jq',u'q!y, urc:..:.nance No. 6 states that it is unlawful for anyperson to ritter, track or deposit any ="irl-tJ.i., sand, debrisor material, incruding trash iumpsters, portable toirets and,';orluren vehj-cIes upon-any stree.f , siaewaix, -;Ii;y or publicplace or an), porti.on theieof- T!. ;i;ht_;i_i.r-;" arL Town ofVail streets and.roacis is approxit".l"iv-s"it.-irt pavement.This ordinance rill bu. =t.i-!ilV"enforced by the Town of VailPublic Wor):s Department. persLns found vilfating thi-s ord,inancewill be given.l 24 ho.,r writi.n'-notice t"-r"."""-saic materiar.rn the event the person so notified.ao"r-niI"'J"iprv rvith thenotice vithin the 24 hour.time specifiec, the puttic worksDepartnent wirl remove said mate^.i"i-it-ir,""I"pl"=e of parsonnotified. The provisions of thi= o.ar.nance shall not beapplicable to ctnstructi-on, maintenance or repair pro; ects ofany street or a1ley or any'utiririe; i; G.-;i;ii_._""r.
To review orainance No. e in furl , please stop by the Town of:::i"::i1:i"3"":HiXil:i:"::.'"itli" a copv. rirani i/ou ror your
otllce ol communlty developmenl
ALL CONTRACTORS CURRENTLYL REGISTERED WITH THETOINI OF VAIL
Tor{N OF VAIL puBl.,rc woRl(S/COtoruNITy DE\rELOPI,1ENT
l"lARCH 15 , 19 8I
CO}.ISTRUCTION PARI(ING & MATERIAL STOR.\GE
knowle
uic-g PPFS1 ae*tosition/RAIaEG;sh$-:or contractor, owner)
ou-or-?.,. PAGE 1
1N/W t'/tcsr-trox/ft;z
APPROVAI AUTHORITTES: VAIL BUIITDING At{D FIRE DEPARTI'IENTS
DESIGN CRITERIA: ORDINARY HAZARD, GROUP 1
.15 GPM/1500 SQ.FT. REDUCED BY 34? TO 990
SQ.FT. BY UTILIZING QUICK RESPONSE HEADS.
5 O O GPM HOSE A],LOWAI{ICE .
NOTE: BETWEEN NODES 4 & 5, 10.5 FEET OF ELEVATION IS ADDED
TO ACHIEVE A 4.5 POUND PRESSI'RE LOSS THROUGH THE BACKFLOW
PREVENTER.
FIJOW TEST RESUI-'TS
water Supply
STATTC 112.20 PSr
RESTDUAT 109.20 PSr @ 1350.00 GPM
CITY PRESSIJRE AVAII.ABLE AT 539.3 GPM 111.45 PSI
SUMMARY OF SPRINKLER OIITFLOWS
ACTUAI MINIMUM
SPR FLOW FLOW K- FACTOR PRESSURE
' SUBMITTAL SERIAI NO:2500HY1
;omf a. DoBsoN ARENA, MArN
ADDITIONS AND REI{OVAT I ONS
VATL, COLORADO
''OHN A. DOBSON ARENA
ADDITIONS AND RENOVATIONS
VAII,, COLORADO
LSVEL
PROJECT
tnq
2!2
213
215
zL6
2L7
zL6
zL>
220
22r
223
zza
14.55
rat.50
L4 .55
J.+ . fb
-L+ . )b
14.56
r4l . !o
r-4. 56
r.l . )o
14.56
L4 .55
15 .23
J-+ . )O
f .5u
5 .50
5.5U
5.50
5.50
5.50
5.5U
5.50
f . f u
5.50
q <n
5.50
5 .50
5.50
> . oz
8.90
6. OU
7.01
I . Z>
'1 a.l
7.48
7 -45
8. L4
l-6.41
r+.50
L5.07
!4 .82
14.85
tf . UD
1d. Rn
I+. "J15.04
14.73
14. g0
15.41
1s.59
15.02
'
SITBMITTAL SBRIAL NO: 2500HY1
ioru a. DoBsoN ARErirA, MArN rJEx/Et
ADDTTIONS AND RSTOVATIONS PROiTE T
VAIIJ, COLORADO
SUMIVIARY OF SPRI}IKIER OUTFLOT{S
ACTIUA].,, MINIMT'M
SPR FLOW FI€W K- FACTOR PRESST'RE
227 15.02 14.56 5. s0
0s-02-2001 PAGE 2
IOTAIJ I{ATER REQUIRED FOR SYSTEM
OIITETOWS AT 4
OUTSIDE HOSE STRE:Al'lSi AT 0
TOTAI WATER REQUIREMENT
PRESSURE REQUIRED AT O
7.46
259.30 GPU
130.00 GPM
250.00 GPr{
539.30 GPM
97.78 PSr
MAXIMUM PP€SSURE TJNBAIANCE IN I,OOPS O,OO PSI
MAXTMUM VEIOCITY FROM 14 TO 15 24.79 FPS
,**rrr* SERIAT NO:2500HY1
.JOHN A. DOBSON AREIiIA, MAIN I.,EVEL
ADDITIONS AND RENOVATIONS PROiTECT
VAIL, COI,oRADO
va-vz'1vv I .l,A\rll J
Pipe Fittings Equiv Friction Pressure
Size & Irength Loss Summary
IN Devices FT PSI/FT PSI
1.090 L 0,67 C=120 PT 7.0I (2I4)
ry F 5.00 PE 0.29
sG T 5.67 0.0500 PF 0.34
L.425 L 1?.53 C=120 PT 7.54 (1L4)
F.* F 5.00 PE L.44
BN14 T 23.58 0.0163 PF 0.38
PT 9.45 (113)
Locatsion
From To
rL4 2t4
/,1
113 114
.1
Flow
in
L4.55
l_.1 - ao
r21 227 l-. :)u v= Lzv
2.00
3.50 0.0535
l-0.57 C=120
0.00
10 .57 0 .0a12
1 . 50 C=l_2 0
). UU
6.50 0.0536
5.25 C=L2O
6.00
LZ.Z) U.UOZJ.
t.+o \zztl
o.22
8.33 (127)
0.00
0.18
8. s1 (125)
7.45 (226}
u. b5
0.41
6.az \Lzol
0.00
1s.02
15.02
1 nan
L .425
BN2 7
1.090
5(j
L.425
tlrt z o
L5.02
L
f'
T
L
T
L
F
T
L
F
T
PT
PE
PF
PT
PE
PF
PT
EL
PF
PE
PF
PT
t.EW f:li
r25 225
ot Lza
1.090
r5 - b:t
"llJ15.59
BN25
1,5.4L
L5.4L
1.090
D\J
1. 090
BN24
1. 090
F=E
L
T
1 .50 c=120 PT 8.).4 (225)
2.00 PE 0.65
3.50 0.0589 PF 0.24
'7 .s2 c=120 rr 1 shl trzst
6 - 00 PE 0.00
13.92 0.01-87 PF 0 .26pf rs{tt ( oz)
66 r24
L.50 C=120
2 .00
? qn A ieel
5,Ol U=rZv
5.00
8,67 0.0661
L6) \ 212 I
0 .55
n ,?
8.13 (L24)
0.00
n (e
L
T
L
F
T
L
F
T
L
F
T
PE
PF
PT
PE
YE
1 .50 C=120 PT 7 .24 (223)
2.00 PE 0.65
J . )U U. Ubr> li!. v .12
LZJ ZZJ
14.80 .F =E
SUBMITTAL SERIAI NO : 2500HY1
.JOHN A. DOBSON ARENA, MAIN LEVEL
ADDITIONS A}ID RENOVATIONS PRO,JECT
VAIL, COLORADO
u5-vz- zgu L lA\rtf .t
Friction Pressure
L,oss Sufimary
Dc r /r'r Dqr
c=120 PT 8.r.1 (123)
PE 0.00
0.0158 PF 0 .L2
PT e.23 (]-221
L,ocat ion
From To
L22 r23
o
Flo!, Pipe
in Size
GPM IN
L ,425
14.80
BN2 3
Fi tt.ings
Devices
F=0
Equiv
Length
FI
7.00
0.00
7.00
L].9 2L9
o
118 119DQ
o
I.'U \-=IZ\J TI
5.00 PE
6.50 0.0513 PF
11.00 C=r2O PT
0.00 PE
11.00 0.0291 PF
1.50 C=L2O PT
2.00 PE
3.50 0.0521 PF
9.00 C=120 PT
0.00 PE
9.00 0.0158 PF
1. 50 C=120 PT
( nn DE'
6.50 0.05L8 PF
9.00 C=120 PT
0.00 PE
9.00 0.0292 PF
PT
7.27 (2201
' u. b5
8.14 (120)
0.00
U.l-5
6.2> \LL>'
t.z+ \zLJt
0.5s
0.40
8.29 (119)
0.00
a cq {11R1
L22 222 1 non
1. 655
BN22
1 noat
1. 555
BN21
4.300
NC2
1.090
Dg
L.425
BN2 O
1. 090
SG
1.555
BN19
L.090
SG
t.La \zlat
n 4E
0.40
8,23 (L221
0.00
0 .32
8. ss (121)
L4 .73
14.80
z> . =5
L
F
T
L
F
T
L
F
T
t2r 22L
o
68 121DQ
o
a
L5.04
29 .53
.t.l . fat
30.04
74.52
f,''* *r,* C=L20 pT 7 -4e Q2L\
F 5.00 Pa ,rol{$r
T 6.50 0.0537 PF 0.4L
t 3.83 C=120 PT 8.54 (12L)
F 8.00 PE 0.00
T 11.83 0.0622 pF O.74
L 7.08 C=L20 PT 9.28 ( 58)
F 0.00 PE 0.00
T 7.08 0.00r-5 PF 0.0L
Pr 9.29 ( 67)
L20 220
!r9 t2a
L4.83
l_ 4t - 61
L
F
T
L
F
T
L
F
T
L
F
T
L
F
T
l_4 - 80
14.83
z> -o5
1.s0 c=120 PT 7.49 (2L8)
5.00 PE 0.65
5.50 0.0538 PF 0.41
118 218
F-IT|
SIJBMITTAL SERIAI NO: 2500HY1
ioltl A. DoBsoN ARENA, MArN LEVEL
ADDITIONS AND REI.IOVATIONS PRO,JECT
VAIL, COIORADO
57 1L8DQ 29 .63
Q 44.68
66 67DQ 90.31
Q 134.99
Lt1 2L1
14.85
115 117
1,4.85
Pipe Fittings
Size &
IN Devices
F=T
BN18
4.300
F=0
NC2
1.090
r,425
BN17
1.090
SG
BN15
1.090
r. ot5
BN15
4.300
NC2
4.300
NC2
4.300
NC2
F=E
F=T
F=T
F=T
F=E
l! =E
u)-uz-zvvL tA(Jrl f
Friceion Pressure
Loss Sunmary
PSI/FT PSI
c=120 PT Ls5 (118)
PE 0.00
0.0525 PF 0 .74
c=120 PT 9.29 ( 61)
PE 0.00
0.0046 PF O .02
PT 9.31 ( 66)
LocaLion
From To
_Lro z -Lo
n\l
f IJ IJ.OU\l
n
Equiv
. Length
FI
! .'.65
r| a nn
T 11.83
L >.ZJ
F 0.00
T 5,23
F
T
L
F
T
L
F
T
L
F
T
L
F
T
L
F
T
L
F
T
L
F
T
L
T
1.50 C=120 PT
2.00 PE
5. )U V .V042 EE
Y.UU I-=J-ZU EL
0.00 PE
9.00 0.0r-69 PF
PT
1.50 C=120 PT
5.00 PE
6.50 0. 0620 PF
9.00 C=L20 PT
0.00 PE
9.00 0.0293 PF
I .4> \1! | t
0 .22
u. ro tr!/./
0.00
u,LJ
8.31 (115)
r .1o \zLo t
0.55
0.40
8.31 (115 )
0.00
e (7 {11ql
7.51 (215)
. 0.55
o.42
8. s8 (1ls)
0.00
0.74
9,32 ( 66)
0.00
0.10
9.42 ( 6s)
r-. 05
0.08
r.0.s5 ( 54)
0.00
0.05
10.50 ( 53 )
Flohr
.i-
GPM
14 .82
L4.85
115 215
a\
65 1r.sDQ
55 55DQ
n
15.07
29.67
44.74
150.40
195.14
1.50
5.00
5.50
J. tsJ
8.00
l-J-. oJ
4.L9
6.80
10.99
2.42
6.80
9,22
).zI
0.00
C=120 PT
PE
0.0540 PF
C=120 PT
PE
u. ubzo E!
L=IZV EL
PE
0.0091 PF
\-=IZ U E L
PE
0.0091 PF
c=120 PT
n nnql DF
PT
b554
Q 195.14
I:'J.I+
SUBMITTAI SERIAL NO: 250OHYl
iIOHN A, DOBSON ARENA, MAIN LEVEL
A.DDITIONS A.TTD RENOVATIONS PRO.]ECT
VAII,, . COI,ORADO
05-02-2001 PAGE 5
Fittings Equiv Friction Pressure
& Lengtsh Loss Sununary
Devices Ft PSI/Ft PSI
IJocatj.on
From To
Flow
in
GPM
Pipe
Size
IN
1.090
ct:
1.655
BNI3
1.090
SG
BN12
4.300
NC2
r..090
SG
r.o))
BN9
4.300
NC1
4.300
4.300
NC1
4 ,300
NC1
1r3 213
Q 16. L3
1L2 113DQ L4 .55
Q 30.59
v ro. .lr
53 112DQ 30.59
Q 47.10
62 63DQ 19s.14
w zrz . t't
1-09 209
ar
62 LO9
n
El < tT\n
<n q1
I / . UO
17.06
z-a .5v
Q 2s9.30
Q 2s9.30
t. uu w=Lzv
5.00 0.0725 PF
L0 . 25 C=l_2 0 PT
0.00 PE
10,25 0.0312 PF
HT
1.00 C=120 PT
E AA DE
5.00 0.0749 PF
3.79 C=l-20 PT
8.00 PE
L!.79 0.0689 PF
5.00 C=L2A PT
0.00 PE
5.00 0.0135 PF
PT
8.60 (213)
n 4?
u. +5
9.46 (113)
0.00
o .32
o ?a l1Itl
8 .90 (2L2}.
0 .43
0.45
>. ta \LLzl
0.00
0.81
19.59 ( G3)
0.00
0.07
;-9.55 ( Gz)
>.az \1vt I
0.43
0 .48
10 .53 (109)' 0.00
o.L2
10.55 ( 52)
0.00
11 q1 I <11
0.40
o.!2
12.03 ( s0)
0.00
n 1?
r2.!5 ( 49)
0.00
0.50
F=T
F=T
F=T
F=E
F-E
F=EE
L
ll
T
L'
l1
T
L
.tl
T
L
l1
T
L
F
T
JU49
L 1.00
F 5.00
T 5.00
T, 3 .19
F 8.00
'T' 11 ?O
t 48.42
-E O. atu
'r 33 .22
L 0.92
F 5.80
T 7.72
L 4.79
F ? 40
T Q 1q
L ZD . O5
.F O . OU
L 52.+5
C=120 PT
PE
0 . 0805 PF
C=120 PT
PE
0. 0105 PF
L=IZV ET
EE)
c=L2O PT
PE
0.0155 PF
a-1)i DT
n n]<q DF
c=120 PT
0.0155 pF
48 49
Q 2s9.30
SUBMITTAL SERIAI NO : 2500HYL
.]OI{N A. DOBSON ARENA, MAIN LEVEL
ADDTTIONS AND RENOVATIONS PRO\TECT
VAII., COLORADO
05-02-2001 PAGE 7
Location Flow Pipe FiEtsings Equiv Frictj.on Pressure
in Size & Length L,oss summary
From To GPM IN Devices Ft PSI/FI PSI
27 31
47 48
46 47
45 46
5> 4lf
55 5a
5 / Jat
Q 259.30
Q 259.30
Q 259.30
Q 259.30
Q 259.30
0 259.30
Q 259.30
Q 115.02
4.300
4.300
NC1
4.300
NC1
4.300
NC1
4.300
NC
NC
4.300
NC
L 13.00 C=120 PT 72,66 | 48)
F=T F 15.00
F=T F 15.00
tl=l:; .E b.atu
F=E F 5.80
F=T F L5.00
F=EE F 2. OO
F=EE F 2.00
PE 0 .00
T 29.00 0.0155 PF 0.45
r., 43 .00 c=120 PT 13 .11 ( 47)
PE 0.00
T 59.00 0.0155 PF 0.91
L ],2.96 C=120 PT 14.02 ( 46)
PE 0.00
T ]-9.76 0.0155 PF 0.31
L 3 .79 C=120 PT 14.33 ( 45)
F=E F 5.80 PE 0.00
T 10.59 0.0155 PF 0.16
Ir L2.38 C=L20 PT 14.49 ( 39)
F=E F 6.80 PE 0.00
vL -5. JO
T 19.18 0.0155 PF 0.30
IJ 1.53 C=120 PT 9.43 ( 3e)
T 8.43 0.0155 PF 0.13
I' 0,57 C=120 PT 9.55 ( 31l,
EE -U.Z>
5J l tut) -L++,4d Z,VOt
a\ 1'tE ltt
CM
2.067
CM
2 .067
CM
CM
2 .057
CM
o 11s.02
31 32
Q 115.02
T 16,67 0.0r.55 PF 0.26
r, 2.42 C=120 PT 9.53 ( 27')
F=EE F 2.OO PE 0.00
T 4.42 0.L2!1 PF 0.54
L 51.s0 C=120 PT 10.07 ( 33)
PE 0.00
T 63.50 0.L2r7 PF 1.73
L 51.s0 C=L20 PT 17.80 ( 32)
F=EE F 2. OO PE 0.00
T 63 .50 0 . r2r7 PF 7 .73
L 134.00 C=120 PT 25.s3 ( 31)
PE 0.00
30 31
T 135.00 0.1217 PF 15.55
L 51.50 C=120 PT 42.08 ( 30)
F=EE F 2.00 PE 0.00
29 30
Q 115.02
T 63.50 0.r2r'7 PF 7.13
'SUBMITTAL SERIAI NO: 2500HY1
,f,OHN A. DOBSON ARENA, MAIN LEVEL
ADDITIONS A}TD REI{OVAT IONS PRO.]ECT
VAIL, COLORADO
05-02-2001 PAGE I
Equiw Friclion Pressure
Length L/oss Summary
Fr PSr/Fr PSr
6l-.50 C=120 PT 49.8I ( 29)
2.00 pE 0.00
53.50 0. X217 PF 7.73
2.33 C=L20 PT s7 .54 ( 28)
10.00 PE 0 .00
12 .33 0.1217 PF 1.50
PT s9.04 ( 19)
Location
From To
26 zJ
\l
Pipe Fittings
Size &
IN Devices
2 . O5'7
F=EE
CM
2 .067
F=T
Fl-ow
1n
GPM
115 .02
28
L
F
T
L
F
T
Q 11s.02
25
z5
19
18
!7
IO
L5
!4
I L++ ,26
zo
Q t44.28
za
Q L44.28
19DQ 115.02
Q 259.30
1e
Q 259.30
11
Q 259.30
Lo
Q 259.30
Q 259.30
L4
Q 259.30
CM
2 .067
CM
2.067
CM
2 .061
CM
z.vol
2.067
FM2
FM2
2.067
FM2
2 .067
FW
J. UbU
FM1
! f,>. uo
E Z , VV
T 51.08
! -tJ+.lJv
F 2.00
T 135.00
L 5> . ZL
F 10.00
! U.5U
r ). )v
L L.61
F q no
T 6.67
L 10.79
F 5.00
rF 1< to
L 0.79
E! t n^
t n tn
F 1n nn
T 10.50
Jr Z6 . | 5
t JJ. />
C=L20 PT
0.1851 PF
\-= )-zv E L
PE
0.1851 PF
C=120 PT
PE
0. 1Bs1 PF
C=120 PT
PE
0.5475 PF
u=J-zu EL
0.5475 PF
\-=IZU EL
PE
0,5475 PF
c=120 PT
PE
u.5+/o.Et
C=L20 PT
0.5475 PF
L=LZV EL
vEi
0 . 0800 PF
! =!11
F=E
F=E
9.s2 ( 21)
0.00
11.31
zv.aJ \ 40 1
0 .00
46.00 ( 25)
t2.8L
se.03 ( 19)
0 .22
5 . UI
62.26 ( rsl
0.00
5. bD
5s.91 ( 17)
4 .58
I .55
79 .24 ( l.6)
0.00
3.r7
82.41 ( 1s)
=. t2
88.38 ( 14)
0.00
2.'70
13
! =tl
IJocation
From To
12 13
a\v
Flow
in
GPM
za> .5v
SIIBMITTAI SERIAL NO : 2500HY1
.IOHN A. DOBSON ARENA, MAIN LEVEL
ADDITIONS AND RENOVATIONS PROTECT
VAIL, COI,ORADO
05-02-2001 PAGE 9
Friction Pressure
Loss Summary
PSI,/FT PSI
C-120 PT 91.08 ( 13)
PE 0.00
0.0800 PF 2.Ls
C=120 PT 93.23 ( L2)
PE 0.00
0.0800 PF 1.40
C=120 PT 94.63 ( 11)
PE 0.00
o.0800 PF 1. s9
C=L2O PT 96.22 ( ]-0)
PE 0.00
0.0213 PF 0.19
c=120 PT 95 .41 ( 9)
PE 2.34
0.02L3 PF 0.30
c=120 PT 99.09 ( 5)
l.tt +,ff
0.02L3 PF O .49
C=L2O PT L04.13 ( 4l
PE -1.95
0.0051 PF 0.11
c=140 PT !02.29 ( 3)
PE 0.00
0.0037 PF 0.06
C=140 PT L02.35 ( 2)
PE -4.95
0.0037 PF 0.1_5
c=140 PT 91 .55 ( 1)
PE 0.00
0.0037 PF 0.21
Q 259.30
Q 259.30
Q 2s9.30
Q 259.30
Q 2s9.30
Pipe Fittings
Size &
IN Devices
3 . 058
-! =11
FM1
F=E
FM1
FM1
F'M
F=E
Length
Ft
r. 2t.83
tl :. uu
T 26.83
L, 12 .50
F 5.00
T r-7.50
! o. atj
F 13.00
T 19.83
lJ 2.35
F 5.80
T 9.13
F 8.80
T 14.30
L 6.83
F 16.00
T 22.83
L 4.50
F 14.00
T 18.50
L 5.00
F 12.00
T 17.00
lJ 5Z.VV
F 12.00
T 44.00
L 12.00
F 44.00
T s6.00
t2
11
Ll-
10
3 4DQ 1.30.00
389.30
Q 389. 30
Q 389.30
Q 389.30
F=E,GV
FR
4.026
F=T
FR
o. ubf,
-r =t1
FR
5.340
F=E
UN
6.340
l! =l!;
I'N
5.340
F=T, GV
TIN
PT 97.77 ( 0)
-q
(9
oo
d
IJlc)
ct
(t <tt Io-os)o-oo.NOrO.. .Ct)>or g, ra590o.
o -do-Lo J+r0)- o o
6auor>. +r O->(,01lgJ
oc\
=o86o.T'LtrO6()E
aDooE-3tr
>.=ua
5toEooo6F
o-o
elt
g
6;
----o- o- o- o-ct ct Gt (9
llJ
uJ
z
z
ut
E,
zoq,
@oo
<z
o
-
oooocrooct
orooq,ule)|'nctN F{ Gl (ll
ooo- o-
E)@!tN
NN.o o
9o "EEts,
=edor-qrlrcEoro a c-ooHcou)=
FCrC OE- O+,cl9i; "-et6fls
6'roE f 3
F-
@o.G(9
N@(O Fa
G)N
Fa Flui
UNsE
P$ roq,o
=&;
o c) o o ct o cr cr o o cr o ct o o cr cr o o o o o o o c, olO !t {O (\l r- O O cO ls @ lO !t 6? N - O O @ F rO |.} rf aO C{ F(\l(\lAlAl(\l(\l?!r=r
(Sd) arDBsard
,v
STTBMITTAL SERIAL NO :HYD2009
JOHN A. DOBSON ARENA, UPPER
ADDITIONS AI{D RENOVATIONS
VAIL. COLORADO
JOHN A. DOBSON ARENA
ADDITIONS AI.ID RENOVATIONS
vArI_,, coLoRADO
05-03-2001 PAGE L
N tcrr fuz t4oz
APPROVAL AUTHORITIES: VAIL BUILDING AND FIRE DEPARTME}TTS
DESIGN CRITERIA: LIGHT HAZARD
.10 GPM/L500 SQ-FT. REDUCED BY 40? TO 900
SQ.FT. BY IIIILIZING QUICK RESPONSE HEADS.
]-OO GPM HOSE ALLOWANCE.
NOTE: BETWEEN NODES 4 & 5, LO.5 FEET OF ELEVATION IS ADDED
TO ACHIEVE A 4.5 POUND PRESSURE LOSS THROUGH THE BACKFLOW
PREVENTER.
FLOW TEST RESULTS
wat,er SupplySTATTC 11-2 .20 PSr
RESIDUAL 109.20 PSI @ 135O.OO GPM
CITY PRESSURE AVAII-^ABLE AT 451.2 GPM 1L1-.79 PSr
SUMMARY OF SPRINKLER OUTFLOWS
ACTUAL MINIMUM
SPR FI,OW FLOW K-FACTOR PRESSI]RE
255
zt6
257
za6
259
260
26t
262
263
264
265
266
267
zo6
269
19 .11"
r-6.09
15.22
L4.65
t4.77
r_4.81
t5.07
1-5.92
1s .89
14.98
1,4 .56
14 .58
14.72
1,4.95
a5.75
L4.56
1_4 .56
L4.56
L4.56
t4.56
]-4.56
L4.56
L4.56
14 .56
l.4.56
14.56
1-4.56
14 .56
]-4.56
1_4 .56
s .50
5 .50
5 .50
s .50
s .50
f,. JU
5 .50
5 .50
5 .5U
5.s0
5 .5U
s.s0
5.s0
1,2 .07
8 .55
7 .66
7 .LO
'7.2L
7 .25
7 .50
8 .37
8 .35
7 .42
7 .OL
7 .L3
7 .L6
7 .39
8.20
SITBMITIAL SERIAL NO : IIYD2009
JOHN A. DOBSON AR8NA, I]PPBR TEVEL
ADDITIONS A}ID RENOVATIONS
VAIL, COLORADO
TOTAT, WATER REQUIRED FOR SYSTEM
ourFrJows AT 4
OU:TSIDE HOSE STREA}IS AT O
TOTAL WATER REQUIREMENT
PRESSI'RE REQUIRED AT O
05-03-2001 PAGE 2
231.17 GPM
130.00 GPM
100.00 GPM
461.17 GPM
83.55 PSr
I4AXIMI]M PRESSI'RE UNBAI.AIiICE IN LOOPS O.OO PSI
MA:XIMI'M VELOCITY FROM 14 TO 15 22 .10 FPS
' SUBMITTAL SERIAI-, NO : HYD2 0 0 9
JOHN A. DOBSON ARENA, UPPER LEVEL
ADDITIONS AND RENOVATIONS
VATL, COLORADO
05-03-2001 PAGE 3
FricEion Pressure
Loss SunrnarY
PSI/FL PSr
c=120 PT 7.0L (265)
PE -0.40
0.0600 PF 0.57PT 7 .t8 (165)
Location
From To
]-65 255
Flow Pipein Size
GPM IN
1 .090
v J_+. fo
DR
FitEings
o!
Devices
F=?, E
Equiv
LengUh
FL
2 -42
7 .00
9.42
L
F
T
l-58 268
t69 269 0.92 C=120
5 .00
5 .92 0 .0694
0.92 C=L2Q
5.00s.92 0.0630
O.92 C=L20
5.00
5 .92 0 .0612
O .92 C=1-20
5 .005.92 0.0610
0.92 C=L2O
s .005.92 0.0633
O.92 C=L2O
5. UU
5 .92 0 .0705
0.92 C=L2O
!\ llll
5.92 0.0708
0.92 C=1,2Q
f,. UU5.92 0 .0539
0.92 C=]-20
s.00s.92 0.0619
8.20 Q69)
-0 .40
0 .41
I .2t (169 )
7.39 (268)
-0.40
0 .37
7.36 (168)
7 .L6 (267)
-0.40
0 .36
7 .t2 (15?)
7 -a3 (266)
-0.40
0 .36
7.09 (155)
7 .42 (2641
-0.40
0 .37
7 -39 (L54)
8.35 (253)
-0.40
0.428.37 (163)
8.37 (262)
-0.40
o.42
8.39 (L62)
7 .50 (25t)
-0.40
U. Jt'
'7 AA 11611
7 .25 Q60l
-0.40
0 .377.22 (160)
l.5.75
1.090
DR
1_.090
DR
1 .090
DR
1_ .090
DR
1 .090
DR
l_.090
DR
1. 090
DR
r_.090
DR
1_.090
DR
F=T
F=T
F=T
F=T
F=T
L
F
T
L
F
T
L
F
T
L
F
T
L
F
T
L
F
T
PT
l/tl
PF
PT
PT
PE
PF
PT
PT
PE
PF
PT
PT
PE
PF
PT
PT
PE
PF
PT
PT
PE
PF
PT
PT
PE
PF
EL
PT
PE
PF
PT
PT
PE
PF
PT
L
F
T
1,4.95
1,67 267
1-4.72
L66 266 L
F
T
L
F
T
14 .58
L64 264
14.98
L63 263
15 .89
1-62 262
L5.92
L6t 25t
1,5 . O7
L60 260
L4 .81
. SUBMITTAL SERIAL NO :HYD2009
.'OHN A. DOBSON ARENA, UPPER I,EVEL
ADDITIONS AND RENOVATIONS
VAIL, COLORADO
05-03-2001- PAGE 4
Equiv Friction Pressure
Length l-.,oss Sunmary
FT PSI/FT PSI
158 258
Location
From To
Flow Pipein SizeGPM IN
Fittings
&
Devices
F=T
F=T, E
F=T
F=T
F=T
F=0
F=0
I =U
F--O/T
0.92 C=L2A
s .00
s .92 0 .0616
L.42 C=L20
8.42 0.0607
O.92 C=120
s .00s.92 0.0552
0.92 C=t20
5 .005.92 0.0722
0.83 C=120
5. UUs.83 0 .0992
7 -21. (259')
-0-40
0 .35
7 .L7 (1s9 )
7.!0 (258)
-0 .40
0 .517.21 (158)
7 -66 (2s7)
-0.40
0 .397.65 (157)
8 . s6 (2s6)
-0.40
0 .438.s9 (]_s6)
L2.07 (2ss)
-0 .36
0.s8
1.2 .29 (1ss )
7.09 (166)
0 .00
0.03
7.L2 (157)
0.00
o.24
/ .56 (rb6,|
0.00
0. 8s
8.2L (159)
0.00
r_.68
9.89 | 97',)
0.00
0.27
L4.'?7
1 .090
DR
r_. 090
DR
1.090
DR
1.090
DR
1.090
DR
L.425
ElI.,,
t.425
BI-,
L.425
BL
L.425
BL
2.L5'l
cM1
EL
PE
PF
PT
PT
PE
PF
PT
PT
PE
PF
PT
PT
PE
PF
PT
PE
PF
PT
L
F
T
L
F
T
L
F
T
L
F
T
L
F
T
L4 .65
L57 257
]-5.22
ts6 256
16-09
1_55 255
r_9.11_
L67 L66 nv
158 1-67DQ
nY
159 158DQ
a
97 159DQ
n
6 .00
L4.72
20.7t
L4.95
35 .65
L5.75
51 .41-
1_0 .00
0.00
10 .00
7 .67
0.00
7 .67
r-0 .00
0 .00
10.00
4 .00
5.00
r.0.00
12 .00
0 .00
L2 .00
C=L2O
0.0032
C=12 0
0 .0312
C=t2O
0 .08s3
C=!20
u . rb / v
C=120
o.0223
L
F
T
L
F
T
L
F
T
L
F
T
t
F
T
EL
PE
PF
PT
PE
PF
PT
YL
PF
PT
PE
PF
PT
PE
PF
95 97
51.41-F-n
STTBMITTAL SERIAL NO:HYD2OOS 05-03-2001- PAGE 5
JOHN A. DOBSON ARENA, UPPER LEVEL
ADDITIONS AND RENOVA?IONS
VAIL, COLORADO
Location Flow Pipe Fittings Equiv Frict.ion Pressure
in SiZe & Length Loss SummarY
From To GPM IN Devices Ft PSI/FL PSI
95 96DQ 52 .86 2 .1'57 L 2 -25 C=L2O PT 10 ' 15 ( 96)
0 t04.28 F=E F 3.50 PE 0 '00cML T 5 .75 0.0825 PF 0 .47
94 95 2.!57 L 2.42 C=120 PT 10.63 ( 95)
O 1,04.28 F=E F 3 .50 PE 1' 05
cML T 5.92 0.0825 PF o-49
93 94 2.t57 L 2 -42 C=L2Q PT !2 'L'1 ( 94)
O tO4 -28 F=0 F 0.00 PE 0 ' 00
cM1 T 2.42 0.082s PF 0.20
92 93DQ t2.66 2.L57 L 5.75 C=L20 PT L2 '37 ( 93)
a 116 .93 F=E F 3.50 PE 0 ' 00
cMr- T 9.2s 0.1-020 PF 0-94
81 92 2.L57 L 2.29 C=L2Q PT 13 '31 ( 92)
a 116.93 F=T F 8-s0 PE -0'99
cMl- T 1,0 .79 0.1020 PF 1.10
32 81DQ -'7 -s2 2.067 L 4. s8 C=120 PT 1-3 .42 ( 81)
a t}g .42 F=0 F 0.00 PE 0 ' 00
cM T 4.58 0.1110 PF 0 - 51
33 32 2 .067 L 61. s0 C=1-20 PT 1-3 ' 93 ( 32)
O LOg .42 F=EE F 2 .00 PE 0 ' 00
cM T 53 .50 0.111-0 PF 7 .05
27 33 2.067 L 2.42 C=t20 pT 20 '98 ( 33)
a lOg .42 F=EE F 2.00 PE 0 ' 00
cM T 4.42 0.1110 PF o.49
26 27 2.067 L 59. OB C=l-20 PT 2L '47 ( 27)
O LOg.42 F=EE F 2'00 PE 0'00
cM T 61.08 0.1110 PF 5 .78
2s 26 2.067 L 134.00 C=!20 PT 28'25 ( 26)
o 1-og .42 F=EE F 2 ' 00 PE 0 .00
cM T 136 .00 0.1110 PF L5 .l-0
19 25 2.057 L 59.2! C=t20 PT 43 '35 ( 25)
O tO9 .42 F=T F 10.00 PE O '22cM T 69 .21' 0.1110 PF 7 .68PT sL.2s ( 19)
z,vo t
CM
L 54.92 C=t2O PT L3.42 ( 81)
F=0 F 0.00 PE 0.00
T 54.92 0.0008 PF 0.04
PT L3.45 ( 80)
80 8r-o 7.52
SIIBMITTAL SERIAL NO:HYD2009
JOHN A. DOBSON ARENA, UPPER
ADDITIONS AND RENOVATIONSvArL, coLoRADO
FIow Pipein SizeGPM IN
LEVEL
FitEings
&
Devices
F=28
.F=U
F=0
F=T
F=0
.E =U
F=0
E-n
F=o/T
.F =U
Equiv FricLion
IJength Loss
FE PSI/FE
05-03-2001 PAGE 6
Pressure
Summary
PSI
L,ocaEion
From To
165 166 nv
1_64 165DQ
O
163 164DQ
nv
87 l_63DQ
n)z
8.69
L4.56
z5 . z5
1-4 .98
38.23
L5 .89
54.72
L.425
BL
L.425
BL
L.425
BI,
L.425
BI-,
2.t57
cM1
L.425
BL
L.425
BL
t.425
BL
L.425
BL
L.425
BL
1.425
BL
L
F
T
7.50 C=t2O PT
5.00 PE
L3. s0 0.0063 PF
5.79 C=120 PT
0.00 PE
5 .79 0 .0387 PF
10.00 C=120 PT
0.00 PE
i-0 .00 0.0971 PF
2.OO C=120 PT
6.00 PE
8.00 0.1846 PF
8.00 C=L20 PT
0.00 PE
8.00 0.0245 PF
PT
L0.00 C=120 PT
0.00 PE
10.00 0.0043 PF
7.57 C=120 PT
0.00 PE
7 .67 0.0345 PF
10.00 C=1-20 PT
0.00 PE
10.00 0.0911 PF
4.00 C=120 PT
6.00 PE
1_0 . 00 0 .1768 pF
PT
7.00 c-120
0 .007.00 0.0050
6.23 C=L2Q
b . UU
L2.23 0.0359
7.09 (166)
0.00
0.09
7.1,8 (16s)
0.00
o.22
7.40 (164)
0 .00
0.97
8.37 (163)
0 .00
1 .48
9.8s ( 87)
0 .00
o.2010.0s ( 86)
7.L7 (1s9)
0.00
0 .04
7.2t (160)
0.00
0.27
7.48 (15r-)
0 .00
0 .91
d. Jv \Lozl
0 .00t.77
10.1-5 ( 96)
7 .L'7 (159)
0 .00
0 .03
7.20 (1s8)
0.00
0.44
8785
L
F
T
L
F
T
L
F
T
L
F
T
L
F
T
L
.c
T
L
F
T
L
F
T
54.t2
160 r.59
o
161 160D0
nY
152 151DQnv
96 t62DQ
a\v
7 .08
14 .81_
2r..88
1_5 .07
36.9s
L5.92
52.86
1_58 L59
o
1s7 158DQ
a\v
7 .69
L4.65
22.34
L
F
T
L
F
T
PT
PE
PF
PT
PE
PF
F=28
SUBMITTAL SERIAL NO :HYD2009
JOHN A. DOBSON ARENA, UPPER
ADDITIONS AND RENOVATIONS
vArL, coLoRADO
LocaEion Flow Pipe
in Size
FTom To GPM IN
l-56 l-57DQ t5 .22 t.425
Q 37 .57
BL
86 1s5DQ 15.09 1,.42s
Q s3.65
BL
85 85DQ 54.L2 2.t57
Q L07.78
cMl-
84 85 2.t57
Q L07.78
cM1
83 84 2.L57o to1 .78
cM1
LEVEL
Fittings
&
Devi-ces
F=0
F=T
F=E
F=E
F=0
F=O/T
F=0
F=0
F=0
F=0
Equiv
Length
FT
IJ 10.00
F 0.00T 10.00
L 2.00F 6.00T 8.00
L 4.25
F 3.50
T 7.75
L 2.42
F 3.50
T 5.92
L 2.42
F 0.00T 2.42
L
F
T
L
F
T
L
F
T
L
.E
T
05-03-2001 PAGE 7
Pressure
Summary
PSI
Friction
LosS
PSr/Fr.
C=1-2 0
0 .0940
C=L20
0.1817
C=120
0.0877
C=L20
o.0877
c-120
o.0877
7.64 (157)
0.00
0.94
8.58 (1s5)
0 .00
L .45
10.03 ( 85)
0 .00
0 .68
10.71 ( 85)
1 .05
0.52
12.28 ( 84)
0 .00
o.2L]-2.49 ( 83)
L2.29 (155)
0.00
0.09
L2.38 ( 93)
L2 .29 (15s )
0.00
0-03
L2-32 (154)
0.00
0.03
t2 .3s (153 )
0 .00
0.05
12.4L (1s2)
0 .00
0 .0s
!2 -46 (151)
0 .00
0 .05
PT
PE
PF
PT
PE
PF
PT
PE
PF
PT
PE
PF
PT
PE
PF
PT
PT
PE
PF
PT
93 155 L.425
BL
1,.425
BL
L -425
.EtL
r.425
BI-,
t -425
BI-,,
L.425
BL
L2.66
L
F
T
0.92 C=120
5 .006.92 0.0126
9.67 C=120 PT
0.00 PE
9.67 0.0036 PF
9.00 C=L2O PT
0.00 PE
9.00 0.0036 PF
L5.42 C=L20 PT
0.00 PE
L5.42 0.0036 PF
l-3.00 C=L2O PT
0.00 PE
l_3 .00 0 . 0036 PF
6.96 C=L2O PT
5.00 PE
L2.96 0.0036 PF
L54 t55
153 154
152 l_53
]-sL L52
6.45
o 6.4s
Q 6.4s
Q 6.4s
L
F
T
83 L51 o 6.4s F=T
SUBMITTAL SERIAL NO:HYD2009 05-03-2001 PAGE I
JOHN A. DOBSON ARENA, UPPER LEVBL
ADDITIONS AND RENOVATIONS
VAIL,, COLORADO
Location Flow Pipe FiEtings Eguiv Friction Pressure
in Size & Irength Loss SunrnarY
From To GPM IN Devices Ft PSI/FL PSI
82 83DQ t}'l .'78 2 .L57 L s .75 C=120 PT 12 '5L ( 83 )
O IL4.23 F=E F 3 .50 PE 0 ' 00
cM1 T 9 .25 0.0977 PF 0.90
80 82 2.L57 L 2.29 C=120 PT 13.41 ( 82)
o tt4 .23 F=T F 8 .50 PE -0 .99
cMl- T L0 .79 0 .0977 PF l-.05
31 SODQ 7 -52 2.067 L, 2.00 C=1'20 PT L3 '47 ( 80)
O 1'2L -75 F=EE F 2 .00 PE 0 ' 00
cM T 4.00 0.1352 PF 0.54
30 31 2 .067 L 134.00 C=L20 PT 1-4 ' 01 ( 31)
O t2L.75 F=EE F 2.00 PE 0 ' 00
cM T L36.00 0.1352 PF i-8.39
29 30 2.067 L 61.50 C=L20 PT 32.40 ( 30)
o L2L.75 F=EE F 2.00 PE 0.00
cM T 63.50 0.1352 PF 8-59
28 29 2.067 L 61-.50 C=120 PT 40-99 ( 29)
Q L2L.7s F=EE F 2.00 PE 0.00
cM T 63.50 0.1352 PF 8.59
19 28 2.06? T-' 2.33 C=l-20 PT 49 ' 58 ( 28)
Q L2L.75 F=T F 1-0.00 PE 0 ' 00
cM T L2.33 0.1352 PF L.67
l-8 19DQ LOg .42 2.067 L 0 - 50 C=120 PT 5L.2s ( 19)
o 23L.1-'7 F=E F 5.00 PE O -22
FM2 T 5.50 0.4428 PF 2.44
L7 Lg 2.067 I-, L-67 C=120 PT 53.91- ( 18)
O 23t.t7 F=E F 5-00 PE 0'00
FM2 T 6.67 0 .4428 PF 2.95
L6 !7 2.067 L LO.'79 C=t2O PT 55 ' 86 ( 17)
O 23L -L7 F=E F 5.00 PE 4 '68FM2 T L5.79 0.4428 PF 6.99
15 L6 2.067 L O.79 C=t2O PT 68'53 ( 16)
O 231'.1'7 F=E F 5.00 PE 0 ' 00
FM2 T 5.79 0 -4428 PF 2.56
L4 15 2.067 L 0.50 C=t2O PT 7L.09 ( 15)
O 23L.L7 F=T F 1-0.00 PE 0 .22
FM2 T l-0 . 50 0 .4428 PF 4 .65
STIBMITTAL SERIAL NO:HYD2009 05-03-2001- PAGE 9
JOHN A. DOBSON ARENA, UPPER LEVEL
ADDITIONS AND RENOVATIONS
vArL, coLoRADO
Location Flow Pipe Fittings Equiv FricEion Pressure
in Siie & Length Loss Summary
From To GPM IN Devices Ft PSI/FE PSI
13 L4 3.068 L 28.75 C=t2O PT 75 '96 ( 14)
Q 23L-L7 F=E F 5.00 PE 0.00
FML T 33.75 0.0647 PF 2-t8
L2 13 3.068 L 21.83 C=L2O PT 78 'L4 ( 13)
o 23L.L7 F=E F 5 .00 PE 0 .00
FM1 T 25 .83 0 .0547 PF L.74
Ll- 1,2 3 .068 L L2 .50 C=120 PT 79 ' 88 ( L2')
A 23L.17 F=E F 5'00 PE 0'00
FMI- T L7 .50 0 .0647 PF 1.l-3
10 11 3 .068 L 6 .83 C=L20 PT 81.0L ( 11)
o 23L.17 F=T F 1-3 .00 PE 0 .00
FMl- T 1-9 .83 0 .0647 PF L -28
9 10 4.026 L' 2.33 C=120 PT 82'29 ( 10)
O 23L.L7 F=E F 6.80 PE 0 ' 00
FM T 9.13 0.0172 PF 0 .l-6
s g 4.026 L 5.50 C=l-20 PT 82'45 ( 9)
O 23L.a7 F=E,GV F 8.80 PE 2'38
FR T 14.30 0.0172 PF O .25
4 5 4.026 L 6.83 C=r-20 PT 85.08 ( 5)
o 231-.17 F=T F 15.00 PE 4 .55
FR T 22.83 0.0172 PF 0 .39
3 4DQ 1-30.OO 5.065 L 4.50 C=t2O PT 90'02 ( 4)
o 36t.t7 F=E F 14.00 PE -1 .95
FR T l-8. s0 0 .0053 PF 0 .10
2 3 5.340 I-, 5.00 C=140 PT 88'1-7 ( 3)
o 36t.t7 F=E F L2.00 PE 0 ' 00
ttN T 17.00 0.0032 PF 0.05
L 2 6 .340 L 32.00 C=l-40 PT 88 .22 ( 2)
o 36L.t7 F=E F 1-2 - 00 PE -4 .88
ttN T 44.OO 0.0032 PF 0 .14
O 1 6.340 I-,, 12.00 C=140 PT 83 '48 ( 1)
Q 361-.1-7 F=T, GV F 44.00 PE 0 ' 00
IIN T 55.00 0 .0032 PF 0 .18
PT 83 .56 ( 0)
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284 Annie Rd. / PO Box 1572
(970) 513-71(M Voice
t
S i Iv e rth o r n e, Co I o ra d o 80498
(97o) 513-720o Fax
fot'luz
Commercial Specialists
of
Western Colorado, LLC
JOHN A. DOBSON ARENA
Fire Alarm System
. Voltage Drop Calculations
o Battery Calculations
o Manufacturers Data Sheefs
I'
@xorr,F"tFR
July 14, 1998 E-130
FGPS-24(E)
24Yok,6 Amp Remole Power Supply
Sectbn: Power Suppli€s/Accsssories
California
State Fire
Marshal
7315{028:178
(FCPS-24 onty)
OEilENAt
The NOTIFIER FCPS-24 (120 VAC model)and FCPS-248
(2201240 VAC model) are compact, cost-effective, 6€mp
remot€ po/v€r suppli€s with buill-in battery charg€r. Th€
FCPS-24(E) may be conn€ct€d to any 12- or 24-volt Fire
Alarm Control Pan6l (FACP) or may stand alone. Primary
applications indude Notification Appliance (bell) Circuit
(NAC) expansion (lo support ADA r€quirements) or auxil-
iary pow€r lo support 24-volt syst€m accessories. Th€
FCPS prwides regula ted and frltercd 24 VDC power lo four
Nolification Appliance Circuits (two Class A [Style Zl and
two Class B lstyle Yl or four Class B only)- Altemat€ly, th€
four outputs may be configured as any combination of r+'
settable/non-r€settiable pow€r outputs (oplimal for pow€r-
ing 4-wir€ smoke d€t€ctors). Th6 FCPS-24(E) also con-
tains a batt€ry charger capabl€ ot chaqing up to 7-0 Amp
Hour bansri€s.
FEATUTES
. Requires input trigger voltag€ ot 9.0 - 32 VDC.. Contains two, fully-isolated inpuvcontrot circuits (trig-
g€r€d from FACP Notification Appliance Circuit INAC
expander model or jump€r€d p€rmanently on lsfand-
alone nffil).. Two Class A (Styls Z) or Class B (Style Y) Nolmcaton
Applianc€ Cirwits (circuits 1 & 3).. Two addibonal NACS that may b€ individually configursd
for Class B (Style Y) operation only (cirqiits 2 & 4).. 6 Amp full load output (3 amps max./ckt-) in NAC €x-
pander mod€ (UL 864)-. 4 Amp continuous ouFut in stand-alone mode (UL 1481 ).. In siand-alon€ mod6, outsut powsr circuils may b€ con-
figured as ressttable (r€sst lin6 from FACP requir€d) or
non-r€settable.. Fully regulated and fifte,ed power oulput (optimal for
pow€ring four-wire smok€ detociors, annunciators and
oth€r systom peripherals requiring regulated/filter€d
power).
. Fuseless, power-limit€d technology meets new UL power-
limiting r€quir€rnents, eff€ctivo May 1, 1995.. Normally clossd trouble contacl.. Fully sup€rvis€d power supply, batt€ry and l,lotification
Appliance Circuits.. Solectable earth fault det€ction.. AC troubl€ r€port selectabl€ for immediate, S-or 16- hour
d€lay.. Optional ammetor/voltmeter.. Works wilh virtually any UL g& fir€ alarm control which
utiliz€s an industry-standard r€v€rs€-polarity notifi cation
circuit.
387-94-E
(FCPS-24 only)
. Self-contained in compact, lockable cabinet (15' 1381
mml high x 14.5" [368 mml wid€ x 2.75' [70 mm] d€ep).
. Includes int€gral batt€ry charger capabl€ of charging up
to 7.0 AH batt€ri€s.. Fixed, damp-type t€rminalblocl€ accommodats upto 12
AWG (3.25 mm'?) wire.
SrAl|DlRDg and CODES
The FCPS-z4 compl'es with the following standards:
. NFPA 72-1996 National Fire Alarm Cod€.
. UL 864 Standard forcontrol Unitsfor Fir€Alarm Systems
(NAC expander iade).
. UL 1481 Power Supplies for Fir€ Alarm Systems
(dand-alone moda).
MEA
n/ft.iltl | ililI:)\-v \:z
s635 CS869
(FCPS-2. onty)@
OY3AO.AY
(FcPs-24(E))
o
Thb docum€nt is not int€idsd io be ussd lq inslallalion purpc€a. \t e lly lo k€ep our
product inbrmation up-Mal€ ard accurat€. W€ cannol cover all sgeciic 8pdb8lions or
antcipale all r€qui.emeris. All spsciicadons srs srbiec{ to drange wfioul n.lice. Fo.
mqo iniomalion, d acl NOTIFIER. Phone: (m3) 4a+7161 F/U( (203) 4E+711E
X OTI Fl En' 12 clinlonville Road. Norlhford. conn€dicut 06472
rso€001
Enginesring end lilanufacturing
Quality Systom Cenitu to
lntsmational Standard lsGgml
rGffiffi
Mrde in tho u.S.A.
DN-5132 - Page 1of 3
NOTIFIECF',tE SYSTETV'S
Julv 27. 2O0O DN-119O 'l-115
24OO Series
2-Wire Photoeleclrlc Smoke Detector
with Oplionol Hom & Thermol
Section: Conventional Initiating Devices
OENENAT
The System Sensor 2400 Series photoelectric delectors
are specifically designed to meet the stringent performance
reouirem€nts of indusEial and municioal fire detoction/alarm
systems. The design of these detectors emphasizes ease
of installation and field maintenance. The new AT/AIT mod-
ets add built-in audible signaling and oplional isolation of
the thermal.
FEAIURES
. Unique optical sensing chamben
- Superior signaFto-noase ratio.
- Built-in signal processing.
- 3.0% nominal sensitivity.. Removable cover for field cleaning.. Visible LED 'blinks" in standby.. Sealed against dirt, insects, and back pressure.
. Built-in 135'F (57'C) thermal (models TH, AT, AIT only).
. Three-year limited warranty.. Field metering of detector sensitivity (using MO[X00R).
. Built-in test capabilily.. Low standby cunent.. Twist-on mounting brackel with tamper option.. Designed for direct surface or electrical box mounting.. Built-in 85 dBA piezoelectric hom (models AT and AIT
only).. Inssct-r€sistant scr€€ning (0.02O7O.5O9 mm op€nings).. lsolated or integrated operation of thermal available.
. SEMS scr€ws for easy wiring
aPpltcltroNS
Use to contribute 10 life satety, fire prolection, and prop-
erty conservation- Pholoelectric detector are recom-
mended in areas where slow smoldering tires are likely to
ignite. ln areas where small combustbn particles are usu-
ally present from fork-lifr fucks, @oking stoves, etc., they
are less tikely than bnization detectors to produce false
atanns.
CONSTRUCT|oT AIID OPENATIOil
All Systom Sensor 2400 Serios photoeloctric smoke de-
tectors contain a unique optical sensing chamber desbned
to sense lhe presence of smoke partides produced by a
wide rang6 of combustion sources and m€et performance
criteria designated by UL 268. A new custom integrated
circ it incorporates signal processing to reduce false alarms
and sampl€rltold cirdlify to provide easy fi6ld mete.ing of
sensitivity. Additional key features of AT/AIT models in-
clude available isolation of the lhermal for separate moni-
toring, and a built-in hom.
Califomia
State Fire
Marshal
7272-12O9:1O3
(2400 & 24@rH)
7272-12O9:134
(24ooAT & z'tooAlT)
2aoo rt
The built-in oiezoelectric hom produces an intemlpted 85
dBA tone. The hom operates when the unit senses smoke.
or when the lhermal reaches its alarm point (ir egral ther-
mal models only).
tilsir fLATlot
Model 2400 deteclors are designed for systems use with
UL listed control panels. See panel Compatibility Chart to
determine maximum numb€r of detectors per zone. Easy
to inslall and maintain, this detector is designed for direct
surfrace mounting (mounting bracker included), or mount-
ing to a 4" oclagon or small€r box. Easfto-wire scr€w
terminals allow last and simple neld witing of in, out and
remole annunciator connections.
Consult codrol panel specifications for the maximum al-
lorrrrable lmp resistance for the particular control panel to
be used,
To prevent wiring mistakes, observe polarities and make
c€rtain thal 6ach conductor is identfied. A copy of Inslal-
lat'ron and Maintenance Instructions is packaged with eacfl
detector. For further infotmation, refer to NFPA 72 and to
Local Authority Having Jurisdic*ion.
^4. /4. :fur) (urc) rffi\Y !/ r.-
rfsTHr ";33:,j;'#ii
@.,$F#Approved
This doqrment is not rntended to be used tor imtallation porpo6€s. We try to keep our
qoducr iofoamrdoo utrto.daig and accu.ate- wb cannot cover all sp€cifc applicatlons or
anticipate all require||lenb. All specfications a,e suF to ctlange wilhoJt nolice. For
morg info.rnatbfl, cofltacl OTIFIER- Phone: (203)/t84-7161 F/o(i (203)184-7118
(D f On ff E R' on" ri|."-t-it6 Place, Nodhford, connectiait 06,172
DN-l1S0.0712700 - Page'l of 2
MAlilTElIAlICE
The 2400 Series has been designed to seal the sensing cham-
ber from back-pressure air flow, dust, dirt, and insects. The
back of the detector is sealed. The chamber is protected by a
fine mesh screen. Iesfirrg is accomplished by inserlion ot a
0.1' (2.54 mm) max. diameter tool. lI cteaning is required, it
is easy to remove the cover and obtain access to the screen
and chamber lo perform a thorough cleaning.
ElrOtilCEntNO gPEClFlGlilOllS
Smoke detector shall be a photoelectronic type (model 2400)
or a combination photoelectronic/thermal (mod€l 2400TH) with
thermal sensor rated at 135"F (57"C) as manufactured by Sys-
tem Sensor. Wring connections shall be made by means of
SEMS screws. Th6 detector will have a visible LED which will
blink in standby and latch on in alarm. The detector shall have
a nominal sensitivity of 3% per foot as measured in the UL
smoke box. The detector screen and cover should be easily
removable for cleaning. lt shall be possible to perform a sen-
sitivity and functional test without the need of generating
smoke. Detector circuivy shall perform a self tesl on the sens-
ing chamber and intemal electronics every 40 seconds. ll cir-
cuitry fails, the delector LED shall stop blinhng. The detector
shall have a mounting brackel that allo\|S for mounting to a 3-
112' (88.9 mm) or 4' (101.6) octagonal or a 4'square electri-
cal box.
oEl|ERA] SPEClFtGtttOllt
V Wiring Diagram: 2400, 2400TH,2400AT
2400TH
PnoDucT ullE tlrFonmatlol{
Model Description
24f/0 Photo€lectric smoke delector, two-wire, sur-
face mount.
2400AT
Photoelectric smoke detector with built-in
1 35"F (57"C) fixed-lemperature thermal, tvtio-
wire, surface mounl.
Photoelectric smoke detector with integral
135"F (57"C) fixed-temperature thermal, and
85 dBA hom, two-wire, surfac€ mount.
Photoelectric smoke delector wlth isolated
135'F (57'C) fixed-temperalure thermal, and
85 dBA hom, two-wire, surfa@ mount.
MOD.|00R Field-test module for all of the Syslem Sen-
sor 2400 Series smoke detectors.
RA4ttoZ Remot€ annunciator (LED). Mounts to
single{ang box.
|{OrES for GEMERAL SPECIFTCATIOIIIS:
Control panels musl limit cunenl to 1@ mA or less.
Maximum air velocity for photodeclric sensor opera'
tbn is 3,000 bet (914.4 m) p€r minute.
Relative humidity range: 10 to 93olo (non+ondens-
ing)'
11&i.,ol
V wiring Diagram: 2400AlT
2400AfT
1)
2l
3)
Model 2400 Model 2400TH Model 2,f00AT l,lodel 2400AlT
Control Panel Applications 2-wire 2rNire 2-wire 2-wire
Built ln Thermal llo Yes Yes Yes (bobled)
Vlsual LED Local Alarm Yes \6s Yes Yes
Remote LED Annunciator Capability Yes Yes Yes )€s
Operadng Voll,age Range 8.5 to 35 VDC 85 to 35 VDC 10 to 32 VDC 10 trc 32 VDC
Cun€nt Llmlt, Standby (marlmum)120 pA 120 pA 120 UA 120 FA
Current Limit, Aarm (typical)(see NOTE 1)(see hloTE 1)15mA@10V 15 mA @ 10V
Curient Llmlt, Aarm (maxlmum)(see I{OTE 1)(see l',lOIE 1)67mA@32V
48mA@24V
67 mA@ 32V
48 mA @ 24V
Reversed Vollage (non€hrm)
5mA@10V
15mA@24V
19mA@32V
5mA@10V
15mA@24V
19mA@32V
Alarm Signal Stunt on
porrrer leads.
Shurl on
po$rer leads,
Shnt on
power leads.
Sfunt on
po\ er leads.
Page 2 ol 2 - DN-'1190. 07/27100
February 25, 20m DN-5075 . l-304
N('TIFIECF'RE SYSTEN'S
HD-600
Heql Detectors
Section: Conventional Initiating Devices
CEIIEIAL
The HD{00 Heat Det€ctor is attractive, durable, and fea-
tures combination rale-of{ise and fixed-temperature de-
bctors, Heat detectors are available in 135'F (57'C) and
200'F (94'C) temperalure ralings.
Rate-ofdse elements detect heal by quickly respording to
rapid temperature increase. HD€00 detectors us€ fte
same eliable pneurnatic rated{ise element used in bft|er
models, but ofier added aestheEc appeal. The pneumatic
rats'of-rise element responds to a rapid rise in tempera'
ture, approximately 15'F (8'C) per minut€, by expansion
of air within the sealed charnber faster than it can escape
through a calibrated venl The resultant increase in pres-
sure depresses the diaphragm, causing the electrical con-
tiact to close th6 circuit. HD600 rate-of+is€ units have a
wide spacing allo\ rance of So-foot (1s.2+meter) centers.
See Specficatrons table (page 2) tor delails.
Fixed-temperature elementrs react to heat by responding
to a specific temperafure setting. The fixed-temperature
element uses a fusible alloy. When activated, the extemal
heat collector drops away to provide quick visual confirma-
tion that the element has operated.
The units protrude only 1-3/8' (34.925 mm) fiom the ceil-
ing surface with a iunction box mountir€. They haYe pleas-
ing contours and an all-wtlite finish that contorms to ceiling
aesthetics.
FEATUNE'
. RateoFrise and fixed-temperature.
. One- or two-circuit, normally open.
. Easy installafion.
. Low-prof e design.
. Visual indicalion.
. OperEtion testing.
rlrsil Ltttrox
Each detoctor includes a patent€d reversible mounting
plate. In one position, il easily sttaches to a 3J/4' (82.55
mm) octagonal box or 4' (10'1.60 mm) junction box.
In reverse, the plate can be used fior op€n wiring wlthout a
junction box. A 1/4" (6.35 mm) space between detedor
and mounting surface allows for wirc connections. All
mounting scre 6 are concealed.
Th6 dolectoi attach€s simply to the mounting plate with a
push and twisl motion. No special tools are required.
The mounting plate is mold€d of wffite self-extirguishing
thennoplastic rated at 105'C. The plate b extremely strong,
yel adapts to uneven mounting surfaces,
JUNCTION BOX
MOUNTING
@) @ @r*1T*.
tlSTEll ,"#tf;6r, ^ l*5f
APProved
4,
ia
11/,t' OR 4: OTJTLET BOX
' OR 4' SQT'ARE BOX
\
&32'
round had
scREttts
5/E lo 1'
rrD-500
curror HOUilililO
srifece
flmrlnling.
&3r
lHh€d
r/\ooD
SCRBJUS
CEILING SURFACE
MOUNTING 5o7sdbr.rir
ffilrm|lr
This documgnt is not intsndod to be used foa lnsldlstjon purposgs. W€ ry lo keep our
prgdud i. ormation up-MsG 8rd accurale. We catf|d cover al specific applicatiorE
or art-ipale dl rcqietnerrts. Al speciticalions a|€ suliect b d|ange witld.t .ldEe.
For f|E|€ hfo.|mtoo, stad OnflER PturE: (2O3) {a4-7161 FA* (2(l:}) '18'l-711E
X OTI FI E R. 12 clintqwille Road, Nonhtu, Connectior 06472
DN5075 ' 02/2t00 - Paqe I of 2
llD.5OO SEnlEt rESTrllO nEilloDs
. llodels HD-601/HO42i and HD602/HD'622
source. A portable hair dryer is recommended.
of the detector.
. Models HD-603/HD623 and HD'50{rHD'624 cannot be lested'
sidered so reliable that testing is nol necessary'
can be tesled by the application of quick heat from any @nvenient-i*""u"t,
Oo nof"pply heat that exceeds lhe fixed-temperature rating
However, the fusible alloy element is generally con-
HDS04 & HD624HD502 & HD622HD601 & HD621
ebckdotonwttib. @
lvlodel HD€M (ort circdt)
Model HD424 (dual
Gray spot.
irodel HD{03 (one
Irl
ci rcdl)Grayrirs. O
ilbdel HD{O2 (ot|e circuil)
Model HD€22 (dtjal
No marking.
Model HD-601
Mod6l HD€21
()
(or|e circuil)
(d\al oirc\nt
AppLcation: mu$Ja[Y viobnt
bmperat e ftJc-tualiorts am
ceif,m EmoerahJes
u,ceidim roo'r (38"c) b'r
Applioatiofl: urEL€lY viobnt
bmoerat e iucfualions and
ceilirE temPerattes mt
e)Geedino 100'F (38'C).
Applcaliolr rp|rnal
temperahre iuctstions ard
ceilirg temperaues
e:ceedirg r00'F (38'C) b'rt
mt 15O"F (66"C).
Applicatiorl: rE mal
temDeratre itEulatiorts and
ceilirE temperattes rbl
e)ceedirq 100'F (38'C).
Maximtn spaclr€ albrvarEe*
LJL&FM:15frx15fi.
(4.572 x 4.572 nElers)-
ililaximun spacirE alol rance'
UL: 25fi-x25ft.
rl.62 x 7.62 nEErs).iu: 20 n. xzofr
iiatirnfi spaolg a$owance'
LI-: 50t xsofr.
(1 524 x 'l 524 rneiers).
FM: 30 ft. x30fi.
144 x 9.'1114 molers
Maximun spacirg alo\r/arEe'
UL: 50t xso ft.
(15.24 x 15.24 meE s).
FM:30ft.x30fr
.144 x 9.144 m6bts
SCnEW rEnilil L3
Standard
Slngle-Glrcult
Detector
Wire frorn
ehm Panel
or prE\rbus
(btecbr.
\\r\
/-r'/-/-
Wire connected to
next detsctor or
enddJine r€sistor.
NOTE: Allslrob.drwltn&,s cplme'iithone (1)
,n *,r*T:o qntact.
Pege262 - DN-5075 ' 02/2500
Dual-Gircuit
Detector
Used fo send two
independent signals.
Wtre connect€d to
nelt debcbr or
end-oHine resistor.
Wire connected to
next dobctor or
ondof-llne rgslstor.
NOTE: Alldl'nl+ircuit
fltcdf,lsc!,rpwrthttw(2)
rannelly ryn dry confacfs.
ltolEs
Applicatia: Heat detectors shorld be
used tor property pmtection. Reliance
should not be placed solely on heat de-
tectors for life safety. When life safety is
involved. smoke d€tectors IIUST also be
used, Detectors must NOT be painted'
Battery backup: Heat detectors should
be electtonically supervised with battery
backup at the Panel.
Reteof-rbe mech.nism: The rateof-
rise mechanism may be subject to re'
duced sensitMty over time. Annual test-
ing of the rate-of-ris€ op€ration is recom-
mended.
ELECTR|OTL NAilXO3
. G125 Volts AC, 3.0 AmP.
. &28 Volts DC, 1.0 ArnP.
. 125 Volts DC, 0.3 AmP.
. 250 Volts DC, 0.1 AmP.
VM]e frorn
alarm pand
or prevbus
detecbr. 1
t
\
a
+
o
N(}TIFIECF,R.E SYSTE'YIS
November 7, 2000 DN6753 . t-355
DHT OOACDC
Four-Wire, Low-Profile,
lon & Photo Duct Smoke Deleclors
Section: Conventional lnitiating Oevices
GIIIERAI.
The System Sensor DH 1OOACDC four-wire duct smoke de
tectors are available as either an ionization or a photoelec-
lronic model. This new design allows for simplined clean-
ing and maintenanoe, or a change in application without
removing the duct housing. The DH1o0ACDC samples air
cunents passing through a duct and gives dependaue per-
formance for management of fans, blowers, and air-condL
tioning systems, preventing lhe spread of toxic smoke and
fire gases thrcugh the prolected area-
AWiTa,r
Duct smoke defcctors have sp€r,ific limitations.
DUCT DETECTORS ARE:
. NOf a subsftute lor an oqet'-€,ne,a smoke detector.
. flOI e subsdtute ,or eady weming detecalon.
. lrOT a subslrtute for a bulldlng's regular ffue detec'
Aon sys|en.
REFER TO NFPA 72 and 9OA lor addtdonat duct
smoke detector sppl ication infomation.
FEATUNE3
. Outside mounting tiabs.
. Telescoping sampling lt-l,oe (patent pending).
. Built-in reset bufton.. fnt6rconn€ctability (patent pending) for multi-fan shut-
down (up to ten air handl€rs).
. Cover tamper trouble signal (patent pending).
. Easy to dean.. 24 VAC/DC or 12Ql24O VAC operation.
. High-Low voltage banier.. lon or photo models available.. Remote test station option.. Remote sounder option.
. Air velocity rating from 5O0 to 4,000 fumin (152.4 to
1219.2 m/min).. Equipped with two DPDT Form€ relay conlacts.
. Easy and quick rnounting to round or rectangular ducts
fiom 1 to 12 feet (2.54 to 30.48 cm) wide.
. Textured cover for convenient visual inspeclion.
. UL 2684 listed.
gPtGtFtGlTtol{3
Dlmenalon6: 14.375'(36.513 cm) wide x 5.500" (13.970
cm) high x 2.750' (6.985 cm) deep.
Shlpplng wslght: 3.75 lbs. (1.7 kg).
Operating temperatute nnge: 32' to 131 'F (0" to 55"C).
Operating humldity range: 10% to 93% rdalive humidity.
@g@l*it'.'....\r/ ADDrdedLlsrEll MARYLAND
State Fire Marshal
MEA RR8281
36S98-E (DHINACDCP)
178-99-E (DH100AoDC|)
Air duct velocity range: 500 to 4,000 ft/min (152-4 to
1219.2 r/min).
ARCII ITECTUNAVEilGI 1I EEH ilO
SPEClFIClTlOtS
The air{uct smoke detector shall be a Syslem Sensor
rnodel DHIOOACDC Series Duct Smoke Detector. The de-
tector housing shall be UL listed per UL 268A spedfically
for use in air+randling systems. The det€ctor shall oper-
ate at air velocities of 500 to 4,000 feet per minute (152.4
to 12192 meters per minute). The unit shall be capable of
controlling up to ten (10) air-handlirE systoms wh€n inter-
connected wilh other detectors. The deteclor shall be ca-
pable of providing a trouble signal in the event that the
fiont cover is removed. lt shall be capable of local testing
via magnetic switch or remote tesling using the RTS451KEY
Remote Test Station. The unil shall be reset by locel reset
button or r€mote lest station. Th€ duct smoke deteclor
housing shall incorporate an airtight snnk€ chamber in com-
pliance with UL 268A, Standard for Smoke Detectors for
Duct Applications. The housing shall be capable of mount-
ing to either rectangular or round ducts without adapter
brackels. An integral fiher system shall be included to re-
duce dust and residue effects on detector and housing,
thereby reducing m3inlenance and servicing. Sampling
tubes shall either be tdescoping or be easily installed by
passing through the duct housing after the housing is
mounted to the duct. The unit shall plovide a spacial sepa-
Thi! documenl is not intended to be us€d tor installation purposes \rye try to keep our
pmdrct Infomadon utrtdato and accuratG. Ws cannot cov€r dl Spgctfic applicatioos or
articapate all rcquirements. Atl specificatjons are subject b ctEnge lvithout notice.
For more infonnatjon, conlad OIFER. Phooe: (203) 444-7161 FAX: (m3) '184-7118
X (D?l Fl ER' 12 cfintorwille Road, Northtord, cooncclicut 0fl72 tffirrft#llr
0N6753.11/07/OO - Page 1of4
ration of no less than 114' andlor a physical banier be-
tween the high- and low-voltage lerminals. The enclosure
shall meet all applicable NEC and NFPA standard regard-
ing electrical junction boxes. Terminal connections shall
be of the strip-and-clamp melhod suitable for 12 to 18 AWG
(3.25 to 0.75 mm2) wiring.
ELEGTRIOIL NTTI}IOS
for DH{OOAGDG (lncludlng detec{or)
ACCESSORY CURREITIT LOADS at 24 VDC
DA/tCE srArvoav ALAR',
APA45.I l2-5 nrA rftaimm 30 r|A rtaximrm
PArl00 0mA 15 nrA rmximun
RA400Z 0mA 10 rnA maximrm
RTS451 12 mA'7.5 mA rnaximrrn
RTS451KEY 12 mA'7.5 rnA rnaximrm
FtoDUCr LlilE liltonmAflotr
DH'Io0ACDCI Four-wire ionization duct smoke detector.
DHlooACDCP Four-wire photoeleclronic duct detector.
A5052-00 Replacement ionization deteclor board.
A5069-00 Replacernent photoelectronicdetecbrboard.
A5064-{10 Replacementfour-wirepo\.rerboard.
ACCESSORTES,.
ST.l.5 Meial sampling tube, duct widths 1'to 2'.
sT-3 Metal sampling tube, duct widths 2' to 4'.
ST-5 Metal sampling lube, ducl widths 4'lo 8'.
ST-10 Metal sampling tube, ducl widths 8'to 12'.
RTS/t{tl Remote tesl station.
RTS45i KEY Remote test station with key loc*.
RA400Z Remote annunciator alarm LED.
APA451 Remote annunciator with piezo alarm.
MOD$oR Sensiwity tosl module.
il02-04{10 Testmagnet.
PA00B Mini-Alert sounder.
PS24LOB Mini-Alert add{n strobe.
.NOIE: When a unit is 0E,wercd at the 120 vAc or 22U
2/n vAC input, any combination of accessories may be
usgd sucrr thal the given ac@ssory /oads ate:
. 60 mA or ,ess ,n the STANDBY stat6.
. 110 mA ot less in the ALARM state.
Contact Ratlngs
Alarm lnltiation contacts (SPST): 2.0 A @ 30 VAC/DC (0.6 power faclor).
Alam auxiliary eontacts (DPOT): 10 A @ 30 VDC; 10 A @ 250 VDC.
|{OTE: Nam auxiliary contacts must swnc't 1oo mA minimum al 5 VDC.
Alarm auxiliary contacts shall nd be cannecled to initiating circuits of
control panels. U* the alatm initiation cootact for this putpose-
Trouble contacts (SPDT): 2.0 A @ 30 VDC (resistive).
Power supply vottagc:20 - 29 VDC 24 VAC, 50'80 Hz 1an vAC, 50/50 Hz 22On1OVrc,fiEOH2
lnput cepacitance:270 IF tna$firm 270 pF rna$mrm wA hl/A
Re3et vollage:3.0 VOC nirimtrn 2.0 VAC mirimun 10 VAC mirir rn 20 VAC minimum
Ra6et tltna {wirh RTS/('i):0-03 b 0.3O seco.ds 0.03 lo 0.30 seco.ds o.03 b 0.3o secords 0-03 lo 0-3O seconds
Resel tlme (by powerdown):0.6 s€cords ma)c 0.6 s€@rds r|ax 0.6 secords msx 0-6 s€conds max
Powcr-up fime:34 secords r€x.34 somnds rna)(34 seconds rnax 34 secords rnax
Alarm rerponse time:2 tc 17 s€cords 2 to '17 sscords 2 to 17 secords 2 to 17 secords
SenslfYlty tBst See der'.iec8,r lahel.See detecbr label.See defector rabe/.See delL.ctor rabel.
CURRENT L fATlOl{S (urlng no accassorbs}:
Maxlmum standby cursnt:15 mA 35 mA RIVIS 25 rftA Ri/LS'15 mA RMS*
ftlaximum alarm curr3nt 70 mA 125 mA RMS 35 mA RMS'25 mA RMS'
Paga 2 ol4 - DN$753.11O7/@
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ON$753 . 'l 1/07/lC0 - Psge 3 of 4
oTHER WtruilO DlAOnAtS
Wiring Diagram: DHIOOAGDC to APA4lil
NOTE: Wring diagnm shotryn is for OH10OACDC tour.wire duct smoke
detectot system equipped WITHOUT a @nttol panel'
Wlrlng Dlagram:
DHIOOACDC to RTS45iKEY
and I nterconnect Feature
NOnE: Wiing diagam shown is fot DH|^1ACDC
four-wire d.nt smoke detector system equtpped
WTHOUT a control paoal.
ARl.sTDHIOO CDC
Alann Signel
Aux. Power +
Aux. Power -
RTS4''{KEY
Alarm (RedLED)
Parcr(GrerrlLED)
DH{OOACDC
Alarm Signal
Aux. Power +
Arx. Pou,Er -
Resat
Test
lntgrcon nect +
InEr@nnect-
DH{OOACDG
Page4ol4 - DN{753. I'l/07/00
November8,2000 DN'0O43'1410
NBG-I2 Series
Non-Coded Monusl
Fire Alorrn Pull Stqtions
Section: Conventionsl Initating Devbes
NOTIFIETfF,Rf SYSTENIS
GENETAL
The NOTIFIER NBG-12 Series is a cost-effective, feature
packed series of non-coded manual fire alarm pull sl'alions'
it was designad to me€t multiple applications with the in-
staller and end-user in mind. The NBG-12 Series featur€s
a variety of models induding single' and dual-action ver-
sions.
The NBG12 Series provides conventional fire alarm con-
trol panels such as lhe SGL-2000' SFP Sedes' XP Trdn'
sponders, S!6tem 5000, and SYstem 50O with an alarm
initiating input signal. lts inno\rative design, durable coft
struction, and multiple mounting options makethe NBC'-12
Series simple to inslall, maintain, and operate.
FEATURII
. Aestheticelly pleasing, highly visible design and color'
. Attractive contoured shape and lighl textured ffnish
. Meets ADA 5 lb. maximum pull-force.
. Meets UL 38, Standard for Manually Actuated Signaling
Boxes.. Easily operated (single- or duat-action), )et designed to
orevent false alarms when bumped, shaken, or janed'
. PUSH IN/PULL OOWN handle latches in the do/vn posF
tion to cleady indicate the station has been operated'
. The uord "ACTIVATED' appearc on lop of the handle in
bright yollorv when the station has been op€rated, fur-
ther indicating operation of the ststion-
. Operation handle features white anows showing basic
oDeration direction for non-English-speaking persons'
. Braille text included on finger-hold area of operalion
handle and across top of handle.
. Multiple hex- and key-lock [rcdels available.
. U.S. patent pending hex-lock needs only a quarter'tum
to locldunlock.
. Station can be opened for inspection and maintenance
without initiating an alarm.
. Product lD label vianvable by simdy opening the covefi
label is made of a durable longlife material.
. The u/o.&'NORMAL" and "ACTIVATEY arc rnold€d into
the plastic adjacent to the alalm $ ,itdl oocated inskle)'
. Four-position terminal strip molded into backplale.
. Terminal strip indudes Phillips combination{ead caF
tive 8/32 ssews for easy connection to Initiating Device
Circuil (lDC).
. Terminal screws backed{ut at factory and shipped ready
to accepl field widng (up to 12 AWG/3.25 mmr).
. Terminal numbers ar€ molded into th€ backplate, elimi-
nating the need for labels'
PATEflTED, U.S.
OTHER U.S.
PATENT Ho. D428,357
,@*
LISIEII
s692
@l,s*l*:*,,
ADPtoYed
(except NBG-'2LO,
NB612LOB, NBG-12L4)
- Can be surface-mounted (with SB-10) or semi-flush
mounted. Semi-flush mount to a standard singlegang,
doublegang, or 4' ('10.16 cm) square elecirical box'
. Backplale is large enough to overlap a singlegang
baclGox cutout bY 1n' (2'7 mm).
. Optional trim ring (BG'TR).
. Spanish version (FUEGO) available (NBG-12LSP)'
. Designed to replace the popular NBG-10 Sories'
. Models packaged in anractive, clear plaslic (PVC),
clamsheiFstyle; Point-of-Purchase packages' Packag-
ing includesa cutaway dusUpainl cover in shepe of pull
station.
ftti" Oo-nrunt i" not intended to be used br inslaltation putpo€es \ /e try to keep ou'
fiucrinfonnatm up-tedalo and acrurale. We cannot coYrt all sp6clf" TIYII:I^Iil;#;li -qui"i *nt". A[ specficario.E a.e sutied !o charqe without nolice'
F".ffir.ror.tii*. -,traa lonien- Prrone: (2o3) il8+7161 FAx: (203) 4al711a
toi f Ofl f l ER' rz cnntttille Road, t'lorthford, cdnodi:ut (b472
Switch contacts are nomally open.
DN{A(I . l1108/00 - Pagel of2
coltstRuCiloll
. Cover, backplate and operalion handle are all molded
of durable polycarbonate material.
. Cover features white lettering and trim.
. Red color matches Syslem Senso/s popular SpectrAlerttn
hom/strobe series.
OPENAilOlI
The NBG-12 manual pull stalions provide a teritured fin-
ger-hold area lhat includes Braille lexL In addition to PUSH
lN and PULL DOWN text, lhere are arrows indicating how
to operate the station, provided for nonEnglish-speaking
peooe.
Pushing in and then putling down on the handle ac{ivales
the normally-open alarm switch. Once latched in the down
position, lhe vtord "ACTIVATED" appears at the @ in bright
yellow, with a portion of the handle prottuding at the bot-
lom as a visible f,ag. Resetling the station is simple: in-
sert the key or hex (model dependent), twisl one quarter-
turn, then open the slation's fiont cover, c€using the spring-
loaded operation handle 1o retum to its original position.
The alarm savitch can then be reset to its nonml (non-alarm)
position manually (by hand) or by dosing the station's fronl
cover, which automatically resets the switcfi.
sP:ctFtGtTtots
Physical Specifications:
NBC'-12 sB-10 r rP-10
Height:5.500 irptes
(13.97 cm)
5.500 irrches
(13.97 cm)
6.000 inchqs
(1524 cm)
width:4.121 irctes
(103673 cm)
4.125 irEtEs(104r/5 cm)
4.690 irrhes
( l1.9126 cm)
Depth:1.390 irrJtes
(3.5306 cm)
1.375 irEhes
{33925 cm)
2.000 inclEs
(5.08 cm)
Electrlcsl 9peclflcallons:
Switch contact ratings: gold-platod; rating 0.25 A @ 30
VAC or VDC. Auxlllary contact clrcuft Cfeminals 3 & 4,
NBG-12LA): rated to 3.0 A @ 30 VAC or VDC.
:llorlrEEng & ancHltEctS'
3PECrHOrflOil3
Manual Fire Alarm Stations shall be non-mde, with a key'
or hex-operated reset lock in order that they may be tested,
and so designod that affer actual Emergoncy Operalion,
they cannot be restored to normal excepl by use of a key
or hex. An operated station shall automatically condition
itself so as to be visually detectod as activabd. Manual
stations shall b€ constructed of red colored LEXAN@ (or
polycerbonate equivalent) with clearly visible operating in-
slruclions providod on lhe @ver. The word FIRE shall
appear on the front ot the stations in while letters, 1.00
inches (25.4 mm) or larger.' Stations shall be suitable for
surFace mounting on matching beckbox SB-10; or semi-
flush mounting on a standard single€ang, double{ang,
or 4'(10.16 cm) square elecrical box, and shall be installed
within the limits defined by the Americans with Disabilities
Act (ADA) or per national/local requilements. Manual Sta-
tions shall be Underwriters Laboratories lisEd.
*NOTE: The wods "FIREIFUEGO' on the NBG-1?LSP shall
appear on the honl of the station in white btte/s' appftximately
3/4" high-
Pa€,e2ol2 - DN464:1. 11m4,/00
PRODUCT LINE ITFORTA'ION
Model Descrlplion
NBG-l2S Single-action pull station with pigtail con-
nections, hex lock
NBG-12 Dual-action pull station with SPST N/O
switch. hex lock, screw terminal connec-
tions.
NBG-l2L Same as NBG-12 with kev lock.
NBG-I2LSP Same as NBG-I2L with English/Spanish
( F I RE/F U E G O) labeting.
NBG-lzLOB Dual-action pull station with k€y lock' out-
door applicatbns listings (NBG-l2LO)' and
backbox. Indudes WBB ureaf|erprmf back-
box and sealing gasket. Model will also
mount to WP.l0 weatherproof backbox in
retroft aPPlications.
NOTE: NBG-IZLO not available sapantely;
NBG-12LO + aqProved backbox = NBG-
12LOB. Outdoot applications lffiings apply
to N BG' I 2 LOB ombin ation.
NBG-1zLA Dual-actbn pull station with key lock and
annunciator contacts.
NOTE: For addressable NBG-12 models, see ctata sheet
DN-6726.
5.500'
(139.70)
E
g
January 21, 1999 DN-3477 . K-100
NOTIFIERF'RE SYSTEfuIS
MR Series
Control Reloys
Section: Miscellaneous
OE}IERAI
The Air Products & Controls MR Series Multivoltage Con-
trol Relays offer SPDT or DPDT 1o-amp contacts which
may be operaled by one of four input control voltages. A
single relay may be energized from a voltag€ source of 24
VDC, 24 VAC, 115 VAC, or 230 VAC by wiring to appropri-
ate input terminals.
Each relay contains a red light-emitting diode (LED) which
indicates the relay coil is energized. Relays may be
"snapped apart' ftom a standard fourmodule assembly
and used independently.
These devices are ideal for applications where local con-
lacts are required for system status, remote contacts for
control of electrical loads and general purpose switching.
They are suitable for use with HVAC, Temperature Con-
1rol, Fire Alarm, Security, Energy Management, and Lighl-
ing Control Syst6ms.
The Air Products & Conhols MR-199 Heavy Duty Power
Relays are designed for control applications where 30 amp
DPDT conlacts are reouired. The 24 VDC and 120 VAC
relays are mounted in a rugged steel enclosure.
TR SERIES FEATURIS
lHcludlng lf,R-t99 Scrlerf
. Each relay position may be energized from one of four
input control voltages.
. Each relay position contains a red LED which illuminates
when the coil is energized. This provides a limesaving
convenience when checking an installed system, no me'
tering is required.
. Single, dual, or triple relay modules may be "snapped
apart" from a standard four-position master.
. SPDT or DPDT relays available.
. Available in duslproof melal enclosures (with gray plastic
@ver on MR-101/C and MR-201/C) with LED viewing
oort.
. Red enclosure available on some models.
. Track mounting hardware to facilitale installetion in stan-
dard cebinets.
. UL recognized relays rated at 10,000,000 mechanical
ooerations.
s3403
(MR-101/C or CR,
MR-1M/C or CR,
MR-2O1/C or CR,
MR-204/C or CR)
cstl8/
cs733
{MR-104 and
MR-204
Seri€s ONLY)
Califomia
State Fire
Marshal
7300-1004:l0l
(MR-101/C, MR-104/c,
MR-zot/C, MR-204/C)
TheHR-104C
Thb doqrment i5 not intended to be used for inslallalion purposes. We tty to keep our
p.oducl information utrio-date and actlrale We can.lot cove. all specrfc applicauons o.
anticipate all |equirements- All specific€tio.ts ate slbiect lo change withoul nolce.
For rnore infonnation, contad NOnF|ER- Phone: (203)484-7161 FrO(: (203) 48a-7118
@ X Of f f f = n' 12 clintonvilte Road, Norrfirord. con^ecticut 06472
MEA
73-92-E I Zg-92-e, Vot. ttt
(MR-101/C or CR, | (MR-201/C or CR,
MR-104/C or CR) | MR-204/C or CR)
,@
The MR-l01/C
DN-3477 ' 0'1,21199 - Page I of 2
PNODUCT SPECI;IC,ITIOilS FOR
TU LT IVO LTAGE GOIIIROI REtAYg
Power requirements:
MR-tOl Position is rated at 0.015 amps (15 milliamps)
@ 24 VAC, 24 VDC, 115 VAC, 230 VAC.
MR-201 Position is rated at 0.035 amps (35 milliamps)
@24VAC,24 VDC, 115 VAC, 230 VAC.
Refays: Afl refays areuL recognized components' IVOIE'
Only models with enclosures (C" suffix) are UL lls6d as-
sembli€s (excludes MR-1 99X-1 3C and MR'1 99X-1 4C).
Enclosure: 18 gauge CRS, plated with 1/2' conduit knock-
outs (lop and bottom). The MR-101/C and MR'2O1|C in-
clude 8 metal backbox with durable plastic cover.
Contact rating: 10.0 A @ 115 VAC resistave.
Amblent temperatute: -50'C to +85"C G50'F to +185'F).
Dimenslons:
MR-rOllf and MR-20tlT are 3.0" (82 mm) H x 2-125"
(54 mm) W x 1.5' (38.1 mm)D.
MR-l MlT and MR-201/T are 3.O' (82 mm) H x 8.5" (215
mm) W x 1.5. (38.1 mm) D.
NR-101/C and MR-201/C are 6.125' (130.2 mm) H x
3.25" (82 mm) W x 2.5' (63.5 mm) D.
MR-lMlC and ttR-2(WCare 6.125" (130'2 mm) H x 9-5"
(241.3 mm) W x 2.5" (63.5 mm) D.
PRODUCI SPEGI Flclillolls
FOR IIEAW.DUTT POWER RELAYS
Contact arEngement: DPDT standard.
Contact t dng: 30 Amps @ 24O VAC; 2O Nnps @ 277
VAC; 2 HP @ 250 VAC.
Coff power: MR-199X-13 is rated at 24 VDC @ 85 mA.
MR-199X-11is rat6d at 120 vAC @ 85 mA.
Temperalure range: -30'C to +50'C (-22"F lo +122"F\.
For HR-r99x-13.' -55'C to +80'C (67"F to +'t76"F). For
MR-199x-14: -55"C to +45"C G67"F to +113'F).
Dimensions: MR-l 99X-1 3 and M R-I 99X-1 1 is 3.1 3" (7 9. 4
mm) high x 2.5" (63.5 mm) wide x 2.31'(58.7 mm) deep.
tlR-199X-13C and MR-199X-11Cis 5.31" {134.9 mm) high
x 3.38' (85.9 mm) wide x 3.13' (96.8 mm) deep.
HN SERIES REtAYg
LtltE tllFonnafloll
Description
Single SPDT Relay with LED and track-
mounting hardware (UL recognized).
Single SPDT Relay with LED, mounted in
metal backbox wiih plastic cover (UL list€d).
Singte SPDT Relay with LED, mounted in
metial backbox with red plastic cover (UL
listed).
Four-Position SPDT Relay with LEDS and
trackfiounting hardware (UL recognized).
Four-Position SPDT Relay with LEDS,
mounted in metal enclosure (UL listed).
Four-Position SPDT Relay with LEDs,
mounted in a metal backbox with a red
cover (UL listed).
Single DPDT Relay with LED and track-
mounting hardware (UL recognized).
Single DPDT Relay with LED, mounted in
metal backbox with plaslic cover (UL listed).
Single DPDT Relay with LED, mounted in
metal backbox with ted plastic cover (UL
listed).
Four-Position DPDT Relay with LEDs and
track-mounling hardware (UL recognized).
Four-Position DPDT Retay with LEDs,
mounted in a metal enclosure (UL listed)'
Four-Posilion DPDT Relay with LEDs'
mounted in metal backbox with a ted cov€r
(UL listed).
Heew{uty DPDT Relay only, 24 VDC coil
input (UL recognized ).
H6aw{uty OPDT Relay, 24 VDC coil in'
put, mounted in enclosure (UL recognized).
Heavy'duty DPDT Rolay only, 120 VAC coil
inpul (UL recognized ).
Heavyduly DPDT Relay, 120 VAG coil in-
put, mounted in enclosure (UL recognized).
PNODUCI
*lodel
MR-101tr
MR-101/C
MR-101/CR
MR.104/T
MR-r04rc
MR-l04lcR
MR.2OI'T
MR-201/C
ilR-20{/CR
MR-204/T
MR-204/C
MR-204/CR
MR-199X-13
MR.r99X-13C
ilR-199X-r4
MR-199X-14C
iIODEL
NUMBER
COIL VOLTAGE CONTACTS MOUNTING LrsTtNgs RED
CO'ER
(Ada'n'
ruftu.)21
vDc
21
vAc
1m
vAc
un
vAc
sPur
(r0Al
DPTIT
(10 1
T'PDT
(3041 Trad(Spacar Endo3ure
ut
csFr|,
& IIEA
ULC
MR-101/T X X X x 1 X
MR-'r 0 t /c x X x X 1 X X x
MR-104rt X X X X 4 x X
MR-1(X/C X X X X 4 X X X X
MR-201/T X X X X 1 X
MR-201/C X x X X 1 X X X
MR.2MlT x X x x 4 X x
MR.2MlC X X X x 4 X X X X
MR-199X-13 X 1 X
MR-199X-13C X 'l X
MR-199X-14 X 1
MR-'t99X-r4C X I X
Page 2 ol2 - DN-342.01/21,/99
July 7, 2000 DN-1109 . E-200
NOTTFIEC
FTfe.E SYSTEIIAS PS Series Bstteries
Section: Powar SuPPlbs
OEIIERAI
Power-Sonic PS Series batteries provide secondary power ior the
whole series of NOTIFIER fire alarm control panels.
FEATURES
. Provide secondary power for control panels.
. G€ll€d electrolyte.
. Sealed and mainlenance-free.
. Overcharge protected,
. Extended shelf life.
. Easy handling with leakproof construction.
. Ruggedly conslructed, high-impacl case (ABS, polystyrene' or
polypropylene depending on model),
. Long service life.
. Compact design.
CAPACITY
Battery capacity, expr€ssed in ampere-hours (AH), is the product of
a discharge current and the lengrth of time that the current is dis-
charged. Batteries are rated according to lheir performance during
20 hours of discharg€ al a constant cunent.
The rated capacity of a battery is delermined by subiecling it ro a
constant discfrarge current lor 20 hours at 68'F (20'C). After 20
hours the voltage across the terminals is me€sured. The discftarge
cunent which c€tuses a reading ol 1.72 volts per cell (5.'16 V on a 6
V battery and 10.32 V on a 12 V battery) is called the rated current.
This cufent multiplied by 20 is the rated capacity of the battery.
APPTIGATIONS
Use the PS Series batteri* to provide backup pwrer for contol
panels. Selsct battedes based on cunsnt requi.ements for your
system and the capacity of its charger. These batteries can be used
over a ternperature fttnge of -76"F to +14O"F (€O"C ro +60"C)-
cof,srnuctlox
The seal€d construction of tho Powsr-Sonic battery allows trouble-
ftee, safe operaiion in any position. There is no need to add elec-
trolyte, as gases generated during overcharge are recombined in a
unique "Orygen C}cle." Ths batt€ry is sealed, leakprool and main-
tenance-free. The case is of high-impact materials with high resis-
tance to chemicals and flammability.
ril3tr1Ltflox
All panels have space resewed for batteries. See the appropriate
panel installadon manual for battory size restriclions. Typical inter-
connection diagrams are sho\fln in the litereture accompanying each
control Danel.
TISTEII
MH14328 (S)
tod.r PS-!96 € Volt 9.54
Posler-Son'c CorPoralion
The P5695 Battery
x
This docurn€nt is not inlondod to b€ usgd fotr installstioo purpo69s. w6 try to keep our
prodicl info.mation up-lo4elg and acqirate. We cannot cover all specific applic€lions or
antlclpat€ all tEquiremeob. Atl speclficaiions ate subiect to ciang€ whthout notice- For
rmre intormaton, contact ilOTlFtER. Phone; (z)3) 4a4-7161 FAX: (203) il84-7118
(il f Of t f l E R' on" rre+ite Plaoe, Ndlhtord. conn€diqJt 06472
Dt+'l 109 . 07t07/OO - Pege'1 or3
T
(E
eI
SEAITD RECIIARGEABLE SATTERY
MODEL PS.127O
12 VOIT 7.0 AMP. HOUR
5.94 t O.O{ inches
I (15'l i 1 mm)
I
B&55: Optional Baltery Backbox I
See CHG-120 data sheet for details. Z
E]IOIIIEEn|]IO SPECIFIGrlloil3
The fire control panel shall be equippod with s€condary pow€r provid€d by gelled-€leclrclyte betteri€s. The battari€s
shall be mainlensnc+frEe and shall be capable of powering the syEtem in a manner and tor a length of time determined
by the govemlng regulalions and the authority having jurisdic-tion.
=Trlrllllz
ll
l_t
HEIGHT 1 BELOW
3.70 f 0.o8 ind|es
(94 1 2 mm)
HEIGHT 2 BELOW
3.86 i 0.08 inches
(96 l 2 mm)
S/DE
vtEw
BB-17: Optonal Battery Backbox L
14-1 12' W x 8-1 14' H x 4-314' D
(mm: 368.3 W x 209.55 H x'120.65 D)' For remote mounling of two 1z-volt
PS-l2180 batteries.
c!!:::::!EiE!!!:!!:!3!5t!E!!E!!!83!i:! f---l
2,56 r 0.0+ incfps
(65 ! 1 rm)
IIODEL
omlnal
Voltoge
v
Nomlnd
Capaclry
@
20 h?. raE
AH.
DlBcharge
Cun€nt
@
An hr. rab
mi{
DlrENSlol{S
wtdrh Oeplh Hchht
Hebm overbmlnd Welght
m.mm.m.mm.rn.m||L in.mm.lb..kg.
PS{95 b 9.5 475 426 108 2.75 70 5.54 141 5.54 141 4.9 22
PS-1250 12 5.0 250 3.54 90 2.76 70 4-O2 102 4.2'l 107 4.1 lq
PS.t270 't2 7.O 325 5.94 151 2.56 65 3-70 94 3.86 98 2.6
PS-l2120 12 12 600 5.94 151 3.86 98 310 94 3.86 98 8.8 4.O
PS42t80 12 18 875 7.13 181 2.99 76 6.57 167 6.57 167 't2.8 5.8
PS.,t2250 12 25 1300 649 175 6.54 166 492 125 4.92 125 18.7 8.5
PS-12550 12 55 3000 1025 260 6.60 1@ 820 208 9.45 240 39.7 '| 8.O
PS-121txt0 't2 r00 50(x)12-00 305 6.60 168 820 208 9.45 240 65.7 294
110&1.!t
o-a
t o.o
0t
s c.
5
b ra
d 4.s
/1.0
Chancteristic Dkcharye Curues#==
\,9.o-
.175(
I
I J.9!
-r-
'l 23 5 l0 a)30 60 2 3 5 10 20 30
F- minies -------i-- tnrrG
---lDb.fiarge Tme @ 2(rC (68"8
crc2Grrcscc
Tgnporstuc (lregr.as C.)
13
12'J.6
100ff
2A*,
E*
€ 80*
t
6 loes
0r
-2t
rrFgc.ml
ffiect of Temperature on CaPacltY
0.5 c
o.1 c
0.25 C0tc
1C)./=,-':Tr
Page 2 of3 - Dt+i109. O7O7/00
-ttr
P3.I2IOOO RECHARGEABTE BA?TERY:
APPLTGITIO]IS AXD CHARCI]IIG
CYCLE APPLICATIONS: Limit inilialcunent to 20A. Charge until battery voltage (undercharge) reaches 14.40to 14.70
volts at 68"F (20"C). Hold at 14.40 10 14.70 volts until current drops to approximately 1000 mA. Battery is fully charged
under these conditions, and charger should either be disconnected or switched to "floaf votage.
'FLOAT" OR "STAND-Br SERVTCE: Hold battery across constant voltage source or 13.50 to 13.80 volts continu-
ously. When h€ld at this voltage, the battery will se€k i1s own cunent level and maintain itself in a fully charged position.
NOIE: Due to the self4ischarge characteistics of this type of battery, it is imperative that the battery be charged afler
six to nine months of storage, othetwise permanerf ,oss of capacity might resuft from sulfation-
100%
90%
€fl 80%
=c 70%
o
d 60%g
()
B 5096o
&%
0,6
g 12.0v
6
9 lov
dcE io.ov
P
sov
1.1.0 V
13.0 V
8.0v
o246810 12',!1 16 1820
Standrg Period (Months)
ttttttllt
Ambbnt Temporatu re 20"C (68"F)
\)1loA -'OA
t 504
[5lg* v luia
[T-[2FA
1.2 21 6 12 2,1 30tlE1 2 1 6 E 10 20 1ll
PS-I210(n
. Shelf-Life
i ana Storage
PS-1210(n
Discharge
Characteristics
N
\
Ctla giq ls NOT
n€cGsary l,nl6ss
1tF96 of cNFdty
is Fquirsd.\
\'
5.c
(41"F)L
\
\ ctarrgtng betu€
usc b lFcassary
lo fdp t€co\rar
y tull c?€dty.\
I
III
I
J
\.\
\rl
1l
L
/
Chirg8 m.y
fal b lrs'brE
tullc.pdty.
DO NOT
let bdbrios
r€chA[ss@.
40"c
(104'F)
io'c
(86'F)
2Ci'C
(68'F)
Discharge Tirne
DN-110S.07/07rc0 - Page 3 of3
January 12,2001 DN-5939 'J-89
SpectrAlerr@ Series
Horns, Slrobes, ond Hom/Strobes
Section: Audio^y'isual Devices
NOTIFIEC
F'R.E SYSTENIS
OEilENAL
The System Sensor SpectrAlorl@ u/€ll-moJnt series includes
a com-plete tine of elecfonic homs, sfobes' and hom/saobes'
tntenoeO tor primary signalir€ us€, SpeclfAler@ pmduc{s meei
UL 1971, UL 464, and Americans with Dsabililies Ad requirs
ments.
Perforrnance. With its extr6moly efficient refleclor d€-
sign and Xenon flash tube, SpectrAlerl@ ofiers current draw
rduc'tions as high as 40olo over previ:us generation designs'
Wth less curreit consumption, more devices per loop are
possible for a lovvor instralled m6l.
lnstallation. SpectrAlert@ produc:ts are designed for
ease of inslallation, which also lowers the installed cost'
SpectrAlert@ sbobes and hom/stsobes take up no room in
the bactbox, making wiring connectims simder and faster'
Each SpectrAlert@ ivall-mount device include a univefsal
mountirig plate for 4' (10.16 ctn) square and single{ang
backboi mounting. Accessory mounting plates are also
available for small-footprinl or surf;ace-mount applications.
Flexibility. The SpeclrAlertO wall-mount series offers fte
nexibility to meet a broad range of requirements- Homs and
hom/slrobes feature a number of field-selectable/reversible
hom tones, Sbobes and horn/strobes are available in a wide
variety of configurations to addtess visibility requirements--for
non-sieeping Jreas, sleeping areas, and conidors. Off.er--
ings inOuoe zl-volt models at 15, 15fi5, 30,75' and 110
candela: and 12-^rolt deYices at 15 and 15ft5 candela'
Aesthetics. To meel the aesthstic rcquirements of build-
ing owners, SpectrAlert@ incorporates a svish, lor'v-profile
ddsign tnar is ionsistent across the SpedrAlert@ wall-mount
product line.
FEATUNES. Meets UL and ADA signaling requirements.. Low currenl draw allo,vs more dovices p€r loop for a lower
installed cost.. Uni\rersal fibunting date induded.. Accessory mounting Plates a\€ilabl6.. Field-sdectable horn tones:
- Elecfomechanical /3 kHz.
- TemDoral 3 / Non-Temporal 3.
- High/Low dBA output.. Available in 15, 15|/5, 30,75, and 110 candela-
. Synchronizable homs and sfobes with Sync'Circuitm
module.. Aesthetically deasing design
SPECrFrCrrlox3
Yt alk test: SpeclrAlert@ hom and homrsttob€ only work on
lalk tosts" with tim€ duratbns ol 4 secnnds or gr€aler.
Input te]mlnals: '12 to 18 AWG (3.25 mm'to 0-51 mm').
Dimensions, s&?be aN honlst!,bewith universal plab:
5' (127 mm) wids x s-5/8' ('142.875 mm) high x z-!v!Ql
(74.613 mni) deep; wrt , smal footPrrnt plate: 3-318'
@
LISIEII
@
< S4ltl I &55512: P1215(W), P121575(W),
P2415(w). P241575{W), P2475W), F241 10(W).
sssli:'S121sfi), S1215750iV), 5121575K'
s21lgw), s21t5?5(w), 241575AG, 5241575EV'
s241575PM), S2430M, S2475(w)' S241 10(w).
silo1l: i121575K, P241575AG, P241575EV'
P241 5-/5P(W), P2430(W).
< CS5/t9: P2415(W}A, P241575(w)A" P2475(W)4,.
211 10M)A. 5241s(W)A" S24 1575(w)A, s2475(WB'
s2411bN)A. cs549 v3: P121575KA' P2430(w)A'
S121575KA, S2430(W)A CS518: NC12[24A.
P1215N), Pl21'|5W), P2415(W), >
P241 5i5{W. P241 5/5AG, P241 575EV.
P241 575P0ivl, P2l1300/v), P2475(W), 211 10(W'
sl2150 0, si215-t5(W, 52415(W, s241575(W)
s241 5i5AG. S241 5?5EV, S24l 5tsPM'
s2430(W), S2475(W), S24110(w), Hl2/24(W).
L.J < zt35-i209:173 - Pl215M, P121575(w)' Pl215/5K'
/ffi\ p2415N).P2{1575(w) P241575AG'P241575EV'W ?iii''TlHi?i1#iliii,'$lii"ill,l(sr'"*^+/ . sa11s{w), s211575(w) s241575AG' s211t5EV,
gqF#i? ili1l'.,,JflilfsH2fis*
s24110M
M EA' 3li;li,rii,!lli?Hl3liL11fl8ff'#
ffol. Y), i'2i1575P(W) (Vol. VD' P2430(W)
ivol. 9, P2a750lv)' P2a110(w), s1215(w)'
s121575(W)' S2415W) S241s75{U' ---- .' '
5241575AG {Vol. V)' 5241575EVS241575AG {Vol. V), S241575EV
(Vol. V), s24 1 575P(w) (vol. I4),
S24300iv) (vol. v), s2175(w),
s241100AI), Hrz24(W).
173€6-E Vol. ll: P121575K,
s121575K,
@
Apprcved
8t
E
B
I
at
Spec{rAlerl@,
SyneCircdtn,
and lluld'Alonu
sra lrademsrks of
Syslem S€nsor.
This document is not i snded to be used tor installation purposas' We try to keep our
prcduct iniormation utsMat€ and aocu.ate. We cannol cov€r all sp€"fi" 1PPIiT1T:^I!"r.iitt" -"fr iq"ir.itints. Atl specilications are subject to change without nolice'
F;ffi; l"f"-"]J.., cortaa ronRen. Phq|e: (203) 1184-7161 FAx; (2o:|) '{8+7118
(J) r orl rl E tl' tz clinton,i,'" *9' *o*ttfon*,**
DN-5S9 ' 01/120i - Psge 1 of 4
o
mm)(85.725 mm) wide x 5-5/8" (142.875
(74.6'13 mm) deep.
high x 2-15l16"
Dimenslons, holr with univercal mounting plate: 5' (127
mm)wide x 5-5/8" (142.875 mm) high x 1-5/16'(33.338 mm)
deep: without mounting plate: 5" (127 mm) wide x $5/8"
(142.875 mm) high x 1-5/16" (33.338 mm) deep.
Weight horn only: 7.2 oz. (2u g\.
Weight, sfrobe end horn/strohe: 8.8 oz. (250 g).
tilounting: standard boxes 4" x 4'x 1-1/? deep (101.6 x
101.6 x 38.1 mm) or 2" x4" x 1-718" deep (50.8 x 101.6 x
47.625 mm).
Operating lemperature, indoor 32'F to 120"F (0'C to
49"C). Weatherprool models, hom and iotn slrobes.'
32'F to 150"F (0"C to 66'C); outdoor sttobe onty: 4O"F
lo +'158"F (-40"C to +70"C); ULC Canedien moders.' -40'C
to +66"C.
l{admum humldlty: 950/6 as tested per UL 464.
Volt g€s: 12 or 2l VDQ and FWR unfiltered.
Opcratlng voltage range:r 12-volt models: 10,5 - 17 V.
24-volt models: 20 - 30 V. Wth Spc-Circultfl module
MDL*: 12-volt models: 11 - 17 V. 24-volt models: 20 - 30
V. See cuftent drdw tables on page 4.
' Thes6 products should be opemted within their rated voltage
ranga. IJL does, howaveL test functional integrity to -20oA and
+1096 of manufacturcr's stated ranges.
U.S. Patent Numbers: 5,593,569. 5,914,665. 6,049,446.
EI{GI lIEERTIIO SPECIFIGATIoT|3
Genefal - SpectrAlert(D homs, strobes and hom/strobes
shafl be capable of mounting to a standard 4" x 4' x 1'112'
(101.6x101.6x38.1 mm) bsckbox or a single{ang 2"x 4'
x 1-718" (50.8 x 101.6 x 47.625 mm) bad<box using the uni-
versal mounting plate included with each SpeclrAlert@ pmd-
uct- Also, SpectrAlert@ products, when used in conjunction
with the accessory Sync.Ciroitw Module, shall be powered
from a non-coded power supply and shall operate on 12 or
24 volts. 12-volt rated devices shal! have an operating volt-
age range of 10.5 - 17 volts. 24-volt rated devices shall have
an operating voltage range of 20 - 30 \rolts. SpectrAleri@
products shall have an indoor operating lemperahJre range
of 32"F to 120'F (0'C 10 49"C) and operale fiom a regulaled
DC or full-wave rectined, untiltered po\ ,er supply.
Horn - hom shall be a System Sensor SpectrAlert@ model
capable of operating et'|2 and 24 volts. Hom
shall be Listed to UL 464 for fire protective signaling sys-
tems. The hom shall have two tone options, two audibility
options (at 24 volts) and the oplion 10 switch beween a tem-
pdral 3 pattem and a non-temporal continuous Pattem All
hom models shall operate on a coded power supply
Stlobe - Strobe shall be a System Sensor SpectrAlert@
modef
-
Listed to UL 1971 and be approved for
fire orotective service. The strobe shall be wired as a pri-
mary signaling notification appliance and comply with the
Am;rica;s with Disablities Act requirements for visible sig-
naling appliances, flashing at 1 Hz over the strobe's entire
operating voltage range. The slrobe lighl shall consist of a
xenon flash tube and associated lens/reflector system.
l{omrstrobe Combinatlon - Horr/strob€ shall be
a System Sensor SpectrAlertlD model
-
Listed to
UL i971 and UL 464 and shall be approved for fire protec-
tive service. Hom/strobe shall be wircd as a primary slgnaF
ing notification applianc€ and compty with the Americans with
DEabilities Act requirements for visible signaling appliancss'
flashing at 1 Hz over the strobe's entire operating voltage
range. The sfobe light shall consist of a xenon nash tube
and associated lens/reflector system. The horn shall have
two tone options, lwo audibility options (at 24 volts) snd the
option to switch between a temporel 3 patlern and a non-
temporal continuous pattem. Strobes shall be powered in-
depbndently of the sounder with the rcmoval of f8c'tory-in-
statted lumper wires. The hom on hom/stobe models shall
operate on a coded or norFcoded po^rer supply (the sfobe
must be powered conlinuously).
todule - Module shall be a S]6tem Sensor Sytrc'Circuilrr
model
-
Listed to UL 464 and shall be approved
tor fire protective s€rvice. The module shall synchronize
SpoctrAler@ srrobes al 1 Hz and homs at lemporal 3, Also,
the module shall silence the homs on hom/slrobe mod€ls,
while operating the slrobes, over a single pair of wires., The
module shall be capable of mounting to a 4-1 1/16'(119.063
rnm) squarB x 2-118' (53.975 mm) decp backbox and shall
conirol two Style Y (Class B) or one Style Z (Cl€ss A) circrrit.
Module shall be capable of multide zone synchronization by
daisy-chaining muttiple rnodules togetherand resyncfiDnizing
each other along the chain- The module shsll ,VOf operate
on a coded power supply.
3OUIID OUIPl,l OUID:(dral
t L Rg,erterant Room dBA @ Volb DC Ane$oic Room PeaI dBA @ l0 It VDC
't0.5 12 17 20 A 30 10.5 12 17 m 21 fll
Temporal
LOUY
TOilE
Electomechanical NA NA r\|A 75 75 79 NA NA M 94 96 98
3000 Hz lbruDbd NA l\|A r\|A 75 79 79 NA NA l\|A 94 96 98
HIGH
TONE
Eleclonechaical 7F 75 79 82 82 82 94 95 98 100 101 't02
3m ft hbnupbd t5 75 79 82 85 85 94 95 98 100 101 't02
Non-
Temporal
LOUI'
TOI\E
Elecfomechanical TIA tlA M 79 82 85 M NA M 94 96 98
30m Hz hbnwbd T.IA NA NA a2 82 85 NA NA NA 94 96 98
HIGH
TONE
Elechomechanical 79 79 85 85 88 88 94 95 98 100 101 102
30(D Hz Inbnuobd 79 a2 85 88 88 88 VJ 95 98 100 101 102
ilorEg roR PRoDUGT LlllE l]rFoRflATloil )
,VOfESj tt Canedien modet numbers end in "A". 2) l-aun Amedcan model numbers end in'F'. 31. All weatherproof models t tst
use weathirproof backbox modet WBB. 4) All Sp€cirAl€rto products sre designed for wall-mou only,. 5) Installatbn of l€ss than
75 candela strobes may be permissible under the equivalent facilitation dause of the ADAAG (Sec. 2-2). Hou,ever, it is the respon-
siUiLity ot Ue pe.son or-entity Oesigning lhe fire alami system O determine th€ acceptahility of tess than 75 candela svobes' 6) All
15[5 candala stmbss or tromlstroOejare recomrnended for 20 x 20' (6.096 x 6.096 m) rooms or tess. 'For a complete tistirv ot
SpectAtstt currcnt rcquirsments, paase rcfer to the Cunent Draw tabqi on page 4 ol this document, or the lnstructon Manual. Hom
ana hom/stmbe cunant dnws assume the hotn is sel at Temp 3, eleclromechanicd tone, 'nd
hig,h adiwlv.
Psoe?d4 - DN-s€S . O1/12,/Ol
oo
-oI
E
-4oLz
-ut
-IJ
F{,
Doo
/E
;
c
RED l,SlTE ,roltag€cdrdda a+ rnA'@
noft vttr
a€. nu'@
r!|n.FliR
Horn/Strobes
P1215 P1215W 't2 15 121 167
P12.t575 P121575W '12 '15 t 75 152 181
P2415 P2415W 24 15 b.'78
P241575 P241575W 24 15 t75 74 82
P2430 P2430W 24 30 92 100
P2475 P2475W 24 75 148 '167
P24110 P24110W 110 165 209
P121575K (weauetplDoo 12 15 t75 124 167
P241575K (wBatErpDof)21 15175 74 82
P2475K (\ €s0Erploo0 24 75 t4a 167
P24110K (tEa0Elproof)24 110 165 frg
P241575P (m l€ruffir€)P241575F1 '
?4 15t75 74 82
P2,r15754G (eged)24 15 t75 71 82
P2.11575EV (eYadalion)15t75 71 82
CA}|ADlAil Itodebr Hotn,sbob..
P2,115A P2415WA 24 68 78
P2415754 P241575WA 15/75 71 a2
P24t0A P2l$0WA 30 '100
P24754 n4TgttA 24 t48 167
P241'10A P2,rllowA 24 110 165 209
P24i575KA (v,eatErprcot 24 74 a2
P2.|75KA (vDatturymo 24 75 't48 167
P241 l(XA oi,BatrFrproof)24 t10 165 209
SPAI{ISH Labellns, Honrsltobc3 P211575F (FUEGO)21 15/75 71 d2
Strobes
s 1215 s1215W 12 14 114 157
s121575 s121575W 12 15/75 112 171
s2415 s2415W 24 43 60
s2,fi575 s241575W 24 15 t75 49 64
s2,f30 s2,Kl0w 24 30 67 82
s2.175 s2475W 24 75 1n 159
s24110 s24110W 110 140 191
51 21575K (vroatlErproqD 't2 15t75 142 '171
S241 575K (\resf€Aioof)24 15 t75 49 64
S2475K (\r.eetlEDlmD 24 123 159
s2/+110K (upathergoo0 24 110 140 191
S2,11575P (rE lqtb.irE)S2,l1575PW 24 15175 49 54
S241575AG (8gpnr)24 15175 49 64
S241575EV (encuation)24 15175 49 64
OlllADlAll UodeL, Sttobci
s24r 5A s24rsWA 21 43 60
s241575A s2,r'1575W4 24 49 6,r
s2430A s243oWA 30 82
s24754 S2,t75WA 24 7S 123 149
s24110A s2411ovrrA 24 '| 10 140 191
S241575KA (wsau€rpmoo 15 t75 49 u
S2475KA (lr,eafrrprcoD 24 75 r23 149
S24110K4 (,€atEerooo 21 1r0 t40 191
SPAtalSH L.belnr. St ob.r s211575F (FUEGO)24 15 t75 49 6,1
Horns H12n1 H12n4W 12t24 NA 10 t25 10/r8
H12t24K (r,€slhery@o '12 | 21 NA 10t25 10/18
CAtlADlAt{ Iodcls' Hom.HC12n4A llcl2n4W 12t24 NA 10 t25 r0/ t8
HC12E4KA ('.r€afErproof)12t24 NA 10 t25 'to / 18
Sync.Glrcuiln llodulo ['OL VDLW 12121 NA 10/11 12t15
c,
'IADIAII
Sync.Glpultt Xodule i/|DI.A MDLWA 12 t21 NA 10111 121 15
9naf Fooibdnt lo|tnd||g Pltte
for Slngle€ang OIIY s.ip SJTIPW M NA M NA
trdrc..flount Backbu lk|tt BBS BBSW M NA I'lA NA
Unluar! l noundng PI.tc D+'P D-tlPW NA M NA
W.rth.rprcof Backbox WBB M t.|A NA
DN-5939 ' 01/12101 - P8ge3of4
O
RAWCURREilT D
TABLES
ol{tYHOnil
V
at
I
5
AVERABE CURnENT (mA): ETROBE OIrLY
Candelr
't2-voLT [oDEts 2,H,OLT xooELS
r0.5 v 12Y 17V 20v 21V 30v
DC FWR DC FI,VR DC FUn DC FWn DC Fun DC FVI/R
15 '133 159 1't4 157 EI 124 ct 6'l 43 38 60
15175 't 68 182 112 171 150 56 65 49 64 4 62
30 I{A M M lt!,l.lA 78 84 67 82 58
75 M M M 1\t4 M 145 170 123 159 102 141
lt0 M M NA NA l\|A 169 220 140 191 1't5 174
PEAX CunnErT (n^l: STROBE OI{LY
t5 460 460 ,150 460 120 480 2U r35 208 185
15175 490 520 490 520 ,160 480 r50 199 r50 n7 150 198
30 t\lA M l.lA l\lA ti,A M 183 n1 183 219 183 2'16
75 NA NA NA NA rl40 340 460 330 440
fi0 M t,l,A NA NA ..IA M 460 550 450 570 4m 620
lllRUSH CURREIfT (mA): S?nOBE O LY
l5 80 108 124 140 190 r29 116 '152 't98
15t75 76 104 88 126 160 185 o?'t35 116 l6il 211
30 t'lA NA }A |\lA M t'|A 97 129 116 152 147 'ls
75 NA NA NA 190 240 2g 2n m 380
fl0 M M NA NA NA 230 220 290 290 370
STROBE OiltY >
Bclowt
llORll/tlROBE I 5 ccndelc
HORl{/3fnOa- | llf 5 ccndclc
llORll/SfROlE 30 candclc
||Ofil/SfnOBE 75 cnndctn
HORI|/SIIROBE I lO crrndela
ltoRt{
OlrlLY
l2-voLT uoalE|.s 24-VOLT XODELS
10.5 v t2v t7v 20v 21V 30v
oc Ftln DC FWn DC DC FWi DC FY9R oc FWR
AVEn 0E CURRE}{T {mA):Tone
HGH
vol.
TEMP to 11 't0 l0 14 14 19 21 25 18 2S 26
NON 10 '16 10 19 14 25 N 23 34 JI'12
LOW
vot.
rEMP NA f{A NA t'lA M M 1'l 12 13 13 17 '15
NON l\|A ilA NA M M ]'lA 16 11 19 17 21
A\TERAGE CURREXT (mAF 3,OOO H2 hnarlupt d Tonc
HIGH
voL.
TEMP '1',!13 11 11 16 16 24 26 28 37
t'roN 1',1 17 'll 21 't1 28 l9 3 27 39 35 45
LOW
vol.
IEMP M M M M |.lA tA t4 14 15 2l
NON NA t{,A NA NA NA M 18 'i5
H'S
3O cd
24-VOLT iTODELS
20v 21V 30v
oc F|yn DC FwF DC FWn
ArrG. CURnE t lrnA): Ebcrre|||.ch.
HGH
VOL.
TEMP 97 105 92 '100 87 98
NON 95 on 1t6 60 114
LOW
vol.
TEMP 96 80 87
No|.l 90 98 8t '101 OA
Arrc. GURiEll? (nAF 3,0OO tt InLr.
HGH
VOL.
TEi/P 102 108 105 95 105
NON 97 1't 6 94 121 9:l 117
LOW
VOL.
.IEMP 92 84 97 79 91
NON 91 100 83 103 80 97
trrs
15 cd
t2-vo|.T xxrELs 2/a-lrOLT Xq)ELs
105 v 12V t7 Y mv 21V t0Y
DC Flti DC DC FIYR oc FWn DC FWR oc FIIR
A\TERAGE CITRRENT (nr^): Elcctromecharhal Tono
HIGTT
vot-.
TEMP 143 t70 124 16?95 142 69 a2 6A 7a 67 87
NON 113 170 124 t67 95 142 94 1fft
LOW
VOL.
IEI'P NA t,lA NA M M 1,lA 61 55 73 55 76
i.lO.l NA I\A t{A l.lA tA @ 7f 57 79 55
A\TERAGE CUinEXT (r ): t,Ollo lt lnt rruptrd Tona
HIGH
VOL.
TEMP 144 172 125 168 97 111 74 a7 71 83 94
itoN 144 173 125 168 95 1,f6 69 95 70 99 106
LOr{
vo{-.
TEMP NA NA NA }{A NA NA 64 60 5S 80
tlON M NA l.|A l|lA li|A OJ 79 59 81 86
H/rs
75 cd
2tr-\rOLT l{d)ELS
MY 21V 30v
oc FM DC FWR DC FYfi
A\rc. cUnRCLT lm^l€ ELcltor-ch.
H|GHvol.
TEMP t64 'tst 144 167 131 167
NON 163 189 '146 169 1U 169
LOWvol.
]EMP 156 142 136 162 119 156
r.|oil 137 '182 137 162 119 15./
^re.
cuRiEXr (mAF s,lxto lt l .r'
HISH
VOL.
TEi/F 1@ '| 96 172 139 171
N0{1U 152 150 175 137 1n
LO\t'.l
vor-.
TEi.IP '160 184 1.10 164 123 r60
t'lO l 158 188 1S)163 124 162
Hts
15nS cd
t2-v(f,T rd)Eut 24-VOLT mELS
10.5 v 72V t7v 20v uv 30v
DC FWn oc FTIR DG FIIT FIYR DC FYUR DC FTIR
A\TERAGE GURRE T (r A): ELct!|n.chanlcal lonc
HGH
VOL.
]EMP 178 t93 152 161 '113 184 75 ato 14 E2 88
tlON r78 t9:)1s2 tEl 113 'r6a 73 94 72 9E 74 104
LOV\f
VOL.
TEI'P NA M r.tA l'tA l,lA t,|A 62 6l
Not.l t\lA t\|A r{A l\lA t\lA l\A 68 E1 63 61 86
A\TER OE CURREI|T (nA): 3,OOO lt lnter?upted To|tc
HGH
vol.
IEMP 173 195 152 183 166 80 91 77 87 81 95
NON 175 196 152 163 113 '168 9!l 76 103 79 107
LOW
vol.
TEMP t{A ItA trlA htA NA l,lA 70 66 79 65 E1
NON t{A |\A M r.|A 1.A M !1 65 85 66 87
H/lStlo cd
2I-VOLT n(DEI.s
20v AV 30v
DG FWn DC FIVR oc
A\rc. CrrnnEXT (l' F ELcttom.eh.
HGH
voL.
]El,/lP 188 241 '| 65 209 144 200
NON 1E6 238 163 21'l 145
LOW
voL.
TEMP 180 232 r53 2U 't32 r8s
NON 181 232 lsil 2U 132 t€o
Arre, CrrRREft (mAF 3'ooo lt lnt r.
HGfI
VOL,
TEMP 199 216 168 214 152 207
NON 18E 242 167 217 t5{t 2'lo
LOW
voN-.
TEMP 183 234 157 206 136
NON 182 x2 155 205 l.l',
PagE 4 of4 - DN5939.01/1?01
August 19, 1996 DN-4936 . K-275
NOTIFIER"F'RE SYSTE'VIS
STI Steel Web StopPers
Deleclor Covers
Seclion: Miscellaneous
DE3CNIPflOTI
STI bonowed ftom that master builder in nature, the
spider, to create a web of proiection from vandalism
and damage for smoke detectors and heat detectors.
Detectors are too important to risk malfunction from
damage - whether accidental or inlentional. lf such
damage is prevalent, STI Sleel Web Stoppers are a
simple, tough, lor,rr-cost, easy-to-install solution. They
are especially appropriate for areas where physical
abuse to detectors is great, such as @rectional facili-
ties and public buildings in high-crime districts. Their
strong, durable, weblike design and construction of 3/
't 6' steel wire permit the Stoppers to take tough knocks
in stride. lf your smoke or heat detectors are being put
out of servic€ because of damage or tampering, Steel
Web Stoppers may well be your best solution.
FEATURIS
. Two models (one for high-profile and one for lour) fit
virtually all smoke delectors, rvhile a third model fits
heat detectors (both rate-of-dse and fixed).
. L.E.D. indicator on detectors remains visible. Easy
installadon and easy removal for servicing detectors.
. Aesthetica lly appealing.
. Same positioning of installation holes as STI's polycar-
bonate Smoke Detector Damage Stoppers - lhus
they are int€rchangeable.
. Construcdon of 316" steel wire in a weblike, octagonal
shape is €)drcmely diffcult to break.
. Easy installation.
. Optional surface mount models.
.711. ffi Califomia/ll, \ fffi) fi513'5','"t rut | \spqrit /c\ t-, L>gtgtl\ \r, r, =c""8 7300-1416:100\-/ -- ' (goot and goog)
S35M
A damaged smoke debctor or heal detector could
male an entire fire alarm system inopenbh and
negate the eady warning response for which it rc
intended. To maintain critlcalsedibili$, it may be
neoessary to install a physlcal guard to prevent
damage by accident orvandalism. STI's SteelWeb
Stoppers do eractly that.
This document i9 mt ir ended to be used br tnsrabtm purpccs. We ty b l(eep our
prodrct lnfomaion up.todslo 8Dd 8€r!rate. We cannol cov€t all sp€c h apdicadqE or
anticipate all requirements. All specfications a.e subiecl lo change iNithout notice.
Fo. rno|p infotmation, crntad NonFER- Phofle: (203) '18+7161 FAx: (zo3) 4E'{-7118
i$) f Of t f f =n' 12 clinioNitle Road, Norftford, connEcticut 06472
NOTE: These devices should only be used in arcrs
wherc abuse of smofte deteclots or heat debctots is
causlng false fire alarms or hlgh matntenanc. cosls.
DN-4936.08/19196 - Page 1 of 2
LOW PROFILE
DETECTOR OOVEN
Plrt l{o. STI 960l
HIGH FROFILE
DETECTORCOVER
Prrt t{o. Sn eeG
RATE OF RISE
HEAT DETECTOR OOVER
Prrt l{o. Sn 3Oa
Surfncc tcunl llodclr
sTr 9602
DEIECTOR GOYER
oRD:tnro rilFontallot
STI 9601 Loi/-profile smoke deteclor guard.
STI 9609 High-profile smoke detector guard.
STI 9604 Heat detector guard.
PBge 2 of2 - DN4936.08r/19/96
l.- z-r/8'--t p- a-vc ---.1
sTt9605 sil 9610
_T
4-1lt
SURFACE
sTt 9602
sTt 9605
sTr 9610
MOUilI HODEtg
Low+rofile smoke, surlace mount guard.
High-profile smoke, surface mount guard.
Heat d€tector, surface mount guard.
NOTTFIEC
F'R,E SYSTENIS
May 6, 'l9t)6 DN-3459 . K-200
STI Sropper ll ond
Weother Stopper ll
Covers for ilonuql Pull Srorions
Section: Miscellaneous
OEIIERA1 ,^.. .^.
J:i",'Jljj:iJ":"T,fffj:ilT:.x ::'""#l?J;ff$ (lJD 0r9 ffi BSA
agarnst physical damage. lt has been proven by use in {,-7 \y 947-81-sA
thousands of installalions throughout the ,,vorld, induding S+SCZ 13959C 0G6A2 AY
schools, hospitals, hotels and stores. The Stopper ll has
also been lested and approved by fire prevention and test-
ing authorities.
FEATURS3
. Wndow made of cl6ar and durabl€ LEXAN@.
. Optional waming hom powered by I VDC battery.
. P.ovides \iveatherproofing for qjtdoor pull stalbns when
equipped wilh op$onel gaskel (Weather Sropper ll).
. Fits pull stafions from S1/2" 10 G3/4'.
. Unconditional lifetime guaranteo againsl cover breakage
and damage.
APPLrOrflOilS
Th6 Stopp€r ll can be used in almost any pull station en-
vironment.
SPAGEI liltilAltAilOll
(Surface ount models OI{LY)
The spacer is used for surface-mounled or oversized
manual stations- Longer scr€\itls are provided for use with
tap-in anchors. Remove knock-out at top or botlom of
spacer as necessary.
oasKEt txStarrAfloil
(Weather Stopper ll Hodelr ONLY')
Inslalling neopreie gaskets behind lhe spacer and/or Stop-
per ll frame will provide additional weatherprooftng. A
conduit gasket may be usod to seal the top or bottom of
the spac€r.
IATTERY REP]ICCNEil'
Banery should be replaced once a year or afler alarm ac-
tivation. Use Duracell 16M or equivalent.
To access the banery, remove lock-out screur. Slide acti-
valion switch lowards center. Remove screw at top of cover
and r€move hom brackot inside. Unclip baftGry and re-
place. Reactivate alarm and replace screws.
LEXAII@ is a registered fademark of GE Pliastics, a subsidbry of
Gene|al Electric Co.npeny.
@
IN GASE OF FIFE - LIFT GOVEB
FI'LL FIFE AIINM
PnoDUCT ullE tll?ORtAfl Oll
STI '1100 Stopper ll, fiush mount, with hom.
STI 1{30 Stopper ll, surface mount, with hom.
STI 1200 Stopper ll, flush mount, dlrtout hom.
STt 1230 Stopper ll, surtece mount, without hom.
STI 1250 Weather Stopper ll, llush mount.
STI 3150 Weather Stopper ll, surface mount.
This docurnent is not intended io be used for ingtaltation puDces. we try to keep our
product ihtormatjoo utrtqdate and accurate. We cannot cowr all specnc applications or
anticipate all requirements. Al specficalions ale subiecl to chang€ wilhoul notice.
For mca informalion, cootacl NOnFER. Phone: (203),184-7161 FAX: (2O:l) 48,t-7.11E
(U) X|oTIFIER- 12 ointonvilb Road, Northtord, cornocticut 06472
DN-359 .05/06/96 - Psge I of 2
ge
59 cm)0.59
t) (5.6 crn)
nl-tL--- ll-::--i3t- -'l
tltlII
L-_____It-- ---4
L-J
SHCER (FT
ttd nb 31
StzE ot PUIL silAiloN
ACCONODATED
The Stopper ll and Weather Stopper ll can
be instatled over a flush-mounted station
up to S1/2'wide and G3/4" high. How-
ever, lhe pull station's maximum dimen-
sions will decrease as lts depth (distance
from the wall) increases, i.e.: a 314" deep
pull station may be 5-1/2' wide x 6' high; a
1-5/8' deep pull station may be 5' wide x
6' high; a 2-318' deep pull station may be
4' wide x 5-3/4' high; a 2-314' de€p pull
station may be 3'wide x S1E high. See
sections on SPAGER and GASKET lN-
STALLATION on reverse sid€.
(FT(,NAL
MANIIAL
PULL
STAIIol'l
\t\
REIIO/TS-E INSEFT
tosnoatbCqdul
bpor blEn.
NE(TENE
Cof.lDlJlT G SKEr
lo ialhcrDrEt
Jound CondJnFdmru.
reL-J
sr@EH CO/ER
CbrLE)(lr0
ultrB,tu sdltsrd.
NEOPRENE ...--
GASKET usd
tO \!'Bltr!rFd
Smsrll.
HGN &5 (3 d t0 n.
fu|€r sourca:
EVDC nbry(opba).
L@(XJT SCnEW
rcnv^noN/
DEICTNATION S\dITCH
FFAME(Hr-E)ilt0)
scrr6 rnd Anctus
SfoPPrn ll
lcr bflf
WEATHEN
STOPPEN TI
rtsilaltttloil
rxStruGfloils
t) Separate cover fiorn frame.
Disable horn (if install€d) by
sliding activation switch towards
center.
2) Center lrame around pull
station. Mark four holes for an-
chors.
3) Drill four 1/4' holes.
4) Attach trarne to wall with tap-
in anchors.
5) Slide activation switch to-
wards outside to activate alarm-
Screw in lock-out screw to pre-
vent unaulhorized deactivatim.
6) Align pads, slots, and guide
oins on mver overftame. Close
cover.
PEge2ol2 - ON-3459. 05/06'/96
SHCER {E LE(At.ll} usdsry
whgr rtrntal FtlAhtm S&r b
surh-Ilu.rnbd (orar sat bM,
\ Fu/bd,.lorsp6..
\,-
PtlST|C
rNsEtr
NE(FRENE
COhX'UIT GASKET
usd tt 6al
rrurra Conal*
burdl3?rd(Frrlo.@).
NEOFENE
GASXET
0!tm@).
lbclowf yz
WEAI}TER STEPER N COr'EB
der ruldsd hlycrttonata
(ultrtblot stdb!d).
BFTANING
CAEI€-rm|bbrtiEs{E!0r.
FRAME
(Flycarbnlta)
Sc|ri/s ard AnchoE
pru,td wlth S9acc..
-,tV'aNBFtrNE IGTSXET \(Ftno.3@).
,...-
-"'
sncEn (rd frircrlbrs) usd qtv
s,hofl rtnd FteAlJm Strtbn b
surbGnounut (Frl rn. 31O).
OPo*., supply calculatils
Notifier FCPS-24 Fire Alarm Control Panel
Page 1 of 2
Prepared By Commercial specialists of Westem Colorado, LLC. Phone
Address 284 ANNIE RD. CitY
(970) 513-7100
Project Information
prorected premises property JOHN A. DOBSON ARENA patc: 05/10/2001
Addr€ss 268 E. UONSHEAD CIRCLE city VAIL
state COLOMDO z,e 8L657
AC Branch Current
The amount of AC current that must
be supplied by the source to power
the fire alarm system,
| 2 lAmps@l2OVAC:
Maximum allowable AC branch current: 2O.O
Primary Standby Load
Current Load on the Primary Power
Supply during non-alarm conditions.
Primary Alarm Load
Current Load on the Primary Power
Supply during an alarm condition.
fo-ozs I amps
I 2.40,4 lAmps
The FCPS-24 can supply up to 4 amps of current while
the system is in Standby.
The FCPS-24 can supply up to 6 amps of current while
the system is in Alarm,
Secondary Standby Load
The amount of oower that must be
supplied by the batteries during
non-alarm conditions.
Secondary Alarm Load
The amount of power that must
be supplied by the batteries
during an alarm condition.
I o.o73 llmps
foriz+lHours
Standby AmpHours
Amps
Minutes
Alarm AmpHours
t ritt
@mrynsation for non-linear discharge chara&rgtic (double-click b changre): X 1.2
TotalAmpHours:i 3
i
Battery Selection Q Two O Four (two 12v sets in parallel)
IPS-1270 Battery, 12 volt. 7 AH (679)
Battery Charger
This system will charge its batteries with the following supply:
[r-4q
for fs-]t or-l
(. FCPS-24 ( CHG-120 Remote Battery Charger
Part NumOel Pdmary Non4lam PrlmaryAlam Sccond.ry Non4lalm Secondary Ala]m
FCPS-24 Charger
2/m Photoelec{ric Detec{or, 2-wire dircci
OHUSIACOCIHT Drcl lonization DeGctor,
HDS Heat Detector, 136oF (57oC) Fixe
P2475 Horn Skobe, 24 VOC, E d
S2415 Strobe.24VDC. 15 cd
O
(1rc.O€x)){.Ofin
(().@12){.@12
(1)O.025m)=O.(]25m
(2gO.(XIID{.m
(11)O.mP)=o.m
($o.urc)=0.00000
(1rc.O€m){.O4m
(l(r.@12)=o.Gt12
(1n.02scD)=o.('2sm
(29o.qm)=o.Um
(11to.l@)=1.ffi
(8n.cE9@){.47m
(1n.qaD{.o48m
(l )O.CrDl 2){.CID1 2
(1rc.02sm)=o.s2sm
(29o.{Ilrc)=o.m(1l)O.m){.m
(8)o.crc){.m
(1)O.O/AO){.O48m
(1rc.@12)=O.m12
(1xO.025m)=0.02tr
ego.(m)=o.(Fn
(l1tO.1qD)=1.8Sm
(8rO.OOm){.48m
Totals:0.073 amps 2.4{14 amps 0.073 amps 2.'f12 amps
Device Current Draw
Quantity x (device current drariv) = total current draw per device (in amps)
Protected Prcpertyr IOHN A. DOBSON ARENA
1) Selection of the MMX-2 includes rnaximum currrnt allowed for conventional, Z-wire Fmoke detectors (0.@2 amps).
2) Primary Non-Alarm = current draw while running on AC and urder a normal system cordition; Primary Alarm = Current draw while
running on AC during an alarm condition; Secondary Non-Alarm = Draw from batteries under a single trouble condition (loss of AC).
Page 2 of 2
STATEOF COLORADO
DIVISION OFF/RE SAFETY
PLAN REGISTRATION FORM
Date----!:lI:91 Contractor Registration Number 001
ContractorsName L. ngffiSAFT & SOU. I!lC.
MailingAddress il0l for gtraat
City Dervsr
Telephone No.
Name
o
t
802t6
ly coartructcd
System Test
aSignature
Certification No.(Certified Fire Suppression Inspector)
(for additional comments use separate sheet)
Distribution: Original copy goes to Dvision of Fire Safety upon total completion of forrn. Copy to local fire deparhnent.
Copy to contractor and copy to building owner upon completion and sign-off.
lFarsf-.. -.,e.
)v
aeratnr3t.a
I
STATE OF COLORADO
DNISION OF FIRE SAFETY
PLAN REGISTRATION FORM
out"---j- lTal- Contractor Registration Number 001
ContractorsName . L. l0lf6llf 6 80U, tUC.
MailingAddress
city b.t
Telephone No.
Name
Svstem Test
--t
Signature
Zp Code t0tt6
t-tt2t
(Certified Fire Suppression Inspector)CertificationNo.
Comments
ffor additional comments use separate sheet)
Distribution: Original copy goes to Division of Fire Safety upon total completion of form. Copy to local fire departmmt.
Copy to contractor and copy to building owner upon completion and sign-off.
#
STATEOF COLORADO
DIVISION OFFIRE SAFETY
PLAN REGISTRATION FORM
O"t.---j17-91- Contractor Registration Number
ContractorsName L. lUfmlfif & gOnr U{C.
c0l
MailingAddress {l0t lor litto$t
City horrr
Telephone No.
Name of
Zp Code 80216
ty cmrtnrctrd
nspector)
System Test
Signature
Certification No.(Certified Fire Suppression Inspector)
Jurisdiction
Comments
(for additional comments use separate sheet)
Distribution: Original copy goes to Division of Fire Safety upon total completion of form. Copy to local fire dePartment.
Copy to contractor and copy to building owner upon completion and sign-off.
I Town of Vai1, Colorado
Building Safety & rnspection Services
75 South Frontage Road
vail, Colorado 81557(970) 479-232t FAx (970') 479-2452
Plan analysis based on
the L997 Uniform Buildinq Code
Project Number: 801-0035 Date: May 1, 200L
Project Name:, Dobson Ice. Arena Renodel/Addition
Address: 321 West Meadow Drive
Contractor: R.A. Nelson
Occupancy: A2.L,52,8,A3,H7 Architect: O'DeI1 Architects
Construction: II-FR Enqineer: KL&A of Colorado
neport By: Gary Goodell
NOTE: The code items listed in this report are not intended Eo be a
complete listing of all possi-ble code requirements in the 1997 UBC.
It is a guide to selected sections of the code.
Report created using Plan Analyst software by b w & a. (719) 599-5622
Portions of the material contained in this program are reproduced
from the Unj-form Buildi-ng Code with the permission of the
Internatj-onal Conference of Building Officials.
NFPA 13 sprinkler system throughout tshe building
Sprinkler system used for a11owable area increase -- Sec. 505.3
601- h35 oFiiilfdoPv
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NAMEFI,
Page # 2
MAX FLR AREA ALLOWED RATIO STATUS
M Office B
M Mul- ti -purpose A3
M seating/Aisles A2.1-
B1 EquipmntStorage#100 S2
B1 Mechanical Room B
81 Women'sRestroomL02 B
81 Men' sRestroomlo3 B
81 DressingRoomlo4 B
81 ShowerRoomlo5 B
81 Dressi.ngRooml06 B
8L ShowerRoomlO7 B
81 DressingRooml0S B
81 ShowerRooml09 B
81 MechRoomllO B
llr_ DresslngKoom]r_L rJ
81 ShowerRoomll2 B
81 DressingRoomll3 B
Bl- Storage 114 32
Bl- Ha1] #115 B
Bl- Storage #117 52
Bl- Concessions B
81 Vendinq B
B1 fxistinq Storage 32
81 Lift SLorage 32
Bl- ExistingProShop B
81 Offices B
Bl- West Restrooms B
81 NW Storag:e,/Mech 52
Bl- Refrigeration Room H7
81 Hockey Rink A2.I
81 walkways, etc. A2.1
Total for Floor
ok 400 Interior check onlyok 820 Interior check only
ok 5550 Interior check only
ok 3444 InLerior check only
ok , 4L Inberior check only
ok 375 Interi.or check only
ok 240 fnterior check only
ok 288 fnE.erior check only
ok L50 Interior check only
ok 320 lnE.erior check only
ok L52 Interior check only
ok 320 InLerior check only
ok l-50 Interior check only
ok 1,92 Int.eri.or check only
ok 355 Int.erior check only
ok 238 Int.erlor check onlyok 41,0 InCerior check only
ok 155 Interior check onlyok 254 Inlerior check only
ok 84 Interior check only
ok 255 Interior check only
ok 30 Interior check only
ok 720 Interior check only
ok 1,2Q Interior check only
ok 288 Interior check only
ok 1056 Interior check only
ok 413 Interior check only
ok 2367 Interior check only
ok 802 Int,erior check only
ok 165]-4 Interior check only
ok 1-2569 Interior check only
41"824 fnterior check onlv
OTHER BUILDING ELEMENTS TAbIe 6-AELEMENT MATERIAL RATTNG NOTES
Interior Bearing wa1l Noncombustible 2 hr
Interior nonbrg wall Noncombustible t hr See Footnoee #5
Structural Frame Noncombustible 2 hr
Exterior Struct Frame Noncombustible 2 hr See footnote #1
F1oor,/Ceiling Assernbly Noncombustible 2 hr
Roof ,/Ceili.ng Assembly Noncombustible t hr See Foocnote #8
Stairs NonconcusLible None See Footnote #14
FOOTNOTES:
1) Elements in an exterior wall located where openings are noL permitted
or where protection of openings is required, sha11 be protected
against external- fire exposure as required for exterior bearing walls
or the structuraf frame, whichever ds greater. -,-. Table 5.A, footnote 1
4) Fire- retardant treated wood may be used within. interior nen-bearing
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. Address:
i. hr. walI assemblies. -- Tab1e 6-A, footnote 2
8) If the entire roof structure is 25 feet or more above any floor,
the fire rating may be allowed to be eliminated. See limitations and
requirements. - - Sec. 503 .5 & 502.5
14) Finish material on stairs to be hard noncombustible materials.
- - Sec. 603 .4
Exception: Stairs that. are not required to be in an enclosure.
PENETRATIONS OF FIRERESISTIVE ASSEMBLIES
WALLS ASSEMBLIES .- Sec. 709.6
Through penetrations :
l-) Penetrations shal1 be installed as tested in the rated assembly.
- - Sec. 709.6.2
2) Penetrations sha1l be protected by an approved penetration
firestop system and sha11 have an F rating of not less than the
required rating of the wall penetrated. -- Sec. 709.6.3
Exception: When penetrating items are steel, ferrous or copper
pipes or steel conduits and the wa11 is concrete or
masonry, the annular space shal1 be permitted to be
gfrout or mortar. The minimum thickness is the
thickness required to maintain the fire rating. The
maximum size of Lhe penetrating items is equivalent.
to a 6-inch diameter and the opening is a maximum of
l-44 square inches. - - Sec. 709 .6 .L
Membrane penetrations :
The requirements are the same as for througfh penetrations.
- - Sec. 709.7
Exceptions:
1. Steel electrical outlet boxes that do noe exceed 16 square
inches provided thaE the area of such openings does not exceed
100 square j-nches for any 1-00 square feet of wa1I area.
Boxes on opposite sides of the assembly sha11 be
separated by a horizontal distance of not less than 24
inches.
2. Sprinklers with met.al escut.cheon plates.
Noncombustible penetratinq it.ems shall noL be connected to
combustible materials on both sides of the membrane unless it can
be confirmed that the fire-resistive integrity of wa11 is
maintained. -- Sec. 709.7
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FLOOR/CEILING AND ROOF,/CEILING ASSEMBLIES -- SCC. 710.2
Through pentrations :
Through penetrations of fire-resistive horizontal assernblies sha11
be enclosed in fire-resistive shaf t enclosures. - - Sec. '71,0.2.1
Exceptions:
l-. When penetrating itens are steel , ferrous or copper conduits,
pi.pes, tubes and vents through a single concrete floor, the
annular space shall be permitted to be grout or mortar.
The minimum thickness is the thickness required to maintain
the fire rating. The maximum size of the penetrating items is
equivalent to a 5-inch diameter and the opening is a maximum
of L44 square inches.
2. Electrical outlet boxes that have been eeseed for use in
f i-re - assembl ies.
The system shall have an F rating and a T rating of not less than
one hour but not less than the required rating of the floor system.-- Sec.7L0.2.3
Exception: Floor penetrations contained and located within the
cavity of a wal1 do not reguire a T rating.
Membrane penetrations :
The requirements are the same as for through penetrations.
- - Sec. 71,0 . 3
Exceptions:
1, When penetrating items are steel , ferrous or copper
conduits, electrical outlet boxes, pipes, tubes and vent.s
through concrete or masonry and the annular space is
protected by an approved penetrat.j.on firestop assembly or
protected to prevent the free passage of flame and
products of cohbustion. Such penetrations shall not
exceed an aggregate area of 100 square inches in any 100
square feet of ceiling area in assemblies without
penetrations.
2. Electrical outlet boxes that have been tested for use in
f ire - assemblies .
3. Sprinklers with metal escutcheon plates.
Fire-resistive roofs may have unprot.ected openings. -- Sec. 710.4
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SMOKE and FIRE DAMPERS -- Sec- 73-3.10 and 713.LL
Dampers shaIl be accessible for inspecLion and servicing:
1. Penetrations through area separation wa1ls.
Penetrations through occupancy separations.
2. Penetrations of t,he fire-resiscive construction of horizontal
exit wa11s or corridors serving as a means of egress.
Exception: Openings for steel ducts perelrating the required
fire-resistive construction of corridors are not
required to have smoke dannpers when such ducts
are of not less than 0.019-inch thickness
(26 qaqe) and have no openings serving the
corridor.
3. Penetrations of shaft enclosures.
Exceptions:
1. Duct penetrations by steel exhaust air subducts
extending vertically upward at least 22 inches above
the top of the opening in a vented shaft where the
airflow is upward.
2. Penetrations of a fire-resistive floor forming the
base of a shaft enclosure rnay be protected by fire
darnpers listed for instaflation in the horizontal
Position.3. Smoke dampers are not required when shaft is exhaust
only, and is used for continuously operating fans.
4. PenetraLions of the ceiling of fire-resistive floor-ceiling
or roof -ceiling assemblies.
Exception: Smoke dampers are not required.
5. Penetrations of an atrium enclosure element.
Exception: Smoke dampers are not required.
5. Penetrations of exterior wa1ls where protection of openings
is required.
Exception: Smoke dampers are not required..
7. Penetrations of areas of refuqe.
Evaonf i n-: Ventj.lation system desigmed tO supply outside
air during an emergency.
8. Smoke dampers are required in smoke barriers and elevator
lobbies.
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OCCUPANCY SEPARATIONS .- Table 3-B
A2.l--52 thr
A2.1-B thr
A2.1-A3 Ohr
A2.L-H7 4hr
52 -B Ohr
52 -A3 Ohr
52 -H7 thr
B -A3 Ohr
}l-t| I rnr
A3 -H7 3hr
oTE: The existing building: contains nonconforming features with regard. E,o
ccupancy separations. Priorities must be qiven to providing the maximum
mount of fire-resistive separation, smoke seal , ecc., between uses,/occupan-
ies that have the potential to be sources of fire ignit.ion and assembly
reas. Thus, separation wa11s, raCed opening protection, sealing of pene-
rations, etc., musL be focused on the following areas in order of priority
s follows:
) H-7 Refrigeration Room to A2.1 Main Area of bui1ding. Provide approved
4-hr. wa1l assemnly between Refrigeration Room and all other areas.
Seal all existing penetration in an approved manner to achieve an air-
tiqht separation. Provide 2 sets of 90-minuEe, self-closing or automatic
closing door assemblies between the Ref rigerat.ion Room and the Main A2.1
Area to create an 'rair lock" between the two occupanci.es. To compensate
for the lack of two exits, both sets of doors must be equipped with Panic
Hardware. Ventilate the air lock area as well as the Refrigeration Room
in accordance with the Building Code, the Mechanical Code and the Fire Code.
) Other Mechanical Rooms and 52 Storage Areas/Rooms to A2.1 Main Area and A3
Multi - Purpose Room. Provide approved 1-hour occupancy separation with
L -hour opening protection and sealing of all penetrations, joints, etc.,
to achieve a srnoke-tight barrier.
) A11 Other Areas (offices, restrooms, locker rooms, shower rooms, etc.).
Seal any existi-ng holes or other penetrations.
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HEATING EQUIPMENT SEPARATION:
FOR A2.1, 52, B and A3 OCCUPANCIES:
A t hr. occupancy separat,ion is required around rooms containing a
boiLer or central heating unit greater than 400,000 BTU input.
- - Sec. 302.5
FOR H7 OCCUPANCY:
ADDITIONAI., SEPAS,ATIONS :
A refrigeration machinery room sha11 be separaEed from the remainder
of the building as required for an II7 occupancy regardless of area. A
horizontal occupancy separat,ion may be limited to the actual floor
area of the machinery room. Structural supportj.ng elements shall be
proteceed for the tlpe of constructj.on only. -- Sec. 2802.A 4 hour separat,ion is required from anA2.1 occupancy. -- Table 3-B
Code review for:
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EXIT REQUTREMEMTS:
FL NAME NUMB MIN MIN
OCC EXITS WIDTH
Paqe # 8
PANTC HALLWAY/ DOOR NOTES
HDWR CORRIDOR SWING
M3 Office 4
M2 Multi-purpose 55
M1 Seating/Ai,sles 437
B1- EquipnntStorage#100 ACI-1-
Bl- Mechanical Room Ac
B1- Women ' sRes troomlo 2 AC4
B1 Men'sResUrooml-03 AC2
Bl- DressingRoonlo4 AC3
Bl- ShowerRooml05 ACz
81 DressingRooml06 AC3
81 ShowerRooml07 AC2
81 DressingRooml-08 AC3
Bl- ShowerRoomL09 ACz
Bl- MechRooml-10 ACI-
81 DressingRooml-l-1 AC4
Bl- ShowerRoomll2 AC2
81 DressingRooml13 AC4
81 Storage 114 AC1
Bi, Ha11 #1-15 AC3
81 Storage #1L7 AC
81 Concessions 3
81 Vendi-ng AC
81 Existing Storage AC
81 Lift Storage AC
Bl- ExistingProshop 3
81 Offices LL
81 West Restrooms AC4
B1- Nw Storage /uedn AC8
81 Refrigeration Room AC3
81 Hockey Rink 1108
81 walkways, etc. 838
TOTAL 2459
t-
2
'l
1
1
1
1
1
1
l-
l-
1_
1
1
L
1
l-
1
2*
4
NO
Yes
Yes
NO
NO
No
NO
No
No
NO
No
No
No
No
NO
NO
NO
NO
No
No
No
No
NO
No
No
No
No
No
Yes
Yes
Yes
Yes
N/A
N/A
N/A
N/A
N/A
N/a
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/e
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/R
Out
Out
N/R
N/R
N/R
N/R
N/n
N/R
N/R
N/R
N/R
N/R
N/R
N/R
N/R
N/R
N/n
N/n
N/n
N/R
N/R
N/R
N/R
N/R
N/n
N/R
N/R
Out
Out
Out
83
4
0.8
11_. 0
87 .4
2.2
0.0na
0.4
0.6
0.4
0.6
0.4
0.6
0.4
u.z
0.8
0.4
0.8
0.2
0.6
0.0
0.6
0.0
0.0
0.0
u-o
2.2
0.8
t_. 6
1,.2
221 .6
L67.6
L'|21,.3
4
4
NOTE: Areas with 'AC' before Ehe number of occupants area is being
treated as an accessory for occupant 1oads.
- - sec . 10 0 3 .2 .2 .2. 1, Except ion
In areas where 2 exits are required, the minimum separation is t/2 of
the maximum diagonal of the area or fIoor. -- sec. t004.2.4
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eddiess:
When 2 exits are required, exits must be arrangied so that i-t is possible
to go in either direction from any point in a corridor or hallway to a
separate exit, except for dead ends not exceedinq 20 feet in length.
- - Sec . ]-004 -2 .6
* NOTE: THE REFRIGERATION ROOM rS EXISTING AND CURRENTLY HAS ONLY ONE EXIT.
TI{E EXITCONSISTS OF 2 3-FT..WIDE DOORS AND IS CENTRALLY LOCATED TN THE ROOM.
THE ONLY FEASIBLE AND PRACTICAL SOLUTTON TO PROVIDING A SECOND EXIT IS A 2'-6U.
WIDE DOOR WITH A NONCONFORMING STEP THAT WOULD CREATE ANOTHER NONCONFORMTNG
OPENING TN THE 4-HOUR OCCUPANCY SEPARATION REQU]RED BETWEEN AN A2.1 OCCUPANCY
AND THE REFRIGERATION ROOM. UNDER THE CIRCUMSTANCES, IT TS FELT MORE IMPOR.
TANT TO SEPARATE THE REFRTGERATION ROOM FROM THE A2.1 ASSEMBLY OCCUPANCY THAN
rT IS TO PROVIDE A SECOND EXIT FROM THE REFRIGERATION ROOM. THUS, A SECOND
EXIT FROM THE REFRIGERATTON ROOM WILL NOT BE REQUIRED. SEE THE REMAINDER OF
THTS REPORT FOR ADD]TTONAL REQUIREMENTS FOR THE REFRIGERATION ROOM.
Exit signs are required from all areas where 2 or more exits are required.
- - Sec. 1003 .2 .8 .2, Except.ion 2
No point to be more than 100 feet from. an exit sign.
Main exterior exit doors which obviously and clearly are identif i-able
as exj.ts need not be signed when approved. -- Sec. 1003.2.8.2, Exception L
Door swing is based on Sec. 1003.3.1.5 except as noted.
Occupant load factor is based on Table l-0-A.
CORRECTION: The upper leve1 Multi- Purpose Room 200 is an A3 occupancy with an
occupant load of more than 50. Thus, any and all exit doors from the room must
swing in the direction of exit travel and be equipped with Panic Hardware.
ooor 2008 as shown on the submitted plans does not swing in the direction of
exit Lravel . The hallway layout and door swing' must be revised to show a
self -closing and latching door that swings in the direction of exi-t travel .
Number of exits is based on Table 10-A except as noted.
Exit width is in inches and based on Sec. 1003,2.3 and Table 10-B
Exit width j-s to be d.ivided approximalely equally among exits.
- - Sec. l-003 .2 .3 .2
Width shown for all areas is based on other egress components.
Width shown for 1st floor is based on other egress components.
width shown for oLher floors & basements is based on stairwavs,
- - Tab1e l-0 -B
For the minimum width of
For the minimum width of
For the mini-mum width of
For the minimum width of
doors, see Sec. 1003.3. L.3
ha1lways, see Sec. 1004 .3.3.2
corridors, see Sec. 1004 .3.4.2
stairways, see Sec. 1003,3.3.2
, Page # 10
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3) Panic hardware is based on Sec. 1007.4.5
4) Panic hardware is based on Sec. 1007.2.5
See exception for main exit in A-3 occupancies and churches.
8) The number of exits is based on Sec. 1007.4-l
FLUSH AND SURFACE BOLTS i I
Manually operated edge- or surface-mounEed flush bolts and surface
bolts or any other type of device that nay be used Eo close or
restrain the the door other Ehan by operaCion of the locking device
shaf l- not be used. When automatic flush bolts are uaed, the door
leaf having the automaLic flush bolt shall not have a door knob or
surface-mounted hardware. The unlacching of any leaf sha1l not
require more than one operation, -- Sec. L003.3.1.8
LOCKS AND LATCHES:
Reqardless of the occupant load served, exit doors shall be openable
from the inside hrithout the use of a key or any special knowledge or
effort. -- Sec. 1003.3.1.8
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STAIR NOTES:
Prlvate stairs:
Private stairways and stairs serving an occupant load less than 10:
1) A private stairway must be at least 36 inches wj-de. -- Sec. 1003.3.3.2
2) The maximum rise of a step is B inches and the minimum run i.s 9
inches. -- Sec. 1003.3.3.3, Exceptj-on 1
3) Provide a handrail on one side of stairway 34 to 38 inches above the
nosing: if there is more than 3 risers. -- Sec. L003.3.3.6, Exceptions
Public stairways:
1) The rise of steps sha1l not be less than 4 inches or greater than 7
inches. The minimum run is LL inches. The maximum variation is 3/8
inch in a flight of stairs. -- Sec. 1003.3.3.3
2) The minimun width of a stairway is 36 inches, 44 inches j-f the
occupant load is greater than 49. -- Sec. 1003.3.3.2
Also see exit table above to see if minimum width is greater than
44 inches.
3) Provide a handrail on both sides of stai-rway 34 to 38 inches above the
nosing. May be on one side of stairways less than 44 inches wide.
- - Sec. 1-003 .3 .3 .6, Exception 1
4) Provide a guard rail where drop off i-s greater than 30 inctres.-- Sec. 509.1
5) The rninirnum height is 42 inches. -- Sec. 509.2
6) Open quardrails shall have intermediate rails or ornamental paCtern
such thaE a sphere 4 inches in diameter cannoU pass through.
-- Sec. 509.3 The triangular opening formed at the riser, tread and
guardrail may be 6 inches - -- 509.3, Exception 2
7) The mini-mum headroom is 5 ft.- 8 inches. Such clearance shal1 be
measured vertically from a plane para1le1 and tangent to the stairway
tread nosing to the soffit above ab a1l points. -- Sec. 1003.3.3.4
8) Enclosed usable space under the stairs is required to be protected.
as required for t hr. fire-resistive construction. -- Sec. 1003.3.3.9
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Address:
RAMP REQUIREMENTS:
1) The minimum width is 44 i-nches. If a ramp serves an occupanE load of
49 or less, it may be 36 inches wide, ff the ramp is serving a high
occupant load, check exit table above for required width,
- - Sec . 1,003 .4 .2
2') If the ramp is part of the accessible route, the rnaximum slope is
L:12. A11 other ramps rnay have a slope of 1:8 or 1ess.
-- Sec. 1-003.3.4.3
3) When the slope is greater than l-:20, landings sha11 be provided at
the top, bottom and for each 5 feet of rise. Top landings and
intermediate landings shal1 be at least 5 feet in the direction of
travel . Landings at the bottom of ramps shal1 be at least 6 feet in
the direction of travel . -- Sec, 1-003.3.4.4
4) Handraifs shall be per stair requirements. -- Sec. l-003.3.4.5
5) The surface shall be roughened or shal1 be of slip-resisEant.
naterials, -- Sec, L003.3,4.8
LANDINGS AT DOORS:
1) A floor or landing sha11 be provided on each side of doors. When
access for persons with disabilities is required. the floor or landing
sha1l not be more Lhan L/2 inch lower than the threshold. When access
is not required, the maxj.mum is 1 inch. -- Sec. 1,003.3.1.5
2) Landings sha1l have a width not less than the width of the stairway
or width of the doorway, whichever is the greater. Where a landing
serves an occupant load of 50 or more, doors in any position shal1
not reduce the landing dj-mension to less than one half it required
width. The minimum length in the direction of exit tsravel is 44 inches.-- Sec. 1003.3.1.7
TRAVEL DISTANCE: (distance to an exit)
The maximum travel distance in this building is 250 feet. -- Sec. 1004.2.5.2.3
The maximum travel distance within an H7 occupancy is 1-00 feet.
- - Sec. 1,007 .4.2
Travel distance shall not be limited within an exit enclosure or exit
passageway. -- Sec, L005-2.2
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BUILDING ACCESSIBILITY :
1) This building including each tenant shal1 be provided with at least
one entrance which complies wiLh the accessible route provisions of
cARo/ANsT A117 1 Af I Fest 50 ncrcent of all entrances shall be
accessible. -- Sec, 1L03.2.3
2) when more that one exit is required from any accessi.ble space, each
accessible portion of the space sha1l be served by not less than two
accessible means of egress. -- Sec. 1104.1.1
3) when an exit stairway is part of an accessible means of egress, the
stairway shall have a clear width of not less t.han 48 inches between
the handrails. The stairway sha11 either incorporate an area of refuge
within an enlarged story- leve1 landing or sha1l be accessed from
an area of refuge. - - sec - t1,04.t.2
The area of refuge shall have direct access to the stairway that serves
it. -- Sec. IL04.2.L
4) Each area of refuge shaLl be sized to accornmodate one wheelchair space
noL less than 30 inches by 48 inches for each 200 occupants, or
portion thereof. -- Sec. L1"04.2.3
5) If the area of refug'e is noL within the stairway, iL shall be separated
from the rest of the story by a smoke barrier having at least a one-
hour fi-re-resistance rating. Smoke barriers shall extend to the roof or
floor deck above. Doors sha11 be smoke and draft control assembl-ies
with a ratinqr not less than 20 minutes. -- sec. 11'04.2.4
5) Two-way communications are required. -- Sec- 1]-04-2.5
7) Each area must be identified by a sign stating AREA OF REFUGE and the
international symbol of accessibility. -- Sec. L104-2.7
B) NOTE: Exit stairways in buildings protected throughout by an approved
autornatic sprj-nkler system are NOT required. bo incorporate an area of
refuge. - - Sec. 11"04 . 1.2, Exception 2
ROOFING REQUIREMENTS:
1) Any new roofing to be instal-]ed as part of this project on this
buildinq is required to be Class rtBrt or better.-- Table 15-A
2) See section l-504 and IcBo research reports for requi.rements.
AUTOMATIC SPRINKLER SYSTEMS:
If there are 100 or more sprinklers, all valves controlli-ng the
water supply and water- flow switches shall- be el-ectrically monitored,
Valve rnonitoring and water-f1ow alarm and trouble signals shaLl be
distinctly different and sha1l be automaLicalty transmitted to an
approved central station, remot.e stat.ion or proprietary monitoring
stati-on. -- Sec. 904.3.L
o
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Code review for:
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STANDP]PE REQUIREMEIflIS :
There is no requirement for a standpipe. -- Table 9-A
FOOTNOTES:
2) A standpipe is not required in t.he basement.. -- Table 9-A, footnote 1
FIRE AI,ARM SYSTEM:
A fire alarm systen is required. -- Sec. 303.9 l
The alarm systern is to be as set forth in the Fire Code.
VENTILATION:
All areas customarily occupied by humans shalI be provided hrith natural
ventilatj-on by means of openable exterior opening's with an area of not
Iess than t/20 of the total floor area or sha1l be provlded with a
mechani-cal1y operated ventilaEion system. Such system sha11 be capable
of supplying a minimum of 1-5 cubic feet per minute of outside air per
occupant. -- Sec. L202.2,t
WALL AND CEILTNG FINISH:
l) waI1 and ceiling finish materi.als are required to comply with
Sec. 804.1 and Table 8-B.
2) Carpeting on the ceiling is required to have a Class I flame
spread rating. -' Sec. 804.2
3) Textile wa1I coverings shal1 have Class I flane spread rating.
and shal1 be protected by automatic sprinklers or meet the
acceptance criteria of U.B.C. Standard No. 8-2 -- Sec. 805
4) ToileL room floors shal1 have. a smooth, hard nonabsorbenh surface
that extends upward onto the walls at least 5 i-nches.
- - Sec. 807. L. L
5) Walls within 2 feet of the front and sides of urinals and water
cfosets shall have a smooth, hard nonabsorbent surface.
- - Sec . 807 .L.2
INSULATION NOTES:
1) A11 insulation material including facings are required to have a
flane- spread rating of 25 or less and a maximurn smoke density of 450.
"Kraft Paper" backing is not perrnitted in Tlpe fI F.R. construction.-- Sec.7Q7.3
2) Foam plastic insulations are required to be protected. -- Sec. 2602
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ADDITIONAL REQUIREMENTS :
For A2.1 occupancy
PI.,,AfFORMS:
l-) Permanent platfonns shal1 be construcEed of materials as required for
the building tllpe of construction. -- Sec. 405.2
2) If the area under the platform is used for any purpose (including
storage) other than equipment wiring or plumbi-ng, then fhe floor
construction shal1 be not less than t hour fire resistive.
- - Sec . 405.2
For 52 occupancy
For B occupancy
For A3 occupancy
PLATFORM:
1-) Permanent platforms shalt be constructed of materials as required
f or the building tlpe of const.ruct.ion. - - Sec. 405.2
2) If the area under the platform is used for any purpose (including
storage) other than equipment wiring or plumbing, then the floor
construction sha1l be not less than t hour f i-re resistive.-- Sec. 405.2
For H7 occupancy
L) If required by the Fire Code, storage areas for hazardous materj-als
sha11 be prowided spi11 control and secondary containmenb.-- Sec. 307.2.3.2
If an individual vessel has a capacity of more than 55 gallons or
the aggregate capacity of multiple vessels exceeds 1,000 galLons,
floors shall be constructed to conhain a spil1 from the largest
single vessel by one of the following methods:
1. Liquid- tiqht sloped or recessed f l-oors,
2. Liquid-tiqht floors provided with liquid-tight rased or recessed
sil-l-s or dikes, or
3, Sumps and collection system.
Except for surfacing, the floors, si11s, dikes, sumps, and collection
systems sha1l be constructed of noncombustible material and the
liquid-tiqht seal shall be compatible with the material stored-
-- Sec. 307.2.3.2
2) Smoke and heat venting sha11 be provided as set forth in the
Fire Code. -- Sec. 307.2.5
3) Emergency power shal1 be provided, It sha11 supply power to all
required electrical equipment. -- Sec. 307.2.7
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Floor-B 1. Maximum Occupant Load. When seats are not fixed, the
capacity of this area is required to be posted in a conspicuousplace on an approved sign near the main exit. Current maximum
occupant load for the facility is 1,000 persons. Please refer to
maximum occupant load narrative later in this report..
- -, Sec . L007 .2.6
ACCESSIBLE FACILITIES :
NOTE: Except as noted, section numbers listed below are from
CABO/ANSr Al-17.1 - L992
WATER FOUNTAINS AND WATER COOLERS:
At least. 50 percent of drinking fountains, but not less than one,provided on every fLoor shal1 be accessible, -- UBC Sec. L105.4.1
.Accessible units must comply with the following:
1) Spout is to be within 36 inches of bhe floor. -- Sec. 4,L5.2,1-
2) Spout arranged for para1le1 approach shall be located 3 inches
maximum from the front edge. Spouts of cantilevered units with
knee and toe clearances shal1 be located 15 inches minimum from
the vertical support and 5 inches maximum from the front edge.
- - sec. 4 -15 .2 -23) Spouts shalL provide a flow of water 4 inches height minimum.
- - Sec . 4.1,5 .2.3
4) Operable parts sha1l be located at or near the front edge of the
unit and shall comply \,.rith 4,25.4 -- Sec. 4.L5.3
5) A cantilevered unit is required to extend 17 inches minimum from
the vertical support. Clear knee space must provide a clear area
of 8 inches in depth aE 27 inches high and l-1 inches at 9 inches
minimum above the f loor. - - Sec. 4 . 1-5 .4 . l-
5) Forward approach units shall comply with 4.2. Units in alcoves
sha1l cornply with 4.2.4.4. Units not having the necessary knee
and toe clearance or clear space under them shal1 comply with
4.2.4 and have a clear floor space that a1lows a person in a
wheelchair to make a paralle1 approach,Sec. 4 .15 .4 .2
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TOILET FACILITIES:
1) A 50 inch diameter unobstructed turning space is required in
the toilet room. -- Sec. 4.L6.3, 4.2.3 & F:-q.84.2.3
2) Water cLoset sha1l be mounted adjacent to a side wa11 or
partition. The distance from the side wal1 or partition to the
centerline of the water closet shal1 be L8 in. Sec. 4.17.1
3) when the accessible water closet is not in a stall:
The clear floor space sha1l be 48 j-n minj-mum in front
of the water closet and 42 in from the center line of the
water closet on the side not adjacent to the wal1.-- Sec.4.I7.2 & Fiq.84.I7.2
4) When the accessible water closet is in a sta1l:
The stall shafl be 60 in wide minimum and 56 in deep minimum
for wall hunq water cLosets and 59 in deep minimum for floor
mounted water closets. -- Sec. 4.L8.3.1
If the door swings into the stafL, the required depth shal1
be increased by 36 inches minimurn. -- Sec. 4.1-8.3.2 &
Fiq. 84.18.3 . 1
5) The bars are to be 33 to 36 inches above the floor and sha1l
be provided on the rear wall and on. the side wal-I closest to
the water closet. - - Sec. 4.24.2.2 & Figs. 84.1,7.3, 84.I7.4
and 84.18.3 .1
a) Side grab bar is required to start within 12 inches of the
back wa1l and e)<tend Eo 54 inches from the back wall-. (the
minimum length of the bar j-s 42 inl -- Sec. 4.17.4.1 &
Figs. 84.17.3 and 84.18.3.1
b) The rear bar shal-l- be 24 in long minimum, centered on Lhe
water closet. Where space permits, the bar shal1 be 36 in
long' minimum, with the additional length provided on the
transfer side. - - Sec. 4.1-'/.4.2 & Figs. 84.1-7.3, 84.tl .4
and 84.l-8.3.1
6) The top of the seat on the vrater closet is required to be 17
to 19 inches above the f loor. -- Sec. 4.L7.3 e riq. 84.1,7.3
7) Accessible urinals sha11 be of the sta11 tl4)e or wall hung wi-th
the rim at l-7 inches maximum above the floor, -- Sec. 4.L9.2
B) A clear area of 30 x 48 inches minimum is required in front
of the urinal . Privacy shields sha11 not extend beyond the
front edge of the uri-nal rim, unless they are 30 i-nches apart
minimum. -- Sec. 4.1-9.3
9) Accessible lavatories shall be mounted wi-th the rim 34 inches
maximum above the floor and a clearance of 29 inches minimum
from the floor to the bottom of the front edge of the apron,
-- Sec. 4.20.2.L & Fi.g. 84.20.3.1
l-0) It sha]l extend 17 inches mj-nimum from the wa11. The clear knee
space sha1l be 8 inches in depth minimum aL 27 inches minimum
above the floor and 11 inches in depth minirnum at 9 in minimum
above bhe f l-oor. The dip of the overflow shall be ignored when
checking the clearances. - - Sec. 4 .20 .3.1 & Fig. 84 .20.3 . 1
11) A clear f l-oor space of 30 X 48 inches minimum sha]l be provided
in front of the lavatory and shall extend 19 inches maximum
under the lavatory.Sec. 4 .20.3 .2 & Fiq . 84.24 .3 .2
Code review for:
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Address:
Paqe # 18
12) water supply and drain pipes under lavatories shall be
insulated or othemise treated to protect agaj-nst contact.
- - Sec . 4.2Q -4
13) The bottom of mirror is required to be withi.n 38 inches of
the f1oor. -- Sec.4.1-6.5 & Fig. 84.20.3.1
GLAZING REQUIREMENTS 4
AII gtazinq in hazardous locations is required to be of safety
glazing material . -- Sec. 2406.3 e. 2406.4
Locations:
1) Glazinq in ingress and egress doors except jalousies.
2) Glazing in fixed and sliding panels of sliding door assemblies
and panels in swingingr doors other than wardrobe doors.
3) Glazing in storm doors.
4) Glazing in all unframed swinging doors.
5) Glazing in doors and enclosures for hot tubs, whirlpools, saunas,
steam rooms, bathtubs and showers. Glazing in any portion of a
bui-1din9 wal1 enclosing these cornpartments where the bottom exposed
edge of the glazing is less than 60 inches above a standing surface
and drain inlet.
5) Glazing in fixed or operable panels adjacent to a door where the
nearest exposed edge of the glazing is within a 24-inch arc of
either wertical edgre of ttre door in a closed position and where the
bottom exposed edge of the glazing is less than 60 inches above the
walking surface.
'1) Glazing in an individual fixed or operable panel , other than those
locations ddscribed in items 5 and 5 above, than meets all of the
f n l t nr.,i ?l/." /--\1.di tions :
A. Exposed area of an individual pane grreater than 9 square feet.
B. Exposed bottom edg:e less than l-8 inches above the floor.
C. Exposed top edge g'reater than 36 inches above the floor.
D. One or more walking surfaces within 36 inches horj-zontally of
the plane of the glazLng.
8) Glazing in railings regardless of height above a walking surface.
Included are structural balust,er panels and nonstructural in-fil1
panels.
9) GJ.azing in wa1]s and fences used as the barrier for ind.oor and
outdoor swimmingi pools and spas when the bottom edges is less than
50 inches above the pool side and the glazing is within 5 feet
of the pool or spa water's edgre.
10) Glazing in wal1s enclosing stairway landings or within 5 feet of
then bottom and top of sLairways where the bottom edge is less
than 50 inches above the walking surface.
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REFRIGERATfON ROOM OCCUPANCY SEPARATION: For new construction, a 4 -hour
occupancy separation is required between an A2.1- occupancy and a refrig'er-
ation room. In this case, the ref rig-weration room is existing, and the
existing refrig'eration equipment is being replaced. The proposal is to
use a combination of existing and new wal1s around the refigeration room
to achieve the required 4 -hour rating.
The existing refrigreration room has one exit, consisting of a pair of
3'-0" X 5'=8" doors. For new constructi-on, a 4 -hour occupancy separation is
not permit.ted Lo contain any openings. In this existing situat j-on, the
proposal is to create an "air lock" between the regrigeration room and the
A2.1 occupancy by installing a second pair of 90-minute-rated self-closinqf
doors in an exisiingr opening. In addj-tion, the emergency ventilation system
for the refrigeration room will also draw from the "air 1ock" area. Any
existinq or new penetrations in the refrigeratj-on room separatj-on will be
required to be firestopped or otherwise sealed in an approved manner in
accordance with UBC, UFC and UMC reouirements.
As noted previously, it is felt that it is a higher priority, from a life
safety standpoint, to separate the refrigeration room from the A2.1- assembly
occupancy than to provide a second emergency exit from the existing refrig-
eration room. Thus, the proposed separation and exiting of the mechanical
room is approved. A11 other applicable requirements of the Town of Vail
adopted codes relaE.ing' co refrigeration rooms wil-l be met, including the
provision of list,ed " explos ion - proof " motors for the new refrigeraLion room
ventilation systems.
MAXIMUM OCCUPANT LOAD. Per Section 1004.2.3.4 of the 1997 Unj-form Building
Code, the current maximum a11owable occupant load for the facj-l-ity is 1,000
persons. fhe limitinq factors are the lack of a fourth (4th) separate exit
from the building and overly reslrictive (narrow) paths of egress from the
main l-evel to the upper level
The fire protection enqineering division of Arup & Associates has been
retained by the Town of Vail to conduct a performance - bas ed life safety
analysis of the facility and make recommendations reg:arding modifications
that can be made to the facility to improve its life safety characteristics
for use by more than 1,000 and as many as 3,000 persons.
In the interim, the Town of Vail Fire Department and Building Safety &
Inspection Services wil-1 admini-ster and enforce the Uniform Bui-lding Code
(UBC) and Uniform Fire Code (UFC) provisions for the facility. Any use of
the facility for more than 1,000 persons will be subj ect to the review and
prior approval of the Totvn of Vaj-1.
o
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Project Id.:
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he Vail Recreation District and./or the Town of Vail will be obligated t,o
ake the minimum amoun t of improvemenEs necessary to obtain life safetyquivalency to the 1997 Uniform Building Code (UBC) for use of the facilityy more than 1,000 persons. This will be based upon the performance -based
lternaEives reconmended by Arup & Associates. The Town of Vail Fire
epartmenC and Building Safety & InspecEion reserve the right. and have the
uthority under the town's adopted codes to prohribie events involvi.ng more
han 1,000 persons if it is felt that the life safetsy risk for a particular
vent is too high.
o
Town of Vai1, Colorado
Building Safety & Tnspection Services
75 South Frontage Road
VaiI, Colorado 81657(970) 479-232]- FAx (970l. 479-2452
. Plan analysis based on
the l-997 Uniform Building Code
Project Number: Dat,e: May t, 200L
Project Name:
Address:
Cont,ractor 3
Occupancy:
ConstrucEion: Encrineer:
Rep6rt By: cary Goodell
NOTE: The code items listed in this report are not intended to be a
complet,e listing of all possible code requirenents in t.he l-997 UBC.
It is a guide to selected sections of the code.
Report created using Plan Analyst software by b w & a, (7L9) 599-5622
Portions of the material contaj.ned in this program are reproduced
from the Uniform Building Code with the permission of the
International Conference of Building OfficiaLs.
=1===:::::==13:yTl:1::3I=========:::::::::L=3:::::================1 A11 ceneral . The entire facility is required to be equipped
throug'hout with an automatic fire sprinkler system
in accordance with NFPA 13. Please provide fire
sprinkler system shop drawinqs to the Town of Vail
Fire Department for review. -- Sec. 9O4.2.1'
2 A2.3 Doors 200A-200C. Provide panic hardware on the door (s) indicated
(assembly area. with an occupant load over 50) . - -
Sec. 1007.2.5
3 A2.3 Multi-Purpose Room. The olans should indicate that a maximum
occupant loai of 55 j.s to be posted in this area.
Sec. 1-007.2.6
4 A2.5 Main Arena, The plans should indicate that a maximum occupant
load of L,000 is to be posted in this area. -- Sec.
LIJVt.Z.O
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5 A2.1 Door 1008. This is required to be a l-hour door-and-frarne
assembly since it is located within a wall that is
required to be a 1-hour occupancy separati.on beLween
an A2.1 assembly occupancy and an 52 storag:e occupancy.-- sec.302.3
5 General . Note: Manually operated edgel or surface-mountedflush bolts are prohibited. -- Sec. L003.3.L.8
7 A2.3 Door 2008. The doors from this area are regui.red to swing in
the direction of exit travel . Rearrange hallway
design and install Door 2008 to swing out in thedirection of exit travel . Eguip door with
self - closer. - - Sec. L003 .3 . 1. 5
ODELL ARCHITECTS PC
Date:
Prolect :
Owner:
To:
March 19,2001
John A. Dobson Ice Arena
Addition & Renovation
Vail Recreation District
700 South Frontage Road East
Vail, CO 81657
Phore: 970-479-2461
R.A. Nelson & Associates, Inc.
5l Eagle Road
Avoq Colorado 81620
Phone: 970-949-5152
Fax: 9769494379
ASI Nor
Datc of lssuance!
Archltect:
Prolect No. :
Three (3)
March 20, 2001
Odell Architects, P.C.
32065 Castle Court, Suite 150
Evergreen, Colorado 80439
Phone: 303-670-5980
Fax: 303-670-7162
9906
The following Architect's Supplemental Instnrctions is issued to modi! or interpret the
contract docurnents, including the Drawings and Specifications. Please contact the Architect
upon receipt of this ASL
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ASI-03.f Revise Elecfrical Drawing Sheet E2.9, by removing General Note No. 2 as
shown on the attached Drawing Sheet ASI-O3a
tF:'t:r.
P-.=,or.J S
Bot - 0635
Attachments: Drawing Sheet ASI-03a.
Hr\Projects\9906\CA\ASnASI-03.doc
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*ENERAt *ott
ART EXISTING TO REMAIN UNLTSS OTHERWISE
DRAWING NOTES
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DISCONNTCT TXISTING RTFRIGTMTION SYSTEM CONTROL PANEL AND ALL
ASSOCIATED EQUIPMENT.
EXISTING DRIVEWAY SNOWMELT PUMPS.
RELOCATE LIGHTING AS REQUIRED IF IN CONFLICT WITH NEW REFRIGEMTION
EOUIPMENT.
PROVIDE NEW SOAJP NON-FUSED DISCONNECT FOR CONDENSER PUMP.
PROVIDE NEW 6OA3P NON-FUSED DISCONNECT FOR CONDENSER FAN,
CONNECT LEAK DTTECTION PANEL TO CIRCUIT I-A1-9.
PROVIDE PUSH BUTTON I{I]HIN BREM-GLASS STATION. PUSH BUTTON SHALL
BE SQUARE D MUSHRooM l/PE K, RED, 2-1/4" DTAMETER (0R APPRoVED
EQUMALENT). BRFAK*GLASS STATION SHALL BT HOFFMAN HINGED WINDOW
COVER ENCLOSURE, TYPE L-WC2015.I2 (OR APPROVED EQUIVALENT).
LTAK DilECTOR B/ OTHERS.
Dlsc0NNEcT EX|STTN0 t-1/2 HP EXHAUST FAN AND CoNNECT NEW EF-2.
EF-2 lS 1-1/2 HP,460V, 3 PHASE. CoNNECT T0 EXTST|NG CIRCUII.
PROVIDE 3OA3P FUSIBLE DISCONNECT SWITCH I{ITH 4.5A FRS-R FUSES,
CoNNECT NEW EF-J T0 CTRCUTT LA1-9. EF-3 rS 1/4 HP,120V, 1 PHASE.
PROVIDE SMTO FOR LOCAL DISCONNECTING MEANS.
CONNTCT Nil/ TIRT SMOKT DAMPTRS TO CIRCUIT I.A1-9. PROVIOE FIRI AI-ARM
SYSTEM CONNECTION.
@ coruHecr coNTRoL crRcuf T0 EF-2 MoToR srARrER (RE: DMSToN 1s).
GENTRAL NO]E RIVISION
i +
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oDELL AnCEITSCTS, P.C.
Arcrr:rcrorr Plexrrrc Irrrrrors
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JOHN A DOBSON ARENA
ADDITIONS AND RBNOVATION$
PROJECT
mGECr l't0. s90s
DATE: tlorch '19, 2001
MAUINC |lO
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ASI-03a
tHl
RONMENENVI TAL
Asbestos Survey of
Proposed Eastern Renovation Area
John A. Dobson Arena
Vail, Colorado
February 25,2000
Submitred to:
Vail Recreation District
292 West Meadow Drive
Vail, Colorado 81657
Colorado Asbestos Inspector #2690
7T 12 WEST JEFFERSON AVE . I31O
SALT LAKE CiTY
LAKEWOOD CO 80235
BERK€I..FY
TELEP ONE 3C,3,$ti. r.8 i49
PFiat f rJr t
Prepared By:
-2___rp-
Clayon E. McFall
Colorado Asbestos Inspector #836g
Joseph H. Knowles
Environmental Specialist
FAX 303- 989.2716
Asbestos Survey of
Proposed Eastern Renovation Area
John A. Dobson Arena
Vail, Colorado
Executive Summary
A limited asbestos survey was conducted at the John A. Dobson Arena on January 14, 2000. Theeastem portion of the building is proposed for renovation. The survey was restricted to materialsthat might be disturbed during the renovation. Bulk samples were collected from suspectmaterials and analyzed to determine if they contained as-bestos. All porrions of the proposedrenovation area were accessible for inspection. No materials were assumed to be asbestos-containing marerial (ACM).
Sheetrock walls and ceilings are reported as composite "systems", Further information can befound in the attached report. No asbestos was iaentified in any of the materials sampled. None ofthe materials sampled are ACM.
John A. Dobson Arena
Asbestos Survey Report
Executive Summary IHI 00D-5021
Asbestos Survey of
Proposed Eastern Renovation Area
John A. Dobson fuena
Vail, Colorado
Table of Contents
lntroduction.. ...........1
Building Descriptions ......,............1
Survey Procedures............. .....,......2
Building Survey.......... ............................2
Bulk Sample Collection.... .......................2
Bulk Sample Ana1ysis............ .................2
Survey Results .........2
Asbestos-Containing Materials...... .........2
Materials Not Containing Asbestos ..............................3
Bulk Sample Analytical Results .............3
Inaccessible Arcas............ ........................4
Conclusions and Recommendations ...................4
Limitations and Exclusion of Warranty.. ............4
Figurcs
I Sample Incations
Appendices
A Data Tables
B Iaboratory Analytical Reports
Asbestos Survey of
Proposed Eastern Renovation Area
John A. Dobson Arena
Vail, Colorado
INTRODUCTION
A limited asbestos survey wils conducted at the John A. Dobson Arena on January 14, 2000. Theeastern portion of the building is proposed for renovation. The survey was restricted to materialsthat might be disturbed during the renovation, Bulk samples were coilected from suspectmaterials and analyzed to detennine if they contained astestos. All portions of the proposedrenovation area were accessible for inspectiou. No materials were assumed to be asbestos-containing material (ACM).
ohn A. Dobson Arena
BUILDING DESCRIPTIONS
Building Construction
Structuml System . Masonry; steel frame
Exterior Wall Construction ......... Concrete; concrete panel
Floor Deck Construction Concrete
Roof Deck Construction Not observed
Roof Construction ....................... Not observed
Floors
Floors Above Grade .................... I
Interior Finishes
Floors Below Grade .................... 1
Floors ......... ........... Rubber; unpainted concrete; floor tileWalls .......... ........... painted concrete; painted masonry block; painted
ceilings $ffi#or"*",,Attic............. ......... NoneBasement ............... None
Building Mechanical
Heating Plant ............ Forced air
Main Heating Distribution .......... Metal ducts
Cooling Plant ............ Not observed
Main A/C Distribution.. Metal ducts
John A. Dobson Arena
Asbestos Survey Report
-1-IHI00D-s021
SURVEY PROCEDURES
Building Survey
The facility was visually inspected for suspect ACM. All surfaces, structures, and mechanical
systems in the areas proposed for renovation were examined, All suspected ACM was touched todetermine friability.
Suspect ACM was identified and assessed in homogeneous areas. A homogeneous area isdefined as a single material, uniform in texture andippearance, installed at one time, andunlikely to consist of more than one type, or formulation, of material. Il cases where joint
compound and./or tape has been applied to wallboard and cannot be visually distinguiihed fromthe wallboard, it is considered an integral part of the wallboard and in effect becomes onematerial forming a wall or ceiling..system',.
Each homogeneous area was given a unique material identification (ID) number. Each IDnumber begins with a letter: "S" for surfacing materials, "T" for thermai system insulation, or"M" for miscellaneous materials. A tbrce-digit number, assigned in consecutive order followsthis letter' This number is used to identify the homogeneous a.rea throughout the inspectionreport. A material ID number folrowed by an "A", "8", ..c", etc. desigiates a specific componentof the multi-layered material.
BuIk Sample Collection
Bulk samples were obtained from a[ homogeneous areas of suspect ACM. sampring wasconducted in a manner that minimized damage to the building and did not create a health hazardfor inspectors or other visitors to the building. In cases wherejoint compound and/or tape couldnot be visually distinguished from the wallboard, it was sampied as an i'ntegrat part of the wall orceiling "system".
Bulk Sample Analysis
Bulk samples were analyzed using polarized light microscopy (pLM) and visual estimation inaccordance with the EpA Method 600/R-93/116. DCM science Laboratory, Inc. (DCM), ofWheatridge, Colorado, analyzed the samples. DCM is accredited under the National Institute of
::a:drqs and rechnology - Nationar voiuntary Laboratory Accreditation program (NIST-NVLAP) for bulk-asbestos sample analysis, accreditation +totzss. The laboratory reports can befound in Appendix B of this report.
SURVEY R-ESULTS
Asbestos-Containing Materials
The EPA defines homogeneous areas of suspect materials as ACM if the laboratory analysisshows the material to contain greater than lvo asbestos. With a few exceptions, ACM must beremoved prior to demolition or renovation and appropriate steps must be taken to protect worker.s
John A. Dobson Arena
Asbestos Survey Report rHI 00D-5021
and the surrounding environment. However, materials that contain between atrace and lTo
asbestos, though not defined as ACM, may present a potential hazard for workers and any
disturbance of the material may be regulated by OSHA.
Friability is defined in accordance with EpA's NESHAPS regulations.
"Friable ACM" is any material containing more than l7o asbestos (as determined byPLM) that, when dry, may be crumbled, pulverized, or reduced to powder uy tranapressure.
"Non-friable ACM" is any material containing more than 17o asbestos (as determined byPLM) that, when dry, cannot be crumbled, pulverized, or reduced to powder byhand pressure.
"category I non-friable A(-rvI" are asbestos-containing resilient floor coverngs(commonly known as vinyl asbestos tile (VAT) and sheet vinyl), asphalt roofingproducts, packings, and gaskets.
"category tr non-triable ACM" encompasses all other non-friabre ACM.
Materials Not Containing Asbestos
Homogeneous areas of suspect materials are identified as nonasbestos-containing materials if thelaboratory analysis shows the material to contain no detectable amount of asbestos. Table Ilocated in Appendix A of this report, lists ali homogeneous areas that were found to be non-asbestos containing materials.
Bulk Sample Analytical Results
Tables 2, located in Appendix A of this report, lists all of the bulk sampies that were collectedfrom homogeneous areas of suspect ecM, along with the laboratory analytical results. Eachsample was given a unique sample number. TheIr material identihcation number identifies thehomogeneous areas of suspect ACM on these tables. The sample location listed on this tableprovides a brief, but specihc, description of the location where the sample was collected. Samplelocations are shown on Figure l.
Inaccessible Areas
All portions of the proposed renovation area were accessible for inspection.
CONCLUSIONS AND RECOMMENDATIONS
A limited asbestos survey was conducted at the John A. Dobson Arena on January 14, 2000. A
folion of the building is proposed for renovation. The survey was limited to marerials that mightbe disturbed during the renovation. Bulk samples were collected from suspect materials andanalyzed to deteffnine if they contained asbesios. All portions of the proposed renovation area
John A. Dobson Arena
Asbestos Survey Report
-3-IHI 00D-5021
were accessible for inspection' No materials were assumed to be asbestos-containing material(ACM).
No asbestos was identified in any of the materials sampled. None of the materials sampled areACM.
LIMITATIONS AND EXCLUSION OF WARRANTY
This astestos survey was performed using procedures and a level of diligence typically exercisedby professional consultants performing sirnilar services. However, asbesios-containing material(ACM) can be present in a structure, but not identified using ordinary investigative procedures.
]\'lo lbgstos survey can completely eliminate uncertainty regarding the presence of ACM. IHI,slevel ofdiligence and investigativi procedures are intendedlo redice, but not eliminate, potentialuncertainty regarding the presence of ACM. The procedures used for this survey auempt toestablish a balance between.the competing goab or nmitrng investigative costs, time, andbuilding damage, and reducing ttre uncertiiity about unknown
"onditionr. Therefore, thedeterminations in this report should not be construed as a guarantee that all ACM present in thesubject properties has been included in this report.
This report presents IHI's professional determinations, which are dependent upon informationobtained during performance of consulting services. IHI assumes no responsibility for omissionsor elrors resulting from inaccurate information provided by sources ou,rio" of IHL
No warranty or guarantee' expressed or implied, is made regarding the findings, conclusions, orrecommendations contained in this report. The limitations fr"r"ntlo above supersede therequirements or provisions of all othei contracts or scopes of work, implied or otherwise, exceptthose stated or acknowledged herein.
Iohn A. Dobson Arena
Asbestos Survey Report
i IHI 00D-5021
I q.l cf IHIJUIRoNMENTqL n{c + 3a3 eBe 2?13.
o
r.lo. 131
8H
3s
iet6
6H
EEot
aJs(Ezyo<tr>
9o: Z<zp3 St* 3sfi ?E
vt *,2
3 6;
- 5 HE
6l ff 'F
'gl * 9EtlJt ri uJ
Xl bl i)rli Z
?,
n
tl
tl
N7
trl
E
F
rfli
tdt ;-'l
I
l
I
i
'-lFa' I
v:*
EE
ln7i
=g
=
|a]l1b.te&+
EE
,F+i qp
lritttfJ
LJ
=
U)
(n
7_
F
O
-J
LtJ
J
o_
't-
TJu:f()
l-r-
oo
Appendix A
Data Table
Table 1
Non-Asbestos Containing lVlaterials by llomogeneous Area
hoposed Eastern Renovation Area
John A. Dobson Arena
VaiI, Colorado
Material
ID#
Material Material
M00l
M002
M003
M004
M005
M006
s00l
s002
Roofing protection
board
Wall filler
Ceiling tile
Wall system
Ceiling sysosm
Floor tile with nastic
Wallboard texture
Wallboard texnre
Asphaltic, black
Pink gravel
2' x 4', white, smooth
Painted brown
Painted white
12" x12", white tile with
yellow anstic
Brown, orangc peel
texture
White, orange peel
texture
Location
NE subtenanean roof
Inside precast tilt-up wall panels
SE of[rce
SE offrce; entry at SE ofEce
Resfooms, locker rooms, showers, and storaqe
Showers
SE offrce; entry at SE office
Restrooms, locker rooms, shower
John A. Dobson Areni
Asbestos Survey Report
Appendix A IHI00D-5021
Table 2
Bulk Sample Analytical Results
Proposed Eastern Renovation Area
John A. Dobson Arena
Vail, Colorado
Sample
Number
Malerial
ID Number
Sarple
Location
Analytical
Results
D-t
D-2
D-3
D4
D-5
D-6
D-7
D-8
D-9
D-10
D-lt
D-12
D-13
D-14
D-15
D-16
M00l
M002
M004
s00l
s00r
s00l
M003
M003
M003
M00s
s002
s002
s002
s002
s002
M006
I
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
NE comer (exterior)
SE corner of arena at stair
Closet entrance at SE stair
Closet entrance at SE stair
EnEancc to SE ofEce
SE office (west)
SE office (west)
SE office (center)
SE office (eas0
Men's restroom
Men's restroom
l,ocker room #l (center)
South shower (center)
Locker room #3 (center)
Nonh shower (center)
North shower (north
Notes:
ND = Ir[6ns nElected
John A. Dobson A:ena-
Asbestos Survey Report
Appendix A IHI 00D-5021
oo
Appendix B
Laboratory Analytical Reports
DCH SCIENCE IABORATORY, INC.
BI'LK ASBESTOS ANALYSIS - PAGE ]. OF 3
CLIENT:
IHI ENVIRONMEMAL
ASBESTIFORI{ MINERAL FIBERS :
CIIRYSOTILE
AI,TOSITE
CROCIDOLITE
?REMOLITE-ACTINOLITE
ANTTIOPTIELITE
TOTAL ASBESTOS:
TOTAL ASBESTOS CONTENT OF SAI{PLE
OTHER FIBROUS CONSTII'I'ENTS
NON-FIBROUS CONSTITT'ENTS
TOTAL PERCENTACE IDEMIFIED MATERIALS
0.0
0.0
0.0
D-2
0.0
0.0
0.00.0 0.00.0 0.0
0.0 0.0
0.0r 0.0r
TR
REcEtvEotEB
1s f,
ANALYSIS DATE: 2-15-00
RECEIPT DATE:2-L4-OO
7LL2 rl . JEFFERSON AVENUE #310 cLrEM JoB No.: 00D-5021
IAKEI{OOD, CO 80235 PROJECT TITLE: DOBSON AREIIA
PROJECT NLIMBER: IHIE3
PERCENIACE COMPOSITION By AREAAOLWE
DCU IAB NO.: -1R -2R
SAMPU DATE: 2-14-00 2-L4-00r oF sAl.rPLE: 100.0t 100.0r
CLIENT NO.: D-1
42.0
58.0 100.0
100.0 100.0
NOTES: SAI{PLE NO. l-R IS BTACK FIBROUS TAR/MULTICOLORED DEBRIS (INSEPARASLE).
SAI,IPLE NO. 2R IS TAN AND GREY CONCRETE PIASTER.
!r
DCM SCIENCE IABOMTORY, INC.
BULK ASBESTOS ANALYSIS - PACE 2 OF 3
CLIENT: ANALySIS DATE: 2_15-OOIHI NVIRONMENTAL RECEIpT DATE: 2-L4-OO7lI2 V. JEFFERSON AVENUE #310 CLIEM JOB NO.: 00D-5021
IAKEI{OOD, CO 80235 PROJECT TITLE: DOBSON ARENA
PROJECT NIJMBER: IHIE3
PERCENTAGE COMPOSITION BY AREAAOLWE
DcM IAB NO.: -3R-A -3R-B -3R-c
sAl.lPLE DATE: 2-L4-OO 2-14-00 2-I4-OOr oF sAl,rPIJ: 0.5r 2.0r 7.0r
CLIENT NO.: D-3 D-3 D-3
ASBESTIFORM I{INEML FIBERS :
CHRYSOTILE
AI,TOSITE
CROCIDOLITE
TRF.I{OLITE - ACTINOI.UTE .
ANTHOPTIYII]TE
TOTAL ASBESTOS:
TOTAL ASBESTOS CONTENT OF SAI.TPLE
OTHER FIBROUS CONSTITUENTS
NON-FIBROUS CONSTITUENTS
TOTAL PERCENTAGE IDENTIFIED UATERIALS
0.0
0.0
0.0
0.0
0.0
0.0
0.0s
0.0
100.0
.3R-D
2 -14- 00
18.0r
D-3
0.0
0.0
0.0
0.0
0.0
0.0
0.0
100.0
-3R-E
2-L4-OO
72.5*
D-3
0.0
0.0
0.0
0.0
0.0
0.0
0.0 0.00.0 0.00.0 0.00.0 0 .00.0 0.0
0.0 0.0
98 .0
2.O
97.O
3.O
2.O
98.0
100.0 100.0 100.0 100.0 100.0
NOTES: SAMPLE NO. 3R coNslsTs oF 5 PARTS. PART A Is TAN PAIM, PART B Is IIHITEFIBROUS MATERIAL, PART C IS BROI,IN FIBROUS MATERIAL, PART D IS WHITE PI.ASTER AND PARTE rs PrNK PIASTER. FOR CALCUIATTON OF TOTAL ASBESToS CONTENT Or SAMPLE, TRACE (TR)IS ASSWED TO BE 0.5T.
DCM Science Laboratory, Inc.
12421 W. 49th Avenue, Unit #6
Wheat Ridge, CO 80033
DCM Project No-: lHtE 3
Client Job No.: 000-5021
Bulk Sample Analysis
BULK SAMPLE ANALYSIS PROCEDURES:
John Silverman
eage 3 s1 a
P"9$^t:1"*:-!l!:r3t?g' Inc. analyzes bulk asbestos gamptes folowing procedures devetoped by theMcL'rone Kesearch Institute and in compliance with guidelines establishld by the Environmental FrotectionAgency (EPA600/R-93/1 16, Juty, 1993).
Bulk samples are prepared for analysis using a 10X-80X stereo microscope in a hepa filter hood which providesa contamination-free environment. The sample is then analyzed by polarized light microscopy (pLM) at'100i.when the sample consists_of.more than one'layer, each layer is prbiarea and inalyzed sepliaiety. Fiber anomatrix materials are identified by the characterization of opiicat pi'opbrties inciuoing color and pleochrorism,form, cleavage, relief, birefringence, extinction, orientation, twin;ini, interrerence figure and other distinguishingfeatures' Dispersion staining is also used to further aid in mineral identification. Alipercentager or
"ruE.ioi,other fibers and non-fibrous constituents are calculated from the values obtained from the stereo and pLM
mic-roscopes analysis. In-house and NIST standards as well as a chart prepared by R.D. Terry and G.V.chilinger for "The Journal of sedimentary petrotogy", (Votume za, pp. z)sil4, 1gss) provide a guide forestimating percentages. All samples are archiveJior iix months uniess other arrangements are made by theclient.
ACGREDITATION:
DCMSL.is. accredited by the AIHA (since 1986). Our accreditation number is 305. DCMSL was accredited byNVLAP (since April 1, j989). Our NVLAp Lab Code is 10i258.
ENDORSEMENT:
The results of this analvsis must not be used by the client to claim endorsement by NVLAp or any agency of theU.S. Government-
Th.is test report.relates only to the items tested. This report may not be reproduced except in full, without thewritten approval of the laboratory. The analysis was performed'by :
A- t5 -oo
Date
Ron Schott
Laboratory Director
Ron Schott
o
BI'IK
DCI.T SCIENCE IABORATORY, INC.
ASBESTOS ANALYSIS . PAGE 1 OF 4 -rjf*FlvEDtEB
1B s[
i"cL * --
CLIENT:
IHI E}IVIRONMENTAL
7LL2 V. JEFFERSON AVENUE #310
IAKEI|OOD, CO 80235
ANALYSIS DATE: 2-15-00
RECEIPT DATE: 2-L4-OO
CLIEM JOB NO.: 00D-5021
PROJECT TITU: DOBSON ARENA
PROJECT NI,I,IBER: IHIE4
DCM IAB NO. :
SAilPLE DATE:
I OF SAUPLE:
CLIENT NO.:
ASBESTIFORI.T UINEML FIBERS :
CHRYSOTII,E
AHOSITE
CROCIDOLITE
TR.EI.IOLITE -ACTINOLITE
ANTHOPTMJ,ITE
TOTAL ASBESTOS:
TOTAL ASBESTOS CONTENT OF SAI.TPLE
OTHER FIBROUS CONSTIIIJENTS
NON-FIBROUS CONSTITUENTS
TOTAL PERCE}ITAGE IDENTIFIED MATERIALS
PER.CENTAGE COMPOSITION BY AREAAOLIJME
-1R.A -lR-B
2-L4-OO 2-L4-OO4.0r 30.0rD-4 D-4
0.0 0.00.0 0.00.0 0.00.0 0.00.0 0.0
0.0
-LR-C
2-L4-OO
66.0$
D-4
0.0
0.0
0.0
0.0
0.0
0.00.0
0.0r
0.0
L00.0
96 .0
4.O
2.O
98 .0
l_00.0 100.0 100 .0
NOTES: SAI{PLE NO. lR cONsIsTs oF 3 PARTS. PART A Is TAN PAINT/WHITE PIASTER(INSEPARABI.E), PART B IS TAN FIBROUS MATERIAL AND PART C IS PINK PIASTER.
DCM SCIENCE IABOMTORY, INC.
BULK ASBESTOS ANALYSIS - PAGE 2 OF 4
CLIENT: ANALYSIS DATE: 2-15-ooIHI EI{VIRONI{EMAL RECEII'I DATE: Z-L4-OO
7LL2 W. JEFFERSON AVENUE #310 CLIENT JOB NO.: OOD-5021
IAKEI{ooD, co 80235 PROJECT TITLE: DOBSON ARENA
PROJECT NT'UBER: IHIE4
PERCENTAGE COMPOS ITION By AREA^OLWE
ASBESTIIORI{ UINERAL FIBERS :
CHRYSOTILE
AMOSITE
CROCIDOLITE
TREI.IOLITE.ACTINOLITE
ANTHOPIffLLITE
TOTAL ASBESTOS:
TOTAI ASBESTOS CONTENT OF SAMPLE
OTHER FIBROUS CONSTITUE}ITS
NON. FIBROUS CONSTITUENTS
TOTAL PERCENTAGE IDENTIFIED MATERIALS
DCM IAB NO.: -2R-A -2R-B
SAI.IPLE DATE: 2-L4-00 2-L4-00t OF SAI{PLE: 3.0t 45.0r
CLIEM NO.: D-5 D-5
0.0 0.00.0 0.00.0 0.00.0 0.00.0 0.0
0.0 0.0
0. 08
0.0
100.0
95.0
5.0
100.0 100.0 100.0
-2R-C
2-L4-O0
52.0r
D-5
0.0
0.0
0.0
0.0
0.0
0.0
2.O
98. O
NOTES: SMPLE NO. 2R coNslsTs oF 3 PARTS. PART A Is TA]I PAINTA.IHITE PIASTER(INSEPARABLE), PART B IS BROI{N A}TD WHITE FIBROUS I{ATERIAL AND PART C IS WHITEFIBROUS PI.ASTER.
DCT{ SCIENCE IABORATORY, INC.
BULK ASBESTOS ANALYSIS - PAGE 3 OF 4
CLIENT: ANALYSIS DATE: 2.15-ooIHI ENVIRoNMENTAL REGEIpI DATE: 2_L|_OO
7LL2 ll . JEFFERSoN AVENUE #310 CLIENT JOB NO.: 00D_5021
IAKEWOOD, CO 80235 PROJECT TITLE: DOBSON ARENA
PROJECT N{,I,!BER: IHIE4
PERCENTAGE COMPOSITION BY AREAAOLI'ME
ASBESTIFORI'T MINERAL FIBERS :
CHRYSOTILE
AUOSITE
CROCIDOLITE
TREMOLITE-ACTINOLITE
ANTIIOPITTIJ,ITE
TOTAL ASBESTOS:
TOTAL ASBESTOS CONTENT OF SAI.IPLE
OI'I{ER FIBROUS CONSTII'T'ENTS
NON-FIBROUS CONSTITUENTS
TOTAL PERCENTAGE IDEMIFIED MATERIALS
DCH IAB NO.: -3R-A -3R-B
SAMPLE DATE: 2-L4-OO 2-L4-00t OF SAMPLE: 4.0r 45.0c
CLIEM No.: D-6 D-6
0.0 0.00.0 0.00.0 0.00.0 0.00.0 0.0
0.0 0.0
0.0*
0.0
100.0
2.0
98.O
100.0 100.0 100.0
-3R-C
2-t4-OO
51 .0r
D-6
0.0
0.0
0.0
0.0
0.0
0.0
97.0
3.0
NOTES: SAMPLE NO. 3R coNslsTs oF 3 PARTS. PART A Is TAN PAINT, PART B Is WHITEFIBROUS PIASTER AND PART C IS BROI.IN FIBROUS UATERIAL.
DCM Science Laboratory, Inc. analyzes bulk asbestos samples following procedures developed by theMcCrone Research Institute and in compliance with guidelines establish-ed by the Environmental protection
Agency (EPA€00/R-93/1 16, Juty, 1993).
Bulk samples are prepared for analysis'using a 10X-80X stereo microscope in a hepa filter hood which provides
a contamination-free environment. The sample is then analyzed by polarized light microscopy (pLM) at 100X.When the sample consists of.more than one layer, each layer is preiareo and inagzed sepiiaiety. Fiber andmatrix materials are identified by the characterization of opiicat piop'erties including color aird peotnrorism,form, cleavage, relief, birefringence, extinction, orientation, twin;in;, interference figure and other distinguishingfeatures. Dispersion staining is also used to further aid in mineral id-entification. Ali-percentages of asb6stos,other fibers and non-fibrous constituents are calculated from the values obtained from the stereo and pLM
m.icroscopes analysis. In-house and NIST standards as well as a chart prepared by R.D. Terry and G.V.Chilinger for "The Journal of Sedimentary Petrology", (Volume zl, pp. zis-ill, 195S) provide a guide forestimating percentages. All samples are archived ior six months uniess other arrangements arJmade by theclient.
DCM Science Laboratory, Inc.
12421 W.49th Avenue. Unit #6
Wheat Ridge, CO 80033
DCil Project No.: lHlE 4
Client Job No.: 00D-5021
Bulk Sample Analysis
BULK SAMPLE ANALYSIS PROCEDURES;eage t{ ot I
ACCREDITATION:
DCM-S-L is accredited by the AIHA (since 1986). Our accreditation number is 305. DCMSL was accredited byNVLAP (since Aprit 1, 1989). Our NVLAp Lab Code is 1 01258.
John Silverman
Ron Schott
Laboralory Director
ENDORSEMENT:
The results of this analysis must not be used bythe client to claim endorsement by NVLAp or any agency of theU.S. Government.
This test report.relates only to the items tested. This report may not be reproduced except in full, without thewritten approval of the laboratory. The analysis was performed'by :
Date
DCI'I SCIENCE IABORATORY, INC.
BI'IJ< ASBESTOS ANALYSIS - PAGE 1 OF 3
f\att
.-o.tL$ t "
,,, r''($=' 1"''
v''CLIEM:
IHI ENVIRONI.TEMAL
7LI2 V. JEFFERSON AVENUE #31O
IAKEWOOD, CO 80235
AI,IALYSIS DATE: 2-15-00
RECEIPI DATE: 2-L4-OO
CLIEM JoB NO.: 00D-5021
PROIECT TITLE: DOBSoN ARENA
PROJECT NIIMBER: IHIE5
.lR-A .1R.8 -2R.A
2-14-00 2-14-00 2-L4-OO2.0* 98.01 2.0rD-7 D-7 D-8
PERCENTACE COMPOSITION By AREAAOLIJME
DCM IAB NO.:
SAI{PLE DATE:
I OF SAIPLE:
CLIEM NO.:
ASBESTITORH MINEML FIBERS:
CHRYSOTILE
AMOSITE
CROCIDOLITE
TR.EI.{OLITE. ACTINOLITE
ANTHOPHYLLITE
TOTAL ASBESTOS:
TOTAL ASBESTOS CONTENT OF SAMPLE
OTHER FIBROUS CONSTITUEMS
NON- FIBROUS CONSTITT'EI,ITS
TOTAL PERCENTACE IDEMIFIED MATERIALS
0.0
0.0
0.0
0-0
0.0
0.0
0.0r
IR
100.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0r
TR
100.0
-2R-B
2-L4-OO
2.0r
D-8
0.0
0.0
0.0
0.0
0.0
0.0
-2R-C
2-L4-OO
96.0r
D-8
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
75.O
25.0
60.0
40.0
75.O
25.O
100.0 100.0 100.0 100.0 100.0
NOTES: SA}TPLE NO. 1R CONSISTS OF 2 PARTS. PART A IS WHITE PAINT AND PART B IS TANFIBROUS, PERLITIC MATERIAL. SAI.{PLE NO. 2R CONSISTS OF 3 PARTS. PART A IS WTITEPAINT' PART B IS BROWN FIBROUS RESIN AND PART C IS TAN FIBROUS, PERLITIC MATERIAL.
7LL2 U. JEFFERSON AVENUE #310 CLIENI JoB NO.: OOD-5021
IAKEWOOD, Co 80235 PROJECT TITLE: DOBSON ARENA
PROJECT NI,,MBER: IHIE5
PERCEMACE COI{POSITION By AREAAOLTTME
DCM IAB NO.: -3R-A -3R-B -3R-C
SN{PLE DATE: 2-L4-OO 2-L4-OO 2-14-00t oF SAHPLE: 1.0t 3.0s 9G.0r
CLIEM NO.: D-9 D-9 D-9
ASBESTIFORM MINERAL FIBERS :CHRYSOTTLE o.o 0.0 o.oAtrosITE o.o o.o o-ocRocrDolrrE 0.0 0.0 0.0TREI,IOLITE-ACTINOLITE O. O O. O O. OANfitOPrm.LrrE o. o 0. o o. o
TOTAL ASBESTOS: O.O 0.0 O.O
TOTAL ASBESTOS CONTEI{T OF SAI{PLE O.O*
CLIENT:
IHI ENVIRONUENTAL
OTHER FIBROUS CONSTITUENTS
NON.FIBROUS CONSTITUENTS
DCI.T SCIENCE IABORATORY, INC.
BI'LK ASBESTOS ANALYSIS - PAGE 2 OF 3
ANALYSIS DATE: 2-15-OO
RECEIPT DATE: 2-14-OO
TR
100.0
60.0
40-0
75.O
25.0
TOTAL PERCE}TTAGE IDEMIFIED MATERIAIS IOO, O lOO. O -- 1OO. O
NOTES: SAI'{PLE NO. 3R CONSISTS OF 3 PARTS, PART A IS WHITE PAINT, PART B IS BROWNFIBROUS RESIN AND PART C IS TAN FIBROUS, PERLITIC MATERIAL.
DCM Science Laboratory, Inc.
12421 W.49th Avenue. Unit#6
Wheat Ridge, CO 80033
DCtll Project No.: lHlE 5
Client Job No.: 00D5021
Bulk Sample Analysis
BULK SAMPLE ANALYSIS PROCEDURES:Pase .3 of 3
DCM Science Laboratory, Inc. analyzes bulk asbestos samples following procedures developed by the
McCrone Research lnstitute and in compliance with guidetines established by the Environmental Protection
Agency (EPA-600/R-93/1 16, Juty, 1993).
Bulk samples are prepared for analysis using a 10X-80X stereo microscope in a hepa filter hood which provides
a contamination-free environment. The sample is then analyzed by polarized light microscopy (PLM) at 100X.
When the sample consists of more than one layer, each layer is pr'epared and inalyzed sepbiaiely. Fiber and
matrix materials are identified by the characterization of optical properties including color and pleochrorism,
form, cleavage, relief, birefringence, extinction, orientation, twinning, interference figure and oiher distinguishing
features. Dispersion staining is also used to further aid in mineral identification. All percentages of asbistos,
other fibers and non-fibrous constituents are calculated from the values obtained from the stereo and pLM
microscopes analysis. In-house and NIST standards as well as a chart prepared by R.D. Terry and G.V.
Chilinger for "The Journal of Sedimentary Petrology", (Volume 24, pp.22g-i94 19S5) provide a guide for
estimating percentages. All samples are archived for six months unless other anangements are made by the
client.
ACGREDITATION:
DCMSL is accredited by the AIHA (since 1986). Our accreditation number is 305. DCMSL was accredited bv
NVLAP (since April 1, 1989). Our NVLAp Lab Code is 1O12SB.
ENDORSEMENT:
The results of this analysis must not be used by the client to claim endorsement by NVLAP or any agency of the
U.S. Government.
Th.is test report.relates only to the items tested. This report may not be reproduced except in full, without the
written approval of the laboratory. The analysis was performed by :
John Silverman
,..,)
/-tt'i, ,2ft'*+?
- Ron Schott
Roberl Wagner
a-t3-oo
Date
Ron Schott
Laboratory Oirector
DCM SCIENCE IABORATORY, INC.
BI'LK ASBESTOS ANALYSIS '. PAGE 1 OF 2
PERCENTAGE COMPOSITION BY AREAAOLWE
DCU IAB NO.: -lR-A -1R-B
SAI{PLE DATE: 2-14-00 2-14-00
t OF SAl.tpLE: 3.0t 6.0r
CLIENI NO.: D-10 D-10
ASBESTIFOR!.I HINERAL FIBERS:CHRYSOTILE O.O O.OAl,tosITE o. o o. oCROCIDOLITE O.O O.OIX,EI.TOLITE-ACTINOLITE O. O O. OAIITI{oPLYLLITE o. o o. o
T0TAL ASBESTOS: O.O O.O
TOTAL ASBESTOS CONTENT OF SAI{PLE O.Ot
CLIEM:
IHI EIT{VIRONMEMAL
7LL2 IT. JEFFERSON AVENUE #31O
TAKEWOOD, CO 80235
OTHER FIBROUS CONSTIII'ENTS
NON- FIBROUS CONSTITUEMTS
TOTAL PERCENTAGE IDEMIFIED MATERIALS
ANALYSIS DATE: 2-15-OO
RECEIFI DATE: 2-14-00
CLIEM JoB No.: 00D-5021
PROJECT TITLE: DOBSON ARENA
PROJECT NUUBER: IHIE6
-I_R-C
2-14-00
12.0r
D-l_0
0.0
0.0
0.0
0.0
0.0
0.0
-LR-D
2-L4-OO
79.0*
D-10
0.0
0.0
0.0
0.0
0.0
0.0
0.0
L00.0
0.0
100. 0
96 .0
4.O
5.0
95.O
100 .0 l_00 . 0 100 . 0
NOTES: SAI{PLE NO. lR CONSISTS oF 4 PARTS. PART A Is I.IHITE PAIM,PlasrER' PART c rs BRowN AND l,ll{rrE FrBRous MATERTAL AND PART D rs
100 .0
PART B IS I,IHITE
TAN PIASTER.
DCM Science Laboratory, lnc.
12421 W. 49th Avenue, Unit #6
Wheat Ridge, CO 80033
DCM Project No.: lHlE 6
Glient Job No.: 000-5021
Bulk Sample Analysis
BULK SAMPLE ANALYSIS PROCEDURES:Page ?-ot )
DCM Science Laboratory, Inc. analyzes bulk asbestos samples following procedures developed by the
McCrone Research Institute and in compliance with guidelines establishld by the Environmental protection
Agency (EPA-600/R-93/1 16, Juty, 1993).
Bulk samples are prepared for analysis using a 10X-B0X stereo microscope in a hepa filter hood which provides
a contamination-free environment. The sample is then analyzed by polarized light microscopy (PLM) af 100X.
When the sample consists of more than one layer, each layer is pr'epared and Jnalyzed sepbiaiety. Fiber and
matrix materials are identifie<! by the characterization of optical properties including color and pleochrorism,
form, cleavage, relief, birefringence, extinction, orientation, twinning, interference figure and oiher distinguiihing
features. Dispersion staining is also used to further aid in mineral identification. Alipercentages of asb6stos,
other fibers and non-fibrous constituents are calculated from the values obtained from the stereo and pLM
microscopes analysis. In-house and NIST standards as well as a chart prepared by R.D. Terry and G.V.
Chilinger for "The Journal of Sedimentary Petrology", (Volume 24, pp. 229-234, 1955) provide a guide for
estimating percentag€s. All samples are archived for six months unless other arrangements arehade by the
client.
ACCREDITATION:
DCMSL is accredited by the AIHA (since 1986). Our accreditation number is 305. DCMSL was accredited bv
NVLAP (since April 1 , 1 989). Our NVLAp Lab Code is 1Ot 2S8.
ENDORSEMENT:
Th_e results of this analysis must not be used by the client to claim endorsement by NVLAp or any agency of the
U.S. Government.
This test report relates only to the items tested. This report may not be reproduced except in full, without the
written approval of the laboratory. The analysis was performed by :
John Silverman Robert Wagner
&-(5-oo
Ron Schott
Laboratory Oirector
DCM SCIENCE I-ASORATORY, INC.
BUII( ASBESTOS ANALYSIS - PACE 1 OF 4
CLIENT:
IHI ENVIRONMENTAL
7LL2 W. JEFFERSON AVENUE #310
IAKEWOOD, CO 80235
PERCENTAGE COMPOSITION By AREAAOLUME
DCM IAB NO. :
SAI{PLE DATE:
t OF SMPLE:
CLIENT NO.:
ASBESTIFORM I.TINERAL FIBERS :
CHRYSOTILE
AI'{OSITE
CROCIDOLITE
TREfiOLITE-ACTINOLITE
ANTHOPHTLLITE
TOTAL ASBESTOS:
TOTAL ASBESTOS CONTENT OF SAI.TPLE
OTHER FIBROUS CONSTII'UENTS
NON.FIBROUS CONSTITUEMS
TOTAL PERCENTAGE IDEMIFIED I,IATERIALS
NOTES: SAIPLES NO. lR AND 2R CONSIST
AND PART B IS WHITE RESINOUS PAINT.
0.0
0.0
0.0
0.0
0.0
0.0
0.0*
95.0
5.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
100.0
100.0 l_00. 0
OF 2 PARTS. PART A
100.0 100.0
IS GREEN FIBROUS MATERIAL
BEoO\EStt's
1t '
0.0 0.00.0 0.00.0 0.00.o 0.00.0 0.0
0.0 0.0
0.0r
95.0 0.0
5.0 100.0
ANALYSIS DATE: 2-15-00
RECEIPT DATE:2-14-OO
oLIEM JoB NO.: 00D-5021
PROJECT TITLE: DOBSON ARENA
PROJECT NIIMBER: IHIET
-IR-A -1R.8 .2R-A -2R-B
2-t4-OO 2-L4-00 2-1,4-00 2-L4-0010.0r 90.08 8.0r 92.0tD-11 D-11 D-Lz D-I2
DCM SCIENCE IABORATORY, INC,
BI'IX ASBESTOS ANALYSIS - PACE 2 OF 4
CLIENT:
IHI ENVIRON}.TEMAL
7LT2 U. JEFFERSON AVENUE #310
LAKETJooD, co 80235
ANALYSIS DATE: 2-15-00
RECEIFT DATE: 2-I4-OO
CLIFi{T JoB N0.: 00D-5021
PROJECT TITLE: DOBSON ARENA
PROJECT NTJI{BER: IHIET
DCM IAB NO,:
SA}IPLE DATE:
t OF SA.MPLE:
CLIENT NO.:
ASBESTIFORM MINERAI, FIBERS :
CHRYSOTILE
AI,IOSITE
CROCIDOLITE
TREMOLITE-ACTINOLITE
ANTHOPFIrI.I.ITE
TOTAL ASBESTOS:
TOTAL ASBESTOS CONTENT OF SAUPLE
OTHER FIBROUS CONSTITUENTS
NON-FIBROUS CONSTITUENTS
TOTAI PERCENTAGE IDENTIFIED MATERIAI^S
PERCENTAGE COMPOSITION By AREAAOLWE
.3R-A -3R.8
2-L4-OO 2-L4-000.51 99. 5r
D- 1_3 D- 13
0.0
0.0
0.0
0.0
0.0
0.0
0.0r
0.0
100.0
0.0
100.0
-4R-A
2-L4-OO
15.08
D- 14
0.0
0.0
0.0
0.0
0.0
0.0
0.0r
0.0
100.0
-4R-B
2-14-OO
85 .0r
D- 14
0.0
0.0
0.0
0.0
0.0
0.0
96.0
4.0
0.0
0.0
0.0
0.0
0.0
0.0
100.0 100.0 100.0 100.0
NOTES: SAMPLE NO. 3R CONSISTS OF 2 PARTS. PART A IS WHITE PIASTER AND PART B ISWHITE RESINOUS PAINT. SAI.IPLE NO. 4R CONSISTS OF 2 PARTS. PART A IS WHITE RESINOUSPAINT AND PART B IS BROWN FIBROUS MATERIALA{HITE PIASTER (INSEPARABLE). FORCALCUIATION oF ToTAL ASBESTOS CoNTENT OF sAl{PLE, TRACE (TR) Is ASSIIMED To BE 0.5r.
DCI{ SCTENCE IABOMTORY, INC.
BUIX ASBESTOS ANALYSIS - PAGE 3 OF 4
PERCENTAGE COMPOSITION BY AREAAOLWE
DCM IAB N0.: -5R-A -5R-B
SAUPLE DATE: 2-14-00 2-L4-OO
t OF SAI.IPLE: 8.0t 92.0t
CLIENT NO.: D-15 D-t-5
ASBESTIFORI.I MINEML FIBERS:CHRYSOTIIJ o.o 0.0AMOSTTE 0.0 0.0CROCIDOLITE O.O O.OTREMOLITE.ACTINOLITE O.O O.OANTHOPTTYLLITE O.O O.O
CLIENT:
IHI ENVIRONUENTAL
7112 I{. JEFFERSON AVENUE
IAKEWOOD, CO 80235
TOTAL ASBESTOS:
TOTAL ASBESTOS CONTENT OF SAUPLE
OTIIER FIBROUS CONSTITUENTS
NON-FIBROUS CONSTITUENTS
TOTAL PERCENTACE IDEMIFIED MATERIALS
ANALYSIS DATE: 2-15-00
RECEIPT DATE: 2-L4-OO#310 CLIENT JOB NO.: 00D-5021
PRO'ECT TITLE: DOBSON ARENA
PROJECT NIIMBER: IHIET
0.0
0.0r.
98.0 0.0
2.0 l-00.0
FIBROUS MATERIAL AND
0.0
100.0 100.0
NOTES: SAMPLE NO. 5R coNslsTs oF 2 PARTS. PART A Is I{HITE
PART B IS I{HITE RESINOUS PAIMAII{ITE PIASTER (INSEPARABLE).
DCM Science Laboratory, Inc.
12421 W.49th Avenue, Unit #6
Wheat Ridge, CO 80033
DCM Project No.: lHlE 7
Client Job No.: 00D-5021
Bulk Sample Analysis
BULK SAMPLE ANALYSIS PROCEDURES:Paae el of tJ
D.CM Science Laboratory, Inc. analyzes bulk asbestos samples following procedures developed by the
McCrone Research Institute and in compliance with guidelines establishid by the Environmental protection
Agency (EPA-600/R-93/1 16, Juty, 1 993).
Bulk samples are prepared for analysis using a 10X-80X stereo microscope in a hepa filter hood which provides
a contamination-free environment. The sample is then analyzed by polarized light microscopy (pLM) at 100X.When the sample consists of.more than one layer, each layer is prepareo and inalyzed sepbiaiety. rio",
"nOnlatrix materials are identified by the characterization of opiicat piop'erties including color and pleochrorism,
form, cleavage, relief, birefringence, extinction, orientation, twinirini, interference frgure and oiher distinguishingfeatures. Dispersion staining is also used to further aid in mineral identification. Alipercentages of asuEstos,other fibers and non-fibrous constituents are calculated from the values obtained from the steleo and pLM
mictoscopes analysis. In-house and NIST standards as well as a chart prepared by R.D. Terry and G.V.chilinger for "The Journat of sedimentary petrotogy,,, (volume zt, pp. z)s-i24, 1955) provide a guide forestimating percentages. All samples are archived ior six months unless other anangements are made by theclient.
ENDORSEMENT:
The results of this analysis must not be used by the client to claim endorsement by NVLAp or any agency of theU.S. Government.
This test report.relates.only to the items tested. This report may not be reproduced except in full, without thewritten approval of the laboratory. The analysis was performed'by :
ACCREDITATION:
DCM^S_L is. accredited by the AIHA (since 1986). our accreditation number is 305. DCMSL was accredited byNVLAP (since April 1, 1989). Our NVLAp Lab Code is 1012S8.
John Silverman
J-/s^od
Ron Schott
Laboratory Director
DCM SCIENCE IABOMTORY, INC.
BI'LK ASBESTOS ANALYSIS - PAGE 1 OF 2
CLIEM:
IHI ENVIRONI{ENTAL
7112 W. JEFFER,SON AVENUE #310
IAKET.IOOD, CO 80235
PERCENTAGE COMPOSITION BY AREAAOLIJI.TE
DCM IAB NO.: -lR
SAMPLE DATE: 2-L4-0O
t oF sAl{PLE: 100.0r
GLIENT NO.: D-16
ASBESTITORM MINERAL FIBERS :
CHRYSOTILE
AI.IOSITE
CROCIDOLITE
IR.EMOLITE.ACTINOLI'T i]
A}Til{OPHYI,tr,ITE
TOTAI ASBESTOS:
TOTAL ASBESTOS CONTENT OF SAI,TPLE
OTHER FIBROUS CONSTITI'ENTS
NON-FIBROUS CONSTITUENTS
TOTAL PERCENTAGE IDENTIFIED MATERIALS 100.0
NOTES: SA.ITPLE NO. lR IS WHITE TILE/BRoiIN RESIN (INSEPARABLE),
-FF$'t"?:-^f-r\rgf\ l'Li: t
Dltr[.E-i c '--"
ANALYSIS DATE: 2-15-00
RECEIPT DATE:2-L4-O0
CLIENT JOB NO.: 00D-5021
PROJECT TITLE: DOBSON ARENA
PROJECT NIJMBER: IHIES
0.0
0.0
0.0
0.0
0.0
0.0
0. 0*
0.0
100.0
DCM Science Laboratory, Inc.
12421 W.49th Avenue. Unit l*6
Wheat Ridge, CO 80033
OCM Project No.: lHlE I
Client Job No.: 00D-5021
Bulk Sample Analysis
BULK SAMPLE ANALYSIS PROCEDURES:
John Silverman Robert Wagner
Pase Aot a
DCIVI Science Laboratory, Inc. analyzes bulk asbestos samples following procedures developed by theMcCrone Research Institute and in compliance with guidelines establish-ed by the Environmental protection
Agency (EPA-600/R-93/1 16, Juty, 1993).
Bulk samples are, prepared for analysis using a 10X-80X stereo microscope in a hepa filter hood which provioes
a contamination-free environment. The sample is then analyzed by polarized light microscopy (pLM) rt'toOi.When the sample consists_of. more than one layer, each layer is prepared and analyzed sepiiaiety. Fiber andmatrix materials are identified by the characterization rr opiical properties including'color and pleochrorism,form, cleavage, relief, birefringence, extinction, orientaiion, twinning, interference igure and oiher distinguisningfeatures. Dispersion staining is also used to further aid in mineral identification. All percentages of asb6stos,other fibers and non-fibrous constituents are calculated from the values obtained from the stereo and pLM
microscopes analysis. In-house and NIST standards as well as a cha( prepared by R.D. Terry and G.V.Chilinger for "The Journal of Sedimentary Petrology", (volume zt, pp. z)s-ila, 1955) provide a guide forestimating percentages' All samples are archiveJior six months unless other arrangements are made by theclient.
ACCREDITATION:
DCMS-L is accredited by the AIHA (since 1986). our accreditation number is 305. DCMSL was accredited byNVLAP (since Aprit 1, 1989). Our NVLAp Lab Code is 1012S8.
ENDORSEMENT:
The results of this analysis must not be used by the client to claim endorsement by NVLAP or any agency of theU.S. Government.
This test report relates only to the items tested. This report may not be reproduced except in full, without thewritten approval of the laboratory. The analysis was performed'by .
J-t5-oo
Oale
Ron Schott
Laboratory Oirector
- z:iq- aJ '+':zt)
tHl
ENVIRONMENTAL
ANALYTICAL REQUEST
Jie3 qD55l
\l---
FORM
Requested ny: ,x=F KytOT)tB\ rHt project N
Sampling t,,"' Date: Z-
Laboratory Name: -DCi1,\
. Telephone:
Address:
RUSH: No E yes(B-Due: Z+ tf?
.: e)D1o4
Analysis / Sample
eSStv€-
SAMPLE TRANSFER RECORD CHAIN OF CUSTOD
Lab Resufts (atong with this completed form) should be sent to:
7112w' JEFFERSoN Av€. #310 LAKEwooD. co 8023s TELE'HoNE: 303.980.8749 FAx: 303.9892716
Sionature Transfer Reason
ANAL
=4=-tHl
ENVIRONMENTAL
YTICAL REOUEST
lHl Projec{ No.; @0 -5e?l:-
Date: zll4\oo
-
Telephone:
FORM
Requested by:
Sampling Site:
Laboratory Name:
Address:
RUSH: No E yesE--Due: 24 /+e-
Sample Field
Number
Laboratory
Number
Type Sample Volume
(Liters)
Analysis / Sample
DpscriptionAirBulk
D^ ta s.?\M ( -Qnq"eEuu'.
-13 P" '.-l 0utt-(4
/ -t5 I
D- tt \/I
\
\
\
\
Comments:
SAMPLE TRANSFER RECORD CHAIN OF CUSTODY
Lab Results (along with this completed /orm) should be sent to:
Transfer Fleason
7112w' JEFFERS.N AvE. #310 L,AKEwooo. co Bo23s rE[€pr-,oNE: 303.980"g749 FAX: 303.9892716
ENVIR
I
ENTAL
IH
ONM
Prepared By:
-_2__,- roa-
Clayon E. McFall
Asbestos Specialist
Asbestos Survey of
Proposed Eastern Renovation Area
John A. Dobson Arena
Vail, Colorado
February 25,2W
Submitted to:
Vail Recreation District
292West Meadow Drive
Vail, Colorado 81657
Colorado Asbestos Inspector #2690
TELEpiror,tE 303.J8J.8i49 FAX 303.989,2716
pH/:rF* t DENVER
Joseph H. Knowles
Environmental Specialist
Colorado Asbestos Inspector #836g
7112 WEST JEFFERSON AV€ , I31O
SALT LAKE CiTY
LAKEVJOCD CO 80235
EENK€TEY
o
Asbestos Survey of
Proposed Eastern Renovation Area
John A. Dobson Arena
Vail, Colorado
Executive Summary
A limited asbestos survey was conducted at the John A. Dobson Arena on January 14, 2000. The
eastern portion of the building is proposed for renovation. The survey was restricted to materialsthat might be disturbed during the renovation. Bulk samples were coilected from suspectmaterials and analyzed to determine if they contained asbestos. All portions of the proposedrenovation area were accessible for inspection. No materials were assumed to be asbestos-containing material (ACM).
Sheeuock walls and ceilings are reported as composite "systems". Further information can befound in the attached report. No asbestos was iaentifiea in any of the materials sampled. None ofthe materials sampled are ACM.
John A. Dobson Areni
Asbestos Survey Report
Executive Summary IHI 00D-5021
Asbestos Survey of
Proposed Eastern Renovation Area
John A. Dobson Arena
Vail, Colorado
Table of Contents
Figures
I Sampte Locations
Appendices
A Data Tables
B l-aboratory Analytical Reports
Asbestos Survey of
Proposed Eastern Renovation Area
John A. Dobson Arena
Vail. Colorado
INTRODUCTION
A limited asbestos survey was conducted at the John A. Dobson Arena on January 14, 2000. Theeastern portion of the building is proposed for renovation. The survey was restricted to materialsthat might be disturbed during the renovation. Bulk samples *"."
"oil""t"d from suspectmaterials and analyzed to determine if they contained astestos. AII portions of the proposedrenovation a-rea were accessible for inspectiou. No materials were assumed to be asbestos-containing material (ACM).
BUILDING DESCRIPTIONS
John A. Dobson Arena
Building Construction
Structural System .. Masonry; steel frame
Exterior Wall Construction ......... Concrete; concrete panel
Floor Deck Construction Concrete
Roof Deck Construction Not observed
Roof Construction ....................... Not observed
Floors
Floors Above Grade .................... I Floors Below Grade .................... I
Interior Finishes
Floors .......... ......... Rubber; unpainted concrete; floor tileWalls ........... ......... painted concrete; painted masonry block; painted
ceilings fffillo**n,
Attic ............. .......... NoneBasement ............... None
Building Mechanical
Heating Plant ............. Forced air
Main Heating Distribution .......... Metal ducrs
Cooling Plant ............ Not observed
Main A/C Distribution.. Metal ducts
John A. Dobson Arena
Asbestos Survey Report
-1-IHI 00D-502r
SURVEY PROCEDURES
Building Survey
The facility was visually inspected for suspect ACM. All surfaces, structures, and mechanical
systems in the areas proposed for renovation were examined. AII suspected ACM was touched todetermine friability.
Suspect ACM was identified and assessed in homogeneous areas. A homogeneous area isdefined as a single material, uniform in texture and appearance, installed at one time, andunlikely to consist of more than one type, or formulaiion, of material. In cases where joint
gompound and./or tape has been applied to wallboard and cannot be visually distinguiihed fromthe wallboard, it is considered an integral part of the wallboard and in effect becomes onematerial forming a wall or ceiling ,.system".
Each homogeneous area was given a unique material identification (ID) number. Each IDnumber begins with a letter: "S" for surfacing materials, "T" for thermi system insulation, or"M" for miscellaneous materials. A three-digit number, assigned in consecutive order followsthis letter' This number is used to identify thi homogeneous area throughout the inspectionreport. A material ID number followed by an "A", ,.B", ..c," etc. designates a specific componentof the multilayered material
Bulk Sample Collection
Bulk samples were obtained from all homogeneous areas of suspect ACM. Sampling wasconducted in a manner that minimized damage to the building uno aio not create a health hazardfor inspectors or other visitors to the buildin;. h cases where joint compound and./or tape could
no.t be visually distinguished from the wallboard, it was sampled as an integral part of the wall orceiling "system".
Bulk Sample Analysis
Bulk s-amples were analyzed using polarized light microscopy (pLM) and visual esrimation inaccordance with the EpA Method 600/R-93/r 16. DCM science Laboratory, Inc. (DCM), ofWheatridge, Colorado, analyzed the samples. DCM is accredited under rhe National Institute ofS_tandardsand rechnorogy - National votuntary Laboratory Accreditation program (NIST-NVLAP) for bulk-asbestos sample analysis, accreditation *totzss. The laboratory reports can befound in Appendix B of this report.
SURVEY RESULTS
Asbestos-Containing Materials
The EPA defines homogeneous areas of suspect materials as ACM if the laboratory analysisshows the material to contain greater than r% asbestos. with a few exceptions, ACM must beremoved prior to demolition or renovation and appropriate steps must betaken to protect workers
John A. Dobson Arena
Asbestos Survey Report
-2-rHI 00D-5021
and the sulrounding environment. However, materials that contain between a trace and lTo
asbestos, though not defined as ACM, may present a potential hazard for workers and anydisturbance of the material may be regulated by OSHA.
Friability is defined in accordance with EpA's NESHAPS regularions.
"Friable ACM" is any material containing more than 17o asbestos (as determined byPLM) that, when dry, may be crumbled, pulverized, or reduced to powder ry handpressure.
"Non-friable ACM" is any material containing more than 17o asbestos (as determined byPLM) that, when dry, cannor be crumbled, pulverized, or reduced to powder by
hand pressure.
"Category I non-friable A(-l{" are asbestos-containing resilient floor coverrngs(commonly known as vinyl asbestos tile (VAT) and sheet vinyl), asphalt roofingproducts, packings, and gaskets.
"category II non-friable ACM" encompasses aI other non-friable ACM.
Materials Not Containing Asbestos
Homogeneous areas of suspect materials are identified as nonasbestos-containing materials if thelaboratory analysis shows the material to contain no detectable amount of asbestos. Table Ilocated in Appendix A of this report, Iists all homogeneous areas that were found to be non-asbestos containing materials.
Bulk Sample Analytical Results
Tables 2, located in Appendix A of this report, lists all of the buik samples that were collectedfrom homogeneous a-reas of suspect ACM, along with the laboratory analytical results. Eachsample was given a unique sample number. Their material identifrcation number identifies thehomogeneous areas of suspect ACM on these tables. The sample location listed on this tableprovides a brief, but specific, description of the location where the sample was collected. Samplelocations are shown on Figure l.
lnaccessible Areas
All portions of the proposed renovation area were accessibre for inspection.
CONCLUSIONS AND RECOMMENDATIONS
A limited-asbestos survey was conducted at the John A. Dobson Arena on January 14, 2000. Aportlon of the building is proposed for renovation. The survey was limited to materials that mightbe disturbed during the renovation. Bulk samples were collected from suspect materials andanalyzed to determine if they contained asbesios. All portions of the proposed renovation area
John A. Dobson Arena
Asbestos Survey Report
-J-IHI 00D-5021
were accessible for inspection. No materials were assumed to be asbestos-containing material(ACM).
No asbestos was identified in any of the materials sampled. None of the materials sampled areACM.
LIMITATIONS AND EXCLUSION OF WARRANTY
This astestos survey wits performed using procedures and a level of diligence typically exercisedby professional consultants performing ri*itar services. However, asbesios-containing material(ACM) can be present in a structure, but not identified using ordinary investigative procedures.
]tto 1fstos survey can completely eliminate uncertainty regarding the presence of ACM. IHI,sIevel ofdiligence and investigative procedures are intendedlo redice, bu, not eliminate, potentialuncertainty regarding the presence of ACM. The procedures used for this survey attempt toestablish a balance between.the competing goas or nmiting investigative costs, time, andbuilding damage, and reducing tne uncertainty about unknown.onditionr. Therefore, thedeterminations.in this report should not be construed as a guarantee that all ACM present in thesubject properties has been included in this report.
This report presents IHI'S professional determinations, which are dependent upon informationobtained during performance of consulting services. IHI assumes no responsibility for omissionsor errors resulting from inaccurate information provided by sources outrid" of IHI.
No warranty or gua.rantee, expressed or implied, is made regarding the findings, conclusions, orrecommendations contained in this report. The limitations presented above supersede therequirements or provisions of all other contracts or scopes of work, implied or otherwise, exceptthose stated or acknowledged herein.
John A. Dobson Arena
Asbestos Survey Report
4-IHI 00D-5021
15:19 r.fl.ruIRoNNENrcL INc + 3a3 eae n\"'a
O
N0. 131
8H
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-----lIllxl !' | fr'r!6i !iel X:iitqti otT - |I f lr iI rn ielF----J ,,\; i?] r* ,/i roj : 9=L ,/s= (I .i -i
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oI
Appendix A
Data Table
Table I
Non-Asbestos Containing lVlateriats by Homogeneous Area
Proposed Eastern Renovation Area
John A. Dobson Arena
Vail, Colorado
Material MaterialrYrarcr ran Matenal Materialtt\ .4
M00l Roofing protection Asphaltic, black NE subterranean roof
board
M002 WaI filler pink gravel Inside precast tilr_up walt panelsM003 Ceiling tile 2' x 4'. white, smootn
M004 Wall system painted brown
SE office
SE office; entry at SE officeM005 ceiling system Painted white Resaooms, locker rooms, showers, and storageM006 Floor tile with mastic l2', x L2,,, white tile with Showers
yellow mastic
S00l Wallboard texture Brown, orange peel SE office; entry at SE office
textue
5002 Wallboard texnre White, orange peet Restrooms, locker rooms, shower
John A. Dobson Arena
Asbestos Survey Report
Appendix A IHI 00D-5021
Table 2
Bulk Sample Analytical Results
Proposed Eastern Renovation Area
John A. Dobson Arena
Vail, Colorado
Sample
Number
Material
ID Number
Sample
location
Analyical
Results
D-l
D-2
D-3
D4
D-5
D-6
D-7
D-8
D-9
D-t0
D-ll
D-t2
D-13
D-14
D-15
D-16
M00l
M002
M004
s00l
s001
s00t
M003
M003
M003
M005
s002
s002
s002
s002
s002
M006
NE corner (exterior)
SE corner of arena at stair
Closet entrance at SE stair
Closet entrance at SE stair
Entrancc to SE office
SE offrce (west)
SE office (wesQ
SE office (center)
SE offrce (easr)
Men's restroom
Men's restroom
Locker room #l (center)
South shower (center)
Locker room #3 (center)
North shower (center)
IND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
NDNorth shower (north
Notes:
I
ND = None Detected
John A. Dobson Areni
Asbestos Survey Report
Appendix A IHr 00D-5021
oI
Appendix B
Laboratory Analytical Reports
a\a
DcM scIENcE lABoRAroRY, INc. --..rnEFB 1B 4'
BuLK AsBESros ANALysrs - PAGE 1 oF 3 REGEIYI-u
rLv '
CLIENT: ANALySIS DATE: 2_15_OOIHI ENVIRoNMENTAL RECEIpT DATE: 2-14-00
7LL2 W. JEFTERSON AVENUE #3IO CLIEM JOB NO.: OOD-5021
ISKEWOOD, CO 80235 PROJECT TITLE: DOBSON ARENA
PROJECT NUMBER: IHIE3
PERCENTACE COMPOSITION BY AREA/VOLIJUE
DCI,[ IAB NO.: -lR -2R
SAI1PLE DATE: 2-L4-OO Z-L4-00r oF SAMPLE: 100.0t 100.0r
CLIEM NO.: D-1 D-2
ASBESTIFORI{ I.TINERAL FIBERS :CHRYSOTILE O.O O.OAMOSTTE o.o o.ocRocIDoLITE 0.0 o.o?REMOLITE-ACTINOLITE O.O O.OANTHOPTMIITE O. O O. O
ToTAL ASBESTOS: O.O 0.0
TOTAL ASBESTOS CONTENT OF SAMPIJ O.OI O.O*
OTI{ER FIBROUS CONSTITUN.TTS
NON-FIBROUS CONSTITUENTS
TOTAL PERCENTACE IDENTIFIED MATERIALS
NOTES: SN{PLE NO. lR IS BTACK FIBRoUS
SAMPLE NO. 2R IS TAN AND GREY CONCRETE
L00.0 100.0
TAR/MIJLTTCOLORED DEBRIS
PIASTER.
42.0
s8.o
TR
I00.0
(INSEPARASI,E).
lr
DCM SCIENCE IABORATORY, INC.
BI,'IX ASBESTOS ANALYSIS - PACE 2 OF 3
CLIENT:
IHI ENVIRONI{ENTAL
7712 V. JEFFERSON AVENUE #310
I^AKEWOOD, CO 80235
ANALYSIS DATE: 2-15-00
RECEIPT DATE: 2-14-OO
CLIENT JOB NO.: 00D-5021
PROJECT TITLE: D0BsoN ARENA
PROJECT NIJMBER: IHIE3
DGM IAB NO. :
SAMPLE DATE:-
I OF SAHPLE:
CLIENT NO.:
ASBESTIFORI.T MINEML FIBERS :
CHRYSOTILE
AI.TOSITE
CROCIDOLITE
TREI.IOLITE. ACTINOLDTE.
ANTHOPI{YLLITE
TOTAL ASBESTOS:
TOTAL ASBESTOS CONTENT OF SAMPLE
OTHER FIBROUS CONSTITUENTS
NON- FIBROUS CONSTITI]ENTS
TOTAL PERCENTAGE IDEMIFIED MATERIALS
PERCENTAGE COMPOSITTON By AREAAOLUME
-3R-A -3R-B
2-L4-OO 2-14-000.5r 2.0*D-3 D-3
0.0 0.00.0 0.00.0 0.00.0 0.00.0 0.0
-3R-C
2-14-O0
7.0r
D-3
0.0
0.0
0.0
0.0
0.0
0.0
-3R-D
2-L4-OO
18.0r
D-3
0.0
0.0
0.0
0.0
0.0
0.0
-3R-E
2-L4-OO
72.5N
D-3
0.0
0.0
0.0
0.0
0.0
0.0o.0
0.0*
0.0
100.0
0.0
98 .0
2.O
97.O
3.0
0.0
l_00. o
2.O
98.0
100.0 100.0 100.0 100.0 100.0
NOTES: SAI.{PI.E NO. 3R CONSISTS oF 5 PARTS. PART A Is TAN PAINT, PART B Is WHITE
FIBROUS I,fATERIAL, PART C IS BROWN FIBROUS MATERIAL, PART D IS I{HITE PIASTER AND PARTE IS PINK PTASTER. FOR CAITUIATION OF TOTAL ASBESTOS CONTENT OF SAMPLE, TRACE (TR)IS ASSWED TO BE 0.5t.
DCM Science Laboratory, Inc.
12421 W.49th Avenue, Unit tt6
Wheat Ridge, CO 80033
DCM Project No.: lHtE 3
Client Job No.: 00D-502't
Bulk Sample Analysis
BULK SAMPLE ANALYSIS PROCEDURES:Page 3 ot 3
DCIM Science Laboratory, Inc- anallzes bulk asbestos samples following procedures developed by theMcCrone Research Institu_te a.nd in compliance with guidelines establish"ed by the Environmental protection
Agency (EPA€00/R-93/1 16, Juty, 1993).
Bulk samples are prepared for analysis using a 10X-80X stereo microscope in a hepa filter hood which providesa contamination-free environment. The sample is then analyzed by polarized light mrcroscopy (pLM) at 100X.when the sample consists_of.1nor9 than one layer, each layer is prbpareo and Jnalyzed sepbiaiery. rio.i"nomatrix materials are identified by the characteriiation of opiicat pi-opbrties inciuJing'color and pteotnrorism, '
form, cleavage, relief, birefringence, exitinction, orientation, twin;in;, interference figure and other distinguishingfeatures' Dispersion staining is also used to further aid in mineral identification. Alipercentages or asoEsios,other fibers and non-fibrous constituents are calculated from the values obtained from the stereo and pLM
mic-roscopes analysis. In-house and NIST standards as well as a chart prepared by R.D. Terry and G.V.chilinger for "The Journal of Sedimentary Petrology", (Volume za, pp. zie)za, igss) provide a guioe forestimating percentages. All samples are archiveiior six months uniess other arrangements are made by theclient.
ACCREDITATION:
DCI\/ISL.is accredited by th-e AIHA (since 1986). Our accreditation number is 305. DCMSL was accredited byNVLAP (since Aprit 1, 1989). Our NVLAp Lab Code is 101258. )
ENDORSEMENT:
The results of this analysis must not be used by the client to claim endorsement by NVLAp or any agency of theU.S. Government.
This test report.relates only to the items tested. This report may not be reproduced except in full, without thewritten approval of the laboratory. The analysis was performed'by :
John Silverman
5-14-nnd , J \J( I
Date
Ron Schott
Laboratory Oirector
Ron Schott
DCU SCIENCE IABORATORY, INC.
BI]LK ASBESTOS ANALYSIS - PACE 1 OF 4
RrcitlvE0$EB
18 zt['
CLIENT:
IHI EIIVIRONI.IEMAL
7112 W. JEFFERSON AVENUE #310
IAKEI{OOD, CO 80235
AI.IALYSIS DATE: 2-15-00
RECEIPT DATE:2-L4-OO
CLIEITT JOB NO. : 00D-5021
PROJECT TITLE: DOBSON ARENA
PROJECT NUI,iBER: IHIE4
-lR-A -lR-B -1R-C
2-14-00 2-L4-OO 2-L4-OO4.0r 30.08 56.0rD-4 D-4 D-4
PERCEMTAGE COMPOSITION BY AREAAOLI'ME
DCM IAB NO.:
SAUPLE DATE:
t OF SAI{PLE:
CLIENT NO.:
ASBESTIFORI{ MINERAL FIBERS :
CHRYSOTILE
AI,IOSITE
CROCIDOLITE
TREMOLITE.ACTINOLITE
ANTHOPHYI.LITE
TOTAL ASBESTOS:
TOTAL ASBESTOS CONTENT OF SA.I{PLE
OTHER FIBROUS CONSTITUENTS
NON-FIBROUS CONSTITUENTS
TOTAL PERCENTAGE IDENTIFIED MATERIALS 100.0 100. 0
IS TAN PAINT/WHTTE PTASTER
PART C IS PINK PI"A,STER.
0.0
0.0
0.0
0.0
0.0
0.0
0.08
0.0
l-o0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
o.0
0.0
0.0
95.0
4.0
2.O
98. O
100.0
NOTES: SAI.TPI,E NO. 1R coNslsTs oF 3 PARTS. PART A(INSEPARASLE), PART B IS TA}I FIBROUS MATERIAL AND
DCM SCIENCE IABOMTORY, INC.
BULK ASBESTOS ANALYSIS - PACE 2 OF 4
CLIENT:
IHI ENVIRONMENTAL
7LL2 W. JEFFERSON AVENUE #310
r^aKEwooD, co 80235
ANALYSIS DATE: 2-15-00
RECEIPT DATE: 2-L4-OO
CLIENT JOB N0.: 00D-5021
PROJECT TITLE: DOBSoN ARENA
PROJECT NT'I,IBER: IHIE4
PERCENTAGE COMPOSITION By AREAAOLITME
ASBESTIFORI{ I.TINERAL FIBERS :
CHRYSOTILE
AMOSITE
CROCIDOLITE
TREI.TOLITE.ACTINOLITE
ANIHOPTMIITE
TOTAL ASBESTOS:
TOTAL ASBESTOS CONTEI{T OF SAI,IPLE
OTHER, FIBROUS CONSTITUENTS
NON-FIBROUS CONSTITUENTS
TOTAL PERCENTAGE IDENTIFIED T{ATERIAIJ 100.0 100.0 l_00.0
DCM IAB NO.: -2R-A
SAMPLE DATE: 2.14-OOt OF SAI.IPLE: 3.0r
CLIEM NO.: D-5
0.0
0.0
0.0
0.0
0.0
0.0
0.0r
0.0
l_00.0
-2R-B -2R-C
2-L4-00 2-r_4-0045.0r 52.0rD-5 D-5
0.0 0.00.0 0-00.0 0.00.0 0.00.0 0.0
0.0 0.0
95.0
5.0
2.O
98 .0
NOTES: SN{PLE NO. 2R CONSISTS oF 3 PARTS. PART A Is TA}I PAIM/WIIITE PIASTER(INSEPARABLE), PART B IS BROWN AND WHITE FIBROUS HATERIAL AND PART C IS WHITEFIBROUS PIASTER.
DCI.T SCIEII,ICE IABORATORY, INC.
BI'LK ASBESTOS ANALYSIS . PAGE 3 OF 4
cLrEM: ANALysrs DATE: 2-15_ooIHI EMIIRoNMENTAL RECEIpI DATE: 2_L4_OO
7LL2 u. JEFFERSoN AVENUE #310 CLIEM JoB NO.: 00D_5021
IAKEWOOD, CO 80235 PRoJECT TITLE: DoBsoN ARENA
PROJECTNIJ}IBER: IHIE4
PERCEMAGE COMPOSITIoN By AREA^OLWE
DCM IAB N0.: -3R-A
SAI,IPLE DATE: 2-14-00t OF SAI,fPLE: 4.0t
CLIEM NO.: D-5
-3R-B -3R-C
2-L4-00 2-L4-OO
45 .0* 51 .0rD-6 D-6
ASBESTIFORU MINEML FIBERS :
CHRYSOTILE
A}.TOSITE
CROCIDOLITE
TREI{OLITE -ACTINOLITE
ANTHOPTMI,ITE
TOTAL ASBESTOS:
TOTAL ASBESTOS CONTENT OF SAMPLE
OTTIER FIBROUS CONSTITUENTS
NON-FIBROUS CONSTITUENTS
TOTAL PERCEI{TAGE IDEMIFIED I{ATERIALS
0.0 0.00.0 0.00.0 0.00.0 0.00.0 0.0
0.0 0.0
0. 08
0.0
0.0
0.0
0.0
0.0
0.0
0.0
100.0
2.0
98.0
97.O
3.0
100.0 100.0 100.0
NOTES: SA}{PLE NO. 3R CoNSISTS oF 3 PARTS. PART A Is TAN PAINT, PART B Is WHITEFIBROUS PIASTER AND PART C IS BROWN FIBROUS MATERIAL.
DCM Science Laboratory, lnc.
12421 W.49th Avenue, Unit #6
Wheat Ridge. CO 80033
DCM Project No.: lHlE 4
Client Job No.: 00D-5021
Bulk Sample Analysis
BULK SAMPLE ANALYSIS PROCEDURES:
John Silverman
Ron Schott
Laboralory Direclor
Page 4{ of I
D€M Science Laboratory, Inc. analyzes bulk asbestos samples following procedures developed by theMcCrone Research lnstitute and in compliance with guidelines establish-ed by the Environmental protection
Agency (EPA-600/R-93/1 16, July, 1993).
Bulk samples are prepared for analysis'using a 10X-80X stereo microscope in a hepa filter hood which provioes
a contamination-free environment. The sample is then analyzed by polarized light microscopy (pLM) at .100X.
When the sample consists_of. more than one layer, each tayer is prepareo and inalyzed sepbiaiely. Fiberandmatrix materials are identified by the characterization of opiicat piopbrties including color and pleothrorism,form, cleavage, relief, birefringence, extinction, orientation, twin;in6, interference irgure and oiher distinguishingfeatures. Dispersion staining is also used to further aid in mineral i-dentification. Alipercentages of asb6stos,other fibers and non-fibrous constituents are calculated from the values obtained from the stireo and pLM
mic_roscopes analysis. In-house and NIST standards as well as a chart prepared by R.D. Terry and G.V.Chilinger for "The Journal of Sedimentary Petrology", (Volume 24, pp. 229-234. 1955) provideL guide forestimating percentages. All samples are archived ior six months uniess other arrangements are made by theclient.
ACCREDITATION:
DCM.SL.is.accredited by the AIHA (since 1986). our accreditation number is 30S. DCMSL was accredited byNVLAP (since Aprit I , 1989). Our NVLAp Lab Code is 1 01258
ENDORSEMENT:
The results of this analysis must not be used bythe client to claim endorsement by NVLAp or any agency of theU.S. Government.
This test report.relates only to the items tested. This report may not be reproduced except in full, without thewritten approval of the laboratory. The analysis was performed'by :
DCI.! SCIENCE IABORATORY,
BI'LK ASBESTOS ANALYSIS . PAG
CLIEM: ANALysrs DATE: 2_15_ooIHI ENVIRoNUENTAL RECEIPT DATE: 2.L4-oo
7LL2 W. JEFFERSON AVENUE #310 CLIEI{T JOB No.: 00D-5021
LAKEI{oOD, c0 80235 PROJECT TITLE: DOBSON ARENA
PROJECT NUUBER: IHIE5
PERCENTAGE COMPOSITION BY AREAAOLI'ME
DCM IAB NO.: -lR-A -lR-B -2R-A
sAltPIJ DATE: 2-L4-OO 2-L4-OO Z-L4-OOt OF SAMPLE: 2.0* 98.01 z.Ot
CLIENT NO.: D-7 D-i D-B
o
INC.
E1OF3
ASBESTIFORI{ I{INERAL FIBERS:
CTIRYSOTILE
AMOSITE
CROCIDOLITE
TREMOLITE.ACTINOLITE
ANTHOPTM.LITE
TOTAL ASBESTOS:
TOTAL ASBESTOS CONTENT OF SAMPLE
OIHER FIBROUS CONSTII'T'ENTS
NON-FIBROUS CONSTITUEMS
TOTAL PERCENTAGE IDENTIFIED MATERIALS
TR.
100.0
0.0 0.00.0 0.00.0 0.00.0 0. 0
0. o 0.0
0.0 0.0
0.0r
0.0
0.0
0.0
0.0
0.0
0.0
0.0r
TR
100.0
-2R-B
2-14-00
2.0r
D-8
0.0
0.0
0.0
0.0
0.0
0.0
-2R-C
2-14-00
96.0*
D-8
0.0
0.0
0.0
0.0
0.0
7s.0
25.0
60. 0
40.0
75.0
25.O
100.0 100.0 100.0 100.0 100.0
NOTES: SAI,I,PLE NO. lR CONSISTS OF 2 PARTS. PART A IS WHITE PAINT AND PART B IS TANFIBROUS, PERLITIC MATERIAL. SAI,IPLE NO. 2R CONSISTS OF 3 PARTS. PART A IS WHITEPAINT' PART B IS BROWN FIBROUS RESIN AND PART C IS TAN FIBROUS, PERLITIC MATERIAL.
DCM SCIENCE HBORATORY, INC.
BI'LK ASBESTOS ANALYSIS . PAGE 2 OF 3
CLIEM: ANALYSIS DATE: 2-15-OoIHI ENVIRoNUENTAL RECEIPT DATE: 2-14.00
7LL2 U. JEFFERSON AVENUE #310 CLIENT JOB No.: 0OD-5021
IAKEI{ooD, co 80235 PRoJEGT TITLE: DoBsoN ARENA
PROJECT NTJMBER: IHIE5
PERCENTACE COMPOSITIoN By AREAAOLUHE
DcU IAB NO.: -3R-A -3R-B -3R-c
SAI(PLE DATE: 2-L4-OO 2-L4-OO 2-14-00t oF SAMPLE: 1.0r 3.0r 96.0r
CLIEM NO.: D-9 D-9 D-9
ASBESTIFORM MINERAL FIBERS :CHRYSOTTLE o.o o.o o.oAttosITE o.o o.o o.ocRocrDoLITE o.o o.o o.oTRET{OLITE-ACTINOLITE O.O O.O O.OANTHOPTMIITE O. O O. O O. O
TOTAL ASBESTOS: O.O 0.0 O.O
TOTAL ASBESTOS CONTENT OF SAI,IPLE O. OT
OTTIER FIBROUS CONSTIfi'ENTS
NON- FIBROUS CONSTITUENTS
TOTAL PERCENTAGE IDEMIFIED MATERIALS 100.0 100.0 100.0
TR
100. 0
50.0
40.0
75.0
25.0
NOTES: SAI.{PLE NO. 3R CONSISTS OF 3 PARTS. PART A IS I.IHITE PAINT, PART B IS BROWNFIBROUS RESIN A]{D PART C IS TAN FIBROUS, PERLITIC MATERIAL.
DCM Science Laboratory, Inc.
'12421 W.49th Avenue, Unit #6
Wheat Ridge, CO 80033
Dclil Project No.: lHlE 5
Client Job No.: 00D5021
Bulk Sample Analysis
BULK SAMPLE ANALYSIS PROCEDURES:eaee .3 of 3
DCM Science Laboratory, Inc. analyzes bulk asbestos samples following procedures developed by the
McCrone Research Institute and in compliance with guidelines established by the Environmental Protection
Agency (EPA-600/R-93/1 16, Juty, 1 993).
Bulk samples are prepared for analysis using a 10X-80X stereo microscope in a hepa filter hood which provides
a contamination-free environment. The sample is then analyzed by polarized light microscopy (PLM) at 100X.
When the sample consists of more than one layer, each layer is prepared and analyzed sepaiaiety. Fiber and
makix materials are identified by the characterization of optical properties including color and pleochrorism,
form, cleavage, relief, birefringence, eLtinction, orientation, twinning, interference figure and oiher distinguishing
features. Dispersion staining is also used to further aid in mineral identification. Ali percentages of asb6stos.
other fibers and non-fibrous constituents are calculated from the values obtained from the stereo and pLM
microscopes analysis. In-house and NIST standards as well as a chart prepared by R.D. Terry and G.V.
Chilinger for "The Journal of Sedimentary Petrology", (Volume Z+, pp. Z)S-|Z+, 1955) provide a guide for
estimating percentages. All samples are archived for six months unless other arrangements are-made by the
client.
ACCREDITATION:
DClvlSL is accredited by the AIHA (since 1986). Our accreditation number is 305. DCMSL was accredited bv
NVLAP (since April 1, 1989). Our NVLAp Lab Code is .t012S8.
ENDORSEMENT:
The results of this analysis must not be used by the client to claim endorsement by NVLAp or any agency of tneU.S. Government.
This test report relates only to the items tested. This report may not be reproduced except in full, without the
written approval of the laboratory. The analysis was performed-by :
John Silverman
.')
rf/ti't t?/?t*'/ Ron Schott
Robert Wagner
a -/ 5-Oa
Date
Ron Schott
Laboratory Oireclor
DCM SCIENCE IABOMTORY, INC.
BI'LK ASBESTOS ANALYSIS - PAGE 1 OF 2
-lR-C
2-L4-OO
l_2.08
D-10
0.0
0.0
0.0
0.0
0.0
0.0
r--. ir- /-
l,ir' '
- lR-D
2-L4-00
79 .0*
D- 10
0.0
0.0
0.0
0.0
0.0
0.0
CLIEM:
IHI ENVIRONME}TTAL
7LL2 W. JEFFERSON AVENUE #310
I-AKEWOOD, CO 80235
ANALYSIS DATE: 2-15-00
RECEIPT DATE:2-14-00
CLIENT JOB NO.: 00D-5021
PRO.IECT TITLE: D0BSON ARENA
PROJECT NUM3ER: IHIE6
PERCENTAGE COMPOSITION By AREA/VOLI'ME
DCM IAB NO.: -lR-A -lR-B
SAMPLE DATE: 2-l-4-00 2-L4-OOt OF SA.I{PLE:
CLIENT NO.:
ASBESTIFORI{ I.TINERAL FIBERS :
CHRYSOTILE
A},IOSITE
CROCIDOLITE
TREMOLITE-ACTINOLITE
ANTHOPTMI,ITE
TOTAL ASBESTOS:
TOTAL ASBESTOS CONTENT OF SAI,IPLE
OTTIER FIBROUS CONSTITT'ENTS
NON-FIBROUS CONSTITUENTS
TOTAL PERCEI{TAGE IDEMIFIED MATERIALS
3.08 6.08D-10 D-10
0.0 0.00.0 0.00.0 0.00.0 0.00.0 0.0
0.0 0.0
0.0r
0.0
100.0
0.0
100. o
96.0
4.O
5.0
95.0
L00.0 100.0 100.0 100.0
NOTES: SAI{PLE NO. lR CONSISTS OF 4 PARTS. PART A IS I.IHITE PAINT, PART B IS WHITEPIASTER, PART C IS BROWN AND I.IHITE FIBROUS MATERIAL AND PART D IS TAN PIASTER.
DGM Science Laboratory, Inc. analyzes bulk asbestos samples following procedures developed by the
Mccrone Research Institute and in compliance with guidelines established by the Environmental Protection
Agency (EPA-600/R-93/1 16, July, 1993).
Bulk samples are prepared for analysis using a 10X-80X stereo microscope in a hepa filter hood which provides
a contamination-free environment. The sample is then analyzed by polarized light microscopy (PLM) at 100X.
When the sample consists of more than one layer, each layer is prbpared and inalyzed sepaiaiely. Fiber ano
matrix materials are identifietl by the characterization of optical properties including color and pleochrorism,
form, cleavage, relief, birefringence, extinction, orientation, twinning, interference irgure and oiher distinguishing
features. Dispersion staining is also used to further aid in mineral identification. Alipercentages of asbistos,
other fibers and non-fibrous constituents are calculated from the values obtained from the stereo and pLM
mic.roscopes analysis. In-house and NIST standards as well as a chart prepared by R.D. Terry and G.V.
Chilinger for "The Journal of Sedimentary Petrology", (Volume 24, pp. 229-234, 1955) provide a guide for
estimating percentages. All samples are archived for six months unless other arrangements are made by the
client.
DCM Science Laboratory, Inc.
12421 W.49th Avenue. Unit #6
Wheat Ridge, CO 80033
DCM Project No.: lHlE 6
Client Job No.: 00D-5021
Bulk Sample Analysis
BULK SAMPLE ANALYSIS PROCEDURES:Page 3-ot 7
ACCREDITATION:
DCMSL is accredited by the AIHA (since 1986). Our accreditation number is 305. DCMSL was accredited bv
NVLAP (since April 1 , 1 989). Our NVLAp Lab Code is 1 01258.
John Silverman Robert Wagner
Ron Schott
Laboralory Oireclor
ENDORSEMENT:
Th_e results of this analysis must not be used by the client to claim endorsement by NVLAP or any agency of the
U.S. Government.
This test report relates only to the items tested. This report may not be reproduced except in full, without the
written approval of the laboratory. The analysis was performed by :
A-^ t5- oo
o
DCM SCIENCE IABORATORY, INC.
BI,IX, ASBESTOS ANALYSIS - PAGE 1 OF 4
CLIENT:
IHI ENVIRONMENTAL
7LL2 W. JEFFERSON AVENUE #310
IAKET{OOD, CO 80235
CLIENT JOB NO.: OOD-5021
PROJECT TITLE: DOBSON ARENA
.lR-A -lR-B -2R-A -2R.B
2-14-00 2-14-00 2-L4-O0 2-r4-OO10.01 90.01 8.0r 92.o*D-tt D-lL D-12 D-12
0.0 0.0 0.0 0.00.0 0 .0 0.0 0.00.0 0.0 0.0 0.00.0 0.0 0.0 0.00.0 0.0 0.0 0.0
0.0 0.0 0.0 0.0
0.0s 0.0r
ANALYSIS DATE:
RECEIPT DATE:
95.0
5.0
2-15-00
2-L4-OO Rgoo'{g$tEB
t t
PROJECT NIJMBER: IHIET
PERCENTAGE COMPOSITION BY AREA/VOLUME
DCM IAB NO.:
SAIPLE DATE:
T OF SAI{PLE:
CLIEM NO.:
ASBESTIFORI.T MINERAL FIBERS :
C}TRYSOTII,E
AMOSITE
CROCIDOLITE
TREMOLITE.ACTINOLITE
ANTHOPHYLLITE
TOTAL ASBESTOS:
TOTAL ASBESTOS CoNTENT oF SAI.{PLE
OTITER FIBROUS CONSTITUENTS
NON-FIBROUS CONSTITUENTS
0.0
100.0
9s.0
5.0
0.0
100. 0
TOTAL PERCENTAGE IDEI.ITIFIED MATERIALS 1OO. O
NOTES: SAIPLES NO. lR AND 2R coNsIsT oF 2 PARTS.
AND PART B IS I{HITE RESINOUS PAINT.
100.0 100.0 100.0
PART A IS GREEN FIBROUS MATERIAL
DCM SCIENCE IABOMToRY, INC.
EULK ASBESTOS ANALYSIS - PAGE 2 OF 4
CLIENT:
IHI ENVIRONI{EMAL
7LL2 W. JEFFERSON AVENUE #310
IAKEIIOOD, CO 80235
ANALYSIS DATE: 2-15-00
RECEIPT DATE: 2-L4-00
CLIENT JOB N0.: O0D-5021
PROJECT TITLE: DOBSON ARENA
PROJECT NT,UBER: IHIET
DCM IAB NO.:
SAUPLE DATE:
T OF SAMPLE:
CLIENT NO.:
ASBESTIFORI,T MINERAL FIBERS :
CHRYSOTILE
AMOSITE
CROCIDOLITE
TREMOLITE-ACTINOLITE
ANTHOPT{YLLITE
TOTAI, ASBESTOS:
TOTAL ASBESTOS CONTEM OF SAI,IPLE
OTHER FIBROUS CONSTITUEMS
NON- FIBROUS CONSTITUENTS
TOTAL PERCENTAGE IDENTIFIED MATERIALS
PERCENTAGE COMPOSITION BY AREAAOLITME
-3R-A -3R-B
2-t4-OO 2-]4-OO0.5* 99.5rD-13 D-13
0.0
0.0
0.0
0.0
0.0
0.0
0.0r
0.0
100.0
0.0
100.0
.4R-A
2-14-00
15 .0r
D-14
0.0
0.0
0.0
0.0
0.0
0.0
0.0r
0.0
100. o
-4R-B
2-74-00
85.0r
D.14
0.0
0.0
0.0
0.0
0.0
0.0
96.0
4.O
0.0
0.0
0.0
0.0
0.0
0.0
100.0 100.0 L00.0 loo.o
NOTES: SA}{PIJ NO. 3R CONSISTS OF 2 PARTS. PART A IS WHITE PIASTER AND PART B ISWHITE RESINOUS PAINT. SAMPLE NO. 4R CONSISTS OF 2 PARTS. PART A IS WHITE RESINOUSPAINT AND PART B TS BROWN FIBROUS MATERIALA{HITE PIASTER (INSEPARABLE). FOR
CALCUIATION OF TOTAL ASBESTOS CONTENT OF SAI{PLE, TRACE (TR) IS ASSITMED TO BE 0.5*.
DCM SCIENCE IABORATORY, INC.
BI'LK ASBESTOS ANALYSIS - PAGE 3 OF 4
CLIENT:
IHI ENVIRONMEMAL
7LL2 IiI . JEFFERSON AVENUE #310
IAKEWOOD, CO 80235
ANALYSIS DATE: 2-15-00
RECEIPT DATE: 2-L4-0O
CLIEM JoB No.: 00D-5021
PROJECT TITLE: DOBSON ARENA
PROJECT NUUBER: IHIET
PERCEMAGE COMPOSITION BY AREAAOLU{E
ASBESTITOR}I UINERAL FIBERS :
CHRYSOTILE
AI,IOSITE
CROCIDOLITE
TRSI{OLITE.ACTINOLITE
ANTHOP}MI.ITE
. TOTAL ASBESTOS:
TOTAL ASBESTOS CONTENT OF SAI.IPLE
OTHER FIBROUS CONSTITT'ENTS
NON.FIBROUS CONSTITUENTS
TOTAL PERCENTAGE IDENTIFIED MATERIALS
DCU IAB NO.: -5R-A
sAltPLE DATE: 2-14-00
I OF SAI,IPLE: 8.0t
CLIEM NO.: D-15
0.0
0.0
0.0
0.0
0.0
0.0
0. 0c
98.0
.5R-B
2-L4-OO
92.0r
D-15
0.0
0.0
0.0
0.0
0.0
0.0
0.0
2.O 100.0
100.0 100.0
NOTES: SAITPLE NO. 5R CONSISTS OF 2 PARTS. PART A IS III{ITE FIBROUS MATERIAL ANDPART B IS WHITE RESINOUS PAIM//IITIITE PIASTER, (INSEPARABLE).
DCM Science Laboratory, Inc.
12421 W .49th Avenue, Unit #6
Wheat Ridge, CO 80033
DCM Project No.: lHlE 7
Client Job No.: 00D-5021
Bulk Sample Analysis
BULK SAMPLE ANALYSIS PROCEDURES:Paoe ei of 9
DCM Science Laboratory, Inc. analyzes bulk asbestos samples following procedures developed by theMccrone Research Institute and in compliance with guidelines establishiij by the Environmental proteclion
Agency (EPA-600/R-93/1 .16, Juty, i993).
Bulk samples are prepared for analysis using a 10X€0X stereo microscope in a hepa filter hood which provides
a contamination-free environment. The sample is then analyzed by polarized light microscopy (pLM) at'100X.when the sample consists of.more than one layer, each layer is prlpared and inalyzed sepbiaiety. rioer anonlatrix materials are identified by the characterization of opiicat piopbrties including color and pleothrorism,
form, cleavage, relief, birefringence, extinction, orientation, twtnhin!, interference fi'gure and oiher distinguishingfeatures. Dispersion staining is also used to further aid in mineral identification. Alt percentages of asbestos,other fibers and non-fibrous constituents are calculated from the values obtained from the stereo and pLM
microscopes analysis. ln-house and NIST standards as well as a chart prepared by R.D. Terry and G.V.Chilinger for "The Journal of Sedimentary Petrology'', (Volume zl, pp. zisisa, 1955) provide a guide forestimating percentages. All samples are archived ior six months unless other arrangements are made by theclient.
ACCREDITATION:
DCMS-L is. accredited by the AIHA (since 1986). our accreditation number is 305. DCMSL was accredited byNVLAP (since April 1, 1989). Our NVLAp Lab Code is 101258.
ENDORSEMENT:
Tl1e results of this analysis must not be used by the client to claim endorsement by NVLAP or any agency of tneU.S. Government.
Thjs test report.relates only to the items tested. This report may not be reproduced except in full, without thewritten approval of the laboratory. The analysis was performed-by :
John Silverman
J-/F-od
Date
Ron Schott
Laboratory Director
Ron Schott
DCM SCIENCE IABORATORY, INC.
BIILK ASBESTOS AI{ALYSIS - PAGE 1 OF 2
CLIENT:
IHI ENVIRONMENTAL
7LL2 W. JEFFERSON AVENUE #310
r-A,KEWOOD, CO 80235
ASBESTIFORI.I MINERAL FIBERS :
CHRYSOTII.E
AI,TOSITE
CROCIDOLITE
TREMOLITE.ACTINOLITiI
ANTHOPHYLLITE
TOTAL ASBESTOS:
TOTAL ASBESTOS CONTENT OF SAUPLE
OI'IiER FIBROUS CONSTITUENTS
NON-FIBROUS CONSTIIUENTS
TOTAL PERCENTAGE IDEMIFIED MATERIALS
NoTEs: SAMPLE NO. lR Is ItltITE TrLEIBROWN
PERCENTAGE COMPOSITION BY AREA/VOLIJUE
DCU IAB N0.: -lR
SAIPLE DATE: 2-14-00I oF sAt{PLE: L00.0r
CLIEM NO.: D-16
0.0
0.0
0.0
0.0
0.0
0.0
0.0r
0.0
L00.0
100.0
RESrN (TNSEPARABLE).
.--<tl"?.'
- -^rt\f Ef1 t't'-ir t
m|t-[-ft{''"
ANALYSIS DATE: 2-15-00
RECEIPT DATE: 2-14-00
CLIENT JoB No.: 00D-5021
PROJECT TITLE: DOBS0N ARENA
PROJECT NIJMBER: IHIES
DCM Science Laboratory, Inc.
12421 W.49th Avenue, Unit #6
Wheat Ridge, CO 80033
OCM Project No.: lHlE I
Client Job No.: 000-5021
Bulk Sample Analysis
BULK SAMPLE ANALYSIS PROCEDURES:
John Silverman Robert Wagner
eage aot a
D€M Science Laboratory, Inc. analyzes bulk asbestos samples following procedures developed by theMcCrone Research Institute and in compliance with guidelines establish"ed by the Environmental protection
Agency (EPA-600/R-93/1 16, Juty, 1993).
Bulk samples are prepared for analysis using a 10X-80X stereo microscope in a hepa filter hood which provioes
a contamination-free environment. The sample is then analyzed by polarized light microscopy (pLM) at 100X.When the sample consists.of.more than one layer, each layer is prepared ana inatyzeo separaiely. Fiber andmatrix materials are identified by the characterLation tr opiical piopbrties including color and peothrorism,
form, cleavage, relief, birefringence, extinction, orientaiion, trvinhing, interference f-igure and oiner distingulshingfeatures. Dispersion staining is also used to further aid in mineral :rdentification.
All percentages of asb6stos,other fibers and non-fibrous constituents are calculated from the values obtained from the stereo and pLM
microscopes analysis. In-house and NIST standards as well as a chart prepared by R.D. Terry and G.V.Chilinger for "The Journal of Sedimentary Petrology", (Volume za, pp. 229-i34, 1955) provide a guide forestimating percentages. All samples are archived for six months unless other arrangements are made by theclient.
ACCREDITATION:
DCM.S-L is accredited by the AIHA (since 1986). Our accreditation number is 305. DCMSL was accredited byNVLAP (since Aprit 1, 1989). Our NVLAp Lab Code is 1012S8.
ENDORSEMENT:
The results of this analysis must not be used by the client to claim endorsement by NVLAp or any agency of theU.S. Government.
This test report.relates only to the items tested. This repon may not be reproduced except in full, without thewritten approval of the laboratory. The analysis was performed'by :
J^t5*oo
Date
Ron Schott
Laboratory Directot
aD55t\l--7rr4- a) '1' Lt)
tHl
ENVIRONMENTAL
ANALYTICAL REQUEST
lHl Project N
Date: Z-
Telephone:
Requested by:
Sampling Site:
Laboratory Name:
Address:
[{yroul--Dol,,s.'^
-Dcit\
a tH )€3
FORM
RUSH: No E Yes z+ ftz
.: a:D 1o4
Analysis / Sample
cSStv€
Comments:
SAMPLE TRANSFER RECORD CHAIN OF CUSTOD
Lab Results (atong with this completed /orm) should be sent to:
7112w' JEFFERSoN AvE. #310 L^KEwooo. co 8023s reLEpxolrE: 303.980.8749 FAx: 803.989.2716
tHl
ENVIRONMENTAL
ANALYTICAL REQUEST FORM
-1-=-
lHl Projec! No.; elO --ftr?
Date: Zlt{-\oo
-
Telephone:
Requested by:
Sampling Site:
Laboratory Name:
Address:
RUSH: No E YesE-Due: 24 /]f-
Sample Field
Number
Laboratory
Number
Tvpe Sample Volume
(Liters)
Analysis / Sample
DBscriotionAirBulkb*ra s.?\M ( .-?,'qvesvq.-t3 ruI0Dr\-(4
/ -15 JD- tr.\I
\
\
Comments:
SAMPLE TRANSFER RECORD CHAIN OF CUSTOD
Lab Resufts (along with this completed form) should be sent to:
Sionature Transfer Reason
Transported to Lab
7112W. JEFFER.ON AvE- #310 LAKEw@o. CO 80235 TE[.E'H.NE: 303.980.8749 FAX: 303.9g92716
From:
Tor
Dale:
Subiect:
Greg Hall
cdavis@ci.vail.co.us
3/13/01 6:31AM
Re: Dobson lCe arena exoansion
I havent approved the civil drawings, however I have reviewed them to determine that my comments won't
afiect the building with the exception of the looting by the large tree next to the loading dock on the west
side. I told him I would allow the rest of the team to begin lheir review. So go ahead and input and roule,
thanks
>>> Charlie Davis 03/12101 '14:23 PM >>>
I got a call today from Brian wtih R.A. Nelson stating you have approved civil drawings for the lce arena
expansion. ls this true? lf so, I am going to get this permit into the PermPlus system and routed to
Building, Planning and Fire. You already have a set so I will not be routing to Public Works.
Please conlirm at yiur earliest convience.
Charlie
Department of Community Devel opment
75 South Frontage Rood
Vail, Colorado 81657
970-479-2138
FAX 970-479-2452
www.ci.vail.co.us
R.A. Nelson
Aftn: Peter
Box 5400
Avon, CO 81620
Re: Dobson lce Arena demo permit D01-0008
Dear Peter,
Attached you will find an updated copy of the conditions attached to this permit.
Apparently planning had not yet entered their comments when I issued the permit this
morning. Please replace the former condition page with this updated version. lf you
have any questions please feel free to contact me al479-2139.
Sincerely,
q,
encl/1
Lyrine Campbel
{p *"noto""*
DEMOIION PERMIT APPLICATION FOR
A $55 FEFTUST ACCOMPANY THIS FORM.
Submit form to
c(ffiDd.dnltbltaxtad
Environm€n!
APCD-SS.BI
4300 Cheny Creek Dr So.
D€nvcr, Co E0246 I 5 30
303-692-3100
INCOMPLETE APPLICATIONS WILL BE RETURNED,
(Permit will be mailed to demolition contractor unless specified otherwise)
DetvlornIoN CoNrn q,ctoR:DgN,roLITIoN S[s:
Cnnrn'mn Asspsros ItspncroR:
SD
ASBESTOS REMOVAL:
Company Name
John A. Dobson Arena - East End
Building Nane (if applicable)
Ice Arena
321 Lionshead Circle
City sate Z.tpCode ll Sreet
Vail Eaqle 81 657
Telephone City
Stan date:
County Zip Code
ComDletion Date:
Cell Phone demolition work
ITE:BurloING OwwBn oR DEVELopER:
Landfill Name
City
()
State Zip Code
Vail Recreation District
Owner's Name
700 S. Frontaqe Road East
Street
Vail Co 81657
City State zip Code
( 970\ 479-2279
TeleDhone
Not Applicable
iHf (ryiii/i*dfiii,8fittr1'"quircd at botrom of this form *)Asbestos Abatement Contractor
Zip Code Asbestos Pemit Number
Lakewood, cO 802351#2690 2/ 13 / 2OOOj
Colomdo Certificare # Expiration Date Quantity of Asbestos Removed
L)
Date Removal Completed
I certify that I possess current AHERA and state of Colorado certification as an Asbestos Building Inspector. I also certify that I have in
demolished, as listed in the Demolition Site block above, sampled all suspect materials (in accordance-with AHERA), had all samples an
asbestos by a MST accredited laboratory, and have determined that (a afpropriate box and sign in blue ink):
yzed
x no ACM exists anywhere in the 86ffi6 area Surveyed.
the only ACM left in the building is nonfriable VAT and/or tar-impregnated roofing fel
all ACM that I found has been completely removed from this buildins, per my visual ih
I cenify that all refrigerants from air conditioning/refrigeration appliances
have been properly recovered in accordance with AeCC Regulation No. 15
(For information on CFC requirements call692-3177.)
G Building Owner or G Contractor
Signature:
Print Narne:
Dale:
Revlsed 08/99 H: \forms\demoapp
DEMOaTON PERMTT APPLTCATTON FOR
A $55 FEEMUST ACCOMPANY THIS FORM.
Submit fonn |o:Gr'&eF.dntactt{trd
EovironcEm
APCD.sS-Bl
43@ Ct ny Cr€.k Dr. So.
Dcnvca CO t0246- t 5l0
303-592-3 r00
INCOMPLETE APPLICATIONS W]LL BE RETURNED,
(Permit will be mailed to demolition contractor unless specified otherwise)
DnuolrrroN Covtnacton :DnuoLnroN Srm:
Cnnrrmn Assesros lNspecroR:ASBESTOS REMOVAL:
Arena -
Type of BuildinS (i.e Residenria.l, warehouse, office building, erc.)
321 Lionshead Circle
Srrcet
Vail Easle 8'1557
City County Zip Code
Ccll Phone
John A. Dobson
Building Name (if applicable)
Ice Arena
Vail Recreation Distri_ct
City Coa"
( 97Ot A70-2279
TelcDhone
Joseph H Knowles Not Applicable
fHf ,ffi"\ffS.dfttii8fitfl'"quired at bonom of rhis form *)Asbestos Abatement Contracbr
Zi12 W. Jefferson Ave Suite 310Jr€€t Ciry Stare Zip Code
L^_?L?r=o?a, ,cO eOZf S OOf
Loloriroo ueruncate f Expiration Date
Asbestos Permit Number
Quantity of Asbestos Removed Date Removal ComDleted
TeleDhone
I. certify that I possess current AHERA and state of colorado certification as an Asbesaos Building Inspector. I also certify that I havedemolished, as listed in the Demolilion Site block above, sampled all suspect materials (in accordance w'th AHERA), had all samples@-W-1 x]!I39q94!aed labo.atory, *d huue d.termined that (a appropriate box and sisn in blue ink):
no ACM exists anywhere in rhe Dllf*{ area Surveyed .
the only ACM lefi in rhe building is nonfriable VAT and/or tar-impregnated roofing
all ACM thar I found has been
I cenify ahat all refrigcranh from air condirioning/refrigeration appliances
have bcen properly recovered in accordance wi rAeC- Regulation No. l5(For information on CFC requirements caU 692-3lZi.)
G Building Owner or G Contractor
Signature:
Print Name:
Revised 08 /99
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Prof: Dobscn lrctw
Doio Dafr: 8/18/Ol
af ColotufuttltFtEnf EDd!...t
l{i $n r c.|df,t. Cdd!.b lp|ot(i$tl Jc4 s91o F^r. ($3) :e+ ssr5
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,-..L9 NG
I U tI D ll{ G E XV ln 0 il il E lt Ts
Indoor Air Handfer & Condenser
(Note: Due to ilght lead Umes the belowmandfiactures are being
submitted as a substitute to those specifiedlf
lncloorAir Handler (AHtlll -AAONI H21t-+tD200:8fin80A000
Features lrnftrde:
. Cornbination filter/mixing b ox w/lwt leakdampen
o I ' tfrick walls V | .9lD tns..dation & access panef
. Hot water heaUng coil & DX cooling coit
r Horhontal clravy-thru fansection
o Belt guar4 access panel, arrangernent 3 & fixed drives. 3,70QcFM, 1.3.:'tsp, 9,000 arriflrde zhp 460/3/60motor
Outcloor Condensing Unit - AAONI Cj4&3rCAooOOO
Feafrres Includ€r
e Scrolf Compressors
r HotGas QPas bypass
o Fan Cycling
e Tested byAR, stardard
.
RECEIVEI!
F{Atr 'lf '^"1
oFiitfilbPv
Cl|' DoorEtLlodrrEd Ptuiur{E0|orldo err it-JCrn Ooa.o.it}J.fr oCasrrtc
PrcJ€ct John tlobcon lco A|€fta tocatlon vail, co Qonfa@r Colo,ado Plumbir€ Oato /F$01
GaSper. Cdora& SpringE. Delwer I Grand Junciion r las Vegas. Reno r Salt Lake c;ity zot7
f 'd 8660'o||t ilvle:B l00z ll ,(efl
,OI Anm *ir€tndLa'{lui.uLTXlg@
h.pdet 2i61at Fhr(mO trefiea
fu#tf 4 a-20 0 : B0 00A0A000
Job Inforrnotbn
Job Name:
JobNurnbu:
Site Altitude:
Stotic Pressure
External:
Evaporator:
Filters:
Cooling Section
Total Capacit5
Sensible Capacity:
Latent Capacity:
EnteringAjr Teop:
LvAirTenp (Coil):
LvAirTemp (Unit):
Supply Air Faa BHP:
Supp\yAir FanRPM:
Evaporator Coil:
Eleetrleol Dota
Ratiag:UnitrIA
Motors
EEn - AnI Li,eting Infonnotian
No ARI rui4 p4ltn e*tt fu tl$ ullrit:
AJI AAON unilc oc tr*udin r.'\'fu with AEI ilann+rda
DobnnleAnna
.Iob #I
8000'
0.75'ug '-
0.59'we
0,95" wg
98.1Groee/86.5 Net MBE
51.9 Ams.t/45.9 Nct IVBH
10.6MBE
77.00 "F DBl 67.(n .F WB
59.60"FD8/ 58.32"FW8
6I.06"FDBl 59.78"FWB
1-89
1173
5.06 ft, (2 Rawe)
Phase
3
Unit Inforrnotion
Unit Size;
Cabi.net Site:
Unit Weight:
AirFlow:
Suction Teup:
I
Heating;
Total:
Heoting Sectinn
C;apacity:
Entering Air Temp:
LoavingAirTemp:
Heating IYpe:
Consu^mptior*-.
Entering Weter Tenp:
Leaving Water Temp:
Water Preeeure Drop:
Glycol (%):
MinCircuitAap:
Mex Overcurrent
RPM FI,A1725 48
$00't000 cFM
CC&ir.et
420
3700@0.75.8,5P
$,M*
0.1t1 ug
1.73'ug
149,2 MBE
60_0 "F
11r.7 "F
Eot Weter
16.000 GPM
180.0 cF
160-5 "F
435 ft
30
6Amps
15 /lnps
460u /gbh/ry,
o AmIx
HP VAC3 460
QwIEvap:
E ar,'',tdrtf L0'f P'lnaoaa Dotc: ,UANI t'tejt PY
l'{vtz:B l00z ll r€||'iI'd 8660'0N
AA
J',arg^&il|€lrEd
Ifr.Caia,a,. ff ttfi,
n\ (#)
'Jeldot
W(tot) ,tu4a
H2€{{-{0-200rNranl
Job Infortnatian
Job Nane:
Job Nuaber:
Sita Altitude:
8000A0A000
Doboon Ie Arcna
Job *1
8000,
Submittal for:
AAON Contact:
s{bmittel Dats:
r4ry*Kolhch
Apr 2, 2001
Mod,el Inforrnotion
H2
G'l
3,t0
2
0
0
Scrba
Sire
volege
ColinsCoilfuion
Heating flpc
Hcat Drrignatjon
Hoat Stlgea
Featurc fnforrnotion
B r. Blower ldotor
O z- nrar Optong
0 r. otieoretot
0 n" cooLt"
A s. ncftigrradon Optims
0 o. Slo"ri" Oprb*
A z. n'tv Co-ui"rO"a
0 e.op*
0 s.op."
0 ro.spu"l
Unit Wetght 120 lb6
Horiantd Nat Oooliner 86.5Total/45"9 &r,clible MBH Anbtertl 45.O T
1 5m-1O00 QFM Entrrirs Air 77-O DB / 67.0 VtB oF l*aviogl 59. 6 DB | 583 WB'F
,I6ht lSph/60H2 nA5r{nps MC'tru=6Anpt MOP.TSAnps
Bupomtor - Siqir- Circuit Coil I'acc Are a: 5, 0611r forvar 2 Fins/lnch: I4
Hot Vlater
J|.A Conrunpdon: 76.0 GPM llorriog output 149.2 MBH
Nr{ llcrt htcring.lir: 60.0 "F Lantrrg:= 1lI.7eE
?tp CrMz 3700 SPz 0.75'uE ed/ 1.73'utg bt Faa'R,PNh HfA
Srondld: ryfatcd Frrirt5: 2it'x21'22
Stanfurd - Etght Pipbg bnebns /Fto* Dis&arge
Statfurd - fltdronic
Hot Gu fuposs - Si4t& Circuit Eo@6ratnt
Stednd
Siahq &mbitwtion - 1300n 1700 RFM
Standgd
Sto'[d'f:d
Statfurd Paint Qnchdas 'Off WiE)
I'd 8660'0N
nqt&rd.T.: L.^t P'i,|'.otr. Do]e,:. otzr0e t \.grt0 PA
[,lvgZ:8 l00Z'll'Iel'{
HORTZONTAL
2oo0 - 4000 cFM
C}III.LCD |A]ER fiETUSI* EVAP. SUCTlllt{ t
r IPPER C(nfiECTIOl USEo rlDl
ffi'fi[Hl"EEffiIffiL'ctncull EvlPnl n
C
16
1l\
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+
RENMI AIR
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Itrt
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STEAI SUPPTY
r rrrEn Acc€ss
I ll,t. 4lSt3
IIOI IAIER SIIPPT
5IEAI f,ETUR
5h
tlLr
NOIE: ^rL COIL CO{lECr lO{5 AFE LrsrEO
^S
ICTUAL F GoPP€R'
CTIILLTO IATER RETURI{
EY|P, SuCTl0ll
EVAP. uolrlo tlilE
ELECIR ICAI
ACCESS PAI{EL
20rr4c
fllclt 4 toi
vu- IACI
ELECTR I CAL
OPEN ITIGS
2
2}1 7\t
}f FPI DRilil
coitirtcTlol
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CItII.LTD |AIER
St,PPLY
CONNECI]ON.-LIZE-
srAtotno coll erroal cotL
ctlllLEo LfEEcaL trro
sn orw FacE &t 1\.r{
OYENS IEO FACE IRE 1!i'r\'
oxdn_Irft 'fr DAeg FrC€ 'rR€ralwftd. Ltqtn, pr qtt 1t,f ..t'- .\'l{/A
otEns ItEo F/cE treA,*rlt, .lA O, nr dtt t'C .rri .n'vA
*t^l1W SrArArnO r'tCE l$r t\'N/A
O'TESIZEO FIEE 'EA try tlA
,E"Yih
SltN nO FaCE lEtl th'll/A
ovEnstEo FtcE trct try 1{/A
/ 'd 866t'0N
A3
||{vqZ:B l00Z'll lt€l|l
ON Coil
'/.tGta,glJ'6txdLdrgri,,!.,tXTSW
nr (''',rt6-'t'' Fe(toii racuat
Qtv
TI
DobmnleAterrp
JoD #I ..
EWO',
460u /3 ph/60 Hz
I8 Ampe
HP
o.75
VAC
160
460
RPM
105,0
FI,,A
3.6
CA{18€:AA00000cttfrl
Job Infortnatinn
rlob Namg:
ilob Nrrnbcr:
Sita Altituile:
Condennr Copacity
Cmliag @ 4il' Suctioo:
Cooling @ 86' Suction:
Cooling @ 40c Swtion:
Cooling @ 45" Suction:
Cmfiag @l 50" Suction:
Coil Face Area:
ElectricalDatd
Rati"g
Unit FT,&
Motors
Conp:
Cond:
EER - AnI Listiag Informotion
No &I nthg pmymm aiell f* thb wtilt
AII AAON unils dn usttd h mdan* wiah.lnl danfurits.
,O1,4MBE
87-2 tr@H
96.1 MBH
105.0M88
113.8 MBH
11.51 ft' (3 Raus)
Ph*se
3I
Unit Inforrnation
Uhit si".t
Cebhat Size:
Uait Weiglt:
A.mbient Temp;
Min Ciruuit Anp:
Max Ovelrrrrrcnt:
Unit
AAON R.p- ndata
AAONE@I .'t e.OUzAAONE@D&ryt.It
EQhtTorw
BC&inr.l,
679
ln.00"F
22 Amps
35 Ampa
RI,A LRA
14.7
AAt bR ?b L''u P?ir.l(rrd Dotq Jrt t,t h&tt PY
tlvgz:B l00z lt rEIlI 'd 8660'oli
AAON Coil Producls, Inc"Unit Submittal
,tiGt;1q6;1sAd
tataiat Ix?iflt
PtL POqtHAt Ftrp',q rrc.,Se
clr{18€:AA00000
Job Informstian
{o!f!ery: Dobo,nl.'-An:u
.rOb NuEDer: Job ttl
Sitc Altiturle: gooo,
I ON np,ndag,t
zlulO/JErl,, d.mM
AlIONEcdltual,a.5-'l
Ral Kol[or,&
Apr 2,2(Ml
Subaittal br:
AAONCoDtrct
Submittd Date:
Llodel Inforrnation
UnitWetahtl 679lba
GA S"tl* ttret Ciqurctbn Net Cooliqr 101.4 Totdl MBE
08 St" Eigl* Ions Anbtenr 90.oDB ? Snction: ,lg| "F
3 Vot c" A6hu/3ph/60fr2 yLfuISAmpE yr(,ls*ZAnps M0/p:*|Afips
Coliug qfl Eection Coil f,'rcaAner 1451 11t Rowc J Fior/Inch: Ig
Q66Fng 6.13o Suction 101.4 MBH
Coollng e ttro Suction 87.2 MAH
Cooliag € 404 ftrction 96.1 MBH
Cooling615" Socio 165.6 71",
Cooling 6 5lP Shrcdo! 11J.8 MBE
Fp'qlwe Infor-rrlatinn
I Anbtcat Oootrot Cycli.qFw
A n&ig,oesr"" HotGooBtporrc
0 c*t-t Stodard
0 C.tl""t StotrM.
0 qcn Strartfurd
Q w.tooty Statdord(OgYearStatfudfuanenty)
0 rye" Stoi;r.dol?d
Eqld.nlftl,|',a
6'd 8660'0N
P.brao.,I Dot , *2r2Co1 ,ct*2t PN
f{VgZ:B l00Z'll'Iefl
F
o
Condensing Unlt Performance Dah
o
60 HerE - English
Unlt
sEe
Sat
Sudion
Temp. F
--Ain Empeqtllp E!S, ing Condenser- F
85 05 105 1't5
Coolhg
MBH
Po!rcr
KW EER
Coollng
MBH
Powgr
KW EER
Pooling
MBH
Porver
l(w EER
Coollng
MBI{
Povrer
KW EER
02
354
15
50
23-5
25.9
28.3
30.7
206
2"06
2.08
2.12
1 1.,[
12_6
13.6
14.5
2..4
24.7
27.0
29.4
L14
2.21
2,m
2.31
10.5
1r.0
11.9
1L7
21.1
23.3
25.5
27_7
2.&
2.Q
2.50
2.55
8.5
9.4
10.2
10.9
719.
21.9
24.1
20.3
274
2.74
2.76
2.80
7.2
E.0
8.7
9.4
03
35
rl0
45
50
3t.s
34-8
38.0
41-3
2.U
2.38
2.40
2.45
13.5
14.6
15.9
16.9
29.8
3:t.0
36.1
392
2.61
2.66
2.68
2-73
11.2
12.4
13.5
14.4
28.2
31.3
34.3
37.3
2.95
2.53
2.90
3.00
9.6
10.7
11.6
12.4
26,4
29.4
32.4
35-3
3.3{'
3.27
3_23
333
8-0
9.0
10_0
10.6
04
35
40
45
50 58.0
4.8
45.2
53.6
3.52
3.58
3.6S
3.8'l
12.7
13.7
14.Q
15.'t
42.4
46.7
*:l
3.8S
3.9'l
4-or'.
4.20
10.9
t1.9
12:6
13.2
40.1
4.3
48.5
52.7
428
4-U
4.4
4-60
9.4
102
10.9
11.5
37.7
41.8
45.8
49-8
4.f
4_74
4-90
5.00
1 .0I
8.7
9.3
9.8
0s
35&
45
50
57.4
6e9
68.4
74.O
4.48
4.52
4.62
4.77
12.8
13.e
14-8
15.5
ilA
1 s9.E
| 6s.2
70.6
4.97
5.01
5.10
5.25
11.0
11.9
12.8
13.5
51.0
fi.2
61.5 i
m.z I
5.57
5.61
5.70
5_85
9.2
10.0
10.8
11.4
47.5
52.4
57.5
62.4
6.23
6.28
6.38
6.54
7.6
8.4
9.0
9.6
08
35
40
6
50
90.0
992
108.if
117.5
6.57
6.64
6.78
6.99
19.7
15.0
16.0
16.8
86.0
e4.E
103.5
112.3
7JA
724
7.35
7.gz
12.O
13.1
14.1
14.7
81.5
89,9
98.3
106'.7
7.97
7.96
8.13
8.36
'n.3
12.1
12.8
10.2 76.7
848
92.8
100.9
8.S6
8-75
8.92
9.16
8.9
9.7
10.4
11.0
10
35
40
45
50
ll6.s
128.5
't40.0
1513
8.92
8.99
9.17
9.46
13.1
14.3
15.3
16.0
111.3
't22.3
133.3
14/..3
0.89
9.98
10.19
10.50
11.3
12.3
13.1
13.7
110s.3
115.8 i
126.1
130.e
10-98
11.08
1r.30
11.61
9.6
10.5
11.2
f r.8
99_4
109.4
119.5
129.5
12.15
12.25
1L4E
12.81
8.2
8-9
9.6
{0_1
13
35
N
.15
50
144.
154.8
t693
1U.1
I 9.89
9.89
10.G
10.35
142
15.7
16.8
17.8
134.8
148.6
1ei2.4
176..1
10.72
1A.n
10.97
't {.3'l
12.6
't3.8
14.8
15.0
127-5
141.O
1ilA
167.E
1 1.95
11.96
12.'t3
12.4
10.7
11.8
12.7
r3.5
120.7
133-6
146.4
159.3
13.19
13.21
f 3.3E
13.70
s.2
10.1
11.0
11.6
16
35
40
45
50
180.3
19&6
216.8
235.0
13.r1
r3.25
l3.5rt
13.98
13.8
15.0
r6-0
16.8
172.3
189.9
m7.4
n4.9
14.25
t4-45
14.66
16.21
12.',|
13.t
14.2
14.8
1t2.5
179.5
196.6
213.4
15.E2
t5-06
16.28
r6.69
10.3
r1.3
12.1
12.8
153.3
169-6
185.8
202.0
17.33
't7.50
17.4s
18_30
8.
9.7
10.4
11.0
I
2j
35
.00
45
50
233.3
256.6
279.8
303.0
t7.00
17.53
18.39
10.9s
,l3.0
14,6
15.2
16.0
?.3
24l'.1
26f-4
2w.4
19.80
19.9E
20.39
21.00
11.2
1L2
13.1
13.7
210.8
231.9
262.9
274.4
21.4
2-13
22.30
23.19
9.6
10.5
11-3
11.8
198.4
218.6
2u.7
258.8
24.5
?4.ffi
25.00
25.65
a2
8.9
9.6
10.1
25
35
40
45
50
2€1.4
309.3
337.2
365.0
z3.Gt
23.32
23.91
24.79
12.2
13.3
14.1
14.7
268.3
29d'.2
i3,2o.1
3{6.1
26.46
28.24
8.15
27.39
10.5
112
12.1
1ZG
25/-.3
279.4
3025
326_6
24.2A
28.57
2E.8
30.24
9.0
9.7
10.3
10.8
2X9.1
261.2
203.4
305.6
31.50
31.79
32_49
33.48
7.6
8.2
8.7
9.1
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I
Specification*
I
Holrling Chqrge, tbs. (kg)
tbifih(mm)
Holdlrrg Chaqe, lbe. (fu)
& MotorRptrt,60/50 H.
tlab t - sranrlard condtton5 a|t 45 c"E
"u
r-cr: ct Gatrded iuc{on rerperaturs and 95 degrse F (g5 c)amblent
il 'd 8660'0N fivlz:8 l00Z tl l(eil
t20
1t5
- tloo. r05
Froo32 os
d6r0
E15-
=80
7!i
1!
Condensing Urft Performance- 60 Hertz
37 3t 3ff a0 ar ia2 13 u 1i {E ,t? ,ts 4e 50
SATURATED SUGTION TEFERAruRE. F
l,
-
+ tiro
F r3o
6f rzo
6
=ro3
35 a8
-AllBlgW{s- * - ^rlElENr€O-.. - - -AilBlEIiIf+i
-.-.A['lBEl{I-to
- -. - AlfBrE[T.ro6
-AtEtEl{T_i10
-AuEE
r-1r5
3!i 3E 37 3N 39 |(l /H a:! /$t t|{ .tS 46 q e 1S s)
SAruRATED SUCNON TEMERAN'RE . F
zr 'd 8660'0N
t3
[Vle:B l00Z t l'Iefl '
Elec'trical Data - One Compressor Units
Unit
Size
Power Souroe
1 Full' Lo6d
Anps
(Fr.A)
Mhimum
Circuit
Ampadty
(MCA)
Maldmum
overcunEnt
Protoction
(MOP)de VoltrgE tl4
v2
1 z)Et230 - 1 Ph 00 E2 19-3 30
2 2081230 il Ph 60 11.4 13.4 20
3 460 - sPh 60 5.7 6.7 15
5 200230 - 3 Ph 50 11.3 1X-2 20
6 38U415 - 3 P s0 5.6 6.6 15
03
20w2fi-1P 60 18.8 22.5 -352208230 -3 Ph 60 13.2 15.6 25
3 460-3Ph 60 6.6 7.8 15
5 200f230 - 3 Ph 50 13.2 '15.6 25
6 380415 - 3 Ph 50 6.6 7.4 t5
04
1 2(n 230- 1 Ph 60 23.2 28.0 45
2 2061230 j 3 Ph 60 16.4 19.6 30
3 460-3Ph 60 8.2 9.E 15
4 575-3Ph 60 6,5 7.8 15
6 38U415 -3 Ph 50 8.2 9.8 15
05
I 208rzn- 1 Ph 60 frr.9 40.1 60
2 208'230 - 3 Ph 60 20.0 25.2 40
3 460-3Ph 80 10.8 13.1 20
4 575-3Ph 60 8.5 10.3 t5
5 200230 - 3 Ph 50 m.9 ?5.2 40
6 3Ery415 - 3 Ph 50 10.8 13.1 20
08
2 zoEf23{t- 3 Ph 60 35.8 43-0 70
3 .460 - 3 Pt 60 18.3 z2.o 35
4 575-rh 60 13.6 16.3 25
5 2m,230 - 3 Ph 5{l u.4 30.8 60
6 38ry415- 3 Ph 50 Tat 20.1 35
10
2 20Er230- 3 Ph 160 37.0 4.5 70
3 460-3Ph 60 10.0 4.9 35
5 200230 - 3 Ph 50 33.6 11.1 70
6 3BOr415 - 3 Ph 50 17.1 21.3 35
il 'd 8660'0N
16
ilV8Z:8 l00Z'tl',{P||il
ffi'-
HOT GAS BYPSS
FRONT VIET{
,*#
lJVc -,tl.,t8 I
rg-.F
LEFT VtEW
gjcTto Llt
Lf,lrn LFf
ulL2n
!s&106
A2
SINGLE CIRCUIT
CONNECTIO.I SIZE ( IN/XM)
.LIOUID Ic 122.225)\ 122.225ttrz | 1277 |
l's (22.2251
1 lzs ( 28. 575 )t.z 112.7,
it 'd 866t'0N ilVnZ:f, l0|l7'rl'{eil
T9 NG
B U lt D l1{G E ltlY In 0 il il E 1{TS
Hydronic Heaters
(Notq Due to tigft lead times the below manufactures are being
submitted as a substiute to those specifiedlf
Cabinet Unit Heaters - EnvircTec, Inc.
Ceifng mountedietesrgd cabiner heaters w/16 ga rernovable ffont Panel I I 9a top &
sides, locking door, whire finish on lvfiite ceiling, hot water coiL centrifugal foNvard
curue fan' shaded pole motors including 3 speed swftch l'filter, recesed mounting
flanges, duct coltarwttere needed and eJdended ollers.
All controlt rrairEs, & T-StaS are by othe6I fcuH-rl Moder HLP-304 lcur+z thru4 & 6, ModelHLP-302 lcur+l&SfModerHt.P{o
Hydronic Unit Heater - Modlne
All controls, valvet & T{ftrts are by others| (ul+ll ModelHst6s I
lAfternate 3f
Duct Mounted Heating Coil - DunhamBr6h
All controls, valves, & T-Sftrts are by othersI lHc- l, coal - 5t&H2/--22T x24LH - cortractor to veriff right or lefr hand connection
>
C ryDar'riot5\fisttCdqrdo hrQh$l@'ldo Fl!,t$itg ' JEIY| O6roi\$J.rltl DoD.o
Pmjoci: John Crobron tc8 Arefla Locdion Vail. CO Contrac{or dorado Plurntin0 Oate 4.}{)1
Casper. Cobrado Spdngs. Denver r Grand Juncfion r Las Vegaso Renor Salt Lale Cit! Sotl
ql 'd 866t'0N I'IVBZ:B l00Z ll i(erl
COIITRACTORS
€NVIRO-TEC model HL horizontal concealidl'ltln coil
units provide maximum performance while reducing
installed cost to the contractor. Ultra low profile
design (maximum 10n up to 1400 CFM) allows
installation virtually anylvhere. Bottom access to all
components through available hinged access doors
makes service easy.
DESIGNERS
The Hls modular construction and number of
available sizes renders unparalleled flexibility. The
coils and drain pan can be reversed in the field to allow
piping connections on either side. Available with
chilled water or DX cooling, and hot watei steam or
electric heating coils, ENVIRO";TECd HL fan coils
Droduce the ultimate in comfort and floribilitv.
OWNERS
ARI 440 certification ensure5 exacting performance.
Concemed about Indoor Air Quality? Sloped drain pam
are standard features on HL Series fan coils. They are
easily removed for cleaning and to provide access to
the coils for cleaning.
STATTIDARD FEATURES
' low profile, 10' height for all sizes
. Heavy gauge G 60, chromate coated
galvanized steel construction
. lfZ' 4lb. dualdensity fiberglass insulation
mechanically fastened to casing
. Sloped drain pan, internally insulated
- Field reversible for left or riqht connections
. Removable fan assembly
. 2 ot 4 pipe configuration, heating coil in
reheat position
- Field reversible for left or right connections
- Manual air vent fittings
2,3 or 4 row chilled water or 3 or 4 row DX.
heat pump compatible
- 1,2,3 or 4 row hot water
or "l or 2 row steam
. Multi-speed motors,
120,208f230, or 277 volts
. ETL lisied and labeled
voltage configurations. Options include door interlock
disconnects, low voltage controls and quiet operatingag < ul)LUllllts:L(), tuw vulrd9e L|.llLtul> orlr'r YutEr vy!rsLrt'u
71/ contactors. All control and electric heat configurations with
single pornt power connection are ETL listed as an assembly.
OFTIOI{AL FEATURES
. Insulated plenum, rear ducted or
bottom return
- Field revenible
- 1'throwaway filters
. Foil faced insulation
' Stainless steel drain pan
. Double wall drain pan
. Secondary drain connection
. Auxiliary drip pan -
stainless steel or galvanized
. FactoU pre-wired terminal strips for valve
and thermostat connestions
. Bottom hinged electrical enclosure
. Heating coil in preheat position
ELECTRIC HEAT
Electric heat is available in a wide variety of kW and
. ARI 440 certified
66t 0 NV6Z:q l0l']z l 'iPltl
EIICTRICAL ENCTOSURE
The Bottom Hinged Electrical Enclosure provides
access to a soacious electrical compartment. This
compadment houses all electric heat and cqntrol
components. Terminal strips are furnished for simfle
power and control wiring connections. Optional
terminaf wiring packages are avaibble for 2 or 4 pipe
controls. Multiple knockouts allow wiring entries from
either side of the comoartment,
TELESCOPING BOTTOM PANEL
The telescoping bottom panel ..allows for fully
recessing the unit while permitting seriicEDccess into
the ceiling plenum. The architectural ceiling panel is
finished with a durable powder coat painl.
POWDER
COATED
TOU9II*1r
DRAIN PAN
The optional sloped, double wall, insulated drain pan
can be equipped with a secondary drain connection.
A stainless steel liner is also available. Standard drain
pans are internally insulated, single wall galvanized
steel. The HL Series drain pan is easily removable for
cleaning or reversing connections.
corLs
All fan coils are available in 2 or 4 pipe configurations-
The heating coil may be optionally placed in the reheat
position- Heating and cooling coils are field reversible
for right, left or opposite side connections. Separate
tube sheets for heating and cooling coils allow for
deaning on the entering and leaving air sides when
the drain pan is removed-
FAN DECK
The fan assembly is easily removed from the unit
without disconnecting the ductwork for service access
to motors and blowers at, or away from the unit.
ENVIRO-TEC. offers a Windows. based Selection Program for HL Model coil selection
_?:<-i(t-1nce. 5ee your ENVIRO-TEe representative for complete cataloo and product.
B66t oN,"-l"t"r-""L; - --r'---"--'- Itlv00:B l00z ' I I leH
o
'Xt FNYIHF;r.FE
ARI Standard Ratings
NOIE:
t. Brrcdon 8(l'f DB and 64 t/y8 EAL 4ST EWT, ltrt tcmperaftre rke.
lrigh fan speed. Motor voltage l lyt/60. Airllor under dry oii
<Dndifions- Bcth rnodels trrtcd at O-Of crternal sutc pressum.
DrunrusloNAl I ruro Rrunnont
l,Saied on 70oF DB EAT. 180'F EWf,40'F tcmperature drop, high
fan $eed-
i.rh@ ztg l,tg 1CF rtl ,.4
Ltb66 304 t,r..00!tlro Itl tt.l
14 ! i- orc 7lo .J t!,{0 l5.a0o Lt toelF E r0o al ltQ tlo ,rt ta
ll' r r'61 tlla tl r1$rdo
',.s
tr
b.a htaq zt!a.t tF t!n 2l t,t
aao l5 r(6!t rl.t6 Itl tt
lq,ar-Al ?ltt 4.!ll.too tt.aaa tat t.z
l-, a* (.o 1000 C't3:o tt.ao tta tdJ
n a i-aao t$o a3 ar,ao TIO 4 tt-!
ng Capacity
I{OTE
Model HLF
Itt
lr,
Model Hl.P
lrrt
Itt
(!)
ltt4
'lbaYH
All dimcnsbns in inch6 [millimetetsl.
Enn4FlEtruwtEnIrAL TEGHNOLIf G;IES, INE
ENGINEERING FOR EXCETIENCE
stso 8.y.a Dairy Rd. . r.rgo. fL 3tr?7 . 727-941-t531 . Carl2r-9.'S-r028
*urYY.at ri(t-l.C.cotn
ss+GUHL. 12199
riif
..I!EE-
t:rtstlf rG$,
ETR'II VEf,,*
"l
Edrrd. t,=la,
;{1 .!|ttl ---l l,d
-.EAIE-
(rrl
"i#;r j
.t'|.tl,!. .r'
Dimefiional Data
All dimansionr in inchea lmillimctersl-
n 20
rr04
2r
lJ9 (5J'l
tl
(ar3l
30
oatl
4 :lo
lr6.l
JI
lrarl
t:
lllt)
29
l?rrl
ao
lr0r6l
t0 ao
lr016l
al
lr04rl
at
IT03'I
l9ltttl ,o
||2701
ao
go
lrrrol
tlnrt$'2(rrirl al
tr laal
@
lr rral
t0 60
n 5:11
6l
ttra9l
6)
lrttJl
39
lr.99l
to
lr??al
8t 'd 866t'0l'l
>
flv0t:B t00Z ll',(eyl
tffil FNJ{!n"s-=-.TF-q"
6f50 B{ym [}.iy Ro.d L''!,D,FLIJTr/
V.ice: ft2zl !t4l-353l Ft (X24W1@E
Hotulfttor Cor ErriE Vdnim 3.50 lmt?fxlD
gg VlUt;$Ol
frrfiilok JotnA oobcon Atm
Erg|rre: The Eo|rtd Gllrt4
Tag: GUttl
FfiOE FCU
hdct HL
sirc 30
tl lodd ll|l||h
t2todCttldnbs
Gl todd llun6cc
G.trfiisrB:
FG H.itG 75h
FE l..'rlG 30 in
.lllyY-975m0.00G1t 0.o{.?5
Fhl{rbu Almim-0.0055
Tubc Xrbrbl: lti r 0.016
6t 'd 8660'0N l|lvl0:B l00Z llrP!'l
txl F,-.N.Y|H"P,;TF'-d
6-'50BrFO*yR0rd L{o,FL$7rt
vbbe: (7?) 541-363r Fa (lzt) 5a$16
Hotw*r CoI E $rc Vcnin 3.50 ln!.0a0m
61 O4,IQIIZJfII
Pr.i'|'tJED. Joltn A Dolc.'t Ars|a
Ergircc: ft.8dhdcfif
r.g: CU}}a 3,4li I
t{: Spqified lrniti
li?Volttn 3t5.0 ff/min
Airlrrh:fv 201.6 Ornh
Et*rhsAhOErlIB 00.0 / -.F
L.rJirg Air DlrUlB 't 11-5 I -"F
t{crT:rp. EX|f/LWT 180.0 r 155.5 .F
OlFol tt tlurielt 30.0 %
IthrYolrn 1.50 gdrmi!
UttuV.locity 2.fi {UEec
frErPEidrcDmp 5.04 ft rirg
Edo 8!m ff
llPttsnruOmF 0.mt4 nrw
noxr , F-r 2l 10 .€ch / ti
ChrIri I eEdl
Gqncdbl*r 05 n
3frelrC.D-ity 17512-l btr,lr
TtlCrsrU 17612.1 botrt
Fntiy: FGU Fr. H.itlt 75 h Flr ll*rlet Armhum - 0.0055
l{odeft HL FRlcnglr: 30 il
SIrc: t0 >
il lqdGl rrnbcr: 4llw-9?5mo.re2-10-0{.!ttl
'2flo.hlXurbcr:S oddttfilcr:
ffioE
Tub nfirbt lff 10.016
0u 'd 8660 0N l'{Vl0:8 l00Z ll'IPl'l
ENVTFIGI.TEEEN6INEERING FOR EXCELLENCE
G'iln ErFn DaiyRo.d ailgo,tT3J7z
* !o[e: (tZ[ sar.3tBl Fa flzll5lt1@t
na *r Cor erghe Vcdon 350 ltlfmF)
lxr
Drh. O{/@2m'l
fuid.bt: JolnA (bcon Anrto
Ef,im.r: fhe Belatd G.ouP
Tr9: CUH-7 & I
Fdrdlf FCU Fa llelJtt 7.5 h
FGlrqglh:60hIodC: HL
FhnirEk Almium-0,@55
Tulc ll.Grirlr ttt xo.016
Sir.: 60
tr lodd llrffi: tltfw-97.3ffi0.tm.240.t}{.50
f2 f,od€l .nbr:
ft lodd l$rnbcr:
cilrFq|nri
?l: Spq{-d lJnitl
AlrVolm+.| 0qt.0 tFrnh
Air llHodlr i[.0 fiffil
ErtfirqAkD€nilB €0.0, -.F
l-{YiEnirDBnm lGt.O I -T
UU*rTn|p.EWTLW?180.0, 152.9 oF
htltrxEi|m 30.0 %
wlb"Yotrn 3.c0 gEUE I
UrCrltcloCty 3.01 ffy'sec
WfPlsG||r|OtoP 0.7!nr!
A|rtr|.|a 8tm n
Ai?PrcsflrD|!p 0,0r5a n$o
R*:lFrs alt0 Gadt / hi
C rqir 2 t sdl
comdhnSts!0-5 !l
SqEaUcCtcit!7 ,353t4.5 btu lr
Tofl C.Frclry 45iI a.5 btttt
IZ'd B66t'0N
->
flvl0:B l00d'll /(eli|
l"'-
OPERANON
Figurc 13
Hodzontal Dellvery Unn Curalyay
FiEure 14
venica! Delivery Unlt Cuta{ray
o
- For€le-ttpo pefiiits dir€c't oo.rnection ot unh heaier to the
Itiling. HC mod€ls hgvo @pper connecbrc Et site ol |t|o unlt
rotorSoollng com - shiclcs
-nrobr ftDrn cdl heat - prolongE llr of
Insdd'nn. rindqs, d lubrbar[
- An alt paggcc lhroWh coil. Heatrng is dnilotrn, Dosign assJres marimum
contol orcr air deliv?ry lrd bmperaturg ol a|l bavln0 the heater. Alurnirum fins
dilbtrned lbr added sfrEnglh - increasod heat tnnsfer. Frs mednnlcally
bordcd to s.rpenioe ceper tJbo-
.- All moion ere tolaly onclo8ad, Si.role phsse lyT.s ind.do bulltJn
fEmal oredoad trotgcdon. 8un by reFltrbb manulbcturm b NEMA
slanderds. Selected and leoted lor operatim on spedllc unh hee|.er npdels. Al
Folor slrlng 16 terfilnad i rn eledicsl pnclion bor ehher supdied on tlE unil
lgabf 0r E6 an i esfdl pa.t of the molor-
Frn - Llghtm{gfrL Blades adrraEly bslanogd and pibhed b more atu qleiy
Cttd pod{hr6t - wi0t manimum power requlrgmenL
6n gtr! U - Sbrdatd €quipmgr{, Bolled 3ieel rod tan guad cgmpl€tsv
SunDurdi lhc tan ott ritlg oonotafi prdocition.
blrdcs - AdlustaH€ ho.tsodal airde0ectof Hadsf are standafrl -vedical uadto aro $ardad on Modeb lfgi'58. Hs'2s0 and H&340 and are
odional m ofiel hodzonhl rrcdels.
- Bddton grafgrcen high sofds painr is appllsd orer rust- ard
eled lor lng lite. Prccisbn, do-ionted casings,
JunG{on Bor * Earlgr in€Gllatioft
rt0r singb poinl €lectlcal conrcdion.
YE tlcrl fl|! - L06s egoih/niy lor dll3,t and dirt b colloct Redrces deaning.
Fins dlo-lbnlt€d lof arrded stEngfi ard h€3r tenSfor.
Uotor csslly ?tmovable - Modine
dcEn p€rmh8 moDr b be rennv€d
lhrcugft oponing below lfte unil-
oGpeddly important trere hders ars
id$lled dos€ lo c6lim.
Ye|dcal finr - Le3s oppoft'tity
'ordusl d did to colid. Etpoos<l lol
e83y deaniru eilh alt hOSS and bruSlL
Crsings - Baked{n Earursen hlgh
solkts palnt appl€d o€r rust- ad
corrEebrlreatod gFgl laSE lOneer-
Pmlangs motor lifb-
Col -Auninum llm mecharlcaly
bnded b !.b06 for maritrum lrest
fandgt- Al 6haft and waler-calrying
parsag* betwn hesry sbel ftF
cdurecdo|ls are copFr. o'
cr.Frlnit(ol.
Iotot-Alrpbts ar!
oncb6od. Singb phoss DDs irdub
lruillir fi ermal ovsrload trDtecton.
Molor€ sobcbd ard tssled for
oFrd'lm on oadr 6ped1fic modd.
Fln -lcq/raFly balancEd to
oFor$t quidlt srd d lourEd possibls
power dE mplbn,
7It {eil7,7. ' d R66C 0N l{vzl:fl l|.]nz
HOT WATER PERFORMANCE DATA
Standard Standard Cordltlons
'h llotor Speeds
Reduced tfotor Speeds
Requircs Solld Stete llotor Speed Contmllor
.rlottd un|t ift tEirol{d loiJyG s ooird f tcn ttc ltrthd ptam- Vlrfcal tyFs rqripp.d ii'| co.rc F alc{fibr. ffio! h Ul op6n p6hfon.Fd|tE poFirr mou Uled on heGe o.hs.
Cftt b luLmul typc h onbriq 6im, Cln b Y€rti:|| ur(lqrer.iltfurr, ItF. i. tr|yir!0 Otnfdr,r!!Dr.p..d. '-
V lnd Fft nrod* lnv. oqp.r ub.., Vtl rrd PIN nEdrb ]tdr qpr!fi|.d nt E-
0,(!
o
oo
II,F.
I
fo(t| o.Elrt'.GPII
Prtcq|tr
O?op(Rof
Wrbt
Alr ltrb ].oilor Ddt
Sanrdcb
O l|ax.
l|ourdng
Hrlgftt
G-)
Ollot
Thros orsprld@rLrb|thl
Losrr
rfts
flolgl!
0r)
lh
Throw(alr*tr
mgL
HGlqht
o
Cht
Outlotvrbdtt
(FpmJ
Flnrlllr
f.np.
rD
(D
flp
Approl.
Rpm
HqlDntrl
Odircry
HS/HC-18
HS/t{G24
HEl.lc-3rt
HS/t{C{7
HS/HC{{l
HS€6
H91OB
HS-t2r
l{s16s
f8190
l{s€58
HS-290
l{s-3.0
12,104
t6,6m
21,600
30,800
,t{'8oO
@,om
8r,000
91,!rco
131,900
l.L5,2m
20o5oo
za,g00
tTrAo
13
1-7
22
3-2
4.5
6.5
4,4
9.5
15.7
15-1
20.8
4.7
4.1
o.6'
o8
o2
0.3
o.8
11
32
4.0
7.9
2n
5.0
5.8
11.0
'.tb
tl
l
Il
Il
l
l
lv
tv
lv
lv
lv
I
t0
11
13
15
16
t8
17
a)
19
20
22
2.
18
t9
23
30
31
33
33
27
43
4'l
47
50
50
;I
t0
10
t0
t0
10
12
12
12
36
12
46
il6
41
60
57
65
65
60
3,lt)
370
E3{l
730
r ,120
t.340
2,010
1,775
32q
2,9(I)
,{"580
4590
5,r30
615
675
875
76
68D
e20
775
700
870
7fi
711)
750
7m
93
101
91
08
90
1Q?
96
107
E'
105
100
105
IG
1/60
at
1t?5
1t12
1n2
l/8
1t8
't6
1^l
ttr
1E'ln
1E
1550
1550
1550
r550
't550
1625
1@5
1075
1075
1075
1075
r075
t 075
O'FoG.
Thrff
Pr/FfN-ztg
PTIFTt+tt3A
PTPTl.l€05
Fr/FIN€OO
PVPTN-6IO
PT-952
193.300
2.00,400
278,to0
300,300
43f,600
705,900
20-r
2L9
2&9
37.4
17-2
70.7
0,3
0.4
0.5
0.6
0.8
1.0
vl
vl
vt
vl
ivvt
17
18
t6
19
2,n
108
117
124
138
151
r50
5,460
5,ffrt
7.680
10,390
11,lfi
12,166
2165
2165
1a80
25m
?315
KPl
94
99
94
91
98
1r9
'v2ul
I
1-1n
1.lE
2
r07s
t 1.10
11fi
t t40
r t4o
1tlo
@VarH
D?llusry
v/vN.l2
v/vtrt-59
v/vl$78
v/vN-95
V/Vl,l-l39
v/w$t6l
V/V[193
|vM{.212 |vn N-2a7 iv/vt{.279 i
v/w{-asl
vMtt,385
v/V|rl{o{,
v/vt\{l0
v-952
tm3m
4e,900
57,fr
69,800
107/100
124,80
r48l@
16it,400
189,800
21.t (p0
26t,600
303,900
39S(n
15+6q
7O5,gml
3.1
4.4
5.s
7.2
11.1
12.9
'15.'t
16,8
19.7
n2
2?-1
31.5
,{0-8
17.2
70.7
2.4
22
1.8
1.1
1.9"
2.O
3.E
2_A
4,2
0.8
1.0
0,6
0.6
0.6
o5
tl
llI
tl
t
tv
tv
tvb
v
vl
vl
vt
vl
r6fr
En
26
29
e,
32
37&
ao
39
17
/t6
63
12
15
16
16
19
2.
24
24a
g2
32
32
,lO
39
70
950
1,155
1,6!m
1.8S5
2.650
2,o'ts
s.500
3,610
4,420
5.,[80
s.!t80
7,680
0J90
|,750
?.166
825
toos
'r06s
11m1N
14m
r690
'1740
r910
2165
2165
18606&
2315
zp1
91
g6s
rol
99
90
IV?
t0a
9E
s6
1Gt
97
97
9t
119
1^r0
t/80
7tr5
1fl5
1/6
ut
1B
1/3
1n
1t2
gl1
I
1-1El
1-1nlzl
1050
I050
1050
1050
1075
1075
107S
1075
1075
1075
11i|,J
'| 1.f0
11{o
1140
1140
r}rpe fodel No-Bhltrr.GPM
F rr||116
ftiop
(Fl. otw't4
Low
SFcd
Sound
Cls3g
Aar Ddt lrolor lrota
O mat
l|ouodng
H.lghr
(fr.lo
O ]i!61
Throt or
Sprcid
(tr)
o
clm
outlel
Vclodty
(hm)
Ftn6l
Ah
Tcmp
fD
o
HP
Appror.
Hpot
l$drofil
Delivrrt
HSyl{Gl0
Hsnc2,1
l{S,l{C-33
HEI{C-.7
HSJtlCr&l
H986
H$r(r8
9roo
i2n(x)
r 9,0004'W
36.000
rl8,000
62.(xro
t.3
1.6
2,5
2.9
L7
6.3
8,'l
05
0.8
0.2
0_3
0.8
14
g2
I
I
I
tl
I
tl
tl
9
10
1t
13
15
't6
18
ll
l2
1a
18
18
m
m
mIt
995
.150
565
86
13ss
uffi
,t90
.l8O
44
515
,f90
t00
r05
105
105
10s
115
r05
trto
1t25
1n5
1112
1t12
1/8
t/8
lmo
r(n0'1000
10(n
to00
1000
1000
10
t0 0 8660'0N llVZE:B IOOZ il
^el,|l
DIMENSIONAUiTIOTO R DATA
Horlzontal Air tlellvery liodets -.TWo SMes
Itlodel HS
," .TopBoliom - tnlet/Outlet
llod€l HC
H8f
\------o-------'i.l]*llr-----\---i-tE-?l Ill-lilltr-llr_1
$ide lnlet/Outlet
M6rImitE
3r8.-t6
l{olo8
Trp
-lF----1
E_F-A
tE:--------{if---.-{r--={
r-------------- lGiE@
Mormint
tlolcs
Co|!naclloo
T&le2
modd
Nutrbcr A E c
D
E F G H
Connac,tlon3
FT
Frn
l!1..
App$x.
Snlmng
lllt Lbs-
f'YS.
f,lotor
rISY rrF
notol
11918
t€.24
ll$sl
t{s{?
tf,i{s
118{6
lG;-ta
.. H9t21
+l$f6d
l{9rgt
ll9zlr .H$A
Hs{rro
12-18
12-lt2
174n
17-112
zr.
22
zr-1L
n-1tq*1n
sGl/2*lrz
'a-1n2*'t12
13
t3
17-1n
't7-1t2
p.
2
?7-1t1
n-tA
so-lti2
3G1/?
37-t/8
97-r/8
4&1/8
a-9/1
8.gt4
83/f
s'112
s-lt2
9.1t1*lt4
l2,ln
1Z-1t2
12-1n
6
6
a-3t1
5
6
v.tn.
8
I
8
71n
7.1n
+112
9-1t2
10-1n
1G1/2ME
12-1t2
12-18
1212T
12
12
11-1t2
1t-1til
11
14
t5
15
't5
;
11
'r5
't5
18
l8
21-1,4
2l-111
t8-1tz
1A-1n
lE1n
3
3
3-.?8
3-5|8
3{/8
95,t
3-3r4
1.3i4
+3/,134.
3{/,3
t-at1
&9/t
;
6
6
6
&3/8
G3/8
8-38
5-3/B
9-1t2
+1rz
9-'tt2
E4
3t4
1-111
1-1t1
1-1i/4
1-1t4
1-'l14
1-'lt4
1-111
1-1t4
1-1ta
1-1t1
1-111
9
I
12
12
't4
14
t8
l8n4u
2au
16
mu
36
.|8
52
74
76
tn
98
162
168
176
BGTs
H?.U
HCrtt
Trc4I
HCEI
11-1'2
11-1t2
15
't5
1VlP
12i3t1
12-ga
17-1n2
17-1/€
21-1f2
I
6
8-g/a
a1u4
b?t1
5
6
slr2I
s
12-1n
124n
12
12
l2
$5atra
1l
ll
18
2-114
^114&5/83{e
3-5/8
4n6
+18
6
6
6
ttn
+1t2
10
l0
11
1n
182
3t4
u4
314
9
9
12
12
14
16
19
94
.13
55
AI dirEdonr h iltfiG.
Table 3
Modde HS and HC llotor Ampere Rnlngs
Fetfngs shown alr lhe iamc for ltc St dard and Low Outlct Temperarne modclc
@
no.bl
u[aa?
IslorTyp. d(Poucroodc)
115/l0ft xn60ri,200,rbB zg400tE0t,r 1560/t 210rr!60/€ll^l 5tsl6(y!t 5-,5rE^t
Tot|llt
Enclolcdu/thcffirf
Or,flload
(ot)
Tol.tly
Enclosird
w/fhcrn l
Orarload
(02)
Tot!lly
EndG.d(0at -
TotrfiYEnddel: (05)
Edclon
hoof
W/IIF nEl
otrclood
to6,(o)
To!.lly
Endmald(r0l
Erplosion
Prool
dTtcmraf
(1t )
HS'HGI8
l{EHC2il
HA'HG&I
HStllc,/rt
H3xc03lts$
119108
it2l
.It-l65
H&tst
lls.z58
tl8.200
lls{ao
0.8
l.a
1.6
2-2
2-2
2.3
2.3
28
5.4
5-,1
7.$
7.5
7.5
0.44
o.44
1.0
1.0
1,O
1.0
1.0
1.5
2.4
2.25
3-5
3.5
3.5
;
1.t
t-1
1.1
1-9
1,9
1.9
26
2,6
2,6
''.fr.,
1-4t9.7
1rn.7
1.4A,7
2.1/r.05 |2.r^.05 |
a1l1.05 |s.o/1.5 |3.0/1.5 |3.01.5 |
3.1
3-'
3.1
3.'l
3.r
el
3.1
4-1
6,t
6.1
72
7.2
7.2
1.5f7,5
r.5rr.5
1.5n.5
2.m.0
2.0/t.0
2.Ot1,O
0.a4
0.84
0.&f
o.9a
o.c2
0.92
0.78
0-76
0.76
r2 il, 'd B66t'0N ilvtq:B Il]0 ,(e|il
Table I
Uaxlmum llounting tleighte
llH CO|l|aNrh fcror! ||l b bG u.a.t .. m|lp-llct: ro Gotrcd $e |nllt|urrcormaiat .t itor!rttb h6bir or u[tt hdrrE rlHt opa[i!d ri6 rGamDrtrtuttr oii.? [:r 2 Furidr or dth r{ar n lahcr fim rrbrtE! Fmmfit !ola2fF,
o wtth hqizgnld louF|a Fned f liornrtp ritrfEr pr.rE. xs ltlb hv! top arrd bdiDrr tiiig cwEdmr, Hc mib hrvt rldc conncltu,!. Al hrc @Fer tlbaa.O V Jtd PI mo&b lnyc co!p.. tasc. vlrf rnd PTl| nioocC haw;;;d;'il.3.lg,ltho h'tfE ts mr|l.trum tot haJe|B-q..dq arbrdod conditbna (2 lb, sFam or 22f F wabr wirh 6orF oocdno ai.)- H€ights l3lcd t( Lo{l|tlf ol cono-ler glerih dclhcbtl in tly-oFn d poettiott. t|brt rrgi? r tor -t rtrn ot
"-i,nring
ttach6 undr oti"; "p"'"ti; ;;ti9n[,i6ir|-13 "rq11frf-'11ff]i'J-,I;* -Bnbrirlg d? tcmoe|etur* sxE€d o(fF
Figurc 4
lfaximum ilounting Heighto Gorreclaon Factorg
Unit Suspenslon
llorizonial dellvrry unato, llodel HS Sci'ci mgofzontar t
defivory unils, except lr/lodels HS.18 ard HS-24. trave r,ro ]
hpp€d_hol€ (f r2r13) in the top tor unit srtsponsion. Hgtg
and F[i-24 models do not require Indopo.ibni su3pe,nsion arE
ang inshlled drecdy on their sLPply pipang. Al HC-i S throuoh
HG63 hav€ tryD tapped holos (3/8'-16) in lhe rop lor unir -
stspension, Piping suppon hangers or damps ire
rlcommended and shouH be daced as cloee to lhe unit heater
as pocsble. For other models, i'ldepsndent susperulon can be
made_with lhr€aded rods. pipes, or ceiting hargbr brackets.
See Figuro 5.
V!ilical dqlvcry unltr Vertcal detivery thdets V/VN-42
thtowh V /l+2;i9 have forrr tappod hobs (lt2t-.|3) in the too
cover for unil suspension. Unit susp€nsion for thesb modeb'
can be made wilh tfrea<ted tods, pipes or oellhrg hangor
bmd<r!s. ribdeb VruN-333 rhrough y/yN-g52 Cr eq-uippeC
witr an angl+imn rrrcunting bradGt that has eigtrr Vg-iirih
diameler hanger holes permltfng hook-hoistirrg-and
Guspcnsbn xrllh caHes, il de6lrod. A lrzjndr U{olt. g-inch
earier can be Insened h the tw! hotes at eech erd ol the
ba.t(et b accomrnod8F suspension wltft bur threaded rods.pires or hanger brack€ts.
Porcr--llrrou horlzontil dcliv€ry odtr. ?otrEr-Thrclr" uriF
are designed for horizonlal air ddivery and are €quipped wlrh
harEer brackets hr susponsion. Th/ge harqer braclots arp
supplird for liodel PTIPTN-279, one on rhe front and truo on
ttl€ rgar penel brlireeaoint suspendon. Only tu,o hanger
breckets are turnished on the fiont panet of Modeb PT/PTN.
33{t through F PT}'l-952 (br rcqliired tour-point suspemion
Lrse th€ lyeo hanger brad(sb on tho lront panel and lh€ tso
lrdee on ths ends ol the upper angls $fporB at tho roar ot th€
unit). Eacfi hanger brackd has a SlSinch danreler mour ing
hole tor hook hoisting and susp€nsion wilh thrsaded rods,
pipec. or cablss.
Nore: A fpe hang€r adapler kit as illustrated in Figwe S is
mihHe as an ams€ory tom lvlodlne. The kit colrslsb of trvo
drllled s/lf-ind| l.P,S. pipe caps and two capscrmvs b fadtitate
throadod{ipe suspension. One kit wlll mounl a Mod€l HS
honzomal detvery unit. Two kits are r€quirpcf b mount a lr/lodel
V/rVN v€ilcal deliwry unit or a Model PT/Pfil Porver-Thiour'
unlt.
Holtofitr| rlD. o
'Porf,ll|wf
r\D.o
!q.!cd tne rl$ DcflCclq. o
No Dadedo.CorDJcf Truriet|c l,..rrYr3
3'Q,*
Arr||6td
,!Oo0c
ftrntrhh.bl
llo.
tFEtrtfl rhdcl
ll4
llhlrH-Xo(ll
tf4
lLfFt4 fLlclrl{.H.![r-fL ttrblch.-!!|enn tlchl*.Ftstd.LOJ.td-LO.t 9d.t-o.T.s1d.LII.T.sd.1-O,T.ed.r.o-t 8i4 l-o.T.5d.LO-T.
HA,HGtS 0 9 vM{.42 0 1l t3 r5 17 I I l3 15 I I I Err5tt{#0 It v/vN.5s o t/t 1E 1C 2 0 11 t6 r0 I I t0nvHGr(l lo 12 vnN-]t o 15 te N a 1t 11 17 a lil 0 12Hi,?fiX7 12 14 vM$95 6 r9 19 m I 11 17 2.11 1a I 12l{s,I{cdt !1 16 v/vN-lt9 o 18 a a 31 t3 17 21 8 'rg 9 t3Kr6r517vM{-16r O 20 8 n 95 11 re a 30 1a 18 10 11lI;ta 1t t0 vM{-r93 o n 27 q,t6 1G t9 25 sl r0 10 12 t5rasltt6IEv/v11.2t2 0 a,zf 30 36 r6 19 3l 16 19 12 r0lrsr651921vmt.21? d 6 a.&r 12 't7 A 90 t7 t7 21 1S 18ltrlr961dPrPnA2?t 0 10 vryN,mta 30 38 37 a5 .r8 z.35 4l t8 &.1Er{*F't9 2.PT/PTI{-333 c 17 V/Vr,rggt O 30 96 t7 rr5 17 n 3d 1l 17 m 16HsacraaPTIPN|€&' C 17.vrvN€8s o fl 36 36 as 17 &35 4l 17 a,ra tsHS340naPI,PII$gtr Q 1t 9v,r{-500 0 s7 4i 4 5a 1g u a 5t l9 2tl 13 t6
PIiPTN$IO Q m 4,vnlN6io ('30 s 13 52 ,19 u a1 5{tne21v€:t? @ 3',15 45 6t as 59
Gt
F
-c6
E
E
13
12
1.1
tt
.,
.0
t7|r r8(r axf za.. 4fr 2w sqr 3t(r s2o. 3tr
lc 0 8660 0N ttv00:B l00z'lliefl
ETUNF}WI-BI,.|SI{G
Ode[ Aft*dEts
Big Tom C.ontrador
Colorado Plumbing
Consfucted ot ,(Xg Red Brass Tubes
l{ob€
Taq Locrtiffi DssoriDtion _ ' QtYCOfL-2 Cdl-SWH2A-?2f x24LH 1
Tuesday, Aprll 03, 2(Xrl
gz'd 8660'0N
Venrion 321 - Rektased 9/2712000 - LACO
l{Vl0:B t00Z'll'Ie|,ll
Page I of 3
EDI,.|NI#M-BUSHO
PERFORMANCE SUMMARY
John A Dobson Arena
Ship Loce Coils
5WH2A-22Tx24LH
velocig (ll/min)
prcrssurc dtop (in w.g-)
aar DB / \ rB ('F)
air DB /WB ('F)
-30.0 /
53.1 I
Fluh Prooertics
I 30%PG
flow rate (gaUmin) | 20.5
velocity (fUs) | 2.O
fiuid temp- ('F) | 1
fluid bmp. CF) | I
herisht (in)
length (in)
/ fin spscing (finsrin)
pply connec.tione (qty@in)
connec{rong (qiy@in)
1@1',Vz
1@'t 112
A OuBkle the scope of ARI Slandard-.410.
B. Air pessurc drop limit ould not be met
Tuesday, April 03. 20Or
Ll, 'd 866t'0N
Version 3,21 - Released 9i[27n2ooo - LrcoPagc 3 of 3
rivt0:8 l00z'll ,(eil
cooK xARrG t-3
PR(IIECT: JOHI{ A DOBSON ANEilA.AITERNA
IIATE: 0'[-0i2-2001'@'
SQI-B
Squan Centifngsl
lnline
Belt Drive
STANDARD CONSTRUGTION FEATURES:
Al eluminum wlrcl - Hewy gnugp Lorcdzed stoet
hourim - lt gan{o ttscE I tru r95. 16 getrge
lizri 210 tfrl| {12 - Htuqcd rcs doar&.8
e0ftru 180 -Removable rcccec doorCzdl9s
thftt||'2 - Strdghtedng vilE- Beadngs rft.l
ai 200,000 houc avenge llfe -Adjrnilrble pibh
drlyB through 5 hp - Allferc fectory a{lusbd
to sFccified fm RPll.
$ound Data
Accessories:
UI,FIEEL REDUCED 33'. - BAI{OED
x+RooF{)sDoNl'tEcT
GRAV D/qrfirgt4o sQl
BELT GI'ARD
sc-ro aET(a) - EclLAToRs
Notes:
Drtw rrcoradum) = l6t6
500 750
Flow(cFIl
1000 1250
Dimensions 0nd'ec)
A 1+7116'
B 14-318
c 'r&13/16
D 174n
E 14$116
er [r Frarne 't4cf
Unitlirnbcf..'t72
..frd-lLndcr.nfi-
Altitule (fl): 9m0 Tffip€rdure (F): 70
Fan Information
Fan Gurvet Ocilrrr! Blrds dB
I 2 3 a 5 6 7 I LwA dBA $onee
76 73 76 77 72 7Q d7 62 78 67 14.7
GFt wSPFls0-
CFI 13HP
rrRPf,Fan)
f,irRPf flotqr*nqnYr
Poant ot (J
>
BZ 'd 866t'0tl
Fsn Grae trgend
tlvgo:B l00Z tt'IE|l
Square Centrifugal
Inline
Belt Drlve
STANDARD CONSTRUCTION FEATURES:
Alt dumintm whcol - H.srry gsrge Loreaized steC
horring - 18 gnuge sizes 90 thru 'l9g 16 gauge
ttss 210 tftru /{12 - Hingcd accocs door siees
e0 Oru 180 " Removable accers door slzcs 195
$ru 4O2 - Sindghteiling vtn G - Bearingr rffi
al 20o,0dl hous aver4e litu - Adirctable pitch
rltly6fttor|gh 5 hp -All ftm ffftory adiusied
to specificd fan RPlt.
Ahtude (fr): 9(p() TemperatJrc (F):70
Frn tor.rnt Accss
Hora Ceiling 6:0O
Sound Dqta
Accessories:
xfRgoF Dtscof{NEcr
GRAV DAIIPER-T
'{I
SQI
BATGUARD
se-r25 sEr(4) - rEorAToRs
lrlotes:
Cr'lElil*(M.df!n)=10%
TAruC EF.2
PROIEGT: JOHN A DOBSON ARENA - ALTERT{A
DATE: Ol{12.2001
tt00 2700
Flow lcF$l
I'lvg 0 : B
coor(€Zl-/ |
.@*K
SQI-B
I
D
.l
Fan Cunre Lrgrnd
llil----lLE.n[.
Performance
atv
Grtrlog
Numbcr
Florv
lcFr)
SP
llnvrcl
Fan
RPT
Bhp
(HPI
1 150SQ!B 2M 1 1704..86'l
DirnenSions (inctPs)
A 21-5/A
B 22-13116
c 2*1t4
D 2+3i4
E 1+5t16
llax lfF Framb t45T
UnitUr{lbsff 3€
tlotor
HP RPS VoltlrPhrHz Errclcure Position Mounted
t1n 1725 48(nm XFROOF 3:fi)Yes
Fan Gurue
E ctcirvr Eand3 G
1 2 3 1 5 6 7 t LwA dB,\Sones
m 78 @ @.75 71 69 a.E3 71 18.8
cil vr 8P (l7oal
-
CfS vr l|P
x{nPr (znil
nhRPnFr6l
StcE r CUIYG ---_
Pohd
06 0 866t'0N t00z ' I I'rPll
Honeywell
RM78e5A,t,Rfft?86fl8t3
7800 SERIES Relay Modules
SPECIFICATIONS
Electrical Ratings (See Table 3):
Voltage and FrequencY:
RM7895/RM7896: 120 Vac (+'10l'15%1,50/60 Hz (t 10%).
EG7895A,C: 2201240 Yac (+10"k1-15o/"), 50/60 Hz (t1 0%)
Power Dissioation: 10W maximum.
Maximum Total Connected Load: 2000 VA.
Fusing Total Connected Load: 20A maximum, type FRN or
equivalent.
Environmental Ratings:
Ambient Temperature:
Operating: -40"F to 140'F C40'C to +60'C).
Storage: -40"F to 150'F (-40"C to +66"C).
Humidity: 85% relative humidity conlinuous, noncondensing.
Vibration: 0.5G environment.
Approvals:
RM7895iRM7896:
UndeMriters Laboratories Inc. Listed: File No' MP268,
Guide No. MCCZ.
Canadian Standards Association Certif ied: LHg5329-3.
Factory Mutual Approved: Report No. J.l.1V9AO.AF.
lRl Acceptable.
Federal Communicalions Commission: Part 15, Class B'
Emissions.
EC7895A,C:
Factory Mutual APProved.
INSTALLATION
When Installing this Product...
1. Read these instructions carefully. Failure to follow them
could damage the product or cause a hazardous condi-
tion.2. Check the ratings given in the instructions and marked
on the product to make sure the product is suilable for
the application.3. Instailer must be a trained, experienced, llame saJe-
guard service technician.
4. After installalion is complete, check out the product
operation as provided in these instructions.
iltilil||tililil llllil llllllllllllilllillllllllllil llil
APPLICATION
The RM7895A,B,C,D/EC78954,C; RM78964,B,C,D are
microprocessor-based integrated burner controls f or
automatically fired gas, oil, or combination f uel single burner
applications. They are intended to replace the R4795 and
R7795 Primary Controls. The RM7895A,B,C,D/EC7895A;
RM7896A,B,C,D systems consist o{ a relay module, subbase,
amplif ier, and purge card. Options include keyboard display
module (KDM), Personal Computer Interface, Data
ControlBus ModulerM, remote display mounting, expanded
annunciator and Combustion System Manage@ Software.
Functions provided by the RM7895A,B,C,D/EC7895A,C;
RM7896A,B,C,D include automatic burner sequencing,
llame supervision, system status indication, syslem or
self-diagnostics and troubleshooting. The RM7896 provides
a postpurge function.
This document provides installation and static checkout
instructions. Other applicable publications are:
@ U.S. Registered Trademark
Copyright @ 2001 Honeywell . All Rights Reserved
Publication
No.Product
63-2278 07700 Network Interface Unit Product Data
65-0084 Q78o0A,B 22-Terminal Wiring Subbase
Product Dala
65-0090 S7800A Keyboard Display Module Product
Data
65-0091 57810A Data ConlrolBus ModulerM Product
Data
65-0095 57820 Remote Reset Module Product Dala
65-0097 221729C Dust Cover Packing Instructions
65-0101 57830 Expanded Annunciator Product Data
65-0102 ZM7850A Combustion System ManagerrM
Operating Instructions
65-0109 R7824, R7847, 87848, R7849, F17851 ,
R7861 , R7886 Flame Ampliliers for the
7800 Series Product Data
6s-0131 22181 8A Extension Cable Assemblv
Product Data
65-0229 7800 SERIES Relay Modules Checkout and
Troubleshooting Producl Data.
65-0092 QS7800A ControlBusrM Module, Standard
65-0227 QS78008 ControlBusrM Module, Mullidrop
661@3
RM7855A,B,C,D/EC7895A,C; RM789UO,N 78OO SERIES REIAY MODULES
^.AWARNING
Fire or Explosion Hazard.
Gan cause property damage, severe iniury or
death.
Follow applicable salety requirements when installing
a control on a burner to prevent death or severe injury.
Electrical Shock Hazard.
Can cause serious injury death or equipment
damage .
Disconnect power supply before beginning installation.
'MPORTANT1. Wiring connections fot the relay modules are unique;
rcfer to Fig. 2 and 3 or the apprcpriate Specitications
fot proper subbase whing.
2. Wiring must comply with all applicable codes, ordi-
nances and regulations.
3. Whing must comply with NEC Class 1 (Line Voltage)
wiring.
4. Loads connected to the RM7895A,B,C,D/
EC7895A,C: BM7896A,B,C,D must not exceed
those listed on the RM7895A,B,C,D/EC7895A,C;
RM7896A,B,C,D label or the Specifications; see
Table 1 .
5. Limits and interlocks must be rated to simultaneouslv
carry and break current to the ignition transformer,
pilot valve, and main fuel valve(s).
6. All erternal timers must be listed or componentrcc-
ognized by authotities who have Noper jurisdiction.
7. Fot on-oft gas-fircd systems, some authorities who
have jurisdiction prohibit the widng of any limit or
operating contacts in series between the flame safe-
guard control and the main fuel valve(s).
8. Two llame detectorc can be connected in parcllel
with the exception of lnfrared Flame Detectors
(c7015).
9. This equipment generates, uses and can radiate
radio frequency energy and, if not installed and used
in accordance with the instructions, can cause inter-
fercnce with radio communications. lt has been
tested and found to comply with the limits for a Class
B computing device of Paft l5 of FCC rules, which
are clesigned to provide reasonable prctection
against such intefiercrpe when operated in a com-
mercial environment. Opention of this eguipment in
a residential area may cause interterence, in which
case, the users, at theh own expense, may be
reguired to take whatevet measures are required to
co rect thi s i nte rte rence.
10. This digital apparatus does not exceed the Class B
limits lot radio noise for digital apparatus set out in
the Radio lntederence Regulations of the Canadian
Dep aft m ent of Com m unications.
Location
Humidity
Install the relay module where the relative humidity never
reaches the saluration point. The relay module is designed to
operale in a maximum 85% relative humidity conlinuous,
noncondensing, moisture environment. Condensing moisture
can cause a safety shutdown.
Vibration
Do not install the relay module where it can be subiectod 10
vibrabon in excess ol 0.5G continuous maximum vibration.
Weather
The relay module is not designed to be weather tight. When
installed outdoors, protect the relay module in an approved
weathertight enclosure.
AwnnNrNG
't.
Mounting Wiring Subbase
Mounl the subbase in any position except horizontally
u/ith the bilurcated conlacls pointing down. The
slandard vertical position is recommended. Any other
position decreases the maximum ambient lemperature
rating.
Select a location on a wall, burner or electrical panel.
The Q7800 can be mounted directly in the conlrol
cabinet. Be sure to allow adequale clearance for
service, inslallation, access or removal of the
RM7895A,B,C,D/EC7895A,C; RM7896A,B,C,D,
expanded annunciator, keyboard display module, flame
amplitier, flame amplifier signal vollage probes, run/test
swilch, electrical signal voltage probes and electrical
lield connections.
For surface mounting, use the back ol the subbase as a
template to mark lhe four screw locations. Then drill the
pilot holes.
Securely mount the subbase using lour no. 6 screws
(not provided).
66-1090-3
RM78ssA,B,c,D/EC78s5A,c; *rrt,",",, 7800 sERIEs BELAY MLDULE|
Wiring Subbase
AwnnNlNG
Electrical Shock Hazard.
Can cause serious iniury, death or equipment
damage.
Disconnect the power supply betore beginning
installation.
The internal block diagram ol the RM7895A,B,C,D/
EC7895A,C;RM7896A,B,C,D is shown in Fig. 1.
PBOVIDE OISCONNECT MEANS AND
OVERLOAD PFOTECTION AS REOUIRED.
FOR EC7895, MTJST USE A 220 TO 240 VAC
TO 120 VAC. 10 VA f,',llNll\4ul,l STEPDOWN
TBANSFORMER {NOT PROVIDED) l\,luST
BE USED TO DRIVE THE SHUTTER
+\ IND CATES FEEDBACK SENSING
TO RELAY STATUS FEEDBACK
AND LINE VOLT INPUTS
-
FIELO WIRING
-
INTERNAL WIRING
1.
2.
5.
6.
For proper subbase wiring and sequence chart, refer to
Fig. 2 and 3.
For remote wiring of the Keyboard Display Module, refer
to the Specifications tor the Keyboard Display Module
(65-0090), Network Interface Unit (63-2278)' Data
ControlBus ModulerM (65-0091) or Extension Cable
Assembly (65-0131 ).
Disconnect the power supply lrom the main disconnecl
before beginning installation to prevent eleclrical shock
and equipment damage. More than one disconnect can
be required.
All wiring must comply with all applicable electrical
codes, ordinances and regulations. Wiring, where
required, must comply with NEC, Class 1 (Line Vollage)
wiring.
For recommended wire size and type, see Table 1
For recommended grounding practices, see Table 2.
L1
(HOr)
A
A
RM7895. RM7896: 120 VAC,50/60 HZ.
EC7895A,C: 220-240 VAC, 50/60 HZ.
FLAME SIGNAL
I IMITS CONTFOLLER LOCKOUT
INTERLOCK
(INCLUDING
AlRFLow swlrcH)
Fi9. 1. Internal block diagram of RM7895A,B,C'D/EC7895A'C; RM7896A'B'C'D- (see Fig. 2 and 3 for detailed wiring instructions).
PUSHBUTTON
o
o
o
o
o
66-1090-3
RM7855A,B,C,D/EC78e5A,C; RM7866A;,D 7800 SEBTES BEL41 MODULES
@
@
\11,/
@
@
@
(9
@
@
@
00
I cuzess, nuzese, r20 vAc , 5ry60 Hz; Ec7B95: 22o-24o vAc,
50/60 HZ POWER SUPPLY. PROVIDE DISCONNECT MEANS
AND OVERLOAD PROTECTION AS REOUIFED.
A Do NoT coNNEcr ANy wrREs To UNUSED TERM|NALS.
a FoR EC7895, A 220 TO 240 VAC TO 120 VAC, 10 VA MtNtfiJM STEPDOWN
TRANSFORMER (NOT PROVIDED) MUST SE USED TO DRIVE THE SHUTTER.
2\see rreua oarecroR spEcrFlcATroNs FoB coRREcr wrRrNG.
2{roa n"zesunrore (oNLy), rGNrroN TERMTNAL io
IS DE-ENERGIZEO WHEN FLAME IS PBOVEN.
2\rrnrlow swrrcH cHEcK FEATURE ts FoF THE BM789sB,RM7896B.
flnuzesel.e orurv. M151z3A
LED
OISPLAY
BURNER
STAFT
STANDBY
TIMED
PURGE
PFEP
10 sEc
OPERATIT.IG
co TROLS
ANO
INTERLOCKS
FLAME
SIGNAL
Fig. 2. Wiring subbase and sequence chan lor RM7895A,B/EC7B95A; RM7B96A,B.
UHTS AXO an Rl€R O('t|TnOllER CLOSED
66-1090-3
R M7 8g5A, B, C, D/EC7855A, C ; "'QO, ", ",
O 7 8OO S E B I E S R E LAY M O DU LE S
(d
(13 )
(14l
(9i
(16 )
\1,
q9
rib
(20,
FOR DIRECT SPARK IGNITION
(OIL OR GAS)
DISPLAY
BURNER
START
OPERATING
CONTROLS
AND
INTERLOCKS
FLA]iIE
SIGNAL
flnutess, nuzeso, r20 vAc , 50/60 Hz; Ec7895: z2o.24o vAc,
50/60 HZ POWER SUPPLY. PBOVIDE DISCONNECT
MEANS AND OVERLOAD PROTECTION AS REOUIRED.
lAoo "orco"Hsct
ANy wrREs ro uNUsED TERMTNALS.
7\ ao" acrrnu, o ,ro ro 240 vAc ro 120 vAc, 10 vA MIN,MUM srEpDowN
TNANSFORMER (NOT PROVIDED) MUST BE USED TO DFIVE THE SHUTTER.
[see rrnvr oerecroR spEcrFIcATtoNs FoF conREcrwlRlNG
2{nrnrrow swtrcH cHEcK FEATURE ts FoR THE RM78o5D, RLrt7896D.
7{nruzeeec,o ot',tt ".I nlazessctozo. nu7896cl096 PFEP 10 sEcoNDS oNLY.
,6\. nuveesct@0, nvt896c1006 DURrl.G FtRsr I sE@NDs oF PFEP'
--WHEN A FLAME scNAL ls DETEo-ED, TERMINAL 10 ls
DE-ENERGIZ ED, IF FLAME SGML IS LOST,'IEBMIML 1O WILL
RE-ENEFIGZE.
Fig. 3. Wiring subbase and sequence chart for RM7895C'D/EC7895C'D; RM7896C'D'
66-1090-3
RM7855A, B,C, D/Ec7ggsA,c ; RM7866A,}, o,,00,,,,,, BELAY MEDI)LES
Table 1. Recommended Wire Sizes and Part Numbers.
Application Recommended Wlre Slze Recommended Part Numbers
Line voltage terminals.14, 16 or 18 AWG copper conductor, 600 volt insulation,
moislure-resislant wire.
TTW6OC, THW7sC, THHNgOC.
Keyboard Display Module 22 AWG two-wire twisted pair with ground, or five-wire.Belden 8723 shielded cable or eouivalent.
Data ControlBusrM Modulea 22 AWG two-wire twisted pair with ground, or live-wire.Belden 8723 shielded cable or eouivalenl.
Remote Reset Module 22 AWG two-wire twisled pair, insulated for low voltage.
Communications Interface
ControlBusrM Modulea
22 AWG two-wire twisted pair with ground.Belden 8723 shielded cable or equivalenl,
13 Vdc full-wave rectified
translormer power input.
18 AWG wire insulated lor voltages and lemperatures
for given application.
TTW6OC, THW75C. THHNgOC.
a The KDM, Data ControlBusrM Module (for remote mounling or communications) or Communicalion Interface ConlrolBusrM
Module must be wired in daisy chain configuration, 1(a)-1 (a), 2(b)-2(b), 3(c)-3(c). The order of interconnection ot all the devtces
lisled above is not importanl. Be aware that modules on lhe closest and farthest end of the daisy chain configuralion string
require a 120 ohm (1/4 watt minimum) resislor termination across terminals 1 and 2 of the electrical connectors lor conneclions
over 100 feet (31 meters).
7. Recommended wire routing of leadwires:a. Do not run high vollage ignition transformer wires
in the same conduit with the flame detector, Data
ConlrolBus ModulerM. or Remote Reset Module
wrnng.
b. Do nol route flame detector. Data ConlrolBus
ModulerM, or Remole Reset Module leadwires in
conduit with line voltage circuits.c. Enclose flame delector leadwires without armor
cable in metal cable or conduit.d. Follow directions in flame detector, Data ControlBus
ModulerM, or Remote Besel Module Instructions.8. The KDM is powered from a low voltage, energy limited
source. lt can be mounted oulside of a control panel it il
is protected from mechanical damage.
NOTE: A 13 Vdc power supply must be used any time more
than one KDM is used.
9. Maximum wire lengths:a. RM7895A,B,C,D/EC7895A,C; RM7896A,B,C,D
leadwires: The maximum leadwire length is 300 leet
to terminal inputs (Control, Running/Lockout
Interlock).
b. Flame Detector leadwires: The maximum flame
sensor leadwire length is limited by the flame signal
strength.
c. Remote Reset leadwires: The maximum length of
wire is 1000 feet (305 meters) to a Remote Beset
pushbutton.
d. Dala ControlBus ModulerM: The maximum Data
ControlBus ModulerM cable length depends on the
number ol system modules connected, the noise
conditions and the cable used. The maximum length
ol all Data ControlBus ModulerM interconnecting
wire is 4000 teet (1219 meters).10. Be sure loads do not exce€d the terminal ralings. Refer
to the label on the RM7895A,B,C,D/EC7B9SA,C;
RM7896A,B,C,D or to the terminal ratings in Table 3.
FinalWiring Check
L Check lhe power supply circuit. The vollage and
frequency tolerance must match those of ihe
RM7895A,B,C,D/EC7895A,C; RM7B96A,B,C,D. A
separate power supply circuit can be required for the
RM7895A,B,C,D/EC7895A,C; RM7896A,B,C,D. Add
the required disconnecl means and overload protection.2. Check all wiring circuits and complete Static Checkout
in Table 4 before instatting the RM7895A,B,C,D/
EC7895A,C; RM7896A,B,C,D on the subbase.3, Install all electrical connec'tors.4. Bestore power to the panel.
Table 2. Recommended Grounding Practices.
Ground Type Recommended Praclice
Earth ground (subbase and relay
module).
1 . Use to provide a conneclion between the subbase and the control panel of the
equipment. Earth ground musl be capable ot conducting enough current to blow the
20A fuse (or breaker) in lhe event of an internal short circuit.
2. Use wide slraps or brackets to provide minimum length, maximum surface area
ground conductors. lf a leadwire is required, use 14 AWG copper wire.
3. Make sure lhat mechanically tightened joints along the ground path are lree of
nonconductive coatings and protected against conosionon mating surfaces.
Signal ground (Keyboard Display
Module, Data ControlBusrM Module,
Communications Inler{ace
ControlBusrM Module.
use the shield ol the signal wire to ground the device lo the signal ground terminal g(c) of
each device. Connect the shield at both ends of the daisy chain to earth ground.
66- 1 090-3
R M 7 8 g5A, B,C, D/EC7855A, C ; "Q*, ", ",
O 78OO SER I E S B E LAY MO D U LE S
Table 3. Terminal Ratings.
Terminal
Numbel Description
Ratings
RM7895/RM7896 EC7895
Flame Sensor Ground
Earth G Earth Grounda
L2(N)Line Voltage Common
Alarm 120 Vac, 1A pilot duty.22O-24O Vac, 1A pilot duty.
4 Burner Molor 120 Vac, 9.8A AFL, 58.8 ALR (inrush).22O-24OVac,4A at PF = 0.5, 20A inrush.
5 Line Voltage Supply (L1)120 Vac (+10^15%), 50 or 60 Hz
(t10"/o).o
220-240 Vac (+10115%),50 or60 Hz
(+10%).
o Burner Controller and Limits 120 Vac. 1 mA.22O-24O Vac, 1 mA.
7 Lockout lnterlock 1 20 Vac, 8A run, 43A inrush.8A at PF = 0.5.40A inrush. 2A al PF = 0.2.
R Pilot Valve/lgnition 120 Vacc 220-240 Vac. 4A at PF = 0.5, 204 inrush.
I Main Fuel Valve 120 Vacc 22O-24O Vac, 44 at PF = 0.5, 20A inrush.
10 lgnition 120 Vacc 220-240Vac,2A at PF = 0.2
F(11)Flame Sensor 60 to 220 Vac, current limited.60 to 220 Vac. current limited.
12 to 20 Unused
zl 2nd Stage Main Valve (EC7895C,
RM7895C,D; RM7896C,D)
1 20 Vacc 22O-24O Vac. 4A at PF = 9.5. 204 inrush.
Shutter 120 Vac, 0.5A 220-240 Yacd
a See Table 2.
o 2000 VA maximum load connected to RM7895A,B,C,D/EC7895A,C/RM7896A,B,C,D Assembly.
c See Tables 4 and 5.
d Requires 220-240 Vac, 10 VA minimum, stepdown transformer lo operate the shutter.
Table 4. Combinations for Terminals 8, 9, 10 and 21 .
Combination Numbel Pilot Fuel 8 Main I lgnition 10 Delayed Main Valve 21
1 c F No Load No Load
B F No Load No Load
3 Fa No Load A No Load
4 r F No Load
c F-No Load A F
6 D F A No Load
Da No Load A D
I D D A No Load
o Da No Load A D
a RM7895C,D: EC7895C only, jumper terminals 8lo g.
Table 5. Composition of each Combination.
A B c D F
4.5A ignition 50 VA Pilot Duty plus
4.5A ignition.
180 VA lgnition plus
motor valves with:
660 VA inrush,
360 VA open,
240 VA hold.
2A Pilot Duty 65 VA Pilot Duty plus
molor valves with:
3850 VA inrush,
700 VA open,
250 VA hold.
R M7855A,B,C,D/EC7895A,C ; RM7866A,B?.D 78OO s E R I ES REIAY MoD U LEs
STATIC CHECKOUT
Afler checking all wiring, perform this checkout belore
installing rhe Ec7895A,c/RM7895A,B,C,D/RM7896A,8,C, D
on the subbase. These tests verify the Q7800 Wiring
Subbase is wired correctly, and the external controllers, limils,
interlocks, actuators, valves, lransformers. motors and other
devices are operating properly.
AwnnNrNG
Fire or Explosion Hazard.
Can cause property damage, severe injury
or death.
Close all manual fuel shutotf valve(s) before starting
these lests.
Use exlreme care while lesting the system. Line
voltage is presenl on most terminal connections when
power ts on.
Ensure proper selection of configuration iumpers belore
starting the burner operalion.
2.
3.
4.
5.
6.
Equipment Recommended
1. Voltmeter (1 M ohm/volt minimum sensitivity) set on the
0 to 300 Vac scale.2. Two jumper wires, no. 14 wire, insulaled, 12 in.
(304.8 mm) long with insulated alligator clips at both
ends.
General Instructions
1. Perform all applicable tests listed in Static Checkout,
Table 6, in the order listed.
Make sure all manual fuel shutoff valve(s) are closed.
For each test, open the master swilch and instrall the
iumper wire(s) belween the subbase wiring terminals
listed in the Test Jumoers column.
Close lhe master switch belore observing operation.
Read the voltage between the subbase wiring terminals
listed in the Voltmeter column,
lf there is no vollage or the operation is abnormal, check
the circuits and external devices as described in the last
column.
Check all wiring tor conect connections, lighi terminal
screws, correct wire, and proper wiring techniques.
Replace all damaged or incorreclly sized wires.
Replace faulty controllers, limits, interlocks, actuators,
valves, transformers, motors and other devices, as
required.
Make sure normal operalion is obtained for each
required test betore continuing the checkout.
After completing each test, be sure to open the master
power switch and remove the test jumpe(s) belore
proceeding to the next test.
7.
A cnunoN
1.
2.
3.
9.
10.
Electrical Hazard.
Can cause equipment damage or faalure.
Do not perform a dielechic test with the relay module
installed. Internal surge protectors can break down,
allowing relay module to fail the dielectric test and
deslroy the internal lightning and high current
orotection.
Open the master switch belore installing or removing a
iumper on the subbase.
Before continuing to the next test, be sure to remove the
test jumpe(s) used in the previous test.
Replace all limits and interlocks that are not operating
properly. Do nol bypass limits and interlocks.
AwnnNtNG
Explosion hazard.
Can cause serious iniury or death.
Be sure all manual luel shutoff valves are closed.
Table 6. Static Checkout.
Test
Number
Relay Module
Model
Test
Jumpers Voltmeter Normal Operation
lf Operatlon is Abnormal,
Check ltems Listed Below
1 Atl None 5-12 Line voltage at terminal 5.1. Master switch.
2. Power connected to master switch.
3. Overload protection (fuse, circuit breaker,
etc.) has not opened power line.
2 Atl None 6-t2 Line voltage at terminal 6.1 . Limits.
2. Burner controller.
!t Atl 4-5 7-L2 1. Bumer motor (lan or blower)
starts.
2. Line voltage at terminal 7
within 10 seconds.
1 . Bumer motor circuit.
a. Manual switch of burner motor.
b. Burner molor power supply, overload
protection and starler.
c. Burner motor.
4 Atl 5-10 1. lgnition spark (if ignition
transformer is connected to
lerminal 10).
1 . Watch for spark or listen lor buzz.
a. lgnition electrodes are clean.
b. lgnition transformer is okay.
66-1090-3
,rrrnUO,r,",Orr"7895A,C; RM781|6A,B,C,D 78OO SEBIES RELAY MODULES
Table 6. Static Checkout.
Test
Number
Felay Module
Model
Test
Jumpers Voltmeter Normal Operation
It operation is Abnormal,
Check ltems Listed Below
Atl 5-6 1 . lgnilion spark (if ignition
translormer is connected to
terminal 8).
2. Automatic pilot valve opens
(if connected to terminal 8).
NOTE: Reler to wiring diagram
of system being lesled.
1 . Watch for soark or listen for buzz.
2. Listen for click or leel head of valve for
activation.
a. Actuator it used.
b. Pilot valve.
6 Atl 5-9 Automatic luel valve(s) open(s). ll
using direct spark ignition, check
lirsl stage fuel valve(s) instead of
pilot valve.
Same as lesl 5. lf using direct spark
ignition, check lirst stage fuel valve(s)
instead ol oilol valve.
7 EC785C;
RM7895C,D;
RM7896C,D
5-21 Automatic second stage main luel
valve(s) open(s).
1 . Listen for and observe operation ol
second stage main fuel valve(s) and
actuator(s).
2. Valve(s) and acluato(s).
o Atl 5-3 Alarm (if used) turns on.1. Alarm.
Final Atl AI\ CAUTION
Equipment Damage Hazard.
Can cause equipment damage.
After completing these tests, open master switch and remove all test jumpers from subbase
terminals. Also remove bypass jumpers, if used, from low fuel pressure limits.
Mounting RM7895A,B,C,D/EC7895A,C;Mounting Other System Components (Fig. 4)
RM7896A,B,C,D Relay Module Refer to the applicable specifications for mounting other
system components.1. Mount the RM7895A,B,C,D/EC7895A,C:
RM7896A,B,C,D vertically on the Q7800 Subbase or
mount horizontally with the knite blade terminals
pointing down. When mounted on the Q7800A, the
RM7895A,B,C,D/EC7895A,C; RM7896A,B,C,D must be
in an electrical enclosure.The RM7895 provides all customary flame saleguard2. When mounting in an eleclrical enclosure, provide tunctions as well as significant advancemenls in safety,
adequate clearance for servicing, installation and annunciation, and system diagnostics.
removal of the RM7895A,B,C,D/EC7895A,C;
RM7896A,B,C,D, KDM, llame amplifier, flame amplifier
signal vollage probes, electrical signal voltage probes
and electrical connections.
the flame amplifier mounting.
b. Allow an optional three-inch (76 mm) minimum on
PRINCIPAL TECHNICAL FEATURES
Safety Shutdown (Lockout) Occurs if:
1. INITIATE PERIOD
c. Conliguralion jumpers have been changed (after
200 hours)-Fault Code 110.
a. Allow an additional two inches (51 mm) below the a. Purge card is not installed or removed.
RM7895A,B,C,D/EC7895A,C; RM7896A,B,C,D for b. Purge card is bad.
both sides ot the RM78g5A,B,C,D/EC7895A,C; d. AC line power errors occurred, see Operation.
RM7896A,B,C,D for electrical signalvoltage probes. e. Four minute INITIATE period has been exceeded.3. Make sure no subbase wiring is projecting beyond lhe
terminal blocks. Tuck in wiring against the back of the
subbase so it does not interfere with the knife blade
terminals or bifurcated contacts.
IMPORTANT
The RM7895A,B,C,D/EC7895A,C; RM7896A, B,C,D
must be installed with a plug-in motion rather than a
hinge action.
4. Mounl lhe RM7895A,B,C,D/EC7895A,C;
RM7896A,B,C,D by aligning the four L-shaped corner
guides and knife blade terminals with the bifurcated
contacts on the wiring subbase and securely tighieninE
the two screws withoul deforming the plastic.
66- 1090-3
RM79$?A,B,C,D/EC7895A,C; RM78'6A,D,D 78OO SEBIES RELAY MODI)LES
WIRING
SUBBASE
RUN/TEST (C,0 ONLY)
FELAY
MODULE
CONFIGURATION
JUMPEFS
STANDBY PERIOD
a. Airflow lockout fealure is enabled and the airflow
switch does nol close after ten seconds or within the
specified purge card timing.b. Flame signal is detecled afier 30 seconds.c. lgnition/pilot valve/intermittent pilol valve terminal is
energized.
d. Main valve terminal is energized.e. Delayed main valve terminal is energized
(RM7895C,D).
f. Internal system tault occurred.g. Purge card is removed.h. Purge card is bad.
PREPURGE PERIOD
a. Airflow lockout feature is enabled and the airflow
switch opens.
lgnition/pilol valve terminal is energized.
Main valve terminal is energized.
Delayed main valve terminal is energized
(RM7895C,D).
Inlernal system fault occurred.
Purge card is removed.
Purge card is bad.
Flame signal is detected.
Iw
Fig.4. RM7895A,B,C,D/EC7895A,C; RM7896A,B,C,D Relay Modute, exptoded view.
4. PILOT FLAME ESTABLISHING PERIOD (PFEP)a. Airflow lockout feature is enabled and the airflow
switch oDens.b. No llame signal at end of PFEP.c. lgnition/pilot valve/intermittent pilot valve terminal is
not energized.
NOTE: Forthe RM7895C1O2O and RM7g96Ct096, during
the first I seconds of PFEP, when a flame signal is
detected, terminal 10 is de-energized. lf th€ flame
signal is lost, terminal 10 will re-energize.
d. Main valve lerminal is energized.e. Delayed (second stage) main valve terminal is
energized (RM7895C,D/EC7895C; RM7896C,D).f. Inlernal system fault occurred.g. Purge card is removed.h. Purge card is bad.c.
d.
e.
t.
s.
n.
66-1090-3
RM7855A,B,C,D/ECZ9SSA,C ; RUZgIN,B,C,D 78OO SERIES BELAY MODULES
5. MAIN FLAME ESTABLISHING PERIOD (MFEP)
(RM789sC,D)
a. Airflow lockout feature is enabled and the airflow
switch ooens.
lgnition terminal is energized.
lgnition/pilot valve terminal is not energized.
Main valve lerminal is not energized.
Delayed main valve terminal is energized.
No flame signal at end ol Flame Failure Response
Time.g. Internal system tault occurred.
h. Purge card is removed.i. Purge card is bad.6. RUN PERIOD
a. No flame present.
b. Airflow lockout leature is enabled and the airflow
switch opens.
c. Interrupted pilot valve terminal is energized
(RM7895C,D).
d. Main valve terminal is not energized.
e. Delayed main valve terminal is not energized
(RM7895C,D).f. Internal system fault occurred.
g. Purge card is removed.
h. Purge card is bad.i. lgnition lerminal is energized.
OPERATION
Sequence of Opetation
The RM7895A,B,C,D/EC7895A,C; RM78964,B,C'D has the
operating sequences listed below; see Fig. 2 and 3. The
RM7895A,B,C,D/EC7895A,C; RM78964,B,C,D LED provide
positive visual indication of the program sequence: POWER'
PILOT. FLAME. MAIN and ALARM.
lnitiate
The EC7895A,C/RM7895A,B,C,D;RM7896A,B,C,D Relay
Module enters the INITIATE sequence when the relay module
is powered. The EC7895A,C/RM7895A,B,C,D;
BM7896A,B,C,D can also enter the INITIATE sequence if the
refay module verities voltage fluctuations ol +1Ol'15o/" or
trequency fluctuations ol 110% during any part of the
operating sequence. The INITIATE sequence lasts lor len
seconds unless the voltage or frequency tolerances are nol
met. When not met, a hold condition is iniliated and displayed
on the oolional KDM lor al least live seconds; when met, the
INITIATE sequence restarts. It the condition is not corrected
and the hold condition exists for four minutes, the
EC7895A,C/BM7895A,B,C,D; RM7896A,B,C,D locks out.
Causes for hold conditions in the INITIATE sequence:
1. AC line dropout deteclion.2. AC line noise that can prevent a sufficient reading ot the
line voltage inputs.3. Low line voltage brownouts.
The INITIATE sequence also delays the burner molor starter
lrom being energized and de-energized trom an intermitlent
AC line input or control input.
b.
c.
o.
e.
f.
Standby
The EC7895A.C/RM7895A,B,C,D;RM7896A,B,C,D is readv
to start an operating sequence when the operating control .
input delermines a call for heat is present- The burner switch,
limits, operating limit control and all microcomputer-monilored
circuits inust be in the correct state tor the relay module to
continue into the PREPURGE sequence.
Normal Start-UP PrePurge
The EC7895A,CiRM78S5A,B,C,D/RM7896A'B'C'D Relav
Module orovides PREPURGE timing seleclable lrom hvo
seconds to thirty minutes with power applied and the
operating control indicating a call for heat.
1. The Airllow Interlock, burner swilch, Run/Iest switch
and all microcomputer-monilored circuits must also be
in the correct operating state.
2, The motor output, terminal 4, is powered to starl the
PREPURGE sequence.
3. The Airflow Interlock input closes ten seconds into
PREPUBGE or within the specified purge card timing;
olherwise, a recycle to the beginning of PREPURGE or
lockout occurs, depending on how the Airflow Switch
selectable jumper (JR3) is configured
lgnition Trials
1. Pilot Flame Establishing Period (PFEP):
a. When the PFEP begins:
(1) The pilot valve and ignition transformer'
terminals I and 10, are energized. The
EC7895A, RM7895A,8, and RM7896A,B have
an intermitlent pilot valve, terminal 8. The
EC7895C, RM7895C,D, and RM7896C'D have
an interrupted pilot valve, lerminal 8.
(2) Flame must be proven by the end ot the ten
second PFEP (four seconds if Configuration
Jumper JRI is clipped) to allow the sequence to
continue. ll a flame is not proven by the end of
PFEP, a safetY shutdown occurs.
b. With llame proven, the ignition, terminal 10' is
de-enetgized.
NOTE: For the RM7895C1020 and RM7896C1036' during
the lirst 8 seconds of PFER when a flame signal is
detected, terminal 10 is de-energized' lf lhe flame
signal is lost, terminal 10 will re-energize.
2. Main Flame Establishing Period (MFEP):
a. After PFEP, and with the presence of flame,
the main tuel valve, terminal 9, is powered. It a
flameout occurs, the relay module locks oul or
recycles (depending on status ot jumper JB2) within
0.8 or 3 seconds, depending on the Flame Failure
Response Tlme (FFRT) of the amplifier.
b. The EC7895C, RM7895C,D and RM7896C'D
have a ten second MFEP' After the lgnilion Trials'
the oilot valve, terminal 8, is de-energized. lf a
flameout occurs, the relay module locks out or
rerycles (depending on status of iumper JR2) within
0.8 or 3 seconds, depending on the Flame Failure
Response f ime (FFRT) of lhe amplifier.
66-1090-3
RM78E5A,B,C,D/EC78E5A,C; R M7S66A,),D 7800 S EBt ES REU1 MOD'JLE S
Run
1. The EC7895C, RM7895C,D, BM7896C,D hasa
delayed main valve that is energized once the RUN
period is enlered.2. The relay module is now ln RUN and remains in RUN
until the controller input, terminal 6, opens, indicating
lhat the demand is satisfied or a limit has opened.
Post Purge (RM7896A,B,C,D Only)
Atter demand is satislied or a limit opens, de-energizing
terminal 6, the lgnition/Pilot valve, main valve and delayed
main valve, lerminals 8, 9 and 21, are de-energized. The
blower motor, terminal 4, remains oowered for 15 seconds.
Run/Test Switch (RM/EC7895C,0; RM7896C,D only)
The Run/Test Switch is located on the top side of the relay
module, see Fig. 5. The Run/Test Switch allows the burner
sequence to be altered as follows:
1. In the measured PREPURGE sequence, the Run/Test
Switch, placed in the TEST position. causes the
PREPURGE timing to stop.2. In the Pilot Flame Establishing Period, the Run/Test
Switch, placed in the TEST position, stops lhe timer
during the lirst eight seconds of a ten-second PFEP
selection or during the first three seconds of a
four-second PFEP selection. ll also allows for oilot
turn-down tesl and olher burner adjustments. This
activales a fifteen-second tlameout timer that oermits
pilol flame adiustment without nuisance safety
shutdowns. The Bun/Test Switch is ignored during
PFEP for the C and D relay modules if terminals
8 and I or I and 21 are iumpered.
IMPORTANT
When the relay module is switched to the TEST
mode, it stops and holds at the next Ru Test Switch
point in the operating sequence. Make surc that the
RunlTest Switch is in the RUN position betorc
I eav i ng the i nstal I ation.
FUN/TEST SWITCH
(RM7895C,Di
SETTINGS AND ADJUSTMENTS
Selectable Site-Configurable Jumpers
The relay module has three site-configurable iumper options.
see Fig. 6 and Table 6. ll necessary, clip the site-iontilurable
jumpers with side cutters and remove the resistors from the
relay module.
SERVICE NOTE: Clipping and removing a site-configurable
jumper enhances the level of satelv.
Fig. 6, Selectable site.configurable Jumpers.
Table 7. Site-contigurable jumper options.
a The RM7895C1020 and RM7896C1036 have fixed pFEp of
ten seconds and do not have iumper JR1 .
IMPORTANT
Clipping and removing a jumper after 2OO hours of
opera on causes a nonresettable Fault 110. The
relay module must then be reptaced.
RM7896C,D)
SEQUENCE
STATUS
LEDs
EC7895C;MOUNTING
SCREW
CAPTIVE
RELAY
MODULE
FLAME
AMPLIFIER
PLUG-IN
PURGE
CARO
. OUST
COVER
PUSHAUTTON
FLAME
S]MULATOR INPUT FLAME CURFENT
TEST JACKS M7552A
Fig. 5. Sequence Status LEDS.
Honeywell
.Jump€r
Number Description Intact Clipped
JRl A Pilol Flame Establishing
Period (PFEP)
10
seconds
4 seconds
JB2 Flame Failure Action
Recycle
Lockout
JR3 Airflow Switch (lLK)
Failure
Recycle Lockout
Home and Building Control
Honeywell
I985 Douglas Drive Nonh
Golden Vallcy, MN 55422
Home and Building Control
Honcywcll Limi(cd-Honcywcll Limi!ic
.15 Dynamic Drivc
Scarborough. Ontario
Mtv 429
Printed in U.S.A. on recycled
paper contarning at teast 10%
Posl-consumer paper tibers.
66-1090-9 G.R. Rev. 1-01 www.honeywell.com
Honeywell
T77;A,B,C,D
Remote Temperature Contrcller
Form 63-2489Addendum
This document, 63-42489, updates the fi75A,BC,D
Remote Temperature Contoller Specifi cations (form 63-289,
dated 12-94) to correct the wiring diagrams in Fig. 12 and
14. Fig. 12 originally illustrated a2tt0 Yac hookup to the
120 Vac T775, which would have damaged or destroyed the
T775.Fig. 14 originally illustrated a 120 Vac hookup to tlrc
24O Yac fi75, which would prevent the operation of the
T775.
WARNING
Disconnect power before wiring to prevent electri-
cal shock or equipment damage.
WARNING
Do not use 24 Vac power at terminals 5 and 6 to
power any extemal loads when I2OYrc or240Yrc
is used to power the fi75.
G.R. . 7-95 . @Honewell Inc. 1995
lan VAC IIPUT: 120 VAC LTOAO8
SELECT r€ET-1o@@
Ffg. l2-Two-stage contlol, 12O o? 2& Vac Input; 120 or 24ll Vac load.
DIP SWITCHES
FOF SENSOF
SELECTIOTT
PRESENT O'I
T7'58, D OiILY
SEMX)R A
lo pifE 7 ANO €
lo. TZ,58, O
\.\
b pirF 7 ANO I
lb,r T758, O
\\
r20 vAc ooo|. xooE
2aovAC l|ruTi 20Y C LOAO8
BLK lSYPEgalgPaFU-+
TEMPERATUREF[ |
OIP SWITCHES V
FOF SENSOH
SELECTION.
PFESENf o.{
T7758 ONLY
/t
I
TEIIPEMTURE
RISEl{Jtt
IGAT IOOC
NI.|.I
SELECT TSET -.7o@@
63-A2489
oo
lm VAC lt{PUT: 120 VAC LOAOS
SELEL I t-sEr--r-----\ /':_\ /'-;--\LJT\1JtAJ
oUrPUr 3l | | lOurpurq
Fig. 14-Four stage control, 12O or 24O Vac input, 120 ot 24O Vac load.
SENSOR B
lopnsTANDg
lor T7758, D
\
1\
DIP SWITCHES
FOR SENSOR
SELECTION.
PRESENT ON
T775B,D ONLY
{reveenrrune
-;;ffi; J
SETPOINT 4
A
I
TEMPERATURE
RISE
+
DIFFERENTIAL 2 I
SETPOINT 2
------1
DTFFERENTTAL 1 +- SETPOINT 1
*TEr\TPERATUBE
240 VAC INPUI; 240 VAC LOADS
5ELEU| -5Er--_lf---las7)aR\_____J \__i!_J \:J
oUrPUr 3l | | loutputl
63-A2489
Honqrvell
Home and Building Contlol Home end Building Control
Honevwell Inc.Honeywell Limited-Honeywell Lirnitee
1985 Douglas Drive North 740 Ellesmere Road
Golden Valley, MN 55422 Scarborough, Ontario
MlP2V9
hinted in u.s.A.
Helphg You Control Your WorldE
QUALnY rS r3Y
Honeywell
w75AB,Cp
Remote Temperature Contrcller
The 7775 family of Electronic Remote Tem'
perature Controllers provide on-off temperature
controlfor dutts, tanl<s, chillers, heating and re-
frigeraion units, and other applications whcre
electronic accuracy in addition to renote smsing
is desired
In addition, certain models of the 7775 family
of controllers provi.de on-off temperature control
of heating, cooling, andventilating systems in agi-
cultural confinement buildings, storage areas and
heavy tndustrial applic ations.
T775A,B TN5C,D
lT775A models provide staged on-off control with
one temperature inPut and one to four relay output
stages.
a'I'i758 models provide staged on-off control with
two tempemture inputs and two to four relay output
stages.
a'IJ75C models provide staged on-off control with
one temperature input and four relay output stages.
a T'175D models provide staged on-off control with
two temperature inputs and four relay output stages.
aT775C,D models meet National Electrical Code
(Article 547) requirements for animal confinement
buildings.
I Setpoint temperature range is -40o to +220" F (4"
to +l04oC).
I Ambient temperatwe range is -30" to +140'F for
one and two stage models and -30o to +125oF for
three and four stage models.
I Linear platinum tempeftfure sensor with T775A"B.
I Water-tight linear platinum temperature sensor with
T175C.D.
I Adjustable temperatue range and differential.
I LCD indication for mode and output status.
I Keypad provides ease ofprogramming and operation.
I Accuracy is within +/- loF (at nominal operating
ambient temperature of 77oF and voltage input)'
t StageG) independently programmed for heating or
cooling.
| 24/l20l20Vac inPut voltage.
I Spdtrelayoutputs.
IMPORTANT: ThE 7775 is an operating control, not a
limit or safe.r^' control, If used in applications requir-
ing safety or limit contols, a separate safety or limit
control device shauld be used in conjunction with the
7775.
CONTENTS
G.R. . 12-94 . @Honeyvvell Inc. 194
T775A,B,C,D
SPECIFICATIONS . ORDERING INFORMATION
Specifrcatioru
IMFORTANT: 7lr specificatiors gtum in this publicarton
do not itrclude normal mantfacnring tolerances.
Tlurefore, an individual wit may rwt eructly match
the listed specifcations. Aho, this prduct is tested
and calibrated under closely controllcd conditians
and some minor difierence in performance cat be
eryeaed if those conditions are clunged.
MODELS: The fi75A,B family of Electsonic Temperature
Contollen for duca, tanls, chillers, heating and refrig-
eration units, and other applications where electronic
accuracy is desired in rddition to remot€ sensing.
T775A: Saged on-offcontol with one temperature input
and one to four relay output stages. Includes one
193987GA Sensor.
fi75B: Staged on-off contol with two temperature in-
puts and two to four relay output stages. Includes two
193987GA Senson.
MODEIJ: The fi 75C,D family of Electronic Remote Tem-
peraturc Controllers provides on-off temperature control
ofheating, cooling and ventilating systems in agricultural
confinement buildings, sorage areas, and heavy indus-
trial applications.
fi75C: Staged on-offcontol widl one ternperature input
and four relay oulput stages. Mormted in NEMA 4X
enclosure. Includes one 2034OlB Remote Sensor.
T775D: Staged on-offcontol with two ternperature inpue
and four relay output stages. Mounted in NEMA 4X
enclosure. Includes two 2034018 Remote Sensors.
ELECTRICAL RATINGS:
Voltage Input 24/l20f240 Y rc. 50 / 60 Hz (+t\Vo | -t 5 9a\.
Power Consumption:
For one and two stage units:
8 VA maximum at 60I{2.
l0VAmaximumat50Hz.
For tbree and four stage unib:
13 VA maximum atfiHz.
20 VA maxirnum at 50 Hz.
Ordering Information
When ordering replacement and modernization products ftom your wholesalcr or distributor, rfer to tbe price lists for complet€ ordering
number.
If you have additional questions, need further information, or would lil<e to comment on our products or services, please write or phone:
1 . Your local Honeywell Home and Building Conrol Sales Offrce (check the white pages of your phone directcy.
2. Honr and Building Conrol Cusomer l,ogistics
Honeywell Inc., 1885 Douglas Drive North
Minneapolis, Minncsota 55/.2243% (6LZ) 951-106
In Canada-Honeywell Limited/Iloneywell Lirnit6e, TtlO Ellesmere Road, Scarborough, Ontaio MIP 2V9. Int€mational Sales and
Service offices in all principal cities of the world. Manufacturing in Aust'ali4 Canada, Finland, France, G€rmany, Japan, Mexico,
Netherlands, Spai4 Taiwan, United Kingdom, U.SA.
Model
N'mber
Number
of
Inputs
Number
of Relay
Outputs
Maxirnum
Operating
Ambient
Terrperature (oF)
T775A1001 I I 140
T775A1019 I 140
w75AtO27 I ?t25
T775Ar035 I 4 t25
T77581000 2 2 tq
T775Bl0l8 2 J 125
T775B1026 4 125
T775C1009 I 4 125
fi75D1008 2 4 r25
63-2489
CONTACTRATINGS:
1/2 hp; 9.8 Ft A, 58.8 LRA at 120 Vac'
I 12 hp; 4.9 FLA, 29.4 l-RA x 240 Y ac.
125 VApilot duty at120f240Vac.
l0A at 24 Vac (rcsistive).
SENSOR: Positive coefficient platinum type, 4.8 ohmV 'F,
1000 ft maximum distance between sensor and solid
state controller (requires calibration over 400 ft). To
maintain NEMA 4X rating, use environmental proof
cable and sensor.
TEMPERATLJRE ACCURACY: +/-l"F (at nominal volt-
ageinTToF 125'Qambient, nominal sensor value). Accu-
racy may vary based on deviation from nominal values of
input voltage, operating ambient and sensor arnbient.
DISPLAY RESOLUTION: Sensed temperature and other
operating pafimetErs are displayed via a liquid crystal
display (LCD) with a resolution of l"F or loC-
SEIPOINT ADruSTMENT RANGE 4Oo to 220oF (40o
to 104'C).
OPERATING AMBIENT TEMPERATT]RE:
One and Two Stage units: -30o to 14OoF.
Three and Four Stage units: -3O" to l25oF.
OPERATING HLIMIDITY: 5Va ta 957a relative humidity
(R[I) noncondensing.
APPROVAIS:
Underwriters Laboratories Inc. Listod: File N.84436.
Canadian Standards Assoc. certifred: File no. LR47125.
r7754 B.C
SPECIFICATIONS
DIMENSIONS: See Fig. 1 and 2'
MOIJNTING: Mounts on any suitable horizontal or vertical
surface (see Fig. 3 and 4 for mounting hole locations).
Fig. 1-Approximale dimensions of TZ5A,B in
in. (mm).
4-3J4 (121)
7/8 (22) DIAMETEF
Fig. 2-Approximate dimensions of T775C,D in in. (mm)
F_$1/4(133) ---i
7t8l&l
DIAMETER
63-2489
T775A,B,C,D
SPECIFICATIONS
Fig. FFeature locations for T775A,8.
LCOTEMPERATURE
OISPLAY
PROGRAf,,|MING
KEYS
KiIOCKOUT B --\\\
.Frc sEr.EcTroN
D|P SAV|TCHES FOR
SENSOR SEI.ECTION,
PRESENT ON T7758
ONLY
T,OUNNNG HOLE
L@ATION
KNOCKOUT C
NOTE: T75A TEmrlML BLOCK CONTATNS ONLY
IERMINALS 1{ AND HAS NO DIP SWITCHES
FOR SENSOR SELECTION
oFo
Fig. 4-p""1ur" locations for T775C,O.
LCD TEMPEFATURE
OISPLAY
PROGRAT'MING
KEYS
.Ffc sErEcTloa{
OIP SWITCHES FOR
SENSOA SE|.ECION.
PRESEI{T ON T7l5D
ONLY
SENSOR INPUT.
TOO. Ar.lO 2,IVAC
TERMIML,S
t|oTe TZI5C TERMINA! BLOCK CON.ITATNS ONLY
TEFMIMTS 16 ANO HAS NO OIP SWTCHES
$:ffi
63-2489
RELAY OUIPUT STAGES
FOR SENSOR SELECNON
ACCESSORIES:
fi75A,8:
,4,775,{1003 Temperature Sensor Simulator'
C7100C Duct Mount Averaging Sensor.
198212CA Water Resistant Sensor.
2034018 Water Tight Sensor.
fi047C1090 Wall Mounted Sensor Case.
1073244 Bulb Holder, duct insertion.
121371A Copper Immersion Well.
1213718 Stainle,ss Steel Well.
T775A,B,C,D
SPECIFICATIONS' I NSTALLATION
107048 Heat Conduction Compound, 4 ounce'
C7043A1098 Case and Immersion Well for nmning
conduit to sensor.
T77SC,D:
l2137lA Copper Irnmenion Well.
1213718 Stainless Steel WeIl.
1072108 Heat Conduction Compound, 4 ounce.
C7043A1098 Case and lmmersion Well for running
conduit to sensor.
Installation
WHEN INSTALLING THIS PRODUCT...
1. Read these instructions carefully. Failure to fol-
low them could damage the product or cause a hazardous
condition.
2. Check the ratings given in the instructions and on
the product to make sure the product is suitable for your
application.
3. Installer must be a trained, experienced service
technician.
4. After installation is complete, check out the product
operation as pmvided in these insfucdons.
WARNING
Dsconnect power before installation to prevent
elecsical shock or equipment damage.
LOCATION A}ID MOI]NIING
Mount the contoller on any convenient interior location
using the wo mounting holes provided on the back of the
metal enclosure (mounting screws are not provided and
must be obtained separately). Use contoller dimensions in
Fig. I CI775A,B) or Ftg. 2 (f775C,D) as a guide.
SENSORLOCATION
The 193987GA Sensor can be located up !o 1000 feet
(304 meters) from the T775 using standard AWG 18/2
unshielded wire. For cable runs greater than 25 feet shielded
cable is recommended. See Fig. 5. It may be located on pipes,
in an immenion well, in a wall-mounted case or on a bulb
holder. See Fig. 6. The 193987GA is not a water tight or
waterresistant sensor. For wet applications, see lhe Accesso-
ries list in the Specifications section.
Multiple sensors can be parallel-series wired to sense
average temperatlfes in large spaces.
To maintain control accuracy, the number of sensors
parallel-series wired must be of $e n'power (for example, 4,
9, 16, erc.). See Fig.7.
SE}.{SORMOTJNTING
Sensors can be mounted on a wall or panel for sensing
space temperaoue (Fig. 6), strapped to a pipe or inserted in a
well (Fig. 8) for hot/cold water sensing, or taped to a standard
cap or bulb holder for duct air sensing. To prevent moisture
oicondensation entering the sensor through the leadwire
holes, mount the sensor with the lead w1rc5 gdring the tlot_
tom of the sensor.
Fig. s-Using shielded cable for cable runs
longer than 25 feel.
J7?5
NOTE: TO MINIMtzE NOISE PICKUP, MAKE CONNECTION
FNOM STIIEII)ED CABL€ AS CLOSE TO
SENSOR BOOY AS POgSIBLE.
NOTE: Use heat conductive compound in immersion wells.
See optional Accessories in the Specifications section.
CAUNON
Make sure that metal 0rbe of sensor does not short
against T terminals in wall-mounted case.
GROJNO
SHIELOfoTnS
CABLE ON TO
GFOUNDING
'56b
E5
rtn-
Hlr
-*ii
n\,
p'ffi
63-2489
T775A,B,C,D
INSTALLATION
Fig. 6-Sensor mounted on wall.
T70a7C1@0
WAIfvlOt {T SENSOF
CASE (OPTONAL)
LEADWIBES
foTnSi\scREw i r.
Fig. 7-+arallel€edes wiring ot sensors.
t-t
.l
ancx trAo
1gl987GA
SE SOR
WHITE L-EAD
CAUTION: POSITON SENSOR AIVAY
FROfr, SCHEW TERMINS *,oeo
TO T775 @NNECTIONS 1 Al,lO 2 (SENSOR A)
oR 7 ANO 8 (SENSOR B)
COVER SENSOB
LEADS WIIH
HEAT CONDIJCTIVE
M5?t9
Fig. 8-Sensor ins€rted in immersaon w€ll.
WIRING
WARNING
Discomect powe,r beforc installation to pr€vent
electical shock or equipment damage.
Disconnect external power beforc wiring to prevent elec-
rical shock c equipurnt damage. All wiring must comply
with applicable codes and ordinances.
IMPORTANT: Thc Tns is an operating conrrol, not a
limit or s$ety cottroL If used h qplications requir-
hg s$ety or limit controls, use a separate s$ety or
limit cotrol device in conjwction wiilt tlv 7775.
WARI{ING
Do not usc 24 Vac power ar terminals 5 and 6 to
power any extemal loads if 120 Vac or ZO Vac is
used to power the T7?5.
Refer to Fig. 3 m 4 for locating the appropriate power
inputs, remote sensor input, load orput terrninals, contact
closue input and senson selection switcb. Access to the
terninals can be gained tbrflgh stmdard condrit knockouts
(A lhrough C) located around tbe perirnctcroftbe enclosurc.
NOTE: Hole A should only be usod for sensor, low-voltage
and contact closue wiring.
63-2489
T775A,B,C,D
When wiring the input power, only one source of power
can be applied o ttre fi75 (for exampl e'24\ ac or .120 Y ac
or 240 Vac). Knockouts B and C can be used to gain access
to 120 Vac or 240 Vac input terminals and the load relay
outout terminals-
See Fig. I I tlrough 14 for typical fi75 wiring and
applications.
IMPTORTAI{T: Erratic tenperature readings from the
193987GA Sewor can be caused by poor wiring prac-
tices that mwt be avoided to assure proper oryrdbn:
. Do not route the tenperature sensor wiring with
builling power wiring.
Do nat locale thz temperature sensor wiinS next to
control contactors.
Do nol locate the tentperature sensor wiing near
electrical tnotors.
Do not locate the ternperature sensor wiing near
welding equipment.
Mal<e sure good mzchanical connections are nade to
both thc sensor and the controllcr-
. Do not nowt the sensor with the leadwire end (wire
end) pointing up in an area where condensation can
occur.
If any of the above conditions cannot be avoide4 use
shielded cable.
NOTE: Ground the cable shield at thefi75 connection only,
not at the sensor connection ( see Fig. 5).
DEVICE SETT]P
1. Determine the loads to be controlled and Ore operating
mode (heat or cool) and enter in the Device Programming
Worksheet.
For example: load 1: Compressor I (cool)
Setpt I
-
On at
-
Diff 1 Offat
-
2. For two sensor models (T7758)' determine which
loads will be controlled from sensor A or sensor B and enter
on the worksheet.
For example: Load 1: Compressor I (coolf-Sensor A
SeQt 1
-
Onat
-
Diff I Offat
-
3. Determine the setpoint (Setp| and the switching dif-
ferentiai (Dfl) for each load and enter on the worksheet'
INSTALLATION
coolins oDerating modes. When in cooling mode, ttte load
will be-nrmed off at setpoint plus the differential' When in
heating mode, the load will be tumed on at setpoint minus the
differential.
For example: l-oad l: Compressor I (coolf-Sensor A
Setpt i 78'F On at 82oF
Diff I 4'F Offat 78oF
CAANON
The fi75 will not allow the user to program for
both heating and cooling loads to be energized at
the same time.
If this situation results, cooling loads will be
energized and heating loads will be prevented ftom
alsolnergizing. The number (l-2,3,4) of these
nonenergized loads will flash along with the word
HEAT to indicate a call for both heating and cool-
inq loads conrolled by one sensor has occurred and
to-alert the user to reprogram the affected control
values.
5 . Remove the fi75 cover and ent€r the values listed on
the worksheet and the date in the fiIst column on the label
inside the T775 cover.
DEVICEPROGRAMMING
Default Values
values are:
When power is initially applied to theT775, the control
points wili be at tlreir default value set at the factory' Default
For example: Load
Setpt I 78%
Diff 1 4"F
1: Compressor I (cool)-Sensor A
On at
-
Offat
4. Refer to the Confol Algorithm subsection in Descrip-
tion/Operation section to calculate the load on and off tem-
oeraifes. Enter them on the worksheet. Remember that the
br/off outputs are off at setpoint in both the heating and
Device Programming Worksheet
Load l:
Setft 1 On at
Off atDiff I
Load2t
Setpt 2 On at
Off atDiff 2
Load 3:
Setpt 3 On at
OffatDiff 3
Load 4:
Setpt 4 On at
OffatDiff4
Setpointfr)
Difrerential
fF)
Operating
Mode
Stage I 72 2 Heat
Stage 2 70 Heat
Stage 3 68 2 Heat
Stage 4 66 2 Heat
63-2489
T775A,B,C,D
INSTALLATION . DESCRI PTION/OPERATION
1. For the T7758 wrd T775D, assign the loads to the
apprcpdate sensor by sening the DIP swirch in the upper
right comer of the T775 (see DIP Switch Selection, Fig. 9).
2. Before programming the T775, veri8' that the 'F/"C
selection jumper is properly installed. The fi75 is shipped
from the factory with thejumper installed in the "F position.
If oC is desired, remove thejumper.
3. Apply power to the device. The device will begin
counting down from 210. This countdown sequence will last
for approximately 3-ll2 minutes.
4. Press Select to override this time delay.
5. hess Select and Enter keys simultaneously to begin
p,rogramming the load oper*ing mode (Heat or Cool).
6. hess the Set (down arrow) to change o cooling. The
Set (up arrow) will change back to heating.
7. Press Enter to program the displayed mode into
memory.
8. Press Select to go to the next stage.
9. Repeat steps 6 through 9 for additional stages.
10. hess Select after the last stage is set up to rctum to the
display of the sensed temperaue.
PROGRAMMING STAGE CONTROL VALT'ES
1. Press Select to display the cunent stage se@int.
2. Press Set (up anow) to increase or Set (down arrow) to
decreas€ to the desircd setroint
3. hess Enter to enter the displayed value into memory.
4. Pless Select to display the curent stage swirching
differential.
5. hess Set (up arrow) to increase or Set (down arow) !o
decrease to th€ desired switching differential.
6. hess Enter to enter the displayed value into memory.
7. Repeat steps 1 through 6 to program each additional
slage.
8. For the T715A afiT77sC, press Select/Select (two
times) to retum to stage I parameters. For the fi75B and
T775D, press Select/Select/Select/Selea (forn times) to re-
hrm to stage I parameten. Scroll through the programming
loop a second time to confirm that the appropriate values
were entered inlo memory by. pressing Select.
NOTE: The n75B ald 7775D have three options for dis
playing the sensed temperatue:
l. Sensor A only.
2. Sensor B only.
3. Altemating between Sensor A and Sensor B.
For the 77758 and 7775D only:
9. Press Select after viewing dre swirching differential
for the final stage to display Sensor A temperaturc only.
10. Press Select again to display Sensor B temperafitre
only.
ll. Press Select again !o dtemate the display between
S€nsor A temperature and Sensor B temperanue at approxi-
mately fi ve-second intefyals.
12. Before replacing the cover on the fi75, check to see
that the conuol values werc rccorded on the label on the
backside of the cover.
IMPORTANT: For thc TV5A otd TV5C only: After inirtal
programnhg, altering the setryints for stage Lrp or
dotttn will result in a clwtge in setpints 2, 3, otd 4 by
the sonz number ofdegrees and in the sotne direaion
If increasing or decrusing tlu seqoint for snge I
results in exceeding the a ntrol limits (40" to +220oF
[40" to +IMTJ)for subsequznt smges, the control
will rot allow the user to enter a vahe for stage I
highcr or lnwer than thir limit. This wiA afia't for easy
sequmtial outpw staging to be ntdifiedwhile kzeping
the margin intact between setpints
Description/Operation
CONTROLALGORITHM
On/Off Control
The T775A and fi75C operate with one t€mp€rature
input supplied by the remote sensor while fi75B and T775D
have two temperature inputs. The T?75A,B,C, and D are all
capable of providing up to four stages of relay outputs for
on/off connol. Each sage of the T775A.B,C, and D has its
own independent setpoint that can be configured to operate
in either the heating or cooling mode. The mode ofoperation
for each stage is user determined by the programrning keys.
llsaring Mode Operation. Relay ouputs arc energized at the temperature set-
point minus the differential value.. Relay oulputs arc de-energized at the temperatue set-
ooint value.
Cmling Mode Operation. Relay outputs are energized at the temperature set-
point plus differential value.. Relay outputs are de-energized at tbe tempef,aturc set-
point value.
EXAMPLE: Using a device with one input and one relay
output, the corresponding load would be energized at the
temperatures following based on the initial settings.
S€ttings. Setpoint 68oF. Differential: 2'F
OUIPUTS ENF.RGIZEI)
Heating Mode:. Stage One: Energized ar 66oF.
6?-a489
Cooling Mode:. Stage One: Energized at 70'F.
The T775BD have dual sensor inputs and allow two
separate controllers to exist within one enclosure. Selection
of the stage parameters (operation mode, setpoints, and
differentials) is the same as for a single sensor device after
each stage is assigned its operating sensor. This assignment
is hardwarc driven via a four position DIP switch. An
explanation ofthe DIP switch assignments appean in Fig. 9.
See Fig. 3 and 4 for the DIP switch location.
CONTACT CLOSI,]RE OVERRIDE INPUT
A two-terminal input is provided !o allow the user to
override a relay+nergized condition on all outputs by using
a contact closure between terminal pins 3 and 4 of the
terminal block for the sensor input shown in Fig. 3 and 4.
This can be achieved manually or by using an EMS connol-
ler or time clock with normally open contacts (w7505 or
57005, for example).
When this ovenide is active, the display will show the
number of the stages that would be energized and the words
STAGE ENERGZED will flash on the display. The ener-
gized stages will tlren be de-energized until the ovenide
retums to inaaive (Off).
OFfCSELECTION
A single jumper plug conuols oF/oC indication of the
displayed temperatwe value. The location of this jumper is
shown in Fig. 3 and 4. The unit is shipped wittt tlrc jumper
installed in the 9F mode. To operate the device in the oC
mode, remove the jumper. Replacing the jumper will rein-
state the 'F mode.
DIP SWITCH SELECTIONS
On drc fi75B and D, the DIP switches are provided for
assignment ofeach relay ouput stage to its operating sensor.
If an individual switch is depressed toward its correspond-
ing load number (1 tbrough 4 on DIP switch) or to the right,
Sensor B will be the controlling sensor for that output stage.
If an individual switch is depressed to the left, Sensor A will
be the conaolling sensor for the output stage. An example of
the switches and their corresponding positioning is shown in
Frg.9.
Fig. HIP switch seftings for sensor s€lection.
T775A,B,C,D
DESCR I PTION/OPERATION
KEYPAD PROGRAMMING AND DISPLAY
ttie T175 utilizes a Liquid Crystal Dsplay (LCD) for
interactive prompting during pmgmmming and display of
sensed ard assigned setpoint and differcntial values. User
programming of dre fi75 is accomplished through the four
programming keys.
Programming Keys
The four programming keys are the Select, Up anow,
Down anow and Ent€r keys.. Select key sequentially prompts the user about whal
parameter is being displayed: sepoint, differential,
stage energized, heat or cool (operation mode), 1,2,3,4
(indicating assigned stage). After the last parameter
value is viewed, pressing the Select key will again
display the conrol values from the beginning of the
display loop.. Up and Down arrow keys allow the displayed param-
et€r to b€ incrcased or decreased. After pressing the
Select key, a confrol value can be changed by using the
arrow keys. Control values will be increased or de-
creased by l"F or loC for each time the arrow key is
depressed.. Enter key places the new value into the menrory ofthe
microprocessor.
IMPIORTANT: A control value or operation will wt be
entered into thc memory of the mbroprocessor wttil
the Enter key is pressed
. Press the Select and Enter keys at the same time to
change the control algoridrm from heating to cooling
or ftom cooling to heating. The heating and cooling
parameters ar€ not displayed during the normal Select
key sequences. The only parametffs displayed after
pressing the Select and Enter keys at the same time
will be the stage indication and the word, heat or cool.
To change the operation ftom heating to oooling or
vice versa for a desired output stage, use the arrow
keys. Once the mode is changed, pressing the Enter
key is necessary to enter this change into the micropro
cessor memory. The next stage of heat or cool assign-
ment will appear after the Select key is pressed. When
all stages are programmed, the display will r€vert back
to sensed temperahre and load energized status
Control values and operation selection will remain in the
device mernory even after the power is removed.
Display
Once power is applied or restored to the device, the dis-
play will count down from 210 until the display reads zero,
during which time any previously energized outputs will be
de-energized This is intended to protect compressors in the
event of a power outage,
To avoid viewing this entire countdown, press the Select
key. The LCD display will now show what it normally reads:
load (sensed) tempenrtue, stages energized, and which sen-
sor (Sensor A or Sensor B) is beins read for two sensor
SWITCH-'\#.1
-[-I
S|\rrcl{--\r-
@
A8
sloEvlEw
++--rm
'-"-,lDl
LOAD 1 IS CoNTROLLEO BY
SENSOR A WHEN STVITCH IS
OEPRESSEO ON THE LEFT
LOAO 2IS CONTROI.IEO BY
SENSOR B WHEN SWNCH ls
OEPFESSED ON THE RIGHT
(ASSHOWN) |^E!E
63-2489
T775A,B,C,D
DESCRIPTION/OPERATION
devices. At any time during the programming procedurg the
display will revert back to showing the sensed temperature
and stage status indication 60 seconds after the last key
closure.
For two sensor applications, the user has three options for
what is displayed. The display can be configured to indicate
Sensor A and Sensor B sensed temperaturc at a five second
rate or lock ono Sensor A sensed temperature or lock onto
Sensor B sensed temperature continuously.
This selection is accomplished by stopping at Sensor A
or Sensor B sensed ternperaore points in the Select screen
scrolling loop. To lock on to either sensor, the user must
scroll the Select key through the loop to the sensed tem-
perature promE of interest. The display will remain at that
parameter until the Select key is activat€d to advance the loop.
When the loop is stopped at any other prompt, the display
will altematively indicate Sensor A and Sensor B sensed
temperatue after 60 seconds from the last key closure or
immediately after the Select key is pressed at the end of the
programming sequence.
Error Messages
There are seven enor messages that can be displayed in
response to softivare or hardware problems with the T775.
The error Codes flashing on the display are:
SF---Sensor Failure
If the display shows a flashing SF, this indicates an out-
of-range or defective s€nsor. Make surc that the sensors arc
connected properly. For fi75A"C all loads will be de-
energized when this error message is flashing.
For the T775B,D the loads controlled by the out-of-
range sensor will be de-energized. The display will flash SF
to indicate which sensor is defective or in error. In the event
that only one sensor is defective, the remaining sensor and its
load(s) will operate normally. orrly the load(s) conaolled by
the defective, outof-range, or unconnected sensor will be
de-energized.
NOTE: Sensor values below 40oF or above 220oF will be
out-of-range.
EF-EEPROM Failure
The values read back from the EEPROM arc not the same
as written into the EEPROM. This error cannot be field
rcpaired. Replace the device. The EEPROM is not intended
to be field repaired.
C F-lalibration Failure
A calibration resistor reading was not within the range of
dre Analog to Dgital converrer. This error carmot be field
repaired. Replace the device.
O F-S t ray Inte rrupt F ailure
An unused intemrpt occuned. This error cannot be field
rcpaired Replace the device.
CE--Configuration Enor
The device hardwarc was configured to a nonexistent
device. This error cannot be field rcpaired. Replace the
device.
OE-ROM Error
The intemal Read Only Memory (ROM) of the micro-
processor is defective. This ermr cannot be field repaired.
Replace the device.
AE-RAM error
The intemal Random Access Memory (RAMI of the
microprocessor is defective. This error cannot be field re-
paired. Replace the device.
Sctpoint Calibration
To maintain tempera$rc accuracy, sensor wires should
be 18 AWG two-conducor. If the length of fie sensor wirc
exceeds 400 fee! recalibration will be necessary to maintain
accuracy. The chart that follows shows the corresponding
temperature offset to use for different sensor wire lenglhs.
This temperahre offset should be added o the desired
t€mperature setpoint for these applications. Refer to pro
gramming insructions in fte Programming section forenter-
lng
Sensor Wire Length Calibration Offset
0to399ft None reouired.
400 to 599 ft 1.0 degrees
600 to 799 ft 2.0 degees
800 to 1000 ft 3.0 degrees
63-2489 l0
T775A,B,C,D
CHECKOUT
Ctreckout
After the controller is installed and wired, apply power.
Make initial adjustrnents and desired settings.
1 . As shown in Fig. 8, record the sensed temperanres for
both Sensor A and Sensor B as displayed on the device. Use
the Select key to advance though the programming loop to
detennine and then write on the Checkout Table which loads
are controlled by each sensor.
2. Write the operating mode (heat or cool) for each stage
in the Checkout Table.
3. Writ€ the sensed temperatrre for each load on the
Sensed Temp. line.
4. Write the differential for each load on the Differential
line.
5. Writ€ the setpoint for each stage (Off temperatule).
Calculate the On temperature for each stage. (On tempera-
ture is seFoint plus differential for cooling and is sepoint
minus differential for heating.)
6. PIot the on and off (open/closed) values at which the
device will energize and de-energize each output load, (Re-
fer to the Device Programming Worksheet.)
7. Verifl which loads are energized by using the Check-
out Table. As shown in the example, the display will indi-
cate, in the lower right comer, which stages are energized. If
no stages are energized, the words "stage energized" will not
appear.
NOTE: If the sensed temperatue is bween ttre olt and Off
lemperafur€s, the load may either be energized or de-
energized. Rder to the Crntrol Algoritun section for
fi[dter explanalion.
8. If an error message flashes, refer to the description of
these messages. If SF flashes, check the sensor connections.
If properly connected and SF continues to flash, check the
sensor location to make sure it is located in an ambient con-
dition that is within the sensor capability (-40e to +220'D'
9. If an enor message other than SF flashes, the device
cannot be field repaired. Replace the device.
ll 63-z,89
T775A,B,C,D
CHECKOUT
DESIGNATED
SENSOR
SETPOINT
SENSED
TEMPERATURE
A
OFF
ONA
A
OFF
ONA
A
OFF
ONA
LOAD 1
rs oN
LOAD 2
IS OFF
LOAD 3
rs oN
LOAD 4
rs oN
CHECKOUT EHMPLE WITH SENSOR A = 68'AND SENSOR B = 73"
NOTE: RELAYS ABE DE-ENERGIZED AT SETPOINT
LOAD 1
HEATORCOOL (HEAT}
LOAD 2 LOAD 3(HEAT) (HEAT)
O@@OSELECT r- SET -r ENTER
DIFFERENTIAL 2
MODE
Fig. 'l(Hheckout Table and checkout example with Sensor A = 68'F and Sensor B = 73"F.
CHECKOUTTABLE
LOAD 1 LOAD2 LOAD3 LOAD4
HEATOB COOLSETPOINTIIII
DIFFERENTIAL T -I- _I-
T
DES'GNATED
-l- T -l- T:H,Li i i I
?EilBERo,,*-+ + + +tttl
[, ,noaoaa, -- *^-s wH€N sENsED TEM'ERATuRE nEAcHEs sETpor{T.
[ ,n*^r=" -- *^-s *HEN sENsEo TEM'EMTuRE REA.HES sETporNr ytl,
US OIFFENE}{T]AL (HEAT MOO€).
t263-z.89
T775A,B,C,D
CHECKOUT
Fig. 1l-Two-stage control, 24 Vac input, 24 Vac load.
otP swrTcHEs
FOR SENSOF
S€LECTION.
PRESENI ON
TZ5A, D ONLY
TEMPEFATUREFALL It
dirr-enErrr-aif
SETPOINT 2
orr.ne^,*lt
SETPOINT 1
TEMPERATURE
FALL I
A
I
TEMPEFATURE
RISE
SELECT rSET-1/--1/':f /--\\__J\_\lJ\!rJ
SENSOR
13 63-2489
T775A,B,C,D
CHECKOUT
ImVAC nruTi 120 vAC LOAO6
SEIECT r€ET-ro@@
Fig. l2-Two-stage control, 120 or 24O Vac input; 120 or 240 Vac load.
DIP SWTTCHES
FOR SENSOR
SELECNON,
PFESEIIT or'l
T7'58, O ONLY
SENSOR B
to pins ? ANO 8
lorTngB, D
\\\\
SENSOR B
to pins 7 ANO 8
ior T7,SB. O
\\\
120 VAC coot- IoDE
8u reupemrulne
FALr
+
4I
TEMPEMTURE
RISE
21O VAC INPUT: zao VAC LOADS
SELECT T€ET-To@@
TEMPEMTURE
FISE
63-2489 l4
T775A,B,C,D
CHECKOUT
Fig. 13-Four-stage control, 24 Vac input; 24vac load.
SENSOR B
to gins 7 ANO I
lorTz5B.D
\\\\
SENSOR
24 VAC
{rsueearrune
{ re lr eennru ae
N OTE: FOR THEFMOSTAT APPtICATIONS, CONNECT NO CONTACT OF COOLING STAGE TO Yl (AND SECONO STAGE TO Y2)
CONNECT NO CONTACT OF HEATING STAGE TO W1 (AND SECOND STAGE TO W2)' M746
A
I
TEMPERATURE
SELECT r€ET-'Icl@6
OUTPUT 3l | | IOUTPUT4
l5 63-2489
T775A,B,C,D
CHECKOUT
c@@
Fig. lrFFour stage control, 120 or 240 Vac input, 12O or 24O Vac load.
120 VAC INPuT: r20 VAC IOADS
+r€MPER^TURE
AI
TEMPEMTUBE
2a0 VAC II{PUT| 2aO VAC LOAOS
/_-1 /.:\ r/--,i--\
\______J \__.:a_J \:J
Honeywell
Home and Building Control
Honeywell Inc.
1985 Douglas Drive Nonh
Golden Valley, MN 55422
hinted in U.S.A.
Home and Building Control
Honeywell Limited-Honeywell Limitee
740 Ellesmere Road
Scarborough, Ontario
MIP 2V9
Control Your lVorld
7r-
-
QUALITY IS XXY
Helping You
Honepvell
R7924, R7947, R7g4g, R7g4g,R7g51,R7g61 ,
7800 SERIES Relay Modules
The R785lC Dynamrc Self-Check Opticat Ftame Amplifier is asolrd state plug-in amplifier that responds to ultraviol6t sionalsfrom C796'1E Dynamic Shutter-Chdck uttraviotet ftame d;te;iorsto Indrcate the presence of flame when used with Zg00 SERIESRelav Modules
The R7861A Self-Check Uttraviotet Flame Amptifier is a solid
qtgle- plqg-in amplifier that responds to an ultra'violet siqnaifrom aC7061 Setf-Check Uttraviolet Flame Detector to indiJaiJ the- ' -
presence of flame when used with Zg00 SERTES Relay Modutes.
The R78864 Dynamic Self-Check Ultraviolet AmDlifier is a solidstate plug-in amplifier that responds to a pulsed djrect currentsrgnal from a C7076A,C Ultraviolet Flame Detector with
ad.lus_table_sensitivity to indicate the presence of flame when usedwith 7800 SERIES Retay Modutes.
FEATURES
. Flame fallure response time of 0.9 or 1 second; or Z.O or3.0 seconds, d_ependlng on the amplifier and reiay moduleselected. Se€ Table,l.. Plug-in to 7800 SERIES Relay Module throuqh printed
circuit board edge connectoi keyeO tor pro#r 6rienGiion.. Flame signal test jacks measure amplifier flame signatvoltage,
. 0.0 to 5.0 Vdc Flame signal strength reading range.. Golor coded label identifies flame detecfion type:
- Green-rectification. Red-infrared.
- P_urple-ultraviolet. Blue-pulsed rectiticafl on.
- White-opticat.. R78478, R78488, R78498 Dynamic Ampti-Check@circuitry tests all flame amplifier components 12 times oerminute. The 7800 sERlEs Retay Modirle tocks out onsafety shutdown with amptifieifaiture.. 47824C and R7847C Dynamic Setf-check RectificationAmplifier, R7851C Dynamic Setf-Check Ooticat FlameAmplifier, R7861 S€lf-Check Ultraviolet Flame Amotifiarand R7886A Dynamic Setf-Check Uttraviotet AmptifiJiiestthe d€tsctors and all electronic components in ihe flamedetection system 12 times per minuie. The 7800 SERIESItetay Module locks out on safety shutdown with flamedetectlon system fallure.
NOTE: NOTE:R7824C, Series Z or grreater, and R7g47c,
ue_n6 4. or greater, pulse shutter when slgnal of
1,5 Vac ls sensed.
Contents
R7886 Amplifiers for
I lllilt |ilil tililffililtil tlilt ltil ltil ilil
APPLICATION
The R7824C Rectification Flame Amplifier rs a solid state oluo_inamplifier that responds to a rectified iignal from a C7024E.F Self-Check Ultraviolet Flame Detector to indicate the presence offlame when used wilh an RM7824 Retay Modulei
The R78474,8 Rectification Flame Amplifiers are solid state ptuq-in amplifrers that respond to a rectifred signal from a rectificaiion'
tyP.e lqqe-deleqtgr to indicate lhe presence of flame when usedwith 7800 SERIES Retay Modutes.'
The R7847C Self-Check Rectification Flame Amplifier is a solid
19!9 p!g_-i! amplifier that responds to a rectified sionat from aC7012E,F Setf-Check Uttravidtet Ftame Oetector toinAicaie inepresence of llame when used with 7800 SERIES Relay Modules.This is not European Community (CE) approved foae6ziji O. --
Ec7820, EC/RM7830 or EC/RM7bsO'neriv vrooulis. - - -'
The R7848A,8 Infrared Ftame Amplifiers are solld state otuo-inamplifiers that respond to an rnfrared signal from a C7O1'S '
Infrared Flame Detector to lndlcate the presence of flame whenused with 7800 SERIES Relay Moduted.
The R78494,8 Ultraviolet Flame Amptifiers are sotid state otuo-rnamplifiers that respond to an ultravioiet sion at lrom a C7O27 . '
C7O35 or C7044 Ultraviolet Flame Detect6r to indicate thepresence of flame when used with 7800 SERIES Relay Modules.
The R78518 Optical Flame Amphfiers are solid state Dluo-inamplifiers that respond to opticdt signals from ClgZt Cl'gSS,
C79 15, and C7962 Flame Detectors to indicate the oresence offlame when used with 7800 SERIES Relav Modules.
@ U.S. Registered Trademark
Copyright O 2002 Honeywell ' All Rights Reserved
1
'l
4
6
6F0188
R7824, R7U7, R7848, R7849,R7851,1, R7886 AMPLIF'ERS FOR 78OO SER'ES MODULES
O
RELAY
I
R786
SPECIFICATIONS
Modela:
Flame Detection Systems (see Table 2):
Rectiflcation:
R7824C for use with C7024E,F Solid State Ultraviolet
Detectors.
R7847A fot use with flame rods, reclifying pholoc€lls or
C7O12A,C Solid State Ultraviolet Detectors.
R78478 for use with flame rods, rectifying photocells or
C7012A,C Solid State Ultraviolet Detectors.
R7847C for use with C7012E,F Solid State
Ultraviolet Detectors.
lnfrared:
R7848A for use with C7015 Infrared (lead sulfide) Detector.
R78/|8B for use wilh C7015 Infrared (lead sulfide) Deteclor
Ultraviolet:
Rz849A for use wilh CT 027 tC7O35lC7044 Minipeeper Ultravi-
olel Detectors.
R7849B for use wilh C7027lC7O35lC70zl4 Minipeeper UltravF
olet Detectors.
R7861A for use with C7061A Ultraviolet Detector.
R78864 for use with C7076A,D Ultraviolet Detectors with
adjustable sensitivity.
ODiical:' R78518 for use wih C7927 , C7935, C7915 and C7962 Flame
Deleclors.
R7851C for use with C7961E Flame Detectors.
Flame Failure Response Time: See Table 1.
Flame Signal (Volts dc):
Minimum Aoceptable: '1.25 Vdc.
Flame Signal Voltage Range (displayed on Keyboard Display
Module or measured with a 1M ohm/volt meter plugged Into
amplifier test jacks): 0.0 to 5.0 Vdc.
Environmental Ratings:
Ambient Temperature:
ooeratrnqi -40'F to 140"F (-40"c to 60'c).
siorage:l4o"F to 150'F (-40"c to 65'c).
Humidity: Operating 85% rh continuous, noncondenslng
Vibraiion: Continuous 0.5G environment.
Weight: 2.5 oz (719), unpacked.
Dimensions: See Fig. I
Approvals:
Underwriters Laboratoties Inc. Listed: File no MP268, Guide no.
MCCZZ. R78/7 A, R78478, R7847C, R7861A, R78864,
R7848A, R78488, R7849A, R78498, R78518. (R7851C
Pendino )
Underwrite-rs Laboratories Inc Compon€nt Recognized: File no
MP268. Guide no. McCZz: R7824C.
canadian Standards Association Certified: LR95329-3 (R7851C
Pending.)
Factory Mutual Approved: Repoft J.l.1V9A0-AF. (R7851C
Pending.)
Industrial Risk Insurers: Acceptable
Table 1. Relay Module Flame Failure
Response Time (FFRT).
M11460
Fig. 1. Flame amplifier dimensions in in. (mm).
NOTE: .NOTE: EN298 Approved: When the€e amplifiers are
used with an EC7810, EC7820, EC/RM7830' or
EC/RM7850 Relay Module.
Accessories:
Flame Simulators:
RectiJication:1235144.
Ultraviolet: 203659.
Flame Detectors (ordered separately): selec{ from Table 2
ORDERING INFORMATION
When purchasing replacement and modernization products from your TRADELINE@ wholesaler or distributor, refer to the
TRADELINE@ Catalog or price sheets for complete ordering number
lf you have additional questions, need further information, or would like to comment on our products or services, please write or
onone:1. Your local Home and Building Control Sales Ofiice (check white pages of your phone directory).
2. Home and Building Control Customer Relations
Honeywell, 1885 Douglas Drive North
Minneapolis, Minnesota 554224386
ln Canada-1.1oneywell Limited/Honeywell Limitee, 35 Dynamic Drive, Scarborough, Ontario M1v 429.
lnternational Salej and Service Offices in all principal clties of the world. Manufacturing in Australia, Canada, Finland, France,
Germany, Japan, Mexico, Netherlands, Spain' Taiwan, United Kingdom, U S'A'
Relay ltlodule
Flame Failute Rosponse
Time (FFRT) in seconds
0.8 or I 2.0 or 3.0
EC781 0. EC7 820. ECiRM7830,
EC/RM7850
1.0 2.0
EC/RM7823, EC/RM7885, EC/
RM7890, EC/RM7895, RM7896,
RM7888, RM7838, RM7800,
RM7840
0.8 3.0
RM7824 N/A ?n
65-0109-8
R7824, R7847, R7U8, R7849,R7851,R7861, R7886 AMqLIF FOR /8OO SER'ES RELAY MODULES
o
,ERS
Table 2. Flame Detection Systems.
Plug-in Flame S-g-it AmpiifrErc Applicable Flame Detectors
Type Color Self-Checking Model
Flame
Failure
Response
Time (secla Fuel Type Models
Rectification Green Dymanic Self-
Check
R7824Cb,c, i Gas, oil,
coal
Ultraviolet (Purple
Peeper@)
c7024E,F
No R7847Ah O.811 or 213 Gas Rectifying Flame Rod
HoldersJ
c7004, c7007, c7011
Complete Assemblies:
c7008, c7009, Q179
No R7847Ah 0.8/1 or
zt5
otl Rectifying Photocell c7003, c7010, c7013,
c7014d
No R7847An 2t3 Gas, oil,
coal
Ultraviolet (Purple
Peeper@)
c701zA,C.
Dynamic Ampli-
Check@
R7847Be,h 0.8/1 or
2t3
Gas Rectifying Flame Rod
Holdersb
c7004. c7007. c7011
Complete Assemblies:
c7008, c7009, Q179
Dynamic Ampli-
Check@
R7847Be,n 0.8/1 or
zlJ
oil Rectifying Photocell c7003, c7010, c7013,
c7014d
Dynamic Ampli-
Check@
R7847Be,h ztJ Gas, oil,Ultraviolet (Purple
Peeper@)
c7012A.C
Dynamic Self-
Check
q76479c,t' i 2t3 Gas, oil,
coal
Ultraviolet (Purple
Peeper@)
c7012E,F
Infrared Red No R7848A ztJ Gas, oil,
coal
Infrared (Lead
Sulfide)
c7015
Dynamic Ampli-
Check@
R7848Be Gas, oil,
coal
Infrared (Lead
Sulfide)
c70'15
Ultraviolet Purple No R7849A 0.8/1 or
2t3
Gas, oil Ultraviolet
(Minipeeper)c7027. C7035, C7044s
Dynamic Ampli-
Check@
R784gBd 0.8/1 or
lt5
Gas, oil Ulkaviolet
(Minipeeper)c7027. C7035. C7044s
Dynamic Self-
Check
R7861AcJ 0.8/1 or
zt5
Gas, oil,
coal
Ultraviolet c7061
Blue Dynamic Self-
Check
R7886Ac'f zt5 Gas, oil,
coal
Ultraviolet (Adjustable
Sensitivity)
c7076
Optica I White Dymanic Ampli-
Check@
R785'18 0.811 or 213 Gas, oil,
coal
Optical (UV lR,
Visible Light)
c7927. C7535, C7915,
c7962
Dynamic Self-
Check
R7851Cc 2t3 Gas, oil,Optical (UV only)c7961
a Flame Failure Response Time (FFRT) depends on selection of amplifier and 7800 SERIES Relay Module.
" R7824c is used only with the 24 vdc RM7e24 Relay Modute and c7024E,F Flame Detectors.c Circuitry tests all electronic componenls in flame detection system (amplifier and detector) 12 times a mrnute during burner operattonand shuts down burner if deteclion svstem fails.
d Use only Honeywell part no. 38316 Photocell.
€ Circuiky tests flame signal amplifi€r 12 times a minute during burner operation and shuts down burner lt amptifier fails.' 2ool220D4o vac applications relUre a 120 Vac, 10 VA minimum stepdown transformer (not provtded) to dnve the shutter. Applies toR7847c series 3 or greater; R78b6A series 2 or greater; R7861 serids I or greater rig. ) ihSw! flami'ori.a"i i"ir'i"d. '
s Use C7o27, c7035 and C7044 Flame Dete-ctors only on burners that cyde_on-off at least once every twenty-tour hours. Use C7o.l2E,FFlame Detector with R7847c Amplifiet c7061A Ulttaviolet Detector with R786tA Ampliiier oi cioTon Haine oetector wttn nzee'6nAmplifier as ultraviolet flame detection system for appliances with burners that remiin'dniontinuorsly for twenty-four hours or longer,n R7847A,8 Amplifiers with O 6/1 second FFRT should not be used with C7O124,C Solid Stafe U[raviotet Detectors.
' R7824c series 2 and greate-r and R7847c series 4 and greater check flame detector system when flame reaches 1.5 vdc or at 4.sseconds, whichever occurs first.i Order flame rod separately; see flame delector Instructions for hold6r.
65-0109-8
R7824, R7847, R7848, R7849,R7851,R7886 AMPLIFIERS FOR 78OO SER'ES MODULES
o
RELAY
o
R7861
A caunoN
Equipment Damage Hazard.
Incorr€ct combination of relay module, amplifier
and flame detector can cause equapmont damage.
In infrared applications (C7015 Infrared Flame
Detec{or and R7848 Amplifier) using the RM7890
Relay Module with sofiware version 4004 or less
requires a ten-second delay to start sequence. This
applies only to the initial power of the RM7890.
INSTALLATION
When Installing this Product...
1. Read these instructions carefully. Failure to follow them
could damage the product or cause a hazatdous
condition.
Check the ratings glven in the instructions and on the
product to make sure the product is suitable for your
application.
Installer must be a trained, experienced, flame
safeguard control technician.
After installation is complete, check out the product
operation as provided in these instruclions.
3.
4.
1. Align the amplifier circuit board edge connector with the
keyed receptacle on the 7800 SERIES Relay Module
Be sure the amplifier nameplate faces away from the
Relay Module.2. Push in the amplifier until the circuit board is fully
inserted into the receptacle and then push the amplifier
toward the 7800 SERIES Relay Module retaining clasp.
3. Be sure the amplifier is firmly in place-
4. Perform all required checkout tests.
Installing Flame Detector
NOTE: NOTE:Table 2 lists ffame detection systems available
for use with 7800 SERIES Relay Modules. Be sure to
use the correcl combination of amplifier and flame
.lata.t^|.
Proper flame deteclor installation is the basis of a safe and
reliable flame safeguard installation. Refer to the Instructions
packed with the flame detector and the equipment manufac-
turer instructions.
Keep the flame signal leadwires as short as possible from the
flame detector to the wiring subbase. Capacitance increases
with leadwire length, reducing the signal strengih. The
maximum permissible leadwire length depends on the type of
flame detector, leadwire and conduit. However, the ultimate
limiting factor for the flame detector leadwire is th€ flame
signal; see Table 3 in the Checkout section.
Fig. 2. tnstalling flame signal amplitier.
Wiring
lnstalling Plug-ln Flame
Signal Amplifier (Fig, 2)
AwnnNtNG
Electric Shock Hazard.
Can cause electlical shock, sorious iniury or
death.
Disconnect the power supply before beginning
installation. More than one power supply
disconnection can be involved.
65-0109-8
AwnnNtNG
Electrical Shock Hazard.
Can cause electrical shock or equipment damage'
Disconnect power supply before beginning installation.
More than one dismnneclion can be involved.
Remove the 7800 SERIES Relay Module from the
wiring subbase.
Refer to Fig. 3 for proper flame detector wiring.
t.
2.
AwanNtNG
Electric Shock llazara.
Can cause electrical Ehock, serious injury or
death.
Disconnect the power supply before beginning
installation. More than one power supply
disconnection can be involved.
IMPORTANT
1. Vliring must comply with all applicable codes,
ordinances and regulatrcns
2. Wring (where required) must comply with NEC
Class 1 (Line Voltage) wiring.
3. Pertorm all required checkouf tesis after installation
is complete.
A cnunoN
Equipment Damage Hazard.
Gan cause equipment damage,
Disconnect 7800 SERIES Relay Module power before
removing amplifier.
R7849, R7 851,R7 861. R7 886 FOR 78OO SERIES RELAY MODULES
o
AMPLIFIERS
o
847, R7848,R7824, R7
PHOTOCELL
ft-x,.F..-'G
FLAME ROD
?----------_
=
TNFRARED (C70r5) ,::ffi,o.rnq+
ULTRAVf OLET (C7O27 tC7035tC7O44)
A
22
aiffi {_I_LJ-E!
oPTlcAL C7927A4ffi
SOLID STATE
ULTRAVTOLET (C7012A,C,
L]
l5\ GND
A A CIUNON: EOUIPMENT DAMAGE TIAZARD. II{CORRECT WIRING POLARIT1 CI},I OAMAGE OR DESTROY UV SET{SING TUAES.CONNECT FLAME DETECTOR WIRES ACCORDING TO FOOTNOTES 1 AND 2 TO PBEVENT UV SENSING TUAE DAMAGE.FLAME DETECTORLEAOS ARE COLOR CODED THE BLUE LEAD MUST AE CONNECT€D TO THE F TEFMINAL AND THE WHITE MUST AE CONNECTED IOTHE G TERMINAL. THE UV SENSING TUBE IS POLARIIY SENSTTIVE
/z\ rLnut oerectop LEADS ABE coLoR coDED. THE aLUE LEAD MUsr BE coNNEcrED ro rHE F TERMTNAL ANo rHE yErLow MUsrBE CONNECTED TO THE G TERMINAL. THE UV SENSING TUBE IS POLARITY SENSITIVE,
A I.\ CII]1O|i, CgUIPMENT DAMAGE HAZARD. INCORRECT VOLTAGE CAN DAMAGE SHUTTER MECHANISM ONLY ON ECTAOO SEFIESRELAY MODULES. INSfALL A 200122Cr240 VAC rO 120 VAC. rOVA MTNTMUM, STEPDOWN TRANSFORMER (NOT pAOV|DED) TO ORTVETHE SHUTIER MECHANISM,
a DO NOT USE 0.8/r SECOND FfB- AMpLtFtER WtrH C/OrzA,C FLAME OETECTOR
A cND (GFEEN) LEAo wrRE oN c7961E oNLy. M?u:joe
C7O76A,D ULTFAVIOLET DETECTOR
SOLID STATE SELF.CHECKING
ULTRAVf OLET (C7O1 2E,Fl
SOLID STATE SELF.CHECKING
ULTRAVTOLET (C7024E,F - E SHOWN)
, isEff3JF/r\ a
.--#-'"-,-.-X" EABA'
SOLID STATE SELF-CHECKING
ULTRAVIOLET (C7061A)
Fig. 3. Flame detector wiring.
65-0109-8
R7824, R7U7, R7848. R7849,R7851,R7886 AMPLIFIERS FOR 78OO SER/ES MODULES
o
RELAY
o
R7861,
5.
6.
Disconnect power supply before making wiring
connections to prevent elec;trical shock ard equipment
damage.
All wiring must comply with appropriate electrical codes,
ordinances and regulations including NEC Class t (Line
Voltage) wiring where required.
Use recommended wire size and type no. 18 copper
conductors TTW(60C) or THW (75C) or THNN(90C).
Use recommended wire routing:
Keep the flame signal leadwire as short as possible
from the detec{or to the 7800 SERIES Relay Module.
The maximum permissible leadwire length depends
on the type of leedwire, conduit type and leadwire
diameter. The ultimate limiting factor lor flame signal
leadwire length is the ffame signal voltage.
Do not run high vokage ignition transformer wires in
the same conduit with the flame detection wiring.
lf the flame deteclor leadwir€s are not long enough
to reach the 7800 SERIES Relay Module elec{rical
connectors, make splic€s in a iunction box.
(1) Enclose scanner wiring without armor cable in
metal cable or conduit.
(2) Follow flame detector Instructions.
7. Check wiring, see Fig. 4.
8. Install 7800 SERIES Relay Module.
L Restore power to the 7800 SERIES Relay Module.
Flame detector wiring is shown in Fig. 3.
CHECKOUT
Preliminary Inspection
Make certain that:1. Wiring connections are correct and all terminal screws
and electrical connections are tight.
2. Proper flame failure response time is selecled
3. Amplifier is securely mounted on the 7800 SERIES
Relay Module.4. Detectors are properly positioned and cleaned
according to Detec{or Instructions.
5. Correcl combination of amplifier and flame detector is
useq.
Flame Signal Measurement (Fig. 4)
Flame signal can be measured at the Flame Signal Test
Jacks, see Fig. 4, and at the Keyboard Display Module.
Measure the flame signal at the appropriate times defined in
the Checkout section; see applicable 7800 SERIES Relay
Module Instructions. See Table 3 for acceptable and
maximum flame signal voltage slrengths.
b.
/\I\ CAUTION
Equipment Damage Hazard.
lmproper wiring can destroy ultraviolet sensing
tube.
Garefully follow polarity sensitive wiring instructions for
the C7Q27, C7035, C7044, CT O12, C7 O24, C7 061,
C7961 and C7076. Reversing the leadwires, even
momentarily, can destroy the ultraviolet sensing tube.
Fig. 4. Flame signal measurement with moter.
1. Connect blue leadwire from detector to terminal F and
white f eadwire lron C7 027 lC7O35lC7 O44lC7 061 lo
terminal G.
2. Connect blue leadwire from detector to terminal F and
yellow leadwire from C70121C7O241C7961 to terminal
(r.
3. Follow lightoff lnstructions for applicable 7800 SERIES
Relay Module.
Measuring Flame Signal With Keyboard
Display Module
Consult Instructions for applicable 7800 SERIES Relay
Module or Keyboard Display Module.
Measuring Flame Signalwith a Volt
Ohmmeter
Two test jacks, positive and negative (Com) are accessible on
the top of the amplifier when plugged into the 7800 SERIES
Relay Module. These jacks are provided for monitoring flame
signal strength. use a one megohm/volt meter to measure lhe
flame signal strength. Connect the positive meter lead (red) to
the positive (+) amplifier test.iack and the negative meter lead
(black) to the negative (-) amplifier test jack. The test jacks
use standard 0.180 inch diameter voltmeter probes. A
minimum 1 .25 Vdc flame signal is required.
FLAME SIMULATOR
65-0109-E
Table 3. Flame signal.
Flame Detector Flame Signal Amplifier
Minimum Acceptable
Steady dc Voltagea Maximum Expected dc Voltage
Flame Rod Photocell
c70124,Cc
R7847A,Bb 1.25 Vdc 5.0 Vdc at Keyboard Display Module
or on vollohmmeter.
c7012E,Fc R7847Co e
c7015A R7848A,BD
c7024E,F R7824Cd,e
c7027A
c7035A
c7044A'
R7849A,Bb
c7927
c7935
c7915
vtvoz
R7851BD
c7061A R7861Ad
c7076A,D R7886Ad
c7961E R7851Cd
1.
2.
a This mhimum or stronger signal can be easily obtained if the detector is conectly installed and positioned to properly sense theflame. Obtain this voltage before completing checkout.
o The flame amplifiers are Ampli-Check@ type.
c Adjust slightly, or fac-e the prpe down, or extend the sight pipe on C7012A,C,E,F applications to obtain a maximum flame signal
reading less than 5.0 volts.
d The flame signal amplifier circuitry is tested one-half second every five seconds during burner operation and shuts down the
burner if the amplifier fails (all
'nstallations).e R7824C, Senes 2 or grealer, and R7847C, Series 4 or greater, pulse the shutter when the flame signal reaches 1.5 Vdc.
The flame signal for the pilot atone, the main burner flame
alone, and both together must be steady and a minimum of
'1.25V lf the flame signal is unsteady, or less than the
minimum acceptable voltage, check lhe flame detector
installation and circuiky in the following procedure.
Check the supply voltages at terminals (Ll ) and L2 (N).
Make sure the master switch is closed, connections are
correct, and the power supply is of the conect voltage
and frequency and is sinusoidar.
Check the detector wiring for defects including:
Incorrect connections.
Wrong type of wire.
Deteriorated wire.
Open circuits.
Short circuits.
Leakage paths caused by moisture, soot or accu-
mulated dirt.
For a flame rod. make sure:a. There is enough ground area.b. The flame rod is properly located in the flame.c. Temperature at the flame rod insulator is no greater
than 500iF (260iC).
For all optical detectors, clean the detector viewing win-
dow, lens, and inside of the sight pipe as applicabte.
5. With the bumer running, check the temperature at the
detector. lf it exceeds the detector maximum rated
temperature:
a. Add a heat block to stop conducted heat traveling
up the sight pipe.
b. Add a shield or screen to reflect radiated heat.c. Add cooling (refer to sight pipe ventilation in the
delector lnstructtons).6, Make sure that the flame adjustment is not too lean.7. Make sure the optical detector is properly sighting the
flame.
8. lf necessary, resight or reposition the detector.9. lf you cannot obtain proper operation, replace the
plug-in amplifier.10. lf you cannot yet obtain proper operation, replace the
flame detector.
IMPORTANT
lf you make any changes to the flame detection
system, repeat all required Checkout tests in
Checkout section of the lnstructions for the
applicable 7800 SER/ES Relay Modute.
h
c.
o.
e.
f.
65-0109-8
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65-0109-B G.R. Rev 01-02 www honeywell.com
o
OfflceGoW
o
Petbtrotrfeney
lnstallation Date:
]b!o
100 Burson Street, P.O. Box 458,
EastStroudsburg, PA 18301
Telephone: (877)728-5351, Facsimile:
www.pkboilers.com
Z^\rT
PATTERSON.KELLEY
THERMIFIG@
GAS-FIRED BOILER
C.S.A Design-Certified
Complies with ANSI 221.131C5A4.9
Gas-Fired Low Pressure Steam and Hot Water
Boilers
ASME Code. Section lV
Certifi ed by Pattercon-Kelley
C.S.A Design-Certified
Complies with ANSI 221.13/CSA 4.9
Gas-Fired Low Pressure Steam and Hot Water
Boilers
(570) 476-7247
Thermifico Gas.Fired
o
Boiler Table of Gontents
[.1.0
2.0
2.1
2.2
2.3
2.4
2.5
TNTRODUCTTON ................................. 1
sAFETy...... ..................... 1
General ..........1
Training........ ........................1
Safety Features.......................................... 1
Safety Labels .......................2
Safety Precautions.............. .......................2
2.5. 1 Electrical Hazards...... .......................2
2.5.2 Burn, Fire, and Explosion Hazards ...2
2.5.3 Crush Ha2ards..................................3
2.5.4 Chemical Ha2ards.............................3
2.5.5 Pressure Hazards .............................4
2.5.6 Slip, Fall Ha2ards..............................4
I NSTALLATTON ................................... 5
Receiving and Storage .............................. 5
3.1.1 Initial Inspection ..........5
3. 1 .2 Storage Prior to Installation...............5
Compliance with Codes ............................. 5
Setup ........... ........................5
3.3.1 Foundation........................................5
3.3.2 Placement ......................................... 5
3.3.3 C|earances........................................6
Electrical Connections .........6
Combustion Air .......................................... 7
Flue Venting. ........................7
3.6.1 Vent E1bows......................................8
3.6.2 Barometric Damper...........................8
3.6.3 Barometric Damper Location ............8
3.6.4 Flue Connection................................8
3.6.5 Vent Termination............................... I
3.6.6 Removing an Existing Boi|er.............9
Gas Piping ...........................9
3.7.1 Gas Supply Piping by Installer........11
3.7.2 Gas Bleeds and Vents .................... 1 1
3.8 Boiler Water Piping ............11
3.8.1 Piping Design.................................. 1 1
3.8.2 Boiler Inlet and Outlet Connections 12
3.8.3 Boiler Water Piping by Installer....... 12
3.8.4 Flushing and Fi11in9......................... 13
3.9 Burner and lgnition System .....................13
3.9.1 Inspection ....................................... 1 3
3.1 0 Pre-Start Check List............................... 1 3
3.1 1 Safety Checks......... ......... 13
3.11.1 Test of lgnition Safety System......13
3. 1 1.2 Test of Low Water Cut-off ............. 1 4
3.1 1 .3 Test of High-Limit Control .............14
3.1 1.4 Test of Gas Pressure Switch ........ 14
3.12 lnitial Adjustments. ...........15
3.12.1 Operating Temperature Controller for
Lo-Hi-Lo Thermifi c'............................. 1 5
3. 1 2.2 Gas Pressure Adjustment............. 1 6
3. 1 2.3 Air Flow Adjustments .................... 1 6
4.0 oPERAT|ON ............ ..... 19
4.1 General . ........19
4. 1.1 Control Panel Front......................... 1 9
4.'1.2 Tests .........................19
4.2 Lighting and Shut-Down Procedures.......'19
4.2.1 Lighting Procedures........................ 1 I
4.2.2 Normal Shut Down Procedures ......20
4.2.3 Emergency Shut Off ................ .......20
4.3 Typical Boiler Operating Conditions ........2O
5.0 MAINTENANCE ............21
5.1 Maintenance and Inspection Schedule....21
5.1.1 Daily... .......................21
5.1.2 Weekly ......................21
5.1.3 Monthly (During Operation) ............21
5.'l .4 Semi-Annua1|y.......... .......................21
5.1.5 Annua|fy.................. ........................22
3.0
3.1
3.2
3.3
3.4
3.5
3.6
3.7
@ rrr"r.mc@ Gas-Flred Botter Table of Contents .l
The same features which permit this boiler to achieve
high-efficiency performance make it unlike most other
boilers of this general size, so it is important to under-
stand how this boiler operates.
Do not store or use gasoline or other flammable vapors
or liquids in the vicinity of this or any other appliance.
WARNING!
Installation and service must be performed by a quali-
fied installer, service agency, or qas supplier.
6. 1.2a Lo-Hi-Lo lRl .................................. 34
6.1.3 Water Cut-Off.................................. 36
6.2 Boiler Parts List .................38
6.2.1 Main Assembly .........38
6.2.2 Control Pane|.................................. 39
6.2.3 Gas Train........................................40
6.2.4 Cabinet ...........................................41
7.0 LIMITED WARMNTY ....................... 42
7.1 Express Warranty....... .......42
7 .2 W arranty Discla imer .... ............................ 42
What to do if you smell gas:
r Do not try to light any appliance.o Do not touch any eleckical switch.
o Do not use any phone in your building. Immedi-
ately call your gas supplier from a neighbor's
phone. Follow the gas supplier's instructions.r Ifyou cannot reach your gas supplier call the fire
department.
WARNING!
It is essential to read, understand, and follow the rec-
ommendations of this manual before installing, operat-
ing, or servicing this equipment. Failure to do so could
result in fire or explosion and serious injury, death,
and/or
o
BoilerThermific@ Gas-Fired Introduction/Safety
-
I
1.0 INTRODUCTION
The P-K Thermifico Gas-Fired Boiler combines a ra-
dial pre-mix fan-assisted burner with a compact, fin-
ned-tube heat exchanger to provide maximum effi-
ciency in a minimum of space. The high-quality mate-
rials and thoroughly tested design of the boiler should
provide years of houble-free, hot-water service, if the
instructions in this manual are followed carefully.
This manual covers installation of P-K Thermific@
Boiler Series 700, 1000, 1200, 1500, 1700, and 2000
The model numbers may be followed by a prefix or
suffix letter in some cases to indicate special features
or different options.
While details may differ slightly, basic operation is the
same for all models. Boilers may be built to operate
with natural gas or liquefied petroleum gas (propane).
Check the rating plate for conect fuel usage and gas
pressures.
The boiler is only a part of the complete heating sys-
tem. This boiler may be fully operational and yet be-
cause ofpoor circulation, control or other operating
characteristics. not deliver heat to the desired location.
Additional equipment such as temperature sensors,
pumps, flow switches, balancing valves and check
valves will be required for satisfactory operation of
any system. Patterson-Kelley cannot be responsible
for the design or operation of such systems and a
qualified engineer or contractor must be consulted.
2.0 SAFETY
2.1 GENERAL
The Thermific@ gas-fired boiler must be:
r Installed by qualified personnel in accordance with
designs prepared by qualified facility engineers in-
cluding: structural, mechanical, electrical, and
other applicable disciplines.
r Operated and serviced in accordance with a com-
prehensive safety program determined and estab-
lished by the customer. Do not attempt to operate
or service until such a program has been estab-
lished.
r Operated and serviced by qualified, properly
trained personnel in accordance with all applicable
codes, laws, and regulations.
2.2 TRAINING
It is essential to read, understand, and follow the rec-
ommendations of this manual before installing, operat-
ing, or servicing this equipment. Failure to do so
could result in serious injury, death, and/or property
damage.
Proper training is the best protection against accidents.
Operating and service personnel must be thoroughly
familiar with the basic construction of the Thermific@
boiler, the use and locations of the conhols, the opera-
tion of the boiler, adjustment of its various mecha-
nisms, and all applicable safety precautions. If any of
the provisions of this manual are not fully and com-
pletely understood, contact the Patterson-Kelley Sales
Depadment toll-free at (877) 728-5351 for assistance.
2.3 SAFEWFEATURES
It is the responsibility of the customer to maintain the
safety features of this machine, such as: guards, safety
labels, safety controls, interlocks, lockout devices, etc.,
in place and operable.
Page 1
@ rr,.-mcocas-Fired Boiler Safep .l2,4 SAFEW LABELS
Mlke rur€ ihl! unlon is
llghl botoro closlng cablnet
covor aftor 3eavlcing boller.
Whcn opcnlng loak to3t
alwsys follow Inrkuctiors In
opsratlon and arirttt rnanual.
The safety labels shown above are affrxed to your
boiler. Although the labels are ofhigh quality, they
may become dislodged or unreadable over time. Con-
tact Patterson-Kelley toll-free at(877) 728-5351 for
replacement labels.
2.5 SAFETY PRECAUTIoNS
Provide a suitable location for the boiler, away from
normal personnel traffic, with adequate working space,
adequate clearances, proper ventilation and lighting,
with a structure sufficiently strong and rigid to support
the weight of the boiler, all piping, and accessories.
2.5.1 Electrical Hazards
Shock hazard! Properly lockouVtagout the electri-
cal service and all other energy sources before
working on or near the machine.
Shock hazard! Boiler is not rated for wash-down
service.
2.5.2 Burn, Fire, and Explosion Hazards
llake surc this unlon ls
tight before cloelng cablnet
cover after servlclng bollgr.
When openlng losk tott
ah.{ays tollow Inrtructlona In
oparatlon and Eatet manual,
Burn, fire, and explosion hazards! Installation
must be in strict conformance to all applicable
codes and standards including NFPA 54, ANSI
2223.1 and CAN/CGA B.149. Install all required
ventlines for gas devices. Refer to Section 3.7.2
below.
Hazard fiom incorrect fuels! Possible fire, explo-
sion, overheating, and damage. Do not use any
fuels except the design fuel for the unit.
Overfire hazards! High pressure in gas or propane
supply could result in overfiring of other devices
supplied from the same source.
Fire and explosion hazards ! Close the main gas
shutoff before servicing boiler.
Page 2
ThermificoGas-Fired
o
Boiler Safety
[.
Fire and explosion hazards! Do not store or use
gasoline or other flammable vapors or liquids in
the vicinity of this or any other gas fired appliance.
Bum hazard! Possible hot surfaces. Do not touch
gas vent during firing operation. Use only factory
recommended vent components.
Bum hazard! Hot fluids. Use caution when ser-
vicing or draining boiler.
Fire and explosion hazards ! Use caution when
servicing burner. Propane (LPG) is heavier than
air and may linger in the combustion chamber,
vent lines, or elsewhere.
Gas leak hazard! Make sure all connections to
main burner are tight when reassembling the
bumer. These connections cannot be tested after
the bumer is assembled.
Gas leak hazard! All threaded gas connections
must be made using a pipe compound that is resis-
tant to liquefied petroleum. Do not use Teflon"
tape on threaded gas piping.
Cas leak hazardl Check entire gas train for leaks
after installation. If there is a smell of gas, shut
down the boiler and obtain immediate assistance
liom trained service personnel and/or your local
fire department.
Overfrre hazard ! Possible fire and explosion from
excess gas pressure. Make sure that gas inlet pres-
sure does not exceed 14 inches W.C. to the rezula-
tor.
Overfire hazardl, Possible fire and explosion.
Possible malfunction of regulators and/or motor-
ized gas valves. Maintain all gas hain components
in good condition. Do not alter wiring connec-
tions. Annual inspection by factory-trained per-
sonnel for proper set-up and operation is recom-
mended.
Overlire and underfire hazards ! Possible fire, ex-
plosion, overheating, and component failure. Do
not attempt to adjust firing rate ofthe boiler. The
firing rate must be adjusted only by factory trained
personnel.
2.5.3 Crush Hazards
,e
Lifting hazards! Use properly rated lifting equip-
ment to lift and position the boiler. The load is
unbalanced. Test balance before lifting 3 ft. above
the floor. Do not allow personnel beneath the
lifted load. Refer to approximate weights in the
table below:
Boiler Size Weieht in Pounds
700.000 Btu 595
1.000.000 Btu 59s
r.200.000 Btu 685
t.500.000 Btu 990
1.700.000 Btu 985
2.000.000 Btu l,025
. Bump hazard from overhead piping. Install piping
with adequate vertical clearance.
2.5.4 Chemical Hazards
Environmental hazard! The motorized gas valves
may contain hydraulic oil. Use safe procedures
for the disposal of all lubricants.
Chemical hazards from cleaning products. Use
caution when cleaning the system. The use of pro-
fessional assistance is recommended. Use safe
procedures for the disposal of all cleaning solu-
tions.
Page 3
@ rrr"r,nincoGas-Ftred eoite.
O
Safety .l2.5.5 Pressure Hazards
Pressure hazard! Hot fluids. Install isolation
valves on boiler water inlet and outlet. Make sure
isolation valves are closed before servicing boiler.
Pressure hazard! Hot fluids. Annually test safety
reliefvalve for proper operation. Do not operate
boiler with faultv relief valve.
2.5.6 Slip, Fall Hazards
Tripping hazard! Do not install piping on floor
surfaces. Maintain clear path around boiler.
Slip and fall hazard! Use drip pan to catch water
while draining the boiler. Maintain dry floor sur-
faces.
Slip and fall hazard! Do not locate intake or ex-
haust terminations directly above a walkway;
dripping of condensation can cause icing of the
walking surface.
Page 4
Thermific@ Gas-Fired
o
Boiler lnstallation
o 3.0 INSTALLATION
3.1 REGEIVING AND SToRAGE
3.1.1 Initial Inspection
Upon receiving the boiler, inspect it for signs of ship-
ping damage. Pay particular attention to the control
panel on the top of the boiler and the components
mounted on the back, which may show damage from
mishandling.
The exterior cabinet must be reasonably air-tight for
the burner to operate correctly. Leaks caused by dents
in the sheet metal or panels out of position may cause
the limit controls to show Low Air. Check to be sure
that the mixer core in the top bumer is centered and
has not moved in shipment; (see Section 5.2, "Clean-
ing the Bumer" for proper location). Veri$ that the
total number of pieces shown on the packing slip
agrees with those actually received.
Important: Note any damage or shortage on the
freight bill and immediately notify the carrier. File
all claims for shortage or damage with the carrier.
3.1.2 Storage Prior to Installation
If the boiler is not installed immediately, it must be
stored in a location adequately protected liom the
weather, preferably indoors. Ifthis is not possible,
then it should remain in the shipping container and be
covered by a tarpaulin or other waterproof covering.
Note: Controls and other equipment that are damaged
or fail due to weather exposure are not covered by
warrantv.
3.2 COMPLIANCE WITH CODES
The P-K Thermifico Boiler with standard components
and many options complies with American National
Standaxd/CsA Standard ANSI 22l.l3/CSA 4.9, latest
edition. Gas-Fired Low Pressure Steam and Hot Water
Boilers. The heat exchanger is constructed and
stamped in accordance with ASME Boiler and Pres-
sure Vessel Code, Section IV for 160 psig maximum
operating pressure and/or 250' F maximum operating
temperature. Other codes or approvals which apply
will be labeled on the boiler.
Installation of the boiler must conform to all the re-
quirements ofall national, state and local codes estab-
lished by the authorities having jurisdiction or, in the
absence of such requirements, in the U.S. to the Na-
tional Fuel Gas Code, ANSI 2223.I/NFPA 54, latest
edition. In Canada, the equipment shall be installed in
accordance with the current Installation Code for Gas
Buming Appliances and Equipment, CAN/CGA-
B.149, and applicable Provincial Regulations for the
class, which should be carefully followed in all cases.
Authorities having jurisdiction should be consulted
before installations are made.
Where required by local codes, the installation must
conform to American Society of Mechanical Engi-
neers Safety Code for Controls and Safety Devices for
Automatically Fired Boilers (ASME CSD-l).
3.3 SETUP
3.3.1 Foundation
Provide a firm, level foundation, preferably ofcon-
crete.
Note: The boiler may be installed on a combustible
floor; however, the boiler must never be installed on
carpeting.
3.3.2 Placement
The boiler must be level to function properly. To as-
sist in leveling the boiler, the four (4) leg bolts (l/2"-
NC) holding the boiler to the shipping skid must be
reinstalled in the threaded legs on the bottom. The
adjustable legs are also necessary to provide adequate
floor clearance and prevent distortion on the cabinet,
(twisting, etc.) in addition to leveling.
Page 5
@ rr,"rrincoGas-Fired Boiter lnstallation
-v
Adjustable Legs for Leveling and Floor Clearance
3.3.3 Clearances
If the boiler is to be installed near combustible sur-
faces, the minimum clearances shown in the table be-
low must be maintained.
Failure to provide for the service access clearances,
even with non-combustible surfaces, may cause fufure
problems servicing the boiler.
The boiler must be installed in a space large in com-
parison to the boiler as described in Section 6.3 ofthe
National Fuel Gas Code, ANSI 2223.1,latest edition.
Minimum Clearances from Adjacent Walls, Ceillng, and
Obstructions
t "C" dimension includes clearance to remove the
burner. Do not put pipes, ducts, etc. in this area above
the boiler.
* CSA minimum. Actual clearance depends upon
stacking requirements.
** Service access need be only on one side ofa boiler
or row of boilers. Boilers may be installed immedi-
ately adjacent to each other. However, P-K recom-
mends this clearance between each boiler when there
is insufficient access at the rear to allow for service
and adjustment.
In Canada: The boilers are approved for installation
with zero clearance to combustible surfaces, but 24
inch service clearances are recommended.
3,4 ELEGTRIGAL CoNNEGTIoNS
The boiler is wired for 120 volts, single phase, 60
hertz. The total operating amperage is indicated on the
rating nameplate. The 700 and 1000 series require less
than 8 amps; the 1200 series less than 9 amps; the
1500, 1700,2000 series less than l2 amps. Before
Type of Surface Dimensions (inches)
A B ct D
Combustible Surfaces 30 24 24 24
Non-combustible Sur-
faces
30 24*24 24**
Page 6
Thermifico Gas-Fired
o
Boiler Installation
starting the boiler, check to ensure that the proper
voltage and amperage is connected to the boiler.
An extemal electrical disconnect (not supplied with
the boiler) with adequate overload protection is re-
quired. The boiler must be grounded in accordance
with local codes or in the absence of such require-
ments, in the U.S. with National Electrical Codes,
ANSI/NFPA No. 70 latest edition and in Canada, wire
according to the current Canadian Electrical Code.
Note: A dedicated earth ground (green wire) is re-
quired to avoid nuisance shutdowns. Do not ground
through the conduit. It is also important that proper
polarity be maintained.
3.5 CoMBUsfloN ArR
Combustion air must be free from dust, lint, etc. The
presence of such materials in the air supplied to the
bumer could cause nuisance "Low Air" shutdowns or
premature bumer failure. The boiler should not be
operated during construction while the possibility of
drywall dust, demolition dust, etc. exists.
Provisions for combustion and ventilation air must be
in accordance with Section 5.3, Air for Combustion
and Ventilation, of the National Fuel Gas Code, ANSI
2223.1,latest edition, or applicable provisions of the
local building codes. In Canada, combustion air open-
ings shall comply with CSA 4.9. The formula is "1 sq.
in. per 1,000 Btu/hr ofgas input not less than 100 sq.
in." The location shall be "neither more than 18," nor
less than 6" above the floor level.
The boiler room shall be provided with two openings
to ensure adequate combustion air and proper ventila-
tion. One opening should be 6 to 12 inches above the
floor and the other 6 to 12 inches below the ceiling,
preferably on opposite walls. The size of each open-
ing is determined by whether air is taken from inside
or outside the building. In Canada, ventilation air
openings shall be at least l0% of the cross sectional
area required for combustion air, but not less than l0
square inches. It is to be located at the highest practi-
cal point communicating with outdoors.
If air is taken directly from outside the building, each
opening should have a net free area of I square inch
for each 4,000 Btu per hour of total boiler input. For
instance,300 square inches (2-1112 square feet) are
required for 1,200,000 Btu per how input.
When air is taken from the outdoors through a vertical
duct, I square inch per 4,000 Btu per hour is required.
If a horizontal duct is used, I square inch per2,000
Btu per hour is required, i.e., 600 square inches for
I,200,000 Btu per hour input.
If air is taken from another interior space, each open-
ing should have a net free area of I square inch for
each I ,000 Btu per hour of boiler input ( I ,200 square
inches for a 1,200,000 Btu per hour.)
WARNINGI
Under no circumstances shall the boiler room ever be
under a negative pressure. Particular care should be
taken when exhaust fans, compressors, air-handling
units or other equipment mav rob air from the boiler.
The combustion air supply must be completely free of
chemical fumes which may be corrosive when burned
in the boiler. Common chemicals which must be
avoided are fluorocarbons and othcr halogenated com-
pounds, most commonly present as refrigerants or sol-
vents, such as freon, trichlorethylene, perchlorethyl-
ene, chlorine, etc. These chemicals, when bumed,
form acids which quickly attack the boiler tubes, tube
sheets. flue collectors and the boiler stack. The result
is improper combustion and premature boiler failure.
3,6 FLUE VENTING
For boilers connected to gas vents or chimneys, vent
installations shall be in accordance with Part 7. Vent-
ing of Equipment, of the National Fuel Gas Code,
ANSI 2223.1, or applicable provisions ofthe local
building codes.
This boiler is certified as Category I as it is defined in
ANSI 22l.l3/CSA 4.9, latest edition. This boiler is
suitable for use with Type "B" vent.
In Canada. the boiler is certified for installation with a
"Power Venter" by the Canadian Gas Association
when installed with the "listed accessories." Consult
your local distributor for information on proper selec-
tion.
Page 7
@ rnermiric@ Gas-Fired Boiler lnstallation .lThe venting system and the horizontal portions of the
venting system shall be supported to prevent sagging.
Consult your local vent supplier for correct vent sizing
and structural support requirements. Vent diameter is
dictated by the length and height ofhorizontal and ver-
tical portions of the vent installation and the materials
of construction. Correct sizing should provide a
slightly negative pressure (less than 0.1 inches ofwa-
ter column) at the boiler flue outlet with a stack tem-
perature of280'F.
3.6.1 Vent Elbows
The turn from horizontal to vertical should be made
with two 45' ells or with one long radiirs 90" ell for
best operation. Do not use "short radius" ells.
3.6.2 Barometric Damper
This boiler is certified for operation without a baro-
metric damper. However, some venting installations
may require a barometric damper for smooth opera-
tion. A barometric damper is supplied with each
boiler, and when used, should be installed according to
the following guidelines.
3.6.3 Barometric Damper Location
Barometric
Damper
l.we recommend that the #::. "*"::"''"located immediately after the flue connector for
best operation. Consult vent supplier for specific
installation reouirements.
The damper may be located in either side of the
horizontal section of stack.
In a multiple boiler installation, one barometric
damper must be installed with each boiler.
Be sure that the damper is mounted horizontally (never
vertically). Be sure to remove all three red stops from
the damper before start-up. The damper door should
swing freely. Carefully follow all the instructions pro-
vided with the barometric damper.
Barometric
(incorrect
locations)
Incorrect Damper Locations
WARNING!
To avoid spillage into the boiler room of dangerous
flue gas containing carbon monoxide, the opening in
the damper (draft control gate) must never face
the flow of flue
3.6.4 Flue Connection
The connection from the boiler to the vent should be
as direct as possible and the upward slope of any hori-
zontal breaching should be at least l/4 inch per linear
foot. This boiler should not be connected into any por-
tion of a mechanical draft system operating under
positive pressure. Provisions must be made for sup-
ports to prevent contact of the vent with combustible
surfaces.
Note: If the vent is erected directly behind the boiler,
make sure that the weight of the vent is not supported
by the boiler vent collar. The collar is not designed to
support the weight of the vent. Stmctural support and
spacing from combustible surfaces must be in accor-
dance with the vent manufacturer's requirements.
2.
J.
Page 8
ThermificoGas-Fired
o
Boiler lnstallataon
3.6.5 Vent Termination
Conect Typical IncorrectListed (too restrictive)
Termination
Vent Termination
The minimum vent height above the flue outlet must
be five (5) feet and the vent should extend at least
three (3) feet above the roof, or at least two (2) feet
above the highest part ofany structure within ten (10)
feet of the vent.
The vent must be provided with a weather cap of ap-
proved design and adequate capacity.
3.6.6 Removing an Existing Boiler
(from a common venting system)
When an existing boiler is removed from a common
venting system, the common venting system is likely
to be too large for proper venting of the appliances
remaining connected to it.
At the time of removal of an existing boiler, while the
other appliances remaining connected to the common
venting system are not in operation, the following
steps should be followed with each appliance remain-
ing connected to the common venting system placed in
operation:
1. Seal any unused openings in the common venting
system.
2. Visually inspect the venting system for proper size
and horizontal pitch and determine that there is no
blockage or restriction, leakage, corrosion or other
deficiency which could cause an unsafe condition.
3. Insofar as is practical, close all building doors and
windows and all doors between the space in which
the appliances remaining connected to the com-
mon venting system axe located and other spaces
of the building. Tum on clothes dryers and any
appliances not connected to the common venting
system. Turn on any exhaust fans, such as range
hoods and bathroom exhausts, so they will operate
at maximum speed. Do not operate a summer ex-
haust fan. Close fueplace dampers.
4. Place the appliance being inspected in operation.
Follow the lighting instructions. Adjust the ther-
mostat so that the appliance will operate continu-
ously.
5. Test for spillage at the draft hood relief opening
after 5 minutes of main burner operation. Use the
flame of a match or candle or smoke from a cisa-
rette, cigar or pipe.
6. After it has been determined that each appliance
remaining connected to the common venting sys-
tem properly vents when tested as outlined above,
retum doors, windows, exhaust fans, fireplace
dampers and any other gas-burning appliance to
their previous conditions of use.
Any improper operation of the common venting sys-
tem should be corrected so the installation conforms
with theNational Fuel Gas Code, ANSI 2223.1.
When resizing any portion of the common venting sys-
tem, the corlmon venting system should be resized to
approach the minimum size as determined using the
appropriate tables in Part II in the National Fuel Gas
Code. ANSI2223.1.
3.7 GAs PIPING
Before making the gas hook-up, make sure the boiler
is being supplied with the type of fuel shown on the
boiler nameplate.
The boiler shall be installed such that the gas ignition
system components are protected from water (drip-
ping, spraying, rain, etc.) during appliance operation
and service (circulator replacement, conhol replace-
ment, etc.)
The gas pressure regulator supplied with the boiler is
set during a factory fire-test to provide the proper pres-
sure to the main burner, which for nafural gas is based
on 7 inches W.C. inlet pressure to the regulator (11
inches W.C. for propane). The gas train components
are designed to handle a maximum inlet pressure of 14
inches water column (1/2 psig.). If the available gas
pressure exceeds 14 inch W.C., a suitable additional
Page 9
@ rrre.riric@Gas-Fired Boiler lnstallation
intermediate gas pressure regulator of the "lock up"
type must be provided to reduce the pressure to less
than 14 inch W.C.
WARNING!
All threaded connections must be made using a pipe
compound that is resistant to the action of liquefied
petroleum gases. Do not use Teflon tape on gas line
threads.
bv installer I'-
meter
(not supplied)
Gas Piplng
Pipe Capacity for Natural Gas
Note: Install a sediment nap (drip leg) and a union
connection ahead of the primary manual shutoff valve
on the boiler. Gas piping should be installed in accor-
dance with National Fuel Gas Code, ANSI 2223.1,
latest edition, and any other local codes which may
apply; in Canada see CAN/CGA-B 149.
Note: See chart below for required pipe size, based on
overall length of pipe from meter plus equivalent
length of all fittings. Approximate sizing may be based
on I cubic foot ofnatural gas per 1,000 Btu per hour
input, i.e., 900,000 Btu per hour requires about 900
cubic feet per hour. (See Typical Boiler Operating
Conditions, Section 4.3, for more information.)
natural gas
supply
remote gas shutofi
(not supplied)
Nominal
Iron
Pipe
Size
(Inches)
Intemal
Diame-
ter
(Inches)
Equivalent Pipe Length Maximum Capacity in Cubic Feet of Natural Gas per Hour
Pressure Drop of 0.5 inch Water Column/Equivalent Length of
Pipe (in feet)
90" Ell
(Feet)
Tee
(Feet)20 40 60 80 100 150 200
t-t/4 1.380 3.5 6.9 950
l-r/2 1.610 4.0 8.0 1,460 990 810
2 2.067 5.2 10.3 2,750 I,900 1,520 1,300 1,150 950 950
2-l/2 2.469 6.2 Iz-)4,350 3,000 2,400 2,050 1,850 I,500 1,280
J 3.068 7.7 15.3 7,700 5,300 4,300 3,700 3,250 2,6s0 2,280
4 4.026 l0.l 20.2 15,800 1s,800 8,800 7,500 6,700 5,500 4,800
Page 10
Thermiflco Gas-Fired
o
Boiler Installation
3.7.1 Gas Supply Piping by Installer
The boiler and all gas piping connections should be
pressure-tested and must be checked for leaks before
being placed into service. Test with compressed air or
inert gas if possible.
The boiler must be disconnected at the boiler manual
shut-off valve (located at the end of the supplied gas
train) from the gas supply piping system during any
pressure testing of the system at pressures in excess of
l/2 psig (14 inch W.C.).
During any pressure testing of the gas supply piping
system at pressures equal to or less than ll2 psig (14
inch W.C.), the boiler should be isolated from the gas
supply piping system by closing the manual shut-off.
Some leak test solutions, including soap and water,
may cause corrosion. These solutions should be
rinsed-off with water after testinq.
3.7.2 Gas Bleeds and Vents
Vent to
Outside Air
Gas Yents by lnstaller
Note: Provide a drip leg, as shown, in the vent line.
All vent lines should be pitched up at all times to pre-
vent building a trap into the vent line.
Note: The vent line connection on the gas pressure
regulator must be piped to outdoor air by the installer
in accordance with the National Fuel Gas Code ANSI
2223.1, latest edition, Sections 2.8.4 and 2.9.7 .
If a N.O. vent valve is provided, it must be vented in-
dependently.
3.8 BOILERWATER PIPING
3.8.1 Piping Design
Water Flow in Sysfem
Ideal operation of the P-K Thermifico Boiler would
consist of a 20" F temperature differential across the
heat exchanger. The operating thermostat has an ad-
justable temperature differential. lnsuffrcient flow
may result in excessive short cycling of the boiler and
eventual damage or premature failure of the equip-
ment.
In any case, Minimum Rehrrn Water Temperature
should be greater than l30o F to avoid problems of
condensation on the outside ofthe heat exchanger or in
the flue passages.
Proper flow rates and retum water temperafure may be
achieved through a combination of primary and secon-
dary flow loops. Multiple zones and pumps may result
in different flow rates at different times. Considera-
tion must be given to all possible conditions and their
consequences,
Piping With Refrigeration Machines
When used with a refrigeration system, the boiler shall
be installed so that chilled medium is piped in parallel
with the boiler. Valves should be installed to prevent
chilled water from entering the boiler when the system
is operated in the cooling mode.
Gas Shutoff
(on Boiler,-\\
''i
r.. i ,.'i!:r:ii' \i
Drip Leg
Gas Pressure
Regulator
(on Boiler)
Gas Bleeds and V6nG
The bleed vents* on the diaphragm gas valves have
been factory-piped to terminate at the bumer, as re-
quired by ANSIZ2l.l3. This feature provides com-
bustion of any gas which teaks past a ruptured dia-
phragm during operation. Gas vents to outdoor air
must be provided for the main pressure regulator. The
pilot regulator is equipped with a vent limiting device
and does not require extemal venting!
* When installing per ASME CSD-1, disconnect
factory piped bleed vents and vent the diaphragm
gas valves to outdoor air (field piping.)
Page 11
€9 rnermiRcoGas-Fired Boiter Installation
oPiping With Air Handllng Uni|s
The boiler piping system of a hot water heating boiler
connected to heating coils located in air handling units,
where they may be exposed to refrigerated air circula-
tion, must be equipped with flow control valves or
other automatic means to prevent gravity circulation of
the boiler water during the cooling cycle.
3.8.2 Boiler Inlet and Outlet Connections
Relief Valve
Drain
lsolating
Valve
Outlet
(to system)
(from system)
Strainer
Boiler Inlet and Outlet Connectlons
Make water connections as the application warrants, or
at a minimum, as shown, but always in compliance
with the local requirements.
Note: Pipe unions and isolating valves must be in-
stalled in both water connections for ease of service.
The bottom connection to the boiler is the INLET and
must be used for the return from the system.
The top connection to the boiler is thc OUTLET and
must be connected as the supply to the system.
3.8.3 Boiler Water Piping by Installer
Strainer
To avoid possible contamination of the boiler with
dirt, rust or sediment from the system, a strainer near
the boiler inlet is strongly recommended. Even new
systems may contain sufficient foreign material to
eventually reduce the performance of the heat ex-
ahanger. Adequate circulation ofgood clean water is
essential to maximum efficiency and long life of the
boiler.
Rellef Valve and Piping
Each boiler is supplied with a pressure-relief valve
sized in accordance with ASME requirements. The
reliefvalve should be piped to a suitable floor drain.
Reducing couplings or other restrictions are not per-
mitted in the discharge line.
Low Water Cut-off
The boiler is furnished with a flow-switch-type low
water cut-off; no field piping is required. If the flow
switch does not sense water flow, the boiler will shut
down and a red indicator will be illuminated on the
control panel.
WARNING!
Never install a valve that can isolate the low water cut-
off from the boiler.
Installation of an extemal low water cutoff or manual
reset low-water switch may be required by certain
codes or in certain installations. Consult the factory
for details.
Drain Valve and Piping
The boiler is not provided with extemal drain connec-
tions. A drain valve should be installed near the inlet
(system retum) connection to the boiler and piped to a
suitable floor drain. The boiler can be completely
drained through the bottom header by removing the
flush plug in the bottom end plate.
This plug may also be used to flush accumulated
sediment liom the bottom of the boiler.
Page 12
ThermificoGas-Fired
o
Boiler lnstallation
3.8.4 Flushing and Filling l. Flue gas from the boiler is properly vented.
Flushingftre sysfem 2. Gas connection has been made, pressure tested for
leakage, and the line purged of air. Make sure all
Before filling the boiler, flush the system to remove required bleeds and vents have been installed.
the debris. Clean and flush old piping thoroughly be-
fore installing the boiler. 3. water connections are complete, and the boiler
and system have been filled and purged of air.
Under no circumstances should the hydronic system be
flushed while the boiler is attached to the system since 4' The boiler is connected to a 120 volt power source
the debris or corrosion products could accumulate in with a disconnect having adequate overload pro-
the boiler and plug the boiler heat exchanger. tection'
If the piping system attached to this unit will be 5' combustion air openings are not obstructed in any
chemically cleaned, the boiler must be disconnected way and have adequate capacity'
from the system and a bypass installed so that the 6. The boiler is placed the proper distance from any
chemical cleaning solution does not circulate through combustible walls, in accordance Section 3.3.3.
the boiler' i . Relief valves have been piped to floor drains.
Filling
To be sure that the boiler is not air-bound, open the
pressure-relief valve located at the rear of the boiler. 3'1 1 SAFEW CHEGKS
Leave the relief valve open until a steady flow of wa-
ter is observed. Close the valve and finish filline thesvstem ;*i:'ffilg;ffi:;':i'Tff?j#:iH#li:f -"0"
Before firing the boiler refer to Sections 4.1 and 4.2
for information on the use of the conhols, lighting, and
3.g BURNER AND lcNtTlON SySTEM shut-down procedures.
3.9.1 Inspection
Inspect the burners to be sure nothing was damaged or
knocked loose during shipment. Make sure that the
mixer core in the top of the bumer is centered in the
burner head; (see bumer photo in section on "Cleaning
the Bumer" Section 5.2). Inspect the pilot line, main
gas train and ignition electrode to be sure they were
not damaged during shipment or installation. Check to
see that the pilot is securely attached and that it is
properly positioned to ignite the main burner.
3.10 PRE€TART CHECK LIST
Before attempting to start the boiler, make sure the
following items have been completed.
WARNING!
Never attempt to operate a boiler that has failed to
all the safetv checks described below.
WARNING!
After checking controls by manual adjustment, make
sure thev are alwavs reset to their proper settings.
3.11.1 Test of lgnition Safety System
Test the ignition system safety shutoff as follows:
l. Disconnect wile #26 (Or/OCI or # l7 (Lo-Hi-Lo)
at the terminal block.
2. With the main gas cock (manual gas valve) open
and the pilot gas cock open, the bumer should be
cycled on. After all the safety limits on gas pres-
Page 13
@ rn"r,nincoGas-Fired eoil", O
Installation
-rt
J.
sure, water flow and temperafure are satisfied, the
blower will run and pre-purge the boiler.
When air flow is established, the ignition trans-
former and pilot will operate. Both functions will
be indicated by separate green lights on the control
panel.
Ifa satisfactory pilot is established, the green "ig-
nite" light will extinguish and the pilot will remain
on, alone, for l0 seconds.
After l0 seconds, the green "Main Gas" light will
go on (the main gas valve will not open with the
wire disconnected and gas cannot flow to the
bumer). The "Pilot" will remain on, along with the
"Main Gas", for another l0 seconds and then go
out. Since the main flame cannot be burning, at
this point there will be no flame signal and the
flame safeguard prograrnmer will assume a
"Flame Failure" and will either re-cycle through
the complete pre-purge and ignition cycle or, if in-
surance or local codes require, go to a "lockout"
mode. Lockout will require manual reset of the
flame safezuard.
After completing this test, tum offthe boiler and re-
connect the wire to the main gas valve.
3.11.2 Test of Low Water Cut-off
The boiler is furnished with a flow-switch-type low
water cutoffin the outlet nozzle. Test as follows:
Operation of the switch can be checked by first turning
the boiler offand then turning the system pump off,
stopping water flow in the system. After tuming off
the pump, tum the boiler back on. It should not oper-
ate, and a red indicator for "Low Water" or "Water
Flow" should be illuminated. Do not shut the pump
offwhile the boiler is operating.
Perform appropriate tests on any extemal probe-type
low water cutoff.
3.11.3 Test of High-Limit Gontrol
Fire the boiler and test the high limit control as fol-
lows:
With the main bumer operating, turn down the tem-
perature setting on the "high-limit" thermostat until the
main bumer shuts off. The high-limit switch must be
manually reset after testing. This check should also be
made for the "Operating Temperature" control (the
green "Heat" indicator will go out) (see next section
for Lo-Hi-Lo units). Readjust thermostats to desired
operating temperature and set high-limit temperature,
typically 20' F above operating temperature.
3.11.4 Test of Gas Pressure Switch
Manual Reset
Gas Pressure Switch
The boiler is fumished with a low gas pressure switch.
The operation of this switch must be checked by
slowly closing the main gas cock while the burner is
operating. The switch should shut down the main
burner. When the gas pressure switch opens, the "Low
Gas" or "Gas Press." indicator will light. Upon re-
opening the main gas cock, the "Low Gas" or "Gas
Press." indicator should remain on until the low gas
pressure switch is manually reset.
4.
5.
Page 14
ThermificoGas-Fired
o
Boiler lnstallation
3.12 INITIAL ADJUSTilENTS Stage 2:
setPt 2:_(Tb) On at_(Tc)
3.12.1 Operating Temperature Controller for Diff 2: (Td2) Otrat-(Tb)
Lo-Hi-Lo Thermific'
Select ;-Set --1 EnterIIII
The two stages ofthis boiler are operated by pro-
gramming each set point and differential into the con-
troller. The boiler will be turned on at set point I mi-
nus its differential and turned offat set point l. The
Hi fire operation of the boiler will be energized at set
point 2 minus its differential and de-energized at set
pont2.
Example:
Set point I at l80' F with a 20o F differential, and Lo-lli-Lo Operatlng Temperature Gontroller
Set point 2 at 170'F with a 15' F differential. To adjust operating temperature confioller:
Note: the set points should be adjusted for system re- l. Tum the boiler ON. The controller will begin
quirements.counting down from 210. This countdown se-
quence will last for approximately 3-ll2 minutes.
In this example, the boiler would operate as follows: 2. To override this time delay, press Select.
stage I energized (Boiler/Low fire tumed on) at 3. press Select to display the current stage setpoint.
160" F.
Stage I de-energized (Boiler turned orr) at 180'F. t
il:::"Yr3,fr".x:os,::':ffi":,li"wn
Arrow to
Stage 2 energized (Hi fue on) at 155" F. 5. press Enter to enter the displayed value into mem_
Stage 2 de-energized (Hi fire off/Low fire on) at ory; (you must press enter to save each value into
l7o'F' the controller).
6. Press Select to display the current stage switching
contact your local P-K service representative for assis- differential'
tance adjusting your Lo-Hi-Lo operating temperature 7 . Press Up Arrow to increase or Down Arrow to
control to meet system requirements. decrease to the desired switching differential.
Record setting in the Programming worksheet for fu- 8. Press Enter to enter the displayed value into mem-
ture reference. ory (you must press enter to save each value into
the controller).
9. Repeat steps 3 through 8 to program st^ge 2.
10. Press Select Select (2 times) to rehrm to stage I
pararneters. Scroll through the programming loop
a second time to confrm that the appropriate val-
ues have been entered into memory by pressing
Select.
Note: The control values programmed into memory
will not be lost because of a power failure.
Programming Worksheet
Stage l:
SetPt l:_(Ta) On at_(Tb)
Diff 1: (Tdl) Off at-(Ta)
Page 15
@ rr,"r,nincoGas-Fired Boiter
O
Installation
oImportant: After initial programming, altering the set
point for stage 1 up or down will result in a change in
set point 2 by the same number of degrees and in the
same direction. If increasing or decreasing the set
point for stage I results in exceeding the control limits
(-40' to +220'F) for stage 2, the contol will not allow
the user to enter a value for stage I higher or lower
than this limit.
3.12.2 Gas Pressure Adjustment
Increase Decrease
Gas Pressure Regulator
See rating plate for the minimum and maximum gas
pressure of the boiler. Each boiler is fumished with
two plugged taps in the gas manifold for test gauge
connections. One tap is located at the main gas cock
for measuring the gas supply pressure (l/4" I.P.S.).
The supply pressure during main bumer operation
must be greater than the minimum indicated on the
rating plate (4 in. W.C. for natural gas, 7 in. W.C. for
propane). The second tap is located downstream from
the last main gas control at the elbow where the gas
line enters the back of the cabinet and is for measuring
the manifold gas pressure (l/8" I.P.S.).
If a replacement Lo-Hi-Lo actuator is required, follow
manufacturers instructions and pre-set the Lo fire set-
ting of the actuator the same as the original actuator.
This must be performed by qualified service person-
nel.
To adjust gas pressure, first connect appropriate pres-
sure-sensing device at the manifold tap, then remove
seal cap from regulator. Tum adjusting screw clock-
wise to increase pressure, counter-clockwise to de-
crease pressure. The manifold gas pressure on the
"Rating Plate," on the back ofthe cabinet, is provided
only as a guide to the proper setting. The manifold gas
pressure indicated on tlle "Factory Firetest" label (af-
fixed on the back ofthe cabinet) should be used to
achieve the proper firing rate of the individual boiler.
Replace seal cap after adjustment.
Important: Never underfire low lire (Lo-Hi-Lo
only).
3.12.3 Air Flow Adjustments
The air flow is pre-set at the factory prior to shipment.
The air (and gas) may have to be adjusted for local
conditions.
All air flow adjustments must be performed by quali-
fied service personnel.
For initial light off, adjust the air flow until the cabinet
pressure is the same as shown on the "Factory Firetest"
labels.
Combustion measurement instrumentation must be
used to adjust the boiler for local conditions (See in-
structions below). Adjust the carbon dioxide (COz) or
oxygen (O2) reading corresponding to approximately
500/o excess air.
Page 16
ThermlficoGas.Fired
o
Boiler Installatlon
^-
-
o
On/Off
(700, 1000, 1200 Series only)
Setscrew
Air Shutter
Increase Decrease
G)
Air Flow Adjustment . On/Off
Loosen the setscrew on the air shutter and open or
close the shutter as required to adjust the air flow. Re-
tighten the holding screw after adjustment.
Altemate On/Oft
(1500, 1700, 2000 Series)
Damper Bracket
Definite
Stop
Setscrew
Alternate Air Flow Adjustment - On/O,ff
The setscrews on the definite stop bracket hold the air
damper in place. Loosen the nuts and rotate the
screws as required for proper air flow. When the defi-
nite stop is in the desired position, tighten the nut on
each screw. Both setscrews must be touching the
definite stop before they are locked in place. Do not
adjust any other part of this mechanism.
Lo-Hi-Lo
This is a two stage firing arrangement with the me-
chanical action provided by the two stage gas valve
actuator. The boiler is factory fire-tested and adjusted
.for two firing rates: Hi fre (100% of rated input) and
Lo fire (60% ofrated input).
Fuel adjustments for proper fuel input are made first at
the gas pressure regulator with the valve actuator in
the Hi fire position. Lo fre fuel adjustments are made
second, with the valve actuator in the Lo fire position.
The low fire cam (intemal to the valve actuator) is in-
creased or decreased to obtain proper fuel input.
Damper Rod
Damper Bracket
Linkage Definite Stop
Alr Flow Adjustment - Lo.Hi-Lo
Air adjustments corresponding to both Hi fre and Lo
fire are required at the same time as corresponding fuel
adjustments. Adjust Hi fire air fust, and Lo fire air
second. The valve actuator utilizes a damper output
shaft that is connected to the assembly shown in the
photo via the damper rod.
There are two methods of adjusting Hi fire:
. Grasp the damper rod with pliers, loosen the two
allen screws (1/16") on damper rod, and make
very small adjustment to shaft. Retighten the allen
screws. A slot in the end of the damper rod indi-
cates the damper position.
. Or, adjust Hi fire air with the valve actuator in the
Hi position, unlock and loosen the right hand
screw on the definite stop bracket, and utilize the
swivels on the crank arm assemblies located at ei-
Page 17
@ rr,"rrmco Gas-Fired Boller Installatio4
ther end of the .l'mFer rod to obtain the desired Hi Note: Do not utilize the Hi fre definite stop screw to
fire air. After adjustments af,e complete, adjust the adjust Hi fue air on Io-Hi-Lo models.
Hi fne definite stop screw until it touches the defi-... .,::.-.-- Lo fire adjushnents are made with the valve actuator inlute stop and lock rt wlth me nut. rr-^ r ^ c_i _^^:.:^ f rthe Lo fire position. Use the left hand screw on the
definite stop bracket to obtain desired Lo fire air and
lock itwith the nut.
Page 18
ThermificoGas-Fired
o
Boiler Operation
o 4.0 OPERATION
4.1 GENERAL
4.1.1 Control Panel Front
Indicator Lights On-Off
Switch
Control Pane
(Lo-Hi-Lo shown - On-Offsimilar)
Become familiar with the basic operation of the boiler.
The front of the control panel shows Operating In-
structions and a series of illuminated green and amber
(operating) and red (problem) indicator lights which
show the condition of the boiler.
4.1.2 Tests
Safe lighting and other perfonnance criteria were met
with the gas manifold and control assembly provided
on this boiler when the boiler underwent tests speci-
fied in ANSI Zzl.l3lCSA 4.9. latest edition. (See
"Factory Firetest" label.)
4.2 LIGHTING AND SHUT.DoWN PRoGEDURES
Do not use this boiler ifany part has been under water.
Immediately call a qualified service technician to in-
spect the boiler and to replace any part of the control
system and any gas control which has been under wa-
ter.
4.2.1 Lighting Procedures
Low Pressure
Gas Switch
Pilot Gas Cock
Main Gas Cock
Llghting the Bumer
l. Close main and pilot gas cocks.
2. Tum On-Off switch to "OFF" position.
3. Wait 5 minutes.
4. Open main and pilot gas cocks.
5. Turn On-Off switch to "ON" position.
6. Push reset button on flame safeguard programmer
control.
7. Push reset on low gas pressure switch (and high
pressure gas switch if applicable).
8. Check to be sure that pilot has been established.
The controller will now complete the automatic fring
sequence.
Operating Instructions
TemDerature
Page 19
@ rr,"..inco Gas-Fired Boiter Operation
4.2.2 Normal Shut Down Procedures
l. Close all manual gas valves.
2. Turn off electric power.
4.2.3 Emergency Shut Off
Main and pilot gas cocks should be closed immedi-
ately if an emergency situation occurs; see Section
4.2.1 for the location ofthe eas cocks.
4.3 TyptcAL Bo[en OPERAT|NG Cor,rolttotts
If overheating occurs or the gas supply fails to shut
off, do not turn offor disconnect the electrical supply
to the pump. Instead, shut offthe gas supply at a loca-
tion extemal to the boiler.
Model
Number
Input
Rating
(Btu/hr)
Natural Gas
(1030 Btu/cu. ft.)
LP Gas
(2500 Btu/cu. ft.)
Total
Amper-
age
(amps)
Gas Rate
(cFH)
Manifold
Pressure*
(in W.C.)
Output
Capacity
(Btu/hr)
Gas
Rate
(CFH)
Manifold
Pressure*
(inW.C.)
Output
Capacity
(Btu/hr)
700 700,000 680 1.4 s95,000 278 3.5 609,000 8
1000 1,000,000 97r 1.9 850,000 397 4.4 870,000 8
1200 1,200,000 I,165 2.4 1,020,000 476 4.2 1,0214,000 9
1500 mix 1.500.000 r,456 2.2 r,275.000 595 2.8 1,305,000 l2
mm 900,000 874 765,000 357 783,000 l2
1700 max 1.700.000 r.650 t.7 1,445.000 674 2.1 1,479.000 t2
mm 1,020,000 990 867,000 404 887,400 12
2000 max 2,000.000 1.942 2.3 r,700,000 793 2.7 r,740,000 t2
min 1,200,000 I.165 l,020,000 476 r,044,000 t2
Page 20
o
BoilerThermific@Gas.Fired
5.0 MAINTENANCE
5.1 MAINTENANCE AND INSPEGTIoN SCHEDULE
CAUTION!
Label all wires prior to disconnection when servicing
controls. Wiring errors can cause improper and dan-
Verifu proper operation after servicing.
5.1.1 Daily
Observe operating temperature and general conditions.
Make sure that the flow of combustion and ventilating
air to the boiler is not obstructed. Determine the cause
ofany illuminated red indicators, unusual noises or
operating conditions and make the necessary correc-
tions.
CAUTION!
Check daily to be sure that the boiler area is free and
clear of any combustible materials, including flamma-
ble vapors and liquids.
5.1.2 Weekly
Correct and Abnormal Burner Flames
Observe the conditions of the pilot and main flame. A
normal flame is blue with a well-defined inner core. If
the flame is yellow or if it pulsates, or if the burner
starts with a rumble or pufi corrective action must be
taken.
If the flame pattem is pulsing or if flame is yellow and
lifting offthe bumer, adjust the air shutter opening
until conect flame pattern is achieved. A general glow
within the combustion chamber is normal.
Correct air adjustment is essential to the efficient op-
eration of this boiler. If an adjustment in the combus-
tion is necessary, the flue gas composition should be
checked with a carbon dioxide (CO2) or oxygen (O2)
analyzer to set conditions for about 50olo excess air.
5.1.3 Monthly (During Operation)
1. Test flame detection by voltage reading at the con-
trol programmer.
2. Test high-limit control by reducing setting below
the operating temperature. Bumer should shut off
After readjusting the thermostat, press the button
to reset the switch.
Test operating temperature controls by reducing or
increasing temperafure setting as necessary to
check bumer operation.
Check flue gas temperature at outlet. If there is a
temperature increase over previous readings, this
probably indicates sooting or water scale build-up.
5. Test the water cutoff by trying to restart boiler
with the system pump off. The boiler should not
operate. Water flow indicator should light.
6. Test low gas pressure switch by closing main gas
cock and attempting to restart boiler.
This work should be performed by qualified service
personnel.
5.1.4 Semi-Annually
In addition to the recommended monthly service:
l. Inspect and clean blower fan and inlet screen of
any accumulated dust or lint.
2. Clean bumer of any accumulated dust or lint. See
Section 5.2 on "Cleaning the Bumer."
3. Inspect burner for any signs of deterioration or
corrosion. Replace immediately if deterioration or
corrosion is evident.
The blower motor is permanently lubricated and does
not require periodic lubrication.
3.
4.
Page 21
@ rn"rrinc@ Gas-Fired Boiler Maintenance
4.
5.1.5 Annually
In addition to the recommended monthly service:
l. Check bumer and clean off any soot or foreign
material that may have accumulated. See Section
5.2 on "Cleaning the Bumer." Check for conosion
of the burner and its parts. If there is evidence of
deterioration or corrosion, replace immediately.
2. lnspect combustion chamber through access door
on front side ofboiler. To remove doors, pull
forward slightly, then pull upward. Note any signs
of deterioration. Make repairs as necessary.
3. Inspect and clean heat exchanger. Clean exterior
of finned tubes and flush inside of heat exchanger
as required (separate from system flush).
5.
Examine the venting system at least once a year.
z. Check all joints and pipe connections for
tightness.
b. Check pipe for corrosion or deterioration. If
any piping needs replacing, do so immedi-
ately.
Inspect heating system for other problems. This
work should be performed by qualified service
personnel.
Perform combustion analysis.
5.2 CLEANING THE BURNER
l. Close pilot and main gas cocks.
2. Tum off the electric current to the boiler.
3. Remove the top cover of the boiler.
4. Disconnect tlre electrode wire.
5. Disconnect the UV scanner.
5.2.1 Semi-Annual Cleaning
l. Remove mixer core.
2. Brush inside of bumer to remove anv accumulated
dust or lint build-up.
UV Scanner Mixer Core Pilot Tube
Second row of holes.
Pilot Tube is center€d in
the hole to the lefr of the igniter.
Burner Assembly
5.2.2 Annual Cleaning
l. Disconnect tle union in the line at the bumer.
2. Disconnect pilot and vent line, being careful not to
disturb position of pilot.
3. Loosen and remove the four bumer hold-down
bolts.
4. Carefully remove the bumer.
5. Brush the inside and outside of screen to remove
all dust.
Note: The most effective method of cleaning the
bumer is to blow out the screen with compressed air.
6. Check that the ceramic portion of the ignition elec-
trode is not cracked.
7. Check the position ofthe ignition electrode: 3/32"-
l/8" spark gap. Check the tightness ofthe elec-
trode clamp.
8. Use a soft. clean cloth to remove accumulated
contaminants from the UV radiation tube (UV
scanner) glass envelope.
6.
n
trf
Page 22
Thermifi co Gas-Fired Boiler Maintenance
9. Before re-installing the bumer, check the cleanli-
ness of the exchanger and the condition of the
firebox floor.
5.3 REMoVTNG rHE EXcHANGER
Remove the burner as above.
Remove the front doors by pulling forward and
upward.
Remove the top panel of the inner cabinet.
Close the isolation valves to the svstem.
Drain the boiler.
Disconnect the supply and retum lines.
Remove the pipe cross containing the temperature-
pressure indicator and relief valve along with the
tee containing the water flow switch (on the D se-
ries units disconnect at the grooved pipe coupling
[Victaulic]).
8. Remove the nuts and bolts from the flanges of the
inlet and outlet nozzles at the rear of the outer cas-
ing.
9. Remove the exchanger and clean the fins.
Note: The inner and outer cabinets are separate parts
and reassembly is easier if the inner cabinet and ex-
changer are removed together as one unit. When re-
assembling, reseal the top of inner cabinet with alumi-
num tape as needed.
WARNING!
The heat exchanger is heavy; use proper lifting
and technioues.
5.4 AFTERALL REPAIRS oR MAINTENANCE
Follow "Pre-Start Check List" (Section 3.10) and
all "Safety Checks" (Section 3.11).
6.
Check gas pressure and adjust gas flow ifneces-
sary. (See "Gas Pressure Adjustment", Section
3.r2.2.\
Check air pressure and adjust air flow if necessary.
(See "Air Flow Adjustment", Section 3.12.3.)
Perlorm combustion check.
5.5 SEaUENCE OF OPERATIoN
Status (red and green) indicators located on the front
ofthe control panel of this boiler are specifically de-
signed to indicate the sequence of operations and the
cause of common problems. Careful observation of
indicators should provide a guide to most operational
conditions and problems.
l. When the On/Off(main power) switch is turned
on, a green indicator marked "Power" or the amber
switch is illuminated. Power is applied through a
series of switches, including water flow, gas pres-
sure and high temperature, and through the operat-
ing temperature control to the flame-safeguard
programmer.
2. The water flow limit switch is closed when there is
water flow through the boiler.
Note: The closing of this switch does not prove
that flow is adequate. Refer to TDll0 for
proper flow requirements.
When gas pressrue is available, the low gas-
pressure limit switch is closed. Manual reset is re-
quired following conditions resulting in low gas
pressure.
If the temperature sensed by the highJimit tem-
perature control is below the set limit, the nor-
mally closed position of the switch sends power to
the operating temperature control. Manual reset is
required following conditions exceeding high-
temperature limit. The limit series is complete
unless an external control is placed ahead ofthe
water flow limit (replacing the red jumper wire).
When heat is required, as indicated by outlet water
temperature, power is applied to Terminal 6 of the
programmer, which initiates the bumer operating
sequence, and to an indicator marked "Heat".
The programmer first energizes Terminal 4 which
supplies power to the contactor for the blower mo-
tor and the air flow switch, which initially shows
low air flow with the "Low Air" indicator. This
indicator will remain on until sufficient air flow is
sensed (approximately 5-8 seconds).
.|
J.
4.
l.
2.
J.
4.
5.
6.
J.
tl
5.
l.
2.
Page 23
7.A time delay of l0 seconds (standard) or 30 sec-
onds (depending on insurance or local code re-
quirements) occurs after the air proving switch
closes and the programmer signals a continuation
of the start sequence. During this time period the
combustion chamber is pre-purged to eliminate
any residual combustible gas or combustion prod-
ucts.
A 1O-second "hial-for-ignition" period is initiated
with both Terminals 10 and 8 being energized.
Terminal 10 of the prograrnmer powers the igni-
tion transformer and the "Ignite" indicator. The
transformer output creates a spark at the igniter.
Terminal 8 powers the pilot gas valve and the in-
dicator for "Pilot".
When a pilot flame is detected by the UV scanner,
a signal is sent to Terminal F in the programmer
and a red "Flame" indicator is illuminated on the
conhol panel. Terminal l0 is de-energized shut-
ting off the spark ignition and the pilot remains on
for l0 seconds during the pilot flame establishing
period.
10. After the pilot flame establishing period, Terminal
9 is energized, which opens both main gas valves
and lights the "Main Gas" indicator. After l0 sec-
onds, Terminal 8 is de-energized and the pilot
valve and indicator light are extinguished. Lo-Hi-
Lo: When Terminal 9 is energized, the Lo-Hi-Lo
valve will be maintained in the low fire position
for "low fire start" for ten seconds. Ifthe operat-
ing temperature control calls for high fire, the pro-
grammer will initiate high fire (Terminal 21) at the
same time the pilot valve and indicator is de-
energized.
I I . When the desired water temperafure is reached,
the operating control switch opens and the pro-
grammer is de-energized at Terminal 6 and the in-
dicator for "Heat" is tumed off. This action also
de-energizes Terminal 9, thus closing both main
gas valves and tuming off the indicator for "Main
Gas".
12. When the water temperature is reduced by the load
on the system, the operating control switch will
close again. The operating sequence will recycle
to step 5, provided that the limits on water flow,
gas pressure, and high temperature are all met.
Maintenance
5.6 TRoUBLESHooTING
Loss of Power
In the event of a power failure (or when the On/Off
switch is in the Offposition), the "Power" indicator or
amber switch is not illuminated and the entire system
is de-energized, closing all automatic valves and halt-
ing all boiler operations. When power is restored the
sequence of operation will resume at Step 5, provided
that all the limits are satisfied.
Loss of Water Flow
When the "Low Water" or "Water Flow" indicator is
illuminated, there is insufficient water flow to close
the switch, and bumer operation is intemrpted. When
water flow is re-established, the sequence retums to
Step 5, provided that the other limits are satisfied.
Low Gas Pressure
When the "Low Gas" or "Gas Press" indicator is illu-
minated, there is (or has been) insuffrcient gas pressure
available for safe and proper operation of the boiler,
and power to the programmer is intemrpted. If a gas-
supply shut-offvalve is closed for any reason, a low
gas condition will result.
When gas pressure is restored, the "Low Gas" or "Gas
Press" indicator will remain on and the boiler will re-
main locked out until the low gas pressure switch is
manually reset.
On certain boilers equipped with a high gas pressue
switch, the "Low Gas" or "Gas Press" indicator may
also be illuminated to indicate high gas pressure.
Once the switch is reset, the sequence retums to Step
5, provided that the other limits are satisfied.
High Water Temperature
When the boiler water has exceeded both the operating
and highJimit temperature; power to the programmer
is intemrpted. When the water temperature falls below
the high-limit temperature, the boiler will remain
locked out until the switch is manually reset. Once the
switch is reset, thc sequence retums to Step 5 to await
heat demand below the operating temperature, pro-
vided that the other limits are satisfied.
8.
9.
Page 24
Thermifico Gas-Fired
o
Boiler Maintenance
Low Air
If the "Low Airrr indicator remains on for longer than
l0 seconds, there is insufficient airflow through the
burner. Check that the burner is clean ("Cleaning the
Burner", Section 5.2) before adjusting the air inlet
damper (see "Air Flow Adjustrnent," Section 3.12.3).
A low air indication does not necessarily mean that the
low air switch is defective.
lgnltion Failure
In the event the pilot flame is not detected by the UV
scanner during the l0 second trial-for-ignition period
(Step 8), the pilot gas valve and spark ignition are de-
energized. At this time a safety lockout occurs which
de-energizes all outputs from the programmer except
Terminal A, which is connected to the "Flame Failure"
indicator. A manual reset of the programmer (located
inside the conhol panel) is required when a safety
lockout occurs.
Flame Failure
ln the event of a flame failure during a firing period,
the main fuel valves are de-energized and the pro-
grammer immediately returns to Step 7 or goes into a
"lockout" mode (see next paragraph). After the spark
ignition is re-energized and the pilot valve is reopened,
the 10 second trial-for-ignition begins again. If flame
failure occurs during a trail-for-ignition, a safety lock-
out occurs (see lgnition Failure). If flame failure oc-
curs and the indicator is illuminated, the programmer
must be manually reset.
Because of special requirements of some insurance or
local codes, the boiler may be equipped with a flame
safeguard programmer that will NOT re-cycle after
either a pilot- or main-flame failure, but will, instead,
go into a "lockout" mode. This mode requires that the
programmer be manually reset.
If any "Manual Reset" limit device trips,
DO NOT
reset without determining and correcting the cause.
(Flame safeguard, high or low gas pressure,
high temperature limit, stack temperature)
Page 25
Thermifico Gas-Fired
o
Boller Parb/Technical Suppon
6.1 WlRlNG DIAGRATUIS
Wiring and control schematic drawings are shown on
the following pages.
Table of Contents for this Section:
6.1.1 On-Off
On-Off Wiring Diagram page 28
On-Off Logic Diagram 29
6.1.1a On-Off lRl
On-Off lRl Wiring Diagram 30
On-Off lRl Logic Diagram 31
6.1.2 Lo-Hi-Lo
Lo-Hi-Lo Wiring Diagram 32
Lo-Hi-Lo Logic Diagram 33
6.1.2 Lo-Hi-Lo lRl
Lo-Hi-Lo lRl Wiring Diagram U
Lo-Hi-Lo lRl Logic Diagram 35
6.1.3 WaterCut-Off
On-Off Water CuhOff 36
Lo-Hi-Lo Water Cut-Off 37
Page 27
@ rn".rinc@Gas-Fired Boiler Parts/Technical Support
6.1.1 On0ff
On-Off Wiring Diagram
t>eEESi
d
={
2
=FE+-
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g:lH
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tdF
taEgH g
"gJ..Ed3= !
Ei s:: I.trAe Ea==u
*i= 5
Page 28
@ rr,"rrnc@Gas-Fired
o
Boiler Parts/Technical Support
On-Off Logic Diagram
=:q=EE-E;
o-
o-
o-
JT RE{VE NE! J'PEI E'TNE I}6IALLIII6
D(IEt At_ LITIT CorlftL
BBILER CONTROL LOGIC
HIGH OPERATINGLIMIT TE}IPERATURE
rh
90 IGNITER
.. 1
3l
dt
JI
{l
=l=rffl
:ltt) |(nl
l'. I:,"l-lr
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. ATR FLOI,/(A,)
UV SCA${R
31
MAIN GAS
70
FLAMEg9).AILURE
70
Page 29
Thermifico Gas-Fired Boiler Parts/Technical Support
6.1.la On0ff lRl
On-Off/l Rl Wiring Diagram
I,tl
E'
5l
Eil
l6
6
r a- i r
E 5;i + E E ; =
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Page 30
ThermificoGas-Fired
o
Boiler Parts/Technical Support
O n-Otf/l RI Log I c Diag ram
To O-
120/1/60nSED (+F
DISCONNECT -
(BY oTHERS) O-
t1A
A
1tl
Ht sr ct(
ltlrP
stvtTcH
JT REMOVE REO JUMPER BEFORE INSTALUNC
EXTERNAI LIMIT CONTROL
IF ANY OF THE ORIGINAL WIRE AS SUPPLIED
WITH THE APPLIANCE MUST BE REPTACED IT
MUST BE REPLACED WITH TYPE MTW (90' C)
WIRE OR EQUIVALENT.
wrRrNG DTAGMM DWG.# 1 003200906
CoNTROL PANEL DWG.# 1003200902
LABEL WIRING DIA. DWG.# 1OO32OO9O8
BOILER CONTROL LOGIC
HIGH OPERATINGLIMIT IEMPERAIURE
w scil,{NER
V/AIER - 1gy 645FLOW PRESSURE HICH GAS
PRESSUREA r;-r
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Page 31
@ rr,"rlninc@ Gas-Fired Boiler Parts/Technical Support
6.1.2 Lo-Hi-Lo
Lo-Hi-Lo Wiring Diagnm
EE^A::
p
trto...EF=r:Ei tar
H .IH
5E;!
sEHI
Page 32
o
BoilerThermificoGas-Fired
Lo-Hl-Lo Logic Diagram
e"EB l
P<E6bRd8> c-69
cti>i;
HB
XJY{6-
J. RElro\rE RfD JUITPER BEFoRE INSIAXNC
E(IERMI Uffi COiIROL
J.. RtlrolE YErow JUtaPtR F mmM[
U$T COi{IROt IS TO OPII^IE HFNRL
OPER TEMP (HIGH FIRD
T775A10r I
Page 33
@ rr,"r-inc@Gas-Fired Boller Parts/Technical Support
6.1.2a Lo-Hi-Lo lRl
Lo-H i-Loll Rl Wi ri ng Di agra m
ler
E.;E
:E:3rl rE
dH dlrq
R
t5Ed
R
R
EEIR E==r E{_6
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Page 34
o
Boiler@Thermific@ Gas-Fired Parts/Technical Support
Lo-H i -Lo/l Rl Log ic D i ag ra m
TOt20/ t /60
FUSEO
Dlsco NEcT
(8Y OTHERS)
HI STACK IEMP
(MANUAL R€SET)
t @[ ta, r*in ltRE a6r{uc
ElE*. rll c0fio-
F EE|E rlllt rrrEt a lr*.lrr@fi4Blo('i E ||-.aE
HIGH OPER rEMP lloruMtT T775A1019 |(Low nRE) |
OPER IEMP (HIGH RRE)
T775410t S
Page 35
6.1.3 Water Gut€ff
On-Otr Low Water Cut-Off Dlagnm
THERMIRC PANEL
FT,SED DISCONECI
120/1/60 (BY oIHERS)
. REMOVE RED JUMPER BEFORE
CONNECTING LOW WATER PROBE
o
FIELD WIRING
Page 36
ThermificoGas-Flred
o
Boiler Parts/Technical Support
Lo-Hi-Lo Low Water Cut-Off Diagram
T}IERMIFIC PANEL
FUSED DISCONECT
120/1/60 (B/ oTHERS)
* REMOVE RED JUMPER BEFORE
CONNECTING LOW WATER PROBE
FIELD WIRING
t_]
titL_.
HI STACK TEMP
(MANUAL RESET)
Page 37
@ rr,"-inco Gas-Fired Boiler Parts/Technical Support
6.2 Borun PARrs Ltsr
6.2.1 Main Assembly
No. Part
I Mixer Core, Bumer
2 BumerOrifice
3 Spark Igniter Electrode
4 UV Scanner
5 Thermowell dClamp
6 ElechodeAssemblydMica
7 Pilot Tube
8 Bumer
9 HeatExchanger
l0 Blower, Damper (inside cabinet)
I I Pressure Relief Valve (100 PSD
12 Water Flow Switch
13 Blower, Motor
14 Blower, Housing
700/1000/1200 On-Otr 1 500 I 1 7 OO n0O0 Lo-Hi-Lo
18
No. Part
15 Blower, Wheel
l6 Press.ffemp. Gauge
(w. 100 PSI relief valve)
17 Damper Rod, Lo-Hi-Lo
l8 Definite Stop Bracket
19 Definite Stop
Installation/Owner's Manual All Models -TBIG
CP Confiol Panel (see Section 6.2.2)
EC Exterior Cabinet (see Section 6.2.4)
IC Interior Cabinet (see Section 6.2.4)
PG Pilot Gas Train (see Section 6.2.3)
MG Main Gas Train (see Section 6.2.3)
191,2
't2
16
Page 38
o
Boilerux,Thermific@ Gas-Fired Parts/Technlcal Support
6.2.2 Control Panel
On-Off Panel
No. PartI Thermostat (Manual Reset)
2 Thermostat (Oper. Temp)
3 Air Flow Switch4 Motor Starter Relay
5 Terminal Block, Neutral
6 Terminal Block. Junction7 Terminal Block. Power
8 Flame Safeguard Programmer
8a Amplifier (Flame Rod)
Amplifier (UV Scanner)
8b Timing Card, l0 sec.8c Timing Card, 30 sec.
9 Programmer, Sub-Basel0 switch, on/off
No. Part
I I Ignition Transformer
I la Ignition Cable12 Connector, Spark Plug
13 Indicator Light, Red14 Indicator Light, Green
l5 Lo-Hi-Lo, Oper. Thermostat
l6 Lo-Hi-Lo, Jumper Terminal Block17 Switch, Lighted Odoff
LowWater Switch (IRI-MR)
Alarm Bell (IRI)
Page 39
@ rr,"rrnrncoGasfired Boiter Parts/Technical Support
6.2.3 Gas Traln
No. Part
I Main Gas, Valve @iaphragm)2 Low Gas Pressure Switch
3 Main Gas, Regulator
4 Main Gas, Shut-offCock
5 Pilot, Solenoid Valve
6 Pilot, Regulator
7 Pilot, Shut-offCock
8 High Gas Pressure Switch
9 Main Gas, Valve Body
l0 Main Gas, Valve Actuator
I I Vent Valve, Gas
12 Lo-Hi-Lo, Valve Body
13 Lo-Hi-Lo, Valve Actuator
Page 40
o
BoilerThermifico Gas-Fired
6.2.4 Cabinet
No. Part
I Exterior Cabinet, Assy.
2 Exterior Cabinet. Door
3 Exterior Cabinet, Top4 Sight Glass
5 Sight Glass Bezel
6 Combustion Chamber, Assy.7 Combustion Chamber, Door
8 Combustion Chamber, Top9 Control Panel, Label
l0 Control Panel, Coverll Control Panel, Sub Panel
12 Control Panel, Base Assy.
s-l-7,zto
ft.---=V
11 {---12
f---------1 '/
Page 4'l
@ rr,"r.inco Gas-Fired Boiler Limited Warranty
7.0 LIMITED WARRANTY
7.1 EXPRESSWARRANTY
Seller warrants that the products sold hereunder are
free of defects in material and workmanship, when
operated in accordance with the conditions stated
herein, for a period ofone (l) year after date of
startup, provided that startup is completed within six
(6) months of date of shipment. Such warranty shall
not apply to any product that has been altered or re-
paired by other than the Seller's personnel. Seller's
obligation under this warranty is limited, however, to
repairing or, if in Seller's judgment it seems more ap-
propriate, to furnishing without charge, F.O.B. Seller's
factory, a similar part to replace any part which after
examination shall. to its own satisfaction be deter-
mined to have been defective at the time it was
shipped. Installation of said part is not included. This
warranty applies only if Seller receives an immediate
written notice upon discovery of such defect. Seller
makes no warranties covering deterioration or failure
due to corrosion, erosion or fouling or due to improper
installation or operation. The remedies available to
Buyer set forth herein are exclusive remedies, and all
other remedies, statutory or otherwise, including but
not limited to the right of redhibition, are waived by
the buyer. Buyer acknowledges that the exclusion of
remedies is neither unreasonable nor unconscionable.
Seller's warranty shall not cover, and the Buyer shall
indemnifu and hold Seller harmless against, any claim
due to any injury or death to any person or damage to
any property resulting in whole or in part from any
modification or alteration Buyer makes to any product
sold hereunder.
7.2 WARRANW DISCLAIMER
EXCEPT AS SET FORTH ABOVE, THERE ARE
NO WARRANTIES, EXPRESS OR IMPLIED, WITH
RESPECT TO PRODUCTS OF SELLER. SELLER
EXPRESSLY EXCLUDES AND DISCLAIMS ANY
IMPLIED WARRANTY OF MERCHANTABILITY
AND ANY WARRANTIES OF FITNESS FOR A
PARTICI.]LAR PURPOSE, APPLICATION OR USE.
BEFORE PURCHASING, BUYER SHALL DE-
TERMINE THE SUITABILITY OF THE PRODUCT
FOR ITS INTENDED USE, AND BUYERAS-
SUMES ALL RISK AND LIABILITY TT{EREFOR.
I]NDERNO CIRCIIMSTANCES WILL TI{E
SELLER BE LIABLE FOR SPECIAL, INCIDEN-
TAL, OR CONSEQUENTIAL DAMAGES,
WHETHER SUCH DAMAGES ARE SOUGHT IN
CONTRACT, TORT (INCLUDING BUTNOT LIM-
ITED TO NEGLIGENCE AND STRICT LIABILITY)
OR OTHERWISE, AND SELLER'S LIABILITY
SHALL IN NO EVENT EXCEED THE PURCHASE
PRICE OF THE PRODUCTS ON WHICH SUCH
LIABILITY IS BASED.
Page 42
@ rrr"r.ncoGas-Fired
o
Boiler Notes
Page 43
Thermifl co Gas-Fired Boiler Parts/Technical Support
o6.0 PARTS/TECHNICAL SUPPORT
Spare parts and replacement parts can be ordered from
Patterson-Kelley by calling (570) 421-7500 or (877)
728-5351. Ask for the Heat Transfer Department.
The fax number is (570) 476-7247. Refer to the parts
list shown on the assembly drawing provided with this
manual.
Technical information is also available at the above
number.
When ordering replacement parts please have the
model number and serial number of your boiler
available.
Page 26
Ihs Btlleld Group
Mechanical Consulting Engineers
2525 S. Wadsworth BIvd.
Lakewood, Colorado 80227
303 988-4514
FAX 303 988-4517
March 16,2001
Mr. GaryGoddell
Town of Vail
75 South Frontage Road
Vail,CO 81657
Re: Dobson Ice Arena Refrigeration Machine RoomVentilation Fan Question
Vail, Colorado
Dear Gary,
During the desigp and review of the contract documents for the Dobson Ice Arena the desigr team
has come across an iszue that we would like some clarification on. The new refrigeration machine
room is required to have constant and emergency ventilation. Our question is do the motors on
the fans need to be explosion-proof and what are your requirements for electrical connections
(seal-off conduit, explosion-proof disconnects, etc)?
The two fans providing this air movement are located outside the space and are specified as Class I,
Division I. This will minimize the fiehazard from the ammonia that vrill be used for refrigerant in
case of a leak. The ventilation fan runs continuously and will draw a negative preszure on the
machine room. This creates a sinration were any refrigerant released into the space will not have
the potential of escaping from the machine room. \tr(/e feel that this would eliminate the need for
explosion-proof motors or special electrical connections.
If you could review and advise us on your requirements in this issue it would be greatly appreciared.
If yorr have any qlrestions or comnents conceming this issue, please do not hesitate to ca.ll.
Sincerely,
TFIE BALLARD GROUP, INC.
T llel'rc()€ 1['taf,
Tcif,t?1':A_/'ffi^a b(
(kf: I,fi: t Yl',!q, nDi' I r r'4'MWW,'
%-J €. BaTc"*
Mark E. Bartram
Project Engineer
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PROJECT: Dobson lca Arena Boilot Rcphccnmt
DY: DanKoellikcr
PERSON CONSITLTED: Tim
PITRPOSEOFCONTACT: BoihrFlues
PRDSENTI
tAuu I t
a
tfo.JJ{J Y.'l/Z
- BeauoN n
comddns*W#%A
DATE: 7n403
TIME: 9:30 a"n
PROJDCT# 6874.0t
FIRM: Meadow lvttn Plunbing &
Heatins
PHONENO.: 479-Z9tl
X TELEPHONE CONVERSATION MEETINGMINUTES
T}IE FOLI,OMNG WAS DISCUSSED:
l. Th Satcd tbt thc lt'' B vat tcc rrcccssary to corotnrct thc coroon boibr ftrc as
shonm onBGCE drawings bas m approximtcly Gurcek l€ad4Lr. Tim aslrod Dat if
ir would be aeceprable o route 2 separatc flrrcq oDp br eachboihr, inlin of
conbining tbe D6ibr flu.". Ttr""" g'es u'ou6 bo routed site by d.b witbiD th
cxtliog consetc chas to seporatc tetmfodbE S the top ofttc'rqc- hn stded
inSalldio'n of *panae flues b apcslltablc ifthcre b cmtrybryace withintbe cor:rete
clnse to albwttpsc flues and adcquatc conbustim air. Tinthinlathcrc villbe
plenty of spacc to accomodate all of tbcsc comporerts'
2. Tin bas dso'Fscd 6b prcrposGd cboep wi]h thc hdtdiry dePar|rlHtr. Tb hddbg
dcearmcm udt alow ttis cunF as bng r it b upta* m BGCE. It xts agcEd
tbat Dao would do a conftr,flpg,,ps45d of trb counersdi<mto servc as the design
chanse docnmcnrrtu". AM OI:el-O3
TDc above bcomileredconcctrrnlcssrespomc to thc@trary is rcccirrcdwitbin 5 dan from
thp aborrc datc.
END OT CONrERENCE RECORI)
Tm - Mcadow Mordah Phding & Heatins'
p.O. Bd S50, iro Errt Barc. Crr* Blr*d, Srn 2Ql. Argt Cffi El6al ' gicre em9.0.610C ' fc970.9a9.6159 YAIL- rirrl osnrr welr p11hnt srt rs, Gdfi, cdardo tlor . chcr tB27t.3t2l, . tl mJflt Scail rlvEn
l1i{0 Oc(fttd9fi.. slaCt. f|ucbc CdittL5tct. !hm5d'.5|n.Xtil{'bgo-530-?!5 L XCl llOE
$r E r FqcFgata.G o.!.o.r k|
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8eh k3!dr. G..r h!|..rJ€?4orcftlo(.lE
ruu'Dlc''CCn
cuiatr Installation of Barometric D"t t
with Themific Boiler and Water Heating Systems
Common Breeching
Opening
In Horiz.
Position
No. 1 No.2
INSTRUCTIONS:
1. Install one barometric damper with each boiler. In case of multiple boilers, one damper is
required for each one.
2. Locate the barometric damper in the breeching as close to the boiler as possible. (See
affangements above.)
3. IMPORTANT: In order to avoid spillage of flue gases containing carbon monoxide into
the boiler room, the opening in the damper (draft control gate) must never
face against the direction of flow of the flue gases.
4. Use a 45o angle when making connections to a common breeching.
5. The barometric damper must always be installed with the opening horizontal - NEVER
VERTICAL. (See arrangements above.)
6. Be sure ro remove all three red stops from the barometric damper, BEFORE START-UP.
7. These are basic guidelines covering only the installation of the barometric damper. Parterson-
Kelley Co. has no responsibility for stack and breeching design. Consult your engincer or
designer to be cenain your installation complies with the National Fuel Gas Code (NFPA
5.I/ANSI2223.t).
o Honeywell
R7 824, R7 947, R7 g4g, R7g4g,
R7861 , R7886 Amplifiers for
7800 SERIES Relay Modules
PRODUCT DATA
APPLICATION
The R7824C Rectification Flame Amplifier is a solid state
plug-in amplifier that responds to a rectified signal from a
C7O24E,F Self-Check Ultraviolet Flame Detector to indicate
the presence of flame when used with an RM7824 Relay
Module.
The R7847A,B Reclilication Flame Amplitiers are solid state
plug-in amplifiers that respond to a rectified signal from a
rectification type Jlame detector to indicate the presence ot
flame when used with 7800 SERIES Relay Modules.
The R7847C Self-Check Rectification Flame Amolilier is a
solid state plug-in amplifier that responds to a rectitied signal
from a C7012E,F Self-Check Ultraviolet Flame Detector to
indicate the presence of flame when used with 7800 SERIES
Relay Modules. This is not European Community (CE)
approved for EC7810, EC782O, EC/RM7830 or ECIRM7850
Flelay Modules.
The R7848A,B Infrared Flame Amplifiers are solid state plug-
in amplitiers that respond to an infrared signal from a C7015
Inlrared Flame Detector to indicate the oresence ot flame
when used with 7800 SERIES Relay Modules.
The R78494,8 Ultraviolet Flame Amplifiers are solid state
plug-in amplifiers that respond to an ultraviolet signal from a
C7O27, C7O35 ot C7O44 Ultraviolet Flame Detector to
indicate the presence of flame when used with 7800 SERIES
Relay Modules.
@ LJ.S. Registered Trademark
Copyright O 1998 Honeywell Inc. . All Rights Reserved
FEATURES
Flame failure response time of 0.8 or 1 second; or 2.0 or
3.0 seconds, dependlng on the amplifier and relay
module selected. See Table L
Plug-in to 7800 SERIES Relay Module thrcugh printed
clrcult board edge connector keyed br proper
orientation.
Flame signal test iacks measure amplifier flame signal
voltage.
0.0 to 5.0vdc Flame signal strength readlng range.
Color coded label identifies flame detection type:
GreeF-rectificatlon. Re6-infrared.PurplFultraviolet. Blue-pulsed rectitication.
R78478, R78488, R78498 Dynamic Ampll-Checl@
circuitry tests all flame amplifier componenta 12 times
per minute. The 7800 SERIES Relay Module locks out on
satety shutdown wlth amplifier failure.. R7824C and R7847C Dynamic Self-Check Rectification
Amplifier, H7851 Self-Check Ultraviolet Flame Amplifier
and R7886A Dynamlc Self-Check Ultravlolet Ampllfler
test the detectors and all electronic components in the
flame detection system 12 times per minute.The 7800
SERIES Relay Module locks out on satety shutdo,vn
with flame detection system failure.
NOTE: R7824C, Serles 2 or greater, and R7847C,
Series 4 or gr€ater, pulse shutter when signal of
1.5 Vac is sensed.
The R7861A Self-Check Ultraviolet Flame Amplifier is a solid
state plug-in amplilier that responds to an ultraviolet signal
from a C7061 Self-Check Ultraviolet Flame Detector to
indicate the oresence of flame when used with 7800 SERIES
Relay Modules.
The R7886A Dynamic Self-Check Ultraviolet Amplilier is a
solid slate plug-in amplilier that responds to a pulsed direct
current signal trom a C7076A,C Ultraviolet Flame Detector
with adiustable sensitivity to indicate the presence of flame
when used with 7800 SERIES Relav Modules.
Contents
Application........ ................. 1Features .......:.:.:.:.:..:..:..::::...:.:.::.......:.:::.::: 1Specifications .................... 2
Ordering Information ................................... 2Installation ......................... 4Checkout .......................... 6
ilililililil ilil ililil ilil lilil ililililililil ilil il1
65-0109-6
R7824, R7g47, R7us, R7s6r, nzQanaeszERs FoR Taoo sElr;s aeuvlDuLEs
SPECIFICATIONS
Models:
Flame Det€ction Systems (see Table 2):
Rec{ification:
R7824C br use wifr C7024E,F Solid State Ulta/iolet
Detectors.
R7847A br use wih flame rcds, recdfying photocells or
C7012A,C Sdid State Ultrariolet Debctors.
R78478 br use wih flame rcds, rectif,irE photocells or
C7012AC Solil State Ultravblet Detecto6.
R7847C br use witr C7012E,F Solid Srtate
U|traviolet D€t€ctors.
lnfrared:
R7848A br use witr C7015 Intrarcd (lead sulfide) D€tec{or.
R78488 br use wih C7015 Infrarcd (ead sulfide) Detecror
Ultnaviolet:
R7849A br use wih C7O27|C785|C7U4 Minip€eper
Ultraviolet Detectors.
R7849B br use wrth C7V27|C7B5|C7M4 Minipeeper
Ultraviolet Detectors.
R7861A br use with C7061A Ultraviolet Detec'tor.
R7886A br use wih C707M.D Uhraviolet Detec{ors with
adjustable sensitivity.
Flame Failurc ReponsoTlme :
See Table 1 .
Flame Slgnal flr'ofts dc):
Minimum AccsDtable: 1.25 Vdc.
Flame Signal Vohage Range (displayed on KE/board Display
Module or measured with a 1M ohnf,oh meter plugged into
amplifier test jad(s): 0.0 to 5.0Vdc.
Tabfe 1. Relay Modulo Flame Failurc Response Tlme (FFRT). 2'5ozQ1g), unpad<ed'
Relay Module
Flame Fallure Responso
Tlme (FFRT)
0.8 or 1,0
geconds
2.0 or 3.0
seconds
EC7810. EC7820.
EC/RM7830. EC/RM7850
1.0 2.0
RM/EC7823. RM/EC7885.
RM/EC7890, RM/EC7895,
RM7896, RM7888, RM7838,
RM7800, RM7840
0.8 3.0
RM7824 N/A 3.0
EnvlDnmental Ratings:
Ambient Temoerature:
Operating: -4.trF to 14.fF ({O€ to 60'C).
Storage:-40'F to 150'F (40"C to 65€).
Humidity: Operating 85o/o rh continuous, nonmndensing.
Vibration: Continuous 0.5G environm€nt.
Dlmenslons:
See Fig. 1.
Fig. 1. Flame ampllfier dlmensions in in, (mm).
Wdght:
Approvals:
Undenrvdters l-aboratories Inc. Listed: File no MP268, Guide no.
MenZ:, R7U7
^
K/8/.78, R7U7C, R7861A, R7886A,
R7848A, R78488, R7849A, R7849B.
Underwdte6 Laborabries Inc. Component Recognized: File no
MP268. Guide no. M@Z: R7 824Q.
Canadian Sbndads Association Certified: LR95329-3.
Factory Mutual Appned: Report J.l.1V9A0.AF
Industrial Risk Insurers: Acceotable.
NOTE: EN298 Approved: When these ampliliers are used
with an EC7810, EC782O, EC/RM7830, or
EC/RM7850 Relay Module.
Accessorles:
Flame Simulators:
Reclification: 123514A.
Uttraviolet 2()3659.
Flam€ Det€ctors (ordered separately): seleci from TaHe 2.
ORDERING INFORMATION
When purchasing replacement and modemization products from yoUTTRADELINE@ wholesaler or distrihitor, rebr to the
TRADELINE@ Catalog or price sheets for complete ordering number.
lf you have additional questions, need further information, or would like to comment on our products or services, please write or
phone:
1. Your local Home and Building Control Sales Office (check white pages of your phone directory).2. Home and Building Control Customer Logistics
Honeywgll Inc., 1885 Douglas Drive North
M i rineapolis, M innesota 55422- 4386 (61 2) 951 - 1 000
In Canada-Honeywell Limited/Honeywell Limit6e, 155 Gordon Baker Road, North York, Ontario M2H 3N7.
International Sales and Service Offices in all principal cities of the world. Manufacturing in Australia, Canada, Finland, France,
Germany, Japan, Mexico, Netherlands, Spain, Taiwan, United Kingdom, U.S.A.
65-010H
azezt,(jaz, R7us, B7B6t, R7Ba6 AMpLtFrERsj zeoosERlEs RELAr MIDULEI
Table 2. Flame Detectlon Systems.
Plug-ln Flame Signal Amplifiers Applicable Flame Detectors
Type Golor Self-Ghecking Model
Flame Failure
Response
Time (sec)a Fuel Type Models
Rectification Green Dymanic Self-
Check
p76246b,c, i 3 Gas, oil,
coal
Ultraviolet
(Purple
Peeper@)
c7024E,F
No R7847An O.811 or 213 Gas Rectifying
Flame Rod
Holdersj
c7004, c7007,
C701 1 Comolete
Assemblies: C7008,
c7009. Q179
No R7847An Q.8l'l or 213 oil Rectifying
Photocell
c7003, c7010,
c7013, C7014d
No R7847Ah 213 Gas, oil,
coal
Ultraviolet
(Purple
Peeper@)
c701zA'C.
Dynamic
Ampli-Check@
R7847Be'h 0.811 or 213 Gas Rectifying
Flame Rod
Holderso
c7004, c7007,
C701 1 Complete
Assemblies: C7008,
c7009. 0179
Dynamic
Ampli-Check@
R7g47Be'h 0.811 or 213 oil Rectiffing
Photocell
c7003, c7010,
c7013, C70144
Dynamic
Ampli-Check@
R7847Be'h 2t3 Gas, oil,
coal
Ultraviolet
(Purple
Peeper@)
c70124,C
Dynamic
Self-Check
q7647gc,f i 2t3 Gas, oil,
coal
Ultraviolet
(Purple
Peeper@)
c7012E,F
Infrared Red No R7848A 2t3 Gas, oil,
coal
Infrared (Lead
Sulfide)
c7015
Dynamic
Ampli-Check@
R7848Be 3 sec Gas, oil,
coal
lnfrared (Lead
Sulfide)
c7015
Ultraviolet Purple No R7849A 0.811 or2l3 Gas, oil Ultraviolet
(Minipeeper)
c7027, C7035,
c7044s
Dynamic
Ampli-Check@
R7849Bo O.811 ot 213 Gas, oil Ultraviolet
(Minipeeper)
c7027, C7035,
c7044s
Dynamic
Self-Check
R7861Ac'f 0.811 or 213 Gas, oil,
coal
Ultraviolet c7061
Blue Dynamic
SeltCheck
R7886AcJ ZIJ Gas, oil,
coal
Ulhaviolet
(Adjustable
Sensitivity)
c7076
a Flame Failure Response Time (FFRT) depends on selection of amplifier and 7800 SERIES Relay Module.
o R7824Q is used only with the 24 Vdc RM7824 Relay Module and C7024E,F Flame Detectors.
c Circuitry tesls all electronic components in flame detection system (amplifier and detector) 12 times a minute during burner
operation and shuts down burner il detection system fails.
o Use only Honeywell part no. 38316 Photocell.
e Circuitry tests tlame signal amplifier 12 times a minute during burner operation and shuts down burner if amplifier fails.| 20012201240 vac applications require a 120 Vac, 10 VA minimum stepdoivn transformer (not provided) to drive the shutter.
Applies to R7847C series 3 or greater; R7886A series 2 or greater; R7861 series 1 or greater. Fig. 2 shows flame detector
wiring.
S Use C7027, C7035 and C7044 Flame Detectors only on burners that cycle on-ofl at least once every twenty-four hours. Use
C7012E,F Flame Detector with R7847C Amplifier, C7061A Ultraviolet Detector with R7861A Amplifier or C7076A Flame
Detector with R7886A Amplifier as ultraviolet flame detection system br appliances with burners that remain on continuously
for twenty-bur hours or longer.
n R7847A,B Amplifiers with 0.8/1 second FFRT should not be used with C7O12A,C Solid State Ultraviolet Detectors.I R7824C Series 2 and greater and R7847C Series 4 and greater check flame detector system when flame reaches | .5 Vdc or
at 4.5 seconds, whichever occurs tirst.
J Order flame rod separately; see flame detector Instructions for holder.
6s-010H
R7a24, R7847, Rza4s, Rza6t, arlueuHE+s FoR Taoo sEltes aeutlourcs
I\ CAUTION
Equlpment Damage Hazard.
IncorFct combination of relay module, amplifier
and flame detector can cause equlpment damage.
In infrared applications (C701 5 Infrared Flame
Detector and R7848 Amplifier) using the RM7890
Relay Module with software revision 4004 or less
requires a ten-second delay to start sequence. This
applies only to the initial powering of the RM7890.
Equipment Damage Hazard.
Can cause equlpment damage.
Disconnect 7800 SERIES Relay Module power before
removing amplifier.
1.Align the amplifier circuit board edge connector with the
keyed receptacle on the 7800 SEBIES Belay Module.
Be sure the amplifier nameplate hces away from the
Relay Module.
Push in the amplifier until the circuit board is fully
inserted into the receptacle and then push the amplifier
toward the 7800 SERIES Relay Module retaining clasp.
Be sure the amplifier is firmly in place.
Perbrm all reouired checkout testg.
3.
4.
A cnuiloN
Installing Plug-ln Flame
Signal Amplifier (Fig. 2)
A wnnNtNc
Electrlc Shock Hazad.
Can cause electrlcal shock,
serious injury or death.
Disconnect the power supply before beginning
installation. More than one power supply
disconnection can be in\,olved.
1.
2.
3.
INSTALLATION
When Installing this Product...
1 . Read these instructions carefully. Failure to follow them
could damage the product or cause a hazardous
condition.
2. Check the ratings given in the instructions and on the
product to make sure the product is suitaHe for pur
application.
3. Installer must be a trained, experienced, flame
safu guard control technician.
4. After installation is complete, ch€ck out the product
operation as provided in these instructions.
A wnnNrNG
Electrlc Shock Hazad.
Can ceuoe electrlcal shock,
s€rlous lnlury or deeth.
Disconnect the powsr supply befrre beginning
installation. More than one power supply
disconnection can be in\/olved.
IMPORTANT
1. Whing must comply with ail applicable codes,
ordinances and rcgulations.
2. Wiring (where required) must comply with NEC
Class 1 (Line Voltage) witng.
3. Pertorm all requhed checl@ut tests after
installation is complete.
Installing Flame Detector
NOTE: Tade 2 lists llame detection systems availaHe for
use with 7800 SERIES Relay Modules. Be sure to
us€ the correct combination of amplifier and flame
detector.
Proper flame detector installation is the basis of a sab and
reliaHe flame safeguard installation. Rebr to the Instructions
packed with the flame detector and the equipment manufac-
turer instructions.
Keep the flame signal leadwires as short as possible from the
flame detector to the wiring subbase. Capacitance increases
with leadwire length, reducing the signal strength. The
maximum permissible leadwire length depends on the type of
flame dotector, leadwire and conduit. However, the ultimate
limiting factor for the flame detector leadwire is the flame
gignal; seo Table 3 in the Checkout s€ction.
Flg.2. Installing tlame signal amplifler.
Wiring
A cnunoN
Electrlcal Shock Hazad,
Can cause electrical shock or equipment damage.
Disconnect porrer supply before beginning installation.
More than one disconnection can be inrclved.
Remove the 7800 SERIES Relay Module from the
wiring subbase.
Reter to Fig. 3 for proper flame detector wiring.
Disconnect polt er supply belore making wiring
connections to prqr'ent electrical shock and equipment
damage.
All wiring must comply with appropriate electrical
codes, ordinan@s and regulations including NEC
Class 1 (Line Voltage) wiring where required.
65-010H
Rzsza, ]2, R7as, R7a61, R7sB6 AMpLtFTERs(j re* srr,rs RELAI MIDULEI
FLAME ROD
!.
t_J-^
PHOTOCELL =
.r-J..............................._
-"
TNFRARED (C701s)'fficmGDE
u LTRAVf O LET (C7 O27 | C7 O35t C7 O 441
IA
C7O76A,D ULTRAVIOLET DETECTOR
Ll (HOT)
L2 (COMMON)
7800 SERIES
SOLID STATE
A5
t2
L1
t2
LI
SOLID STATE SELF-CHECKING
ULTRAVTOLET (C7061A)
A;Ac
22
wHrrE t22-.-a
N
-gIE-!
!tl
AA
l\ A cAufloN: EourpirENT DAMAGE HAzaRD. rNcoRFEcT wtFrNG poLARrry caN DA AGE oR DEsTRoy uv sENstNG tuBEs.
CONNECT FLAME DETECTOR WIRES ACCORDING TO FOOTNOTES 1 AND 2 TO PBEVENT UV SENSING TUBE DAMAGE.FLAME OETECTOF
LEADS ARE COLOR COOED. THE BLUE LEAD MUST BE CONNECTED TO THE F TERMINAL ANO THE WHITE MUST BE CONNECTEO TO
THE G TERMINAL. THE UV SENSING TUBE IS POLARITY SENSITIVE.
A FLAME OETECTOB LEADS ARE COLOR CODED. THE BLUE LEAD MUST BE CONNECTEO TO THE F TERMINAL AND THE YELLOW MUST
BE CONNECTED TO THE G TERMINAL. THE UV SENSING TUBE IS POLAFIW SENSITIVE.
A A CAUflON: EOUIPIIE T DAIIAGE HAZARO.INCORRECT VOLTAGE CAt{ oAHAGE SHUTIER [ECHAt{lSlr OI|LY ON ECTst tt SERTES
REL Y IIOOULES. INSTALL A 2fiY220l240 VAC IO 12O VAC, 1OVA MINIMUM. STEPDOWN TRANSFORMER (NOI PROVIDED) TO DRIVE
THE SHUTTER MECHANISM.
la Do NoT usE 0.8/1 sEcoNo FFRT AMpLtFtER W|TH C7012A,C FLAME OETECTOR.
, i5Effs"d"h A
u--&'-b-r-xo EAB',I"D
:_:__:__ - \7 | ql076A
sHUrrEB I ufi lEiozooI Y ITERMINAL| | | BLocK
SOLID STATE SELF-CHECKING
ULTRAVTOLET (C701 2E,F)
ULTRAVTOLET (C701 2A,C)
AG
SOLID STATE SELF-CHECKING
ULTRAVTOLET (C7O24E,F - E SHOWN)
Fig, 3. Flame detector wiring.
65-010H
R7824, 87847, R784s, R78il, R{AMPL]FiERS FOR78O0 SERTES RE.r'I?DULES
Use recommended wire size and type no. 18 copper
c€nductors TTW(60C) orTHW (75C) or THNN(90C).
Use recommended wire routing:
l<eep the flame signal leadwire as short as
possiue from the detector to the 7800 SERIES
Relay Module. The maximum permissiUe leadwire
length depends on the type of leadwire, conduit
type and leadwire diameter. The ultimate limiting
fac'tor for flamo signal leadwire length is the tlame
signal voltage.
Do not run high voltage ignition transformer wires
In the same conduit with the flame detection wiring.
lf the flame detector l€adwires are not long
enough to reach the 7800 SERIES Relay Module
electrical connectors, make splices in a iunction
box.
1. Enclose scanner wiring without armor cau6 in
metal cable or conduit.
2. Follow flame detector Instructions.
Check wiring, see Fig. 4.
Install 7800 SERIES Relay Module.
Restore power to the 7800 SERIES Relay Module.
Flame detector wiring is shown in Fig.3.
CHECKOUT
Preliminary Inspection
Mak€ certain that:
1 Wiring connections are correct and all terminal screurs
and €lectrical conn€ctions are tight.2 Proper flame failur€ response time is selected.
aThis minimum or stronger signal can be easily obtained if the detector is correctly installed and positioned to properly sense
the flame. Obtain this voltage beilre completing checkout.
bThe tlame amplifiers are Ampli-Check@ type.
c Adjust slightly, or face th6 pip6 donn, or elitend the sight pipe on C7012A,C,E,F applications to obtain a maximum flame signal
reading less than 5.0 volts.
oThe flame signal amplitier circuitry is tested one-half second every five seconds during bumer operation and shuts down the
bumer if the amplifier fails (all installations).
e F.7824C, Series 2 or greater, and R7847C, Series 4 or greater, pulse the shutter when the flame signal roaches 1 .5 Vdc.
3
4
5
5.
6.
b.
Amplifier is securely mount€d on the 7800 SERIES
Relay Module.
Detectors are properly posiiioned and cleaned
according to Detector Instructions.
Correct combination of amplifier and flame detector is
used.
Flame Signal Measurement (Fig. 4)
Flame signal can be measured at the Flame SignalTest
Jacks, see Fig. 4, and at ths lGyboard Display Module.
Measure the flame signal at the appropriate times defined in
the Checkout section; see applicable 7800 SERIES Relay
Module Instructions. Ses TaUe 3 for accoptable and
maximum flame signal \ioltage strengths.
7.
8.
9.FLAME SIMULATOR
Table 3. Flame slgnal.
Flame D€t€ctor Flame Slgnal Ampllllor
Mlnlmum Acceptable
Steady dc Voltagea Maximum Expected dc voltage
Flame Rod Photocell
c7012A,Cc
R7847A,Bb 1.25Ydc 5.0 Vdc at Keyboard Display
Module or on volt-ohmmetere
c7012E,Fc R7847Cd,e
c7015A R7848A.BD
c7024E,F R7824Cd,o
c7027A
c70354
c7044A
R7849A,BD
c7061A R7861Ad
c7076A,D R7886A0
65-010H
R7824, 07, R7a4s, R7861, R7ss6 AMpLtFTERs ) zaoosEnlEs RELAr MoDuLEs
,/\/\ CAUTION
Equipment Damage Hazard.
lmproper wiring can destroy ultraviolet
sensing tube.
Carefully follow polarity sensitire wiring instructions br the
C7o27 , C7O35, C7M4, C7012, C7O24, C7061 and C7076.
Rg/ersing the leadwires, even momenlarily, can destroy
fe ultraviolet sensing tube.
Connect blue leadwire from detector to terminal F and
white leadwire f rom C7 027 1C7035/C7044/C7061 to
terminal G.
Connect blue leadwire from detector to terminal F and
yef low leadwire f rom C7012/C7O24 to terminal G.
Folloar lightoff Instructions for applicable 7800 SERIES
Relay Module.
1.Check the supply voltages at terminals (L1) and L2 (N).
Make sure the master s\,\,itch is closed, connections are
correct, and the power supply is of the correct \oltage
and flequency and is sinusoida.
Check the detector wiring tor defects including:
lncorrect connections.
Wrong type of wire.
Deteriorated wire.
Ooen circuits.
Short circuits.
Leakage paths caused by moisture, soot or
accumulated dirt.
3. For a llame rod, make sure:a. There is enough ground area.b. The flame rod is properly located in the flame.c. Temperature at the flame rod insulator is no
greater than 500'F (260"C).
4. For all optical detectors, clean the detector viewing
window lens, and inside of the sight pipe as applicable.
5. With the burner running, check the temperature at the
deteclor. lf it exceeds ihe detector maximum rated
lemperature:a. Add a heat block to stop conducted heat traveling
up the sight pipe.b. Add a shield or screen to rellect radiated heat.c. Add cooling (refer to sight pipe v€ntilation in the
detector Instructions).
6. Make sure that the flame adjustment is not too lean.
7. Make sure the optical detector is properly sighting the
flame.
8. lf necessary, resight or reposition the detector.
9. lf you cannot obtain proper operation, replace the plug-
in amplifier.
10. lf you cannot yet obtain proper operation, replace the
flame detector.
IMPOBTANT
lf you make any changes to the flame detection
system, repeat all requircd Checl<out tests in
Checlaut section of the lnstructions for the
applicable 7800 SERIES Relay Module.
a.
b.
o.
f,
1.
2.
3.
Measuring Flame Slgnal
With Keyboard Display Module
Consult Instructions icr applicable 7800 SERIES Relay
Module or Keyboard Display Module.
Measuring Flame Signal
with a Volt Ohmmeter
Two test iacks, positive and negative (Com) are accessible on
the top of the amplifier when plugged into the 7800 SERIES
Relay Module. These jacks are provided for monitoring flame
signal strength. Use a one megohm/volt meter to measure the
flame signal strength. Connect the positive meter lead (red) to
the posilive (+) amplifier test jack and the negative meter lead
(black) to the negative (-) amplifier test jack. The test jacks
use standard 0.180 inch diameter voltmeter orobes. A
minimum 1 .25 Vdc flame signal is required.
The flame signal for ihe pilot alone, the main burner flame
alone, and both together must be steady and a minimum ol
1.25V ll the flame signal is unsteady, or less than the
minimum acceptable voltage, check the tlame detector
installation and circuitry in the following procedure.
65-010H
d
ti
Eome and Bdlding Control Home and Bullrting Control Iloneywell Asia Pacific Inc.
Honeywell Inc. Honeywell Limited-Honeywell Lirnit6e Room 3213-3225
Honeywell Plaza 155 Gordon Baker Road sun Hung Kai centre
P.O. Box 524 North York Ontario No. 30 Harbow Road
Minneapolis MN 5540,84511 M2H 3N? Wanchai
Hong Kong
Honeywell Latin American Region Honeywell Europe S.A.
480 Sawgrass Corporate Parkway 3 Avenue du Bourget
Suite 200 I l4O Brussels
SunriseFl33325 Belgium
Honrywdl
Pdded in U.S.A. on recycled
pep€r cootdnlng d l9a8l 1o%
poa.conrumcr paper tiuers. www.honoyw€ll.com65-010H G.R. Rev.7-98