Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
Home
My WebLink
About
F09-0053
fOWN OF VAIL FIRE DEPARTMENT VAIL FIRE DEPARTMENT 1 5 S. FRONTAGE ROAD VAIL, CO 81657 )70- 479 -2135 NOTE: THIS PERMIT MUST BE POSTED ON JOBSITE AT ALL TIMES SPRINKLER PERMIT Permit #: F09 -0053 Job Address: 333 BEAVER DAM RD VAIL Status ...: ISSUED Location.....: Applied..: 10/23/2009 Parcel No...: 210107112006 Issued . .. 11/11/2009 Project No Expires . .: )WNER PAUL G. SMITH REVOCABLE TRUS 10/23/2009 8101 E PRENTICE AVE STE 400 GREENWOOD VILLAGE CO 80111 kPPLICANT CASTLE FIRE SPRINKLERS INC. 10/23/2009 Phone: (970) 688 -0789 PO BOX 3878 AVON COLORADO 81620 License: 735 -S :ONTRACTOR CASTLE FIRE SPRINKLERS INC. 10/23/2009 Phone: (970) 688 -0789 PO BOX 3878 AVON COLORADO 81620 License: 735 -S )esciption: NEW SINGLE FAMILY DWELLING: INSTALL FIRE SPRINKLER SYSTEM Valuation: $30,000.00 FEE SUMMARY ***************************** * * * * * * * * * * * * * * * * * ** * * * * * * * * * * ** Mechanical --- > $0.00 Restuarant Plan Review - -> $0.00 Total Calculated Fees --- > $1,625.00 Plan Check - -> $350.00 DRB Fee ---- --------------- > $0.00 Additional Fees-- - - - - -> $0.00 Investigation -> $0.00 TOTAL FEES------ - - - - -> $1,625.00 Total Permit Fee - - -> $1,625.00 Will Call - - - -> $0.00 Payments -- ------ - - - -> $1,625.00 BALANCE DUE --- — --- > $0.00 Item: 05100 BUILDING DEPARTMENT Item: 05600 FIRE DEPARTMENT 11/02/2009 drhoades Action: AP Approved as noted on plans. CONDITION OF APPROVAL fond: 12 (BLDG.): FIELD INSPECTIONS ARE REQUIRED TO CHECK FOR CODE COMPLIANCE. :ond: 53 Monitored fire sprinkler system required and shall comply with NFPA 13 and VFES Standards. DECLARATIONS hereby acknowledge that I have read this application, filled out in full the information required, completed an accurate plot plan, Ind 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, design review ipproved, International Building and Residential Codes and other ordinances of the Town applicable thereto. tEQUESTS FOR INSPECTION SHALL BE MADE TWENTY -FOUR HOURS I CE BY TELEPHONE AT 970 - 479 -2252 'ROM 8:00 AM - 5 PM. SIGNATURE OF OWNER OR COWRACTOR FOR HIMSELF AND OWNER ************************************************************* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** TOWN OF VAIL, COLORADO Statement ************************************************************* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** Statement Number: R090001642 Amount: $1,625.00 11/11/200902:25 PM Payment Method: Check Init: SAB Notation: CHECK 1402 ----------------------------------------------------------------------------- Permit No: F09 -0053 Type: SPRINKLER PERMIT Parcel No: 2101 - 071 - 1200 -6 Site Address: 333 BEAVER DAM RD VAIL Location: Total Fees: $1,625.00 This Payment: $1,625.00 Total ALL Pmts: $1,625.00 Balance: $0.00 ************************************************************* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** ACCOUNT ITEM LIST: Account Code Description Current Pmts -------------- - - - - -- ------------------------ - - - - -- ------ - - - - -- BP 00100003111100 SPRINKLER PERMIT FEES 1,275.00 PF 00100003112300 PLAN CHECK FEES 350.00 ----------------------------------------------------------------------- - - - - -- APPLICATION WILL NOT BE ACCEPTED IF INCOMPLETE OR UNSIGNE Project #: G� Building Permit #: -0 Sprinkler Permit #: _ �q-00% 970- 47 9 -2135 ln specti n s1) TOWN OF T OWN OF VAIL FIRE SPRINKLER PERMIT APPLICATION Fire Sprinkler shop drawings are required at time of permit submittal and 75 S. Frontage Rd. must include the following. Permit application will not be accepted V ' t this information: A Colorado Registered Engineer's stamp or N.I.C.E.T. Level III (min) stamp. Equipment cut sheets of materials. Hydraulic calculations. A State of Colorado.Plan Registration form. Plans must be submitted by a Registered Fire Protection. Contractor. CONTRACT INFORM ATION Fire Sprinkler Contractor: Town of Vail Reg. No.: Contact and Phone #'s: I CASTLE FIRE SPRINKLER, INC 7355 970- 686 -0789 E -Mail Address: castlefiresprinklerso)yahoo.com Contractor Signature:r , COMPLETE VALUATIONS- FOR ALARM PERMIT (Labor & Materials) Fire Sprinkler: $ 30, 000.00 Contact Ea le County Assessors Office at 970 - 328 -8640 or visit www.ea le -c ount .com for Parcel # Parcel # 210107112006 Job Name:Smith Residence Job Address: 333 Beaver Dam Rd., Vail, CO Legal Description Lot: Block: Filing: Subdivision: Owners Name: Paul Smith Address: 333 Beaver Dam Rd, Vail, CO Phone: Engineer:Eric Schumacher Rapid Design, Inc. Address: 9785 Maroon Cirl. #445 Englewood, CO 80112 I Phone: 303- 649 -2202 Detailed Location of work: (i.e., floor, unit #, bldg. #) Residential Building Detailed description of work: Install new Fire Sprinkler System per NFPA 13R and Local Codes Work Class: New (") Addition( ) Remodel ( ) Repair( ) Retro -fit ( ) Other ( ) Type of Bldg.: Single- family (X ) Two - family ( ) Multi- family ( ) Commercial ( ) Restaurant ( ) Other ( ) No. of Existing Dwelling Units in this building: 1 No. of VA 1&at1r4Vtn Does a Fire Alarm Exist: Yes( ) No (X) Does a Fire Sprinkler SWinmdes (x ) �_t By: =11,Hdno * * * * * * * * * * * * * * ** *FOR OFFICE USE Other Fees: Date' Public Way Permit Fee: Accepted BY: Occupancy Group: \ \Vail\ data \cdcv\PORMS \PERMITS \SPRKPERM.DOC 07!2412002 �'�oR -ooS3 D EC ENWE OCT 2 2 2009 Tnwly r) P WA ut EQ UIPMENT CASTLE FIRE SPRINKLER, INC. P.O. BOX 3878 AVON, COLORADO 81620 Phone: (970) 688 -0789 castleGresprinklers @yahoo com � LTC CALCULATIONS SUBMITTAL FOR SMITH RESIDENCE FIRE SPRINKLER SYSTEM 333 BEAVER DAM ROAD VAIL, CO 81657 1 PROJECT NO. 00031 �^ SUBMITTED BY: fi Schumacher F DjFpAjQj - AwN APProved as Submitted ❑ App as Noted Title: - Y Date: !i -oa -o9 October 14, 2009 i.: Hydraulic Overview { Job Number: 00031 ReDOrt Description: LIBRARY -305 Job Job Number Design Engineer 00031 _ -- Jab Name: Smith Residence Phone Address / 333 Beaver Dam Road Address 2 Stale Cemlicaton/License Numbcr AHJ - - -- - City slate Zi Code Job site Vail CO 81657 System Density Ar-z of A, 0.100gpm/ft - 1024.00ft 323.55ft') Most Demendirg Sprntl Data Hoaa Streams - 4.3 K- Factor 25.60 at 35.444 0.00 14—ber Of Sprbbers Calculated _ Coverage Per SprYtbr 256.00ft 4 Spbm Preswae Dement Sysbm Flow Dw—W 109.075 113.31 TOW Demand 113.31 @ 109.075 Pressure Resull +14.393 (117% ) Supplies Check Point Gauges Node Flow(gom) Hose Flow(gpm) Static (psi Residual(psi) Identifier Pressure(psi) K- Factor(K) Flow(gpm) 1 906.00 125.000 53.320 SMITH RESIDENCE CALC Supply at Node 1(906.00, 0.00, 125.000, 53.320) i - rt • e t' N,, © M.E.P.CAD, Inc. i1fl AutoSPRINK® VR7 v7.0.60 10/14/2009 7:42:24AM Page 1 no Hydraulic Summary Job Number: 00031 Report Description: LIBRARY -305 ob ; Job Number Design Engineer 00031 Jab Nana: Smith Residence - - -.- -- State C.Mf— oonr7.icence Number - -- Addressl 333 Beaver Dam Road Address 2 A+U Job Site -- City Naams p SMI Vail CO 8 657 H RESIDENCE CALC System Remote Area (s) Most Demanding SprinNer Data Gccopanq 4.3 K- Factor 25.60 at 35.444 Residential Hose Nkevarce At Source Datsify Met of AppWatlon 0.00 0.100gpm/ft 1024.00ft (Actual 323.55ft Additional Hose Supplies Number CX SprirMers Calwlated Cov—p Per SprWder Node Flow(gpm) 4 256.00ft AutoPSak Rmlts: Pressure For Renwte Mea(a) Adjacent To Most Remote Area Total Hose Steams 0.00 System Flow Denwid Tole Water Replied (kiaudap Hose Akowatoe) 113.31 113.31 _ Meskraun Preasae Uabelanoe M Loops 0.000 MaAr— velocity Above Ground 18.94 between nodes 173 and 198 Me—ae Vaoaly Lkww Graam 12.06 between nodes 1 and 6 volume capacity of Wet Pipes volume capacity of Dry Pl 145.29gal 0.07gal Supplies Hose Flow Static Residual @ Flow Available @ Total Demand Required Safety Margin Node m (psi) (psi) m si m (psi) (psi 1 125.000 53.320 906.00 123.469 113.31 1 109.075 1 14.393 Contractor Conbaaor Number Contact Name Stuart Thompson phone 970 - 688-0789 FAX Contact Title P resident Extension -- Name of Canker 4r. CASTLE FIRE SPRINKLERS, INC. Address 1 P.O. Box 3878 Address 2 Emal castlefiresprinkler @yahoo.com City State - 24 Code Wa1,454, AVON CO 81620 [M, © M.E.P.CAD, Inc. irl AutoSPRINK® VR7 v7.0.60 10/14/2009 7:42:30AM Page 1 a- Node Analysis , 7 Job Number: 00031 Report Description: LIBRARY -305 Node Elevation Foot Fittings Pressure (psi) Dischar e m 6 1'-0 T T-6L _ _ _ _ _ _ _ T(5'-O), C 6-0 , Tr 1'-0 98.285 69.699 75.237 20' -11 % 11' -5% 96 98 - 20' -11 % E 3'-6 E(2'-6) _ — 70.191 60.051 147 _ 23' -6 148 33'-0 T 3'-6 54.534 150 23' -6 T 3'-6 , Tr 1' -0 61.114 173 38' -1 T(2'-O), Tr 0' -6 49.616 198 38' -1 T(2'-O), T 0'-6) 36.682 199 39' -0'/. T 2'-0 51.685 211 39'-0% T 2'-0 , T 1' -0 51.800 219 23'-6 T 3'-6 60.950 221 35'-6 Tr 1'-0 T 3'-6 54.718 222 23'-6 E(2'-6) 60.661 223 35'-6 E(2'-6) 54.844 276 23' -6 T 3'-6 61.692 284 11' -5% E 2'-6 , T 3'-6 68.050 286 23' -6 ELT-6) 61.781 340 23'-6 E(2'-6) 61.048 341 35'-6 E(2'-6) 55.683 447 37 -7 S r - 36.558 36.558 26.00 448 38 -6Y. S r - 51.435 51.435 30.84 453 3T -7 S r - 35.444 35.444 25.60 454 38'-6% S r - 51.549 51.549 30.87 L?. © M.E.P.CAD, Inc. 4fi AutoSPRINKO VR7 v7.0.60 10/14/2009 7:42:35AM Page 1 O 'jHydraulic Analysis Ud Job Number: 00031 Report Description: LIBRARY -305 Pipe Type Diameter Flow Velocity HWC Friction Loss Length Pressure Downstream Elevation Discharge K- Factor Pt Pn Fittings Eq. Length Summary Upstream Total Length e+►••••• Route 1..... DR 1.0550 Q =25.60 9.40 C =150 0.132243 8'-6 Pf 1.455 453 37' -7 q =25.60 K=4.3 35.444 Spr(- 35.444) 2' -6 Pe -0.217 198 38' -1 36.682 E(2'-O), Tr 0'-6 11' -0 Pv BL 1.0550 0=51.60 18.94 C =150 0.483640 18' -3 Pf 12.934 8' -6 Pe 198 38' -1 36.682 173 38' -1 49.616 4E(2'-O), Tr(0' -6) 26' - Pv BL 1.5270 Q =51.60 9.04 C =150 0.07988 19' -5'/4 Pf 2.714 173 38' -1 49.616 14'-6 Pe 2.205 148 33'-0 54.534 3E(2' -6), 2T(3' -6) 33'- 11 RN 1.5270 0=63.29 11.09 C =150 0.116542 9' -q Pf 1.399 148 33'-0 54.534 2'-q, Pe 4.119 147 23' -6 60.051 E(2'-6) 12'-0 Pv FM 1.5270 Q =63.29 11.09 C =150 0.116542 5' -7'/2 Pf 1.062 147 23'-6 60.051 T -6 Pe 150 23'-6 61.114 T 3'-6 9' -1'Y2 Pv FM 1.5270 Q =73.00 12.79 C =150 0.151783 32' -9' /i Pf 7.483 150 23-6 61.114 16'-6 Pe 1.102 83 20' -11%2 69.699 2T(3'-6), 3E(2'-6), 2Tr(1' -0) 49'-3% Pv FM 2.0090 0=73.00 7.39 C =150 0.039903 7' Pf 0.492 83 20' -11'/2 69.699 5' Pe 0.000 98 20' -11'/2 70.191 T(6-0) 12' Pv RN 2.0090 Q =73.00 7.39 C =150 0.039903 9' -0' /. Pf 0.919 98 20' -111/2 70.191 E(3' -6) 13'-67 Pe 4.128 96 11' -5 75.237 T(5' -0), C(5' -0) 23' -0% Pv FM 2.0090 Q= 1 13.31 11.47 C =150 0.090004 31' -5% Pf 18.523 96 11' -5/4 75.237 21'-6 Pe 4.525 6 1 98.285 3E(3' -6), 6Tr(1' -0), T(5' -0), 2sCV, 52' -11'/1 Pv f(- 0.000), BFP(- 13.754), PRV U 1. 9590 Q= 113.31 12.06 C =150 0.101758 200' -0'/4 Pf 21.629 6 1' -0 98.285 12' -6 Pe - 10.838 1 26' -0 109.075 3E(3'-6), EE (2' -0), S 212' -6'/4 Pv �4•••• Route 2••••• DR 1.0550 Q =26.00 9.54 C =150 0.136085 0'-6 Pf 0.340 447 37' -7 q =26.00 K=4.3 36.558 Spr(- 36.558) 2' -0 Pe -0.217 198 38' -1 36.682 T (2' -0) 2' -6 Pv •••••Route 3••••• DR 1.0550 Q =30.84 11.32 C =150 0.186622 0' -6 Pf 0.467 448 38'-6% q =30.84 K =4.3 51.435 Spr(- 51.435) 2' -0 Pe 0.217 199 39' -0 51.685 T(2' -0) 2' -6 Pv FM 1.5270 Q =19.15 3.36 C =150 0.012771 8' -0 Pf 0.115 199 39' -0'/. 51.685 V -0 Pe 211 39' -0% 51.800 Tr(1' -0 ) 9'-0 Pv FM 1.5270 Q =50.03 8.76 C =150 0.07 12' -2Y4 Pf 1.372 211 39' -0'/4 51.800 - -' 6' -0 Pe 1.546 221 35'-6 54.718 2E(2'-6), Tr(1' -0) 18' -2'/4 Pv F M 1.5270 0=33.63 5.89 C =150 0.036189 2' -5'/q Pf 0.126 1'-17 Pe 221 35'-6 54.718 Tr(1' O) 223 35'-6 54.844 3' -5 Pv RN 1.5270 Q =33.63 5.89 C =150 0.036189 12' -0 Pf 0.615 223 36-6 54.844 E(2' -6) 5' -0 Pe 5.202 222 23'-6 60.661 E(2'-6) 17' -0 Pv FM 1.5270 Q =33.63 5.89 C =150 0.036189 4' -5/4 Pf 0.289 222 23' -6 60.661 3' Pe 219 23'-6 60.950 T 3'-6 T -11'/ Pv FM 1.5270 Q =9.71 1.70 C =150 0.003638 36' -11'/ Pf 0.164 _ 219 23'-6 60.950 - 8' Pe 150 23' -6 61.114 8Tr(1' -0) 44'- 111/aPv - * ..... Route 4••••• DR _ 1.05 Q =30.87 11.33 C =150 0.1 0' -6 Pf 0.468 454 38' -6'/. q =30.87 K =4.3 51.549 Spr(- 51.549) 2' -0 Pe -0.217 211 39' -0'/4 51.800 T 2'-0 2' -6 Pv .+••••• Route s••••• RN 1.5270 Q =16.39 2.87 C =150 0.009577 12'� Pf 0.163 5' -d Pe 5.202 _ 341 35 55.683 E(2' -6) 340 23' -6 61.048 E(2'-6) 17' -0 Pv FM 1.5270 Q =16.39 2.87 C =150 0.009577 45' - 0 3 /4 Pf 0.644 340 23' -6 61.048 21'-67 Pe 276 23' -6 61.692 3T 3'-6 , 6Tr 1'-0 , 2E T-6 67' -2 Pv FM 1.5270 Q =40.31 7.06 C =150 0.050596 V-1 Pf 0.089 276 23'-6 61.692 Pe -0.000 286 23' -6 61.781 1' -9 Pv & © M.E.P.CAD, Inc. fj AutoSPRINK® VR7 v7.0.60 10/14/2009 7:42:40AM Page 1 III Hydraulic Analysis Job Number: 00031 Report Description: LIBRARY -305 Pipe Type Diamete Flow Velocity HWC Friction Loss Length Pressure Downstream Elevation Discharge K- Factor Pt Pn Fittings Eq. Length Summary Upstream Total Length RN 1.5270 0 =40.31 706 C =150 0.050596 12' -0% Pf 1.040 286 23' -6 61.781 E(2' -6) 8' -6 Pe 5.229 284 11' -5'/• 68.050 E(2'-6), T 3' -6 20' -6% Pv FM 1.5270 Q =40.31 7.0 C =150 0.050596 106' -6' /Z Pf 7.186 284 11' -5'/. 68.050 36-6 Pe 96 11' -5'/. 75.237 5T(3' -6), 18Tr(1' -0) 142' -0' /� Pv w••••• Route 6••••• FM 1.5 270 Q =11.69 2.05 C =150 0.005120 33' -3% Pf 0.219 199 39' -0'/• 51.685 9' -6 Pe 2.630 148 33' -0 54.534 2Tr(1' -0), 3E(2' -6) 42'-9% Pv w••••• Route 7••••• FM -- 1. Q =16. 2.87 - C =150 0.009577 74' -3 Pf 0.965 221 35' -6 54.718 T(3' -6) 26-6 Pe 341 35' -6 55.683 10Tr(1' -0), 3T(3' -6), E(2' -6) 100' -9 Pv w••••• Route 8••••• BL _ 1 .5270 0=23.92 4.19 C =150 0.019262 29' -6 Pf 0.742 219 23' -6 60.950 9' -0 Pe 0.000 276 23' -6 61.692 3Tr(1' -0), E(2'-6), T 3' -6 38' -6 Pv Equivalent Pipe Lengths of Valves and Fittings (C =120 only) Multiplier tValue Of C 100 130 1 40 150 Actual Inside Diameter 4.87 Schedule 40 Steel Pipe Inside Diameter Factor ying Factor 0 713 1.16 1.33 1.51 & © M.E.P.CAD, Inc. in AutoSPRINK® VR7 v7.0.60 10/14/2009 7:42:40AM Page 2 §jj Hydraulic Analysis Job Number: 00031 Report Description: LIBRARY -305 Pipe Type Diameter Downstream Elevation Upstream Flow Velocity HWC Friction Loss Discharge K- Factor Pt Pn Fittings _ Length !Pressure Eq. Length : ;Summary Total Length ! Pipe Type Legend Units Legend Fittings Legend AO Arm -Over Diameter Inch ALV Alarm Valve BL Branch Line Elevation Foot AngV Angle Valve CM Cross Main Flow gpm b Bushing DN Drain Discharge gpm BaIV Ball Valve DR Drop Velocity fps BFP Backflow Preventer DY Dynamic Pressure psi BV Butterfly Valve FM Feed Main Length Foot C Cross Flow Turn 90° FR Feed Riser Friction Loss psi /Foot cplg Coupling MS Miscellaneous HWC Hazen - Williams Constant Cr Cross Run OR Outrigger Pt Total pressure at a point in a pipe CV Check Valve RN Riser Nipple P Normal pressure at a point in a pipe DeIV Deluge Valve SP Sprig Pf Pressure loss due to friction between points DPV Dry Pipe Valve ST Stand Pipe Pe Pressure due to elevation difference between indicated points E 90° Elbow UG Underground Pv Velocity pressure at a point in a pipe EE 45° Elbow Eel 1 V/<° Elbow Ee2 22 %° Elbow f Flow Device fd Flex Drop FDC Fire Department Connection fE 90° FireLock(TM) Elbow fEE 45° FireLock(TM) Elbow fig Flange FN Floating Node fT FireLock(TM) Tee g Gauge GloV Globe Valve GV Gate Valve Hose Hose HV Hose Valve Hyd Hydrant LtE Long Turn Elbow mecT Mechanical Tee Noz Nozzle P1 Pump In P2 Pump Out PIV Post Indicating Valve PO Pipe Outlet PrV Pressure Relief Valve PRV Pressure Reducing Valve red Reducer /Adapter S Supply sCV Swing Check Valve Spr Sprinkler St Strainer T Tee Flow Turn 90° Tr Tee Run U Union WirF Wirsbo WMV Water Meter Valve Z Cap [M, © M.E.P.CAD, Inc. AutoSPRINK® VR7 v7.0.60 10/14/2009 7:42:40AM Page 3 1 11 Hydraulic Graph Ll Job Number: 00031 Rennrt r)escrintinn I IRRARY -305 Supply at Node 1 150 135 -Static Pressure 125.000 120 -P tatic Pressure I 112.500 (90 %) 113.31 109.075 105 90 a 75 CL lystem 60 demand curve 906.00 @ 53.320 906,00 @ 47.988 (9096 45 - — — — 30 15 0 g 00 200 300 400 500 600 700 800 900 1000 Water flow, gpm Hydra& Graph Supply at N ode 1 St.k: Pressure 125.000 Residual: Pressure 906.00 @ 53.320 Arailable Pressure @ Time of T-1 123.469 @ 113.31 Syetem Demaea 113.31 @ 109.075 system D—d (k.W.9 Hose A kl—) - 113.31 @ 109.075 & © M.E.P.CAD, Inc. +ifi AutoSPRINK® VR7 v7.0.60 10/14/2009 7:42:46AM Page 1 EXPANSION CHAMBER SIZING WORKSHEET SMITH RESIDENCE 333 BEAVER DAM RD., VAIL, CO EGRESS FIRE PROTECTION SCHEDULE 40 PIPE PIPE LENGTH PIPE SIZE VOLUME PER FOOT SUB VOLUME PROPY- LENE GLYCOL 3/4 0.028 0.00 20% 1 0.045 0.00 - - - -- 1 -1/4 0.078 0.00 0.000311 1 -1/2 0.106 0.00 60% 2 0.174 0.00 0.000272 2 -1/2 0.248 0.00 - - - -- 3 0.383 0.00 100% 3 -1/2 0.513 0.00 4 0.660 0.00 5 1.040 0.00 6 1.501 0.00 8 2.660 1 0.00 SCHEDULE 10 PIPE PIPE LENGTH PIPE SIZE VOLUME PER FOOT SUB VOLUME PROPY- LENE GLYCOL 3/4 - - - -- 0.00 20% 1 0.049 0.00 - - - -- 1 -1/4 0.085 0.00 0.000311 1 -1/2 0.115 0.00 60% 2 0.190 0.00 0.000272 2-1/2 0.283 0.00 - - - -- 3 0.433 0.00 100% 3 -1/2 0.576 0.00 4 0.740 0.00 5 1.144 0.00 6 1.649 0.00 8 2.776 1 0.00 f-LI W O a wa cV � W O w ^~ w ^~ SUB TOTA 0.00 1 SUB TOTA 0.00 1 TOTAL FROM SHEET 1 0.00 TOTAL FROM SHEET 109.38 TOTAL VOLUME (Vs 109.38 COEFFICIENT OF THERMAL EXPANSION VOLUME % mix /W WATER 40 GLYCERIN E PROPY- LENE GLYCOL 10% - - - -- 0.000255 20% - - - -- 0.000275 30% - - - -- 0.000294 40% - - - -- 0.000311 50% 0.000272 0.000321 60% 0.000270 0.000338 70% 0.000272 0.000361 80% 0.000282 - - - -- 90% - - - -- - - - -- 100% 0.000290 - - - -- FORMULA SYSTEM VARIABLES MIN. TEMPERATURE (TI) 40 °F MAX. TEMPERATURE (T2) 130 °F DIFFERENCE IN TEMP (AT) 90 °F (T2-TI) SOLUTION OF WATER WITH Glycerine % SOLUTION (ANTI- FREEZE) 50% COEFFICIENT OF EXPANS. 0 SYSTEM MAX. PRESSURE (P3) 189.7 PSIA ( +14.7) SITE STATIC PRESSURE (P2) 139.7 PSIA ( +14.7) CHAMBER PRE - CHARGE (P1) 135.7 PSIA ( +14.7) AVs = VOLUMETRIC EXPANSION OF LIQUID IN PIPING = AT x Vs x Y = 2.678 V = CHAMBER VOLUME REQUIRED = AVs x [(P2 / P1) / (I - P2 / P3)] = 10.458 COPPER TYPE L PIPE LENGTH PIPE SIZE PIPE I.D. VOLUME PER FOOT SUB VOLUME 3/4 .785 0.000 0.00 896 1 1.025 0.000 0.00 1 -1/4 L265 0.000 0.00 552 1 -1/2 1.505 0.000 0.00 98 2 1.985 0.000 0.00 2-1/2 2.465 0.000 0.00 3 2.945 0.000 0.00 4 3.905 0.000 0.00 COPPER TYPE M PIPE LENGTH PIPE SIZE PIPE I.D. VOLUME PER FOOT SUB VOLUME 3/4 .811 0.027 0.00 896 1 1.055 0.045 40.70 1-1/4 1.291 0.068 0.00 552 1-1/2 1.527 0.095 52.53 98 2 2.009 0.165 16.14 2-1/2 2.495 0.254 0.00 3 2.981 0.363 0.00 4 3.935 1 0.632 0.00 SUB TOTAII 0.00 SUB TOTAll 109.38 BLAZEMASTER CPVC PIPE LENGTH PIPE SIZE PIPE I.D. VOLUME PER FOOT SUB VOLUME 3/4 0.874 0.000 0.00 1 1.101 0.000 0.00 1-1/4 1.394 0.000 0.00 1-1/2 1.598 0.000 0.00 2 2.003 0.000 0.00 2 -1/2 2.423 0.000 0.00 3 2.952 0.000 0.00 SUB TOTAll 0.00 Rell A Concealed Residential Sprinkler engineered for a minimum design density of 0.05 gpm /ft with low GPM requirements. Features 1. Very low water flow requirements. 2. 1 12" (13mm) Total adjustment. 3. Push- On/Thread -Off cover attachment option. 4. Smooth aesthetic ceiling profile. 5. Available in brass, chrome and black plated or painted finishes. Listings & Approval Listed by Underwriters Laboratories, and certified by UL for Canada (cULus) UL Listing Categories Residential Automatic Sprinklers UL Guide Number VKKW Product Description Model RFC43 Concealed Residential Sprinklers are fast response residential fusible solder link automatic sprinklers. Residential sprinklers differ from standard sprinklers primarily in their response time and water distribution patterns. Model RFC43 sprinklers discharge water in a hemispherical pattern below the sprinkler deflector. Residential distribution patterns are higher and generally contain a finer droplet size than standard sprinkler patterns. The combination of speed of operation and high discharge pattern required for residential sprinklers has demonstrated, in fire testing, an ability for controlling residential fires, and thereby providing significant evacuation time for occupants. The RFC43 Sprinkler provides the best form of fire protection by combining an attractive appearance and '/2' (13mm) of cover adjustment for ease of installation. The small diameter cover plate is easily and positively attached and blends into the ceiling, concealing the most dependable fire protection available, an automatic sprinkler system. Bulletin 006 Rev.A c Model RFC43 Concealed ff Residential Sprinkler (SIN RA0612) CD D The RFC43 is a UL Listed Residential Sprinkler to be installed in the residential portions of any occupancy in accordance with NFPA 13, 13R, & 13D. The RFC43 can reduce the need for precise cutting of drop nipples. The threaded cover plate assembly can be adjusted without tools to fit accurately against the ceiling. The fire protection system need not be shut down to adjust or remove the cover plate assembly. Application and Installation The RFC43, for residential installations, uses a 165 °F (74 °C) fusible solder link in a tuning fork style sprinkler frame with a drop -down deflector. This assembly is recessed into the ceiling and concealed by a flat cover plate. The cover plate is attached to the skirt, using 135 °F (5TC) ordinary temperature classification solder. When the ceiling temperature rises, the solder holding the cover plate releases the cover allowing the deflector to drop into position and exposing the sprinkler The Reliable Automatic Sprinkler Co., Inc., 525 North MacQuesten Parkway, Mount Vernon, New York 10552 a The RFC43 is a UL Listed Residential Sprinkler to be installed in the residential portions of any occupancy in accordance with NFPA 13, 13R, & 13D. The RFC43 can reduce the need for precise cutting of drop nipples. The threaded cover plate assembly can be adjusted without tools to fit accurately against the ceiling. The fire protection system need not be shut down to adjust or remove the cover plate assembly. Application and Installation The RFC43, for residential installations, uses a 165 °F (74 °C) fusible solder link in a tuning fork style sprinkler frame with a drop -down deflector. This assembly is recessed into the ceiling and concealed by a flat cover plate. The cover plate is attached to the skirt, using 135 °F (5TC) ordinary temperature classification solder. When the ceiling temperature rises, the solder holding the cover plate releases the cover allowing the deflector to drop into position and exposing the sprinkler The Reliable Automatic Sprinkler Co., Inc., 525 North MacQuesten Parkway, Mount Vernon, New York 10552 inside to ceiling temperature. The subsequent operation of the solder link opens the waterway and causes the deflector to drop into position to distribute the discharging water in a hemispherical pattern below the sprinkler deflector. Any adjustment of thread engagement between the cover plate and cup will assure that the drop -down deflector is properly located below the ceiling. The residential distribution pattern contains a finer droplet size than a standard sprinkler, and the pattern produces significantly higher wall wetting. After a 2 5/8 inch diameter hole is cut in the ceiling, the sprinkler is to be installed with the Model FC Wrench. When installing a sprinkler, the wrench is first positioned into the sprinkler /cup assembly and around the hexagonal body of the sprinkler frame. The Wrench must bottom out against the cup in order to ensure proper, safe installation. The sprinkler Temperature Rating Sprinkler Cover Plate Max. Ambient Temp. 165°F/74 °C 135 ° F /57 °C 100 °F /38 °C Installation Data is then tightened into the pipe fitting. When inserting or removing the wrench from the sprinkler /cup assembly, care should be taken to prevent damage to the sprinkler. DO NOT WRENCH ON ANY OTHER PART OF THE SPRINKLER/CUP ASSEMBLY. MODEL RFC43 CONCEALED SPRINKLERS MUST BE INSTALLED ONLY WITH 135 °F RATED COVERS. Cover assemblies provide up toy" (13mm) of adjustment. Turn the cover clockwise until the flange is in contact with the ceiling. The optional push-on cover plate may require a final adjusting turn to contact the ceiling. Cover removal requires turning in the counter -clockwise direction. In ceilings that have a plenum space above the sprinkler, the plenum space may have neutral or negative pressurization but must not be positively pressurized. Inspect all sprinklers after installation to ensure that the gap between the cover plate and ceiling and the 4 slots in the cup are all open and free from any air flow impediment. Note: 1 bar = 100 Kpa Minimum Required Thread Size K Sprinkler Maximum Minimum Sprinkler Discharge inch (mm) Factor Spacing Distance Distance between ft. (m) to Wall ft. (m) sprinkler ft. (m) Flow Press. gpm (Lpm) psi (bar) '/2" (15mm) 4.3 12 x 12 (3.6x3.6) 6(1.83) 8(2.43) 12 (45) 7.8 (0.54 '/2" (15mm) 4.3 14 x 14 (4.3x4.3) 7(2.13) 8(2.43) 13 (49) 9.1 (0.63 '/2" (15mm) 4.3 16 x 16 (4.9x4.9) 8(2.43) 8(2.43) 13 (49) 9.1 (0.63 '/2" (15mm) 4.3 18 x 18 (5.5x5.5) 9(2.74) 8(2.43) 18 (68) 17.5(l.21 '/2" (15mm) 4.3 20 x 20 (6.0x6.0) 10 (3.05) 8(2.43) 21 (79) 23.8(l.64 Note: 1 bar = 100 Kpa Maintenance Model RFC43 Concealed Sprinklers should be inspected quarterly and the sprinkler system maintained in accordance with NFPA 25. Do not clean sprinklers with soap and water, ammonia or any other cleaning fluids. Remove dust by using a soft brush or gentle vacuuming. Remove any sprinkler cover plate assembly which has been painted (other than factory applied) or damaged in any way. A stock of spare sprinklers should be maintained to allow quick replacement of damaged or operated sprinklers. Prior to installation, sprinklers should be maintained in the original cartons and packaging until used to minimize the potential for damage to sprinklers that would cause improper operation or non-operation. Model RFC43 Residential Concealed Sprinkler Specification Sprinklers shall be cULus Listed low flow residential concealed sprinklers with drop-down deflector and adjustable flat cover plate engineered for a minimum design density of 0.05 gprW. Sprinkler frame and deflector shall be of bronze frame construction having a 'h" NPT thread. Thermal element shall consist of an approved black - painted beryllium - nickel fusible solder link with symmetric lever mechanism, maintaining a Teflon-coated Belleville spring washer and machined brass cap water seal assembly containing no plastic parts. Sprinkler K- factor shall be nominal 4.3 (62.4), having a 7/16" orifice. Temperature rating shall be Ordinary 165 °F (74 0 C); cover plate temperature rating to be 135 °F (57 0 C). Cover plate assembly shall consist of a brass cover plate and copper alloy retainer flange having a [thread -on] [push-on] and thread -off design, allowing a Yz' cover plate adjustment. Any secure engagement between the cover plate and the cup will assure that the drop -down deflector is properly located below the ceiling. A plastic protective cap shall be provided and factory installed inside the sprinkler cup to protect the drop -clown sprinkler deflector from damage, Which could occur during construction before the cover plate is installed. Standard cover finish: [Chrome] [White] [Specialty— specify]. Residential concealed sprinklers shall be Reliable Model RFC43, SIN RA0612 (Bulletin 006). Ordering Information Specify: 1. Sprinkler Model 2. Cover Plate Finish 3. Thread -On or Push -On cover I" x 112" REDUCING TEE OR ELBOW [66.7mmJ DIA. HERB 2J [58.7mm] DIA sailiffiN HOLE IN CEILING J CUP 2" [W.8mm] MAX. FACE OF FITTING TO FACE OF CEILING DI MEN SION ....... CEILING " [12.7m2] MAX. I COVER ADJUSTMENT 34" Dt COVER PLATE [84.1mm] -� [4.8mm] ASSEMBLY COYER PLATE. • 1,12" [12.7mm] ADJUSTMEN a wwf over Plate Finishes "' Standard Finishes Chrome White Special Application Finishes Bright Brass Black Plating Black Paint Off White Satin Chrome "' Other colors and finishes available. Consult factory for details. Note: Paint or any other coatings applied over the factory finish will void all approvals and warranties. 34 �Qd 3. Product DescriptionRFC 43 Model RFC43 Concealed Residential Sprinklers are fast response residential fusible solder link automatic sprinklers. Residential sprinklers differ from standard sprinklers primarily in their response time and water distribution patterns. Model RFC43 sprinklers discharge water in a hemispherical pattern below the sprinkler deflector. Residential distribution patterns are higher and generally contain a finer droplet size than standard sprinkler patterns. The combination of speed of operation and high discharge pattern required for residential sprinklers has demonstrated, in fire testing, an ability for controlling residential fires, and thereby providing significant evacuation time for occupants. The RFC43 Sprinkler provides the best form of fire protection by combining an attractive appearance and '/2" (13mm) of cover adjustment for ease of installation. The small diameter cover plate is easily and positively attached and blends into the ceiling, concealing the most dependable fire protection available, an automatic sprinkler system. The RFC43 is a UL Listed Residential Sprinkler to be installed in the residential portions of any occupancy in accordance with NFPA 13, 13R, & 13D. The RFC43 can reduce the need for precise cutting of drop nipples. The threaded cover plate assembly can be adjusted without tools to fit accurately against the ceiling. The fire protection system need not be shut down to adjust or remove the cover plate assembly. Technical Data (F1 Res Sprinklers): • Thermal Sensor: Nominal 3mm glass -bulb • Sprinkler Frame : Brass Casting • Sprinkler Pressure Rating : 175 psi Factory Hydrostatically Tested to 500 psi • Thread Size : 1 /2 " NPT (R' /z) • K Factor : 4.9 (Actual) - F1 Res 49 Pendent Sprinkler 4.4 (Actual) - F1 Res 44 HSW Sprinkler 4.0 (Actual) - F1 Res 40 HSW Sprinkler • Density : Minimum .05 gpm /ft Technical Data (RFC 43): • Thermal Sensor: 165 °F Fusible Link • Sprinkler Frame : Brass Machined • Sprinkler Pressure Rating : 175 psi Factory Hydrostatically Tested to 500 psi • Thread Size : 1 /2 " NPT (RI/2) • K Factor : 4.3 (Actual) • Density : Minimum .05 gpm /ft Application Model F1 Res and RFC 43 Sprinklers are used for Residential Fire Protection according to UL 1626 Standard *. Be sure that orifice size, temperature rating, deflector style, cover plate and sprinkler type are in accordance with the latest published standards of The National Fire Protection Association or the approving Authority Having Jurisdiction. * Effective date July 12, 2002 a R I on 0 N ble Bulletin 035 Rev.0 Residential Sprinklers For Sloped Ceilings Guidelines for Listed Residential Sprinkler installations below Sloped Ceilings The installation guidelines cover Residential Sprinkler Models: F1 Res 49 Pendent F1 Res 49 Recessed Pendent/F1 F1 Res 44 HSW F1 Res 44 Recessed HSW /F2 F1 Res 40 HSW F1 Res 40 Recessed HSW /F2 F1 Res 49 CCP RFC 43 Flat Concealed Listings & Approvals 1. Listed by Underwriters Laboratories Inc. and UL Certified for Canada (cULus) 2. NYC MEA 258 -93 -E s� F1 Res 49 Pendent F1 Res 44 HSW UL Listing Category Residential Automatic Sprinkler UL Guide Number VKKW Patents: US Patent number 6,516,893 Model F1 Res 49 Product Description for F1 Res Sprinklers Model F1 Res Pendent sprinklers are fast response sprinklers combining excellent durability, high sensitivity glass -bulb and low profile decorative design. The F1 Res Horizontal Sidewall sprinklers are equally attractive when above ceiling piping cannot be used. The 3mm glass -bulb pendent sprinklers, with a K Factor of 4.9 for pendent and 4.4 for horizontal sidewall, permit the efficient use of residential water supplies for sprinkler coverage in residential fire protection design. The low flow F1 Res sprinklers are specially engineered for fast thermal response to meet the sensitive fire protection application needs of the latest residential market standards (UL 1626 Standard *). Upon fire conditions, rising heat causes a sprinkler's heat - sensitive glass -bulb to shatter, releasing the waterway for water flow onto the deflector, evenly distributing the discharged water to control a fire. WN F1 Res 40 HSW F1 Res 49 CCP Pendent RFC 43 * Effective date July 12, 2002 F1 Res 49 Recessed Pendent / F1 F1 Res 44 Recessed HSW/F2 F1 Res 40 Recessed HSW/F2 RFC 43 W c m 0 W 7) X The Reliable Automatic Sprinkler Co., Inc., 525 North MacQuesten Parkway, Mount Vernon, New York 10552 Product DescriptionRFC 43 Model RFC43 Concealed Residential Sprinklers are fast response residential fusible solder link automatic sprinklers. Residential sprinklers differ from standard sprinklers primarily in their response time and water distribution patterns. Model RFC43 sprinklers discharge water in a hemispherical pattern below the sprinkler deflector. Residential distribution patterns are higher and generally contain a finer droplet size than standard sprinkler patterns. The combination of speed of operation and high discharge pattern required for residential sprinklers has demonstrated, in fire testing, an ability for controlling residential fires, and thereby providing significant evacuation time for occupants. The RFC43 Sprinkler provides the best form of fire protection by combining an attractive appearance and 1 12' (13mm) of cover adjustment for ease of installation. The small diameter cover plate is easily and positively attached and blends into the ceiling, concealing the most dependable fire protection available, an automatic sprinkler system. The RFC43 is a UL Listed Residential Sprinkler to be installed in the residential portions of any occupancy in accordance with NFPA 13, 13R, & 13D. The RFC43 can reduce the need for precise cutting of drop nipples. The threaded cover plate assembly can be adjusted without tools to fit accurately against the ceiling. The fire protection system need not be shut down to adjust or remove the cover plate assembly. Technical Data (F1 Res Sprinklers): • Thermal Sensor: Nominal 3mm glass -bulb • Sprinkler Frame : Brass Casting • Sprinkler Pressure Rating : 175 psi Factory Hydrostatically Tested to 500 psi • Thread Size : 1 12 " NPT (R • K Factor 4.9 (Actual) - F1 Res 49 Pendent Sprinkler 4.4 (Actual) F1 Res 44 HSW Sprinkler 4.0 (Actual) - F1 Res 40 HSW Sprinkler • Density Minimum .05 gpm /ft Technical Data (RFC 43): • Thermal Sensor: 165 °F Fusible Link • Sprinkler Frame: Brass Machined • Sprinkler Pressure Rating : 175 psi Factory Hydrostatically Tested to 500 psi • Thread Size : Y2 NPT (RI/2) • K Factor 4.3 (Actual) • Density Minimum .05 gpm /ft Application Model F1 Res and RFC 43 Sprinklers are used for Residential Fire Protection according to UL 1626 Standard *. Be sure that orifice size, temperature rating, deflector style, cover plate and sprinkler type are in accordance with the latest published standards of The National Fire Protection Association or the approving Authority Having Jurisdiction. * Effective date July 12, 2002 2. METHOD OF CALCULATING THE CONVERSION OF 'RISE - OVER -RUN' TO DEGREES OF AN ANGLE. c run l a (rise) C 1.4 A = TAN (a /b) 2. slope distance: c = a + b Example: a = 4 b = 12 _4A = TAN - ' (a /b) -4A = TAN - ' = (0.333) -4 A = 18.43' 035 -ROR -A slope distance: c = 2 +12= C = 160 C = 12.65 3. Model F1 Res 49 Pendent & F1 Res 49 Recessed Pendent/F1 & F1 Res 49 CCP Pendent & RFC 43 Pendent Flat Concealed Sprinklers installed below Sloped Ceilings. F1 Res 49 Pendent RFC 43 F1 Res 49 Recessed Pendent / F2 F1 Res 49 CCP Pendent RFC 43 11 y F RFC 43 F1 Res 49 Recessed Pendent / F2 F1 Res 49 CCP Pendent RFC 43 11 14 /10 EL EYA TIO B LISTED AREA OF COVERAGE CORRESPONDS TO CEILING SLOPE L = THE MAXIMUM LISTED SPRINKLER SPACING, LENGTH (B MINIMUM). L/2 = ONE HALF THE MAXIMUM LISTED SPRINKLER SPACING MINIMUM). YV = THE MAXIMUM LISTED SPRINKLER SPACING, WIDTH. 4 = 3`-0 MAXIMUM. B = RANGE: 2/12 (0'4^) < B :9 8/12 (33.7~)' C Q`-O MINIMUM. osyna,, Sprinkler spacing below single sloped ceilings with 8 maximum slope {f 4L(33.7 a LISTED AREA OF COVERAGE CARRESPOA(DS 70 CE2dyG SU )I) L = THE MAXIMUM LISTED SPRINKLER SPACING, LENGTH (8' -0" MINIMUM). L/2 = ONE HALF THE MAXIMUM LISTED SPRINKLER SPACING (0' -4" MINIMUM). W = THE MAXIMUM LISTED SPRINKLER SPACING, WIDTH. A = 3' -0" MAXIMUM. 8 = RANGE: 2/12 (9.4') < 8 S 8/12 (33.7*). C = 8' -0" MINIMUM. Sprinkler spacing below multiple sloped ceilings with a maximum slope of %2 (33.7 pitch. A L Model F1 Res 49 Pendent & F1 Res 49 Recessed Pendent/F2 installed below Sloped Ceiling. Technical Data Thread Max. Pressure Max. Actual l A Ambient Temp. K Factor Sprinkler Escutcheon Sprinkler Identification Size psi (bar) p ) °F °C (metric) Length 7.0 0,48 Number (SIN) 'h" NPT (R'h) 175 (12) 100 (38) 4.9 (69,94) 2.25" / Ad'ustment R3516 Table 1 - Aonlication Max. Sprinkler Spacing Along Slope (VI) Width x (L) Length ft (m) Max. Slope of . 33.7° Pitch Max. Slope of + 18.4° Pitch Sprinkler Temp. Rating OF ( °C) 155 68 Min. Flow Per Sprinkler Head Pressure m (L m) psi (bar) Sprinkler Temp. Rating °F ( °C) 155 68) & 175 9 Min. Flow Per Sprinkler Head g m (L m) 13 49 13 49 Pressure psi bar 12 x 12 3,6 x 3,6 19 71,9 15.1 1,04 7.0 0,48 14 x 14 4,3 x 4,3 19 71,9 15.1 1,04 7.0 0,48 16 x 16 4,9 x 4,9 19 71,9 15.1 1,04 13 49 7.0 0,48 18 x 18 5,5 x 5,5 20 75,7 16.7 1,15 17 64,3 12.0 0,83 20 x 20 (6,1 x 6,1) 25 (94,5) 26 1,78 20 75,7 16.7 1,15 Model F1 Res 49 CCP Pendent installed below Sloped Ceiling. Technical Data Table 2 - Anolication Max. Sprinkler Spacing Along Slope Width x ( L) Length ft (m) Sprinkler Temp. cCP Assy. Temp Max. Max. Ambient Actual K Sprinkler Sprinkler Thread Size Ratin °F Rati Pressure Temp. Factor Length Identification 7.0 0,48 (°C OF °C psi (bar) OF °C metric 18 x 18 5,5 x 5,5 Number (SIN) Y," NPT (RY,,) 155 (68) 135 (57) 175 (12) 100 (38) 4.9 (69.94) 2.25" R3516 Table 2 - Anolication Max. Sprinkler Spacing Along Slope Width x ( L) Length ft (m) Max. Slope of a 33.7° Pitch Max. Slope of + 18.4° Pitch Min. Flow Per Sprinkler Head gpm ( L pm) Pressure psi (bar) Min. Flow Per Sprinkler Head m m Pressure psi (bar 12 x 12 3,6 x 3,6 20 75,7 16.7 1,15 13 49 7.0 0,48 14 x 14 4,3 x 4,3 20 (75,7) 16.7 1,15 13 49 7.0 0,48 16 x 16 4,9 x 4,9 20 (75,7) 16.7 1,15 14 53 21 79,4 21 79,4 8.2 0,56 18.4 1,27 18.4 1,27 18 x 18 5,5 x 5,5 Number (SIN) 20 x 20 (6,1 x 6,1 ) 165 74 Model RFC 43 Pendent Flat Concealed installed below Sloped Ceiling. Ter_hnir_al nata Thread Sprinkler Coverplate Max. Max. Actual Max. Sprinkler Size Temp. Rating °F °C) Temp. Rating °F Pressure Ambient Temp. K Factor Adjustment Identification 9.1 0,63 ( ( °C) psi (bar) °F °C metric 18 x 18 5,5 x 5,5 Number (SIN) '/2" NPT R'' /2 165 74 135 57 171,(19) 100 38 4.3 61,4 %" RA0612 Table 3 - Annlication Max. Sprinkler Spacing Along Slope (VI) Width x ( L) Length ft (m) Max. Slope of a 33.7° Pitch Max. Slope of + 18.4° Pitch Min. Flow Per Sprinkler Head m (L pm) Pressure psi bar Min. Flow Per Sprinkler Head m (L pm) Pressure psi (bar 12 x 12 3,6 x 3,6 18 68 17.5 1,21 13 49 9.1 0,63 14 x 14 4,3 x 4,3 18 68 17.5 1,21 13 49 9.1 0,63 16 x 16 4,9 x 4,9 18 68 17.5 1,21 13 49 9.1 0,63 18 x 18 5,5 x 5,5 21 79 23.8 1,64 20 x 20 6,1 x 6,1 21 79 23.8 1,64 7. Installation Guidelines 1. For systems designed in accordance with NFPA 13, 13D and 13R, where specific UL Listed flows are not required, consult with the local Authority Having Jurisdiction regarding the number of design sprinklers for sloped ceilings having a pitch greater than %(9.4°). 2. Installation of UL Listed residential sprinklers under sloped ceilings shall be limited to a type of unobstructed construction consisting of smooth ceilings, as defined by NFPA 13, having a maximum pitch of 4/12 (18.4 °) or 8/12 (33.7 °). 3. Spacing of residential sprinklers under sloped ceilings is measured along the slope when determining the distance off of walls and between sprinklers. 4. Measure listed areas of coverage alon the sloped ceiling. The actual floor coverage area wi be less than the listed area. 5. For coverage areas less than the listed coverage area shown in Tables 1 through 5, use the minimum flow requirement for the next largest listed coverage area. 6. Minimum spacing between pendent type sprinklers is 8 ft. (2.4 m). Minimum distance from a pendent type sprinkler and an adjacent wall is 4" (102 mm). 7. Residential sprinklers located closest to the peak of the ceiling shall have the deflectors located not more than 3 ft (1m) vertically down from the peak. Align deflectors parallel with the ceiling slope 1" to 4" (25mm to 102mm) below the sloped ceiling. 8. Hydraulic Requirements: a. For NFPA 13D Systems, the number of design sprinklers shall include all sprinklers within a compartment, up to a maximum of two sprinklers (where specific UL Listed flows are required) that requires the greatest hydraulic demand. b. For NFPA 13R Systems, the number of design sprinklers shall include all sprinklers within a compartment, up to a maximum of four (4) sprinklers (where specific UL Listed flows are required), that requires the greatest hydraulic demand. c. For NFPA 13 systems, the desi n area shall be the area that includes the four (4? hydraulically most demanding sprinklers. The minimum required discharge from each of the four hydraulically demanding sprinklers shall be the greater of the following: (1) In accordance with the minimum flow rates indicated by the individual listins (that already will provide a minimum density of 1 g rn ft or (2) A calculated value based on delivering a minimum of 0.1 gpm /ft over the design area. 9. Because of the varied nature of residential construction features, there will be some compartment designs which cannot be fully sprinklered in accordance with NFPA 13, 13D, or 13R. In these instances, consult the Authority Having Jurisdiction (AHJ) for guidance and approval. This includes sloped ceilings having a pitch greater than 8/12 (33.7 Model F1 Res 44 & 40 HSW and F1 Res 44 & 40 Recessed HSW /F2 installed below the slope ceiling. F1 Res 44 Recessed HSW/F2 91 Horizontal Sidewall Sprinkler (with discharge directed across the slope) F1 Res 44 HSW W/ 2 W �- W/2 A. *B C ELEVATION LISTED AREA OF COVERAGE CORRESPONDS TO CEILING SLOPE TOP OF DEFLECTOR MUST BE LOCATi 4' TO 12" BELOW SLOPED CEILING. THE TOP OF THE DEFLECTOR VUST PARALLEL WITH THE PLANE OF THE DISCHARGE IS ACROSS THE SLOPE. L = THE MAXIMUM LISTED SPRINKLER SPACING, LENGTH. W = THE MAXIMUM LISTED SPRINKLER SPACING, WIDTH. W/2 = ONE —HALF THE MAXIMUM LISTED SPRINKLER SPACING, WIDTH (0' -4" MINIMUM). A = 3' -0" MAXIMUM. B = RANGE: 2/12 (9.4') < B s 8/12 (33.7'). C = 8' -0" MINIMUM. HSW sprinkler spacing below single sloped ceilings with a maximum slope of %2 (33.7 °) pitch. LISTED AREA OF COVERAGE CORRESPONDS TO CEILING SLOPE z:1 ?; TOP OF DEFLECTOR ,MUST BE LOGO TED 4" TO 12" BELOW SLOPED CEILING. ELEVATION THE TOP OF THE DEFLECTOR IIUST BE PARALLEL WITH THE PLANE OF THE CEILING. DISCHARGE IS A GR0$S THE SLOPE. L = THE MAXIMUM USTED SPRINKLER SPACING, LENGTH. ! W = THE MAXIMUM LISTED SPRINKLER SPACING, WIDTH (0' -4" MINIMUM). W/2 = ONE —HALF THE MAXIMUM LISTED SPRINKLER SPACING, WIDTH (0' -4" MINIMUM). A = 3' -0" MAXIMUM. � B = RANGE: 2/12 (9.4') < B s 8/12 (33.7). 4 \ \ \ \ \ \\ C = 8' -0" MINIMUM. 03VG04 HSW Sprinkler spacing below multiple sloped ceilings with a maximum slope of %2 (33.7 pitch. Q Model F1 Res 44 HSW & F1 Res 44 HSW Recessed HSW /F2 with a maximum slope of 1/ (18.4 pitch. Technical Data Thread Sprinkler Max. Max. Actual Sprinkler Sprinkler Size Temp. Rating o °c) Pressure Ambient Temp. K Factor Length Escutcheon Identification Pressure ( psi bar °F °C metric psi (bar) Number (SIN) 1 /2" NPT (RI/2) 155 (68) 175 (79) 175 (12) 100 (38) 4.4 (62,8) 2.45" Yz "ad'ustment R3531 Model F1 Res 40 HSW and F1 Res 40 HSW Recessed HSW /F2 with a maximum slope of %z (33.7 pitch. F1 Res 40 HSW Technical Data i Discharge Directed Discharge Directed Across the Slope Across the Slope Table 4 - Application 4" to 6" 6" to 12" Deflector to Ceiling Deflector to Ceiling Max. S irinkler Spacing Along Slope Min. Flow Pressure Min. Flow Pressure Width x L) Len th ft (m) qpm L m psi (bar) m (L pm) psi (bar) 12 x 12 3,6 x 3,6 16 60,5 13.3 0,92 17 64,3 15 1,04 14 x 14 4,3 x 4,3 16 60,5 13.3 0,92 17 64,3 15 1,04 16 x 16 4,9 x 4,9 16 60,5 13.3 0,92 17 64,3 15 1,04 16 x 18 4,9 x 5,5 18 68,1 16.8 1,16 20 75,6 20.7 1,43 16 x 20 4,9 x 6,1 23 68,1 27.4 1,89 23 68,1 27.4 1,89 Model F1 Res 40 HSW and F1 Res 40 HSW Recessed HSW /F2 with a maximum slope of %z (33.7 pitch. F1 Res 40 HSW Technical Data Thread Max. Max. Actual K Sprinkler Sprinkler Size Pressure Ambient Temp. P °F Factor dentification Length psi (bar) ( °C) Number (SIN) metric Yz" NPT R' /z 175 12 100 38 4.0 57,09 2.45" R3538 10. r i hes 4u Recessed HSW/F2 Table 5 - Application Discharge Directed Down the Slope 4° to 6" Deflector to Ceiling Discharge Directed Down the Slope 6" to 12° Deflector to Ceilinq Discharge Directed Across the Slope 4" to 6° Deflector to Ceilin Max. S rinkler Spacing Along Slope Width x L Len th ft m "'Min. Flow m L m Pressure psi bar "'Min. Flow m (L pm) Pressure psi (bar) "'Min. Flow m (L pm) Pressure psi (bar 12 x 12 3,6 x 3,6 13 49,0 10.6 0,73 13 49,0 10.6 0,73 17 64,3 18.1 1,24 14x14 4,3x4,3 16 60,5 16 1,10 17 64,3 18.1 1,10 17 69,3 18.1 1,24 16x16 4,9x4,9 17 64,3 18.1 1,24 20 75,7 25 1,72 17 64,3 18.1 1,24 16 x 18 4,9 x 5,5 20* 75,7 25* 1,72 16 x 20 4,9 x 6,1 23 87,0 33.1 2,28 *Min flow and pressure on 175 °F temperature rating only is 21 gpm 79,5 L m and 27.6 psi 1,9 bar Escutcheons Recessed with F2 Recessed with F2 Standard or raised mount only Temperature Rating OF ( °C) 155 (68), 175 (79) 155 (68), 175 (79) 155 (68) (') Minimum Flow Per Sprinkler gpm (Lpm) Installation Guidelines 1. For systems designed in accordance with NFPA 13, 13D and 13R, where specific UL Listed flows are not required, consult with the local Authority Having Jurisdiction regarding the number of design sprinklers for sloped ceilings having pitch greater than 31, (9.4 2. Installation of UL Listed residential sprinklers under sloped ceilings shall be limited to a type of unobstructed construction consisting of flat, smooth ceilings, as defined by NFPA 13, having a maximum pitch of 4/12 (18.4 °) or 8/12 (33.7 °). 3. Where listed, install horizontal sidewall sprinklers along the wall below the sloped ceiling when discharge is directed across the slope, and install at the peak below the sloped ceiling when discharge is directed down the slope. Always align the sprinkler deflector parallel with the direction of the sloped ceiling. 4. Residential HSW sprinklers located closed to the peak of the ceiling shall have the deflectors located not more than 3 ft. (1m) vertically down from the peak. 5. Spacing of residential HSW sprinklers under sloped ceilings is measured along the slope when determining the distance off of walls and between sprinklers. 6. Measure listed areas of coverage along the sloped ceiling. The actual floor coverage area will be less than the listed area. 7. For coverage areas less than the listed coverage area shown in Tables 1 through 5, use the minimum flow requirement for next largest listed coverage area. 8. Minimum spacing between horizontal sidewall sprinklers is 8 ft. (2.4 m). Minimum distance from a horizontal sidewall sprinkler and an adjacent wall is 4" (102 mm). 9. Where installation of F1 Res 40 horizontal sidewall sprinklers provide discharge across a slope having a maximum pitch of 8/12, F2 escutcheons may be used for surface mounting only. 10. Hydraulic Requirements: For NFPA 13D Systems, the number of design sprinklers shall include all sprinklers within a compartment, up to a maximum of two sprinklers (where specific UL Listed flows are required) that requires the greatest hydraulic demand. Exception: For F1 Res 40 horizontal sidewall sprinklers, where discharge is directed across a slope having a maximum pitch of 8/12 and the compartment that requires the greatest hydraulic demand is large enough where three (3) or more sprinklers are required for adequate coverage, the minimum number of design sprinklers within that compartment shall be three (3), where specific UL Listed flows are required. For NFPA 13R Systems, the number of design sprinklers shall include all sprinklers within a compartment, up to a maximum of four (4) sprinklers (where specific UL Listed flows are required), that requires the greatest hydraulic demand. c. For NFPA 13 systems, the design area shall be the area that includes the four (4) hydraulically most demanding sprinklers. The minimum required discharge from each of the four hydraulically demanding sprinklers shall be the greater of the following: (1) In accordance with the minimum flow rates indicated by the individual listings (that already will provide a minimum density of 0.1 pm/ft or (2) A calculated value based on delivering a minimum of 0.1 gpm/ft over the design area. 11. Because of the varied nature of residential construction features, there will be some compartment designs which cannot be fully sprinklered in accordance with NFPA 13, 13D, or 13R. In these instances, consult the Authority Having Jurisdiction (AHJ) for guidance and approval. This includes sloped ceilings having a pitch greater than 8/12 (33.7). 11. tticalFire &Building Products Technical Services: Tel: (800) 381 -9312 / Fax: (800) 791 -5500 Series DS -1 — 5.6 K- factor Dry Type Sprinklers Quick and Standard Response, Extended Coverage General Description The Series DS -1, 5.6 K- factor, Quick Response (3 mm Bulb) and Standard Response (5 mm Bulb), Extended Coverage Horizontal Sidewall, Dry Type Sprinklers are decorative glass bulb automatic sprinklers. They are in- tended for use in applications where the sprinklers and /or a portion of the connecting piping may be exposed to freezing temperatures (e.g., horizontal piping extensions through a wall to protect an unheated area of a build- ing). The Series DS -1 Extended Cov- erage Horizontal Sidewall Sprinklers are designed for extended coverage use in light hazard occupancies (ECLH). WARNINGS The Series DS -1 Dry Type Sprinklers described herein must be installed and maintained in compliance with this document, as well as with the applica- ble standards of the National Fire Pro- tection Association, in addition to the standards of any other authorities hav- ing jurisdiction. Failure to do so may impair the performance of these de- vices. The owner is responsible for maintain- ing their fire protection system and de- vices in proper operating condition. The installing contractor or sprinkler IMPORTANT Always refer to Technical Data Sheet TFP700 for the "INSTALLER' WARNING" that provides cautions with respect to handling and instal -' lation of sprinkler systems and com- ponents. Improper handling and in- stallation can permanently damage a sprinkler system or its compo- nents and cause the sprinkler to fail to operate in a fire situation or cause it to operate prematurely. manufacturer should be contacted with any questions. The Series DS -1 Dry Type Sprinklers must only be installed in fittings that meet the requirements of the Design Criteria section. Model /Sprinkler Identification Numbers TY3338 - (3 mm Bulb Type) TY3358 - (5 mm Bulb Type) Technical Data Approvals UL and C -UL Listed. NYC Approved (Refer to Table A) Maximum Working Pressure 175 psi (12,1 bar) Inlet Thread Connection 1 inch NPT Discharge Coefficient K = 5.6 GPM /psis / (80,6 LPM /bars / Temperature Ratings Refer to Table A Finishes Sprinkler: Natural Brass, Chrome Plated, White Polyester Escutcheon: White Coated or Chrome Plated Physical Characteristics Inlet . . . . . . . . . . . . . Copper Plug . . . . . . ... . . . . Copper Yoke . . . . . . . .. Stainless Steel Casing . . . Galvanized Carbon Steel Insert . . . . . . . . Bronze Bulb Seat . . . . . . Stainless Steel Bulb . . . . . . . . . . . . Glass Compression Screw . . . . . Bronze Deflector . . . . . . . . . . . . Bronze Frame . . . .. . . Bronze Guide Tube . . .. . Stainless Steel Water Tube . . . . . . Stainless Steel Spring . . .. . . . . Stainless Steel Sealing Assembly . . . . . . . . . . Beryllium Nickel w/Teflon' Escutcheon . Carbon Steel 'Registered Trademark of DuPont Patents U.S.A. Patent No. 5,188,185 Operation When the Series DS -1 is in service, water is prevented from entering the assembly by the Plug & Belleville Seal- ing Assembly (Ref. Figure 1) in the Inlet of the Sprinkler. The glass Bulb contains a fluid that expands when ex- posed to heat. When the rated tem- perature is reached, the fluid expands sufficiently to shatter the glass Bulb, and the Bulb Seat is released. The compressed Spring is then able to ex- pand and push the Water Tube as well as the Guide Tube outward. This action simultaneously pulls inward on the Yoke, withdrawing the Plug & Belleville Seal from the Inlet allowing the sprin- kler to activate and flow water. Page 1 of 6 APRIL, 2004 TFP520 Page 2 of 6 SPRINKLER FINISH TY3338 HSW (3 mm Bulb Type) w/ Standard Escutcheon (Ref. Fig. 2) TY3358 HSW (5 mm Bulb Type) w/ Standard Escutcheon (Ref. Fig. 2) Temperature Bulb Natural 1 Chrome White Rating Color Code Brass Plated Polyester 135 °F /57 °C Orange 1, 2, 3 155 °F /68 °C Red 1, 2, 3 Notes: 1. Listed by Underwriters Laboratories, Inc. (Maximum order length of 48 inches). 2. Listed by Underwriters Laboratories for use in Canada (Maximum order length of 48 inches). 3. Approved by the City of New York under MEA 352 -01 -E. TABLE A SERIES DS -1, EXTENDED COVERAGE HORIZONTAL SIDEWALL DRY TYPE SPRINKLERS LABORATORY LISTINGS AND APPROVALS TFP520 APPLICATION Coverage ( Min Min Temperature Top Of Deflector To W x L Flow Pressure Rating Ceiling Distance ( FT x FT (m x m) GPM (LPM) PSI (BAR) °F Inches (mm) TY3338 HSW 16 x 16 (4,9 x 4,9) 26 (98) 21.6 (1,49) (3 mm Bulb Type) For Quick Response Light Hazard Extended Coverage 135 & 155 4 to 12 (100 to 300) 16 x 18 (4,9 x 5,5) 29 ( 110) . 1 8 26 85 ( ) 16 x 20 (4,9 x 6,1) 32 (121) 32.7 (2,25) 18 x 16 (5,5 x 4,9) 29 (110) 26.8(l.85) Per NFPA 13 APPLICATION Coverage ( Min Min Temperature Top Of Deflector To W x L Flow Pressure Rating Ceiling Distance ( FT x FT (m x m) GPM (LPM) PSI (BAR) °F Inches (mm) TY3358 HSW 16 x 16 (4,9 x 4,9) 26 (98) 21-6(1,49) (5 mm Bulb Type) Standard Response Light Hazard Extended Coverage 135 & 155 4 to 12 (100 to 300) 16 9 4 5 5 18 x (, x ,) 110 29 ( ) 268 (185) 26.8(1, 85) 16 x 20 (4,9 x 6,1) 32 (121) 32.7 (2,25) 18 x 16 (5,5 x 4,9) 29 (110) 26.8 (1,85) Per NFPA 13 Notes: 1. The minimum allowable spacing between sprinklers to prevent cold soldering is 14 feet (4,3 m). 2. To meet the deflector -to- ceiling distance of 4 to 12 inches (100 to 300 mm), the centerline of the sprinkler waterway must be 4 -7/16 to 12 -7/16 inches below the ceiling. TABLE B SERIES DS -1, EXTENDED COVERAGE HORIZONTAL SIDEWALL DRY TYPE SPRINKLERS UL AND C -UL INSTALLATION CRITERIA TFP520 Page 3 of 6 PLUG WITH YOKE CASING INSERT FRAME 3 or 5 mm DEFLECTOR GASKETED SPRING BULB PLATE SEAL WATER GUIDE BULB VENT COMPRESSION INLET 1" NPT SP ING TUBE TUBE SEAT HOLE SCREW FIGURE 1 TY3338 (3 mm BULB) AND TY3358 (5 mm BULB) EXTENDED COVERAGE HORIZONTAL SIDEWALL ASSEMBLY Design Criteria The Series DS -1 Sprinklers are in- tended for use in fire sprinkler systems designed in accordance with the ex- tended coverage installation guide- lines provided by NFPA 13 and the installation criteria provide by Table B. The Series DS -1 Dry Type Sprinkler is to be installed in the 1 inch NPT outlet or run of malleable or ductile iron threaded tee fittings that meet the di- mensional requirements of ANSI B16.3 (Class 150) or cast iron threaded tee fittings that meet the di- mensional requirements of ANSI B16.4 (Class 125) with the end sprin- kler fitting on a branch line to be plugged as shown in Figure 2. For wet pipe sprinkler systems, the Series DS -1 Dry Type Sprinklers may also be installed in the 1 inch NPT outlet of a Central Figure 730 Mechani- cal Tee or the following Tyco Fire Prod- ucts CPVC fittings: (P /N 80145) 1" x 1" NPT Female Adapter or (P /N 80249) 1" x 1" x 1" NPT Sprinkler Head Adapt- er Tee. NOTE Do not install the Series DS -1 into any other type fitting without first consult- ing the Technical Services Depart- ment. Failure to use the appropriate fitting may result in: failure of the sprin- kler to properly operate due to forma- tion of ice over the inlet Plug or binding of the inlet Plug; or, insufficient en- gagement of the inlet pipe threads with consequent leakage. Branch, cross, and feedmain piping connected to Dry Sprinklers and sub- ject to freezing temperatures must be pitched for drainage in accordance with the minimum requirements of the National Fire Protection Association for dry pipe sprinkler systems. ORDER LENGTHS: 2 -1/2" to 48" 4" t 1/8" (63,5 to 1219,2 mm) (101,6 t 3,2 mm) IN 1/4" (6,4 mm) INCREMENTS FACE OF MOUNTING FACE OF 1 -3/4" DIA. SURFACE � SPRINKLER -- ---- FITTING (44,5 mm) ---- - - - - -, �II 3" DIA. (76,2 mm) SPRINKLER FITTING -' (REFER TO DESIGN CENTERLINE 7/16" CRITERIA SECTION) OF WATERWAY (11,1 mm) FIGURE 2 TY3338 (3 mm BULB) AND TY3358 (5 mm BULB) EXTENDED COVERAGE HORIZONTAL SIDEWALL w/ STANDARD ESCUTCHEON WRENCH FLAT WRENCH RECESS PUSH WRENCH IN TO ENSURE ENGAGEMENT WITH SPRINKLER WRENCH FLATS FIGURE 3 W -TYPE 7 SPRINKLER WRENCH When Dry Sprinklers are to be used in Page 4of6 wet pipe sprinkler systems protecting areas subject to freezing temperatures (e.g., horizontal extensions into freez- ers), consideration must be given to the appropriate length of the sprinkler that will prevent freezing of the water in the connecting pipes due to conduc- tion. When the temperature surround- ing the wet pipe sprinkler system is maintained at a minimum temperature of 40 °F /4 °C, the following are the mini- mum recommended lengths between the face of the sprinkler fitting and the outside surface of the protected area (i.e., length exposed to minimum am- bient of 40'F /4 °C): • 12 inches (300 mm) when the tem- perature within the protected area is - 20 °F / -29 °C • 18 inches (450 mm) when the tem- perature within the protected area is - 40 °F / -40 °C • 24 inches (600 mm) when the tem- perature within the protected area is - 60 °F/ -51 °C For protected area temperatures be- tween those given above, the minimum recommended length from the face of the fitting to the outside of the pro- tected area may be determined by in- terpolating between the indicated val- ues. NOTE When Dry Sprinklers penetrate a wall into an area subject to freezing, the clearance space around the Sprinkler Casing must be completely sealed in order to prevent the leakage of moist air into the freezing area which might result in the formation of condensate around the Frame, Deflector, Bulb Seat, or Bulb. Failure to prevent the formation of condensate could result in the build -up of ice around the releasing components. This could result in an inadvertent operation of the sprinkler or impaired operation due to reduced thermal sensitivity. Installation The Series DS -1 Dry Type Sprinklers must be installed in accordance with the following instructions: NOTES The Series DS -1 must only be installed in fittings that meet the requirements of the Design Criteria section. Refer to the Design Criteria section for other important requirements regard- ing piping design and sealing of the clearance space around the Sprinkler Casing. Do not install any bulb type sprinkler if the bulb is cracked or there is a loss of liquid from the bulb. With the sprinkler held horizontally, a small air bubble should be present. The diameter of the air bubble is approximately 1116 inch (1,6 mm). A leak tight 1 inch NPT sprinkler joint should be obtained with a torque of 20 to 30 ft.lbs. (26,8 to 40,2 Nm). Higher levels of torque may distort the sprin- kler inlet with consequent leakage or impairment of the sprinkler. Do not attempt to compensate for in- sufficient adjustment in an Escutcheon Plate by under- or over - tightening the Sprinkler. Readjust the position of the sprinkler fitting to suit. Step 1. Horizontal sidewall sprinklers are to be installed in the horizontal position with their centerline of water- way perpendicular to the back wall and parallel to the ceiling. The word "TOP" on the Deflector is to face towards the ceiling. Step 2. With pipe thread sealant ap- plied to the inlet threads, hand tighten the sprinkler into the sprinkler fitting. Step 3. Wrench tighten the sprinkler by wrenching on the Casing with a pipe wrench whenever the casing is readily accessible. Otherwise, use a W -Type 7 Sprinkler Wrench (Ref. Figure 3). The wrench recess of the W -Type 7 is to be applied to the sprinkler wrench flats (Ref. Figure 3). Step 4. After the wall has been in- stalled /finished, slide on the outer piece of the Escutcheon until it comes in contact with the ceiling /wall. Care and Maintenance The Series DS -1 Dry Type Sprinklers must be maintained and serviced in accordance with the following instruc- tions: NOTES Absence of the outer piece of an es- cutcheon, which is used to cover a clearance hole, may delay the time to sprinkler operation in a fire situation. Before closing a fire protection system main control valve for maintenance work on the fire protection system that it controls, permission to shutdown the affected fire protection systems must be obtained from the proper authori- ties and all personnel who may be affected by this action must be notified. A Vent Hole is provided in the Bulb Seat (Ref. Figure 1) to indicate if the Dry Sprinkler is remaining dry. Evi- dence of leakage from the Vent Hole is an indication that there may be TFPS2O weepage past the Inlet seal and that the sprinkler needs to be removed for determining the cause of leakage (e.g. an improper installation oran ice plug). The fire protection system control valve must be closed and the system drained before removing the sprinkler. Sprinklers that are found to be leaking or exhibiting visible signs of corrosion must be replaced. Automatic sprinklers must never be painted, plated, coated, or otherwise altered after leaving the factory. Modi- fied sprinklers must be replaced. Sprinklers that have been exposed to corrosive products of combustion, but have not operated, should be com- pletely cleaned by wiping the sprinkler with a cloth or by brushing it with a soft bristle brush. Care must be exercised to avoid dam- age - before, during, and after instal- lation. Sprinklers damaged by drop- ping, striking, wrench twist/slippage, or the like, must be replaced. Also, replace any sprinkler that has a cracked bulb or that has lost liquid from its bulb (Ref. Installation Section). The owner is responsible for the in- spection, testing, and maintenance of their fire protection system and de- vices in compliance with this docu- ment, as well as with the applicable standards of the National Fire Protec- tion Association (e.g., NFPA 25), in addition to the standards of any other authorities having jurisdiction. The in- stalling contractor or sprinkler manu- facturer should be contacted relative to any questions. It is recommended that automatic sprinkler systems be inspected, tested, and maintained by a qualified Inspection Service in accordance with local requrements and /or national code. Limited Warranty Products manufactured by Tyco Fire Products are warranted solely to the original Buyer for ten (10) years against defects in material and work- manship when paid for and properly installed and maintained under normal use and service. This warranty will ex- pire ten (10) years from date of ship- ment by Tyco Fire Products. No war- ranty is given for products or components manufactured by compa- nies not affiliated by ownership with Tyco Fire Products or for products and components which have been subject to misuse, improper installation, corro- sion, or which have not been installed, TFP520 maintained, modified or repaired in ac- cordance with applicable Standards of the National Fire Protection Associa- tion, and /or the standards of any other Authorities Having Jurisdiction. Mate- rials found by Tyco Fire Products to be defective shall be either repaired or replaced, at Tyco Fire Products' sole option. Tyco Fire Products neither as- sumes, nor authorizes any person to assume for it, any other obligation in connection with the sale of products or parts of products. Tyco Fire Products shall not be responsible for sprinkler system design errors or inaccurate or incomplete information supplied by Buyer or Buyer's representatives. IN NO EVENT SHALL TYCO FIRE PRODUCTS BE LIABLE, IN CON- TRACT, TORT, STRICT LIABILITY OR UNDER ANY OTHER LEGAL THE- ORY, FOR INCIDENTAL, INDIRECT, SPECIAL OR CONSEQUENTIAL DAMAGES, INCLUDING BUT NOT LIMITED TO LABOR CHARGES, RE- GARDLESS OF WHETHER TYCO FIRE PRODUCTS WAS INFORMED ABOUT THE POSSIBILITY OF SUCH DAMAGES, AND IN NO EVENT SHALL TYCO FIRE PRODUCTS' Lk ABILITY EXCEED AN AMOUNT EQUAL TO THE SALES PRICE. THE FOREGOING WARRANTY IS MADE IN LIEU OF ANY AND ALL OF MERCHANTABILITY AND FIT- NESS FOR A PARTICULAR PUR- POSE. Ordering Procedure Contact your local distributor for avail- ability, and please specify the follow- ing: 1. Sprinkler. • Model /SIN. • Bulb Size (3 or 5 mm) • Extended Coverage Horizontal Page 5 of 6 Sidewall Dry Type Sprinkler. • 5.6 K- factor. • Order Length. Dry Type Sprinklers are furnished based upon Order Length as measured from the face of the wall to the face of the sprinkler fitting (Ref. Figure 2). After the measure- ment is taken, round it to the near- est 114 inch increment. • 1 Inch NPT Inlet Connection. • Temperature Rating. • Sprinkler Finish. • Standard Escutcheon and Finish. • Part Number fro Table C. 2. W -Type 7 Sprinkler Wrench. Refer to the Price List for complete listing of Part Numbers. P/N 60 -XXX -X -XXX ORDER LENGTH (1) (EXAMPLES) MODEUSIN 350 EC Sidewall 3 mm Bulb TY3338 1 (1 "NPT), 135F/57C 4 351 EC Sidewall 3 mm Bulb TY3338 (1 "NPT), 155F/68C 9 ' 055 082 180 187 372 5.50" SPRINKLER FINISH ESCUTCHEON FINISH 8.25" NATURAL BRASS WHITE 18.00" WHITE POLYESTER WHITE 18.75" 1 CHROME PLATED 1 CHROME PLATED 37.25" 0 1 CHROME PLATED I WHITE 1 1 480 1 48.00" NOTES (1). Dry Type Sprinklers are furnished based upon "Order Length" as measured per Figure 2. After the measure- ment is taken, round it to the nearest 1/4 inch increment. Eastern Hemisphere sales only. TABLE C PART NUMBER SELECTION SERIES DS -1 EXTENDED COVERAGE HORIZONTAL SIDEWALL DRY TYPE SPRINKLERS (Use Prefix `7" for ISO 7 -R1 Connection, e.g., 1 -60- 350 -1 -180) __ 1 1 3 WHITE (RAL9010) WHITE (RAL9010)` 950 EC Sidewall, 5 mm Bulb (1" NPT), 135F/57C TY3358 951 EC Sidewall, 5 mm Bulb (1" NPT), 155F/68C TY3358 NOTES (1). Dry Type Sprinklers are furnished based upon "Order Length" as measured per Figure 2. After the measure- ment is taken, round it to the nearest 1/4 inch increment. Eastern Hemisphere sales only. TABLE C PART NUMBER SELECTION SERIES DS -1 EXTENDED COVERAGE HORIZONTAL SIDEWALL DRY TYPE SPRINKLERS (Use Prefix `7" for ISO 7 -R1 Connection, e.g., 1 -60- 350 -1 -180) Page 6 of 6 TFP520 TYCO FIRE PRODUCTS, 451 North Cannon Avenue, Lansdale, Pennsylvania 19446 TECHNICAL DATA TABLE 2c. Dimensions and Physical Characteristics of Copper Tube: TYPE M Nominal or Standard Size, inches Nominal Dimensions, inches Calculated Values (based on nominal dimensions) Outside Diameter Inside Diameter Wall Thickness Cross Sectional Area of Bore, s inches Weight of Tube Only. pounds per linear ft Weight of Tube & Water, pounds per linear ft Contents of Tube per linear ft Cu ft Gal 3 /'1 .500 .450 .025 .159 .145 .214 .00110 .00826 1 1 / .625 .569 .028 .254 .204 .314 .00176 .0132 2 .875 .811 .032 .517 .328 .551 .00359 .0269 1 1.125 1.055 .035 .874 .465 .843 .00607 .0454 1'/4 1.375 1.291 .042 1.31 .682 1.25 .00910 .0681 1'b 1.625 1.527 .049 1.83 .940 1.73 .0127 .0951 2 2.125 2.009 .058 3.17 1.46 2.83 .0220 .165 2'1, 2.625 2.495 .065 4.89 2.03 4.14 .0340 .254 3 3.125 2.981 .072 6.98 2.68 5.70 .0485 .363 T/7 3.625 3.459 .083 9.40 3.58 7.64 .0653 .488 4 4.125 3.935 .095 12.2 4.66 9.83 .0847 .634 5 5.125 4.907 .109 18.9 6.66 14.8 .131 .982 6 6.125 5.881 1 .122 27.2 8.92 1 20.7 .189 1.41 8 8.125 7.785 .170 47.6 16.5 37.1 .331 2.47 10 10.125 9.701 .212 73.9 25.6 57.5 .513 3.84 12 12.125 11.617 .254 106 36.7 82.5 .736 1 5.51 TABLE 2d. Dimensions and Physical Characteristics of Copper Tube: DMV (Drain, Waste and Vent) Nominal or Standard Size, inches Nominal Dimensions, inches Calculated Values (based on nominal dimensions) Outside Diameter Inside Diameter Wall Thickness Cross Sectional Area of Bare, s inches Weight of Tube Only, pounds per linear ft Weight of Tube & Water, pounds per linear ft Contents of Tube per linear ft Cu ft Gal 1' /s 1.375 1.295 .040 1.32 .650 1.22 .00917 .0686 1 1 / 1.625 1.541 .042 1.87 .809 1.62 .0130 .0971 2 2.125 2.041 .042 3.27 1.07 2.48 .0227 .170 3 3.125 3.030 .045 7.21 1.69 4.81 .0501 .375 4 4.125 4.009 .058 11.6 2.87 7.88 .0806 .603 5 5.125 4.981 .072 19.5 4.43 12.9 .135 1.01 6 6.125 5.959 .083 27.9 6.10 18.2 .194 1.45 8 8.125 7.907 .109 49.1 10.6 31.8 .341 2.55 22 TABLE 7. Pressure Loss in Fittings and Valves Expressed as Equivalent Length of Tube, feet Nominal or Standard Size, in Fittings Valves Standard Ell 90° 45° 90° Tee Side Straight Branch Run Coupling Ball Gate Btfly Check 1 /8 .5 - 1.5 - 1.5 'k 1 .5 2 - - 2 5 /8 1.5 .5 2 - - - 2.5 3 A 2 .5 3 - - - - - 3 1 2.5 1 4.5 - - .5 - - 4.5 Ph 3 1 5.5 .5 .5 .5 - - 5.5 1'/2 4 1.5 7 .5 .5 .5 - - 6.5 2 5.5 2 9 .5 .5 .5 .5 7.5 9 2 1 /2 7 1 2.5 12 .5 .5 - 1 10 11.5 3 9 3.5 15 1 1 - 1.5 15.5 14.5 3 1 /2 9 3.5 14 1 1 - 2 - 12.5 4 12.5 5 21 1 1 - 2 16 18.5 5 16 6 27 1.5 1.5 - 3 11.5 23.5 fi 1 19 7 34 2 2 - 3.5 13.5 26.5 8 29 11 50 3 3 - 1 5 12.5 39 NOTES: Allowances are for streamlined soldered fittings and recessed threaded fittings. For threaded fittings, double the allowances shown in the table. The equivalent lengths presented above are based upon a C factor of 150 in the Hazen- Williams friction loss formula. The lengths shown are rounded to the nearest half foot. 32 FIGURE 5. Selected Pressure Fittings O O FTG x M Adapter OO iO C x M Adapter ADAPTERS O O FTG x F Adapter OO iO C x F Adapter zO O C x C 45° Elbow OO iO FTG x C 45° Elbow x C 90 =1bow FTG xC 90° Elbow 2) OO COUPLINGS CxC Roll Stop C x C Staked Stop C x C Union OO (Z O --11 ------------- I7 C x C x F Tee C x C x C Tee OO OO OO ,O C x FTG x C Tee C x C No Stop (2� iO C x C Reducing GENERAL NOTES: (a) Fittings are designated by size in the order: 1x2x3 (b) Fitting designs and drawings are for illustration only. 36 FIGURE 6. Dimensions of Solder Joint Fitting Ends Male End ii I G No Female End WROUGHT FITTING ENDS' - G Male End Female End CAST FITTING ENDS' Drawings and designs of fittings are for illustration only. TABLE 9. Dimensions of Solder Joint Ends for Wrought (W) and Cast (C) Pressure Fittings, inches Nominal or Standard Fittings Size.ln. Type Male End Female End For use with tube size Outside Diameter A Min. Max. Length K Min. Inside Diameter F Min. Max. Depth G Min. under ASTM B 88 under ASTM B 280 under ASTM B 819 under ASTM B 837 '/a W .248 .251 .38 .252 .256 .31 '/ '/4 C W .373 .376 .38 .377 .381 .31 ' /4 3 /3 '14 3 /a 3 /a C W .497 .501 .44 .502 .506 .38 '/a '/2 3 /a 'h ' h C W .622 .626 .56 .627 .631 .50 ' h 5 /8 z 5 /e 5 /8 W .747 .751 .81 .752 .756 .75 '/a '/ 5 /a ' / 4 '/< C W .872 .876 .81 .877 .881 .75 ' /4 2 1a '14 7 /a 1 C W 1.122 1.127 .97 1.128 1.132 .91 1 17e 1 178 174 C W 1.372 1.377 1.03 1.378 1.382 .97 1' /4 1' /e 1'/4 1'h C W 1.621 1.627 1.16 1.628 1.633 1.09 1 1 h 1 5 /8 1'/2 2 C W 2.121 2.127 1.41 2.128 2.133 1.34 2 T/8 2 2'h C W 2.621 2.627 1.53 2.628 2.633 1.47 2 2 2'/2 3 C I W 3.121 3.127 1.72 3.128 3.133 1.66 3 T/a 3 3 C W 3.621 3.627 1.97 3.628 1633 1.91 3 3 T/2 4 C W 4.121 4.127 2.22 4.128 4.133 2.16 4 47a 4 5 C W 5.121 5.127 2.72 5.128 5.133 2.66 5 * 5 6 C W 6.121 6.127 3.22 6.128 6.133 3.09 6 6 8 C W 8.119 8.127 4.09 8.128 8.133 3.97 8 8 10 C 10.119 10.127 4.12 10.128 10.133 4.00 10 12 C 1 12.119 12.127 4.62 12128 12.133 4.50 12 Copper tube under this standard is not commercially available. 37 I-'*-- K I Ir K 1 514 OFFSET C.P.V.C. - STEEL - COPPER HANGER SIZE - 3/4" thru 2 "pipe. MATERIAL - Carbon Steel. FINISH - Mil. Galvanized.. LISTINGS - *us EX 4231, EX 2551 PATENT-- No. 6,648,278. FUNCTION - Use on C.P.V.C., Copper or Steel pipe. Hanger and restrainer on top, bottom or side position. INSTALLATION - Per N.F.P.A 13,13R and 13D on top, bottom or side of beam. Space by pipe type. On 3/8" wood web use #906 backing nuts. - see drawing. Snap over pipe then squeeze strap back allowing pipe to slide freely. On copper - insulate pipe. FASTENERS - UL Listed per NFPA 13 in WOOD: CPVC pipe - #905 screw- no pre -drill. Copper pipe - #905 screw- no pre - drill. Steel pipe - 1/4 "x11 /2" lag screw - no pre-drill. in STEEL: CPVC pipe - 1/4" or #14 Tek Screw. Copper pipe - 1/4" or #14 Tek Screw. Steel pipe - 1/4" or # 14 Tek Screw. FEATURES * 1 1/2" Offset. * 3/4" and 1" pipe size have common center -line. * Leg design produces superior strength. * Offset edge eliminates abrasion. * Required AFCON #905 screw has 5/16" hex head - included ORDERING - Part # and pipe size. AFCON #906 sold separately. fNDEX Hanger/ Restrainer Stabilize - Only 05/03 ® Fig. 200 ® C® "Trimline" Adjustable Band Hanger Size Range — 1/2 thru 8 inch pipe. Material — Carbon Steel, Mil. Galvanized to G -90 specifications. Function — For fire sprinkler and other general piping purposes. Knurled swivel nut design permits hanger adjustment after installation. Features • (1/2 thru 2 inch) Flared edges ease installation for all pipe types and protect CPVC plastic pipe from abrasion. Captured design keeps adjusting nut from separating with hanger. Hanger is easily installed around pipe. • (2 -1/2 thru 8 inch) Spring tension on nut holds it securely in hanger before installation. Adjusting nut is easily removed. Approvals — Underwriters' Laboratories Listed (1/2" thru 8 ") in the U.S. (UL) and Canada (cUL) for steel and CPVC plastic pipe and Factory Mutual Engineering Approved (3/4" thru 8 "). Conforms to Federal Specifications WW -H -171 E, Type 10, and Manufacturers Standardization Society SP -69, type 10. Maximum Temperature - 650 °F, Finish — Mil. Galvanized, for Stainless Steel materials order Tolco Fig. 200WON. Order By— Figure number and pipe size. PIPE 3/8 ROD SIZE 5 -5/8 4 -1/8 MAX. REC. APPROX. SIZE INCH METRIC* A B LOAD LBS. WT. /100 1/2 3/8 8mm or 10mm 3 -1/8 2 -5/8 400 11 3/4 3/8 8mm or 10mm 3 -1/8 2 -1/2 400 11 1 3/8 8mm or 10mm 3 -3/8 2 -5/8 400 12 1 -1/4 3/8 8mm or 10mm 3 -3/4 2 -7/8 400 13 1 -1/2 3/8 8mm or 10mm 3 -7/8 2 -7/8 400 14 2 3/8 8mm or 10mm 4 -1/2 3 400 15 2 -1/2 3/8 10mm 5 -5/8 4 -1/8 600 27 3 3/8 10mm 5-7/8 4 600 29 3 -1/2 3/8 10mm 7 -3/8 5 -1/4 600 34 4 3/8 10mm 7 -3/8 5 1000 35 5 1/2 12mm 9 -1/8 6 -1/4 1250 66 6 1/2 12mm 10 -1/8 6 -3/4 1250 73 8 1/2 12mm 13 -1/8 8 -3/4 1250 136 *Order Fi4. 200M 5/24/2001 -89- Fig. 98 Rod Stiffener Size Range — Secures 3784hru 7/8 inch hanger rod. Material — Carbon Steel. Function — Secures channel to nger rod for vertical seismic bracing. Finish— Electro Galvanized. Order Bye— Figure number. Note — Available in HDG finish or Stainless el materials. . U . All Thread Rod Size Range -318 thru 7/8 inch rod in 1 inch increments. Material — Carbon Steel. Maximum Temperature -750T. Finish— Plain. Order By— Figure number, rod diameter, rod length, and fini Note — Available in Ele - alvanized and HDG finish or finless Steel materials. Fig. 100 All Thread Rod Full Lengths Size Range -318 thru 7/8 inch rod in 10 foot lengths. Material — Carbon Steel. Maximum Temperature -750T. Finish— Plain. Order By— Figure number, rod diameter, and finish. Note — Available in Electro- Galvanized and HDG finish or Stainless Steel materials. Length 5/24/2001 -71- MAX. REC. LOAD LBS. ROD FOR SERVICE TEMPS SIZE 650 °F 750 °F 3/8 610 540 650 °F 750 °F 1130 1010 5/8 1810 1610 3/4 710 2420 7/8 3 3360 Length 5/24/2001 -71- MAX. REC. LOAD LBS. APPROX. ROD FOR SERVICE TEMPS WEIGHT SIZE 650 °F 750 °F PER 100FT. 1/4 240 215 12 3/8 610 540 29 1/2 1130 1010 53 5/8 1810 1610 84 314 2710 2420 123 7/8 3770 3360 169 1 4960 4420 222 1 -1/4 8000 7140 360 1 -1/2 11630 10370 510 Length 5/24/2001 -71- WOOD— samm W OOD rtt Mo unt) Use #14 Nut Driver (Item #100) Item# Model Shk Lgth Shk Dia Box Qty Weight (per 100) Case Qty 20 GST.750 3/4 114 100 4.75 1000 21 GST 100 1 1/4 100 5.00 1000 22 GST 200 2 1/4 100 6.50 1000 23 IGST300 1 3 1 1/4 100 1 7.50 1000 24 IGST600 1 6 1 1/4 1 50 1 9.00 500 Use #14 Nut Driver (Item #100) #14 (item #100 -black) Sammys 114 ", 3B" rod o Approvals Item # Model Shk Lgth Shk Dia #14SW (Item #101 -red) Sidewinders 8 Sammys 12" rod n i Not less than 2" nominal width (1� q Wood Joist Minimum 2" imbedment into base material for NFPA 13 compliance TJI Joist /Truss Consult truss manufacturer for recommended installation point *Pre - drilling may be required for items #27 and #06. Tools available on page 9. For vertical use. Install in center of lower face. N E m r E C q W q E «ct= m m$o Z c v q 0 0 cL m v Page 4 - Note:Screws must be installed with appropriate nut driver to comply with warranty FM Test Load, 111 Test L Lo ad Ib. UUFM Pi Size Actual Pullout Box Qty 10 GST.75 3/4 1/4 564# - 6 Ply 100 NFPA 11 GST 10 1 1/4 210# - 7/16 OSB 670# - 3/4" Ply 100 UL•FM•I,IFPA 12 GST20 2 1/4 940# 850# 3/4 -2 1/2 17609 - Fir 100 UL -rWPA * 27 GST 25 -380 2 1/2 3/8 1500# 4 2113# - Fir 50 UL-FM-NFPA 13 GST 30 3 1/4 1475# 1500# 3/4 -4 2060# - Fir 100 NFPA 403 GST40 4 1/4 2180# - Fir 50 NFPA 14 GST60 6 1/4 2230# - Fir 50 #14SW (Item #101 -red) Sidewinders 8 Sammys 12" rod n i Not less than 2" nominal width (1� q Wood Joist Minimum 2" imbedment into base material for NFPA 13 compliance TJI Joist /Truss Consult truss manufacturer for recommended installation point *Pre - drilling may be required for items #27 and #06. Tools available on page 9. For vertical use. Install in center of lower face. N E m r E C q W q E «ct= m m$o Z c v q 0 0 cL m v Page 4 - Note:Screws must be installed with appropriate nut driver to comply with warranty WOOD—Sidewinders rte Floor Joist r TJI Joist / Truss Consult truss manufacturer for recommended installation point *Pre - drilling may be required for item #16. Tools available on page 9. Not less than 2" nominal width (11/2") up to 31/2' pipe; not less than 3" nominal width 4" & 5" pipe Minimum 2112" from bottom for branch lines. Minimum 3" from bottom for main lines. Exception: This requirement shall not apply to 2" or thicker nailing strips resting SHEETROCK—Toggle on top of steel beams. SHEETROCK R1/ Mount) Use #14 Nut Driver (Item #100) Item# Model Shk Lgth Shk Dia Actual Pullout Box Qty Weight Case Qty Shk Lgth Shk Dia 1/4 Box Qty (per 100) Case Qty (per 100) SST 30 71 SST300 3 1/4 450# Lath & Plaster 50 12.00 500 1 1/4 404# 2 Layers 5/8 Rock 100 404# 2 Layers 5/8 Rock 1000 300 SWIG 200 #14 (Item #100 - black) Sammys 1/4 ", 318" rod Rod l Mo unt) Use #14 Nut Driver (Item #100) Item# Model Shk Lgth Shk Dia Actual Pullout Pkg Qty Weight Case Qty Item # Model Shk Lgth Shk Dia 1/4 Box Qty (per 100) Case Qty 70 SST 30 3 1/4 450# Lath & Plaster 50 12.00 500 4016 S WG 100 1 1/4 404# 2 Layers 5/8 Rock 100 7.50 1000 ..I Rod I I I tal Moun Use #14SW Nut Driver (item # 10 1) Model Shk Lgth Shk Dia Test Loadlh. Actual Actual Shear /Pullout Weight Weight t (per 100) Item # Model Shk Lgth Shk Dia 1/4 Box Qty Case Qty 100 6.00 UL•NFPA 19 Shear /Pullout 2 (per 100) 1250# 4016 S WG 100 1 1/4 UL•NFPA 100 7.50 1000 300 SWIG 200 2 1/4 1725# -Fir 100 8.00 1000 Use #14S W Nut Driver (Item #101) #14SW (Item #101 -red) Sidewinders & Sammys 1/2" rod Approvals Item# Model Shk Lgth Shk Dia Test Loadlh. UUFM Pi Size Actual Shear /Pullout Box Qty Weight t (per 100) 18 SWG ]0 1 1/4 100 6.00 UL•NFPA 19 SWIG 20 2 1/4 1250# 3 1725# - Fir 100 7.00 UL•NFPA ' 26 SWG25 -380 2 1/2 3/8 1500# 4 2249# - Fir 50 10.25 25 ISWG30 1 3 1/4 1 50 1 8.50 Note. Strews mustbeinstaaed with appropriate nutdriver tocomp1j with woreonty Page 5 Q Prestressed Concrete - WILKIN SPECIFICATION SUBMITTAL SHEET FEATURES Sizes: ❑ 3/4" ❑ 1" ❑ 1'/4" ❑ 1 ❑ 2" Maximum working water pressure 175 PSI Maximum working water temperature 180 °F Hydrostatic test pressure 350 PSI End connections Threaded ANSI 81.20.1 OPTIONS (Suffixes can be combined) ❑ - with full port OT ball valves (standard) ❑ L - less ball valves ❑ U - with union ball valves ❑ MS - with integral relief valve monitor switch ❑ P - for reclaimed water systems ❑ S - with bronze "Y" type strainer ❑ BMS - with battery operated monitor switch ❑ FDC - with fire hydrant connection; 2" only ❑ TCU - with test cocks up ❑ V - with union swivel elbows ❑ SE - with street elbows ❑ RV - with test cocks supplied on the opposite side ❑ FT - with integral male 45 flare SAE test fitting ACCESSORIES ❑ Air gap (Model AG) ❑ Repair kit (rubber only) ❑ Thermal expansion tank (Model WXTP) ❑ Soft seated check valve (Model 40) ❑ Shock arrester (Model 1250) DIMENSIONS & WEIGHTS (do not include pkg.) Model 975XL Reduced Pressure Principle Assembly APPLICATION Designed for installation on potable water lines to protect against both backsiphonage and backpressure of contami- nated water into the potable water supply. Assembly shall provide protection where a potential health hazard exists. STANDARDS COMPLIANCE ❑ ASSEO Listed 1013 ❑ IAPMO© Listed ❑ ULO Classified (less shut -off valves or with OS &Y valves) ❑ C -ULO Classified ❑ CSAO Certified ❑ AWWA Compliant ❑ Approved by the Foundation for Cross Connection Control and Hydraulic Research at the University of Southern California MATERIALS Main valve body Cast Bronze ASTM B 584 Access covers Cast Bronze ASTM B 584 Fasteners Stainless Steel, 300 Series Elastomers Silicone (FDA Approved) Buna Nitrile (FDA Approved) Polymers NorylTM, NSF Listed Springs Stainless steel, 300 series �w :n lo � Ir�r� • l _ Page 1 of 2 oocuME BF- 975XL(LG) R 1/01 DIMENSIONS roximate WEIGHT MODEL SIZE in. I mm A in. mm A UNION BALL VALVES in. I mm BLESS BALL VALVES in. I mm C in. I mm D in. I mm E in. I mm F in. I mm G in. mm LESS BALL VALVES Ibs. kq WITH BALL VALVES Ibs. I k 3/4 20 12 305 14 356 7 34 197 2 1/8 54 3 76 31/21 89 5 127 15314 400 10 4.5 12 5.5 1 25 13 330 14 1/41 362 7314 197 21/8 54 3 76 31/2 89 5 127 17314 451 10 4.5 14 6.4 1 1/4 32 17 432 19 483 1015116 278 23/4 70 3 1/2 89 5 127 6314 171 22 559 22 10 28 12.7 2 50 18 1 /2 470 21 1 /4 540 1015116 278 2 3/4 70 3 1 /2 89 5 127 63/4 171 25 1 /2 648 22 10 34 15.4 l _ Page 1 of 2 oocuME BF- 975XL(LG) R 1/01 FLOW CHARACTERISTICS a Model 975XL 3/4" & 1" (STANDARD) T 20 vu ,. 20 Model 975XL 20m_m & 25mm (METRIC) x150 a 150 m 120 2omm 25mm � 120 Capacity thru Schedule 40 Pipe Pipe size 5 ft /sec 7.5 ft /sec 10 ft /sec 15 ft /sec 1/8" 1 1 2 3 1/4" 2 2 3 5 3/8" 3 4 6 9 1/2' 5 7 9 14 3/4' 8 12 17 25 1" 13 20 27 40 1 23 Capacity thru Schedule 40 Pipe Pipe size 5 ft /sec 7.5 ft /sec 10 ft /sec 15 ft /sec 1/8" 1 1 2 3 1/4" 2 2 3 5 3/8" 3 4 6 9 1/2' 5 7 9 14 3/4' 8 12 17 25 1" 13 20 27 40 1 1/4" 23 35 47 70 1 1/2" 32 48 63 95 2" 52 78 105 167 FLOW RATE (1 /s) O Rated Flow FLOW RATE (1 /s) (Established by approval agencies) TYPICAL INSTALLATION Local codes shall govern installation requirements. To be installed in accordance with the manufacturers' instructions and the latest edition of the Uniform Plumbing Code. Un- less otherwise specified, the assembly shall be mounted at a minimum of 12" (305mm) and a maximum of 30" (762mm) above adequate drains with sufficient side clearance for test- ing and maintenance. The installation shall be made so that no part of the unit can be submerged. CENTRAL STATION ALARM PANEL BATTERY MONITOR SWITCH AIR GAP FITTING 12' MIN. 30" MAX. D D FLOOR FLOOR DRAIN DIRECTION OF FLOW INDOOR INSTALLATION (Shown w /optional SMS) SPECIFICATIONS DIRECTION OF FLOW INLET SHUT -OFF OUTDOOR INSTALLATION The Reduced Pressure Principle Backflow Preventer shall be ASSEO Listed 1013, rated to 180 °F and supplied with full port ball valves.The main body and access covers shall be bronze (ASTM B 584), the seat ring and all internal polymers shall be NSFO Listed NoryITM and the seat disc elastomers shall be silicone. The first and second checks shall be accessible for maintenance without removing the relief valve or the entire device from the line. If installed indoors, the installation shall be supplied with an air gap adapter and integral monitor switch. The Reduced Pressure Principle Backflow Preventer shall be a WILKINS Model 975XL. Page 2 of 2 Model 975XL 1 ", 1 & 2" (STANDARD) FLOW RATES (GPM) Model 975XL 32mm, 40mm & 50mm (METRIC) 1 50 100 150 200 FLOW RATES (GPM) Model 975XL 32mm, 40mm & 50mm (METRIC) PROTECTIVE ENCLOSURE 12" MIN — so" MAX OPTIONAL AIR GAP WATER METER DRAIN WILKINS OPERATION OF ZURN INDUSTRIES, 1747 Commerce Way, Paso Robles, CA 93446 Phone:805 /238 -7100 Fax:805/238 -5766 IN CANADA: ZURN INDUSTRIES LIMITED, 3544 Nashua Dr., Mississauga, Ontario L4V 11-2 Phone:905 /405 -8272 Fax:905/405 -1292 Product Support Help Line: 1- 877 - BACKFLOW (1 -877- 222 -5356) • Website: http: / /www.zum.com I PROTECTIVE ENCLOSURE 12" MIN — so" MAX OPTIONAL AIR GAP WATER METER DRAIN WILKINS OPERATION OF ZURN INDUSTRIES, 1747 Commerce Way, Paso Robles, CA 93446 Phone:805 /238 -7100 Fax:805/238 -5766 IN CANADA: ZURN INDUSTRIES LIMITED, 3544 Nashua Dr., Mississauga, Ontario L4V 11-2 Phone:905 /405 -8272 Fax:905/405 -1292 Product Support Help Line: 1- 877 - BACKFLOW (1 -877- 222 -5356) • Website: http: / /www.zum.com ❑ The AGF Manufacturing Inc. Model 1000 TESTANDRAIN Provides Both The Test Function And The Express Drain Function For A Wet Fire Sprinkler System. ❑ The Model 1000 Complies With All Requirements Of NFPA -13, NFPA -13R, And NFPA -13D. Li The Model 1000 TESTANDRAIN Is A Single Handle Ball Valve That Is Light Weight And Compact, Includes A Tamper Resistant Test Orifice, Integral Tamper Resistant Sight Glasses, And Is 300 PSI Rated. ❑ Available In A Full Range Of Sizes From 3/4" To 2" NPT & BSPT, With All Specifiable Orifice Sizes 3/8 ", 7/16 ",1 /2 ",17/32 ", 5/8" (ELO), & 3/4" (ESFR). ❑ The Orifice Size Is Noted On The Indicator Plate And The Valve Is Tapped For A Pressure Gauge. ❑ Locking Kit Available Which Provides Superior Vandal Resistance And Prevents Unintentional Alarm Activation. 10 /00 G� 0%) ou Visit AUtoc G`(�e on the Internet "to" at at . .. MODEL 1000 3/4" P L A N VIEW t � AEI I B TO DRAIN j 1 FRONT VIEW /HORIZONTAL INSTALLATION I F 4 H. t TO DRAIN I I 1 i ORIFICE SIZE AVAILABLE - 3/8 7/16, 1/2, 17/32, ELO(5 /8)`, ESFR(3 /4)` DIMENSIONS - INCHES 300 PSI FM mDRAINS 1 1/4° 1 1/2 2" FRONT VIEWNERTI INSTALLATION 1 FROM BRANCH GAUGE INLET PROVIDED 0 STREET EL i TO DRAIN I STREET EL OR PIPE ' 1 I TO DRAIN l RIGHT HAND /STRAIGHT INSTALLATION APPROVALS: • UL and ULC Listed • FM Approved except 3/4" • NYC -BSA NO. 720 -87 -SM • CA. State Fire Marshall SIZE A B C D E F G H 3 n" 5 1 /16" 28mm 1 11 2" 37.58mm 2 3 j16" 55.65mm 3 5 /8" 93.23mm 3 3 /6" 85. 1 13/1 e' 4 9 /16' 6 3 /8 1 162.42mm 1 n 5 1 1 11 SSmm 2 3 j16 ' 55.65mm 3 5 /8 93.23mm 3 3 /8 85.88mm 1 73 /16 ' 45.30mm 4 9 /16 ' 117.12mm 6 3 /6 162.42mm 1 �� r1 4 5 7/1611 137.70mm 1 11 j16 " 42.70mm 2 9 /16 65.36mm �4 108.36mm 16 82.84mm 16 50.89mm 16 141.39mm 2 192.28mm 1 �� r1 2 6 ohs' 163.38mm 1 13 /16' 45.50mm 3 1 /4' 81.50mm 5 1 /16" 127mm 3 7 �a" 99.18mm 2 5 /8" 66.97mm 8 1 /4 , 206.63mm 10 , is , 273.60mm 21r 6'hs' 163.38mm 1 13 /16" 45.50mm 3 1 �4 ' 81.50mm 5 1 /16" 127m- 3 7 is" 99.18mm 2 Sia" 66.97mm 8 1 /4" 206.63mm 10 273.60mm 'Available on 1 1/4" to 2" size units only "3/4" UL Listed only. UL LISTING EX4019 AGF MANUFACTURING INC. 100 quaker Lane Malvern, PA 19355 USA Telephone: (610) 240 -4900 Fax: (610) 240 -4906 www.testandrain.com MADE IN U.S.A. MATERIAL LIST PART: MATERIAL: HANDLE STEEL STEM ROD BRASS BALL C.P. BRONZE BODY BRONZE VALVE SEAT IMPREGNATED TEFLON INDICATOR PLATE STEEL HANDLE LOCK SPRING STEEL JOB NAME: _ ARCHITECT: _ ENGINEER: _ CONTRACTOR: T MODEL 1000 AMERICAN VALVE -® P.O. Box 35229 Greensboro, NC 27425 1- 800 - 645 -0101 or(336)668 -0554 fax: 1- 800 - 876 -0109 or(336)668 -4070 AMERICAN VALVE OVERSEAS BRONZE BALL VALVES Figure: M100 1 4 100% Full Opening Threaded Ends Teflon Seats Teflon Packing AMERICAN GAS ASSOCIATION NSA �iiOW H IAO 0 (UMB �Na 6 MECH/.1NU Rating: 200 psi WSP 600 psi WOG Available With: Locking Lever Extension Stem Wing Handle Memory Stop Dimensions: CANADIAN GAS ASSOCIATION I 'R , C V UL ENS Meets ANSUNSF 61 Section 8 (1998) and California Proposition 65 -_ -_ A J 1/4 3/8 1/2 3/4 1 1 1/4 1 1/2 2 21/2 3 4 A EndtoEnd 1 13/16 1 13/16 2 1/4 25/8 3 35/8 41/16 4 13/16 6 71/16 8 1/8 B Center of Port to Top 1 5/8 1 5/8 1 112 2 1/4 2 29/16 31/8 37/16 49/16 53/16 55/8 C Overall Height 2 2 2 112 3 3 112 33/4 4 1/2 5 63/4 73/4 9 D Center of Valve to End of Handle 3 1/8 3 1/8 39/16 39/16 4 15/16 4 15/16 51/2 5 112 77/8 11 11 E Port Opening 3/8 3/8 9/16 3/4 1 1 1/4 1 112 2 2 112 3 4 Weight lbs. .61 .61 .61 .77 1.38 1.89 2.97 4.24 7.37 12.14 18.57 Approx. CV 12 12 20 42 78 132 207 346 470 590 670 -_ -_ A J Aw AMERICAN VALVE a• P.O. Box 35229 Greensboro, NC 27425 1- 800 - 645 -0101 or(336)668 -0554 fax: 1- 800 - 876 -0109 or(336)668 -4070 Figure: M200 Threaded Ends Standard Port Teflon Seats Teflon Packing Figure: M200S Sweat Ends Standard Port Teflon Seats Teflon Packing Rating: 150 psi WSP 400 psi WOG Dimensions: AMERICAN VALVE OVERSEAS BRASS BALL VALVES Available With: Locking Lever Extension Stem Wing Handle Memory Stop it -- U L A ., ... ... .. ; E f � ;At UL 1/4 3/8 1/2 3/4 1 1 1/4 1 1/2 2 2 1/2 3 4 A End to End 1 7/16 1 9/16 1 3/4 2 2 7/16 2 13/16 3 1/4 3 3/4 6 1/4 11416 175 32 6 Al End to End 1 5/8 1 7/8 2 112 3 3 7/16 4 1/8 5 1/16 5 7/8 7 9/16 15 Center of Port B 1 112 1 5/8 1 112 2 1/8 2 1/8 2 1/2 2 3/4 3 1/4 3 1/4 43/8 5 112 to Top B1 Cente of Port 1 15/32 1 7/16 2 1/16 23/16 2 112 2 11/16 3 1/4 33/4 3 43/16 to Top 15 C Overall Height 1 7/8 2 1/8 2 1/19 2 13/16 2 15/16 3 7/16 3 7/8 4 5/8 5 65/8 73/4 Center of Valve to O 3 1/4 3 1/4 3 1/4 3 3/4 33/4 5 5 5 5/8 5 5/8 8 11 End of Handle E Port Opening 5/16 3/8 13/32 19/32 25/32 31/32 1 1/4 1 19/32 2 2 9/16 3 1/8 Weight lbs. Thd. .24 .27 .31 .54 .80 1.21 1.82 2.80 4.82 7.54 12.72 Weight lbs. Swt. 27 .28 .54 .77 1.26 1.80 2.70 4.82 7.50 12.70 Approx.CV 10 10 12 25 42 78 132 207 346 484 639 Swing Check Valve, Full Floating Clapper Assembly Description The bronze swing check valve features a full floating clapper assembly that provides for a positive seal each time the valve is cycled. This feature improves the swing check valves ability to "clear" any debris that may be present in the water supply. The re- cessed access cap design eliminates unnessessary material, keeping the overall cost of the valve low. The seat material is NBR which pro- vides for a positive seal even under light residual pres- sures. Note: This valve is not intended to be user service- able. The recessed cap does not provide access to any sevicable components. Installation The female by female swing check valve should be in- stalled in accordance with commonly used installation practices for the fire sprinkler industry. Proper seal of the threads can be accomplished by applying a liberal amount of PTFE based thread seal- ant such as PipeFit Thread Sealant Paste or PTFE Tape. Make sure to tighten the valve no more than 1 -2 revolutions past initial thread contact of the male and female threads. Refer to service instruc- tions on page 2 for clap- per /seat replacement. WARNING DO NOT OVER TIGHTEN. Over tightening may caused the valve body to crack and leak. Specs Valve Body: Cast Bronze (85- 5 -5 -5) Clapper Assembly: Forged Brass Seat: NBR (Chloramine Resistant) Sizes: 1/2" IPS- 2" IPS Female by female Rated Pressure: 175 Psi For questions: 800 344 -1822 800 344 -3775 fax hftp: / /www.fppi.com ©1999 -2000 Fire Protection Products, Inc. Service Instructions for swing check valve with full floating clapper assembly The swing check valve has been designed with a serviceable clapper assembly that can be serviced with the valve left in place. Service would only be required in the event of seat failure or an obstruction caused by the introduction of foreign material in the waterway. To service the FPPI Swing Check Valve with Full Clapper Assemply, shut off the water supply at its' source. Drain water from the system. As a safety precaution, it is recommended that the control valve for the water supply be marked so as to notify all personnell that the system is being serviced and that the water has been shut -off until repairs have been completed. Once the system is drained, it is safe to remove the access cap from the swing check valve with an adjustable wrench. Use appropriate care when removing the cap as to not cause damage to the access cap or the valve body.Once the cap has been removed the clapper assembly will be in plain view. Simply lift the clapper assemply from is resting place. Before installing the replacement clapper assembly, visually inspect the machined seat surface of the valve to make sure that is clean and free of any foreign materials and that the water ways at each end of the valve are clear of obstruction. To install the replacement clapper assembly, reinsert the new assembly in the same fashion that the origianal was removed. Make sure the replacement clapper assembly is properly seated and swings freely. Replace access cap. Tighten the access cap until fully seated. It is recommended that a small amount of thread sealant such as PipeFit Thread Sealant with PTFE is used on the threads of the access cap. To assure future serviceability do not use anaoerbic or hardening thread sealants. Visually inspect the area to make sure that all removed parts can be accounted for and the access cap has been reinstalled correctly. The system can now be placed back into service by opening the valve that controls the flow of water to the system. After the system has been pressurized, visually reinspect the check valve to make sure there are no apparent leaks. Notify appropriate personnel that the system is back in service. For questions or additional information contact Fire Protection Products, Inc at 1 800 344 -1822 or your nearest distributor. FOR SMALL PIPE V.7 F ( E)POTTER VANE TYPE WATERFLOW a The Symbol of Protection ALARM SWITCH WITH RETARD UL, ULC, CSFM Listed and NYMEA Accepted, CE Marked Service Pressure: Up to 250 PSI (17,2 BAR) Minimum Flow Rate for Alarm: 8 -10 GPM (30 -38 LPM) Stock No.1113000 U.S. Pat. No. 3921989, Canadian Pat. No. 1009680 Other Patents Pending Maximum Surge: 18 FPS (5,5 m /s) Enclosure: Die -cast, red enamel finish Cover held in place with tamper resistant screws Contact Ratings: Two sets of SPDT (Form C) 15.0 Amps at 125/250 VAC 2.0 Amps at 30 VDC Conduit Entrances: Two knockouts provided for 1/2" conduit. Usage: Listed plastic, copper and schedule 40 iron pipe. Fits pipe sizes - 1" (25mm), 1 1/4" (32mm), 1 1/2" (38mm) and 2" (50mm) Note: 12 paddles are furnished with each unit, one for each pipe size of threaded and sweat TEE, one for 1" (25mm) CPVC, one for 1" (25mm) CPVC (Central), one for 1 1/2" (38mm) polybutylene and one for 1 1/2" (38mm) threaded (Japan). (CTS- Copper tubing size) Environmental Specifications: • Suitable for indoor or outdoor use with factory installed gasket and die -cast housing. • NEMA 4/IP55 rated enclosure - use with appropriate conduit fitting. • Temperature range: 40° F to 120° F, 4,5° C to 49° C) Caution: This device is not intended for applications in explosive environments. Service Use: Automatic Sprinkler NFPA -13 One or two family dwelling NFPA -13D Residential occupancy up to four stories NFPA -13R National Fire Alarm Code NFPA -72 Optional: Cover Tamper Switch Kit, Stock No. 0090018 The Model VSR -SF is avane type waterflow switch for use on wet Screw the device into the TEE fitting as shown in Fig. 2. Care sprinkler systems that use 1" (25mm), 1 1/4" (32mm), 1 112" must be taken to properly orient the device for the direction of (38mm) or 2" (50mm) pipe size. The unit may also be used as waterflow. a sectional waterflow detector on large systems. The unit contains two single pole double throw snap action switches and an adjustable, instantly recycling pneumatic re- tard. The switches are actuated when a flow of 8 -10 gallons per minute (30 -38 LPM) or more occurs downstream of the device. The flow condition must exist for a period of time necessary to overcome the selected retard period. INSTALLATION: These devices may be mounted in horizontal or vertical pipe. On horizontal pipe they should be installed on the top side of the pipe where they will be accessible. The units should not be installed within 6" (15cm) of avalve, drain orfitting which changes the direction of the waterflow. Select the proper paddle for the pipe size and type of TEE used see Fig. 1 for instructions on changing paddle. The unit has a 1 " NPT bushing for threading into a non - corrosive TEE. See Fig. 2 forproper TEE size, type and installation. Use no more than three wraps of teflon tape. The vane must not rub the inside of the TEE or bind in any way. The stem should move freely when operated by hand. The device can also be used in copper or plastic pipe installa- tions with the proper adapters so that the specified TEE fitting may be installed on the pipe run. INSPECTION AND TESTING: Check the operation of the unit by opening the inspector's test valve at the end of the sprinkler line or the drain and test connection, if an inspector's test valve is not provided. If there are no provisions for testing the operation of the flow detection device on the system, application of the VSR -SF is not recommended or advisable The frequency of the inspection and testing and its associated protective monitoring system should be in accordance with the applicable NFPA Codes and Standards and /or authority having jurisdiction (manufacturer recommends quarterly or more fre- quently). Potter Electric Signal Company • 2081 Craig Road, St. Louis, MO, 63146 -4161 • Phone: 800- 325- 3936 /Canada 888- 882 -1833 • www.pottersignal.com PRINTED IN USA MKT. #8800003 - REV AA PAGE 1 OF 2 MFG. #5400802 - 11/02 ( E)POTTER The Symbol of Protection FIG. 2 FIG. 1 DO NOT LEAVE COVER OFF FOR EXTENDED Retard Adjustment: PERIOD OF TIME To change time, turn knob (either direction) for desired time delay. Use the minimum Q amount of retard necessary to MOUNT SO prevent false alarms. A "B" ARROW ON BUSHING setting is usually adequate for POINTS IN this. Factory set at "B ". a w TE�RFLOw e 1" NPT THREADED F ON ALL SIZES DIRECTION OF WATER FLOW RUN OF THE TEE MAY BE \ THREADED OR SWEAT TYPE DIRECTION OF wATERFLOw DWG. /737 -31 Important: There are 12 paddles fur- nished with each unit. One for each size of threaded, sweat or plastic TEE as described in Fig. 2. These paddles have raised lettering that shows the pipe size and type of TEE that they are to be used with. The proper paddle must be used. The paddle must be properly attached (see drawing) and the screw that holds the pad- dle must be securely tight- ened. FOR SMALL PIPE VSR— VANE TYPE WATERFLOW ALARM SWITCH WITH RETARD CON, D. N.C. FLOW I 1 1 1 / 16"APPROX. (4,3mm) Shown with optional Cover Tamper Switch Kit. 1-1/ DWG. 0802 -30 CAUTION: TO PREVENT LEAKAGE APPLY TEFLON TAPE SEALANT TO YALE THREADS ONLY. DO NOT 115E ANY OTHER TYPE OF LUBRICANT OR SEALANT. APPROX. RETARD SETTINGS (IN SEC.J 0 A B C D E 0 10 -25 20 -40 35 -55 50 -70 60 -90 I DEPTH Screw the device into the tee fitting as shown. Care must be taken to properly orient the device for the direction of waterflow. On sweat tees, no threaded bushings, inserts, or adapters are permitted, unless they comply with the dimensions listed in the chart below. Important - The depth to the inside bottom of the tee should have the following dimensions: APPROXIMATE DEPTH REQUIREMENT TEE SIZE THREADED I SWEAT CTS. POLYBUTYLENE CPVC 1" x 1" x 1" 2 1/16" 1 3/4" N/A 2 7/16" 1 1/4" x 1 1/4' x 1' 2 7/16' 2 7/16' N/A N/A 1 112" x 1 1/2" x 1' 2 11/16" 2 1/4" 2 112' N/A 2" x 2' x1' 3 3/16" 2 3/4" N/A N/A DWG. /735 -33 Warning: Do not use more than three wraps of teflon tape. SWITCH TERMINAL CONNECTIONS CLAMPING PLATETERMINAL FIG. 3 �1 CAUTION: An uninsulated section of a single conductor should not be looped around the terminal and serve as two separate connections. The wire must be �,, � s severed, thereby providing supervision of the connection in the event that Do 1600 Owc #923 -3 the wire becomes dislodged from under the terminal. FIG.4 TYPICAL ELECTRICAL CONNECTIONS 2 SETS OF NORMALLY OPEN CONTACTS WATERFIbw LONE EOLR FROM CLOSE ON ALARM ON FIRE PANEL FIRE PANEL TUIR b THE NC AND NO MARKINGS POSITIVE DC ON THE SNITCH ARE FOR OR HOT AC AN ALARM CONOITgN, ILL THE CONtACTS ARE REVERSE. AC OR NEUTRAL WHEN THE DEVICE TIN, O,K 1761_2 THE NORMAL CONDITION, NOTES: 1. The model VSR -SF has two switches, one can be used to operate a central station, proprietary or remote signal- ing unit, while the other is used to operate a local au- dible or visual annunciator. 2. For supervised circuits see "Switch Terminal Connec- tions" drawing and caution note (Fig. 3). FIG. 5 To remove knockouts: Place screwdriver at edge of knock- outs, not in the center. DWG. #761 -4 APPLICATION WARNING! Due to the possibility of unintended discharges caused by pressure surges, trapped air, or short retard times, waterflow switches that are monitoring wet pipe sprinkler systems should not be used as the sole initiating device to discharge AFFF, deluge, or chemical suppression systems. PRINTED IN USA MKT. #8800003 - REV AA PAGE 2 OF 2 MFG. #5400802 - 11/02 ( E) POTTER RBVS UNIVERSAL BALL The Symbol of Protection VALVE SWITCH UL and CUL Listed, FM, CSFM Approved Dimensions: (including mounting clamps) Large Clamps: 6" L x 5" W x 5.2" H 15,2 cm L x 12,7 cm W x 13,2 cm H Small Clamps: 6" L x 4" W x 5.2" H 15,2 cm L x 10,2 cm W x 13,2 cm H RBVS Stock No. 1000040 (w /o Cover Tamper) RBVS -T Stock No. 1000035 (w /Cover Tamper) Patent Pending Weight: With Large Clamps: 13.6 oz. (386,9 g.) With Small Clamps: 11.0 oz. (311,2 g.) Enclosure: Non - Corrosive Composite Material Environmental Limitations: • NEMA 4 rated enclosure when proper electrical fittings are used. (IP67) • Temperature range: -40° F to 150° F ( -40° C to 65° C) • Not for use in hazardous locations Housing Cover Tamper: Activated by housing cover removal, (Stock No. 1000035 only). Contact Ratings: SPDT Contacts: 10A at 125/250 VAC 2A at 30 VDC SPDT Cover Tamper: 3A at 250 VAC GENERAL The Model RBVS is designed to monitor the fully open position of a ball valve installed in a sprinkler system. The unit will fit on most ball valves installed on back - flow- preventers and alarm trim lines of dry, alarm, and deluge sprinkler valves. The switch operates if the ball valve handle is moved from the open position. How- ever, the switch does not track the position ofthe handle or ball. When the ball valve handle is in the open position, a spring - loaded switch button will contact the valve handle. When the handle is moved from the open position, this switch button extends to the tripped position, and the RBVS contacts change state, thereby opening orclosing a circuit. A cover tamper switch is available and is activated by the removal ofthe RBVS housing cover. Ifan attempt is made to remove the RBVS by the removal of the mounting brackets, the unitwill be set into the tripped mode by this action. The RBVS can be mounted to the hex portion ofthe ball valve or back - flow - preventeror to the adjoining pipe via two clamps. The RBVS is shipped with two sets of mounting clamps to accommodate various pipe and valve sizes, refer to Table 1. An "L" shaped and offset bracket for mounting the switch enclosure and an exten- sion bracketadd to the mounting flexibility ofthe RBVS. See "Typical Mounting Diagram" and "Installation and Operation" on following page. TESTING The RBVS and its associated protective monitoring system should be tested in accordance with applicable NFPA codes and standards and /or the authority having jurisdiction (manufacturer recommends quarterly or more freq uently). FIGA INTERNAL COMPONENTS NORMALLY OPEN NORMALLY CLOSED COMMON STRAIN RELIEF BLACK - N,O, L�L ITCH BUTTON COVER RED - N.C. CATION TAMPER WHITE - COM HANDLE MOUNT SO SWITCH BUTTON IS APPROX, 1" FROM HANDLE INSIDE END PLASTIC COATING REMOVED FROM BALL VALVE HANDLE IN SWITCH BUTTON DWG /1086 -1 CONTACT AREA Potter Electric Signal Company • 2081 Craig Road, St. Louis, MO, 63146 -4161 • Phone: 800 - 325 - 3936 /Canada 888- 882 -1833 • www.pottersignal.com PRINTED IN USA MFG. #5401086 - REV P PAGE 1 OF 3 9/03 (P)� POTTER The Symbol of Protection RBVS UNIVERSAL BALL VALVE SWITCH INSTALLATION ON LEVER HANDLE (SEE FIG. 2) 1. Selectclampsand clamping bolts based upon pipe/valve size, see Table 1. 2. Insert rubber clamp grippers into clamps, see Fig. 2. 3. Place one clamp on top of pipe /ball valve near the valve handle and insert clamping bolts through it. 4. Place other clamp over clamping bolts from beneath the installation and thread hex nuts onto the clamping bolts, but do not fully tighten, (be sure hex nuts seat properly in clamp hex recesses). ( NOTE: Some installations may require one ofthe mounting bolts to be inserted from the bottom of the brackets and then trimmed to allow the extension bracket to clear. See Fig. 4) 5. Attach extension bracket (if necessary to use for position- ing) to top clamp using'/4 -20 X %" Hex bolt and washer, but do not fully tighten. 6. Attach "L" bracket (RBVS switch enclosure is loosely attached to "L" bracket) to extension bracket using % -20 X %" Hex bolt and washer, but do not fully tighten. 7. Be sure ball valve is in the fully open position. 8. Slide loosely assembled RBVS switch enclosure to a position that permits the switch button to contact the valve handle approximately 1" from its inside end. See Fig. 1 for approximate location. Cutand remove the plastic coating from the ball valve handle to allow the RBVS switch button to contact (and be activated by) the metal of the handle. 9. Tighten clamping screws altematelytoan eventual 30in -lbs. (minimum) of torque. 10. Maintain position of switch enclosure over valve handle and secure bolt that holds the extension bracket to the clamping assembly. It may be necessary to close valve to access this bolt. 11. Position "L" bracket so that it contacts the back edge of the valve handle, and secure its bolt. It may be necessary to close valve to access this bolt. 12. With the actuator fully retracted, position RBVS switch enclosure to contact the valve handle squarely, see Fig. 1. 13. With RBVS switch enclosure held squarely in contact with valve handle, securely tighten the two tamper resistant screws on the backside of the enclosure. 14. Close and open the valve to verify operation. The actuator should easily retract when the valve handle is in the open position. 15. Fully open the valve. 16. Remove the cover and wire main switch and tamper switch if applicable. Carefully route tamper switch wires through strain relief channel in switch enclosure. Fully seat the wires into the bottom of the channel. See Fig. 1. 17. Replace RBVS switch enclosure cover and securely tighten cover screw. FIG. 2 TYPICAL MOUNTING DIAGRAM DWG 01086 -2 SWITCH ENCLOSURE Clamp Clamping Bolts 1/2" to 314" (12,5 to 19mm) ' "L" BRACKET 10 -32 x 2 -1/2" 1" to 2" (25 to 50 mm) Large 114 -20 x 4" HEIGHT e 5.2" E %T- BRACKET (IF NECESSARY) CLAMPS O 1 CLAMP GRIPPERS WIOTH 4 (SMALL) 5" (LARGE) TABLE 1 CLAMP SIZING PipeNalve Size Clamp Clamping Bolts 1/2" to 314" (12,5 to 19mm) Small 10 -32 x 2 -1/2" 1" to 2" (25 to 50 mm) Large 114 -20 x 4" SWITCH TERMINAL CONNECTIONS, CLAMPING PLATE TERMINAL 1001 r 6R M7.1 -7 CAUTION: An uninsulated section of single conductor should not be looped around the terminal and serve as two seperate connections. The wire must be severed, thereby providing supervision of the connection in the event that the wire becomes dislodged from under the terminal. TYPICAL ELECTRICAL CONNECTIONS LOCAL CIRCUIT TRANSFORMER OR BATTERY POWER STYLE D (CUSS A) SUPERVISED LOOP STYLE B (CLASS B) SUPERVISED CIRCUIT NC, ^1( gt COY. CON. TO N.C. X.O. OEVICE N.O. N.O. TROL CON. N O ENO- OF -UNE R65TOR N.C. R N.C. R OWG. /1066 -4 TAMPER SWITCH CONNECTIONS COVER TAMPER k RBVS CONNECTED TO THE SAME ZONE ON THE FACP COM. N.O. COM. P FRCP COVER EOLR KC• TAMPER COVER TAMPER do RBVS WIRED TO SEPERATE ZONES COVER TAMPER COOL NA. FRCP EOIR COM. FACP N, — O. DWG. 01056 -5 PRINTED IN USA MFG. #5401086 - REV P PAGE 2 OF 3 9/03 (E) POTTER ® The Symbol of Protection RBVS UNIVERSAL BALL VALVE SWITCH INSTALLATION ON TEE HANDLE (SEE FIG. 3) 1. Select clamps and clamping bolts based upon pipe/valve size, see Table 1. 2. Insert rubber clamp grippers into clamps, see Fig. 3 3. Place one clamp on top of pipe/ball valve near the valve handle and insert clamping bolts through it. 4. Place other clamp over clamping bolts from beneath the installation and thread hex nuts onto the clamping bolts, but do not fully tighten, (be sure hex nuts seat properly in clamp hex recesses). 5. Loosely attach "L" bracket to the "offset" bracket and "offset" bracket to the RBVS housing. 6. Be sure ball valve is in the fully open position. 7. Slide loosely assembled RBVS switch enclosure to a position that permits the switch button to contact the valve handle approximately 1/2 "from the end of the handle. Cutand remove the plastic coating from the ball valve handle to allow the RBVS switch button to contact (and be activated by) the metal ofthe handle. 8. Tighten clamping screws alternately and % -20 X 3 /4" bolt to 30 in -lbs. (minimum) of torque. 9. With the valve handle fully open, slide the RBVS housing down until the switch operates plus 1/8 inch. Tighten the screws holding the RBVS to the "offset" bracket. 10. Remove the RBVS switch enclosure cover. 11. Close and open the valve to verify operation. The actuator should easily retract up when the valve handle is in the open position. 12. Fully open the valve. 13. Wire main switch and tamper switch (if applicable). Care- fully route tamper switch wires through strain relief channel in switch enclosure. Fully seat the wires into the bottom of the channel. See Fig. 1. 14. Replace RBVS switch enclosure cover and securely tighten cover screw. FIG. 3 GRIPPERS DWG #1086 -3 FIG. 4 RBVS SOME INSTALLATIONS MAY CAUSE INTERFERENCE BETWEEN MOUNTING BOLT AND OFFSET BRACKET. INSTALL BOLT FROM BOTTOM AND TRIM AS NEEDED TO CORRECT. M. 11086 -6 PIPE IGLUWKL PRINTED IN USA MFG. #5401086 - REV P PAGE 3 OF 3 9103 6016/6017 • Used as an auxiliary connection through which the fire department can pump water to supplement existing water supplies • Provides 250 GPM flow (minimum), per 2'/2" inlet • Single inlet connections incorporate a straight -thru, non - clappered design with female NPT outlets • Two and three -way inlet connections feature brass bodies (angle or straight pattern), with integral drop - clapper inlets and female NPT outlets • Standard components: Female hose thread swivel inlets, plugs with chains and identification plate • Cast brass construction *, standard 'Optional brass finishes on exposed surfaces, add suffix to model no. -B Polished, -C Rough Chrome Plated, -D Polished Chrome Plated 6024 -6029 Back Oullel Top/Bottom Outlet ,—�r I L�g LL� 7i, "Nipple Plate 3'/,"DIA (by others) Swivellnlet� ° ° 0 j 9" Plug" 3'h" 1 s° 6034 -6039 Back Outlet B L 2'h "Nipple (by others) 7777 Swivel 0 0 0 Inlet s Plug' 3y,^ TopBottom outlet Plate 3'G" DIA 00 23" 1 N 2'/2" 3" 2' /2 " 3" 1 2 2 2'/2" 2'12" 4 D. 7" O.D. 7" O.D. 7" SO 7" SC \� Identi ication Plate Lettering: AUTO SPKR M ode l No 6024 i • Back • and Three-Way " x 2 x 2 Connectio I Clappe rs 2 115/8" 7/8" 6025 Bottom 4" x x 2 2 12 1 /8" 7 6026 To 4" x 2'12" x 2 12' 7 /8" 7 6027 Back 6" x 2'12" x 2 2 5 /8" 1 /8" r75/8" - -- 6028 Bottom 6" x 2'/2" x 2 12'/8" 7'/8 6029 To 6" x 2/2" x 2 12 5 /8" 7 6034 Back 4" x 2 x 2 x 2' 3 7 6 -- 6035 Bottom 4" x 2 x 2'/2" 2112" 3 1 8" 7 7 6036 To 4" x 2 x 2" x 2'/2" 3 17 7 7'/8" 6037 Back 6" x 2' x 2 x 2'/2" 3 17 6 6038 Bottom 6" 1 /2" x 2'/2" x 2'12" 3 17 7 6039 Top " x 2'12" x 2 x 2'/2" 3 17 7 7 Identification Plate Lettering: • AUTO SPKR • AUTO SPKR & STANDPIPE • STANDPIPE • DRY STANDPIPE Notes • Pipe nipples for connecting bodies to swivel inlets, by others • Always specify hose threads and identification plate lettering • Contact factory for current UL listing /FM approvals and special requirements 58 FIRE-X-TROLO Sprinkler Expansion Chamber he Absorption Expanded Flui Table of Contents FIRE- X -TROL ..................................... _.......... 2 Typi cal Schematics .......... ............................... 3 Sizing the FIRE- X -TROL® .............................. 4 Features and Benefits ...... ............................... 5 Typical Specifications ...... ............................... 6 Protect your System with the FIRE -X- TROD... UL* Listed and ASME Compliant The Fire -X -Trot® expansion chamber with pre- charged nitrogen or dry air pneumatic cushion reliably protects your system from pressure increases that result from antifreeze temperature change. Since these systems are closed -loop systems, the expanded fluid needs to be accommodated with a pre- pressurized expansion tank. As the temperature rises, the Fire -X -Troll provides the additional space in the system to accommodate the expanded volume of solution. The pneumatic cushion is compressed as the system pressure increases creating the space for the increased volume of antifreeze solution. The nitrogen volume in the chamber will be great enough to keep the system pressure below the pressure limitations of the system components. Properly sized, the expansion chamber will maintain maximum system pressures within the working pressure limitations of the system equipment. Your system is safely protected! AMTROL -c The AMTROL® Advantage • AMTROL - A world- leading provider of advanced water system solutions supplies a complete line of quality engineered, cost efficient, fire suppression, heating and water systems that you can count on. • First to design and patent EXTROL®, expansion tanks, redefining hydronic heating and chilled water systems forever. • ISO 9001 - 2000 certified. • With over 60 years experience, AMTROL sets the standard for service reliability, innovation, design, and manufacture of water system equipment. • Fully qualified technical staff available to help ensure solid solutions for your expansion tank needs. NFPA ** 13 Requires Expansion Tanks When a Backflow Prevention Device is Used Many regulations require antifreeze systems to be equipped with a reduced - pressure zone backflow pre- vention device to eliminate the chance of contaminat- ing the water supply with the antifreeze solution. The Fire -X -Trot® can be located anywhere downstream from the backfiow prevention device and safely pro- tects system components from potential damage as a result of over pressurization. As stated in NFPA 13, 7.5.3.3.: "Where the connection between the antifreeze solution and the wet pipe incorporates a backflow prevention device, a listed expansion chamber of appropriate size and pre - charged air pressure shall be provided to compensate for thermal expansion of the antifreeze solution... ". Underwriters' Laboratories. `" National Fire Protection Association. 1 2 � Features • UL Listed® - for use with Fire Protection Anti - Freeze Systems per NFPA 13, 2002 edition. • Compatible with antifreeze solutions (Glycerine and Propylene Glycol) • Broad range of sizes ... 2.1 to 90 gallons (15 -341 lit.) • Nitrogen or dry air (- 50 °F / -46 °C dew point or lower) pre - charge is separated from the system fluid • 5X safety factor by design Benefits • Keeps your system and components safe from thermal expansion • Helps to prevent system from hydraulic lock -up SYSTEM CONNECTION Materials of Construction • All Steel Body Construction with Stainless Steel System Connection • Polypropylene Liner Material • Diaphragm Material: ULI Certified High- Performance Elastomeric Compound Maximum Operating Conditions Maximum Working Pressure: 175 psig (12 bar) Operating Temperature: -20 °F ( -29 °C) to 200 °F (93 °C) SYSTEMOO CONNECTION VALVE VALVE MODELS: Max. Accept Factor FPT -20V B FPT -30V Ship A FPT -42V MODELS: Max. Accept A FPT -5 FPT -60V FPT -12 FPT -70V — C - In -Line Models Stand Models Model No. Tank Max. Accept Factor A B Sys. Ship Model Vol. Max. Accept Height Diameter Conn. Weight No. factor Lit Gal. mm ins. - mm 254 ins. 10 ins. 3 /4 NPTF _ kg_ _ . _ . __ lbs. 21 FPT -5 1 273 .42 264 10 9.5 FPT 12 24 1 6.4 15.4 3 _ 51 _ 79 _ 775 7 7 7 30 _ 5 419 16 324 12 74 NPTF Stand Models Model No. Tank Vol Max. Accept Factor A Height B Diameter C Diameter Sys. Conn. Ship Weight Lit. I Gal. mm ins. mm ins. mm ins. ins. kg lbs. FPT -20V 30 8.0 .40 495 19 1 /2 305 12 273 10 3 /4 NPTF 23.6 52 FPT -30V 53 14.0 .64 486 19 1 /8 419 16 324 12 3 /4 NPTF 44 97 FPT -42V 66 17.5 .65 616 24 419 16 1 /4 324 12-'4 V4 NPTF 52.7 116 FPT -60V 95 25.0 .45 838 33 419 16 324 12 V4 NPTF 70 154 FPT -70V 129 34.0 .33 1054 41 1 /2 419 16 324 124'4 3 /4 NPTF 90 197 FPT -80V 200 53.0 .65 908 35 610 24 406 16 1 NPTF 114 251 FPT -120V 250 66.0 .50 1111 43 610 24 406 16 1 NPTF 127.6 281 FPT -180V 292 77.0 .44 1235 48 5 /8 610 24 406 16 1 NPTF 160.3 353 FPT -210V 341 90.0 .38 1410 55 1 /2 610 24 406 16 1 NPTF 173.4 382 All dimensions and weights are approximate. Typical Schematic with Fire -X -Trot® Expansion Chamber Fill cup or filling connection Backflow preventer 1 with control valves Water supply 1 Heated area 1 Drain valve 1 Unheated area FIRE- X -TROL' FPT -5 & FPT -12 Fill cup or filling connection Backflow preventer 1 with control valves Water 1 supply t ^ t FIRE- X -TROL' 1 FPT -20V Drain through —o valve FPT -210V Unheated area Heated area Antifreeze solutions to be used if potable water is connected to sprinklers 0 Specific Freezing Solution Gravity Point Material Volume at 60°F 15.6 °C °F °c Glycerine 50% water 1.145 -20.9 -29.4 C.P. or U.S.P. grade` 40% water 1.171 -47.3 -44.1 30% water 1.197 -22.2 -30.1 Hydrometer scale 1.000 to 1.200 Propylene glycol 70% water 1.027 +9 -12.8 60% water 1.034 -6 -21.1 50% water 1.041 -26 -32.2 40 0 1n water 1.045 -60 -51.1 Hydrometer scale 1.000 to 1.200 (subdivisions 0.002) 'C.P. - chemi:,,Jty acre_ U S.P. - United States Phannacnnnaia On n% Ref. NFPAM MQ2 Fdf- 0 f The sizing charts provided can be used to select the Example for determining FIRE- X -TROL expansion chamber size: appropriate FIRE- X -TROL for your antifreeze system. Antifreeze Solution: 70% Propylene Glycol These charts can be used for glycerine or propylene System Volume (gal.): 50 gal. glycol 70% by weight or less. System Pressure: 70 psig Under these service conditions, a model FPT -12 (C) would be selected. 70% Glycerine System Pressure (psig) 40 50 60 70 80 90 100 110 120 130 140 15( 10 20 30 40 50 60 E 70 = 80 � 90 E 100 N 110 >% 120 N 130 140 150 - - FPT -60V — — - FPT -42V FFT-70V FPT-,Soar N n - �— — Z — O Z W - 6 113 151 to 189 w 227 264 3 302 0 340 C 378 3 415 m 454 C 491 529 567 Z.7 3.4 4.0 4.8 5.5 6.2 7 7.5 8.3 9 9.6 10.5 System Pressure (bar) 70% Propylene Glycol System Pressure (psig) 40 50 60 70 80 90 100 110 120 130 10 20 30 40 50 60 E 70 0 80 > 90 E 100 110 >> 120 Cn 130 140 150 2.7 140 150 r 70V 38 76 r -18W 113 151 N 189 N - N 227 F 264 3 - Z 302 0 340 = to 378 3 415 454 7 - - 491 .� 529 567 9.6 10.5 1 AMTROL recommends installing a pressure reducing valve before the backflow preventer. 2 The system pressure is too close to the maximum working pressure. NFPA 13 recommends installing a pressure reducing valve before the backflow preventer. Assumptions: 175 psig (12 bar) Maximum Working Pressure, 100 ° F (37.7 ° C) change in temperature, expansion tank precharge 2 psig (0.14 bar) below System Static Pressure. I 3.4 4.0 4.8 5.5 6.2 7 7.5 8.3 9 System Pressure (bar) • I Please contact AMTROL Technical Services for Fire -X -Troll vessel sizing for parameters not found on chart. Assumptions: 175 psig (12 bar) Maximum Working Pressure, 100 °F (37.7 °C) change in temperature (based on 40 °F /4.4 °C to 140 °F /60 °C), expansion tank precharge to System Static Pressure. Typical Specifications The expansion chamber shall be welded steel, constructed and tested in accordance with Section VIII, Division 1 of the ASME code for a working pressure of 175 psig (12 bar), factory pre - charged and field adjustable. All welds conforming to ASME Section IX. Must be UL7- (Underwriters' Laboratory) Listed for use with Fire Protection Antifreeze Systems per NFPA 13. Expansion cham- ber must be compatible with Glycerine (C.P. or U.S.P. Grade) and Propylene Glycol Antifreeze Solutions. The tank shall be supported by steel legs or a base (integral ring mount) for a ver- tical installation. Each tank shall have a polypropylene liner with stainless steel system connection. The manufacturer shall be AMTROL Inc. The manufacturer shall have at least five years experience in the fabrication of diaphragm -type ASME expansion tanks. Furnish and install, as shown on plans, an AMTROL FIRE -X -TROLL gallon (liter), inch (mm) diameter X inch (mm) high AMTROL FIRE X -TROL® Model FPT -(V) ( -C) wet pipe sprinkler system diaphragm expansion chamber. The expansion chamber will accommodate the expanded fluid of the system generated within the normal operating tempera- ture range, limiting the pressure increase at those components in the system to the maximum allowable pressure at those components. It shall maintain a minimum operating pressure. Each tank shall have a diaphragm used to isolate the nitrogen or dry air (- 50 °F / -46 °C dewpoint or lower) charge from the fluid. 'Refer to installation manual for warranty information or visit our website at www.amtrol.com A .EIMTROLN°. Water System Pressure (psig) Engineered Products 40 50 60 70 80 90 100 110 120 130 140 150 10 38 )I _._ . 30; - -'- FPT 5 -C 'ylf. 1 6 3 ,-. 40 ' - _ _— _ I 151 50 189 '< CAI 60 227 E 70 264 3 0 80 302 c > 90 340 r E 100 378 3 N 110 415 M >. N 120 454 R 130 491 140 529 150 567 2.7 3.4 4.0 4.8 5.5 6.2 7 7.5 8.3 9 9.6 10.5 System Pressure (bar) I Please contact AMTROL Technical Services for Fire -X -Troll vessel sizing for parameters not found on chart. Assumptions: 175 psig (12 bar) Maximum Working Pressure, 100 °F (37.7 °C) change in temperature (based on 40 °F /4.4 °C to 140 °F /60 °C), expansion tank precharge to System Static Pressure. Typical Specifications The expansion chamber shall be welded steel, constructed and tested in accordance with Section VIII, Division 1 of the ASME code for a working pressure of 175 psig (12 bar), factory pre - charged and field adjustable. All welds conforming to ASME Section IX. Must be UL7- (Underwriters' Laboratory) Listed for use with Fire Protection Antifreeze Systems per NFPA 13. Expansion cham- ber must be compatible with Glycerine (C.P. or U.S.P. Grade) and Propylene Glycol Antifreeze Solutions. The tank shall be supported by steel legs or a base (integral ring mount) for a ver- tical installation. Each tank shall have a polypropylene liner with stainless steel system connection. The manufacturer shall be AMTROL Inc. The manufacturer shall have at least five years experience in the fabrication of diaphragm -type ASME expansion tanks. Furnish and install, as shown on plans, an AMTROL FIRE -X -TROLL gallon (liter), inch (mm) diameter X inch (mm) high AMTROL FIRE X -TROL® Model FPT -(V) ( -C) wet pipe sprinkler system diaphragm expansion chamber. The expansion chamber will accommodate the expanded fluid of the system generated within the normal operating tempera- ture range, limiting the pressure increase at those components in the system to the maximum allowable pressure at those components. It shall maintain a minimum operating pressure. Each tank shall have a diaphragm used to isolate the nitrogen or dry air (- 50 °F / -46 °C dewpoint or lower) charge from the fluid. 'Refer to installation manual for warranty information or visit our website at www.amtrol.com A .EIMTROLN°. Engineered Products Corporate Headquarters 1400 Division Road, West Warwick, RI 02893 Telephone: 401 - 884 -6300 • Fax: 401 -884 -5276 AMTROL Canada, Ltd. 275 Shoemaker Street, Kitchener, Ontario N2E 383 Telephone: 519 - 748 -1138 • Fax: 519- 748 -4231 www.amtro1.com In the interest of continuous development AMTROL, Inc. and its subsidiaries reserve the right to after designs and specifications without prior notice. MC# 10022 REV B (01/06) The AMTROL and Fire -X -Trot logos are a registered trademarks of AMTROL, Inc. O 3pn: 0' �� Cf1rIF \4� PHCC 02006 AMTROL Inc Printed in USA Reliable... For Complete Protection Reliable offers a wide selection of sprinkler components. Following are some of the many precision -made Reliable products that guard life and properly from fire around the clock. • Automatic sprinklers • Flush automatic sprinklers • Recessed automatic sprinklers • Concealed automatic sprinklers • Adjustable automatic sprinklers • Dry automatic sprinklers • Intermediate level sprinklers • Open sprinklers • Spray nozzles • Alarm valves • Retarding chambers • Dry pipe valves • Accelerators for dry pipe valves • Mechanical sprinkler alarms • Electrical sprinkler alarm switches • Water flow detectors • Deluge valves • Detector check valves • Check valves • Supertrol electrical system • Sprinkler emergency cabinets • Sprinkler wrenches • Sprinkler escutcheons and guards • Inspectors test connections • Sight drains • Ball drips and drum drips • Control valve seals • Air maintenance devices • Air compressors • Pressure gauges • Identification signs • Fire department connection The equipment presented in this bulletin is to be installed in accordance with the latest pertinent Standards of the National Fire Protection Association, Factory Mutual Research Corporation, or other similar organizations and also with the provisions of governmental codes or ordinances, whenever applicable. Products manufactured and distributed by RELIABLE have been protecting life and property for over 80 years, and are installed and serviced by the most highly qualified and reputable sprinkler contractors located throughout the United States, Canada and foreign countries. Manufactured by The Reliable Automatic Sprinkler Co., Inc. Rec Y clef (800) 431 -1588 Sales Offices 0 Paper (800) 848 -6051 Sales Fax Revision lines indicate updated or new data. (914) 668 -3470 Corporate Offices www.reliablespnnkler.com Internet Address EG. Printed in U.S.A. 3/04 P/N 9999970245