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F13-0014 Hydraulic Calcs and Cut Sheets.pdf
Hydraulic Summary Job Number:CH0168 Report Description:BED#4 CALC AREA 7;677 Design Engineer Casey Heim State Certification/License Number ehr Creek 032 ress AHJ 1677 Buffer Creek Vail Fire Address 2 Job Site/Building 1677 Buffehr Creek Address 3 Drawing Name 1677 Buffehr Creek-DESIGN.cad System Remote Area(s) Most Demending Sprinkler Data Occupancy Job Suffix 4.3 K-Factor 19.60 at 20.777 Residential Manually Flowing Hose Allowance At Source Density Area of Application 0.00 0.100gpm/ft2 196.00ft2 Additional Hose Supplies Number Of Sprinklers Calculated Coverage Per Sprinkler Node Flow m 4 196.00ft2 AutoPeak Results:Pressure For Remote Ama(s)Adjacent To Most Remote Area Total Hose Streams 0.00 System Flow Demand Total Water Required(Including Hose Allowance) 80.96 80.96 Maximum Pressure Unbalance In Loops 0.000 Maximum Velocity Above Ground 14.30 between nodes 5 and 4 Maximum Velocity Under Ground Volume capacity of Antifreeze/Other Pipes 0.00gal Volume capacity of W at Pipes Volume capacity of Dry Pipes 87.27gal Supplies Hose Flow Static Residual Flow Available Total Demand Required Safety Margin Node Name gpm si si @ m si @ m (psi) (psi) 14 Water Supply 125.000 11.500 627.50 123.111 80.96 109.537 13.573 Darcy-Weisbach Calculation Darcy-Weisbach equations are being used because the system requires special Description:Water/Antifreeze @ 0°F/-18°C,50%Glycerine(C.P.or U.S.P.96.5%)by design considerations. The Darcy-Weisbach formula used in this hydraulic weight calculation to determine fluid/agent friction loss is:P=0.000216 fLp(Q^2)/(d^5) Product Name: Friction Loss factors are derived from the Moody Diagram. Antifreeze solution in pipes within or passing through: Reynolds Number is calculated using:Re=Q/d/k Cold Areas: Warm Areas: Relative Roughness of Pipe is:e/D Density:71.480lb/ft3 Density:70.313lb/ft3 K-Factors for Sprinkler Heads are adjusted based on the density of the fluid being Viscosity:44.000cP Viscosity:6.000cP discharged(Bernoulli-based formula). NFPA Suggested Aged Pipe Roughness is being applied. C-Factors are not relevant to this type of calculation.These are replaced with the Roughness a-value for the pipe. Contractor Contractor Number Contact Name Contact Title 12-032 STEVE ALLEN PM Name of Contractor: Phone Extension WESTERN STATES FIRE PROTECTION 720-219-0574 Address 1 FAX 274 CENTER DRIVE Address 2 E-mail STEVE.ALLEN @WSFP.US Address 3 Web-Site �M ©M.E.P.CAD, Inc. AutoSPRINKO VR10 00.0.55.0 Darcy-Weisbach Calculation 4/12/2013 6:59:47AM Page 1 N lHydraulic 0 Analysis 1111JU Job Number:CH0168 Report Description:BED#4 CALC AREA Pi a Type Diameter Flow Velocity HWC/Rou hness Friction Loss Length Pressure Downstream Elevation Discharge K-Factor Pt Pn Fittings Eq.Length Summary Upstream Total Length �•••••Route 1 ••••• BL 1.1010 19.60 6.60 0.004" 0.093600 V-4 Pf 0.594 101 39'-0 19.60 4.3(adj) 20.777 Sprinkler 5'-0 Pe 1 39'-0 21.370 T(5'-0) 6'-4 Pv BL 1.1010 39.34 13.26 0.004" 0.376991 2'-111/2 Pf 3.001 1 39'-0 19.74 21.370 Flow(q)from Route 5'-0 Pe 2 39'-0 24.371 T(5'-0) 7'-111/2 Pv CM 1.1010 0.82 0.28 0.004" 0.000163 1'-10 Pf 0.000 2 39'-0 24.371 Pe 3 39'-0 24.371 V-10 Pv CM 1.1010 21.58 7.27 0.004" 0.113473 3'-41/2 Pf 0.383 3 39'-0 20.76 24.371 Flow(q)from Route 3 Pe 4 39'-0 24.755 3'-41/2 Pv CM 1.1010 42.44 14.30 0.004" 0.438940 11'-81/2 Pf 7.338 4 39'-0 20.86 24.755 Flow(q)from Route 4 5'-0 Pe 5 39'-0 32.092 T(5'-0) 16'-81/2 Pv CM 1.1010 23.33 7.86 0.004" 0.134259 4'-01/2 Pf 2.154 5 39'-0 32.092 12'-0 Pe 6 39'-0 34.246 E(7'-0),T(5'-0) 16'-01/2 Pv FR 1.1010 23.33 7.86 0.004" 0.134259 17'-0 Pf 2.954 6 39'-0 34.246 5'-0 Pe 7.370 7 22'-0 44.570 C(5'-0) 22'-0 Pv CM 1.1010 8.45 2.85 0.004" 0.017389 20'-8 Pf 0.481 7 22'-0 44.570 7'-0 Pe 8 22'-0 45.051 E(7'-0) 27'-8 Pv CM 1.1010 27.56 9.29 0.004" 0.185116 24'-10 Pf 7.381 8 22'-0 19.12 45.051 Flow(q)from Route 6 15'-0 Pe 9 22'-0 52.432 3T(5'-0) 39'-10 Pv FR 1.3940 27.56 5.79 0.004" 0.054857 11'-0 Pf 0.933 9 22'-0 52.432 6'-0 Pe 4.769 10 11'-0 58.134 T(6'-0) 17'-0 Pv CM 1.3940 27.56 5.79 0.004" 0.054857 11'-61/4 Pf 0.962 10 11'-0 58.134 6'-0 Pe 11 11'-0 59.095 T(6'-0) 17'-61/4 Pv CM 2.0030 80.96 8.24 0.004" 0.068436 9'-11 Pf 1.431 11 11'-0 59.095 11'-0 Pe -0.030 12 111-0'/4 60.496 E(11'-0) 20'-11 Pv FM 2.0090 80.96 8.19 0.004" 0.066732 14'-111/4 Pf 23.103 12 11'-03/4 60.496 9'-0 Pe 4.365 13 1'-0 87.965 2Tr(1'-0),2CV,2E(3'-6), 23'-111/4 Pv BFP(-13.500),PRV(-8.000),BV BL 1.9590 80.96 8.62 0.004" 0.076208 103'-0 Pf 8.133 13 1'-0 87.965 cplg(1'-0) 3'-0 Pe 13.439 14 -30'-0 109.537 EE(2'-0),S 106'-0 Pv 0.00 Hose Allowance At Source 14 80.96 c,&•••••Route 2••••• BL 1.1010 19.74 6.65 0.004" 0.094898 3'-23/4 Pf 0.306 102 39'-0 19.74 4.3(adj) 21.065 Sprinkler Pe 1 39'-0 21.370 3'-23/4 Pv ,,&•••••Route 3••••• BL 1.1010 20.76 7.00 0.004" 0.105043 5'-01/2 Pf 1.055 103 39'-0 20.76 4.3(adj) 23.317 Sprinkler 5'-0 Pe 3 39'-0 24.371 T(5'-0) 10'-01/2 Pv �•••••Route 4••••• BL 1.1010 20.86 7.03 0.004" 0.106060 6'-51/4 Pf 1.212 104 39'-0 20.86 4.3(adj) 23.542 Sprinkler 5'-0 Pe 4 39'-0 24.755 T(5'-0) 11'-51/4 Pv �•••••Route 5••••• CM 1.1010 38.52 12.98 0.004" 0.357490 14'-53/4 Pf 8.755 2 39'-0 24.371 10'-0 Pe 15 39'-0 33.126 2T(5'-0) 24'-53/4 Pv FR 1.3940 38.52 8.10 0.004" 0.104939 17'-0 Pf 2.414 15 39'-0 33.126 6'-0 Pe 7.370 16 22'-0 42.909 T(6'-0) 23'-0 Pv CM 1.3940 38.52 8.10 0.004" 0.103830 6'-0% Pf 1.455 16 22'-0 42.909 8'-0 Pe 17 22'-0 44.364 EE(2'-0),T(6'-0) 14'-0% Pv CM 1.1010 23.32 7.86 0.004" 0.132531 10'-11/2 Pf 1.475 17 22'-0 44.364 V-0 Pe 18 22'-0 45.840 EE(1'-0) 11'-11/2 Pv LM ©M.E.P.CAD, Inc. BfllAutoSPRINKO VR10 v10.0.55.0 4/12/2013 6:59:13AM Page 1 N 1HYdraulic 0 Analysis Job Number:CH0168 Report Description:BED#4 CALC AREA Pi a Type Diameter Flow Velocity HWC/Rou hness Friction Loss Length Pressure Downstream Elevation Discharge K-Factor Pt Pn Fittings Eq.Length Summary Upstream Total Length FR 1.3940 38.20 8.03 0.004" 0.103275 11'-0 Pf 1.136 18 22'-0 45.840 Pe 4.769 19 11'-0 51.745 11'-0 Pv CM 1.3940 38.20 8.03 0.004" 0.102138 V-11% Pf 1.632 19 11'-0 51.745 14'-0 Pe 20 11'-0 53.377 E(8'-0),T(6'-0) 15'-11% Pv CM 1.3940 53.40 11.23 0.004" 0.199550 22'-73/4 Pf 5.718 20 11'-0 15.20 53.377 Flow(q)from Route 7 6'-0 Pe 11 11'-0 59.095 T(6'-0) 28'-73/4 Pv -•••••Route 6••••• FR 1.1010 19.12 6.44 0.004" 0.091 44 17'-0 Pf 2.007 21 39'-0 19.12 35.015 Flow(q)from Route 10 5'-0 Pe 7.370 22 22'-0 44.392 T(5'-0) 22'-0 Pv CM 1.1010 19.12 6.44 0.004" 0.089032 2'-43/4 Pf 0.659 22 22'-0 44.392 5'-0 Pe 8 22'-0 45.051 T(5'-0) 7'-43/4 Pv �•••••Route 7••••• FR 1.3940 15.20 3.19 0.004" 0.017538 11'-0 Pf 0.193 23 22'-0 46.899 Pe 4.769 24 11'-0 51.860 11'-0 Pv CM 1.3940 15.20 3.19 0.004" 0.017538 47'-9'/z Pf 1.517 24 11'-0 51.860 40'-0 Pe 20 11'-0 53.377 4T(6'-0),2E(8'-0) 87'-9'/z Pv ims•••••Route 8••••• CM 1.1010 15.20 5.12 0.004" 0.058604 32'-3 Pf 2.534 17 22'-0 44.364 11'-0 Pe 23 22'-0 46.899 EE(1'-0),2T(5'-0) 43'-3 Pv imb•••••Route 9••••• CM 1.1010 14.88 5.01 0.004" 0.056289 13'-2'/4 Pf 1.270 7 22'-0 44.570 10'-0 Pe 18 22'-0 45.840 2T(5'-0) 23'-2'/4 Pv 4-•••••Route 10••••• CM 1.1010 19.12 6.44 0.004" 0.089032 20'-9'/z Pf 2.923 5 39'-0 32.092 T(5'-0) 12'-0 Pe 21 39'-0 35.015 E(7'-0) 32'-9'/z Pv s K-Factor conversion 1 AP=0.000216f� formula: KA=7.94K,�, f A Equivalent Pipe Lengths of Valves and Fittings(C=120 only) k IC Value Multiplier / Actual Inside Diameter \4.87 Value Of C 100 130 140 150 Schedule 40 Steel Pipe Inside Diameter 1 =Factor Multiplying Factor 0.713 1.16 1.33 1.51 M[J©M.E.P.CAD, Inc. ( AutoSPRINK®VR10 v10.0.55.0 4/12/2013 6:59:13AM Page 2 Hydraulic Analysis Job Number:CH0168 Report Description:BED#4 CALC AREA Pipe Type Diameter _Flow Velocity HW_C_/Roughness Friction Loss Length Pressure Downstream Elevation Discharge K-Factor Pt Pn Fittings Eq.Length Summary Upstream 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 Pn 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 E 90°Elbow Pe Pressure due to elevation difference between indicated points UG Underground Pv Velocity pressure at a point in a pipe EE 45°Elbow Eel 11'/4°Elbow Ee2 22'h°Elbow f Flow Device fd Flex Drop FDC Fire Department Connection fE 90°FireLock(TM)Elbow fEE 45°FireLock(TM)Elbow flg Flange FN Floating Node fT FireLock(TM)Tee g Gauge GloV Globe Valve GV Gate Valve Ho Hose 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 Reducing Valve PrV Pressure Relief 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 LM ©M.E.P.CAD, Inc. N AutoSPRINK®VR10 v10.0.55.0 4/12/2013 6:59:13AM Page 3 OW, ISummary Of Outflowing Devices Report Description:BED#4 CALC AREA Actual Flow Minimum Flow K-Factor Pressure Device m m K (psi) b Sprinkler 101 19.60 19.60 4.3 20.777 Sprinkler 102 19.74 19.60 4.3 21.065 Sprinkler 103 20.76 19.60 4.3 23.317 Sprinkler 104 20.86 19.60 4.3 23.542 r* Most Demanding Sprinkler Data &©M.E.P.CAD, Inc. ijIl AutoSPRINK®VR10 v10.0.55.0 4/12/2013 6:59:51AM Page 3 Hydraulic Graph Report Description:BED#4 CALC AREA Water Supply at Node 14 150 135 Static Pressure 125.000 120 80.96 @ 109.537 105 90 Q 75 S stem demand curve a 60 45 30 15 627.50 @ 11.500 0 -150 300 450 600 750 900 1050 1200 1350 1500 Water flow,gpm Hydraulic Graph Water Supply at Node 14 Static:Pressure 125.000 Residual:Pressure 11.500 @ 627.50 Available Pressure at Time of Test 123.111 @ 80.96 System Demand 109.537 @ 80.96 System Demand(Including Hose Allowance at Source) 109.537 @ 80.96 LM,©M.E.P.CAD, Inc. Fels AutoSPRINK@ VR10 00.0.55.0 4/12/2013 6:59:49AM Page 2 Bulletin 006 Rev. F Model RFC30 (SIN RA0611) °J ® Model RFC43 (SIN RA0612) Model RFC49 (SIN RA0616) Rel bi Residential Flat Concealed Sprinklers A Residential Flat Concealed Sprinkler engineered for a minimum -- ` design density of 0.05 gpm/ft2 with Y low GPM requirements. Features OJ } 1. Very low water flow requirements. 2. 112" (13mm) Total adjustment. t 3. Thread-On/Thread-Off or 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 1. Listed by Underwriters Laboratories, and certified by UL for Canada (cULus) 2. NYC MEA 258-93-E UL Listing Categories Residential Automatic Sprinklers UL Guide Number VKKW Product Description Model RFC30, RFC43 and RFC49 Concealed Residen- the most dependable fire protection available, an automat- tial Sprinklers are fast response residential fusible solder is sprinkler system. link automatic sprinklers. Residential sprinklers differ from The RFC30, RFC43 and RFC49 are UL Listed Residential standard sprinklers primarily in their response time and Sprinklers to be installed in the residential portions of any water distribution patterns. occupancy in accordance with NFPA 13, 13R, & 13D. Model RFC30, RFC43 and RFC49 sprinklers discharge The RFC30, RFC43 and RFC49 can reduce the need for water in a hemispherical pattern below the sprinkler de- precise cutting of drop nipples. The threaded cover plate flector. Residential distribution patterns are higher and assembly can be adjusted without tools to fit accurately generally contain a finer droplet size than standard sprin- against the ceiling. The fire protection system need not be kler patterns. shut down to adjust or remove the cover plate assembly. The combination of speed of operation and high dis- Application and Installation charge pattern required for residential sprinklers has dem- The RFC30, RFC43 and RFC49, for residential installa- onstrated, in fire testing, an ability for controlling residen- tions, use a 165°F(74°C)fusible solder link in a tuning fork tial fires, and thereby providing significant evacuation time style sprinkler frame with a drop-down deflector. This as- for occupants. sembly is recessed into the ceiling and concealed by a flat The RFC30, RFC43 and RFC49 Sprinklers provide the cover plate. The cover plate is attached to the skirt, using best form of fire protection by combining an attractive ap- 135°F (57°C) ordinary temperature classification solder. pearance and 112" (13mm) of cover adjustment for ease of When the ceiling temperature rises, the solder holding installation. The small diameter cover plate is easily and the cover plate releases the cover allowing the deflector positively attached and blends into the ceiling, concealing to drop into position and exposing the sprinkler inside to The Reliable Automatic Sprinkler Co., Inc., 103 Fairview Park Drive, Elmsford, New York 10523 ceiling temperature. The subsequent operation of the sol- OF THE SPRINKLER/CUP ASSEMBLY. MODEL RFC30, der link opens the waterway and causes the deflector to RFC43 AND RFC49 CONCEALED SPRINKLERS MUST drop into position to distribute the discharging water in a BE INSTALLED ONLY WITH 135°F RATED COVERS. hemispherical pattern below the sprinkler deflector. Any Note:A leak tight'/2" NPT(R1/2) sprinkler joint can be ob- adjustment of thread engagement between the cover tained with a torque of 8-18 ft-lbs (10,8- 24,4 N-m). Do not plate and cup will assure that the drop-down deflector is tighten sprinklers over maximum recommended torque. It properly located below the ceiling. The residential distri- may cause leakage or impairment of the sprinklers. bution pattern contains a finer droplet size than a standard Cover assemblies provide up to 1/2" (13mm) of adjust- sprinkler, and the pattern produces significantly higher ment. Turn the cover clockwise until the flange is in con- wall wetting. tact with the ceiling. For the push-on/thread-off option, the After a 25/8 inch diameter hole is cut in the ceiling, the cover assembly is pushed onto the cup and final adjust- sprinkler is to be installed with the Model FC Wrench. ment is made by turning the cover clockwise until the skirt When installing a sprinkler, the wrench is first positioned flange makes full contact with the ceiling. Cover removal into the sprinkler/cup assembly and around the hexagonal requires turning in the counter-clockwise direction. body of the sprinkler frame. The Wrench must bottom out In ceilings that have a plenum space above the sprinkler, against the cup in order to ensure proper, safe installation. the plenum space may have neutral or negative pressur- The sprinkler is then tightened into the pipe fitting. When ization but must not be positively pressurized. Inspect all inserting or removing the wrench from the sprinkler/cup sprinklers after installation to ensure that the gap between assembly, care should be taken to prevent damage to the cover plate and ceiling and the 4 slots in the cup are the sprinkler. DO NOT WRENCH ON ANY OTHER PART all open and free from any air flow impediment. Temperature Rating Sprinkler Cover Plate Max.Ambient Temp. 165°F/74°C 135°F/57°C 100°F/38°C Installation Data: RFC30 (SIN RA0611) Thread Sprinkler Maximum Minimum Minimum Required Size K Factor Spacing Distance to Distance between Sprinkler Discharge inch (mm) ft. (m) Wall sprinklers Flow Press. ft. (m) ft. (m) gpm (Lpm) psi (bar) 1/2"(15mm) 3.0 12 x 12(3.6x3.6) 6(1.83) 8(2.43) 9(34.1) 9.0(0.62) 1/2"(15mm) 3.0 14 x 14(4.3x4.3) 7(2.13) 8(2.43) 10(37.8) 11 (0.76) Note: 1 bar=100 Kpa Installation Data: RFC43 (SIN RA0612) Thread Sprinkler Maximum Minimum Minimum Required Size K Factor Spacing Distance to Distance between Sprinkler Discharge inch (mm) ft. (m) Wall sprinklers Flow Press. ft. (m) ft. (m) gpm (Lpm) psi (bar) 1/2"(15mm) 4.3 12 x 12(3.6x3.6) 6(1.83) 8(2.43) 12(45) 7.8(0.54) 1/2"(15mm) 4.3 14 x 14(4.3x4.3) 7(2.13) 8(2.43) 13(49) 9.1 (0.63) 1/2"(15mm) 4.3 16 x 16(4.9x4.9) 8(2.43) 8(2.43) 13(49) 9.1 (0.63) 1/2"(15mm) 4.3 18 x 18(5.5x5.5) 9(2.74) 8(2.43) 18(68) 17.5(l.21) 1/2"(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 Installation Data: RFC49 (RA0616) Thread Sprinkler Maximum Minimum Minimum Required Distance to Distance between Sprinkler Discharge Size K Factor Spacing inch (mm) ft. (m) Wall sprinklers Flow Press. ft. (m) ft. (m) gpm (Lpm) psi (bar) 1/2"(15mm) 4.9 12 x 12(3.6x3.6) 6(1.83) 8(2.43) 13(49) 7.0(0.48) '/2"(15mm) 4.9 14 x 14(4.3x4.3) 7(2.13) 8(2.43) 13(49) 7.0(0.48) '/2"(15mm) 4.9 16 x 16(4.9x4.9) 8(2.43) 8(2.43) 13(49) 7.0(0.48) '/2"(15mm) 4.9 18 x 18(5.5x5.5) 9(2.74) 8(2.43) 17(64.3) 12.0(0.83) '/2"(15mm) 4.9 20 x 20(6.0x6.0) 10(3.05) 8(2.43) 20(75.7) 16.7(l.14) Note: 1 bar= 100 Kpa FOR SLOPED CEILING APPLICATIONS SEE RASCO BULLETIN 035. 2. Maintenance Model RFC30, RFC43 and RFC49 Concealed Sprinklers consist of a brass cover plate and copper alloy retainer should be inspected quarterly and the sprinkler system flange allowing a'/2" cover plate adjustment. Any secure maintained in accordance with NFPA 25. Do not clean engagement between the cover plate and the cup will sprinklers with soap and water, ammonia or any other assure that the drop-down deflector is properly located cleaning fluids. Remove dust by using a soft brush or gen- below the ceiling. A plastic protective cap shall be tle vacuuming. Remove any sprinkler cover plate assem- provided and factory installed inside the sprinkler cup bly which has been painted(other than factory applied)or to protect the drop-down sprinkler deflector from dam- damaged in any way. A stock of spare sprinklers should age, which could occur during construction before the be maintained to allow quick replacement of damaged or cover plate is installed. Standard cover finish: [Chrome] operated sprinklers. Prior to installation, sprinklers should [White] [Specialty—specify]. Residential concealed be maintained in the original cartons and packaging until sprinklers shall be Reliable Model RFC30, SIN RA0611 used to minimize the potential for damage to sprinklers (Bulletin 006), Model RFC43, SIN RA0612(Bulletin 006) that would cause improper operation or non-operation. or Model RFC49, SIN RA0616 (Bulletin 006). Model RFC30, RFC43 and RFC49 Residential Ordering Information Cover Plate Finishes(t) Specify: Standard Finishes Concealed Sprinkler Specification 1. Sprinkler Model Sprinklers shall be cULus Listed low flow residential con- 2. Cover Plate Finish Chrome White cealed sprinklers with drop-down deflector and adjust- 3. Thread-On or able flat cover plate engineered for a minimum design Push-On Feature Special Application density of 0.05 gpm/ft2. Sprinkler frame and deflector Finishes shall be of bronze frame construction having a'h" NPT Bright Brass thread. Thermal element shall consist of an approved Black Plating black-painted beryl um-nickel solder n w Black Paint Ili ikl f ld link p Y Off White symmetric lever mechanism, maintaining a Teflon-coated Satin Chrome Belleville spring washer and machined brass cap water (1)Other colors and finishes avail- seal assembly containing no plastic parts. Sprinkler able.Consult factory for details. K-factor shall be nominal 3.0(44), 4.3(62.4), and 4.91 Note:Paint or any other coatings (70) having a s/,6", %" and 7/,6" orifice. Temperature rating applied over the factory finish will shall be Ordinary 65°F 74°C ; cover late temperature void all approvals and warran- t ( ) p p ties. rating to be 135°F(57C). Cover plate assembly shall I"x 112"REDUCING TEE OR ELBOW 28"[66.55mm] 276'[58.42mm] DIA I HOLE IN CEILING J CUP j 2"[50.8mm] MAX. l y FACE OF FITTING TO FACE OF CEILING DIMENSION CEILING 2°[12.70mm] MAX. COVER ADJUSTMENT 1 [4.96mm] D a O W CGP COVER PLATE 3 "(84.21mm] DIA. ASSEMBLY 16 SPRINKLER 006FGOIA COVER PLATE: 1,,2" [12.7mm] ADJUSTMENT 3. Bulletin 035 Rev. I c j o Residential Sprinkler ble CD Rel For Sloped Ceilings CP Guidelines for Listed Residential Sprinkler installations below Sloped Ceilings The installation guidelines cover Residential Sprinkler Models: IF. - F1 Res 49 Pendent R F1 Res 49 Recessed Pendent/172 F1 Res 58 Pendent F1 Res 58 Recessed Pendent/172 F1 Res 44 HSW F1 Res 44 Recessed HSW/F2 F1 Res 49 &58 F1 Res 49 & 58 F1 Res 49 CCP Pendent Recessed Pendent/ F2 F1 Res 58 CCP RFC 43 Flat Concealed RFC 49 Flat Concealed own Listings & Approvals 1. Listed by Underwriters Laboratories Inc. and UL Certified for Canada (cULus) 2. NYC MEA 258-93-E UL Listing Category F1 Res 44 F1 Res 44 Residential Automatic Sprinkler HSW Recessed HSW/F2 UL Guide Number VKKW j Patents ` US Patent No. 6,516,893 applies to Model F1 Res 49 & 58 Pendent Sprinklers US Patent No. 7,353,882 applies to Model F1 Res 44 HSW Sprinklers Other Patents Pending Product Description for F1 Res Sprinklers Model F1 Res Pendent sprinklers are fast response sprin- F1 Res 49 & 58 CCP RFC 43 & RFC 49 klers combining excellent durability, high sensitivity glass- Pendent bulb and low profile decorative design. The F1 Res Hori- zontal 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&5.8 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 protec- tion application needs of the latest residential market stan- RFC 43 & RFC 49 dards (UL 1626 Standard *). Upon fire conditions, rising heat causes a sprinkler's heat-sensitive glass-bulb to shat- ter, releasing the waterway for water flow onto the deflector, * Effective date July 12, 2002 evenly distributing the discharged water to control a fire. The Reliable Automatic Sprinkler Co., Inc., 103 Fairview Park Drive, Elmsford, New York 10523 Product Description for RFC 43 & RFC 49 Technical Data (F1 Res Sprinklers): Model RFC43 & RFC49 Concealed Residential Sprin- . Thermal Sensor : Nominal 3mm glass-bulb klers are fast response residential fusible solder link au- . Sprinkler Frame : Brass Casting tomatic sprinklers. Residential sprinklers differ from stan- Sprinkler Pressure Rating : 175 psi dard sprinklers primarily in their response time and water Factory Hydrostatically Tested to 500 psi distribution patterns. Model RFC43 & RFC49 sprinklers discharge water in a Thread Size : 'h" NPT(R'/2) hemispherical pattern below the sprinkler deflector. Resi- • K Factor 4.9(Actual)-F1 Res 49 Pendent Sprinkler dential distribution patterns are higher and generally con- 4.4(Actual)-F1 Res 44 HSW Sprinkler tain a finer droplet size than standard sprinkler patterns. 5.8(Actual)-F1 Res 58 Pendent Sprinkler The combination of speed of operation and high dis- • Density Minimum .05 gpm/ft2 charge pattern required for residential sprinklers has dem- onstrated, in fire testing, an ability for controlling residen- Technical Data (RFC 43 & RFC 49): tial fires, and thereby providing significant evacuation time . Thermal Sensor : 165°F Fusible Link for occupants. Sprinkler Frame : Brass Machined The RFC43 & RFC49 Sprinkler provides the best form of fire protection by combining an attractive appearance • Sprinkler Pressure Rating : 175 psi and 112" (13mm) of cover adjustment for ease of installa- Factory Hydrostatically Tested to 500 psi tion. The small diameter cover plate is easily and posi- • Thread Size : 1/2" NPT(R'/) tively attached and blends into the ceiling, concealing the • K Factor 4.3 (Actual) RFC43; most dependable fire protection available, an automatic 4.9 (Actual) RFC49 sprinkler system. • Density Minimum .05 gpm/ft2 The RFC43& RFC49 are UL Listed Residential Sprinkler to be installed in the residential portions of any occupancy Application in accordance with NFPA 13, 13R, & 13D. Model F1 Res and RFC 43&RFC 49 Sprinklers are used The RFC43 & RFC49 can reduce the need for precise for Residential Fire Protection according to UL 1626 Stan- cutting of drop nipples. The threaded cover plate assem- dard*. Be sure that orifice size,temperature rating,deflec- bly can be adjusted without tools to fit accurately against for style, cover plate and sprinkler type are in accordance the ceiling. The fire protection system need not be shut with the latest published standards of The National Fire down to adjust or remove the cover plate assembly. 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. A = = a (rise) L/2 L A : B W L/2 C ELEVATION L B LISTED AREA OF COVERAGE CORRESPONDS TO CEILING SLOPE _ L/2 L = THE MAXIMUM LISTED SPRINKLER Nl� 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. F�pOR B = RANGE: 2/12 (9.4') < B 5 8/12 (33.7°). C = 8'-0" MINIMUM. 035FG01 5. Model F1 Res 58 CCP Pendent Installed below sloped Ceiling. Technical Data Sprinkler Temp. CCP Assy. Max. Max. Actual Sprinkler Temp. Ambient Sprinkler Thread Size Rating Pressure K Identification "'F(PC) Rating psi(bar) Temp. Factor(metric) Length Number(SIN) ?F(?C) ?F(?C) 1/2"NPT(R1/2) 155(68) 135(57) 175(12) 100(38) 5.8(83,38) 2.25"(57mm) R3513 Table 4-Application Max.Sprinkler Spacing Along Slope Max.Slope of 4/12 18.41 Pitch (W)Width x(L)Length ft(m) Min.Flow Per Sprinkler Head Pressure mLm sibar 18x18(55x55) 20 75.7 12(0,83) 20 x 20 6 1 x 6,1) 20 75.7 12(0,83) Model RFC43 Pendent Flat Concealed installed below Sloped Ceiling. Technical Data Sprinkler Coverplate Max. Max. Actual Max. Sprinkler Thread Size Temp.Rating Temp.Rating Pressure Ambient Temp. K Factor Identification ?F ?C ?F 1C bar ?F ?C metric Adjustment Number SIN Y2"NPT R1/2 165 74 135 57 175 12 100 38 4.3(61,4) 1/2" 13mm RA0612 Table 5-Application Max.Slope of 8/12 33.7? Pitch Max.Slope of 4/12 18.4? Pitch Max.Sprinkler Spacing Along Slope Min.Flow Per Sprinkler Head Pressure Min.Flow Per Pressure (W)Width x(L)Length ft(m) Sprinkler Head gpm(Lpm) psi(bar) m L m psi(bar) 12x12 36x36 18 68 17.5 121 13 49 9.1 063 14x14 43x43 18 68 17.5 121 13 49 9.1 063 16x16 49x49 18 68 17.5 121 13 49 9.1 063 18x18 55x55 24 91 31 (2.14) 18 68 17.5 121 20 x 20(6,1 x 6,1) 24(91) 31 (2,14) 21 (79) 23.8(1,64) Model RFC 49 Pendent Flat Concealed installed below Sloped Ceiling. Technical Data Sprinkler Coverplate Max. Max. Actual Max. Sprinkler Thread Size Temp.Rating Temp.Rating Pressure Ambient Temp. K Factor Adjustment Identification ?F(?C) ?F(?C) -psi(bard_ ?F(PC) Number(SIN_ 1/2" NPT R1/2 165 74 135(57) 1 175 12 100 38 4.9(69,94) 1/2" 13mm RA0616 Table 6-Application Max.Sprinkler Spacing Along Slope Max.Slope of 8/12 33.71 Pitch Max.Slope of 4/12 18.4? Pitch Min.Flow Per Sprinkler Head Pressure Min.Flow Per Sprinkler Head Pressure (W)Width x(L)Length ft(m) m(L pm) si bar m(L pm) psi bar 16 x 16 K9 x 4,9) 28 106 23(19,3) 18 68 13.5 0.93 18 x 18(5,5 x 5,5) 29 109.8 29(20,0) 18 68 13.5 0 93 20 x 20(6,1 x 6,1) 30 113.6 30(30.0) 23 87 22(1,52) Installation Guidelines 1. For systems designed in accordance with NFPA 13, 5. For coverage areas less than the listed coverage 13D and 13R, where specific UL Listed flows are area shown in Tables 1 through 5, use the minimum not required, consult with the local Authority Having flow requirement for the next largest listed coverage Jurisdiction regarding the number of design sprin- area. klers for sloped ceilings having a pitch greater than 6. Minimum spacing between pendent type sprinklers (9.40). is 8 ft. (2.4 m). Minimum distance from a pendent 2. Installation of UL Listed residential sprinklers under type sprinkler and an adjacent wall is 4" (102 mm). sloped ceilings shall be limited to a type of unob- 7. Residential sprinklers located closest to the peak of structed construction consisting of smooth ceilings, the ceiling shall have the deflectors located not more as defined by NFPA 13, having a maximum pitch of than 3 ft (1m) vertically down from the peak. Align 4/12 (18.4°) or 8/12 (33.70). deflectors parallel with the ceiling slope 1" to 4" 3. Spacing of residential sprinklers under sloped ceil- (25mm to 102mm) below the sloped ceiling. ings is measured along the slope when determining 8. Hydraulic Requirements: the distance off of walls and between sprinklers. a. For NFPA 13D Systems, the number of design 4. Measure listed areas of coverage along the sloped sprinklers shall include all sprinklers within a ceiling. The actual floor coverage area will be less compartment, up to a maximum of two sprinklers than the listed area. (where specific UL Listed flows are required)that requires the greatest hydraulic demand. 8. L L L/2 L12 L L/2 L/2 C ELEVAT/ON LISTED AREA OF COVERAGE CORRESPONDS TO CEILING SLOPE `N I I c�NNG . L L = THE MAXIMUM LISTED SPRINKLER SPACING, LENGTH (8'-0" MINIMUM). B L/2 = ONE HALF THE MAXIMUM LISTED SPRINKLER SPACING (0'-4" MINIMUM). W = THE MAXIMUM LISTED SPRINKLER SPACING, WIDTH. A = 3'-0" MAXIMUM. B = RANGE: 2/12 (9.4') < B 5 8/12 (33.7*). C = 8'-0" MINIMUM. 035FG02 Sprinkler spacing below multiple sloped ceilings with a maximum slope of a/12 (33.7°) pitch. 6. b. For NFPA 13R Systems, the number of design 9. Because of the varied nature of residential construc- sprinklers shall include all sprinklers within a com- tion features,there will be some compartment designs partment, up to a maximum of four (4) sprinklers which cannot be fully sprinklered in accordance with (where specific UL Listed flows are required), NFPA 13, 13D, or 13R. In these instances, consult that requires the greatest hydraulic demand. the Authority Having Jurisdiction (AHJ) for guidance c. For NFPA 13 systems, the design area shall be and approval. This includes sloped ceilings having the area that includes the four (4) hydraulically a pitch greater than 8/12 (33.70). most demanding sprinklers. The minimum re- 10. Glass bulb sprinklers have orange bulb protectors quired discharge from each of the four hydrauli- to minimize bulb damage during shipping, handling cally demanding sprinklers shall be the greater and installation. REMOVE THIS PROTECTION AT of the following: THE TIME THE SPRINKLER SYSTEM IS PLACE IN (1) In accordance with the minimum flow rates SERVICE FOR FIRE PROTECTION. Removal of the indicated by the individual listings (that al- protectors before this time may leave the bulb vulner- ready will provide a minimum density of 0.1 able to damage. RASCO wrenches are designed to gpm/ft2); or install sprinklers when covers are in place. REMOVE (2)A calculated value based on delivering a min- PROTECTORS BY UNDOING THE CLASP BY HAND. imum of 0.1 gpm/ft2 over the design area. DO NOT USE TOOLS TO REMOVE THE PROTEC- TORS. Model F1 Res 44 and F1 Res 44 HSW/F2 installed below Sloped Ceiling. lip ;f F1 Res 44 F1 Res 44 HSW Recessed HSW/F2 CEILING CEILING SIDEWALL O DEFLECTOR SHELF PARALLEL TO THE CEILING i ' HORIZONTAL SIDEWALL SPRINKLER INSTALLED. DEFLECTOR PARALLEL TO SLOPED CEILING. ' ossruros WALL WALL 035FG06 Horizontal Sidewall Sprinkler Horizontal Sidewall Sprinkler (with discharge directed across the slope) (with discharge directed down the slope) 9. Bulletin 176 Rev.A W 1. R Model F1 bila Residential Sprinklers for Design Density of .10 gpm/ft2 D Model F1 Res Sprinklers engineered for the lowest flows to meet the minimum design density of.05 gpni ftz Types: 1. F1 Res 49 Pendent '' F 2. F1 Res 49 Recessed Pendent/F 1 3. F1 Res 49 Recessed Pendent/FP 4. F1 Res 49 CCP Pendent _ 5. F1 Res 58 Pendent F1 Res 49,58&76 F1 Res 49,58&76 6. F1 Res 58 Recessed Pendent/F1 Recessed Pendent F1 Recessed Pendent/FP 7. F1 Res 58 Recessed Pendent/FP 8. F1 Res 58 CCP Pendent 9. F1 Res 44 & 58 HSW 10. F1 Res 44 & 58 HSW Recessed HSW/F2 11. F1 Res 44 SWC 12. F1 Res 76 Pendent ;' 13. F1 Res 76 Recessed Pendent/F 1 14. F1 Res 76 Recessed Pendent/FP 15. F1 Res 76 CCP Pendent F1 Res 49, 58&76 F1 Res 44&58 CCP Pendent Recessed HSW/F2 Listings & Approvals 1. Listed by Underwriters Laboratories Inc. and UL Certified for Canada (cULus) 2. NYC MEA 258-93-E UL Listing Category Residential Automatic Sprinkler ;' UL Guide Number VKKW F1 Res 44 SWC Patents US Patent No. 6,516,893 applies to the Model F1 Res 49 & 58 Pendent Sprinklers Product Description Technical Data: Model F1Res Pendent sprinklers (Figs. 1, 2, 3 & 4) • Thermal Sensor: Nominal 3mm glass-bulb combine excellent durability, high sensitivity glass-bulb • Sprinkler Frame : Brass Casting and low profile decorative design. • Sprinklers' Pressure Rating : 175 psi The 3mm glass-bulb pendent sprinklers permit the Factory Hydrostatically Tested to 500 psi efficient use of residential water supplies for sprinkler . Thread Size: 112" NPT(R1/2) coverage in residential fire protection design. • K-Factor.4.9(Actual)-F1 Res 49 Pendent Sprinkler The low flow F1 Res sprinklers are specially 5.8(dial)-F1 Res 58 Pendent&HSWSprinkler engineered for fast thermal response to meet the 7.6(Actual)-F1 Res 76 Pendent Sprinkler sensitive fire protection application needs of the latest 4.4(Actual)-F1 Res 44 HSW Sprinkler residential market standards (UL 1626 Standard *). • Density: Minimum 0.10 gpm/ft2 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. * Effective date 7/12/02 The Reliable Automatic Sprinkler Co., Inc., 103 Fairview Park Drive, Elmsford, New York 10523 Application Model F1 Res Sprinklers are used for Residential Fire Example No. 1 Protection according to UL 1626 Standard*. Be sure Room Size= 12 ft x 20 ft (3.6 m x 6.1 m) that orifice size, temperature rating, deflector style and Coverage Area= 12 x 20 = 240 ft2(22.3 m2) sprinkler type are in accordance with the latest Flow @ 0.10 gpm/ft2 density= 240 x 0.10 = 24 gpm published standards of The National Fire Protection Using an F1 Res 49 Pendent Sprinkler, K=4.9 Association or the approving authority having Pressure= (24/4.9)2 = 24 psi (1.65 bar) jurisdiction. The baseline flow for a 20 ft x 20 ft (6.1 m x 6.1 m) When using F1 Residential Sprinklers for systems coverye area using the baseline density of 0.05 design to NFPA 13D or NFPA 13R, use listed area of gpm/ft will be 20 gpm @ 16.7 psi (75.7 L/min @ 1.14 coverage and minimum flow and pressure requirements bar). Therefore,the minimum flow required is 24 gpm @ shown in Bulletin 135. 24 psi (90.8 L/min @ 1.65 bar). For systems designed to NFPA 13, use information in this bulletin.The number of design sprinklers shall be the Example No. 2 most hydraulically demanding sprinklers as required by Room Size= 8 ft x 20 ft (2.4 m x 6.1 m) NFPA 13. Flows and pressures can not be below the 2 2 Coverage Area= 8 2 20= 160 ft2 M2) baseline flows and pressurers. density= 160 x 0.10 = 16 gpm NFPA 13 Flow @ 0.10 gpm/ft Using an F1 Res 49 Pendent Sprinkler, K=4.9 For residential sprinkler systems designed to NFPA 13, Pressure= (16/4.9)2 = 10.7 psi (0.74 bar) a minimum density of 0.1 gpm/ft must be provided over The baseline flow for a 20 ft x 20 ft (6.1 m x 6.1 m) the "design area"that includes the four(4) hydraulically coverage area using the baseline density of 0.05 most demanding sprinklers for the actual coverage gpm/ft will be 20 gpm @ 16.7 psi (75.7 L/min @ 1.14 areas being protected by the 4 sprinklers. The minimum required discharge from each of the four most bar). Therefore,the minimum flow required is 20 gpm @ hydraulically demanding sprinklers shall be the greater 16.7 psi (75.7 L/min @ 1.14 bar). of the following: 1.The flow rates given in the Reliable Residential Example No.-3 Sprinkler Technical Bulletins referenced in Table A Room Size= 10 ft x 16 ft(3.0 m x 4.91 m) for NFPA 13D and 13R as a function of temperature Coverage Area= 10 x 16 = 160 ft2(14.9 m2) rating and maximum allowable coverage area (for Flow @ 0.10 gpm/ft2 density= 160 x 0.10 = 16 gpm actual coverage areas less than or between those Using an F1 Res 76 Pendent Sprinkler, K=7.6 indicated in the respective technical bulletin, it is The baseline flow for a 16 ft x 16 ft coverage area is 21 required to use the minimum required flow for the gpm @ 7.6 psi (79.5 L/min @ 0.52 bar). Therefore, the next largest coverage area); or minimum flow and pressure is 21 gpm @ 7.6 psi (79.5 2.A minimum discharge density of 0.1 gpm/ft2 L/min @ 0.52 bar). applied over the"design area"consisting of the four most hydraulically demanding sprinklers for the Example No. 4 actual coverage areas being protected by the four Room Size= 14 ft x 18 ft(4.3 m x 5.5 m) sprinklers. The maximum dimension of the actual Coverage Area= 14 x 18 = 252 ft2(23.6 m2) coverage area cannot be any greater than the 2 maximum coverage area indicated in the technical Flow @ 0.10 gpm/ft density= 252 x 0.10 = 25.2 gpm bulletins referenced in Table A. min) Using an F1 Res 76 Design Note: Using the AS - S x L method to Using a endent Sprinkler, K=7.6 determine the sprinkler protection area of coverage Pressure= (252/7.6)2 = 11 psi (0.76 bar) in accordance with NFPA 13, apply the 0.1 gpm/ftc The baseline flow and pressure of an 18 ft x 18 ft density to this area to determine the minimum coverage area is 21 gpm @ 7.6 psi (79.5 L/min @ 0.52 required flozyv. Compare this flow to the minimum bar). Therefore, the minimum flow and pressure is 25.2 0.05 gpm/ft cULus Listed flow for the appropriate gpm @ 11 psi (94.6 L/min @ 0.76 bar). coverage area in the technical bulletin for the specific residential sprinkler. If the flow stated in the In general residential sprinklers require technical bulletin is less than the calculated 0.1 flows and pressures as listed for 0.05 gpm/ft density flow required, the .1 density flow densities to achieve the proper spray pattern must then be used in the equation Q=K-/P, solving so the flows and pressures at 0.05 density are for P, to establish the minimum required pressure the baseline flows and pressures. Flows and using the sprinkler K-factor. Note: In many cases pressures below the listed 0.05 density shall the listed flow of individual residential sprinkler not be used. may exceed the required minimum 0.05 gpm/ft density. Reliable has available residential sprinklers with larger K-factors (K=5.8 and K=7.6) that w$ provide lower pressure demands for 0.1 gpm/ft densities in NFPA 13 residential applications. 2. Installation Models F1 Res sprinklers are to be installed as use only the Model GFR2 Sprinkler wrench. Use of shown. Model F1, F2 and FP Escutcheons, illustrated wrenches other than those specified may damage herewith,are the only recessed escutcheons to be used these sprinklers. with Model F1 Res sprinklers. Use of any other Note:A'leak tight"sprinkler joint can be obtained with recessed escutcheon will void all approvals and the following torque: warranties. For installing Model F1 Res Pendent • 3/4" NPT(193/4)— 14-20 ft-Ibs (19- 27.1 N-m) sprinklers use only the Model D sprinkler Wrench; for . '12" NPT(191/2)—8-18 ft-Ibs (10.8—24.4 N-m) installing Models F1 Res Recessed Pendent, CCP Do not tighten sprinklers over maximum sprinklers use only the Model GFR2 sprinkler wrench; recommended torque. It may cause leakage or for installing Model F1 Res recessed HSW sprinklers impairment of the sprinklers. • Model F1 Res 49, 58 & 76 • Model F1 Res 49, 58 & 76 Pendent Recessed Pendent/ F1 T2 a k� I f F1 escutcheon, /" (19mm) adjustment Note: See escutcheon table for dimensions. 2 114"HOLE DIA. [5].2-1 1 15116"DIA. [49.2—] t 1"X 112"REDUCER TURN COLLAR UNTIL TIGHT AGAINST SPRINKLER WRENCH BOSS. I FACE OF FITTING TO CEILING DIMENSION: 3116-15 116(F1 ESCUTCHEON) qq����//ul 3/16-11/16(F2 ESCUTCHEON) 03SYO ADJUSTMENT ®a�tl� /e [s.amm] A" 135FG03 T35FG02A 2 27132"DIA. [72.2—] Fig. 1 Fig. 2 3. Technical Data: F1 Res 49 Pendent and Recessed Pendent Escutcheon*, F1 or F2, Data: Nominal Sprinkler Max. Max. Actual Sprinkler Adjustment "A„ Face of fitting to Thread Orifice Temp. Pressure Ambient K Length Tye Inch(mm) Inch(mm) ceiling Size Inch Rahn psi Temp. Inch Inch mm (mm) °F °C �) OF °C Factor (mm) F1 %(19.0) Min.=%" (19.1) _,5� (4.7-24.0) %"NPT 155 68 100 38 Max.=1 38.1 s s (R, %6"(11) 175 79 175(12) 150 66 4.9 2.25(57) F2 (12.7) Min.=l%6"(23.8) a� -,/ (4.7-17.4) Max.=1' "(38.1) ,s ,s *Note: Escutcheons F1 or F2 may be used with Model F1 Res 49&58 Recessed Pendent Sprinkler **Baseline flows and pressures for 0.05 density Deflector-to-ceiling *Deflector-to-ceiling Maximum 1" (25mm)to 41(100mm) Maximum 4' (100mm)to 8' (203mm) Max.Sprinkler Sprinkler Max.Sprinkler Sprinkler Flow Pressure Flow Pressure Spacing m(L pm) si bar Identification Spacing m(L pm) si bar Identification ft m gp ( p ) p ( ) Number SIN ft m gp ( p ) p ( ) Number SIN 12 x 12 3.6x3.6) 13(49) 7.0(0.48) 12 x 12 3.6x3.6) 15(57) 9.4 (0.65) 14 x 14 4.3x4.3 13 49 7.0 0.48 14 x 14(43x4.3) 16(60.5) 10.6(0.73) 16 x 16 4.9x4.9 13 49 7.0 0.48 R3516 16 x 16 4.9x4.9 17(64.3) 12.0 0.83 R3516 18 x 18 5.5x5.5 17 64.3 12.0 0.83 18 x 18 5.5x5.5 19 72 15.0 1.0 20 x 20(6.1 x6.1) 20(75.7) 16.7 1.14 20 x 20(6.1 x6.1) 22(83.2) 20.2(l.4) *Note: The F1 Res 49 pendent and recessed pendent residential sprinklers can be installed per NFPA 13 in beamed ceilings meeting the following criteria: 1. Maximum beam depth = 7" (178mm) 2.Beam spacing at or greater than 7.5 ft.(2.3m)on center. Technical Data: 171 Res 58 Pendent and Recessed Pendent Nominal Sprinkler Max. Max. Sprinkler Thread Orifice Temp. Pressure Ambient K Length Size Inch Ratina psi Tem . Factor Inch (mm) °F I °C (bar) °F °C (mm) 1/2"NPT Y2"(13) 155 68 175(12) 100 38 5.8 2.25(57) (R1/2) 175 79 150 66 **Baseline flows and pressures for 0.05 density Max.Sprinkler Flow Pressure Ceiling-to- Sprinkler Spacing gp m( p L m) ( )i bar Deflector Identification ft m Inch mm Number SIN 12 x 12(3.6x3.6) 16(61) 7.6(0.53 14 x 14(43x4.3) 16(61) 7.6(0.53) 16 x 16 4.9x4.9 16 61 7.6 0.53 (25- 00) R3513 18 x 18 5.5x5.5 19 72 10.8 0.75 20 x 20(6.1x6.1) 22(83.3) 14.4(l.0) **Calculate for a.10 density but in no case go below the baseline flows& pressures 4. Maintenance Model F1 Res 49, F1 Res 58 & F1 Res 76 Sprinklers Model F1 Res 49 & 58 Recessed Pendent/F1, should be inspected quarterly, and the sprinkler system Model F1 Res 49 & 58 Recessed Pendent/F2, maintained in accordance with NFPA 25, 13, 13D, and Model F1 Res 49 & 58 Recessed Pendent/FP 13R. Do not clean sprinkler with soap and water,Ammonia Sprinklers shall be [cULus Listed] [New York City MEA or any other cleaning fluids. Remove dust by using a soft Approved (258-93-E)] low flow residential recessed brush or gentle vacuuming. Remove any sprinkler which pendent sprinklers engine red to provide a minimum has been painted(other than factory applied)or damaged design density of 0.10 gpm/ft t over the listed coverage area. in any way. A stock of spare sprinklers should be Listed flows as specified by the manufacturer's technical maintained to allow quick replacement of damaged or data sheets are to be used. Residential sprinklers shall be operated sprinklers. Prior to installation, sprinklers should installed in conformance with the manufacturer's installation remain in the original cartons and packaging until used. guidelines and the applicable installation standard. Where This will minimize the potential for damage to sprinklers that pendent residential sprinklers are installed under sloped could cause improper operation or non-operation. ceilings having a pitch of up to [4/12] [8/12], the sprinklers shall be listed for such use. Deflector-to-ceiling distance Model F1 RES 49 Residential listing shall be 1" to 8" maximum. Sprinkler frame and deflector shall be of bronze frame construction having a /2" Sprinkler Specifications NPT thread. Water seal assembly shall consist of a Teflon-coated Belleville spring washer and top-loaded extruded cup with 3 mm glass bulb containing no plastic Model F1 Res 49 & 58 Pendent parts, and having a temperature rating of [155°F (68 0C)] Sprinklers shall be [cULus Listed] [New York City MEA [175°F(79 0C)]. Sprinklers shall have a nominal K-factor of Approved (258-93-E)] low flow residential pendent 4.9(70). Standard finish: [Bronze] [Chrome-plated] [White sprinklers engineered to provide a minimum design Polyester] [Special finish—specify]. Recessed escutcheon density of 0.10 gpm/ft2 over the listed coverage area. assembly shall be a steel, two-piece escutcheon [with 112" Listed flows as specified by the manufacturer's technical adjustment(Model F2)] [with 3/a"adjustment(Model F1)] [of data sheets are to be used. Residential sprinklers shall be push-on and thread off design with 1/2" adjustment (Model installed in conformance with the manufacturer's FP)]. Standard finish shall be [brass][bright chrome] [white installation guidelines and the applicable installation painted]. Residential recessed pendent sprinklers shall be standard. Where pendent residential sprinklers are Reliable [Model F1 Res 49 & 58 Recessed Pendent/F1] installed under sloped ceilings having a pitch of up to[4/12] [Model F1 Res 49 &58 Recessed Pendent/F21 [Model F1 [8/12], the sprinklers shall be listed for such use. Res 49 & 58 Recessed Pendent/FP] SIN R3516 & R3513 Deflector-to-ceiling distance listing shall be 1" to 8" (Bulletin 135). maximum.Sprinkler frame and deflector shall be of bronze Model F1 Res 49&58 CCP Pendent(Concealed) frame construction having a '/2" NPT thread. Water seal Sprinklers shall be[cULus Listed] [New York City MEA assembly shall consist of a Teflon-coated Belleville spring Approved 258-93-E low flow residential concealed washer and top-loaded extruded cup with 3 mm glass bulb sprinklers l engineered] to provide a minimum design containing no plastic parts, and having a temperature density of 0.10 gpm/ft2 over the listed coverage area. rating of [155°F (68 0C)] [175°F (79 0C)]. Sprinklers shall Listed flows as specified by the manufacturer's technical have a nominal K-factor of 4.9 & 5.8. Standard finish: data sheets are to be used. Residential sprinklers shall [Bronze][Chrome-plated][White Polyester][Special finish— be installed in conformance with the manufacturer's specify]. Residential pendent sprinklers shall be Reliable installation guidelines and the applicable installation Model F1 Res 49&58,SIN R3516&R3513(Bulletin 135). standard. Where pendent residential sprinklers are installed under sloped ceilings having a pitch of up to [4/12] [8/12], the sprinklers shall be listed for such use. Sprinkler frame and deflector shall be of bronze frame construction having a 112" NPT thread. Water seal assembly shall consist of a Teflon-coated Belleville spring washer and top-loaded extruded cup with 3 mm glass bulb containing no plastic parts, and having a temperature rating of 155°F (68 0C). Cover plate assembly shall consist of a brass cover plate and copper alloy retainer flange. Method of attaching the cover plate to the sprinkler cup shall be a push-on and thread-off design allowing a 1/2" cover plate adjustment. Cover plate temperature rating shall be 135°F(57 0C). A plastic protective cap shall be provided and factory installed inside the sprinkler cup to protect the sprinkler from damage, which could occur during construction before the cover plate is installed. Standard cover plate finish: [White] [Custom Color— specify]. ]. Concealed pendent sprinklers shall be Reliable Model F1 Res 49 &58 CCP, SIN R3516 & R3513 (Bulletin 135). 10. Model F1 Res 44 & 58 Horizontal Sidewall Model F1 Res 76 Recessed Pendent/F1, Sprinkler Model F1 Res 76 Recessed Pendent/F2, Sprinklers shall be [cULus Listed] [New York City MEA Model F1 Res 76 Recessed Pendent/FP Approved (258-93-E)] low flow residential horizontal Sprinklers shall be [cULus Listed] low flow residential sidewall sprinklers engineered to provide a minimum recessed pendent sprinklers engineered to provide a design density of 0.10 gpm/ft2 over the listed coverage minimum design density of 0.10 gpm/ft over the listed area. Listed flows as specified by the manufacturer's coverage area. Listed flows as specified by the technical data sheets are to be used. Residential manufacturer's technical data sheets are to be used. sprinklers shall be installed in conformance with the Residential sprinklers shall be installed in conformance manufacturer's installation guidelines and the applicable with the manufacturer's installation guidelines and the installation standard. Where horizontal sidewall applicable installation standard. Sprinkler frame and residential sprinklers are installed under sloped ceilings deflector shall be of bronze frame construction having a having a pitch of up to [4/12] [8/12], the sprinklers shall 3/4" NPT thread. Water seal assembly shall consist of a be listed for such use.Sprinkler frame and deflector shall Teflon-coated Belleville spring washer and machined be of bronze frame construction having a'/z"NPT thread. cup with 3 mm glass bulb containing no plastic parts,and Water seal assembly shall consist of a Teflon-coated having a temperature rating of [155°F (68 0C)] [175°F Belleville spring washer and top-loaded extruded cup (79 0C)]. Sprinklers shall have a nominal K-factor of 7.6. with 3 mm glass bulb containing no plastic parts, and Standard finish: [Bronze] [Chrome-plated] [White having a temperature rating of [155°F (68 1C)] [175°F Polyester] [Special finish- specify]. Recessed (79 0C)]. Sprinklers shall have a nominal K-factor of 5.8. escutcheon assembly shall be a steel, two-piece Standard finish: [Bronze] [Chrome-plated] [White escutcheon [with 1/2" adjustment (Model F2)] [with 3/4" Polyester] [Special finish-specify].Residential horizontal adjustment(Model F1)][of push-on and thread off design sidewall sprinklers shall be Reliable Model F1 Res 58, with 1/2" adjustment(Model FP)]. Standard finish shall be SIN R3513 (Bulletin 135). [brass][bright chrome] [white painted]. Residential recessed pendent sprinklers shall be Reliable[Model F1 Model F1 Res 44 & 58 Recessed Res 76 Recessed Pendent/Fl] [Model F1 Res 76 Horizontal Sidewall Sprinkler Recessed Pendent/F2] [Model F1 Res 76 Recessed p Pendent/FP] SIN R7618 (Bulletin 135). Use description for the Model F1 Res 58 horizontal sidewall sprinkler with the following modifications: Replace "horizontal sidewall sprinkler" with "recessed Model F1 Res 76 CCP Pendent (Concealed) horizontal sprinkler." Add: Recessed escutcheon Sprinklers shall be [cULus Listed] low flow residential assembly shall be a steel,two-piece escutcheon with'/2" concealed sprinklers engineered to provide a minimum adjustment (Model F2). Standard finish shall be design density of 0.10gpm/ft over the listed coverage area. [brass][bright chrome] [white painted] [Special finish- Listed flows as specified by the manufacturer's technical specify]. Residential recessed horizontal sidewall data sheets are to be used. Residential sprinklers shall be sprinklers shall be Reliable Model F1 Res 58/F2, SIN installed in conformance with the manufacturer's installation R3513 (Bulletin 135). guidelines and the applicable installation standard. Sprinkler frame and deflector shall be of bronze frame Model F1 Res 76 Pendent construction having a3/4"NPT thread. Water seal assembly Sprinklers shall be [cULus Listed] low flow residential shall consist of a Teflon-coated Belleville spring washer and machined cup with 3 mm glass bulb containing no plastic pendent sprinklers engineered to provide a minimum parts, and having a temperature rating of 155°F (68 0C). design density of 0.10 gpme over the listed coverage area. Cover plate assembly shall consist of a brass cover plate Listed flows as specified by the manufacturer's technical and copper alloy retainer flange. Method of attaching the data sheets are to be used. Residential sprinklers shall be cover plate to the sprinkler cup shall be a push-on and installed in conformance with the manufacturer's installation thread-off design allowing a 112" cover plate adjustment. guidelines and the applicable installation standard. Cover plate temperature rating shall be 135°F (57 0C). A Sprinkler frame and deflector shall be of bronze frame plastic protective cap shall be provided and factory installed construction having a3/4" NPT thread. Water seal assembly inside the sprinkler cup to protect the sprinkler from shall consist of a Teflon-coated Belleville spring washer and damage,which could occur during construction before the machined cup with 3 mm glass bulb containing no plastic cover plate is installed. Standard cover plate finish: [White] parts, and having a temperature rating of [155°F (68 0C)] [Custom Color- specify]. ]. Concealed pendent sprinklers [175°F(79 0C)]. Sprinklers shall have a nominal K-factor of shall be Reliable Model F1 Res 76 CCP,SIN R7618(Bulletin 7.6. Standard finish: [Bronze] [Chrome-plated] [White 135). Polyester] [Special finish- specify]. Residential pendent sprinklers shall be Reliable Model F1 Res 76, SIN R7618 (Bulletin 135). 11. 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 property from fire around the clock. • Automatic sprinklers • Deluge valves • Flush automatic sprinklers • Detector check valves • Recessed automatic sprinklers • Check valves • Concealed automatic sprinklers • Electrical system • Adjustable automatic sprinklers • Sprinkler emergency cabinets • Dry automatic sprinklers • Sprinkler wrenches • Intermediate level sprinklers • Sprinkler escutcheons and guards • Open sprinklers • Inspectors test connections • Spray nozzles • Sight drains • Alarm valves • Ball drips and drum drips • Retarding chambers • Control valve seals • Dry pipe valves • Air maintenance devices • Accelerators for dry pipe valves • Air compressors • Mechanical sprinkler alarms • Pressure gauges • Electrical sprinkler alarm switches • Identification signs • Water flow detectors • 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 RIM, Q The Reliable Automatic Sprinkler Co., Inc. (800)431-1588 Sales Offices Recycled (800)848-6051 Sales Fax Paper iable � (914)829-2042 Corporate Offices Revision lines indicate updated or new data. www.reliablesprinkler.com Internet Address EG.Printed in U.S.A.05/08 P/N 9999970322 tqCtj Fire & Building Products M rapid response HOME FIRE SPRINKLER SYSTEM Technical Services: Tel: (800)381-9312/Fax: (800)791-5500 Series LFII Residential Flush Pendent Sprinklers 4.2 K-facto r The Series LFII (TY2284) has been General designed with heat sensitivity and water distribution characteristics Description proven to help in the control of residen- tial fires and to improve the chance for The Series LFII (TY2284) Residential occupants to escape or be evacuated. Flush Pendent Sprinklers are decora- tive, fast response, fusible solder sprinklers designed for use in residen- WARNINGS tial occupancies such as homes, The Series LFII (TY2284) Residential apartments, dormitories, and hotels. Flush Pendent Sprinklers described r' When aesthetics is the major consid- herein must be installed and main- ' eration, the Series LFII (TY2284) twined in compliance with this docu- should be the first choice. ment, as well as with the applicable The Series LFII are to be used in wet standards of the National Fire Protec- pipe residential sprinkler systems for tion Association, in addition to the one- and two-family dwellings and standards of any other authorities hav- manufactured homes per NFPA 13D; ing jurisdiction. Failure to do so may wet pipe residential sprinkler systems impair the performance of these de- for residential occupancies up to and vices. including four stories in height per The owner is responsible for maintain- Vertical Adjustment: NFPA 13R; or, wet pipe sprinkler sys- ing their fire protection system and de- 3/8 inch (9,5 mm) tems for the residential portions of any vices in proper operating condition. Finishes: occupancy per NFPA 13. The installing contractor or sprinkler Sprinkler and Escutcheon: The Series LFII (TY2284) has a 4.2 manufacturer should be contacted White, Chrome, Black, (60,5) K-factor that provides the re- with any questions. or Antique Brass quired residential flow rates at reduced pressures,enabling smaller pipe sizes Physical Characteristics: and water supply requirements. Body . . . . . . . . . . . . . Bronze S p ri n k 1 e r/Mode 1 Deflector . . . . . . . . . . . Copper The flush design of the Series LFII Valve Cap . . . . . . . . . . . Brass (TY2284) features a separable es- Identification Orifice Seal . . . . . . . . . Copper cutcheon providing 3/8 inch (9,5 mm) Heat Collectors . . . . . . . Copper vertical adjustment. This adjustment Number reduces the accuracy to which the pipe drops to the sprinklers must be cut to SIN TY2284 help assure a perfect fit installation. Operation The sprinkler assembly contains a Technical small fusible solder element.When ex- IMPORTANT posed to sufficient heat from a fire,the Always refer to Technical Data Data solder melts and enables the internal Sheet TFP700 for the "INSTALLER components of the sprinkler fall away. At this point the sprinkler acti- WARN/NG" that provides cautions Approvals: vates with the deflector dropping into with respect to handling and instal- UL and C-UL Listed. its operated position (Reference Fig- lation of sprinkler systems and com- Maximum Working Pressure: ure 1C), permitting water to flow. ponents. Improper handling and in- 175 psi (12,1 bar) stallation can permanently damage a sprinkler system or its compo- Discharge Coefficient: nents and cause the sprinkler to fail K=4.2 GPM/psili2 (60,5 LPM/bars/2) to operate in a fire situation or cause Temperature Rating: it to operate prematurely. 162°F/72°C Page 1 of 8 JANUARY, 2006 TFP420 Page 2 of 8 TFP420 Minimum Flow(b)and Minimum Flow(b)and Minimum Flow(b)and Residual Pressure Maximum Maximum Residual Pressure Residual Pressure For Sloped Ceiling Coverage Spacing For Horizontal Ceiling For Sloped Ceiling (Max.8 Inch Rise for 12 Inch Run) Area(a) Ft. (Max.2 Inch Rise (Max.8 Inch Rise Three sprinkler design when there are more Ft.x Ft. (m) for 12 Inch Run) for 12 Inch Run) than two sprinklers in a compartment. (m x m) 162°F/72°C 162°F/72°C 162°F/72°C 12 x 12 12 13 GPM(49,2 LPM) 17 GPM(64,3 LPM) 14 GPM(53,0 LPM) (3,7 x 3,7) (3,7) 9.6 psi(0,66 bar) 16.4 psi(1,13 bar) 11.1 psi(0,77 bar) 14 x 14 14 13 GPM(49,2 LPM) 17 GPM(64,3 LPM) 14 GPM(53,0 LPM) (4,3 x 4,3) (4,3) 9.6 psi(0,66 bar) 16.4 psi(1,13 bar) 11.1 psi(0,77 bar) 16 x 16 16 14 GPM(53,0 LPM) 17 GPM(64,3 LPM) 14 GPM(53,0 LPM) (4,9 x 4,9) (4,9) 11.1 psi(0,77 bar) 16.4 psi(1,13 bar) 11.1 psi(0,77 bar) 18 x 18 18 18 GPM(68,1 LPM) 19 GPM(71,9 LPM) 18 GPM(68,1 LPM) (5,5 x 5,5) (5,5) 18.4 psi(1,27 bar) 20.5 psi(1,41 bar) 18.4 psi(1,27 bar) 20 x 20 20 22 GPM(83,3 LPM) 24 GPM(90,8 LPM) N/A (6,1 x 6,1) (6,1) 27.4 psi(1,89 bar) 32.7 psi(2,25 bar) (a) For coverage area dimensions less than or between those indicated, it is necessary to use the minimum required flow for the next highest coverage area for which hydraulic design criteria are stated. (b) Requirement is based on minimum flow in GPM (LPM)from each sprinkler.The associated residual pressures are calculated using the nominal K-factor. Refer to Hydraulic Design Criteria Section for details. TABLE A NFPA 13D AND NFPA 13R WET PIPE HYDRAULIC DESIGN CRITERIA FOR THE SERIES LFII(TY2284) RESIDENTIAL FLUSH PENDENT SPRINKLER sprinklers. The minimum required dis- Precautionary Warnings for Corro- Design charge from each of the four sprinklers sive Environments. The Series LFII is to be the greater of the following: (TY2284) flush sprinkler heads must Criteria I I The flow rates given in Table A for be installed in a non-corrosive environ- ment. The improper use of corrosive NFPA 13D and 13R as a function of The Series LFII (TY2284) Residential agents such as flux, other products Flush Pendent Sprinklers are UL temperature rating and the maxi- that contain chloride ions described, Listed and C-UL Listed for installation mum allowable coverage area. whether applied internally or externally in accordance with the following crite- 11 A minimum discharge of 0.1 gpm/sq. to the sprinkler system, may result in ria. ft. over the "design area"comprised corrosion of the sprinkler head, or NOTE of the four most hydraulically de- stress corrosion cracking, which in manding sprinklers for the actual turn may cause the sprinklers heads to When conditions exist that are outside coverage areas being protected by develop leaks, operate unexpectedly, the scope of the provided criteria,refer the four sprinklers. or not operate properly. to the Residential Sprinkler Design Guide TFP490 for the manufacturer's Accordingly, it is essential that the Se- recommendations that may be accept- Obstruction To Water Distribution. ries LFI I (TY2284)flush sprinkler head able the local Authority Having Juris- Locations of sprinklers are to be in be installed only by experienced fire diction. accordance with the obstruction rules sprinkler engineers, who comply fully of NFPA 13 for residential sprinklers. with NFPA13, 13D, 13R and 25,ASTM System Type. Only wet pipe systems B813,ASTM B828 and Copper Devel- may be utilized. Operational Sensitivity. The sprin- opment Association (CDA). klers are to be installed in the flush Hydraulic Design. The minimum re- position per Figure 1 with the provided Copper sprinkler system wing. quired sprinkler flow rate for systems escutcheon. Any time copper piping is used in any designed to NFPA 13D or NFPA 13R part of a fire sprinkler system,the cop- are given in Table A as a function of Sprinkler Spacing. The minimum per piping must be installed in confor- temperature rating and the maximum spacing between sprinklers is 8 feet mance with all applicable standards allowable coverage areas. The sprin- (2,4 m). The maximum spacing be- and requirements for copper piping, kler flow rate is the minimum required tween sprinklers cannot exceed the including: NFPA13, 13D, 13R and 25, discharge from each of the total length of the coverage area (Ref. Ta- ASTM B813,ASTM B828,and Copper number of "design sprinklers" as ble A) being hydraulically calculated Development Association (CDA). Any specified in NFPA 13D or NFPA 13R. (e.g., maximum 12 feet for a 12 ft. x soldering in any part of a sprinkler sys- 12 ft.coverage area,or 20 feet for a 20 tem, either internal) or For systems designed NFPA 13,the ft. x 20 ft. coverage area). must be done with use of only externally, number of design sprin klers is to be n n the four most hydraulically demanding ASTM B 813 approved flux. Residual TFP420 Page 3 of 8 WRENCH RECESS #4948 WRENCH&SOCKET COMBINATION 3/32"(2,4 mm)TYP. FACE OF DO NOT SPRINKLER OVER-TIGHTEN FITTING � WRENCH ACCEPTS 1 3/8"SOCKET 29/32±3/16" #4947 DRIVE (23,0±4,8 mm) SOCKET FIGURE 2 CEILING LEVEL MOUNTING SPRINKLER SOCKET TOLERANCE SURFACE WRENCH& SOCKET COMBINATION LIMIT SPRINKLER WRENCHING PROTECTIVE CAP AREA A 2"(50 mm)DIA. y \ I 29/32±3/16" 2-1/4" (23,0±4,8 mm) (57,2 mm) O \ I HEAT - COLLECTOR FIGURE 3 2-15/16"(75 mm)DIA. PROTECTIVE CAP REMOVAL TOOL � B 1/2"NPT - -� 7/16"(11,1 mm) NOMINAL MAKE-IN 9/16"(14,2 mm) 15/16"(23,6 mm) O DEFLECTOR IN OPERATED POSITION C FIGURE 1 SERIES LFII(TY2284)RESIDENTIAL FLUSH PENDENT SPRINKLER Page 4 of 8 TFP420 General Information. The basic con- Lintels. Lintels over doorways exiting cept of this protection scheme is to the compartment must be present.The locate the sprinklers on the underside minimum height for the lintels is 8 A a z of the beams, Ref. Figure 4, (not in the inches or no less than the depth of the beam pockets); to identify the main Primary Beams, whichever is greater. beams that principally run in one direc- Sprinkler Types. Series LFII E E tion as "primary beams"; and, to iden- (TY2284), 162Fp Flush Pendent Resi- N tify the beams that run principally per- dential Sprinklers. pendicular to the main beams, as may M be present (or in some cases may be Sprinkler Coverage Area and Hy- co N necessary for proper sprinkler protec- draulic Design. The sprinkler cover- tion), as"secondary beams". age areas and hydraulic design crite- Primary and Secondary Beam ria as presented in the Table A for Types. Solid surface, solid or hollow `Horizontal Ceilings"are to be applied. FLUSH core,combustible or non-combustible. Sprinkler Position. The bottom of TY2284 POSITION p Primary and Secondary Beam Posi- heat collector to bottom of primary tioning. Directly attached to the un- beams for the Series LFII (TY2284) X derside of a combustible or non-com- B Flush Pendent Sprinklers is to be a ? 23/32 to 1-3/32 inches (Fig. 4A). The bustible smooth ceiling at any vertical centerline of the Series LFII elevation. TY2284 Flush Pendent Sprinklers is OCZ M Primary Beam Cross-Section: Maxi- to be no greater than half the primary N �2 mum depth of 14 inches and the maxi- beam cross-sectional width plus 2 M mum width is unlimited. The cross- inches from the centerline of the pri- nt N sectional shape of the primary beam mary beam (Fig 4B). may be rectangular to circular. ° Secondary Beam Cross-Section. NOTES Maximum depth to be no greater than Core drilling of beams to allow the the primary beam and the maximum installation of sprinkler drops requires TY2284 width is unlimited.The cross-sectional consulting with a structural engineer. MAXIMUM shape of the secondary beam may be Where core drilling is not permitted, ONE-HALF BEAM rectangular to circular. the previously stated sprinkler position WIDTH PLUS criteria for the Series LFII (TY2284) 2"(50,8 mm) Primary Beam Spacing. The primary Pendent Sprinklers allows for the beams(Fig. 5A)are to be 3 ft.-4 in.to sprinkler drop to be placed adjacent to 6 ft. from the compartment wall to the primary beam. center of the nearest beam and from center to center between beams. Beam and Soffit Arrangements. A FIGURE 4 SPRINKLER POSITIONING Secondary Beam Spacing. The sec- soffit is permitted to placed around UNDER PRIMARY BEAMS ondary beams principally run perpen- the perimeter a coo mpartment with dicular to the primary beams. the beam arrangg ement within the sof- (Refer to the "Beam Ceiling fited area (Fig.6). Design Criteria"section) Secondary beams of a depth equal to The cross-section of the soffit may be the primary beam must be placed so any size as long as it does not create that the beam pockets created by the an obstruction to water distribution per flux must be thoroughly REMOVED primary beams do not exceed 20 feet the obstruction rules of NFPA 13 for from both the interior and exterior sur- in length (Fig. 513). residential sprinklers. faces of the piping before installing the NOTE When soffits are present, the pre- sprinkler heads. The use of improper When the beam pockets created by viously provided 3 ft.- 4 in. to 6 ft. flux, or the failure to thoroughly re- the primary beams exceed 20 feet in "compartment wall to adjacent beam" move proper flux, may result in tress length, the installation will require the distance for the primary and secon- craof the sprinkler head a stress use of secondary beams as described dary beams is to be measured from the cracking, which in turn may cause the above. Otherwise, secondary beams face of the soffit as opposed to the sprinklers heads to develop leaks, op- erate unexpectedly, or not operate need not be present. compartment wall. properly. Secondary beams of a cross-sectional NOTE depth greater than one-quarter the Although the distance to the beams is Beam Ceiling depth of the primary beams are to be measured from the face of the soffit, a minimum of 3 ft. - 4 in. from the the sprinkler coverage area is to be Design Criteria compartment wall to center of the measured from the compartment wall. nearest beam and from center to cen- The Series LFII (TY2284) Residential ter between beams (Fig. 5C). Flush Pendent Sprinklers are UL and Secondary beams of a cross-sectional C-UL Listed for installation in residen- depth no greater than one-quarter the tial occupancies with horizontal ceil- depth of the primary beams may be ings (i.e., slopes up to a 2 inch rise placed at any compartment wall to over a 12 inch run) with beams when center of the nearest beam distance installed in accordance with the follow- and from any center to center distance ing criteria: between beams (Fig. 5C). TFP420 Page 5 of 8 ALL FIGURES: A A A� DISTANCES ARE MEASURED TO 14"(356 mm) COMPARTMENT MAXIMUM WALL FACES AND TO CENTERLINES OF BEAMS A=3'-4"to 6'-0"(1,0 to 1,8 m) FOR PRIMARY BEAMS HAV- ING A 14"(356 mm)MAXIMUM DEPTH PRIMARY BEAM 20'-0"(6,1 m) MAXIMUM COMPARTMENT WALLS FIGURE 5A PRIMARY BEAM SPANS UP TO 20'-0"(6,1 m) B A=3'4"to 6'-0"(1,0 to 1,8 m) FOR PRIMARY BEAMS HAV- SECONDARY B ING A 14"(356 mm)MAXIMUM BEAM DEPTH B=20'-0"(6,1 m)MAXIMUM FOR SECONDARY BEAMS THATARE TO BE EQUAL IN PRIMARY DEPTH TO PRIMARY BEAMS BEAM AND THAT MUST BE IN PLACE SO THAT PRIMARY BEAM POCKETS DO NOT EXCEED 20'-0"(6,1 m) COMPARTMENT WALLS FIGURE 5B PRIMARY BEAM SPANS GREATER THAN 20'-0"(6,1 m) C A=3'4"to 6'-0"(1,0 to 1,8 m) yFOR PRIMARY BEAMS HAV- ING A 14"(356 mm)MAXIMUM SECONDARY C DEPTH BEAM C=3'4"(1,0 m)MINIMUM FOR SECONDARY BEAMS HAVING DEPTHS GREATER THAN 25% OF PRIMARY BEAMS * PRIMARY —or— BEAM C=ANY DISTANCE FOR SEC- ONDARY BEAMS HAVING DEPTHS UP TO 25%OF *REFER TO PRIMARY BEAMS FIGURE 5B COMPARTMENT FOR SPANS WALLS EXCEEDING 20'-0"(6,1 m) FIGURE 5C COMBINATIONS OF PRIMARY AND SECONDARY BEAMS FIGURE 5 BEAM ARRANGEMENTS (Refer to the "Beam Ceiling Design Criteria"section) Page 6 of 8 TFP420 SECONDARY BEAM PRIMARY * USE DISTANCES SHOWN BEAM IN FIGURES 5A,5B&5C, EXCEPT MEASUREMENTS ARE TAKEN FROM FACES OF SOFFITS INSTEAD OF FROM COMPARTMENT WALL SURFACES FACE OF SOFFIT COMPARTMENT WALLS FIGURE 6 BEAM AND SOFFIT ARRANGEMENTS (Refer to the "Beam Ceiling Design Criteria"section) fitting to the mounting surface will be Installation nominally 29/32 inches (23,0 mm) as Care and The Series LFII (TY2284) must be in- shown in Figure 1A. Maintenance stalled in accordance with the follow- Step 3. With pipe thread sealant ap- ing instructions: plied to the pipe threads, hand tighten The Series LFII (TY2284) must be NOTES the Sprinkler into the sprinkler fitting. maintained and serviced in accord- The Protective Cap is to remain on the Step 4. Wrench tighten the Sprinkler ance with the following instructions: sprinkler during installation until the using only the Sprinkler Socket or ceiling installation is complete. The Wrench & Socket Combination (Ref. NOTES Protective Cap must be removed to Figure 2). The wrench recess of the Absence of an Escutcheon Plate may place the sprinkler in service. Socket is to be applied to the sprinkler delay the time to sprinkler operation in A leak tight 112 inch NPTsprinklerjoint wrenching area (Ref. Figure 1A). a fire situation. should be obtained with a torque of 7 Step 5.Use the"ceiling level tolerance Before closing a fire protection system to 14 ft.lbs. (9,5 to 19,0 Nm). A maxi- limit"indicator on the Protective Cap to main control valve for maintenance mum of 21 ft.lbs. (28,5 Nm) of torque check for proper installation height. work on the fire protection system is to be used to install sprinklers. Relocate the sprinkler fitting as neces- which it controls, permission to shut Higher levels of torque may distort the sary. If desired the Protective Cap may down the affected fire protection sys- sprinkler inlet with consequent leak- also be used to locate the center of the tem must be obtained from the proper age or impairment of the sprinkler. clearance hole by gently pushing the authorities and all personnel who may Do not attempt to compensate for in- ceiling material against the center be affected by this action must be no- sufficient adjustment in an Escutcheon point of the Cap. tified. Plate by under- or over-tightening the Step 6.After the ceiling has been com- Sprinklers which are found to be leak- Sprinkler. Readjust the position of the pleted with the 2 inch (50 mm) diame- ing or exhibiting visible signs of corro- sprinkler fitting to suit. ter clearance hole, use the Protective sion must be replaced. Each sprinkler must be inspected be- Cap Removal Tool (Ref. Figure 3) to Automatic sprinklers must never be fore installation. Do not use any sprin- remove the Protective Cap and then painted, plated, coated, or otherwise kler that exhibits any deformations or push on the Escutcheon until its flange altered after leaving the factory. Modi- cracks,including cracks on the protec- just comes in contact with the ceiling. fied or over heated sprinklers must be tive cap. Do not continue to push the Escutch- replaced. eon such that it lifts a ceiling panel out p Step 1.The Sprinkler must be installed of its normal position. If the Escutch- Care must be exercised to avoid dam- only in the pendent position and with eon cannot be engaged with the Sprin- age - before, during, and after instal- the Sprinkler waterway centerline per- kler, or the Escutcheon cannot be en- lation. Sprinklers damaged by drop- pendicular to the mounting surface. gaged sufficiently to contact the ping, striking, wrench twist/slippage, Step 2. Install the sprinkler fitting so ceiling, relocate the sprinkler fitting as or the like, must be replaced. that the distance from the face of the necessary. The owner is responsible for the in- TFP420 Page 7 of 8 testing, and maintenance of their Limited Ordering their fire ire protection system and de- vices in compliance with this docu- ment, wa rra n t y Procedure as well as with the applicable able standards of the National Fire Protec- tion Association (e.g., NFPA 25), in Products manufactured by Tyco Fire& When placing an order, indicate the addition to the standards of any other Building Products (TFBP) are war- full product name. Contact your local authorities having jurisdiction. The in- ranted solely to the original Buyer for distributor for availability.. stalling contractor or sprinkler manu- ten (10)years against defects in mate- Sprinkler Assembly: facturer should be contacted relative rial and workmanship when paid for to any questions. and properly installed and maintained Series LFII(TY2284),K=4.2,Residen- under normal use and service. This tial Flush Pendent Sprinkler without NOTE warranty will expire ten (10) years Escutcheon and having a (specify) The owner must assure that the sprin- from date of shipment by TFBP. No finish, P/N (specify). klers are not used for hanging of any warranty is given for products or com- objects and that the sprinklers are only ponents manufactured by companies Chrome.................. 51-123-9-162 cleaned by means of gently dusting not affiliated by ownership with TFBP Black.................... 51-123-6-162 with a feather duster; otherwise, non- or for products and components which Antique Brass............. 51-123-1-162 operation in the event of fire or inad- have been subject to misuse,improper vertent operation may result. installation, corrosion, or which have Escutcheon: not been installed, maintained, modi- It is recommended that automatic fled or repaired in accordance with ap- Escutcheon for Series LFII (TY2284), sprinkler systems be inspected, plicable Standards of the National Fire K=4.2, Residential Flush Pendent tested, and maintained by a qualified Protection Association, and/or the Sprinkler with (specify) finish, P/N Inspection Service in accordance with standards of any other Authorities (specify). local requirements and/or national Having Jurisdiction. Materials found codes. b TFBP to be defective shall be either Chrome.................. 56-123-9-001 Y White.................... 56-123-4-001 repaired or replaced, at TFBP's sole Black.................... 56-123-6-001 option. TFBP neither assumes, nor Antique Brass............. 56-123-1-001 authorizes any person to assume for it, any other obligation in connection with Accessories: the sale of products or parts of prod- Socket for Series LFII (TY2284) Resi- ucts.TFBP shall not be responsible for dential Flush Pendent Sprinkler, P/N sprinkler system design errors or inac- 56-000-4-947. curate or incomplete information sup- plied by Buyer or Buyer's repre- Wrench & Socket for Series LFII sentatives. (TY2284) Residential Flush Pendent In no event shall TFBP be liable, in Sprinkler, P/N 56-000-4-948. contract, tort, strict liability or under Protective Cap Removal Tool for Se- any other legal theory, for incidental, ries LFII (TY2284) Residential Flush indirect,special or consequential dam' Sprinkler, P/N 56-000-4-300. ages, including but not limited to labor charges, regardless of whether TFBP was informed about the possibility of such damages, and in no event shall TFBP's liability exceed an amount equal to the sales price. The foregoing warranty is made in lieu of any and all other warranties, ex- press or implied, including warranties of merchantability and fitness for a par- ticular purpose. This limited warranty sets forth the ex- clusive remedy for claims based on failure of or defect in products, materi- als or components, whether the claim is made in contract, tort, strict liability or any other legal theory. This warranty will apply to the full ex- tent permitted by law.The invalidity, in whole or part, of any portion of this warranty will not affect the remainder. Page 8 of 8 TFP420 TYCO FIRE&BUILDING PRODUCTS,451 North Cannon Avenue,Lansdale, Pennsylvania 19446 WILKINS Model 500 company Pressure ' -• • Valve with I -•ral Bv-pass Check Valve SPECIFICATION SUBMITTAL SHEET APPLICATION i Designed for installation on potable water lines to reduce high inlet pressure to a lower outlet pressure.The high flow -- capacity makes this device most suitable for industrial wa- ter lines and commercial irrigation systems.The direct act- ing integral by-pass design prevents buildup of excessive system pressure caused by thermal expansion. The bal- FEATURES anced piston design enables the regulator to react in a Sizes: ❑ 1/2" ❑ 3/4" ❑ 1" ❑ 1 1/4" smooth and responsive manner to changes in system flow ❑ 1 1/2" ❑ 2" ❑ 2 1/2" ❑ 3" demand,while at the same time, providing protection from Maximum working water pressure 300 psi inlet pressure changes. Maximum working water temperature 180° F STANDARDS COMPLIANCE Reduced pressure range 25 psi to 75 psi Factory preset(fieldset 2 1/2"&3") 50 psi ASSE®Listed 1003(1/2"thru 2 1/2" ) Threaded connections(FNPT) ANSI B1.20.1 a IAPMO®Listed (1/2"thru 3" ) Copper connections(FC) ANSI B 16.22 a City of Los Angeles Approved(1/2"thru 3") CPVC tailpiece: Max.hot water temp. 180°F @ 100 psi a CSA®Certified(1/2"thru 2") Coldwater rated temp. 73.4°F @ 400 psi MATERIALS OPTIONS(Suffixes can be combined) Main valve body Cast bronze ASTM B 584 ❑ - standard with single union FNPT inlet x FNPT Access covers Cast bronze ASTM B 584 outlet(1/2"thru 2")and less union(21/2"&3") Brass ASTM B 16 ❑ C - copper sweat connection (1/2"thru 2") Fasteners Stainless steel, 300 series ❑ HR - 75 psi to 125 psi spring range, factory set Stem&plunger Cast bronze ASTM B 584 at 85 psi (fieldset 2 1/2" &3") Brass ASTM B 16 ❑ HLR - 10 psi to 125 psi spring range, factory set Elastomers Buna Nitrile (FDA approved) at 50 psi EPDM (FDA approved) ❑ HT - 210°F maximum temp Cap gaskets Natural vulcanized fibre ❑ L - less integral by-pass check valve(3/4"-2") Acetal (DelrinTm 500), NSF Listed ❑ LPV - 210°F maximum temp with 10 psi to 35 psi Springs Oil tempered wire,ASTM A 229 spring range, factory set at 20 psi Seat Stainless steel, 300 series ❑ LPC - 180°F maximum temp with 10 psi to 35 psi spring range, factory set at 20 psi D ❑ SC - sealed cage bell housing and stainless steel adjustment screw ❑ SW - made for salt water service ❑ YSBR - with bronze"Y"strainer on inlet ❑ 510 - 400 psi inlet rating and 75 psi to 125 psi spring range, factory set at 85 psi B (fieldset 2 1/2"&3") ❑ P - tapped and plugged for gauge ❑ CPVC - CPVC tailpiece connection(3/4"-1") 0 WILKINS ACCESSORIES 500 ❑ Repair kit(rubber only) c A DIMENSIONS&WEIGHTS(do not include pkg.) DIMENSIONS (approximate) SIZE WEIGHT CONNECTIONS A B C D in. mm in. mm in. mm in. mm in. mm Ibs. kg. 1/2 15 SINGLE UNION 41/2 108 6 152 1 5/8 41 23/4 70 3 1.5 3/4 20 SINGLE UNION 45/8 118 6 152 1 1/8 29 23/4 70 4 2.0 1 25 SINGLE UNION 51/8 130 67/8 175 1 5/8 41 35/16 84 6 3.0 1 1/4 32 SINGLE UNION 65/16 160 71/4 184 1 1 3/4 45 4 102 7 3.0 1 1/2 40 SINGLE UNION 85/16 211 10 254 1 7/8 48 5 127 14 6.5 2 50 SINGLE UNION 91/2 241 103/4 273 21/8 54 6 1/2 165 20 9.0 2 1/2 65 LESS UNION 10 254 141/2 368 3 76 8 203 28 12.5 3 80 LESS UNION 11 1/8 283 16 406 31/2 89 8 203 44120.0 •• REVISION: 0i 0. Page 1 of 2 FLOW CHARACTERISTICS MODEL 500 1/2"THRU 3"(STANDARD&METRIC) FLOW RATES(1/s) 3.2 6.3 9.5 12.6 15.8 18.9 20 1/2" 3/4" ill 1 1/4" 1 1/2" 2" 2 1/2" 3" 1 38 y 15 15mm (20mm 25mm 32mm 40mm 50mm 65mm 80mm 104 a Y LL 10 69 LL 0 0 5 35 J AAA LL 0 U_ 0 50 100 150 200 250 300 FLOW RATES(GPM) TYPICAL INSTALLATION Local codes shall govern installation requirements. Unless otherwise specified, the assembly shall be mounted in accordance with the manufacturers' instructions and the latest edition of the Uniform Plumbing Code. The assembly shall be installed with sufficient side clearance for testing and maintenance. The Model 500 may be installed in any position. If installed in a pit or vault, specify the "SC" sealed cage option. Multiple installations are recommend for wide demand variations or where the desired pressure reduction is more than 4 to 1 (i.e.: 200 psi inlet reduced to 50 psi outlet). CAUTION: Anytime a reducing valve is adjusted, a pressure gauge must be used downstream to verify correct pressure setting. Do not bottom adjustment bolt on bell housing. g ITI-ITI—I�? SIT l�k MODEL 975XL o RPZ BACKFLOW PREVENTER IIIIIIIIIIIJII`� OPTIONAL PRESSURE O PROTECTIVE GAUGE _ 11111- ENCLOSURE o 0 MODEL BW — — SHUT-OFF VALVE OPTIONAL PRESSURE GAUGE MODEL DUI ° DIELECTRIC UNION 12"MIN. = 30"MAX. = — GyI IIII III _ICI III VERTICAL INSTALLATION MODEL 500 TO HANDLE LOW _II ILL ILLI DEMANDS(SET @ 65 PSI) DIRECTION OF FLOW II I I IIII TYPICAL INSTALLATION MODEL 500FC TO HANDLE DIRECTION OF FLOW HIGH DEMANDS(SET @ 55 PSI) SPECIFICATIONS BATTERY INSTALLATION The Pressure Reducing Valve shall consist of a bronze body and bell housing, a separate access cover for the plunger and a bolt to adjust the downstream pressure. The bronze bell housing and access cap shall be threaded to the body and shall not require the use of ferrous screws.The assembly shall be of the balanced piston design and shall reduce pressure in both flow and no-flow conditions. The assembly shall be accessible for maintenance without having to remove the body from the line.The Pressure Reducing Valve shall be a WILKINS Model 500. Page 2 of 2 WILKINS a Zurn company, 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.zurn.com WILKINS Model 975XL a 2-UM. company Reduced Pressure Principle Assembly SPECIFICATION SUBMITTAL SHEET APPLICATION Designed for installation on potable water lines to protect against both backsi hona a and back pressure of contami- nated water into the potable water supply.Assembly shall provide protection where a potential health hazard exists. FEATURES STANDARDS COMPLIANCE Sizes: ❑ 3/4" ❑ 1" ❑ 1Y4" ❑ 1%2' ❑ 2" • ASSE®Listed 1013 Maximum working water pressure 175 PSI IAPMO®Listed Maximum working water temperature 180°F 0 UL® Classified(less shut-off valves orwith OS&Yvalves) Hydrostatic test pressure 350 PSI 0 C-UL® Classified End connections Threaded ANSI B1.20.1 0 CSA®Certified OPTIONS 0 AVWVA Compliant C511 (Suffixes can be combined) 0 Approved by the Foundation for Cross Connection Control and Hydraulic Research at the University of ❑ - with full port QT ball valves(standard) Southern California ❑ L - less ball valves MATERIALS ❑ U - with union ball valves Main valve body Cast Bronze ASTM B 584 ❑ MS - with integral relief valve monitor switch Access covers Cast Bronze ASTM B 584 ❑ P - for reclaimed water systems Fasteners Stainless Steel, 300 Series ❑ S - with bronze"Y"type strainer Elastomers Silicone(FDAApproved) ❑ BMS - with battery operated monitor switch ❑ FDC - with fire hydrant connection;2"only Buna Nitrite(FDAApproved) ❑ TCU - with test cocks up Polymers Noryl , NSF Listed ❑ V - with union swivel elbows Springs Stainless steel, 300 series ❑ SE - with street elbows ❑ FT - with integral male 450 flare SAE test fitting E E 0 II II � II � ACCESSORIES F O ❑ Air gap(Model AG) o O o 0 0 ❑ Repair kit(rubber only) ❑ Thermal expansion tank(Model WXTP) D C B ❑ Soft seated check valve(Model 40) A ❑ Shock arrester(Model 1250) G ❑ QT-SET Quick Test Fitting Set ❑ Ball valve handle locks ❑ Test Cock Lock(Model TCL24) Relief Valve discharge port: 3/4"- 1" - 0.63 sq. in. 1 1/4"-2" - 1.19 sq. in. DIMENSIONS&WEIGHTS(do not include pkg.) DIMENSIONS(approximate) WEIGHT MODEL A UNION B LESS BALL LESS BALL WITH BALL SIZE A BALL VALVES C D E F G VALVES VALVES VALVES in. mm in. mm in. mm in. I mm in. I mm in. mm in. mm in. I mm in. I mm Ibs. kq Ibs. k 3/4 20 12 305 14 356 73/4 1 197 2 1/81 54 3 76 3 1/2 89 5 1 127 153/41 400 10 4.5 12 5.5 1 25 13 330 141/4 362 73/4 197 2 1/8 54 3 76 3 1/2 89 5 127 173/4 451 10 4.5 14 6.4 1 1/4 32 17 432 19 483 1015/16 278 23/4 70 3 1/2 89 5 127 63/4 171 22 559 22 10 28 12.7 1 1/2 40 173/8 441 20 508 1015/16 278 23/4 70 13 1/2 89 5 127 63/41 171 231/8 587 22 10 28 12.7 2 50 1181/2 470 21 1/41 540 1015/16 278 23/4 70 13 1/2 89 5 127 63/41 171 251/2 648 22 10 34 15.4 •• REVISION: 0. Page 1 of 2 FLOW CHARACTERISTICS MODEL 975XL 3/4", 1", 1 1/4", 11 1/2" &2" (STANDARD& METRIC) FLOW RATES(1/s) 1.26 2.52 3.8 5.0 3.2 6.3 9.5 12.6 15.8 1r° 137 Y y 20 3/4"(20mm) 1"(25mm) 20 1 1/4"(32mm) (40mm) co 0 15 . 15 2"(50mm) 103 0 W w co 10 10 69 U) co Lu a a 5 5 0 20 40 60 80 5 0 50 100 150 200 250 FLOW RATES(GPM) O Rated Flow(Established by approval agencies) TYPICAL INSTALLATION Local codes shall govern installation re- C a p a c i t y t h r u Schedule 40 Pipe quirements. To be installed in accor- P ip e s iz e 5 ft/s e c 7 .5 ft/s e c 1 0 ft/s e c 1 5 ft/s e c dance with the manufacturers' instruc- 1 /8 " 1 1 2 3 tions and the latest edition of the Uni- 1 /4 " 2 2 3 5 3/8 " 3 4 6 9 form Plumbing Code. Unless otherwise 1 /2 " 5 7 9 1 4 specified,the assembly shall be mounted 3/4 " 8 1 2 1 7 25 at a minimum of 12" (305mm) and a 1 " 1 3 20 27 40 maximum of 30" (762mm) above ad- 1 1 /4 " 2 3 3 5 47 70 equate drains with sufficient side clear- 1 1 /2 " 32 48 63 95 ance for testing and maintenance. The 2 " 52 7 8 1 0 5 1 6 7 installation shall be made so that no part of the unit can be submerged. CENTRAL STATION ALARM PANEL PROTECTIVE ENCLOSURE 7AIRGAP II IIBATTERY _MONITOR SWITCH 12"MIN.30"MAX. 12"MIN 30"MAX AIR GAP OPTIONAL FITTING WATER METER DRAIN tn ° o � o p FLOOR II II DIRECTION OF FLOW II FLOOR DRAIN DIRECTION OF FLOW — INLET SHUT-OFF INDOOR INSTALLATION OUTDOOR INSTALLATION (Shown w/optional BMS) SPECIFICATIONS The Reduced Pressure Principle Backflow Preventer shall be ASSE®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 NSF® 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 WILKINS a Zurn company, 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 1L2 Phone:905/405-8272 Fax:905/405-1292 Product Support Help Line: 1-877-BACKFLOW (1-877-222-5356) • Website: http://www.zurn.com ) SYSTEM �4 SENSOR" T-Tap Waterflow Detectors System Sensor T-Tap Waterflow Detectors are designed for primary signaling in residential systems and branch line signaling in larger systems. Features Both the WFDT retard model and the WFDTNR non-retard model fit •Sealed retard mechanism(Model WFDT) any tee that has a 1-NPT branch,including:1- 11/4"",1/z""and 2"'NPT threaded ferrous and brass tees;1,11/4`,1 X1/2 and 2""copper sweat -Visual switch activation(Model WFDT) tees;Tyco,Spears,Victaulic*and NIBO brand 1"'CPVC tees;and 11/2 •Twelve different flexible plastic paddles polybutylene tees. •Vertical or horizontal mount Design.The design of the WFDT and WFDTNR makes them easy Durable,tamper-resistant enclosure to install and simple to maintain.Either can be mounted in the •Dual SPDT switches in durable terminal block vertical or horizontal position.Two conduit openings permit easy •Sizes marked on flexible plastic paddles attachment to the local alarm system.The retard mechanism(Model WFDT only)and switch assemblies are field-replaceable. •100 percent synchronization activates both alarm panel and local bell Accommodates up to 1 2 AWG wire Features.Twelve different flexible plastic paddles fit 1 11/4",11/2"and 2"tees.Sizes are marked clearly on the paddles for ease of installation. Plastic paddles slip over the actuating lever and are securely fastened with one screw.The handy depth gauge ensures the proper installation depth and clearance of the detector to the tee. Construction.The WFDT and WFDTNR include a durable,tamper- resistant enclosure and rugged switch assembly.The robust covers completely enclose the electrical components to keep out dust and dirt.Improved self-guiding security screws and removal tools make the detectors resistant to tampering and simplify field maintenance. Dual SPDT switches are enclosed in a durable terminal block for added strength. Agency Listings U O ST L � �c ° U�C �� MEA F M LISTED approved APPROVED 5739 CS169 7770-1653:114 '! I- s' T-Tap Waterflow Detector Specifications Architectural/Engineering Specifications Model shall be a WFDT or WFDTNR as manufactured by System Sensor.T-tap waterflow detectors shall be installed on a tee that has a 1-NPT branch including: V,11/4-,11/2-or 2-threaded ferrous or brass tee;1-2-copper sweattees;Tyco,Spears®Victaulic®and NIBCO brand 1"CPVC tees;or 11/2"polybutylene tee as designated on the drawings and/or as specified herein.Detectors shall mount on any clear pipe span ofthe appropriate size,either a vertical or horizontal run at least 6-from any fittings or valves that may change water direction,flow rate,or pipe diameter or no closer than 24-from a valve or drain.Detectors shall have a sensitivity in the range of4 to 10 gallons per minute and a static pressure rating of250 psi.The retard t-tap detector shall be a sealed mechanical pneumatic unit with visual indication of actuation.The actuation mechanism shall include a polyethylene vane inserted through the tee fitting and connected by a mechanical linkage to the delay mechanism.The non-retard t-tap detector shall respond with no time delay to waterflow in the specified direction and range.Outputs shall consist of dual SPDT switches(Form C contacts).Two conduit entrances(one of which is a knockout type)for standard fittings of commonly used electrical conduit shall be provided on the detectors.A grounding provision is provided.All detectors shall be listed by Underwriters Laboratories for indoor or outdoor use. Physical/Operating Static Pressure Rating 250 PSI Operating Temperature Range 32°F to 120OF(0°C to 49°C) Maximum Surge 18 FPS Enclosure Rating UL indoor/outdoor rated Triggering Threshold 4-10 GPM Cover Tamper Switch UL models:optional P/N 546-7000 Bandwidth(Flow Rate) ULC/Canadian models:factory installed Overall Dimensions, WFDT 4.5'"H x 3.75-W x 6.7""L Service Use Automatic Sprinkler:NFPA 13 Installed (11.4cm H x 9.5cm W x 17cm L) One orTwo Family Dwelling:NFPA 13D WFDTNR:3.75-H x 3.25-W x4.25"L Residential Occupancies up to Stories:NFPA 13R (9.5cm H x 8.2cm W x 10.8cm L) National Fire Alarm Code:NFPA 72 Contact Ratings Two sets of SPDT(Form C) Shipping Weight WFDT:2.6 lbs.(1.2 kg.) 10.0 A @ 125/250 VAC WFDTNR:1.5 lbs.(0.7 kg.) 2.5 A @ 24 VDC Compatible Tee Threaded ferrous and brass tees,copper Warranty 3 years Fittings sweat tees,CPVC tees,and polybutylene tees Conduit Entrances Two openings for 1/2""conduit. U.S.Patent Numbers 5,213,205 Electrical Connections for WFDT Delay Adjustment Dial SSM24-X NOTE:COMMON AND B-NO DELAY UL-LISTED CONNECTIONS WILLCLOSE ADJUSTMENT COMPATIBLE SSV120-X WHEN VANE IS DEFLECTED,I.E., DIAL O k DIAL IS APA CONTROL PANEL WITCHES PERMIT OWING.DUAL �O�P�DE1-AYIN SFO 0 POWER + APPLICATIONS TO BE COMBINED 24VDC OR ON A SINGLE DETECTOR. 120VAC - SUGGESTEDEOL CONTACT RATINGS r 0 INITIATING+ RESISTOR 125/250 VAC 10 AMPS O LOOP _ 24VDC 1 2.5 AMPS SCHEMATIC OF O O O INDIVIDUAL (�� SWITCH IN corn NO WATERFLOW' CONDITION ��N� 45 &NO B A O O O BREAKWIREAS s11RO1 1 81nT01 z SHOWN FOR SUPERVISION OF CONNECTION.DO NOT ALLOW O` _ STRIPPED WIRE LEADS TO EXTEND NOTE:RETARD TIME MAY EXCEED 90 SECONDS.ADJUST er• reaaoaw O BEYOND SWITCH AND VERIFYTHATTIME DOES NOT EXCEED 90 SECONDS. 0 O HOUSING.DO NOT NUMBER ON DIAL ISAPPROXIMATETIME DELAY IN LOOP W IRES. SECONDS WITH AN ACCURACY OF+I-50%. Ordering Information Description 1111 TA F.Me ULC Model WFDT WFDTA Waterflow Detector,Fits 1"",11/4",11/z';2""ferrous and brass threaded tees;l",11/4",11/z" 2-copper sweat tees;l"CPVC tees;and 11/2"polybutylene tees WFDTNR — Waterflow Detector,non-retard,fits same tees as Model WFDT Accessories Description A77-01-02 Replacement terminal block for WFDT A77-01-08 Replacement terminal block for WFDTNR A3008-00 Replacement retard mechanism PRK9 Replacement paddle kit-12 paddles for WFDT and WFDTNR(see WFDT for sizes) 546-7000 Cover tamper switch kit for WFDT S07-66-02 Replacement tamper screws for covers of WFDT,WFDTNR WFDW Replacement tamper-proof wrench for cover of WFDT,WFDTNR WFDN4 NEMA-4 gasket kit C58-164-01 Replacement metal cover C58-195-01 Replacement plastic cover(WFDTNR) Spears•is a registered trademark of the Spears Manufacturing Company.Victaulic•is a registered trademark of the Victaulic Company of America. SYSTEM 02010 System Sensor. 3825 Ohio Avenue-St.Charles,IL 60174 Product specifications subje t to change without notice,Visit systemsensoccom for SENSORry Phone:800-SENSOR2•Fax:630-377-6495 urrentproductinformation,induding7/10-latest version of hlsdata sheet. A05-0195-014.7/10•#2450 Calculation for size of 13D expansion tank Minimum Insert data into yellow boxes only Tank Type of antifreeze used Size Propylene Glycol 7.9 gallon Glycerine 6.8 A.7.5.3.2 One formula for sizing the chamber is as follows.Other methods also exist. AL=S, DL —1� where: D, 11 4L =change in antifreeze solution volume(gal)due to thermal expansion 12 S v=volume(gal)of antifreeze system,not including the expansion chamber 46 13 DL =density(gm/ml)of antifreeze solution at lowest expected temperature 1.062 1.146 14 DH =density(gm/ml)of antifreeze solution at highest expected temperature 1.016` 1.103 15 This method is based on the following information: PQ-Vo =Ell-V3 _P2-V4 'FO T1 T Adjusted where: Given Converted 19 VEC =minimum required volume(gal)of expansion chamber 3 20 V o=air volume(gal)in expansion chamber at precharge(before installation) 3 21 V 1 =air volume(gal)in expansion chamber at normal static pressure 3 V 2=air volume(gal)in expansion chamber at post-expansion pressure(antifreeze 22 at high temperature) 3 23 P o=absolute precharge pressure(psia)on expansion chamber before installation 1254 140 24 P 1 =absolute static pressure(psi)on water(supply)side of backflow preventer 125 4 140 25 P 2=absolute maximum allowable working pressure(psi)for antifreeze system 1755 190 26 T o=temperature(°R)of air in expansion chamber at precharge 68 6 528 T 1 =temperature(°R)of air in expansion chamber when antifreeze system piping is 27 at lowest expected temperature 68 6 528 T 2=temperature(°R)of air in expansion chamber when antifreeze system piping is 28 at highest expected temperature 68 6 528 This equation is one formulation of the ideal gas law from basic chemistry.The amount of air in the expansion chamber will not change over time.The pressure,temperature,and volume of the air at different times will be related in accordance with this formula. V2=Ve—+AL. The antifreeze in the system is essentially incompressible,so the air volume in the expansion chamber will decrease by an amount equal to the expansion of the antifreeze. It is assumed that there is no trapped air in the system piping,so the only air in the system is in the expansion chamber.This is a conservative assumption,since more air is better. In reality,there will be at least some trapped air.However,only the air in the expansion chamber can be relied upon to be available when needed. VEC=Vs At precharge,the chamber will be completely full of air. V _ Pt•To•P2-AL•T = } P6.7;(P2•T—P•Tsl NFPA 13(02) ' Density is based on-10°F for 50%propylene glycol and is an estimate of the lowest expected temperature of the mixture in the entire system for a ranch style house.A higher temperature might be expected for a tri-level home. Use density for glycerine under the same conditions z Density is based on 130°F for 50%propylene glycol and is an estimate of the highest expected temperature of the mixture in the entire system for a ranch style house.A lower temperature might be expected for a tri-level home. Use density for glycerine under the same conditions 3 It is believed that values for V cancel since the total volume within the chamber does not change 4 The pre-charge pressure will be the same as static pressure at the street or pump churn pressure s The maximum allowable working pressure is the same as the maximum listed pressure for the sprinkler heads 6 The temperature chosen is based on expansion tanks installed in heated basements Revised 12/06/05 WILKINS Model WXTP Expansion a company Water Thermal SPECIFICATInN SUBMITTAL SHEE- APPLICATION Designed for installation on potable water lines between the backflow preventer or pressure reducing valve and the water heater to protect against water thermal expansion. When system pressure increases,water enters the tank's bladder which expands into the pre-charged air chamber, keeping system pressure below the relief valve setting. � a STANDARDS COMPLIANCE FEATURES 0 IAPMO®Listed UPS NSF Sizes (liters): ❑ 8 ❑ 18 ❑ 32 ❑ 50V NSF®Listed ❑ 75V ❑ 120V ❑ 165V ❑ 320V Certified to ANSI/NSF 67 (V=vertical,free-standing) Maximum working water pressure 150 PSI MATERIALS End connections Threaded NPT ANSI B1.20.1 Outer shell High Grade Steel Precharge(adjustable) 40 PSI Coatings Epoxy finish(outer shell) Connection Brass (sizes: 8 thru 32) 5 year warranty Stainless Steel (sizes: 50V thru 320V) Bladder Butyl Rubber(FDA approved) C ACCESSORIES �A - - ❑ BR4 - water pressure reducing valve ❑ TP1100A - temperature&pressure relief valve ❑ P1000A - pressure relief valve ❑ 975XL - reduced pressure backflow preventer NOTE: Model WXTP tanks are certified to NSF Standard B B 61 cold, but are suitable for temperatures up to 200°F. 0 C O A WXTP 50V-320V WXTP 8-32 DIMENSIONS&WEIGHTS(do not include pkg.) TANK SPECIFICATIONS MAXIMUM TOTAL FACTORY DIMENSIONS MODEL WORKING VOLUME ACCEPTANCE PRECHARGE DIAMETER HEIGHT SYSTEM WEIGHT NUMBER PRESSURE GALLON VOLUME (PSI) CONNECTION S in. mm in. mm Ibs. I kg WXTP-8 150 PSIG 2.1 0.84 40 8 1/2 216 11 1/2 292 3/4" MNPT 7 3.2 WXTP-18 150 PSIG 4.5 1.8 40 10 254 15 381 3/4" MNPT 10 4.5 WXTP-32 150 PSIG 8.5 3.4 40 12 1/2 318 193/16 487 3/4" MNPT 15 6.8 WXTP-50V 1 150 PSIG 14 5.6 40 16 406 21 11/16 551 1" FNPT 32 14.5 WXTP-75V 150 PSIG 20 8.0 40 16 406 28 13/16 732 1" FNPT 39 17.7 WXTP-120V 150 PSIG 32 12.8 40 1 21 533 27 13/16 706 1" FNPT 60 27.2 WXTP-165V 150 PSIG 44 17.6 40 1 21 533 363/16 919 1 1/4" FNPT 72 32.7 WXTP-320V 150 PSIG 85 34.0 40 26 660 447/16 1129 1 1/4" FNPT 140 63.4 NOTE: RELIEF VALVE MUST BE SET AT 150 PSIG MAXIMUM .• REVISION: WXT-WXTP 4105 Page 1 of 2 SIZING CHART Supply WATER HEATER CAPACITY (U.S. gal) Pressure(psig) 20 30 40 50 60 80 100 120 150 175 200 40 8 8 8 8 8 18 18 18 32 32 32 50 8 8 8 8 8 18 18 18 32 32 32 55 8 8 8 8 8 18 18 18 32 32 32 60 8 8 8 8 18 18 18 18 32 32 32 70 8 8 8 8 18 18 18 18 32 32 32 80 8 8 8 8 18 18 18 32 32 32 32 90 8 8 8 18 18 18 32 32 32 50V 50V 100 8 8 18 18 18 32 32 32 50V 50V 50V 110 8 18 18 18 32 32 32 50V 50V 75V 75V 120 18 18 32 32 32 50V 50V 50V 120V 120V 120V Supply WATER HEATER CAPACITY (U.S. gal) Pressure(psig) 240 260 280 300 350 400 450 500 600 800 1000 40 50V 50V 50V 50V 50V 75V 75V 75V 120V 120V 165V 50 50V 50V 50V 50V 50V 75V 75V 75V 120V 120V 165V 55 50V 50V 50V 50V 50V 75V 75V 75V 120V 120V 165V 60 50V 50V 50V 50V 50V 75V 75V 75V 120V 120V 165V 70 50V 50V 50V 50V 50V 75V 75V 75V 120V 120V 165V 80 50V 50V 50V 50V 75V 75V 75V 120V 120V 165V 165V 90 50V 50V 50V 75V 75V 75V 120V 120V 120V 165V 320V 100 75V 75V 75V 75V 120V 120V 120V 165V 165V 320V 320V 110 120V 120V 120V 120V 120V 165V 165V 320V 320V 320V X 120 165V 165V 165V 320V 320V 320V 320V 320V X X X Based upon 100° F temperature rise(40° F to 140° F) X=multiple tanks required(contact your WILKINS Rep TYPICAL INSTALLATION Local codes shall govern installation requirements. Unless otherwise specified, the assembly shall be mounted on the cold water supply and at least 18"from the cold water inlet to the heater. Note: If incoming water pressure is above 40 psi, the precharge pressure of the expansion tank should be adjusted to equal the incoming water pressure, not to exceed 80 psi. TSP VALVE HOSE BIB. HOT WATER TSP VALVE HEATER R MODEL 97- MODELBR4 WATER PRESSURE -EL 515%L HEATER REDUCING VALVE WATER PRE-RE / FEOOCING VALVE MODEL-TP S� DIRECTION OF FLOW RAIN - DIRECTION OF FLOW �/ RAIN MODEL WXTP INSTALLATION MODEL WXTP INSTALLATION "V"SERIES SPECIFICATIONS The Water Thermal Expansion Tank shall be IAPMO® and NSF® Listed. The outer shell shall be high grade steel with exterior coating. The bladder shall be FDA approved butyl rubber and prevent water from contact with shell interior. The assembly shall incorporate a shrader valve for adjustable air precharge and a lead free bronze system connection. The Water Thermal Expansion Tank shall be a WILKINS Model WXTP. Page 2 of 2 WILKINS a Zurn Company, 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 1 L2 Phone:905/405-8272 Fax:905/405-1292 Product Support Help Line: 1-877-BACKFLOW (1-877-222-5356) • Website: http://www.zurn.com AHEAD OF • rr 300 lb. WWP Bronze Ball Valves Dezincification Fire Protection Valve • Threaded or Grooved Body Style • Full Port Design 1" - 2" • Resistant Standard Port Design 21/2" • Accepts Internal Supervisory Switches 300 PSI/20.7 Bar Non-Shock Cold Water CONFORMS TO MSS SP-110 • FM APPROVED • ° UL LISTED FOR INDOOR AND OUTDOOR SERVICE • CALIFORNIA STATE FIRE MARSHAL LISTING NO. 7770-1243-103 APPROVED BY NEW YORK CITY M.E.A. 218-04-E WITH APPROPRIATE NYC INDICATOR. KT-505-W-8 MATERIAL LIST Ilk Threaded PART SPECIFICATION se 1. Body Bronze ASTM B 584 Alloy C84400 2. Ball Chrome Plated Brass ASTM B 124 Alloy C37700 3. Seat Ring Carbon-filled TFE KG-505-W-8 4. Thrust Washer Reinforced TFE Grooved 5. Stem Bronze ASTM B 371 Alloy C69430 'S 6. Stem Ming Nitrile 7. Retaining Washer Brass , F7- 8. Retaining Ring Steel s 7 9. Ground Wire Screw Steel 6 10. 505-8 Act Assy. Brass O 11. Body End Bronze A TM B 58 4 Alloy C 844 00 - 12. Mounting Screw Steel a 13. Lock Washer Steel O I 14. Handle Pin Brass -� 15. Hand Wheel Steel/plastisol coated(1'/a"-2'/2") -B Brass Tee Handle(1") 16. Indicator Flag Painted Steel F 15 2 21 14 17. Body Gasket Elastomer 18. Lead Screw G-Ring Nitrile 19. Thrust Washer Anti-friction Polymer 20. Cover Gasket Neoprene 21. Flag Seal 0-Ring Nitrile 22. Tamper-Proof Screw Stainless Steel 23. Pipe Plug(-4 units) Stainless Steel(Not shown) 17 18 19 Refer to page 41 for details for TS-2M Switch Kit. 12 ,3 KT-505W DIMENSIONS-WEIGHTS-QUANTITIES Dimensions A B Weight Size Threaded Grooved Threaded Grooved C D E F G Cvt Threaded Grooved Box Master In. mm. In. mm. In. mm. In. mm. In. mm. In. mm. In. mm. In. mm. In. mm. In. mm. Value Lbs. Kg. Lbs. Kg.Qty. Ctn.Qty. 1 25 3.33 85 - - 1.66 42 - - 211 54 3.81 97 2.31 59 6.14 156 135 44 57 6.1 2.77 - - 1 10 11/4 32 4.18 106 - - 2.09 53 - - 2.46 62 4.21 107 2.72 69 6.33 161 3.50 89 103 7.1 3.23 - - 1 8 11/2 40 4.70 119 - - 2.35 60 - - 2.95 74 4.46 113 2.97 75 6.33 161 3.50 89 143 8.1 3.68 - - 1 4 2 50 5.15 131 6.71 170 2.57 65 3.36 85 3.69 94 4.67 119 3.18 81 6.33 161 3.50 89 245 10.7 4.86 9.7 4.40 1 4 21/2 65 5.65 144 7.28 185 2.92 74 3.64 93 3.75 95 4.67 119 3.18 81 6.33 161 3.50 89 183 13.0 5.91 12.6 5.73 1 4 t Note:Cv is defined as the flow in GPM that a valve will carry with a pressure drop of 1.0 psi when the media is water at 60°F. aawoveo �� NIBCO INC.WORLD HEADQUARTERS•1516 MIDDLEBURY ST.•ELKHART,IN 46516-4740•USA•PH:1.800.234.0227 TECH SERVICES PH:1.888.446.4226•FAX:1.888.336.4226•INTERNATIONAL OFFICE PH:+1.574.295.3327•FAX +1.574.295.3455 www.nibco.com WILKINS company SPECIFICATION SUBMITTAL SHEET Sp 5c+ p Cp� 0p X20 \p0\� Ci O • Model HGI-25 Model 92-25 & 92-25A Hose Bibb Pressure Gauge with Pressure Gauge Maximum pressure indicator Application: Application: Designed for measuring water system pressure within a build- Designed for accurately measuring system pressure down- ing.The 3/4"hose adapter allows for direct connection to a stream of a Pressure Reducing Valve.The Pressure gauge hose bibb or water heater drain valve.The indicator needle can be threaded directly to all WILKINS Pressure Reducing identifies the highest pressure reached within the system. Valves supplied with tapped or plugged option. For water Ideal for registering maximum system pressure caused by service only. thermal expansion or pressure spikes.The maximum pres- sure indicator needle can be reset by turning the external knob counter clockwise. For water service only. • Identify water service pressure to determine if a FEATURES pressure regulator is needed. • Troubleshoot pressure problems. Sizes: ❑ 1/8" NPT(Model 92-25A) • Identify thermal expansion problems. ❑ 1/4"NPT(Model 92-25) FEATURES Dial size: 2" range: 0-100 psi; minimum 2 psi graduation Sizes: ❑ 3/4" Hose Connection Dial size: 2" NOTE:A Pressure Regulator should be installed when sup- Range: 0-200 psi; minimum 2 psi graduation ply pressure exceeds 60psi. 3/4"hose adaptor Knurled for easy gripping Sold in convenient pegboard packaging HOSE BIBB HOSE BIBB HOSE BIBB PRESSURE GAUGE y JSHUT-OFF DEL BR4 MODEL BR4 GULATOR o f REGULATOR PRESSURE SHUT-O FF GAUGE WATER VALVE WATER METER METER DIRECTION OF FLOW DIRECTION OF FLOW TYPICAL INSTALLATION(MODEL HGI-25) TYPICAL INSTALLATION(MODEL 92-25&92-25A) DOCUMENT#: REVISION: MIS-GAUGE 10/02 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 1 L2 Phone:905/405-8272 Fax:905/405-1292 Product Support Help Line: 1-877-BACKFLOW (1-877-222-5356) ❑ Website: http://www.zurn.com WILKINS Model 800C Swing Away Ball Valves a 20M company For • • or • SPECIFICATION SUBMITTAL SHEET APPLICATION Designed for installation on liquid or medical gas lines as a means of positive shut-off. The "swing away" design al- lows for repair and maintenance without removing the device from the line. MATERIALS FEATURES Main valve body Forged brass( '/Z"-1") Sizes: ❑ '/2" ❑ 3/4" ❑ 1" ❑ 1'/2" Cast bronze ASTM B 584(1 '/Z"-3") ❑ 2" ❑ 2 '/2" ❑ 3" Ball Brass ASTM B 16, chrome plated Seat& packing Teflon Maximum pressure 400 PSI WOG O-rings Buna Nitrile, NSF Listed Copper connections (FC) ANSI B16.22 SPECIFICATION The three piece swing away ball valve shall consist of a OPTIONS copper alloy body, two tailpieces, a hard-chromed copper alloy ball,two Teflon seats, a stem and coated handle.The ❑ - with female copper inlet x outlet stem shall be blow-out proof and the ball & seats replace- ❑ CL - with copper"L"tube extensions able in-line without the use of special tools.Tailpieces shall be designed to accept sweated copper tube or provided ACCESSORIES with copper tailpiece extensions.The three piece swing away ball valve shall be a WILKINS Model 800C. ❑ Repair kit; o-rings, stem and seats ❑ Bracket for locking ball valve handle in open position - C (Model BVLCK) ❑ Bracket and padlock(Model BVLCKP) Id7 B DIMENSIONS &WEIGHTS (do not include pkg.) A DIMENSIONS (approximate) SIZE A B C WEIGHTS in. mm in. mm in. mm in. mm lbs. kg. 1 /2 15 2 1/8 54 1 5/8 41 37/8 98 1 0.5 3/4 20 23/4 70 1 7/8 48 37/8 98 1 0.5 1 25 31/2 89 2 51 4 1/2 114 2 1.0 1 1/2 40 47/8 124 27/8 73 6 152 7 3.0 2 50 51/2 140 3 1/8 79 6 152 9 4.0 2 1/2 65 63/8 162 35/8 92 6 152 17 8.0 3 80 63/4 172 43/8 111 12 305 22 1 10.0 DOCUMENT#: REVISION: BV-800C 5/05 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 1 L2 Phone:905/405-8272 Fax:905/405-1292 Product Support Help Line: 1-877-BACKFLOW (1-877-222-5356) • Website: http://www.zurn.com NIBC ■ • • • All �Ij�( N Revision 5/14102 Copper Water Tublecontinued DIMENSIONAL DATA.-COPPER„ TYPE"M" Hard Drawn Only: 20-ft.(6.1 m)Straight Lengths Usage: Forgerteral purpose plumbing,heating and drainage installations. Tolerances Hard Drawn (Hard Drawn Only) Outside Tubing OD Nominal Wall Weight Bursting Safe Working Nominal Diameter Thickness Per Foot Pressure` Pressure, WaterTube Min. Max. Size(In Inches) Inch (mm) Inch (mm) inch (mm) Inch (mm) Lb (kg) psi (bars) psi (bars) 114 0.375 (9.53) 0.373 (9.47) 0.376 (9.55) WA NIA NIA NIA NIA NIA NIA NIA 318 0.500 (12.70) 0.497 (12.62) 0.501 (12.73) 0.025 (0.64) 0.145 (0.07) NIA NIA 855 (59) 112 0.625 (15.88) 0.622 (15.60) 0.626 (15.90) 0.028 (0.71) 0.204 (0.09) 6135 (423) 741 (51) 518 0.750 (19.05) 0,747 (18.97) 0.751 (19.08) NIA NIA NIA WA NIA NIA NIA WA 314 0.875 (22.23) 0.872 (22.15) 0.876 (22,25) 0.032 (0.81) 0.328 (0.15) 4717 (325) 611 (42) 1 1.125 (28.58) 1.122 (28,50) 1.127 (28.63) 0.035 (0,89) 0.465 (0.21) 3865 (266) 506 (35) 1114 1.315 (34,93) 1.372 (34.85) 1,377 {34.98} 0.042 (1.07) 0.682 (0.31) 3875 (267} 507 (35) 1112 1.625 (41.28) 1.621 (41.17) 1.627 (41,33) 0.049 (1,24) 0,940 (0.43) 3550 (245) 497 (34) 2 2.125 (53.98) 2,121 (53.87) 2.127 (54.03) 0.058 (1.47) 1.460 (0.65) 2935 (202) 448 (31) 2112 2,625 (66.68) 2.621 (66.57) 2.627 (66.73) 0.065 (1.65) 2.030 (0,92) 2800 (193) 411 (2B) 3 3.125 (19.38) 3.121 (]9.27) 3.127 (79.43) 0.072 (1,83) 2.680 (1,22) 2665 (184) 380 (26) 3112 3.625 (92.08) 3.621 (91.97) 3.627 (92.13) 0.083 (2,11) 3.580 (1.62) WA NIA 378 (26) 4 4.125 (104.78) 4,121 (104.67) 4.127 (104,83) 0.095 (2.41) 4.660 (2.11) 2215 (153) 377 (26) 5 5.125 (130.18) 5.121 (130.073 5.127 (130.23) 0.109 (237) 6.660 (3.02) 2490 (172) 349 (24) 6 6.125 (155.58) 6.121 (155.47) 6.127 (155.63) 0.122 (3,10) 8.920 (4.05) 2000 (138) 328 (23) 8 8.125 (206.38) 8.118 (206.22) 8.121 (206.43) 0.170 (4.32) 16.500 (7.48) 2285 (158) 344 (24) 10 10,125 (257.18) 10.119 (257.02) 10.127 (257.23) 0.212 (5.38) 25.600 (11.61) NIA NIA 344 (24) 12 12,125 (307.98) 12.119 (30732) 12.127 (308.03) 0.254 (6.45) 36.700 (16,65) NIA NIA 345 (24) Note:Information and data contained in these charts,as taken from ASTM Specifications B 88. Rated internal pressure for copper water tube based on the strength of U3e tube alone and applicable to systems using suitable mechanical joints. "Based an actual laboratory test data pro°rded by Copper Development Association,Inc. 'Based upon 150°F(65.6°C)with an allouabie stress of 9500 psi(668 kPa) U.S.customary units in this document are the standard;the metric units are provided for reference only.The values stated in each system are not exact equivalents. NIBCD INC.WORLD HEADQUARTERS•1516 MIDDLEBURY ST.•ELKHART,IN 46516-4740-USA•PH:1.800234.0227 TECH SERWCES PH;1,888.446.4226•FAX:1,800,2340557•INTERNATIONAL SERVICE PH:+1574.295-3221•FAX'.+1,574295.3455 Spears Catalog Page 30 of 40 FlameGuardTMI CPVC Fire Sprinkler Piping Products STANDARDS & SPECIFICATIONS PIPE Meets the requirements of ASTM Standard D 1784 for Material and ASTM Standard F 442 for End Product.Listed by NSF for potable water applications. FITTINGS Injection Molded to meet or exceed ASTM Standards F 437, F 438 and F 439, as applicable. Listed by NSF for potable water applications. CEMENT FS5 Cement meets the requirements of ASTM F 493; meets MAX VOC 450 G/L per SCAQMD Rule 1168/316A.Listed by NSF for potable water applications. Spears® Fire Sprinkler Piping Products are Listed by Underwriters Laboratories for use in: Light Hazard occupancies as defined in the Standard for Installation of Sprinkler Systems, NFPA 13; Residential occupancies as defined in the Standard for Installation of Sprinkler Systems up to Four Stories in height, NFPA 13R; Residential occupancies as defined in the Standard for Sprinkler Systems in One and Two Family Dwellings and Mobile Homes, NFPA 13D; and, Air Conditioning and Ventilation Systems,NFPA 90A. LOOK FOR THE UL LISTING MARK ON THE PRODUCT. Y Lc Spears®Fire Sprinkler Piping Products are also approved by the Loss Prevention Certification Board and Factory Mutual for use in Wet Fire Sprinkler Systems. For detailed information regarding these listings, please call your servicing Spears® Regional Distribution Center. cr.rrrx WRAS ,JC. 'd '( FM AP4 p L ' PRd Certified by NSF International. •7G7 i'�A APPROVED Listed for use Listed for use with potable water. with potable water. DISCOUNT CODE For your convenience, a numeric DISCOUNT CODE is shown for each part in this price schedule. Please refer to Spears® Discount Schedule for the corresponding standard discount.Discounts are NOT the same for all products contained within this Price List. Prices subject to change without notice. Possession of this price schedule shall not be construed as an offer to sell the products listed. Product photographs and drawings are representative and may not fully reflect product configurations. CONFIGURATION DESCRIPTIONS FIPT = Female Iron Pipe Thread MIPT = Male Iron Pipe Thread Socket = Solvent Weld Socket(I PS) Spigot = Spigot End(IPS) SR FIPT = Special Reinforced Plastic Female Iron Pipe Thread NOT FOR USE WITH COMPRESSED AIR OR GAS file://C:ASpearsMFG\FG-l.htm 11/26/2007 Spears Catalog Page 32 of 40 FlameGuardTM CPVC Fire Sprinkler Piping iE:1 Products RECOMMENDATIONS FOR INSTALLERS AND USERS Plastic piping systems should be ENGINEERED, INSTALLED, and OPERATED in accordance with ESTABLISHED DESIGN AND ENGINEERING STANDARDS AND PROCEDURES for plastic piping systems. Suitability for the intended service application should be determined by the installer and/or user prior to installation of a plastic piping system.All installation and maintenance personnel should be trained in the proper handling and installation requirements and precautions of plastic piping systems. PRIOR TO ASSEMBLY, all piping system components should be inspected for damage or irregularities.Mating components should be checked to assure that tolerances and engagements are compatible. Do not use any components that appear irregular or do not fit properly. Contact the appropriate manufacturer of the component product in question to determine usability. Consult all applicable codes and regulations for compliance prior to installation. Installation must be made in accordance with SPEARS®CPVC FIRE SPRINKLER PIPING PRODUCTS Installation Instructions-FG-3 NOTE - Individual or group instruction in correct solvent welding procedures is available by contacting your local distributor or your servicing Spears®Regional Distribution Center. SOLVENT CEMENT CONNECTIONS - Spears® Manufacturing Company recommends the use of Spears® FS-5 One Step solvent cement for joining Spears®products.Use of solvent cementing products not approved for CPVC fire sprinkler systems or failure to follow installation instructions will automatically void the warranty. THREADED CONNECTIONS-Spears®Manufacturing Company recommends the use of Spears®BLUE 75 T Thread Sealant.This product has been tested by Spears® and the sealant manufacturer for compatibility with the Spears® CPVC fire sprinkler products. Consult the sprinkler head manufacturer before using this product.WARNING: OTHER PIPE JOINT COMPOUNDS OR PASTES MAY CONTAIN SUBSTANCES THAT COULD CAUSE STRESS CRACKING IN THE CPVC OR OTHER FITTING COMPONENTS. Care must be taken to avoid overtorquing-generally 1 to 2 turns beyond finger tight is all that is required to make up a threaded connection. Factory testing has indicated 10-25 ft.lbs.of torque is adequate to obtain a leak free seal. FLANGE MAKE-UP-Once a flange is joined to pipe, the method for joining two flanges is as follows: A. Piping runs joined to the flanges must be installed in a straight line position to the flange to avoid stress at the flange due to misalignment.Piping must also be secured and supported to prevent lateral movement which can create stress and damage the flange. B. With gasket in place,align the bolt holes of the mating flanges by rotating the ring into position.(Consideration should be given to alignment of One-Piece Flange prior to joining with pipe.) C. Insert all bolts,washers(two standard flat washers per bolt),and nuts. D. Make sure the faces of the mating surfaces are flush against gasket prior to bolting down the flanges. E. Tighten the nuts by hand until they are snug. Establish uniform pressure over the flange face by tightening the bolts in 5 ft. lbs. increments according to the sequence shown in Figure 1 following a 180°opposing sequence. F. Care must be taken to avoid"bending"the flange when joining a Spears®flange to a'raised face"flange,or a wafer-style valve. Fi ure 1 Bolt Flange Recommended FSizee Bolt Holes Diameter Length 3 • • Size Torque(Ft./Lbs.) Minimum + 3/4 4 1/2 2 • • 3/4 thru 1-1/2 12 1 4 1/2 2-1/4 2 4 2 thru 3 25 1-1/4 4 1/2 2-1/4 1-1/2 4 1/2 2-1/2 CAUTION: Unnecessary overtorquing will damage the flange. Lubricant must be compatible with flange material. 2 4 5/8 3 Specified minimum bolt lengths are based on the use of two Spears® 2-1/2 4 5/8 3-1/4 Flanges,two standard flat washers,standard nut and full faced 1/8"thick 3 4 5/8 3-114 grade "E" EPDM full face gasket with a Shore "A" Durometer of approximately 60. Follow recommended bolt torque shown above. Threads should be clean and well lubricated.Actual field conditions, or mating with other brands or accessories,may require variations in these recommendations.Bolts and gaskets are not supplied with flanges. NOT FOR USE WITH COMPRESSED AIR OR GASES WARNING: DO NOT USE COMPRESSED AIR OR GAS TO TEST ANY PVC OR CPVC THERMOPLASTIC PIPING PRODUCT OR SYSTEM,AND DO NOT USE DEVICES PROPELLED BY COMPRESSED AIR OR GAS TO CLEAR SYSTEMS.THESE PRACTICES MAY RESULT IN EXPLOSIVE FRAGMENTATION OF SYSTEM PIPING AND COMPONENTS CAUSING SERIOUS OR FATAL BODILY INJURY. NOT FOR USE WITH COMPRESSED AIR OR GAS file:HC:ASpearsMFG\FG-l.htm 11/26/2007