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F13-0005 F13-0006 SUBMITTAL PACKET.pdf
Hydraulic Summary Report Description: 2nd Unit Job Number: CH0162 Node Flow(gpm) Total Hose Streams 200.00 Safety MarginRequiredAvailable Node Hose FlowStaticResidualFlowTotal Demand (gpm)(psi)(psi)(gpm)(psi)(gpm)(psi)(psi)@@Name 1 149.973132.28317.6891353.00100.00145.000150.000 100.00Water Supply 21 149.912132.22317.6891353.00100.00145.000150.000 179.66Water Supply Design EngineerJob Number Total Water Required (Including Hose Allowance) 279.66 Maximum Pressure Unbalance In Loops 0.000 Additional Hose Supplies 200.00 Hose Allowance At Source Supplies 155.20gal Residential 0.100gpm/ft² 324.00ft² 900.00ft² (Actual 276.97ft²) 4 Occupancy Area of Application Coverage Per SprinklerNumber Of Sprinklers Calculated Density Job Suffix AutoPeak Results: Pressure For Remote Area(s) Adjacent To Most Remote Area Volume capacity of Dry PipesVolume capacity of Wet Pipes 11.91 between nodes 21 and 22 Maximum Velocity Under Ground 26.85 between nodes 25 and 26 Maximum Velocity Above Ground 4.3 K-Factor 19.60 at 20.777 Most Demanding Sprinkler Data System Job Site/Building VAIL, CO 81657 AHJ 232 W. MEADOWS DRIVE Job State Certification/License NumberJob Name: Hudson DeWeeseCH0162 Contractor Contractor Number 21 Name of Contractor: Western States Fire Protection Address 1 7026 S. Tucson Way. Address 2 Centennial, CO Contact Name Contact Title ExtensionPhone FAX E-mail Web-SiteAddress 3 Address 1 Address 2 Drawing Name FP LAYOUT System Flow Demand 79.66 Remote Area(s) Darcy-Weisbach Calculation Darcy-Weisbach equations are being used because the system requires special design considerations. The Darcy-Weisbach formula used in this hydraulic calculation to determine fluid/agent friction loss is: P = 0.000216 fLp(Q^2)/(d^5) Friction Loss factors are derived from the Moody Diagram. Reynolds Number is calculated using: Re=Q/d/k Relative Roughness of Pipe is: e/D K-Factors for Sprinkler Heads are adjusted based on the density of the fluid being discharged (Bernoulli-based formula). C-Factors are not relevant to this type of calculation. These are replaced with the Roughness e-value for the pipe. Description: Water/Antifreeze @ -20°F/-29°C, 60% Glycerine (C.P. or U.S.P. 96.5%) by weight Product Name: Antifreeze solution in pipes within or passing through: Cold Areas: Warm Areas: Density: 73.665lb/ft³ Density: 72.029lb/ft³ Viscosity: 170.000cP Viscosity: 10.800cP NFPA Suggested Aged Pipe Roughness is being applied. Volume capacity of Antifreeze/Other Pipes 0.00gal Address 3 1/30/2013© M.E.P.CAD, Inc.Page 1AutoSPRINK® VR10 v10.0.52.0 1:06:16PMDarcy-Weisbach Calculation Device (gpm) Actual FlowMinimum Flow (gpm)(K) K-Factor (psi) Pressure Summary Of Outflowing Devices Report Description: 2nd Unit Job Number: CH0162 Sprinkler20119.8619.604.321.325 Sprinkler20219.6019.604.320.777 Sprinkler20320.1319.604.321.915 Sprinkler20420.0819.604.321.798 Most Demanding Sprinkler Data © M.E.P.CAD, Inc.1/30/2013Page 1AutoSPRINK® VR10 v10.0.52.0 1:06:42PM Pipe TypeDiameterFlowVelocityFriction LossLengthPressure DownstreamElevationDischargeK-FactorPtPnFittingsEq. LengthSummary Upstream Total Length HWC/Roughness Hydraulic Analysis Job Number: CH0162 Report Description: 2nd Unit • • • • • Route 1 • • • • • Pf Pe Pv BL1.101019.606.60 0.068712 7'-11¾0.549 20220'-019.60 4.3 (adj)20.777 Sprinkler 20120'-0 21.325 7'-11¾ 0.000333" Pf Pe Pv BL1.101039.4613.30 0.248543 1'-4¾1.592 20120'-019.86 4.3 (adj)21.325 Sprinkler 5'-0 2820'-0 22.917 PO(5'-0)6'-4¾ 0.000333" Pf Pe Pv CM1.394059.5912.53 0.166757 1'-00.334 2820'-020.1322.917 Flow (q) from Route 3 1'-0 2720'-0 23.250 Tr(1'-0)2'-0 0.000333" Pf Pe Pv CM1.394079.6616.75 0.286439 15'-915.367 2720'-0 23.250 37'-00.434 2619'-0 39.050 2T(6'-0), 3E(8'-0), Tr(1'-0)52'-9 0.000333" Pf Pe Pv FR1.101079.6626.85 0.927802 0'-06.495 2619'-0 39.050 7'-0 2519'-0 45.545 E(7'-0)7'-0 0.000333" Pf Pe Pv CM1.394079.6616.75 0.286439 13'-6½10.195 2519'-0 45.545 22'-03.897 2310'-0 59.637 2E(8'-0), T(6'-0)35'-6½ 0.000333" Pf Pe Pv FR2.009079.668.06 0.045802 15'-324.044 2310'-0 59.637 11'-04.877 22-1'-3 88.559 3Tr(1'-0), sCV, 2E(3'-6), BFP(-15.000), PRV(-7.821), cplg(1'-0) 26'-3 0.000333" Pf Pe Pv UG1.653079.6611.91 0.126661 345'-044.965 22-1'-3 88.559 10'-0-1.301 211'-9 132.223 2E(5'-0), S 355'-0 0.000333" 279.66 200.00 Hose Allowance At Source 21 • • • • • Route 2 • • • • • Pf Pe Pv BL1.101020.086.77 0.067184 9'-7¼1.452 20420'-020.08 4.3 (adj)21.798 Sprinkler 12'-0 2720'-0 23.250 E(7'-0), PO(5'-0)21'-7¼ 0.000333" • • • • • Route 3 • • • • • Pf Pe Pv BL1.101020.136.78 0.072131 5'-4¾0.749 20320'-020.13 4.3 (adj)21.915 Sprinkler 5'-0 2920'-0 22.665 PO(5'-0)10'-4¾ 0.000333" Pf Pe Pv CM1.394020.134.23 0.022927 9'-00.252 2920'-0 22.665 2'-0 2820'-0 22.917 2Tr(1'-0)11'-0 0.000333" K-Factor conversion formula: 1.51 4.87 )(150 1.33 140 1.16 130 0.713 100 Equivalent Pipe Lengths of Valves and Fittings (C=120 only) Actual Inside Diameter Schedule 40 Steel Pipe Inside Diameter = Factor C Value Multiplier Value Of C Multiplying Factor © M.E.P.CAD, Inc.1/30/2013Page 1AutoSPRINK® VR10 v10.0.52.0 1:10:00PM Pipe TypeDiameterFlowVelocityFriction LossLengthPressure DownstreamElevationDischargeK-FactorPtPnFittingsEq. LengthSummary Upstream Total Length HWC/Roughness Hydraulic Analysis Job Number: CH0162 Report Description: 2nd Unit Pipe Type Legend AOArm-Over BLBranch Line CMCross Main DNDrain DRDrop DYDynamic FMFeed Main FRFeed Riser MSMiscellaneous OROutrigger RNRiser Nipple SPSprig STStand Pipe UGUnderground Units Legend DiameterInch ElevationFoot Flowgpm Dischargegpm Velocityfps Pressurepsi LengthFoot Friction Losspsi/Foot HWCHazen-Williams Constant PtTotal pressure at a point in a pipe PnNormal pressure at a point in a pipe PfPressure loss due to friction between points PePressure due to elevation difference between indicated points PvVelocity pressure at a point in a pipe Fittings Legend ALVAlarm Valve AngVAngle Valve bBushing BalVBall Valve BFPBackflow Preventer BVButterfly Valve CCross Flow Turn 90° cplgCoupling CrCross Run CVCheck Valve DelVDeluge Valve DPVDry Pipe Valve E90° Elbow EE45° Elbow Ee111¼° Elbow Ee222½° Elbow fFlow Device fdFlex Drop FDCFire Department Connection fE90° FireLock(TM) Elbow fEE45° FireLock(TM) Elbow flgFlange FNFloating Node fTFireLock(TM) Tee gGauge GloVGlobe Valve GVGate Valve HoHose HoseHose HVHose Valve HydHydrant LtELong Turn Elbow mecTMechanical Tee NozNozzle P1Pump In P2Pump Out PIVPost Indicating Valve POPipe Outlet PRVPressure Reducing Valve PrVPressure Relief Valve redReducer/Adapter SSupply sCVSwing Check Valve SprSprinkler StStrainer TTee Flow Turn 90° TrTee Run UUnion WirFWirsbo WMVWater Meter Valve ZCap © M.E.P.CAD, Inc.1/30/2013Page 2AutoSPRINK® VR10 v10.0.52.0 1:10:00PM Hydraulic Graph Report Description: 2nd Unit Job Number: CH0162 System Demand (Including Hose Allowance at Source) System Demand 145.000 @ 1353.00 Residual: Pressure 150.000 Static: Pressure Water Supply at Node 1 Hydraulic Graph Water Supply at Node 1 132.283 @ 0.00 132.283 @ 100.00 Available Pressure at Time of Test 149.973 @ 100.00 © M.E.P.CAD, Inc.1/30/2013Page 1AutoSPRINK® VR10 v10.0.52.0 1:06:30PM Hydraulic Graph Report Description: 2nd Unit Job Number: CH0162 System Demand (Including Hose Allowance at Source) System Demand 145.000 @ 1353.00 Residual: Pressure 150.000 Static: Pressure Water Supply at Node 21 Hydraulic Graph Water Supply at Node 21 132.223 @ 79.66 132.223 @ 179.66 Available Pressure at Time of Test 149.912 @ 179.66 © M.E.P.CAD, Inc.1/30/2013Page 2AutoSPRINK® VR10 v10.0.52.0 1:06:30PM Hydraulic Summary Report Description: MAIN UNIT Job Number: CH0162 Node Flow(gpm) Total Hose Streams 200.00 Safety MarginRequiredAvailable Node Hose FlowStaticResidualFlowTotal Demand (gpm)(psi)(psi)(gpm)(psi)(gpm)(psi)(psi)@@Name 1 149.913107.80142.1111353.00100.00145.000150.000 178.82Water Supply 21 149.973107.86142.1111353.00100.00145.000150.000 100.00Water Supply Design EngineerJob Number Total Water Required (Including Hose Allowance) 278.82 Maximum Pressure Unbalance In Loops 0.000 Additional Hose Supplies 200.00 Hose Allowance At Source Supplies 142.58gal Residential 0.100gpm/ft² 324.00ft² 900.00ft² (Actual 107.59ft²) 4 Occupancy Area of Application Coverage Per SprinklerNumber Of Sprinklers Calculated Density Job Suffix AutoPeak Results: Pressure For Remote Area(s) Adjacent To Most Remote Area Volume capacity of Dry PipesVolume capacity of Wet Pipes 11.78 between nodes 1 and 2 Maximum Velocity Under Ground 13.29 between nodes 13 and 102 Maximum Velocity Above Ground 4.3 K-Factor 19.60 at 20.777 Most Demanding Sprinkler Data System Job Site/Building VAIL, CO 81657 AHJ 232 W. MEADOWS DRIVE Job State Certification/License NumberJob Name: Hudson DeWeeseCH0162 Contractor Contractor Number 21 Name of Contractor: Western States Fire Protection Address 1 7026 S. Tucson Way. Address 2 Centennial, CO Contact Name Contact Title ExtensionPhone FAX E-mail Web-SiteAddress 3 Address 1 Address 2 Drawing Name FP LAYOUT System Flow Demand 78.82 Remote Area(s) Darcy-Weisbach Calculation Darcy-Weisbach equations are being used because the system requires special design considerations. The Darcy-Weisbach formula used in this hydraulic calculation to determine fluid/agent friction loss is: P = 0.000216 fLp(Q^2)/(d^5) Friction Loss factors are derived from the Moody Diagram. Reynolds Number is calculated using: Re=Q/d/k Relative Roughness of Pipe is: e/D K-Factors for Sprinkler Heads are adjusted based on the density of the fluid being discharged (Bernoulli-based formula). C-Factors are not relevant to this type of calculation. These are replaced with the Roughness e-value for the pipe. Description: Water/Antifreeze @ -20°F/-29°C, 60% Glycerine (C.P. or U.S.P. 96.5%) by weight Product Name: Antifreeze solution in pipes within or passing through: Cold Areas: Warm Areas: Density: 73.665lb/ft³ Density: 72.029lb/ft³ Viscosity: 170.000cP Viscosity: 10.800cP NFPA Suggested Aged Pipe Roughness is being applied. Volume capacity of Antifreeze/Other Pipes 0.00gal Address 3 2/5/2013© M.E.P.CAD, Inc.Page 1AutoSPRINK® VR10 v10.0.52.0 8:25:35AMDarcy-Weisbach Calculation Device (gpm) Actual FlowMinimum Flow (gpm)(K) K-Factor (psi) Pressure Summary Of Outflowing Devices Report Description: MAIN UNIT Job Number: CH0162 Sprinkler10119.7919.604.321.189 Sprinkler10219.8019.604.321.194 Sprinkler10319.6019.604.320.777 Sprinkler10419.6319.604.320.850 Most Demanding Sprinkler Data © M.E.P.CAD, Inc.2/5/2013Page 1AutoSPRINK® VR10 v10.0.52.0 8:26:11AM Pipe TypeDiameterFlowVelocityFriction LossLengthPressure DownstreamElevationDischargeK-FactorPtPnFittingsEq. LengthSummary Upstream Total Length HWC/Roughness Hydraulic Analysis Job Number: CH0162 Report Description: MAIN UNIT • • • • • Route 1 • • • • • Pf Pe Pv BL1.101019.606.60 0.068712 5'-00.412 10320'-019.60 4.3 (adj)20.777 Sprinkler 1'-0 10120'-0 21.189 Tr(1'-0)6'-0 0.000333" Pf Pe Pv BL1.101039.3913.28 0.247799 4'-02.232 10120'-019.79 4.3 (adj)21.189 Sprinkler 5'-0 1420'-0 23.421 T(5'-0)9'-0 0.000333" Pf Pe Pv CM1.394035.857.54 0.062421 110'-3¼11.819 1420'-0 23.421 73'-0 1120'-0 35.240 3T(6'-0), 15Tr(1'-0), 5E(8'-0)183'-3¼ 0.000333" Pf Pe Pv FR1.394035.857.54 0.065371 10'-02.223 1120'-0 35.240 24'-04.335 810'-0 41.798 3E(8'-0)34'-0 0.000333" Pf Pe Pv CM1.394035.857.54 0.062421 2'-6¾0.534 810'-0 41.798 6'-0 710'-0 42.332 T(6'-0)8'-6¾ 0.000333" Pf Pe Pv CM1.394040.758.57 0.080664 19'-8¼2.555 710'-04.9042.332 Flow (q) from Route 4 12'-0 610'-0 44.888 4Tr(1'-0), EE(2'-0), T(6'-0)31'-8¼ 0.000333" Pf Pe Pv FR1.394040.758.57 0.082686 10'-02.646 610'-0 44.888 22'-04.335 40'-0 51.869 2E(8'-0), T(6'-0)32'-0 0.000333" Pf Pe Pv CM1.394040.758.57 0.080664 1'-20.578 40'-0 51.869 6'-0 30'-0 52.447 T(6'-0)7'-2 0.000333" Pf Pe Pv FR2.009078.827.98 0.044842 15'-8¼23.936 30'-0 52.447 11'-04.877 2-11'-3 81.260 3Tr(1'-0), sCV, 2E(3'-6), BFP(-15.000), PRV(-7.723), cplg(1'-0) 26'-8¼ 0.000333" Pf Pe Pv UG1.653078.8211.78 0.124014 232'-030.010 2-11'-3 81.260 10'-0-3.468 1-3'-3 107.801 2E(5'-0), S 242'-0 0.000333" 278.82 200.00 Hose Allowance At Source 1 • • • • • Route 2 • • • • • Pf Pe Pv BL1.101019.636.62 0.068933 5'-00.344 10420'-019.63 4.3 (adj)20.850 Sprinkler 10220'-0 21.194 5'-0 0.000333" Pf Pe Pv BL1.101039.4313.29 0.248234 4'-02.236 10220'-019.80 4.3 (adj)21.194 Sprinkler 5'-0 1320'-0 23.431 PO(5'-0)9'-0 0.000333" Pf Pe Pv CM1.394042.989.03 0.091197 3'-2¼1.568 1320'-0 23.431 14'-0 1220'-0 24.999 T(6'-0), E(8'-0)17'-2¼ 0.000333" Pf Pe Pv FR1.394042.989.03 0.091197 10'-03.101 1220'-0 24.999 24'-04.335 1010'-0 32.435 3E(8'-0)34'-0 0.000333" Pf Pe Pv CM1.394042.989.03 0.089735 66'-10¾9.782 1010'-0 32.435 41'-0 910'-0 42.217 7Tr(1'-0), 4T(6'-0), E(8'-0), EE(2'-0)107'-10¾ 0.000333" Pf Pe Pv FR1.394038.088.00 0.073015 10'-02.482 910'-0 42.217 24'-04.335 50'-0 49.035 3E(8'-0)34'-0 0.000333" Pf Pe Pv CM1.394038.088.00 0.070435 32'-5¼3.412 50'-0 49.035 16'-0 30'-0 52.447 2T(6'-0), 4Tr(1'-0)48'-5¼ 0.000333" • • • • • Route 3 • • • • • Pf Pe Pv CM1.39403.550.75 0.001074 6'-00.010 1420'-0 23.421 3'-0 1320'-0 23.431 3Tr(1'-0)9'-0 0.000333" • • • • • Route 4 • • • • • Pf Pe Pv CM1.39404.901.03 0.001880 42'-30.115 910'-0 42.217 T(6'-0)29'-0 710'-0 42.332 7Tr(1'-0), EE(2'-0), E(8'-0), T(6'-0)71'-3 0.000333" K-Factor conversion formula: © M.E.P.CAD, Inc.2/5/2013Page 1AutoSPRINK® VR10 v10.0.52.0 8:26:29AM Pipe TypeDiameterFlowVelocityFriction LossLengthPressure DownstreamElevationDischargeK-FactorPtPnFittingsEq. LengthSummary Upstream Total Length HWC/Roughness Hydraulic Analysis Job Number: CH0162 Report Description: MAIN UNIT 1.51 Pipe Type Legend AOArm-Over BLBranch Line CMCross Main DNDrain DRDrop DYDynamic FMFeed Main FRFeed Riser MSMiscellaneous OROutrigger RNRiser Nipple SPSprig STStand Pipe UGUnderground Units Legend DiameterInch ElevationFoot Flowgpm Dischargegpm Velocityfps Pressurepsi LengthFoot Friction Losspsi/Foot HWCHazen-Williams Constant PtTotal pressure at a point in a pipe PnNormal pressure at a point in a pipe PfPressure loss due to friction between points PePressure due to elevation difference between indicated points PvVelocity pressure at a point in a pipe Fittings Legend ALVAlarm Valve AngVAngle Valve bBushing BalVBall Valve BFPBackflow Preventer BVButterfly Valve CCross Flow Turn 90° cplgCoupling CrCross Run CVCheck Valve DelVDeluge Valve DPVDry Pipe Valve E90° Elbow EE45° Elbow Ee111¼° Elbow Ee222½° Elbow fFlow Device fdFlex Drop FDCFire Department Connection fE90° FireLock(TM) Elbow fEE45° FireLock(TM) Elbow flgFlange FNFloating Node fTFireLock(TM) Tee gGauge GloVGlobe Valve GVGate Valve HoHose HoseHose HVHose Valve HydHydrant LtELong Turn Elbow mecTMechanical Tee NozNozzle P1Pump In P2Pump Out PIVPost Indicating Valve POPipe Outlet PRVPressure Reducing Valve PrVPressure Relief Valve redReducer/Adapter SSupply sCVSwing Check Valve SprSprinkler StStrainer TTee Flow Turn 90° TrTee Run UUnion WirFWirsbo WMVWater Meter Valve ZCap 4.87 )(150 1.33 140 1.16 130 0.713 100 Equivalent Pipe Lengths of Valves and Fittings (C=120 only) Actual Inside Diameter Schedule 40 Steel Pipe Inside Diameter = Factor C Value Multiplier Value Of C Multiplying Factor © M.E.P.CAD, Inc.2/5/2013Page 2AutoSPRINK® VR10 v10.0.52.0 8:26:29AM Hydraulic Graph Report Description: MAIN UNIT Job Number: CH0162 System Demand (Including Hose Allowance at Source) System Demand 145.000 @ 1353.00 Residual: Pressure 150.000 Static: Pressure Water Supply at Node 1 Hydraulic Graph Water Supply at Node 1 107.801 @ 78.82 107.801 @ 178.82 Available Pressure at Time of Test 149.913 @ 178.82 © M.E.P.CAD, Inc.2/5/2013Page 1AutoSPRINK® VR10 v10.0.52.0 8:25:56AM Hydraulic Graph Report Description: MAIN UNIT Job Number: CH0162 System Demand (Including Hose Allowance at Source) System Demand 145.000 @ 1353.00 Residual: Pressure 150.000 Static: Pressure Water Supply at Node 21 Hydraulic Graph Water Supply at Node 21 107.861 @ 0.00 107.861 @ 100.00 Available Pressure at Time of Test 149.973 @ 100.00 © M.E.P.CAD, Inc.2/5/2013Page 2AutoSPRINK® VR10 v10.0.52.0 8:25:56AM The Reliable Automatic Sprinkler Co., Inc., 103 Fairview Park Drive, Elmsford, New York 10523 Bu l l e t i n 0 0 6 Re v . F Bulletin 006 Rev. F Model RFC30 (SIN RA0611) Model RFC43 (SIN RA0612) Model RFC49 (SIN RA0616) Residential Flat Concealed Sprinklers A Residential Flat Concealed Sprinkler engineered for a minimum design density of 0.05 gpm/ft2 with low GPM requirements. Features Very low water flow requirements. ½” (13mm) Total adjustment. Thread-On/Thread-Off or Push-On/Thread Off cover attachment option. Smooth aesthetic ceiling profile. Available in brass, chrome and black plated or painted finishes. Listings & Approval Listed by Underwriters Laboratories, and certified by UL for Canada (cULus) NYC MEA 258-93-E UL Listing Categories Residential Automatic Sprinklers UL Guide Number VKKW Product Description Model RFC30, RFC43 and RFC49 Concealed Residen- tial Sprinklers are fast response residential fusible solder link automatic sprinklers. Residential sprinklers differ from standard sprinklers primarily in their response time and water distribution patterns. Model RFC30, RFC43 and RFC49 sprinklers discharge water in a hemispherical pattern below the sprinkler de- flector. Residential distribution patterns are higher and generally contain a finer droplet size than standard sprin- kler patterns. The combination of speed of operation and high dis- charge pattern required for residential sprinklers has dem- onstrated, in fire testing, an ability for controlling residen- tial fires, and thereby providing significant evacuation time for occupants. The RFC30, RFC43 and RFC49 Sprinklers provide the best form of fire protection by combining an attractive ap- pearance and ½” (13mm) of cover adjustment for ease of installation. The small diameter cover plate is easily and positively attached and blends into the ceiling, concealing 1. 2. 3. 4. 5. 1. 2. the most dependable fire protection available, an automat- ic sprinkler system. The RFC30, RFC43 and RFC49 are UL Listed Residential Sprinklers to be installed in the residential portions of any occupancy in accordance with NFPA 13, 13R, & 13D. The RFC30, RFC43 and RFC49 can reduce the need for precise cutting of drop nipples. The threaded cover plate assembly can be adjusted without tools to fit accurately against the ceiling. The fire protection system need not be shut down to adjust or remove the cover plate assembly. Application and Installation The RFC30, RFC43 and RFC49, for residential installa- tions, use a 165°F (74°C) fusible solder link in a tuning fork style sprinkler frame with a drop-down deflector. This as- sembly is recessed into the ceiling and concealed by a flat cover plate. The cover plate is attached to the skirt, using 135°F (57°C) ordinary temperature classification solder. When the ceiling temperature rises, the solder holding the cover plate releases the cover allowing the deflector to drop into position and exposing the sprinkler inside to 2. ceiling temperature. The subsequent operation of the sol- der link opens the waterway and causes the deflector to drop into position to distribute the discharging water in a hemispherical pattern below the sprinkler deflector. Any adjustment of thread engagement between the cover plate and cup will assure that the drop-down deflector is properly located below the ceiling. The residential distri- bution pattern contains a finer droplet size than a standard sprinkler, and the pattern produces significantly higher wall wetting. After a 25/8 inch diameter hole is cut in the ceiling, the sprinkler is to be installed with the Model FC Wrench. When installing a sprinkler, the wrench is first positioned into the sprinkler/cup assembly and around the hexagonal body of the sprinkler frame. The Wrench must bottom out against the cup in order to ensure proper, safe installation. The sprinkler is then tightened into the pipe fitting. When inserting or removing the wrench from the sprinkler/cup assembly, care should be taken to prevent damage to the sprinkler. DO NOT WRENCH ON ANY OTHER PART OF THE SPRINKLER/CUP ASSEMBLY. MODEL RFC30, RFC43 AND RFC49 CONCEALED SPRINKLERS MUST BE INSTALLED ONLY WITH 135°F RATED COVERS. Note: A leak tight ½” NPT (R1/2) sprinkler joint can be ob- tained with a torque of 8-18 ft-lbs (10,8 - 24,4 N-m). Do not tighten sprinklers over maximum recommended torque. It may cause leakage or impairment of the sprinklers. Cover assemblies provide up to 1/2” (13mm) of adjust- ment. Turn the cover clockwise until the flange is in con- tact with the ceiling. For the push-on/thread-off option, the cover assembly is pushed onto the cup and final adjust- ment is made by turning the cover clockwise until the skirt flange makes full contact with the ceiling. Cover removal requires turning in the counter-clockwise direction. In ceilings that have a plenum space above the sprinkler, the plenum space may have neutral or negative pressur- ization but must not be positively pressurized. Inspect all sprinklers after installation to ensure that the gap between the cover plate and ceiling and the 4 slots in the cup are all open and free from any air flow impediment. Temperature Rating SprinklerCover PlateMax. Ambient Temp. 165°F/74°C135°F/57°C100°F/38°C Installation Data: RFC30 (SIN RA0611) Thread Size inch (mm) K Factor Sprinkler Spacing ft. (m) Maximum Distance to Wall ft. (m) Minimum Distance between sprinklers ft. (m) Minimum Required Sprinkler Discharge Flow gpm (Lpm) Press. psi (bar) ½” (15mm) ½” (15mm) 3.0 3.0 12 x 12 (3.6x3.6) 14 x 14 (4.3x4.3) 6 (1.83) 7 (2.13) 8 (2.43) 8 (2.43) 9 (34.1) 10 (37.8) 9.0 (0.62) 11 (0.76) Note: 1 bar = 100 Kpa Installation Data: RFC43 (SIN RA0612) Thread Size inch (mm) K Factor Sprinkler Spacing ft. (m) Maximum Distance to Wall ft. (m) Minimum Distance between sprinklers ft. (m) Minimum Required Sprinkler Discharge Flow gpm (Lpm) Press. psi (bar) ½” (15mm) ½” (15mm) ½” (15mm) ½” (15mm) ½” (15mm) 4.3 4.3 4.3 4.3 4.3 12 x 12 (3.6x3.6) 14 x 14 (4.3x4.3) 16 x 16 (4.9x4.9) 18 x 18 (5.5x5.5) 20 x 20 (6.0x6.0) 6 (1.83) 7 (2.13) 8 (2.43) 9 (2.74) 10 (3.05) 8 (2.43) 8 (2.43) 8 (2.43) 8 (2.43) 8 (2.43) 12 (45) 13 (49) 13 (49) 18 (68) 21 (79) 7.8 (0.54) 9.1 (0.63) 9.1 (0.63) 17.5 (1.21) 23.8 (1.64) Note: 1 bar = 100 Kpa Installation Data: RFC49 (RA0616) Thread Size inch (mm) K Factor Sprinkler Spacing ft. (m) Maximum Distance to Wall ft. (m) Minimum Distance between sprinklers ft. (m) Minimum Required Sprinkler Discharge Flow gpm (Lpm) Press. psi (bar) ½” (15mm) ½” (15mm) ½” (15mm) ½” (15mm)½” (15mm) 4.9 4.9 4.9 4.94.9 12 x 12 (3.6x3.6) 14 x 14 (4.3x4.3) 16 x 16 (4.9x4.9) 18 x 18 (5.5x5.5)20 x 20 (6.0x6.0) 6 (1.83) 7 (2.13) 8 (2.43) 9 (2.74)10 (3.05) 8 (2.43) 8 (2.43) 8 (2.43) 8 (2.43)8 (2.43) 13 (49) 13 (49) 13 (49) 17 (64.3)20 (75.7) 7.0 (0.48) 7.0 (0.48) 7.0 (0.48) 12.0 (0.83)16.7 (1.14) Note: 1 bar = 100 Kpa FOR SLOPED CEILING APPLICATIONS SEE RASCO BULLETIN 035. 3. Maintenance Model RFC30, RFC43 and RFC49 Concealed Sprinklers should be inspected quarterly and the sprinkler system maintained in accordance with NFPA 25. Do not clean sprinklers with soap and water, ammonia or any other cleaning fluids. Remove dust by using a soft brush or gen- tle vacuuming. Remove any sprinkler cover plate assem- bly which has been painted (other than factory applied) or damaged in any way. A stock of spare sprinklers should be maintained to allow quick replacement of damaged or operated sprinklers. Prior to installation, sprinklers should be maintained in the original cartons and packaging until used to minimize the potential for damage to sprinklers that would cause improper operation or non-operation. Model RFC30, RFC43 and RFC49 Residential Concealed Sprinkler Specifi cation Sprinklers shall be cULus Listed low flow residential con- cealed sprinklers with drop-down deflector and adjust- able flat cover plate engineered for a minimum design density of 0.05 gpm/ft2. Sprinkler frame and deflector shall be of bronze frame construction having a ½” NPT thread. Thermal element shall consist of an approved black-painted beryllium-nickel fusible solder link with symmetric lever mechanism, maintaining a Teflon-coated Belleville spring washer and machined brass cap water seal assembly containing no plastic parts. Sprinkler K-factor shall be nominal 3.0 (44), 4.3 (62.4), and 4.91 (70) having a 5/16”, 3/8” and 7/16” orifice. Temperature rating shall be Ordinary 165°F (74°C); cover plate temperature rating to be 135°F (57°C). Cover plate assembly shall consist of a brass cover plate and copper alloy retainer flange allowing a ½” cover plate adjustment. Any secure engagement between the cover plate and the cup will assure that the drop-down deflector is properly located below the ceiling. A plastic protective cap shall be provided and factory installed inside the sprinkler cup to protect the drop-down sprinkler deflector from dam- age, which could occur during construction before the cover plate is installed. Standard cover finish: [Chrome] [White] [Specialty – specify]. Residential concealed sprinklers shall be Reliable Model RFC30, SIN RA0611 (Bulletin 006), Model RFC43, SIN RA0612 (Bulletin 006) or Model RFC49, SIN RA0616 (Bulletin 006). Ordering Information Specify: Sprinkler Model Cover Plate Finish Thread-On or Push-On Feature 1. 2. 3. Cover Plate Finishes (1) Standard Finishes Chrome White Special Application Finishes Bright Brass Black Plating Black Paint Off WhiteSatin Chrome (1) Other colors and finishes avail- able. Consult factory for details. Note: Paint or any other coatings applied over the factory finish will void all approvals and warran-ties. The Reliable Automatic Sprinkler Co., Inc., 103 Fairview Park Drive, Elmsford, New York 10523 Bu l l e t i n 0 3 5 Re v . I Bulletin 035 Rev. I Guidelines for Listed Residential Sprinkler installations below Sloped Ceilings Residential Sprinkler For Sloped Ceilings The installation guidelines cover Residential Sprinkler Models: F1 Res 49 Pendent F1 Res 49 Recessed Pendent/F2 F1 Res 58 Pendent F1 Res 58 Recessed Pendent/F2 F1 Res 44 HSW F1 Res 44 Recessed HSW/F2 F1 Res 49 CCP F1 Res 58 CCP RFC 43 Flat Concealed RFC 49 Flat Concealed Listings & Approvals Listed by Underwriters Laboratories Inc. and UL Certified for Canada (cULus) NYC MEA 258-93-E UL Listing Category Residential Automatic Sprinkler UL Guide Number VKKW 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- klers combining excellent durability, high sensitivity glass- 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- 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, evenly distributing the discharged water to control a fire. 1. 2. * Effective date July 12, 2002 F1 Res 49 & 58 Pendent F1 Res 49 & 58 Recessed Pendent / F2 F1 Res 44 Recessed HSW/F2 F1 Res 44 HSW F1 Res 49 & 58 CCP Pendent RFC 43 & RFC 49 RFC 43 & RFC 49 2. Product Description for RFC 43 & RFC 49 Model RFC43 & RFC49 Concealed Residential Sprin- klers are fast response residential fusible solder link au- tomatic sprinklers. Residential sprinklers differ from stan- dard sprinklers primarily in their response time and water distribution patterns. Model RFC43 & RFC49 sprinklers discharge water in a hemispherical pattern below the sprinkler deflector. Resi- dential distribution patterns are higher and generally con- tain a finer droplet size than standard sprinkler patterns. The combination of speed of operation and high dis- charge pattern required for residential sprinklers has dem- onstrated, in fire testing, an ability for controlling residen- tial fires, and thereby providing significant evacuation time for occupants. The RFC43 & RFC49 Sprinkler provides the best form of fire protection by combining an attractive appearance and ½” (13mm) of cover adjustment for ease of installa- tion. The small diameter cover plate is easily and posi- tively attached and blends into the ceiling, concealing the most dependable fire protection available, an automatic sprinkler system. The RFC43 & RFC49 are UL Listed Residential Sprinkler to be installed in the residential portions of any occupancy in accordance with NFPA 13, 13R, & 13D. The RFC43 & RFC49 can reduce the need for precise cutting of drop nipples. The threaded cover plate assem- bly can be adjusted without tools to fit accurately against the ceiling. The fire protection system need not be shut down to adjust or remove the cover plate assembly. Technical Data (F1 Res Sprinklers): Thermal Sensor : Nominal 3mm glass-bulb Sprinkler Frame : Brass Casting Sprinkler Pressure Rating : 175 psi Factory Hydrostatically Tested to 500 psi Thread Size : ½” NPT (R½) K Factor : 4.9 (Actual) - F1 Res 49 Pendent Sprinkler 4.4 (Actual) - F1 Res 44 HSW Sprinkler 5.8 (Actual) - F1 Res 58 Pendent Sprinkler Density : Minimum .05 gpm/ft2 Technical Data (RFC 43 & RFC 49): Thermal Sensor : 165°F Fusible Link Sprinkler Frame : Brass Machined Sprinkler Pressure Rating : 175 psi Factory Hydrostatically Tested to 500 psi Thread Size : ½” NPT (R½) K Factor : 4.3 (Actual) RFC43; 4.9 (Actual) RFC49 Density : Minimum .05 gpm/ft2 Application Model F1 Res and RFC 43 & RFC 49 Sprinklers are used for Residential Fire Protection according to UL 1626 Stan- dard*. Be sure that orifice size, temperature rating, deflec- tor style, cover plate and sprinkler type are in accordance with the latest published standards of The National Fire Protection Association or the approving Authority Having Jurisdiction. • • • • • • • • • • • • * Effective date July 12, 2002 3. 5. Model F1Res 58 CCP Pendent Installed below sloped Ceiling. Technical Data Thread Size Sprinkler Temp. Rating °F (°C) CCP Assy. Temp. Rating °F (°C) Max. Pressure psi (bar) Max. Ambient Temp. °F (°C) Actual K Factor (metric) Sprinkler Length Sprinkler Identifi cation Number (SIN) ½” NPT (R½)155 (68)135 (57)175 (12)100 (38)5.8 (83,38)2.25” (57mm)R3513 Table 4 - Application Max. Sprinkler Spacing Along Slope (W) Width x ( L) Length ft (m) Max. Slope of 4/12 (18.4°) Pitch Min. Flow Per Sprinkler Head gpm (Lpm) Pressure psi (bar) 18 x 18 (5,5 x 5,5)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 Thread Size Sprinkler Temp. Rating °F (°C) Coverplate Temp. Rating °F (°C) Max. Pressure psi (bar) Max. Ambient Temp. °F (°C) Actual K Factor (metric) Max. Adjustment Sprinkler Identifi cation Number (SIN) ½” NPT (R½)165 (74)135 (57)175 (12)100 (38)4.3 (61,4)½” (13mm)RA0612 Table 5 - Application Max. Sprinkler Spacing Along Slope (W) Width x ( L) Length ft (m) Max. Slope of 8/12 (33.7°) PitchMax. Slope of 4/12 (18.4°) Pitch Min. Flow Per Sprinkler Head gpm (Lpm) Pressure psi (bar) Min. Flow Per Sprinkler Head gpm (Lpm) Pressure psi (bar) 12 x 12 (3,6 x 3,6)18 (68)17.5 (1,21)13 (49)9.1 (0,63)14 x 14 (4,3 x 4,3)18 (68)17.5 (1,21)13 (49)9.1 (0,63) 16 x 16 (4,9 x 4,9)18 (68)17.5 (1,21)13 (49)9.1 (0,63) 18 x 18 (5,5 x 5,5)24 (91)31 (2,14)18 (68)17.5 (1,21) 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 Thread Size Sprinkler Temp. Rating °F (°C) Coverplate Temp. Rating °F (°C) Max. Pressure psi (bar) Max. Ambient Temp. °F (°C) Actual K Factor (metric) Max. Adjustment Sprinkler Identifi cation Number (SIN) ½” NPT (R½)165 (74)135 (57)175 (12)100 (38)4.9 (69,94)½” (13mm)RA0616 Table 6 - Application Max. Sprinkler Spacing Along Slope (W) Width x ( L) Length ft (m) Max. Slope of 8/12 (33.7°) Pitch Max. Slope of 4/12 (18.4°) Pitch Min. Flow Per Sprinkler Head gpm (Lpm) Pressure psi (bar) Min. Flow Per Sprinkler Head gpm (Lpm) Pressure psi (bar) 16 x 16 (4,9 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 For systems designed in accordance with NFPA 13, 13D and 13R, where specific UL Listed flows are not required, consult with the local Authority Having Jurisdiction regarding the number of design sprin- klers for sloped ceilings having a pitch greater than (9.4°). Installation of UL Listed residential sprinklers under sloped ceilings shall be limited to a type of unob- structed construction consisting of smooth ceilings, as defined by NFPA 13, having a maximum pitch of 4/12 (18.4°) or 8/12 (33.7°). Spacing of residential sprinklers under sloped ceil- ings is measured along the slope when determining the distance off of walls and between sprinklers. Measure listed areas of coverage along the sloped ceiling. The actual floor coverage area will be less than the listed area. 1. 2. 3. 4. For coverage areas less than the listed coverage area shown in Tables 1 through 5, use the minimum flow requirement for the next largest listed coverage area. Minimum spacing between pendent type sprinklers is 8 ft. (2.4 m). Minimum distance from a pendent type sprinkler and an adjacent wall is 4” (102 mm). Residential sprinklers located closest to the peak of the ceiling shall have the deflectors located not more than 3 ft (1m) vertically down from the peak. Align deflectors parallel with the ceiling slope 1” to 4” (25mm to 102mm) below the sloped ceiling. Hydraulic Requirements: For NFPA 13D Systems, the number of design sprinklers shall include all sprinklers within a compartment, up to a maximum of two sprinklers (where specific UL Listed flows are required) that requires the greatest hydraulic demand. 5. 6. 7. 8. a. 8. Sprinkler spacing below multiple sloped ceilings with a maximum slope of 8/12 (33.7°) pitch. 6. 9. Model F1Res 44 and F1 Res 44 HSW/F2 installed below Sloped Ceiling. F1 Res 44 HSW F1 Res 44 Recessed HSW/F2 Horizontal Sidewall Sprinkler (with discharge directed down the slope)Horizontal Sidewall Sprinkler (with discharge directed across the slope) For NFPA 13R Systems, the number of design sprinklers shall include all sprinklers within a com- partment, up to a maximum of four (4) sprinklers (where specific UL Listed flows are required), that requires the greatest hydraulic demand. For NFPA 13 systems, the design area shall be the area that includes the four (4) hydraulically most demanding sprinklers. The minimum re- quired discharge from each of the four hydrauli- cally demanding sprinklers shall be the greater of the following: (1) In accordance with the minimum flow rates indicated by the individual listings (that al- ready will provide a minimum density of 0.1 gpm/ft2); or (2) A calculated value based on delivering a min- imum of 0.1 gpm/ft2 over the design area. b. c. Because of the varied nature of residential construc- tion features, there will be some compartment designs which cannot be fully sprinklered in accordance with NFPA 13, 13D, or 13R. In these instances, consult the Authority Having Jurisdiction (AHJ) for guidance and approval. This includes sloped ceilings having a pitch greater than 8/12 (33.7°). Glass bulb sprinklers have orange bulb protectors to minimize bulb damage during shipping, handling and installation. REMOVE THIS PROTECTION AT THE TIME THE SPRINKLER SYSTEM IS PLACE IN SERVICE FOR FIRE PROTECTION. Removal of the protectors before this time may leave the bulb vulner- able to damage. RASCO wrenches are designed to install sprinklers when covers are in place. REMOVE PROTECTORS BY UNDOING THE CLASP BY HAND. DO NOT USE TOOLS TO REMOVE THE PROTEC- TORS. 9. 10. TheReliableAutomaticSprinklerCo.,Inc.,103FairviewParkDrive,Elmsford,NewYork10523 Bulletin176 Rev.A Bu l l e t i n 1 7 6 Re v . A ModelF1ResSprinklersengineeredforthelowestflows tomeettheminimumdesigndensityof.05gpm/ft2 Types: 1.F1Res49Pendent 2.F1Res49RecessedPendent/F1 3.F1Res49RecessedPendent/FP 4.F1Res49CCPPendent 5.F1Res58Pendent 6.F1Res58RecessedPendent/F1 7.F1Res58RecessedPendent/FP 8.F1Res58CCPPendent 9.F1Res44&58HSW 10.F1Res44&58HSWRecessedHSW/F2 11.F1Res44SWC 12.F1Res76Pendent 13.F1Res76RecessedPendent/F1 14.F1Res76RecessedPendent/FP 15.F1Res76CCPPendent Listings&Approvals 1.ListedbyUnderwritersLaboratoriesInc.and ULCertifiedforCanada(cULus) 2.NYCMEA258-93-E ProductDescription ModelF1ResPendentsprinklers(Figs.1,2,3&4) combineexcellentdurability,highsensitivityglass-bulb andlowprofiledecorativedesign. The3mmglass-bulbpendentsprinklerspermitthe efficientuseofresidentialwatersuppliesforsprinkler coverageinresidentialfireprotectiondesign. ThelowflowF1Ressprinklersarespecially engineeredforfastthermalresponsetomeetthe sensitivefireprotectionapplicationneedsofthelatest residentialmarketstandards(UL1626Standard * Uponfireconditions,risingheatcausesasprinkler’s heat-sensitiveglass-bulbtoshatter,releasingthe waterwayforwaterflowontothedeflector,evenly distributingthedischargedwatertocontrolafire. F1Res49,58&76 RecessedPendent/F1 F1Res49,58&76 RecessedPendent/FP F1Res49,58&76 CCPPendent ULListingCategory ResidentialAutomaticSprinkler ULGuideNumber VKKW Patents USPatentNo.6,516,893appliestothe ModelF1Res49&58PendentSprinklers TechnicalData: •ThermalSensor:Nominal3mmglass-bulb •SprinklerFrame:BrassCasting •Sprinklers’PressureRating:175psi FactoryHydrostaticallyTestedto500psi •ThreadSize:½”NPT(R1/2) •K-Factor:4.9(Actual)-F1Res49PendentSprinkler 5.8(Actual)-F1Res58Pendent&HSWSprinkler 7.6(Actual)-F1Res76PendentSprinkler 4.4(Actual)-F1Res44HSWSprinkler •Density:Minimum0.10gpm/ft2 F1Res44&58 RecessedHSW/F2 ModelF1 ResidentialSprinklersfor DesignDensityof.10gpm/ft2 F1Res44SWC *Effectivedate7/12/02 Application ModelF1ResSprinklersareusedforResidentialFire ProtectionaccordingtoUL1626Standard*.Besure thatorificesize,temperaturerating,deflectorstyleand sprinklertypeareinaccordancewiththelatest publishedstandardsofTheNationalFireProtection Associationortheapprovingauthorityhaving jurisdiction. WhenusingF1ResidentialSprinklersforsystems designtoNFPA13DorNFPA13R,uselistedareaof coverageandminimumflowandpressurerequirements showninBulletin135. ForsystemsdesignedtoNFPA13,useinformationin thisbulletin.Thenumberofdesignsprinklersshallbethe mosthydraulicallydemandingsprinklersasrequiredby NFPA13.Flowsandpressurescannotbebelowthe baselineflowsandpressurers. NFPA13 ForresidentialsprinklersystemsdesignedtoNFPA13, aminimumdensityof0.1gpm/ft2mustbeprovidedover the“designarea”thatincludesthefour(4)hydraulically mostdemandingsprinklersfortheactualcoverage areasbeingprotectedbythe4sprinklers.Theminimum requireddischargefromeachofthefourmost hydraulicallydemandingsprinklersshallbethe greater ofthefollowing: 1.TheflowratesgivenintheReliableResidential SprinklerTechnicalBulletinsreferencedinTableA forNFPA13Dand13Rasafunctionoftemperature ratingandmaximumallowablecoveragearea(for actualcoverageareaslessthanorbetweenthose indicatedintherespectivetechnicalbulletin,itis requiredtousetheminimumrequiredflowforthe nextlargestcoveragearea);or 2.Aminimumdischargedensityof0.1gpm/ft2 appliedoverthe“designarea”consistingofthefour mosthydraulicallydemandingsprinklersforthe actualcoverageareasbeingprotectedbythefour sprinklers.Themaximumdimensionoftheactual coverageareacannotbeanygreaterthanthe maximumcoverageareaindicatedinthetechnical bulletinsreferencedinTableA. DesignNote:UsingtheAs =SxLmethodto determinethesprinklerprotectionareaofcoverage inaccordancewithNFPA13,applythe0.1gpm/ft2 densitytothisareatodeterminetheminimum requiredflow.Comparethisflowtotheminimum 0.05gpm/ft2 cULusListedflowfortheappropriate coverageareainthetechnicalbulletinforthe specificresidentialsprinkler.Iftheflowstatedinthe technicalbulletinislessthanthecalculated0.1 gpm/ft2 densityflowrequired,the.1densityflow mustthenbeusedintheequationQ=K P,solving forP,toestablishtheminimumrequiredpressure usingthesprinklerK-factor.Note:Inmanycases thelistedflowofindividualresidentialsprinklers mayexceedtherequiredminimum0.05gpm/ft2 density.Reliablehasavailableresidentialsprinklers withlargerK-factors(K=5.8andK=7.6)thatwill providelowerpressuredemandsfor0.1gpm/ft2 densitiesinNFPA13residentialapplications. ExampleNo.1 RoomSize=12ftx20ft(3.6mx6.1m) CoverageArea=12x20=240ft2 (22.3m2) Flow@0.10gpm/ft2 density=240x0.10=24gpm UsinganF1Res49PendentSprinkler,K=4.9 Pressure=(24/4.9)2 =24psi(1.65bar) Thebaselineflowfora20ftx20ft(6.1mx6.1m) coverageareausingthebaselinedensityof0.05 gpm/ft2 willbe20gpm@16.7psi(75.7L/min@1.14 bar).Therefore,theminimumflowrequiredis24gpm@ 24psi(90.8L/min@1.65bar). ExampleNo.2 RoomSize=8ftx20ft(2.4mx6.1m) CoverageArea=8x20=160ft2 (14.9m2) Flow@0.10gpm/ft2 density=160x0.10=16gpm UsinganF1Res49PendentSprinkler,K=4.9 Pressure=(16/4.9)2 =10.7psi(0.74bar) Thebaselineflowfora20ftx20ft(6.1mx6.1m) coverageareausingthebaselinedensityof0.05 gpm/ft2 willbe20gpm@16.7psi(75.7L/min@1.14 bar).Therefore,theminimumflowrequiredis20gpm@ 16.7psi(75.7L/min@1.14bar). ExampleNo.3 RoomSize=10ftx16ft(3.0mx4.91m) CoverageArea=10x16=160ft2 (14.9m2) Flow@0.10gpm/ft2 density=160x0.10=16gpm UsinganF1Res76PendentSprinkler,K=7.6 Thebaselineflowfora16ftx16ftcoverageareais21 gpm@7.6psi(79.5L/min@0.52bar).Therefore,the minimumflowandpressureis21gpm@7.6psi(79.5 L/min@0.52bar). ExampleNo.4 RoomSize=14ftx18ft(4.3mx5.5m) CoverageArea=14x18=252ft2 (23.6m2) Flow@0.10gpm/ft2 density=252x0.10=25.2gpm (94.6L/min) UsinganF1Res76PendentSprinkler,K=7.6 Pressure=(252/7.6)2 =11psi(0.76bar) Thebaselineflowandpressureofan18ftx18ft coverageareais21gpm@7.6psi(79.5L/min@0.52 bar).Therefore,theminimumflowandpressureis25.2 gpm@11psi(94.6L/min@0.76bar). Ingeneralresidentialsprinklersrequire flowsandpressuresaslistedfor0.05 densitiestoachievetheproperspraypattern sotheflowsandpressuresat0.05densityare thebaselineflowsandpressures.Flowsand pressuresbelowthelisted0.05densityshall notbeused. 2. ModelF1Res49,58&76Pendent ModelF1Res49,58&76 RecessedPendent/F1/F2 Fig.1 Fig.2 F1escutcheon,34 (19mm)adjustment 3. Installation ModelsF1Ressprinklersaretobeinstalledas shown.ModelF1,F2andFPEscutcheons,illustrated herewith,aretheonlyrecessedescutcheonstobeused withModelF1Ressprinklers.Useofanyother recessedescutcheonwillvoidallapprovalsand warranties.ForinstallingModelF1ResPendent sprinklersuseonlytheModelDsprinklerWrench;for installingModelsF1ResRecessedPendent,CCP sprinklersuseonlytheModelGFR2sprinklerwrench; forinstallingModelF1ResrecessedHSWsprinklers useonlytheModelGFR2Sprinklerwrench.Useof wrenchesotherthanthosespecifiedmaydamage thesesprinklers. Note:A‘leaktight”sprinklerjointcanbeobtainedwith thefollowingtorque: •¾”NPT(R3/4)–14-20ft-lbs(19-27.1N-m) •½”NPT(R1/2)–8-18ft-lbs(10.8–24.4N-m) Donottightensprinklersovermaximum recommendedtorque.Itmaycauseleakageor impairmentofthesprinklers. Note:Seeescutcheontablefordimensions. 4. Thread Size Nominal Orifice Inch (mm) Sprinkler Temp. Rating Max. Pressure psi (bar) Max. Ambient Temp. Actual K Factor Sprinkler Length Inch (mm)F C F C 12 NPT (R12)716"(11)155 175 68 79 175(12)100 150 38 66 4.92.25(57) Max.Sprinkler Spacing ft(m) Flow gpm(Lpm) Pressure psi(bar) Sprinkler Identification Number(SIN) 12x12(3.6x3.6)13(49)7.0(0.48) R3516 14x14(4.3x4.3)13(49)7.0(0.48) 16x16(4.9x4.9)13(49)7.0(0.48) 18x18(5.5x5.5)17(64.3)12.0(0.83) 20x20(6.1x6.1)20(75.7)16.7(1.14) Deflector-to-ceiling Maximum1 (25mm)to4 (100mm) Type Adjustment Inch(mm) “A” Inch(mm) Faceoffittingto ceiling Inch(mm) F1 34 (19.0)Min.=34 (19.1) Max.=112 (38.1)316 -1516 (4.7-24.0) F2 12 (12.7)Min.=1516 (23.8) Max.=112 (38.1)316 -1116 (4.7-17.4) Escutcheon*,F1orF2,Data: *Note: Max.Sprinkler Spacing ft(m) Flow gpm(Lpm) Pressure psi(bar) Sprinkler Identification Number(SIN) 12x12(3.6x3.6)15(57)9.4(0.65) R3516 14x14(4.3x4.3)16(60.5)10.6(0.73) 16x16(4.9x4.9)17(64.3)12.0(0.83) 18x18(5.5x5.5)19(72)15.0(1.0) 20x20(6.1x6.1)22(83.2)20.2(1.4) *Deflector-to-ceiling Maximum4 (100mm)to8 (203mm) *Note:TheF1Res49pendentandrecessedpendent residentialsprinklerscanbeinstalledperNFPA13in beamedceilingsmeetingthefollowingcriteria: 1.Maximumbeamdepth=7 (178mm) 2.Beamspacingatorgreaterthan7.5ft.(2.3m)oncenter. TechnicalData:F1Res49PendentandRecessedPendent Thread Size Nominal Orifice Inch (mm) Sprinkler Temp. Rating Max. Pressure psi (bar) Max. Ambient Temp.K Factor Sprinkler Length Inch (mm)F C F C ½NPT (R½)12"(13)155 175 68 79 175(12)100 150 38 66 5.82.25(57) Max.Sprinkler Spacing ft(m) Flow gpm(Lpm) Pressure psi(bar) Ceiling-to- Deflector Inch(mm) Sprinkler Identification Number(SIN) 12x12(3.6x3.6)16(61)7.6(0.53) 1-4 (25-100)R3513 14x14(4.3x4.3)16(61)7.6(0.53) 16x16(4.9x4.9)16(61)7.6(0.53) 18x18(5.5x5.5)19(72)10.8(0.75) 20x20(6.1x6.1)22(83.3)14.4(1.0) TechnicalData:F1Res58PendentandRecessedPendent **Baselineflowsandpressuresfor0.05density **Baselineflowsandpressuresfor0.05density **Calculatefora.10densitybutinnocase gobelowthebaselineflows&pressures 10. Maintenance ModelF1Res49,F1Res58&F1Res76Sprinklers shouldbeinspectedquarterly,andthesprinklersystem maintainedinaccordancewithNFPA25,13,13D,and 13R.Donotcleansprinklerwithsoapandwater,Ammonia oranyothercleaningfluids.Removedustbyusingasoft brushorgentlevacuuming.Removeanysprinklerwhich hasbeenpainted(otherthanfactoryapplied)ordamaged inanyway.Astockofsparesprinklersshouldbe maintainedtoallowquickreplacementofdamagedor operatedsprinklers.Priortoinstallation,sprinklersshould remainintheoriginalcartonsandpackaginguntilused. Thiswillminimizethepotentialfordamagetosprinklersthat couldcauseimproperoperationornon-operation. ModelF1RES49Residential SprinklerSpecifications ModelF1Res49&58Pendent Sprinklersshallbe[cULusListed][NewYorkCityMEA Approved(258-93-E)]lowflowresidentialpendent sprinklersengineeredtoprovideaminimumdesign densityof0.10gpm/ft2 overthelistedcoveragearea. Listedflowsasspecifiedbythemanufacturer’stechnical datasheetsaretobeused.Residentialsprinklersshallbe installedinconformancewiththemanufacturer’s installationguidelinesandtheapplicableinstallation standard.Wherependentresidentialsprinklersare installedunderslopedceilingshavingapitchofupto[4/12] [8/12],thesprinklersshallbelistedforsuchuse. Deflector-to-ceilingdistancelistingshallbe1”to8” maximum.Sprinklerframeanddeflectorshallbeofbronze frameconstructionhavinga½”NPTthread.Waterseal assemblyshallconsistofaTeflon-coatedBellevillespring washerandtop-loadedextrudedcupwith3mmglassbulb containingnoplasticparts,andhavingatemperature ratingof[155 F(68C)][175 F(79C)].Sprinklersshall haveanominalK-factorof4.9&5.8.Standardfinish: [Bronze][Chrome-plated][WhitePolyester][Specialfinish– specify].ResidentialpendentsprinklersshallbeReliable ModelF1Res49&58,SINR3516&R3513(Bulletin135). ModelF1Res49&58RecessedPendent/F1, ModelF1Res49&58RecessedPendent/F2, ModelF1Res49&58RecessedPendent/FP Sprinklersshallbe[cULusListed][NewYorkCityMEA Approved(258-93-E)]lowflowresidentialrecessed pendentsprinklersengineeredtoprovideaminimum designdensityof0.10gpm/ft2 overthelistedcoveragearea. Listedflowsasspecifiedbythemanufacturer’stechnical datasheetsaretobeused.Residentialsprinklersshallbe installedinconformancewiththemanufacturer’sinstallation guidelinesandtheapplicableinstallationstandard.Where pendentresidentialsprinklersareinstalledundersloped ceilingshavingapitchofupto[4/12][8/12],thesprinklers shallbelistedforsuchuse.Deflector-to-ceilingdistance listingshallbe1”to8”maximum.Sprinklerframeand deflectorshallbeofbronzeframeconstructionhavinga½” NPTthread.Watersealassemblyshallconsistofa Teflon-coatedBellevillespringwasherandtop-loaded extrudedcupwith3mmglassbulbcontainingnoplastic parts,andhavingatemperatureratingof[155 F(68C)] [175 F(79C)].SprinklersshallhaveanominalK-factorof 4.9(70).Standardfinish:[Bronze][Chrome-plated][White Polyester][Specialfinish–specify].Recessedescutcheon assemblyshallbeasteel,two-pieceescutcheon[with½” adjustment(ModelF2)][with¾”adjustment(ModelF1)][of push-onandthreadoffdesignwith½”adjustment(Model FP)].Standardfinishshallbe[brass][brightchrome][white painted].Residentialrecessedpendentsprinklersshallbe Reliable[ModelF1Res49&58RecessedPendent/F1] [ModelF1Res49&58RecessedPendent/F2][ModelF1 Res49&58RecessedPendent/FP]SINR3516&R3513 (Bulletin135). ModelF1Res49&58CCPPendent(Concealed) Sprinklersshallbe[cULusListed][NewYorkCityMEA Approved(258-93-E)]lowflowresidentialconcealed sprinklersengineeredtoprovideaminimumdesign densityof0.10gpm/ft2 overthelistedcoveragearea. Listedflowsasspecifiedbythemanufacturer’stechnical datasheetsaretobeused.Residentialsprinklersshall beinstalledinconformancewiththemanufacturer’s installationguidelinesandtheapplicableinstallation standard.Wherependentresidentialsprinklersare installedunderslopedceilingshavingapitchofupto [4/12][8/12],thesprinklers shallbelistedforsuchuse. Sprinklerframeanddeflectorshallbeofbronzeframe constructionhavinga½”NPTthread.Waterseal assemblyshallconsistofaTeflon-coatedBelleville springwasherandtop-loadedextrudedcupwith3mm glassbulbcontainingnoplasticparts,andhavinga temperatureratingof155 F(68C).Coverplate assemblyshallconsistofabrasscoverplateandcopper alloyretainerflange.Methodofattachingthecoverplate tothesprinklercupshallbeapush-onandthread-off designallowinga½”coverplateadjustment.Cover platetemperatureratingshallbe135 F(57 C).Aplastic protectivecapshallbeprovidedandfactoryinstalled insidethesprinklercuptoprotectthesprinklerfrom damage,whichcouldoccurduringconstructionbefore thecoverplateisinstalled.Standardcoverplatefinish: [White][CustomColor–specify].].Concealedpendent sprinklersshallbeReliableModelF1Res49&58CCP, SINR3516&R3513(Bulletin135). 11. ModelF1Res44&58HorizontalSidewall Sprinkler Sprinklersshallbe[cULusListed][NewYorkCityMEA Approved(258-93-E)]lowflowresidentialhorizontal sidewallsprinklersengineeredtoprovideaminimum designdensityof0.10gpm/ft2 overthelistedcoverage area.Listedflowsasspecifiedbythemanufacturer’s technicaldatasheetsaretobeused.Residential sprinklersshallbeinstalledinconformancewiththe manufacturer’sinstallationguidelinesandtheapplicable installationstandard.Wherehorizontalsidewall residentialsprinklersareinstalledunderslopedceilings havingapitchofupto[4/12][8/12],thesprinklersshall belistedforsuchuse.Sprinklerframeanddeflectorshall beofbronzeframeconstructionhavinga½”NPTthread. WatersealassemblyshallconsistofaTeflon-coated Bellevillespringwasherandtop-loadedextrudedcup with3mmglassbulbcontainingnoplasticparts,and havingatemperatureratingof[155 F(68C)][175 F (79 C)].SprinklersshallhaveanominalK-factorof5.8. Standardfinish:[Bronze][Chrome-plated][White Polyester][Specialfinish–specify].Residentialhorizontal sidewallsprinklersshallbeReliableModelF1Res58, SINR3513(Bulletin135). ModelF1Res44&58Recessed HorizontalSidewallSprinkler UsedescriptionfortheModelF1Res58horizontal sidewallsprinklerwiththefollowingmodifications: Replace“horizontalsidewallsprinkler”with“recessed horizontalsprinkler.”Add:Recessedescutcheon assemblyshallbeasteel,two-pieceescutcheonwith½” adjustment(ModelF2).Standardfinishshallbe [brass][brightchrome][whitepainted][Specialfinish– specify].Residentialrecessedhorizontalsidewall sprinklersshallbeReliableModelF1Res58/F2,SIN R3513(Bulletin135). ModelF1Res76Pendent Sprinklersshallbe[cULusListed]lowflowresidential pendentsprinklersengineeredtoprovideaminimum designdensityof0.10gpm/ft2overthelistedcoveragearea. Listedflowsasspecifiedbythemanufacturer’stechnical datasheetsaretobeused.Residentialsprinklersshallbe installedinconformancewiththemanufacturer’sinstallation guidelinesandtheapplicableinstallationstandard. Sprinklerframeanddeflectorshallbeofbronzeframe constructionhavinga¾”NPTthread.Watersealassembly shallconsistofaTeflon-coated Bellevillespringwasherand machinedcupwith3mmglassbulbcontainingnoplastic parts,andhavingatemperatureratingof[155 F(68C)] [175 F(79C)].SprinklersshallhaveanominalK-factorof 7.6.Standardfinish:[Bronze][Chrome-plated][White Polyester][Specialfinish–specify].Residentialpendent sprinklersshallbeReliableModelF1Res76,SINR7618 (Bulletin135). ModelF1Res76RecessedPendent/F1, ModelF1Res76RecessedPendent/F2, ModelF1Res76RecessedPendent/FP Sprinklersshallbe[cULusListed]lowflowresidential recessedpendentsprinklersengineeredtoprovidea minimumdesigndensityof0.10gpm/ft2 overthelisted coveragearea.Listedflowsasspecifiedbythe manufacturer’stechnicaldatasheetsaretobeused. Residentialsprinklersshallbeinstalledinconformance withthemanufacturer’sinstallationguidelinesandthe applicableinstallationstandard.Sprinklerframeand deflectorshallbeofbronzeframeconstructionhavinga ¾”NPTthread.Watersealassemblyshallconsistofa Teflon-coatedBellevillespringwasherandmachined cupwith3mmglassbulbcontainingnoplasticparts,and havingatemperatureratingof[155 F(68C)][175 F (79 C)].SprinklersshallhaveanominalK-factorof7.6. Standardfinish:[Bronze][Chrome-plated][White Polyester][Specialfinish–specify].Recessed escutcheonassemblyshallbeasteel,two-piece escutcheon[with½”adjustment(ModelF2)][with¾” adjustment(ModelF1)][ofpush-onandthreadoffdesign with½”adjustment(ModelFP)].Standardfinishshallbe [brass][brightchrome][whitepainted].Residential recessedpendentsprinklersshallbeReliable[ModelF1 Res76RecessedPendent/F1][ModelF1Res76 RecessedPendent/F2][ModelF1Res76Recessed Pendent/FP]SINR7618(Bulletin135). ModelF1Res76CCPPendent(Concealed) Sprinklersshallbe[cULusListed]lowflowresidential concealedsprinklersengineeredtoprovideaminimum designdensityof0.10gpm/ft2 overthelistedcoveragearea. Listedflowsasspecifiedbythemanufacturer’stechnical datasheetsaretobeused.Residentialsprinklersshallbe installedinconformancewiththemanufacturer’sinstallation guidelinesandtheapplicableinstallationstandard. Sprinklerframeanddeflectorshallbeofbronzeframe constructionhavinga¾”NPTthread.Watersealassembly shallconsistofaTeflon-coated Bellevillespringwasherand machinedcupwith3mmglassbulbcontainingnoplastic parts,andhavingatemperatureratingof155 F(68C). Coverplateassemblyshallconsistofabrasscoverplate andcopperalloyretainerflange.Methodofattachingthe coverplatetothesprinklercupshallbeapush-onand thread-offdesignallowinga½”coverplateadjustment. Coverplatetemperatureratingshallbe135 F(57C).A plasticprotectivecapshallbeprovidedandfactoryinstalled insidethesprinklercuptoprotectthesprinklerfrom damage,whichcouldoccurduringconstructionbeforethe coverplateisinstalled.Standardcoverplatefinish:[White] [CustomColor–specify].].Concealedpendentsprinklers shallbeReliableModelF1Res76CCP,SINR7618(Bulletin 135). Reliable...ForCompleteProtection Reliableoffersawideselectionofsprinklercomponents.Followingaresomeofthemany precision-madeReliableproductsthatguardlifeandpropertyfromfirearoundtheclock. •Automaticsprinklers •Flushautomaticsprinklers •Recessedautomaticsprinklers •Concealedautomaticsprinklers •Adjustableautomaticsprinklers •Dryautomaticsprinklers •Intermediatelevelsprinklers •Opensprinklers •Spraynozzles •Alarmvalves •Retardingchambers •Drypipevalves •Acceleratorsfordrypipevalves •Mechanicalsprinkleralarms •Electricalsprinkleralarmswitches •Waterflowdetectors •Delugevalves •Detectorcheckvalves •Checkvalves •Electricalsystem •Sprinkleremergencycabinets •Sprinklerwrenches •Sprinklerescutcheonsandguards •Inspectorstestconnections •Sightdrains •Balldripsanddrumdrips •Controlvalveseals •Airmaintenancedevices •Aircompressors •Pressuregauges •Identificationsigns •Firedepartmentconnection Theequipmentpresentedinthisbulletinistobeinstalledinaccordancewith thelatestpertinentStandardsoftheNationalFireProtectionAssociation,FactoryMutualResearch Corporation,orothersimilarorganizationsandalsowiththeprovisionsofgovernmentalcodesorordinances,wheneverapplicable. ProductsmanufacturedanddistributedbyRELIABLEhavebeenprotectinglifeandpropertyforover80years,andareinstalledandservicedbythemosthighlyqualifiedandreputable sprinklercontractorslocatedthroughouttheUnitedStates,Canadaandforeigncountries. Manufacturedby (800)431-1588SalesOffices (800)848-6051SalesFax (914)829-2042CorporateOffices www.reliablesprinkler.com InternetAddress Revisionlinesindicateupdatedornewdata. EG.PrintedinU.S.A.05/08P/N9999970322 Recycled Paper General Description TheSeriesLFII(TY2284)Residential FlushPendentSprinklersaredecora- tive,fastresponse,fusiblesolder sprinklersdesignedforuseinresiden- tialoccupanciessuchashomes, apartments,dormitories,andhotels. Whenaestheticsisthemajorconsid- eration,theSeriesLFII(TY2284) shouldbethefirstchoice. TheSeriesLFIIaretobeusedinwet piperesidentialsprinklersystemsfor one-andtwo-familydwellingsand manufacturedhomesperNFPA13D; wetpiperesidentialsprinklersystems forresidentialoccupanciesuptoand includingfourstoriesinheightper NFPA13R;or,wetpipesprinklersys- temsfortheresidentialportionsofany occupancyperNFPA13. TheSeriesLFII(TY2284)hasa4.2 (60,5)K-factorthatprovidesthere- quiredresidentialflowratesatreduced pressures,enablingsmallerpipesizes andwatersupplyrequirements. TheflushdesignoftheSeriesLFII (TY2284)featuresaseparablees- cutcheonproviding3/8inch(9,5mm) verticaladjustment.Thisadjustment reducestheaccuracytowhichthepipe dropstothesprinklersmustbecutto helpassureaperfectfitinstallation. TheSeriesLFII(TY2284)hasbeen designedwithheatsensitivityand waterdistributioncharacteristics proventohelpinthecontrolofresiden- tialfiresandtoimprovethechancefor occupantstoescapeorbeevacuated. WARNINGS TheSeriesLFII(TY2284)Residential FlushPendentSprinklersdescribed hereinmustbeinstalledandmain- tainedincompliancewiththisdocu- ment,aswellaswiththeapplicable standardsoftheNationalFireProtec- tionAssociation,inadditiontothe standardsofanyotherauthoritieshav- ingjurisdiction.Failuretodosomay impairtheperformanceofthesede- vices. Theownerisresponsibleformaintain- ingtheirfireprotectionsystemandde- vicesinproperoperatingcondition. Theinstallingcontractororsprinkler manufacturershouldbecontacted withanyquestions. Sprinkler/Model Identification Number SINTY2284 Technical Data Approvals: ULandC-ULListed. MaximumWorkingPressure: 175psi(12,1bar) DischargeCoefficient: K=4.2GPM/psi1/2 (60,5LPM/bar1/2) TemperatureRating: 162°F/72°C VerticalAdjustment: 3/8inch(9,5mm) Finishes: SprinklerandEscutcheon: White,Chrome,Black, orAntiqueBrass PhysicalCharacteristics: Body.............Bronze Deflector...........Copper ValveCap...........Brass OrificeSeal.........Copper HeatCollectors.......Copper Operation Thesprinklerassemblycontainsa smallfusiblesolderelement.Whenex- posedtosufficientheatfromafire,the soldermeltsandenablestheinternal componentsofthesprinklertofall away.Atthispointthesprinkleracti- vateswiththedeflectordroppinginto itsoperatedposition(ReferenceFig- ure1C),permittingwatertoflow. Page1of8 TFP420JANUARY,2006 SeriesLFIIResidential FlushPendentSprinklers 4.2K-factor TechnicalServices:Tel:(800)381-9312/Fax:(800)791-5500 IMPORTANT AlwaysrefertoTechnicalData SheetTFP700forthe“INSTALLER WARNING”thatprovidescautions withrespecttohandlingandinstal- lationofsprinklersystemsandcom- ponents.Improperhandlingandin- stallationcanpermanentlydamage asprinklersystemoritscompo- nentsandcausethesprinklertofail tooperateinafiresituationorcause ittooperateprematurely. Design Criteria TheSeriesLFII(TY2284)Residential FlushPendentSprinklersareUL ListedandC-ULListedforinstallation inaccordancewiththefollowingcrite- ria. NOTE Whenconditionsexistthatareoutside thescopeoftheprovidedcriteria,refer totheResidentialSprinklerDesign GuideTFP490forthemanufacturer’s recommendationsthatmaybeaccept- ablethelocalAuthorityHavingJuris- diction. SystemType.Onlywetpipesystems maybeutilized. HydraulicDesign.Theminimumre- quiredsprinklerflowrateforsystems designedtoNFPA13DorNFPA13R aregiveninTableAasafunctionof temperatureratingandthemaximum allowablecoverageareas.Thesprin- klerflowrateistheminimumrequired dischargefromeachofthetotal numberof“designsprinklers”as specifiedinNFPA13DorNFPA13R. ForsystemsdesignedtoNFPA13,the numberofdesignsprinklersistobe thefourmosthydraulicallydemanding sprinklers.Theminimumrequireddis- chargefromeachofthefoursprinklers istobethegreaterofthefollowing: •TheflowratesgiveninTableAfor NFPA13Dand13Rasafunctionof temperatureratingandthemaxi- mumallowablecoveragearea. •Aminimumdischargeof0.1gpm/sq. ft.overthe“designarea”comprised ofthefourmosthydraulicallyde- mandingsprinklersfortheactual coverageareasbeingprotectedby thefoursprinklers. ObstructionToWaterDistribution. Locationsofsprinklersaretobein accordancewiththeobstructionrules ofNFPA13forresidentialsprinklers. OperationalSensitivity.Thesprin- klersaretobeinstalledintheflush positionperFigure1withtheprovided escutcheon. SprinklerSpacing.Theminimum spacingbetweensprinklersis8feet (2,4m).Themaximumspacingbe- tweensprinklerscannotexceedthe lengthofthecoveragearea(Ref.Ta- bleA)beinghydraulicallycalculated (e.g.,maximum12feetfora12ft.x 12ft.coveragearea,or20feetfora20 ft.x20ft.coveragearea). PrecautionaryWarningsforCorro- siveEnvironments.TheSeriesLFII (TY2284)flushsprinklerheadsmust beinstalledinanon-corrosiveenviron- ment.Theimproperuseofcorrosive agentssuchasflux,otherproducts thatcontainchlorideionsdescribed, whetherappliedinternallyorexternally tothesprinklersystem,mayresultin corrosionofthesprinklerhead,or stresscorrosioncracking,whichin turnmaycausethesprinklersheadsto developleaks,operateunexpectedly, ornotoperateproperly. Accordingly,itisessentialthattheSe- riesLFII(TY2284)flushsprinklerhead beinstalledonlybyexperiencedfire sprinklerengineers,whocomplyfully withNFPA13,13D,13Rand25,ASTM B813,ASTMB828andCopperDevel- opmentAssociation(CDA). Coppersprinklersystempiping. Anytimecopperpipingisusedinany partofafiresprinklersystem,thecop- perpipingmustbeinstalledinconfor- mancewithallapplicablestandards andrequirementsforcopperpiping, including:NFPA13,13D,13Rand25, ASTMB813,ASTMB828,andCopper DevelopmentAssociation(CDA).Any solderinginanypartofasprinklersys- tem,eitherinternallyorexternally, mustbedonewithuseofonlyan ASTMB813approvedflux.Residual Page2of8 TFP420 (a)Forcoverageareadimensionslessthanorbetweenthoseindicated,itisnecessarytousetheminimumrequiredflowforthenext highestcoverageareaforwhichhydraulicdesigncriteriaarestated. (b)RequirementisbasedonminimumflowinGPM(LPM)fromeachsprinkler.Theassociatedresidualpressuresarecalculated usingthenominalK-factor.RefertoHydraulicDesignCriteriaSectionfordetails. TABLEA NFPA13DANDNFPA13RWETPIPEHYDRAULICDESIGNCRITERIA FORTHESERIESLFII(TY2284) RESIDENTIALFLUSHPENDENTSPRINKLER 12x12 (3,7x3,7) Maximum Coverage Area (a) Ft.xFt. (mxm) MinimumFlow (b)and ResidualPressure ForHorizontalCeiling (Max.2InchRise for12InchRun) 14x14 (4,3x4,3) 16x16 (4,9x4,9) 18x18 (5,5x5,5) 20x20 (6,1x6,1) 13GPM(49,2LPM) 9.6psi(0,66bar) 14GPM(53,0LPM) 11.1psi(0,77bar) 18GPM(68,1LPM) 18.4psi(1,27bar) 22GPM(83,3LPM) 27.4psi(1,89bar) 13GPM(49,2LPM) 9.6psi(0,66bar) 162°F/72°C MinimumFlow (b)and ResidualPressure ForSlopedCeiling (Max.8InchRise for12InchRun) 162°F/72°C 19GPM(71,9LPM) 20.5psi(1,41bar) 24GPM(90,8LPM) 32.7psi(2,25bar) 17GPM(64,3LPM) 16.4psi(1,13bar) Maximum Spacing Ft. (m) 12 (3,7) 14 (4,3) 16 (4,9) 18 (5,5) 20 (6,1) 17GPM(64,3LPM) 16.4psi(1,13bar) 17GPM(64,3LPM) 16.4psi(1,13bar) MinimumFlow (b)andResidualPressure ForSlopedCeiling (Max.8InchRisefor12InchRun) Threesprinklerdesignwhentherearemore thantwosprinklersinacompartment. 162°F/72°C 14GPM(53,0LPM) 11.1psi(0,77bar) 14GPM(53,0LPM) 11.1psi(0,77bar) 14GPM(53,0LPM) 11.1psi(0,77bar) 18GPM(68,1LPM) 18.4psi(1,27bar) N/A TFP420 Page3of8 A B C SPRINKLER AREA WRENCHING TOLERANCE CEILINGLEVEL LIMIT FITTING FACEOF SPRINKLER PROTECTIVECAP (23,0±4,8mm) 29/32±3/16" MOUNTING SURFACE 3/32"(2,4mm)TYP. 2-15/16"(75 mm)DIA. INOPERATED POSITION DEFLECTOR 29/32±3/16" (23,0±4,8mm) 2"(50mm)DIA. DONOT OVER-TIGHTEN COLLECTOR HEAT (57,2mm) 2-1/4" NOMINALMAKE-IN 7/16"(11,1mm) 1/2"NPT 15/16"(23,6mm) 9/16"(14,2mm) FIGURE1 SERIESLFII(TY2284)RESIDENTIAL FLUSHPENDENTSPRINKLER FIGURE2 SPRINKLERSOCKET WRENCH&SOCKETCOMBINATION DRIVE 3/8"SOCKET ACCEPTS WRENCH RECESS WRENCH COMBINATION WRENCH&SOCKET #4948 #4947 SOCKET FIGURE3 PROTECTIVECAPREMOVALTOOL fluxmustbethoroughlyREMOVED fromboththeinteriorandexteriorsur- facesofthepipingbeforeinstallingthe sprinklerheads.Theuseofimproper flux,orthefailuretothoroughlyre- moveproperflux,mayresultincorro- sionofthesprinklerheadorstress cracking,whichinturnmaycausethe sprinklersheadstodevelopleaks,op- erateunexpectedly,ornotoperate properly. BeamCeiling DesignCriteria TheSeriesLFII(TY2284)Residential FlushPendentSprinklersareULand C-ULListedforinstallationinresiden- tialoccupancieswithhorizontalceil- ings(i.e.,slopesuptoa2inchrise overa12inchrun)withbeamswhen installedinaccordancewiththefollow- ingcriteria: GeneralInformation.Thebasiccon- ceptofthisprotectionschemeisto locatethesprinklersontheunderside ofthebeams,Ref.Figure4,(notinthe beampockets);toidentifythemain beamsthatprincipallyruninonedirec- tionas“primarybeams”;and,toiden- tifythebeamsthatrunprincipallyper- pendiculartothemainbeams,asmay bepresent(orinsomecasesmaybe necessaryforpropersprinklerprotec- tion),as“secondarybeams”. PrimaryandSecondaryBeam Types.Solidsurface,solidorhollow core,combustibleornon-combustible. PrimaryandSecondaryBeamPosi- tioning.Directlyattachedtotheun- dersideofacombustibleornon-com- bustiblesmoothceilingatany elevation. PrimaryBeamCross-Section:Maxi- mumdepthof14inchesandthemaxi- mumwidthisunlimited.Thecross- sectionalshapeoftheprimarybeam mayberectangulartocircular. SecondaryBeamCross-Section. Maximumdepthtobenogreaterthan theprimarybeamandthemaximum widthisunlimited.Thecross-sectional shapeofthesecondarybeammaybe rectangulartocircular. PrimaryBeamSpacing.Theprimary beams(Fig.5A)aretobe3ft.-4in.to 6ft.fromthecompartmentwallto centerofthenearestbeamandfrom centertocenterbetweenbeams. SecondaryBeamSpacing.Thesec- ondarybeamsprincipallyrunperpen- diculartotheprimarybeams. Secondarybeamsofadepthequalto theprimarybeammustbeplacedso thatthebeampocketscreatedbythe primarybeamsdonotexceed20feet inlength(Fig.5B). NOTE Whenthebeampocketscreatedby theprimarybeamsexceed20feetin length,theinstallationwillrequirethe useofsecondarybeamsasdescribed above.Otherwise,secondarybeams neednotbepresent. Secondarybeamsofacross-sectional depthgreaterthanone-quarterthe depthoftheprimarybeamsaretobe aminimumof3ft.-4in.fromthe compartmentwalltocenterofthe nearestbeamandfromcentertocen- terbetweenbeams(Fig.5C). Secondarybeamsofacross-sectional depthnogreaterthanone-quarterthe depthoftheprimarybeamsmaybe placedatanycompartmentwallto centerofthenearestbeamdistance andfromanycentertocenterdistance betweenbeams(Fig.5C). Lintels.Lintelsoverdoorwaysexiting thecompartmentmustbepresent.The minimumheightforthelintelsis8 inchesornolessthanthedepthofthe PrimaryBeams,whicheverisgreater. SprinklerTypes.SeriesLFII (TY2284),162F,FlushPendentResi- dentialSprinklers. SprinklerCoverageAreaandHy- draulicDesign.Thesprinklercover- ageareasandhydraulicdesigncrite- riaaspresentedintheTableAfor “HorizontalCeilings”aretobeapplied. SprinklerPosition.Thebottomof heatcollectortobottomofprimary beamsfortheSeriesLFII(TY2284) FlushPendentSprinklersistobe 23/32to1-3/32inches(Fig.4A).The verticalcenterlineoftheSeriesLFII (TY2284)FlushPendentSprinklersis tobenogreaterthanhalftheprimary beamcross-sectionalwidthplus2 inchesfromthecenterlineofthepri- marybeam(Fig4B). NOTES Coredrillingofbeamstoallowthe installationofsprinklerdropsrequires consultingwithastructuralengineer. Wherecoredrillingisnotpermitted, thepreviouslystatedsprinklerposition criteriafortheSeriesLFII(TY2284) PendentSprinklersallowsforthe sprinklerdroptobeplacedadjacentto theprimarybeam. BeamandSoffitArrangements.A soffitispermittedtobeplacedaround theperimeterofacompartmentwith thebeamarrangementwithinthesof- fitedarea(Fig.6). Thecross-sectionofthesoffitmaybe anysizeaslongasitdoesnotcreate anobstructiontowaterdistributionper theobstructionrulesofNFPA13for residentialsprinklers. Whensoffitsarepresent,thepre- viouslyprovided3ft.-4in.to6ft. “compartmentwalltoadjacentbeam” distancefortheprimaryandsecon- darybeamsistobemeasuredfromthe faceofthesoffitasopposedtothe compartmentwall. NOTE Althoughthedistancetothebeamsis measuredfromthefaceofthesoffit, thesprinklercoverageareaistobe measuredfromthecompartmentwall. Page4of8 TFP420 FIGURE4 SPRINKLERPOSITIONING UNDERPRIMARYBEAMS (Refertothe“BeamCeiling DesignCriteria”section) FLUSH POSITIONTY2284 A ONE-HALFBEAM WIDTHPLUS 2"(50,8mm) MAXIMUM B TY2284 23 / 3 2" ( 1 8 , 3 mm)M IN . 1- 3 /3 2 " (2 7 , 8 mm)M AX . 1- 3 /3 2 " (2 7 , 8 mm)M AX . 23 / 3 2" ( 1 8 , 3 mm)M IN . TFP420 Page5of8 FIGURE5 BEAMARRANGEMENTS (Refertothe“BeamCeilingDesignCriteria”section) SECONDARY BEAM B B FORSECONDARYBEAMS THATARE TOBEEQUALIN DEPTH TOPRIMARYBEAMS AND THATMUST BEINPLACE SOTHATPRIMARYBEAM POCKETSDONOTEXCEED 20'-0"(6,1m) SECONDARYBEAMSHAVING DEPTHSGREATERTHAN25% OFPRIMARYBEAMS B=20'-0"(6,1m)MAXIMUM C=3'-4"(1,0m)MINIMUMFOR or A=3'-4"to6'-0"(1,0to1,8m) FORPRIMARYBEAMSHAV- DEPTH INGA14"(356mm)MAXIMUM ONDARYBEAMSHAVING DEPTHSUPTO25%OF PRIMARYBEAMS C=ANYDISTANCEFORSEC- A=3'-4"to6'-0"(1,0to1,8m) FORPRIMARYBEAMSHAV- DEPTH INGA14"(356mm)MAXIMUM A=3'-4"to6'-0"(1,0to1,8m) FORPRIMARYBEAMSHAV- DEPTH INGA14"(356mm)MAXIMUM MAXIMUM 14"(356mm) 20'-0"(6,1m) MAXIMUM REFER TO FORSPANS FIGURE5B* 20'-0"(6,1m) EXCEEDING * DISTANCESARE COMPARTMENT TOCENTERLINES OFBEAMS WALLFACESAND MEASUREDTO PRIMARY BEAM ALLFIGURES: FIGURE5A PRIMARYBEAMSPANSUPTO20'-0"(6,1m) FIGURE5B PRIMARYBEAMSPANSGREATER THAN20'-0"(6,1m) FIGURE5C COMBINATIONS OFPRIMARYANDSECONDARYBEAMS A A A A A A A A A SECONDARY BEAM PRIMARY BEAM PRIMARY BEAM C C COMPARTMENT WALLS COMPARTMENT WALLS COMPARTMENT WALLS Installation TheSeriesLFII(TY2284)mustbein- stalledinaccordancewiththefollow- inginstructions: NOTES TheProtectiveCapistoremainonthe sprinklerduringinstallationuntilthe ceilinginstallationiscomplete.The ProtectiveCapmustberemovedto placethesprinklerinservice. Aleaktight1/2inchNPTsprinklerjoint shouldbeobtainedwithatorqueof7 to14ft.lbs.(9,5to19,0Nm).Amaxi- mumof21ft.lbs.(28,5Nm)oftorque istobeusedtoinstallsprinklers. Higherlevelsoftorquemaydistortthe sprinklerinletwithconsequentleak- ageorimpairmentofthesprinkler. Donotattempttocompensateforin- sufficientadjustmentinanEscutcheon Platebyunder-orover-tighteningthe Sprinkler.Readjustthepositionofthe sprinklerfittingtosuit. Eachsprinklermustbeinspectedbe- foreinstallation.Donotuseanysprin- klerthatexhibitsanydeformationsor cracks,includingcracksontheprotec- tivecap. Step1.TheSprinklermustbeinstalled onlyinthependentpositionandwith theSprinklerwaterwaycenterlineper- pendiculartothemountingsurface. Step2.Installthesprinklerfittingso thatthedistancefromthefaceofthe fittingtothemountingsurfacewillbe nominally29/32inches(23,0mm)as showninFigure1A. Step3.Withpipethreadsealantap- pliedtothepipethreads,handtighten theSprinklerintothesprinklerfitting. Step4.WrenchtightentheSprinkler usingonlytheSprinklerSocketor Wrench&SocketCombination(Ref. Figure2).Thewrenchrecessofthe Socketistobeappliedtothesprinkler wrenchingarea(Ref.Figure1A). Step5.Usethe“ceilingleveltolerance limit”indicatorontheProtectiveCapto checkforproperinstallationheight. Relocatethesprinklerfittingasneces- sary.IfdesiredtheProtectiveCapmay alsobeusedtolocatethecenterofthe clearanceholebygentlypushingthe ceilingmaterialagainstthecenter pointoftheCap. Step6.Aftertheceilinghasbeencom- pletedwiththe2inch(50mm)diame- terclearancehole,usetheProtective CapRemovalTool(Ref.Figure3)to removetheProtectiveCapandthen pushontheEscutcheonuntilitsflange justcomesincontactwiththeceiling. DonotcontinuetopushtheEscutch- eonsuchthatitliftsaceilingpanelout ofitsnormalposition.IftheEscutch- eoncannotbeengagedwiththeSprin- kler,ortheEscutcheoncannotbeen- gagedsufficientlytocontactthe ceiling,relocatethesprinklerfittingas necessary. Careand Maintenance TheSeriesLFII(TY2284)mustbe maintainedandservicedinaccord- ancewiththefollowinginstructions: NOTES AbsenceofanEscutcheonPlatemay delaythetimetosprinkleroperationin afiresituation. Beforeclosingafireprotectionsystem maincontrolvalveformaintenance workonthefireprotectionsystem whichitcontrols,permissiontoshut downtheaffectedfireprotectionsys- temmustbeobtainedfromtheproper authoritiesandallpersonnelwhomay beaffectedbythisactionmustbeno- tified. Sprinklerswhicharefoundtobeleak- ingorexhibitingvisiblesignsofcorro- sionmustbereplaced. Automaticsprinklersmustneverbe painted,plated,coated,orotherwise alteredafterleavingthefactory.Modi- fiedoroverheatedsprinklersmustbe replaced. Caremustbeexercisedtoavoiddam- age-before,during,andafterinstal- lation.Sprinklersdamagedbydrop- ping,striking,wrenchtwist/slippage, orthelike,mustbereplaced. Theownerisresponsibleforthein- Page6of8 TFP420 FIGURE6 BEAMANDSOFFITARRANGEMENTS (Refertothe“BeamCeilingDesignCriteria”section) SOFFIT FACEOF * * SECONDARY BEAM PRIMARY BEAM INFIGURES5A,5B&5C, EXCEPTMEASUREMENTS ARETAKENFROMFACES OFSOFFITSINSTEADOF FROMCOMPARTMENT WALLSURFACES USEDISTANCESSHOWN* COMPARTMENT WALLS spection,testing,andmaintenanceof theirfireprotectionsystemandde- vicesincompliancewiththisdocu- ment,aswellaswiththeapplicable standardsoftheNationalFireProtec- tionAssociation(e.g.,NFPA25),in additiontothestandardsofanyother authoritieshavingjurisdiction.Thein- stallingcontractororsprinklermanu- facturershouldbecontactedrelative toanyquestions. NOTE Theownermustassurethatthesprin- klersarenotusedforhangingofany objectsandthatthesprinklersareonly cleanedbymeansofgentlydusting withafeatherduster;otherwise,non- operationintheeventofafireorinad- vertentoperationmayresult. Itisrecommendedthatautomatic sprinklersystemsbeinspected, tested,andmaintainedbyaqualified InspectionServiceinaccordancewith localrequirementsand/ornational codes. Limited Warranty ProductsmanufacturedbyTycoFire& BuildingProducts(TFBP)arewar- rantedsolelytotheoriginalBuyerfor ten(10)yearsagainstdefectsinmate- rialandworkmanshipwhenpaidfor andproperlyinstalledandmaintained undernormaluseandservice.This warrantywillexpireten(10)years fromdateofshipmentbyTFBP.No warrantyisgivenforproductsorcom- ponentsmanufacturedbycompanies notaffiliatedbyownershipwithTFBP orforproductsandcomponentswhich havebeensubjecttomisuse,improper installation,corrosion,orwhichhave notbeeninstalled,maintained,modi- fiedorrepairedinaccordancewithap- plicableStandardsoftheNationalFire ProtectionAssociation,and/orthe standardsofanyotherAuthorities HavingJurisdiction.Materialsfound byTFBPtobedefectiveshallbeeither repairedorreplaced,atTFBP’ssole option.TFBPneitherassumes,nor authorizesanypersontoassumeforit, anyotherobligationinconnectionwith thesaleofproductsorpartsofprod- ucts.TFBPshallnotberesponsiblefor sprinklersystemdesignerrorsorinac- curateorincompleteinformationsup- pliedbyBuyerorBuyer’srepre- sentatives. InnoeventshallTFBPbeliable,in contract,tort,strictliabilityorunder anyotherlegaltheory,forincidental, indirect,specialorconsequentialdam- ages,includingbutnotlimitedtolabor charges,regardlessofwhetherTFBP wasinformedaboutthepossibilityof suchdamages,andinnoeventshall TFBP’sliabilityexceedanamount equaltothesalesprice. Theforegoingwarrantyismadeinlieu ofanyandallotherwarranties,ex- pressorimplied,includingwarranties ofmerchantabilityandfitnessforapar- ticularpurpose. Thislimitedwarrantysetsforththeex- clusiveremedyforclaimsbasedon failureofordefectinproducts,materi- alsorcomponents,whethertheclaim ismadeincontract,tort,strictliability oranyotherlegaltheory. Thiswarrantywillapplytothefullex- tentpermittedbylaw.Theinvalidity,in wholeorpart,ofanyportionofthis warrantywillnotaffecttheremainder. Ordering Procedure Whenplacinganorder,indicatethe fullproductname.Contactyourlocal distributorforavailability.. SprinklerAssembly: SeriesLFII(TY2284),K=4.2,Residen- tialFlushPendentSprinklerwithout Escutcheonandhavinga(specify) finish,P/N(specify). Chrome..................51-123-9-162 White....................51-123-4-162 Black....................51-123-6-162 AntiqueBrass.............51-123-1-162 Escutcheon: EscutcheonforSeriesLFII(TY2284), K=4.2,ResidentialFlushPendent Sprinklerwith(specify)finish,P/N (specify). Chrome..................56-123-9-001 White....................56-123-4-001 Black....................56-123-6-001 AntiqueBrass.............56-123-1-001 Accessories: SocketforSeriesLFII(TY2284)Resi- dentialFlushPendentSprinkler,P/N 56-000-4-947. Wrench&SocketforSeriesLFII (TY2284)ResidentialFlushPendent Sprinkler,P/N56-000-4-948. ProtectiveCapRemovalToolforSe- riesLFII(TY2284)ResidentialFlush PendentSprinkler,P/N56-000-4-300. TFP420 Page7of8 Page8of8 TFP420 TYCOFIRE&BUILDINGPRODUCTS,451NorthCannonAvenue,Lansdale,Pennsylvania19446 a company 500 WILKINS D B A C in.mmin.mmin.mmin.mmin.mmlbs.kg. 1/215SINGLE UNION4 1/210861521 5/8412 3/47031.5 3/420SINGLE UNION4 5/811861521 1/8292 3/47042.0 125SINGLE UNION5 1/81306 7/81751 5/8413 5/168463.0 1 1/432SINGLE UNION6 5/161607 1/41841 3/445410273.0 1 1/240SINGLE UNION8 5/16211102541 7/8485127146.5 250SINGLE UNION9 1/224110 3/42732 1/8546 1/2165209.0 2 1/265LESS UNION1025414 1/236837682032812.5 380LESS UNION11 1/8283164063 1/28982034420.0 SIZE CONNECTIONS WEIGHTDIMENSIONS (approximate) ABCD OPTIONAL PRESSURE GAUGE MODEL 850 SHUT-OFF VALVE DIR E C T I O N O F F L O W MODEL 500 TO HANDLE LOW DEMANDS (SET @ 65 PSI) DIRECTION OF FLOWMODEL 500FC TO HANDLE HIGH DEMANDS (SET @ 55 PSI) MODEL 975XL RPZ BACKFLOW PREVENTER PROTECTIVE ENCLOSURE MODEL DU DIELECTRIC UNION OPTIONAL PRESSURE GAUGE 12" MIN. 30" MAX. DIRECTION OF FLOW FLOW RATES (GPM) FA L L O F F ( P S I G ) 0 5 10 15 0100200 300 69 104 6.312.6 18.9 FA L L O F F ( k p a ) FLOW RATES (l/s) MODEL 500 1/2" THRU 3" (STANDARD & METRIC) 3/4" (20mm) 35 20 1381/2" (15mm) 1" (25mm) 1 1/4" (32mm) 1 1/2" (40mm) 2" (50mm) 2 1/2" (65mm) 3" (80mm) 50150 250 3.2 9.5 15.8 a company A B G CD F E in.mmin.mmin.mmin.mmin.mmin.mmin.mmin.mmin.mmlbs.kg lbs.kg 3/42012305143567 3/41972 1/8543763 1/289512715 3/4400104.5125.5 1251333014 1/43627 3/41972 1/8543763 1/289512717 3/4451104.5146.4 1 1/432174321948310 15/162782 3/4703 1/28951276 3/41712255922102812.7 1 1/24017 3/84412050810 15/162782 3/4703 1/28951276 3/417123 1/858722102812.7 25018 1/247021 1/454010 15/162782 3/4703 1/28951276 3/417125 1/264822103415.4 WEIGHT LESS BALL VALVES WITH BALL VALVESDEFG MODEL SIZE A DIMENSIONS (approximate) A UNION BALL VALVES B LESS BALL VALVES C • 12" MIN 30" MAX PROTECTIVE ENCLOSURE OPTIONAL WATER METER INLET SHUT-OFF AIR GAP DRAIN DIRECTION OF FLOW BATTERY MONITOR SWITCH AIR GAP FITTING 12" MIN. 30" MAX. FLOOR DRAIN DIRECTION OF FLOW FLOOR CENTRAL STATION ALARM PANEL Pipe size5 ft/sec7.5 ft/sec10 ft/sec15 ft/sec 1/8"1123 1/4"2235 3/8"3469 1/2"57914 3/4"8121725 1"13202740 1 1/4"23354770 1 1/2"32486395 2"5278105167 Capacity thru Schedule 40 Pipe 0 20 40 60 805 10 15 20 0 50 100 150 200 2505 10 15 20 Rated Flow (Established by approval agencies) FLOW RATES (GPM) PR E S S U R E L O S S ( P S I G ) 69 PR E S S U R E L O S S ( k p a ) FLOW RATES (l/s) MODEL 975XL 3/4", 1", 1 1/4", 1 1/2" & 2" (STANDARD & METRIC) 35 3/4" (20mm)1" (25mm)1 1/4" (32mm) 2" (50mm)103 15.812.69.56.33.25.03.82.521.26 1½" (40mm) 137 Agency Listings 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 • Sealed retard mechanism (Model WFDT) • Visual switch activation (Model WFDT) • Twelve different flexible plastic paddles • Vertical or horizontal mount • Durable, tamper-resistant enclosure • Dual SPDT switches in durable terminal block • Sizes marked on flexible plastic paddles • 100 percent synchronization activates both alarm panel and local bell • Accommodates up to 12 AWG wire Both the WFDT retard model and the WFDTNR non-retard model fit any tee that has a 1˝ NPT branch, including: 1˝, 1¼˝, 1½˝ and 2˝ NPT threaded ferrous and brass tees; 1˝, 1¼˝, 1½˝ and 2˝ copper sweat tees; Tyco, Spears®, Victaulic® and NIBO brand 1˝ CPVC tees; and 1½˝ polybutylene tees. Design. The design of the WFDT and WFDTNR makes them easy to install and simple to maintain. Either can be mounted in the vertical or horizontal position. Two conduit openings permit easy attachment to the local alarm system. The retard mechanism (Model WFDT only) and switch assemblies are field-replaceable. Features. Twelve different flexible plastic paddles fit 1˝, 1¼˝, 1½˝ 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. S739 167-93-E7770-1653:114CS169 3033305 3825 Ohio Avenue • St. Charles, IL 60174 Phone: 800-SENSOR2 • Fax: 630-377-6495 ©2010 System Sensor. Product specifications subject to change without notice. Visit systemsensor.com for current product information, including the latest version of this data sheet.A05-0195-014 • 7/10 • #2450 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: 1˝, 1¼˝, 1½˝ or 2˝ threaded ferrous or brass tee; 1–2˝ copper sweat tees; Tyco, Spears,® Victaulic,® and NIBCO brand 1˝ CPVC tees; or 1½˝ polybutylene tee as designated on the drawings and/or as specified herein. Detectors shall mount on any clear pipe span of the 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 of 4 to 10 gallons per minute and a static pressure rating of 250 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 Specifications Static Pressure Rating 250 PSI Operating Temperature Range 32°F to 120°F (0°C to 49°C) Maximum Surge 18 FPS Enclosure Rating UL indoor/outdoor rated Triggering Threshold Bandwidth (Flow Rate) 4–10 GPM Cover Tamper Switch UL models: optional P/N 546-7000 ULC/Canadian models: factory installed Overall Dimensions, Installed WFDT: 4.5˝ H × 3.75˝ W × 6.7˝ L (11.4cm H × 9.5cm W × 17cm L) WFDTNR: 3.75˝ H × 3.25˝ W × 4.25˝ L (9.5cm H × 8.2cm W × 10.8cm L) Service Use Automatic Sprinkler: NFPA 13 One or Two Family Dwelling: NFPA 13D Residential Occupancies up to 4 Stories: NFPA 13R National Fire Alarm Code: NFPA 72 Contact Ratings Two sets of SPDT (Form C) 10.0 A @ 125/250 VAC 2.5 A @ 24 VDC Shipping Weight WFDT: 2.6 lbs. (1.2 kg.) WFDTNR: 1.5 lbs. (0.7 kg.) Compatible Tee Fittings Threaded ferrous and brass tees, copper sweat tees, CPVC tees, and polybutylene tees Warranty 3 years Conduit Entrances Two openings for ½˝ conduit.U.S. Patent Numbers 5,213,205 DELAYADJUSTMENTDIAL 55 7 0 0 15 45 3 0 TIM E D E LAY IN SECONDSNUMBER O N DIAL IS APPROXIMA T E NOTE: RETARD TIME MAY EXCEED 90 SECONDS. ADJUST AND VERIFY THAT TIME DOES NOT EXCEED 90 SECONDS. NUMBER ON DIAL IS APPROXIMATE TIME DELAY IN SECONDS WITH AN ACCURACY OF +/- 50%. Delay Adjustment Dial + + – – SSM24-XSSV120-X NOTE: COMMON AND B-NO CONNECTIONS WILL CLOSE WHEN VANE IS DEFLECTED, I.E., WHEN WATER IS FLOWING. DUAL SWITCHES PERMIT APPLICATIONS TO BE COMBINED ON A SINGLE DETECTOR. BREAK WIRE AS SHOWN FOR SUPERVISION OF CONNECTION. DO NOT ALLOW STRIPPED WIRE LEADS TO EXTEND BEYOND SWITCH HOUSING. DO NOT LOOP WIRES. POWER 24VDC OR 120VAC INITIATING LOOP UL-LISTED COMPATIBLE CONTROL PANEL CONTACT RATINGS 125/250 VAC24 VDC 10 AMPS2.5 AMPS SCHEMATIC OF INDIVIDUAL SWITCH IN“NO WATERFLOW” CONDITION SUGGESTED EOL RESISTOR B-NO COM A-NC Electrical Connections for WFDT Ordering Information UL Model ULC Model Description WFDT WFDTA Waterflow Detector, Fits 1˝, 1¼˝, 1½˝, 2˝ ferrous and brass threaded tees; 1˝, 1¼˝, 1½˝, 2˝ copper sweat tees; 1˝ CPVC tees; and 1½˝ 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. Calculation for size of 13D expansion tank Minimum Insert data into yellow boxes only Tank Type of antifreeze used Size Propylene Glycol1.3 gallon Glycerine1.1 A.7.5.3.2 One formula for sizing the chamber is as follows. Other methods also exist. where: 11 L = change in antifreeze solution volume (gal) due to thermal expansion 12 S V = volume (gal) of antifreeze system, not including the expansion chamber 14.6 13 DL = density (gm/ml) of antifreeze solution at lowest expected temperature 1.062 1 1.174 14 DH = density (gm/ml) of antifreeze solution at highest expected temperature 1.016 2 1.13 15 This method is based on the following information: Adjusted where: GivenConverted 19 V EC = minimum required volume (gal) of expansion chamber 3 20 V 0 = 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 22 V 2 = air volume (gal) in expansion chamber at post-expansion pressure (antifreeze at high temperature) 3 23 P 0 = absolute precharge pressure (psia) on expansion chamber before installation 75 4 90 24 P 1 = absolute static pressure (psi) on water (supply) side of backflow preventer 75 4 90 25 P 2 = absolute maximum allowable working pressure (psi) for antifreeze system 175 5 190 26 T 0 = temperature (°R) of air in expansion chamber at precharge 68 6 528 27 T 1 = temperature (°R) of air in expansion chamber when antifreeze system piping is at lowest expected temperature 68 6 528 28 T 2 = temperature (°R) of air in expansion chamber when antifreeze system piping is 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. 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. At precharge, the chamber will be completely full of air. NFPA 13 (02) 1 Density is based on -100F 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 2 Density is based on 1300F 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 5 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 Calculation for size of 13D expansion tank Minimum Insert data into yellow boxes only Tank Type of antifreeze used Size Propylene Glycol5.4 gallon Glycerine4.6 A.7.5.3.2 One formula for sizing the chamber is as follows. Other methods also exist. where: 11 L = change in antifreeze solution volume (gal) due to thermal expansion 12 S V = volume (gal) of antifreeze system, not including the expansion chamber 62.6 13 DL = density (gm/ml) of antifreeze solution at lowest expected temperature 1.062 1 1.174 14 DH = density (gm/ml) of antifreeze solution at highest expected temperature 1.016 2 1.13 15 This method is based on the following information: Adjusted where: GivenConverted 19 V EC = minimum required volume (gal) of expansion chamber 3 20 V 0 = 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 22 V 2 = air volume (gal) in expansion chamber at post-expansion pressure (antifreeze at high temperature) 3 23 P 0 = absolute precharge pressure (psia) on expansion chamber before installation 75 4 90 24 P 1 = absolute static pressure (psi) on water (supply) side of backflow preventer 75 4 90 25 P 2 = absolute maximum allowable working pressure (psi) for antifreeze system 175 5 190 26 T 0 = temperature (°R) of air in expansion chamber at precharge 68 6 528 27 T 1 = temperature (°R) of air in expansion chamber when antifreeze system piping is at lowest expected temperature 68 6 528 28 T 2 = temperature (°R) of air in expansion chamber when antifreeze system piping is 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. 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. At precharge, the chamber will be completely full of air. NFPA 13 (02) 1 Density is based on -100F 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 2 Density is based on 1300F 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 5 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 a company ® ® Model XT Water Thermal Expansion Tank 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 DOCUMENT #: REVISION:WXT-XT 710 SPECIFICATION SUBMITTAL SHEET Page 1 of 2 FEATURES Sizes (liters): 8 18 35 Maximum working water pressure: 150 PSI End connections Threaded NPT ANSI B1.20.1 Factory Pre-charge (adjustable) 40 PSI ACCESSORIES NR3XL - Water pressure reducing valve TP1100A - Temperature & pressure relief valve P1000A - Pressure relief valve P3000CI - Pressure relief valve P3000BR - Pressure relief valve 975XL2 - Reduced pressure backflow preventer VR10 - Vacuum relief valve NOTE: Model XT tanks are certified to NSF 61 domestic hot, but are suitable for temperatures up to 200° F. DIMENSIONS & WEIGHTS (do not include pkg.) 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 polypropylene lined water chamber which expands a dia- phragm into a pre-charged air chamber, keeping system pressure below the relief valve setting. STANDARDS COMPLIANCE IAPMO® Listed NSF® Listed - Standard 61, Annex G LEAD PLUMBING LAW COMPLIANCE (0.25% MAX. WEIGHTED AVERAGE LEAD CONTENT) Annex G Certified by NSF International MATERIALS Outer shell Carbon Steel Coatings Epoxy finish (outer shell) Connection Stainless Steel Liner Polypropylene Diaphragm Butyl Rubber TANK DIMENSIONS AND CAPACITIES MODEL NUMBER MAXIMUM WORKING PRESSURE psi TANK VOLUME (gallons) MAXIMUM ACCEPTANCE VOLUME (gallons) FACTORY PRE-CHARGE psi DIMENSIONS WEIGHT lbs.DIAMETER A HEIGHT B SYSTEM CONNECTIONC XT-8 150 2.1 1.0 40 8 10 1/2 3/4NPT 5.5 XT-18 150 4.8 2.4 40 11 13 1/2 3/4 NPT 10 XT-35 150 9.0 4.25 40 12 1/2 17 1/4 3/4 NPT 15.5 A B C 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 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: Pre-charge should be adjusted to match incoming water pressure (adjust pre-charge with no water pressure in tank). Not to exceed 80psi. SPECIFICATIONS The Water Thermal Expansion Tank outer shell shall be carbon steel. The diaphragm shall be FDA approved butyl rub- ber and, the water chamber shall be polypropylene lined to preclude water contact with the shell interior. The assembly shall have a NPT Stainless steel system connection and a 0.301”-32 charging valve connection (standard tire valve) to facilitate the on-site charging of the tank to meet system requirements. The tank shall be IAPMO® listed and certified to NSF/ANSI 61, Annex G for compliance to states' lead plumbing law 0.25% maximum weighted average lead content requirement. The Water Thermal Expansion Tank shall be a WILKINS Model XT. MODEL XT INSTALLATION SIZING CHART Supply Pressure (psig) WATER HEATER CAPACITY (U.S. gal) 20 30 40 50 60 80 100 120 150 175 200 40 8 8 8 8 8 18 18 18 35 35 35 50 8 8 8 8 8 18 18 18 35 35 35 55 8 8 8 8 8 18 18 18 35 35 35 60 8 8 8 8 18 18 18 18 35 35 35 70 8 8 8 18 18 18 18 35 35 35 35 80 8 8 18 18 18 18 35 35 35 35 35 90 8 18 18 18 18 35 35 35 35 100 18 18 18 18 35 35 35 110 18 18 35 35 35 120 35 35 35 = See WXTP Spec Sheet Based upon 100° temperature rise (40°F to 140°F) T&P VALVE TP1100A DIRECTION OF FLOW HOT WATER HEATER MODEL XT DRAIN HOSE BIBB MODEL 975XL2 MODEL NR3XL WATER PRESSURE REDUCING VALVE 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 6 AHEAD OF THE FLOW® www.nibco.com Revised 5/2/2007 Fire Protection Valve • Threaded or Grooved Body Style • Full Port Design 1" - 2" • Standard Port Design 2¹⁄₂" • Accepts Internal Supervisory Switches MATERIAL LIST PART SPECIFICATION 1. Body Bronze ASTM B 584 Alloy C84400 2. Ball Chrome Plated Brass ASTM B 124 Alloy C37700 3. Seat Ring Carbon-filled TFE 4. Thrust Washer Reinforced TFE 5. Stem Bronze ASTM B 371 Alloy C69430 6. Stem O-Ring Nitrile 7. Retaining Washer Brass 8. Retaining Ring Steel 9. Ground Wire Screw Steel 10. 505-8 Act Assy. Brass 11. Body End Bronze ASTM B 584 Alloy C84400 12. Mounting Screw Steel 13. Lock Washer Steel 14. Handle Pin Brass 15. Hand Wheel Steel/plastisol coated (1¹⁄₄" -2¹⁄₂") Brass Tee Handle (1") 16. Indicator Flag Painted Steel 17. Body Gasket Elastomer 18. Lead Screw O-Ring Nitrile 19. Thrust Washer Anti-friction Polymer 20. Cover Gasket Neoprene 21. Flag Seal O-Ring Nitrile 22. Tamper-Proof Screw Stainless Steel 23. Pipe Plug (-4 units) Stainless Steel (Not shown) Refer to page 41 for details for TS-2M Switch Kit. 300 lb. WWP Bronze Ball Valves 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. 1 2 3 4 5 6 7 8 9 10 20 16 11 22 21 14 15 17 18 19 12 13 DIMENSIONS—WEIGHTS—QUANTITIES Dimensions A B Weight Size Threaded Grooved Threaded Grooved C D E F G Cv† 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 – – 2.11 54 3.81 97 2.31 59 6.14 156 1.75 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 † 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. KT-505-W-8 Threaded KT-505W KG-505-W-8 Grooved Dezincification Resistant • a company DIRECTION OF FLOW WATER METER SHUT-OFF VALVE MODEL BR4 REGULATOR HOSE BIBB HOSE BIBB PRESSURE GAUGE 00180180 140140 100100 6060 2020 8080120120 160160 200200 psipsi 4040 PRESSURE GAUGE DIRECTION OF FLOW WATER METER SHUT-OFF VALVE MODEL BR4 REGULATOR HOSE BIBB 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 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 a company DOCUMENT #:REVISION: BV-800C5/05 Model 800C Swing Away Ball Valves For Liquid or Gas Installations 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. DIMENSIONS & WEIGHTS (do not include pkg.) FEATURES Sizes: ½" ¾" 1" 1½" 2" 2 ½" 3" Maximum pressure400 PSI WOG Copper connections (FC)ANSI B16.22 MATERIALS Main valve bodyForged brass ( ½"-1") Cast bronze ASTM B 584 (1 ½"-3") BallBrass ASTM B 16, chrome plated Seat & packingTeflon O-ringsBuna Nitrile, NSF Listed A B C OPTIONS -with female copper inlet x outlet CL-with copper "L" tube extensions ACCESSORIES Repair kit; o-rings, stem and seats Bracket for locking ball valve handle in open position (Model BVLCK) Bracket and padlock (Model BVLCKP) SPECIFICATION The three piece swing away ball valve shall consist of a copper alloy body, two tailpieces, a hard-chromed copper alloy ball, two Teflon seats, a stem and coated handle. The stem shall be blow-out proof and the ball & seats replace- able in-line without the use of special tools. Tailpieces shall be designed to accept sweated copper tube or provided with copper tailpiece extensions. The three piece swing away ball valve shall be a WILKINS Model 800C. in.mmin.mmin.mmin.mmlbs.kg. 1 /2152 1/8541 5/8413 7/89810.5 3/4202 3/4701 7/8483 7/89810.5 1253 1/2892514 1/211421.0 1 1/2404 7/81242 7/873615273.0 2505 1/21403 1/879615294.0 2 1/2656 3/81623 5/8926152178.0 3806 3/41724 3/8111123052210.0 SIZE WEIGHTS DIMENSIONS (approximate) ABC FlameGuard™ 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 waterapplications. CEMENT FS5 Cement meets the requirements of ASTM F 493; meets MAX VOC 450 G/L per SCAQMD Rule 1168/316A. Listed by NSF forpotable 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. 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. Certified by NSF International. Listed for use with potable water. Listed for use 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 ThreadSocket=Solvent Weld Socket (IPS) Spigot=Spigot End (IPS)SR FIPT=Special Reinforced Plastic Female Iron Pipe Thread NOT FOR USE WITH COMPRESSED AIR OR GAS Page 30of 40Spears Catalog 11/26/2007file://C:\SpearsMFG\FG-1.htm FlameGuard™ CPVC Fire Sprinkler Piping 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™ 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. Flange Size Bolt Holes Bolt Diameter Bolt Length Minimum 3/441/22 141/22-1/4 1-1/441/22-1/4 1-1/241/22-1/2 245/83 2-1/245/83-1/4 345/83-1/4 Figure 1 Flange Size Recommended Torque (Ft./Lbs.) 3/4 thru 1-1/212 2 thru 325 CAUTION: Unnecessary overtorquing will damage the flange. Lubricant must be compatible with flange material. Specified minimum bolt lengths are based on the use of two Spears® Flanges, two standard flat washers, standard nut and full faced 1/8" thick 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 Page 32of 40Spears Catalog 11/26/2007file://C:\SpearsMFG\FG-1.htm