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Home My WebLink AboutF12-0070 plans Stamped approved10/04/2012 9:00am PRJ12-0068 B12-0247 F12-0070 FIRE PROTECTION HYDRAULIC CALCULATIONS AND MATERIAL CUT SHEETS FROM: 274 CENTER DRIVE GLENWOOD SPRINGS, CO 81601 (720)219-0574 FOR: 5194 MAIN GORE DRIVE S VAIL, CO 81657 JOB# CH0152 SUBMITTED BY: STEVE ALLEN PROJECT MANAGER OCTOBER 5, 2012 Water Flow Test Worksheet PROJECT: JOB NO: LOCATION: DATE: TIME: MAJOR CROSS STREETS: BY: JURISDICTION: TEST MADE BY: REPRESENTING: WITNESSED BY: REPRESENTING: WITNESSED BY: REPRESENTING: PURPOSE OF TEST: Static60.00 PressureGPMOutflowsPSI @% Residual55.00 00 Pitot 60.00 0% Outlet Size 00. Outlet Coefficent 00 Residual GPM - 60.00 0% GPM Override1,160.00 00 Residual GPM1,160.00 00 GPM @ 20 PSI3,565.55 60.00 0% 00 Known PSI…:00 GPM @ Known PSI…:4,438.29 60.00 0% Known GPM…:1,125.00 00 PSI @ Known GPM…:55.28 ——o—— ——o—— ——•——Demand #1 ——•——Demand #2 ——•——Demand #3 ——•——Demand #4 Mike Medina ERWSD Vail Steve Allen WSFP Main Gore Drive and Snowshoe Lane Mike Vaughan VFES Flow Test Reduced 10% Demand4 Flow Test Flow Test Demand1 Demand2 Demand3 10:00 Steve Allen 5194 Main Gore drive S 5194 Main Gore drive S CH0152 8/28/2012 - 10 20 30 40 50 60 70 01000200030004000 PS I GPM Fire Sprinkler Water Demand Hydraulic Summary Report Description: DINING ROOM CALC AREA Job Number: CH0152 Node Flow(gpm) Total Hose Streams 0.00 Pumps: Static = Churn (Pressure @ Zero Flow) Safety MarginRequiredAvailable Node Hose FlowStaticResidualFlowTotal Demand (gpm)(psi)(psi)(gpm)(psi)(gpm)(psi)(psi)@@ 1 59.63248.37111.261965.0027.00060.00084.93 5 115.497104.23611.26180.00Pump67.00080.90084.93 Design EngineerJob Number Total Water Required (Including Hose Allowance) 84.93 Maximum Pressure Unbalance In Loops 0.000 Additional Hose Supplies 0.00 Hose Allowance At Source Supplies 399.27gal NA NA NA NA 4 Occupancy Area of Application Coverage Per SprinklerNumber Of Sprinklers Calculated Density Manually Flowing Job Suffix AutoPeak Results: Pressure For Remote Area(s) Adjacent To Most Remote Area Volume capacity of Dry PipesVolume capacity of Wet Pipes 9.04 between nodes 2 and 3 Maximum Velocity Under Ground 20.56 between nodes 24 and 25 Maximum Velocity Above Ground 4.3 K-Factor 19.60 at 20.777 Most Demanding Sprinkler Data System 5194 MAIN GORE DRIVE SVAIL, CO. 81657 Job Site/Building VAIL FIRE5194 MAIN GORE DRIVE S AHJ 12-0325194 MAIN GORE DRIVE S Job State Certification/License NumberJob Name: STEVE ALLENCH0152 Contractor Contractor Number 032 Name of Contractor: WESTERN STATES FIRE PROTECTION Address 1 274 CENTER DRIVE Address 2 Contact NameContact Title PM ExtensionPhone 720-219-0574 FAX 303-792-9049 E-mail STEVE.ALLEN@WSFP.US Web-Site STEVE ALLEN Address 3 GLENWOOD SPRINGS, CO 80601 Address 1 Address 2 Drawing Name 5194 Main Gore Drive S - DESIGN.cad System Flow Demand 84.93 Remote Area(s) Address 3 VAIL, CO. 81657 10/02/2012© M.E.P.CAD, Inc.Page 1AutoSPRINK® VR8 v8.1.1110:54:45AM Pipe TypeDiameterFlowVelocityFriction LossLengthPressure DownstreamElevationDischargeK-FactorPtPnFittingsEq. LengthSummary Upstream Total Length HWC Hydraulic Analysis Job Number: CH0152 Report Description: DINING ROOM CALC AREA • • • • • Route 1 • • • • • Pf Pe Pv DR1.101019.606.600.0655458'-60.885 20132'-619.604.320.777Sprinkler,5'-0-0.217 2633'-021.445E(5'-0)13'-6 150 Pf Pe Pv BL1.101039.4413.290.2389958'-34.363 2633'-019.8421.445Flow (q) from Route 210'-0 2533'-025.8082E(5'-0)18'-3 150 Pf Pe Pv BL1.101061.0120.560.5356605'-6¾8.333 2533'-021.5725.808Flow (q) from Route 310'-0 2433'-034.141E(5'-0), T(5'-0)15'-6¾ 150 Pf Pe Pv CM1.101051.3117.290.3888534'-43.633 2433'-034.1415'-0 2333'-037.774C(5'-0)9'-4 150 Pf Pe Pv FR1.101051.3117.290.38885324'-69.527 2333'-037.77410.621 228'-657.92324'-6 150 Pf Pe Pv CM1.101051.3117.290.38885317'-9½8.866 228'-657.9235'-0 218'-666.789T(5'-0)22'-9½ 150 Pf Pe Pv CM1.394051.3110.790.12323440'-7½5.745 218'-666.7896'-0-0.000 208'-672.534T(6'-0)46'-7½ 150 Pf Pe Pv CM1.394084.9317.850.31300225'-7½16.161 208'-633.6172.534Flow (q) from Route 426'-0-2.818 615'-085.877EE(2'-0), 3E(6'-0), T(6'-0)51'-7½ 150 Pf Pe Pv FM2.009084.938.600.05279510'-10¼14.891 615'-085.87715'-63.468 57'-0104.236 4Tr(1'-0), sCV, cplg(1'-0), f(-0.000), 3E(3'-6), BFP(-13.500) 26'-4¼ 150 Pump Velocity 584.93104.236Rating: 67.000 @ 80.00 439.849Churn Pressure: 80.900Q=84.938.60 Pf Pe Pv FM2.009084.938.600.0527953'-5½2.684 47'-039.8499'-60.217 36'-642.750 Tr(1'-0), sCV, PRV(-2.000), T(5'-0), E(3'-6) 12'-11½ 150 Pf Pe Pv UG1.959084.939.040.05969080'-04.895 36'-642.7502'-0 26'-647.644EE(2'-0)82'-0 150 Pf Pe Pv UG4.220084.931.950.001615450'-00.727 26'-647.644Supply, 16'-648.371450'-0 140 84.93 0.00Hose Allowance At Source 1 • • • • • Route 2 • • • • • Pf Pe Pv DR1.101019.846.690.0670500'-60.369 20232'-619.844.321.293Sprinkler,5'-0-0.217 2633'-021.445T(5'-0)5'-6 150 • • • • • Route 3 • • • • • Pf Pe Pv DR1.101021.577.270.0782541'-00.861 20332'-621.574.325.164Sprinkler,10'-0-0.217 2533'-025.808E(5'-0), T(5'-0)11'-0 150 • • • • • Route 4 • • • • • Pf Pe Pv DR1.101023.918.060.09471118'-4¾3.637 20432'-623.914.330.931Sprinkler,20'-0-0.217 2933'-034.3513E(5'-0), T(5'-0)38'-4¾ 150 Pf Pe Pv CM1.101033.6111.330.17780162'-720.905 2933'-034.35155'-00.650 2831'-655.9079E(5'-0), T(5'-0), C(5'-0)117'-7 150 Pf Pe Pv FR1.101033.6111.330.17780123'-04.978 2831'-655.9075'-09.971 278'-670.856C(5'-0)28'-0 150 Pf Pe Pv CM1.394033.617.070.05634811'-9¼1.678 278'-670.85618'-0-0.000 208'-672.534E(6'-0), 2T(6'-0)29'-9¼ 150 • • • • • Route 5 • • • • • Pf Pe Pv CM1.10109.703.270.0178386'-9¼0.210 2433'-034.141T(5'-0)5'-0 2933'-034.35111'-9¼ 150 © M.E.P.CAD, Inc.10/02/2012Page 1AutoSPRINK® VR8 v8.1.1110:52:57AM Pipe TypeDiameterFlowVelocityFriction LossLengthPressure DownstreamElevationDischargeK-FactorPtPnFittingsEq. LengthSummary Upstream Total Length HWC Hydraulic Analysis Job Number: CH0152 Report Description: DINING ROOM CALC AREA 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.10/02/2012Page 2AutoSPRINK® VR8 v8.1.1110:52:57AM Device (gpm) Actual FlowMinimum Flow (gpm)(K) K-Factor (psi) Pressure Summary Of Outflowing Devices Report Description: DINING ROOM CALC AREA Job Number: CH0152 Sprinkler20119.6019.604.320.777 Sprinkler20219.8419.604.321.293 Sprinkler20321.5719.604.325.164 Sprinkler20423.9119.604.330.931 Most Demanding Sprinkler Data © M.E.P.CAD, Inc.10/02/2012Page 2AutoSPRINK® VR8 v8.1.1110:55:37AM Hydraulic Graph Report Description: DINING ROOM CALC AREA Job Number: CH0152 System Demand (Including Hose Allowance at Source) System Demand 27.000 @ 965.00 Residual: Pressure 60.000 Static: Pressure Supply at Node 1 Hydraulic Graph Supply at Node 1 48.371 @ 84.93 48.371 @ 84.93 Available Pressure at Time of Test 59.632 @ 84.93 © M.E.P.CAD, Inc.10/02/2012Page 3AutoSPRINK® VR8 v8.1.11 10:54:47AM Hydraulic Summary Report Description: BONUS ROOM CALC AREA Job Number: CH0152 Node Flow(gpm) Total Hose Streams 0.00 Pumps: Static = Churn (Pressure @ Zero Flow) Safety MarginRequiredAvailable Node Hose FlowStaticResidualFlowTotal Demand (gpm)(psi)(psi)(gpm)(psi)(gpm)(psi)(psi)@@ 1 59.65938.54721.112965.0027.00060.00081.54 5 117.79096.67821.11280.00Pump67.00080.90081.54 Design EngineerJob Number Total Water Required (Including Hose Allowance) 81.54 Maximum Pressure Unbalance In Loops 0.000 Additional Hose Supplies 0.00 Hose Allowance At Source Supplies 399.27gal NA NA NA NA 4 Occupancy Area of Application Coverage Per SprinklerNumber Of Sprinklers Calculated Density Manually Flowing Job Suffix AutoPeak Results: Pressure For Remote Area(s) Adjacent To Most Remote Area Volume capacity of Dry PipesVolume capacity of Wet Pipes 8.68 between nodes 2 and 3 Maximum Velocity Under Ground 27.48 between nodes 10 and 11 Maximum Velocity Above Ground 4.3 K-Factor 19.60 at 20.777 Most Demanding Sprinkler Data System 5194 MAIN GORE DRIVE SVAIL, CO. 81657 Job Site/Building VAIL FIRE5194 MAIN GORE DRIVE S AHJ 12-0325194 MAIN GORE DRIVE S Job State Certification/License NumberJob Name: STEVE ALLENCH0152 Contractor Contractor Number 032 Name of Contractor: WESTERN STATES FIRE PROTECTION Address 1 274 CENTER DRIVE Address 2 Contact NameContact Title PM ExtensionPhone 720-219-0574 FAX 303-792-9049 E-mail STEVE.ALLEN@WSFP.US Web-Site STEVE ALLEN Address 3 GLENWOOD SPRINGS, CO 80601 Address 1 Address 2 Drawing Name 5194 Main Gore Drive S - DESIGN 2.cad System Flow Demand 81.54 Remote Area(s) Address 3 VAIL, CO. 81657 10/02/2012© M.E.P.CAD, Inc.Page 1AutoSPRINK® VR8 v8.1.1110:07:18AM Pipe TypeDiameterFlowVelocityFriction LossLengthPressure DownstreamElevationDischargeK-FactorPtPnFittingsEq. LengthSummary Upstream Total Length HWC Hydraulic Analysis Job Number: CH0152 Report Description: BONUS ROOM CALC AREA • • • • • Route 1 • • • • • Pf Pe Pv DR1.101019.606.600.06554518'-61.868 10135'-619.604.320.777Sprinkler,10'-0-0.217 1336'-022.428E(5'-0), T(5'-0)28'-6 150 Pf Pe Pv CM1.101039.5513.330.2402170'-60.120 1336'-019.9522.428Flow (q) from Route 3 1236'-022.5480'-6 150 Pf Pe Pv CM1.101059.4820.040.51103710'-05.110 1236'-019.9322.548Flow (q) from Route 2 1136'-027.65810'-0 150 Pf Pe Pv CM1.101081.5427.480.9160637'-0¾24.800 1136'-027.65820'-0 1036'-052.4583E(5'-0), T(5'-0)27'-0¾ 150 Pf Pe Pv CM1.394081.5417.140.2903150'-5½0.132 1036'-052.458 936'-052.5900'-5½ 150 Pf Pe Pv FR1.394081.5417.140.29031510'-8½4.851 936'-052.5906'-04.644 825'-3½62.085C(6'-0)16'-8½ 150 Pf Pe Pv FR1.394081.5417.140.29031510'-3½4.730 825'-3½62.0856'-04.462 715'-071.276T(6'-0)16'-3½ 150 Pf Pe Pv CM1.394081.5417.140.29031512'-7¼7.143 715'-071.27612'-0 615'-078.4192T(6'-0)24'-7¼ 150 Pf Pe Pv FM2.009081.548.250.04896910'-10¼14.790 615'-078.41915'-63.468 57'-096.678 4Tr(1'-0), sCV, cplg(1'-0), f(-0.000), 3E(3'-6), BFP(-13.500) 26'-4¼ 150 Pump Velocity 581.5496.678Rating: 67.000 @ 80.00 430.481Churn Pressure: 80.900Q=81.548.25 Pf Pe Pv FM2.009081.548.250.0489693'-5½2.635 47'-030.4819'-60.217 36'-633.333 Tr(1'-0), sCV, PRV(-2.000), T(5'-0), E(3'-6) 12'-11½ 150 Pf Pe Pv UG1.959081.548.680.05536380'-04.540 36'-633.3332'-0 26'-637.873EE(2'-0)82'-0 150 Pf Pe Pv UG4.220081.541.870.001498450'-00.674 26'-637.873Supply, 16'-638.547450'-0 140 81.54 0.00Hose Allowance At Source 1 • • • • • Route 2 • • • • • Pf Pe Pv DR1.101019.936.720.0675969'-01.284 10235'-619.934.321.480Sprinkler,10'-0-0.217 1236'-022.548E(5'-0), T(5'-0)19'-0 150 • • • • • Route 3 • • • • • Pf Pe Pv DR1.101019.956.720.0677321'-61.118 10335'-619.954.321.527Sprinkler,15'-0-0.217 1336'-022.4282E(5'-0), T(5'-0)16'-6 150 • • • • • Route 4 • • • • • Pf Pe Pv DR1.101022.067.430.0815879'-01.550 10435'-622.064.326.325Sprinkler,10'-0-0.217 1136'-027.658E(5'-0), T(5'-0)19'-0 150 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.10/02/2012Page 1AutoSPRINK® VR8 v8.1.1110:02:57AM Pipe TypeDiameterFlowVelocityFriction LossLengthPressure DownstreamElevationDischargeK-FactorPtPnFittingsEq. LengthSummary Upstream Total Length HWC Hydraulic Analysis Job Number: CH0152 Report Description: BONUS ROOM CALC AREA 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.10/02/2012Page 2AutoSPRINK® VR8 v8.1.1110:02:57AM Device (gpm) Actual FlowMinimum Flow (gpm)(K) K-Factor (psi) Pressure Summary Of Outflowing Devices Report Description: BONUS ROOM CALC AREA Job Number: CH0152 Sprinkler10119.6019.604.320.777 Sprinkler10219.9319.604.321.480 Sprinkler10319.9519.604.321.527 Sprinkler10422.0619.604.326.325 Most Demanding Sprinkler Data © M.E.P.CAD, Inc.10/02/2012Page 2AutoSPRINK® VR8 v8.1.1110:06:40AM Hydraulic Graph Report Description: BONUS ROOM CALC AREA Job Number: CH0152 System Demand (Including Hose Allowance at Source) System Demand 27.000 @ 965.00 Residual: Pressure 60.000 Static: Pressure Supply at Node 1 Hydraulic Graph Supply at Node 1 38.547 @ 81.54 38.547 @ 81.54 Available Pressure at Time of Test 59.659 @ 81.54 © M.E.P.CAD, Inc.10/02/2012Page 1AutoSPRINK® VR8 v8.1.11 10:18:57AM IT T Goulds Pumps 3656/3756 S-Group Cast Iron, Bronze Fitted Centrifugal Pumps Bombas centrífugas en hierro fundido con accesorios de bronce Goulds Pumps is a brand of ITT Residential and Commercial Water. Goulds Pumps es una marca de fábrica de ITT Agua Residencial y Comercial. www.goulds.com Engineered for life Commercial Water N/A PAGES REMOVED FOR CLAIRITY GOULDS PUMPSCommercial Water A Full Range of Product Features The 3656 and 3756 S-Group pumps from Goulds have been designed with technical benefits to meet the needs of users in a variety of water supply, recircula- tion, and cooling applications. • The model 3656 offers close coupled design for space saving and simplified maintenance. • The model 3756 offers a bear- ing frame mounted design for flexibility of installation and drive arrangements. • Back pull-out to reduce mainte- nance down time. • Standard Type 21 mechanical seal for both reliability and availability. Carbon/ceramic/ BUNA standard, with other faces and elastomers available. • 3656/3756 available in all iron, bronze fitted or all bronze construction for application versatility. • Replaceable wearing compo- nents include stainless steel shaft sleeve and casing and hub wear rings to maintain peak efficiency. • Packed box sealing is also avail- able as an option. • Enclosed impeller design, dy- namic balancing and renewable wear rings reduce losses affect- ing performance and pump life. • Suction and discharge pipe connections are NPT threaded, except 3 x 4 – 7 which has 125 lb. ANSI flat faced flanges. • Rigid cast iron motor adapter provides support and registered fits maintain positive unit alignment. • Standard NEMA motor frame, JM or JP shaft extension, C-face mounting, single phase or three phase, 3500 or 1750 RPM. Open drip proof and totally enclosed fan cooled. • Optional explosion proof or high efficiency motors available. • Optional rigid carbon steel bedplate, sheet metal coupling guard and T. B. Woods spacer coupling for 3756 models. Las bombas 3656 y 3756 del Grupo S de Goulds han sido diseñadas con beneficios técnicos para satisfacer las necesidades de los usuarios en variadas aplicaciones de suministro y recirculación de agua y aplicaciones de refrigeración. • El modelo 3656 cuenta con diseño de acoplamiento corto para ahorrar espacio y simplificar el mantenimiento. • El modelo 3756 cuenta con diseño de montaje sobre bastidor que ofrece gran flexibilidad en los arreglos de instalación y accionamiento. • Desmontaje posterior que reduce el tiempo de inactividad por mantenimiento. • Sello mecánico estándar Tipo 21, brinda gran confiabilidad y asegura la disponibilidad. Estándar de carbono/cerámica/ BUNA, también se encuentran disponibles con otras caras y elastómeros. • Los modelos 3656 y 3756 se fabrican en todo hierro, con accesorios de bronce o en todo bronce, para una mayor versatilidad de aplicación. • Los componentes de desgaste reemplazables incluyen los anillos de desgaste de la carcasa y del rodete y la camisa del eje, de acero inoxidable, para mantener la eficiencia pico. • El diseño de impulsor encerrado, balanceo dinámico y anillos de desgaste reemplazables reducen las pérdidas que afectan el desempeño y la vida de la bomba. • Las conexiones de succión y descarga son roscadas NPT, con excepción de la bomba de 3 x 4 – 7, que cuenta con bridas de cara lisa ANSI de 125 lbs. • El adaptador rígido del motor, de hierro fundido, ofrece soporte y los montajes registrados mantienen el alineamiento positivo de la unidad. • Motor con bastidor NEMA estándar, extensión de eje JM, montaje en cara C, monofásico o trifásico, 3500 ó 1750 RPM. Abierto a prueba de filtraciones o totalmente encerrado enfriado por ventilador. • Motores a prueba de explosiones y de alta eficiencia disponibles como opción. • Placa de asiento rígida de acero al carbono, protector de acoplamiento de chapa metálica y acoplamiento espaciador T. B. Woods disponibles como opción en los modelos 3756. Una amplia gama de variadas características Goulds Pumps is ISO 9001 Registered. GOULDS PUMPSCommercial Water Performance Coverage Curvas de desempeño 60 0 120 180 240 METERSMETROS 0 20 40 60 80 m3⁄hr U.S. GPM GALLONS PER MINUTE (GALONES POR MINUTO) 0 10020604080 8003000100600400700200500 120 140 160 180 TO TA L DY NA M I C H E A D (C A R G A D I N Á M I C A T O T AL ) FEETPIES 11/2 x 2 – 8 300 1 x 2 – 8 1 x 2 – 7 21/2 x 3 – 7 3 x 4 – 7 11/2 x 2 – 611/2 x 2 – 6H 3500 Coverage Curve, Curva de alcance 3500 1750 Coverage Curve, Curva de alcance 1750 0 40 60 80 METERSMETROS 0 10 30 20 m3⁄hr U.S. GPM GALLONS PER MINUTE (GALONES POR MINUTO) 0 5010302040 400150050300200350100250 60 70 80 90 450 100 20 FEETPIES TO TA L DY NA M I C H E A D (C A R G A D I N Á M I C A T O T AL ) 11/2 x 2 – 8 1 x 2 – 8 1 x 2 – 7 3 x 4 – 721/2 x 3 – 7 11/2 x 2 – 6 / 11/2 x 2 – 6H GOULDS PUMPSCommercial Water 3656/3756 S-Group Numbering System For All Units Built After June 1, 1998 Sistema de numeración del Grupo S, modelos 3656/3756, para todas las unidades fabricadas luego del 1° de junio de 1998 The various versions of the 3656 and 3756 S-Group are identified by a prod- uct code number on the pump label. This number is also the catalog number for the pump. The meaning of each digit in the product code number is shown below. Not all combinations of motor, impeller and seal options are available for every pump model. Please check with Goulds on non-cataloged numbers. Not recommended for operation beyond printed H-Q curve. For critical applica- tion conditions consult factory. Las diferentes versiones de los modelos 3656 y 3756 del Grupo S se identifican con un número de código de producto en la etiqueta de la bomba. Este núme- ro es también el número de catálogo de la bomba. A continuación se ilustra el significado de cada dígito en el código del producto. No todas las combinaciones de motor, impulsor y sellos están disponibles para cada modelo. Consulte a Goulds sobre números que no aparecen en el catálogo. No se recomienda la operación más allá de la curva impresa de H-Q (carga- capacidad). Para aplicaciones bajo condiciones críticas, consulte con la fábrica. 22BF 9BF 3BF 5BF 4BF 6BF 1 x 2 – 7 1 x 2 – 8 1½ x 2 – 6 1½ x 2 – 6H 1½ x 2 – 8 2½ x 3 – 7 3 x 4 – 7 Dia. Dia. Dia. Dia. Dia. Dia. Dia. A 6¾" 81⁄16" 515⁄16" 515⁄16" 81⁄16" 71⁄16" 71⁄16" B 67⁄16 7 5⁄8 55⁄8 55⁄8 75⁄8 67⁄8 63⁄8 C 6 75⁄16 51⁄8 6¾ 69⁄16 5½ D 5¾ 7 4¾ 5¾ 6 411⁄16 E 5½ 6½ 7¾ 511⁄16 51⁄8 F 51⁄16 63⁄16 7 57⁄16 6 G 413⁄16 53⁄8 6¼ 53⁄16 H 49⁄16 51⁄8 61⁄8 4¾ J 43⁄8 4½ K 41⁄16 41⁄16 L 313⁄16 Driver, Elemento motor 1 = 1 PH, fase, ODP 4 = 1PH, fase, TEFC 7 = 3 PH, fases, XP 0 = 1 PH, fase, XP 2 = 3 PH, fases, ODP 5 = 3 PH, TEFC 8 = 575 V, XP 3 = 575 V, ODP 6 = 575 V, TEFC 9 = 3 PH, fases, TEFC, PREFF 1 PH, fase = Monofásico; 3 PH, fases = Trifásico HP Rating, Potencia nominal, HP C = ½ HP F = 1½ HP J = 5 HP M = 15 HP D = ¾ HP G = 2 HP K = 7½ HP N = 20 HP E = 1 HP H = 3 HP L = 10 HP Driver: Hertz/Pole/RPM, Elemento motor: Hertz/Polos/RPM 1 = 60 Hz, 2 pole, 3500 RPM 4 = 50 Hz, 2 pole, 2900 RPM 2 = 60 Hz, 4 pole, 1750 RPM 5 = 50 Hz, 4 pole, 1450 RPM 3 = 60 Hz, 6 pole, 1150 RPM Material, Material BF = Bronze fitted, Accesorios de bronce AI = All iron, Todo hierro AB = All bronze, Todo bronce Pump Size, Tamaño de bomba 3 = 1 ½ x 2 – 6(H) 5 = 1½ x 2 – 8 9 = 1 x 2 – 8 4 = 2½ x 3 – 7 6 = 3 x 4 – 7 22 = 1 x 2 – 7 Example Product Code, Ejemplo del código de producto 9 BF 1 H 2 G 0 Mechanical Seal and O-ring, Sello mecánico y anillo en O Impeller Option Code, Código de opción de impulsor H High Head Impeller (1½ x 2 – 6H Only), Impulsor de carga alta (1½ x 2 – 6H únicamente) The 1 x 2 – 8 and 1 x 2 – 7 are only available in Bronze Fitted. Los tamaños 1 x 2 – 8 y 1 x 2 – 7 están disponibles con accesorios de bronce únicamente. For frame mounted version, substitute the letters “FRM” in these positions. Para las versiones de montaje en bastidor, reempla- zar las letras en esta ubicación con “FRM”. Impeller Code, Código del impulsor 0 Carbon, Ceramic, Cerámica BUNA-N 10K13 1 Carbón Sil-Carbide, EPR 10K19 3 Carburo de Viton 10K27 5 Sil-Carbide silicona 10K64 9 Packed Box Design with BUNA O-Ring, Diseño de prensaestopas empacado con anillo en O de BUNA 15K16 Note: 10K27 replaces obsolete 10K25, Nota: La 10K27 reemplace la obsoleta 10K25. Seal Code, Código del Sello Stationary, Estacionario Type 21 Mechanical Seal, Tipo 21 sello mecánico Elastomers, Elastómeros 316 SS, 316 Acero inoxidable Metal Parts, Partes Metálicas Rotary, Rotativo Part No., Pieza Número 22 BF 1 J 1 A O GOULDS PUMPSCommercial Water Performance Curves – 60 Hz, 3500 RPM Curvas de desempeño – 60 Hz, 3500 RPM These curves show the performance of the 3656 and 3756 at 3500 RPM and 1750 RPM, 60 Hz, and at 2900 RPM and 1450 RPM, 50 Hz. Standard impeller trims are shown. Estas curvas ilustran el desempeño de los modelos 3656 y 3756 operando a 3500 RPM y 1750 RPM en 60 Hz, y a 2900 RPM y 1450 RPM en 50 Hz. Se muestran los diámetros de impulsor estándar. Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A 6¾" B 67⁄16 C 6 D 5¾ E 5½ F 51⁄16 G 413⁄16 H 49⁄16 J 43⁄8 K 41⁄16 L 313⁄16 NOTE: Pump will pass a sphere to 3⁄16" diameter. NOTA: La bomba dejará pasar una esfera de hasta 3⁄16 de pulgada de diámetro. Model 3656/3756 S-Group 3500 RPM 22 BF / Size (Tamaño) 1 x 2 – 7 Imp. Dwg. CN0724R00 NOTE: Not recommended for operation beyond printed H-Q curve. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). D 53/4 A 63/4'' DIA. B 67/16 C 6 E 51/2 F 51/16 G 413/16 H 49/16 J 43/8 K 41/16 L 313/16 58% NPSH FEET (PIES)40% EFF 46%50%56% 50% 8' 10' 5 HP 20' 3 HP 2 HP 1 HP 1.5 HP 54% 54% 46% 0 20 80 100 60 40 0 0 800 m3⁄hr U.S. GPM 25 6040 5 15 20 100 120 140 120 10 20 160 180 10 20 30 40 50 60% 58% METERSMETROS FEETPIES TO TA L DY NA M I C H E A D (C A R G A D I N Á M I C A T O T AL ) CAPACITY (CAPACIDAD) 60% 56% 6' Model 3656/3756 S-Group 3500 RPM 9 BF / Size (Tamaño) 1 x 2 – 8 ODP & TEFC Imp. Dwg. CN0721R00 NOTE: Not recommended for operation beyond printed H-Q curve. NOTA: No se recomienda la operación más allá de la curva impresa de H-Q (carga-capacidad). 0 50 0 90 0 10060200 m3⁄hr U.S. GPM 25 10 40 80 110 300 200 250 80 70 703050 90 20515 150 100 60 50 40 30 20 10 METERSMETROS FEETPIES TO TA L DY NA M I C H E A D (C A R G A D I N Á M I C A T O T AL ) CAPACITY (CAPACIDAD) 10 NPSHR-FT (PIES) 4'30 35 40 45 50% EFF 10' 6' 10 H P 7.5 H P 5 H P 3 H P A 81/16'' DIA. C 75/16'' E 61/2'' G 53/8'' D 7'' F 63/16'' H 51/8'' B 7 5/8'' 50 Optional Impeller Impulsor optativo Ordering Code Dia. Código de pedido Diá. A 8 1⁄16" B 75⁄8" C 7 5⁄16 D 7 E 6½ F 63⁄16 G 53⁄8 H 51⁄8 NOTE: Pump will pass a sphere to 3⁄16" diameter. NOTA: La bomba dejará pasar una esfera de hasta 3⁄16 de pulgada de diámetro. 1GOULDS PUMPSCommercial Water CP DC Wt. (lbs.) Motor Frame Size, Bastidor Pump Suction Discharge Max. Max. DD R W X Y Z Pesos 140 180 210 250 Bomba Succión Descarga (libras) L 1 x 2 – 7 1 27 3½ 11⁄16 41⁄8 5½ 3 4 52 10 10¾ — — 1 x 2 – 8 2 4¼ 4 315⁄16 5¾ 33⁄16 4¼ 52 — — 1½ x 2 – 6 1½ 23¾ 3½ 1¼ 4½ 25⁄8 3½ 34 9¾ 10½ — — 1½ x 2 – 8 271⁄8 53⁄8 45⁄8 4¼ 5 4¼ 54 113⁄8 115⁄8 2½ x 3 – 7 3 2½ 255⁄8 51⁄8 4½ 113⁄16 6 3 4 49 101⁄8 10¾ 11¾ — 3 x 4 – 7 4* 3* 25¼ 5¾ 51⁄8 3¾ 43⁄8 2½ 4½ 82 9¾ 103⁄8 113⁄8 — 3656 S-Group Dimensions and Weights Grupo S, modelo 3656 - Peso y dimensiones NOTE: All pumps shipped in vertical discharge position. May be rotated in 90º increments. Tighten casing bolts to 25 ft./lbs. torque. NOTA: Todas las bombas se embarcan con la descarga en posición vertical. Esta posición puede rotarse en incrementos de 90°. Ajustar los pernos de la carcasa a una torsión de 25 pies/libras. ABMAX.Z R X D G E E A 1⁄4" NPT DCMAX DD Y W L F F B CP MAX. P MAX. H - 4 HOLES4 ORIFICIOS Motor Frame 3500 RPM 1750 RPM Bastidor 1 Phase 3 Phase 1 Phase 3 Phase del motor ODP TEFC ODP TEFC ODP TEFC ODP TEFC 143 — ¾, 1, 1½ ¾, 1, 1½ ¾, 1, 1½ — ½, ¾ ½, ¾, 1 ½, ¾, 1 145 — 2 2, 3 2, 3 — 1, 1½ 1½, 2 1½, 2 182 3 3 5 3 3 2, 3 3 3 184 5 3, 5 7½ 5 — — 5 5 213 7½ — 10 7½ 5 — 7½ 7½ 215 10 — 15 10, 15 — — — — 254TCZ — — 20 — — — — — 256TCZ — — 25 20, 25 — — — — All dimensions in inches and weights in lbs. Do not use for construction purposes. Todas las dimensiones están en pulgadas, el peso en libras. No utilizar para fines de construcción. Motor Frames and Horsepower Bastidores del motor y potencia en HP Pump Dimensions and Weights (Dimension “L” determined by Pump and Motor) Peso y dimensiones de la bomba (la dimensión “L” está determinada por la bomba y el motor) DISCHARGE DESCARGA SUCTION SUCCIÓN Frame Size JM AB P Weight (lbs.) Tamaño del A B D E F G H (Max.) bastidor JM (Max.) Pesos (libras) 143 2 41 145 6½ 5¼ 6 3½ 2¾ 2½ 1⁄8 11⁄32 65⁄8 57 182 2¼ 77 184 8½ 57⁄8 6½ 4½ 3¾ 2¾ 3⁄16 13⁄32 77⁄8 97 213 2¾ 122 215 9½ 73⁄8 8 5¼ 4¼ 3½ 7⁄32 13⁄32 95⁄8 155 254 TCZ 9½ 41⁄8 265 256 TCZ 11¼ 9 11¾ 6¼ 5 5 ¼ 17⁄32 11½ 320 Mechanical Seal Sello mecánico Motor Dimensions and Weights (may vary with manufacturer)* Peso y dimensiones del motor (pueden variar de acuerdo al fabricante) * *For use with ANSI class 150 mating flange. All others are NPT connections. * Para uso con brida de contacto ANSI clase 150. Todas las demás son conexiones NTP. GOULDS PUMPSCommercial Water Specifications Especificaciones Typical Applications Aplicaciones típicas Capacities to: 550 GPM (125 m3/hr) at 3500 RPM 350 GPM (79 m3/hr) at 1750 RPM Heads to: 280 feet TDH (85 m) at 3500 RPM 67 feet TDH (20 m) at 1750 RPM Working pressure to: 175 PSIG (12 bars) Suction pressure to: 100 PSIG (7 bars) Maximum temperature to: 212°F (100°C) with standard seal or 250°F (121°C) with optional seal. Motor: NEMA standard JM frame or JP frame for 3656 or T-frame for 3756. Open drip-proof, totally enclosed fan cooled and explo- sion proof enclosures available. Single phase (115/208 – 230 V), ½ to 3 HP (208 – 230 V) 5 HP and (230V only) on 7½, 10 HP. Three phase (208 – 230/460 V) standard note that 20 and 25 HP are (230/460 V). Direction of Rotation: Clockwise viewed from motor end. • Booster service • Spraying systems • Irrigation • Water circulation • Liquid transfer • General purpose pumping Capacidad hasta: 550 GPM (125 m 3/hr) a 3500 RPM 350 GPM (79 m 3/hr) a 1750 RPM Cargas hasta: 280 pies (85 m) carga dinámica total a 3500 RPM 67 pies (20 m) carga dinámica total a 1750 RPM Presión de operación hasta: 175 PSIG (12 bars) Presión de succión hasta: 100 PSIG (7 bars) Temperatura máxima: 212 °F (100 °C) con sello estándar o 250 °F (121 °C) con sello optativo. Motor: Bastidor NEMA JM estándar en el modelo 3656 y bastidor NEMA T estándar en el modelo 3756. Las cubiertas disponibles son: abierta a prueba de filtración, totalmente encerrada con enfriamiento por ventilador y a prueba de explosio- nes. Monofásico (115/208 – 230 V), ½ a 3 HP; (208 – 230 V) 5 HP y (230 V solamente) 7½ a 10 HP. Trifásico (208 – 230/460 V) estándar. Los motores de 20 a 25 HP son de 230/460 V. Dirección de rotación: Dextrorsa (sentido de las agujas del reloj) cuando se mira desde el extremo del motor. • Servicio de refuerzo • Sistemas de rociado • Sistemas de riego • Circulación de agua • Transferencia de líquidos • Aplicaciones de bombeo en general IT T Commercial Water Goulds Pumps and the ITT Engineered Blocks Symbol are registered trademarks and tradenames of ITT Corporation. Goulds Pumps y el símbolo ITT Engineered Blocks son marcas registradas y marcas comerciales de ITT Corporation. SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE. LAS ESPECIFICACIONES ESTÁN SUJETAS A CAMBIO SIN PREVIO AVISO. 36/3756S October (Octubre), 2006 © 2006 ITT Corporation Engineered for life 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 . H Bulletin 035 Rev. H 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 number 6,516,893 Model F1 Res 49 Product Description for F1 Res Sprinklers Model F1 Res Pendent sprinklers are fast response sprinklers combining excellent durability, high sensitivity glass-bulb and low profile decorative design. The F1 Res Horizontal Sidewall sprinklers are equally attractive when above ceiling piping cannot be used. The 3mm glass-bulb pendent sprinklers, with a K Factor of 4.9 & 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 deflec- tor, 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. Model F1 Res 49 Pendent & F1 Res 49 Recessed Pendent/F2 & F1 Res 49 CCP Pendent, Model F1 Res 58 Pendent & F1 Res 58 Recessed Pendent/F2 & F1 Res 58 CCP Pendent, RFC 43 & RFC 49 Pendent Flat Concealed Sprinklers installed below Sloped Ceilings. Note: F1 Res 49 CCP Pendent, RFC 43 and RFC 49 sprinklers are not suitable for installation in ceilings which have positive pressure in the space above. F1 Res 49 & 58 Pendent F1 Res 49 & 58 Recessed Pendent / F2 F1 Res 49 & 58 CCP Pendent RFC 43 & RFC 49 RFC 43 & RFC 49 4. 5. Sprinkler spacing below multiple sloped ceilings with a maximum slope of 8/12 (33.7°) pitch. 6. Model F1Res 49 Pendent & F1 Res 49 Recessed Pendent/F2 installed below Sloped Ceiling. Technical Data Thread Size Max. Pressure psi (bar) Max. Ambient Temp. °F (°C) Actual K Factor (metric) Sprinkler Length Escutcheon Sprinkler Identiﬁ cation Number (SIN) ½” NPT (R½)175 (12)100 (38)4.9 (69,94)2.25” (57mm)F2 (1/2“ Adjustment)R3516 Table 1 - 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) Sprinkler Temp. Rating °F (°C) 155 (68) & 175 (79) 155°F (68°C)175°F (79°C)155°F (68°C) 175°F (79°C) Min. Flow Per Sprinkler Head gpm (Lpm) Pressure psi (bar) 12 x 12 (3,6 x 3,6) 13 (49)13 (49)7.0 (0,48)7.0 (0,48)13 (49)7.0 (0,48) 14 x 14 (4,3 x 4,3) 13 (49)13 (49)7.0 (0,48)7.0 (0,48)13 (49)7.0 (0,48) 16 x 16 (4,9 x 4,9) 13 (49)13 (49)7.0 (0,48)7.0 (0,48)13 (49)7.0 (0,48) 18 x 18 (5,5 x 5,5) 17 (64,3)18 (68,2)12.0 (0,83)13.5 (0,93)18 (68,3)13.5 (0,93) 20 x 20 (6,1 x 6,1) 20 (75,7)21 (79,5)16.7.(1,15)18.4 (1,28)20 (75,7)16.7 (1,15) Model F1Res 49 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)4.9 (69,94)2.25” (57mm)R3516 Table 2 - 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)14 (53)8.2 (0,57)13 (49)7.0 (0,48) 14 x 14 (4,3 x 4,3)14 (53)8.2 (0,57)13 (49)7.0 (0,48) 16 x 16 (4,9 x 4,9)14 (53)8.2 (0,57)14 (53)8.2 (0,56) 18 x 18 (5,5 x 5,5)23 (87)22 (1,52)20 (75,7)17 (1,17) 20 x 20 (6,1 x 6,1)23 (87)22 (1,52)21 (75,7)17 (1,17) Model F1Res 58 Pendent & F1 Res 58 Recessed Pendent/F2 installed below Sloped Ceiling. Technical Data Thread Size Max. Pressure psi (bar) Max. Ambient Temp. °F (°C) Actual K Factor (metric) Sprinkler Length Escutcheon Sprinkler Identiﬁ ca- tion Number (SIN) ½” NPT (R½)175 (12)100 (38)5.8 (83,38)2.25” (57mm)F2 (1/2“ Adjustment)R3513 Table 3 - 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) 155°F (68°C)175°F (79°C)155°F (68°C)175°F (79°C)155°F (68°C)155°F (68°C) 12 x 12 (3,6 x 3,6) 21 (79.5) 23 (87)13.1 (0,9)15.7 (1,1) 14 x 14 (4,3 x 4,3) 21 (79.5) 23 (87)13.1 (0,9)15.7 (1,1) 16 x 16 (4,9 x 4,9) 21 (79.5) 23 (87)13.1 (0,9)15.7 (1,1) 18 x 18 (5,5 x 5,5) 23 (87)15.7 (1,1)20 (75,7)12 (0,83) 20 x 20 (6,1 x 6,1) 23 (87)15.7 (1,1)20 (75,7)12 (0,83) 7. 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 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 Juris- diction regarding the number of design sprinklers 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. 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. 1. 2. 3. 4. 5. 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 de- flectors 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. 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. 6. 7. 8. a. b. 8. FLOW 19.6GPM FOR .1 DENSITY 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 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 in- dicated by the individual listings (that already will provide a minimum density of 0.1 gpm/ft2); or (2) A calculated value based on delivering a mini- mum of 0.1 gpm/ft2 over the design area. Because of the varied nature of residential construc- tion features, there will be some compartment designs which cannot be fully sprinklered in accordance with c. 9. 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 SER- VICE FOR FIRE PROTECTION. Removal of the pro- tectors before this time may leave the bulb vulnerable to damage. RASCO wrenches are designed to install sprinklers when covers are in place. REMOVE PRO- TECTORS BY UNDOING THE CLASP BY HAND. DO NOT USE TOOLS TO REMOVE THE PROTECTORS. 10. HSW Sprinkler spacing below multiple sloped ceilings with a maximum slope of 8/12 (33.7°) pitch. 10. HSW sprinkler spacing below single sloped ceilings with a maximum slope of 8/12 (33.7°) pitch. Table 8 - Application Max. Sprinkler Spacing Along Slope (W) Width x ( L) Length ft (m) Max. Slope of 8/12 (33.7°) Pitch Discharge Directed Down the Slope 4” to 6” Deﬂ ector to Ceiling Discharge Directed Down the Slope 6” to 12” Deﬂ ector to Ceiling (2)(3)Discharge Directed Across the Slope 4” to 12” Deﬂ ector to Ceiling (1) Min. Flow gpm (Lpm) Pressure psi (bar) (1) Min. Flow gpm (Lpm) Pressure psi (bar) (1) Min. Flow gpm (Lpm) Pressure psi (bar) 12 x 12 (3,6 x 3,6)12 (45,4)7.5 (0,52)14 (53,0)10.2 (0,71)16 (60,6)13.3 (0,92) 14 x 14 (4,3 x 4,3)14 (53,0)10.2 (0,71)16 (60,6)13.3 (0,92)16 (60,6)13.3 (0,92) 16 x 16 (4,9 x 4,9)16 (60,6)13.3 (0,92)17 (64,4)15 (1,04)16 (60,6)13.3 (0,92) 16 x 18 (4,9 x 5,5)18 (68,1)16.8 (1,16)20 (75,6)20.7 (1,43) 16 x 20 (4,9 x 6,1)23 (72,0)27.4 (1,89)23 (87,1)27,4 (1,89) (1) Minimum flow per sprinkler gpm (Lpm). (2) Minimum 3 head design in a compartment. (3) 155°F only. 11. Model F1RES 44 HSW & F1RES 44 HSW Recessed HSW/F2 installed below Sloped Ceiling. Technical Data Thread Size Sprinkler Temp. Rating °F (°C) Max. Pressure psi (bar) Max. Ambient Temp. °F (°C) Actual K Factor (metric) Sprinkler Lenght Escutcheon Sprinkler Identiﬁ cation Number (SIN) ½” NPT (R½)155 (68) 175 (79)175 (12)100 (38)4.4 (62,8)2.45” (62mm) F2 (½” Adjustment)R3531 Table 7 - Application Max. Sprinkler Spacing Along Slope (W) Width x ( L) Length ft (m) Max. Slope of 4/12 (18.4°) Pitch Discharge Directed Across the Slope 4” to 6” Deﬂ ector to Ceiling Discharge Directed Across the Slope 6” to 12” Deﬂ ector to Ceiling Min. Flow gpm (Lpm)Pressure psi (bar)Min. Flow gpm (Lpm)Pressure psi (bar) 12 x 12 (3,6 x 3,6)16 (60,5)13.3 (0,92)17 (64,3)15 (1,04) 14 x 14 (4,3 x 4,3)16 (60,5)13.3 (0,92)17 (64,3)15 (1,04) 16 x 16 (4,9 x 4,9)16 (60,5)13.3 (0,92)17 (64,3)15 (1,04) 16 x 18 (4,9 x 5,5)18 (68,1)16.8 (1,16)20 (75,6)20.7 (1,43) 16 x 20 (4,9 x 6,1)23 (68,1)27.4 (1,89)23 (68,1)27,4 (1,89) 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 Juris- diction regarding the number of design sprinklers for sloped ceilings having pitch greater than (9.4°). Installation of UL Listed residential sprinklers under sloped ceilings shall be limited to a type of unobstruct- ed construction consisting of flat, smooth ceilings, as defined by NFPA 13, having a maximum pitch of 4/12 (18.4°) or 8/12 (33.7°). Where listed, install horizontal sidewall sprinklers along the wall below the sloped ceiling when dis- charge is directed across the slope, and install at the peak below the sloped ceiling when discharge is directed down the slope. Always align the sprinkler deflector parallel with the direction of the sloped ceil- ing. Residential HSW sprinklers located closed to the peak of the ceiling shall have the deflectors located not more than 3 ft. (1m) vertically down from the peak. Spacing of residential HSW sprinklers under sloped ceilings is measured along the slope when determin- ing the distance off of walls and between sprinklers. 1. 2. 3. 4. 5. Measure listed areas of coverage along the sloped ceiling. The actual floor coverage area will be less than the listed area. For coverage areas less than the listed coverage area shown in Tables 1 through 6, use the minimum flow requirement for next largest listed coverage area. Minimum spacing between horizontal sidewall sprin- klers is 8 ft. (2.4 m). Minimum distance from a hori- zontal sidewall sprinkler and an adjacent wall is 4” (102 mm). 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. 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. 6. 7. 8. 9. a. b. FLOW 19.6GPM FOR .1 DENSITY 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 in- dicated by the individual listings (that already will provide a minimum density of 0.1 gpm/ft2); or (2) A calculated value based on delivering a mini- mum of 0.1 gpm/ft2 over the design area. Because of the varied nature of residential construc- tion features, there will be some compartment designs which cannot be fully sprinklered in accordance with c. 10. Fig. 7 12. 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 SER- VICE FOR FIRE PROTECTION. Removal of the pro- tectors before this time may leave the bulb vulnerable to damage. RASCO wrenches are designed to install sprinklers when covers are in place. REMOVE PRO- TECTORS BY UNDOING THE CLASP BY HAND. DO NOT USE TOOLS TO REMOVE THE PROTECTORS. 11. Model F1 res 49 Pendent, F1 Recessed Pendent/F2, F1Res 49 Concealed (CCP), RFC 49 and RFC 43 installed below sloped ceiling with a maximun slope of 8/12 (33.7°) pitch. Table 9 - Application Model K - Factor (metric) Max. Spacing Ft. x Ft (m x m) Min. Flow/Pressure gpm (lpm) / psi (bar) Sprinkler Temperature Rating °F (°C) Coverplate Temperature Rated°F (°C) F1 Res 49Pendent 4.9 (69,94)10 x 10 (3 x 3)13(49) / 7.0(0,48)155 (68)-- F1 Res 49 Reccesed Pendent/F2 4.9 (69,94)10 x 10 (3 x 3)13(49) / 7.0(0,48)155 (68)-- F1 Res 49CCP Pendent 4.9 (69,94)10 x 10 (3 x 3)13(49) / 7.0(0,48)155 (68)135 (57) RFC49Pendent 4.9 (69,94)10 x 10 (3 x 3)14(53) / 8.2(0,57)165 (74)135 (57) RFC43Pendent 4.3 (61,4)10 x 10 (3 x 3)18(68) / 17.5(1,21)165 (74)135 (57) 13.  Fig. 8 Hydraulic Requirements: For UL1626A, the number of design sprinklers shall include up to a maximum of two sprinklers that requires the greatest hydraulic demand. 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 SER- VICE FOR FIRE PROTECTION. Removal of the pro- tectors before this time may leave the bulb vulnerable to damage. RASCO wrenches are designed to install sprinklers when covers are in place. REMOVE PRO- TECTORS BY UNDOING THE CLASP BY HAND. DO NOT USE TOOLS TO REMOVE THE PROTECTORS. A maximum distance from the floor to the ceiling peak of 24 ft. A maximum of two sprinklers installed within 3 ft. verti- cally of the peak. Installation is for smooth, flat ceilings only that do not extend into or serve as a ceiling for an upper level floor in the structure. 8. a. 9. 10. 11. 12. Installation Guidelines per UL1626A 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 Juris- diction regarding the number of design sprinklers for sloped ceilings having 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 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. For coverage areas less than the listed coverage area shown in Tables 8, use the minimum flow requirement listed. 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). Reidential sprinklers located closest to the peak of the ceiling shall have the deflectors located not more than 3 ft (1 m) vertically down from the peak. Align de- flectors parallel with the ceiling slope 1” to 4” (25mm to 102mm) below the slope ceiling. 1. 2. 3. 4. 5. 6. 7. The Reliable Automatic Sprinkler Co., Inc. (800) 431-1588 Sales Offices (800) 848-6051 Sales Fax (914) 829-2042 Corporate Offices www.reliablesprinkler.com Internet Address Manufactured by Recycled Paper Revision lines indicate updated or new data. EG. Printed in U.S.A 11/09 P/N 9999970245 The equipment presented in this bulletin is to be installed in accordance with the latest published Standards of the National Fire Protection Association, Factory Mutual Research Corporation, or other similar organizations and also with the provisions of governmental codes or ordinances whenever applicable. Productsmanufactured and distributed by Reliable have been protecting life and property for over 90 years, and are installed and serviced by the most highly qualified and reputable sprinkler contractors located throughout the United States, Canada and foreign countries. BERMAD Fire Protection 700 Series Pressure Reducing Valve Model: FP 720-UL Typical Applications Features and Benefits ■ Minimized pressure loss ❑ Unobstructed flow path ❑ Advanced “Y”, or angle pattern ❑ Wide range flow V-Port Throttling Plug ■ Advanced pilot system with adjustable closing speed – Accurately maintains static and dynamic pressure ■ Double chambered unitized actuator ❑ Easy, in-line inspection ensures minimal down time ❑ Quick and smooth valve action ■ Replaceable stainless steel valve seat – Long valve life Optional Features ■ Large control filter (code: F) ■ Seawater service FS as prefix to model Note: Optional features can be mixed and matched. Consult your Bermad representative for full details. Hose station feeds Sprinkler systems with over pressure Deluge systems with over pressure Foam systems Fire hydrant water supply Description The Model FP 720-UL reduces high, unstable upstream pressure to maintain precise stable downstream pressure, regardless of changing upstream pressure or flow, and requires only existing line pressure to operate. BERMAD Fire Protection 700 SeriesModel: FP 720-UL Engineer Specifications The Pressure Reducing Valve shall be UL Listed for fire protection. It shall eliminate downstream over-pressure, maintaining a constant downstream delivery pressure, regardless of varying pressures and/or flows. The main valve shall be a diaphragm actuated, “Y” pattern (or angle) valve. Valve actuation shall be accomplished by one moving assembly containing a double chambered actuator, which shall include a stainless steel stem and a resilient elastomeric seal held by a flat seal disk and creating a drip tight seal against the seat. The valve seat shall be removable and made of stainless steel. The seat bore net area shall be no less than that of the valve nominal diameter and shall have an unobstructed flow path with no stem guide or supporting ribs. All necessary inspection and servicing shall be possible in-line. The valve shall be UL-Listed as a pressure controlling water control valve. The Pressure Reducing Pilot Valve shall be UL-Listed as part of the assembly. The control trim shall be supplied as an assembly, pre-assembled and hydraulically tested at an ISO 9000 and 9001 certified factory. Valve Closed (static condition)Valve Open (flowing condition) Operation The BERMAD Model FP 720-UL, pilot operated pressure reducing valve automatically and accurately reduces downstream water pressure to a specific, adjustable value. The FP 720-UL operates under both flowing and non- flowing (static) conditions. The Pressure Reducing Pilot [1] senses downstream pressure [2] and in real time modulates the main valve [3] to maintain a constant downstream pressure. In no-flow static conditions, should the downstream pressure start rising above pilot setting, the pilot closes, shutting the main valve drip-tight sealing [4] to maintain the allowable downstream pressure. [4] [2][3] [1] BERMAD Fire Protection 700 SeriesModel: FP 720-UL System Components 1 - BERMAD Model FP 720-UL 2 - Pressure Relief Valve (BERMAD Model FP 730-UF) 3 - Isolating Valve 4 - Pressure Gauge 5 - Strainer Typical Installations Standard Pressure Reducing System Installation Considerations ■ Allow enough room around the valve assembly for any future maintenance. ■ Install isolating valves upstream and downstream of the valve system. ■ Install the valve horizontally with the cover facing up. ■ Install a UL-Listed relief valve (recommended: BERMAD Model FP 730-UF) of the appropriate size on the downstream side of the FP 720-UL, as required by NFPA-20 standard. ■ Install a UL-Listed pressure gauge on both sides of the valve. Parallel Pressure Reducing System ■ Wide flow range ■ Redundant safety ■ Serviceable with zero down time Two-Stage Pressure Reducing System ■ High pressure differential ■ Added reduced pressure zone protection 4 1 25 4 3 3 UL Listed The BERMAD Model FP 720-UL is UL-Listed when installed as a unit. BERMAD Fire Protection TwLy1, Ly 2, Ly3 La1, La2, La3 R1R2R3 h1h2h3 Th Th Tw Size 1½”2”2½”3”4”6”8”10”12”14”16” mm inch mm inch mm inch mm inch mm inch mm inch mm inch mm inch mm inch mm inch mm inch Di m e n s i o n s Ly 1 (1)205 81/16 205 81/16 209 81/4 250 97/8 320 125/8 415 163/8 500 1911/16 605 2313/16 725 289/16 733 287/8 990 39 Ly 2 (2)155 61/8 155 61/8 212 83/8 250 913/16 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A Ly 3 (3)210 81/4 210 81/4 212 83/8 264 107/16 335 131/4 433 171/16 524 205/8 637 25 762 30 767 303/16 1,024 403/4 La1 (1)121 43/4 121 43/4 140 51/2 152 6 190 71/2 225 87/8 265 107/16 320 125/8 396 159/16 400 153/4 450 173/4 La2 (2)120 43/4 120 43/4 140 51/2 159 61/4 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A La3 (3)127 5 127 5 149 57/8 159 61/4 200 77/8 234 93/16 277 107/8 336 131/4 415 165/16 419 161/2 467 183/8 h1 (1)82 31/4 82 31/4 102 4 102 4 127 5 152 6 203 8 219 85/8 275 1013 /16 275 1013 /16 369 141/2 h2 (2)82 31/4 82 31/4 102 4 114 41/2 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A h3 (3)89 31/2 89 31/2 109 45/16 108 41/4 135 55/16 165 61/2 216 81/2 235 91/4 294 111/2 294 111/2 386 53/16 R1 (1)75 215/16 83 31/4 93 35/8 100 315/16 114 41/2 140 51/2 171 63/4 203 8 241 91/2 267 101/2 298 113/4 R2 (2)40 19/16 40 19/16 48 17/8 55 21 N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A N/A R3 (3)78 31/16 83 31/4 95 33/4 108 41/4 127 5 159 61/4 191 71/2 222 83/4 260 101/4 292 111/2 324 123/4 Tw 191 71/2 191 71/2 191 71/2 207 81/16 242 91/2 290 117/16 325 1213/16 370 149/16 515 201/4 525 2011 /16 610 24 Th 312 125/16 312 125/16 312 125/16 364 141/2 405 1515 /16 505 20 566 225/16 639 253/16 449 1711/16 449 1711 /16 541 215/16 Model: FP 720-UL Technical Data Connection Standard • Grooved: ANSI/AWWA C606 for 2, 3, 4, 6 & 8” • Flanged: ANSI B16.42 (Ductile Iron), B16.5 (Steel & Stainless Steel), B16.24 (Bronze), ISO PN16 • Threaded: NPT or BSP 2, 2½ & 3” Water Temperature • 0.5 - 80°C (33 - 180°F) Sizes (“Y” & Angle) • Available Y: 1½ - 20” • Angle: 1½ – 18” • 24-36” Globe • UL-Listed: 2, 2½, 3, 4, 6 & 8” Pressure Rating • UL-Listed 2 - 6” : 300 psi (21 bar) 8” to : 175 psi (12 bar) • Max. for Class#150: 250 psi (17 bar) • Max. for Class#300: 400 psi (28 bar) • Max. for Grooved ends: 400 psi (28 bar) • Setting range: 30 - 165 psi (2 - 11.5 bar) • Test pressure: 450 psi (31 bar) Manufacturers Standard Materials Main valve body and cover • Ductile Iron ASTM A-536 Main valve internals • Stainless Steel & Elastomer Control Trim System • Brass control components/accessories • Stainless Steel 316 tubing & fittings Elastomers • Polyamide fabric reinforced Polyisoprene, NR Coating • Electrostatic Powder Coating Polyester, Red (RAL 3002) Optional Materials Main valve body/internals • Carbon Steel ASTM A-216-WCB • Stainless Steel 316 • Ni-Al-Bronze ASTM B-148 • Titanium • Duplex • Hastalloy Control Trim • Stainless Steel 316 • Monel® and Al-Bronze • Hastalloy C-276 Coating • High Build Epoxy Fusion-Bonded with UV Protection, Anti-Corrosion Approvals • UL Listed for: Special system water control valves (VLMT), Pressure Reducing and Pressure Control type for Fire Protection Systems. • ABS • Lloyd’s Registered Notes: 1. Ly1 for ANSI#150, ISO PN16 & Grooved ends (see available sizes below) 2. La1 & h1 for Angle body, ANSI#150 and ISO PN16. 3. Ly2, La2 & h2 for threaded female, NPT or BSP. 4. Ly3, La3 & h3 for flanged ANSI #300 and ISO PN25. 5. Data is for maximum envelope dimensions, component positioning may vary. 6. Provide adequate space around valve for maintenance. bermadfire@bermad.com • www.bermad.com The information herein is subject to change without notice. BERMAD shall not be held liable for any errors. All rights reserved. © Copyright by BERMAD. PE7PE-2UL 11 700 Series BERMAD Fire Protection 700 SeriesFP 700E Flow & Hydraulic Data gpm Flow Rate Pr e s s u r e L o s s 0.1 1.0 101001,000 0.5 40 65 50 500 5,000 psi 15.0 12.5 10.0 7.5 5.0 2.5 1.5 50751002505007501,0002,500 20,00015,00010,0005,000 7,500 m3/h bar 11/2”21/2” 2” 50 80 3” 100 4” 150 6” 200 8” 250 10” 300 12” 350 14” 400 16” Flow Chart Flow Properties DN40-506580100150200250300350400 Inch1½"-2”2½"3"4"6"8"10"12"14"16" “Y ” - T y p e Kv-Y 50551152004608151,2501,8501,9903,310 Cv-Y 58641332305309401,4402,1402,3003,820 K-Y 3.99.24.93.93.73.83.93.75.93.7 Leq-m, Y 10.333.421.62337.553.97085.6159.9112.7 Leq-feet, Y 33.8109.570.875.6123176.9229.5280.8524.5369.6 An g l e Kv-A 55611272205068971,3752,0352,1893,641 Cv-A 64701462505801,0401,5902,3502,5304,210 K-A 3.27.64.03.23.13.13.23.14.93.0 Leq-m, A 8.527.617.819.037.044.657.870.7132.193.1 Leq-feet, A 2890.558.562.5101.6146.2189.7232433.4305.5 Valve flow coefficient, Kv or Cv Equivalent Pipe Length, Leq Flow resistance or Head loss coefficient, Cv = 1.155 Kv Where: Kv = Valve flow coefficient (flow in m3/h at 1bar Diff. Press.) Cv = Valve flow coefficient (flow in gpm at 1psi Diff. Press.) Q = Flow rate (m3/h ; gpm) 6P = Differential pressure (bar ; psi) Gf = Liquid specific gravity (Water = 1.0) Kv(Cv)=Q Gf 6P Leq=Lk.D K=6H 2g V2Where: K = Flow resistance or Head loss coefficient (dimensionless) 6H = Head loss (m ; feet) V = Nominal size flow velocity (m/sec ; feet/sec.) g = Acceleration of gravity (9.81 m/sec2 ; 32.18 feet/sec2) Where: Leq = Equivalent nominal pipe length (m ; feet) Lk = Equivalent length coefficient for turbulent flow in clean commercial steel pipe (SCH 40) D = Nominal pipe diameter (m; feet) Note: The Leq values given are for general consideration only. Actual Leq may vary somewhat with each of the valve sizes. 3 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 Calculation for size of 13D expansion tank Minimum Insert data into yellow boxes only Tank Type of antifreeze used Size Propylene Glycol8.3 gallon Glycerine7.1 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 50 13 D L = density (gm/ml) of antifreeze solution at lowest expected temperature 1.062 1 1.146 14 D H = density (gm/ml) of antifreeze solution at highest expected temperature 1.016 2 1.103 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 123 4 138 24 P 1 = absolute static pressure (psi) on water (supply) side of backflow preventer 123 4 138 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 Submittal data sheets can ONLY be ordered as a “Submittal Data Sheet Pack”, using MC# 4400. They are not available to order on an individual basis, however each data sheet is available on the AMTROL Web Site and can be downloaded and printed for use as needed. For the most updated technical specifications, please download sheet at www.amtrol.com Rev. 03/10 50P/N 4400-050 Job Name ____________________________________________ Location ____________________________________________ ____________________________________________ ____________________________________________ Engineer ____________________________________________ Contractor ____________________________________________ Contractor P.O. No. __________________________________ Sales Representative __________________________________ Model No. Ordered ____________________________________ FIRE-X-TROL® FPT Series, Fire Protection Expansion Tanks(ASME) 175 PSI Working Pressure B A FPT-1-C FPT-5-C FPT-12-C CHARGING VA LVE SYSTEM CONNECTION MODELS: B A FPT-20V-C -30V-C -42V-C -60V-C CHARGING VA LV E c -70V-C FPT FPT FPT FPT SYSTEM CONNECTION MODELS: In-Line Models Model Tank A B Sys. Ship No. Vol. Height Diameter Conn. Wt. Lit. Gal. mm ins. mm ins. ins. kg lbs. FPT-1-C 5.7 1.5 222 83⁄4 210 81⁄4 3⁄4 NPTF 7.3 16 FPT-5-C 8 2.1 264 103⁄8 254 10 3⁄4 NPTF 9.5 21 FPT-12-C 24 6.4 397 155⁄8 305 12 3⁄4 NPTF 15.4 36 Maximum Operating Conditions Operating Temperature -20°F (-29°C) to 200°F (93°C) Working Pressure 175 PSIG (12 bar) Specifications Description Standard Construction Standard Factory Pre-charge 25 PSIG (1.7 bar) System Connection Stainless Steel Diaphragm Material High-Performance Rubber Compound Liner Material Polypropylene Shell Steel Coating FPT Red Fluid Compatibility With or Without Antifreeze Per NFPA 13 Stand Models Model Tank A B C Sys. Ship No. Vol. Height Diameter Dim. Conn. Wt. Lit. Gal. mm ins. mm ins. mm ins. ins. kg lbs. FPT-20V-C 30 8.0 495 191⁄2 305 12 273 103⁄4 3⁄4 NPTF 23.6 52 FPT-30V-C 53 14.0 486 191⁄8 419 161⁄4 324 123⁄4 3⁄4 NPTF 44 97 FPT-42V-C 66 17.5 616 241⁄4 419 161⁄4 324 123⁄4 3⁄4 NPTF 52.7 116 FPT-60V-C 95 25.0 838 33 419 161⁄4 324 123⁄4 3⁄4 NPTF 70 154 FPT-70V-C 129 34.0 1054 411⁄2 419 161⁄4 324 123⁄4 3⁄4 NPTF 90 197 FPT-80V-C 200 53.0 908 353⁄4 610 24 406 16 11⁄4 NPTF 114 251 FPT-120V-C 250 66.0 1111 433⁄4 610 24 406 16 11⁄4 NPTF 127.6 281 FPT-180V-C 292 77.0 1235 485⁄8 610 24 406 16 11⁄4 NPTF 160.3 353 FPT-210V-C 341 90.0 1410 551⁄2 610 24 406 16 11⁄4 NPTF 173.4 382 Constructed per ASME Code Section VIII, Division 1. All dimensions and weights are approximate. FPT-20V OR FPT-20V-C MAY BE USED Submittal data sheets can ONLY be ordered as a “Submittal Data Sheet Pack”, using MC# 4400. They are not available to order on an individual basis, however each data sheet is available on the AMTROL Web Site and can be downloaded and printed for use as needed. For the most updated technical specifications, please download sheet at www.amtrol.com Rev. 03/10 51P/N 4400-051 Job Name ____________________________________________ Location ____________________________________________ ____________________________________________ ____________________________________________ Engineer ____________________________________________ Contractor ____________________________________________ Contractor P.O. No. __________________________________ Sales Representative __________________________________ Model No. Ordered ____________________________________ FIRE-X-TROL® FPT Series, Fire Protection Expansion Tanks(Non-ASME) 175 PSI Working Pressure B A FPT-1 FPT-5 FPT-12 CHARGING VA LVE SYSTEM CONNECTION MODELS: B A FPT-20V -30V -42V -60V CHARGING VA LV E c -70V FPT FPT FPT FPT SYSTEM CONNECTION MODELS: Maximum Operating Conditions Operating Temperature -20°F (-29°C) to 200°F (93°C) Working Pressure 175 PSIG (12 bar) Specifications Description Standard Construction Standard Factory Pre-charge 25 PSIG (1.7 bar) System Connection Stainless Steel Diaphragm Material High-Performance Rubber Compound Liner Material Polypropylene Shell Steel Coating FPT Red Fluid Compatibility With or Without Antifreeze Per NFPA 13 Non-ASME Stand Models Model Tank A B C Sys. Ship No. Vol. Height Diameter Dim. Conn. Wt. Lit. Gal. mm ins. mm ins. mm ins. ins. kg lbs. FPT-20V 30 8.0 495 191⁄2 305 12 273 103⁄4 3⁄4 NPTF 23.6 52 FPT-30V 53 14.0 486 191⁄8 419 161⁄4 324 123⁄4 3⁄4 NPTF 44 97 FPT-42V 66 17.5 616 241⁄4 419 161⁄4 324 123⁄4 3⁄4 NPTF 52.7 116 FPT-60V 95 25.0 838 33 419 161⁄4 324 123⁄4 3⁄4 NPTF 70 154 FPT-70V 129 34.0 1054 411⁄2 419 161⁄4 324 123⁄4 3⁄4 NPTF 90 197 FPT-80V 200 53.0 908 353⁄4 610 24 406 16 11⁄4 NPTF 114 251 FPT-120V 250 66.0 1111 433⁄4 610 24 406 16 11⁄4 NPTF 127.6 281 FPT-180V 292 77.0 1235 485⁄8 610 24 406 16 11⁄4 NPTF 160.3 353 FPT-210V 341 90.0 1410 551⁄2 610 24 406 16 11⁄4 NPTF 173.4 382 All dimensions and weights are approximate. Non-ASME In-Line Models Model Tank A B Sys. Ship No. Vol. Height Diameter Conn. Wt. Lit. Gal. mm ins. mm ins. ins. kg lbs. FPT-1 5.7 1.5 222 83⁄4 210 81⁄4 3⁄4 NPTF 7.3 16 FPT-5 8 2.1 264 103⁄8 254 10 3⁄4 NPTF 9.5 21 FPT-12 24 6.4 397 155⁄8 305 12 3⁄4 NPTF 15.4 36 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 3825 Ohio Avenue • St. Charles, IL 60174 Phone: 800-SENSOR2 • Fax: 630-377-6495 ©2009 System Sensor. Product specifications subject to change without notice. Visit systemsensor.com for current product information, including the latest version of this data sheet. A05-0195-013 • 1/09 • #1923 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 T I M E D E L AY IN SECON D SNUMBER O N D I AL IS APPROXIM A 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 120VDC INITIATING LOOP UL-LISTED COMPATIBLE CONTROL PANEL CONTACT RATINGS 125/250 VA C 24 VDC 10 AMPS 2.5 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. AHEADOFTHEFLOW™ wwwwww..nniibbccoo..ccoomm RReevviissiioonn 66//11//0033 NIBCO INC. WORLDHEADQUARTERS • 1516 MIDDLEBURYST. • ELKHART, IN 46516-4740 • USA • PH: 1.800.234.0227 TECHSERVICES PH: 1.888.446.4226 • FAX: 1.800.234.0557 • INTERNATIONALOFFICE PH: +1.574.295.3221 • FAX: +1.574.295.3455 www.nibco.com 32 NIBCO check valves may be installed in both horizontal and vertical lines with upward flow or in any intermediate position. They will operate satisfactorily in a declining plane (no more than 15º). Warning – Do Not Use For Reciprocating Air Compressor Service. Class 125 Bronze Check Valves Horizontal Swing • Regrinding Type • Y-Pattern • Renewable Seat and Disc 125 PSI/8.6 Bar Saturated Steam to 353º F/178º C 200 PSI/13.8 Bar Non-Shock Cold Working Pressure CONFORMS TO MSS SP-80 T-413 Threaded S-413 Solder S-413-W C x C T-413-Y NPT x NPT DIMENSIONS—WEIGHTS—QUANTITIES Dimensions SizeABCT-413S-413Master In.mm.In.mm.In.mm.In.mm.Lbs.Kg.Lbs.Kg.Ctn. Qty. ¹⁄₄82.13541.63411.38350.500.230.510.2350 ³⁄₈102.13541.63411.31330.470.220.480.2250 ¹⁄₂152.44621.69431.50380.550.250.550.2550 ³⁄₄202.94751.88481.88480.900.410.880.4050 1253.56902.31592.25571.460.661.480.6730 1 ¹⁄₄324.191062.69682.75702.170.992.221.0120 1 ¹⁄₂404.501142.94751.13792.951.343.001.3610 2505.251333.941003.75954.792.174.872.2110 2 ¹⁄₂*658.002035.061295.0612911.485.2110.484.765 3*809.252356.251596.2515917.537.9615.296.944 Ordering: T-413 and S-413 normally furnished with Bronze Disc (T-413-B) or (S-413-B). Both available with TFE Steam Disc (T-413-Y),(S-413-Y), or CWP Disc (T-413-W), (S-413-W) or 300º F67PSI steam Viton Disc (T-413-V). *– Class 150 (433) furnished for these sizes. MATERIALLIST PART SPECIFICATION 1.BonnetBronze ASTM B 62 2.BodyBronze ASTMB62 3.Hinge PinBronze ASTMB 140 Alloy C31400 or B 134 Alloy C23000 4.Disc HangerBronze ASTMB 62 or 304 Stainless Steel ¹⁄₄" thru ³⁄₄"sizes 5.Hanger NutBronze ASTMB 16 6.Disc HolderBronze ASTMB 62 7.Seat DiscWater, Oil or Gas (Buna-N)(W) Steam (TFE)(Y) Bronze ASTMB 62 (B) Viton®(V) 8.Seat Disc NutBronze ASTMB16 or B 62 9.Hinge Pin Plug Bronze ASTMB 140 Alloy C32000 (not shown) *10.Seat Disc WasherASTMB 98 Alloy C65500 or ASTMB103 *Sizes ³⁄₄", 1", 1¹⁄₄", 1¹⁄₂" and 2" only. T-413-B NPT x NPT !!For detailed Operating Pressure, refer to Pressure Temperature Chart on page 109. Dezincification Resistant 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 8080 120120 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 water applications. CEMENT FS5 Cement meets the requirements of ASTM F 493; meets MAX VOC 450 G/L per SCAQMD Rule 1168/316A. Listed by NSF for potable water applications. Spears® Fire Sprinkler Piping Products are Listed by Underwriters Laboratories for use in: Light Hazard occupancies as defined in the Standard for Installation of Sprinkler Systems, NFPA 13; Residential occupancies as defined in the Standard for Installation of Sprinkler Systems up to Four Stories in height, NFPA 13R; Residential occupancies as defined in the Standard for Sprinkler Systems in One and Two Family Dwellings and Mobile Homes, NFPA 13D; and, Air Conditioning and Ventilation Systems, NFPA 90A. LOOK FOR THE UL LISTING MARK ON THE PRODUCT. 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 Thread Socket=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