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2855 GAZELLE CT; ; FA100070; Permit
12/29/2020 FA1 00070 Permit Data City of Carlsbad Fire Alarm Permit Job Address: 2855 GAZELLE CT Permit Type: FALARM Parcel No: 2091201700 Lot #: 0 Reference No.: 11 Permit No: FA1 00070 Status: FINAL Applied 11/17/2010 Approved: 11/17/2010 Issued: 11/17/2010 PC #: Inspector: Project Title: ISIS PHARMACEUTICALS MONITORING SYSTEM INSPECTIONS Applicant: SCHMIDT FIRE PROTECTION CO INC 4760 MURPHY CANYON RD SAN DIEGO, CA 92123 858-279-6122 Owner: CARLSBAD OAKS NORTH PARTNERS L p 3575 KENYON ST SAN DIEGO CA Fees ($) Add'I Fees ($) Total ($) Balance ($) 130 0 130 0 1/1 0 ... PHARMACEUTICALS EQUIPMENT SUBMITTAL FOR PRE ACTION SPRINKLERS AND DETECTION W C-, /A ~ T 01 (') These plans have been reviewed for apparent compliance with the current applicable codes and standards in force in the jurisdiction. The owner or contractor may utilize this review in support of an application for a building permit with the express understanding that this review in no way relieves the owner or contractor or their professional engineer or architect for sole responsibility for full compliance with said codes and standards, including the building code or for any responsibility for deficiencies, errors, omissions or negligence in these plans whether or not noted in this review. Date: 11/12/2010 Revie RECOMMEND APPROVAL E RECOMMEND APPROVAL, AS NOTED These plans have been reviewed for apparent compliance with the current applicable codes and standards in force in the jurisdiction. The owner or contractor may utilize this review in support of an application for a building permit with the express understanding that this review in no way relieves the owner or contractor or their professional engineer or architect for sole responsibility for full compliance with said codes and standards, including the building code or for any responsibility for deficiencies, errors, omissions or negligence in these plans whether or not noted in this review. Date: 11/12/2010 Review, RECOMMEND APPROVAL F-1 RECOMMEND APPROVAL, AS NOTED - . Fire Protection by Computer Design Schmidt Fire Protection 4760 Murphy Canyon Rd. San Diego Ca. 92123 858-279-6122 Job Name : ISIS PHARMACEUTICALS PRE ACTION 1ST FLOOR Building : 1 Location : 2855 GAZELLE COURT System : PRE ACTION Contract : SFP-813 Data File : PreAction.WXF Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Schmidt Fire Protection Page 1 ISIS PHARMACEUTICALS PRE ACTION 1ST FLOOR Date Hydraulic Desion Information Sheet Name - ISIS PHARMACEUTICALS Date - 10-20-10 Location - 2855 GAZELLE COURT Building - 1 System No. - PRE ACTION Contractor - DPR Contract No. - SFP-813 Calculated By - WILSON Drawing No. - PA-3 Construction: ( ) Combustible (X) Non-Combustible Ceiling Height - 101 -0" Occupancy - S (X) NFPA 13 (X) Lt. Haz. Ord.Haz.Gp. ( ) 1 ( ) 2 ( ) 3 ( ) Ex.Haz. Y ( ) NFPA 231 ( ) NFPA 231C ( ) Figure Curve S Other T Specific Ruling Made By Date E M Area of Sprinkler Operation - ROOM System Type Sprinkler/Nozz Density - .1 (X) Wet Make RELIABLE D Area Per Sprinkler - 120 ( ) Dry Model G4A E Elevation at Highest Outlet - 14.170 ( ) Deluge Size 1/2 S Hose Allowance - Inside - ( ) Preaction K-Factor 5.6 I Rack Sprinkler Allowance - ( ) Other Temp.Rat.200 G Hose Allowance - Outside - 100 N Note Calculation Flow Required - 64.490 Press Required - 172.02 At Base of Riser Summary C-Factor Used: 120 Overhead 150 Underground W Water Flow Test: Pump Data: Tank or Reservoir: A Date of Test - 9/29/10 Cap. - T Time of Test - 10:15 am Rated Cap.- Elev.- E Static Press - 120 @ Press - R Residual Press - 110 Elev. - Well Flow - 1360 Proof Flow S Elevation - -14.5 U P Location - TOP OF GAZELLE COURT P L Source of Information - SCHMIDT FIRE PROTECTION WITNESSED BY CARLSBAD WATER D Y C Commodity Class Location O Storage Ht. Area Aisle W. M Storage Method: Solid Piled % Palletized % Rack M Single Row ( ) Conven. Pallet ( ) Auto. Storage ( ) Encap. SR Double Row ( ) Slave Pallet ( ) Solid Shelf ( ) Non TA Mult. Row ( ) Open Shelf O C R K Flue Spacing Clearance:Storage to Ceiling A Longitudinal Transverse G E Horizontal Barriers Pro Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Water Supply Curve (C) Schmidt Fire Protection Page 2 ISIS PHARMACEUTICALS PRE ACTION 1ST FLOOR Date City Water Supply: Demand: Cl - Static Pressure : 108 Dl - Elevation : 12.417 C2 - Residual Pressure: 99 D2 - System Flow : 172.023 C2 - Residual Flow : 1360 D2 - S~A[dj em Pressure : 76.376 Hose City _______Hose Demand) : 100 D3 - System Demand : 272.023 Safety Margin : 31.166 150 140 130 p120 E 100 S90 - 2 -D sso u 70 R6° E5° 40 30 20 10 -Ut - ....I.I.... .• •0 _____ 200 400 600 800 1000 1200 1400 1600 1800 FLOW ( N A 1.85) Computer Programs by Hydratec inc. Route 111 Windham N.H. USA 03087 Fittings Used Summary Schmidt Fire Protection Page 3 ISIS PHARMACEUTICALS PRE ACTION 1ST FLOOR Date Fitting Legend Abbrev. Name 1/2 % 1 114 1½ 2 21/2 3 31/2 4 5 6 8 10 12 14 16 18 20 24 B NFPA 13 Butterfly Valve 0 0 0 0 0 6 7 10 0 12 9 10 12 19 21 0 0 0 0 0 E NFPA 13 90' Standard Elbow 1 2 2 3 4 5 6 7 8 10 12 14 18 22 27 35 40 45 50 61 F NFPA 13 45' Elbow 1 1 1 1 2 2 3 3 3 4 5 7 9 11 13 17 19 21 24 28 G NFPA 13 Gate Valve 0 0 0 0 0 1 1 1 1 2 2 3 4 5 6 7 8 10 11 13 90' Grvd-Vic Elbow #10 0 0 2 3 4 3.5 6 5 8 7 8.5 10 13 17 20 23 25 33 36 40 I NFPA 139O' Flow thruTee 3 4 5 6 8 10 12 15 17 20 25 30 35 50 60 71 81 91 101 121 Units Summary Diameter Units Length Units Flow Units Pressure Units Inches Feet US Gallons per Minute Pounds per Square Inch Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Pressure I Flow Summary - STANDARD Schmidt Fire Protection Page 4 ISIS PHARMACEUTICALS PRE ACTION 1ST FLOOR Date Node Elevation K-Fact Pt Pn Flow Density Area Press No. Actual Actual Req. D001 4.5 5.6 7.0 na 14.82 0.1 120 7.0 P1 14.17 K= K @ EQOI 10.67 na 14.82 P2 14.17 K=K@EQO1 11.36 na 15.29 P3 14.17 K=K@EQOI 12.16 na 15.82 P4 14.17 K= K@ EQ01 10.75 na 14.87 P5 14.17 K=K@EQ01 11.41 na 15.32 P6 14.17 K= K @ EQ01 12.15 na 15.81 P7 14.17 K=K@EQ01 11.58 na 15.44 P8 14.17 K=K@EQ01 12.3 na 15.91 P9 14.17 K= K@ EQ01 13.08 na 16.41 P10 14.17 K=K@EQOI 12.82 na 16.24 P11 14.17 K=K@EQ01 12.58 na 16.09 P14 14.17 13.35 na P12 13.5 14.29 na P13 13.5 14.51 na P15 13.5 15.16 na P16 13.5 15.6 na P17 11.5 45.43 na P18 6.5 50.8 na P19 3.0 64.49 na BOR2 3.0 64.5 na BOR1 1.5 65.2 na FLG 0.5 65.65 na UG1 -3.0 67.17 na BKFL -3.0 67.26 na UG2 -3.0 71.3 na UG3 -3.0 71.31 na UG4 -3.0 71.33 na UG5 -3.0 71.34 na UG6 -3.0 71.34 na UG7 -14.5 76.36 na SRC -14.5 76.38 na The maximum velocity is 16.45 and it occurs in the pipe between nodes P16 and P17 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Schmidt Fire Protection Page 5 ISIS PHARMACEUTICALS PRE ACTION 1ST FLOOR Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C' or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn D001 14.82 1.049 4E 8.0 10.000 7.000 K Factor =5.60 to 120.0 iT 5.0 13.000 1.949 EQ01 14.82 0.0747 0.0 23.000 1.718 Vel = 5.50 0.0 14.82 10.667 K Factor = 4.54 P1 14.82 1.049 0.0 9.330 10.667 K Factor @ node EQ01 to 120.0 0.0 0.0 0.0 P2 14.82 0.0747 0.0 9.330 0.697 Vel = 5.50 P2 15.29 1.38 0.0 10.960 11.364 K Factor@ node EQ01 to 120.0 0.0 0.0 0.0 P3 30.11 0.0730 0.0 10.960 0.800 Vel = 6.46 P3 15.82 1.38 1 3.0 2.500 12.164 K Factor@ node EQ01 to 120.0 iT 6.0 9.000 0.290 P12 45.93 0.1593 0.0 11.500 1.832 Vel = 9.85 0.0 45.93 14.286 K Factor = 12.15 P4 14.87 1.049 0.0 8.830 10.748 K Factor @ node EQ01 to 120.0 0.0 0.0 0.0 P5 14.87 0.0752 0.0 8.830 0.664 Vel = 5.52 P5 15.33 1.38 0.0 10.000 11.412 K Factor@ node EQ01 to 120.0 0.0 0.0 0.0 P6 30.2 0.0734 0.0 10.000 0.734 Vel = 6.48 P6 15.81 1.38 1 3.0 4.000 12.146 K Factor@ node EQ01 to 120.0 iT 6.0 9.000 0.290 P13 46.01 0.1598 0.0 13.000 2.078 Vel = 9.87 0.0 46.01 14.514 KFactor= 12.08 P7 15.44 1.049 0.0 8.830 11.585 K Factor @ node EQ01 to 120.0 0.0 0.0 0.0 P8 15.44 0.0806 0.0 8.830 0.712 Vel = 5.73 P8 15.91 1.38 0.0 10.000 12.297 K Factor@ node EQ01 to 120.0 0.0 0.0 0.0 P9 31.35 0.0786 0.0 10.000 0.786 Vel = 6.72 P9 16.41 1.38 1E 3.0 4.000 13.083 K Factor@ node EQ01 to 120.0 IT 6.0 9.000 0.290 P16 47.76 0.1712 0.0 13.000 2.226 Vel = 10.24 0.0 47.76 15.599 K Factor= 12.09 P10 16.24 1.049 1 5.0 1.040 12.820 K Factor@ node EQ01 to 120.0 0.0 5.000 0.0 P14 16.24 0.0886 0.0 6.040 0.535 Vel = 6.03 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Schmidt Fire Protection Page 6 ISIS PHARMACEUTICALS PRE ACTION 1ST FLOOR Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn 0.0 16.24 13.355 K Factor = 4.44 P11 16.09 1.049 iT 5.0 3.960 12.575 K Factor@ node EQ01 to 120.0 0.0 5.000 0.0 P14 16.09 0.0871 0.0 8.960 0.780 Vet = 5.97 P14 16.24 1.38 1E 3.0 9.210 13.355 to 120.0 iT 6.0 9.000 0.290 P15 32.33 0.0832 0.0 18.210 1.515 Vet = 6.93 0.0 32.33 15.160 K Factor = 8.30 P12 45.93 2.067 0.0 10.210 14.286 to 120.0 0.0 0.0 0.0 P13 45.93 0.0223 0.0 10.210 0.228 Vet = 4.39 P13 46.01 2.067 0.0 8.040 14.514 to 120.0 0.0 0.0 0.0 P15 91.94 0.0803 0.0 8.040 0.646 Vet = 8.79 P15 32.33 2.067 0.0 3.125 15.160 to 120.0 0.0 0.0 0.0 P16 124.27 0.1405 0.0 3.125 0.439 Vel= 11.88 P16 47.75 2.067 81 28.0 85.000 15.599 to 120.0 0.0 28.000 0.866 P17 172.02 0.2563 0.0 113.000 28.964 Vel= 16.45 P17 0.0 2.067 1 6.0 6.500 45.429 to 120.0 0.0 6.000 2.166 P18 172.02 0.2563 0.0 12.500 3.204 Vet = 16.45 P18 0.0 2.067 1 6.0 3.500 50.799 to 120.0 iT 10.0 44.000 1.516 P19 172.02 0.2563 lEqI 28.0 47.500 12.175 Vel = 16.45 P19 0.0 6.357 lEqI 3.143 8.500 64.490 to 120.0 0.0 3.143 0.0 BOR2 172.02 0.0010 0.0 11.643 0.012 Vet = 1.74 BOR2 0.0 6.357 31 37.72 5.000 64.502 to 120.0 0.0 37.720 0.650 BOR1 172.02 0.0011 0.0 42.720 0.046 Vel= 1.74 BOR1 0.0 6.065 11 10.0 4.000 65.198 to 120.0 0.0 10.000 0.433 FLG 172.02 0.0014 0.0 14.000 0.019 Vet = 1.91 FLG 0.0 8.27 1 28.468 8.500 65.650 to 140.0 0.0 28.468 1.516 UG1 172.02 0.0002 0.0 36.968 0.008 Vet = 1.03 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 Final Calculations - Hazen-Williams Schmidt Fire Protection Page 7 ISIS PHARMACEUTICALS PRE ACTION 1ST FLOOR Date Hyd. Qa Dia. Fitting Pipe Pt Pt Ref. "C" or Ftng's Pe Pv ******* Notes Point Qt Pf/Ft Eqv. Ln. Total Pf Pn UG1 0.0 7.98 3F 40.774 274.500 67.174 to 150.0 1E 27.183 67.956 0.0 BKFL 172.02 0.0002 0.0 342.456 0.081 Vel = 1.10 BKFL 0.0 7.98 3E 81.548 39.000 67.255 to 150.0 iT 52.855 140.443 4.000 * Fixed loss = 4 UG2 172.02 0.0002 1G 6.041 179.443 0.042 Vel= 1.10 UG2 -83.75 9.79 1G 6.747 345.000 71.297 to 150.0 iT 67.474 74.221 0.0 UG3 88.27 0.0 0.0 419.221 0.011 Vel = 0.38 UG3 0.0 9.79 4F 59.378 745.000 71.308 to 150.0 1G 6.747 66.125 0.0 UG4 88.27 0.0 0.0 811.125 0.020 Vel = 0.38 UG4 0.0 9.79 1E 29.689 270.000 71.328 to 150.0 0.0 29.688 0.0 UGS 88.27 0.0 0.0 299.688 0.008 Vel = 0.38 UG5 0.0 9.79 1G 6.747 177.000 71.336 to 150.0 0.0 6.747 0.0 UG6 88.27 0.0 0.0 183.747 0.005 Vel = 0.38 0.0 88.27 71.341 KFactor= 10.45 UG2 183.75 9.79 1E 29.689 405.000 71.297 Qa = 100 to 150.0 1G 6.747 36.435 0.0 UG6 183.75 0.0001 0.0 441.435 0.044 Vel = 0.78 UG6 88.27 9.79 iT 67.474 111.500 71.341 to 150.0 2G 13.495 95.814 4.981 UG7 272.02 0.0002 1 14.844 207.314 0.042 Vel= 1.16 UG7 0.0 9.79 0.0 60.000 76.364 to 150.0 0.0 0.0 0.0 SRC 272.02 0.0002 0.0 60.000 0.012 Vel = 1.16 0.0 272.02 76.376 KFactor= 31.13 Computer Programs by Hydratec Inc. Route 111 Windham N.H. USA 03087 TABLE OF CONTENTS 1, PRE ACTION 2. DETECTION PRE ACTION S S tqCo /Fire & Building I Products Technical Services: Tel: (800) 381-9312 I Fax: (800) 791-5500 Preaction System with Model DV-5 Deluge Valve Double Interlock - Electric/Pneumatic Actuation 1-1/2 thru 8 Inch (DN40 and DN200) General Description The Model DV-5 Double Interlock Pre- action System with Electric/Pneumatic Actuation (Fig. 1) is designed for use in applications, such as refrigerated areas, requiring the maximum degree of protection against inadvertent flood- ing of the sprinkler system piping. The Model DV-5 Double Interlock Pre- action System with Electric/Pneumatic Actuation utilizes a Model DV-5 Deluge Valve and a Riser Check Valve. The Riser Check Valve (that does not re- quire the use of priming water) isolates the Deluge Valve from the system air pressure. The releasing trim for the Deluge Valve utilizes a Solenoid Valve and a Dry Pilot Actuator in a series configuration. The system air pressure holds the Dry Plot Actuator closed, whereas the Solenoid Valve remains closed until it is electrically energized by a Deluge Valve Releasing Panel (automatic control unit). The Releas- ing Panel is operated by either a fire detection device or manual electric pull station. In order for the Double Interlock Pre- action System to automatically actu- ate, two independent events must oc- cur. The deluge valve releasing panel must operate and open the Solenoid Valve upon automatic operation of the electric fire detection initiating circuit or manual operation of the electric- manual pull initiating circuit, and the sprinkler system piping must lose air pressure due to operation of one or more sprinklers. The Double Interlock Preaction Sys- tem will automatically actuate only when both the Dry Pilot Actuator and the Solenoid Valve are open at the same time. Accidental opening of just the Dry Pilot Actuator (for example: a lift truck accidentally dislodges a sprin- kler), or just energizing the Solenoid Valve (for example: an accidental op- Page 1 of 16 eration of an electric pull station), will only cause an alarm, and will not actu- ate the system or flood the sprinkler system piping. The Model DV-5 Deluge Valve (de- scribed in Technical Data Sheet TFP1305) is a diaphragm style valve that depends upon water pressure in the Diaphragm Chamber to hold the Diaphragm closed against the water supply pressure. When the DV-5 Valve is set for service, the Diaphragm Chamber is pressurized through the trim connections from the inlet side of the system's main control valve, for MARCH, 2005 example an O.S.&Y. gate valve or but- terfly valve (Fig. 1). Operation of the Solenoid Valve and Dry Pilot Actuator at the same time releases water from the Diaphragm Chamber faster than it can be replen- ished through the 1/8 inch (3,2 mm) Priming Supply Restriction (Item 7 - Fig. 2A) in the diaphragm supply con- nections. This results in a rapid pres- sure drop in the Diaphragm Chamber below the valve trip point. The water supply pressure then forces the Dia- phragm open permitting water to flow (TEXT CONTINUED ON PAGE 9) TFPI46O Page 2of16 TFPI46O 1 - Model DV-5 Deluge Valve 2 - Main Control Valve (NO.) 3 - Diaphragm Chamber Supply Control Valve (NO.) 4 - Local Manual Control Station 5 - Automatic Sprinklers 6 - Heat Detectors, Smoke Detectors, etc. (Fire Detection) 7 - Water Supply Pressure Gauge 8 - Diaphragm Chamber Pressure Gauge 9 - System Drain Valve (N.C.) 10 - Main Drain Valve (N.C.) (Shown at Rear of Valve) 11 - Fail-Safe Valve 12 - Waterflow Pressure Alarm Switch (Shown at Rear of Valve) Water Motor Alarm (Optional) Solenoid Valve Deluge Valve Releasing Panel Riser Check Valve 17 - System Shut-Off Valve (NO.) 18 - Air Pressure Gauge 19 - Automatic Air/Nitrogen Supply 20 - Low Pressure Alarm Switch 21 - Dry Pilot Actuator FIGURE 1— PART 1OF2 DOUBLE INTERLOCK PREACTION SYSTEM WITH ELECTRIC/PNEUMATIC ACTUATION -SYSTEM SCHEMATIC (Front View)- TFPI460 Page 3of16 1 - Model DV-5 Deluge Valve 2 - Main Control Valve (NO.) 3 - Diaphragm Chamber Supply Control Valve (NO.) (Shown at Front of Valve) 4 - Local Manual Control Station (Shown at Front of Valve) 5 - Automatic Sprinklers 6 - Heat Detectors, Smoke Detectors, etc. (Fire Detection) T 7 - Water Supply Pressure Gauge (Shown at Front of Valve) 8 - Diaphragm Chamber Pressure Gauge (Shown at Front of Valve) 9 - System Drain Valve (N.C.) 10 - Main Drain Valve (N.C.) 11 - Fail-Safe Valve (Shown at Front of Valve) 12 - Waterflow Pressure Alarm Switch Water Motor Alarm (Optional) Solenoid Valve Deluge Valve Releasing Panel Riser Check Valve System Shut-Off Valve (NO.) Air Pressure Gauge (Shown at Front of Valve) Automatic Air/Nitrogen Supply Low Pressure Alarm Switch 21 - Dry Pilot Actuator . FIGURE 1— PART 2OF2 DOUBLE INTERLOCK PREACTION SYSTEM WITH ELECTR!CIPNEUMA TIC ACTUATION - SYSTEM SCHEMATIC (Rear View)— NO, DESCRIPTION QTY. P/N 1 300 psi/2000 kPa Water Pressure Gauge .2 92-343-1-005 2 1/4 Gauge Test Valve .1 46-005-1-002 3 Model MC-1 Manual Control Station .........1 52-289-2-001 4 Model AD-1 Automatic Drain Valve ...........1 52-793-2-004 5 Fail-Sate Valve, Model FSV-i ..........1 52-343-1-001 6 Waterf low Pressure Alarm Switch (PS10-2A) .1 2571 7 Priming Supply Restriction ............1 92-020-1-009 8 1/2 Ball Valve .........2 46-050-1-004 9 1/2 Spring Loaded Check Valve ..........1 92-322-1-002 10 1/2 Y-Strainer .........1 52-353-1-005 11 3/4' Swing Check Valve .1 46-049-1-005 12 3/4' Angle Valve .......1 46-048-1-005 13 Drip Funnel Connector . 1 92-211-1-005 14 Drip Funnel Bracket .1 92-211-1-003 15 Drip Funnel ...........1 92-343-1-007 16 3/32 Vent Fitting .......1 92-032-1-002 17 1/4 x 18° Tubing .......1 CH 18 1/2 Tubing Connector .2 CH 19 1/2 x 12' Tubing .......1 CH 20 1/2 x 18" Tubing .......1 CH 21 1/4 Plug .............1 CH 22 3/4' Plug .............1 CH 23 1/2 Union ............5 CH 24 3/4° Union ............1 CH 25 1/4 901 Elbow .........1 CH 26 1/2 90° Elbow .........7 CH 27 3/4" 90° Elbow .........1 CH 31 33 NO. DESCRIPTION QTY. P/N 28 3/4' x 1/2 90° Elbow ....1 CH 29 1/2 Cross ............1 CH 30 1/2 Tee ..............2 CH 31 1/2 x 1/4" x 1/2 Tee ....3 CH 32 3/4' Tee ..............1 CH 33 3/4" x 1/2 x 3/4" Tee ....2 CH 34 1/4° x Close Nipple .....2 CH 35 1/2 x Close Nipple .....2 CH 36 1/2' x 1-1/2' Nipple .....11 CH 37 1/2" x2' Nipple ........2 CH 38 1/2" x 2-1/2" Nipple .....2 CH 39 1/2" x 3-1/2" Nipple .....1 CH 40 1/2" x 5" Nipple ........1 CH 41 1/2's 7° Nipple ........1 CH 42 1/2" x 8° Nipple ........1 CH 43 Select Nipple per Table . I CH 44 3/4" x 1-1/2' Nipple .....6 CH 45 3/4' x 2" Nipple ........1 CH 46 3/4" x 4" Nipple ........1 CH P1 250 psi/ 1750 kPa Air Pressure Gauge .....1 92-343-1-012 P2 1/4' Gauge Test Valve 1 46-005-1-002 P3 Model DP-1 Dry Pilot Actuator ..............1 52-280-1-001 P4 Low Air Pressure Alarm Switch (PS40-2A) .1 2573 P5 Solenoid Valve Per Data Ordered Sheet TFP2180 ........1 Separately P6 1/4" Pressure Relief Valve ................1 92-343-1-020 P8 P22 P22 P15 P13 P7 P18 28 6 P22 25 P22 36 i622p P15 16 TINT) 17 P26 P28 P22 30 Page 4of16 TFPI460 NO. DESCRIPTION QTY. P/N P7 1/2' Swing Check Valve .1 46-049-1-004 P8 1/2" Globe Valve .......1 46-047-1-004 P9 3/4' Angle Valve .......1 46-048-1-005 P10 1/2" Tubing Connector . 1 CH P11 1/2" x 24" Tubing .......1 CH P12 1/4" Plug .............3 CH P13 1/2" Union ............2 CH P14 1/2' 45° Elbow .........1 CH P15 1/2" 90° Elbow .........4 CH P16 1/2' Cross ............1 CH P17 1/2" x 1/4" x 1/2" Tee ....1 CH P18 1/2' x 1/2" x 1/4" Tee ....1 CH P19 1" x 3/4" x 1/2" Tee .....1 CH P20 1/4" x Close Nipple .....1 CH P21 1/2' s Close Nipple .....2 CH P22 1/25 1-1/2° Nipple .....8 CH P23 1/2" x 2° Nipple ........2 CH P24 1/2" x 9" Nipple ........1 CH P25 Select Nipple per Table ..I CH P26 Select Nipple per Table .1 CH P27 3/4" x 1-1/2" Nipple .....1 CH P28 1"x 2' Nipple ..........1 CH Nipple Number I Select Appropriate Nipple Sizes I per DV-5 Deluge Valve Size' I 1-1/2" (DN40) I 2" (DN50) 43 I 1/2" x 1-1/2" I 1/2" x2" P25 I 1/2"x2-1/2" I 1/2"x2" P26 I 1/2°x6' I 1/2°x5-1/2" P20 P23 (VLP1 P17 P2 P10 P22 P12 Pit 3P3 P2 2 P21 6 (ORDERED SEPARATELY) El. 22 P27 ) 14 U P22 - - 15 35 ' PLUG 38 23 UNUSED 39 PORTS SE / P21 LOCATION 45 CHECK VALVE P12 P1 5 36 FOR OPTIONAL 44 32 44 ELECTRICALLY 18 23 SUPERVISED 36 44 24 P12, N.O. ALARM CONTROL VALVE 26 11 44 20 30 33 39 36 (BVS-3/4") ' 5 43 (HEX ENDS, 46 "FSV-l") 29 812 36 31 41 38 36 3 NOTES: 23 1. Supervised Double 21 2 7 23 Interlock Preaction Trim 40 26 35 with Electric/Pneumatic 36 2" (DN50) 36 37 19 Release is comprised of Items 1-46 plus Items 34 31 ExGROOVE36 18 P1-P28. MODEL DV-5 26 26 25 34 DELUGE VALVE 2. Use only the Model CV-1 FR SHOWN NOTES: Riser Check Valve. 36 5. See Figure 2of TFP1305 for 3. All Fittings and Nipples are Deluge Valve Port identification. galvanized (Standard Order). 8 6. Route all Tubing to Drip Funnel, 4. CH: Common Hardware. Item 15. FIGURE 2A —PART 10F3 1-1/2 and 2 INCH (DN40 and DN50) MODEL DV-5 DELUGE VALVES DOUBLE INTERLOCK PREACTION SYSTEM WITH ELECTRIC/PNEUMATIC ACTUATION TRIM (52-478-X-127) - EXPLODED VIEW — TFPI 460 Page 5 of 16 NO. DESCRIPTION QTY. P/N 1 300 psi, 2000 kPa Water Pressure Gauge .2 92-343-1-005 2 1/4 Gauge Test Valve . 1 46-005-1-002 3 Model MC-1 Manual Control Station .........1 52-289-2-001 4 Model AD-11 Automatic Drain Valve ...........1 52-793-2-004 5 Fail-Safe Valve, Model FSV-1 ..........1 52-343-1-001 6 Waterflow Pressure Alarm Switch (PSI0-2A) .1 2571 7 Priming Supply Restriction ............1 92-020-1-009 8 1/2" Ball Valve .........2 46-050-1-004 9 1/2" Spring Loaded Check Valve ..........1 92-322-1-002 10 1/2 Y-Strainer .........1 52-353-1-005 II 3/4' Swing Check Valve .1 46-049-1-005 12 1-1/4 Angle Valve ......1 46-048-1-007 13 Drip Funnel Connector . 1 92-211-1-005 14 Drip Funnel Bracket . . . 1 92-211-1-003 15 Drip Funnel ...........1 92-343-1-007 16 3/32 Vent Fitting .......I 92-032-1-002 17 1/4 x 18' Tubing .......1 CH 18 1/2' Tubing Connector .2 CH 19 1/2" x 18' Tubing .......2 CH 20 1/4' Plug .............1 CH 21 3/4' Plug .............1 CH 22 1/2 Union 5 CH P7 NO. DESCRIPTION QTY. P/N 23 3/4' Union ............1 CH 24 1/4' 90° Elbow .........1 CH 25 1/2' 90° Elbow .........7 CH 26 3/4' x 1/2' 90° Elbow ....1 CH 27 1-1/4" 90° Elbow .......1 CH 28 1/2" Cross ............1 CH 29 1/2' Tee ..............2 CH 30 1/2"xl/4"xl/2"Tee ....3 CH 31 3/4' Tee ..............1 CH 32 3/4' x 1/2" x 3/4' Tee ....2 CH 33 1/4" x Close Nipple .....2 CH 34 1/2" x Close Nipple .....1 CH 35 1/2" x 1-1/2" Nipple .....14 CH 36 1/2' x 2-1/2' Nipple .....1 CH 37 1/2's 3-1/2" Nipple .....1 CH 38 1/2's 4" Nipple ........1 CH 39 1/2' x4-1/2" Nipple .....2 CH 40 1/2's 5" Nipple ........1 CH 41 1/2" s7" Nipple ........1 CH 42 1/2' x8" Nipple ........1 CH 43 3/4° x 1-1/2' Nipple .....5 CH 44 3/4" 5 2' Nipple ........1 CH 45 1-1/4 x 2" Nipple .......1 CH 46 1-1/4" x 4" Nipple .......1 CH P1 250 psi/ 1750kPa Air Pressure Gauge .....1 92-343-1-012 P2 1/4" Gauge Test Valve . . 1 46-005-1-002 fin,, li~-.- -- NO. DESCRIPTION OTY. P/N P3 Model DP-1 Dry Pilot Actuator ..............1 52-280-1-001 P4 Low Air Pressure Alarm Switch (PS40-2A) .1 2573 PS Solenoid Valve Per Data Ordered Sheet TFP2180 ........1 Separately P6 1/4' Pressure Relief Valve ................1 92-343-1-020 P7 1/2" Swing Check Valve .1 46-049-1-004 P8 112" Globe Valve .......1 46-047-1-004 P9 1-1/4' Angle Valve ......1 46-048-1-007 P10 1/2' Tubing Connector . . 1 CH P11 1/2' s24' Tubing .......1 CH P12 1/4" Plug .............3 CH P13 1/2' Union ............2 CH P14 1/245° Elbow .........1 CH P15 1/290° Elbow .........4 CH P16 1/2" Cross ............1 CH P17 1/2" xi/4' x1/2" Tee ....1 CH P18 1/2's 1/2' x 1/4" Tee ....1 CH P19 1-1/4' x 1-1/4' xi/2" Tee .1 CH P20 1/4' x Close Nipple .....1 CH P21 1/2' x Close Nipple .....2 CH P22 1/2" x 1-1/2° Nipple .....8 CH P23 1/2" x 2" Nipple ........3 CH P24 1/2" x 5" Nipple ........1 CH P25 1/2" x 10-1/2" Nipple ....1 CH P26 1-1/4" x2" Nipple .......1 CH P27 1-1/4" s3" Nipple .......1 CH fl' 30. 32 2 21 36 LOCATION 44 FOR OPTIONAL ELECTRICALLY SUPERVISED 35 N.C. ALARM 25 CONTROL VALVE P15 6 P22 P22 16 P16 (GREEN TINT' 17 P24 P26 Pg P1 P2 P12 °i! P5 - (ORDERED P22 SEPARATELY) P21 30 8 NOTES: Supervised Double Interlock Preaction Trim with Electric/Pneumatic Release is comprised of Items 1-46 plus Items Pi-P27. Use only the Model CV-1 FR Riser Check Valve. All Fittings and Nipples are galvanized (Standard Order). CH: Common Hardware. 25 NOTES: See Figure 2 of TFP1305 for Deluge Valve Port identification. Route all Tubing to Drip Funnel, Item 15. FIGURE 2A — PART 2 0F3 3 INCH (DNBO) MODEL DV-5 DELUGE VALVES DOUBLE INTERLOCK PREACTION SYSTEM WITH ELECTRIC/PNEUMATIC ACTUATION TRIM (52-478-X-124) - EXPLODED VIEW - Page 6of16 TFPI46O NO. DESCRIPTION QTY. PIN NO. DESCRIPTION QTY. P/N NO. DESCRIPTION QTY. P/N 1 300 psi/ 2000 kPa 30 1 x 1/2 90° Elbow .....1 CH PlO 1/2 Tubing Connector . . 1 CH Water Pressure Gauge . .2 92-343-1-005 31 lx 3/4" xl" Tee .......I CH P11 1/2' x24" Tubing .......1 CH 2 1/4" Gauge Test Valve . . 1 46-005-1-002 32 2' 90° Elbow ..........1 CH P12 1/4" Plug .............3 CH 3 Model MC-1 Manual 33 1/4" x Close Nipple .....2 CH P13 1/2° Union ............2 CH Control Station .........1 52-289-2-001 34 1/2" x Close Nipple .....1 CH P14 1/2" 45° Elbow .........1 CH 4 Model AD-1 Automatic 35 1/2" x1-1/2" Nipple .....11 CH P15 1/2° 90° Elbow .........4 CH Drain Valve ...........1 52-793-2-004 36 112"x2-1/2" Nipple .....2 CH P16 1/2' Cross ............I CH 5 Fail-Safe Valve, 37 1/2" x 3" Nipple ........1 CH P17 II2"x 1/4" x 1/2" Tee ....1 CH Model FSV-1 ..........1 52-343-1-001 38 1/2" x5" Nipple ........2 CH P18 1/2" x 1/2" x 1/4" Tee ....1 CH 6 Waterflow Pressure 39 1/2" x 7" Nipple ........2 CH P19 2" x2" x 1/2" Tee .......1 CH Alarm Switch (PSI0-2A) .1 2571 40 1/2" x 9" Nipple ........1 CH P20 1/4" x Close Nipple .....1 CH 7 Priming Supply 41 Select Nipple per Table . 1 CH P21 1/2" x Close Nipple .....2 CH Restriction ............1 92-020-1-009 42 Select Nipple per Table .1 CH P22 1/2" x 1-1/2" Nipple .....6 CH 8 1/2" Ball Valve .........2 46-050-1-004 43 Select Nipple per Table . I CH P23 1/2" x 2" Nipple ........1 CH 9 1/2" Spring Loaded 44 3/4" x 1-1/2" Nipple .....1 CH P24 1/2" x 4-1/2" Nipple .....2 CH Check Valve ..........1 92-322-1-002 45 3/4" x2" Nipple ........1 CH P25 1/2" xli" Nipple .......1 CH 10 1/2" Y-Strainer .........1 52-353-1-005 46 Select Nipple per Table .1 CH P26 Select Nipple per Table . .1 CH Il 3/4" Swing Check Valve .1 46-049-1-005 47 1" xClose Nipple .......2 CH P27 Select Nipple per Table .1 CH 12 2" Angle Valve .........1 46-048-1-009 48 1" x 3" Nipple ..........1 CH P28 Select Nipple per Table . . I CH 13 Drip Funnel Connector .. 1 92-211-1-005 49 2" x 3" Nipple ..........2 CH P29 2" x3" Nipple ..........2 CH 14 Drip Funnel Bracket . . . . 1 92-211-1-003 P1 250 psi/ 1750 kPa 15 Drip Funnel ...........I 92-343-1-007 16 3/32" Vent Fitting .......1 92-032-1-002 Air Pressure Gauge .....1 92-343-1-012 17 1/4" x 24" Tubing .......1 CH P2 1/4" Gauge Test Valve . I 46-005-1-002 18 1/2" Tubing Connector .2 CH P3 Model DP-1 Dry Pilot 19 1/2" x 24" Tubing .......2 Cf-f Actuator ..............1 52-280-1-001 20 1/4" Plug .............1 CH P4 Low Air Pressure 21 3/4" Plug .............1 CH Alarm Switch (PS40-2A) .1 2573 22 1/2" Union ............5 CH P5 Solenoid Valve Per Data Ordered 23 1" Union ..............1 CH Sheet TFP2180 ........1 Separately 24 1/4" 90° Elbow .........1 CH P6 1/4" Pressure Relief 25 1/290° Elbow .........7 CH Valve ................1 92-343-1-020 26 1/2" Cross ............1 CH P7 1/2" Swing Check Valve .1 46-049-1-004 27 1/2" Tee . . .......... . .2 CH P8 1/2" Globe Valve .......I 46-047-1-004 28 1/2" s 1/4" x 1/2" lee 3 CH P9 2" Angle Valve .........1 46-048-1-009 - Nipple No. - Select Appropriate Nipple Sizes per DV-5 Deluge Valve Size 4" (DNIOO) 6" (DN150) 8" (DN200) 41 112"x2-112" 1/2" x5-1/2" 112"x8-112" 42 112"x1-112" 1/2"x2" 1/2"x2" 43 1/2"x4" 112's 5" 112"x5-1/2" 46 314"x2-112" 3/4" x3-112" 3/4" x4-l/2" P26 1/2" x 7° 1/2" x5-1/2" 1/2" x3" P27 1/2"x3-112" 112"x6" 112"x8" P28 1/2" x2" 1/2" x2-112" 1/2" x4" El. 29 3/4" x 1/2" 53/4" lee ....2 (H P6 P20 P8 P22 kP18 P 22 P1 P22 / P17 P2 P15 P13 30 14 P10 P22 P12 P22 37 4 P15 6 P24 P27 P7 47 P23 P3 16 P16 P11 P21 (GREEN P13 27 P25 TINT) 17 P26 .- P15 P29 :;- 28 13 - 25 (ORDERED 29 <- PLUG P24 SEPARATELY) UNUSED 14 15 42 21 P29 PORTS P15 36 P19 22 43 P12 P21 LOCATION 45 31 40 25 35 FOR OPTIONAL 23 P12 25 18 ELECTRICALLY 44 0 35 22 SUPERVISED 11 27 N.O. ALARM 35 4748 (HEX ENDS, 19 CONTROL VALVE 25 46 'FSV-l") 35 (BVS-3/4") 29 36 41 0 RISER CHECK VALVE 26 35 28 8 32 (NOTE 2) 39 - 49 49 35 3 10 12 NOTES: 0 22 1. Supervised Double 39 g Interlock Preaction Trim 22 ° 0 25 34 with Electric/Pneumatic 20 Release is 2 19 35 38 comprised of Items 1-49 plus Items 38 35 18 25 25 P1-P29. 35 22 35 2. Use only the Model CV-1 FR 33 4" (DN100) 28 FLANGEs GROOVE NOTES: Riser Check Valve. 33 MODEL DV-5 35 5. See Figure 2 of TFP1305 for All Fittings and Nipples are 24 DELUGE VALVE Deluge Valve Port identification. galvanized (Standard Order). SHOWN 8 6. Route all Tubing to Drip Funnel, CH: Common Hardware, Item 15. FIGURE 2A — PART 3 0F3 4, 6, and 8 INCH (DN100, DN150, and DN200) MODEL DV-5 DELUGE VALVES DOUBLE INTERLOCK PREACTION SYSTEM WITH ELECTRIC/PNEUMA TIC ACTUA TION TRIM (52-478-X-121) -EXPLODED VIEW - LOW AIR - PRESSURE ALARM SWITCH 1/2 INCH NPT CONNECTION FOR SYSTEM AIR SUPPLY DRY PILOT ACTUATOR 0 NIPPLE NIPPLE (NORMALLY 6 7 CLOSED) RISER CHECK VALVE — (NOTE 1) NIPPLE 2, TFPI 460 Page 7 of 16 NOTES; Use only the 2" Model CV-1 FR Riser Check Valve with 1-1/2' and 2' DV-5 Valves. Use corresponding sized Model CV-1 FR Riser Check Valves for 3-8" Model DV-5 Valves. Nipples 1-7 vary in length relative to the Model DV-5 size and Riser Check Valve used. Select per the appropriate table. All other nipples packed unassembled shall be installed per the appropriate trim exploded view, Figure 2A Part 1, 2, or 3. Install subassemblies in alphabetical order. See Figure 2 of TFP1305 for Deluge Valve Port identification. Route all Tubing to Drip Funnel. When DV-5 trips, the Fail-Safe Valve opens, partially, diverting the diaphragm supply to r1r21n IInwinn rlknhrnnm chamber to remain Nipple Select Appropriate Nipple Sizes per DV-5 Deluge Valve Size With Model CV-1 FR Check Valve Number 1-1/2" (DN40) 2" (DN50) 3" (DN80) 4" (DNIOO) 6" (DN150) 8" (DN200) 1 1/2" x 1-1/2" 1/2" x 2" 1/2" x 1-1/2" 1/2" x2-1/2" 1/2" x5-1/2" 1/2" x 8-1/2" 2 1/2's Close 1/2" x Close 1/2" xl-1/2" 1/2" x 1-1/2" 1/2"x 2" 1/2" x 2" 3 1/2" x 3-1/2" 1/2" s3-1/2" 1/2" x 4-1/2" 1/2" x4" 1/2' x 5" 1/2" x 5-1/2" 4 3/4"x1-1/2" 3/451-1/2" 3/4"x1-1/2" 3/4"x2-1/2" 3/4"x3-1/2" 3/4"x4-1/2" 5 1/2" x 6" 1/2" x5-1/2" 1/2"x 5" 1/2" x 7" 1/2" x5-1/2" 1/2" s3" 6 1/2' x 2-1/2" 1/2" x2" 1/2" x2" 1/2" x 3-1/2" 1/2" x6" 1/2" x 8" 7 1/2" x 1-1/2" 1/2" xl-1/2" 1/2" x 2" 1/2" x 2" 1/2" x 2-1/2" 1/2" x 4" System Main Drain Size 3/4' NPT 3/4" NPT 1-1/4" NPT 2" NPT 2" NPT 2" NPT Main Drain Size 3/4" NPT 3/4" NPT 1-1/4" NPT 2" NPT 2" NPT 2" NPT Ej de-pressurized after a decrease in system flow. WATERFLOW VENT FITTING SYSTEM PRESSURE (GREEN TINT) AIR SUPPLY ALARM SWITCH CONTROL VALVE (NORMALLY '- OPEN) 3/4 INCH NPT CONNECTION F O R DRIP F WATER MOTOR AUTOMATIC FUNNEL ALARM DRAIN WITH 1-1/4 B VALVE INCH NPT CONNECTION TO DRAIN NIPPLE NIPPLE / PLUG / UNUSED / DCTQ MAIN DRAIN VALVE (NORMALLY CLOSED) ALARM TEST VALVE (NORMALLY CLOSED) SYSTEM WATER 4" (DN100) SUPPLY FLANGE X GROOVE PRESSURE MODEL DV-5 GAUGE MAIN DRAIN DELUGE VALVE CONNECTION SHOWN (SIZED PER TABLE) U \ DIAPHRAGM CHAMBER SUPPLY CONTROL VALVE 1/2 INCH NPT (NORMALLY CONNECTION FROM OPEN) WATER SUPPLY NIPPLE 3 LII SYSTEM AIR SUPPLY - PRESSURE GAUGE G 1/2 INCH CONDUIT CONNECTION FOR "ELECTRIC DETECTION" - - SOLENOID VALVE, ORDERED SEPARATELY (NORMALLY CLOSED) DIAPHRAGM CHAMBER PRESSURE GAUGE MANUAL - CONTROL STATION FAIL-SAFE VALVE (NORMALLY CLOSED) FIGURE 2B 1-1/2 thru 8 INCH (DN40 thru DN200) MODEL DV-5 DELUGE VALVES DOUBLE INTERLOCK PREACTION SYSTEM WITH ELECTRIC/PNEUMATIC ACTUATION TRIM - OPERATIONAL COMPONENTS - 1/2" NPS DIAPHRAGM CHAMBER SUPPLY CONNECTING TRIM (FIELD FABRICATED) MAIN ONTROL VALVE Page 8 of 16 TFPI 460 Valve Nominal Dimensions in Inches and (mm) _Installation Size A B C D E F G H J K L M 1-1/2 7.00 8.88 13.00 10.50 27.13 4.00 5.81 5.81 3.00 7.00 4.00 14.81 (DN40) (177,8) (225,4) (330,2) (266,7) (689,0) (101,6) (147,6) (147,6) (76,2) (177,8) (101,6) (376,2) 2' 7.13 9.13 13.00 10.50 27.50 3.13 6.00 6.00 3.00 7.00 3.13 15.38 (DNSO) (181,0) (231,8) (330,2) (266,7) (698,5) (79,4) (152,4) (152,4) (76,2) (177,8) (79,4) (390,5) 7.81 10.44 14.50 10.50 31.00 1.69 6.69 6.69 4.25 7.00 0.25 21.13 (DN80) (198,4) (265,1) (368,3) (266,7) (787,4) 1 (42,9) (170,0) (170,0) (108,0) (177,8) (6,4) (536,6) 10.00 11.75 17.88 10.50 35.63 1.75 6.50 8.56 6.25 7.13 0.38 25.38 (DN100) (254,0) (298,5) (454,0) (266,7) (904,9) (44,5) (165,1) (217,5) (158,8) (181,0) 1 (9,5) (644,5) 6" 11.38 14.31 18.75 10.50 36.19 3.50 7.88 9.94 6.25 7.13 1.56 29.63 (DN150) (289,0) (363,5) (476,3) (266,7) (919,2) (88,9) (200,0) (252,4) (158,8) (181,0) (39,7) (752,5) 8" 12.00 16.00 21.25 10.50 40.50 1.75 10.75 10.63 6.25 7.13 7.13 36.50 (DN200) (304,8) (406,4) (539,8) (266,7) (1028,7) (44,5) (273,1) (269,9) (158,8) (181,0) (181,0) (927,1) * MINIMUM CLEARANCE. N H 2" NIPS 1-1/4" NIPS DRAIN DRAIN LEFT VIEW FRONT VIEW FIGURE 3 1-1/2 thru 8 INCH (DN40 thru DN200) MODEL DV-5 DELUGE VALVES DOUBLE INTERLOCK PREACTION SYSTEM WITH ELECTRIC/PNEUMATIC ACTUATION TRIM - NOMINAL INSTALLATION DIMENSIONS - TFPI 460 Page 9 of 16 into the system piping, as well as through the Alarm Port to actuate the system alarms. As water flows into the system, the Model FSV-1 Fail-Safe Valve (Item 5 - Fig. 2A, also described in Technical Data Sheet TFP1386) becomes pres- surized and upon operation constantly vents the DV-5 Diaphragm Chamber so as to maintain the DV-5 Valve in the open (operated) position until the sys- tem is reset. WARNING The Model DV-5 Double Interlock Pre- action System with Electric/Pneumatic Actuation described herein must be installed and maintained in compli- ance with this document, as well as with the applicable standards of the National Fire Protection Association, in addition to the standards of any other authorities having jurisdiction. Failure to do so may impair the per- formance of the related devices. The owner is responsible for maintain- ing their fire protection system and de- vices in proper operating condition. The installing contractor or manufac- turer should be contacted with any questions. Technical Data Approvals UL and C-UL Listed. FM Approved Deluge Valve Model DV-5. Riser Check Valve Model CV-1 FR. NOTE 1-1/2 inch (DN40) risers utilize a 2 inch (DN50) Riser Check Valve in combina- tion with the 1-1/2 inch (DN40) Model DV-5 Deluge Valve. Valve Trim The Double Interlock Preaction Sys- tem with Electric/Pneumatic Actuation Trim (Fig. 2A/2B) forms a part of the laboratory listings and approvals. The trim is necessary for proper operation of the DV-5 Valve. Each package of trim includes the fol- lowing items: Water Supply Pressure Gauge Diaphragm Chamber Pressure Gauge Diaphragm Chamber Connections Manual Control Station Main Drain Valve System Drain Valve Alarm Test Valve Automatic Drain Valve System Air Pressure Gauge Air Supply Connections Low Air Pressure Alarm Switch Waterflow Pressure Alarm Switch Dry Pilot Actuator Pressure Operated Relief Valve To ease field assembly of the trim ar- rangement, the trim components are provided partially assembled as shown in Figure 2B. The trim arrangement is provided with galvanized or black nipples and fit- tings. The galvanized trim is intended for non-corrosive or corrosive condi- tions, whereas the black trim is princi- pally intended for use with AFFF sys- tems. NOTE When the system pressure is greater than 175 psi (12,1 bar), provision is to be made to replace the standard order 300 psi (20,7 bar) Water Pressure Gauges, shown in Figure 2A/2B with separately ordered 600 psi (41,4 bar) Water Pressure Gauges. System Design Considerations Because a double interlock preaction system requires time for a drop in sys- tem air pressure to occur (concurrently with the response time for the separate fire detection system) before it will al- low water to enter the system piping, this system has characteristics similar to a dry pipe sprinkler system. There- fore, the system design considerations for a dry pipe system are normally applied to a double interlock preaction system - including a 30% increase in design area; a maximum 1 minute water delivery time for system capaci- ties of 750 gallons (2800 litres) or more; and, prohibition of gridded sys- tem piping. In order to readily perform the System Inspection Procedure described in the Care and Maintenance section, it is Page 10 of 16 TFPI460 s1''I;1il - YJJLUIII!J 10 'UI III .111 III IISS _.......l 1t. ••u•••••• •UUi •UUUUUUWA ••V4•• 000001§11111111 EFA •• ••UU VA••••U••UU ..'I•• RISI 11111 MEMO §§§l MMMMMMMMFfi NEFAMMEMS1101111 11111 VANN NNJI FA mommosolmwmmm ,, 11111 NONE soll MENESEEPAN EFAMEN mossillill 11111 FIAM No moor, mmmommosim OFAMEN IIiii Moll uuuIuuuuIuu'4uI•'auuuuuiuuuIiiinir MEMO uu1•••uuuIuIuw1i•I ,.uuI... .... a... a...... ulllluuluuuuu•uuuluruuuvuuuuuuulluuluulpAluluup4l•uuuuuuuuur1u•uu u••uu I... ••u r4u• •••••I •• , __________.V - III.. IIIII••• n... u•uu v.... •• ••• .......... U•••U•UII iriuu AIII ... ••4••U wa.. .......A... .....r . I.08 .1 uuuui•• uuuus.0 U .•.. UU UU Ui A'4u ••NU .... ••••• ••U•U•IIUI liii' 41111 11111.•.r..U. ••U• L••I ••UU•W4U••• ......vai..... 1 jillilmommons, Isommoom moons •••riuuuuuu•vluuuu•••uu•w411••u•• . -iii. 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'a -- :::::::: I•IUI WA•• r••u U. •••u•• ru... u. N•i uIII ..... u5111wa... •• •••UU ••UUU Il'4U • •• UU• ••••••u JICII IJjuuuuI r4 • •• •U •••U°A ...•••••I I'.dUI -- • ••UU ISIS i'' •II IIIII IIIISISIIII - ; iIkuucjjj iiiJii TFPI 460 Page 11 of 16 C recommended that a System Shut-Off Valve be installed above the Riser Check Valve, as shown in Figure 1. The System Shut-Off Valve should be a listed or approved (as appropriate) in- dicating valve with a supervisory switch to monitor the normally open position. Detection System The Double Interlock Preaction Sys- tem With Electric/Pneumatic Actuation Trim provides for electric operation of the DV-5 Valve by a detection system consisting of electrical devices such as heat sensitive thermostats, smoke de- tectors, and/or electric manual pull sta- tions. Information on the various types of separately ordered Solenoid Valves that may be used with this trim pack- age is given in Technical Data Sheet TFP2180. Nominal installation dimen- sions for the Double Interlock Preac- tion System With Electric/Pneumatic Actuation Trim are shown in Figure 3. The deluge valve releasing panel (automatic control unit) with battery back-up, fire detection devices, man- ual pull stations, and signaling devices that are utilized with the Double Inter- lock Preaction System with Elec- tric/Pneumatic Actuation must be UL Listed, ULC Listed, C-UL Listed, or FM Approved, as applicable. NOTES Approval by Factory Mutual is contin- gent on the use of an FM Approved 24 VDC Solenoid Valve (P/N 52-287-1- 024 or P/N 52-287-1-124). FM only approves solenoid valves for use in non-hazardous locations. Consult with the Authority Having Ju- risdiction regarding installation criteria pertaining to electric actuation cir- cuitry. The Double Interlock Preaction Sys- tem With Electric/Pneumatic Actuation Trim is provided with a Model FSV-1 Fail-Safe Valve (Item 5 - Fig. 2A, also described in Technical Data Sheet TFP1386); consequently, the release circuit of the releasing panel need only provide the standard ten minutes of alarm condition intended to energize the Solenoid Valve to open. After the ten minute duration, at which point should the Solenoid Valve become de- energized and closes (especially while operating under battery back-up), the Fail-Safe Valve will have already auto- matically operated to constantly vent the DV-5 Diaphragm Chamber, thereby preventing the DV-5 Dia- phragm Chamber from becoming re- pressurized and preventing an inad- vertent closing of the DV-5 during a fire event. System Air Pressure Requirements The required system air pressure for the Double Interlock Preaction System with Electric/Pneumatic Actuation is shown in Graph A as a function of the anticipated water supply pressure. It is recommended that the system air pressure be maintained by one of the following methods: A maximum 200 psi (13,8 bar) plant air supply in combination with the Model AMD-1 Air Maintenance De- vice described in Technical Data Sheet TFP1221. A dedicated air compressor in com- bination with the Model AMD-2 Air Maintenance Device described in Technical Data Sheet TFP1 231. A maximum 3000 psi (206,9 bar) nitrogen cylinder in combination with the Model AMD-3 Nitrogen Mainte- nance Device described in Techni- cal Data Sheet TFP1241. NOTES The dew point of the air or nitrogen supply, for a system exposed to freez- ing conditions, must be maintained be- low the lowest ambient temperature to which the system piping will be ex- posed. Introduction of moisture into the system piping can create ice build up which could prevent proper opera- tion of the system. Friction Loss The nominal pressure loss versus flow data for the Model DV-5 Deluge Valve plus Riser Check Valve is provided in Graph B. Installation NOTES 1-1/2 inch (DN40) risers utilize a 2 inch (DN50) Riser Check Valve in combina- tion with the 1-1/2 inch (DN40) Model DV-5 Deluge Valve. Proper operation of the Model DV-5 Deluge Valves depends upon their trim being installed in accordance with the instructions given in this Technical Data Sheet. Failure to follow the ap- propriate trim diagram may prevent the DV-5 Valve from functioning prop- erly, as well as void listings, approvals, and the manufacturer's warranties. Field adjustments of the Air Mainte- nance Device, Low Pressure Alarm Switch, and Pressure Relief Valve are required. When using compressed air as op- posed to compressed nitrogen for re- frigerated area service, alternate air supply connections with an air dryer may be required by the Authority Hav- ing Jurisdiction. The "1/2 Inch NPT Connection For System Air Supply" shown in Figure 2B is to be plugged when using an alternate air supply connection; the location of the Air Pressure Maintenance is to be as specified by the Authority Having Ju- risdiction; and, Step 10 regarding the adjustment of the Pressure Relief Valve can be omitted, since the Pres- sure Relief Valve in this case will be ineffective. The DV-5 Valve must be installed in a readily visible and accessible location. The DV-5 Valve and associated trim must be maintained at a minimum tem- perature of 40°F/4C. Heat tracing of the DV-5 Valve or its associated trim is not permitted. Heat tracing can result in the formation of hardened mineral deposits that can prevent proper operation. The Model DV-5 Deluge Valve is to be installed in accordance with the follow- ing criteria: Step 1. All nipples, fittings, and de- vices must be clean and free of scale and burrs before installation. Use pipe thread sealant sparingly on male pipe threads only. Step 2. The DV-5 Valve must be trimmed in accordance with Figure 2A/2B. Step 3. Care must be taken to ensure that check valves, strainers, globe valves, etc. are installed with the flow arrows in the proper direction. Step 4. Drain tubing to the drip funnel Page 12 of 16 TFPI46O 0 must be installed with smooth bends that will not restrict flow. Step 5. The main drain and drip funnel drain may be interconnected provided a check valve is located at least 12 inches (300 mm) below the drip funnel. Step 6. Suitable provision must be made for disposal of drain water. Drainage water must be directed so that it will not cause accidental dam- age to property or danger to persons. Step 7. Connect the Diaphragm Chamber Supply Control Valve to the inlet side of the system's main control valve in order to facilitate setting of the DV-5 Valve (Fig. 3). Step 8. Unused pressure alarm switch connections must be plugged. Step 9. A suitable automatic supervi- sory air (nitrogen) supply, as described in the Technical Data Section, is to be installed in accordance with the appli- cable Technical Data Sheet. Refer to Graph A for the system air pressure requirements. An air dryer, when specified, is to be installed as required by the Authority Having Jurisdiction. Step 10. The Pressure Relief Valve (P6 - Fig. 2A) is factory set to relieve at a pressure of approximately 45 psi (3,1 bar), which can typically be used for a maximum system pressure of 40 psi (2,8 bar). The Pressure Relief Valve may be reset; however, it must be reset to relieve at a pressure that is in ac- cordance with the requirements of the Authority Having Jurisdiction. To reset the Pressure Relief Valve, first loosen the jam nut and then adjust the cap accordingly - clockwise for a higher pressure setting or counter- clockwise for a lower pressure setting. After verifying the desired pressure setting, tighten the jam nut. Step 11. The Low Pressure Alarm Switch (Item P4 - Fig. 2A) is to be adjusted to operate on falling pressure at approximately 6 psi (0,4 bar) below the minimum Double Interlock Dry System air pressure requirement shown on Graph B. Use the instructions provided with the switch to adjust the pressure setting. Step 12. Conduit and electrical con- nections are to be made in accordance with the requirements of the authority having jurisdiction and/or the National Electric Code. Step 13. Before a system hydrostatic test is performed in accordance with NFPA 13 system acceptance test re- quirements, the DV-5 Diaphragm Chamber is to be depressurized; the Automatic Drain Valve (4, Fig. 2A) is to be temporarily replaced with a 1/2 inch NPT plug, the 3/32 inch Vent Fitting (17 - Fig. 2A) is to be temporarily replaced with a 1/4 inch NPT plug, and the Dia- phragm Cover Bolts must be uni- formly and securely tightened using a cross-draw sequence. After tight- ening, double-check to make certain that all of the Diaphragm Cover Bolts are securely tightened. Valve Setting Procedure Steps 1 through 15 are to be per- formed when initially setting the Model DV-5 Deluge Valve; after an opera- tional test of the fire protection system; or, after system operation due to a fire. Step 1. Close the Main Control Valve. Step 2. Close the Diaphragm Cham- ber Supply Control Valve and the Sys- tem Air Supply Control Valve. Step 3. Open the Main Drain Valve, System Drain Valve, and all auxiliary drains in the system. After water ceases to discharge, close the System Drain Valve and auxiliary drain valves. Leave the Main Drain Valve open. NOTE Do not open the Inspector's Test Con- nection and auxiliary drains if resetting after a system test; otherwise, system air pressure will be relieved unneces- sarily. Step 4. Depress the plunger of the Automatic Drain Valve to verify that it is open and that the DV-5 Valve is completely drained. Step 5. Clean the Strainer in the Dia- phragm Chamber Supply connection by removing the clean-out plug and strainer basket. The Strainer may be flushed out by momentarily opening the Diaphragm Chamber Supply Con- trol Valve. Step 6. Inspect for and clear all ice plugs where system piping has been exposed to freezing conditions and when there has been a flow of water into the system. Step 7. Replace all damaged or oper- ated sprinklers. Replacement sprin- klers must be of the same type and temperature rating as those that oper- ated. NOTE In order to prevent the possibility of a subsequent operation of an over- heated solder type sprinkler, any sol- der type sprinklers possibly exposed to a temperature greater than their maximum rated ambient must also be replaced. Step 8. Service the air dryer, if appli- cable, in accordance with the manu- facturer's instructions. Step 9. Open the System Air Supply Control Valve and allow the system to automatically re-establish its nominal system air pressure per Graph A. Ob- serve the Automatic Drain Valve for leaks. If there are leaks, deter- mine/correct the cause of the leakage problem within the Riser Check Valve. Step 10. Reset the actuation system. Manual Actuation - Push the operat- ing lever up; however, do not close the hinged cover at this time. Electric Actuation - Reset the electric detection system in accordance with the manufacturer's instructions to de- energize the Solenoid Valve. Step 11. Open the Diaphragm Cham- ber Supply Control Valve and allow full pressure to build up in the Diaphragm Chamber. Step 12. Operate (open) the Manual Control Station to vent trapped air from the Diaphragm Chamber. If necessary, first open the hinged cover, and then fully pull down on the operating lever. SLOWLY close the operating lever, by pushing it up, after aerated water ceases to discharge from the Manual Control Station drain tubing. Close the hinged cover and insert a new break rod in the small hole through the top of the enclosing box. Step 13. Inspect the drain connections from the Manual Control Station and the Dry Pilot Actuator. Any leaks must be corrected before proceeding to the next step. Step 14. Verify the ability for the DV-5 Diaphragm to hold pressure as fol- lows: With the diaphragm chamber pressur- ized per Step 12, temporarily close the Diaphragm Chamber Supply Control Valve and observe the Diaphragm Chamber Pressure Gauge for a drop in pressure. If a drop in pressure is noted, the DV-5 Diaphragm is to be replaced and/or any leaks must be corrected before proceeding to the next step. If the Diaphragm Chamber Pressure Gauge does not indicate a drop in pressure, re-open the Diaphragm Chamber Supply Control Valve and proceed to the next step. Step 15. Slowly open the Main Control Valve. Close the Main Drain Valve as soon as water discharges from the TFPI 460 Page 13 of 16 E I drain connection. Observe the Auto- matic Drain Valve for leaks. If there are leaks, determine/correct the cause of the leakage problem. If there are no leaks, the DV-5 Valve is ready to be placed in service and the Main Control Valve must then be fully opened. NOTES When the Main Control Valve is opened, the pressure on the Dia- phragm Chamber may increase. This increase in pressure is normal, and if the pressure is greater than 250 psi (17,2 bar), the pressure is to be re- lieved by partially and temporarily opening the Manual Control Station; however, do not allow the pressure as indicated on the Diaphragm Chamber Pressure Gauge to drop below the supply pressure shown on the Water Supply Pressure Gauge, since this ac- tion may result in tripping of the DV-5 Valve. After setting a fire protection system, notify the proper authorities and ad- vise those responsible for monitoring proprietary and/or central station alarms. Care and Maintenance The following procedures, inspections, and maintenance must be performed as indicated, in addition to any specific requirements of the NFPA, and any impairment must be immediately cor- rected. The owner is responsible for the in- spection, testing, and maintenance of their fire protection system and de- vices in compliance with this docu- ment, as well as with the applicable standards of the National Fire Protec- tion Association (e.g., NFPA 25), in addition to the standards of any authority having jurisdiction. The in- stalling contractor or product manufac- turer should be contacted relative to any questions. It is recommended that automatic sprinkler systems be inspected, tested, and maintained by a qualified Inspection Service in accordance with local requirements and/or national codes. It is recommended that the System Inspection Procedure be performed at least semi-annually by a qualified In- spection Service. The Double Interlock Preaction System Inspection Proce- dure may be followed in lieu of per- forming any of the operational tests recommended in the Technical Data Sheets for the Model DV-5 Deluge Valve, Riser Check Valve, 24 VDC So- lenoid Valve, Dry Pilot Actuator, and Model MC-1 Manual Control Station. NOTES It is recommended that the individuals responsible for the care and mainte- nance of the Double Interlock Preac- tion System develop a working under- standing of the system, in general, prior to performing inspection and/or maintenance procedures. These in- structions, as well as individual in- structions for the deluge valve, riser check valve, solenoid valve, dry pilot actuator, manual control station, switches, and pressure maintenance device should be reviewed. The following procedures pertain to the automatic control valve portion of the Double Interlock Preaction Sys- tem. Refer to the manufacturer's in- structions and NFPA 25 for care and maintenance procedures for all other devices (e.g., electric detection, main control and system shut-off valves, su- pervisory devices, sprinklers, etc.). Before performing the System Inspec- tion Procedure, which will result in op- eration of alarms, notify the proper authorities and all personnel who may be affected. Before closing a fire protection system main control valve for maintenance work on the fire protection system that it controls, permission to shut down the affected fire protection system must be obtained from the proper authorities and all personnel who may be affected by this action must be notified. System Inspection Procedure Step 1. Close the Main Control Valve (Fig. 1) and then open the DV-5 Main Drain Valve (Fig. 213). Step 2. Manually operate Deluge Valve Releasing Panel, and verify the following: Verify the operation of the Releasing Panel and its associated alarms. Verify that there is no leakage from the Dry Pilot Actuator (Fig. 213). NOTES During this procedure, the Solenoid Valve is opened; however, the Dry Pi- lot Actuator should remain closed and the DV-5 Deluge Valve Diaphragm Chamber should remain pressurized. This procedure is used to verify that the DV-5 Deluge Valve will remain set if the electric detection system oper- ates but the sprinkler system remains in its normally pressurized condition. Step 3. Open the Inspector's Test Con- nection but be prepared to close it im- mediately after verifying that the Low Pressure Alarm Switch (Fig. 2B) and its associated alarms operate properly. The Low Pressure Alarm Switch should operate at the previously estab- lished pressure (refer to Installation section, Step 11). Close the Inspector's Test Connection. Step 4. Close the Diaphragm Chamber Supply Control Valve (Fig. 213). Step 5. Close the System Shut-off Valve (Fig. 1) after the system air pres- sure has been restored to normal. Step 6. Manually restore the electric fire detection system to a normal con- dition in accordance with the manufac- turer's instructions. The Solenoid Valve will then be de-energized and returned to its normally closed position. Step 7. Open the Diaphragm Chamber Supply Control Valve (Fig. 2B). Step 8. Open the Main Control Valve (Fig. 1) one turn beyond the position at which water just begins to flow from the Main Drain Valve. Page 14 of 16 TFPI 460 S Step 9. Close the Main Drain Valve (Fig. 2B). Step 10. Close the Air Supply Control Valve (Fig. 213). Step 11. Open the Dry Pilot Actuator by partially opening the System Main Drain Valve (Fig. 2B) to relieve air pres- sure at the inlet to the Actuator. Verify that there is no leakage from the Dry Pilot Actuator. NOTES During this procedure, the Dry Pilot Actuator is opened; however, the So- lenoid Valve should remain closed and the DV-5 Deluge Valve Diaphragm Chamber should remain pressurized. This procedure is used to verify that the DV-5 Deluge Valve will remain set if the Dry Pilot Actuator operates due to loss of system air pressure and the electric detection system remains in a normal condition. Step 12. Open (energize) the Solenoid Valve by operating the deluge valve releasing panel, and verify the follow- ing: Verify that the DV-5 Valve operates, as is indicated by a discharge of water from the System Main Drain Valve and the Automatic Drain Valve. The Automatic Drain Valve may or may not close depending on the flow past the partially open Main Control Valve. Verify that the Model FSV-1 Fail- Safe Valve has operated as is indi- cated by water discharging into the Drip Funnel from the 1/2 inch drain tube connected to the Model FSV-1 Fail-Safe Valve. Verify that the Waterflow Pressure Alarm Switch (Fig. 2B) and its asso- ciated alarms properly operate. Verify that the Water Motor Alarm, if applicable, properly operates. NOTE This procedure simulates opening of both the Dry Pilot Actuator (loss of system air pressure) and Solenoid Valve (operation of the deluge valve releasing panel) to verify automatic system operation. Step 13. Reset the Double Interlock Preaction System in accordance with the Resetting Procedure section. Fail-Safe Valve If water does not discharge from the 1/2 inch tube connected to the Model FSV-1 Fail-Safe Valve during Step 12 of the System Inspection Procedure, the Model FSV-1 Fail-Safe Valve is to be disassembled, cleaned, and in- spected as follows: Step 1. Take the sprinkler system out of service by using Steps 1 through 4 of the Resetting Procedure. Step 2. Remove the FSV-1 from the Double Interlock Preaction Trim. Step 3. Refer to Technical Data Sheet TFP1386 and completely disassem- ble the FSV-1. Step 4. Clean all parts, and replace worn or damaged parts as necessary Step 5. Reassemble the FSV-1 in ac- cordance with Technical Data Sheet TFP1386 and then reinstall the FSV-1 into the Double Interlock Preaction Trim. Step 6. Place the system into service in accordance with the Resetting Pro- cedure section and then perform the System Inspection Procedure to verify proper operation of the system, as well as the FSV-1 Fail-Safe Valve. Quarterly Waterf low Alarm Test Procedure Testing of the system waterflow alarms must be performed quarterly. To test the waterflow alarm, open the Alarm Test Valve, which will allow a flow of water to the Waterfiow Pressure Alarm Switch and/or Water Motor Alarm. Upon satisfactory completion of the test, close the Alarm Test Valve. Limited Warranty Products manufactured by Tyco Fire Products are warranted solely to the original Buyer for ten (10) years against defects in material and work- manship when paid for and properly installed and maintained under normal use and service. This warranty will ex- pire ten (10) years from date of ship- ment by Tyco Fire Products. No war- ranty is given for products or components manufactured by compa- nies not affiliated by ownership with Tyco Fire Products or for products and components which have been subject to misuse, improper installation, corro- sion, or which have not been installed, maintained, modified or repaired in ac- cordance with applicable Standards of the National Fire Protection Associa- tion, and/or the standards of any other Authorities Having Jurisdiction. Mate- rials found by Tyco Fire Products to be defective shall be either repaired or replaced, at Tyco Fire Products' sole option. Tyco Fire Products neither as- sumes, nor authorizes any person to assume for it, any other obligation in connection with the sale of products or parts of products. Tyco Fire Products shall not be responsible for sprinkler system design errors or inaccurate or incomplete information supplied by Buyer or Buyer's representatives. IN NO EVENT SHALL TYCO FIRE PRODUCTS BE LIABLE, IN CON- TRACT, TORT, STRICT LIABILITY OR UNDER ANY OTHER LEGAL THE- ORY, FOR INCIDENTAL, INDIRECT, SPECIAL OR CONSEQUENTIAL DAMAGES, INCLUDING BUT NOT LIMITED TO LABOR CHARGES, RE- GARDLESS OF WHETHER TYCO FIRE PRODUCTS WAS INFORMED ABOUT THE POSSIBILITY OF SUCH DAMAGES, AND IN NO EVENT SHALL TYCO FIRE PRODUCTS' LI- ABILITY EXCEED AN AMOUNT EQUAL TO THE SALES PRICE. THE FOREGOING WARRANTY IS MADE IN LIEU OF ANY AND ALL OTHER WARRANTIES EXPRESS OR IMPLIED, INCLUDING WARRANTIES OF MERCHANTABILITY AND FIT- NESS FOR A PARTICULAR PUR- POSE. F_ DELUGE VALVE (SELECT ONE) P/N's are for American Standard Groove x Groove Connections, and Threaded Ports, For other configurations refer to Technical Data Sheet TFP1305. Specify: (size) Model DV-5 groove x groove Deluge Valve, P/N (specify). 1-1/2 Inch ...........................................................P/N 52-477-1-919 2 Inch ..............................................................P/N 52-477-1-910 3 Inch ..............................................................PIN 52-477-1-912 4 Inch ..............................................................P/N 52-477-1-913 6 Inch ..............................................................P/N 52-477-1-915 8 Inch ..............................................................P/N 52-477-1-916 Ordering Procedure With reference to Table A on Page 16, the following items must be ordered separately: Deluge Valve Riser Check Valve Coupling (Deluge Valve to Riser Check Valve) Double Interlock Preaction Trim Automatic System Air Supply Solenoid Valve . Accessories NOTE 1-1/2 inch (DN40) risers utilize a 2 inch (DN50) Riser Check Valve in combina- tion with the 1-1/2 inch (DN40) Model DV-5 Deluge Valve. Part Numbers for factory pre-trimmed Model DV-5 Valves are provided in the Price Book. Replacement Trim Parts: Specify: (description) for use with Model DV-5 Deluge Valve, PIN (see Figure 2A). 1 ] TFPI 460 Page 15 of 16 0 RISER CHECK VALVE (SELECT ONE) P/N's are for American Standard Grooved Connections. For other configurations refer to Technical Data Sheet TFP950 for the groove x groove Model CV-1 FR Riser Check Valve. Specify: (size), Model CV-1 FR groove x groove Riser Check Valve, P/N (specify). For 1-1/2 inch risers, use the 2 Inch Riser Check Valve. 2 Inch ..............................................................P/N 59-590-1-020 3 Inch ..............................................................P/N 59-590-1-030 4 Inch ..............................................................P/N 59-590-1-040 6 Inch ..............................................................P/N 59-590-1-060 8 Inch ..............................................................P/N 59-590-1 -080 COUPLING (SELECT ONE) P/N's are for American Standard Grooved Connections. For other configurations and finishes refer to Technical Data Sheet TFP1830 and TFP1880. A coupling to attach the Riser Check Valve to the outlet of the Deluge Valve must be separately ordered. Specify: (Size), (Figure #), painted, (description), P/N (specify). For 1-1/2 inch risers, order an additional Reducing Coupling for the outlet of the 2 inch Riser Check Valve. 2 x 1-1/2 Inch Figure 716 Painted Reducing Coupling .......................P/N 7162015ES 2 Inch Figure 772 Painted Rigid Coupling .................................P/N 77220ASC 3 Inch Figure 772 Painted Rigid Coupling .................................P/N 77230ASC 4 Inch Figure 772 Painted Rigid Coupling .................................P/N 77240ASC 6 Inch Figure 772 Painted Rigid coupling .................................P/N 77260Asc 8 Inch Figure 772 Painted Rigid coupling .................................P/N 77280ASC DOUBLE INTERLOCK PREACTION TRIM (SELECT ONE) Specify: (specify size and finish - galvanized is standard) Semi-Preassembled Double Interlock Preaction System With Electric/Pneumatic Actuation Trim for Model DV-5 Deluge Valves, P/N (specify). 1-1/2 & 2 Inch Galvanized..............................................P/N 52-478-2-127 1-1/2 & 2 Inch Black ..................................................P/N 52-478-1-127 3 Inch Galvanized ....................................................P/N 52-478-2-124 3 Inch Black .........................................................P/N 52-478-1-124 4, 6 & 8 Inch Galvanized ...............................................P/N 52-478-2-121 4,6 & 8 Inch Black....................................................P/N 52-478-1-121 AUTOMATIC SYSTEM AIR SUPPLY (SELECT ONE) A device capable of maintaining a nominal system air or nitrogen pressure per Graph A must be separately ordered. Specify: (Specify model and description), P/N (specify). Model AMD-1 Air Maintenance Device (TFP1221) ..........................P/N 52-324-2-002 Model AMD-2 Air Maintenance Device (TFP1231) ..........................P/N 52-326-2-001 Model AMD-3 Nitrogen Maintenance Device (TFP1241) .....................P/N 52-328-2-001 SOLENOID VALVE (SELECT ONE) A Solenoid Valve compatible with the anticipated maximum water supply pressure must be ordered separately. Refer to Technical Data Sheet TFP2180 for other voltage ratings and NEMA classifications. Specify: 24 VDC, NEMA 2, 4 and 4X, (specify 175 or 250 psi) Solenoid Valve, P/N (specify). 175 psi .............................................................P/N 52-287-1-024 250 psi .............................................................P/N 52-287-1-124 ACCESSORIES (AS NEEDED) Specify: (description), PN (specify). 600 PSI Water Pressure Gauge .........................................P/N 92-343-1-004 Model WMA-1 Water Motor Alarm (TFP921) ...............................P/N 52-630-1-001 TABLE A - ORDERING LIST Page 16 of 16 TFPI 460 TYCO FIRE PRODUCTS, 451 North Cannon Avenue, Lansdale, Pennsylvania 19446 Bulletin 251 Rev. A Instructions for Installation, Operation, Care and Maintenance The Reliable Automatic Sprinkler Co., Inc., 103 Fairview Park Drive, Elmsford, New York 10523 Operation Adjustment 0 0 Model A-2 Pressure Maintenance Device (Refer to Figure 1) The Model A-2 Pressure Maintenance Device (PMD) is de- signed for use where a source of compressed air (plant air system, tank-mounted compressor with a pressure control, etc.) or nitrogen cylinder (equipped with a regulating de- vice) is available (refer to the section in this technical bulle- tin titled Installation"). The regulator in the Model A-2 PMD reduces higher pressure air or nitrogen to a level required by a dry pipe valve, dry pilot line, or a deluge valve based preaction system. The Model A-2 PMD will maintain a con- stant pressure in the system regardless of any pressure fluctuations from the compressed air or nitrogen source. Basic functionality of components (refer to Fige:The strainer's (Item 2) function is to prevent any foreign matter that may be present in the air supply, from traveling to the regulator (Item 1) and the check valve (Item 3), thereby en- suring their normal operation. The check valve's function is to prevent the reverse flow of water resulting from a dry pipe or deluge valve's operation, from reaching the regulator. The globe valves (Item 4) allow for the servicing (if needed) of the strainer (Item 2) and regulator (Item 1) without having to shut down the sprinkler system. The ball valve (Item 5) permits the rapid restoration (quick-fill) of the required sys- tem air pressure after service or operation. The ball valve (Item 5) must be closed and the globe valves (Item 4) must be open for proper automatic operation. Models B-i Pressure Maintenance Device (Refer to Figure 2) The Model B-i Pressure Maintenance Device (PMD) is designed for use in conjunction with the Reliable Model A Tankless Air Compressor in order to maintain the correct air pressure in a dry pipe valve or dry pilot line (refer to the section in this technical bulletin titled Installation"). The Re- liable Model A Tankless Air Compressor is controlled on or off by the air pressure level present in the dry pipe valve or dry pilot line via wiring between the compressor's motor and the contacts of the Model B-i PM D's pressure switch. Basic functionality of components (referto Figure 2): A drop in the sprinkler system's air pressure causes the contacts of the pressure switch (Item 1) to close, thereby activating the air compressor . When the pre-adjusted level of air pressure is restored, the pressure switch's contacts re-open, thereby deactivating the air compressor. The pressure switch (Item 1) is also equipped with an unloader valve that automati- cally bleeds off the air compressor's outlet pressure each time the contacts of the pressure switch open. This protects the air compressor's motor from overloading during start- up. Like the Model A-2 PMD, the Model B-i has a strainer (Item 2) for contamination control and a check valve (Item 3) to prevent reverse water flow. The ball valve (Item 5) and globe valves (Item 4) are also identical in configuration and function as with the Model A-2 PMD. Likewise, the ball valve (Item 5) must be closed and the globe valves (Item 4) must be open for proper automatic operation Model A-2 Pressure Maintenance Device (Refer to Figure i) The pressure regulator (Item 1) is factory set to maintain a nominal system air or nitrogen pressure of 30 psi (2,1 bar). In order to change the outlet pressure, loosen the locknut at the top of regulator and turn the adjustment screw clockwise to increase pressure. To decrease the pressure, turn the adjusting screw counter clockwise. The resulting pressure can be determined at the sprinkler system air gauge once the air flow through the device has ceased, or at the optional gauge location. Shown on Figure 1. Note: The locknut of the regulator (Item 1) must be tight- ened after adjusting in order to prevent an accidental change in the pressure setting. Adjustable Outlet Pressure Range: 5 psi - to - 50 psi (03 bar - to - 3,4 bar) Maximum Inlet Pressure: 175 psi (12 bar) Model B-i Pressure Maintenance Device The pressure switch (Item 1) is factory set to maintain a nominal system air pressure of 35 psi (2,4 bar). In order to change the setting, remove the pressure switch's cov- er and follow the directions contained within the switch. Electrical Rating: Single Phase: 120 Volts AC; 2 hp 240 Volts AC; 3 hp 600 Volts AC; 5 hp Three Phase: 240 Volts AC; 5 hp 600 Volts AC; 5 hp 115-230 Volts DC; 3 hp Adiustable Outlet Pressure Range: 14 psi - to -60 psi (1,0 bar - to - 4,1 bar) Maximum Inlet Pressure: 175 psi (12 bar) Model A-2 Pressure Maintenance Device P/N 6304000135, (All steel pipe fittings are galvanized) Item No. Part No. Description No. Req'd 1 98681630 Regulator, 5-50 psi 1 2 98727606 Strainer, 1/4" NPT, 90 1 3 96816902 Check Valve, ¼" 1 4 98840172 Globe Valve, ¼" 1 5 98840108 Butterfly Valve, '-/4" 1 6 98815201 Union, ¼' 1 7 96606616 Tee, 3A"x3/4"x 1/4" 2 8 98543234 Nipple, ~" x 31/2" 2 9 98543226 Nipple, ¼" x 1½" 4 10 98174404 Elbow, ¼" 1 11 98543268 Nipple. ¼"x 1" 3 12 96606608 Tee, ¼" 1 13 98614403 Plug, ¼" 1 Model B-i Pressure Maintenance Device P/N 6304010100, (All steel pipe fittings are galvanized) Item No. Part No. Description No. Req d 1 98728801 Pressure Switch, /e" NPT 1 2 98727607 Strainer, 1/4", 30 Mesh 1 3 96816902 Check Valve, ¼" 1 4 98840172 Globe Valve, ¼" 1 5 98840108 Butterfly Valve, 3/4" 1 6 98815201 Union, 1/4" 1 7 96606616 Tee. /" x 3X4" x 1/4 8 98543233 Nipple, :Y4" x 2 1/2" 2 9 98543226 Nipple, ¼" x 1112" 4 10 96606608 Tee, ¼" 1 11 98750004 Cross, 1/4" 1 12 98543227 Nipple, 1/4" x Close 1 13 98523100 Restrictor Nipple, ¼" 1 14 98768000 Copper Tubing, ¼" O.D. 1 15 98085630 Comp. Fitting, 1/4" x ¼" 1 16 98048034 Reducer Bushing 3/ x ¼" 1 17 98614403 Plug, 114" 1 11 10 6 / 1 3 Optional 4 Pneumatic 13 Pressure Guage 1-3 Location From Air 9 12 or Nitrogen Supply 9 8 To 7 System 25IFGOIA Figure 1 14 15 9 10 2 9 13 I 4 16 Optional f 6 12 Pneumatic 4 Pressure Gouge From 17 Location 4- Tan kless Compressor 9 7 9 8 5 8 To 25IFCO2C System Figure 2 11 Inspection and Maintenance Refer to Figures 1 & 2. 1 Review the latest NFPA 13 and NFPA 25 Standards, any appropriate dry pipe or deluge valve installation bulletins, and the section in this bulletin titled Instal- lation" to ensure that the pressure maintenance de- vice is installed properly. Make sure that both 1/4" globe valves (Item 4) are open and that the 3/4" ball valve (Item 5) is closed. Check the gas pressure in the dry pipe, deluge or preaction system at the pressure gauge located on those devices. See the section titled Adjustment' if any are required. If maintenance is to be performed on Items 1, 2 or 3 of the pressure maintenance device, make sure that both globe valves (Item 4) are closed and that pressure has been relieved from the section through the 1/4" union (Item 6). These valves must be opened again in order to restore proper automatic operation. The strainer (Item 2) should be cleaned periodically to prevent contamination from blocking air flow. This can be done by removing the strainer's cap and wip- ing or blowing off any collected debris. Make sure the check valve (Item 3) is installed ac- cording to the schematic with the arrow on its hex- agonal side pointing in the required direction of air flow. If the regulator (Item 1) in the Model A-2 Pressure Maintenance Device is constantly leaking at the ad- justing screw, the regulator may contain dirt keep- ing the poppet open and should be cleaned or re- placed. Check the inside housing of pressure switch (Item 1) of the Model B-i Pressure Maintenance Device for dirt or foreign matter and verify that the wiring is fastened securely and is wiring insulation is in good condition. WARNING: Do not contact the electrical wiring when the power is on Installation As shown in Figures 4 through 13, Pressure Maintenance Devices are installed in the air supply line leading to the dry pipe valve, deluge or preaction systems. With the Model A-2 PMD the air supply is a tank mounted compressor with a pressure control switch, or a Nitrogen supply equipped with a regulating device. With the Model B-i PMD, the air supply is an air compressor without a pressure control switch. An extra outlet connection is provided on all of the models for mounting an optional pressure gauge to moni- tor the outlet pressure. Model A-2 Pressure Maintenance Device Make sure the air flow through the Pressure Maintenance Device is as shown by the arrows in Figures 1,4,6,8,9 and 11-13. Install the Pressure Maintenance Device as close to the dry pipe valve air line trimmings as pos- sible. Install the Pressure Maintenance Device in the air supply immediately leading to the del- uge or preaction trim. Refer to separate dry pipe valve, deluge valve or preaction system bulletins for the additional installation information. Model B-i Pressure Maintenance Device Make sure the air flow through the Device is as shown by the arrows in Figures 2, 5-7 andiO. Remove the pressure switch's (Item 1) cover and connect the wiring in accordance with the Nation- al Electric Code or other appropriate standards. The connections should be as shown in Figure 3 for single phase wiring of thermally protected compressor motors. Refer to separate dry pipe valve and deluge valve bulletins for additional in- stallation information. 251FC04E Figure 3 For 3-phase wiring, a listed and/or approved, properly sized magnetic motor starter with ap- propriate NEMA enclosure must be provided. The wiring of the pressure switch, motor starter, and air compressor must be in accordance with the National Electrical Code, or other appropri- ate standards. Aft Compressor (REF. WIRING DIAGRAM ATTACHED TO AIR COMPRESSOR) 4, Model A-2 Pressure Maintenance Device with Model D Dry Pipe Valve Trim Model A-2 Pressure Maintenance / Device Pressure Relief / Valve - From Owners Air Supply, Tank—Mounted Air Compressor or Nitrogen Supply Model D Dry Pipe - Valve Standard Dry Pipe Valve Air Line Trim 25 ?FGOSF Figure 4 . Model B-i Pressure Maintenance Device with Model D Dry Pipe Valve Trim Electrical Signal To Compressor Pressure Relief Valve - From Tonkless Air Compressor Model B—i Pressure Maintenance Device Model D Dry Pipe Valve Standard Dry Pipe Valve Air Line Trim I— L-1 25 1FGO6E Figure 5 5. Model A-2 Pressure Maintenance Device with Model BX Dry Pilot Line Deluge Trim To Dry Pilot Line Pressure Switch Pressure Relief ) Volve -+ From Owner's Air Supply, Tank—Mounted Air Compressor or Nitrogen Supply Model A-2 Pressure Maintenance Device Standard Dry Pilot Line Deluge Trim Dry Pilot Line Model DX Actuator Deluge '-' Valve C -- 25 IFGO7B 9~ Figure 6 Model B-i Pressure Maintenance Device with Model BX Dry Pilot Line Deluge Trim Electrical Signal To Pressure Compressor To Dry Pilot Line Switch Pressure Relief Valve 00 00 From Tankless Air Compressor - Dry Pilot Line Actuator fl Model BX 'V Deluge Valve Model B—i Pressure Maintenance - 2 Device Standard Dry Pilot Line 1 Deluge Trim I J 251FC08A Figure 7 6. 0 Model A-2 Pressure Maintenance Device with Model LDX Dry Pipe Valve Trim From Owner's Air Supply, Took—Mounted Air Compressor or Nitrogen Supply Model A-2 1—Pressure Maintenance Device Mode' LDX Qg/w_ Pressure Relief Check Voice Voice Model LOX Dry Voice Model LDX Actuator Dry Pipe Voice 25 1F009A Figure 8 1 0 Model A-2 Pressure Maintenance Device with Model DDX Dry Pilot Line Deluge Trim From Owners Air Supply, Tank—Mounted Air Compressor or Nitrogen Supply Model A-2 Pressure Maintenance / Device C] To Dry Pilot Line Pressure Switch Model LP Dry Pilot Line Actuator Model DDX Deluge Valve 25 TFG I QA Figure 9 7' C Model B-i Pressure Maintenance Device with Model DDX Dry Pilot Line Deluge Trim Model S—i Pressure Maintenance From Tactless Device Air Compressor Electrical Signal To Compressor 00 no To Dry Pilot Line Pressure Switch Model LP - Dry Pilot Line Actuator Model DDX Deluge Valve (7) (7) 251FG1 IA Figure 10 Model A-2 Pressure Maintenance Device with Model DDX Dry Pilot Line Single Interlock Preaction Trim Model A-2 Pressure Maintenance Device () —* Model DDX From Owners Air Supply, Deluge Valve Tank—Mounted Air Compressor or Nitrogen Supply Model LP Dry Valve Actuator 0 0 25 1 F 12A Figure 11 11 fl fl' Model A-2 Pressure Maintenance Device with Model DDX Type F Double Interlock Preaction Trim From Owner's Air Supply, Tank—Mounted Air Compressor or Nitrogen Supply L Model A-2 Pressure Moietenonce Device,,, , Model DDX Deluge Valve Model LP - Dry Valve Actuator (7) 25 1F'G 134 Figure 12 Model A-2 Pressure Maintenance Device with Model DDX- LP Dry Pipe Valve Trim From Owner's Air Supply, Tank—Mounted Air Compressor or Nitrogen Supply Model A-2 Pressure M intenonce Device, 00 Model DDX Deluge Valve Model LP -. Dry Valve Actuator Q / 251F014A Figure 13 9' Reliable ... For Complete Protection Reliable offers a wide selection of sprinkler components. Following are some of the many precision-made Reliable products that guard life and property from fire around the clock. Automatic sprinklers Flush automatic sprinklers Recessed automatic sprinklers Concealed automatic sprinklers Adjustable automatic sprinklers Dry automatic sprinklers Intermediate level sprinklers Open sprinklers Spray nozzles Alarm valves Retarding chambers Dry pipe valves Accelerators for dry pipe valves Mechanical sprinkler alarms Electrical sprinkler alarm switches Water flow detectors Deluge valves Detector check valves Check valves Electrical system Sprinkler emergency cabinets Sprinkler wrenches Sprinkler escutcheons and guards Inspectors test connections Sight drains Ball drips and drum drips Control valve seals Air maintenance devices Air compressors Pressure gauges ldehtification signs Fire department connection 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. Manufactured by The Reliable Automatic Sprinkler Co., Inc. Recycled (800) 431-1588 Sales Offices Paper (800) 848-6051 Sales Fax Revision lines indicate updated or new data. Reliabilm (914) 829-2042 Corporate Offices www.reliablesprinkler.com Internet Address EG. Printed in USA 05/10 P/N 9999970040 Model A Air Compressor for Sprinkler Systems Bulletin 275 Rev.l Imlabi Features 1 Cilless— Permanently Lubricated May be mounted in any position No Adjustment necessary Motor Mounted— No belts or gears No Need for any other source of air Compatible with Air Maintenance Devices having unloader valves Thermal protection (single phase) Air filter, one per cylinder Safety relief valve (50 PSI) Riser mounting available . The Reliable Air Maintenance Compressor provides the air supply need for a dry system. It can be used as a basic supply to fill and maintain systems up to and in- cluding the capacity shown on the chart. It may also be used to maintain pressure in systems of larger sizes after the system has been filled by another adequate source. The Model A Air Compressor is designed to oper- ate with a listed air maintenance device such as the Reliable Model Bi described in Bulletin 250. The Model A Compressor must be elevated above the level of air entry into the dry riser, as illus- trated in Figure 1. This arrangement will minimize the possibility of condensate or priming water damag- ing the compressor. 0 240 VAC SOURCE 120 (rMOOELB,11 D AIR MAINTENANCE H DEVICE Relief Globe Valve Valve / Check I I Valve I I 'a I AIR COMPRESSOR L ------ Dry Pipe Valve -'-i,... (; 270 FOOlS Figure 1 The Reliable Automatic Sprinkler Co., Inc., 103 Fairview Park Drive, Elmsford, New York, 10523 size shall be " NPT] [three phase, 60 hz, 2 hp (800 gal- lon system capacity) having an electrical rating of 208-230/460 V at 7.0/4.0 amps] [three-phase, 50 hz, 2 hp (800 gallon system capacity) having an electrical rating of 220-240/380-440 V at 6.6/3.3 amps. Air outlet size shall be /8" NPT]. A compatible listed/approved air mainte- nance device with associated unloader valve must be used to control the operation of the compressor to regu- late system air pressure. Single-phase motors shall have integral thermal protection to prevent overheating. Three-phase motors shall be provided with a properly sized motor starter to protect motor from overload or re- duced voltage conditions. Compressor shall be Reliable Model A, Bulletin 275. Ordering Information Specify: 1. H.P. Voltage and Phase Frequency (Hz) Mounting bracket, if required A Compressor mounting bracket is available with all the hardware and adjustable stainless steel straps for mounting Model A tankless air compres- sors to all riser sizes. Installation Instructions . 1. Locate the compressor in a cool dry area with clean air as close to the dry system as practicable. Firmly mount the compressor by bolts through the slotted holes in the mounting base. For riser mounting use bracket P/N 6999990969. Connect the compressor outlet to a dry sprinkler system Via a suitable air maintenance device with an unloader valve, such as the Reliable Model B-i. To prevent compressor cycling, piping must be leaktight, particularly between the air maintenance device and the check valve located in the trim of the dry pipe valve or deluge valve dry pilot line. Connect the electrical terminals on the motor to the appropriate terminals of a pressure switch using approved wiring. When using the B-i Air Maintenance device, refer to Bulletin 251 for pressure switch wiring information. All dual voltage motors are pre-wired for the higher voltage. Follow the wiring schematic located on the nameplate or under the electrical cover plate to convert the motor to the lower voltage. Engineering Specification Model A Air Compressor An oil-less, self-lubricating piston compressor shall provide the air supply required for a dry pipe system with mounted motor. Compressor shall be capable of provid- ing a maximum of 50 psi air pressure and have an integral safety relief valve to prevent over-pressurizing of the sys- tem piping factory set at 56 psi. The compressor size C] shall be based on its ability to fill the sprinkler system pip- ing (volume) to the required pressure in 30 minutes. Compressor size shall be [single-phase, 60 hz, / hp (180 gallon system capacity) having an electrical rating of 115 V at 8.2 amps. Air outlet size shall be 14 NPT] [single phase, 60 hz, 3/4 hp (400 gallon system capacity) having an electrical rating of 115/230 Vat 14.0/7.0 amps. Air out- let size shall be ¼" NPT] [three-phase, 60 hz, 3/4 hp (400 gallon system capacity) having an electrical rating of 200-230/460V at 3.4/1.7 amps. Air outlet size shall be 1/4P1 NPT] [three-phase, 50 hz, 3/4 hp (400 gallon system ca- pacity) having an electrical rating of 220-240 V at 3.6/2.1 amps. Air outlet size shall be 1/4"NPT] [single-phase, 60 hz, 11/2 hp (800 gallon system capacity) having an electri- cal rating of 115/208-230 V at 21.6/12 amps. Air outlet 2. Installation Information Dimensions Are In Inches CFM Compressor Electrical System Free Air A B C D E Air Outlet Shipping Size Capacity* @40P51 Size Wt. Lb. 1/3 H.P. 115V 8.2 AMPS 60Hz 14) 180 Gal, 2.0 6 41/4 11 13 2/4 1/4 NPT 32 3/4 H.P. 115/230V 11.0/7.0 AMPS 60Hz 14) 400 Gal. 4.2 9 47J 12 17.4 . _-_ '14 NPT 47 3/4 H 200-230/460V 3.4/1.7 AMPS 60Hz 3d 400 Gal. 4.2 9 47/s 12 174 3 1/4 NPT 47 220-240V 3.6/2.1 AMPS 50Hz 3 11/2 H.P. 115/208-230V 21.6/12 AMPS 60Hz 14) 800 Gal. 7.9 9 4 /8 12 22 5 3/ NPT 79 208-230/460V 7.0 4.0 AMPS 60Hz 34) 2 H.P. 220240V 6.6/3.3 AMPS 50Hz 34) 800 Gal. 7.9 9 4/s 14 24 5 /s NPT 67 380-440V *System size is based on filling the system to 40 Psi within 30 minutes. Maximum pressure: 50 Psi AIR OUTLET (2) E ..l '—fl/32' SLOT (4) 1/3 & 3/4 HP: 6999990557 1 1/2 & 2 HP: 6999990377 Air Filter 1/3 & 3/4 HP: P/N 6999990551 0n Assembly 1 1/2 & 2 HP: P/N 6999990494 P/N 6999990553 3/4 HP: P/N 6999990554 1 1/2 & 2 HP: 6999990555 (CCw) 1 1/2 & 2 HP: 5999990556 (Cw) Shroud 1/3 HP: 6999990579 3/4 HP: 6999990497 1 1/2 & 2 HP: 6999990495 The 1 1/2 & 2 HP, 4 Cylinder Compressors are shown. The 1/3 & 3/4 HP Compressers are 2 Cylinder Units. 275FG0 I C 3. Reliabl e ... For Compl ete Protection Reliable offers a wide selection of sprinkler components. Following are some of the many precision-made Reliable products that guard life and property from fire around the clock, Automatic sprinklers Flush automatic sprinklers Recessed automatic sprinklers Concealed automatic sprinklers Adjustable automatic sprinklers Dry automatic sprinklers Intermediate level sprinklers Open sprinklers Spray nozzles Alarm valves Retarding chambers Dry pipe valves Accelerators for dry pipe valves Mechanical sprinkler alarms Electrical sprinkler alarm switches ° Water flow detectors Deluge valves Detector check valves Check valves Electrical system Sprinkler emergency cabinets Sprinkler wrenches Sprinkler escutcheons and guards Inspectors test connections Sight drains Ball drips and drum drips Control valve seals Air maintenance devices Air compressors Pressure gauges Identification signs Fire department connection The equipment presented in this bulletin is to be installed in accordance with the latest pertinent Standards of the National Fire Protection Association, Factory Mutual Research Corporation, or other similar organizations and also with the provisions of governmental codes or ordinances, whenever applicable. Products manufactured and distributed by RELIABLE have been protecting life and properly for over 80 years, and are installed and serviced by the most highly qualified and reputable sprinkler contractors located throughout the United States, Canada and foreign countries. Manufactured by The Reliable Automatic Sprinkler Co., Inc. ® (800) 431-1588 Sales Offices Recycled (800) 848-6051 Sales Fax 0 Paper (914) 829-2042 Corporate Offices Revision lines indicate updated or new data. Rellable http://waw.reliablesprinkler.com Internet Address EG. Printed in U.S.A. 12/04 P/N 9999970041 fl ' tqCo /Fire & Building I Products Technical Services: Tel: (800) 381-9312 / Fax: (800) 791-5500 Solenoid Valves For Deluge And I 'reaction Systems Electric Release Service Pi General Description The Solenoid Valves For Releasing Service are intended for use with Tyco Fire Products Deluge and Preaction Valves which are to be electrically ac- tuated. The Solenoid Valves are used in conjunction with an electric releas- ing panel that is listed or approved (as appropriate) for fire protection releas- ing service, and where the releasing panel is operated by listed or approved (as appropriate) electric fire detectors. WARNING The Solenoid Valves described herein must be installed and maintained in compliance with this document, as well as with the applicable standards of the National Fire Protection Asso- ciation, in addition to the standards of any other authorities having jurisdic- tion. Failure to do so may impair the integrity of this device. The owner is responsible for maintain- ing their fire protection system and de- vices in proper operating condition. The installing contractor or sprinkler manufacturer should be contacted relative to any questions. Page 1 of 4 Technical Data Approvals UL Listed and CSA Certified under the name of Parker Hannifin Corporation, Skinner Valve Division. P/N 52-287-1- 024 (175 psi) and P/N 52-287-1-124 (250 psi) are FM Approved for release of Tyco Fire Products Deluge and Pre- action Valves. Working Water Pressure Refer to Figure 1. Physical Characteristics The body is brass, and the seal is Nitrile rubber. Operation Operation of an electrical device such as a heat sensitive thermostat, smoke detector, or electric manual pull station signals the releasing panel to energize the releasing circuit. Energizing the re- leasing circuit opens the normally closed de-energized Solenoid Valve to release water pressure from the differ- ential chamber of the deluge or preac- tion valve, which in turn permits the deluge or preaction valve to open and allow a flow of water into the system piping. Installation The Solenoid Valves For Releasing Service are to be installed in accord- ance with the following instructions: Step 1. Check the nameplate for the correct catalog number, NEMA classi- fication, and voltage. Step 2. The Solenoid Valves are to be installed as part of the deluge or pre- action valve trim in accordance with the applicable instructions provided for the deluge valve or preaction valve. The inlet port of the Solenoid Valve is to be connected to the differential JANUARY, 2003 chamber of the deluge or preaction valve, and the outlet port of the Sole- noid Valve is to piped to an open drain. For best life and optimum perform- ance the Solenoid Valve should be mounted vertically upright, as illus- trated in Figure 2, so as to minimize wear and reduce the possibility of ac- cumulating foreign matter. Step 3. Only apply pipe thread sealant sparingly to the male pipe threads of the connecting pipe nipples. Step 4. To prevent distortion of the Solenoid Valve body, always wrench on the portion adjacent to the pipe to which it is being connected. Do not use the Solenoid Valve to force a pipeline into position. Doing so may result in distortion of the valve. Step S. Conduit and electrical connec- tions are to be made in accordance with the requirements of the authority having jurisdiction and/or the National Electric Code. The coil assembly may be reoriented, as necessary, by first loosening the nut on top of the coil. After repositioning the coil assembly, tighten the nut with a torque of 43 to 53 inch-pounds (4,9 to 6,0 Nm). NOTE Turn off electrical power before con- necting the Solenoid Valve to the power source. TFP2I8O Page 2 of 4 TFP2I8O ENCLOSURE WORKING WATER AC VOLT-AMPS _________ DC TYPE VOLTAGE PRESSURE WATTS AMPS CATALOG P/N (NEMA RATINGS) PSI (BAR) (a) INRUSH (5) HOLDING 120 VAC, 60 Hz 20-175 10 31 16 - 73218BN4UNLVNOC111P3 52-287-1-110 110 VAC, 50 Hz (1,4-12,1) 24 VDC 20-175 10 - - 0.41 732188N4UNLVN0C111C2 52-287-1-024 (1,4-12,1) ORDINARY 24VDC 20-250 22 - - 0.83 732126N4TNLVN0C322C2 52-287-1-124 ____________ (1,4-17,2) LOCATION (2, 4, and 4X) 48 VDC 20-175 10 - - 0.21 73218BN4UNLVNOC111C4 52-287-1-048 (1,4-12,1) 125 VDC 20-175 11 - - 0.08 73218BN4UNLVNOC1113N 52-287-1-125 (1,4-12,1) 250 VDC 20-175 10 - - 0.04 73218BN4UNLVNOC111N9 52-287-1-015 (1,4-12,1) - - 110/120 VAC 20-175 10 31 16 - 73218BN4UNLVN0H111P3 52-287-1-210 (1,4-12,1) HAZARDOUS 24 VDC 20-175 10 - - 0.41 73218BN4UNLVNOH111C2 52-287-1-224 LOCATION (4, 4X, 7, and 9) 125 VDC 20-175 11 - - 0.08 73218BN4UNLVNOH1113N 52-287-1-225 (1,4-12,1) 250 VDC 20-175 10 - - 0,04 73218BN4UNLVNOH111N9 52-287-1-215 ____________ (1,4-12,1) - - NOTES: (a)Current to start plunger moving. (b) Current to hold plunger open. FIGURE 1 ENCLOSURE AND VOLTAGE RATINGS Care and Maintenance The following inspection procedure must be performed as indicated, in ad- dition to any specific requirements of the NFPA, and any impairment must be immediately corrected. The owner is responsible for the in- spection, testing, and maintenance of their fire protection system and de- vices in compliance with this docu- ment, as well as with the applicable standards of the National Fire Protec- tion Association (e.g., NFPA 25), in addition to the standards of any authority having jurisdiction. The in- stalling contractor or product manufac- turer should be contacted relative to any questions. It is recommended that automatic sprinkler systems be inspected, tested, and maintained by a qualified Inspection Service. NOTES Before closing a fire protection system control valve for inspection or mainte- nance work on the fire protection sys- tem which it controls, permission to shut down the effected fire protection system must first be obtained from the proper authorities and all personnel who may be affected by this action must be notified. After placing a fire protection system CONNECTION 3-13/16" ELECTRICAL (96,8 mm) 2" CONDUIT 4-3/8" LEADS 1/2" NPT + 2-5/8" (TYPICAL)_ 2-9/1 6" (66,7 mm) (65,1 mm) 175 PSI (12,1 BAR) MAXIMUM SERVICE PRESSURE 1/2" CONDUIT CONDUIT ONNECTION (98,4 mm) EELECTRICAL 4-5/8" LEADS (117,5 mm) 1/2" NPT 2-3/4" (TYPICAL) (69,9 mm) (50,8 mm) 250 PSI (17,2 BAR) MAXIMUM SERVICE PRESSURE FIGURE 2 SOLENOID VALVES FOR RELEASING SERVICE TFP2 180 Page 3 of 4 0 in service, notify the proper authorities and advise those responsible for moni- toring proprietary and/or central sta- tion alarms. Limited Warranty Ordering Information L INSPECTION PROCEDURE The Solenoid Valves must be in- spected quarterly in accordance with the following instructions: Verify operation of the Solenoid Valve following the procedure outlined in the Technical Data Sheet for the Tyco Fire Products Deluge or Preaction Valve. In general, if the voltage to the coil is correct, sluggish valve operation, ex- cessive leakage, or noise will indicate that cleaning is required. Clean the Solenoid Valve in accordance with the procedures outlined by Honeywell, Inc. Skinner Valve. Causes of Improper Operation Faulty Control Circuit: Check the electrical system by energizing the releasing circuit to the Solenoid Valve. A metallic "click" signifies that the solenoid is operating. Absence of the "click" indicates loss of power supply. Check for loose or blown fuses, open-circuited or grounded coil, broken lead wires or broken splice connections. Burned-Out Coil: Check for open- circuited coil. Replace if necessary. Check supply voltage; it must be the same as specified on label or name- plate. Low Voltage: Check voltage across the coil leads. Voltage must be at least 85% of nameplate rating. Products manufactured by Tyco Fire Products are warranted solely to the original Buyer for ten (10) years against defects in material and work- manship when paid for and properly installed and maintained under normal use and service. This warranty will ex- pire ten (10) years from date of ship- ment by Tyco Fire Products. No war- ranty is given for products or components manufactured by compa- nies not affiliated by ownership with Tyco Fire Products or for products and components which have been subject to misuse, improper installation, corro- sion, or which have not been installed, maintained, modified or repaired in ac- cordance with applicable Standards of the National Fire Protection Associa- tion, and/or the standards of any other Authorities Having Jurisdiction. Mate- rials found by Tyco Fire Products to be defective shall be either repaired or replaced, at Tyco Fire Products' sole option. Tyco Fire Products neither as- sumes, nor authorizes any person to assume for it, any other obligation in connection with the sale of products or parts of products. Tyco Fire Products shall not be responsible for sprinkler system design errors or inaccurate or incomplete information supplied by Buyer or Buyer's representatives. IN NO EVENT SHALL TYCO FIRE PRODUCTS BE LIABLE, IN CON- TRACT, TORT, STRICT LIABILITY OR UNDER ANY OTHER LEGAL THE- ORY, FOR INCIDENTAL, INDIRECT, SPECIAL OR CONSEQUENTIAL DAMAGES, INCLUDING BUT NOT LIMITED TO LABOR CHARGES, RE- GARDLESS OF WHETHER TYCO FIRE PRODUCTS WAS INFORMED ABOUT THE POSSIBILITY OF SUCH DAMAGES, AND IN NO EVENT SHALL TYCO FIRE PRODUCTS' LI- ABILITY EXCEED AN AMOUNT EQUAL TO THE SALES PRICE. THE FOREGOING WARRANTY IS MADE IN LIEU OF ANY AND ALL OTHER WARRANTIES EXPRESS OR IMPLIED, INCLUDING WARRANTIES OF MERCHANTABILITY AND FIT- NESS FOR A PARTICULAR PUR- POSE. Orders for the Solenoid Valves must include the description and Part Number (P/N). Solenois Valves: Specify: (Specify voltage), (Specify 175 or 250) psi pressure rating, Sole- noid Valve with (specify ordinary or hazardous) location enclosure, P/N (specify from Figure 1). Page 4 of 4 TFP2 180 L TYCO FIRE PRODUCTS, 451 North Cannon Avenue, Lansdale, Pennsylvania 19446 t11CO /Fire & Building / Products Technical Services: Tel: (800) 381-9312 / Fax: (800) 791-5500 Tyco Fire Products Model CV-IFR Riser Check Valve General Description The Tyco® Model CV-1 FR Riser Check Valve is a compact and rugged swing- type unit that allows water flow in one direction and prevents flow in the op- posite direction. A resilient elastomer seal facing on the spring loaded clap- per ensures a leak tight seal and non- sticking operation. The Model CV-1FR Riser Check Valves are designed to minimize water hammer caused by flow reversal. The CV-1FR is furnished with grooved ends and can be installed using Grin- nell® Grooved Couplings or Grinnell Figure 71 Flange Adapters. The Model CV-1 FR Riser Check Valves have been designed with a removable cover for ease of field maintenance. Valves in- stalled horizontally or inclined (flow up or down) are to be positioned with the cover facing up. Valves installed verti- cally may be positioned with flow up or down. The Model CV-1FR Riser Check Valve is provided with threaded outlets for pressure gauges and a drain connec- tion to facilitate their use in wet type automatic sprinkler system risers. They provide a more compact and econom- ical alternative to an alarm check valve where a water motor alarm is not re- quired. Provisions must be made for a local alarm, using an approved flow switch (not included). The Model CV-1 FR Riser Check Valves are a redesignation for the Central Fig- ure 590FR and Grinnell Figure 590FR. NOTICE The Model CV-1FR Riser Check Valve described herein must be installed and maintained in compliance with this document and with the applica- ble standards of the National Fire Pro- tection Association, in addition to the standards of any authorities having ju- risdiction. Failure to do so may impair the performance of this device. The owner is responsible for maintain- ing their fire protection system and de- vices in proper operating condition. The installing contractor or manufac- turer should be contacted with any questions. Technical Data Sizes- Inches I DN 2 to 12 / DN50 to DN300 Maximum Working Pressure 300 psi (20,7 bar) Approvals UL, FM, and C-UL. Protective Coating Valve assembly Non-lead paint Installation The Model CV-1 FR Riser Check Valves are to be installed in accordance with the following instructions: Step 1. The arrow cast on the Body must point in the direction of the flow. Step 2. Valves installed vertically may be positioned with the flow up or down. Step 3. Valves installed horizontally or inclined (flow up or down) are to be positioned with the Cover facing up. Step 4. Grooved end pipe couplings used with the CV-1F must be installed in accordance with manufacturer's instructions. Care and Maintenance The owner is responsible for the in- spection, testing, and maintenance of their fire protection system and devic- es in compliance with this document, as well as with the applicable stan- dards of the National Fire Protection Association (e.g., NFPA 25), in addition to the standards of any authority hav- ing jurisdiction. The installing contrac- tor or product manufacturer should be contacted relative to any questions. Any impairments must be immediately corrected. Automatic sprinkler systems should be inspected, tested, and maintained by a qualified Inspection Service in accor- dance with local requirements and/or national codes. After placing a fire protection system in service, notify the proper authorities and advise those responsible for mon- itoring proprietary and/or central sta- tion alarms. Page 1 of 6 JULY, 2008 TFP95O Page 2 of 6 TFP950 A B 1/4' 1/4 NPT O.D. wmmflp~ FIGURE 1 NOMINAL DIMENSIONS MODEL CV-IFR RISER CHECK VALVES Nominal Dimensions- Inches (mm) A B C D E F J 6.75 4.38 2.55 2.57 3.25 15 9.0 (171,5) (111,3) (64,8) (65,3) (82,3) (21) (4,5) 8.00 5.42 3.41 3.09 3.88 39 10.0 (203,2) (136,7) (86,6) (78,5) (98,6) (54) (4,5) 8.00 5.42 3.41 3.09 3.88 39 10.0 (203,2) (136,7) (86,6) (78,5) (98,6) (54) (4,5) 8.38 5.76 3.60 3.31 3.88 39 11.0 (212,9) (146,3) (91,4) (84,1) (98,6) (54) (5,0) 9.63 6.74 4.61 3.63 4.53 39 25.0 (245,6) (171,2) (117,1) (92,2) (115,4) (54) (11,3) 10.50 7.50 5.29 4.13 4.90 39 29.0 (266,7) (190,5) (134,4) (104,9) (124,5) (54) (13,2) 10.50 7.50 5.29 4.13 4.90 39 29.0 (266,7) (190,5) (134,4) (104,9) (124,5) (54) (13,2) 11.50 8.05 5.75 4.50 5.00 60 47.0 (292,1) (204,4) (146,1) (114,3) (127,0) (82) (21,3) 11.50 8.05 5.75 4.50 5.00 60 47.0 (292,1) (204,4) (146,1) (114,3) (127,0) (82) (2113) 14.00 10.25 7.75 5.62 5.45 120 66.0 (355,6) (260,4) (196,9) (142,7) (138,4) (164) (30,0) 18.00 13.00 10.21 6.38 7.50 120 109.7 (457,2) (330,2) (259,3) (162,1) (190,5) (164) (49,4) 21.0 14.28 11.31 7.26 7.62 120 151.0 (533,4) (362,7) (287,2) (184,4) (193,5) (164) (68,0) Nominal Pipe Size Cover Bolt Torq. Approx. Weight ANSI O.D. Inches Inches NPT Lbs -ft (Nm) Lbs (kg) DN (mm) 2 2.375 1 18 9.0 DN50 (60,3) (25) (4,5) 2½ 2.875 1-1/4 39 10.0 DN65 (73,0) (54) (4,5) - 3.000 1-1/4 39 10.0 DN65 (76,1) (54) (4,5) 3 3.500 11/4 39 11.0 DN80 (88,9) - (54) (5,0) 4 4.500 2 50 25.0 DN100 (114,3) (69) (11,3) - 5.500 2 39 29.0 DN125 (139.7) (54) (13,2) 5 5.563 2 39 29.0 DN125 (141,3) (54) (13,2) - 6.500 2 60 47.0 DN150 (165.1) (82) (21,3) 6 6.625 2 60 47.0 DN150 (168,3) (82) (21,3) 8 8.625 2 120 66.0 DN200 (219,1) (164) (30,0) 10 10.750 2 130 109.7 DN250 (273,1) (178) (49,4) 12 12.750 2 130 151.0 DN300 (323,9) (178) (68,0) TFP95O 17 16 Page 3 of 6 8 8 fra" a 4W=ft 5 2-8' 2 10-12' (DN50-DN200) (DN250 - DN300) VIEW A 13 5 13 1,15 7 14,15 18 SEE LB i2 6 51 6 12 (DN50-DN200) (DN250 - D1ki300) fl' Detail Part Material Qty. 1 Body Ductile Iron 1 2 Cover Ductile Iron 1 Cover Gasket Nitrile Rubber 1 Hex Cap Steel, Zinc AR Screw Plated Clapper Stainless Steel 2"- 8" 1 Clapper Ductile Iron 10" -12" Detail Part Material Qty. 6 Clapper EPDM 1 Facing Grade E" 7 Spring Stainless 1 Steel 8 Hinge Stainless 1 Shaft Steel Retaining Stainless AR Ring Steel 11 Retention Stainless 1 Bolt Steel 12 Seal Ring Neoprene 1 Detail Part Material Qty. 13 Retaining Stainless 1 Disc Steel 14 Locknut Stainless Steel 15 Adhesive Thread Sealer AR 16 Name- Aluminum 1 plate 17 Rivet Steel 2 18 Spacer Stainless 1 Steel C FIGURE 2 MODEL CV-IFR RISER CHECK VALVES FLOW RATE IN LITRES PER MINUTE (LPM) (1 GPM = 3,785 LPM) 500 700 1000 2000 3000 5000 7000 10000 20000 30000 500C 0,30 0,20 cr co 0< CO OL( cc OD 010 0,09 c o il LU 0,08 0,07 j,. 0,06 0,05 Oz 0,04 100 200 300 400 600 1000 2000 3000 4000 6000 10000 15000 FLOW RATE IN GALLONS PER MINUTE (GPM) FIGURE 3 MODEL CV-IFR PRESSURE LOSS DATA 5.0 4.0 3.0 I1 - 0I 0 UJ 2.0 tr III <0 Z(/) 1.0 o 0.9 Of 0.8 Z 0.7 0.6 05 Page 4 of 6 TFP95O Nominal Pipe Size Nominal Dimensions- Inches (mm) ANSI O.D. E Inches Inches A B C D Inches DN (mm) NPT 2 2.375 6.75 6.50 3.25 10.13 1 DN50 (60,3) (171,5) (165,1) (82,6 (257,2) 21/2 2.875 8.00 6.56 3.88 11.13 1-1/4 DN65 (73,0) (203,2) (166,7) (98,6) (282,6) - - 8.00 6.56 3.88 11.13 1-1/4 DN65 (76,1) (203,2) (166,7) (98,6) (282,6) 3 3.500 8.37 6.81 3.88 11.13 1-1/4 DN80 (88,9) (212,6) (173,0 (98,6) (282,6) 4 4.500 9.63 7.75 3.88 13.25 2 DN100 (114,3) (244,6) (196,9) (98,6) (336,6) - - 10.50 8.25 5.00 13.81 DN125 (139,7) (266,7) (209,6) (127,0) (350,8) 2 5 5.563 10.50 8.25 5.00 13.81 2 DN125 (141,3) (266,7) (209,6) (127,0) (350,8) - - 11.50 8.56 5.00 14.13 2 DN150 (165,1) (292,1) (2175) (127,0)) (358,8) 6 6.625 11.50 8.56 5.00 14.13 2 DN150 (168,3) (292,1) (2175) (127,0) (358,8) 8 8.625 14.00 9.75 1 5.50 15.25 2 DN200 (219,1) (355,6) (247,7) (139,7) (387,4) FIGURE 4 NOMINAL DIMENSIONS RISER CHECK VALVE WITH TRIM COMPONENTS (AVAILABLE FOR 2"(DN50) - 8"(DN200) VALVES ONLY) 0 P/N 59-591-1-030 Riser Check Valve Sizes 2-1/2" (DN65); 76,1 mm; 3" (DN80) NO. DESCRIPTION QTY. P/N 1 300 psi! 2000 kPa Water Pressure Gauge . .2 92-343-1-005 2 1/4 Gauge Test Valve . .2 46-005-1-002 3 1/4" Plug .............2 CH 4 1-1/4" Angle Valve ......1 46-048-1-007 5 1/4" x2" Nipple ........1 CH 6 1/4" x5" Nipple ........1 CH 7 1-1/4" x3" Nipple .......1 CH 7 SYSTEM PRESSURE GAUGE 1 SUPPLY PRESSURE GAUGE 3 TFP95O Page 5 of 6 P/N 59-591-1-020 Riser Check Valve Size 2 Inch (DN50) NO. DESCRIPTION 0Th'. P/N 1 300 psi! 2000 kPa Water Pressure Gauge . . 2 92-343-1-005 2 1/4 Gauge Test Valve . .2 46-005-1-002 3 1/4 Plug .............2 CH 4 1" Angle Valve .........1 46-048-1-006 5 1/4 x2" Nipple ........1 CH 6 1/4 x5" Nipple ........1 CH 7 1 x 3" Nipple ..........1 CH NOTES: MAIN All Fittings and Nipples are DRAIN VALVE (NORMALLY galvanized (Standard Order). CLOSED) CH: Common Hardware. \ PIN 59-591-1-080 Riser Check Valve Sizes 4" (DN100); 139,7 mm; 5" (DN125); 165,1 mm; 6" (DN150); 8" (DN200) NO. DESCRIPTION 0Th'. P/N 1 300 psi! 2000 kPa Water Pressure Gauge . .2 92-343-1-005 2 1/4" Gauge Test Valve . .2 46-005-1-002 3 1/4" Plug .............2 CH 4 2" Angle Valve .........1 46-048-1-009 5 1/4" x2" Nipple ........1 CH 6 1/4" x5" Nipple ........1 CH 7 2" x 3" Nipple ..........1 CH MODEL CV-1 FR RISER CHECK VALVE X2 FIGURE 5 MODEL CV-IFR RISER CHECK VALVE TRIM PARTS LIST Page 6 of 6 TFP95O Limited Warranty Products manufactured by Tyco Fire & Building Products (TFBP) are war- ranted solely to the original Buyer for ten (10) years against defects in mate- rial and workmanship when paid for and properly installed and maintained under normal use and service. This warranty will expire ten (10) years from date of shipment by TFBP. No warran- ty is given for products or components manufactured by companies not af- filiated by ownership with TFBP or for products and components which have been subject to misuse, improper in- stallation, corrosion, or which have not been installed, maintained, modified or repaired in accordance with applicable Standards of the National Fire Protec- tion Association, and/or the standards of any other Authorities Having Juris- diction. Materials found by TFBP to be defective shall be either repaired or re- placed, at TFBP's sole option. TFBP neither assumes, nor authorizes any person to assume for it, any other ob- ligation in connection with the sale of products or parts of products. TFBP shall not be responsible for sprinkler system design errors or inaccurate or incomplete information supplied by Buyer or Buyer's representatives. In no event shall TFBP be liable, in contract, tort, strict liability or under any other legal theory, for incidental, indirect, special or consequential dam- ages, including but not limited to labor charges, regardless of whether TFBP was informed about the possibility of such damages, and in no event shall TFBP's liability exceed an amount equal to the sales price. The foregoing warranty is made in lieu of any and all other warranties, ex- press or implied, including warranties of merchantability and fitness for a particular purpose. This limited warranty sets forth the ex- clusive remedy for claims based on failure of or defect in products, materi- als or components, whether the claim is made in contract, tort, strict liability or any other legal theory. This warranty will apply to the full ex- tent permitted by law. The invalidity, in whole or part, of any portion of this warranty will not affect the remainder. Ordering Procedure The Model CV-1FR Riser Check Valves: Specify: (specify size) Model CV-1FR Check Valve, P/N (specify) (DN50) Valves .............. 59-590-1 -020 2-1/2" (DN65) Valves ........... 59-590-1 -025 0N65 (76,1mm) Valves ..........59-590-1-076 (01\180) Valves ..............59-590-1-030 (DN100) Valves..............59-590-1-040 0N125 (139,7) Valves ...........59-590-1-139 (DN125) Valves..............59-590-1-050 DN150 (165,1) Valves ...........59-590-1-165 (DN150) Valves .............. 59-590-1 -060 8" (DN200) Valves .............59-590-1-080 10" (DN250) Valves.............59-590-1-100 12" (DN300) Valves ............ 59-590-1 -120 The Model CV-1FR Riser Check Valve Trim: Specify: (specify size) Model CV- 1FR Check Valve Trim Assembly, P/N (specify) (DNSO) Valves ...............59-591-1-020 2-1/2" (DN65) Valves ...........59-591-1-030 DN65 (76,1mm) Valves ..........59-591-1-030 (DNBO) Valves ..............59-591-1-030 (DN100) Valves..............59-591-1-080 DN125 (139,7) Valves ...........59-591-1-080 (DN125) Valves..............59-591-1-080 0N150 (165,1) Valves ...........59-591-1-080 (DN150) Valves..............59-591-1-080 8" (DN200) Valves .............59-591-1-080 Replacement Valve Parts Specify: (specify description) for use with (specify size) Model CV-1FR Check Valve, P/N (specify) (DN50) Valves Cover Gasket ...................976-705-01 Clapper Facing ..................976-709-01 2-1/2" (DN65) Valves Cover Gasket ...................975-618-01 Clapper Facing ..................975-621-01 (DN80) Valves Cover Gasket ...................975-618-01 Clapper Facing ..................975-491-01 (DN100) Valves Cover Gasket ...................975-120-01 Clapper Facing ..................975-003-01 (DN125) Valves Cover Gasket ...................975-120-01 Clapper Facing ..................975-219-01 (DN150) Valves Cover Gasket ...................975-218-01 Clapper Facing..................975-006-01 8" (DN200) Valves Cover Gasket ...................975-479-01 Clapper Facing..................975-463-01 10" (DN250) Valves Cover Gasket ...................976-000-01 Clapper Facing..................975-977-01 12" (DN300) Valves Cover Gasket ...................976-472-01 Clapper Facing ..................976-474-01 © 2008 TYCO FIRE & BUILDING PRODUCTS, 451 North Cannon Avenue, Lansdale, Pennsylvania 19446 c®us APPROVED For Usting/Approvol Details and Linmitotionc, visit our website at wmswonvi/stor.com or contact anMvit'/AnvilStar" Soles Rresentotine. 5.0 4.0 3.0 I 2.0 w C 0 cv C 1.0 0.6 0.7 0.6 OM 0.5 a 0.4 0, 01 0.3 C Z 0.2 0 Z iNQk.Star FIG. AE7722-3A GRUVLOK® Butterfly Valve Fire Products Division of Anvil International Grooved End U L/U LC/FM Butterfly Valve 17-A The Gruvlok Figure AE7722-3A Grooved End Butterfly Valve is UL & ULC Listed and FM Approved as a system control valve. The valve is rated at 300 psi for steel pipe in the 2" to 10" sizes. The 2" through 10" sizes are agency rated for both indoor and outdoor service. The valve is supplied with two internal switches. One is wired for supervisory service and the other is wired for use as an auxiliary switch. Both switches are rated for 11 amp at 1 25, 250 VAC and 0.5 amp at 125 VDC, 0.25 amp at 250 VDC. The switches and actuator internal spaces are protected from tampering and require special tools for disassembly (Contact an AnvilStar Representative if tools are required). The ductile iron valve body is encapsulated with a thick, durable polymer coating to ensure long term service. The valve features double-seal disc design with resilient EPDM coating, and stems are 416 stainless steel. Detailed instructions for valve installation and switch wiring are included with each valve. Additional information for the replacement of shear point components and switches is also provided. fl 0.1 Ito - :1EADLOSS EQUIVALENT LENGTH OF PIPE Valve Pipe Equivalent Feet of Pipe* C=120 Size O.D. 5th. 10 5th. 30 5th. 40 lnjrnm InJrnm FL/rn fr/rn Ftjm 2 2.375 5.8 4.1 50 60.3 1.8 1.4 21/2 2.875 51 . 3.1 65 73.0 1.6 I.! 3 3.500 9.6 7.2 80 88,9 2.9 - 2.2 4 4.500 75 57 lOU 114.3 2.3 1.7 5 5.563 7.0 . 5.6 125 141.3 2.1 . I.? 6 6.625 6.1 4.8 150 168.3 1.8 1.5 8 8.625 6.3 5.1 5.3 200 219.1 1.9 1.7 1.6 10 10.750 11.3 10.2 9.6 250 273.1 3.4 3.1 2.9 * The equivalent feet of pipe is based on the Hazen and Williams formula and the How rates typically used with each size valve. PRESSURE DROP (PSI) VS. (GPM) '47 'im 41f Z ;n 1 _ " . 200 300 400 500 700 1000 2000 3000 40005000 7000 10000 FLOW RATE IN GALLONS PER MINUTE (GPM) PROJECTI I NFOR MATION Project: Approved Address: Lj Approved as noted Contractor: j Not approved S Engineer: Remarks: Submittal Date: Notes 1: Notes 2: 5/09 ANQk.Star FIG. AE7722-3A GRUVLOK® Butterfly Valve AWILFire Products Division of Anvil International Grooved End UL/ULC/FM Butterfly Valve X) fl FIGURE E7722-3A UL/ULC/FMIBUTTERFLY VA Yj Valve Pipe Valve Dimensions Approx. Size O.D. A B c D E F 6 H j WI. En. In./ON(mm) In ./mm In /1"M In /111111 In/mm In-11111" In./mm In ./mm! In./mm In1mm In./mm 1k/Kg 2 2.375 3.19 2.97 3.87 6.17 4.18 2.25 - 4 3 19 30 60.3 81 75 98 /5/ /06 3/ -. 102 /6 9 21/2 2.875 3.81 3.18 4.38 6.68 4.18 2.25 - 4 3 20 65 73.0 97 81 11/ 170 106 57 - 102 76 9 3 3.500 3.81 3.80 4.62 6.92 4.18 2.25 - 4 3 22 80 88.9 97 9/ II! 176 106 57 -. 102 76 10 4 4.500 4.62 4.27 5.38 9.98 5.10 3.5 - 5 6 26 /00 /143 117 /08 /37 253 130 89 - 127 152 /1,8 5 5.563 5.81 4.98 5.88 10.48 5.10 3.5 - 5 6 29 /25 /41.3 /48 /26 /49 266 /30 89 - /27 152 13.2 6 6.625 5.81 5.47 6.37 10.97 5.10 3.5 0.13 5 6 30 150 168.3 148 139 162 279 /30 89 3 /27 /52 13.6 8 8.625 5.25 6.92 7.75 15.40 9.54 4 1.36 7.89 12 52 200 219.1 133 176 197 391 242 102 35 200 305 23.6 10 10.750 6.25 7.99 9.00 16.65 9.54 4 1.84 7.89 12 75 250 273.1 759 203 229 1 423 242 102 47 200 305 34.1 UPPER STEM: Stainless Steel, ASTM A-582, Type 416 STEM SHEAR PIN: for 2" thru 6" valves. STEM SHEAR KEY: for 8" and 10" valves. UPPER BUSHING: Sintered Bronze (8" and 10" valves only) "0" RING: Nitrile LOWER BUSHING: Sintered Bronze (8" and 10" valves only) S. LOWER STEM: Stainless Steel, ASTM A582, Type 416 7. BODY: Ductile Iron ASTM A-536 with Polymer Coating S. DISC: Ductile Iron ASTM A-536 with EPDM Encapsulation HANDWHEEL: Ductile Iron INDICATOR FLAG: Ductile Iron GEAR OPERATOR: Ductile Iron and Steel NAMEPLATE: Aluminum HANDWHEEL SHEAR PIN: Carbon Steel AISI 1070 I CV VALUES Valve Pipe Disc Position Size O.D. 250 300 400 50° 1 600 I 700 I 80° 1 90° IMMIR Injmm - (Degrees - - 2 2.375 4 7 19 44 48 80 111 158 50 60.3 0.3 0.5 1.3 3.0 3.3 5.5 7.7 /0.9 21/2 2.875 9 14 34 78 84 142 196 280 65 /3.0 0.6 1.0 2.3 5.4 5.8 9.8 13.5 /9.3 3 3.500 14 20 50 112 128 215 285 400 80 88.9 1.0 1.4 3.4 7.7 8.8 14.8 19.7 27.6 4 4.500 29 41 100 239 250 420 582 826 100 114.3 2.0 2.8 6.9 16.5 /7.2 29.0 40.1 57.0 5 5.563 62 76 182 415 445 780 1,100 1,480 /25 741.3 4.3 5.2 12.5 28.6 30.7 53.8 75.8 102.0 6 6.625 96 141 325 755 809 1,370 1,920 2,678 /50 168.3 6.6 9.7 22,4 52,1 55.8 94.5 132.4 184.6 8 8.625 172 252 592 1,365 1,460 2,430 3,410 4,819 200 2/91 1/9 17.4 40.8 94.1 100.7 /67.5 235.1 332.3 10 10.750 230 328 1 792 1 1,825 1,962 3,260 4,590 6,431 250 273.1 15.9 22.6 54.6 125.8 135.3 224.8 376.5 443.4 5/09 FIRE ALARM CONTROL PANEL I SUPERVISORY CIRCUIT SUPERVISORY SWITCH YELLOW SINGLE-POLE DOUBLE-THROW SWITCH WIRED AS NORMALLY O GE RAN OPEN W/DUAL LEADS SOLDERED TO SWITCH TABS. COMMON YELLOW (SWITCH SHOWN WITH VALVE IN FULL-OPEN POSITION.) ORANGE _TO END-OF-LINE RESISTOR OR NEXT SUPERVISORY SWITCH GREEN CONNECTION TO GROUND GROUND SCREW INSIDE HOUSING VIOLET p AUXILIARY SWITCH BLUE TO AUXILLARY DEVICE RED COMMON (POWER SOURCE) SINGLE-POLE DOUBLE-THROW SWITCH WITH SINGLE LEADS SOLDERED TO SWITCH TABS. (SWITCH SHOWN WITH VALVE IN 'FULL-OPEN POSITION.) 6NQI_Star FIG. AE7722-3A GRUVLOK® Butterfly Valve Fire Products Division of AnvilInternational Grooved End UL/U LC/FM Butterfly Valve SEE NOTES 1 AND 2 AUXILIARY SWITCH SUPERVISORY SWITCH NOTES: SWITCH ORIENTATION MAY VARY. STRAIN RELIEF TO BE PROVIDED ON PROTRUDING WIRES. WIRE LEADS TO BE A MINIMUM OF 10" LONG FROM STRAIN RELIEF. WIRE SIZE TO BE 15 AWG. GROUND WIRE SIZE TO BE 16 AWG MIN. LOCATION OF SWITCH CONNECTORS MAY VARY DEPENDING ON MODEL. ZILL NUlL 3 RED (COMMON) BLUE VI OLET ORANGE (COMMON) E0 YELLOW NORMALLY CLOSED: BLUE NORMALLY OPEN: VIOLET COMMON: RED NORMALLY CLOSED: NOT WIRED NORMALLY OPEN: (2) YELLOW COMMON: (2) ORANGE SWITCH RATING: TWO SINGLE-POLE, DOUBLE-THROW, PREWIRED SWITCHES RATED UP TO hA AT 250 VAC. 5/09 "K"OPEN . (MAX ENTRY) ML - - 0 - - A - BB-SCI 00 Sizes 1", 1-1/4", 1-1/2", 2", 2-1/2" BB-SCSO2 (Includes Switch) BB-SC ,HEIK"'Eto E-11'17 U SLOW CLOSE I "- 2_h/2" Approved by: NYC Board of Stds. & Appeals, Cal. #996-81-SM (175psi) 720-83-SA (350 & 500 psi) BRONZE BUTTERFLY VALVE ONE-PIECE, FULL-PORT 175 PSI THREADED ENDS DIMENSIONS Valve Size < cN APPROVED 4-1/2" "r. DIM 1" 1-114" 1-1/2" 2" 2-1/2" A 2.13 2.63 2.88 3.25 4.13 13' 3.16 3.31 3.41 3.63 3.82 C 1.56 1.94 2.19 2.75 3.19 D 1.72 2.11 2.38 3.07 3.50 J2 4.16 4.16 4.51 4.76 4.66 K .66 .73 .73 .79 1.18 L .83 .90 .10 1.41 1.29 M-40" 1.10 1.38 1.61 2.07 2.47 M-80" .96 1.28 1.50 1.94 2.32 N-40 2.25 2.00 2.50 2.25 10.00 1.13 1.25 1.41 1.69 1.75 ALL DIMENSIONS-INCHES Pertains to BB-SC100 only. Pertains to BB-SCS02 only. M-40 ARE DIMENSIONS USING SCHEDULE 40 PIPE M-80 ARE DIMENSIONS USING SCHEDULE 80 PIPE N-40 IS FLOW RESISTANCE EXPRESSEDIN EQUIVALENT LENGTH OF SCHEDULE 40 PIPE W IS THE WRENCH MAKE-UP LENGTH 1 4-1I2" Ti11 nPE =1 t RT MATERIALS LIST ITEM PART MATERIALS ASTM SPEC. I Indicator Iron F0008P 2 Housing Bronze ____________ ASTM 584 UNS C8440 - 3 Body_________ 4 Handle Brass ASTM B176 UNS C85800 ASTMA276, 5 Disk Stainless Steel Type 304 EPDM If Disk Seal Switch Housing Aluminum (BB-SCS02) - The information presented on this sheet is correct at the time of publication. Milwaukee Valve reserves the right to change design, and/or material specifications without notice. For the most current information access www.milwaukeevalve.com M LWAUKEE VALVE'hhhI!uU pI" FEATURES Slow opening and closing Quarter turn operation Water Hammer elimination Optional internal tamper switch (Indoor/Outdoor use). - Signals disc movement - Factory or Field installation -10 Amp /115 VAC-60 Hz -0.5 Amp /28 VDC Grooved Ends Available in Sizes 2" and 2-1/2" 5 n. MODEL 1000 ___________ •:L. ti_L1 LI J&tr I , U S Li The AGF Manufacturing Inc. Model 1000 TESTANDRAIN Provides Both The Test Function And The Express Drain Function For A Wet Fire Sprinkler System. Li The Model 1000 Complies With All Requirements Of NFPA-1 3, NFPA-1 3R, And NFPA-13D. Li The Model 1000 TESTANDRAIN Is A Single Handle Ball Valve That Is Light Weight And Compact, Includes A Tamper Resistant Test Orifice, Integral Tamper Resistant Sight Glasses, And Is 300 PSI Rated. Li Available In A Full Range Of Sizes From 3/4" To 2' NPT & BSPT, With All Specifiable Orifice Sizes 3/8", 7/16,1/2", 17/32,5/8" (ELO), & 3/4" (ESFR). Li The Orifice Size Is Noted On The Indicator Plate And The Valve Is Tapped For A Pressure Gauge. Li Locking Kit Available Which Provides Superior Vandal Resistance And Prevents Unintentional Alarm Activation. 0Qur New e0' Visit us on the Internet 10/00 SIZE A B C D E F G H 3"" 5 1/16" 128mm 1 1/2 37.58mm 2 16" 55.65mm 3 /e" 93.23mm 3 '&' 85.88mm 1 13/1611 45.30mm 4 /i&' 117.12mm 6 8" 162.42mm i 5 1/16" 128mm 1 1/2" 37.58mm 2 16" 55.65mm 3 18" 93.23mm 3 '&' 85.88mm 1 13/16" 45.30mm 4 16" 117.12mm 6 8" 162.42mm i i ' 4 57/ 16" 137.70mm 1 11/16" 42.70mm 2 16" 65.36mm 4 1/4" 108.36mm 3 116" 82.84mm 1 1511611 50.89mm 5 p116" 141.39mm 5 1/2" 192.28mm i 1/2 " • 6 i16" 163.38mm 1 13/1611 45.50mm 3 1/4" 81.50mm 5 1/16" 127mm 3 8" 99.18mm 2 '8" 66.97mm 8 1/4" 206.63mm 107/8" 213.60mm 2" 6 '16" 163.38mm 1 13/16" 45.50mm 3 1/4" 81.50mm 5 1/1611 127mm 3 '8" 99.18mm 2 '8" 66.97mm 8 1/4" 206.63mm 107/81, 273.60mm MATERIAL LIST PART: MATERIAL: HANDLE STEEL STEM ROD BRASS BALL C.P BRONZE BODY BRONZE VALVE SEAT IMPREGNATED TEFLON INDICATOR PLATE STEEL HANDLE LOCK SPRING STEEL MODEL 1000 300 PSI 3/4" 1" 11/4" 11/2" 2" 1iI&41'J4 FRONT VIEW/HORIZONTAL INSTALLATION ORIFICE SIZE AVAILABLE - 3/8, 7/16, 1/2, 17/32, ELO(5/8)*, ESFR(3/4)* DIMENSIONS - INCHES FRONT VIEW/VERTICAL INSTALLATION FROM BRANCH GAUGE INLET / PROVIDED STREET EL TO DRAIN STREET EL OR PIPE I TO DRAIN RIGHT HAND/STRAIGHT INSTALLATION APPROVALS: CJ UL and ULC Listed 0 FM Approved except 3/4" U NYC-BSA NO. 720-87-SM U CA. State Fire Marshall "Available on 1 1/4" to 2" size units only. -3/4"UL Listed only. UI. LISTING EX4019 AGF MANUFACTURING INC. 100 Quaker Lane Malvern, PA 19355 USA Telephone: (610) 240-4900 Fax: (610) 240-4906 www.testandrain.com MADE IN U.S.A. JOB NAME: - ARCHITECT: - ENGINEER: - CONTRACTOR: DETECTION 0 0 (2)POTTER The Symbol of Protection P?C-44 1ORC RELEASING CONTROL PANEL Multi-Hazard Operation Four Class B Initiating Circuits l\vo Class B Supervisory Circuits ** Four Class 13 Output Circuits Programmable Cross Zoning Supervised Microprocessor 32 Character Alpha-Numeric LCD Display Custom Banner Message and Zone Description text Custom Zone Description Text On Board Menu Driven Programming Controls Releasing Circuits Protected From False Activation Continuous or Timed Discharge 40 Event History Butiir Walkiest with Automatic Time-out Alarm, Trouble Supervisory, and Waterfiow relays Optional Class A Initiating Zone and output module 34 character LED supplemental display 19 Standard Programs in Panel Memory Password Protection for all Programming 24 Hour Clock Suitable for agent or water-based extinguishing Programmable pre-discharge timers* One Class B Abort circuit* (Defaults to additional supervisory zone in water based mode.) Three Abort modes* Dimensions: 18 ¼ x 14 ½' x 4¼ UL and ULC Listed, FM Approved, NYMEA Accepted, and * Available in Chemical mode only CSFM Approved ** One zone programmable as abort in chemical mode. General Description The Potter Model PFC-441 ORC isa flex iblemulti-hazardreleasingcontrol The panel is Ninth Edition UL listed, ULC listed. Factory Mutual. panel that is well suited for a number of applications. The PFC-441 ORC Cali fornia State Fire Marshal (CSFM) and NewYork Materials Equipment is listed for use with pre-action and deluge sprinklersuppression systems Acceptance (MEA) approved. and agent based tire suppression systems. The PFC-44 I ORC is housed in a durable steel cabinet with removable The panel utilizes a microprocessor-based system that has 19 Standard door and key lock. The panel is available in either a red or white finish Programs, which covers amajority of installations. The simple to follow and an optional flush mount trim ring is available. The cabinet contains Menu Structure programs tie entire system in a matter of minutes. In knockouts on the side, hack and top of the cabinet to ease installation. addition to the Standard Prouramsthepanel allows customprograniniing in addition, the cabinet will house up to 18 amp-hour batteries that will to accommodate any inst:illsion. provide in excess of 90 hours of standby power. Ordering information Model i'iurnher Description Stock i'D,rnber PFC-4410RC 4 Zone Releasing Control (White Cabinet) 3006144 PFC-4410RC 4 Zone Releasing Control (Red Cabinet) 3006142 PFC-TW Bezel for Semi-Flush Mounting (White) 5090157 PIFC-TR Bezel for Semi-Flush Mounting (Red) 5090155 ET-40 Brtery. 12V 4AH for 24 hour standby (2 Req'd) 5130092 BT-80 Be:teiy, 12V 8AH for 60 hour standby (2 Req'd) 5130084 BT-120 Be.tery. 12V I2AH for 90 hour standby (2 Req'd) 5130090 BT-I80 Batery, 12V. I 8AH for 90 hour standby (2 Req'd) 5130086 CA2Z ' 2 Zone Class AInitiating Circuit Module 3006013 CAM Cl 9.55 A Indicating Circuit Module 3005300 ARM-44 Relay Module for PFC-441ORC 3006221 ARM-2 Auxiliary Relay Module 3004725 RA-441 ORC Remote Annunciator 3006400 BB-RA-441Z Surface Mount Back Box for RA-4410RC (Red) 3006401 Potter Electric Signal Co., 11-t- - Si. l.ouis. MO • Cust Service: 866-240-1870 • Tech Support:866-956- 1211 Canada 888-882-1833 www.pottersignal.com PRIElEI) IN USA MFG 05401250-REV A RAGE 1 OF 2 12/09 S POTTER The Symbol of Protection Architects/Engineers Specifications The control panel for the extinguishing agent releasing system shall be a microprocessor based control capable of protecting multiple hazards in one control panel. It shall he Underwriters Laboratories Inc. listed tinder Standard 864 Ninth Edition and Underwriters Laboratories of Canada for Local Control Units for Releasing Service. The control shall also be approved by Factory Mutual Research Corporation and be compliant with the requirements of NFPA-72 (Local: A, M. SS service types; DAC and NC signaling type) and NFPAI2. NF'PAI 2A, NFI'A-i 3. NFPA-1 5, NFPA-1 6, NFPA-1 7, NFPA-17A. NFl>A-750. and NFPA-2001. The control shall he housed in an 18 gauge steel cabinet that has a hinged. removable door with a key lock. The finish shall be baked enamel and available in red or oft-white with contrasting trim and logo. An optional matching bezel should he available for semi-flush mounting. The cabinet shall have adequate space to house 18 A standby batteries capable of operating the system for at least 90 hours, The control shall include a fully supervised integral power supply/battery charger capable of providing 200mA to the auxiliary power circuit. It shall also be capable of providing 2.5 Amps to all releasing and notification appliance circuits combined. All initiating, output and auxiliary power circuits shall be power limited. The control shall have a 32 character (16 characters. 2 lines) backlit LCD display and a 34 LED supplemental display. All diagnostic and S alarm event infOrmation shall be viewable in text (brot on this display. A field programmable custom banner message with the current date and time shall be displayed when no current alarm or diagnostic information exists. All operational features of the control panel shall be field programmable using menu driven selections on the alpha-numeric display and on board controls. No special programmer will he required and jumpers or switches to configure operational features shall not be permitted. Alarm and trouble indications shall resound when required. The control panel shall be equipped with 19 programs built into the panel memory, 13 for water based extinguishing and 6 for agent extinguishing. In addition, the panel shall have the ability to add custom programs. All programming functions shall be password protected. The control shall have four fully supervised Class B (Style B) initiating circuits capable of supporting the operation of 25 compatible 2-wire smoke detectors on each circuit. The individual circuits shall be selectable through the programming sequence to operate in one of the following modes: Conventional, PFC-4410RC RELEASING CONTROL PANEL Waterfiow, Linear Heat Detection (up to 10.000 feet per zone). Manual Release, Low Air Alarm, Supervisomy, Tamper, Low Air or High Air. Optional Class A modules, CA2Z, may be added for Class A operation. The panel shall have a Low Air Zone that creates a supervisory condition and map to an output. UL and ULC Listed, FM Approved. NYMEA Accepted. CSFM Approved The control shall have two fully supervised Class B (Style B) supervisory circuits. These circuits shall he selectable through the programming sequence to operate in one of the following modes: Supervisory, Tamper, Low Air or High Air. The control shall have one fully supervised class B (style B) Abort circuit with 3 different operating modes. ULI, lRl, and NYC. The control shall have four fully supervised Class B (Style Y) output circuits. These circuits shall be selectable through the programming sequence to operate as one of'the following: Alarm Notification Appliance, Supervisory Notification Appliance. Trouble Notification Appliance or Releasing. The optional CAM module may be added to convert the outputs to Class A. The panel shall have an RS-485 output and auxiliary power outputs for connection and supervision of up to 4 remote annunciators or an ARM-44 Relay Module and 3 annunciators. The releasing circuits shall be supervised for short circuit conditions and shall be programmable for cross zoning operation when required. The discharge timer for these releasing circuits shall be programmable for times of 7. 8. 9. 10, 20 minutes or continuous. All initiating and output circuits shall be capable of being individually disabled or enabled. In addition, when in the agent extinguishing mode there shall be a pre-discharge timer adjustable from 0-60 seconds from an alarm zone or 0-30 seconds from a manual release zone. The control shall have a test mode that will automatically disable all releasing circuits. The test mode shall operate in such a manner as to automatically reset the initiating circuit and indicating circuits after detecting each alarm condition initiated by the test. All testing shall be recorded in the 40 event history buffer. The test mode will automatically terminate after twenty minutes of inactivity. The control shall have four integral relay contacts rated 3 Amps at 30 VOC for connection to external auxiliary equipment. One relay shall operate when an alarm condition occurs, another when a trouble signal occurs. the third when a supervisory condition occurs, and the fourth during a waterfiow condition. UL and ULC Listed, FM Approved, NYMEA Accepted, CSFM Approved. PRINTED IN USA MFG #5401230. REV A PAGE 2 OF 2 12/09 S Ir"'FC-4410RC Installation, Operation, and Instruction Manual I Releasing Panel for Water and Agent Extinguishing Systems (All specifications subject to revision.) B Fl POTTER The Symbol of Protection . St. Louis, MO (866) 956-0988 Manual #5403550 - Rev G wwwpottersigna1.com 6/09 0 PFC-441ORC• 5403550• REV G - 6/09 Installation Precautions A This is the safety alert system. It is used to alert you to potential personal injury hazards. Obey all safety messages that follow this symbol to avoid possible injury or death. WARNING The detection and suppression system employing this release panel must be designed by people trained and competent in the design and layout of fire alarm and/or suppression systems for special hazard locations. The system shall be designed and installed in accordance with all local and national codes and ordinances as well as the approval of the Authority Having Jurisdiction. Only trained, qualified and competent individuals should install, program and/or service the PFC-4410RC. Competent people would be aware of these warnings, limitations, and requirements. The abort circuit will not abort the release or stop the predischarge timer activated by zones programmed as MANUAL RELEASE. If it is desired to have the abort circuit stop the release activated from a Manual Release zone, program that zone as a DETECTION zone instead. High voltage electrocution hazard. Do not handle live AC wiring or work on the device while AC power is active. This manual is designed to help with the specification, installation, and programming of the PFC-4410RC Release Panel. It is imperative that this manual be completely read and understood before the installation or programming of the panel. Save this manual for future reference. Zones programmed as MANUAL RELEASE will override any cross zoning features. if it is desired to not have a manual station override the cross zoning, program the zone as DETECTION and map accordingly. Per ULC requirements; if this equipment is running on battery power only, it will shut off and cease to operate when the battery voltage reaches approximatly 19-20 volts. Locate the panel and all system components in the following nominal environment: * Temperature 32-120°F, Humidity 93% non-condensing. * Verify that the wire sizes are adequate for all initiating, notification, and release circuits. * Make certain the panel is properly grounded. * Remove all electronic assemblies prior to any drilling, filing, reaming, or punching of the enclosure. When possible make all cable entries fi-om the sides, bottom, or rear of the cabinet. Verify that they will not interfere with the batteries or other components. * The panel and system must be tested and maintained in accordance with all local and national codes and ordinances. Operating instructions Form Fill in the name, address and telephone number of the servicing agency on the instruction sheet provided and frame and place adjacent to control panel at eye level. The following documentation shall be delivered to the owner or their representative upon final acceptance of the system: An owners manual and installation instructions covering all system equipment. Wiring diagrams A detailed description of the programming and operating sequence of the system PFC-4410RC• 5403550 • REV G • 6/09 S Fire Alarm System Limitations AWARNING Smoke detectors may not detect smoke when the smoke does not reach the detector. Such as smoke within walls, on the other side of walls, on other floors, behind closed doors, explosions. etc. Smoke detectors will not operate if they are not properly connected to the fire/release panel. The detectors and bases must be UL listed as being compatible with the panel. The detectors have a visible flashing light that indicates power is supplied to the detectors. Notification appliances may not alert people if the people are not able to hear or see the appliances such as if they are in separate areas of the building or room. A fire alarm/release panel will not operate without electrical power. The panel must have sufficient backup battery capability to power the panel for a specified amount of time in the event of an AC power failure. The batteries and release panel shall be tested and maintained in accordance with the testing and maintenance requirements of NFPA 72. In order for emergency forces, (Fire departments, etc.), to respond to events associated with this panel, the panel must transmit trouble, supervisory, and alarm signals to a monitoring facility either directly or through a main building fire panel. A problem in an audible or visual device may not be apparent when the panel is in a normal condition. Design Guidelines People trained in the design of special hazard systems shall determine the selection and placement of the initiating devices and notification appliances connected to the PFC-4410RC. This responsible party shall also be familiar with the premises being protected. The equipment shall be installed in accordance with the manufacturers instructions, the applicable version of NFPA 72 and all local codes and ordinances. For systems employing cross zoning of two smoke detectors for the activation of the release circuit, this can include but is not limited to the installation of photoelectric and ionization types of detectors on separate zones. One of each type of detector on separate zones shall be installed in the coverage area selected for a single detector (not to exceed 0.7 times the linear spacing). The detectors would be installed in close proximity to each other. Time responsible party shall also determine the theory of operation regarding the programming sequence. NOTICE TO ALL USERS, INSTALLERS, AHJ'S, AND OTHER INVOLVED PARTIES This product incorporates field programmable software. In order to comply with the requirements in the Standard for Control Units and Accessories for Fire Alarm Systems, UL 864, certain programming features or options must be limited to specific values or not used at all, as indicated below. Program Feature or Option Permitted in UL 864 Possible Settings Settings Permitted in UL 864 NY Abort (Mode 3) No Mode i, 2, 3. or 4 Modes I and 2 30-Second Abort (Mode 4) No Mode 1, 2, 3, or 4 Abort on Pre-action or Deluge No Supervisory, Tamper, Low air, Supervisory, Tamper, Low Systems High Air, Abort Air, High Air General Description The Model PFC-4410RC is a listed and approved, microprocessor based fire control/releasing panel. It is primarily designed for use as a releasing panel for pre-action and deluge, water based extinguishing systems or for agent extinguishing systems. The PFC-44l0RC may also be used as a stand alone fire control panel. This unit complies with NFPA-12, NFPA-12A, NFPA-i3, NFPA-Il5, NFPA-16, NFPA-17, NFPA-17A, NFPA72, NFPA-750, NFPA-2001. The PFC-4410RC complies with UL Standard 864, ULC S527-99, Canadian Electrical Code Part 1 C22.1., ULC S524, FM, CSFM and NYMEA. System Features Four Class B (Style B) initiating zones. Each initiating zone can be set up for any of the following: Alarm Zones Detection alarm zone Waterfiow Linear Heat Detection (700 ohms per zone.) 5 Manual Release PFC-4410RC • 5403550 • REV G - 6/09 Supervisory Zones . Supervisory Tamper Low Air Supervisory - High Air Low Air Alarm NOTE-: Only zones programmed as Detection. Waterfiow, Linear Heat, Manual Release, and Low Air Alarm can be mapped to outputs programed as release. Remote Annunciator Output for connection to RA-441 ORC: RS-485 communication, (2-wire shielded cable required) Regulated 24VDC annunciator power Two Supervisory Zones, Class B (Style B). This zone can be set up for any of the following: Supervisory Tamper Low Air Supervisory High Air * Abort (Supervisory zone I only) NOTE: * Abort on a water-based extinguishing system is not a UL Listed function. Four Class B (Style Y) Output circuits. Each output can be set up for any of the following: Notification Appliance circuit, (First or Second alarm notification in chemical extinguishing mode) Releasing circuit Pulse Releasing circuit (called eAEROSOL, 1/1 6th sec on 15/16th sec off. Chemical mode only, will cycle 200 times before turning off) Supervisory Bell circuit Trouble Bell circuit One Abort Circuit (Available in Chemical Mode only) Programmable for four different operating modes ULI - Stops the pre-discharge timer at 10 seconds IRI —Abort must be activated before the second alarm is received NYC (not UL listed) A one time operation that adds 90 seconds to the remaining predischarge time * 30 Second Abort (stops or reverts the pre-discharge timer at 30 seconds) NOTE: * Not a UL Listed function 717 An eAEROSOL output shall only be used with Aerosol Generators (listed on page 90). Using a standard releasing circuit for an Aerosol Generator can prevent the Aerosol agent from being released. à CAUTION Abort does not function and has no effect on panel operation from zones programmed as MANUAL RELEASE. Fifteen Standard Programs for water based systems or custom program capability Nine Standard Programs for Chemical based systems or custom program capability User selectable between Water .Based or Chemical Extinguishing Releasing Zones can be set up for either normal or cross zoning operation Discharge time is user selectable for either 7, 8, 9, 10, 20 minutes or continuous in the custom program All circuits inherently power limited per NEC 760 and UL 864 Section 14.4 Initiating Circuit Disable feature Output Disable feature One-Man Walktest feature with automatic 30 minute restoration and releasing circuit disable Class B (Style B) Abort circuit available in Chemical mode. Three Abort modes available Pre-Discharge timer from 0-60 seconds available in Chemical mode only Manual Release 0-30 seconds predischarge timer in Chemical Mode only Notification Appliance Circuits can be programmed to operate upon l It or 2" alarm in Chemical Mode for pre-discharge signal Diagnostic Indicators PFC-4410RC• 5403550 • REV G • 6/09 Signal Silence button Buzzer Silence button . Manual event scroll buttons Automatic resound of silenced trouble signals after 24 hours Built-in Trouble buzzer Common Contacts for Alarrn/Tro'uble/Supervisoiy/Waterflow 32 Character Liquid Crystal Display (LCD) 34 LED display User Generated Banner Message User Generated Zone Labeling 24 or 90 hour Battery Standby available (Where required by FM and Others) 24 1-Jour Clock Password Protection Remote annunciator output 4-Wire resettable smoke detector power Options See Appendix B at the back of the manual for product data sheets. I. CAM - Module to convert one Class B Indicating Appliance Circuit to one Class A circuit. CA.2Z - Module to convert two Class B Initiating Device Circuits to two Class A circuits. ARM-2 - Module to provide two Form. C contacts activated by Indicating or Releasing, polarity reversing circuits. ARM.-44 - Module to provide 8 Form C contacts activated by corresponding initiating zones and outputs. RA-44l0RC .......Remote annunciator provides 34 LED's for each zone in alarm supervisory or trouble, each output activated or in trouble, AC power, Power trouble, System trouble, Ground fault, Supervisory, Supervisory trouble, Alarm, Alarm silence and Pre-discharge/Discharging. The annunciator also has a lamp test switch. Abort switch RCDS-1 - Releasing Circuit Disable Switch Ordering Information .Model No. 'Description Stock No. RA-441 ORC Remote annunciator 3006400 BB-RA-44R Surface mount back box for RA-4410RC 3006401 EOLP-R End of Line Plate 'f/Resistor 3002182 EOLP-D End of Line Plate f/Diode Assy 3002181 P32-IT Manual release station 1000447 Abort Switch 3001000 PFC-TW Bezel for semi-flush mounting (white) 5090157 PFC-TR Bezel for semi-flush mounting (red) 5090155 BT80 Battery, for 24 hour standby, 12V. 8.OAH (2 req'd) 5130084 BTI 20 Battery, for 60-90 hour standby. 12V, 12.OAH (2 req'd) 5130090 CA2Z 2-Zone Class A initiating module 3006013 CAM Class A indicating circuit module 3005300 ARM-1 Auxiliary Relay Module 4 Pole 3004726 ARM-2 Auxiliary Relay Module 3004725 ARM-44 8 Relay Module 3006221 RCDS-1 Releasing Circuit Disable Switch 3001002 Spare or Replacement Parts EOL Resistor 5080593 EOL Resistor and Diode Assembly for releasing circuit 3005012 EOL Resistor with 6" wire leads 3005013 eMatch Protection Assembly for eAEROSOL circuit 3005014 Main Circuit Board Module 3006424 AWARNING This equipment generates, uses, and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual, may cause interference to radio communications. It has been tested and found to comply with the limits for a Class A computing device pursuant to Subpart J of Part 15 of FCC Rules which are designed to provide reasonable protection against such interference when operated in a commercial environment. Operation of this equipment in a residential area is likely to cause interference in which case the user at his own expense will be required to take whatever measures may be required to correct the interference. PFC-441ORC 5403550 • REV G • 6/09 Specifications PFC-44 .1 ORC Type - 18 gauge sheet steel with hinged, removable, locked door Size - 18 1/2" x 14 1/4" x 43/4" Finish - Off-white or red cabinet with red on black logo. Knockouts - 1/2" and 3/4", one of each on left side, two 3/4" and one 1/2" on right side, four 1/2", two 3/4" on top, and two 1/2' and one 3/4" on the back Option - Bezel for semi-flush mounting PFC-4410RC Visual Indicators LED Indicators (red = alarm) 32 Character Alpha-Numeric Liquid Crystal Display (LCD) LCD A 2 line 32 character alpha-numeric liquid crystal display shows the condition, status and circuit for all Alarm, Supervisory and Trouble conditions. CONDITION STATUS CIRCUIT Alarm Silenced <user Defined Message> (Up To 10 Characters) Trouble Disabled Output #1 Supervisory Acknowledged Output #2 Tamper Output 43 Low Air Output #4 High Air Battery Aborted A.C. Pre-discharging Supervisory Releasing Zone #1 Released Zone #2 Zone #3 Zone #4 Ground PFC-4410RC Visual Indicators In accordance with ULC S527-99 option B: LED Annunciator Module Red LED's: Initiating Device Circuits Active (4), Notifi cation/Release Circuits Active (4) Common Alarm. (1) Green LED: AC Power Yellow LED's: Initiating Device Circuits Troubles (4). Output Circuits Troubles (4) Supervisory Initiating Zone (4) Supervisory Bell Output Active (4) (1) each: Supervisory 1, Supervisory 2, Power Trouble, Supervisory Trouble, System Trouble, Ground Fault, Pre-Discharge/Discharging, Alarm Silenced CONDITION STATUS LED State Trouble Non-Silenced Flashing Trouble Silenced Steady ON Alarm Non-Silenced Flashing Alarm Silenced Steady ON Supervisory Non-Silenced Flashing Supervisory Silenced Steady ON Pre-discharge Flashing Discharging • Steady ON PFC-4410RC • 5403550 • REV G • 6/09 Control Buttons Signal Silence - Momentary, silences signaling circuits, (except those activated by zones programmed as VATERFLO\V) System Reset - Momentary, resets all alarm circuits if condition has been corrected, removes power from initiating device circuits. Scroll Up - Scrolls LCD display to most recent events Scroll Down - Scrolls LCD display to previous events NOTE: Buzzer silence is accomplished by scrolling through all events. Circuit Parameters (All voltages regulated DC) - Initiating Device Circuits Initiating Device Zones: For connection of dry contact initiating devices and compatible 2 wire smoke detectors. (All values nominal) 4 Class B, Style B (Class A Style D module available) Power limited, current limited to protect 2 wire smoke detectors Maximum 2 wire 24VDC smoke detector load per zone - 2.5 mA (Use only detectors that are listed in compatibility list.) Maximum Line resistance - 1.00 ohms (Except linear heat detection cable, 700 ohms per zone) End-of-Line Resistance - 5.1K ohm Normal standby current - approximately 4.0 mA Standby voltage - 25VDC maximum, 13.4 minimum Maximum short circuit current - approximately 36rnA Maximum Impedance for Alarm - 1400 ohms Normal supervisory current - approximately 4rnA l,..ow current trouble activation - approximately 3.3mA Alarm activation current - approximately I OmA Ripple voltage - .4VDC Maximum operating voltage range: 22.5 - 25.9VDC Frequency - continuous Dedicated Supervisory Zone • For dry contact supervisory devices such as tamper, low air, or high air switches 2 Class B Style B circuit, latching Power limited, current limited End-of-Line resistance - 5.1K ohms Ripple Voltage - .1 VDC Frequency - continuous Maximum voltage - 25VDC Maximum short circuit current - approximately 36mA Maximum line resistance - 100 ohms Normal supervisory current - approximately 4mA Low current trouble activation - approximately 3.3mA Supervisory current condition - approximately lOmA Notification/Release Circuits The indicating circuits of the PFC-4410RC are Non-coded. This allows the use of visual and audible appliances on the same circuit. If temporal notification appliances are required for evacuation, selectable tone appliances such as the A.MSECO H24WR horn or SH24W Series strobe/horns or a temporal module such as AMSECO TMPl -3A or equivalents shall be used. The notification outputs do not provide synchronization. See table for sync options and devices on page 90. The notification ap- pliances shall be compatible with the sync module selected. The sync' module shall be installed as per manufacturers instructions. Synchronization is limited to only one circuit and not between circuits. Systems intended for the release of Halon 1301 as de- scribed in NFPA 12A, or clean agents as described in NFPA 2001, shall have provision for a pre-discharge notification circuit, if the signal is required to be separate and/or distinct from the evacuation signal, two notification circuits are required. One shall be programmed as FIRST ALARM. It will provide a steady output upon activation of any initiating zone programmed as an alarm zone. This is the evacuation signal. If a temporal signal is required, notification appliances such asAMSECO model H24WR or others that can produce a temporal tone shall be used. This allows the use of strobes and horns on the same circuit. The other no- tification circuit shall be programmed as SECOND ALARM. It will provide a steady output upon activation of a second initiating .zone programmed as an alarm zone. This is when the pre-discharge timer would start and would be the pre-discharge signal. If a temporal or other type of signal is required, notification appliances such as AMSECO model H24WR or equivalent shall be used. This allows the use of strobes and horns on the same circuit. If a separate signal for discharge were required, a third notification 10 PFC-4410RC • 5403550 • REV G • 6/09 circuit would be used that would be programmed to operate whenever the release circuit is activated. Equivalent sync modules are shown on page 89. Zones programmed as MANUAL RELEASE will activate outputs programmed as SECOND ALARM, even if the MANUAL RELEASE zone is the first alarm zone activated. SECOND ALARM is intended to be used as a pre-discharge signal for cross zone applications. Refer to page 50 for a complete description of first and second alarm requirements and operation. 4 Class B Style Y (Class A Style Z module available for notification) Reverse polarity upon activation Power limited, Current limited 24VDC Special Application, rated 1 amp each, 2.5 amps total for all 4 circuits End-of-Line-Resistor- 5.1k ohms Frequency - continuous Maximum voltage - 27VDC Ripple voltage - .3VDC Maximum resistance for outputs programmed as RELEASING: 1 divided by the current draw of the solenoid when activated Normal standby supervisory current - approximately .38mA Low current trouble activation - .11 mA High current trouble activation - .63mA Maximum impedance - 5 ohms Release Abort Circuit Available chemical mode only I momentary non-latching Class B Style B circuit Power limited, current limited Maximum loop resistance - 100 ohms End-of-Line-resistance - 5.1k ohms Frequency - continuous Normal supervisory current - approximately 4mA . • Low current trouble activation - approximately 3.3mA Abort current condition - approximately lOniA Maximum voltage - 23VDC NOTE: Mode 3 is not UL Listed Mode 1 —(ULI) Activation of the abort circuit stops the pre-discharge timer at 10 seconds. If there is less than 10 seconds remaining, the time goes back to 10 seconds. Releasing the abort switch starts the timer at 10 seconds. Mode 2 - (IRI) Operates the same as the ULI mode except the abort circuit only functions if the abort button is pressed before the second alarm is received by the panel. The panel must be programmed for cross zoning for the IRI mode to function. Mode 3 - (NYC) This mode is not UI. listed. Activation of the abort circuit during the pre-discharge countdown adds 90 seconds to the original pre-discharge time. This is a one-time feature. Repeated pressing of the abort button has no effect. The pre-discharge timer resumes when the abort button is released. Mode 4 ..- (30-Second Abort) This mode is not UL listed. Activation of the abort circuit stops the pre-discharge timer at 30 seconds. If there is elss than 30 seconds remaining, the timer goes back to 30 seconds. Releasing the abort switch starts the timer at 30 seconds. CAUTI ON Zones programmed as Manual Release cannot be aborted. If it is necessary to abort a manual station zone, program that zone as Detection. If the pre-discharge tinier is set at 0 the abort circuit will not stop the release circuit. NFPA 12 prohibits the use of abort circuits on Suppression Systems employing carbon dioxide. Low/Missing Battery Causes battery and system trouble if battery falls below 22 volts. Battery circuit is fused and reverse polarity protection is provided. . Input Power Universal Input I 2OVAC, (60 Hz, I 65VA) or 220VAC, (50/60 Hz, I 85VA) 15 Amp Branch Line over current protection required AC Power indicator on LED annunciator module goes off on AC power loss (supervised) System trouble is also generated if voltage drops below 102V Supervised I I PFC-4410RC• 5403550 • REV G • 6/09 Backup Power Requirements PFC-4410R.0 - Standby 121 mA, alarm 274 mA at 24VDC, supervised Service Use NFPA 12 - Carbon Dioxide systems NFPA 12A - Halon 1301 fire systems NFPA 13 -Automatic Sprinkler NFPA 15 - Water Spray Fixed System NFPA 16 Foam Water Sprinkler and Foam Water Spray NFPA 17 - Dry Chemical NFPA 17A- Wet Chemical NFPA 72 - National Fire Alarm Code Local Remote Station (protected premise unit) Central Station (protected premise unit) NFPA 750 -Water Mist NFPA 200.1 - Clean Agent Fire Extinguishing System Listings and Approvals PFC-4410RC - UL Standard 864, ULC Standard S527, FM, CSFM and NYMEA Terminals All terminals capable of #22 - #14 AWG wire . • All terminations have transient protection All four initiating device circuit terminals capable of handling linear heat detection. Relay Outputs Common system alarm contacts SPDT rated 3 Amps, 30VDC resistive Common supervisory contacts SPST, N.O. rated 3 Amps, 30VDC resistive Common system trouble contacts SPDT rated 3 Amps, 30VDC resistive .• Common waterfiow contacts, SPST, N.O. rated 3 Amps, 30VDC resistive Circuits connected to relays should be connected within the same room Auxiliary Power Auxiliary Power - 24VDC special application. Rated 200 mA max. Power limited, current limited, non-supervised Re-settablc for 4-wire smoke detectors, see Annex A. Annunciator Connection Auxiliary Power - 24VDC regulated. Rated 200 mA max. Power limited, current limited, supervised for RA-441 ORC Annunciator RS-485 For connection to RA-4410RC remote annunciator Maximum 2000' with 22 AWG, 4000' with 20 AWG wire Optional Accessories CA2Z MODULE (Class A initiating device circuit): Converts two Class B initiating device circuits to two Class A circuits. CAM Module (Class A Notification Appliance Circuit): Converts indicating appliance circuit from Class B to Class A. One model CAM (Class A Module) is required for each circuit. (Do not use this on an output programmed as "Trouble Bell".) ARM-1/ARM-2 Module (Auxiliary Relay Module) 12 PFC-441ORC• 5403550 • REV G - 6/09 Activated by 24VDC Indicating andior Releasing, polarity reversing circuits. The module provides a non-supervised DPD'I' Relay . that can be used for Ian shutdown, door release, elevator recall, etc. RA-44 1ORC (Remote Annunciator) Connects to RS-485 & 24\'DC terminals, Provides 34 LED's for each zone in alarm supervisory, or trouble, each output activated or in trouble, AC power, Power trouble, System trouble. Ground fault, Supervisory, Supervisory trouble, Alarm, Alarm silence and Pre-discharge/Discharging. The annunciator also has a lamp test switch. ARM-44 (Relay Module) - Relay installs in a cabinet and provides 8 relays. 4 relays mapped to inputs and 4 relays mapped to the outputs in a I to I relationship selectable selectable disable switch. Basic Operation In addition to the following events, the panel also provides an output via the RS-485 terminals to the RA-4410RC remote annunciator to light the appropriate indicators. Sec remote annunciator operations, page 15. Initiating Device Circuits Alarm Condition: An increase of current on any alarm initiating device circuit to approximately 10 mA or greater will result in the following: ALARM, (Except zones programmed as LOW AIR ALARM): Activation of the alarm relay contacts. Activation of the output circuit(s) which are mapped to the initiating device circuit(s). Providing all zone(s) necessary for the activation of those circuits is in alarm "ALARM" and zone # displayed on LCD. "PRE-DISCHARGE" displayed on LCD if zone(s) in alarm activated pre-discharge timer (In chemical mode only). Activation of red ZONE indicator(s) on LED display for the initiating device circuit(s). Activation of red ALARM indicator on LED display. Activation of red OUTPUT indicator(s) on LED display module for the output circuit(s) which are mapped to the initiating device circuit(s). . 8. Activation of flashing red PRE-DISCHARGE indicator on LED display if in chemical mode and pre-discharge timer was activated by zone(s) in alarm. Providing all zone(s) necessary for the activation of those circuits is in alarm. A CAUTION When in CHEMICAL EXTINGUISHING mode, the release circuit(s), are not activated until the pre-discharge timer expires, if a pre-discharge time was programmed. The predischarge time defaults to 30 seconds for Manual Release and 60 seconds for all other alarm tones. Low Air Alarm I. Operation of supervisory relay contacts and local buzzer. Activation of the notification appliance circuit(s) or releasing circuit(s) which are mapped to the initiating device circuit(s). Providing all zone(s) necessary for the activation of those circuits is in alarm. LOW AIR ALARM and <CiRCUIT #> displayed on LCD. Activation of yellow ZONE indicator on LED annunciator module for the initiating device circuit. Activation of yellow ZONE indicator(s) on LED annunciator module for the initiating device circuit(s) described as "LOW AIR ALARM". Activation of yellow OUTPUT indicator(s) on LED annunciator module for the output circuit(s) which are mapped to the zone. Providing all zone(s) necessary for the activation of those circuits is in alarm. Supervisory An increase of current to approximately 8 mA or greater on the supervisory initiating device circuit(s) or disabling an output programmed as realeasing will result in the following: Operation of supervisory relay contacts and local buzzer. Operation of any output circuits that have been described as SUPERVISORY BELL. "SUPERVISORY", "TAMPER", "LOW AIR", or "HIGH AIR" and <CiRCUiT> displayed on LCD. Activation of yellow SUPERVISORY indicator on LED display. . 5. Activation of yellow ZONE indicator(s) on LED display for the initiating device circuit(s) described as "SUPERVISORY", "TAMPER", "LOW AIR SUPERVISORY", or "HIGH AIR". 13 PFC.4410RC • 5403550 • REV G 6/09 . 6. Activation of yellow OUTPUT indicator(s) on LED display for the Notification appliance circuit(s) described as SUPERVISORY BELL. Trouble Conditions In custom program mode, failure to map at least I zone to every output or only mapping I zone to a release output programmed as cross zoned will cause a system trouble. The display will read: TROUBLE NO OUTPUTS. Initiating Device Circuits A decrease of current to approximately 3.3 mA or programming the zone as disabled on any initiating device circuit will result in the following: Activation of trouble relay contacts, trouble LED and local buzzer. Operation of any output circuits which have been described as TROUBLE BELL. "TROUBLE" and <CIRCUIT> displayed on LCD. Activation of yellow ZONE indicator(s) on LED annunciator module for the initiating device circuit(s). Activation of yellow SYSTEM TROUBLE indicator on LED annunciator module. Activation of yellow OUTPUT indicator(s) on LED annunciator module of any output circuit(s) which have been described as TROUBLE BELL. Activation of the amber TROUBLE LED in a flashing mode. NOTE: The TROUBLE LED will continue to flash until all events in the TROUBLE queue are viewed. This is accomplished by scrolling through all of the events by use of the scroll up and scroll down buttons. The LED will go steady after all trouble events have been viewed. NOTE: When the circuits are operated in the Class A mode any trouble condition will require manual operation of the reset switch to restore the panel to normal after the fault has been removed. A complete loss of power will result in the transfer of the common system trouble relay contacts. Notification Appliance/Releasing Circuits An increase of current to approximately 0.63 mA or a decrease in current to approximately 0. 11 mA on any output circuit or . connecting an indicating appliance backwards, or disabling an output will result in the following: Activation of trouble relay contacts, trouble LED and local buzzer. Operation of any output circuits which have been described as TROUBLE BELL. If this output is in trouble, a TROUBLE BELL on this output may not function correctly, depending on the type of trouble. "TROUBLE and "OUTPUT #" <CIRCUIT NO.> displayed on LCD. Activation of yellow OUTPUT indicator(s) on LED display for the notification appliance(s). Activation of yellow SYSTEM TROUBLE indicator on LED display. Activation of yellow OUTPUT indicator(s) on LED display of any output circuit(s) which have been described as TROUBLE BELL. NOTE: A current in excess of 1.4 Amps, when the panel is in the alarm condition, will result in that output being disabled and a trouble as described above. A f'll A URUTION A problem in an audible or visual device may not be apparent when the panel is in a normal condition. If the circuit indicates a trouble condition when the panel is in an alarm condition the problem must be located and corrected. Ground Fault A short between any circuit and earth ground will result in the following: Activation of trouble relay contacts, trouble LED in a flashing mode, and local buzzer. Operation of any output circuits which have been described as TROUBLE BELL. "TROUBLE..and "GROUND" displayed on LCD. Activation of the amber TROUBLE LED in a flashing mode. NOTE: The TROUBLE LED will continue to flash until all events in the TROUBLE queue are viewed. This is accomplished by scrolling through all of the events by use of the scroll up and scroll clown buttons. The LED will go steady after all trouble events have been viewed. Loss or Reduction of AC Power . A reduction in the AC input voltage will result in the following: Trouble LED and local buzzer will sound P/2 hour delay of trouble relay. Operation of any output circuits which have been described as TROUBLE BELL. 14 PFC-4410RC p5403550 • REV G • 6/09 "TROUBLE" and "AC." displayed on LCD. . 4. LCD Backlight will be extinguished. Green AC POWER indicator on LED display will be extinguished. Activation of yellow POWER TROUBLE indicator on LED display. Activation of yellow SYSTEM TROUBLE indicator on LED display. Activation of yellow OUTPUT indicator(s) on LED display of any output circuit(s) which have been described as TROUBLE BELL. Low Battery Voltage Loss of or reduction of battery voltage to 22 volts will result in the following: Activation of trouble relay contacts, trouble LED and local buzzer. Operation of any output circuits that have been described as TROUBLE BELL. "TROUBLE" and "BATTERY" displayed on LCD. Activation of yellow POWER TROUBLE indicator on LED display. Activation of yellow SYSTEM TROUBLE indicator on LED display. Activation of yellow OUTPUT indicator(s) on LED display of any output circuit(s) which have been described as Loss Of Auxiliary Power Output Loss of output of the auxiliary power will result in the following: I. Activation of trouble relay contacts, trouble LED and local buzzer. Operation of any output circuits that have been described as TROUBLE BELL. "TROUBLE" and "AUX LOW" displayed on LCD. Activation of yellow POWER TROUBLE indicator on LED annunciator module. Activation of yellow SYSTEM TROUBLE indicator on LED annunciator module. Activation of yellow OUTPUT indicator(s) on LED annunciator module of any output circuit(s) which have been described as TROUBLE BELL. The remote annunciator RA-4410RC will not function if problem exists on nonresettable 24VDC. . To Silence the Buzzer (or outputs that have been described as trouble or supervisory bell) Press the scroll up or scroll down buttons. Once all events in the trouble or supervisory queue have been viewed, the buzzer and appropriate outputs will silence. The applicable system TROUBLE or SUPERVISORY LED will change from flashing to steady. NOTE: Any continuous trouble conditions that have been silenced automatically resound 24 hours after the first trouble condition was silenced. To Silence a Signaling Appliance Press the SIGNAL SILENCE button. All silencable outputs will de-activate. A trouble condition will be created. The Amber Alarm Silence LED will light. A C AUTION Where audible and/or visual indicators are being used as an evacuation signal, do not silence an alarm condition without investigating and determining that an emergency condition does not exist. NOTES: Alarms initiated from zones that are in the watethow mode cannot be silenced. The panel must be reset to silence audible alarm devices. If silenceable waterfiow indication is desired it must be programmed as detection and annunciated on the zone identification portion of the LCD. To Reset an Alarm or Supervisory Condition Determine the cause of the alarm condition and if necessary remove the cause. Press the reset button. To Reset A Trouble Condition I. Determine the cause of the trouble condition and remove the cause. 2. This circuit is self-restoring. When all trouble conditions are removed all indications will return to normal. . NOTE: When an initiating device zone is operated in a Class A (Style D) mode any trouble condition will require manual operation of the reset switch to restore the panel to normal after the fault has been corrected. PFC-4410RC • 5403550 • REV G • 6/09 Lamp Test .When the panel is in a Normal Condition, pushing the two top buttons will illuminate all of the LED's and display for approximately one second. Remote Annunciator Model RA-4410RC Operation Red LED's: initiating Device Circuits Active (4) Notification/Release Circuits Active (4) Common Alarm (I) Green LED's: AC Power Yellow LED's: Initialing Device Circuits troubles (4) Output Circuit Troubles (4) Supervisory Initiating Zone (4) Supervisory Bell Output Active (4) (1) each: Sup i/Abort, Supervisory 2, Power Trouble, Supervisory Trouble, System Trouble, Ground Fault, Pre-Discharge/Discharging, Alarm Silenced \F}0121 C) 7Cl.NFI , [o 211 1111 ( ci J 0 '211fll)21 0 AC PflWFI1 0 SUP AfOUl 0 PUll LIlIHI. 0 SUIl:RVISOHY 2 0 51 SF1.11 182. 0 {UIIMUNAI..SHSI 0 SIIPTHi. 0 82.112811221281' 0 uu wir 0 0 The appropriate LED flashes to indicate a change of status on the panel. A trouble or supervisory condition will flash the appropriate Yellow LED indicating the location of the condition. If any outputs are programmed as TROUBLE or SUPERVISORY BELL, that Yellow output LED will flash indicating the output is activated. Pressing the BUZZER SILENCE button on the panel changes the flashing zone Amber LED to steady on and tun.0 the flashing Yellow output LED off. An alarm condition will flash a Red LED indicating the zone in alarm and any outputs mapped to that zone that have activated. Pressing the SIGNAL SILENCE button changes the flashing Red Zone LED to steady on and the flashing Red Output LED mapped to that zone off unless the output is programmed as RELEASE. In addition, the Yellow ALARM! SILENCE LED will light. m Any zone programed as WATERFLOW is considered non-silenceable so the signal and buzzer silence buttons will have no effect on the flashing zone and output LED's. A buzzer on the annunciator sounds for any trouble condition. When the panel has a trouble or supervisory condition, pressing the SILENCE/LAMP TEST button silences the condition at the panel and all annunciators. When no non-silenced trouble or supervisory conditions exist, pressing the SILENCE/LAMP TEST button can be used to test the LEDs. The release panel supervises and communicates with the annunciator via separate connections for the RS-485 communication and 24VDC power requirements of the RA-4410RC. Separate cables should be used for power and communication. Shielded cable shall be used for the communication line. Up to four annunciators can be connected to one panel. A rotary switch is provided on the panel to indicate how many annunciators are connected. Another rotary switch is on the annunciator to set the address. The annunciators must be addressed consecutively. See page 89 for wiring information. Refer to bulletin #8840024 for installation instructions and maximum wire run. Test Procedure The system should be inspected, tested and maintained in accordance with NFPA-72 National Fire Alarm Code, Chapter 10 and any other requirements of the local authority having jurisdiction. Test Procedure (Canada) The system should be inspected, tested and maintained in accordance with ULC Standard CAN/ULC-5536 and any other requirements of the local authority having jurisdiction. Testing should be done as a minimum as described below Notify the fire department or other receiving station if alarm, supervisory and/or trouble signals are transmitted. Notify the proper building personnel so that audible and/or visual signals can be ignored. If the release panel is monitored by a building fire alarm panel, take appropriate action to eliminate any unwanted events. Momentarily open each of the following circuits. Each initiating device zone Supervisory circuit Notification Appliance/Releasing circuit - observe that this results in a trouble condition and all indicators operate as described in the appropriate preceding section for the particular circuit that is faulted. 16 PFC-4410RC 5403550 • REV G 6/09 5. Move the PROGRAM switch down. The LCD should respond: "LOOK AT HISTORY?". Press the bottom button until the . display reads: "PASSWORft=000". Press the SET button three times. Press the FUNCTION (bottom) button until the LCD reads "SYSTEM MODE: NORMAL". Press .the SELECT (middle) button. The LCD will read "SYSTEM MODE: ONE MAN WALKTEST". Press the SET (top) button then move the PROGRAM switch up. The panel will respond with "ONE MAN WALKTEST" and the time. The trouble LED will light. Any output described as "RELEASING" will automatically be disabled. Note: The RCDS-1, Release Circuit Disconnect Switch, shall be used to provide physical means of disconnecting the release circuit in compliance with NFPA 72, 2007, 6.12.5.2. I àWARNING Failure to cnlcr the walktest mode and subsequent operation of initiating zones may result in a release. After 30 minutes of no activity in the walk test mode the panel automatically reverts to normal operation. Operate each initiating device on all zones. All audible and visual alarm devices should operate for about 3 seconds. Then the system will automatically reset allowing the user to go to the next initiating device. Operate each initiating device on the supervisory circuit. Observe that all the indications described in the section on supervisory conditions occur. Move the PROGRAM switch down again. The LCD should respond: "LOOK AT HISTORY?" Press the FUNCTION (bottom) button until the LCD reads: PASS WORD=000, enter the password. Press the bottom button until the display reads: "SYSTEM MODE: ONE MAN WALKTEST" Press the SELECT (middle) button. The LCD will read: "SYSTEM MODE: NORMAL" Press the SET (top) button then restore the PROGRAM switch to the up position. The LCD will show the normal banner message. All audible and visual indicators should be off. Notify all building, fire department, and/or other receiving station personnel that the test has concluded. . Maintenance Test batteries per local and national standards. At a minimum replace batteries every four (4) years or sooner depending on test results. The date of purchase shall be marked on all batteries. Programming Mode Instructions To use the Programming Mode push the program switch to the right (see drawing below). Panel Visual Display As a general rule, the following applies on the Programming Mode buttons: The top button (SET) sets the message on the display into the memory. The middle button (SELECT) scrolls through the selections available for the function displayed. The bottom button (FUNCTION) allows the user to skip the function without changing the program. !Ul) OUTPUF L}) SFFADY ABORI [0 zui 0] [o ouPT2 [o zo ] [o O1JPLfl 0] [oE3 0] F.—[iPuT3 ] PROGRAM 0 WIDE RUN [o ZOl [o ourpt;c.l 0] MODE 0 A1NW[R 0 SLP lfARr ROLL-I.B 0 INAIRrI)L 0 suI'I:BoI2 BUZZI,B SILENCE 0 SYS1IA1JBI 0 COMMON AL/NM 0 NPEIL 0 ALkIiSILIIN(} } ICOOIIAM[_J 0 I/lOAN) 0 lANAI)): LIISCIlAlIGh FAIL) 11./SluNG. SCROLL/)OWN PRSCI)ISQIIAl1C/ SAl BUZZER SILENCE SALLE! SIIIN-\LSILFNCE ILACAION SYSTIMI1ESEI \ALWINGANCiLE 111504 SMOG AWARMNG After 30 minutes of no activity, the panel will automatically exit Program Mode and revert to run mode. 17 PFC-4410RC • 5403550 • REV G - 6/09 To program, push the Program Switch down. There is no capability to back up screens in the program mode. If a mistake was made during programming, move the program switch back up, then move it down and start from the beginning. To exit the program mode at any time, move the Program Switch to the left. When the programming switch is down (sec Panel Visual Display) the following will appear in the display window: LOOK AT H I S T 10 1 R I Y ? History To examine the HISTORY press the top button, the display window will show the time and date of the last event or action. To skip to the next function or to exit history, press the FUNCTION (bottom) button. SET F-1 Press the top button to discover the time and date of the last event or action and to scroll forward. SELECT F-1 To scroll back, press the middle button. FUNCTION F-1 To exit or skip HISTORY, press the bottom button. After pressing the FUNCTION (bottom) button the following will appear in the display window: DONUUflEHIU•••U•U• Date and Time SELECT To change the time, press the middle button. FUNCTION To exit to the next function, press the bottom button. If the middle button is pushed, the date and time will appear in the display window: The date is shown at the top and the time at the bottom of the display window. "MINUTES" indicates that the user can now change the minutes. SET 1-1 Pressing the top button will decrease the minutes. SELECT F1 Pressing the middle button will increase the minutes. FUNCTION When finshed setting the minutes, Press the bottom button. The minutes will change to hours. Continue this process and change the DAY, MONTH and YEAR. When you have finished changing the year, press the FUNCTION (bottom) button. A display similar to the following will appear: PASS W OR 113 1 =10 1 0 1 0 1 A 18 PFC-441 ORC • 5403550 • REV G - 6/09 Password . This display prevents unauthorized programming of the panel by requiring the user to enter the proper password. To select the appropriate number for the space indicated by the A symbol, press the middle button. When the proper number is displayed press the top button to set the number and move to the next space. If the wrong password is entered, the panel will automatically return to a normal condition. All panels are shipped from the factory with a password of 000. If the password is lost contact Potter. SET F-1 After selecting the desired number, press the top button to set and move to the next number. SELECT Press the middle button to scroll through the numbers. FUNCTION F—]Pressing the bottom button will have no effect. After entering the correct password, a display similar to the following will appear: UDEU•UODOUON••IU EMEMMMEMMMMMMMMM Zone Disabled/Enabled This display allows the user to ENABLE or DISABLE Initiating zones. This display window shows that initiating ZONE #1 is enabled. To toggle from ENABLED to DISABLED or visa versa, press the SELECT (middle) button. SET 1-1 After selecting ENABLED or DISABLED, press the top button to set and move to the next zone. SELECT 17 Press the middle button to toggle between ENABLED or DISABLED. FUNCTION D To skip to the next function, press the bottom button. After selecting all four zones or pressing the FUNCTION (bottom) button, the following will appear in the display window: O U T P U T # E N A B L E D Output Enable/Disable This display allows the user to ENABLE or DISABLE any of the output circuits. SET F I After selecting ENABLED or DISABLED, press the top button to set and move to the next output. SELECT F-1 Press the middle button to toggle between ENABLED or DISABLED. FUNCTION F-1 To skip to the next function, press the bottom button. After selecting all four outputs or pressing the FUNCTION (bottom) button, the following will appear in the display window: Disabling any input or outputs will create a trouble condition on the panel. 19 PFC..4410RC •5403550• REV (1 • 6/09 One Man Walktest This display allows the user to select system mode NORMAL or ONE MAN \VALKTEST by pressing the SELECT (middle) button to toggle back and forth from NORMAL to ONE MAN \VALKTEST. When the desired mode is displayed, press the SET (top) button. If ONE MAN WALKTEST is selected for test purposes, the display must be restored to the NORMAL setting after the test is completed by toggling to it using the SELECT (middle) button. AWARNING Note: NFPA 72, 2007. 6.12.5.2. requires a physical means of disconnecting release After 30 minutes of no activity the panel circuits. The Potter Model, RCDS-1. complies with those requirements. automatically reverts to normal. SET After selecting NORMAL or ONE MAN WALKTEST, press the top button to set that mode. SELECT Press the middle button to toggle between NORMAL and CROSS ZONED. FUNCTION Press the bottom button to skip to the next function. After selecting the operating mode or pressing the FUNCTION button a display similar to the following will appear in the display window: #0 0 "I] PFC-4410RC • 5403550 • REV G - 6/09 PFC-4410RC Standard Program information . The pFc-441oRc has 24 standard programs which are detailed in the following pages. Selecting one of these programs will auto- matically program every function of the panel except the custom banner and zone message functions. NOTES: The release discharge time is continuous for all 24 programs. In the chemical extinguishing programs the pre-discharge timer defaults to 60 seconds, manual release pre-discharge timer de- faults to 30 seconds, the abort mode defaults to UI.... The following is an explanation of how the various programs operate and information about the types of devices that are to be connected to the input and output zones. If none of the standard programs are acceptable for the installation required, select the custom program #0 then press the SET (top) button. This will allow the user to custom program the panel. Turn to page 72 for custom program information. Type Description Alarm Zones Detection Smoke Detectors, Spot Type Heat Detectors Waterfiow PSI. 0 Pressure Switch Linear Heat Cable Type Heat Detectors Manual Release Pull Stations Supervisory Zones Supervisory Valve Tamper, Low Air, High Air, Room Temperature Low Air supervisory Low Air Switch .High Air High Air Switch Tamper Valve Tamper Switch Low Air Alarm * PSI 0, PS40 Outputs Alarm 24VDC Bells, Horns, Strobes, to indicate an alarm condition. Release Solenoid Valve, Squib, Releasing Mechanism eAEROSOL Aerosol Generator Supervisory 24VDC Bells, Horns, Strobes, to indicate a supervisory condition. Trouble 24VDC Bells, Horns, Strobes, to indicate a trouble condition. To program the PFC-4410R.0 to operate with one of the following 24 standard programs: The water based extinguishing programs are numbered 1-15. The chemical extinguishing programs are numbered 20-28. A description, theory of operation, and wiring diagrams for all standard programs start on the next page. I. Press SELECT (center) button to scroll to the program number (#1 through #15, #20 through #28) you desire. Press SET (top) button. Turn to page 76 to program the banner message and to finish programming the panel. SET After selecting the proper program number, press the top button to set the program and move to the next function. SELECT Press the middle button to scroll through the programs. FUNCTION Press the bottom button to skip to the next function. After selecting the desired program number with the middle button, SET (top button) must be pressed to set the program. *Not available on Supervisory Zones: Sup 1 or Sup 2. 0 PFC-4410RC• 5403550 • REV G - 6/09 Custom Program (#0 only) Describe. initiating Zones I - 4 Alarm Zones Supervisory Zones Detection Supervisory Waterfi ow Tamper Linear Heat Detection Low Air Manual Release Hi Air Low Air Alarm Describe Initiating Zone 5 (dedicated supervisory) Supervisory Tamper Low Air HiAir Abort Describe Initiating Zone 6 Supervisory Tamper Low Air Describe Output Zones Alarm indicating Releasing eAEROSOL Supervisory Bell Trouble Bell Releasing circuits: normal/cross-zoned Discharge time: 7, 8, 9, 10, 20 minutes or continuous Map Alarm Inputs to Outputs Put in Banner Message Put in Banner Message Bottom Line Put Zone Description for Each Initiating Zone Change Password Finished Installation Instructions Read the entire manual before attempting to install this panel Atilt This panel wiring should be installed and maintained in accordance with section 760 (Fire Protection Signaling Systems) and all other applicable sections of the National Electrical. Code, all other applicable NFPA Code and Standards, local code and the authority having jurisdiction. Review the circuit parameters listed below before installing the panel. Canada installations A CAUTION This panel wiring should be installed and maintained in accordance with CAN/ULC-5524M, (Standard for the Installation of Fire Alarm Systems), and all other applicable sections of the Canadian Electrical Code, all other applicable NFPA Code and Standards, local code and the authority having jurisdiction. Review the circuit parameters listed below before installing the panel. All wiring terminals support 14 to 22 AWG wire sizes. 18 AWG stranded or solid copper wire, (or wire size rated for the current carrying capacity of the Input and output circuit application) with 300V 8°C insulation is recommended Wire checkout With all initiating devices and notification appliances installed and with the EOLR's in place, check the wires with an ohmmeter. Meter readings outside of the following will prevent normal operation. From any wire to ground - more than 100.K ohms. Across the 2 wires on each Initiating zone - between 1.8K ohms and 5.4K ohms. Across the 2 wires on each notification circuit - between 1.8K ohms and 23.9K ohms. 83 PFC-4410RC •5403550 REV Ci • 6/09 Mounting Instructions The unit should be mounted in a convenient location, approximately 5 ft. from the floor where it will be accessible for testing and servicing. AWARNIING Removal of this false front exposes electrical components at potentially hazardous voltages and should be performed by qualified personnel only. The main circuit board module should be removed before attempting to mount the cabinet. Disconnect the AC power from TB20I. To remove the module, remove the two screws holding the chassis to the cabinet. Lift the module upwards, approximately 1/2", in order to clear the cross-beam of the cabinet on which the module rests. Remove the module and set aside. The PFC unit may be surface mounted or semi-flush mounted using the optional trim bezel. (See drawing for installation of bezel on page 84). For semi-flush installations mount the housing so that the front edge protrudes I" from the finished wall surface. After all conduits and wiring are in place and the wall surface is completely finished, slide the trim bezel in place and fasten with 4 #6-32 x 1/4" machine screws and nuts. Install all required conduits, external wiring and devices and make all connections that are external to the panel. Replace the module. With the AC power still turned off at the circuit breaker panel, connect the AC hot, neutral and ground wires to the terminal block '1`13201 as shown on the connection drawing. (See connection drawings on page 88) Connect all the other wiring to the terminals as shown in the connection drawings. Turn the AC power on and connect the standby batteries with the cable provided, polarity must be observed. • 6) Replace false front panel and secure with mounting screws, taking care to not damage LED annunciator module cable. 7) The operation of the complete system should be verified as outlined in the test procedure section. PFC-4410RC False Front Removal/Assembly Drawing 000 ' owcu 3550-I5 84 PFC-4410RC • 5403550 • REV G • 6/09 Inactive Circuits All inactive initiating device circuits and indicating appliance circuits must have the end-of-line resistor on the panel terminal. Operating Instructions Form Fill in the name, address and telephone number of the servicing agency on the appropriate instruction sheet provided and frame and place adjacent to control panel at eye level. Battery Size Calculations To use Calculation Table: List in column #1 all devices used in the system, include all modules, bells, horns, door holders, and smoke detectors (see table #1 or manufacturers specifications). List in column #2 the quantity of each device. List in column 43 the standby current of each device (exclude all alarm signal indicating devices). List in colwnn #5 the alarm current of each device. For each line, multiply the figure in column #2 by the figure in column #3 and enter the product in column #4. Then multiply the figure in column #2 by the figure in column #5 and enter the product in column #6. Add the figures in columns #3 and #6, enter the sums in the appropriate Total mA box. Convert these figures from milliamperes to amperes by multiplying by 0.001, enter the product in the appropriate Total A box. Multiply the standby total amperes by required time in hours from table 2. Divide the alarm total amperes by 12 (5 mins.). Add the standby AH and the alarm AH and divide this sum by 0.85 (efficiency factor). Select a battery that has an AH rating above this figure but not less than 6.5AH. Battery Size Requirements And Maintenance These panels require a 24 volt gel-cell battery for proper operation. 24 hours of standby power is required for Local Systems and Central Station (NFPA-72). The chart below will assist you in selecting the proper size battery: (Does not include LED Annunciator) No. of Smoke No. of Bells Auxiliary Power Standby Hours Battery Size/Part No. Detectors (lOOmA each) Requirements Required (2 Req.) 0-100 0-10 0-25mA 24 8AF1/5130084/BT80 0-100 0-10 OniA 90 12AH/5130090/BT 120 0-100 0-10 0-30rnA 90 18AF1/5130086/BT 180 Maximum allowed battery size for UL Listings is 12AH. FM and others may require more than 90 hours of standby time and may use larger batteries. Batteries rated above 18AH require a separate battery cabinet (Potter stock number 1000015). Mark the Purchase dale on the batteries. Test the batteries at least semi annually according to the battery test methods in NFPA72 or the battery maunfacturers instructions. Replace the batteries if they either fail the test or after four years of use. 85 PFC-441ORC .5403550 • REV G - 6/09 2-Wire Smoke Detector Compatibility Data . Smoke Detector Compatibility identifier A" System Sensor (Brl) (Max. No. Of Detectors Per Zone Is 20) Det. Model Identifier Base Model identifier 1400* A N/A N/A 2400* A N/A N/A 2400TH* A N/A N/A 2W-B A N/A N/A 2WT-B A N/A N/A 2WTR-B A N/A N/A Detection Systems (Max. No. Of Detectors Per Zone Is 25 Det. Model identifier Base Model identifier DS250 A M132W/MB2WL A DS250TH A MB2W/MB2WL A DS250H.I) A MB2W/MB2WL A Esi (Max. No. Of Detectors Per Zone Is 25) Det. Model Identifier Base Model identifier 611U SIO 601U SOt) 611 U SIO 601U SOO 6110T SlO 601U SOO 612U SlO 601U SOO 612UD SIO 601 SOt) 613U5 SIO 601U SOO 611 UI) SIO 609U 10 SOO 612UD SIO 609U10 SOO 425C SlO N/A N/A 425CT SIO N/A N/A Hochiki (Max. No. Of Detectors Per Zone Is 25) Bet. Model identifier Base Model identifier SLR_24* HD-3 HSC-221 R I1113-71 HSB-221 HB-54 FISB-221N HB-54 NS6-221 40 NS4-221 NS6-220 HB-3 SLR24H* HD-3 HSC-221R HB-71 HSB-221 HB-54 HSB-221N HB-54 NS6-22 I NS4-22 I SIJ24* HD-3 l-ISC-221R HB-71 HSB-221 H13-54 HSB-221 N 1-113-54 NS6-221 NS4-22 I Fenwal (Max. No. Of Detectors Per Zone is 25) Det. Model Identifier Base Model Identifier CPD-705 I * 1.51 FE I 2-WIRE FE5 IA PSD_7155* I'SSFEl 2WR.LT FE52A PSD7156* P56FEl 2WRB FE55A All of the above Fenwal detectors and bases can be used in any combination Retrofit Base Adaptor 70-501000-003. Identifier MAFEI (for series 70-201000 Bases, Models -001, -002, -003 and -005) Duct Housing with Detector Base DH-51, Identifier DH22FE5 (for CPD-705 I and PSD-7 155 detectors only) Potter (Max. No. Of Detectors Per Zone Is 25) Bet. Model Identifier Base Model identifier PS24* HD-3(HOCHlKI) SB-46 HB-7 I (HOCHI.KI) HB-54(l0CH 1K!) SB-93 HB-3 (HOCHIKI PS-24H HI) 3(FIOCHIKI) SB 46 HB 71(HOCHlKl) HB-54(HOCFIIKI) IS24- HD3(HOCI-I1k1) SB46 HB71(HOCHIKI) l-IB-54(HOCHI K!) AYtSJIt Only one detector can be supported in alarm per zone. If using a mix of System Sensor and other smoke detectors, a maximum of 20 detectors shall be permitted. Sync Module Compatibility - Panel is compatible with the following synchronization modules: Amseco #SMDIO-3A, Gentex #AVS.M, System Sensor #MDL, Wheelock #DSMl2/24 *UL and ULC Listed 89 PFC-4410RC• 5403550 • REV G - 6/09 S Releasing Device Capability Automatic Water Control Valves Compatibility Data Using the Following Solenoids Devices Per Circuit Water Valve Manufacturers Water Valve Designation Size M'T ASCO Solenoid Valve 1 Figgie Fire Protection Model D and F 2W, 4", 6" Model T82 I 0/2107 Systems (Fonrially ASCOA) Model R82 l0A107 Model 8210A107 24VDC (Irinnell Corp. Grinnell or Gem Model A-4 4". 6" Skinner Solenoid Valve Model Grinnell or Gem Model B 2" 732 i8BN4UNLVNOCl I ]C2 Grinnell or Gem Model F445 2W' Grinnell or Gem Model 1'470 4, 6 Skinner Solenoid Valve Model I Central Sprinkler Model A " Ill C2 Reliable Automatic Sprinkler Model A /2" Co. Inc. Models B and BX [4!', 6" Fire Sprinkler Corp. 00mm, I50mm Global Model F W', 4", 6" Star Sprinkler Corp. Model A 3", 6" Mode] G 3", 6" ASCO Solenoid Valve I The Viking Corp. Model E-] I W', 23", 4", 6" Model T82 I OA 107 Mode] R8210A]07 Mode] 8210A107 24VDC Solenoid Compatibility Data Manufacturer Devices Per Circuit Solenoid(s) Voltage Victaulic I 753-F. Series 24VDC Viking 1 11591 24VDC Viking 1 11601 24VDC Parker I 73212Bn4TNLVN0C322C2 24VDC FM Approval Solenoid Groups A,B.D,E,F.G,l-I.l.J,K Agent Releasing Systems Compatibility Data Manufacturer Actuator Voltage Fike Protection Systems Division of Fike, inc. C85-102 CO2 Solenoid 24VDC Fike Protection Systems Division of Pike, Inc. Interface Firing Module P/N 10-2136 24VDC Janus FM200 Electric Valve Actuator P/N 18481 24VDC Amerex 1 17014 24VDC Fireaway Stat-x Models 3012, 60E, 10012, 250E. 500E, and 1000E 24 VDC Alarm Indicating Appliance Compatibility Data All alarm indicating appliances must be UL Listed, 24VDC devices * IJLC Listed NAC Device Compatibility Manufacturer Model # Type of Device Maximum Devices per Circuit* Amseco All devices compatible with SMD] 0-3A SL24W- 1530 Strobe 7 to I SH24W-1 530 Horn/Strobe 6 to 9 (Do Not Jumper Horn and Strober) MBA 24-6 Bell 16 MBA 24-8 Bell 16 MBA 24-10 Be]] 16 * Number of devices per circuit will depend on the field selectable candela and audible settings of the device. 90 PFC'-4410RC• 5403550 REV G - 6/09 Manufacturer Model # Type of Device Maximum Devices per Circuit* Aniseco I<:onfinued; All devices compatible with SMD10-3A N41-1-12/24 Mini-Horn 66 HP-25T Mini-Horn 60 CSI-24W Strobe 7 to 12 (Not for Evacuation) CSL24C Strobe 4 to 8 (Not for Evacuation) CSH24W Horn/Strobe 6 to 9 (Not for Evacuation) CSH24C Horn/Strobe 3 to 7 (Not for Evacuation) H24W Horn 14 CM24W Chime 22 CSHB24 Horn/Strobe S (Not for Evacuation) CSLB24 Strobe 6 (Not for Evacuation) SMDIO-3A Sync Module Gentex All devices compatible with the AVSM GE/H Horn 35 GE/CS Horn/Strobe 3 to 8 AVSM Sync Module System Sensor All devices compatible with the MDL H SERIES Horn 14 S SERIES Strobe 3 to 6 MR Series Mini-Horn 12 SSM24-6 Bell 18 SSM24-8 Bell 18 SSM24-10 Bell 18 MDL Sync Module Wheelock All device are compatible with the DSM RSS/RSSP Strobe 11 AS-241575 Horn/Strobe 6 AS-24MCW Horn/Strobe 3 to 11 AS-24MCWH Horn/Strobe 2 NS-24MCW Horn/Strobe 4 to 15 NS-241575 Horn/Strobe 9 NS-24MCC/ MCCH Horn/Strobe 2 to 14 ML241575 Horn/Strobe 3 to 11 MT-24MCW Horn/Strobe 3 to II AMT-241575 Horn/Strobe 409 AM T-24MCW Horn/Strobe 310 12 AMT 12/24 Horn 8 to 17 NH-12/24 Horn 22 to 55 HS-24 Horn 37 HS4-24 1575 Horn/Strobe 5 to 8 HS4-24MCW Horn/Strobe 3 to II HS4-24MCC Horn/Strobe 2 to 10 MT-12/24 Horn 16 to 66 AH-24 Horn 12 to 47 MIZ Mini-Horn 38 ASWP Horn/Strobe 6 DSM Sync Module * Number of devices per circuit will depend on the field selectable candela and audible settings of the device. ff Rate-of-Rise and Fixed Temperature Z;n' Heat Detectors 280B-PL Series > Low profile with base The 280B-PL Series heat detectors offer fixed temperature or corn- > Positive fixed temperature bination rate-of-rise and fixed temperature features. The heat detec- operating indication tor is available with a white plastic reversible mounting plate. The > On site testing of rate-of-rise plastic plate can be used for either flush or surface mounting. It In- feature cludes a white skirt which covers the space between detector base and the mounting surface. - I Maximum detector coverage has been determined by UL to > UL Listed provide detection time equal to sprinkler devices spaced at 10 ft > FM Approved (3.05m) intervals on a smooth ceiling 15 feet 9 inches (4.8m) high. Higher ceilings may adversely affect detection time. Earlier detec- > CSFM Listed tion may be obtained by reducing the spacing between detectors. (See NFPA 72, Chapter 5) > Single circuit normally open Detector twists and locks onto mounting plate. Mounting plate may contact rated at 3 amps at 6 to be surface mounted or mounted onto any 3 1/4 (83mm) 0r4 125V AC; to amps at 6t0 28V (lO2mm) octagon box. DC, 0.3 amps at 125V DC, and .01 amps at 250V DC > Maximum coverage 2,500 sq. ft. (232.25 sq. m) > UL spacing: 50 ft (15.24m) > FM spacing: 30 ft (9.14m) > Color - white 90 Fieldstone Court I Cheshire, CT 06410 Ph: 203.699.3300 I Fx: 203.699.3108 ftwards Signaling © Copyright 2004 Edwards www.edwards-signals.com Security Systems -LtH Surface Mount Flush Mount Skirt Mount 5' dia. Wire entrance - - 7 13/16' dia. -outs (198mm) 27) Reversible f / (5im) DIAJ plastic 6253 mounting 3 7/16' skirt nl]~7' " plate (87mm) Reversible (127mm) not supplied) plastic mounting plate Flush mounting (supplied) using 3 1/2' or 4' octagonal Mounting using Reversible plastic mount- 1 1/2 deep electrical outlet box 6253 skirt (not supplied) ing plate (supplied)* (not supplied) with 3 1/2' or 4' octagonal 1 1/2' deep electrical outlet box (not supplied) 281B-PL ROR & Fixed 15°F/mm. 135 100 282B-PL FOR & Fixed 150F/mm. 194 150 283B-PL Fixed - 135 100 284B-PL Fixed - 194 150 I 90 Fieldstone Court I Cheshire, CT 06410 WEdivivards Signaling Ph: 203.699.3300 I Fx: 203699.3108 Copyright 2004 Edwards Security Systeiris® www.edwards-signals.com Effective: June 2007 Series MT Multitone Horns and [kV [[ J7 Series MT Multitone Horn-Strobes I; U Protection Systems A UTC Fire & Security Company F-75-O01 FEATURES Approvals include: UL 1971 and UL 464. Factory Mutual (FM), California State Fire Marshal (CSFM) and New York City (MEA). Designed to meet or exceed ADA/NFPA/UFC/ANSI Standards and Accessibility Guidelines. Meets OSHA 29 Part 1910, 165. One alarm appliance with eight (8) selective signals to provide superior sound penetration for various ambient and wall conditions with two field selectable sound output levels. Audible and strobe can operate from a single signal- ing circuit with any of the eight (8) audible signals. Code-3 Horn and Tone meet ANSI/NFPA temporal pat- tern for standard emergency evacuation signaling. Multi-Candela MT Strobe models available with field selectable 15/30/75/110 candela settings. Single Candela MT Strobe models available with 15/ 75 candela rating. Weatherproof MT Strobe models available with 75/ 180 candela rating. Strobe markings for fire and suppression applica- tions. Wide listed voltage range, filtered (DC) and FWR. Polarized inputs for compatibility with standard reverse polarity type supervision of circuit wiring by an alarm panel. Low cost installation via standard electrical boxes. Attractive flush or surface mounting options. No additional trimplate required for flush mounting. IN and OUT wiring terminations that accept two (2) #12 to #18 AWG wires at each terminal. DESCRIPTION Fenwal Series MT and MT Strobe Multitone electronic signals offer a choice of eight (8) nationally and interna- tionally recognized alerting sounds: Horn, Bell, March Time Horn, Code-3 Tone, Code-3 Horn, Slow Whoop, Siren or Hi/Lo Tone. Our Code-3 horn and tone patterns are engineered to comply with NFPAIANSI Temporal Pat- tern specifications without requiring additional equip- ment. With MT and MT Strobe Signals, one alarm appliance meets most of your signaling needs. The MT Strobes are designed for ADA applications with maximum performance, reliability and cost-effectiveness while meeting or exceeding the latest requirements of NFPA 72 (1999), ANSI 117.1, UFC (2000) and UL Stan- dard 1971 as well as meeting ADA requirements con- cerning photosensitive epilepsy. Series MT Horn Strobe (with 108 backbox) Series MT Horn Each MT and MT Strobe appliance has two user selec- tive sound output levels: STANDARD dBA and HIGH dBA. The MT-12/14 provides dual voltage capability in one unit, 12 Vdc or 24 Vdc operation, filtered or FWR. The MT Strobe Electronic Signals operate with 24 Vdc and may be used with filtered or unfiltered (full-wave-rectified) input voltages. Separate input terminals are available and shunt wires are provided to enable both tone and strobe to operate simultaneously from a single input. The Multitone Strobe Signals are UL Listed for indoor wall mount applications, under Standard 1971 for Devices for the Hearing Impaired and under Standard 464 for Audible Signal Appliances. MT Strobe models are listed for indoor use with a temperature range of 32°F to 120°F (0°C to 49°C) and maximum humidity of 93% ± 2%. The MT-12/24 and MTWP models for outdoor use are Listed for -31°F to 150°F (-35°C to 66°C) and maxi- mum humidity of 95%. The strobe devices use a Xenon flashtube with solid state circuitry enclosed in a rugged Lexan° (or equivalent) lens to provide maximum reliability for effective visible signaling. Strobe lens markings avail- able for "Fire" and "Agent" labeled applications. The Series MT Signals have IN and OUT wiring termina- tions that accept two #12 to #18 AWG wires at each ter- minal. Inputs are polarized for compatibility with standard reverse polarity type supervision. Table 1. Alarm Tones Tone Alarm Tones Pattern Description Horn Broadband Horn (Continuous) Bell 1560 Hz Modulated (0.07 sec. ON/Repeat) March Time Horn Horn (0.25 sec. ON/0.25 sec. OFF/Repeat) Code-3 Horn Horn (ANSI S3.41 Temporal Pattern) Code-3 Tone 500 Hz (ANSI S3.41 Temporal Pattern) Slow Whoop(4.0 500-1200 Hz SWEEP sec. ON/0.5 sec. OFF/Repeat) Siren 600-1200 HZ SWEEP (1.0 sec. ON/Repeat) Hi/Lo 1000/800 (0.25 sec. ON/Alternate) GENERAL NOTES All candela ratings represent minimum effective Mul- titon Strobe intensity based on UL 1971. The MT Audible is UL 464 Listed. Regulated Voltage Range' is the newest terminology used by UL to identify the voltage range. Prior to this change, UL used the terminology "Listed Voltage Range." Table 3. Current Ratings for Series MT Strobe Portion Model RMS current (Amps) MT241575 MTWP2475 MT24MCW Candela 1575cd 180cd 15cd 30cd 75cd llocd 24.0 Vdc 0.060 0.094 0.041 0.063 0.109 0.140 UL Max* 0.090 0.138 0.060 0.092 0.165 0.220 Strobes are designed to flash at I flash per second * RMS current ratings are per UL average RMS method. UL max current rating is the maximum RMS current within the listed voltage range minimum over their "Regulated Voltage Range." Note (16-33v for 24vunit5). For strobes the UL max current is usually atthe that NFPA-72 (1999) specifies a flash rate of I to 2 minimum listed voltage (16v for 24v units). For audibles the max current flashes per second and ADA Guidelines specifies a is usually at the maximum listed voltage (33v for 24v units). For flash rate of 1 to 3 flashes per second. unfiltered FWR ratings, see installation instructions. SPECIFICATIONS Table 2. dBA and Current Ratings for Series MT Audible Portion Tone RMS Current (Amps) dBA@ 10 Ft (UL Reverberant) dBA10Ft 24 VDC 12 VDC 24 VDC 12 VDC 12 and 24 VDC HI Output STD Output HI Output STD Output HI Output STD Output HI Output STD Output HI Output STD Output @ 24 VDC UL max* @ 24 VDC UL mar @ 24 VDC UL mar @ 24 VDC UL mar Horn 0.074 0.108 0.033 0.044 0.145 0.176 0.023 0.034 92 87 90 77 99 93 Bell 0.040 0.053 0.018 0.024 0.077 0.095 0.014 0.020 86 80 85 69 92 87 March Time Horn 0.067 0.104 0.033 0.038 0.109 0.142 0.023 0.034 89 84 89 74 99 93 Code-3 Horn 0.069 0.091 0.026 0.035 0.100 0.142 0.023 0.034 88 83 88 73 99 93 Code-3 Tone 0.061 0.075 0.026 0.035 1 0.088 0.105 0.015 0.021 85 80 84 70 1 95 90 Slow Whoop 0.069 0.098 0.028 0.037 0.100 0.142 0.025 0.035 90 89 89 75 99 94 Siren 0.080 0.104 0.027 0.036 0.122 0.152 0.021 0.030 89 84 89 75 98 93 HLILO 0.044 0.057 0.020 0.026 0.089 0.114 0.018 0.026 86 81 86 71 93 88 * RMS current ratings are per UL average RMS method. UL max current rating is the maximum RMS current within the listed voltage range (16-33v for 24v units). For strobes the UL max current is usually at the minimum listed voltage (16v for 24v units). For audibles the max current is usually at the maximum listed voltage (33v for 24v units). For unfiltered FWR ratings, see installation instructions. -2- WIRING DIAGRAMS MT SIGNAL FROM PRECEDING + + TO NEXT - - APPLIANCE, APPLIANCE SM/DSM OR EOLR OR FACP SIGNAL AUDIBLE SIGNAL AND STROBE OPERATE INDEPENDENTLY FROM PRECEDING + AUDIBLE OR TO NEXT + APPLIANCE - FACP OR EOLR FROM PRECEDING __________________________ ______________________ APPLIANCE, TO NEXT STROBE SMIDSM OR EOLR OR FACP STROBE AUDIBLE AUDIBLE SIGNAL AND STROBE OPERATE IN UNISON, RED AND BLACK SHUNT-WIRES ARE SUPPLIED. FROM RED + PRECEDING OR FACP 1 APPLIANCE TONEXT APPLIANCE , STROBE AUDIBLE INSTALLATION NOTES If the strobe and audible operate on the same cir- cuit, add the strobe current from Table 3 to the audi- ble current from Table 2. For Peak and Inrush current across the listed voltage range, refer to Installation Instructions. 2. The average current indicated is per actual Produc- tion Testing at listed Vdc. For rated average and Peak current across the UL listed voltage range for both filtered DC and unfiltered VRMS, see Installa- tion Instructions. Failure to comply with the installation instruction sheets could result in improper A installation, application, and/or operation WARNING of these products in an emergency situa- tion, which could result in property damage and serious injury or death. 3. Contact Fenwal for 'Installation Instructions" sheets on these products. These materials contain impor- tant information that should be read prior to specify- ing or installing these products, including: Total current required by all devices connected to system primary and secondary power sources. Fuse ratings on signaling circuits to handle maxi- mum inrush or peak currents from all devices on those circuits. Composite flash rate from multiple strobes within a person's field of view. Installation in office areas and other specification and installation issues. Use strobes only on circuits with continuously applied operating voltage. Do not use strobes on coded or interrupted circuits in which the applied voltage is cycled on and off, as the strobe may not flash. The voltage applied to these products must be within their rated input voltage range. Conductor size (AWG), length and ampacity should be taken into consideration prior to design and installation of these products, particularly in retrofit installations. 4. Fenwal notification appliances must be used within their published specifications and must be PROP- ERLY specified, applied, installed, operated, main- tained and operationally tested in accordance with their installation instructions at the time of installa- tion and at least twice a year or more often and in accordance with local, state and federal codes, reg- ulations and laws. Specification, application, installa- tion, operation, maintenance and testing must be performed by qualified personnel for proper opera- tion in accordance with all of the latest National Fire Protection Association (N FPA), Underwriters' Labo- ratories (UL), National Electrical Code (NEC), Occu- pational Safety and Health Administration (OSHA), local, state, county, province, district, federal and other applicable building and fire standards, guide- lines, regulations, laws and codes including, but not limited to, all appendices and amendments and the requirements of the local Authority Having Jurisdic- tion (AHJ). ARCHITECTS AND ENGINEERS SPECIFICATIONS The notification appliance shall be a Fenwal MT Series audible/visual device or equivalent. Notification appliance shall be electronic and use solid state components. Elec- tromechanical alternatives are not approved. Each elec- tronic signal shall provide eight (8) field selectable alarm tones. The tones shall consist of: HORN, BELL, MARCH TIME HORN, CODE-3 HORN, CODE-3 TONE, SLOW WHOOP, SIREN AND HI/LO. Tone selection shall be by durable dip switch assembly and not clips or jumpers. -3- All Listed strobe appliances shall incorporate low temper- ature compensation to insure the lowest possible current consumption. Strobe activation shall be via independent input or from the same input circuit as the audible. The combination audible/visual appliances may be installed indoors and surface or flush mounted. They shall mount to standard electrical hardware requiring no additional trimplate or adapter. The aesthetic appearance shall not have any mounting holes or screw heads visible when the installation is completed. The appliance shall be finished in a textured red color. The audible device may be installed indoors or outdoors with the proper backbox. For weatherproof applications where specifications require 75 cd at -31°F (-35°C) and full temperature range of -31°F to 150°F, the Fenwal Model MTWP-2475W FR shall be used. ORDERING INFORMATION Model Number Part Number Input Rated Strobe Mounting Voltage Candela Label Options MT-12/24-R 75-000010-001 12/24 - - B,H,I,J,K 15 MT-241575W-FR 75-000015-001 24 (75 FIRE B,H,I,J.K on AXIS) 15 MT-241575W-AR 75-000015-002 24 (75 AGENT B,H,I,J.K on AXIS) MT-24MCW-FR 75-000018-001 24 15/30/75/ FIRE B,H,I,J,K 110 MT-24MCW-AR 75-000018-002 24 15/30/75/ AGENT B,H,I,J,K 1 110 180 MTV/P-2475W-FR 75-000017-001 24 77F FIRE H (25CC) Notes: MT-12/24 Audible can be used with Fenwal's RSSP Multi-Candela for applications requiring 15, 30, 75, 110 cd Wall Strobes. MT\NP-2475W is weatherproof and rated for 180 cd © 77°F (25°C) and 75 cd @ -31°F (-35°C) with low current draw. SM Sync Modules are rated for 3.0 amperes at 12/ 24 Vdc; DSM Dual Circuit Modules are rated for 3.0 amperes per circuit. Maximum number of intercon- nected DSM modules is twenty (20). Refer to Data Sheet 75-12. Use MT-241575W when 15 cd is specified. 15/75 is UL Listed for 15 cd with 75 cd on AXIS. MOUNTING OPTIONS Model Number Part Number Mounting Options DBB-R 75-000000-009 A ISP-R 75-000000-002 B WBB-R 75-000000-008 E IOB-R 75-000000-001 H RP-R 75-000000-003 J For complete installation options, refer to the Alarm Sig- nals Installation Data Sheet 75-008.A. IThe Multitone Audible appliance shall be UL Listed under Standard 464 for Audible Signal Appliances. The audible and the strobe shall be able to operate from a single noti- fication circuit while producing any of these tones. The device shall provide two output sound levels: STAN- DARD and HIGH dBA. The HIGH dBA setting shall pro- vide a minimum 5 dBA increase in sound output at nominal voltage. The HIGH anechoic dBA measurement at 10 feet at the alarm HORN SETTING shall be 99 dBA minimum. Operating voltages shall be 24 Vdc using fil- tered power or unfiltered power supply (full-wave-recti- fied). All models shall have provisions for standard reverse polarity type supervision and IN/OUT field wiring using terminals that accept #12 to #18 AWG wiring. Combination audible/visual appliances shall incorporate a Xenon flashtube enclosed in a rugged Lexane lens or equivalent with solid state circuitry. Strobe shall produce a flash rate of one (1) flash per second minimum over the voltage range. The strobe intensity shall be rated per UL and Listed under Standard 1971 for Signaling Devices for the Hearing Impaired for 15/75 cd multi-candela with field selectable 15/30/75/110 candela settings. The 15/75 can- dela strobe shall be specified when 15 candela or with 75 candela intensity on-axis is required. Strobe models shall incorporate circuitry for synchronized strobe flash and shall be designed for compatibility with Fenwal SM and/ I or DSM Sync Modules. The strobes shall not drift out of synchronization at any time during operation. If the mod- ule fails to operate (i.e., contacts remain closed), the strobes shall revert to a non-synchronized default flash rate. Fenwal is a registered trademark of Kidde-Fenwal, Inc. Lexan is a registered trademark of the General Electric Company. This literature is provided for informational purposes only. KIDDE-FENWAL, INC. assumes no responsibility for the product's suitability for a particular application. The product must be properly applied to work correctly. If you need more information on this product, or if you have a particular problem or ques- tion, contact KIDDE-FENWAL, INC., Ashland, MA 01721. Telephone: (508) 881-2000. F-75-001 Rev AB © 2007 Kidde-Fenwal Inc. Printed in USA Protection Systems A UTC Fire & Security Company 400 Main Street Ashland, MA 01721 Ph 508881.2000 Fax: 508.881.8920 wwwfeiswslhre.cnnr I SERIES MB MOTOR BELLS FEATURES Approvals include: UL, FM, CSFM, MEA 6-inch and 10-inch shell sizes, 24 Vdc models Mounting options for surface, semi-flush, outdoor, and concealed conduit installation Screw terminals permit fast in-out field wiring of 12 to 18 AWG wire Red textured finish to improve appearance and durability DESCRIPTION Fenwal Series MB Motor Bells provide a superior engi- neered motor bell for fire and life safety alarm systems. The Series MB offers higher dBA, low current draw; built- in trimplate for semi-flush mounting, low frequency alumi- num shells for better audibility, low RFI noise and high torque. A permanent magnet motor is incorporated for durable, reliable performance. ORDERING INFORMATION Model Number Part Number I Input Voltage I IShell Size' I dBA @ I lOft I Current (Amps) 175-000030-001 24 6 inch 92 .030 i1B-G10-24-R 175-000030-002 1 24 1 10 inch 92 .030 MOUNTING OPTIONS Model Number Part Number Mounting Options SFP-R 75-000000-005 F BB-R 75-000000-006 C AP-R 75-000000-007 G WBB-R 75-000000-008 E F. SEMI-FLUSH C. SURFACE GL CONCEALED E. OUTDOOR AP Note: Refer to Dam Sheet 75-0'38.A for mounting hard- ware dimensions. Fenwal is a registered trademark of Kidde-Fenwal Inc. . This literature is provided for informational purposes only. KIDDE-FENWAL, INC. assumes no responsibility for the product's suitability for a particular application. The prod- uct must be properly applied to work correctly. If you need more information on this product, or if you have a particular problem or ques- tion, contact KIDDE-FENWAL, INC., Ashland, MA 01721. Telephone: (508) 861-2000. F-75-003 Rev AS © 2007 Kidde-Fenwal Inc. Printed in USA ON- Protection Systems A UTC Fire & Security :ompany 400 Main SIrenS Ashland, MA Cl 721 Ph 508.881.2500 Fax: 508 881.8.,J20 www.fenwahre.com O SPOTTER. The Symbol of Protection PSiO SERIES PRESSURE SWITCH (UL. cUL, and CSJ'M Listed, FM and LI'C Approved, NYMEA Accepted, CE Marked Pending) Dimensions: 3.78" (9,6cm)W x 3.20" (8,1 cm)D x 4.22" (10.7cm)H Conduit Entrance: Two knockouts provided for 1/2" conduit, Individual switch compartments and ground screws suitable for dissimilar voltages. Enclosure: Cover -Die-cast with textured red powdercoat finish, single cover screw and rain lip. Patent Pending Ordering Information Model Description Stock No. PS 10-I Pressure switch with one set 1340103 SPDT contacts PS 10-2 Pressure switch with two sets 1340104 SPDT contacts Hex Key 5250062 Cover Tamper Switch Kit 0090200 Tamper O Cover incorporates tamper resistant fastener that requires a special key for removal. One key is supplied with each device. For optional cover tamper switch kit, order Stock No, 0090200. See bulletin #5401200 PSCTSK.. Installation The Potter PSI Series Pressure Actuated Switches are designed for the detection of a waterfiow condition in automatic fire sprinkler systems of particular designs such as wet pipe systems with alarm check valves, dry pipe, preaction. or deluge valves. The PS 10 is also suitable to provide a low pressure supervisory signat adjustable between 4 and 15 psi (0,27 and 1,03 BAR), I. Apply Teflon tape to the threaded male connection on the device. (Do not use pipe dope) Device should be mounted in the upright position (threaded connection down). Tighten the device using a wrench on the flats on the device. Wiring Instructions I. Remove the tamper resistant screw with the special key provided. Carefully place a screwdriver on the edge of the knockout and sharply apply a force sufficient to dislodge the knockout plug. See Fig 9 Run wires through an approved conduit connector and affix the connector to the device. Connect the wires to the appropriate terminal connections for the service intended. See Figures 2.4,5. and 6. See Fig 7 for two switch, one conduit wiring. Testing The operation ofthe pressure alarm switch should be tested upon completion of installation and periodically thereafter in accordance with the applicable NFPA codes and standards and/or the authority having jurisdiction (manufacturer recommends quarterly or more frequently). Wet System Method I: When using PSIO and control unit with retard - connect PS 10 Base - Die-cast Pressure Connection: Nylon /2' NPT Male Factory Adjustment: 4-8 PSI (0,27 - 0.55 BAR) Differential: 2 PSI (0.13 BAR) typical Maximum System Pressure: 300 PSI (20.68 BAR) Switch Contacts: SPDT (Form C) 10.1 Amps at I25/250VAC, 2.0 Amps at 30VDC One SPDT in PS 10-1, Two SPDT in PSI 0-2 Environmental Specifications: NEMA 4/I P55 Rated Enclosure - indoor or outdoor when used with NEMA 4 conduit fittings. 'temperature range: -40°F to 140°F (-40°C to 60°C') Service Use: Automatic Sprinkler NFPA-I3 One or two family dwelling NFPA-13D Residential Occupancy up to four Stories NFPA-13R National Fire Alarm Code NFPA-72 into alarm port piping on the input side of retard chamber and electrically connect PS It) to control unit that provides a retard to compensate for surges. Insure that no unsupervised shut-off valves are present between the alarm check valve and PS 10, Method 2: When using the P510 for local bell application or with a control that does not provide aretard feature - the PS 10 mustbe installed on the alarm outlet side of the retard chamber of the sprinkler system. Jesting: Accomplished by opening the inspector's end-of-line test valve. Allow time to compensate for system or control retard. Note: Method 2 is not applicable for remote station service use, if there is an unsupervised shut-off valve between the alarm check valve and the PSI 0. Wet System With Excess Pressure Connect PSI into alarm port piping extending from alarm check valve. Retard provisions are not required. Insure that no unsupervised shut-off valves are present between the alarm check valve and the PS 10. 7'sting: Accomplished by opening the water by-pass test valve or the inspector's end-of-line test valve. When using end-of-line test. allow time for excess pressure to bleed off. Dry System Connect PSI into alarm port piping that extends from the intermediate chamber of the alarm check valve. Install on the outlet side of the in-line check valve of the alarm port piping. Insure that no unsupervised shut-off valves are present between the alarm check valve and the PS 10. Testing: Accomplished by opening the water by-pass test valve. Note: The above tests may also activate any other circuit closer or water motor gongs that are present on the system. Potter Electric Signal Company, LLC St. Louis, MO Phone: 866-956-0988/Canada 888-882-1833 www.pottersignal.com URNMENNNINU MEG. #5400928 - REV 0 'AGE 1 OF 3 1/08 PAGE 2 OF 3 Low Pressure Signal Connection Fig. 4 TO FIRE ALARM PANEL 0 PRINTED IN USA Local Bell For Waterfiow Connection Fig. 6 NEGATIVE DC: OR NEUTRAL Al POSITIVE DI OR 1101 AC Waterilow Signal Connection Fig. 5 TO FIRE ALARM PANEL / MFG. 55400928 - REV D i!08 (E)POTTER The Symbol of Protection Dimensions Fig. I rt257 ADJUSTMENT J1I [7297] 1 I KNOB I0fl9] I ij 422 I A II T I 'q- 1112" NPT -'.' 2.48 1.60 - [62A7] [404] 3,75 j.. 3.20 [95.59] [91.281 NOTE: To prevent leakage. app/v Teflon tape sealant to male threads on/v. OWOS 930-I Typical Sprinkler Applications Fig. 3 WET SYSTEM WITH WET SYSTEM WITHOUT EXCESS PRESSURE EXCESS PRESSURE PS'S) WATFR MOTOR 0 WATER MOTOR GONG I GOING WET ,jvs DRY SYSTEM \.—i*i-----4 WET A i- SYSTEM ALARM / \ I I SYSTEM / \------ ) ALARM CHECK ALARM RETARD CHECK VALVE CHECK SALVE WATER WATER .PS10 SERIES PRESSURE SWITCH Switch Clamping Plate Terminal Fig. 2 V2 I)WLP 523.3 WARNINGj An uninsulated section of a single conductor should not be looped around the terminal and serve as two separate connections. The wire must be severed, thereby providing supervision of the connection in the event that the wire becomes dislodged from under the terminal. DRY SYSTEM 1'S:S ROSTER _.. MOTOR GONG CREEK VALVE RSVS SEATER BY PASS VALVE AWE. RAEA.AA A IUMUTION Closing of any shutoff valves between the alarm check valve and the PS 10 will render the PS 10 inoperative. To comply with NFPA-72 any such valve shall be electrically supervised with a supervisory switch such as Potter Model RBVS. (E)POTTER The Symbol of Protection One Conduit Wiring Fig. 7 Break out thin section of divider to provide path for wires when wiring both switches from one conduit entrance. Switch Operation Fig. 8 leonmal WI PRESSURE APPLIED C: Common I: Closed when installed under normal system pressure. 2: Open when installed under normal system pressure. Closes on pressure drop. Use for low pressure supervision. -------------------------------- Terminal W/O PRESSURE APPLIED I: Open with no pressure supplied. Closes upon detection of pressure. Use for watertlow indication. 2: Closed with no pressure applied. OW€a925-s PSI SERIES PRESSURE SWITCH Removing Knockouts Fig. 9 I A WARNING 'Installation must be performed by qualified personnel and in accordance with all national and local codes and ordinances. -Shock. hazard. Disconnect power source before servicing. Serious injury or death could result. -Read all instructions carefully and understand them before starting installation. Save instructions for future use. Failure to read and understand instructions could result in improper operation of device resulting in serious injury or death, -Risk of explosion. Not for use is hazardous locations. Serious injury or death could result. Engineer/Architect Specifications Pressure Type Waterflow Switch Pressure type waterfiow switches; shall be a Model PSI as manufactured by Potter Electric Signal Company, St Louis MO., and shall be installed on the fire sprinkler system as shown and or specified herein. Switches shall be provided with a ¼" NPT male pressure connection and shall he connected to the alarm port outlet of; Wet Pipe Alarm Valves, Dry Pipe Valves, Pre-Action Valves, or Deluge Valves. The pressure switch shall be actuated when the alarm line pressure reaches 4 - 8 PSI (0,27 - 0,55 BAR). Pressure type waterfiow switches shall have a maximum service pressure rating of 300 PSI (20.68 BAR) and shall be factory adjusted to operate on a pressure increase of 4 - 8 PSI (0,27 - 0,55 BAR) 'Do not lighten by grasping the switch enclosure. Use wrenching flats on the hushing only. Failure to install properly could damage the switch and cause improper operation resulting in damage to equipment and property. -To seal threads, apply Teflon tape to male threads only. Using joint compounds or cement can obstruct the pressure port inlet and result in improper device operation and damage to equipment. -Do not over tighten the device, standard piping practices apply. Pressure switch shall have one or two form C contacts, switch contact rating 10.1 Amps at 125/250 VAC, 2.0 Amps at 30 VDC. Pressure type waterflow switches shall have two conduit entrances one for each individual switch compartment to facilitate the use of dissimilar voltages for each individual switch. The cover of the pressure type waterfiow switch shall be Zinc die-cast with rain lip and shall attach with one tamper resistant screw. The Pressure type waterfiow switch shall be suitable for indoor or outdoor service with a NEMA 411P55 rating. The pressure type waterfiow switch shall be ULUIc and CSFM listed, FM and LPC approved and NYMEA accepted. PRINTED IN USA MFG. #5400928 - REV D PAGE 3 OF 3 I/Os (E)POTTER The Symbol of Protection Ordering Information Model Description Stock No • P540-1 Pressure switch with one set SPDT contacts 1340403 P540-2 Pressure switch with two sets SPDT contacts 1340404 Hex Key 5250062 Cover Tamper Switch Kit 0090200 BVL Bleeder valve 1000018 Installation The Potter PS4O Series Press urcActuated Switches are designed primarily to detect an increase and/or decrease from iormal system pressure in automatic lire sprinkler systems. Typical applications are: Dry pipe system, pre-action air/nitrogen supervision, pressure tanks, air supplies, and water supplies. The PS40 switch is factory set for 40 PSI (2,8 BAR) normal system pressure. The switch marked with the word LOW is setto operate at pressure decrease of 10 PSI (.7 BAR) at 30 PSI (2,1 BAR). The switch marked with the word HIGH is set to operate at a pressure increase of 10 PSI (.7 BAR) at 50 PSI (3,5 BAR). See section heading Adjustments and Testing if other than factory set point is required. I. Connect the PS40tothe system side of any shutoff or check valve. Apply Teflon tape to the threaded male connection on the device. (Do not use pipe dope) Device should be mounted in the upright position. (Threaded connection down) Tighten the device using a wrench on the flats on the device. Wiring Instructions Remove the tamper resistant screw with the special key provided. Carefully place a screwdriver on thc edge of the knockout and sharply apply a force sufficient to dislodge the knockout plug. See Fig. 9 Run wires through an approved conduit connector and affix the connector to the device. A NEMA-4 rated conduit fitting is required for outdoor use. PS40 SERIES PRESSURE SWITCH (UL, cUL, and CSFM Listed, FM and LPC Approved, NYMEA Accepted, CE Marked Pending) Dimensions: 3.78' (9,6cm)W x 3.20" (8,! cm)D x 4.22 (10.7cm)H Conduit Entrance: Two knockouts provided for 1/2" conduit. Individual switch compartments and ground screw suitable for dissimilar voltages Enclosure: Cover- Die-cast with textured red powdercoat finish, single cover screw and rain lip. Base- Die-cast Pressure Connection: Nylon 1/2" NPT male Factory Adjustment: PS40-1 operates on decrease at 30 PSI (2,1 BAR) I'S40-2 operates in increase at 50 PSI (3.5 BAR) and on decrease at 30 PSI (2,1 BAR) Pressure Range: 10-60 PSI (.7 - 4,1 BAR) Differential: Typical I lb. at 10 PSI (,07 at ,7 BAR) 4 Ills; at 60 PSI (.28 at 4.1 BAR) Maximum System Pressure: 300 PSI (20,68 BAR) Switch Contacts: SPDT (Form C) 10.1 Amps at 125/250VAC, 2.0 Amps at30VDC One SPDT in PS40-1, Two SPDT in PS40-2 Environmental Specifications: NEMA 4/]P55 Rated Enclosure - indoor or outdoor when used with NEMA 4 conduit fittings. Temperature range: -40°F to 140°F (-40°C to 60°C) Tamper: Cover incorporates tamper resistant fastener that requires a special key for removal. One key is supplied with each device. For optional cover tamper switch kit, order Stock No. 0090200. See bulletin #5401200 PSCTSK. Service Use: Automatic Sprinkler NIFPA-13 One or two family dwelling NFPA-13D Residential Occupancy up to four stories NFPA-13R National Fire Alarm Code NFPA-72 Connect the wires to the appropriate terminal connections for the service intended. See Figures 2,4,5,6, and 8 Adjustment And 'resting The operation of the pressure supervisory switch should be tested upon completion of installation and periodically thereafter in accordance with the applicable NFPA codes and standards and/or the authority having jurisdiction (manufacturer recommends quarterly or more frequently). Note. Testing the PS40 may activate other system connected devices. The use of a Potter BVL (see product bulletin 8900067 for details) is recommended to facilitate setting and testing of the PS40 pressure switch. When a BVL (bleeder valve) is used. the pressure to the switch can be isolated and bled from the exhaust port on the BVL without effecting the supervisory pressure of the entire system. See Fig. 3 The operation point of the PS40 Pressure Switch can be adjusted to any point between 10 and 60 PSI (0,7 - 4,11 BAR) by turning the adjustment knob(s) clockwise to raise the actuation point and counter clockwise to lower the actuation point. In the case of the PS40-2, both switches operate independent of each other. Each switch may be independently adjusted to actuate at any point acrosss the switch adjustment range. Initial adjustment can be made with a visual reference from the top of the adjustment knob across to the printed scale on the switch bracket. Final adjustments should be verified with a pressure gauge. Potter Electric Signal Company, LLC St. Louis, MO • Phone: 866-956-0988/Canada 888-882-1833 www.pottersignal.com PRINTED IN USA MEG. #5400930 - REV D PAGE I OF 3 /08 A CAUTION Closing of any shutoff valves between the alarm check valve and the PSI 0 will render the PSIO inoperative. To comply with NFPA- 72 any such valve shall be electrically supervised with a supervisory switch such as Potter Model RBVS. WATER MOTOR GONG PS4O-2 POTTER The Symbol of Protection Dimensions Fig. I 2.87 ri7GROUND ADJUSTMENT-1 [72.97] KNOB L J 2.48 1r2.8 L [818[ NOTE: To p-, leakage. app/i' Teflon rape sealant In urale threads rn/I'. SWIll 530_I Typical Sprinkler Applications Fig. 3 P540 AIRLINE SHUT-OFT., VALVE . - BLEEDER PsIo ALARM TEST PRESSURE BEC K VALVE I SWITCH VALVE BVL CHECK REVS DRY PIPE VALVE DWO.#924-IA NTEST VALVE Typical Connections Fig. 4 PS40 SERIES 1)1)12' 721 Ti) 12' Q111 I'1'4" LI Switch Clamping Plate Terminal Fig. 2 \Lk [tWOS 92-9 WARNING An uninsulated section of a single conductor should not he looped around the terminal and serve as two separate connections The wire must be severed, thereby providing supervision of the connection In the event that the wire becomes dislodged from under the terminal. PS4O-1 • Wilt-i NORMAL SYSTEM PRES- SURE APPLIED LOW -TERMINAL-2 CLOSES ON PRESSURE DROP. TO FIRE ALARM PANEL PRINTED IN USA MPG, #5400930. REV D lot HIGH Alit. LOW WITH NORMAL SYSTEM AIR PRESSURE APPLIED HIGH -TERMINAL I WILL CLOSE ON PRESSURE INCREASE. DWGii 930-2 PAGE 2 OF 3 TO F ALA PAN] [~—~l (E)POTTER The Symbol of Protection PS40 SERIES PRESSURE SWITCH Low Pressure Signal Connection Fig. 5 TO FIRE ALARM PANEL Earn Changing Pressure (With normal system pressure) Fig. 8 leliflhtild LOW PRESSURE SWITCH C; Common NC I: Closed when installed under stonnal system C pressure. 2; Open when installed under normal system pressure. Closes on C 2 pressure drop. Use for low air siattal.-------------------------------- Tennitial (-((Gil PRESSURE SWITCH I; Open when installed NC tinder normal System pressure Closes on increase in pressure Use for high air signal. 2; Closed under normal system pressure. DWC,# 9,10-3 High Pressure Signal Connection Fig. 6 TO FIRE ALARM PANEL EOLR Removing Knockouts Fig. 9 iv Si ii VA. 8-5 One Conduit Wiring Fig. 7 Break out thin section of divider to provide path for wires when wiring both switches from one conduit entrance. Engineer/Architect Specifications Pressure Type Waterfiow Switch Pressure type supervisory switches: shall be a Model PS40 as manufactured by Potter Electric Signal Company, St. Louis. MO., and shall be installed on the fire sprinkler system as shown and or specified herein. Switches shall be provided with a 1/2" NPT male pressure connection to be connected into the air supply line on the system side of any shut-off valve. A Model BVL bleeder valve as supplied by Potter Electric Signal Company of St. Louis, MO., or equivalent shall be connected in line with the PS40 to provide a means of testing the operation of the supervisory switch. (See Fig. 3) The switch unit shall contain SPDT (Form C) switch(es). One switch shall be set to operate at a pressure decrease of 10 PSI (0,7 BAR) from normal. If two switches are provided, the second switch shall he set to operate at a pressure increase of 10 PSI (0.7 BAR) from normal. Switch contacts shall berated at 10.1 Amps at 1251250VAC and 2.0 Amps at 30VDC. The units shall have a ma.xiinuin pressure rating of 300 PSI (20,68 BAR) and shall be adjustable from 101060 PSI (0.7 to 4,1 BAR). Pressure switches shall have two conduit entrances, one for each individual switch compartment to facilitate the use of dissimilar voltages for each individual switch. The cover of the pressure switch shall be zinc die-cast with rain lip and shall attach with one tamper resistant screw. The pressure switch shall be suitable for indoor or outdoor service with a NEMA-4J1P55 rating. The pressure switch shall he UI,. Ui.C, and CSFM listed. FM and [ PC approved and NYMEA accepted. -A WARNING -Installation insist be performed by qualified personnel and in accordance with all national and local codes and ordinances. -Shock hazard. Disconnect power source before servicing. Serious injury or death could result. Read all instructions carefully and understand them before starting installation. Save instructions for future use. Failure to read and understand instructions could result its improper operation of device resulting in serious injury or death. -Risk of explosion. Not for use is hazardous locations. Serious injury or death could result. I A CAUTION -Do not tighten by grasping the switch enclosure. Use wrenching flats on the bushing only. Failure to install properly could damage the switch and cause improper operation resulting in damage to equipment and property. -To seal threads, apply Teflon tape to n-tale threads only. Using joint compounds or cement can obstruct the pressure port inlet and result in ittipioper device operation and damage to equipment. -Do not user tighten the device, standard piping practices apply. PRINTED IN USA .MFG. 95400930 - REV 0 PAGE 3 OF 3 1/08 CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL FIRE ENGINEERING — BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No. 7165-0328:170 Page 1 of 1 CATEGORY: Fire Alarm Control Unit (Commercial)* LISTEE: Potter Electric Signal Co., 2081 Craig Road, St. Louis, MO 63146 Contact: Bill Witherspoon (314) 878-4321 Fax (314) 878-7264 BiIIW@pottersignal.com DESIGN: Model PFC-4410RC and PFC-4410ARC fire alarm control units. Automatic, manual, noncoded, local, remote station, central station, releasing device, waterfiow and sprinkler supervisory service. Refer to listee's data sheet for additional detailed product description and operational considerations. Minimum system components: PFC-4410RC Control Unit PFC-441 OARC Control Unit with LED annunciator Suitable for use with the following modules: RA-4410RC, CA2Z, CAM, ARM-I, ARM-2 and SG-32. INSTALLATION: In accordance with listee's printed installation instructions, applicable codes & ordinances and in a manner acceptable to the authority having jurisdiction. MARKING: Listee's name, model number, electrical rating and UL label. APPROVAL: Listed as fire alarm control units when use with separately listed electrically and functionally . compatible initiating and indicating devices. *Suitable for high-rise applications when used with separately listed voice evacuation systems. Refer to listee's Installation Instruction Manual for details. These control units do not generate a Temporal Pattern Signal. If the distinctive three-pulse Fire Alarm Evacuation Signal (for total evacuation) in accordance with NFPA 72, 2002 Edition is required, the control unit must be used with appliances that can generate the temporal pattern signal. Model PFC-4410RC control unit meets the requirements of UL Standard 864, gth edition. Model PFC-4410ARC control unit meets the requirements of UL Standard 864, 8th edition. NOTE: *Combined with 7170-0328:171 *Rev. 06-08-09 bh This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other suitable information sources. Date Issued Authorized By • JUNE 30, 2009 Listing Expires June 30, 2010 FRANCIS MATEO, Program Coordinator Fire Engineering Division CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No. 7270-1657:109 Page 1 of 1 CATEGORY: Heat Detector LISTEE: GE Security, Inc., 8985 Town Center Parkway, Bradenton, FL 34202 Contact: Jewell Micochero (941) 739-4358 FAX (941) 308-8123 DESIGN: Models 281A, 281B, 281AM, 281AR, 281AL, 281AF, 282A, 282B, 282AM, 282AR, 282AL, 282AF, 291 B and 292B combination fixed temperature/rate-of-rise heat detectors; Models 283A, 283B, 283AM, 283AR, 283AL, 283AF, 284A, 284B, 284AM, 284AR, 284AL, 284AF, 293B, 294B, 445, 446, 6290B-281 and 6290B-283 fixed temperature heat detectors. Models may have suffix -F or -PL. Refer to listee's data sheet for detailed product description and operational considerations. RATING: 281, 283, 291, 293, 445, 6290B-281/283: 135°F 282,284,292,294,446: 194°F INSTALLATION: In accordance with listee's printed installation instructions, applicable codes & ordinances and in a manner acceptable to the authority having jurisdiction. MARKING: Listee's name, model number, temperature/electrical ratings and UL label. APPROVAL: Listed as fixed temperature and/or combination fixed temperature/rate-of-rise system heat detectors for use with separately listed compatible bases and fire alarm control units. NOTE: Formerly 7270-1591:109, 7270-1388:113 and 7270-0073:039 05-15-05 This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other suitable information sources. Date Issued 9 Authorized By: JULY 1, 2009 Listing Expires June 30, 2010 FRANCIS MATEO, Program Coordinator Fire Engineering Division CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No. 7135-0785:118 Page 1 of 1 CATEGORY: Audible Devices LISTEE: Wheelock Inc. 273 Branchport Ave., Long Branch NJ 07740 Contact: Deborah Piserchia (732) 433-6001 Fax (732) 222-5607 DESIGN: Model MT-12/24, MT-115 and MT4-12/24, and MT4-115 multi-tone audible devices followed by R, W, S, or X to indicate package color. Models MT-12, MT4-12, MT-24, MT4-24 multi-tone audible/strobe signals followed by A, B, G, R orWto indicate lens color, followed by S (15 cd), H (15 cd) or M (117 cd) to indicate strobe intensity, and other suffixes to designate orientation, lens lettering and plate color. Models MT-115-WH and MT4-115-WH multi-tone audible/visual devices (Rated 15 cd). Refer to listee's data sheet for additional detailed product description and operational considerations. RATING: Suffix -12: *8175VDC -24: *1633 VDC -115: 120 VAC INSTALLATION: In accordance with listee's printed installation instructions, NFPA 72, applicable codes . and ordinances and in a manner acceptable to the authority having jurisdiction. Models MT series are surface mount and suitable for outdoor with Model lOB back box. Models MT4 series are flush mount and suitable for outdoor with model WBB back box. MARKING: Listee's name, model number, electrical/candela rating and UL label. APPROVAL: Listed as audible and audible/visual signaling devices for use with separately listed electrically compatible fire alarm control units. Not suitable for the hearing impaired application. These appliances can produce a distinctive three-pulse Temporal Pattern Fire Alarm Evacuation Signal (for total evacuation) in accordance with NFPA 72, 2002 Edition. Refer to manufacturer's Installation Manual for details. *Rev. 06-13-2006 This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other suitable information sources. Date Issued: JUNE 18, 2009 Listing Expires June 30, 2010 Authorized By: FRANCIS MATEO, Program Coordinator Fire Engineering Division CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No. 7135-1076:127 Page 1 of 1 CATEGORY: Audible Devices LISTEE: Kidde-Fenwal Inc., 400 Main Street, Ashland, MA 01721 Contact: Terrill Garland (508) 881-2000 *FAX (508) 881-1773 DESIGN: Model MB-G6-24-R and MB-G 10-24-R motor bells. Suitable for outdoor use when used with Model WBB backbox. Refer to listee's data sheet for detailed product description and operational considerations. INSTALLATION: In accordance with listee's printed installation instructions, applicable codes and ordinances and in a manner acceptable to the authority having jurisdiction. MARKING: Listee's name, model number, electrical rating and UL label. APPROVAL: Listed as audible devices for use with separately listed compatible control units If this appliance is required to produce a distinctive three-pulse Temporal Pattern Fire Alarm . Evacuation Signal (for total evacuation) in accordance with NFPA 72, 2002 Edition, the appliance must be used with a fire alarm control unit that can generate the temporal pattern signal. Refer to manufacturer's Installation Manual for details. XLF 7135-0785:113 *Rev. 06-21-2003 This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other suitable information sources. • Date Issued: JUNE 24, 2009 Listing Expires June 30, 2010 Authorized By: FRANCIS MATEO, Program Coordinator Fire Engineering Division CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No. CATEGORY LISTEE: DESIGN: 7770-0328:010 Page 1 of 1 Valves/Switches Potter Electric Signal Co., 1609 Park 370 Place, Hazelwood MO. 63042 Contact: Bill Witherspoon (314) 595-6731 Fax (314) 595-6797 billw@pottersignal.com Supervisory switches listed below to monitor pressure, OS&Y, gate, globe/gate, Ply, tank temperature or water level valves. Refer to listee's data sheet for detailed product description and operational considerations. HLS-B WLS-W WLS-S PS-40A PS-120A OSYSU-2 OSYS-B PMS PTS-B OSYSU-1 GVS PCVS-1 PIVS-B US-S TTS-W PCVS-2 WLS PTS-C PS40 PS120 *RBVS INSTALLATION: 40 MARKING: APPROVAL: NOTE: In accordance with listee's printed instructions, applicable codes and ordinances and in a manner acceptable to the authority having jurisdiction. Listee's name, model designation and FM or UL label. Listed as sprinkler system supervisory switches. Formerly 7738-0328:010 *Rev. 05-17-2007 jw This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other suitable information sources. • Date Issued: JUNE 17, 2009 Listing Expires June 30, 2010 Authorized By: FRANCIS MATEO, Program Coordinator Fire Engineering Division CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No. CATEGORY LISTEE: DESIGN: INSTALLATION MARKING 7770-0328:001 Page 1 of 1 Valves/Switches Potter Electric Signal Co., 1609 Park 370 Place, Hazelwood MO. 63042 Contact: Bill Witherspoon (314) 595-6731 Fax (314) 595-6797 billw©pottersigral. corn Vane and pressure type water flow alarm switches listed below. Refer to listee's data sheet for detailed product description and operational considerations. Vane Types: VSR-CF VSR-D VSR-F VSR-SF VSR-FE-2 VS-SP VS-F VSR-SFG VSR-SFT VSG VSR VSR-S VSR-C VSR-ST VSR-SG Pressure Type: WFS-B WFSR-C WFSPD-B Psi PS-10A PS-bOA WFSR-F P5100 In accordance with listee's printed installation instructions, applicable codes and ordinances and in a manner acceptable to the authority having jurisdiction. Listee's name, model number and UL or FM label. APPROVAL: Listed as waterfiow alarm switches for use with fire sprinkler systems. Vane models may be used in wet pipe systems; pressure models may be used in wet or dry systems. Model VSR-CF is for use on K, L or M copper pipe (2", 2-1/2', 3", 4") and listed CPVC pipe (2", 2-1/2", 3'). Model VSR-SF for use on 1", 1-1/4", 1-1/2" and *2 steel, copper or listed plastic pipe. Model VSG is for low flow rate. Model VSR-SFG and VSR-SFT are for use on 1", 1-1/4", 1-1/2" and *2 plastic pipe. Models VS-F, VSR-F, VSR-FE and VSR-FE-2 is for use on 2", 2-1/2", 3", 3-1/2", 4", 5", 6', 8" and 10" pipe. *Model VSR is for use on steel pipe sizes from 2" through 8". Vane type switches may be used outdoors when the outdoor temperature never falls below 40°F. *Rev. 05-17-2007 jw This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or + recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other suitable information sources. Date Issued: JUNE 17, 2009 Listing Expires June 30, 2010 Authorized By: FRANCIS MATEO, Program Coordinator Fire Engineering Division