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Home My WebLink About2234 RUTHERFORD RD; ; AS991344; Permit5/22/25, 12:58 PM Job Address: Permit Type: Parcel No: Lot#: Reference No.: PC#: Project Title: Applicant: about:blank Fees($) 90 AS991344 Permit Data City of Carlsbad Sprinkler Permit 2234 RUTHERFORD RD SPRINK 2120612600 0 24 HR FITNESS Add'I Fees ($) 0 Permit No: AS991344 Status: ISSUED Applied 5/12/1999 Approved: Issued: Inspector: Owner: S M/C T RESEARCH CENTER L L C C/O KOLL BREN REAL TY ADVISORS INC 4343 VON KARMAN AVE NEWPORT BEACH CA 1 /1 Carlsbad Fire Department 990138 2560 Orion Way Carlsbad, CA 92008 Fire Prevention (760) 931-2121 Plan Review Requirements Category: Auto. Sprinkler, OH Reviewed by: Date of Report: 05/21/1999 ------------ Name: N&D Fire Protection ---------------------- Address: p O Box 90952 City, State: City of Industry CA 91715-0952 Plan Checker: Job #: 990138 Job Name: 24 Hr Fitness CB991344 ------------------Job Address: 2234 Rutherford Rd Ste. or Bldg. No. ~ Approved D Approved Subject to D Incomplete Review FD Job# The item you have submitted for review has been approved. The approval is based on plans, information and / or specifications provided in your submittal; therefore any changes to these items after this date, including field modifications, must be reviewed by this office to insure continued conformance with applicable codes and standards. Please review carefully all comments attached as failure to comply with instructions in this report can result in suspension of permit to construct or install improvements. The item you have submitted for review has been approved subject to the attached conditions. The approval is based on plans, information and/or specifications provided in your submittal. Please review carefully all comments attached, as failure to comply with instructions in this report can result in suspension of permit to construct or install improvements. Please resubmit to this office the necessary plans and / or specifications required to indicate compliance with applicable codes and standards. The item you have submitted for review is incomplete. At this time, this office cannot adequately conduct a review to determine compliance with the applicable codes and I or standards. Please review carefully all comments attached. Please resubmit the necessary plans and/ or specifications to this office for review and approval. 1st 990138 2nd FD File# 3rd Other Agency ID C C C July 30, 1998 A. SYSTEM DESCRIPTION (Refer to Figure 1, page 319 c) Viking Electric/Pneumatic Double Inter- locked Preaction Systems utilize a Vi- king Deluge Valve (A.1) controlled by a Pneumatic Actuator (F .1 ), normally held closed by supervisory pressure main- tained in the automatic sprinkler system, AND a normally closed electric Solenoid Valve (F.2) controlled by an approved System Control Panel (F.4) with com- patible detection system (F.5). BOTH the electric detection system must activate AND supervisory pressure must be relieved from the sprinkler sys- tem before the Deluge Valve will open to fill the sprinkler system with water. If the electric detection system (alone) oper- ates due to fire, damage, or malfunction, an alarm will activate but the Deluge Valve will NOT open. If the sprinkler piping is damaged or a sprinkler is bro- ken or fused, but the detection system has not activated, an alarm will activate but the Deluge Valve will NOT open. In fire conditions, operation of both the detection system and a sprinkler is re- quired before the Deluge Valve will open allowing water to enter the system pip- ing. Electric/Pneumatic Double interlocked preaction systems are commonly used as refrigerated area systems. They are also commonly used where flooding of the pipe can have serious conse- quences, and where it is important to control accidental water discharge due to damaged sprinkler piping. Care should be taken since double inter- locked preaction systems may not pro- duce flow from opened sprinklers as quickly as single or non-interlocked pre- action systems. Activation of the detec- tion system alone, or operation of a sprinkler alone, will sound an alarm but will NOT cause the system to fill with water. FACTORY MUTUAL APPROVAL Viking Electric/Pneumatic Double Inter- locked Preaction Systems are Factory Mutual (FM) Approved as a refrigerated area system when installed with specific components. Refer to current FM Ap- proval Guide. Consult the manufacturer for any component approvals too recent to appear in the FM Approval Guide. Form No. F_070889 I SYSTEM DATA B. SYSTEM OPERATION (Refer to Figure 1, page 319 c) In the SET condition: System water supply pressure enters the priming chamber of the Deluge Valve (A.1) through the 1/4" (8 mm) priming line which includes a normally open priming valve (B.1 ), strainer (B.2), restricted orifice (B.3) and check valve (B.4). In the SET condition, water sup- ply pressure is trapped in the priming chamber by check valve (B.4) and BOTH Pneumatic Actuator (F .1) and normally closed Solenoid Valve (F.2). The water supply pressure trapped in the priming chamber holds the Deluge Valve clapper closed, keeping the outlet chamber and system piping dry. In a fire condition: In a fire condition, when the detection system (F .5) operates, System Control Panel (F.4) energizes Solenoid valve (F.2) open. Alarms activate, but the Deluge Valve will NOT open until a sprinkler opens relieving supervisory pressure from the sprinkler system. When a sprinkler opens, supervisory pressure in the sprinkler piping is re- duced causing the Pneumatic Actuator (F.1) to open. After BOTH the electric detection system activates AND super- visory pressure in the sprinkler system have been lost, pressure is released from the priming chamber to open Drain Cup (8.14) faster than it is supplied through restricted orifice (8.3). The Del- uge Valve clapper opens to allow water to flow into the system piping and alarm devices, causing Water Motor Alarm (C.2) and water flow alarms connected to Alarm Pressure Switch (C .1) to acti- vate. An optional accelerator (F .6) may be installed to accelerate pressure loss from the sprinkler system to provide ear- lier alarms and/or allow the system to fill with water faster. An Accelerator (F.6) may be necessary to meet system dis- charge time requirements. When the Deluge Valve operates, the sensing end of PORV (B.10) is pressur- ized, causing the PORV to operate. When the PORV operates, it continually vents the priming chamber to prevent the deluge valve from resetting even if the open releasing devices (F .1 and F .2) close. The deluge valve can only be reset after the system is taken out of service, and the outlet chamber of the 319 a DOUBLE INTERLOCKED PREACTION SYSTEM ELECTRIC/PNEUMATIC RELEASE deluge valve and associated trim piping is depressurized and drained. Trouble conditions: If a sprinkler opens prior to operation of the detection system (F .5), or any time supervisory pressure in the sprinkler piping is lost, alarms connected to Air Supervisory Switch (E.3) will signal a low air pressure condition but the Del- uge Valve will NOT open. If the electric detection system (alone) operates due to damage or malfunction, alarms connected to System Control Panel (F.4) will activate but the Deluge Valve will NOT open. Manual Operation: Any time the handle inside Emergency Release (8.11) is pulled, pressure is released from the priming chamber; the Deluge Valve will open. Water will flow into the system piping, and alarm de- vices (C.1 and C.2). If a sprinkler head opens, water will flow from the system. C. INSTALLATION Refer to current Viking Technical Data describing individual components of the Viking Electric/Pneumatic Double Inter- locked Preaction System. Technical Data describing the Viking Deluge Valve, and other system components are packed with product and in the Vi- king Engineering Design Data book. Also, refer to applicable installation standards, codes, and Authorities Hav- ing Jurisdiction. Important Settings: (Also refer to Table 1, page 319 b) 1 . Provide a minimum 30 PSI (207 kPa) pneumatic pressure to the closed sprinkler system and the Pneumatic Actuator (E.1) for system water pres- sures of 175 PSI (1 207 kPa) or less. For system water pressures above 175 PSI, up to a maximum of 250 PSI For Technical Data, Installation, Maintenance and Testing Instructions for individual system components, refer to current Viking Technical Data describing individual components of the Preaction System used. Viking Technical Data may be found on The Viking Corporation's Web site at http://www.vikingcorp.com. The Web site may include a more recent edition of this Technical Data page. Replaces page 319 a-d dated July 1, 1996 (Revised for 250 PSI WWP Deluge Va. Trim) 319 b (1 724 kPa), provide a minimum of 50 PSI (345 kPa) pneumatic pressure to the sprinkler system and Pneumatic Actuator (E.1 ). 2. Set Air Compressor Air Pressure Su- pervisory Switch (G.2) to maintain a constant air supply of 40 PSI (276 kPa) for system water pressures of 175 PSI ( 1 207 kPa) or less. For sys- tem water pressures above 175 PSI, up to a maximum of 250 PSI (1 724 kPa), set the Air Compressor Air Pressure Supervisory Switch (G.2) to maintain a constant air supply of 60 PSI (414 kPa). 3. Set Air Maintenance Device (G.6) to maintain a constant air supply of 30 PSI (207 kPa) for system water pres- sures of 175 PSI (1 207 kPa) or less. For system water pressures above 175 PSI, up to a maximum of 250 PSI (1 724 kPa), set the Air Compressor Air Pressure Supervisory Switch (G.2) to maintain a constant air sup- ply of 50 PSI (345 kPa). 4. Set Air Pressure Supervisory Switch (E.3) to activate at 25 PSI (172 kPa) on pressure drop for system water pressures of 175 PSI (1 207 kPa) or less. For system water pressures above 175 PSI, up to a maximum of 250 PSI (1 724 kPa), set the Air Pres- sure Supervisory Switch (E.3) to ac- tivate at 45 PSI (241 kPa) on pres- sure drop. Air Pressure Supervisory Switch (E.3) should be wired to acti- vate an alarm to signal a low air pres- sure condition. Activation of an alarm to signal a high pressure con- dition may be required. Refer to ap- plicable installation standards and the Authority Having Jurisdiction. 5. Alarm Pressure Switch (C.1) should activate when pressurized to 4 to 8 PSI (27 to 55 kPa) on pressure rise. Alarm Pressure Switch (C.1) should be wired to activate the water flow alarm. Air Supply Design: The air supply compressor should be sized to establish total required air pres- sure in 30 minutes. The air supply must be regulated, restricted and maintained automatically. Air maintenance device (G.6) is used to regulate and restrict the flow of supervisory air into the sprinkler system piping. The air supply must be regulated to maintain the supervisory pressure de- sired in the sprinkler piping. Pressures SYSTEM DATA TABLE 1 IMPORTANT SETTINGS DEVICE Air Compressor "On/Off" Switch (G.2) Air Maintenance Device (G.6) Release System Pressure Supervisory Swttch (E.3) in excess of the pressure settings rec- ommended in paragraph C: "Installa- tion", may affect operation of the system. The air supply must be restricted to ensure that the automatic air supply can- not replace air as fast as it escapes when a sprinkler operates. It is recommended practice to provide an Inspectors Test Connection on the supervised sprinkler piping. The sprinkler system Inspectors Test Connection should terminate in an ori- fice equal to the smallest sprinkler orifice provided. The Inspectors Test Connection should be equipped with a ball valve (normally locked closed) capable of being opened to simulate the opening of a sprinkler and should be installed at the most hy- draulically demanding location of the system. Inspectors Test Connections may be used to verify that the automatic air supply cannot replace air as fast as it escapes when a sprinkler operates. Re- fer to paragraph F. INSPECTIONS and TESTS. Speed of Operation An optional Accelerator (F.6) may be installed to accelerate pressure loss from the sprinkler system to provide ear- lier alarms and/or allow the system to fill with water faster. An Accelerator (F.6) may be necessary to meet system dis- charge time requirements. D. EMERGENCY INSTRUCTIONS (Refer to Figure 1, page 319 c) To Take System Out of Service: WARNING: Placing a control valve or detection system out of service may eliminate the Fire Protection capabilities of the system. Prior to proceeding, notify all Authorities Having Jurisdiction. Con- sideration should be given to employ- ment of a Fire Patrol in the affected areas. After a fire, verify that the fire is OUT and that placing the system out of service has been authorized by the appropriate Authority Having Jurisdiction. 1. Close Water Supply Valve (D.1 ). July 30, 1998 DOUBLE INTERLOCKED PREACTION SYSTEM ELECTRIC/PNEUMATIC RELEASE WATER SUPPLY PRESSURES Upto 175 PSI (1 207 kPa) to 175 PSI (1 207 kPa) 250 PSI (1 724 kPa) SET TO MAINTAIN SET TO MAINTAIN 40 PSI (276 kPa) 60 PSI (414 kPa) 30 PSI (207 kPa) 50 PSI (345 kPa) 25 PSI (172 kPa) 45 PSI (31 0 kPa) On Pressure Drop On Pressure Drop 2. Open system Main Drain (D.3). 3. Silence alarms (optional). a: To silence electric alarms control- led by Viking PAR-3 Panel (F.3): Open panel and press "ALARM SILENCE' b: To silence electric alarms control- led by pressure switch (C.1) and to silence Water Motor Alarm (C.2): Close Alarm Shut-Off Valve (B.9). Note: Electric alarms controlled by a pressure switch installed in the 1 /2" (15 mm) NPT connection for a Non- interuptable Alarm Pressure Switch cannot be shut off until the Deluge Valve is reset or taken out of service. 4. Shut off the air supply (optional). 5. Open Auxiliary Drain (B.6). 6. Close Priming Valve (B.1) (optional). Sprinkler systems that have been sub- jected to a fire must be returned to serv- ice as soon as possible. The entire sys- tem must be inspected for damage, and repaired or replaced as necessary. 7. Replace any detectors (F.5) that have been damaged. 8. Replace any sprinklers that have opened, been damaged, or have been exposed to fire conditions. 9. Perform all maintenance procedures recommended in Technical Data de- scribing individual components of the system that has operated. 10. Return the system to service as soon as possible. Refer to E: PLAC- ING THE SYSTEM IN SERVICE. E. PLACING THE SYSTEM IN SERVICE (Refer to Figure 1.) Note: Refer to instructions provided in Technical Data describing the Viking Deluge Valve, and other system compo- nents. To Return the System to Service: 1. Verify that the system has been prop- erly drained. System Main Drain (D.3) and Auxiliary Drain (B.6) should be open. Verify that Emergency Re- lease (B.11) is closed. 2. Close the system Main drain (D.3). 3. Open Priming Valve (B.1 ). Continued on page 319 c C C C July 30, 1998 319 C SYSTEM DATA DOUBLE INTERLOCKED PREACTION SYSTEM ELECTRIC/PNEUMATIC RELEASE 4. Reset the System Control Panel (F.4). should stop. The Low Air Alarm will lain 30 PSI (207 kPa) or 50 PSI (345 kPa) as required by Pneumatic Ac- tuator (F.1). refer to Section C: "In- stallation'. activate. For Viking Par-3 Panel: Open panel and press "RESET". a: For Par-3 Panels, to silence the Solenoid Valve (F.2) should close. Flow from the outlet of Pneumatic Ac- tuator (F.1) to Drain Cup (B.14) Low Air Alarm, open the panel (F.4) and press ALARM SI-a: Verify that the 1/2" valve in the Air Maintenance Device (G.6) by-LENCE. 5. Restore supervisory pressure to sprinkler piping. Establish and main-Continued on page 319 d \{:NT TO A1MOSPl£RE KEEP OPElrrl MODEL E tJ. F.4 fl,G.2 ACCELERATOR ,-1,.. -1" (OPTIONAL) ~1..'.;-~I~ ,1: ..... ~(('~ I G-~~ G.4 G.1 0 G.4 1 ~ ~Yi 1;r../ (15 mm) I'<'., .. G.~ ~.G.7 G.5u NPT for Non-lnteruptoble B. 7 Alarm Pressure Switch (Optional) To Drain ---Dashed lines indicate pipe required but not listed in •system Components .. Tobie. Point A To Drain Dotted lines indicate electrical detection system wiring required but not listed in "System Components" Table. For additional wiring requirements refer to technical for components used. DOUBLE INTERLOCKED PREACTION ELECTRIC/PNEUMATIC A SUPERVISED DRY SYSTEM CONTROLLED BY ELECTRIC RELEASE SYSTEM and PNEUMATIC SUPERVISORY PRESSURE SYSTEM COMPONENTS A. Valve A.1 Deluge Volve * B. Deluge Valve Conventional Trim (See Deluge Volve Conventional Trim Cherts) 8.1 Priming Valve (Normally Open) 8.2 Strainer B.3 1/16" Restriction 8.4 Spring Looded Check Volve B.5 Alarm Test Valve (Normally Closed) 8.6 Auxiliary Droin Volve (Normally Closed) 8. 7 Drip Check Volve 8.8 Drip Check Volve B.9 Alarm Shut-Off Valve (Normally Open) 8.10 Pressure Operated Relief Volve (P.O.R.V.} B.11 Emergency Releose B.12 Priming Pressure Weter Gouge end Volve B.13 Water Supply Pressure Gouge end Valve B.14 Drain Cup 8.15 Flow Test Volve (Normally Closed) C. Weter Flow Alarm Equipment C.1 Alarm Pressure Switch end/or C.2 Water Motor Alarm {Strainer Required) C.3 C.4 Riser Strainer Electric Alarm Bell D.1 Water Supply Control Volve D.2 Eosy Riser 111Check Valve or rubber seated check valve D.3 Sprinkler System Main Drain D.4 90 "Ell. (Grooved Ell Shown. Deluge Valve also available with Flanged Outlet.) Supervisory Air Supply E.1 System Pressure Gouge and Valve E.2 Soft Seat Swing Check Valve E.3 Air Pressure Supervisory Switch Release System F.1 Pneumatic Actuator F.2 Solenoid Valve (Normally Closed) F.3 Electric/Pneumatic Release Module Trim F. 4 System Control Panel F.5 Electric Detection System. Heat Detector shown for clarity. F.6 Accelerator {Optional. See Inset.) F.7 Accelerator Isolation Valve. {See Inset.) G. Air Supply G.1 Automatic Air Supply. Air Compressor end Tonk shown for clarity. G.2 Air Supervisory Pressure Switch {Compressor On/Off Control Switch) G.3 Soft Sect Check Valve G.4 Shut Off Valve (Indicating Boll Valve recommended.) G.5 Dehydrotor G.6 Air maintenance Device &: By-Poss Trim G. 7 1 /2" x 1 /4" Reducing Coupling * Viking Deluge Volve Trim Packages contain items B.1 through 8.15 and ossocioted nipples. Viking Accessory Pockage for Conventional Deluge Valve Trim contains B.2 through 8.5, B.7 through 8.11, and 8.14. Fi ure 1 319 d '\IIKING® pass trim is closed and that both 1 /4" valves are open. 6. Reset the System Control Panel (F.4). For Par-3 Panels, open the panel and press RESET. 7. Open Flow Test Valve (8.15). 8. Partially open Main Water Supply Control Valve (D.1) 9. When full flow develops from Flow Test Valve (8.15), close the Flow Test Valve. b: Verify that there is no flow from open Auxiliary Drain (B.6). 10. Close Auxiliary Drain (B.6). 11. Fully open and secure the Main Water Supply Control Valve (D.1 ). 12. Verify that the Alarm Shut-off Valve (B.9) is open and that all other valves are in their normal operating position. 13. Depress the plunger of Drip check (B.7). No water should flow from the Drip Check when the plunger is pushed. F. INSPECTIONS and TESTS It is imperative that the system be in- spected and tested on a regular basis. Refer to INSPECTIONS and TESTS recommended in current Viking Techni- cal Data describing individual compo- nents of the Viking Electric/Pneumatic Double Interlocked Preaction System used. The frequency of the inspections may vary due to contaminated water sup- plies, corrosive water supplies, corro- sive atmospheres as well as the condi- tion of the air supply to the system. For minimum maintenance and inspection requirements, refer to the National Fire Protection Association Pamphlet that describes care and maintenance of sprinkler systems. In addition, the Authority Having Jurisdiction may have additional maintenance, testing, and in- spection requirements which must be followed. WARNING: Any system maintenance which involves placing a control valve or detection system out of service may eliminate the fire protection capabilities of that system. Prior to proceeding, no- tify all Authorities Having Jurisdiction. Consideration should be given to em- ployment of a fire patrol in the affected areas. F.1 Low Air Pressure Alarm Test Quarterly testing of low air alarms is recommended. SYSTEM DATA To Test Sprinkler System "Low Su- pervisory Air" Alarm. 1. To prevent operation of the Deluge Valve and filling the system with water during the test, do NOT oper- ate the electric detection system dur- ing this test. Consider closing the Main Water Supply Control Valve (D.1). 2. Fully open the sprinkler system In- spectors Test Valve to simulate op- eration of a sprinkler. 3. Verify that low air alarms operate within an acceptable time period and continue without interruption. 4. Close the Inspectors Test Valve. 5. Establish recommended pneumatic supervisory pressure to be main- tained. Refer to paragraph C: IN- STALLATION. 6. Open the System Control Panel (F.4) and press RESET. Alarms should stop. When testing is complete, return the system to service following steps 1 through 9 below. Caution, this procedure applies only when done In conjunction with "Low Air" Alarm testing described above. 1. Verify that the pressure indicated on Priming Pressure Water Gauge (8.12) indicates that the priming chamber is pressurized with system Water Supply Pressure. 2. Depress the plunger of Drip check (B.7). No water should flow from the Drip Check when the plunger is pushed. If the Main Water Supply Control Valve was NOT closed in step 1, proceed to step 8 below. If the Main Water Supply Control Valve WAS closed in step 1, proceed with steps 3 through 9 below. 3. Open Flow Test Valve (B.15) and Auxiliary Drain (8.6). 4. Partially open Main Water Supply Control Valve (D.1) 5. When full flow develops from Flow Test Valve (8.15), close the Flow Test Valve. b: Verify that there is no flow from open Auxiliary Drain (B.6). 6. Close Auxiliary Drain (B.6). 7. Fully open and secure the Main Water Supply Control Valve (D.1 ). 8. Verify that the Alarm Shut-off Valve (B.9) is open and that all other valves are in their normal operating position. Replaces page 319 a-d dated July 1, 1996 (Revised for 250 PSI WWP Deluge Va. Trim) July 30, 1998 DOUBLE INTERLOCKED PREACTION SYSTEM ELECTRIC/PNEUMATIC RELEASE 9. Depress the plunger of Drip check (B.7). No water should flow from the Drip Check when the plunger is pushed. F.2 Full Flow Trip test Performance of a Trip Test is recom- mended annually during warm weather. Consider coordinating this test with op- eration testing of the detectors. Caution! Performance of this test will cause the Deluge Valve to open and the sprinkler system to fill with water. If Trip Testing is considered not practical con- sult the Authority Having Jurisdiction. To Trip Test the Electric/Pneumatic Double Interlocked Preaction Sys- tem: 1 . Notify the Authority Having Jurisdic- tion and those in the area affected by the test. 2. To trip the Deluge Valve: a: Operate a detector according to the manufacturers instructions. b: Open the Sprinkler System Inspec- tors Test Va Ive. 3. The Deluge Valve should open, filling the sprinkler system with water. a: Water flow alarms should operate. 4. Verify adequate flow from the Sprin- kler System Inspectors Test Valve within an acceptable lime period. When Trip Testing is complete: 5. Perform steps 1 through 1 O of para- graph "D" EMERGENCY INSTRUC- TIONS to take the system out of serv- ice. 6. Perform steps 1 through 13 of para- graph "E" PLACING THE SYSTEM IN SERVICE to return the system to service. 7. Notify the Authority Having Jurisdic- tion and those in the affected area af- fected that testing is complete. G. MAINTENANCE NOTICE: The owner is responsible for maintaining the fire protection system and devices in proper operating condi- tion. Refer to MAINTENANCE INSTRUC- TIONS provided in current Viking Tech- nical Data describing individual compo- nents of the Viking Electric/Pneumatic Double Interlocked Preaction System used. Where difficulty in performance is expe- rienced, the valve manufacturer or his authorized representative shall be con- tacted if any field adjustment is to be made. Form No. F_070889 C C C August 20, 1998 1. PRODUCT NAME Viking Model E-1 Deluge Valve 3" (80 mm) Manufactured 1985- 4" (100 mm) Manufactured 1985- 6" (150 mm) Manufactured 1984- 2. MANUFACTURER THE VIKING CORPORATION 210 N. Industrial Park Road Hastings, Michigan 49058 U.S.A. Telephone: (616) 945-9501 (877) 384-5464 Fax Number: (616) 945-9599 From outside U.S.A.: Telephone: +1 (616) 945-9501 Fax Number: +1 (616) 945-9599 3. PRODUCT DESCRIPTION The Viking Model E-1 Deluge Valve is a quick opening, differential diaphragm, flood valve with one moving part. The Deluge Valve is used to control water flow in Deluge and Preaction sprinkler systems. The valve is held closed by system water pressure trapped in the priming chamber; keeping the outlet chamber and system piping dry. In fire conditions, when the releas- ing system operates, pressure is re- leased from the priming chamber. The Deluge Valve clapper opens to allow water to flow into the system piping. 4. TECHNICAL DATA Approvals: For 250 PSI (1 724 kPa) WWP U.L. Listed Guide No. VLFT C-UL Listed FM Approved Consult current FM Approval Guide for acceptable applications. For 175 PSI (1 207 kPa) WWP Approved by the New York City Board of Standards and Appeals Calendar Number 21 9-76-SA ABS, American Bureau of Shipping LPCB VdS. TECHNICAL DATA Deluge 220 a MODEL E-1 DELUGE VAL VE 3" (80 mm), 4" (100 mm), 6" (150 mm) Maximum 250 PSI Water Worl<ing Pressure Table 1 Size Inlet Outlet Friction Cv Shipping Part Valve Tv"" Tv"" Loss** Factor Weight No. 3" (BO mm) Flange• Groove 29 ft. (8.8m) 187 66 lbs (33 kg) 05835C 3" (80 mm) Flange• Flange* 29 ft. (8.Bm) 187 73 lbs (33 kg) 05912C 4" (100 mm) Flange* Groove 35 ft. (10,7m) 470 112 lbs (51 kg) 05839C 4" (100 mm) Flange* Flange* 35 ft. (10,7m) 470 123 lbs (56 kg) 05909C 6" (150 mm) Flange• Groove 33ft. (10,1m) 1088 236 lbs (107 kg) 05456C 6" (150 mm) Flange* Flange* 33ft. (10,1m) 1088 251 lbs (114 kg) 05906C * Viking Model E-1 Deluge Valves are available tor use outside North America with flanges drilled according to European PN1 O specifications or Table E specifications. Contact manufacturer for availability 0 Expressed in equivalent length of schedule 40 pipe based on Hazen & Williams formula. C = 120. 90 Degree Pattern (inlet to outlet) Connections: Flanged inlet with flanged outlet or flanged inlet with grooved outlet· See Table 1 Factory tested to 500 psi (3 447 kPa) Valve differential over 2:1 (priming chamber to inlet chamber) Priming chamber supply restriction (re- quired): 0.0625" (1,6 mm) Color of Valve: Painted red for identifi- cation purposes Friction loss: Refer to Table 1 Material Standards: Refer to Materials Chart (page 220-e) Ordering Information: Part Numbers: Refer to Table 1 Shipping weight: Refer to Table 1 Systems with water working pres• sures above 175 PSI (1 207 kPa) may require extra-heavy pattern fittings. Viking Model E-1 Deluge Valve flanges are Ductile Iron ANSI B16.42 Class 150 with a maximum water working pressure of 250 PSI. ANSI B16.42 Class 150 flanges are NOT compatible with ANSI Class 250 or Class 300 flanges. To mate the Model E-1 Deluge Valve with ANSI Class 250 or Class 300 flanges, use the grooved-outlet style valve, installed with listed groove/flange adapters of the appropriate pressure rating. For piping with grooved connections, the grooved-outlet style valve may be in· stalled with listed grooved couplings of the appropriate pressure rating. 5. FEATURES a: Field replaceable Diaphragm and Seat Rubbers b: Designed for installation in any posi- tion c: Designed to be reset without open- ing the valve d: Compatible with Hydraulic, Pneumatic and/or Electric Release Systems Sa. Accessories: 1. A Conventional Trim package for use with the Model E-1 Deluge Valve. The trim package includes the VALVE ACCESSORY PACK- AGE and the fittings and nipples shown on the Viking Deluge Valve Conventional Trim Chart for the valve used. Trim Charts are provided in trim packages and the Viking Engineer- ing Design Data book. For optional factory assembled "modular" trim packages, refer to the Viking list price schedule or con- tact the manufacturer. 2. A Deluge VALVE ACCESSORY PACKAGE includes required trim components. This package is needed when Viking Trim Pack- ages are not used. 3. Auxiliary Components are required for specific valve functions. For com- plete operating trim requirements re- fer to system data for the system used. System data is provided in the Viking Engineering Design Data book. Note: For part numbers of accesso- ries, refer to Viking list price sched- ule. 6. OPERATION (Refer to Figure 3) The Viking Model E-1 Deluge Valve has an inlet chamber, an outlet chamber and a priming chamber. The inlet chamber and outlet chamber are separated from the priming chamber by the clapper (6) and diaphragm (2). In the set condition, system pressure is supplied to the priming chamber through a restricted priming line (trim) equipped with a check valve. System water sup- ply pressure trapped in the priming chamber, holds the clapper (6) on seat (9) due to area differential design. Clap- per (6) separates the inlet chamber from the outlet chamber, keeping the outlet chamber and system piping dry. Note: Units of measure in parentheses may be approximations. Form No. F_053096 Replaces page 220 a-g dated June 10, 1996 (Valves Listed and Approved for 250 PSI WWP) and page 220 a-g dated March 24, 1998 (Added C-UL Listing). Deluge 220 b In fire conditions: When the release system operates, pressure is released from the priming chamber faster than it is supplied through the restricted priming line. Water supply pressure in the inlet cham- ber, forces the clapper (6) off from seat (9), allowing water to flow through the outlet and into the system and alarm devices. 7. AVAILABILITY AND SERVICE The Viking Deluge Valve and accesso- ries are available through a network of Domestic, Canadian, and International Distributors. For proper operation and approval, the valve must be trimmed in accordance with the current Viking Trim Chart for the valve used. Where difficulty in perform- ance is experienced, verify that the valve is trimmed property. Contact Viking or Viking's authorized representative be- fore any field adjustments are made. See the Yellow Pages of the telephone directory for your closest distributor (listed under "Sprinklers Automatic Fire") or contact The Viking Corporation. Viking Technical Data may be found on The Viking Corporation's Web site at http://www.vikingcorp.com. The Web site may include a more recent edition of this Technical Data oaae. 8. GUARANTEES TECHNICAL DATA B,9 1/2:/ B,8 (15 mm) NPT for Non- lnteruptable B Alarm Pressure Switch (Optional) I To Drain 3", 4", OR 6" MODEL E-1 DELUGE VALVE WITH CONVENTIONAL TRIM TRIM COMPONENTS * 8.1 Priming Valve (Normally Open) B.2 Strainer 8.3 1/16~ Restricted Orifice 8.4 Spring Loaded Check Valve 8.5 Alarm Test Valve (Normally Closed) 8.6 Auxiliary Drain Valve (Normally Closed) 8. 7 Drip Check Valve 8.8 Drain Check Valve 8.9 Alarm Shut-Off Valve (Normally Open) 8. 10 Pressure Operated Relief Valve (P.O.R.V.) 8.11 Emergency Release 8.12 Priming Pressure Water Gauge and Valve B. 13 Water Supply Pressure Gauge and Valve B. 14 Drain Cup B.15 Flow Test Valve (Normally Closed) For details of warranty, refer to Viking's current list price schedule or contact Vi-* king directly. D. 1 Water Supply Control Valve Viking Deluge Valve Trim Packages contain items B. 1 through 8.15 and associated nipples. 9. INSTALLATION (Refer to Figure 2 for identification of trim compo- nents) 9-A. General Instruction 1. Viking 3" (80 mm), 4" (100 m), & 6" (150 mm) Deluge Valves may be installed in any position. a: Minor modification to trim may be required to facilitate drainage from the outlet chamber of the Deluge Valve (consult manufacturer). b: Certain trim devices may require the valve to be installed vertically. (Refer to system data for the sys- tem used.) 2. The valve must be installed in an area not subject to freezing temperatures or physical damaoe. When Valve Trim is used, to main- tain listings and approvals, trim must be installed according to Vi- king Model E Deluge Valve Conven- tional Trim Charts specifically la- beled "Maximum 250 PSI Water Working Pressure." Refer to page 225 a-c. Order 250 PSI (1 724 kPa) trim separately. Viking Accessory Package for Conventional Deluge Valve Trim contains 8.2 through 8.5, 8.7 through 8.11, and 8.14. -----Dashed lines indicate pipe required but not provided in Conventional Trim Packages Figure 2 3. The valve must be trimmed according to current Viking Trim Charts and ap- propriate instructions for the system used. Trim Charts are printed in the Viking Engineering and Design Data book, and are provided with trim packages. a. Remove all plastic thread protec- tors from the openings of the Del- uge Valve. b. Apply a small amount of pipe joint compound or tape to the external threads of all pipe connections re- quired. Take care not to allow any compound, tape, or other foreign matter inside any of the nipples or openings of the valve or trim com- ponents. August 20, 1998 MODEL E-1 DELUGE VAL VE 3" (80 mm), 4' (100 mm), 6" (150 mm) Maximum 250 PSI Water Working Pressure c. Viking Model E Deluge Valve con- ventional Trim Charts are provided with Trim Packages and in the Vi- king Engineering and Design Data book. d. Verify that all system components are rated for the water working pres- sure of the system. Hydrostatic Test: The Model E-1 Deluge Valve is manufactured and listed for use at a maximum Water Working Pres- sure of 250 PSI (1 724 kPa). The valve is factory tested at 500 PSI (3 447 kPa). Model E-1 Deluge Valves may be hydrostatically tested at 300 PSI (2 069 kPa) and/or 50 PSI (345 kPa) above the normal Water Working Pressure, for limited periods of time (two hours), for the purpose of accep- tance by the Authority Having Juris- diction. If air testing is required, do not exceed 40 PSI (276 kPa) air pressure. Note: Never conduct the Hydrostatic Test against the Pressure Oper- ated Relief Valve. (P.O.R.V.) Tem- porarily remove the P.O.R.V. from the trim and plug trim openings while conducting the Hydrostatic Test. Trim Note: (Refer also to System Data and/or Trim Chart) Discharge piping from the auxiliary drain valve, the flow test valve, and all system drains should be kept separate. DO NOT connect the outlet of the drip check to any other drain. Exception: Viking Tota/Pac systems are manufactured with a specific ar- rangement of interconnected drain piping tested at the factory. 4. The priming line must be connected upstream of the system water supply main control valve or to a constant source of water at a pressure equal to the system water supply. 5. After the Deluge Valve is set, opera- tion of the Deluge Valve requires the release of priming water from the priming chamber. This may be by automatic or manual operation of the release system. Viking Deluge Valves are compatible with hydraulic, pneumatic, and electric release sys- tems. For specific Trim arrange- ments refer to Trim Charts and Sys- tem Data describing the system being installed. Trim Charts are printed in the Viking Engineering and Design Data book, and are provided with trim packages. System Data sheets are printed in the Viking Engineering and Design Data book. C C C August 20, 1998 a: Hydraulic Release Systems: See Graphs A through C (pages 220 1-g) for the maximum allow- able elevation of hydraulic release piping above the Deluge Valve. lithe maximum height of hydraulic release piping exceeds the limtt shown in Graph A, B, or C for the valve used, use a Pneumatic or Electric Release System. b: Pneumatic Release Systems: A Viking Pneumatic Actuator is required between the release sys- tem connection provided on del- uge valve trim and pneumatic re- lease system piping. c: Electric Release: Solenoid Valves, System Control Panels, and Electrical Detectors must be compatible. Consult ap- propriate listing and/or approval guides. Note: For operation at water pressures in excess of 175 PSI, a 250 PSI Rated Solenoid Valve must be used. Refer to appro- priate Viking Technical Data Page for type of system used. Caution: Operation of Viking Deluge Valves by pressurizing the priming chamber with air pressure or any other pressurized gas is not recom- mended or approved. 9-B. Placing the Valve in Service (Refer to Figure 2 and/or appropriate Trim Charts and System Data for the system used.) For Deluge Valves, equipped with Con- ventional Deluge Valve Trim, follow steps 1 through 10 (and 11 & 12 if appli- cable) below. 1. Verify: a: The system Main Water Supply Control Valve (D.1) is closed and the Deluge Valve is trimmed ac- cording to current Viking Trim Charts and schematic drawings for the system used. b: The system has been properly drained. c: Auxiliary Drain (B.6) is open. d: The Emergency Release (B.11) is closed. e: The system water supply piping is pressurized up to the closed Main Water Supply Control Valve (D.1) and the priming line is pressurized up to the closed Priming Valve (B.1 ). 2. For Systems equipped with: a: Hydraulic Release Systems: a-1: Verify that all releasing de- vices are set and that any TECHNICAL DATA Inspector's Test Valve and/or auxiliary drain valves are closed. a-2: Open Priming Valve (B.1 ). Allow the hydraulic release system to fill. When priming pressure gauge (B.12) indi- cates that the release piping and priming chamber pres- sure is equal to system sup- ply pressure, proceed to step 3. a-3: Proceed to step 3. b: Pneumatic Release Systems: b-1 : Set the release system. b-2: Open Priming Valve (B.1 ). b-3: Proceed to step 3. c: Electric Release Systems: c-1: Open Priming Valve (B.1 ). c-2: Set the electric release sys- tem. c-3: Proceed to step 3. 3. Open Flow Test Valve (8.15). 4. Partially open Main Water Supply Control Valve (D.1 ). 5. When full flow develops from the Flow Test Valve (8.15), close the Flow Test Valve. a: Verify that there is no flow from the open Auxiliary Drain (B.6). 6. Close Auxiliary Drain (B.6). 7. Fully open and secure the Main Water Supply Control Valve (D.1 ). 8. Verily that the Alarm Shut-off Valve (B.9) is open and that all other valves are in their normal** operating posi- tion. 9. Depress the plunger of Drip Check (B.7). No water should flow from the Drip Check when the plunger is pushed. 10. Check for, and repair all leaks. 11 . On new installations, those systems that have been placed out of service or where new equipment has been installed, trip test the system to verily that all equipment functions properly. Refer to MAINTENANCE paragraph 1 0-B-3: ANNUAL maintenance in- structions. Caution! Performing a trip test results in operation of the Deluge Valve. Water will flow into the sprinkler piping. Take neces- sary precautions to prevent damage. 12. After completing a trip test, perform SEMI-ANNUAL maintenance. ** For normal operating position, refer to Figure 2 (page 220-b) and/or Trim Charts and System Data tor the system used 9-C. Valve Removed From Service Note: When a valve has been removed from service and is subject to freezing or will be out of service for an ex- tended period of time, all water must Deluge 220 c MODEL E-1 DELUGE VAL VE 3" (80 mm), 4" (100 mm), 6" (150 mm) Maximum 250 PSI Water Working Pressure be removed from the priming cham- ber, trim piping, water supply piping and other trapped areas. 10. INSPECTIONS AND TESTS (Refer to Figure 2, page 220-b, for identifica- tion of trim components). 10-A. Inspection It is imperative that the system be in- spected and tested on a regular basis. The frequency of the inspections may vary due to contaminated water sup- plies, corrosive water supplies or corro- sive atmospheres. Also, the alarm de- vices, detection systems or other con- nected trim may require a more frequent schedule. For minimum maintenance and inspection requirements, refer to the National Fire Protection Association pamphlet that describes care and main- tenance of sprinkler systems. In addi- tion, the Authority Having Jurisdiction may have additional maintenance, test- ing, and inspection requirements which must be followed. The following recom- mendations are minimum requirements. (For additional information, refer to Vi- king Trim Charts and System Data de- scribing systems with the release sys- tem used.) Weekly: Weekly visual inspection of the Viking Deluge Valve is recommended. 1. Verily that the Main Water Supply Control Valve (D.1) is open and that all other valves are in their normal** operating position and appropriately secured. 2. Check for signs of mechanical dam- age, leakage, and/or corrosive activ- ity. If detected, perform maintenance as required. If necessary, replace the device. 3. Verify that the valve and trim are ade- quately heated and protected from freezing and physical damage. ** For normal operating position, refer to Figure 2 (page 220-b) and/or Trim Charts and System Data for the system used. 10-B. Tests Quarterly: Quarterly testing of water flow alarms and performance of a Main Drain Test is recommended and may be required by the Authority Having Jurisdiction. 10-B-1: Water Flow Alarm Test 1. Notify the Authority Having Jurisdic- tion and those in the area affected by the test. 2. To test the local electric alarm (ii pro- vided) and/or mechanical water mo- tor alarm (if provided), OPEN the Deluge 220 d alarm test valve (B.5) in the Deluge Valve trim. a: Electric alarm pressure switches (if provided) should activate. b: Electric local alarms should be audible. c: The local water motor gong should be audible. d: If equipped with remote station alarm signaling devices, verify that alarm signals were received. 3. When testing is complete, CLOSE the alarm test valve (B.5). Verify: a: All local alarms stop sounding and alarm panels (if provided) reset. b: All remote station alarms reset. c: Supply piping to water motor alann properly drains. 4. Verify that the alarm shut-off valve (B.9) is OPEN, and the alarm test valve (B.5) is CLOSED. 5. Verify that the outlet chamber is free of water. No water should flow from the drip check when the plunger is pushed. 6. Notify the Authority Having Jurisdic- tion and those in the affected area that testing is complete. 10-B-2: Main Drain Test 1. Notify the Authority Having Jurisdic- tion and those in the area affected by the test. 2. Record pressure reading from the water supply pressure gauge (B.13). 3. Verify that the outlet chamber of the Deluge Valve is free of water. No water should flow from the drip check (B.7) when the plunger is pushed. 4. Fully OPEN the Flow Test Valve (B.15). 5. When a full flow is developed from the Flow Test Valve (B.15), record the residual pressure from the water sup- ply pressure gauge (B.13). 6. When the test is complete, SLOWLY CLOSE the Flow Test Valve. 7. Compare test results with previous flow information. If deterioration of the water supply is detected, take ap- propriate steps to restore adequate water supply. 8. Verify: a: normal water supply pressure has been restored to the inlet cham- ber, the priming chamber, and the release system. The pressure on the priming chamber water pres- sure gauge should equal the sys- tem water supply pressure. b: All alarm devices, and valves are secured in normal** operating po- sition. TECHNICAL DATA 9. Notify the Authority Having Jurisdic- tion that the test is complete. Record and/or provide notification of test re- sults as required by the Authority Having Jurisdiction. ** For normal operating position, refer to Figure 2 (page 220-b) and/or Trim Charts and System Data tor the system used. 1 O-B-3: Annual Annual Trip Tests are recommended. Caution! Performing this test results in operation of the Deluge Valve. Water will flow into the sprinkler piping and from any open sprinklers and/or nozzles. Take nec- essary precautions to prevent damage. 1. Notify the Authority Having Jurisdic- tion and those in the area affected by the test. 2. Fully open the Flow Test Valve (B.15) to flush away any accumulation of foreign material. 3. Close the Flow Test Valve (B.15). 4. Trip the system by operating the re- lease system. Allow a full flow to pass through the Deluge Valve. a: Water flow alarms should operate. 5. When test is complete: a: Close the Main Water Supply Con- trol Valve (D.1 ). b: Close the Priming Valve (B.1 ). c: Open the Auxiliary Drain Valve (B.6). d: Open all system main drains and auxiliary drains. Allow the system to drain completely. 6. Perfonn SEMI-ANNUAL maintenance. Refer to paragraph 11-B SEMI-AN- NUAL MAINTENANCE 7. Place the system in service. Refer to Item 9-B, INSTALLATION: PLACING THE VALVE IN SERVICE. a. Note: Deluge Valves supplied by brackish water, salt water, foam, foam/water solution, or any other corrosive water supply, should be flushed with good quality fresh water before being returned to service. 8. Notify the Authority Having Jurisdic- tion that the test is complete. Record and/or provide notification of test re- sults as required by the Authority Having Jurisdiction. 11. MAINTENANCE (Refer to Figure 2, page 220-b, for identifica- tion of trim components). NOTICE: The owner is responsible for maintaining the fire protection system and devices in proper operating condi- tion. The Deluge Valve must be kept from freezing conditions and physical damage that could impair its operation. August 20, 1998 MODEL E-1 DELUGE VALVE 3" (80 mm), 4" (100 mm), 6" (150 mm) Maximum 250 PSI Water Working Pressure Where difficulty in performance is expe- rienced, the valve manufacturer or his authorized representative shall be con- tacted if any field adjustment is to be made. WARNING: Any system maintenance which involves placing a control valve or detection system out of service may eliminate the Fire Protection capabilities of that system. Prior to proceeding, no- tify all Authorities Having Jurisdiction. Consideration should be given to em- ployment of a Fire Patrol in the affected areas. 11-A. After Each Operation: 1. Sprinkler systems that have been subjected to a fire must be returned to service as soon as possible. The entire system must be inspected for damage, and repaired or replaced as necessary. 2. Deluge Valves and trim that have been subjected to brackish water, salt water, foam, foam/water solution, or any other corrosive water supply, should be flushed with good quality fresh water before being returned to service. 3. Perfonn SEMI-ANNUAL maintenance after every operation. 11-B. Semi-Annual Maintenance: 1. Remove the system from service. (Refer to Deluge or Preaction System Data that describes systems with the release system used for additional infonnation.) a: Close the Main Water Supply Control Valve (D.1) and Priming Valve (B.1 ). b: Open the Auxiliary Drain Valve (B.6). c: Relieve pressure in the priming chamber by opening the Emer- gency Release Valve (B.11 ). 2. Inspect all trim for signs of corrosion and/or blockage. Clean and/or re- place as required. 3. Clean and/or replace all strainer screens (including B.2). 4. Refer to Item 9-B, INSTALLATION: PLACING THE VALVE IN SERVICE. 11-C. Every Fifth Year 1. Internal inspection of Deluge Valves is recommended every five years un- less inspections and tests indicate more frequent internal inspections are required. Refer to DISASSEM- BLY instnuctions provided below. 2. Internal inspection of strainers, and restricted orifices is recommended every five years unless inspections C C C August 20, 1998 Deluge 220 e TECHNICAL DATA MODEL E-1 DELUGE VALVE 3" (80 mm), 4" (100 mm), 6" (150 mm) Maximum 250 PSI Water Working Pressure A B C D E F 3" 4" 10-1/4" 11-1/4" (260 mm) (286 mm) 12· 12· {305 mm) (305 mm) 29-1/2. J1-1;2· (749 mm) {800 mm) 7-1/4" 9-J/4" (184 mm) (248 mm) ,· 8-1/2" (178 mm) (216 mm) 5• 6-1/2" {127 mm) {165 mm) Dimensions 311 ,411 &611 6" 13-1/4" (JJ7 mm) 12· (305 mm) 34-1/2· (876 mm) 12· (JOS mm) 12· {305 mm) .. (203 mm) (80 mm, 100 mm, 150 mm) Deluge Valve with Model E Deluge Valve Conventional Trim for 250 PSIWWP B SIZE A 3" 7" (80mm) (178) 4" 9" (100mm) (229) 6" 12" (150mm) (305) 1/2" (1 3 4 1 Primi A B C D E 5" 4-1/4' 5-3/8" 7-1/2" (127) (108) (137) (190,5) 6-1/2' 5-1/4' 7" 9" (165} (133} (178} (228,6) 8" 7" 9-1/8" 11" (203) (178) (232) (279,4) D F* 3/4" (19,05) 15/16" (23,81) 1" (25,4) p: • '(32mm) " Valve m) NPT Tap: 3" Valve 3/4"(20mm) 4" & 6" Va. 1" (25mm) Dimensions shown in parentheses are mm. * 4"&: 6'' valves are manufactured with sculptured flanges. Dimension indicates thickness of flange at bait holes. 3" 4" & 6" MODEL E-1 DELUGE VALVE MATERIALS CHART & REPLACEMENT PARTS ITEM 3" 4" 6" No. Re 'd NO. 2 3 4 5 6 7 8 9 10 11 Part No. 02492C 07983 2 -- 02497B 3 -- Part No. 02377B 07984 4 .. 5 .. 02382B 4 -- Part No. Descri tion Body 01974C Diaphragm Rubber 07985 Cover Clamp Ring .. 6 Screw Clapper --7 Screw 02176B Seal Rubber Assembly Seal 8 Screw Plug; 1/2" NPT Note: --Indicates replacement part nol available. Material Duclile Iron 60-40-18 EPDM Ductile Iron 60-40-18 Bronze UNS-C84400 Stainless Sleel Duclile Iron 65-45-12 Teflon Coated Steel EPDM/St. Steel UNS-S30400 Bronze UNS 84400 Slainless Sleel Sleel 3" 6 1 10 1 1 6 • lndicales part is available in Sub-Assembly only. See Sub-Assembly list 2• 4•5 02491 B 02376B 05703B Cl A bl 6, 8, 1 o apper ssem y 1 2 Phillips Drive Round Head Screw, Na. 10-24 x 1/2" (12,7 mm) Lg. 3 Hex Head Cap Screw, 1/2"-13 x 1-1/4" (31,8 mm) Lg. 4 Phillips Drive Round Head Screw, No. 10-24 x 3/8" (9,5 mm) Lg. Hex Head Cap Screw, 5/16"-18 x 1/2" (12,7 mm) Lg. 5 6 Hex Head Cap Screw, 1/2"-13 x 1-1/2" (38,1 mm) Lg. 7 Hex Head Cap Screw, 3/8"-16 x 5/8" (15,9 mm) Lg. 8 Hex Head Cap Screw, 5/8"-11 x 1-3/4" (44,5 mm) Lg. Hex Head Cap Screw, 3/8"-16 x 1/2" (12,7 mm) Lg. FIGURE 3 4" 8 1 12 1 1 8 1 6" 12 1 15 12 1 Deluge 220 I August 20, 1998 '\IIKING® TECHNICAL DATA MODEL E-1 DELUGE VALVE 3" (80 mm), 4" (100 mm), 6" (150 mm) Maximum 250 PSI Water Working Pressure and tests indicate more frequent in- ternal inspections are required. For311,4",or6" 3. Record and provide notification of in- spection results as required by the Authority Having Jurisdiction. Deluge Valve Disassembly (Refer to Figure 3, page 220-e) 1. Remove the valve from service (see the release system description and Technical Data for additional infor- mation). Close the main control valve, open the main drain valve. Re- lease the pressure in the priming chamber by opening the Emergency Release Valve. 7. To replace the diaphragm rubber (2), remove the circle of screws (5). Re- move the clamp ring (4) and remove the diaphragm rubber (2). 8. To replace the seat rubber assembly (8), clapper assembly (2, 4, 5, 6, 8, 10) must be removed from the.valve. Remove the circle of screws (10). Seat rubber assembly (8) can be re- moved. 11-D. Valve Disassembly 1. Remove the valve from service. f---- :r: L'.J w :r: w z ..J f----D ..J o_ ::,: ::::i ::,: X <[ ::,: a. Close the Main Water Supply Control Valve (D.1) and Priming Valve (B.1 ). NOTE: Prior to installing a new clapper rubber (2) or seat rubber assembly (8), make certain that all surfaces are clean and free of foreign matter. The plated seat (9) must be smooth and free of nicks, burrs or indentations. b. Open the Auxiliary Drain Valve (B.6). 2. Remove trim as required to allow re- c. Release the pressure in the prim- ing chamber by opening the Emer- gency Release Valve (8.11). moval of cover (3). 3. Remove screws (7). 4. Lift cover (3) from body (1). 150 ft. 140 ft. 130 ft. 120 ft, 110 ft. 100 ft. 90 ft. 80 ft, 70 ft. 60 ft, 50 ft, 40 ft. 30 ft. 20 ft 10 ft 0 ft. 5. Remove clapper assembly (No. 2, 4, 5, 6, 8, 10) by lifting it from the body (1 ). 6. Inspect seat (9). If replacement is necessary, do not attempt to separate seat from body (1 ). It is not removable. C. Valve Reassembly 1 . Prior to reassembly flush the valve of all foreign matter. 2. To reassemble, reverse disassembly procedure. (45, 7 M) ,----,. -----,-----r-----, -----,-----,------.,.-----,-----..-----,-----,---, I I I I I I I ) I 1 I I 100 -ft. (30,5 M) (42,7 l'l) ~-----+-----:-----+------+-----:-----{------+-----:-----+------}----1_ 7 SQQ ft, (152,4 M) I I I I I I I t I I I Ft (304,8 M) (39,6 r,) ~ -----+-----:-----t-----1-----:-----r-----t-----:-----t----- , I I I I I J I I I (36,6 M) t-------+-----1-----+-------t-----1-----r------+-----1-----+--,,-,,-,,.-- 1 I I I I I ) I J (33,5 M) t-----+-----:-----i------+-----:-----+------+-----!----C~C,- 1 I I I I I I I I I I (30,5 M) ~-----f-----:-----}-----t-----:-----t------t----1 ---}-----t-----:--7 I I I I I I I I I I I I <27,4 M) r----➔-----1-----t-----;-----1-----r------1-----t-----➔-----1----1 l I I I I I I I I I I ) (24,4 M) t -----+-----:-----+------+-----:-____ I --+-----:-----+------+-_ ---:---+ I I I I I I I I I ! I I (21,3 M) ~ -----t-----:-----} ----1----_I t------t-----:-----}----1-----)--7 I I I I I I I I I I I I (18,3 M) t------+-----1-----t-------t--1-----r-----+ -----1-----t----·---t-----1---; I I I I I I I I I I I I (15,2 M) t-----+-----:-----+--,-----:-----+------+-----:-----+------f-----:--~ I I I l I I I I I J I I (12,2 M) ~ -----t-----:---I -----t-----1-----t------t-----J-----}----1-----:--7 I I I I I I I I I I I J I (9,1 M) t-----➔--------t------;,-----l-----r-----+-----1-----t-------t-----l---; I I I I I I I I I I I J I (6,1 M) t----I ---:-----}------+-----:-----+-----i-----:-----}------+-----1---+ I I I I I I I I I I I I __ ..l _____ 1 _____ L ____ J _____ I _____ L _ -__ .J ____ -1-____ L ____ J _____ I __ ....l I I I I I I I I I I I I (3,0 M) I I I I I I J I I I I I I <O,O M) r----➔ -----1-----t-----➔-----1-----r----➔ -----1-----+-----;-----1---; I I I I I I I I I I I I I 20e0PSI \ 60 PSI \ 100 PSI 11 140 PSI \ 180 PSI \ 220 PSI \ 250 PSI 038 kPo) ' (414 kPo) ' <690 kPo) ' (965 kPo.) ' (1 241 kPo.) ' (1 517 kPo) • (1 724 kPo) 40 PSI 80 PSI 120 PSI 160 PSI 200 PSI 240 PSI <276 kPo) (552 kPo) (827 kPo.) (1 103 kPo) (1 379 kPo) (1 655 kPo.) SYSTEM SUPPLY PRESSURE Graph A Maximum Allowable Pilot Heights for Select l:quivalent Lengths of Hydraulic Release Piping For 3" (80 mm) Model E-1 Deluge Valves with 1/16" (1,6 mm) Restricted Orifice Graph is based on 1/2tt (15 mm) pilot sprinklers installed on 1/2" (15 mm) schedule 40 galvanized release system piping. It the maximum height of hydraulic release piping exceeds the limits shown on the graph, use Pneumatic or Electric Release System. C C C August 20, 1998 Deluge 220 g f-:r: l'J w :r: w z _J f- 0 _J Q_ 2 ::J 2 X <I 2 f-:r L.:J w :r: w z _J f- D _J (l_ ::,: :::J ::,: X <I ::,: TECHNICAL DATA MODEL E-1 DELUGE VALVE 3" (80 mm), 4" (100 mm), 6" (150 mm) Maximum 250 PSI Water Working Pressure 140 ft. (42,7 M) r-----.-----,-----r-----,-----,-----r----,-----1-----,----,-----,--7 I I I I I I I I I I I I 130 ft. (39,6 M) ~----:-----:-----: -----+-----:-----{-----:-----:-----: -----t---- 100 ft. (30,5 M) 500 ft. (152,4 M) 1000 ft (304,8 M) 1 I I I I I I I I I I 120 ft. (36,6 M) l-------+-----l------i----------1------1-----,l--------4-----l------l------ l I I I I I I I I I -, I I I I I I I I I I I I 110 ft. <33,5 M) r----7"-----1-----r----,-----1-----r-----r-----1-----I I I -----1--7 1 I I I I I I I I I I I }QQ ft (JQ,5 M) ~----:-----:-----: -----t-----:-----t-----:---_____ _l _____ l __ _J l I I I 1 I I I I I I I I I I I 90 ft. (27,4 M) i----1-----:-----t----1-----:-----t------+ --I-----J...--------1------1----1 I I I I I I I I I I I I 80 ft. (24,4 n) r-----1-----1-----r----,-----1-----, I I I I I ------1-----r----,-----1--7 70 ft. (21,3 60 ft <18,3 50 ft (15,2 40 ft. (12,2 30 ft (9,1 20 ft. (6,1 10 ft. (3,0 0 ft. (0,0 I I I I I I I I I I I I M) ~----:-----:-----: ----➔-----:--_____ I _____ I _____ I ____ _J _____ I __ _J I I I I I I I ) I I I I I I I I I I I M) 1------1------1-----J...--------I--- ) I I I I ----I--------i-----1-----J...----➔ -----1----1 I I I I I I I I I I I M) r------r-----1-----r---I I I I I I I I ----1-----r ------r-----1-----r----,-----1--7 1 I I I I I I I I I I I I M) ~----:-----:---- ___ _J _____ I _____ L ____ I _____ I _____ I ____ _l _____ l __ _J I I I I I I I I I 1 I I I I I I I I I I I I M) 1--------i-----l I ---+---------1------1------1--------i-----l-----J...--------l------1----I I I I I I I I I I I I I I I I I I I I I I I I M) r---- 1 ---1-----r----,-----1-----r ------r -----1-----r ----,-----1--7 I I I I I I I I I I I ---+-----:-----: ----➔-----l-----t-----:-----:-----+------}-----l--7 I I I I I I I I I I I I I M) I------+-----1-----+-------I------1------I------+-----1-----+-------I------1---I I I I I I I I I I I I I I LL :::JD C, w w V) <I w _J w IY 2020PSI ] 60 PSI : 100 PSI : 140 PSI : 180 PSI : 220 PSI : 250 PSI (1~8 kPn) • (414 kPn) • (690 kPn) ' (965 kPn) ' (1 241 kPn) ' (1 517 kPn) '<1 724 kPn) 40 PSI 80 PSI 120 PSI 160 PSI 200 PSI 240 PSI <276 kPn) (552 kPn) (827 kPo) (1 103 kPn) (1 379 kPn) (1 655 kPn) SYSTEM SUPPLY PRESSURE Graph B Maximum Allowable Pilot Heights for Select Equivalent Lengths of Hydraulic Release Piping For 4" (100 mm) Model E-1 Deluge Valves with 1/16" (1,6 mm) Restricted Orifice Graph is based on 1/2" (15mm) pilot sprinklers installed on 1/2" (15mm) schedule 40 galvanized release system piping. If the maximum height of hydraulic release piping exceeds the limits shown on the graph, use Pneumatic or Electric Release System. 170 -ft. (51,8 M) ,-----.-----,-----,-----.-----,-----,-----,-----1-----,----7-----,--7 100 f't. (30,5 M) 500 f't. (152,4 .-,) f't (304,8 r,) I I I I I I I I I I I I 160 -ft (48,7 M) ~-----+-----:-----+------+-----:-----t------+-----:-----+------+---- 150 Ft 140 Ft. 130 Ft. 120 Ft llO Ft. 100 Ft. 90 Ft. 80 Ft. 70 Ft 60 Ft. 50 Ft. 40 Ft 30 Ft 20 Ft. 10 Ft. 0 Ft 1 I I I I I I I I I I , (45, 7 M) :------t-----:-----t-----i-----:-----i -----t-----:-----t-----➔ ----I , , I I I I I I I I I I (42,7 M) r ------r -----,-----r ------r -----1-----r ----7 -----,-----r -I I ----1--7 I I I I I I I I I I , , , (39,6 M) ~----:-----:-----+------+-----:-----+-----:-----:-----__ _l _____ l __ _J , , , 1 I I I I I I I I , , , (36,6 r-i) :------t-----:-----t-----i-----:-----i-----t-------!---------1------~---1 I I I I I I I I I I I I (33,5 r-i) r----7-----1-----r----,-----1-----r----7-I I I I 1-----r----,-----1--7 1 I I I I I I I I I I I (30,5 M) ~-----+-----:-----: -----+-----:-----t----____ I _____ I ____ _l _____ l __ _J I I I I I 1 I I I I I I I I I I I I (27,4 M) f-----4-----l-----!-------4-----1-----1 I I I I I ---l -----1-----!-------+ -----1---I I I I I I I I I I I I I (24,4 r-i) ,----7-----1-----r----,-----1-I I I I I I ,----,-----1-----r----,-----1--7 1 I I I I I I I I I I I (21,3 .-,) ~----f-----:-----+------f-------t-----+-----~----+------+-----i---l 1 I I I I I I I I I I I I M) f-------1------1-----!-----I I I I <18,3 ---1-----+------I------1-----!---------1------1---I I I I I I I I I I I I I r,) ,----7-----,-----r; (15,C I I I I I I I I I -..,. -----1-----r ----r -----1-----r ----..,. -----1--7 , , , I I I I I I I I I M) ~----:-----:--(12,2 _____ J _____ I _____ L ____ I _____ I _____ I ____ _l _____ l __ _J I I I I I I I I I I 1 , I I I I I I I I I I M) f-____ _j_ __ _ , , (9,1 -----!-----➔-----1-----!-----_j_ _ ----1-----!-------+ -----1----1 I I I I I I I I I I I M) ~ ---(6,1 I I I I I I I I I I I ----1-----r ----..,. -----1-----,------r -----,-----r----, ·-----1--7 1 I I I I I I I I I I I I (3,0 M) ----+-----:-----: -----}-----:-----{-----:-----:-----: -----}-----:---1 I I I I I I I I I I I I I (0,0 M) f-------t-----1------I-------+ -----1-----+-------t-----1------I------+ -----1---I I I I I I I I I I I I I I 202aPSI : 60 PSI : 100 PSI : 140 PSI : 180 PSI : 220 PSI : 250 PSI <138 kPn) ' C414 kPo) ' (690 kPo) ' (965 kPo) ' (1 241 kPa) ' (1 517 kPa) • (1 724 kPa) 40 PSI 80 PSI 120 PSI 160 PSI 200 PSI 240 PSI (276 kPa) (552 kPa) (827 kPa) (1 103 kPa) (1 379 kPa) Cl 655 kPa) SYSTEM SUPPLY PRESSURE Graph C Maximum Allowable Pilot Heights for Select Equivalent Lengths of Hydraulic Release Piping For 6" (150 mm) Model E-1 Deluge Valves with 1/16" (1,6 mm) Restricted Orifice Graph is based on 1/2" (15 mm) pilot sprinklers installed on 1/2" (15 mm) schedule 40 galvanized release system piping It the maximum height of hydraulic release piping exceeds the limits shown on the graph, use Pneumatic or Electric Release System Replaces page 220 a-g dated June 10, 1996 (Valves Listed and Approved for 250 PSI WWP) and page 220 a-g dated March 24, 1998 (Added C-UL Listing). Form No. F_053096 J (_ (_ C July 30, 1998 Manufactured 1995- 1/2"x 1-1/2" (38,1) For Solenoid 10199 1/2"x 3" (76,2) For o'ther Viking Straight Body Solenoids SOLENOID VALVE ,, I\\\ \1 , Order \\ \ Separately \\ " ,~, 1 /2"x 3" •:~~: 6·h (16.2) ""'t~ .. , ___ .. J l, , ___ .. , 1/2"x 2-1/2" ---\ (63,5} 1/2" ELBOW 1/2"x 2· (50,8) 1/2" ELBOW 1/2"x 6"J (152,4} Exception: For 3" or 4" (80 or 100 mm) Deluge or Flow Control Valve with factory preossembled Conventional Trim, use: 1/2"x 7" (177,8} TECHNICAL DATA 1/2"x 1-1/2" (38,1} 1;2· : e ELBOW i: ',,, I I ;\,?\1 u-PNEUf.AATI AClUATO Order Separately Figure 1 1/2" ELBOW 1/2"x a· (203,2) 1/2" UNION 1/2"x 2" (50,8) Release Trim 226 c RELEASE MODULE TRIM CHART For Electric /Pneumatic Double Interlocked Preaction System With Conventional Trim Maximum 250 PSI Water Workin Pressure This Electric/Pneumatic Release Trim Chart is for use with Viking Electric/Pneumatic Double Interlocked ?reaction systems equipped with a Viking Deluge or Flow Control Valve (all sizes) installed withConventional Trim For use on For use on Standard* Foam System** Trim Trim 09314 09713 Note: For use on Brass*** Trim 09714 Order Solenoid Valve and Pneumatic Actuator separately. Electric/Pneumatic Release Modules are for use with Viking Solenoid Valve Part Numbers 01412A, 07829, 07830, 07831,07832,07833,07834, 10196,& 10199 and Viking Model H-1 Pneumatic Actuator part number 06459B. The Viking Electric/Pneumatic Release Module is for use on Viking Elec- tric/Pneumatic Double Interlocked Pre- action systems equipped with a Viking Deluge or Flow Control Valve. Verify that the valve is trimmed with Conven- tional Trim installed according to the current Conventional Trim Chart for the Valve used. Install the Electric/Pneu- matic Release Module using the con- nections provided and as shown in Fig. 1, this page. • Standard Conventional trim sets tor Viking Delu~e Valves and Flow Control Valves consist of galvanized nipples and fittings. 0 Trim sets for Viking Deluge Valves and Flow Control Valves used on pre-mixed foam systems consist of black steel nipples and cast iron or malleable Iron fittirtQS. Refer to notes provided on Conventional Trim Charts . ... Refer to Technical Data describing the HalarCI Coated Deluge Valve or Flow Control Valve and the Viking Foam System Engineering Design Data book for applica- tions where brass trim is recommended. Note: Nipple lengths tor brass trim may vary from those shown on this Trim Chart. Electric/Pneumatic Double Interlocked Preaction Release Module Form No. F_111094 Replaces 226-d dated June 27, 1996 and Feb. 20, 1998 (New Pneumatic/Pneumatic Release Module) (Revised for 250 psi rating, added nipple) Release Trim 226 d July 30, 1998 TECHNICAL DATA RELEASE MODULE TRIM CHART For Pneumatic /Pneumatic Double Interlocked Preaction System With Conventional Trim Maximum 250 PSI Water Workin Pressure Manufactured 1998- 1/4" PRESSURE RELEASE VALVE (NORMALLY CLOSED) (SEE SET-UP INSTRUCTION) 1/2" NPT PNEUMATIC ACTUATOR No. 1 TUBING No. l/2'x 2' (50,8) NDTEI For New Systems Package Includes pre-assembled Pneumatic/Pneumatic Release Module, and 1/2" NPT nipples, and unions to connect the module to Conventional Deluge Valve Trim For use on For j,JSe on Standard* Foam System** Trim Trim 10372 Not available To Replace For use on Brass*** Trim Not available 1/16' (1,6 MM) Restricted Orifice Pressure Operated Shut-Off (POSO) Valve Assembly on Existing Pneumatic/Pneumatic Double Interlocked Systems is Required ond provided only with 250 PSI TriM. For other triMS, Package Includes pre-assembled Pneumatic/Pneumatic Release Module, and 1/2" NPT nipples, and unions shown in Figure 2 AND replace Restricted Orifice with 1/16' (1,6 MM) Restricted Orifice 1/2" x 1/4" NPT Bushings to connect existing 1/4" NPT pneumatic piping to the 1/2' NPT openings on the new Pneumatic/Pneumatic Release Module AND The required 1 ts· Restricted Orifice for Deluge or Flow Control Valve Priming line. For use on For use on Standard* Foam System .. Trim Trim 10376 Not available For use on Brass*** Trim Not available • Standard Conventional trim sets for Viking Detu~e Valves and Flow Control Valves consist of galvanized nipples and fittings. •• Trim sets for Viking Deluge Valves and Flow Control Valves used on pre-mixed foam systems consist of black steel niP.Ples and cast iron or malleable iron fittin~s. Refer to notes provided on Conventional Trim Charts. ••• Refer to Technical Data describing the HalartD Coated Deluge Vatve or Flow Control Valve and the Viking Foam System Engineering Design Data book for applica- tions where brass trim is recommended. Note: Nipple lengths for brass trim may vary from those shown on this Trim Chart. 4" (100 mm) Deluge Valve Shown for clarity. The Pneumatic/Pneumatic Double Interlocked Preaction System Release Module is for use with Viking Deluge Valves or Flow Control Valves (all sizes) equipped with Deluge Valve Conventional Trim Order Deluge Valve or Flow control Valve, Deluge Valve Conventional Trim, and Pneumatic/Pneumatic Release Module Seporatel y. Figure 2 Pneumatic/Pneumatic Double Interlocked Preactlon Release Module Replaces 226-d dated June 27, 1996 or Feb. 20, 1998 (New Pneumatic/Pneumatic Release Module) (Revised for 250 psi rating, added nipple) Form No. F _ 111094 February 20, 1998 General Notes: TECHNICAL DATA eluge Valve arately Trim 225 a 3", 4" & 6" (80, 100, & 150 mm) MODEL E DELUGE VALVE CONVENTIONAL TRIM CHART Maximum 250 PSI Water Working This Trim Chart is for use with the following Viking Trim Sets Size Standard* Foam System0 Brass*"'* Valve Trim P/N Trim PIN Trim PIN 3" 10204 10242 111?52 4" 10205 10243 10253 6" 10206 10244 10254 . Standard Trim s~ts for _Model E Deluge Valves consist of galvanized mwles and f1ttmgs .. T~m sets tor Model E Deluge Valves used on_ pre- mixed Fo!3-m Systems con~1st of black steel nipples and cast iron or malleable iron f1tt1ngs See Trim Chart Notes ... Refer to Technical Data_d_escribing the Halal'~ Coated peluge Valve and the V1k1ng Foar:n System Engineer- 1n_g Design Data book for apphcat1ons where brass tnm is recommended. Note Nipple lengt~s for brass trim may vary from those shown on th!S T nm Chart. For nipele len~ths provided wrth brass trim, refer to charts pac ed wit brass trim For Detailed Trim Chart Open to Page 225 b NOTES: For Use with Trim Chart on Page 225 b (open fold-out) Valve must be trimmed as shown. Any deviation from trim size or arrangement may affect the proper operation of the valve. All pipe, 3/4" (20 mm) and smaller, shall be galvanized steel except when other materials are specified in the Technical Data for the Halar• Coated Deluge Valve or when other materials are specified in the Viking Foam System Engineering and Design Data book. When Model E Deluge Valves are used on pre-mixed Foam Systems, trim piping must be of black steel pipe with cast iron or malleable iron fittings unless otherwise specified in the Technical Data for the Halar• Coated Deluge Valve or the Viking Foam System Engineering and Design Data book. Dimensions in parentheses are millimeter. Note 1: Do not plug the 1/4" (8 mm) outlet from the P.O.R.V. Pipe the 1/4" (8 mm) outlet to open drain. When piped as shown, the outlet discharges to drain cup. Do not use soft tubing. Note 2: 1/2" (15 mm) NPT plugged outlet provided for connecting certain optional components and associated trim. Note 3: Release System connection. Viking Deluge and Flow Control Valves are compatible with hydraulic, pneumatic, and electric release systems. A Pneumatic Actuator is required on all Viking Deluge Valves and Flow Control Valves equipped with Pneumatic Release Systems. Note 4: Alarm Connections: Connect alarm line piping to 3/4" (20 mm) NPT outlet. When using a Water Motor Alarm, a strainer is required. 1/2" (15 mm) NPT outlet is for electric Alarm Pressure Switch. Note 5: Optional non-interuptable connection for Alarm Pressure Switch to activate electric alarm panel. Note: After the Deluge Valve trips, this location cannot be shut off. Alarms may operate until the outlet chamber of the deluge valve is de-pressurized below the set point of the Alarm Pressure Switch. Note 6: Viking Drain Check Valve is manufactured with a 0.067" (1,7 mm) orifice to allow alarm line to drain. Do not substitute. Check label for proper orientation. Form No. 012194 Replaces Page 225 a-c dated June 27, 1996 (Revised trim for 250 PSI WWP) Trim 225 b Refer to page 225 a for General Notes and Notes 1 through 6 0 Nur1bff-s 1 -60 lndlco'i• rec-,iad nql»l'IC• SIDE 0U1ILT Gt.OK VALVE ~ lns-tc.llo-tlon. <Provld•d only wlwnt s.qu1Pnc• of'f·•c-ts •os• of' lnstollotlon.) -s-.•· •• ®1 UN0:11~1 Form No. 012194 ::s" 1-1/4-.:S-w ri4· (101.1) TODRAII (1-1/2'" N'IP lntomal lhreoda) C ~ SEE NOlE 2 1/2'"•1/l"'/2" _) February 20, 1998 3", 4" & 6" (80, 100, & 150 mm) MODEL E DELUGE VAL VE CONVENTIONAL TRIM CHART Maximum 250 PSI Water Working SEE NOlE 2 1/4"a1-1/2" C-1) 1/4"a1-1/2" (:Jl.1) 1/4" UN0N 1~11r (241.J) PRNIIIG CONl£Cll0N ® (CQNIIECT BELOW ORY VALVE) 1/4"lc12" ::s" TO OPEN DRAIN SEE N01E 1 J/4".l/4".S/4° TEE .... J/4" BAU. IIAL IIE .... 1° W VALVE (N0RMALLY Q.OSfD) Order Deluge Valve separately Replaces Page 225 a-c dated June 27, 1996 (Revised trim for 250 PSI WWP) Trim 225 c 3" A 10-1/4" (260 mm) 12· B (305 mm) C 29-1/2" (749 mm) D 7-1/4" (184 mm) E 7" (178 mm) F 5" (127 mm) Replaces Page 225 a-c dated June 27, 1996 (Revised trim for 250 PSI WWP) 4" 6" 11-1/4" 13-1/4" (286 mm) (337 mm) 12" 12" (305 mm) (305 mm) 31-1/2" 34-1/2" (800 mm) (876 mm) 11-3/4" 1211 (300 mm) (305 mm) 8-1/2" 12· (216 mm) (305 mm) 6-1/2" 8" (165 mm) (203 mm) Form No. 012194 (_ C August 20, 1998 IKIN<G® 1. PRODUCT NAME VIKING PNEUMATIC ACTUATOR Model H-1 Part No. 064598 Manufactured since 1986 Model R-1 * Part No. 09733 Manufactured since 1996 * The Model R-1 Pneumatic Actuator is similar to the H-1 except some components are specially plated for additional corrosion resistance and it has no listings or Approvals. 2. MANUFACTURER THE VIKING CORPORATION 210 N. Industrial Park Road Hastings, Michigan 49058 U.S.A. Telephone: (616) 945-9501 (877) 384-5464 Fax: (616) 945-9599 e-mail: techsvcs@vikingcorp.com 3. PRODUCT DESCRIPTION The Viking Pneumatic Actuator is a spring loaded to open, rolling dia- phragm, piston operated valve. It is used wherever a separation is required be- tween the detection and operating sys- tems. The pneumatic actuator is a re- quired component on systems using pneumatic detection to provide the separation between the air in the detec- tion system and the water in the valve operating trim. The Model H-1 Pneumatic Actuator is listed and Approved for use on Viking Pneumatic Release systems. The Model R-1 Pneumatic Actuator is similar to the H-1 except some components are specially plated for additional corrosion resistance and it has no listings or Ap- provals. FormNo.F_072589 TECHNICAL DATA 4. TECHNICAL DATA Approvals: Model H-1 U.L. Listed Guide No. VLTR U.L. Control No. 957 A C-UL Listed FM Approved Approvals: Model R-1 No Listings or Approvals Models H-1 and R-1: Rated to 250 PSI (1 724 kPa) water pressure Hydrostatically tested to 500 PSI (3 447 kPa) k Factor: 4.6 (6,62*) * Metric K Factor shown is for use when pressure is measured in kPa. When pressure is measured in BAR, multiply the metric K Factor shown by 10.0. Shipping Weight: 2 lbs. Materials: Cast Brass: UNS-C84400 Brass Bar Stock: UNS-C36000 Stainless Steel: UNS-S30200 Piston: Polycarbonate Diaphragm: Polyester Fabric and EPDM Elastomer 5. FEATURES Models H-1 and R-1: Corrosion resistant construction with minimum moving parts. The differential design allows low detection pressures to control high operating pressures. Model R-1: Some components are specially plated for additional corrosion resistance (see Table 1, page 237-b). 6. AVAILABILITY AND SERVICE The Viking Pneumatic Actuator is avail- able through a network of domestic, Ca- nadian, and international distributors. See the Yellow Pages of the telephone directory for a local distributor (listed un- der "Sprinklers-Automatic-Fire") or con- tact The Viking Corporation. Viking Technical Data may be found on The Viking Corporation's Web site at http://www.vikingcorp.com. The Web site may include a more recent edition of this Technical Data page. 7. GUARANTEES For details of warranty, refer to Viking's current list price schedule or contact Vi- king directly. The Model R-1 Pneumatic Actuators are without guarantee or warranty either ex- pressed or implied. 237a PNEUMATIC ACTUATOR Maximum 250 PSI (1 724 kPa) Water Working Pressure 8. OPERATION The Viking Pneumatic Actuator has an inlet, outlet and priming chamber. When pressure is applied to the priming cham- ber, the rolling diaphragm and piston assembly moves constricting the spring and sealing the inlet from the outlet. Pressure can then be applied to the inlet. Due to the differential design, a small amount of pressure in the priming cham- ber can control a higher inlet pressure. When the pressure in the priming cham- ber is released, the inlet pressure and spring forces the rolling diaphragm and piston assembly to move allowing the inlet pressure to run through the angle outlet. 9. MAINTENANCE Where difficulty in performance is expe- rienced, the valve manufacturer or his authorized representative shall be con- tacted if any field adjustment is to be made. WARNING Any system maintenance or testing which involves putting a control valve or detection system out of service may eliminate the fire protection of that system. Prior to proceeding, NO- TIFY all authorities having jurisdic- tion. Consideration should be given to employment of a fire patrol in the affected area. A. The Viking Pneumatic Actuator must be kept free of foreign matter and freezing conditions that could impair its operation. At regular intervals, at least annually, inspect and test the pneumatic actuator. The frequency of the inspections is dependent upon the condition of the water and release system. PRIOR TO PERFORMING ANY WORK ON THE PNEUMATIC AC- TUATOR, REFER TO SYSTEM DE- SCRIPTION FOR INSTRUCTIONS AND WARNINGS REGARDING THE FIRE PROTECTION SYSTEM AND RELEASE SYSTEM. B. Inspection 1. Place the fire protection system out of service. 2. Trip the Release System. 3. Drain any accumulated condensa- tion from the release system. 4. Purge the Release System of any foreign matter. 5. Place the Release System back in service. Replaces pages 237-238, dated July 25, 1989 (Added Model R-1 and 250 PSI (1 724 kPa) WWP Rating) and page 237a-b, dated July 9, 1998 (added c-UL listing of Model H-1). 237 b 6. Establish pressure on the pneu- matic actuator inlet. 7. Trip test the pneumatic actuator by activating a Pneumatic Re- lease. The pneumatic actuator should release the inlet pressure through the outlet. 8. Reset the Release System, then reset the Fire Protection System and secure all main control valves open. 9. Should the Pneumatic Release fail to trip or reset, remove it from service and disassemble. Clean and/or replace any dirty or worn parts and reinstall. Repeat the in- spection procedures. C. Disassembly (Refer to Figure 1, Page 237 b) 1. Place the Fire Protection System out of service. 2. Trip the Release System. 3. Remove the Pneumatic Actuator 4. Remove the three cover screws (6). CAUTION -The assembly is under spring tension. 5. Separate the Cover (4) from the lower assembly. 6. Separate the upper Diaphragm (3), Piston (5), lower Diaphragm (7), Spring Pad (8) from the Body (1 ). 7. Clean and/or replace dirty or worn parts. 8. If required, remove the Valve Seat (10) from the Body (1) and replace. D. Reassembly 1. Reverse the Disassembly Proce- dure, making sure that the Burr side of the Spring Pad (8) is to- ward the Spring, away from the lower Diaphragm (7). 2. Purge all Trim Piping of foreign matter. 3. Reinstall the Pneumatic Actuator and Trim piping. 4. Repeat inspection procedures 5. Check and repair all leaks 6. Reset the Release System, then reset the Fire Protection System and secure all main control valves open. 10-INSTALLATION INSTRUCTIONS A. Remove all thread protector inserts from the device. B. The Pneumatic Actuator requires three 1/2" (15mm) NPT pipe connec- TECHNICAL DATA lions. Refer to System Trim Charts for piping arrangement. C. When used with a Viking Deluge or Flow Control Valve, connect the inlet to the Pressure Operated Relief Valve or the Flow Control Valve prim- ing chamber. Connect the outlet to an open drain or as indicated in the Sys- tem Piping Diagrams. Connect the priming chamber to the pneumatic re- lease system. A tee connection is desirable to allow the release line to August 20, 1998 PNEUMATIC ACTUATOR Maximum 250 PSI (1 724 kPa) Water Working Pressure be drained of condensation or purged. D. Set the release line air pressure at a minimum 30 PSI (207 kPa) for system water pressures up to 175 PSI (1 207 kPa), and at a minimum 50 PSI (345 kPa) for system water pressures above 175 PSI ( 1 207 kPa) up to a maximum of 250 PSI (1 724 kPa). WARNING -If pressure should back up through the outlet, the Pneumatic Actuator may operate. PriMing ChQMber_~ 112· <15 MM) NPT 4 ~~~ ~~ 0l~~r ~ ' ' 6 ~' Ni, , , ~ \ ~ ~~ J !',"'-.','\.,,:~,:~ )(_ ' J \ " ' 3-1/4' ' I / / ' ' 7 <82,6! ~::let--~ '~ 'V "'--~ A'" ~''<;;' 8 l/2' <15 MM) NPT ~ / '--! ;Lrt~'<s '~ / \ / ' ' l,"\:,',>,"'', ' /.,, 9 ~ ' / /~ ~-// 10 '/ 1,/ //,,-1 Inlet j 1/2' (15 r1r1) NPT I 3-1/8' Dia. (79,4 MM) ITEM PART NUMBER MATERIAL NO. NO. H-1 R-1 DESCRIPTION H-1 R-1 REQ'D. Body Brass Brass· 1 ----UNS-C84400 UNS-C84400 1 Spacer Brass Brass* 1 2 ----UNS-C84400 UNS-C84400 3 04735A 04735A Upper Diaphragm EPDM/Polyester EPDM/Polyester 1 Fabric Fabric Cover Brass Brass• 4 ----UNS-C84400 UNS-C84400 1 5 04736A 04736A Piston Polycarbonate Polycarbonate 1 Hex Head Screw, Steel Stainless Steel 6 04732A 06228A #10-24 X 1-1/4" Lg Zinc Coated UNS-S31600 3 EPDM/Polyester EPDM/Polyester 1 7 04861A 04861A Lower Diaphragm Fabric Fabric Stainless Steel 8 04739A 06227A Spring Pad U NS-S30200/ Monel #400 1 UNS-S30400 9 04741A 06224A Spring Stainless Steel lnconel #600 UNS-S30200 1 10 06464B 06464BJ Seat Brass Brass .. UNS-C36000 UNS-C36000 1 • Electroless Nickel plated, Model R-1 only •• Nickel and Tin plated, Model R-1 only --Indicates part is not available Table 1 Replaces pages 237-238, dated July 25, 1989 (Added Model R-1 and 250 PSI (1 724 kPa) WWP Rating) and page 237a-b, dated July 9, 1998 (added c-UL listing of Model H-1). Form No. F _072589 J (_ (_ C July 9, 1998 1. PRODUCT NAME High Pressure Solenoid Valve Base Part Number: 10199 Manufactured since 1998 2. MANUFACTURED FOR THE VIKING CORPORATION 210 N. Industrial Park Road Hastings, Michigan 49058 U.S.A. Telephone: (616) 945-9501 (800) 968-9501 Fax Number: (616) 945-9599 e-mail: techsvcs@vikingcorp.com 3. PRODUCT DESCRIPTION The high pressure solenoid valve is a two way type with one inlet and one outlet. It is a packless, internal pilot op- erated valve, suitable for use in releas- ing water pressure from the priming chamber of Viking Model E Series Del- uge Valves and Viking Model H Series Flow Control Valves. The solenoid valve has floating diaphragm construc- tion which requires a minimum pressure drop across the valve to operate prop- erly. This valve is available normally closed and has a voltage rating of 24 volt DC. This solenoid valve is for use with system control units that are listed and/or approved for releasing service for water based fire protection systems. 4. TECHNICAL DATA Approvals: CE: See Chart, page 217 b Materials: Body: Brass with 1/2" (15mm) NPT connections Seals and Discs: Buna N Core Tube: 305 Stainless Steel Core and Plugnut: 430F Stainless Steel Springs: 302 Stainless Steel Coil: Class H; Continuous Duty Maximum Operating Pressure: 250 PSI (1 724 kPa) Minimum Operating Pressure: 5 PSI (34,5 kPa) See Table for Enclosure Descriptions and recommended ambient tempera- tures. Form No. F 052689 TECHNICAL DATA Manufacturer: Automatic Switch Com- pany (ASCO) Straight Body Styles are ASCO Bulletin 8210 Diaphragm T,¥pe Valves (Red- Hat® or Red-Hat II Models) 5. FEATURES AND ACCESSORIES a. Normally closed. b. 24 VDC. c. Easy to clean. d. Required Accessories -a 50 mesh strainer must be installed on the inlet side of the valve. This strainer is included as part of the Model E-1 Deluge Valve Trim and Model H Folow Control Valve Trim. 6. OPERATION The solenoid valve is an internal pilot operated valve with pilot and bleed ori- fices utilizing line pressure for operation. Normally closed de-energized valves open when energized. Power is applied to the solenoid coil causing the solenoid core to lift, opening the pilot orifice to the outlet side of the valve. This relieves pressure on the top side of the dia- phragm and allows the line pressure to open the valve. When de-energized, the solenoid core reseals the pilot orifice, allowing the line pressure to build above the diaphragm, closing the valve. Normally closed solenoid valves are commonly used as releases for Viking deluge and flow control valves. Opening the solenoid valve allows the deluge or flow control valve to open. Note: When using a normally closed so- lenoid valve as a release, a system will not operate automatically on total loss of power. For this reason it is recom- mended and normally required that an emergency back up, supervised power supply be provided to maintain fire pro- tection during interruptions of the main power system and to meet the require- ments of appropriate Authorities Having Jurisdiction. 7. AVAILABILITY AND SERVICE The solenoid valve is available through a network of domestic and international distributors, see the Yellow Pages of the telephone directory for closest distribu- tor (listed under "Sprinklers Automatic Fire") or contact The Viking Corporation directly. Viking Technical Data may be found on The Viking Corporation's Web site at http://www.vikingcorp.com. The Web site may include a more recent edition of this Technical Data page. 217 a HIGH PRESSURE SOLENOID VALVE Maximum 250 PSI (1 724 kPa) Water Working Pressure 8. GUARANTEES For details of warranty, refer to Viking's current list price schedule or contact Vi- king directly. 9. MAINTENANCE WARNING: The owner is responsible for maintaining the fire protection system in proper op- erating condition. Any system maintenance or testing which involves placing a control valve or detection system out of service may eliminate the Fire Protection of that sys- tem. Prior to proceeding notify all Authorities Having Jurisdiction. Consid- eration should be given to employment of a Fire Patrol in the affected area. Warning: Prior to operating the solenoid valve, be sure to close the system con- trol valve to avoid unintentional opera- tion of the deluge valve. a. Inspections -It is imperative that the system be inspected and tested on a regular basis. The frequency of the inspections may vary due to contami- nated water supplies, corrosive water supplies or corrosive atmospheres. In addition, the alarm devices, detec- tion systems or other connected trim may require a more frequent sched- ule. Refer to the system description and applicable codes for minimum requirements. b. The valve must be operated at least monthly. The valve must open and close freely. When open, the water flow must be clear and clean at the proper flow rate. When closed, a total water shut off must be observed. Af- ter the test, the strainer must be cleaned. Prior to cleaning the strainer, the priming line valve must be closed and the priming line de- pressurized. After the strainer is cleaned, the priming line valve must be reopened. c. The valve must be inspected at least monthly for cracks, corrosion, leak- age, etc., and cleaned, repaired or replaced as necessary. d. At least annually, the valve dia- phragms and seats must be in- spected and if necessary, repaired or replaced. WARNING: Close system control valve, turn off power supply and de- pressurize valve before disassem- bling valve. It is not necessary to remove the valve from the pipe line to make inspections. Replaces page 217a-b, dated March 7, 1996 217 b e. When lubricating valve components use a high jade silicone grease (Dow Coming 111 Compound Lu- bricant or equal). f. When reassembling, tighten parts to torque values indicated in ASCO's maintenance instructions (packed with valve). g. After maintenance is completed, op- erate the valve a few times to be sure of proper operation. A metallic "click" signifies the solenoid is operating. h. It is recommended that the valve be replaced at seven (7) year intervals. Shorter intervals may be required if the valve is subject to corrosive water supplies or atmospheres. i. All service must be performed by qualified personnel. Upon comple- tion of inspections or replacement of the valve the entire system must be Viking ASCO Enclosure Part Orf. TECHNICAL DATA checked for proper operation. See appropriate system description and testing instructions for additional in- formation. 10. INSTALLATION a. Check nameplate for correct unit in- cluding voltage and mode of opera- tion. Follow all installation and main- tenance instructions enclosed with the valve. b. Standard solenoids may be mounted in any position. However, for opti- mum life and performance, solenoids should be mounted vertically and up- right with the coil upright. c. A 50 mesh strainer is required on the inlet side of the valve. This strainer is included as part of the Model E-1 Deluge Valve Trim. Install the strainer as indicated on Viking's trim drawing. Install the solenoid accord- Minimum Operating Watts DC Pressure Catalogue :,~ Type Description Voltage Number Number (NEMA Ratlng)2 (De-<!nerglzed) AMPS Dtfferentlal3 10199 HV274060-001 314• Straight 1, 2. 3. 3S NC 24DC 22.6 DC 942mA 5 PSI 4& 4X (34,5 kPa) July 9, 1998 HIGH PRESSURE SOLENOID VALVE Maximum 250 PSI (1 724 kPa) Water Working Pressure ing to markings on the valve body. Apply pipe compound sparingly to male pipe threads only. If applied to valve threads, it may enter the valve and cause operation difficulty or leak- age. Avoid putting pipe compound on first two male threads as well. d. The unit must be wired in accordance with Local and National Electrical Codes. For valves equipped with water tight enclosures, the electrical fittings must be approved for use in the hazardous location. e. Upon completing the installa- tion the entire system must be tested for proper operation. See sys- tem description and testing instruc- tions for additional information. Maximum Listings/ Approvals Ambient Cv Temp4 Factor UL CSA' FM' NYC 130°F 4.0 Yes Yes Yes .. (54"C) 1 0/erall take-out (end ol inlet nipple to end of outlet nipple)= 2-13/16" (71,4 mm). All valves have 1/2" (15 mm) NPT connections. 2 Enclosure Type: 1 (General Purpose), 2 (Drip Proof), 3 & 3S (Rain Tight), 4 & 4X (Watertight), 6 & 6P (Submersible), 7 (Explosion Proo!, Class t, Groups A, B, C, D), 9 (Dust Ignition Proof Class II, Groups E, F, G) 3 Minimum operating pressure differential is that required to open valve and keep it open. The valve will start to close below the minimum operating pressure differefltial. 4 Minimum Ambient Temperature for all valves is 40"F (4 'C). Manufacturer's recommended maximum ambient temperatures are determined under continuously energized conditions with maximum fluid temperatures in the valves. Actual conditions (such as normally closed and normally de-energized with room temperature water in the tine) will permit use at considerably higher ambient temperatures. 5 CSA recognized to CSA Standards C22.2 No. 0 and No. 129. Explosion proof versions are CSA recognized to CSA Standards C22.2 Nos. o, 139, 25 and 30. They are certified for hazardous locations Class I, Groups C & D, Class II, Groups E, F, G. 6 FM Approved as a component of Viking 250 PSI (1 724 kPa) electrically released Deluge, Preaction, and Flow Control systems. Replaces page 217a-b, dated March 7, 1996 Form No. F_052689 (_ l. C July 9, 1998 1. PRODUCT NAME Replacement Solenoid Valves For Maximum 175 PSI (1 207 kPa) WWP 2. MANUFACTURED FOR THE VIKING CORPORATION 210 N. Industrial Park Road Hastings, Michigan 49058 U.S.A. Telephone: (616) 945-9501 (800) 968-9501 Fax Number: (616) 945-9599 e-mail: techsvcs@vikingcorp.com 3. PRODUCT DESCRIPTION The solenoid valves are two way type with one inlet and one outlet. They are packless, internal pilot operated valves suitable for use in releasing water pres- sure from the priming chamber of Viking Model E-1 and E-2 Deluge Valves and Model H-1 and H-2 Flow Control Valves. They have either floating diaphragm or piston type construction which requires a minimum pressure drop across the valve to operate properly. Both normally closed and nonmally open valves are available. Although these valves are available in several voltages, 24 volt DC and 120 VAC models are normally stocked. These valves are to be used with system control units that are listed/approved for releasing service for water based fire protection systems. 4. TECHNICAL DATA Materials: Body: Brass with 1/2" (15mm) NPT connections Seals and Discs: Buna-A or Ethylene Propylene Core Tube: 305 Stainless Steel Core and Plugnut: 430F Stainless Steel Springs: 302 Stainless Steel Coil: Class F or H; Continuous Duty Maximum Operating Pressure: 175 Psi (1 207 Kpa) See Table for Enclosure Descriptions and recommended ambient tempera- tures. Manufacturer: Automatic Switch Com- pany (ASCO) Form No. F _052689 TECHNICAL DATA Straight Body Styles are ASCO Bulletin 821~ Diaphragm TJpe Valves (Red- Hat or Red-Hat II Models) Angle Body Styles are ASCO Bulletin 8223 Piston Type Valves (Red-Hat® Model) 5. FEATURES AND ACCESSORIES a. Available normally open or normally closed. b. Available in several voltages. c. Easy to clean. d. Required Accessories -a 50 mesh strainer must be installed on the inlet side of the valve. This strainer is included as part of the Model E-1 Deluge Valve Trim And Model H Flow Control Valve Trim. 6. OPERATION The solenoid valves are internal pilot operated valves with pilot and bleed ori- fices utilizing line pressure for operation. Normally closed de-energized valves open when energized. Power is applied to the solenoid coil causing the solenoid core to lift, opening the pilot orifice to the outlet side of the valve. This relieves pressure on the top side of the dia- phragm or piston and allows the line pressure to open the valve. When de-en- ergized, the solenoid core reseals the pilot orifice, allowing the line pressure to build above the diaphragm or piston, closing the valve. Normally-open de-energized valves close when energized. When power is applied to the solenoid coil the solenoid core seals the pilot orifice allowing the line pressure to build above the dia- phragm or piston causing the valve to close. When de-energized the solenoid core opens the pilot orifice to the outlet side of the valve. This relieves pressure on the top side of the diaphragm or pis- ton and allows the line pressure to open the valve. Normally closed solenoid valves are commonly used as releases for Viking deluge and flow control valves. Opening the solenoid valve allows the deluge or flow control valve to open. 217 C SOLENOID VALVES Maximum 175 PSI (1 207 kPa) Water Working Pressure Not for use with 250 PSI (1 724 kPa) Trim Note: When using a normally closed so- lenoid valve as a release, a system will not operate automatically on total loss of power. For this reason it is recom- mended and normally required that an emergency back up, supervised power supply be provided to maintain fire pro- tection during interruptions of the main power system and to meet the require- ments of appropriate Authorities Having Jurisdiction. When nonmally open solenoid valves are used as releases for deluge or flow control valves, they must be energized constantly to maintain systems in the set condition, any loss or interruption of power to the solenoid valve will allow the system to trip. Normally open solenoids are used as releases in special applica- tions requiring a fail-safe, system tripped, condition on total loss of power. An example of the principal would be Vikings's Firecycle II system. Care must be taken in selecting the appropriate normally open or nonmally closed sole- noid valve to ensure desired protection, from fire and accidental system opera- tion, is achieved. 7. AVAILABILITY AND SERVICE The solenoid valve is available through a network of domestic and international distributors, see the Yellow Pages of the telephone directory for closest distribu- tor (listed under "Sprinklers Automatic Fire") or contact The Viking Corporation directly. Viking Technical Data may be found on The Viking Corporation's Web site at http://www.vikingcorp.com. The Web site may include a more recent edition of this Technical Data page. 8. GUARANTEES For details of warranty, refer to Viking's current list price schedule or contact Vi- king directly. 9. MAINTENANCE WARNING The owner is responsible for maintaining his fire protection system in proper oper- ating condition. Any system maintenance or testing which involves placing a control valve or detection system out of service may eliminate the Fire Protection of that sys- tem. Prior to proceeding notify all Authorities Having Jurisdiction. Consid- eration should be given to employment of a Fire Patrol in the affected area. Warning: Prior to operating the solenoid valve, be sure to close the system con- Replaces page 217a-b, dated March 7, 1996 217 d '\IIKIN<G. trol valve to avoid unintentional opera- tion of the deluge valve. a. Inspections -It is imperative that the sys- tem be inspected and tested on a regular basis. The frequency of the inspections may vary due to contaminated water sup- plies, corrosive water supplies or corro- sive atmospheres. In addition, the alarm devices, detection systems or other con- nected trim may require a more frequent schedule. Refer to the system description and applicable codes for minimum re- quirements. b. The valve must be operated at least monthly. The valve must open and close freely. When open, the water flow must be clear and clean at the proper flow rate. When closed, a total water shut off must be observed. After the test, the strainer must be cleaned. Prior to cleaning the strainer, the priming line valve must be closed and the priming line depressurized. After the strainer is cleaned, the priming line valve must be reopened. c. The valve must be inspected at least monthly for cracks, corrosion, leakage, etc., and cleaned, repaired or replaced as necessary. d. At least annually, the valve diaphragms and seats must be inspected and if neces- sary, repaired or replaced. WARNING: Close system control valve, I Viking ASCO Enclosure Part Catalogue Bod)-Type Number Number Ort. Style7 (NEMA Ratlng)1 01412A T8210A107 518 Straight 1 07832 HV2648571 1/2 Straight 1, 2, 3, 3S, 4, 4X 07833 HV2648571 1/2 Straight 1, 2, 3, JS, 4, 4X 07830 HV2648572 1/2 Straight 3, 3S, 4, 4X, 6, 6P, 7, 9 07834 HV2648572 112 Straight 3, 3S, 4, 4X, 6, 6P, 7, 9 04895A WPHTX8223· 3/8 Angle 3, 4, 4X, 6 A3EN0 07831 HV2648581 1/2 Straight 1, 2, 3, 3S, 4, 4X 07829 HV2648582 1/2 Straight 3, 3S, 4, 4X, 6 6P, 7, 9 TECHNICAL DATA tum off power supply and depressurize valve before disassembling valve. It is not necessary to remove the valve from the pipe line to make inspections. e. When lubricating valve components use t high grade silicone grease (Dow Corning 111 Compound Lubricant or equal). f. When reassembling, tighten parts to torque values indicated in ASCO's maintenance instructions (packed with valve). g. After maintenance is completed, operate the valve a few times to be sure of proper operation. A metallic "click" signifies the solenoid is operating. h. It is recommended that the valve be re- placed at seven (7) year intervals. Shorter intervals may be required if the valve is subject to corrosive water supplies or at- mospheres. All service must be performed by qualified personnel. Upon completion of inspec- tions or replacement of the valve the entire system must be checked for proper opera- tion. See appropriate system description and testing instructions for additional infor- mation. 10. INSTALLATION a. Check nameplate for correct unit including voltage and mode of operation. Follow all Minimum Operating Descrlptton DC Pressure (Deenerglzed) Voltage Watts AMPS Dlfferentlal' NC 24VDC 16.8 700mA Spsi (34,5 kPa) NC 24VOC 10.6 442mA 5psi (34,5 kPa) NC 120V 9.5 " 5 psi 60 Hz (34,5 kPa) 110V 11.5 " 50 H, NC 24VOC 10.6 442mA 5 psi (34,5 kPa) NC 120V 9.5 " 5 psi 60 Hz (34,5 kPa) 110V 11.5 " 50Hz NO 24VDC 16.8 700mA 5psi (172,4 kPa) NO 24VDC 10.6 442mA 5psi (34,5 kPa) NO 24VDC 10.6 442mA 5 psi (34,5 kPa) July 9, 1998 SOLENOID VALVES Maximum 175 PSI (1 207 kPa) Water Working Pressure Not for use with 250 PSI (1 724 kPa) Trim installation and maintenance instructions enclosed with the valve. b. Standard solenoids may be mounted in any position. However, for optimum life and performance, solenoids should be mounted vertically and upright with the coil upright. Explosion proof solenoids must have the coil upright. c. A 50 mesh strainer is required on the inlet side of the valve. This strainer is included as part of the Model E-1 Deluge Valve Trim. Install the strainer as indicated on Viking's trim drawing. Install the solenoid according to markings on the valve body. Apply pipe compound sparingly to male pipe threads only. If applied to valve threads, it may enter the valve and cause operation difficulty or leakage. Avoid put- ting pipe compound on first two male threads as well. d. The unit must be wired in accordance with Local and National Electrical Codes. For valves equipped with explosion-proof and water tight enclosures, the electrical fit- tings must be approved for use in the hazardous location. e. Upon completing the installation the entire system must be tested for proper operation. See system description and testing instructions for additional infor- mation. Listings/Approvals Maximum For 175 PSI (1 207 kPa) WWP Ambient Cv Temp2 Factor UL CSA4 FM NYC 77°F 4 Yes3 -Yes" Yes (25"C) 104°F 3 Yes3 Yes (40"C) 125°F 3 Yes3 Yes (52"C) 104°F 3 Yes5 Yes - (40"C) 125"F 3 Yes5 Yes (52"C) 77°F 3.2 Yes9 Yes6 Yes6 (25"C) 104°F 3 Yes5 Yes -(40"C) 104°F 3 Yes5 Yes - (40"C) 1 Enclosure Type 1 (General Purpose), 2 (DripProof), 3 & 3S (Raintight), 4 & 4X (Watertight), 6 & 6P (Submersible), 7 (Explosion Proof, Class I, Groups A B, C, D), 9 (Dust Ignition Proof Class II, Groups E, F, G) 2 Minimum Ambient Temperature for all valves ·Is 32°F (0'C). Manufacturer's recommended maximum ambient temperatures are determined under continuously energized conditions with maximum fluid temperatures in the valves. Actual conditions (such as normally closed and normally de-energized with room temperature water in the line) will permit use at considerably higher ambient temperatures. 3 UL Listed as Safety Shutoff (UL429) and Fire Protection Special System Water Control• Releasing Service (UL429A • Product Category VL TR) ~ CSA recognized_ to CSA Standards C22.2 No. 0 and No. 129. Explosion proof versions are CSA recognized to CSA Standards C22.2 Nos. 0, 139, 25 and 30. They are certified for hazardous locations Class I, Groups C & D, Class II, Groups E, F, G. 5 UL Listed as a general purpose valve under UL 429, "Electrically Operated Valves•. Explosion Proof versions are listed !or hazardous locations Class I, Groups C, D; Class II, Groups E, F, G. 6 FM Approved an an integral part of Firecycle II System. 7 All straight body styles are Red Hat II Models with an overall take-out (end of inlet nipple to end of outlet nipple)= 1-1/6" (27 mm) except Part Number 01412A which is a Red Hat Model w~th an overall t~ke-out (end of inlet n_ipple to end of outlet nipple)= 1-3,'4" (44,5 mm). All valves have 1/2" (15 mm) NPT connections. 6 M1rnmum operating pressure differential is that required to open valve and keep it open. The valve will start to close below the minimum operating pressure differential. 9 UL Listed for use with Viking Model A-1 Release Control Panel. 1° For AC voNages, in rush current (ie to start plunger moving)= 28 volt amps. Holding curren1 (ie to hold plunger open)= 23 volt amps. 11 FM Approved as a component of Viking 175 PSI (1 207 kPa) electrically released Deluge, Preaction, and Flow Control systems. Replaces page 217a-b, dated March 7, 1996 Form No. F_052689 N & D FIRE PROTECTION, INC. P.O. BOX 90952 CITY OF INDUSTRY CA 91715 HYDRAULIC CALCULATIONS FOR 24 HOUR FITNESS 2234 RUTHERFORD RD. CARLSBAD, C.A. FILE NUMBER: 98-0293 MAY 11, 1999 -DESIGN DATA- OCCUPANCY CLASSIFICATION: LIGHT DENSITY: .10 HAZARD gpm NUMBER OF SPRINKLERS CALC.ULATED: 29 HEADS TOTAL SPRINKLER WATER FLOW REQUIRED: 587.1 TOTAL WATER REQUIRED (including hose): 687.1 FLOW AND PRESSURE (@ BOR): 487.3 SPRINKLER ORIFICE SIZE: 1/2 NAME OF CONTRACTOR: N & D FIRE PROTECTION,INC DESIGN/LAYOUT BY: ALEX ARGUMEDO gpm gpm gpm@ inch 76.4 psi AUTHORITY HAVING JURISDICTION: CITY OF CARLSBAD FIRE PREVENTION CONTRACTOR CERTIFICATION NUMBER: 657954 CALCULATIONS BY HASS COMPUTER PROGRAM (LICENSE# 817C980 HRS SYSTEMS, INC. ATLANTA, GA SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 1 Date: 05/11/1999 24HOUR.SDF JOB TITLE: 24hour WATER SUPPLY DATA SOURCE STATIC RESID. FLOW AVAIL. TOTAL REQ'D NODE PRESS. PRESS. @ PRESS. @ DEMAND PRESS. TAG (PSI) (PSI) (GPM) (PSI) (GPM) (PSI) SRC 120.0 115.0 1530.0 119.1 587.1 82.4 AGGREGATE FLOW ANALYSIS: TOTAL FLOW AT SOURCE 587.1 GPM TOTAL HOSE STREAM ALLOWANCE AT SOURCE 100.0 GPM OTHER HOSE STREAM ALLOWANCES 0.0 GPM TOTAL DISCHARGE FROM ACTIVE SPRINKLERS 487.1 GPM ~ODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE (FT) (PSI) (GPM) 1 16.2 K= 5.50 7.0 14.6 2 16.0 ----7.5 --- 3 16.0 ----7.5 --- 4 16.2 K= 5.50 7.1 14.6 5 16.0 ----7.6 --- 6 16.2 K= 5.50 7.1 14.7 7 15.0 ----9.0 --- 8 16.0 ----7.8 --- 9 16.2 K= 5.50 7.3 14.9 10 16.0 ----7.8 --- 11 16.2 K= 5.50 7.3 14.9 12 16.2 K= 5.50 7.0 14.6 13 16.0 ----7.5 --- 14 16.0 ----7.5 --- 15 16.2 K= 5.50 7.0 14.6 16 16.0 ----7.6 --- 17 16.2 K= 5.50 7.1 14.7 18 15.0 ----9.2 --- 19 16.0 ----7.6 --- 20 16.2 K= 5.50 7.2 14.7 21 16.0 ----7.7 --- 22 16.2 K= 5.50 7.2 14. 7 23 16.0 ----7.7 --- 24 16.2 K= 5.50 7.6 15.1 25 16.2 K= 5.50 7.7 15.3 26 16.0 ----8.2 --- 27 16.0 ----8.3 --- 28 16.2 K= 5.50 7.7 15.3 29 16.0 ----8.4 --- 30 16.2 K= 5.50 7.9 15.4 31 15.0 ----10.0 --- 32 16.0 ----8.4 --- 33 16.2 K= 5.50 7.9 15.5 34 16.0 ----8.5 --- SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 2 Date: 05/11/1999 24HOUR.SDF JOB TITLE: 24hour NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE (FT) (PSI) (GPM) 35 16.2 K= 5.50 7.9 15.5 36 16.0 ----8.5 --- 37 16.2 K= 5.50 8.0 15.5 38 16.0 ----8.9 --- 39 16.2 K= 5.50 8.3 15.9 40 16.0 ----9.6 --- 41 16.2 K= 5.50 9.0 16.5 42 15.0 ----11. 5 --- 43 16.2 K= 5.50 9.9 17.3 44 16.0 ----10.6 --- 45 16.0 ----10.6 --- 46 16.2 K= 5.50 10.0 17.4 47 16.0 ----10.7 --- 48 16.2 K= 5.50 10.1 17.5 49 15.0 ----12.1 --- ,50 16.0 K= 5.50 11. l 18.3 51 16.2 ----11. 0 --- 52 15.0 ----18.1 --- 58 16.2 K= 5.50 14.6 21. 0 59 16.0 ----15.5 --- 60 16.0 ----15.5 --- 61 16.2 K= 5.50 14. 7 21. l 62 16.0 ----15.7 --- 63 16.2 K= 5.50 14.9 21. 2 64 15.0 ----17.5 --- 65 16.0 ----16.3 --- 66 16.2 K= 5.50 15.4 21. 6 PREIN 4.0 43.3 --- PREOUT 3.0 ----36.3 --- 67 16.0 ----68.4 --- 68 16.2 K= 5.50 16.1 22.0 69 15.0 ----18.7 --- 70 16.2 K= 5.50 17.0 22.7 71 15.0 20.1 --- A 16.0 ----7.9 --- B 16.0 7.9 --- C 16.0 8.7 --- E 16.0 11.2 --- G 16.0 16.4 --- TOR 16.0 69.3 --- UGl -3.0 78.1 --- UG2 -3.0 78.2 --- UG3 -3.0 81. 9 --- DCOUT 3.0 75.9 --- DCIN 3.0 78.9 --- SRC -3.0 SOURCE 82.4 487.1 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 3 Date: 05/11/1999 24HOUR.SDF JOB TITLE: 24hour PIPE DATA PIPE TAG Q(GPM) DIA ( IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW (C) (FT) SUM. NODES (FT) ( K) (PSI) (GPM) F.L./FT (PSI) Pipe: 1 -14.6 1. 049 PL 0.20 PF 0.4 1 16.2 5.5 7.0 14.6 5.4 100 FTG T PE 0.1 2 16.0 0.0 7.5 0.0 0.102 TL 3.77 PV 0.2 Pipe: 2 -14.6 2.157 PL 8.00 PF 0.0 2 16.0 0.0 7.5 0.0 1. 3 100 FTG PE 0.0 3 16.0 0.0 7.5 0.0 0.003 TL 8.00 PV 0.0 Pipe: 3 -29.2 2.157 PL 8.00 PF 0.1 3 16.0 0.0 7.5 0.0 2.6 100 FTG PE 0.0 5 16.0 0.0 7.6 0.0 0.011 TL 8.00 PV 0.0 P:i.pe: 4 -14.6 1. 049 PL 0.20 PF 0.4 4 16.2 5.5 7.1 14.6 5.4 100 FTG T PE 0.1 3 16.0 0.0 7.5 0.0 0.102 TL 3.77 PV 0.2 Pipe: 5 -43. 9 2.157 PL 5.66 PF 0.3 5 16.0 0.0 7.6 0.0 3.9 100 FTG T PE 0.0 A 16.0 -0. 0 7.9 0.0 0.023 TL 14.22 PV 0.1 Pipe: 6 -14.7 1.049 PL 0.20 PF 0.4 6 16.2 5.5 7.1 14.7 5.5 100 FTG T PE 0.1 5 16.0 0.0 7.6 0.0 0.103 TL 3.77 PV 0.2 Pipe: 7 -73. 7 2.703 PL 10.00 PF 0.2 7 15.0 0.0 9.0 0.0 4.1 100 FTG PE 0.0 18 15.0 0.0 9.2 0.0 0.020 TL 10.00 PV 0.1 Pipe: 8 -14. 9 2.157 PL 6.00 PF 0.0 8 16.0 0.0 7.8 0.0 1. 3 100 FTG PE 0.0 10 16.0 0.0 7.8 0.0 0.003 TL 6.00 PV 0.0 Pipe: 9 -14 .. 9 1.049 PL 0.20 PF 0.4 9 16.2 5.5 7.3 14.9 5.5 100 FTG T PE 0.1 8 16.0 0.0 7.8 0.0 0.106 TL 3.77 PV 0.2 Pipe: 10 -29.8 2.157 PL 1.00 PF 0.1 10 16.0 0.0 7.8 0.0 2.6 100 FTG T PE 0.0 A 16.0 0.0 7.9 0.0 0.011 TL 9.56 PV 0.0 Pipe: 11 -14.9 1. 049 PL 0.20 PF 0.4 11 16.2 5.5 7.3 14.9 5.5 100 FTG T PE 0.1 10 16.0 0.0 7.8 0.0 0.106 TL 3.77 PV 0.2 Pipe: 12 -14.6 1. 049 PL 0.20 PF 0.4 12 16.2 5.5 7.0 14. 6 5.4 100 FTG T PE 0.1 13 16.0 0.0 7.5 0.0 0.101 TL 3.77 PV 0.2 Pipe: 13 -14.6 2.157 PL 8.00 PF 0.0 13 16.0 0.0 7.5 0.0 1. 3 100 FTG PE 0.0 14 16.0 0.0 7.5 0.0 0.003 TL 8.00 PV 0.0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 4 Date: 05/11/1999 24HOUR.SDF JOB TITLE: 24hour PIPE DATA (cont.) PIPE TAG Q(GPM) DIA ( IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW (C) (FT) SUM. NODES (FT) ( K) (PSI) (GPM) F.L./FT (PSI) Pipe: 14 -29.1 2.157 PL 8.00 PF 0.1 14 16.0 0.0 7.5 0.0 2.6 100 FTG PE 0.0 16 16.0 0.0 7.6 0.0 0.011 TL 8.00 PV 0.0 Pipe: 15 -14. 6 1. 049 PL 0.20 PF 0.4 15 16.2 5.5 7.0 14.6 5.4 100 FTG T PE 0.1 14 16.0 0.0 7.5 0.0 0.102 TL 3.77 PV 0.2 Pipe: 16 -43.8 2.157 PL 5.66 PF 0.3 16 16.0 0.0 7.6 0.0 3.8 100 FTG T PE 0.0 B 16.0 0.0 7.9 0.0 0.023 TL 14.22 PV 0.1 Pipe: 17 -14.7 1 .. 049 PL 0.20 PF 0.4 17 16.2 5.5 7.1 14.7 5.4 100 FTG T PE 0.1 16 16.0 0.0 7.6 0.0 0.103 TL 3.77 PV 0.2 Pipe: 18 -162.0 2.703 PL 10.25 PF 0.9 18 15.0 0.0 9.2 0.0 9.1 100 FTG PE 0.0 31 15.0 0.0 10.0 0.0 0.087 TL 10.25 PV 0.6 Pipe: 19 -14. 7 2.157 PL 6.00 PF 0.0 19 16.0 0.0 7.6 0.0 1.3 100 FTG PE 0.0 21 16.0 0.0 7.7 0.0 0.003 TL 6.00 PV 0.0 Pipe: 20 -14.7 1. 049 PL 0.20 PF 0.4 20 16.2 5.5 7.2 14.7 5.5 100 FTG T PE 0.1 19 16.0 0.0 7.6 0.0 0.103 TL 3.77 PV 0.2 Pipe: 21 -29.5 2.157 PL 2.00 PF o.o 21 16.0 0.0 7.7 0.0 2.6 100 FTG PE 0.0 23 16.0 0.0 7.7 0.0 0.011 TL 2.00 PV 0.0 Pipe: 22 -14.7 1. 049 PL 0.20 PF 0.4 22 16. 2. 5.5 7.2 14.7 5.5 100 FTG T PE 0.1 21 16.0 0.0 7.7 0.0 0.104 TL 3.77 PV 0.2 Pipe: 23 -44.6 2.157 PL 1.00 PF 0.2 23 16.0 0.0 7.7 0.0 3.9 100 FTG T PE 0.0 B 16.0 0.0 7.9 0.0 0.024 TL 9.56 PV 0.1 Pipe: 24 -15.1 2.157 PL 0.20 PF 0.0 24 16.2 5.5 7.6 15.1 1. 3 100 FTG T PE 0.1 23 16.0 0.0 7.7 • 0. 0 0.003 TL 8.76 PV o.o Pipe: 25 -15.3 1. 049 PL 0.20 PF 0.4 25 16.2 5.5 7.7 15.3 5.7 100 FTG T PE 0.1 26 16.0 0.0 8.2 0.0 0.111 TL 3.77 PV 0.2 Pipe: 26 -15.3 2.157 PL 8.00 PF 0.0 26 16.0 0.0 8.2 0.0 1. 3 100 FTG PE 0.0 27 16.0 0.0 8.3 0.0 0.003 TL 8.00 PV 0.0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 5 Date: 05/11/1999 24HOUR.SDF JOB TITLE: 24hour PIPE DATA (cont.) PIPE TAG Q (GPM) DIA ( IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL{FPS} HW (C} (FT} SUM. NODES (FT} {K) (PSI) (GPM) F.L./FT (PSI) Pipe: 27 -30.6 2.067 PL 8.00 PF 0.1 27 16.0 0.0 8.3 0.0 2.9 100 FTG PE 0.0 29 16.0 0.0 8.4 0.0 0.015 TL 8.00 PV 0.1 Pipe: 28 -15.3 1. 049 PL 0.20 PF 0.4 28 16.2 5.5 7.7 15.3 5.7 100 FTG T PE 0.1 27 16.0 0.0 8.3 0.0 0.111 TL 3.77 PV 0.2 Pipe: 29 -46,0 2.157 PL 5.66 PF 0.4 29 16.0 0.0 8.4 0.0 4.0 100 FTG T PE 0.0 C 16.0 0.0 8.7 0.0 0.025 TL 14.22 PV 0.1 Pipe: 30 -15.4 1. 049 PL 0.20 PF 0.4 30 16.2 5.5 7.9 15.4 5.7 100 FTG T PE 0.1 29 16.0 0.0 8.4 0.0 0.113 TL 3.77 PV 0.2 Pipe: 31 -254.6 2.703 PL 7.00 PF 1.4 31 15.0 0.0 10.0 0.0 14.2 100 FTG PE 0.0 42 15.0 0.0 11. 5 0.0 0.201 TL 7.00 PV 1.4 Pipe: 32 -15.5 2.157 PL 6.00 PF 0.0 32 16.0 0.0 8.4 0.0 1.4 100 FTG PE 0.0 34 16.0 0.0 8.5 0.0 0.003 TL 6.00 PV 0.0 Pipe: 33 -15.5 1. 049 PL 0.20 PF 0.4 33 16.2 5.5 7.9 15.5 5.7 100 FTG T PE 0.1 32 16.0 0.0 8.4 0.0 0.113 TL 3.77 PV 0.2 Pipe: 34 -31. 0 2.157 PL 2.00 PF 0.0 34 16.0 0.0 8.5 0.0 2.7 100 FTG PE 0.0 36 16.0 0.0 8.5 o.o 0.012 TL 2.00 PV 0.0 Pipe: 35 -15.5 1. 049 PL 0.20 PF 0.4 35 16.2 5.5 7.9 15.5 5.8 100 FTG T PE 0.1 34 16.0 0.0 8.5 0.0 0.114 TL 3.77 PV 0.2 Pipe: 36 -46.5 2 .. 157 PL 1.00 PF 0.2 36 16.0 0.0 8.5 0.0 4.1 100 FTG T PE 0.0 C 16.0 0.0 8.7 0.0 0.026 TL 9.56 PV 0.1 Pipe: 37 -15.5 1. 049 PL 0.20 PF 0.4 37 16.2 5.5 8.0 15.5 5.8 100 FTG T PE 0.1 36 16.0 0.0 8.5 0.0 0.114 TL 3.77 PV 0.2 Pipe: 38 -15.9 1. 049 PL 6.00 PF 0.7 38 16.0 0.0 8.9 0.0 5.9 100 FTG PE 0.0 40 16.0 0.0 9.6 0.0 0.119 TL 6.00 PV 0.2 Pipe: 39 -15.9 1.049 PL 0.20 PF 0.4 39 16.2 5.5 8.3 15.9 5.9 100 FTG T PE 0.1 38 16.0 0.0 8.9 0.0 0.119 TL 3.77 PV 0.2 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 6 Date: 05/11/1999 24HOUR.SDF JOB TITLE: 24hour PIPE DATA (cont.} PIPE TAG Q (GPM} DIA ( IN} LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS} HW (C) (FT) SUM. NODES (FT} (K) (PSI} (GPM} F.L./FT (PSI} Pipe: 40 -32.4 1. 380 PL 6.00 PF 1. 5 40 16.0 0.0 9.6 0.0 6.9 100 FTG ET PE 0.4 42 15.0 0.0 11.5 0.0 0.117 TL 12.42 PV 0.3 Pipe: 41 -16.5 1. 049 PL 0.20 PF 0.5 41 16.2 5.5 9.0 16.5 6.1 100 FTG T PE 0.1 40 16.0 0.0 9.6 0.0 0.128 TL 3.77 PV 0.3 Pipe: 42 -286.9 2.703 PL 2.75 PF 0.7 42 15.0 0.0 11.5 0.0 16.0 100 FTG PE 0.0 49 15.0 0.0 12.1 0.0 0.251 TL 2.75 PV 1. 7 Pipe: 43 -17.3 1. 049 PL 0.20 PF 0.5 43 16.2 5.5 9.9 17.3 6.4 100 FTG T PE 0.1 44 16.0 0.0 10.6 0.0 0.140 TL 3.77 PV 0.3 Pipe: 44 -17.3 2.157 PL 8.00 PF 0.0 44 16.0 0.0 10.6 0.0 1. 5 100 FTG PE 0.0 45 16.0 0.0 10.6 . 0. 0 0.004 TL 8.00 PV 0.0 Pipe: 45 -34.7 2.157 PL 8.00 PF 0.1 45 16.0 0.0 10.6 0.0 3.0 100 FTG PE 0.0 47 16.0 0.0 10.7 0.0 0.015 TL 8.00 PV 0.1 Pipe: 46 -17.4 1.049 PL 0.20 PF 0.5 46 16.2 5.5 10.0 17.4 6.5 100 FTG T PE 0.1 45 16.0 0.0 10.6 0.0 0.141 TL 3.77 PV 0.3 Pipe: 47 -52.2 2.157 PL 5.66 PF 0.5 47 16.0 0.0 10.7 0.0 4.6 100 FTG T PE 0.0 E 16.0 0.0 11. 2 0.0 0.032 TL 14.22 PV 0.1 Pipe: 48 -17.5 1. 049 PL 0.20 PF 0.5 48 16.2 5.5 10.1 17.5 6.5 100 FTG T PE 0.1 47 16.0 0.0 10.7 0.0 0.142 TL 3.77 PV 0.3 Pipe: 49 -357.5 2.703 PL 2.50 PF 6.0 49 15.0 0.0 12.1 0.0 20.0 100 FTG T PE 0.0 52 15.0 0.0 18.1 0.0 0.376 TL 15.85 PV 2.7 Pipe: 50 -18.3 2.157 PL 1.00 PF 0.0 50 16.0 5.5 11.1 18.3 1. 6 100 FTG T PE o.o E 16.0 0.0 11.2 0.0 0.005 TL 9.56 PV 0.0 Pipe: 51 0.0 1. 049 PL 0.20 PF 0.0 51 16.2 0.0 11. 0 0.0 0.0 100 FTG T PE 0.1 50 16.0 5.5 11.1 18.3 0.000 TL 3.77 PV 0.0 Pipe: 52A -487.1 3.314 PL 13.50 PF 11. 0 71 15.0 0.0 20.1 0.0 18.1 100 FTG 2EC PE 5.2 PREOUT 3.0 0.0 36.3 0.0 0.247 TL 44.69 PV 2.2 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 7 Date: 05/11/1999 24HOUR.SDF JOB TITLE: 24hour PIPE DATA (cont.) PIPE TAG Q(GPM) DIA ( IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW (C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) F.L./FT (PSI) Pipe: 52B -442.4 3. 314 PL 3.00 PF 0.6 52 15.0 0.0 18.1 0.0 16.5 100 FTG PE 0.0 69 15.0 0.0 18.7 0.0 0.207 TL 3.00 PV 1.8 Pipe: 52C -22.0 1.049 PL 4.80 PF 2.1 68 16.2 5.5 16.1 22.0 8.2 100 FTG ET PE 0.5 69 15.0 0.0 18.7 0.0 0.218 TL 9.80 PV 0.5 Pipe: 52D -464.4 3. 314 PL 6.00 PF 1.4 69 15.0 0.0 18.7 0.0 17.3 100 FTG PE 0.0 71 15.0 0.0 20.1 0.0 0.226 TL 6.00 PV 2.0 Pipe: 52E -22.7 1.049 PL 4.80 PF 2.6 70 16.2 5.5 17.0 22.7 8.4 100 FTG 2ET PE 0.5 71 15.0 0.0 20.1 0.0 0.230 TL 11. 22 PV 0.5 Pipe: 57 84.9 2.703 PL 7.75 PF 0.6 52 15.0 0.0 18.1 0.0 4.7 100 FTG T PE 0.0 64 15.0 0.0 17.5 0.0 0.026 TL 21.10 PV 0.2 Pipe: 58 -21. 0 1. 049 PL 0.20 PF 0.8 58 16.2 5.5 14.6 21. 0 7.8 100 FTG T PE 0.1 59 16.0 0.0 15.5 0.0 0.200 TL 3.77 PV 0.4 Pipe: 59 -21. 0 2.157 PL 8.00 PF 0.0 59 16.0 0.0 15.5 0.0 1. 8 100 FTG PE 0.0 60 16.0 0.0 15.5 0.0 0.006 TL 8.00 PV 0.0 Pipe: 60 -42.1 2.157 PL 8.00 PF 0.2 60 16.0 0.0 15.5 0.0 3.7 100 FTG PE 0.0 62 16. 0 .. 0.0 15.7 0.0 0.022 TL 8.00 PV 0.1 Pipe: 61 -21.1 1. 049 PL 0.20 PF 0.8 61 16.2 5.5 14.7 21.1 7.8 100 FTG T PE 0.1 60 16.0 0.0 15.5 0.0 0.201 TL 3.77 PV 0.4 Pipe: 62 -63.3 2.157 PL 5.66 PF 0.7 62 16.0 0.0 15.7 0.0 5.6 100 FTG T PE 0.0 G 16.0 0.0 16.4 0.0 0.046 TL 14.22 PV 0.2 Pipe: 63 -21. 2 1. 049 PL 0.20 PF 0.8 63 16.2 5.5 14.9 21. 2 7.9 100 FTG T PE 0.1 62 16.0 0.0 15.7 0.0 0.203 TL 3.77 PV 0.4 Pipe: 65 -21. 6 2.157 PL 1.00 PF 0.1 65 16.0 0.0 16.3 0.0 1. 9 100 FTG T PE 0.0 G 16.0 0.0 16.4 0.0 0.006 TL 9.56 PV 0.0 Pipe: 66 -21. 6 1.049 PL 0.20 PF 0.8 66 16.2 5.5 15.4 21. 6 8.0 100 FTG T PE 0.1 65 16.0 0.0 16.3 0.0 0.210 TL 3.77 PV 0.4 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 8 Date: 05/11/1999 24HOUR.SDF JOB TITLE: 24hour PIPE DATA (cont.) PIPE TAG Q(GPM} DIA ( IN} LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW (C) (FT) SUM. NODES (FT} (K} (PSI) (GPM} F.L./FT (PSI) Pipe: 67 -487.1 3.068 PL 29.00 PF 7.4 PREOUT 3.0 0.0 36.3 0.0 21. l 120 FTG PE -0.4 PREIN 4.0 0.0 43.3 0.0 0.257 TL 29.00 PV 3.0 Pipe: 68 -487.1 3.260 PL 89.33 PF 30.3 PREIN 4.0 0.0 43.3 0.0 18.7 120 FTG 4ETB PE -5.2 67 16.0 0.0 68.4 0.0 0.191 TL 158.33 PV 2.4 Pipe: 69 -487.1 4.260 PL 4.50 PF 0.9 67 16.0 0.0 68.4 0.0 11. 0 120 FTG E PE 0.0 TOR 16.0 0.0 69.3 0.0 0.052 TL 17.50 PV 0.8 Pipe: 70 -73.7 2.157 PL 1.00 PF 0.6 A 16.0 0.0 7.9 0.0 6.5 100 FTG T PE 0.4 7 15.0 0.0 9.0 0.0 0.061 TL 9.56 PV 0.3 Pipe: 71 -88.4 2.157 PL 1.00 PF 0.8 B 16.0 0.0 7.9 0.0 7.8 100 FTG T PE 0.4 18 15.0 0.0 9.2 0.0 0.085 TL 9.56 PV 0.4 Pipe: 72 -92.5 2.157 PL 1.00 PF 0.9 C 16.0 0.0 8.7 0.0 8.1 100 FTG T PE 0.4 31 15.0 0.0 10.0 0.0 0.093 TL 9.56 PV 0.4 Pipe: 73 -70.5 2.157 PL 1.00 PF 0.5 E 16.0 0.0 11. 2 0.0 6.2 100 FTG T PE 0.4 49 15.0 0.0 12.1 0.0 0.056 TL 9.56 PV 0.3 Pipe: 74 -84.9 2.157 PL 1.00 PF 0.8 G 16.0 0.0 16.4 0.0 7.5 100 FTG T PE 0.4 64 15.0 0.0 17.5 0.0 0.079 TL 9.56 PV 0.4 Pipe: 75 -487.1 6.357 PL 18.00 PF 0.6 TOR 16.0 o.o 69. 3 0.0 4.9 120 FTG EC PE 8.2 UGl -3.0 0.0 78.1 0.0 0.007 TL 76.00 PV 0.2 Pipe: 75A -487.1 6.280 PL 8.00 PF 0.0 UGl -3.0 0.0 78.1 0.0 5.0 140 FTG PE 0.0 UG2 -3.0 0.0 78.2 0.0 0.006 TL 8.00 PV 0.2 Pipe: 76 -487.1 6.357 PL 5.00 PF 0.3 UG2 -3. 0 0.0 78.2 0.0 4.9 120 FTG 2EG PE -2.6 DCOUT 3.0 0.0 75.9 0.0 0.007 TL 45.00 PV 0.2 Pipe: 77 FIXED PRESSURE LOSS DEVICE DCIN 3.0 0.0 78.9 0.0 3.0 psi, 487.1 gpm DCOUT 3.0 0.0 75.9 0.0 Pipe: 78 -487 ._1 6.357 PL 5.00 PF 0.5 DCIN 3.0 0.0 78.9 0.0 4.9 120 FTG ET PE 2.6 UG3 -3.0 0.0 81. 9 0.0 0.007 TL 61. 00 PV 0.2 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Date: 05/11/1999 JOB TITLE: 24hour PIPE DATA (cont.) PIPE TAG END ELEV. NOZ. NODES (FT) ( K) Pipe: 79 UG3 -3.0 0.0 SRC -3.0 SRCE NOTES: PT (PSI) 81. 9 82.4 Q(GPM) DIA ( IN) LENGTH DISC. VEL(FPS) HW(C) (FT) (GPM) F.L./FT -487.1 6.280 PL 15.00 0.0 5.0 140 FTG TG (N/A) 0.006 TL 72.00 Page 9 24HOUR.SDF PRESS. SUM. (PSI) PF 0.4 PE 0.0 PV 0.2 (1) Calculations were performed by the HASS 6.3.0 computer program under license no. 817C980 granted by HRS Systems, Inc. 2193 Ranchwood Dr., N.E. Atlanta, GA 30345 (2) The system has been balanced to provide an average imbalance at each node of 0.002 gpm and a maximum imbalance at any node of 0.129 gpm. (3) Velocity pressures are printed for-information only, and are not used in balancing the system. Maximum water velocity is 21.1 ft/sec at pipe 67. (4) PIPE FITTINGS TABLE Pipe Table Name: STANDARD.PIP MATERIAL: S40 HWC: 120 PAGE: A Diameter (in) Equivalent Fitting Lengths in Feet E Ell T L C B Tee LngEll ChkVlv BfyVlv G A GatVlv AlmChk D DPVlv -------------------------------------------------------- 1.049 1.380 2.067 3.068 PAGE: B Diameter (in) N NPTee 2.00 5.00 2.00 5.00 6.00 1.00 10.00 10.00 5.00 3.00 6.00 2.00 7.00 6.00 1.00 10.00 10.00 6.00 5.00 10.00 3.00 11. 00 6.00 1.00 10.00 10.00 10.00 7.00 15.00 5.00 16.00 10.00 1.00 13.00 10.00 15.00 MATERIAL: THNWL HWC: 120 Equivalent Fitting Lengths in Feet E T L C B G A D Ell Tee LngEll ChkVlv BfyVlv GatVlv AlmChk DPVlv -------------------------------------------------------- N NPTee SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 10 24HOUR.SDF Date: 05/11/1999 JOB TITLE: 24hour 2.157 3.260 4.260 6.357 PAGE: D Diameter ( in) 6.280 PAGE: F Diameter ( in) 2.703 3. 314 6.00 12.00 4.00 14.00 7.00 12.00 9.00 20.00 7.00 22.00 13.00 20.00 13.00 26.00 8.00 29.00 16.00 26.00 18.00 38.00 11.00 40.00 13.00 38.00 MATERIAL: DIRON Equivalent T L HWC: 140 Fitting Lengths C B E Ell Tee LngEll ChkVlv BfyVlv 24.00 52.00 16.00 55.00 17.00 MATERIAL: SFLOW Equivalent E T L Ell Tee HWC: 120 Fitting Lengths C B ChkVlv BfyVlv 9.30 18.70 10.20 21.80 6.20 21.80 10.90 7.30 23.30 14.60 1.00 12.00 12.00 1.00 18.00 13.00 3.00 26.00 13.00 4.00 35.00 24.00 in Feet G GatVlv N NPTee 5.00 52.00 in Feet G A GatVlv AlmVlv D DPVlv 1.·60 15.50 15.50 1.50 18.90 14.60 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 11 24HOUR.SDF Date: 05/11/1999 JOB TITLE: 24hour WATER SUPPLY CURVE 120*\\\\\\0\\\\\\\\\\\\ \\\\\\\\\\\\\\\\\\\\ 110+ 100+ 90+ P 80+ R E s S 70+ u R E 60+ ( p s I 50+ ) 40+ 30+ 20+ 10+ X ============================== LEGEND X = Required Water Supply 82.37 psi@ 587.1 gpm 0 = Available water Supply 119.15 psi@ 587.1 gpm II II * <-115.0 psi@ 1530 gpm Flow Test Point 0++-+---+----+-----+-----"~--------~--------+---------+-----------+ 400 600 800 1000 1200 1400 1600 1800 2000 FLOW (GPM)