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Home My WebLink About1969 PALOMAR OAKS WAY; ; FS120014; Permit11/10/2020 FS120014 Permit Data City of -Carlsbad Fixed Systems Permit Permit No: FS120014 1969 PALOMAR • Job Address: Status: APPROVED OAKS WY Permit Type: FIXSYS Applied 10/4/2012 Parcel No: 2130922000 Approved: 10/5/2012 Lot #:' 0 Reference Nb.:. Issued: 10/5/2012 PC #: Inspector; Project Title: AIR PRODUCTS-GLASS SHOP OVEN H T.I./RETROFIT DRY CHEM SYSTEM FOR GLASS SHOP OVEN HOOD PROTECTION Applicant: • SCHMIDT FIRE PROTECTION CO INC 4760 MURPHY CANYON RD SAN DIEGO, CA 92123 858-279-6122 Owner: AIR PRODUCTS&CHEMICALS INC C/O J C SCHUMACHER CO 1969 PALOMAR OAKS WAY CARLSBAD. CA • Fees ($) Add'I Fees ($) Total ($) . .. Balance ($) 292 • . 0 292 • • 0 1/1 Fs moo I 4- .A tSchmidt Fire Protection Co Inc. 4760 MURPHY CANYON RD • SAN DIEGO, CA 92123• (858) 279-6122. FAx (858) 279-3583 AIR PRODUCTS 1969 PALOMAR OAKS WAY CARLSBAD, CA 92009 SUBMITTAL PACKAGE . (1) DRY CHEMICAL FIRE SUPPRESSION SYSTEM IN CHEMICAL STORAGE SHED APPRø9J AS SUBM-FFEMED 0 S S Kidde XVTM Control System PIN: 87-120099.001 FEATURES For Use in: WHDR " Commercial Cooking Fire Suppression Systems INDN Industrial Fire Suppression Systems Pneumatic Release of up to 20 Agent Cylinders Two Discrete Mechanical Detection Lines Cylinder or Wall Mount Up to 400 ft Mechanical Detection Cable DESCRIPTION The Kidde XV Control System is a compact, versatile unit used to actuate agent cylinders on Kidde WHDR and IND Pre-Engineered fire suppression systems. The control head can be operated via: Two Distinct Automatic Mechanical Detection Lines (fusible links or thermo-bulb links) Optional Electrical Solenoid Remote or Local Manual Mechanical Control Upon actuation, the XV Control System discharges the nitrogen System Cartridge, pressurizing the actuation lines and System Valve Actuators (SVA) mounted on the cylinder valve(s). The SVA(s) open the cylinder valve(s), (fKidde Fire Systems A UTC Fire & Security Company Effective: June 2010 K-87-027 Operates 2 Gas Valves Available 24 V Electrical Actuation Attractive, Durable, Powdercoat Finish Rugged, Die-Cast Aluminum Body Tamper/Lock P0,1 for Cover Easy to Install and Maintain UL & ULC Listed FM Approved for IND Systems discharging the WHDR wet chemical or IND dry chemical suppression agent. The XV can be mounted on a wall or directly to an SVA mounted on the cylinder. The XV Control System is UL and ULC Listed with WHDR Wet Chemical and IND Dry Chemical Fire Suppression Systems. The XV is FM approved with the IND Dry Chemical Systems. The XV comes ready to install, with three EMT connectors, one System Valve Actuator (SVA), two microswitches, one nitrogen System Cartridge, and one nitrogen test cartridge. Figure 1. XV Control System, PIN 87-120099-001 OTEcHNIcAL DATA Table 1. Mechanical Cable Parameters for WHDR & IND Systems K•dde Cable Line •ne Max. Cable Length Max. Corner Pulleys Max. Detectors Max. Tee Pulleys Detection and Manual Release-to-Trip Line 1 200 ft. (60.96 m) 50 40 - Detection and Manual Release-to-Trip Line 2 200 ft. (60.96 m) 50 40 - Pull-to-Trip Remote Manual Release 100 ft. (30.48 m) 30 - 1* Mechanical Gas Valve Line 100 ft. (30.48 m) 30 - 1* *Tee pulleys count as two Corner Pulleys. Maximum is from XV Control, through the pulley, to each device. Table 2. Actuation Parameters for WHDR Systems Operating Temperature Number of Extinguishing Maximum Total Length Minimum Total Length of Copper Range System Cylinders Copper Actuation Tubing Actuation Tubing 0°F to 120°F 1-12 106 ft. (32.30 m) 5 ft. (1.52 m) 13-20 91 ft. (27.73 m) (-18°C to 49°C) Table 3. Actuation Parameters for IND Industrial Dry Chemical and Open-Face Spray Booth Systems Operating Temperature Number of Extinguishing Maximum Total Length Minimum Total Length of Copper Range System Cylinders Copper Actuation Tubing Actuation Tubing -40°F to 120°F 1-14 121 ft. (36.88 m) 5 ft. (1.52 m) 15-20 166 ft. (50.60 m) (-40°C to 49°C) Table 4. Actuation Parameters - IND Dry Chemical for Vehicle Spray Booths Operating Temperature Number of Extinguishing Maximum Total Length Minimum Total Length of Copper Range System Cylinders Copper Actuation Tubing Actuation Tubing 1-8 200 ft. (60.96 m) 0°F to 120°F (-18°C to 49°C) 5 ft. (1.52 m) 9-15 160 ft. (48.76 m) 16-20 140 ft. (42.67 m) NOTES Braided high pressure nitrogen tubing (P/N 87-120045-OOX), is required to connect the XV Control System to the System Valve Actuator (SVA) when the XV Control System is cylinder mounted. Copper tubing shall be 1/4-inch O.D. x 0.031-inch wall high pressure tubing. When Control System is cylinder mounted and two or more cylinders are being actuated, a minimum of 5 ft. (1.52 m) of 1/4-inch O.D. x 0.031-inch wall tubing shall be used for actuation lines. S F, -2- When Control System is wall mounted, a minimum of 5 ft. (1.52 m) of 1/4-inch O.D. x 0.031-inch wall tubing shall be used in the overall actuation line. High pressure nitrogen tubing (P/N 87-120045-001 through 87-120045-003) may be used in place of copper tub- ing, not to exceed a maximum length of 30 feet (9 m). In every system, either single cylinder or multiple cylinder, a 1/8-inch NPT plug or vent check (P/N 877810) shall be used in the outlet port of the last System Valve Actuator(s) in the actuation line. A maximum of 2 Pressure Switches (P/N 486536) may be used in the actuation line. SYSTEM NITROGEN CARTRIDGE, PIN 87-120043-001 The XV Control System uses a nitrogen cartridge for actuating the system cylinders and is charged with dry nitrogen (see Figure 2). The cartridge is mounted inside the XV Control System to protect it from tampering and provides the date of manufacturing and space (gray band) for recording the installation date. 5.1181n. (130 mm) 1-9116 In. (40 mm) GRAY BAND1 Figure 2. System Nitrogen Cartridge, P/N 87-120043-001 S TEST CARTRIDGE, PIN 87-120044-001 The Test Cartridge is used for functional testing of the Kidde WHDR Wet Chemical System and IND Dry Chemical System*. The cartridge has a red band and is labeled "TEST CARTRIDGE" as shown in Figure 3. *Note: The System Nitrogen Cartridge P/N 87-120043-001 is required for actuation and full discharge or "puff' tests, and when a time delay is included (as in systems protecting Vehicle Spray Booths). 4 in. (102 mm) 1n. ' I TEST (25 mm) CARTRIDGE 4 Figure 3. Test Cartridge, P/N 87-120044-001 S -3- SVA PISTON IN SET POSITION 118 In. NPT PORT PISTOl POSIT CYLINDER VALVE) 118 In. NPT PLUG (IF APPLICABLE) DADED SYSTEM VALVE ACTUATOR (SVA), PIN 87-120042-001 A System Valve Actuator (SVA) must be mounted to every system cylinder valve assembly (see Figure 4). The SVA has ports for low profile tubing runs, and is also equipped with a spring loaded plunger that locks the piston in the discharged position, ensuring complete discharge of the cylinder(s) contents. 5116-18 UNC THROUGH HOLE (TYP) (NOT SHOWN) Figure 4. System Valve Actuator (SVA), P/N 87-120042-001 HIGH-PRESSURE NITROGEN TUBING, PIN 87-120045-OOX The High-Pressure Nitrogen Tubing is used to connect the XV Control System to the SVA on all installations in which the XV Control System is mounted to a wet or dry chemical cylinder. (see Figure 5). A 1/8-inch NPT (male) x 3/8-24 JIC Adapter is included with the High Pressure Nitrogen Tubing. S 118 in. NPT IREAD SEAT 112 in. HEX, 1/4 in. 37 DEGREE FLARE, SWIVEL A PI(END TO SEAT) 118 In. NPT (MALE) x 318-24 JIC ADAPTER Figure 5. External Tubing for XV Control System, IN 87-120045-OOX Table 5. External Tubing for XV Control System Part Number Length "A" 87-120045-001 7-1/2 in. (191 mm) 87-120045-002 24 in. (610 mm) 87-120045-003 60 in. (1524 mm) -4- S S S SOLENOID, PIN 83-100034-001 An optional solenoid can be installed into the XV Control System, just under the actuation latch. The solenoid operates directly on the actuation latch to activate the system. This installation allows simultaneous usage of mechanical detection lines, or the lines can be locked out. The solenoid includes two mounting bolts, the bracket and a push plate which mounts onto the solenoid body (Figure 6). The solenoid coil is 24 Vdc at 1.5 Amp and at 70°F (21°C). Refer to Figure 7 for Release Wring with Terminal Type Microswitch. When actuating the XV Control System with an optional solenoid, a UL Compatible and Listed fire control panel with a supervised power supply is required, such as the Kidde AEGIS or Kidde ARIES. ALLEN SCREWS (2) PUSH PLATE (00 NOT REMOVE) TING BRACKET Dr REMOVE) RICAI. LEADS BID MM) SOLENOID BODY Figure 6. Solenoid, P/N 83-100034-001 WIRE TYPE KEY AIARMWIRESTOXV SOLENOID ANDIOROTHER DEVICES MICROSWTICH (INTERNAL) ALARM WIRES FROM CONTROL PANEL OPEN TERMINAL 2 FLAG ENGAGED PRIGNALINOTUSED [BYXV - - ATTACH SOLENOID LEAOTO IERWNAL I OF MICROSWICH COMMON TERMINAL I PANEL (24 VDC ONLY) / / ATTACH RELEASING CIRCIJITTO MICROSRITCH I CLOSED TERMINAl. 4 SPUCE SOLENOID LEAD ..J TO RELEASING CIRCUIT SWITCH POSITION WHEN XVFLAGICAM IS INSET POSITION Figure 7. Release Wiring with Terminal Type Microswitch Note: Where electric detection and/or actuation is pro- vided, supervision shall be provided in accor- dance with NFPA 72, National Fire Alarm and Signaling Code. Alarms and indicators, along with a supervised power source, shall be pro- vided in accordance with NFPA 72. Electrical wir- ing and equipment shall be provided in accordance with NFPA 70, National Electric Code. All installations are subject to the approval of the Authority Having Jurisdiction (AHJ). XVSCLDNGD All EN10OD214M 24 IlDC ONLY PALEASING CIRCUIT IN COMPATIBLE CONTROL KEEPER PIN, P/N 60-9197108-000 The Keeper Pin (P/N 60-9197108-000) is used to prevent actuation while installing the system. Figure 8. Keeper Pin, P/N 60-9197108-000 -5- S 0 ORDERING INFORMATION Description Part Number XV Control System includes: I ea. 87-120042-001 System Valve Actuator I ea. 87-120043-001 System Nitrogen Cartridge I ea. 87-120044-001 Test Cartridge I ea. 87-120058-001 EMT Connector Kit 2 ea. 87-120039-001 Microswitch Kit 87-120099-001 System Valve Actuator 87-120042-001 System Nitrogen Cartridge 87-120043-001 Test Cartridge 87-120044-001 High Pressure Hose for Cylinder Mount 87-120045-001 EMT Connector Kit 87-120058-001 Solenoid Electric Actuator Kit 83-100034-001 Microswitch Kit (SPDT), Solid Color Pigtails 87-120039-001 Microswitch Kit (SPOT), Striped Color Pigtails 87-120039-501 Terminal Type Microswitch Kit (SPDT) 87-120047-001 REFERENCE INFORMATION WHDR Systems designed and installed according to • Vehicle Spray Booth Systems designed and installed S manual P/N 87-122000-001. according to manual P/N 83-100036-001. IND Systems designed and installed according to manual P/N 220423. MOUNTING MOUNTING HOLE —\ • 5-112 In. I— HOLE \ (140mm) / L} O' 7-5!6 in. U l. (194 mm) (I fl =i.t If 314 In, I)1J MOUNTING 4-310 In. HOLE (112 mm) 11-9116 1n. (34 mm) I I L. MOUNTING 1.- 3-314 in. HOLE (95 mm) Figure 9. XV Control System Dimensions Kidde is registered trademark of Kidde-Fenwal, Inc. WHDR, IND, XV. AEGIS, and ARIES are trademarks of Kidde-Fenwal, This literature is provided for informational purposes only. KIDDE-FENWAL, INC. assumes no responsibility for the product's suitability for a particular application. The product must be properly applied to work correctly. If YOU need more information on this product, or if you have a particular question, contact KIDDE-FENWAL, INC.. Ashland, MA 01721. Telephone: (508) 881-2000. K-87-027 Rev AE © 2010 Kidde-Fenwal Inc. Printed in USA fKidde Fire Systems A UTC Fire & Security Company 400 Main Street Ashland, MA 01721 Ph: 505.881.2000 Fax: 508.851.8920 wwwkiddefiresystems.com Kidde "Control System Actuation Delay S PIN 83-100035-001 fKidde Fire Systems A UTC Fire & Security Company Effective: March 2007 K-83-037 FEATURES Secures to Bottom of XV Control System • Up to 20 Dry Chemical Cylinders Provides UL 1254 Actuation Delay for Enclosed Paint • Up to 200 ft 1/4 inch Copper Tubing Booths • Rugged Nickel Plated Brass Body Easy to Service • Dependable Stainless Steel Stem Works Independent of Cylinders • UL Listed for use with all Dry Chemical Cylinders Flexible Tubing Parameters ACTUATION DELAY ASSEMBLY Enclosed paint booths require 10 to 20 seconds of actua- tion delay between detection/actuation and release of the agent cylinders. The Kidde XV Control System Actuation Delay (P/N 83-100035-001) provides an easy and ele- gant solution for this requirement. UL Listed, the Actuation Delay attaches directly to the bottom of the XV Control System. It fits within the profile of the XV Control System, protecting it from being dam- aged by tools and other equipment in the area of protec- tion. The Actuation Delay is made of rugged nickel plated S forged brass with a stainless steel actuation stem. This trouble-free design has only one moving part, ensuring reliable, long-term service. The Actuation Delay is easy to install. No intermediary hardware is needed. The System Nitrogen Cartridge (PIN 87-120043-001) of the XV Control System feeds directly into the Actuation Delay. After the proper time, the outlet of the Actuation Delay then feeds directly into the System Valve Actuators (SVAs, P/N 87-120042-001) on the agent cylinders. The Actuation Delay is designed to complement the XV Control System and agent cylinders, creating a clean, elegant and easy-to-install system. ACCUMULATOR CAP MOUNTING HOLES DO NOT — 511648 UNC THREAD ze 118 NPT OUTLET FRONT OF TIME DELAY MUST FACE OUT NITROGEN MUST FLOW IN DIRECTION OF ARROW 0 TECHNICAL DATA n H Table 1: Dimensions Dimension Designation Description Dimensions W Total width of XV Control 9 in. System with Actuation (229 mm) Delay and Actuation Hose H Total height of XV Control 12-1/2 in. System with Actuation (316 mm) Delay and Actuation Hose ORDERING INFORMATION Part Number Description 83-100035-001 XV Actuation Delay 87-120045-001 XV Actuation Hose (required, included with Actuation Delay) 486573 IND-21 Cylinder and Valve Assembly 486574 IND45 Cylinder and Valve Assembly 83-100018-001 IND-70 Cylinder and Valve Assembly 486487 Heavy Duty Shelf Bracket, lND-21 486488 Heavy Duty Shelf Bracket, IND45 87-100009-001 Heavy Duty Shelf Bracket, IND-70 83-100005-001 Total Flood Nozzle, Work Area 83-100037-001 3-y Nozzle, Pit/Tunnel Interlace 83-100006-001 DIP Nozzle for Ducts and Plenums 87-120099-001 XV Control System 83-100037-001 XV Actuation Delay 87-120096-XXX Rapid Response Thermo-Bulb Links Table 2: Actuation Length Limitations Max. Number of Max. Mm. Total Extinguishing Max. Pressure Actuation System Tubing Switches Tubing Cylinders 20 140 2 5 15 160 2 5 8 200 2 5 Kidde is a registered trademark of Kidde-Fenwal. Inc. SjThis literature is provided for informational purposes only. KIDDE-FENWAL, INC. assumes no responsibility for the product's suitability for a particular application. The product must be properly applied to work correctly. If you need more information on this product, or if you have a particular problem or question, contact KIDDE-FENWAL, INC., Ashland, MA 01721. Telephone: (508) 881-2000. K-83-037 Rev AS © 2007 Kidde-Fenwal Inc. Printed in USA Kidde Fire Systems A UTC Fire & Security Company 400 Main Street Ashland, MA 01721 Ph: 508.881 ' 2000 Fax: 508.881.8920 vwiw.kiddefiresystems.corn 4 "A" 01 "B" Industrial Dry Chemical f fKudde Fire Systems A UTC Fire & Security Company Cylinder and Valve Assembly Effective: March 2007 K-83-OO1 DESCRIPTION The cylinder and valve assembly is equipped with a plated forged brass valve, pressure gauge, fusible plug relief device, and a steel alloy cylinder shell. The cylinder conforms to DOT Specification 4BW-360. The assembly is pressurized with Nitrogen to 360 PSIG (24.8 bar gauge) at 70°F (21.1°C). The cylinder valve mates with a discharge adapter designed for use with Kidde® Pre- Engineered Fire Suppression Systems. The cylinder valve is also designed to accept any of the Pre-Engi- neered System control heads. S Cylinder! Valve Model Part Number Type of Powder Charge or Fill Weight of Powder (lb.) Nominal Dia. (in.) Overall Assembly Height (in.) Wall Mounting Bracket Part Number A B (JND-21) 486573 ABC 21 9 17.6 486487 IND-25 486570 BC 25 9 17.6 486487 IND-45 486574 ABC 45 9 30.8 486488 ND-50) 486571 BC 50 9 30.8 486488 IND-70 83-100018-001 ABC 68 12.3 30.2 87-100009-001 IND-75 1 83-100019-001 1 BC 75 12.3 30.2 87-100009-001 This literature is provided for informational purposes only. KIDDE-FENWAL, INC. assumes Kidde Fire Systems W no responsibility for the products suitability for a particular application. The product must be A UTC Fire & Security Company properly applied to work correctly. 400 Main Street If you need more information on this product, or if you have a particular problem or question, Ashland MA 01721 contact KlDDE-FENWL, INC., Ashland, MA 01721. Telephone: (508) 881-2000. Ph: 508.881.2000 K-83-001 Rev AB 02007 Kidde-Fenwal Inc. Printed in USA Fax: 508.881.8920 www.kiddefiresystems.com 3/8" FASTENING .406 DIA. TRU HARDWARE (TO (3) WTC HOLES FLEXIE WALL) (TYP) \STRAF Industrial Dry Chemical 0 Mounting Bracket Kits /Kidde Fire Systems A UTC Fire & Security Company Effective March 2007 K-83-002 DESCRIPTION A mounting bracket kit is used for mounting all cylinder and valve assemblies. The kit consists of a steel bracket with a shelf to hold the cylinder bottom. A cylinder strap is used to secure the cylinder to the bracket. Prior to instal- lation, ensure that the wall or other mounting surface will support the recommended load specified in the table. Mount the bracket to the surface using three (3) 3/8-in. bolts or screws. "B" Mounting Cylinder/Valve Dimension Dimension Dimension Dimension Recommended Bracket Part Model A B (in.) C (in.) D (in.) Wall-Support Number Load 86487) DND-2J 13.12 in. 11.50 in. 9.75 in. 8.12 in. 65 lb. IND-25 (486488) IND-45 19.62 in. 18.00 in. 9.75 in. 8.12 in. 130 lb. N2-50) 87-100009-001 IND-70 21.00 in. 18.80 in. 13.25 in. 12.50 in. 225 lb. IND-75 S This literature is provided for informational purposes only. KIDDE-FENWAL. INC. assumes no responsibility for the product's suitability for a particular application. The product must be property applied to work correctly. If you need more information on this product, or if you have a particular problem or question, contact KlDDE-FENL INC., Ashland, MA 01721. Telephone: (508) 881-2000. K-83-002 Rev AS © 2007 Kidde-Fenwal inc. Printed in USA Kidde Fire Systems A UTC Fire & Security Company 400 Main Street Ashland, MA 01721 Ph: 508.881.2000 Fax: 508.881.8920 iws'w.kiddefiresystems.com Industrial Dry Chemical 0 Discharge Adapter Kits OP, udde Fire Systems A UTC Fire & Security Company Effective: March 2007 K-83-003 PIN: 844908 DESCRIPTION The discharge adapter provides a means to connect 3/4- jjj NPT inch discharge pipe (or 1-inch pipe with a concentric reducer or reducing bushing) to any Industrial Dry Chem- ical cylinder and valve assembly. The discharge-adapter kit consists of a male, 3/4-inch NPT, brass, discharge-valve-outlet adapter and a steel flange plate for securing the discharge adapter to the valve outlet. ORlN\G FLANGE PLATE ADAPTER This literature is provided for informational purposes only. KIDDE-FENWAL, INC. assumes no responsibility for the products suitability for a particular application. The product must be properly applied to work correctly. If you need more information on this product, or if you have a particular problem or question, contact KlDDE-FENWL, INC., Ashland, MA 01721. Telephone: (508) 881-2000. K-83-003 Rev AB © 2007 Kidde-Fenwal Inc. Printed in USA Kidde Fire Systems A UTC Fire & Security Company 400 Main Street Ashland, MA 01721 Ph: 508.881.2000 Fax: 508.881.8920 www.kiddeflresystems.com Industrial Dry Chemical 0 Total-Flooding Nozzle (Kidde Fire Systems A UTC Fire & Security Company Effective: March 2007 K-83-012 PIN: 83-100005-001 DESCRIPTION The Total-Flooding (TF) Nozzle is designed to uniformly discharge dry chemical throughout an enclosed volume. This nozzle is to be mounted at ceiling level (unless oth- erwise listed) with the orifice tip pointed vertically down. The TF Nozzle is also used to protect the work area vol- ume for open face spray booth applications and in auto- motive vehicle spray booth applications. Each TF Nozzle is factory-equipped with a blow-off cap to protect the nozzle orifices and prevent moisture buildup in the discharge piping. 2.72' REF. 3/4" NPT MALE NOZZLE BODY ORFICE TIP NOZZLE BLOW-OFF CAP 06-250099-067 This literature is provided for informational purposes only. KIDDE-FENWAL, INC. assumes Kidde Fire Systems 40 no responsibility for the product's suitability for a particular application. The product must be A UTC Fire & Security Company properly applied to work correctly. 400 Main Street If you need more information on this product or if you have a particular problem or question, Ashland MA 01721 contact KlDDE-FENWL, INC., Ashland, MA 01721. Telephone: (508) 881-2000. Ph: 508.881.2000 K-83-012 Rev AB @2007 Kidde-Fenwal Inc. Printed in USA Fax: 508.881.8920 wtwi,kiddefiresystems.com 0 Fusible Link Housing Kit with Fusible Link Industrial Dry Chemical 6""r'Kidde Fire Systems A UTC Fire & Security Company Effective March 2007 K-83-014 PIN: 804548 DESCRIPTION UL Listed and FM Approved Fusible Links are used in conjunction with the Fusible Link Housing Kit. The Fus- ible Links are held together with a low melting alloy, which melts at a predetermined temperature, allowing the two halves of the link to separate. Fusible Links are available in various temperature ratings as shown in table. There are two temperature designations which apply to both fusible links and quartizoid bulb links. One tempera- ture is called the rating temperature, and the other is called the maximum exposure temperature. 1 1/2° EMT /2° EMT CONNECTOR LOCKNUT LOCKNUT CONNECTOR ie Supplied) (Not °S" HOOKS SuppI d) -%% 414-3"MIN. 1 (Not Suppl 1/16° CABLE TO ANOTHER DETECTN /1/16' CABLE TO ML LINK' ABLE CONNECTOR CONTROL OR ACTUATING DEVICE CRIMP TYPE CRIMP TYPE OR REMOTE MANUAL CABLE CONNECTOR Fusible Link Rating Maximum Exposure Temperature Part Number Load Rating Minimum Maximum 165°F (74°C) 100°F (38°C) 282661 10 lb. 40 lb. 212°F (1 00°C) 150°F (65°C) 282662 10 lb. 40 lb. 306°F (182°C) 300°F (149°C) 282664 10 lb. 40 lb. 500°F (260°C) 440°F (226°C) 282666 10 lb. 40 lb. This literature is provided for informational purposes only. KIDDE-FENWAL, INC. assumes no responsibility for the product's suitability for a particular application. The product must be properly applied to work correctly. If you need more information on this product or if you have a particular problem or question, contact KlDDE-FENWL, INC., Ashland, MA 01721. Telephone: (508) 881-2000. K-83-014 Rev AB © 2007 Kidde-Fenwal Inc. Printed in USA Kidde Fire Systems A UTC Fire & Security Company 400 Main Street Ashland, MA 01721 Ph: 508.881.2000 Fax: 508.881.8920 wwwkiddefiresystems.com Components 2-3.1.8.2 Universal-Link Housing Kit, P/N 87-120064-001 0 The Universal-Link Housing Kit, shown in Figure 2-21, and consists of the following: Table 2-7. Detector Housing Kit, P/N 87-120064-001 Item Quantity 11-1/2 in. (292 mm) Detector Housing 1 Crimp Sleeves 2 "5" Hooks 2 The items above are used to attach the Fusible-Link or Thermo-Bulb Links to the 1/16-inch cable leading to the XV Control System. The Universal-Link Housing can be configured as an End-of-Line or In-Line bracket. 1116 in. CABLE TO CONTROL SYSTEM (NOT SUPPLIED) "5" HOOKS CRIMP S SLEEVE THERMO-BULB LINK OR FUSIBLE-LINK (NOT SUPPLIED) \_ LOCKNUT (NOT SUPPLIED) THERMO-BULB LINK OR FUSIBLE-LINK (NOT SUPPLIED) - ..U1Iu1. I '.JI% UNIVERSAL HOUSING KIT "5" HOOK - (NOT SUPPLIED) UNIVERSAL HOUSING KIT Figure 2-21. Universal-Link Housing Kit, P/N 87-120064-001 C January 2007 2-20 P/N 220423 EXAMPLE OF END-OF-LINE EXAMPLE OF IN-LINE CRIMP SLEEVE / 112 in. EMT an.nlrnan L t - Components' 2-3.1.8.3p Thermo-Bulb Links, P/N 87-12009X-XXX -', S UL Listed and FM Approved Thermo-Buib Links, shown in Figure 2-22, are used in conjunction with .Universal-Link Housing Kits (P/N 87120064-001),.and/or Detector Housing Kits (P/N 804548) The links are held together with a liquidilled glass tube (Thermo-Buib), hich bursts at a predetermined temperature, allowing the two halves of the link to separate. The types of.. Thermo-Bulb links are: Rapid Response Standard Response These Thermo-Bulb links are available in various temperature ratings with a minimum/maximum load rating of 0 lb./50 lb. (0 kg/23kg). THERMO BU RMO-BULB (g ure}222ThermoBtil P/N 220423 2-21 Janua2OO, ••-• Industrial Dry Chemical 0 Mechanical, Remote Manual Release (Kidde Fire Systems A UTC Fire & Security Company Effective: March 2007 K-83-021 P/N: 875572 DESCRIPTION The Mechanical, Remote Manual Release is provided as a means of manually actuating the system from a remote location. The Mechanical, Remote Manual Release is attached to the primary control head with 1/16-inch cable. To actuate the system through the Mechanical, Remote Manual Release, pull out the ring pin and pull hard on the handle. Each manual release is supplied with a separate name- plate. This nameplate must be attached to the mounting surface 1 inch above or below the pull station. An additional Mechanical, Remote Manual Release may be installed with a Kidde® Tee Pulley (P/N 843791). C This literature is provided for informational purposes only. KIDDE-FENWAL, INC. assumes Kidde Fire Systems W no responsibility for the products suitability for a particular application. The product must be A UTC Fire & Security Company properly applied to work correctly. 400 Main Street If you need more information on this product, or if you have a particular problem or question, Ashland MA 01721 contact KlDDE-FENW°L, INC., Ashland, MA 01721. Telephone: (508) 881-2000. Ph: 508.881.2000 K-83-021 Rev AB © 2007 Kidde-Fenwal Inc. Printed in USA Fax: 508.881.8920 wwwkiddefiresystems.com Industrial Dry Chemical 0 Corner Pulley fKidde Fire Systems A UTC Fire & Security Company Effective: March 2007 K-83-025 PIN 844648 DESCRIPTION The Corner Pulley is used to change the direction of the system cable runs. The cable's protective conduit (1/2- inch EMT) is attached to the corner pulley with the pro- vided coupling nuts. The Corner Pulley is equipped with a ball-bearing pulley for minimum resistance to the cable travel. C COVER SCREW )T1 COUPLING NUTS 0.62" (16mm) 2- 1 E.M.T. CONNECTIONS COMPRESSION TYPE 2.75 (70mm) APPROX. S This literature is provided for informational purposes only. KIDDE-FENWAL, INC. assumes no responsibility for the products suitability for a particular application. The product must be property applied to work correctly. If you need more information on this product, or if you have a particular problem or question, contact KIDDE-FENWL, INC., Ashland, MA 01721. Telephone: (508) 881-2000. K-83-025 Rev AB @2007 Kidde-Fenwal Inc. Printed in USA Kidde Fire Systems A UTC Fire & Security Company 400 Main Street Ashland, MA 01721 Ph: 508.881.2000 Fax: 508.881.8920 www.kiddefiresystems.com 'F SYSTEM SENSOR Selectable-Output Horns, Strobes, and Horn Strobes SpectrAlert Advance selectable-output horns, strobes, and horn strobes are rich with features guaranteed to cut installation times and maximize profits. Y AM mff~' - - M~;' Features Plug-in design with minimal intrusion into the back box Tamper-resistant construction Automatic selection of 12-or 24-volt operation at 15 and 15/75 candela Field-selectable candela settings on wall and ceiling units: 15,15/75, 30,75,95,110,115,135,150,177, and 185 Horn rated at 88+ dBA at 16 volts Rotary switch for horn tone and three volume selections Universal mounting plate for wall and ceiling units Mounting plate shorting spring checks wiring continuity before device installation Electrically compatible with existing SpectrAlert products Compatible with MDL sync module The SpectrAlert Advance series offers the most versatile and easy-to-use line of horns, strobes, and horn strobes in the industry. With white and red plastic housings, wall and ceiling mounting options, and plain and FIRE-printed devices, SpectrAlert Advance can meet virtually any application requirement. Like the entire SpectrAlert Advance product line, horns, strobes, and horn strobes include a variety of features that increase their application versatility while simplifying installation. All devices feature plug-in designs with minimal intrusion into the back box, which make installations fast and foolproof while virtually eliminating costly and time-consuming ground faults. Furthermore, a universal mounting plate with an onboard shorting spring tests wiring continuity before the device is installed, protecting devices from damage. In addition, field-selectable candela settings, automatic selection of 12-or 24-volt operation, and a rotary switch for horn tones with three volume selections enables installers to easily adapt devices to suit a wide range of application requirements. Agency Listings SWNAUNG USIED APPROVED S4OI (d,b,,eo.I,o,n suobes,homl) 3023572 55512 (strobes) MEA approved 7I25-l6S3:IS6Ond0o,strobes) 7125-653:I86(%Dn strobes M0A452-05€ dsjn,esuobes) 7135-1653:189 (born, Chln,es) SpectrAlert Advance Specifications General SpectrAlert Advance horns, strobes, and horn strobes shall mount to a standard 4 x4 x 1½-inch back box, 4-inch octagon back box, or double-gang back box.Two-wire products shall also mount to a single-gang 2 x 4 x 17/8-iflCh back box. A universal mounting plate shall be used for mounting ceiling and wall products.The notification appliance circuit wiring shall terminate at the universal mounting plate. Also, SpectrAlert Advance products, when used with the Sync-Circuit' Module accessory, shall be powered from a non-coded notification appliance circuit output and shall operate on a nominal 12 or 24 volts. When used with the Sync-Circuit Module, 12-volt-rated notification appliance circuit outputs shall operate between 9 and 175 volts; 24-volt-rated notification appliance circuit outputs shall operate between 17 and 33 volts. Indoor SpectrAlert Advance products shall operate between 32 and 120 degrees Fahrenheit from a regulated DC or full-wave rectified unfiltered power supply. Strobes and horn strobes shall have field-selectable candela settings including 15, 15/75, 30, 75,95,110,115,135,150,177, and 185. Strobe The strobe shall be a System Sensor SpectrAlert Advance Model _______ listed to UL 1971 and shall be approved for fire protective service.The strobe shall be wired as a primary-signaling notification appliance and comply with the Americans with Disabilities Act requirements for visible signaling appliances, flashing at 1 Hz over the strobe's entire operating voltage range. The strobe light shall consist of a xenon flash tube and associated lens/reflector system. Horn Strobe Combination The horn strobe shall be a System Sensor SpectrAlert Advance Model _______ listed to UL 1971 and UL 464 and shall be approved for fire protective service.The horn strobe shall be wired as a primary-signaling notification appliance and comply with the Americans with Disabilities Act requirements for visible signaling appliances, flashing at 1 Hz over the strobe's entire operating voltage range.The strobe light shall consist of a xenon flash tube and associated lens/reflector system. The horn shall have three audibility options and an option to switch between a temporal three-pattern and a non-temporal (Continuous) pattern. These options are set by a multiple position switch. On four-wire products, the strobe shall be powered independently of the sounder. The horn on horn strobe models shall operate on a coded or non-coded power supply. Synchronization Module The module shall be a System Sensor Sync-Circuit model MDL listed to UL 464 and shall be approved for fire protective service.The module shall synchronize SpectrAlert strobes at 1 Hz and horns at temporal three. Also, while operating the strobes, the module shall silence the horns on horn strobe models over a single pair of wires.The module shall mount to a 411/16 X 411/ x 21/e-inch back box.The module shall also control two Style (class B) circuits or one Style Z (class A) circuit.The module shall synchronize multiple zones. Daisy chaining two or more synchronization modules together will synchronize all the zones they control. The module shall not operate on a coded power supply. Physical/Electrical Specifications Standard Operating Temperature 32°F to 120°F (0°C to 49°C) Humidity Range 10 to 93% non-condensing Strobe Flash Rate 1 flash per second Nominal Voltage Regulated 12 DC/FWR or regulated 24 DC/FWR' Operating Voltage Range2 8 to 173 V (12V nominal) or 16 to 33V (24V nominal) Input Terminal Wire Gauge 12t0 18AWG Ceiling-Mount Dimensions (including lens) 6.8diameter x 23Thigh (173 mm diameter x 64mm high) Wall-Mount Dimensions (including lens) 5.6% x 4.7W x 2.5"D (142 mm Lxii 9 mmW x 64 mm D) Horn Dimensions 5.6L x4.7Wxi.3D(142 mm Lxii9mmWx 33 mm D) Wall-Mount Back Box Skirt Dimensions (BBS-2, BBSW-2) 5.9L x 5.0W x 2.2"D (1 51 mm Lx 128 mm W x 56 mm D) Ceiling-Mount Back Box Skirt Dimensions (BBSC-2, BBSCW-2) 7.1 diameter x 2.2" high (180 mm diameter x 57 mm high) Wall-Mount Trim Ring Dimensions (sold as a pack) (TR-HS, TRW-HS) 5.7'L x 4.8W x 035D (145 mm Lx122 mm W x 9 m 0) Ceiling-Mount Trim Ring Dimensions (sold as a 5 pack) (TRC-HS, TRCW-HS) 69" diameter x 0.3S-high 075mm diameter x 9 m high) Notes: Full Wave Rectified (FWR) voltage is a non-regulated, time-varying power source that is used on some power supply and panel outputs. P 5, PC, and SC products will operate at 12 V nominal only for 15 and 15/75 cd. A05.0395.007 UL Current Draw Data S UL Max. Strobe Current Draw (rnA RfVIS) 8-17.5 Volts 16-33 Volts 8-17.5 Volts 16-33 Volts Candela DC FWR DC FWR Sound Pattern dB DC FWR DC FWR Standard 15 123 128 66 71 Temporal High 57 55 69 75 Candela Range 15/75 142 148 77 81 Temporal Medium 44 49 58 69 30 NA NA 94 96 Temporal Low 38 44 44 48 75 NA NA 158 153 Non-temporal High 57 56 69 75 95 NA NA 181 176 Non-temporal Medium 42 50 60 69 110 NA NA 202 195 Non-temporal Low 41 44 50 50 115 NA NA 210 205 Coded High 57 55 69 75 High 135 NA NA 228 207 Coded Medium 44 51 56 69 Candela Range 150 NA NA 246 220 Coded Low 40 46 52 50 177 NA NA 281 251 185 NA NA 286 258 UL Max. Current Draw (rnA RMS), 2-Wire Horn Strobe, Standard Candela Ra nge (15-115 cd) 8-17.5 Volts 16-33 Volts DC Input 15 15/75 15 15/75 30 75 95 110 115 Temporal High 137 147 79 90 107 176 194 212 218 Temporal Medium 132 144 69 80 97 157 182 201 210 Temporal Low 132 143 66 77 93 154 179 198 207 Non-Temporal High 141 152 91 100 116 176 201 221 229 Non-Temporal Medium 133 145 75 85 102 163 187 207 216 Non-Temporal Low 131 144 68 79 96 156 182 201 210 FWR Input Temporal High 136 155 88 97 112 168 190 210 218 Temporal Medium 129 152 78 88 103 160 184 202 206 S Temporal Low 129 151 76 86 101 160 184 194 201 Non-Temporal High 142 161 103 112 126 181 203 221 229 Non-Temporal Medium 134 155 85 95 110 166 189 208 216 Non-Temporal Low 132 154 80 90 105 161 184 202 211 UL Max. Current Draw (rnA RMS), 2-Wire Horn Strobe, H igh Candela Range (135-185 cd) 16-33 Volts 16-33 Volts DC Input 135 - 150 177 185 FWR Input 135 150 177 185 Temporal High 245 259 290 297 Temporal High 215 231 258 265 Temporal Medium 235 253 288 297 Temporal Medium 209 224 250 258 Temporal Low 232 251 282 292 Temporal Low 207 221 248 256 Non-Temporal High 255 270 303 309 Non-Temporal High 233 248 275 281 Non-Temporal Medium 242 259 293 299 Non-Temporal Medium 219 232 262 267 Non-Temporal Low 238 254 291 295 Non-Temporal Low 214 229 256 262 Horn Tones and Sound Output Data 8-17.5 16-33 24-Volt Nominal Switch Volts Volts Reverberant Anechoic Position Sound Pattern dB DC FWR DC FWR DC FWR DC FWR 1 Temporal High 78 78 84 84 88 88 99 98 _2 Temporal Medium 74 74 80 80 86 86 96 96 3 Temporal Low 71 73 76 76 83 80 94 89 4 Non-Temporal High 82 82 88 88 93 92 100 100 5 Non-Temporal Medium 78 78 85 85 90 90 98 98 6 Non-Temporal Low 75 75 81 81 88 84 96 92 7* Coded High 82 82 88 88 93 92 101 101 S 8* Coded Medium 78 78 85 85 90 90 97 98 9* Coded Low 75 75 81 81 88 85 96 92 tSettings 7, 8, and 9 are not available on 2-wire horn strobe. SpectrAlert Advance Dimensions fl S Wall-mount horn strobes Ceiling-mount horn strobes Wall back box skirt Ceiling back box skirt SpectrAlert Advance Ordering Information Wall Horn Strobes Ceiling Strobes P2R 2-Wire Horn Strobe, Standard cd*, Red SCR Strobe, Standard cd, Red P2RH* 2-Wire Horn Strobe, High cd, Red SCRH Strobe, High cd, Red P2W* 2-Wire Horn Strobe, Standard cd, White SCW Strobe, Standard cd, White P2WH* 2-Wire Horn Strobe, High cd, White SCWH Strobe, High cd, White P4R 4-Wire Horn Strobe, Standard cd, Red Horns P4RH 4-Wire Horn Strobe, High cd, Red (iii) (H_o_rn7R7ed P4W 4-Wire Horn Strobe, Standard cd, White HW Horn, White Wall Strobes Accessories SR*' Strobe, Standard cd, Red BBS-2 Back Box Skirt, Wall, Red 5RH 0 Strobe, High cd, Red BBSW-2 Back Box Skirt, Wall, White 5W Strobe, Standard cd, White BBSC-2 Back Box Skirt, Ceiling, Red SWH* Strobe, High cd, White BBSCW-2 Back Box Skirt, Ceiling, White Ceiling Horn Strobes TR-HS Trim Ring, Wall, Red PC2R 2-Wire Horn Strobe, Standard cd, Red TRW-HS Trim Ring, Wall White PC2RH 2-Wire Horn Strobe, High cd, Red TRC-HS Trim Ring, Ceiling, Red PC2Wt 2-Wire Horn Strobe, Standard cd, White TRCW-HS Trim Ring, Ceiling, White PC2WH* 2-Wire Horn Strobe, High cd, White PC411 4-Wire Horn Strobe, Standard cd, Red PC4RH 4-Wire Horn Strobe, High cd, Red PC4W 4-Wire Horn Strobe, Standard cd, White Notes: Add -Vto model number for plain housing (noFlREmarking on cover), e.g. P2R-P. t Add -SP to model number for'FUEGO marking on cover, e.g. P211-SP. rStandard cdrefers to strobes that include 15, 15/75, 30,7S, 95, 110, and 115 candela settings. High cd'refers to strobes that Include 135, 150, 177, and 185 candela settings. SYSTEM 3825 Ohio Avenue St Charles IL 60174 SENSOR Phone: 800-SENSOR2 - Fax: 630-377-6495 orrentproduor Informailon. Ind= the krest version d this data sheer. A05.0305.007. 4/09.02132 - SPECTFIert SYSTE SENSØF?° 120 VAC Adapter Mounting Plate System Sensor's MP 120K mounting plate is designed to use 120 VAC to power SpectrAlert° Advance horns, strobes, horn/strobes, chimes, and chime/strobes. The MP1 20K features an easy plug in design and has been fitted with a power supply that converts the 120VAC to nominal 24V FWR. The mounting plate may be used for indoor or outdoor applications. For indoor applications, complete field wiring and attach the mounting plate to a four inch square back box. Attach the horn, strobe or horn/strobe, chime or chime/strobe to the mounting plate by inserting the product's tabs in the mounting plate's grooves. The is mounting will rotate into position, locking the product's pins into the mounting plate's terminals. The device will temporarily hold in place With a catch until it is secured with a captured mounting screw. For outdoor applications, the MP1 20K must be installed using the SpectrAlert Advance weatherproof back box and outdoor listed notification appliance. Specifications Features Operates at 120VAC Indoor / Outdoor use Compatible with all two -wire SpectrAlert Advance devices Compatible with 4 x 4 x 21/s electrical boxes and System Sensor weatherproof back box Plug-in design Paint cover provided to protect wiring terminals Agency Listings ® *MEA LISTED approved 54011 7300.1653195 582.06.5 120 VAC mounting plate model MP1 20K shall be listed to UL 464 for tire protective signaling systems. The mounting plate shall power a two-wire SpectrAlert Advance horn, strobe, horn/strobe, chime or chime/strobe from a 120 VAC supply converted to nominal 24V FWR. For indoor applications the mounting plate shall be installed in a 4"x 4'x 21/9 junction box, for outdoor applications the mounting plate shall be installed using the proper SpectrAlert Advance outdoor weatherproof back box and outdoor listed notification appliance. Standard Operating Temperature -40°F to 151°F (-40°C to 66°C) Humidity Range 10 to 93% non-condensing (indoor products) Nominal Voltage Regulated 120 VAC Operating Voltage Range 96-132 VAC Current Draw From AC Line 150 mA max. Ordering Information WOMB UGNUMV MP120K 120vAc Adapter Mounting Plate MP1 20K may be used with any of the following products, at all horn and strobe settings: P2R, P2RH, P2RK, P2RHK 132W, P2WH, SR, SRH, SRK, SRHK, SW, SWH, PQR, PC2RH, PC2RK, PC2RHK, PC2W, PC2WH, SCR, SCRH, SCRK, SCRHK. SCW, SCWH, HR, HRK. HW, SR-P, SW-P, SRH-P, SWH-P, P213-P, P2W-P, P2RH-P, P2WH-P, SCR-P, SCW-P, SCRH-R SWH-P, PC2R-P, PC2W-P, PC2RH-P, PC2WH-P, SR-SR SRH-SP, P2R-SP, P2RH-SP, SCW-SP, SCWH-SP, PC2W-SP, P2WH-SP, CHR, CHW, CHSR,CHSW. '''TEiYi7 02586 System S,nwr. 3825 Ohio Avenue. St. Charle s, IL 60174 1'N50' Phone: 800-SENSOR2 . Fax: 630-377-6495 505.041.000.116.81733 P/N 22042 January 20 Dry Chemical Industrial and Open-Face Spray Booth Fire Suppression System Design, Installation, Operation, and Maintenance Manual LISTED LISTED ULC EX2153/CEX5I5 UL Listing File No. EX2153 fKidde F i re Syste m s A UTC Fire & Security Company S General Information CHAPTER 1 GENERAL INFORMATION 1-1 INTRODUCTION The Kidde® IND TM Dry Chemical System provides fire protection for a variety of special hazard applications. The IND system holds UL listings and FM Approvals as a pre-engineered system. Systems shall be designed and implemented according to the following: NFPA Standard 17, "Standard for Dry Chemical Systems", NFPA Standard 33, "Standard for Spray Applications Using Flammable or Combustible Material", Other applicable NFPA standards as required for a particular application and design, including, but not limited to, NFPA 70 (NEC) and NFPA 72, Fire Alarm Standard. This Design, Installation, Operation, and Maintenance Manual. Any other standards enforced by a local Authority Having Jurisdiction (AHJ). Configurations in Chapter 3, System Design, are tested and listed to Underwriters Laboratories (UL) Standard 1254, and FM Approved. Open-Face Spray Booth configurations (Section 3-2.3) are tested and listed to UL Standard 1254. F_ 1-2 CLASSIFICATION OF FIRE L The classification of fire is defined as the following: Class A: Surface Type Fires; wood or other cellulose-type material (ordinary combustibles) Class B: Flammable liquids Class C: Energized electrical equipment Class D: Combustible metals (such as magnesium, sodium, zirconium, potassium, and titanium) Class K: Combustible cooking media (vegetable or animal oils and fats) Note: Kidde IND Dry Chemical is not suited for Class D and Class K type of fires. 1-3 GENERAL CHARACTERISTICS OF THE KIDDE IND SYSTEM The Kidde IND System is a dry chemical fire suppression system with two types of agent. The system is capable of encompassing a wide variety of application requirements. The system utilizes stored pressure agent cylinders. Stored pressure cylinders: Remain free of contamination Reduce the packing of the agent Provide a smooth flow throughout the discharge The cylinders are powder-coated, welded mild-steel shell conforming to DOT 4BW or 4BA construction. The valve is forged brass with chrome-nickel plating. The plating and cylinder coating help to make the assemblies corrosion resistant. P/N 220423 1-1 January 2007 General Information The system can be activated mechanically from manual release, thermo-bulb links, and fusible links. S The system can be activated electrically, using a tested and listed 24 Vdc control panel. Both automatic detection devices and manual release can be used on control panels. Cylinders are actuated from stored high-pressure nitrogen. Automatic and manual actuation are available for the Kidde IND System. Other actuations are available, such as: Mechanical gas valve closure Dry contacts for annunciation and electrical shutdown 1-4 SYSTEM DESCRIPTION The Kidde IND Dry Chemical System is a fixed dry chemical system consisting of a supply of dry chemical stored in one or more Cylinder and Valve Assembly. Each cylinder is pressure activated by a System Valve Actuator. The system can be actuated either automatically and/or manually, using mechanical, electrical, or pressure actuation devices. Upon actuation, the dry chemical is discharged through agent distribution piping and specially designed nozzles positioned throughout the protected area. S January 2007 1-2 P/N 220423 r L TOTAL-FLOOD NOZZLES S General Information DETECTOR Figure 1-1. Typical Kidde® INDTM Dry Chemical System. P/N 220423 1-3 January 2007 General Information 1-5 OPERATIONAL SEQUENCE AUTOMATIC MECHANICAL ACTIVATION FIRE OR EXTREME TEMPERATURE RISE OCCURS MANUAL ACTIVATION AUTOMATIC ELECTRICAL ACTIVATION MECHANICAL LINK SEPARATES UNIVERSAL REMOTE I I ELECTRIC I CONTROL HEAD Ii MANUAL I I PULL STATION I SYSTEM MANUAL RELEASE I I ACTIVATION I I ACTIVATION__II ACTIVATION I I I HEAT DETECTOR REACHES- PREDETERMINED TEMPERATURE UL LISTED FIRE CONTROL PANEL SENDS ACTUATION SIGNAL TO ELECTRIC SOLENOID IN UNIVERSAL CONTROL SYSTEM UNIVERSAL CONTROL SYSTEM TRIPS RELEASING NITROGEN FROM THE SYSTEM CARTRIDGE MICROS WITCH(ES) TRIP FUNCTIONS TO SYSTEM VALVE ACTUATORS (SVAs), OPENING CYLINDER VALVES DRY CHEMICAL FLOWS THROUGH AGENT DISTRIBUTION PIPING AND NOZZLES, SUPPRESSING FIRE Figure 1-2. Operational Sequence Flow Chart January 2007 1-4 P/N 220423 General Information 1-6 APPLICATIONS There are two general types of applications for dry chemical systems: Total-Flood and Local- Application. In addition, the Kidde IND System is UL Listed for protection of Industrial Open-Front Spray Paint Booths. 1-6.1 Total-Flooding Total-Flood refers to a volumetric area that is completely enclosed. The Kidde IND System is UL Listed and FM approved with uncloseable opening(s) up to 5% of the total area of the walls, floor, and ceiling. In total-flooding, a predetermined amount of dry chemical is discharged through fixed piping and nozzles into an enclosed space or enclosure around the hazard. Total-flooding is applicable only when the hazard is totally enclosed or when all openings surrounding a hazard can be closed automatically when the system is discharged. Total-flooding can be used only where no re-ignition is anticipated. System is listed up to 5% of the hazard having uncloseable openings. See Chapter 3 for total-flood design parameters. Note: Dry Chemical Systems do not inert the atmosphere of a total-flood application. They are affective during discharge. 1-6.2 Local-Application Local-Application refers to areas that are not enclosed. In a local-application system, the nozzles are arranged to discharge directly into the fire. Local- application is practical in those situations where the hazard can be isolated from other hazards so that fire will not spread beyond the area protected, and where the entire hazard can be protected. The principal use of local-application systems is to protect open tanks of flammable liquids. Local-application is ineffective unless extinguishment can be immediate and there are no re-ignition sources. See Chapter 3 for local-application design parameters. 1-6.3 Industrial Open-Front Spray Paint Booth UL considers the Industrial Open-Front Spray Paint Booth a total-flood type of application, but enforces a specific test standard for that application. The design parameters included in "Industrial Open-Front Spray Paint Booth" on page 5 were arrived at by testing to this standard. An Open-Front Spray Paint Booth has no doors on the front of the booth. During painting operations, the front remains open. A properly designed ventilation system will prevent overspray from escaping out of the booth. The UL 1254 standard requires that the open-front be "screened" while the work area is being flooded. In addition, all parts of the ventilation system (plenum and duct) are also protected. Both ABC and BC dry chemicals are permitted in the work area and plenum of an Open-Front Spray Paint Booth. Only BC dry chemical is used in the duct. See Chapter 3 for open-front spray paint booth parameters. P/N 220423 1-5 January 2007 General Information 1-7 APPLICATIONS AND LIMITATIONS OF DRY CHEMICAL SYSTEMS . "Multipurpose" (ABC) agent is used for areas where some sort of "ordinary combustibles," such as wood and paper are present. One example is a furniture factory in which the wood furniture is being used. Since wood is a class "A" combustible, the Open-Front Spray Booth in which the furniture is being finished would have ABC dry chemical protection for the work area and plenum. "Regular Dry Chemical" (BC) agent is used for areas where there are no "ordinary combustibles." One example is a dip tank in which metal parts are being coated. While in process, the coating is combustible or flammable. The most affective agent is BC, for fast flame knockdown. Other applications include, but not limited to: Open-Front Paint Spray Booths Spill Areas Hazardous Storage Buildings Dip Tanks Electrical Motors Pumps Switchgear Rooms Flammable Liquid Storage Facilities The dry chemicals used in the Kidde IND Dry Chemical System are stable at both low and high temperatures. Various additives are mixed with the base materials to improve their storage, flow, and water-repellency characteristics. The upper storage temperature limit for the system is 120°F (490C). The lower temperature limit is -40°F (-400C). A Upon system alarm notification, all personnel must evacuate the protected space. Failure to do so may result in temporary respiratory difficulties, WARNING disorientation, and/or personal injury. 1-7.1 Extinguishing Properties When introduced into the combustion zone, dry chemical causes almost immediate flame suppression. Smothering, cooling and radiation shielding contribute to the extinguishing efficiency of dry chemical, but the principal mechanism for the flame extinguishment is the chemical chain-breaking properties of the dry chemicals. When ABC dry chemical is discharged, the decomposed monoammonium phosphate leaves a sticky residue. This residue seals oxygen from the burning material, thus providing fire suppression and inhibiting re-ignition. January 2007 1-6 P/N 220423 General Information 1-7.2 Limitations of Dry Chemicals . Dry chemicals do not inert or secure after discharge is complete. If securement is required, either an extended discharge is required, or a different choice of agents, or both, is necessary. Dry Chemical system protection is not recommended, however, for delicate electrical equipment, such as: Telephone switchboards Electronic computers Such equipment is subject to damage by dry chemical deposit and, because of the insulating properties of the dry chemical, may require excessive cleaning to restore operation. 1-8 HAZARDOUS MATERIALS INFORMATION SYSTEM (HMISSM) The HMIS rating for regular (BC, sodium bicarbonate base), and multi-purpose (ABC, monoammonium phosphate base) dry chemical is as follows: Health (H) = 1 Flammability (F) = 0 Reactivity (R) = 0 Dry chemical fire extinguishing agents are considered nontoxic, but are classified as a nuisance dust irritant, and may cause temporary irritation to the CAUTION eyes, skin, or respiratory system. Avoid unnecessary exposure. S Refer to http://www.kiddefiresystems.com web site for latest MSDS information. 1-9 CLEAN-UP After discharge, the dry chemical should be removed from any valuable equipment to prevent a possible reaction between materials in the presence of moisture. Personnel in contact with the agent should remove the dry chemical from their skin with tap water. P/N 220423 1-7 January 2007 General Information S 1-1 THIS PAGE INTENTIONALLY LEFT BLANK. January 2007 1-8 P/N 220423 Components CHAPTER 2 COMPONENTS 2-1 FIRE SUPPRESSION SYSTEM COMPONENTS The Kidde® IND TM Dry Chemical Fire Suppression System consists of the following major components: Suppression (Agent storage cylinders distribution piping, nozzles, and detection devices (mechanical and electrical) Controls Auxiliary Components Cylinder and Valve Assembly The IND Dry Chemical Fire Suppression System utilizes six sizes of cylinders. The cylinders consist of a factory-filled dry chemical agent and valve assembly. The cylinders conform to DOT specification 4BW-4BA and NFPA standards. Distribution Piping The distribution piping (not supplied by Kidde) is designed to distribute the dry chemical agent to the hazard areas. In the Kidde IND pre-engineered system, pipe sizes, minimum and maximum pipe lengths and number of pipe fittings are predetermined. See Chapter 3 for more details. S Nozzles There are five types of nozzles for the IND Dry Chemical Fire Suppression System. Each type of nozzle has been designed and tested for specific applications and areas of coverage. The nozzles are: Local-Application (low overhead, high overhead, and tankside) Total-Flooding Duct/Plenum Detection Devices There are two methods of detection that can be employed in the system: mechanical or electrical. Mechanical detection uses fusible-link or thermo-bulb link detectors to provide reliable performance. The detectors are designed to separate at a specific temperature and release tension on the detection cable which causes the release mechanism to activate. Fusible- link detectors are available in four temperature ratings, and the thermo-bulb detectors are available in six temperature ratings. Electrical detection uses heat detectors that are equipped with self-restoring, normally- open contacts which close when a predetermined temperature is reached. Heat detectors are available in six set points. S P/N 220423 2-1 January 2007 Components "Control System .The XV Control System is used for actuating the Kidde IND Cylinder and Valve Assembly. The XV Control System can be mounted directly on the cylinder or to a wall. The XV Control - System can be operated with: • Automatic mechanical detection (fusible-links and thermo-bulb links), • Automatic electrical operation, and • Remote and local manual operation. 2-2 SUPPRESSION COMPONENTS 2-2.1 Cylinder and Valve Assembly Kidde offers six different models of IND Dry Chemical Systems. Cylinders are filled with either regular (BC, sodium bicarbonate base), or multi-purpose (ABC, monoammonium phosphate base) dry chemical. Table 2-1 outlines the fill weights of agent, dimensions and agent type for each Cylinder and Valve Assembly model. The Cylinder and Valve Assembly: • Conforms to DOT Specification 4BW4BA Cylinder and Valve Assemblies are pressurized with nitrogen to 360 PSIG (24.8 bar) at 70°F (210C). Protective eye wear must always be worn when working with pressurized cylinders. Never service the Cylinder and Valve Assembly unless the Anti-Recoil A Plate (P/N 255681) and Valve Protection Plate (P/N 255096) are installed. or ARNING Death, serious injury and/or property damage could occur as the cylinder may be violently propelled. Refer to the Safety Summary for more information regarding pressurized cylinders. January 2007 2-2 P/N 220423 Components A TOP OF CYLINDER VALVE NOMINAL CYLINDER DIAMETER B CENTER OF DISCHARGE PORT Figure 2-1. Dimensions of Cylinder and Valve Assembly Table 2-1. Cylinder and Valve Assembly Specifications Cylinder and Agency Agent Fill Dimensions Valve Assembly Model Application Approval Type weight Part Number of Agent A B C 486573 IND-21 Total-Flood UL/ULC, FM ABC 21 lb. 17-1/2 in. 16-1/8 in. 9 in. (447 mm) (409 mm) (229 mm) 486574 IND-45 Total-Flood UL/ULC, FM ABC 45 lb. 30-3/4 in. 29-1/4 in. 9 in. (782 mm) (744 mm) (229 mm) 83-100018-001 IND-70 Open-Front UL/ULC ABC 68 lb. 30-1/4 in. 28-1/2 in. 12-1/4 in. Spray Booth (768 mm) (724 mm) (312.4 mm) 486570 IND-25 Total-Flood UL/ULC, FM BC 25 lb. 17-1/2 in. 16-1/8 in. 9 in. Open-Front (447 mm) (409 mm) (229 mm) Spray Booth 486571 IND-50 Total-Flood UL/ULC, FM BC 50 lb. 30-3/4 in. 29-1/4 in. 9 in. (782 mm) (744 mm) (229 mm) Open-Front UL/ULC Spray Booth Local- UL/ULC Application 83-100019-001 IND-75 Open-Front UL/ULC BC 75 lb. 30-1/4 in. 28-1/2 in. 12-1/4 in. Spray Booth (768 mm) (724 mm) (312.4 mm) P/N 220423 2-3 January 2007 Figure 2-2. Wall Mounting Bracket S CYLINDER STRAF I Components 2-2.1.1 WALL MOUNTING BRACKET, PINS 486487, 486488, OR 87-100009-001 Mounting brackets are used for mounting all Cylinder and Valve Assembly. A cylinder strap is used to secure the cylinder to the bracket. The bracket is mounted to the wall using three (3) 318-inch diameter bolts or screws of suitable length and type. See Figure 2-2 and Table 2-2 for dimensions and load information. Table 2-2. Wall Mounting Bracket Specifications Wall Mounting Dimensions ___________ Recommended Wall Bracket P/N Model Support Load A B C 486487 IND-21 13-1/8 in. 9-3/4 in. 6-3/4 in. 65 lb. IND-25 (333 mm) (248 mm) (171 mm) (30 kg) 486488 IND-45 19-5/8 in. 9-3/4 in. 6-3/4 in. 130 lb. IND-50 (498 mm) (248 mm) (171 mm) (59 kg) 87-100009-0011 IND-70 21 in. 13-1/4 in. 10-1/4 in. 2251b. IND-75 (533 mm) (337 mm) (257 mm) (102 kg) 871000100011,2 IND-70 - - - - IND-75 1 UL Listed Only 2 Bracket P/N 87-100010-001 is a floor mounting kit for the Model IND-70 or IND-75, and requires P/N 87-100009-001. See Paragraph 2-2.1.1.1. January 2007 2-4 P/N 220423 Components 2-2.1.1.1 Floor Mount Bracket Kit, P/N 87-100010-001 A Floor Mount Bracket Kit is used for mounting the IND-70 or IND-75 cylinder to the floor. The Floor Mount Bracket Kit requires Wall Mounting Bracket P/N 87-100009-001. Use 3/8-inch diameter bolts (with nuts) of suitable length and type to attach to the Wall Mounting Bracket. See Figure 2-3. 3/8 in. DIAMETER BOLTS TO ATTACH TO WALL MOUNTING BRACKET 318 in. DIAMETER BOLTS TO ATTACH Af TO WALL MOUNTING BRACKET Figure 2-3. Floor Mount Bracket Kit Table 2-3. Floor Mounting Kit Specifications Dimension A Dimension B Dimension C 3 in. (76 mm) 9-5/8 in. (245 mm) 6-9/16 in. (168 mm) P/N 220423 2-5 January 2007 Components 2-2.1.2 DISCHARGE ADAPTER KIT, P/N 844908 The Discharge Adapter provides a means to connect discharge pipe to any Kidde IND Dry Chemical Cylinder and Valve Assembly. The Discharge Adapter Kit consists of a 3/4-inch NPT adapter and a steel flange plate (see Figure 2-4). Note: The nuts and bolts used to secure the Anti-Recoil Plate to the discharge valve should be retained and used for mounting the Discharge Adapter to the valve outlet. The Discharge Adapter can also be used as a recharge adapter to pressurize the cylinder with nitrogen after filling with dry chemical. S 314 in. NPT NGE PLATE ADAPTER Figure 2-4. Discharge Adapter Kit, P/N 844908 January 2007 2-6 . P/N 220423 Components 2-2.2 Discharge Nozzles 0 2-2.2.1 LOCAL-APPLICATION NOZZLES There are two types of nozzles used for local-application systems; overhead and tankside. Overhead nozzles are designed to discharge a solid cone of dry chemical down onto a protected area from a fixed location above the protected area. There are two different overhead nozzles; low-overhead and high-overhead. The low-overhead nozzle, shown in Figure 2-5, uses a screen at the nozzle outlet to reduce the velocity of the Dry Chemical discharge. This allows the nozzle to be positioned within six to eight feet from the surface of a flammable liquid. - 1~ 112 in. (13 mm) NPT 0 Figure 2-5. Low-Overhead Nozzle, P/N 844258 The high-overhead nozzle, shown in Figure 2-6, can be used at greater heights above the surface of the flammable liquid. 112 in. (13 mm) NPT Figure 2-6. High-Overhead (or Screening) Nozzle, P/N 259270 P/N 220423 2-7 January 2007 Components 2-2.2.2 TANKSIDE NOZZLE, P/N 259072 The tankside nozzle, shown in Figure 2-7, is designed to discharge a flat, semicircular blanket of Dry Chemical over the surface of a flammable liquid. 2 in. (51 MM) FIN 314 In. -14(19 mm) NPT BLOW-OFF CAP (PIN 06-235348.001) Figure 2-7. Tankside Nozzle, P/N 259072 January 2007 2-8 P/N 220423 S 314 in.-14 (19 mm) NI /—(PIN CAP /' (PIN 06.250099.067) Components 2-2.2.3 TOTAL-FLOODING NOZZLE, P/N 83-100005-001 The Total-Flooding (TF) Nozzle, shown in Figure 2-8, is designed to discharge dry chemical throughout an enclosed area. The TF Nozzle is used for non-spray type applications as well as enclosed and open-face applications. Each TF Nozzle is factory-equipped with a blow-off cap (P/N 06-250099-067) to protect the nozzle orifices from clogging and physical damage. Figure 2-8. Total-Flooding Nozzle, P/N 83-100005-001 P/N 220423 2-9 January 2007 S Components 2-2.2.4 DUCT/PLENUM (DP) NOZZLE, P/N 83-100006-001 The Duct/Plenum (DP) Nozzle, shown in Figure 2-9, is designed to discharge dry chemical throughout an exhaust duct or plenum. Each DP Nozzle is factory-equipped with a blow-off cap (P/N 264742) to protect the nozzle orifices from clogging and physical damage. 112 in. .14 (13 mm)) NP (PIN 264742) Figure 2-9. Duct/Plenum (DP) Nozzle, P/N 83-100006-001 January 2007 2-10 P/N 220423 Components 2-2.2.5 MAIN/RESERVE SYSTEM COMPONENT 49 2-2.2.5.1 Two-Way Check Tee, P/N 896516 The two-way check tee, shown in Figure 2-10, is used for main and reserve cylinders that share a common piping system. The check tee prevents loss of dry chemical upon discharge when one of the cylinders is removed for refilling, maintenance, or repair. n. (25 mm) NPT PICAL) Figure 2-10. Two-Way Check Tee, P/N 896516 P/N 220423 2-11 January 2007 fl 14- 3-3/4 in. (95 mm) n. n) Components 2-3 CONTROLS •3.1 "m Control System, P/N 87-120099-001 The XV Control System, P/N 87-120099-001, is used for actuating the Kidde IND Cylinder and Valve Assembly. The XV Control System can be attached to the System Valve Actuator, P/N 87-120042-001 for direct cylinder mounting, or to a wall for remote mounting. Knockouts are provided to accommodate either type of mounting. The controller can be operated with: Automatic mechanical detection (fusible-links and thermo-bulb links), Automatic electrical operation, and Remote and local manual operation. Figure 2-11. XV Control System S January 2007 2-12 P/N 220423 Components 2-3.1.1 SYSTEM NITROGEN CARTRIDGE, P/N 87-120043-001 The XV Control System uses a nitrogen cartridge for actuating the IND dry chemical cylinders and is charged with dry nitrogen (see Figure 2-12). The System Nitrogen Cartridge is mounted inside the XV Control System to protect it from tampering and provides the date of manufacturing and space (gray band) for recording of the installation date. GRAY BAND Figure 2-12. System Nitrogen Cartridge, P/N 87-120043-001 2-3.1.2 TEST CARTRIDGE, P/N 87-120044-001 The Test Cartridge is used for testing of the Kidde IND Dry Chemical System. The Test Cartridge has a red band around it with a label "TEST CARTRIDGE" as shown in Figure 2-13. Note: The System Nitrogen Cartridge P/N 87-120043-001 is required for actuation and full discharge or "puff" tests. The Test Cartridge (P/N 87-120044-001) must be removed and the System A Nitrogen Cartridge (P/N 87-120043-001) must be installed at the completion of CAUTION any work done on the system. Failure to do so will result in malfunction of the system. (102 mm) I in. (S hllllfflul (25 mm) IcAIEUIIJfflIIIIjj Figure 2-13. Test Cartridge, P/N 87-120044-001 [IJ P/N 220423 2-13 January 2007 5116-18 UNC THROUGH HOLE (TYP) (NOT SHOWN) 118 In. NPT PLUG (IF APPLICABLE) S SVA PISTON IN SET POSITION 118 In. NPT PORT SPRING LOADED PLUNGER PISTON IN ACTUATED POSITION (TOWARDS CYLINDER VALVE) Components 2-3.1.3 SYSTEM VALVE ACTUATOR (SVA), P/N 87-120042-001 A System Valve Actuator (SVA) is mounted to every dry chemical cylinder valve assembly located on the system (see Figure 2-14). The SVA has ports for low profile tubing runs, and is also equipped with a spring loaded plunger that locks the piston in the discharged position, ensuring complete discharge of the cylinder(s) contents. Figure 2-14. System Valve Actuator (SVA), P/N 87-120042-001 January 2007 2-14 P/N 220423 Components 2-3.1.4 HIGH-PRESSURE NITROGEN TUBING, P/N 87-120045-001 The braided High-Pressure Nitrogen Tubing, is required on all installations in A which the XV Control System is mounted to a dry chemical cylinder. Use of WARNING another hose in such an installation could result in serious personal injury and/or malfunction of the system. The High-Pressure Nitrogen Tubing is used to connect the XV Control System to the SVA (see Figure 2-15). A 1/8-inch NPT (male) x 3/8-24 JIC Adapter is included with the High-Pressure Nitrogen Tubing. SEAT 112 in. HEX, 114 in. 37 DEGREE FLARE, SWIVEL 118 in. NPT A (MALE) x 318-24 (END TO SEAT) JIC ADAPTER Figure 2-15. External Tubing for XV Control System P/N 220423 2-15 January 2007 fl Components 2-3.1.5 SOLENOID, P/N 83-100034-001 Note: Where electric detection and/or actuation is provided, supervision shall be provided in 40 accordance with NFPA 72. Alarms and indicators, along with a supervised power source, shall be provided in accordance with NFPA 72, National Fire Alarm Code. Electrical wiring and equipment shall be provided in accordance with NFPA 70, National Electric Code. All installations are subject to the approval of the Authority Having Jurisdiction (AHJ). An optional. Solenoid can be installed into the XV Control System, just under the actuation latch. The Solenoid operates directly on the actuation latch to activate the system. This installation allows simultaneous usage of mechanical detection lines, or the lines can be locked out. The Solenoid includes two mounting bolts, the bracket and a push plate which mounts onto the Solenoid body (see Figure 2-16). The Solenoid coil is 24 Vdc while the current drain is 1.5 Amp at 24 Vdc and at 70°F (210C). Note: When actuating the XV Control System with an optional Solenoid, a UL Tested and Listed fire control panel with a proper back-up power supply is required. For example: - Scorpio - Aries PUSH PLATE (DO NOT REMOVE) SOLENOID BODY ALLEN SCREWS (2) TING BRACKET )T REMOVE) RICAL LEADS 610 mm) Figure 2-16. Solenoid, P/N 83-100034-001 January 2007 2-16 P/N 220423 Components 2-3.1.6 MICROSWITCH KIT, P/N 87-120039-001 The Microswitch Kit is a single pole, double-throw switch (see Figure 2-17 and Table 2-4). Included in the kit is the microswitch, pigtail assembly and four mounting screws (two short and two long). The wire leads are 24-inches (610 mm) in length. Four Microswitch Kits can be mounted in the XV Control System. There are two mounting locations to accommodate the four Microswitch kits (two stacked at each mounting location), with EMT ports for each mounting location. This allows for the use of two electrical junction boxes for separation of signal lines and AC lines. See Figure 2-18 for the microswitch wiring diagram. ELECTRICAL CONNECTOR NC Om NO MICROSiI Figure 2-17. Microswitch Kit, P/N 87-120039-001 Table 2-4. Electrical Ratings 125/250 Vac 20-1/2 Amps 250 Vac 1-1/2 HP 125 Vac 1/2 HP RED I OPEN BLACK rVVVHITE CLOSED COMMON SWITCH POSITION WHEN UCH CAMIFLAG ASSEMBLY IS IN SET (ARMED) POSITION RED CLOSED BLACK TVMITE 7' OPEN COMMON SWITCH POSITION WHEN UCH CAMIFLAG IS IN RELEASED POSITION Figure 2-18. Microswitch Wiring Diagram for the XV Control System P/N 220423 2-17 January 2007 Components 2-3.1.7 TERMINAL TYPE MICROSWITCH KIT, P/N 87-120047-001 The Microswitch Kit is a single pole, double-throw switch (see Figure 2-19). Note: Use the Terminal Type Microswitch when using the XV Control System for alarm and release functions. Four Microswitch Kits can be mounted in the XV Control System. There are two mounting locations to accommodate the four Microswitch kits (two stacked at each mounting location), with EMT ports for each mounting location. This allows for the use of two electrical junction boxes for separation of signal lines and AC lines. MICROSWITCH SHIE Figure 2-19. Terminal Type Microswitch, P/N 87-120047-001 Table 2-5. Electrical Ratings 250 Vac 15 Amps 250 Vac 1/2 HP 125 Vac 1/2 HP January 2007 2-18 P/N 220423 Components 2-3.1.8 AUTOMATIC DETECTORS AND ACCESSORIES 2-3.1.8.1 Detector Housing Kit, P/N 804548 The Detector Housing Kit, shown in Figure 2-20 and Table 2-6, consist of the following: Table 2-6. Detector Housing Kit, P/N 804548 Item Quantity 7-9/16 in. (192 mm) Detector Housing 1 1/2-inch EMT 2 Crimp Sleeves 4 S" Hooks 1 These items are used to attach the detectors to the 1/16-inch cable leading to the XV Control System. The Detector Housing can be configured as an End-of-Line or In-Line bracket. EXAMPLE OF IN-LINE DETECTOR HOUSING KIT 112 In. EMT \ "S" HOOKS PIPE (NOT \ SUPPLIED) LOCKNUT -\ \ "5" HOOKS -p \I 4 \~TOXVCONTROL DETECTOR 1116 In. CABLEI (NOT SUPPLIED) I" V C SYSTEM (NOT SUPPLIED) E EXAMPLE OF END-OF-LINE SLEEVE DET CTOR HOUSING KIT DETECTOR (NOT SUPPLIED) 112 In. EMT CONNECTOR AND LOCKNUT 1/16 In. CABLE TO XV CONTROL SYSTEM (NOT SUPPLIED) Figure 2-20. Detector Housing Kit, P/N 804548 P/N 220423 2-19 January 2007 Components 2-3.1.8.2 Universal-Link Housing Kit, P/N 87-120064-001 The Universal-Link Housing Kit, shown in Figure 2-21, and consists of the following: Table 2-7. Detector Housing Kit, P/N 87-120064-001 Item Quantity 11-1/2 in. (292 mm) Detector Housing 1 Crimp Sleeves 2 "S" Hooks 2 The items above are used to attach the Fusible-Link or Thermo-Bulb Links to the 1/16-inch cable leading to the XV Control System. The Universal-Link Housing can be configured as an End-of-Line or In-Line bracket. 1/16 in. CABLE TO CONTROL SYSTEM (NOT SUPPLIED) - "5" HOOKS CRIMP SLEEVE\ \ ... \._THERMO-BULB LINK LOCKNUT (NOT SUPPLIED) OR FUSIBLE-LINK (NOT SUPPLIED) EXAMPLE OF END-OF-LINE THERMO-BULB LINK OR FUSIBLE-LINK (NOT SUPPLIED) CRIMP SLEEVE CONNECTOR EXAMP LE OF IN-LINE UNIVERSAL HOUSING KIT "S" HOOK (NOT SUPPLIED) UNIVERSAL HOUSING KIT Figure 2-21. Universal-Link Housing Kit, P/N 87-120064-001 January 2007 2-20 P/N 220423 Components 2-3.1.8.3 Thermo-Bulb Links, P/N 87-12009X-XXX UL Listed and FM Approved Thermo-Bulb Links, shown in Figure 2-22, are used in conjunction with Universal-Link Housing Kits (P/N 87-120064-001) and/or Detector Housing Kits (P/N 804548). The links are held together with a liquid-filled glass tube (Thermo-Bulb), which bursts at a predetermined temperature, allowing the two halves of the link to separate. The types of Thermo-Bulb links are: Rapid Response Standard Response These Thermo-Bulb links are available in various temperature ratings with a minimum/maximum load rating of 0 lb./50 lb. (0 kg/23kg). THERMO-BU RMO-BULB cl: (figure 2-22. Thermo-Bulb Link, P/N 87-12009X-XXX) P/N 220423 2-21 January 2007 Components 2-3.1.8.4 Fusible-Links (Model KML), P/Ns 282661, 282662, 282664 and 282666 UL Listed and FM Approved Fusible-Links, shown in Figure 2-23, are used in conjunction with the Fusible-Link Housing Kit. The Fusible-Links are held together with a low melting alloy that melts at a predetermined temperature, allowing the two halves of the link to separate. Figure 2-23. Fusible-Link, P/N 28266X Fusible-Links are available in various temperature ratings with a minimum/maximum load rating of 10 lb./40 lb. (5 kg/18 kg) (see Table 2-8). Table 2-8. Fusible-Link Temperature Ratings Fusible-Link Rating Maximum Exposure Temperature Part Number 165°F (74°C) 100°F (38°C) 282661 212°F (100°C) 150°F (65°C) 282662 360°F(1820C) 300°F(1490C) 282664 500°F (260°C) 440°F (226°C) 282666 :J There are two temperature designations which apply to Fusible-Links (refer to Table 2-8). One temperature is called the rating temperature, and the other is called the maximum exposure temperature. The rating temperature, which is stamped on the Fusible-Link, is the temperature at which the link will separate when new. However, continual exposure to cycling ambient temperatures may cause a degradation of the link over time. 2-3.1.8.5 Fusible-Link (Model KFA), P/N 87-120060-001 Fusible-Links are available with a minimum/maximum load rating of 5 lb. - 45 lb. (2.3 Kg - 20.4 Kg). See Table 2-9. Table 2-9. Fusible-Link (Model KFA) Temperature Ratings Fusible-Link Rating Maximum Exposure Temperature Part Number 360°F (182°C) 440°F (227°C) 87-120060-001 0 Figure 2-24. Fusible-Link, P/N 87-120060-001 r L January 2007 2-22 P/N 220423 Components 2-3.1.9 REMOTE MANUAL RELEASE, P/N 875572 The Remote Manual Release, shown in Figure 2-25, is provided as a means of manually actuating the system from a remote location. The Remote Manual Release is attached to the XV Control System with 1/16-inch control cable. To actuate the system at the Remote Manual Release, pull out the safety pin and pull hard on the handle. Each Remote Manual Release is supplied with a separate nameplate. This nameplate must be attached to the mounting surface 1-inch above or below the Remote Manual Release. S Figure 2-25. Remote Manual Release, P/N 875572 P/N 220423 2-23 January 2007 4-718 in. (125 mm) Components 2-3.1.10 REMOTE MANUAL RELEASE PULL STATION, P/N 87-120110-001 The Remote Manual Release Pull Station, shown in Figure 2-26, is provided as a means of manually actuating the system from a remote location. The Remote Manual Release is attached to the XV Control System or the KRS-50 Control Box, with 1/16-inch control cable. The Remote Manual Release Pull Station is available for use in both the "un-tensioned" Pull-to-Trip and "tensioned" Release-to-Trip lines. To actuate the system at the Remote Manual Release Pull Station, pull out the safety pin and pull hard on the handle. In the Pull-to-Trip mode (XV ONLY), tension will be applied to the cable, allowing the XV Control System to activate the Cylinder and Valve Assembly. In the Release-to-Trip mode, removing the safety pin will release tension from the cable, allowing the XV Control System or KRS-50 Control Box to activate the Cylinder and Valve Assembly. The Remote Manual Release Pull Station may be mounted in a recess or surface mount configuration. The assembly is packaged with all necessary components needed to install in either configuration. Mounting hardware is not included. Each Remote Manual Release Pull Station is supplied with a choice of labels. The proper label must be attached to the faceplate so as to be easily read after installation. Applying the label after installation allows for vertical or horizontal mounting of the Remote Manual Release Pull Station. I 3-9116 in. (91 mm) 2-1116 in. (52 mm) Figure 2-26. Remote Manual Release Pull Station, P/N 87-120110-001 January 2007 224 P/N 220423 Components 2-3.1.11 CORNER PULLEY, P/N 844648 The Corner Pulley is used to change the direction of the control cable runs. The cable's protective conduit (1/2-inch EMT) is attached to the Corner Pulleys with the coupling nuts provided. The Corner Pulley is equipped with a ball-bearing pulley for minimum resistance to the cable travel. 3m. (76.2 mm) I 3 in. (76.2 mm) I Figure 2-27. Corner Pulley, P/N 844648 P/N 220423 2-25 January 2007 Components 2-3.1.12 TEE PULLEY, P/N 843791 is The Tee Pulley is required when more than one Remote Manual Release (P/N 875572) or 2 Gas Valves are used in the same system. TO REMOTE MANUAL RELEASE TO REMOTE MANUAL RELEASE SINGLE OUTLET END Figure 2-28. Tee Pulley, P/N 843791 January 2007 2-26 P/N 220423 Components 2-3.2 Auxiliary Items 2-3.2.1 DETECTAFIRE®, MODEL 27121-0 DETECT-A-FIRE Heat Detectors are equipped with self-restoring, normally-open contacts which close when a predetermined temperature is reached. DETECT-A-FIRE Heat Detectors are designed with rate compensation. DETECT-A-FIRE Heat Detectors are available with different set points (see Table 2-10). Note: The last digit of the part number identifies the temperature setting. ELECTRICAL LEADS SHELL Figure 2-29. DETECT-A-FIRE Heat Detector, Model 27121-0 0 Table 2-10. DETECT-A-FIRE (Model 27121-0) Heat Detector Set Points Part Number Set Point Tolerance Maximum Exposure Temperature 12-E27121-000-02 140°F (60°C) +70F/-80F 80°F (27°C) 12-E27121-000-03 160°F (60°C) +70F/-80F 100°F (38°C) 12-E27121-000-04 190°F (88°C) +70F/-80F 100°F (38°C) 12-E27121-000-05 225°F (107°C) +70F/-80F 125°F (52°C) 12-F27121-000-06 325°F (163°C) ±10°F 225°F (107°C) 12-G27121-000-07 450°F (232°C) 1150F 350°F (177°C) 12-H27121-000-08 600°F (316°C) ±20°F 500°F (260°C) 12-F27121-000-10 270°F (316°C) ±10°F 175°F (79°C) 12-F27121-000-07 360°F (316°C) ±10°F 260°F (127°C) 12-H27121-000-07 725°F (316°C) ±25°F 625°F (329°C) 12-G27121-000-08 500°F (316°C) ±15°F 400°F (204°C) 12-E27121-000-06 210°F (316°C) +70F/-80F 110°F (43°C) P/N 220423 2-27 January 2007 Components 2-3.2.2 PRESSURE OPERATED SWITCH, P/N 486536 Pressure Operated Switches can connected to the nitrogen actuation lines of the XV Control System (maximum of two) and/or to the agent distribution piping. The Pressure Operated Switches can be operated manually be pulling up on the stem. Pressure Operated Switches are used to: enunciate alarms, shut down ventilation and/or other electrical equipment. Each Pressure Operated Switch, (three pole, single-throw switch), must be manually reset, by pushing down on the stem to return the switch to the set position. Table 2-11. Pressure Operated Switch Electrical Ratings 125 Vac 15 Amp 250 Vac 10 Amp 125-480 Vac 3/4 HP 1-2-3 Phase MOUNTING HOLES I° (4)114 In. (6 mm) - \o I f °j-j4 11 WIRING 4 In. SCREW 2 mm) TERMINALS o I I o1H -- 01 ______ 41n. ........_.10 (102 mm) FRONT VIEW COVER REMOVED SWITCI COVER STEM SHOWN IN SET POSITION- PULL UP ON STEM TO MANUALLY OPERATE SWITCH --I- L. 318 In. (9.5 mm) ERA1SW1TQ4 8) COVER SCREWS O.T. \j_—_i PUSH STEM TO SET POSITION 5AM25VAC • 10 AMP 250 VAC 314 HP 12-3 PH 125.480 VAC 'N— 1/2 In. (13 mm) FRONT VIEW SUPPLY PIPE WITH UNION BOX (3)112 In. (13 mm) CONDUIT KNOCKOUTS EACH SIDE (13 mm) NPT FEMALE CONNECT TO SYSTEM PIPING SIDE SECTION Figure 2-30. Pressure Operated Switch, P/N 486536 January 2007 2-28 P/N 220423 Components 2-3.2.3 PRESSURE OPERATED RELEASE, P/N 874290 The Pressure Operated Release, shown in Figure 2-31, can be used to isolate the protected spaces upon system discharge. Pressure Operated Release can be used to release dry chemical gas valves, operate self-closing units for doors, windows, dampers, etc. When a system discharges, pressure on the piston within the Pressure Operated Release causes the piston to move, thereby retracting a normally protruding pin. Table 2-12. Pressure Operated Release Load Rating Maximum Load Minimum Pressure 100 lb. (45 Kg) 75 PSIG (5.17 bar) BRACKET WITH 318 in. (10 mm) DIA. MOUNTING HOLE GUARD STEM RING BODY 1.518 In. I III 'I (41 mm) Figure 2-31. Pressure Operated Release, P/N 874290 P/N 220423 2-29 January 2007 Components 2-3.2.4 .MECHANICAL GAS VALVE, P/N 87-100001-XXX A Mechanical Gas Valve is required on systems used to protect gas-fueled appliances. Upon system actuation, the control stem closes, stopping the gas flow to the appliance(s). Note: Only Mechanical Gas Valves that are specifically UL listed and identified by part number in this manual may be used with the KIDDE system. INLET LOL STEM OUTLET Figure 2-32. Mechanical Gas Valve Table 2-13. Mechanical Gas Valve Sizes Pipe Size Part Number 3/4 in. (19 mm) 87-100001-001 1 in. (25.4 mm) 87-100001-002 1-1/4 in. (32 mm) 87-100001-003 1-1/2 in. (38 mm) 87-100001-004 2 in. (51 mm) 87-100001-005 2-1/2 in. (64 mm) 87-100001-006 3 in. (76 mm) 87-100001-007 January 2007 2-30 P/N 220423 Components 2-3.2.5 ELECTRIC GAS VALVE is Electric Gas Valve (Figure 2-33) operates on (120V, 60 Hz) which powers an electric solenoid holding the valve open. This valve is controlled by a pressure switch or microswitch and the Manual Reset Relay Box (P/N 60-9101735-000). Upon system actuation, the valve is closed, stopping the gas flow to the appliance(s). A loss of electrical power will also cause the Electric Gas Valve to close. See Table 2-14 for a list of the electric gas valve sizes. All Electric Gas Valves must be installed horizontally with the solenoid up. Note: The electric gas valve and the Manual Reset Relay must be specifically UL listed for use with the KIDDE system. SOLENOID Figure 2-33. Electric Gas Valve Table 2-14. Electric Gas Valve Sizes Size Part Number 1/2 in. (13 mm) 60-9197017-000 3/4 in. (19 mm) 60-9197018-000 1 in. (25 mm) 60-9197019-000 1-1/4 in. (32 mm) 60-9197020-000 1-1/2 in. (38 mm) 60-9197021-000 2 in. (51 mm) 60-9197022-000 2-1/2 in. (64 mm) 60-9197444-000 3 in. (76 mm) 60-9197445-000 P/N 220423 2-31 January 2007 Components 2-3.2.6 MANUAL RESET RELAY FOR ELECTRIC GAS VALVE, P/N 60-9101735-000 The manual reset relay box (Figure 2-34) provides DPDT contacts rated for 6 amps at 115 Vac and prevents immediate reopening of the Electric Gas Valve to eliminate accidental escape of gas through open hand-operated gas valves and unlit pilots after a power failure. Note: The Electric Gas Valve and the Manual Reset Relay must be specifically UL listed for use with the KIDDE system. RESET BUTTON *ON TOP OF BOX CAUTION GAS BURNERS MUST BE IN OFF POSITION BEFORE RESETTING RELAY TURN OFF POWER SOURCE BEFORE REMOVING THIS COVER MANUAL RESET RELAY TYPE RB-2 0 I I 6 AMP, 115 VAC - PILOT DUTY 125 VA 1 I 0 Figure 2-34. Manual Reset Relay Box P/N 60-9101735-000 January 2007 2-32 P/N 220423 C CONDULET ( - BOX °MAINc I TOGGLE I - GUARD COVER SCREWS 5-3116 in. (132 mm) Components 2-3.2.7 MAIN-TO-RESERVE TRANSFER SWITCH, P/N 802398 The main-to-reserve transfer switch is installed on electrically activated systems using connected reserve cylinders. The switch is normally placed in the "main" position, but, in the event of a main extinguishing system discharge, the switch is placed in the "reserve" position to provide uninterrupted fire protection while the main system is being recharged. Never place the main-to-reserve transfer switch in the "RESERVE" position following a main-extinguishing-system actuation unless the actuating detector or manual station has reset or been reset and the system control unit (if used) CAUTION has been cleared of all alarm conditions. This will avoid inadvertent discharge of agent. 3/4 In. NPT FEMALE FOR ELECTRICAL CONNECTION NAMEPLATE WITH LOGO L_ 2-3/4 in. (64 mm) Figure 2-35. Main-to-Reserve Transfer Switch, P/N 802398 P/N 220423 2-33 January 2007 Components 2-3.2.8 EMT AND 0-RING CONNECTOR KIT, P/N 87-120058-001 If using more than the three EMT connectors supplied with the XV Control System, you must use EMT Connector and 0-Ring Connector Kit. Figure 2-36. EMT and 0-Ring Connector Kit 2-3.2.9 1/16-inch CONTROL CABLE, P/N 219649 The Control Cable used in the system is stainless-steel, 1/16-inch O.D., 7x7 stranded cable. The control cable runs from the various system devices, through 1/2-inch EMT conduit, to the XV Control System. Table 2-15. 1/16-inch Control Cable 2-3.2.10 CRIMP SLEEVE, P/N 214951 In order to ensure that a crimp sleeve is secure, the cable must always be looped so that there are two lengths of cable inside the Crimp Sleeve before crimping. Cable must not be spliced anywhere along its length. Figure 2-37. Crimp Sleeve Table 2-16. Crimp Sleeve Part Number Description 214951 Cable Crimp Sleeve (order in package of 50 only) - 60-9197288-000 Cable Crimp Sleeve (package of 50 of 214951) U January 2007 2-34 P/N 220423 Components 2-3.2.11 "S" HOOKS, P/N 60-9189413-000 "S" hook (P/N 60-9187287-000) is used to attach the Fusible-Link to the 1/16-in, cable leading to the XV Control System. Figure 2-38. "5" Hook Table 2-17. "5" Hook Part Number Description 60-9189413-000 "S" Hook (order in package of 50 only) 60-9187287-000 "S'1 Hook (package of 50 of 60-9189413-000) 2-3.2.12 CRIMPING TOOL, P/N 253538 The Crimping Tool (P/N 253538), shown in Figure 2-39, is used in conjunction with Crimp Sleeves. Wherever the system 1/16-inch Control Cable must be looped or terminated, the Crimp Sleeves and Crimping Tool must be used. Note: Splicing of the 1/16-inch Control Cable is not permitted. Other Crimping Tools are not authorized. Figure 2-39. Crimping Tool, P/N 253538 2-3.2.13 SYSTEM RECHARGE For recharge purposes, select the Dry Chemical powder (see Table 2-18) that fits your application. These powders are available in 50-pound pails. Table 2-18. Dry Chemical Powder Part Number Dry Chemical 804904 Regular BC Dry Chemical powder (sodium bicarbonate base) 806411 Multi-purpose ABC Dry Chemical powder (monoammonium phosphate base) P/N 220423 2-35 January 2007 Components THIS PAGE INTENTIONALLY LEFT BLANK. January 2007 2-36 P/N 220423 System Design CHAPTER 3 SYSTEM DESIGN 3-1 INTRODUCTION This chapter introduces the designer and installer to the design process. It outlines the process, introduces the parameters imposed on design by system hardware, as well as those mandated by performance considerations. As the designer becomes familiar with this material, they should remember that analysis and design is a careful, step-by-step process. All steps must be followed, none can be omitted, and all unique aspects of a given application must be taken into account if the resulting fire- suppression system is to deliver the desired results. Systems shall be designed and implemented according to the following: . NFPA Standard 17, "Standard for Dry Chemical Systems", NFPA Standard 33, "Standard for Spray Applications Using Flammable or Combustible Material", Other applicable NFPA standards as required for a particular application and design, including, but not limited to, NFPA 70 (NEC) and NFPA 72, Fire Alarm Standard. This Design, Installation, Operation, and Maintenance Manual. Any other standards enforced by a local Authority Having Jurisdiction (AHJ). Configurations in this chapter are tested and listed to Underwriters Laboratories (UL) Standard S 1254, and FM Approved. Open-Face Spray Booth configurations (Section 3-4.2) are tested and listed to UL Standard 1254. 3-2 APPLICATION TYPES There are relatively few generic types of Dry Chemical fire suppression system applications. They vary from each other in terms of the nature, NFPA Class designation, and physical layout of the hazard, the flammable materials involved, whether or not the area to be protected is enclosed, whether there are associated ducts, plenums, and/or forced ventilation systems, whether there is auxiliary equipment which must be controlled as part of any fire-suppression action, and in other ways. The main application types are: Total-Flooding Systems Open-Face Spray-Booth Systems Local-Application Systems Combination Systems • P/N 220423 3-1 January 2007 System Design 3-2.1 Total-Flooding Systems Total-Flood refers to a volumetric area that is completely enclosed. In total-flooding, a predetermined amount of dry chemical is discharged through fixed piping and nozzles into an enclosed space or enclosure around the hazard. Total-flooding is applicable only when the hazard is totally enclosed or when all openings surrounding a hazard can be closed automatically when the system is discharged. Total-flooding can be used only where no re-ignition is anticipated. System is listed up to 5% of the hazard having uncloseable openings. See Section 3-4.1 for total-flood design parameters. Note: Dry Chemical Systems do not inert the atmosphere of a total-flood application. They are affective during discharge. 3-2.2 Local-Application Systems (For Indoor Use Only) Local-Application refers to areas that are not enclosed. In a local-application system, the nozzles are arranged to discharge directly into the fire. Local- application is practical in those situations where the hazard can be isolated from other hazards so that fire will not spread beyond the area protected, and where the entire hazard can be protected. The principal use of local-application systems is to protect open tanks of flammable liquids. Local-application is ineffective unless extinguishment can be immediate and there are no re-ignition sources. See Section 3-4.3 for local-application design parameters. 102.3 Open-Face Spray Booth Systems UL considers the Industrial Open-Front Spray Paint Booth a total-flood type of application, but enforces a specific test standard for that application. The design parameters included in "Open- Face Spray Booths (Only UL Listed)" on page 11 were arrived at by testing to this standard. An Open-Front Spray Paint Booth has no doors on the front of the booth. During painting operations, the front remains open. A properly designed ventilation system will prevent overspray from escaping out of the booth. The UL 1254 standard requires that the open-front be "screened" while the work area is being flooded. In addition, all parts of the ventilation system (plenum and duct) are also protected. Both ABC and BC dry chemicals are permitted in the work area and plenum of an Open-Front Spray Paint Booth. Only BC dry chemical is used in the duct. See Paragraph 3-4 and Paragraph 3-5 for complete design parameters. Note: Dry chemical systems for vehicle spray booths are covered in a separate manual, P/N 83-100036-001. January 2007 3-2 P/N 220423 System Design 3-2.4 Combination Systems Some applications combine features of total-flooding and local-application. For example, an oil- quenching system with an associated conveyor belt might require both forms of coverage in order to control combustion at the surface of the quenching bath (local- application), and along the length of the conveyor system (total-flooding). In the case of spray booths which vary widely in design, attention must be paid both to the requirements of the booth itself, as well as to associated ductwork or plenums. Sometimes the requirements of the booth may differ from the needs of the associated Duct/Plenum(s), and the analysis-design process must take this into account. Each segment of the combination system uses separate system cylinders, nozzles and distribution piping. 3-3 DESIGN PROCEDURE 3-3.1 General Design Procedure Analysis and design should be approached as a methodical process, and performed step by step. Only when all the steps are followed is the resulting system likely to perform as desired. If any step is omitted, it is probable that the system will not function as well as it should. The steps in the analysis and design process are: Hazard analysis Suppression-system selection Nozzle selection, number and location Tankage, (Number, size, and location of cylinders) Detector selection Piping layout Auxiliary requirements 3-3.1.1 HAZARD ANALYSIS Determine the NFPA Class and severity of the hazard. Analysis also includes: Determining the physical layout of the hazard, Manner and speed with which the fire might propagate, and the Likelihood of its spreading into adjacent areas. The classification of flammable liquids can be found in NFPA 30: "Flammable and Combustible Liquid Code." Flammable liquid characteristics can be obtained from sources of reference such as safety data sheets and NFPA 325M: "Fire Hazard Properties of Flammable Liquids, Gases, and Volatile Solids." The severity of the fire hazard generally relates to the possibility of explosive conditions created by the flammable materials within the confines of the protected area. This danger can usually be mitigated by safeguards such as: Adequate ventilation, Explosion-proof wiring and fixtures, and Product containerization. With dry chemicals, it is important to remember that there is no inerting of the CAUTION protected space following fire extinguishment. P/N 220423 3-3 January 2007 System Design 3-3.1.2 SUPPRESSION-SYSTEM SELECTION Determine whether total-flooding or local-application, or both are required. Total-flooding systems are used if there is an enclosure around the hazard. Local-application techniques are used in situations where the hazard is unenclosed, but isolated from other hazards and can be protected by a Dry Chemical discharge directed at it. 3-3.1.3 NOZZLE SELECTION AND LOCATION Select the number and type(s) of nozzle(s) needed and locate them so that the entire hazard is covered. Use the coverage/distribution specifications for each nozzle type to determine the number of discharge nozzles required to deliver the necessary quantity of dry chemical given nozzle placement appropriate to the hazard. The nozzle types are: Total- flooding nozzles High or low overhead nozzles for local-application Tankside nozzles for local-application Duct/Plenum (DIP) nozzles for use in the exhaust ducts and plenums 3-3.1.4 TANKAGE DETERMINATION (NUMBER, SIZE, AND LOCATION OF CYLINDER(S)) Determine the number of nozzles required, whether additional agent or nozzles may be needed, and select the tankage which will supply the needed amounts dry chemical. After determining the quantity and types of dry chemical needed to control the hazard itself, determine whether any special conditions necessitate additional dry chemical quantities and/or nozzles. For example, it may be necessary to adjust the agent discharge rate in order to offset the effects of ventilation, or it may be necessary to screen openings in an enclosure to prevent dry chemical leakage through those openings. Also, depending upon the criticality of the S application and/or the potential for re-ignition, it may be necessary to provide a connected reserve supply of dry chemical. 3-3.1.5 DETECTOR SELECTION Detector selection will depend on the response speed required, the probable heat level and rate of spread of the fire. The detectors sense the heat energy released by the combustion of fuel and oxygen. Upon detection of a fire, the detection system sends a signal to the system control head(s) which initiates the dry chemical discharge. The most commonly used detectors are the: Fixed-temperature thermo-bulb or fusible link Fixed-temperature rate-compensated thermostat 3-3.1.6 PIPING LAYOUT - BALANCED PIPING Dry Chemical piping is balanced within ± 10°h with the exception of open-front spray booths. Careful piping layout assures that the agent reaches the distribution nozzles appropriately, and that piping parameters are not exceeded. These parameters involve pipe lengths, the number of elbows, and other factors such as the allowable distances (equivalent/feet) from Cylinder and Valve Assembly. These parameters are discussed in detail in the design examples contained in the sections on application types. January 2007 3-4 P/N 220423 System Design 3-3.1.6.1 Equivalent Length (Only UL Listed) For the purposes of pressure drop calculations, it is convenient to replace a fitting with a section of straight pipeline. The length of the substituted piece of pipe-is chosen so that the pressure drop across it equals the pressure loss through the fitting it replaced. In this sense, each type of fitting is equivalent to a certain length of straight pipeline, and each fitting is assigned an "equivalent length." Substitutions of this type allow each point in the distribution system to be described by two numbers - one number being the actual linear length of pipe to that point, and the second number being the total equivalent length of pipe to that point, taking fittings into account. The main supply line, the sub-supply lines (four-nozzle cylinders), and the nozzle branch lines are each rated for a maximum pipe length and a maximum equivalent pipe length. Table 3-1. Equivalent Length of Pipe Fittings Fitting Type Pipe Size 3/4 inch I 1 inch 900 Elbow 2.0 2.0 I Tee 4.0 5.0 I 3-3.1.6.2 Flow Division When the flow of a two-phase fluid changes in direction, such as at an elbow, the flow change can cause a separation of the nitrogen gas and the Dry Chemical powder. In order to ensure the proper flow division of dry chemical at each tee, certain minimum pipe lengths must be observed when approaching a tee following a change in flow direction. These minimum pipe lengths are shown in Figure 3-1. Note: These minimum pipe lengths also apply to local-application systems. 20 PIPE DIAMETERS MINIMUM LENGTH REQUIRED 20 PIPE DIAMETERS MINIMUM LENGTH REQUIRED MINIMUM LENGTHS 20 PIPE DIAMETERS PIPE SIZE MIN-LGTh-200 I In. 20 In. 314 In. lOIn. Figure 3-1. Distribution Systems Requiring Minimum Pipe Lengths P/N 220423 3-5 January 2007 System Design 'Hg,mm 'b Figure 3-2. Distribution Systems Requiring No Minimum Pipe Length CWW] 3.1.7 Material for Pipe and Fittings All piping must be Schedule 40, hot-dipped-galvanized steel pipe, and all fittings must be, at a minimum, standard weight (150-lb. class). Examples of acceptable fitting materials include hot-dipped-galvanized malleable iron, ductile iron, or steel. Couplings and unions may be used where necessary, and reducing bushings or reducing tees can be used for changes in pipe diameter. Note: Black steel pipe and fittings can be used in relatively noncorrosive atmospheres. AUXILIARY REQUIREMENTS Controls are required to turn off forced-draft ventilation systems, fuel (or combustible-liquid) pumps, conveyers, and so on. January 2007 3-6 P/N 220423 C System Design 3-4 SYSTEM DESIGN: SUPPRESSION 3-4.1 Total-Flooding Systems Total-flooding systems are used when there is an enclosure around the protected equipment or material. Total-flooding systems are designed to fill the enclosure with a concentration of Dry Chemical sufficient to extinguish a fire in the combustibles involved. All ventilation must be shut-down at the time of agent discharge and, if possible, all openings must be closed. Discharge of the Dry Chemical is through fixed, mounted nozzles connected to one or more cylinders. Regular, BC (sodium-bicarbonate base) Dry Chemical is used to protect flammable or combustible liquid total-flooding hazards. Multi-purpose, ABC (monoammonium-phosphate base) dry chemical is used for total-flooding applications involving ordinary combustibles (Class A) and flammable or combustible liquids. 3-4.1.1 COVERAGE The protected space is divided into modules. For applications with ceiling heights up to and including 12 feet, the maximum surface area coverage for each nozzle is 112.5 square feet subject to a longest side for rectangular areas not to exceed 15 feet. The maximum distance from the ceiling to the nozzle tip is 4.5 inches. The maximum area and volume coverages are shown in Figure 3-3 and in Table 3-2. Each nozzle should be centered in its protected volume segment. For applications with ceiling heights from 12 feet up to 20 feet, the maximum volume is 1350 cubic feet subject to a longest side for rectangular areas not to exceed 15 feet. Table 3-2. Total-Flooding Nozzle Coverage Maximum Coverage per Nozzle Hazard Height (Feet) Longest Side (Feet) Area (Square Feet) Volume (Cubic Feet) 5 15 112.5 562.5 6 15 112.5 675 7 15 112.5 787.5 8 15 112.5 900 9 15 112.5 1012.5 10 15 112.5 1125 11 15 112.5 1237.5 12 15 112.5 1350 13 15 103.85 1350 14 15 96.4 1350 15 15 90 1350 16 15 84.4 1350 17 15 79.4 1350 18 15 75 1350 19 15 71 1350 20 15 67.5 1350 P/N 220423 3-7 January 2007 OZZLE I OZZLE -I 16 ft. (4.9 m) --.-.-r,-(1.7 m) System Design NOZZLE 12 ft. (3.7m) 7-112 ft. (2.3m) L7T NOZZLE NOZZLE 8 ft. (2.4m) /m) 7-112 ft k (2.3m) 1- 7-112 ft Figure 3-3. Single Nozzle Total-Flooding Module 3-4.1.1.1 Uncloseable Openings Hazards with an uncloseable-opening area equal to 5% or less of the total enclosure surface area do not require any additional dry chemical. The Kidde dry chemical extinguishing system units have not been evaluated by Underwriters Laboratories Inc. with respect to the total-flood protection of hazards incorporating uncloseable openings exceeding 5% of the total hazard surface area. January 2007 3-8 P/N 220423 System Design 4 In. CYLINDER Figure 3-4. Piping Parameters, Total-Flooding Coverage, IND-25/IND-2 1 Table 3-3. Total-Flooding Piping Parameters (IND-25/IND-21) Item Maximum Limits Cylinder to Ti Ti to Nozzle Pipe Size Quantity Equiv. Length Pipe Size Quantity Equiv. Length Pipe 3/4 in. 75 ft. 75 ft. 3/4 in. 7 ft. 7 ft. 900 Ell 3/4 in. 7 14 ft. 3/4 in. 2 4 ft. Tee 3/4 in. 1 4ft. 3/4 in. 0 - Total Maximum 93 ft. Total Maximum 11 ft. P/N 220423 3-9 January 2007 System Design [I 20 4 in. CYLINDER is Figure 3-5. Piping Parameters, Total-Flooding Coverage, IND-50/IND-45 Table 3-4. Total-Flooding Piping Parameters (IND-50/IND-45) Maximum Limits Cylinder to Ti Tito T2 to Item T2 Nozzle Pipe Qty Equiv. Pipe Qty Equiv. Pipe Qty Equiv. Size Length Size Length Size Length Pipe 1 in. 60 ft. 60 ft. 3/4 in. 15 ft. 15 ft. 3/4 in. 7 ft. 7 ft. 900 Ell 1 in. 7 14 ft. 3/4 in. 1 2 ft. 3/4 in. 2 ft. 4 ft. Tee 1 in. 1 5 ft. 3/4 in. 1 4 ft. 3/4 in. 0 - Total Maximum 79 ft. Total Maximum 21 ft. Total Maximum 11 ft. January 2007 3-10 P/N 220423 WORK Al PLENUM System Design 3-4.2 Open-Face Spray Booths (Only UL Listed) Open-face spray booths are a unique hazard type for pre-engineered dry chemical systems. In response to the need for fire protection for this hazard Underwriters Laboratories (UL) has developed a specific test protocol within the UL 1254 (Pre-engineered Dry Chemical Extinguishing System Units) Standard. The system hardware and design included in this section meets the UL requirements for protection of open-face spray-booth applications. This design also meets the requirements of NFPA 17. 3-4.2.1 GENERAL DESCRIPTION An open-face spray booth is an enclosure with one wall open (typically the front face) in which parts and equipment are sprayed with possible flammable or combustible material (i.e. paints, finishes, lacquers, etc.). When in operation, the booth is continually ventilated to remove the flammable vapors that are generated during spraying operations. A typical open-face spray booth is usually divided into two sections by a large bank of filters that extends from the floor to the ceiling. The filters collect the over-spray of paint or other materials, and remove suspended droplets from the mixture of air and flammable vapors being exhausted. The two sections of the spray booth are called the work area and the plenum. The work area is typically the larger of the two sections, and is the place where the parts and equipment are sprayed. The plenum is the space into which the exhaust gases flow after passage through the filter bank. The vapors are exhausted from the spray booth by a forced ventilation system connected to the plenum by ductwork. The exhaust gases eventually discharge to atmosphere. The spray booth, shown in Figure 3-8 has an open-front face. Figure 3-6. Open-Face Spray Booth P/N 220423 3-11 January 2007 System Design NFPA 33, standard for spray application using flammable and combustible . materials, classifies the interior sections of paint spray booths, and certain areas adjacent to booth openings, as Class-1 or Class-11, Division-2 locations. Dry chemical system electrical components, such as thermostats, located within these CAUTION areas shall be rated for use in classified areas, and all wiring to these components shall conform to the provisions of NFPA 70, National Electrical Code, for Class-I or Class-11, Division-2 locations. Any industrial system control head with a microswitch is not suitable for use in a classified area. 3-4.2.2 SPRAY BOOTH PROTECTION Open-face spray booths are specifically protected using the following design criteria. This design is UL Listed for protection of open-face spray booths. The work area, plenum, and exhaust duct are separately analyzed to determine the total extinguishing system requirements. The IND-70 or IND-75 must be used to protect the front, work area, and plenum of the open-face spray booth. Maximum coverage and nozzle placement requirements for an open-face spray booth using one IND-75 are shown in Figure 3-7. For ABC applications, separate cylinders (IND-25 or IND-50) are required for protection of the exhaust duct. 3-4.2.2.1 Work Area Protection for the work area is provided by total-flooding nozzles, P/N 83-100005-001. For open-face spray booths, high overhead nozzles (P/N 259270) provide a "wall" of dry chemical across the open face. These nozzles are to be located as indicated in Figure 3-7 and Figure 3-8 and mounted at ceiling level, with the orifice tip pointed vertically down. The maximum distance from the ceiling of the work area to the screening nozzle is 4 inches. The maximum distance from the ceiling of the work area to the total-flooding nozzle is 3.75 inches. One IND-70 or one IND-75 cylinder must use two high-overhead nozzles and two total-flooding nozzles. These four nozzles will provide coverage for the work area of an open-face spray booth with maximum dimensions of 10 feet wide by 10 feet deep by 10 feet high. For applications wider than 10 feet, multiple IND-70/75 cylinders are required (i.e. two IND-70 or IND-75 cylinders will protect an open-face spray booth up to 20 feet wide. The maximum uncloseable work area opening using two high-overhead nozzles from one IND- 70/75 cylinder is 100 square feet with 10 feet on the longest side. Note: Care of Installation - As overspray of paint or other materials will, in time, accumulate on the detectors and discharge nozzles, making them inoperative or ineffective. It is required that the nozzle orifices be protected with "blow-off" caps on total-flood nozzles. January 2007 3-12 P/N 220423 System Design 3-4.2.2.2 Plenum Protection for the plenum is provided by the Duct/Plenum (DIP) nozzle, P/N 83-100006-001. This nozzle is to be centered in the plenum area and mounted at ceiling level, with the orifice tip pointed vertically down. The maximum distance from the plenum ceiling to the Duct/Plenum nozzle is 3.25 inches. One IND-70 or one IND-75 cylinder must use two Duct/Plenum nozzles. This nozzle will provide coverage for the plenum area of an open-face spray booth with maximum area of coverage of 31.5 square feet with the longest side of 10 feet. The maximum height is 10 feet. For plenum areas greater than 31.5 square feet or with a longest side greater than 10 feet an additional Duct/Plenum nozzle is required. See Figures 3-7, 3-8, and 3-10. It is permissible to split the discharge from an IND-75 cylinder using Duct/Plenum nozzles in the plenum and exhaust duct. See Figures 3-7, and Figure 3-8. DIP NOZZLE DIP NOZZLE (TYP 1) LOCATED + 1(1219 mm) 15 ft. .-. 1T AT DUCTIPLENUM INTERFACE DUCTIPLENUM (DIP) NOZZLE TF NOZZLE -' , I MAX (4572 mm) MAX i HIGH-OVERHEAD (S) NOZZLE S NOZZLE DIP) (3____f____-- TOTAL-FLOOD (TF) NOZZLE 1—__ \ 4 DIP NOZZLE loft. (3048 mm) TF NOZZLE (TYP 2) DT 1' OW I I S NOZZLE (TYP 2) loft /048mm) 31ni I I I .25W+ 1*- -.1 Is-.25W I—.5W---i W LEGEND MAXIMUM COVERAGE FOR I DC-75 (BC) (FOR OPEN-FACE SPRAY BOOTHS) W WIDTH D = DEPTH (WORK AREA) NOZZLE Figure 3-7. Spray Booth Parameters (1) DIP NOZZLE IF NOZZLE -, S NOZZLE - t lOft. (3048 mm) DIP NOZZLE (TYP 2) I4_-5W _+ ;5D(P) DUCTIPLENUM (DIP) NOZZLE 0 ç HIGH-OVERHEAD (5) NOZ 141 ZLE _________ .25D(P) TOTAL-FLOOD (TF) NOZZLE -r - TF NOZZLE (TYP 2) \\1// 6 ft. -4in. Y)e_(1930 mm) lOft. 3o48mm 3 MAXIMUM COVERAGE FOR I DC-75 (BC) OR DC-70 (ABC) SYSTEM WITH INDEPENDENT, DEDICATED DUCT PROTECTION (FOR OPEN-FACE SPRAY BOOTHS) S NOZZLE (TYP 2) 5W LEGEND WWIDTH D = DEPTH (WORK AREA) ® NOZZLE Figure 3-8. Spray Booth Parameters (2) P/N 220423 3-13 January 2007 I System Design 3-4.2.2.3 Exhaust Ducts (BC Only) 15 ft. MAX /'NOZZLE LOCATION 15 PLENUM POSITION FIRST NOZZLE J [ 3m. -6 in. INTO THE DUCT ENTRANCE Figure 3-9. Exhaust-Duct Parameters (1) Protection for the exhaust duct is provided by the Duct/Plenum (D/P) nozzle(s) utilizing regular BC agent only. When the work area and plenum are protected using multipurpose ABC agent, then IND-25 or -50 cylinders are required to supply the BC agent for the duct. Refer to Figures 3-12, and Figure 3-13 for piping parameters. See Table 3-5, for nozzle requirements for exhaust duct protection. See Table 3-6 for rectangular duct dimensions. Table 3-5. Duct/Plenum (DIP) Parameters aximum Length of Protection per Nozzle 15 ft. (4.6 m) uct Maximum Diameter 48 in. (1219 mm) First Nozzle Positioned just inside the duct entrance from 3 in. to 6 in. Additional Nozzles Within 15 ft. (4.6 m) of each other Nozzle Direction Centered in the duct and aimed to discharge directly downstream (in the direction of air flow) The Exhaust Duct is a fan-powered air channel that draws air through the work area, the plenum and out through the duct. The D/P Nozzle will protect either round or rectangular ducts up to 15 ft. (4.6 m) in length. Any change in duct direction or additional length requires an additional D/P Nozzle. The duct nozzle must be centered at the duct entrance, and pointed in the direction of the air flow. The tip of the duct nozzle must be within 6 in. (152 mm) of the duct entrance. The maximum diameter of a round duct is 48-inches (1219 mm); the maximum perimeter for a rectangular duct is 150-3/4 inches (3830 mm) and the maximum diagonal is 48-inches (1219 mm). See Table 3-6 for rectangular duct dimensions. S January 2007 3-14 P/N 220423 System Design Table 3-6. Rectangular Duct Dimensions Side 1 Side 2 (Max.) 12.0 in. (305 mm) 46.4 in. (1179 mm) 14.0 in. (356 mm) 45.9 in. (1166 mm) 16.0 in. (406 mm) 45.2 in. (1148 mm) 18.0 in. (457 mm) 44.5 in. (1130 mm) 20.0 in. (508 mm) 43.6 in. (1107 mm) 22.0 in. (559 mm) 42.6 in. (1082 mm) 24.0 in. (610 mm) 41.5 in. (1054 mm) 26.0 in. (660 mm) 40.3 in. (1024 mm) 28.0 in. (711 mm) 38.9 in. (988 mm) 30.0 in. (762 mm) 37.4 in. (950 mm) 32.0 in. (813 mm) 35.7 in. (907 mm) 34.0 in. (864 mm) 33.8 in. (859 mm) 36.0 in. (914 mm) 31.7 in. (805 mm) 38.0 in. (965 mm) 29.3 in. (744 mm) 40.0 in. (1016 mm) 26.5 in. (673 mm) 42.0 in. (1067 mm) 23.2 in. (589 mm) 44.0 in. (1118 mm) 19.1 in. (485 mm) 46.0 in. (1168 mm) 13.7 in. (348 mm) When exhaust-duct protection is provided using one Duct/Plenum nozzle off an IND-75 (BC) cylinder, the nozzle coverage provided is for the first 15 feet (4572 mm) of straight unobstructed duct. Supplemental coverage of the exhaust duct must be provided for exhaust ducts greater than 15 feet (4572 mm) in length or those with obstructions or changes in direction. The IND-25 (BC) or IND-50 (BC) shall be used for supplemental exhaust duct coverage. Refer to Figure 3-9 for nozzle placement in ducts with changes of direction. Never place tin foil or plastic over nozzles. CAUTION Apply a thin coat of silicone grease on the outside surfaces of the thermostats. Fusible links must be changed at a minimum of every six months (more frequently if the link acquires a coating of paint or other materials). Clean the nozzles and detectors periodically to ensure there is no over-spray buildup on these parts; then re-grease or replace if necessary. P/N 220423 3-15 January 2007 System Design 3-4.2.3 VENTILATION-SYSTEM SHUTDOWN It is not required that the exhaust fan be stopped upon Dry Chemical discharge. Exhaust-duct protection has been tested both with and without airflow. It is recommended that the exhaust fan stay running in the event of Dry Chemical discharge. This will help to remove smoke and other airborne materials and gases from the hazard area in the event of a fire. Check with the Authority Having Jurisdiction for local requirements. Forced (motorized fan) intake or make-up air shall be shutdown upon dry chemical discharge. 3-4.2.4 PIPING FOR OPEN-FACE SPRAY BOOTHS Piping diagrams include parameters on pipe length and fittings. System piping must be balanced. Balanced piping is the difference between the shortest actual pipe length from any 3/4-inch tee to nozzle, and the longest actual pipe length from any 3/4-inch tee to nozzle does not exceed 10% of the longest actual pipe length from any 3/4-inch tee to nozzle. Piping runs from the 1-inch tee to each of the 3/4-inch tees, and must be equal in length. The number and type of fittings for all tees to nozzles must be equal. All piping must be Schedule 40, hot-dipped-galvanized steel pipe, and all fittings must be, at a minimum, standard weight (150-lb. class). Examples of acceptable fitting materials include hot-dipped galvanized malleable iron, ductile iron, or steel. Couplings and unions may be used where necessary, and reducing bushings or reducing tees can be used for changes in pipe diameter. Note: Black steel pipe and fittings can be used in relatively noncorrosive atmospheres. fl January 2007 3-16 P/N 220423 System Design • 112 In.-.. TS AREAIPLENUMIDUCT APPLICATION 112 In.-.... TI AREAIPLENUM APPLICATION Figure 3-10. Open-Face Spray-Booth Piping El Table 3-7. Maximum Piping Parameters, IN D-70/IND-75, Open-Face Spray-Booth Applications Cylinder to Ti - See Note Ti to 12 to T3 - See Note T2 to Duct/Plenum Nozzle - See Notes 2 T4 to Total-Flood Nozzle - See Notes 4 15 to High-Overhead Nozzle - See Notes 3 6 1 and and and Pipe Max. Equiv. Pipe Ma x. Equiv. Pipe Max Equiv. Pipe Ma X• Equiv. Pipe Max. Equiv. Item Size Qty* Length Size QtV Length Size QtV Length Size -tV Length Size Qty Length (in.) (eq. ft.) (in.) (eq. ft.) (in.) (eq. ft.) (in.) (eq. ft.) (in.) (eq. ft.) Max. Pipe 1 41.9 ft. 41.9 3/4 10.5 ft. 10.5 3/4 2.6 ft. 2.6 3/4 5.5 ft. 5.5 1/2 5.5 ft. 5.5 Maximum 1 8 16.0 3/4 3 6.0 3/4 2 4.0 3/4 1 2.0 1/2 1 2.0 900 Ells Max. Tees 1 1 5.0 3/4 1 4.0 3/4 1 1 4.0 3/4 1 4.0 1/2 1 4.0 Max. Equivalent Length 62.9 20.5 10.6 11.5 11.5 Max. Linear Length 41.9 10.5 2.6 5.5 5.5 Additional Guidelines for Piping: Branch from Tee 1 to Tee 2 and Branch from Tee 1 to Tee 3 must be balanced. The branches from Tee 2 to the Duct/Plenum (D/P) nozzles must be balanced. The pipe must be balanced from Tee 5 to the two (2) High-Overhead (S) nozzles. The pipe must be balanced from Tee 4 to the two (2) Total-Flooding (TF) nozzles. The distance from Tee 3 to Tee 4 must be 1.2 times the distance of Tee 3 to Tee 5, not to exceed the maximums indicated in the above table. Maximum elevation of supply piping above cylinder outlet must not exceed 8 feet. Maximum elevation of Duct/Plenum (D/P) nozzle above Tee 2 must not exceed 2.6 feet. P/N 220423 3-17 January 2007 System Design DIP NOZZLE S CYLINDER Figure 3-11. Maximum Piping Parameters (for Dedicated Duct Protection of Open-Face Spray Booths), IND-25, Single D/P Nozzle S Table 3-8. Maximum Piping Parameters IND-25, Single D/P Nozzle Parameters Cylinder to DP Nozzle Required Pipe Size 3/4 in. Maximum Linear Pipe 52 ft. 6 in. (16 m) Maximum go° Elbows 0-7 Delta H 38 ft. 6 in. (12 m) Maximum Equivalent Length 66 ft. 6 in. (20 m) S January 2007 3-18 P/N 220423 System Design DIP2 NOZZLE . DUCTIPLENUM (DIP) NOZZLE I I HIGH-OVERHEAD (S) NOZZLE I (!) TOTAL-FLOOD (TF) NOZZLE 3141n. T1 DIPI NOZZLE CYLINDER Figure 3-12. Maximum Piping Parameters (for Dedicated Duct Protection of Open-Face Spray Booths), IND-25, Two D/P Nozzles Table 3-9. Maximum PiDina Parameters. IND-25. Two D/P Nozzles Parameters Cylinder to Ti Ti to DPi Ti to DP2 Required Pipe Size 3/4 in. 3/4 in. 3/4 in. Maximum Linear Pipe 51 ft. 5 in. (16 m) 8 ft. 3 in. (3 m) 8 ft. 3 in. (3 m) Maximum 900 Elbows 6 4 4 Maximum Tees 1 0 0 Delta H 31 ft. 6 in. (9 m) -7 ft. 6 in. (-2 m) 7 ft. 6 in. (2 m) Maximum Equivalent Length 67 ft. 5 in. (21 m) 16 ft. 3 in. (5 m) 16 ft. 3 in. (5 m) P/N 220423 3-19 January 2007 System Design 314 In. I In. -.. Ti W4 In. DIP4 NOZZLE D/P3 NOZZLE /P2 NOZZLE WI NOZZLE DUCT/PLENUM (DIP) NOZZLE I HIGH-OVERHEAD (S) NOZZLE () TOTAL-FLOOD (TF) NOZZLE DC-50 . igure 3-13. Maximum Piping Parameters (for Dedicated Duct Protection of Open-Face Spray Booths), IND-50, Four D/P Nozzles Table 3-10. Maximum Piping Parameters, IND-50, Four D/P Nozzles Cylinder toTi T1toT2 T1toT3 T2toD/P1 T2toD/1P2 T3toD/1P3 T3toD/P4 Required Pipe 1 in. 3/4 in. 3/4 in. 3/4 in. 3/4 in. 3/4 in. 3/4 in. Maximum Linear Pipe 52 ft. 9 in. (16 m) 20 ft. 10 in. (m) 19 ft. 11 in. (6 m) 8 ft. 6 in. (2.6 m) 8 ft. 6 in. (2.6 m) 8 ft. 6 in. (2.6 m) 8 ft. 6 in. Maximum 900 Elbows 8 4 4 4 4 4 4 Maximum Tees 1 1 1 0 0 0 0 Delta H 15 ft. 7 in. (5 m) -11 ft. 3 in. (-3.5 m) 11 ft. 3 in. (3.5 m) -7 ft. 6 in. (-2 m) 7 ft. 6 in. (2 m) 0 0 Maximum Equivalent Length 73 ft. 9 in. (22.5 m) 32 ft. 10 in. (10 m) 31 ft. 11 in. (10 m) 16 ft. 6 in. (5 m) 16 ft. 6 in. (5 m) 16 ft. 6 in. (5 m) 16 ft. 61n. (m) January 2007 3-20 P/N 220423 System Design 3-4.3 Local-Application Systems Local-application systems are used when there is no enclosure around the equipment or process being protected. In a local-application system, the dry chemical is discharged directly on an unenclosed hazard through fixed nozzles connected to one or more cylinders. Local- application protection is designed to cover a fixed piece of equipment such as a dip tank or a process,in an indoor location. The dry chemical can be locally applied either overhead with nozzles located over the hazard area, or in a tankside manner with nozzles located along the sides of a flammable or combustible liquid tank. The dry chemical is applied directly at and parallel to the surface of the flammable liquid, thus the dry chemical discharge is not affected by thermal updrafts. Regular, BC (sodium bicarbonate base) dry chemical is used on all local-application hazards involving flammable or combustible liquids in depth. Shut down process and ventilation in the event of a dry chemical system discharge. Note: For use only with IND-50 cylinder/valve assembly, P/N 486571. For indoor use only. S P/N 220423 3-21 January 2007 System Design 3-4.3.1 OVERHEAD NOZZLE COVERAGE, P/N 844258 AND 259270 The protected area is divided into area segments for coverage purposes. Each nozzle should be centered above its protected-area segment. The constraint that for rectangular areas the longest side shall not exceed 5 feet. Table 3-11. Overhead Nozzle Coverage Area Low Overhead Nozzle P/N 844258 High Overhead Nozzle P/N 259270 Maximum Surface Coverage 18.75 square feet 18.75 square feet Location 6t08 feet (1.8mt02.4m) 8t0 ll feet (2.4mt03.4m) Flammable or Combustible Liquid Freeboard 6 inches (152.4 mm) 6 inches (154.2 mm) One IND-50 cylinder must use four overhead nozzles (low or high, but not mixed on the same piping from one cylinder), providing a total area coverage of 75 square feet. The coverage obtainable with one IND-50 cylinder is shown in Figures 3-14 and 3-15. DRY CHEMICAL CYLINDER LIE 1ST NOZZLE BRANCH TEE - NOZZLE NOZZLE DISTRIBUTION BRANCH CENTER L I ' HAZARD aft-BIn. I- (2842mm) MAX. Figure 3-14. Overhead Local-Application Coverage (IND-50), Square Hazard Area DRY CHEMICAL CYLINDER \..I 1224 mm) I 11572mm) Figure 3-15. Overhead Local-Application Coverage (IND-50), Rectangular Hazard Area January 2007 3-22 P/N 220423 S System Design 3-4.3.2 TANKSIDE NOZZLE COVERAGE Note: For use only with IND-50 cylinder/valve assembly, P/N 486571 Overhead discharge is hampered by the convection currents -created by the fire. The protected area is divided into area segments for coverage purposes. The maximum surface-area coverage for each tankside nozzle, P/N 259072, is 25 square feet, subject to the constraint that, for rectangular areas, the longest side shall not exceed 10 feet. Each nozzle should be centered on one side of its protected-area segment. One IND-50 cylinder must use four tankside nozzles providing a maximum total area coverage of 100 square feet. The tankside nozzle must be installed so that its discharge slit (or pattern) is horizontal to the flammable- or combustible-liquid surface and is directed to the opposite side of the tank. In addition, the nozzle must be located at least 4 inches above the highest liquid level in the tank. This allows the nozzle to be located at any desired distance below the lip of the tank, provided that the nozzle is positioned at least 4 inches above the highest liquid level. The coverages obtainable with one IND-50 cylinder are shown in Figures 3-16, 3-17, and 3-18. 1ST DISTRIBUTION DRY CHEMICAL BRANCH TEE - CYLINDER lOft. (3040 mm) -c MAX ?NOULE 10 f (3048 mm) MAX NOULE DISTRIBUTION BRANCH TEE Figure 3-16. Tankside Nozzle (IND-50), Two-Sided Coverage, Square Hazard Area NOZZLE NOZZLE DISTRIBUTION BRANCH TEE ISV DISTRIBUTION BRANCH TEE 10 ft. (3084 mm) - - MAX -- DRY CHEMICAL CYLINDER 10 ft. (3048 mm) MAX Figure 3-17. Tankside Nozzle (IND-50), Single-Sided Coverage, Square Hazard Area P/N 220423 3-23 January 2007 System Design NOZZLE DISTRIBUTION BRANCH TEE 1ST DISTRIBUTION BRANCH TEE 20 ft. (6095 mm) - IJ - L 5ft. (1524 mm) MAX. NOZZLE DRY CHEMICAL CYLINDER Figure 3-18. Tankside Nozzle (IND-50), Single-Sided Coverage, Rectangular Hazard Area 3-4.3.2.1 Overhead-System Piping Parameters All IND-50 cylinders shall use four discharge nozzles for overhead local-application systems, subject to the parameters shown in Figure 3-19 and Table 3-12 for square hazards, and subject to the parameters in Figure 3-20 and Table 3-13 for rectangular hazards. All piping shall be balanced, with an identical routing of pipe from the cylinder to each discharge nozzle. Actual pipe lengths and numbers of fittings shall be equal for each nozzle. When installing nozzles, a tolerance of + 2-1/2% of the final nozzle location dimension is permitted. 1ST DISTRIBUTION BRANCH TEE NOZZ.E DISTRIBUTION BRANCH TEE NOZZLE PIPING SUPPORT FRAME DRY CHEMICAL CYLINDER EM 314 In PIPE lln. PIPE Figure 3-19. Overhead Local-Application System (IND-50), Square Hazard Area January 2007 3-24 P/N 220423 System Design Table 3-12. IND-50 Piping Parameters, Overhead Local-Application System, Square Hazard Area Low-Overhead Nozzle: High-Overhead Nozzle: 6to8Feet 8to11feet Pipe Size Max. Mm. Max. Mm. Item (Inches) From To 1 Dry Chemical Cylinder First Distribution 63 ft. 0 in. 22 ft. 2 in. 83 ft. 0 in. 24 ft. 2 in. Branch Tee (19 m) (7 m) (25 m) (7 m) Pipe 3 '4 First Distribution Nozzles 15 ft. 6 in. 5 ft. 0 in. 15 ft. 6 in. 5 ft. 0 in. Branch Tee (5 m) (2 m) (5 m) (2 m) 1 Dry Chemical Cylinder First Distribution 7 7 7 7 Branch Tee Eli 3'4 First Distribution Nozzles 4 4 4 4 Branch Tee Tee 3/4 x 3/4 x 1 1-inch Pipe 3/4-inch Pipe 1 1 1 1 3/4 3/4-inch Pipe 3/4-inch Pipe 2 2 2 2 NOZZLE DISTRIBUTION 1ST DISTRIBUTION BRANCH TEE 7 BRANCH TEE fl HAZARD - NOZZLE PIPING SUPPORT FRAME 314 In. PIPE I in. PIPE DRY CHEMICAL CYLINDER Figure 3-20. Overhead Local-Application System (IND-50), Rectangular Hazard Area Table 3-13. IND-50 Piping Parameters, Overhead Local-Application System, Rectangular Hazard Area Low-Overhead Nozzle: High-Overhead Nozzle: 6to8Feet 8toilfeet Item Pipe Size (Inches) From To Max. Mm. Max. Mm. Pipe 1 Dry Chemical Cylinder First Distribution 62 ft. 0 in. 22 ft. 2 in. 83 ft. 0 in. 24 ft. 2 in. Branch Tee (19 m) (7 m) (25 m) (7 m) 3/4 First Distribution Nozzles 15 ft. 6 in. 5 ft. 0 in. 15 ft. 6 in. 5 ft. 0 in. Branch Tee (5m) (2m) (5 m) (2m) Ell 1 Dry Chemical Cylinder First Distribution 7 7 7 7 Branch Tee 3/4 First Distribution Nozzles 6 6 6 6 Branch Tee Tee 3/4 x 3/4 x 1 1-inch Pipe 3/4-inch Pipe 1 1 1 1 3/4 3/4-inch Pipe 3/4-inch Pipe 2 2 2 2 P/N 220423 3-25 January 2007 System Design 3-4.3.2.2 Tankside-System Piping Parameters All IND-50 cylinders shall use four discharge nozzles for tankside local-application systems, subject to the parameters shown in Figure 3-21 and Table 3-14 for two-sided coverage of square hazards. Parameters for single-sided coverage of square hazards are shown in Figure 3-22 and Table 3-15, and the corresponding parameters are shown in Figure 3-23 and Table 3-16 for rectangular hazards. All piping shall be balanced, with an identical routing of pipe from the cylinder to each discharge nozzle. Actual pipe lengths and numbers of fittings shall be equal for each nozzle. When installing nozzles, a tolerance of ± 2-1/2% of the final nozzle location dimension is permitted. NOZZLE wAr4cn ut 0 Figure 3-21. Tankside Local-Application System, Two-Sided Coverage, Square Hazard Area Table 3-14. IND-50 Piping Parameters (Reference Figure 3-21) Item Pipe Size From To Max. Mm. Pipe 3/4 in. Dry Chemical Cylinder Nozzles 103 ft. 10 in. (32 m) 27 ft. 9 in. (8.5 m) Ells 3/4 in. Dry Chemical Cylinder Nozzles 16 10 Tees 3/4 in. Dry Chemical Cylinder Nozzles 3 3 January 2007 3-26 P/N 220423 System Design S Figure 3-22. Tankside Local-Application System, Single-Sided Coverage, Square Hazard Area Table 3-15. IND-50 Piping Parameters, Tankside Local-Application System, Two-Sided Coverage, Square Hazard Area, Four-Nozzle System (Figure 3-22) Item Pipe Size From To Max. Mm. Pipe 3/4 in. Dry Chemical Cylinder Nozzles 85 ft. 2 in. (26 m) 26 ft. 0 in. (2 m) Ells 3/4 in. Dry Chemical Cylinder Nozzles 14 8 Tees 3/4 in. Dry Chemical Cylinder Nozzles 3 3 Figure 3-23. Tankside Local-Application System, Single-Sided Coverage, Rectangular Hazard Area Table 3-16. Piping Parameters, Tankside Local-Application System, Single-Sided Coverage, Rectangular Hazard Area, Four Nozzle System (Figure 3-23) Item Pipe Size From To Max. Mm. Pipe 3/4 in. Dry Chemical Cylinder Nozzles 85 ft. 2 in. (26 m) 6 ft. 0 in. (2 m) Ells 3/4 in. Dry Chemical Cylinder Nozzles 14 8 Tees 3/4 in. Dry Chemical Cylinder Nozzles 3 3 P/N 220423 3-27 January 2007 System Design 3-5 CONTROL SYSTEM DESIGN 5.1 XV Control System Considerations • This section describes the parameters and parameters for designing a system based on the XV Control System, including maximum and minimum lengths for tubing, maximum lengths and parameters for the cable runs and connection of the Electrical Solenoid and Actuation Ports. 3-5.1.1 DESCRIPTION OF KNOCKOUTS AND ACTUATION PORT OF THE XV CONTROL SYSTEM Knockouts are provided for installation of all external devices (or operations). KNOCKOUT 4 (DETECTION LINE 2) (OPTION 1) . SEE NOTE -\F KNOCKOUT 3 (DETECTION [ I LINE 1) KNOCKOUT 2 (SWITCH LEAD FOR DEEP MOUNT MICROSWITCHES OR SOLENOID) KNOCKOUT1 (SWITCH LEAD FOR HIGH MOUNT KNOCKOUTS MICROSWITCHES FOR MOUNTING OR SOLENOID) "TO SVA KNOCKOUT 5 (REMOTE MANUAL RELEASE) KNOCKOUTS (DETECTION LINE 2) (OPTION 2) . SEE NOTE LOCAL MANUAL RELEASE KNOCKOUT 7 (NOT USED) % KNOCKOUTS L (MECHANICAL GAS VALVE) ACTUATION (OUTPUT) PORT Figure 3-24. Pipe Connection Knockout Designations Note: If using Detection Line 2, select Detection Line 2 (Option 1) OR Detection Line 2 (Option 2). You cannot use both Detection Line 2 knockouts. January 2007 3-28 - P/N 220423 System Design 3-5.1.2 OVERALL XV CONTROL SYSTEM CAPABILITY 0 See Figure 3-25 and Table 3-17. CYLINDER MOUNT OPTION WALL MOUNT OPTION Figure 3-25. Overall XV Control System Capability P/N 220423 3-29 January 2007 System Design C I Table 3-17. Overall XV Control System Capability Number Letter Description P/N 1 Wall Mount Option 3 A Control System (wall mounted) B 1/4 in. tubing to one or more cylinders C System Valve Actuator (SVA) 87-120042-001 2 Cylinder Mount Option A Control System (cylinder mounted) B 1/4 in. tubing to other cylinders, if applicable C System Valve Actuator (SVA) D Required high-pressure hose (for cylinder mount) 3 Detection Line 1 A Detection Terminus 4 Detection Line 2 A "Detection Line 2, option "A" connection B "Detection Line 2, option "B" connection 5 Mechanical Gas Valve Release A Dual gas valve trip from Control System B Tee Pulley for dual gas valve trip 843791 6 Pull-to-Trip Remote Manual Release A Pull-to-trip Remote Manual Release 875572 B Tee Pulley for dual Remote Manual Release 843791 C Pull-to-trip Remote Manual Release 2 875572 January 2007 3-30 P/N 220423 System Design 3-5.1.3 CONTROL CABLE PARAMETERS OF THE XV CONTROL SYSTEM Table 3-18. Control Cable Parameters Control Cable Line Max. Max. Max. Max. Tee Pulleys Cable Length Corner Pulleys Detectors (P/N 843791) Detection Line 1 200 ft. (61 m) 50 40 - Detection Line 2 200 ft. (61 m) 50 40 - Remote Manual Release 100 ft. (31 m) 30 - 1* Mechanical Gas Valve Release 100 ft. (31 m) 30 - 1* *Note: Tee pulley (P/N 843791) counts as two corner pulleys. Maximum is from XV Control System, through tee pulley, to each device. All changes in direction of control cable runs must be made using Kidde Corner A Pulleys (P/N 844648) or Tee Pulleys (P/N 843791). No conduit pipe bends are allowed in any configuration. Failure to follow these instructions will prevent WARNING the system from operating as intended, and could result in death or serious personal injury and/or property damage. ii S Figure 3-26. Unacceptable Cable Configuration P/N 220423 3-31 January 2007 System Design 3-5.1.4 PRESSURE ACTUATION PARAMETERS 40 Table 3-19. Actuation Length Parameters Number of Extinguishing Maximum Total Length of 1/4 in. o.d. x Maximum Number of Pressure Switches (P/N 486536) in System Cylinders .031 in. Wall High Pressure Tubing Actuation Line 1-14 5 ft. - 166 ft. (51 m) 2 15-20 5 ft. - 121 ft. (37 m) 2 Note: The following are additional notes and requirements regarding the copper tubing and High-Pressure Nitrogen Tubing: Failure to adhere to these instructions may result in system malfunction, and WARNING thereby cause death or serious personal injury and/or property damage. High-Pressure Nitrogen Tubing (P/N 87-120045-001) is required to connect the outlet of the XV Control System to the inlet of the SVA when cylinder mounted. Copper Tubing shall be 1/4 in. O.D. .031 wall thickness copper tubing. In every system, a 1/8 in. NPT plug or vent check (P/N 877810) shall be used in the outlet port of the last System Valve Actuator (SVA) in the actuation line. The minimum length of copper tubing. in the actuation line is 5 ft. (1.5 m). Pressure switches (P/N 486536) may be placed anywhere in the copper tubing actuation line. See Figures 3-27 and 3-28 and Tables 3-20 and 3-21. January 2007 3-32 P/N 220423 System Design 3-5:1.4.1 Pressure Actuation Application 3B- Figure 3-27. Pressure Actuation Application Table 3-20. End Entrance to Actuation References Number Letter Description 1 System Valve Actuator(s) 2 Cylinder and Valve Assemblies 3 -- Tubing Connections 3A 1/8 in. NPT x 1/4 in. flare or high pressure compression fitting and 1/4 in. tubing if additional cylinders 3B 1/8 in. NPT plug or Vent Plug (P/N 877810) if end-of-line 4 Tubing Loop, approximately 2-1/2 in. (63 mm) diameter (not required) 5 Tubing and Connections 1/8 in. NPT x 1/4 in. flare or high pressure compression fittings and tubing connecting to XV Control System P/N 220423 3-33 January 2007 System Design 3-5.1.4.2 Pressure Actuation Tee In-line Entrance for Tubing S Figure 3-28. Tee In-Line Entrance to Actuation Manifold Table 3-21. Description of Tee In-Line Entrance to Actuation Number Letter Description 1 System Valve Actuator(s) 2 Cylinder and Valve Assemblies 3 -- Tubing Connections 3A 1/8 in. NPT x 1/4 in. flare or high pressure compression fittings and 1/4 in. tubing if additional cylinders 3B 1/8 in. NPT plug or Vent Plug (P/N 877810) if end of line 4 Tubing Loop, approximately 2-1/2 in. (63 mm) diameter (not required) 5 -- Tubing and Connections 5A 1/8 in. NPT Plug or Vent Plug (P/N 877810) if end-of-line 5B 1/8 in. NPT x 1/4 in. flare or high pressure compression fittings and 1/4 in. tubing if additional Cylinders 6 -- Tubing and Connections 6A 1/8 in. NPT x 1/4 in. flare or high pressure compression fittings compression and Tubing Connecting to XV Control System 6B 1/8 in. NPT x 1/4 in. flare or high pressure compression fittings compression and Tee with Tubing Connecting to Cylinders January 2007 3-34 P/N 220423 1iJ System Design 3-5.2 Mechanical Detection Selection of detection is based on detector spacing and temperature survey. 3-5.2.1 DETECTOR SELECTION BASED ON TEMPERATURE For automatic actuation to occur during a fire, the detectors must be heated sufficiently to melt and cause actuation. Experience has shown that it may take several minutes for detectors to actuate, and actuation is dependent upon: Fire intensity Temperature rating Spacing and location(s) In order to minimize delays in detector response time, it is necessary to conduct a temperature survey at all locations where detectors will be installed. The survey must be conducted under maximum operating conditions (i.e., at the highest operating temperatures and airflows) to determine the optimum exhaust airflow locations and record the peak temperatures that are expected to occur. Once the survey is completed, select the lowest temperature-rated detector that can be used. Refer to Table 3-22. Note: Make sure that the detectors are located in the exhaust airflow, not in dead air spaces. This will provide the fastest response. Table 3-22. Detector Temperature Ratings Detector Rating Maximum Exposure Temperature Part Number 165°F (74°C) 100°F (38°C) 282661 212°F (100°C) 150°F (65°C) 282662 360°F (182°C) 300°F (149°C) 282664 500°F (260°C) 440°F (226°C) 282666 A To avoid accidental system discharge, detectors must have an exposure temperature rating greater than the maximum peak survey temperatures CAUTION recorded. See Table 3-22 for detector maximum exposure temperatures. 3-5.2.2 DETECTOR SELECTION BASED DETECTOR SELECTION Where multiple detectors are used, they are connected to each other in series using 1/16-inch stainless steel cable to form a continuous chain as shown in Figure 3-29. Kidde Rapid-Response Thermo-Bulb detectors (KGR) can be spaced every 20 feet for smooth ceilings up to 10 feet high. Consult NFPA 72 for reductions in spacing for ceiling heights in excess of 10 feet, and for spacing guidelines when different ceiling arrangements are encountered. Note: For standard response mechanical detectors, Kidde requires reduction in spacing by 50%, or spacing every 10 ft. (3.1 m). Potential fire hazards and/or fire development scenarios may require closer detector spacings. Consult the Authority Having Jurisdiction (AHJ) in these situations. EI P/N 220423 3-35 January 2007 System Design EXAMPLE OF IN-LINE DETECTOR HOUSING KIT 112 in. EMT V °S" HOOKS ç PIPE (NOT \ SUPPUED) LOCKNUT \ "5" HOOKS DETECTOR (NOT SUPPLIED) ( 1116 in. CABLE TO XV CONTROL SYSTEM CRIMP (NOT SUPPLIED) SLEEVE EXAMPLE OF END-OF-LINE DETECTOR HOUSING KT DETECTOR (NOT SUPPLIED) Figure 3-29. Typical Detector Configuration 112 in. EMT CONNECTOR AND LOCKNUT 1116 in. CABLE TO "CONTROL SYSTEM (NOT SUPPLIED) A All detectors must be connected in series in order for the system to properly WARNING operate. Only one (1) terminating detector per line is permitted. 3-5.3 Electrical Heat Detection Systems All fire suppression systems using electrical heat detection and actuation shall be installed according to NFPA 72, and the DIOM for the tested and listed Control Panel being used. It is likely that industrial applications involving flammable or combustible liquids will be enclosed within or surrounded by areas that will be classified as Class I or Class II, Division 1 or Division 2 locations. Dry Chemical system electrical components, such as thermostats, located within these areas shall be CAUTION rated for use in classified areas, and all wiring to these components shall conform to the provisions of NFPA 70, National Electrical Code, for Class I or Class II, Division 1, or Division 2 locations. Any industrial system control head with a microswitch is not suitable for use in a classified area. 3-5.3.1 THERMOSTAT SELECTION The thermostat must be heated to its setpoint temperature for automatic actuation to occur during a fire. Automatic actuation is dependent upon: Fire intensity Thermostat setpoint Thermostat spacing and location In order to minimize delays in thermostat response, it is imperative that a temperature survey be conducted at all locations where thermostats will be installed. The survey, must be conducted under maximum operating conditions (i.e., at the highest operating temperatures and airflows) to determine the optimum exhaust airflow locations and record the peak temperatures that are expected to occur. Once the survey is completed: a. Select the thermostat with the lowest usable setpoint. . b. Make sure that there is approximately a 60°F to 100° F buffer between the thermostat setpoint and the maximum temperature obtained from the survey. January 2007 3-36 P/N 220423 System Design c. Make sure that the thermostats are located in the exhaust airflow, not in dead-air spaces. This will provide the fastest detector response. 3-5.3.2 THERMOSTAT SPACING The number of thermostats required for a particular industrial application is a function of the size of the area being protected. Since the thermostat is an unpowered electrical component, there is no upper limit established for the maximum number of detectors that can be used for a given system. In practice, issues such as voltage drops caused by wiring resistance, impose certain parameters on the lengths of wiring that can be used. For applications that require control units, consult the appropriate control-unit installation manual for wiring parameters. When multiple thermostats are used, they are electrically connected in parallel. Thermostats are spaced every 20 feet for smooth ceilings up to 10-feet high. Consult NFPA 72 for reductions in spacing for ceiling heights in excess of 10 feet, and for spacing guidelines when different ceiling arrangements are encountered. 3-5.4 Other Detection Systems Although it is most common to use heat detectors for industrial fire protection systems, there may be some applications where another mode of detection, such as smoke, flame or radiation detection, is more appropriate. Any UL listed and/or FM approved detector may be used to actuate the extinguishing system, provided that the detector is appropriate to the type of combustibles involved, and is connected to a listed and compatible control unit. The control unit shall be tested, listed, and approved by UL and/or FM for releasing the Kidde IND Dry Chemical System. P/N 220423 3-37 January 2007 System Design THIS PAGE INTENTIONALLY LEFT BLANK. January 2007 3-38 P/N 220423 CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL - FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No. 7135-1653:0189 Page 1 of I CATEGORY: 7135— AUDIBLE DEVICES LISTEE: System Sensor, Unincorporated Div of Honeywell Intl Inc.3825 Ohio Aye, St. Charles, IL 60174 Contact: Trish Linhart (630) 377-6580 Fax (630) 377-7245 Email: trish.linhart@systemsensor.com DESIGN: Models HR, HW Horns and CHR, CHW chimes. Intended for indoor use only unless otherwise indicated. Models may be followed by the suffix "K" indicating indoor or outdoor use. "K" suffice models are suitable for outdoor applications at temperatures from -40°F to +151°F (-40°C to +66°C) and are rated NEMA *4X when used with the System Sensor weather proof back boxes models SA-WBB (Wall), °SA..WBBW (Wall), SA-WBBC (Ceiling) and *SA..BCW (Ceiling). Models CHR and CHW are intended for private mode use only. Suitable for wall or ceiling mount Refer to listee's data sheet for additional detailed product description and operational considerations. RATING: 8- 17.5 or 16-33 VdcNFWR INSTALLATION: In accordance with listee's printed installation instructions, applicable codes and ordinances, and in a manner acceptable to the authority having jurisdiction. MARKING: Listee's name, model number, electrical rating, and UL label. . APPROVAL: Listed as audible devices when used with separately listed compatible fire alarm control units. Units can generate the distinctive three-pulse Temporal Pattern Fire Alarm Evacuation Signal (for total evacuation) in accordance with NFPA 72, 2002 Edition. Refer to listee's Installation Instruction Manual for details. "Rev 12-01-08 bh This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other Date Issued: July 01, 2012 Listing Expires June 30, 2013 Authorized By: JASON DEWITT, Deputy State Fire Marsha! Fire Engineering Division CALIFORNIA DEPARTMENT OF FORESTRY & FIRE PROTECTION OFFICE OF THE STATE FIRE MARSHAL FIRE ENGINEERING - BUILDING MATERIALS LISTING PROGRAM LISTING SERVICE LISTING No. 7300-1653:0195 Page 1 of I CATEGORY: 7300— FIRE ALARM CONTROL UNITACCESSORIES/MISC. DEVICES LISTEE: System Sensor, Unincorporated Div of Honeywell Intl Inc.3825 Ohio Ave, St Charles, IL 60174 Contact: Trish Linhart (630) 377-6580 Fax (630) 377-7245 Email: trish.linhart@systemsensor.com DESIGN: Model MPI20K, 120 VAC adapter mounting plate. The MP 120K, 120 VAC adapter mounting plate, can only be used for non-synchronous applications. It powers all two-wire indoor & outdoor SpectrAlert Advance Series horns, strobes, horn/strobes, chimes & chime/strobes. Reference CSFM listing numbers: 7125-1653:186, 7300-1653:187, 7125-1653:188 and 7135-1653:189. Operating temperature range: -40°F to +151°F (-40°C to +660C). Refer to listee's data sheet for detailed product description and operational considerations. RATING: 96- 132 VAC, 150 mA maximum INSTALLATION: In accordance with listee's printed installation instructions, applicable codes and ordinances and in a.manner acceptable to the authority having jurisdiction. MARKING: Listee's name, model number, electrical rating, and UL label. APPROVAL: Listed as an accessory for use with separately listed compatible fire alarm indicating devises described in Design section. Refer to listee's Installation Instruction Manual for details. 1-3-07 jw This listing is based upon technical data submitted by the applicant. CSFM Fire Engineering staff has reviewed the test results and/or other data but does not make an independent verification of any claims. This listing is not an endorsement or recommendation of the item listed. This listing should not be used to verify correct V operational requirements or installation criteria. Refer to listee's data sheet, installation instructions and/or other Date Issued: July 01, 2012 Listing Expires June 30, 2013 Authorized By: JASON DEWITT, Deputy State Fire Marshal Fire Engineering Division Installation 4-4.1.1 INSTALLING THE XV CONTROL SYSTEM (WALL MOUNT) 1. With the XV Control System cover removed, lay the box on its back. Locate the four mounting holes in the housing. Position the box so that the mounting holes are not flat on the work surface and break out the knockouts. See Figure 4-7 for location of mounting holes. MOUNTING MOUNTING HOLE "\ ________ 5-112 in. f HOLE (140 mm) 1.1 7-5/8 in. " (194 mm) 0 0 F- L 314 in. (19 mm) MOUNTING 4-3/8 in. HOLE (112 mm) MOUNTING 1-5116 in. HOLE (34 mm) Figure 4-7. Location of Mounting Holes (Housing) Using 1/4-20 x 3-inch long toggle bolts or equivalent hangers, mount the box to the wall making sure it is level. Attach the conduit fittings and other fittings to the box. Run cables and wiring as normal, within the parameters of the XV Control System. Locate the System Valve Actuators (SVA). 0 P/N 220423 4-9 January 2007 9R) 0 SVA PISTOl SET POSITION Installation 4. Ensure the piston of the SVA is in the 'Set' position. See Figure 4-8. Figure 4-8. SVA in 'Set' Position Remove the Valve Protection Plate from the top of the cylinder valve. Install the SVAs onto each cylinder valve (the piston facing cylinder valve). Do not tighten them as they will be removed at a later time. Install 1/8-inch NPT pipe plug (P/N 877810) or optional vent check on last SVA (end of line). Install 1/8 NPT (M) x 1/4 copper tubing adapters. Compression type adapters are permissible. Measure and install the 1/4 O.D. x 0.031 wall thickness copper tubing. A 2-1/2 inch (64 mm) loop between each cylinder and on the inlet tubing is recommended, but not required. See Figure 4-9. Ensure that each connection is secure. 118 In PLU oP11 VENT Figure 4-9. Example of Copper Tubing Loop Method 0 1. Remove the SVAs from the cylinder valves and re-install the Valve Protection Plates. January 2007 4-10 P/N 220423 SVA PISTOP SET POSITION Installation 4-4.1.2 INSTALLING XV CONTROL SYSTEM (CYLINDER MOUNT) Locate the System Valve Actuators (SVA). Ensure the piston of the SVA is in the 'Set' position. Figure 4-10. SVA in 'Set' Position Remove the Valve Protection Plate from the top of the cylinder valve. Install the SVAs onto each cylinder valve (the piston facing cylinder valve). The ports on the SVA should be positioned towards the discharge adapter. Do not tighten the SVA(s) as it will be removed at a later time. Figure 4-11. XV Control System (Cylinder Mount) Install XV Control System onto the SVA. S P/N 220423 4-11 January 2007 Installation 6. Install SVA bolts through the bottom of the XV Control System into the SVA. S sv1 Figure 4-12. Mounting the XV Control System to the SVA 7. For multiple cylinder installations, install 1/8 NPT (M) x 1/4 copper tubing adapters. Compression type adapters are permissible. For multiple cylinder installations, measure and install the 1/4 O.D. x 0.031 wall thickness copper tubing. A 2-1/2-inch (64 mm) loop between each cylinder and on the inlet tubing is recommended, but not required. See Figure 4-13. Ensure that each connection is secure. Note: Minimum 5 ft. (1.2 m) copper tubing (total). Install the 1/8 NPT (M) x 3/8-24 JIC flare adapter (included with the High Pressure Nitrogen Tubing P/N 87-120045-001) onto the outlet port of the XV Control System. Note: Do not use Teflon tape. January 2007 4-12 P/N 220423 Installation Figure 4-13. Example of Copper Tubing Loop Method 10. Secure the 3/16-inch braided High Pressure Nitrogen Tubing (P/N 87-120045-001) onto the SVA. Ensure the connection is tight. A The High Pressure Nitrogen Tubing is reauired between the XV Control System CAUTION and the primary SVA on all cylinder mounted installations. Note: Do not attach the swivel end of the hose onto the outlet of the XV Control System. TROL SYSTEM PRESSURE OGEN TUBING IT FING I Figure 4-14. Installing High Pressure Nitrogen Tubing 11. Remove the SVAs from the cylinder valves and re-install the valve protection plates. P/N 220423 4-13 January 2007 Installation 4-4.1.3 ACTUATION The next step in the installation process is deciding what type of actuation to use. The XV Control System offers the use of mechanical, electrical or a combination of mechanical and electrical actuation. Mechanical actuation utilizes detectors (fusible, KGR and/or KGS) to detect heat, whereas electrical actuation utilizes heat detectors for detection. Mechanical and electrical actuation can be combined together when configured using a UL Listed fire control panel, such as the Kidde Scorpio1m. Figure 4-15 illustrates the steps to follow when deciding what type of actuation to use. Mechanical Mechanical, electrical Electrical or both? "Mechanical Detec- tion Installation" on page 4-15. 01 "Mounting The Solenoid, P/N Both>H 83-100034-001" on page 4- 28. Includes Lockout of both Detection Lines Installing both Detec- tion Lines? Yes etection N LiNo ne 1 or 2' ne1Line2 See "Cabling Detec- See "Cabling Detec- tion Line 1 Only - tion Line 2 Only I Includes Lockout of (Option 1)— Includes + Detection Line 2" on Lockout of Detection See "Cabling Mechan- page 4-20. Line 1" on page 4-21. ical Detection - Both Lines" on page 4-18. Note: Refer to the DIOM manual for the specified fire control unit. Figure 4-15. Decision Flow Chart for Actuation January 2007 4-14 P/N 220423 Installation 4-4.1.4 MECHANICAL DETECTION INSTALLATION Detectors are to be located in an anticipated path of convective heat flow from a fire, and spaced at a maximum on-center distance of 20 ft. (6.1 m) for Thermo-Bulb series detectors and 10 ft. (3.1 m) for standard response detectors, for ceiling heights up to 10 ft. (3.1 m) (refer to Chapter 3). The 1/16-inch cable is to be protected by 1/2-inch conduit or electrical metal tubing (EMT). 4-4.1.4.1 Installing Detection Components - Drill holes as necessary for installation of the Quick Seal Adapters (P/N 2649930X) or Compression Seal Adapters (P/N 2650460X). Mount the detector brackets as required. A Be sure mounting penetrations are liquid and grease tight. WARNING Install conduit from the XV Control System detector conduit knockout(s) (top or right side of the XV Control System) to the detector brackets using Corner Pulleys (P/N 844648) at all changes in direction. Remove screws and covers from the Corner Pulleys and set aside for reuse later. Note: No bends or offsets are permitted in conduit lines. Be sure the system is adequately supported. T Figure 4-16. Unacceptable Cable Configuration Run the 1/16-inch Control Cable from the various system devices, through 1/2-inch EMT conduit, to the XV Control System. Q P/N 220423 4-15 - January 2007 Installation Install detectors of proper rating as described in Paragraph 2-3.1.8. To install detectors, follow the steps below. Always start detector installation at the last detector (see Figures . 4-17 and 4-18). To install detectors, create a cable loop using a Crimp Sleeve (P/N 214951), and Crimp Tool (P/N 253538). EXAMPLE OF IN-LINE EXAMPLE OF END-OF-LINE DETECTOR HOUSING KIT 1116 in. CABLE TO XV CONTROL SYSTEM (NOT SUPPLIED) Figure 4-17. Detector Housing Kit, P/N 804548 A WARNING . Use of a crimp tool besides P/N 253538 can cause malfunction and/or unwanted discharge of the system. Note: In order to ensure the crimp sleeve is secure, the cable must always be looped so that there are two lengths of cable inside the Crimp Sleeve before crimping. Cable must not be spliced anywhere along its length. Place the Crimp Tool on the end of the sleeve. Ensure the flat of the sleeve rests in the saddle of the Crimp Tool jaw. Secure the sleeve in the tool carefully to ensure the sleeve does not shift in the saddle before pressing. Squeeze the handles of the Crimp Tool until the tool releases itself. The tooth of the jaw is pressing on the wall of the sleeve without cracking the malleable copper. The first crimp is complete. Remove the crimp from the tool. Put the Crimp Tool onto the other end of the sleeve. The sleeve shall be 1800 turned in the tool from the first crimp. Note: This is pressing the loop end of the sleeve (opposite that of the first press). Squeeze the handles of the Crimp Tool until the tool releases itself. The tooth of the jaw is pressing on the wall of the sleeve without cracking the malleable copper. The second crimp is complete. Remove the crimp from the tool. To ensure proper system operation, each detector must be installed so that at A least 1-1/2 inches of cable movement toward the XV Control System is CAUTION maintained. Attach an "S" hook (P/N 87-9189413-000) to the end of the last detector mounting bracket. January 2007 4-16 P/N 220423 S Installation Attach proper detector onto the "5" hook. Attach 1/16-inch cable to the hook at the other end of the detector, forming a cable loop held in place by a Crimp Sleeve. Note: If only one detector is used, thread the cable back through the EMT conduit to the XV Control System. If additional detectors are used, attach the cable to each successive detector "5" hook, as described above. After attaching cable to last detector "S" hook, thread cable back through the EMT conduit to the XV Control System. 1/16 in. CABLE TO CONTROL SYSTEM (NOT SUPPLIED) "S" HOOKS CRIMP SLEEVE EXAMPLE OF END-OF-LINE UNIVERSAL HOUSING KIT SPACING REQUIREMENTS XI/ 1-1/2 in. (38 mm) MIN. KRS-50: 3 In. (76 mm) MIN. CRIMP SLEEVE EXAMPLE OF IN-LINE "S" HOOK UNIVERSAL HOUSING KIT Figure 4-18. Detector Placement in Bracket A Be sure mounting penetrations are liquid and grease tight. WARNING P/N 220423 4-17 January 2007 Installation 4-4.1.4.2 Cabling Mechanical Detection - Both Lines If cabling Line 1 (knockout 3), turn ratchet wheel (counterclockwise) of detection beam until the cable through-hole is vertical (see Figure 4-19). If cabling Line 2 (knockout 4/6), turn ratchet wheel of detection beam until the cable through- hole is horizontal. Note: When cabling detection line 2, use either Knockout 4 or Knockout 6. See Figure 4-19. Feed the end of the cable through the hole into the center of the ratchet wheel and pull the cable toward you. Leave approximately 6 inches (152 mm) of cable. Slip a Crimp Sleeve (P/N 214951) over the end of the cable. Making a loop, slip the end back through the Crimp Sleeve. Using Crimping Tool (P/N 253538) crimp the sleeve to the cable. THROUGH HOLE IN RATCHET SPOOL, DETECTION LINE 2 THROUGH HOLE IN RATCHET SPOOL, DETECTION LINE I DETECTION BEAMS IN RELEASED POSITION ACTUATION LATCH IN HORIZONTAL (SET) POSITION DETECTION BEAMS IN SET POSITION Figure 4-19. Cabling Mechanical Detection January 2007 4-18 P/N 220423 Installation Cut the loop off of the crimped cable assembly. Cut any loose ends off as close to the Crimp Sleeve as possible. Pull the ends of the crimped cable back through until the end of the cable seats inside the central chamber of the ratchet wheel. By hand, turn the wheel until the cable wraps around the spool of the ratchet. The cable line is now ready to be set. If the line is fully cabled, the detection line may be set. Note: If using Detection Line 2, Knockout 4, the cable must go around the pulley wheel before going into the cable port of the ratchet wheel. When tightening the cable around the spool, it is important that the cable be seated in the bottom of the groove on the pulley wheel. The cable may tend to wrap itself around other components in the XV Control System. Use caution in tightening the cable to ensure the proper path or a cable jam could occur resulting in the malfunction of the system. A CAUTION Use care when tightening the cable. Tighten cable until the detection arm makes contact with the beam stop. Do not overtighten. BEAM STOP FOR DETECTION LINE I DETECTION ARM BEAM STOP FOR DETECTION LINE 2 DETECTION ARM Figure 4-20. Close Up View of Detection Lines 1 and 2 Beam Stops P/N 220423 4-19 January 2007 I 3 3A 8 5 4 7 2 Installation 4-4.1.4.3 Cabling Detection Line 1 Only - Includes Lockout of Detection Line 2 40 Figure 4-21. XV with Detection Line 2 Locked Out Table 4-2. Cabling Detection Line 1 Only Item Description 1 Lockout screw pad (shown with one red lockout screw removed) 2 Actuation Latch 3 Spring and beam for Detection Line 2 (locked out) 3A Spring Post for Detection Line 2 (spring removed) 4 Spring and beam for Detection Line 1 (set with cable) 4A Spring Post for Detection Line 1 5 Beam Stop for Detection Line 1 6 Beam Stop for Detection Line 2 7 Lockout pad for Detection Line 1 (not used, line set) 8 Lockout pad for Detection Line 2 (red lockout screw inserted) Ensure that nothing is armed or set in the XV. With the XV completely disarmed, remove the spring from its respective post (item 3A, Detection Line 2). It is permissible to remove the spring from the detection beam. Push the detection beam (item 3) against its respective beam stop (item 6). . 4. Using a 9/64-inch allen key (hex) remove one of the red lockout screws from storage pad (item 1) and carefully thread into lockout pad (item 8). January 2007 4-20 P/N 220423 Installation 4-4.1.4.4 Cabling Detection Line 2 Only (Option 1)— Includes Lockout of Detection Line 1 I I 3 3A 8 5 4 7 2 Figure 4-22. XV with Detection Line 1 Locked Out Table 4-3. Cabling Detection Line 2 Only - Option 1 Item Description 1 Lockout screw pad (shown with one red lockout screw removed) 2 Actuation Latch 3 Spring and beam for Detection Line 2 (set with cable) 3A Spring Post for Detection Line 2 4 Spring and beam for Detection Line 1 (locked out) 4A Spring Post for Detection Line 1 (spring removed) 5 Beam Stop for Detection Line 1 6 Beam Stop for Detection Line 2 7 Lockout pad for Detection Line 1 (red lockout screw inserted) 8 Lockout pad for Detection Line 2 (not used, line set) Ensure that nothing is armed or set in the XV. With the XV completely disarmed, remove the spring from its respective post (item 4A, Detection Line 1). It is permissible to remove the spring from the detection beam. Push the detection beam (item 4) against its respective beam stop (item 5). 4. Using a 9/64-inch allen key (hex) remove one of the red lockout screws from storage pad (item 1) and carefully thread into lockout pad (item 7). P/N 220423 4-21 January 2007 Installation 4-4.1.4.5 Cabling Detection Line 2 Only (Option 2)— Includes Lockout of Detection Line 1 I 3 3A 8 5 4 7 Figure 4-23. XV with Detection Line 1 Locked Out Table 4-4. Cabling Detection Line 2 Only - Option 2 Item Description 1 Lockout screw pad (shown with one red lockout screw removed) 2 Actuation Latch 3 Spring and beam for Detection Line 2 (set with cable) 3A Spring Post for Detection Line 2 4 Spring and beam for Detection Line 1 (locked out) 4A Spring Post for Detection Line 1 (spring removed) 5 Beam Stop for Detection Line 1 6 Beam Stop for Detection Line 2 7 Lockout pad for Detection Line 1 (red lockout screw inserted) 8 Lockout pad for Detection Line 2 (not used, line set) Ensure that nothing is armed or set in the XV. With the XV completely disarmed, remove the spring from its respective post (item 4A, Detection Line 1). It is permissible to remove the spring from the detection beam. Push the detection beam (item 4) against its respective beam stop (item 5). Using a 9/64-inch allen key (hex) remove one of the red lockout screws from storage pad (item 1) and carefully thread into lockout pad (item 7). January 2007 4-22 P/N 220423 H MICROSWITCH H MICROSWITCH Installation ATTACHING MICROSWITCHES, P/N 87-120039-001 High Mount Location for Microswitches The High Mounted Microswitch mounts with the paddle(s) facing up into the Cam/Flag. When in the 'Set' position, the Cam/Flag pushes down on the paddle(s) of the microswitch. When the Cam/Flag is released, the microswitch(es) release and change position (see Figure 4-27 for wiring diagram, and Figure 4-24 for mounting). The microswitches are best mounted when the system is in the 'Released' position. Two pairs of #4 screws are included with each microswitch kit: 5/8-inch long and 1-inch long x 3/32-inch Allen Key. If mounting a single switch, use the 5/8-inch screws. If mounting two switches, use the 1-inch long screws. After mounting the microswitch, turn the Cam/Flag to the 'Set' position to ensure the paddles move far enough down to change the phase of the microswitch. Use the included pigtail assembly to connect the microswitch to the circuit being monitored. See Figures 4-26, 4-27, 4-28, and 4-29 for wiring diagrams. Note: It is recommended that the pigtails be threaded into the port before attempting to plug it onto the microswitch contacts. All splices and connections should be made in a separate approved electrical box connected by EMT or other approved conduit. See NFPA 70 and NFPA 72 for proper wiring guidelines. 4-4.1.5 4-4.1.5.1 RELEASED POSITION SET POSITION Figure 4-24. High Mount Microswitch, 'Released' and 'Set' Positions P/N 220423 4-23 January 2007 n Installation 4-4.1.5.2 Deep Mount Location for Microswitches . The Deep Mounted Microswitch mounts with the paddle(s) facing down, away from the Cam/Flag and trigger. When in the 'Set' position, the trigger pin pushes up on the paddle(s) of the microswitch. When the Cam/Flag is released, the microswitch(es) release and change position. See Figure 4-27 for wiring diagram. See Figure 4-25 for mounting information. The microswitches should be mounted when the system is in the 'Released' position. Two pairs of #4 screws are included with each microswitch kit: 5/8-inch long and 1-inch long x 3/32-inch Allen Key. If mounting a single microswitch, use the 5/8-inch screws. If mounting two microswitches, use the 1-inch long screws. After mounting the microswitch, turn the Cam/Flag to the 'Set' position to ensure the paddles move far enough down to change the position of the microswitch. Use the included pigtail assembly to connect the Microswitch to the circuit being monitored. See Figure 4-29 to see the terminal type microswitch positions when the XV Control System is in the Set and Released states. See Figures 4-26, 4-27, 4-28, and 4-29 for general wiring diagrams. See Figures Figure 4-31 and Figure 4-32 for initiating and releasing wiring diagrams. Note: It is recommended that the pigtails be threaded into the port before attempting to plug it onto the microswitch contacts. All splices and connections should be made in a separate electrical junction box connected by EMT or other approved conduit. See NFPA 70 and 72 for proper wiring guidelines. Mounting the microswitch with the pigtails 0 attached and inserted into the outlet is recommended. When setting the Cam/Flag, make sure the trigger pin turns under the A microswitch paddle(s) and pushes up to set the microswitch. If the trigger pin is "above" or between the paddle and the microswitch, the microswitch will not CAUTION change position upon actuation of the XV Control System which could result in system malfunction. January 2007 4-24 P/N 220423 DEEP MOUNT MICROSWITCH PIN ENGAGING MICROSWITCH PADDLE Installation 0 RELEASED POSITION SET POSITION Figure 4-25. Deep Mount Microswitch, 'Released' and 'Set' Positions S P/N 220423 4-25 January 2007 Installation 4-4.1.6 WIRING MICROSWITCHES . These are used when it is necessary to open or close electrical circuits. The following are examples, but not limited to: Electric appliance shutdown Make up air shutdown Electric gas valve shutdown Shuntbreaker/ relay Note: Not for alarm initiation. ELECTRICAL CONNECTOR RED LT. BROWN LT. BROWN/WHITE 010 BLACK YELLOW MICROSWITCH YELLOW/WHITE '-WHITE BLUE BLUE/WHITE Figure 4-26. Microswitch Kit, P/N 87-120039-001, 87-120039-501 Table 4-5. Electrical Ratings for Microswitch Kit, P/N 87-120039-001 and 87-120039-501 125/250 Vac 20-1/2 Amps 250 Vac 1-1/2 HP 125 Vac 1/2 HP CLOSED RED LT. BROWN LT. BROWN/WHITE OPEN BLACK YELLOW YELLOW/WHITE WHITE BLUE BLUE/WHITE SWITCH POSITION WHEN "CAM/FLAG IS IN 'RELEASED' POSITION Figure 4-27. Microswitch on Released Position January 2007 4-26 P/N 220423 I Installation Microswitch to be used for: Alarm initiation Solenoid release Not to be used for: Electric appliance shutdown Make up air shutdown Electric gas valve shutdown Shuntbreaker/relay T2 T4 Figure 4-28. Microswitch in Released Position, P/N 87-120047-001 Table 4-6. Electrical Ratings for Microswitch P/N 87-120047-001 250 Vac 15 Amps 250 Vac 1/2 HP 125 Vac 1/2 HP CLOSED T2 T4 - SWITCH POSITION WHEN "CAM/FLAG IS IN 'RELEASED' POSITION Figure 4-29. Microswitch (Terminal Type) Position in Released Position P/N 220423 4-27 January 2007 Installation 4-4.1.7 MOUNTING THE SOLENOID, P/N 83-100034-001 S The Solenoid can be used in conjunction with mechanical detection or if mechanical detection or a Remote Manual Release is not needed. Red lockout screws are mounted in the control system. The Solenoid includes an attached mounting bracket. Included in the hardware kit are two Allen screws. The Solenoid operates on 24 Vdc only. Connection to a higher voltage can result in non-operation, or burning out of the coil. A Work on the Solenoid should never take place while the system is in the 'Set' WARNING and ready position. The Solenoid operates directly on the latch. Ensure that the System Nitrogen Cartridge is removed and the Cam/Flag assembly is released or locked out with the Keeper Pin (P/N 60-9197108-000). Using a 3/32-inch Allen key, position the Solenoid behind the High-Pressure Nitrogen Tubing, aligning the mounting bracket with the mounting screw holes on the actuator mounting pad (see Figure 4-30). Secure the Solenoid and bracket assembly to the XV Control System enclosure with the enclosed 3/32-inch Allen screws. Dress the wires from the Solenoid up above the internal nitrogen hose, along the bottom of the XV and in front of the high mount microswitch mounting pad. Using a cable tie, secure the Solenoid wires to the internal nitrogen hose. Note: Wiring of the Solenoid must be done according to NFPA 72, National Fire Alarm Code and NFPA 70, National Electrical Code. Wiring the Solenoid through a Microswitch is required. The solenoid coil is 24 Vdc at 1.5 Amp and at 70°F (210C). Wire the Solenoid to the microswitch: - Wire one lead from the Solenoid to terminal Ti of the microswitch. - Wire the second lead from the Solenoid through Knockout 1 or Knockout 2 through the conduit and into an approved control panel. - Finish the releasing loop by attaching a wire to T4 of the microswitch, through the conduit and into an approved control panel. See Figure 4-30. Releasing the XV Control System opens the contact and stops the releasing current. January 2007 4-28 P/N 220423 Installation C TO JUNCTION BOX OR CONTROL PANEL _\sssss%:I1I11 - 1I 5- lIl 001, S i 3132 in. HEX .-MOUNTING SCREWS SOLENOID CABLE TIE Figure 4-30. Solenoid Mounted and Wired in the XV Control System Note: Dress the wires from the Solenoid down along in front of the high mount microswitch mounting pad and out through Knockout 1 or Knockout 2. 0 Refer to Figure 4-31 and Figure 4-32 for initiation and releasing wiring diagrams. P/N 220423 4-29 January 2007 Installation C] WIRE TYPE KEY ALARM WIRES TO EOL — — — — — —. AND/OR OTHER DEVICES MICROSWITCH (INTERNAL) ALARM WIRES FROM CONTROL PANEL CLOSED TERMINAL 2 ATTACH EOL TO TERMINAL 2 OF MICROSWITCH DETECTION °' LOOP TERMINALS ATTACH ONE SIDE OF ALARM CIRCUIT AND EOL TO TERMINAL 4 OF MICROSWITCH OPEN TERMINAL 4 FLAG DISENGAGED BY XV ATTACH ONE SIDE OF ALARM CIRCUIT TO TERMINAL I OF MICROSWITCH COMMON TERMINAL I SWITCH POSITION WHEN "FLAG/CAM IS IN RELEASED POSITION Figure 4-31. Alarm Wiring with Terminal Type Microswitch WIRE TYPE KEY ALARM WIRES TO XV — — — — — —. SOLENOID AND/OR OTHER DEVICES . MICROSWITCH (INTERNAL) ALARM WIRES FROM CONTROL PANEL XVSOLENOID PIN 83-100034.001 24 VDC ONLY \\1 I! RELEASING CIRCUIT IN COMPATIBLE CONTROL PANEL (24 VDC ONLY) SPLICE SOLENOID LEAD TO RELEASING CIRCUIT OPEN TERMINAL 2 FLAG ENGAGED TERMINAL NOT USED flBYXV ' ATTACH SOLENOID LEAD TO TERMINAL I OF MICROSWITCH COMMON ATTACH RELEASING CIRCUIT TO TERMINAL I TERMINAL 4 OF MICROSWITCH CLOSED TERMINAL 4 SWITCH POSITION WHEN "FLAG/CAM IS IN SET POSITION Figure 4-32. Release Wiring with Terminal Type Microswitch January 2007 4-30 P/N 220423 Installation 4-4.1.7.1 Locking Out Detection Lines 1 and 2 S 34 SOLENOID Figure 4-33. Locking Out Detection Lines 1 and 2 with Solenoid Mounted in XV C Table 4-7. Locking Out Detection Lines 1 and 2 Item Description 1 Lockout screw pad (shown with red lockout screws removed) 2 Actuation Latch 3 Spring and beam for Detection Line 2 (locked out) 3A Spring Post for Detection Line 2 (spring removed) 4 Spring and beam for Detection Line 1 (locked out) 4A Spring Post for Detection Line 1 (spring removed) 5 Beam Stop for Detection Line 1 6 Beam Stop for Detection Line 2 7 Lockout pad for Detection Line 1 (red lockout screw inserted) 8 Lockout pad for Detection Line 2 (red lockout screw inserted) P/N 220423 4-31 January 2007 Installation 1. Ensure that nothing is armed or set in the XV. With the XV completely disarmed, remove the spring from its respective posts (item 3A, Detection Line 2, and item 4A, Detection Line 1). It is permissible to remove the spring from the detection beam. Push the detection beam (item 4) against its respective beam stop (item 5). Push the detection beam (item 3) against its respective beam stop (item 6). Using a 9/64-inch allen key (hex) remove red lockout screws from storage pad (item 1) and carefully thread into lockout pads (items 7 and 8). A CAUTION Never lock out a detection line that is being used in a fire protection system. A CAUTION Refer to the appropriate DIOMs for instructions on disabling the system for service, repair, and maintenance. January 2007 4-32 P/N 220423 Installation 4-4.2 Optional Equipment Installation 4-4.2.1 INSTALLING REMOTE MANUAL RELEASE, P/N 875572 The Remote Manual Release is equipped with a safety pin and seal wire which must be removed to permit installation of the control cable from the XV Control System. Note: The Remote Manual Release is optional if the XV Control System (local manual release) is in a clearly visible, easily accessible, unobstructed location. If it is not, a Remote Manual Release must be used for mechanical systems. Install the Remote Manual Release as outlined in Steps 1 through 9 (see Figure 4-34). Mount the Remote Manual Release at a means of egress, on a clear, unobstructed exit location between 42 - 48 inches (1067 - 1219 mm) above the floor. Refer to NFPA 17A and NFPA 96, latest ëditions.The cable can enter the handle from the side hole in the snap- out cover or from the rear of the handle. If the cable is to enter from the rear, perform alternate Steps 1-a and 1-b, otherwise, proceed to Step 2. a. Drill a hole in the wall opposite the position of the Remote Manual Release handle plug (when mounted). a. Attach a 1/2-inch EMT adapter to the hole in the wall. Mount the back plate to the wall using bolts or No. 10 self-tapping wood screws of required length. Remove the Corner Pulley covers to aid in installing the 1/16-inch steel cable through the system. Feed the 1/16-inch steel cable through the Remote Manual Release through 1/2-inch conduit or EMT to the XV Control System. Use Corner Pulleys (P/N 844648) for all changes in direction. Leave at least 12-inches of 1/16-inch steel cable coming out of the Remote . Manual Release. Note: The Remote Manual Release cable attaches to the latch of the XV Control System. The Remote Manual Release uses Port 5 of the XV Control System. REMOTE MANUAL RELEASE. (KNOCKOUT 5) REMOTE MANUAL RELEASE CABLE ACTUATION LATCH 1-1/4 in. (32 mm) CRIMP Figure 4-34. Remote Manual Release with Detection Lines 1 and 2 Locked Out 5. There is a through hole in the end of the actuation latch. Carefully feed the control cable through the hole in the actuation latch. P/N 220423 4-33 January 2007 Installation Note: It is important that the control cable slips easily through the hole in the end of the actuation latch. The actuation latch must be able to operate without interference from S the control cable. Later, the movement of the actuation latch assembly will be tested before completing the setting of the XV Control System. Approximately 1-1/4 inches (32 mm) of control cable (with crimp end not included) should be left under the actuation latch, when in the 'Released' position. Slip a Crimp Sleeve (P/N 214951) over the end of the control cable. Making a loop, slip the end back through the Crimp Sleeve. Use the Crimping Tool (P/N 253538) to fasten the Crimp Sleeve to the control cable. Cut the loop off of the crimped cable assembly. Cut any loose ends off as close to the Crimp Sleeve as possible. If a second Remote Manual Release is required, use the Tee Pulley assembly (P/N 843791). S January 2007 4-34 P/N 220423