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Specifications RECEIVED JUL 26 2012 Albany: Newport: 217 Main Street 234 NE 1st St ISM CITYOFTIGARD Albany, OR 97321 Newport, OR 97365 BUILDINGDIVISION 541- 928 -9523 541 - 265 -9019 Valley Fire Control Fax 541 - 967 -8034 Fax 541 - 265 -9019 July 23, 2012 FIRE SUPPRESSION SYSTEM SUBMITTAL Authority Having Jurisdiction: City of Tigard Building Division CITY OF TIGARD 13125 SW Hall Blvd. Tigard, OR 97223 Approved.�,.l ?f? l [ -1/ Phone: 503 - 718 -2439 Conditionally Approved [ ] See Letter to: Follow [ ] Attached .... [ ] PROJECT." Permit Number:F z cuCt7 A, . :1 Z •'�-- �-�? Boardwalk Burgers By: I Date: %IMP. 12282 Scholls Ferry Rd Tigard, OR Approved plans shall be on job site. Scope of Work: Install a Kidde Fire Systems Kitchen Hood Fire Suppression System, Model WHDR -600, Wet Chemical System protecting hood and ducts, and appliance line. Installation to conform to UL -300, NFPA 96 and 17A, and Manufacturer's Installation Manual. Installation to include gas valve, and capability to perform any required electrical functions. Included in Submittal: OFFICE COPY • System Description • System Drawing w/ Flow Point Charts • Equivalent Length Calculation Sheet • Volume Limitations Calculation Sheet • Pertinent Pages from Installation Manual • Pertinent Cutsheets • Current Certificate of Manufacturer's Training • Job Installation Check -off List Burgers Boardwalk Bur g 12282 Scholls Ferry Rd ISM Tigard, OR CCB: 101067 Pure Air, Ty Bilyeu: 541 - 619 -3445 Description of Proposed Fire Suppression System in Kitchen Hood: System Model: Kidde WHDR -600 Flow Points: 17, of 18 available Pipe Size: 3/4 ", 1/2" and 3/8" Black Nozzles: 4 - ADP in Ducts, 2 - ADP in Plenums, 4 - F over Fryers, 3 - ADP over Griddles Ducts(2): 10" x 20" - 60" circumference each (requiring two type ADP nozzles per duct, maximum coverage of 100" circumference) Plenum: <48" x 16' long (requiring two type ADP nozzles, max. 48" x 10' per nozzle) Fryers(4): 16" each (requiring one type F nozzle each) Griddle: 48" (requiring two ADP nozzles, 42" longest side each) Griddle: 36" (requiring one ADP nozzle, 42" longest side each) Fuel,: Gas, 1.25" Mechanical Gas Valve; Shut down of Receptacles and /or Make up air (Electrical connections to be completed by others). Actuation: 1 - link in each duct, up to 5 - additional links over appliances. Manual Pull station to be installed 10' to 20' from hood area. Job Value: $3100.00 Plans Submitted by: Cliff Martin July 23, 2012 Valley Fire Control 217 Main St. SE Albany, OR 97321 541 - 928 -9523 1 1 1 1 1 0°• 20° 1 > 10 "b- 20" --1---3.- . i 1 ADP ADP ADP ADP 1 1 1 7/4" 1 / i ? ," t 1 360° 360° 1 , — 360° 500° 500° 500° 1 500° F vent J ' I- 1 ME. ADP .55/,i," ADP 12-6 ) 1/'" find all drops ' ['�' I I I 3/8" _i / 1 I I ADP ADP ADP F F F F 48" 48" 48" 45" Max 45" Max 45" Max 45" Max • Max Max Max 27" Min 27" Min 27" Min 27" Min Manual Appliance) Top of (to Top of (to Top of (to Top of Appliance) Appliance) Appliance) Appliance) Pull Station 48" High ass Mechanical ii . 1 .........A1 4. -...-. :ks 741/4 inguisher Gas Valve FLOWPOINT CHART 1 # Nozzle each ext ,,,f,',' 48 inch 36 inch 16 inch 16 inch 16 inch 16 inch Dump 9 ADP 1 9 Gas Griddle Gas Griddle Gas Fryer Gas Fryer Gas Fryer Gas Fryer Station 4 R 1 8 _ I TOTAL: 17 •—__— Boardwalk Bur er5 CCB: 101067 L K i 9 Valle d& Fire Systems 12282 5cholle Ferry Rd Valley Fire Control 7 Main St. S.E. 10 Model WHDR -600 Tigard, OR AIhany, OR 9'121 7/23/2012 5-31.928.9523 DISCHARGE LINE VOLUME Valley Fire Control LIMITATIONS (WHDR -600) 217 Main St. S.E. Albany, OR 97321 (from Kidde Installation Manual Section 3 -8.4) 541.928.9523 . Calculations by: Cliff Martin Date: July 23, 2012 Job Site: Boardwalk Burgers 12282 Scholls Ferry Rd Tigard, OR Limitations WHDR - 600: Total Discharge Pipe Volume Max (per Cyl): 400 in Maximum Allowable 3/8" Pipe Volume (per Sys): 95 in Calculations: 3/4" Pipe Used Maximum Allowable Total Pipe Volume: 3/4" Pipe in per Total Total Total Total Max Allowable Is System (linear linear foot Volume: Volume: Volume: Discharge Discharge Line within feet) (3/4 ") 3/4" Pipe 1/2" Pipe 3/8" Pipe Line Volume: Volume: 400 in Limits? 6 6.4 38.4 32.85 77.86 149.11 Is 400 > 149.11 - A A 1/2" Pipe Used YES 1/2" Pipe in per Total (linear linear foot Volume: feet) (1/2 ") 1/2" Pipe 3.65 32.85 3/8" Pipe Used Maximum Allowable 3/8" Pipe Volume: 3/8" Pipe in per Total Total 3/8" Max Allowable Is System (linear linear foot Volume: Pipe Line 3/8" Pipe per within feet) (3/8 ") 3/8" Pipe Volume: System: 95 in Limits? 34 2.29 77.86 77.86 Is 95 > 77.86 YES System Falls within Discharge Line Volume Limitations? Yes ❑ No PIPE EQUIVALENT LENGTH Valley Fire Control LIMITATIONS (WHDR -600) 217 Main St. S.E. Albany, OR 97321 (from Kidde Installation Manual Section 3- 8.4.1) 541.928.9523 1.0i3n Calculations by: Cliff Martin Date: July 23, 2012 Job Site: Boardwalk Burgers 12282 Scholls Ferry Rd Tigard, OR Limitations WHDR - 600: Max Equivalent Feel, cylinder to most remote nozzle: 75 ft Max Equivalent Feet, between most remote nozzles: 80 ft Calculations: Cylinder to Most Remote Nozzle (Max: 75 equivalent feet) 3/4" 3/4" 3/4" 3/4" 3/4" 3/4" Pipe 90° 45° Tees Tees to (linear Els Els (Out (on 1/2" 3/4" feet) let) Run) Red Count 6 4 0 1 Multiplier 1 2.1 1.0 4.5 1.4 0.4 Equiv. ft. 6 8.4 0 4.5 1.4 0.8 1/2" 1/2' 1/2" 1/2" 1/2" 1/2" 3/8" 3/8" 3/8" 3/8" 3/8" 3/8" Total Pipe 90° 45° Tees Tees to Pipe 90° 45° Tees Tees to System within (linear Els Els ( (Out (on 3/8" (linear Els Els (Out (on 1/4° Equivalent Feet? Limitations? 1/2" & 3/8" feet) let) Run) Red feet) let) Run) Red Count 9 1 0 0 3 1 8 1 0 0 3 ( 46.9 Multiplier 1 1.5 0.8 3.5 1.1 0.3 1 1.3 0.6 2.7 0.8 0.3 46.9 < 75 Equiv. ft. 9 1.5 0 0 3.3 0.3 8 1 0 0 2.4 0 YES Between Most Remote Nozzle (Max: 80 equivalent feet) 1/2" 1/2" 1/2" 3/4" 1/2" 1/2" 3/8" 3/8" 3/8" 3/8" 3/8" 3/8" Total Pipe 90° to Tees Tees to Pipe 90° 45° Tees Tees to Equivalent System within (linear Els 3/8" (Out (on 3/8" (linear Els Els (Out (on 1/4" feet? Limitations? feet) Red let) Run) Red feet) let) Run) Red Count 9 1 1 1 3 2 21.5 3 0 1 6 0 52.1 Multiplier 1 1.5 0.3 4.5 1.1 0.3 1 1.3 0.6 2.7 0.8 0.3 52.1 < 80 Equiv. ft. 9 1.5 0 4.5 3.3 0.6 21.5 4 0 2.7 4.8 0 YES System Falls within Pipe Equivalent Length Limitations? Eli Yes ❑ No P/N 87- 122000 -001 September 2006 Wet Chemical Fire Suppression System Design, Installation, Operation, and Maintenance Manual oco LISTED LISTED UL EX3559 ULC EX3559/CEX887 L Kidde Fire Systems General Information CHAPTER 1 GENERAL INFORMATION 1 -1 INTRODUCTION The Kidde® Wet Chemical System provides fire protection for commercial kitchen applications such as appliances and ventilation. The Wet Chemical system holds UL and ULC listings as a pre- engineered system. Systems shall be designed and implemented according to the following: • NFPA Standard 17A, "Standard for Wet Chemical Systems ", • NFPA Standard 96, "Standard for Ventilation Control and Fire Protection of Commercial Cooking Operations ", • 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, and CSA. • This Design, Installation, Operation, and Maintenance Manual (DIOM). • 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 300, 1996 Edition, unless otherwise noted, and ULC ORD 1254.6. 1 -2 CLASSIFICATION OF FIRE 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 Wet Chemical system is suited for Class K type of fire. 1 -3 GENERAL CHARACTERISTICS OF THE KIDDE SYSTEM The Kidde System is a wet chemical fire suppression system with one type 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 • Provide a smooth flow throughout the discharge The cylinders are powder- coated, welded mild -steel shell conforming to DOT /TC specification 4BW /4BA construction and NFPA standards. The valve is forged brass with nickel plating. The plating and cylinder coating makes it corrosion resistant. P/N 87- 122000 -001 1 -1 September 2006 • Kidde XVTM Control System Kidde F i re Systems Effective: March 2005 87- 120099 -001 87 -027 FEATURES • Esthetically Pleasing Chrome Plating • Actuates Up to 20 Cylinders • Rugged, Die-Cast Aluminum Body • Up to Four Microswitches • Cylinder or Wall Mount • 24V Electrical Actuation Assembly • Two Discreet Detection Lines • Tamper or Lock Port Between Cover and Backbox • Up to 400 Feet Mechanical Detection Cable • Low Maintenance DESCRIPTION The Kidde XVTM Control System is designed to enhance the quality and performance of Kidde pre - engineered sys- tems for commercial kitchen and industrial applications. De- R ' veloped with the installer in mind, the XV offers several v q : options, allowing field decisions to reduce the "installed cost" Kidde of a system. As a component of Kidde's industrial dry chemi- cal and commercial kitchen systems offering, the XV pro- vides exceptional value, extreme versatility and excellent visibility. The XV ships ready to install. Included are three EMT con- — nectors, a system valve actuator, two microswitches and z Q.. . i two cartridges. It is ready to go with a basic installation pack- N"" NAME age. The Kidde XVControl System is UL Listed with WHDR Sys- tem for commercial kitchen applications and UL Listed, FM approved for industrial applications. n SU PPRESSi Q» sysre APPLICATIONS Applications for the XV Control Head System are multiple 4 N ' • and varied, but typical functions would include: • Commercial kitchens ` n E 9 •x • Automotive paint booths • Industrial open -face spray booths • Hazardous material storage facilities • Liquid flammable storage areas • Marine galleys • Processes involving flammable liquids, such as dip tanks, containment areas, etc. General Information . The system can be activated mechanically from manual release, thermo -bulb links, and fusible links. The system can be tivated electrically with a 24 Vdc compatible alarm control panel that is tested and listed with ac the Kidde XV Contrstem. Both automatic detection and manual release devices are stored on control panels. Refer to Paragraph 2 -2.1.5 for power requirements. Cylinders are activated from tored high - pressure gas. Automatic and manual actuation are available for the Kidde System. Other actuations are available, such as: • Mechanical gas valve closure • Dry contacts for annunciation and electrical shutdowns 1 -4 SYSTEM DESCRIPTION The Kidde Wet Chemical System consists of a supply of wet chemical stored in one or more Cylinder and Valve Assemblies. 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 wet chemical s discharged through agent distribution piping and speciall designed nozzles positioned thr the protected area. ,, .3,.-::::-, ..g]: �z S r ; F : :: fi t•• y f ro.� •.a / k` } • t +3 -gt..3:,,,,P..i.tkeraml, ss':::;ii!!!:i:-:::::,,,,e:, i.:::::::::.:,.: • SR 14::- :: _ 3 X183 ft ` -. k w p :nor J n f : ... eAd' ::: rr rr. 1 r y;•':•'::#:::#:-'-::::::: ::::':;:- >; <:::;;::. « %• ;:::::::;: #: ::.. .:. .: '.o-: ... c::•... Figure 1 -1. Typical Kidder Wet Chemical System September 2006 1-2 P/N 87-122000-001 Wet Chemical iKidde Fire Systems Cylinders Effective: April 2002 K -87 -001 DESCRIPTION Kidde Fire Systems have five different cylinder sizes avail- able: WHDR -125 (1.25 gallon [4.7L]), WDHR -260 (2.6 gal- lon [9.5L]), WHDR -400L (4 gallon [15L]), WHDR -400S (4 gallon short [15L]) and WHDR -600 (6 gallon [22.7L]). Each cylinder is pressurized with nitrogen or air to 175 PSIG (1205 kPa), at 70 °F (21°C). -: 011 i RE -IF • P . ' , I 7'-'----.4\i RI I + i I ' 1 -. 4 Gallon 6 Gallon 4 Gallon 2.6 Gallon 1.25 Gallon (15L) (22.7L) Short (9.5L) (4.714 (15L) Overall Height Height to with Overall Height Charged Mechanical, with Pressure Weight Diameter Center of Overall Height Tandem or Operated Cylinder Size Part Number Discharge Port Electric Control Control Head Head lb. kg in. cm in. cm in. cm in. cm in. cm WHDR 125 87.120001 -001 28.5 12.9 7 -5/8 19.4 14 35.6 15/3/8 39.0 21 53.3 16/3/4 42.5 1.25 G (4.7 L) WHDR -260 87- 120002 -001 53.0 24.0 9 23.0 19 -5/8 49.8 21 53.5 26 -5/8 67.6 22 -3i8 61.3 2.6 G (9.5 L) WHDR -400S 87- 120003 -001 80.0 36.3 12 30.5 17 -5i8 44.8 19 48.3 24 -5/8 62.5 20 -3/8 51.7 4 G (15 L) WHDR-400L 87- 120004 -001 88.0 40.0 9 23.0 33 -3/4 85.7 35 -1/8 89.2 40 -3/4 103.5 36 -1/2 92.7 4 G (15 L) WHDR -600 87.120005 -001 110.0 50.0 10 25.4 33-7/8 86.0 35 -1/4 89.5 40 -7/8 104.0 36 -5/8 93.0 6 G (22.7 L) This literature is provided for informational purposes only. KIDDE-FENWAL,INC. assumes no Kldde Fire Systems responsibility for the product's suitability for a particular application. The product must be prop - 400 Main Street erly applied to work correctly. Ashland, MA 01721 USA If you need more information on this product, or if you have a particular problem or question, T.I. IU1A\ f2S1.127AM System Design 3 -4 APPLIANCES Table 3 -1 lists the various appliances and nozzle type used to protect that appliance. Table 3 -1. Appliance References Appliance Reference Nozzle Flow Number Deep Vat Fryer Single Vat Deep Fryer with Drip Boards Paragraph 3 -4.1 F 2 18 -1/2 in. x 24 -1/2 in. Deep Fat Fryer Paragraph 3 -4.2 F 2 Split Vat Deep Fat Fryer Paragraph 3 -4.3 F 2 14 in. x 14 in. (356 mm x 356 mm) Deep Fat Fryer Paragraph 3 -4.4 F 2 Single Vat Deep Fryer with Drip Boards less than 1 in. Paragraph 3 -4.5 F 2 (25 mm) Split Vat Deep Fat Fryer (Low Proximity) Paragraph 3 -4.6 ADP 1 Deep Fat Fryer (Low Proximity) Paragraph 3 -4.7 LPF 2 Krispy Kreme Model 270 d/h Doughnut Fryer Paragraph 3 -4.8 ADP 1 Ranges Four - Burner Range Paragraph 3 -4.9 R 1 Two - Burner Range Paragraph 3 -4.10 R 1 Single Burner Range Paragraph 3 -4.11 R 1 Four - Burner Range Paragraph 3 -4.12 LPR 1 I Broilers Upright Broilers Paragraph 3 -4.13 ADP 1 Charbroilers (Lava, Pumice, Ceramic, or Synthetic Paragraph 3 -4.14 F 2 Rock) Gas Radiant /Electric Charbroiler Paragraph 3 -4.15 GRW 1 Natural or Mesquite Charcoal Charbroiler Paragraph 3 -4.16 ADP 1 Mesquite Logs Charbroiler Paragraph 3 -4.17 DM 3 Chain Broiler (Closed -Top) Paragraph 3 -4.18 ADP 1 Chain Broiler (Open -Top) Paragraph 3 -4.19 ADP 1 Griddle - Flat Cooking Surface Paragraph 3 -4.20 ADP 1 Wok Paragraph 3 -4.21 GRW 1 Tilt Skillets (Braising Pans) Paragraph 3 -4.22 F 2 P/N 87- 122000 -001 3 -5 September 2006 System Design 3 -4.1 Single Vat Deep Fat Fryer With Drip Boards Table 3 -2. F Nozzle Coverage Area Items Parameters Maximum Hazard Area 18 in. x 18 in. (457 mm x 457 mm) Maximum Appliance Area (with drip board) 18 in. x 23 in. (457 mm x 584 mm) Nozzle Aim Midpoint of hazard area Nozzle Location (from top of appliance at an angle of 45 or 27 in. (686 mm) Min. more from the horizontal) 45 in. (1143 mm) Max. AN F NOZZLE MAY BE LOCATED ANYWHERE WITHIN THE GRID 45 in. (1143 mm) AN F NOZZLE MAY BE MAX. DIAGONAL FROM LOCATED ANYWHERE —�� ►�� _� AIM POINT WITHIN THE GRID r II *� 45 in. (1143 mm) 45 in. (1143 mm) 1/-� . MAX, MAX 411 411111 NOZZLE LOCATION = F� 45" OR MORE FROM HORIZONTAL , , ■y • AIMPOINT: � � `V e vy - �� MIDPOINT OF •� m m e 141204 27 in. HAZARD AREA `� 4 (686 mm) MIN %milr» *\\ 18 in. 11 \ (457 mmi 23 in. AIM POINT: MAX. (584 mm) MIDPOINT OF MAX HAZARD AREA DRIP BOARD i HAZARD AREA DRIP BOARD • l k 18 in. (457 mm) • 18 in. (457 mm) MAX. MAX. y 23 in. (584 mm) MAX. APPLIANCE AREA FRONT VIEW SIDE VIEW Figure 3 -2. Single Vat Deep Fat Fryer September 2006 3 -6 P/N 87- 122000 -001 System Design 3 -4.20 Griddle — Flat Cooking Surface (With or without Raised Ribs) Table 3 -26. ADP Nozzle Coverage Area Items Parameters Maximum Hazard Area 30 in. x 42 in. (762 mm x 1067 mm) Nozzle Aim At a point 3 in. (76 mm) from the midpoint of hazard area Nozzle Location — any point on the perimeter of 13 in. (330 mm) Min. appliance 48 in. (1219 mm) Max. Note: Positioning the nozzle directly over the appliance is not permitted. 1 AIIIL 48 in. - (1219 mm) MAX. 1 Wr I in. �� I (762 30 mm) �� 13 in. MAX. (330 mm) / / M V TOP OF APPLIANCE AIM POINT: 3 in. (76 mm) RADIUS FROM i 42 in. THE MIDPOINT OF HAZARD AREA (1067 mm) MAX. Figure 3 -22. Griddle - Flat Cooking Surface P/N 87- 122000 -001 3 -27 September 2006 System Design 3 -6 VENTILATION 3 -6.1 Plenums Table 3 -29. Plenum Protection Items Parameters ADP Nozzle No Filter 1 10 ft. x 4 ft. (3 m x 1.2 m) Max. 1 - located at one end of the plenum "V" Filter 10 ft. x 4 ft. (3 m x 1.2 m) 1 - located at one end of the plenum 20 ft. x 4 ft. (6 m x 1.2 m) 2 - located at end of plenum pointing inwards Single Bank Filter 10 ft. x 4 ft. (3 m x 1.2 m) 1 - located at one end of the plenum 20 ft. x 4 ft. (6 m x 1.2 m) 2 - located at end of plenum pointing inwards 1 When no filters are present, the nozzle protecting the plenum is used to discharge the wet chem- ical on the underside of the hood. In this case, the hood may not exceed a length of 10 ft. (3 m) or a width of 4 ft (1.2 m). Longer plenums may be similarly protected with a single ADP nozzle being used for each 10 ft. (3.0 m) of plenum length and each 4 ft. (1.2 m) of plenum width. ADP nozzles may be used in combinations (see Figure 3 -28). Multiples may be installed facing in the same direction, and /or at the ends of the plenum pointing in. Each nozzle shall provide a maximum of 10 ft. (3 m) of coverage. ADP nozzles must be centrally located in the plenum with their discharge directed along the length of the plenum and located in relation to the filters as shown in Figure 3 -28. P/N 87- 122000 -001 3 -33 September 2006 System Design 4ft. NOZZLE (1.2 m) 4h -,-.? ) f ■■,- DUCT ,/ �� 4ft. DUCT s 4ft. ''''-'7 A. '� (1.2 m) rF �, NOZZLE ;;. 1110 A 7 7W1 W I. V:+3 ;0 r44 10 ft. <`� 20 ft. (3 m) (6 m) 4ft. (1.2 m)) NOZZLE "V" FILTER BANK COVERAGE "V" FILTER BANK COVERAGE 10 ft. (3 m) PLENUM 20 ft. (6 m) PLENUM • ��c NOZZLE 3/4 H - �,P H f "V" FILTER BANK COVERAGE (END VIEW) A 4 ft. NOZZLE (1.2 m) DUCT ,/ 4ft. DUCT ,_ (1.2 m} 4ft. (1.2 m) / 4; : 's / 41 NOZZLE o lt! ' ;,. '..:?;•; ' '.'f,- .././.7 10 ft. (3 m) 11%4 V( 1/4;:; 6 20 ft. m) � ft. (1.2 mc,/ NOZZLE SINGLE FILTER BANK COVERAGE SINGLE FILTER BANK COVERAGE 10 ft. (3 m) PLENUM 20 ft. (6 m) PLENUM -4 wk - 1 314 Ha _ 4 - I► H w SINGLE BANK FILTER COVERAGE (END VIEW) Figure 3 -28. ADP Protection Nozzle, P/N 87- 120011 -001 September 2006 3 -34 P/N 87- 122000 -001 System Design 3 -6.1.1 DUCTS The ADP nozzle, P/N 87- 120011 -001, is used for protection of the exhaust ductwork. The duct cross section can be any shape, not including obstructions (i.e., round, square, or rectangular) and the duct itself can be of unlimited length. In accordance with NFPA 96, the exhaust fan should be left running at the time of system 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. A damper, if present, should be left open at system discharge. However, if the damper is closed, the system designer must insure that additional nozzles are required. 3- 6.1.1.1 Protection of Ducts 0 to 50 inches in Perimeter One ADP nozzle, P/N 87- 120011 -001, is required for protection of a duct with a perimeter up to 50- inches (refer to Figure 3 -29). Length of duct is unlimited. The nozzle is located at the geometric center of the cross - sectional area that it is protecting, and is located in the duct within six inches of the entrance. Note: All Kidde systems are listed by UL for use with the exhaust fan either on or off when the system is discharged. DUCT HOOD DUCT PERIMETER UP TO AND INCLUDING 50 in. (1270 mm) 11.78 in. (300 mm) 15.91 In MAX. DIAGONAL (404 mm) M „ �J 12.5 in. 1 II 11.78 In. (300 mm) (318 mm) ^ MAX DIAGONAL M „+ SQUARE DUCT RECTANGULAR DUCT 2 "A” + 2 "13" = 65 in. (1651 mm) ROUND DUCT • 4. OF VERTICAL DUCT Q ADP NOZZLE I i VERTICAL/HORIZONTAL DUCT �— AIM POINT ± i 1 0. 61n.(0- 152mm) ! E r ADP NOZZLE i DUCT ENTR..NCE • 4. OF HORIZONTAL DUCT 2 to 4 In. (51 to 102 mm) I NOZZLE TIP to DUCT HIP Figure 3 -29. Duct Protection Using Single ADP Nozzle, P/N 87- 120011 -001 P/N 87- 122000 -001 3 -35 September 2006 System Design 3- 6.1.1.2 Ducts 50 to 100 inches in Perimeter Two ADP nozzles, P/N 87- 120011 -001, pointing in the same direction are required for protection of ducts with perimeters greater than 50 inches and less than or equal to 100 inches. Ducts can be of unlimited length (refer to Figure 3 -30). For other option of ducts up to 75 perimeter inches (See Figure 3 -32). Note: All Kidde systems are listed by UL for use with the exhaust fan either on or off when the system is discharged. DUCT HOOD t X 1 �/ t/ I Yc %j MAX. DIAMETER 31.83 in. (809 mm) NOZZLES TO BE ALONG ONE 25 in. (635 mm) CENTERLINE AT THE 1/4 POINTS. MAX. SIDE pi, E � I • NOZZLES TO BE 0 - 6 in. (0-152 mm) UP FROM ENTRANCE OF VERTICAL DUCT MAX. DIAGONAL 11.78 In. (300 mm) MAX. DIAGONAL TYP. (2) ADP NOZZLES 11.78 in. (300 mm) SQUARE RECTANGULAR ROUND C. r -- ADP NOZZLE 0 6 in. 152 I to o mm I j k DUCT EN TRANCE I OF VERTICAL DUCT — — - I OF HORIZONTAL DUCT 2 - 4 in. (51 mm -102 mm) ADP NOZZLE AIM POINT NOZZLE TIP TO DUCT HIP VERTICAL/HORIZONTAL DUCT Figure 3 -30. Duct Protection Using Two ADP Nozzles, P/N 87- 120011 -001 September 2006 3 -36 P/N 87- 122000 -001 System Design 3 -7 CYLINDER FLOWS After finding how many nozzles of each type are required for a system, the sum of all the nozzle flow numbers is used to determine the number and size of the cylinders required, in accordance with the cylinder flow number limits given below. Table 3 -30. Cylinder Flow Number Limits Maximum Flow Numbers of Cylinders Cylinder Flow Number WHDR- 125 /WHDR -EU 4 — Single Cylinder Only (cannot manifold) WHDR- 260 /WHDR -10EU 8 — Single Cylinder Systems Only (F) WHDR- 400S / WHDR -400M /WHDR - S15EU /WHDR - M 15 EU Can manifold up to 4 cylinders 1 Cylinder 12 2 Cylinders 24 3 Cylinders 36 4 Cylinders 48 WHDR- 600 /WHDR -23EU Can manifold up to 2 cylinders 1 Cylinder 18 2 Cylinders 36 1 Only like cylinders can be manifolded (i.e., four WHDR -400; two WHDR -600) September 2006 3 -42 P/N 87- 122000 -001 Wet Chemical fKiddeFi re Systems Mechanical, Remote Manual Release Effective: April 2002 K -87 -016 P /N: 875572 DESCRIPTION The Mechanical, Remote Manual Release is provided as a means of manuall actuating the system from a remote lo- cation. The Mechanical, Remote Manual Release is used only with the Mechanical or Electric Control Heads and can- not be used with the KRS -50 Control Box. the Mechanical, Remote Manual Release is attached to the primary control head with 1/16" cable. To actuate the system at the Me- chanical, 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" above or below the pull station. A second manual release may be installed with the use of the tee pulle Kidde® P/N 843791. fo • 40) sioNvo C f 4n � d 3wid \ fteueop pr- 4(4, This literature is provided for informational purposes only, KIDDE- FENWAL,INC. assumes no Kidde Fire Systems responsibility for the product's suitability for a particular application. The product must be prop- 400 Main Street arty applied to work correctly. Ashland, MA 01721 USA If you need more information on this product, or if you have a particular problem or question, rte. MARI AQ 4_7AfV1 Wet Chemical fKiddeF i re Systems KRS -50 Detector Effective: April 2002 K-87 -015 P /N: 60- 120061 -001 DESCRIPTION The KRS -50 Detector consists of a plated steel bracket 11 -3/4" (29.8 cm) long, two cable crimps and 2 "S" Hooks to connect the fusible links to the detection system cable. This detector can be used with the KRS -50 Control Box, the mechanical control head, or the electrical control head. This detector can be used with either a fusible link, glass bulb, or quartzoid bulb. 113/4" ►` 112- EMT 112" EMT CONNECTOR LOCKNUT LOCKNUT + CONNECTOR (Not Supplied) "S" ! �4--3" "S" HOOKS (No! Supplied) 4=3=C1afele./3=1:4- t ]1=1Y 1/16- CABLE :11 11 1116" CABLE TO ANOTHER DETECTOR ACTUATING DEVICE CRIMP TYPE FUSIBLE CRIMP TYPE OR REMOTE MANUAL CABLE CONNECTOR LINK CABLE CONNECTOR CONTROL This literature is provided for informational purposes only. KIDDE-FENWAL,INC. assumes no Kidde Fire Systems responsibility for the products suitability for a particular application. The product must be prop- 400 Main Street erly applied to work correctly. Ashland, MA 01721 USA If you need more information on this product, or if you have a particular problem or question, TM. fr;AS:l AA1_7fW1 Wet Chemical iKiddeFi re Systems Nozzles Effective: April 2002 K-87 -011 DESCRIPTION One -Place Two-Piece ® N ozzle Type Nozzle, Code Nozzle, Code umb There are essentially five types of Nozzles in the Kiddee Number Number Number systems with offerings in a one -piece and two -piece body configuration. An Appliance /Duct/Plenum Nozzle or ADP ADP Nome 87- 120011 -001 96981 1 Nozzle; a Fryer Nozzle or F Nozzle; a Duct/Mesquite Nozzle or DM Nozzle; a Range Nozzle or R Nozzle; and a Gas GRW Nozzle 87-120013-001 96506 1 Radiant/Wok Nozzle or GRW Nozzle. Each nozzle is pro- vided with a special foil seal over the discharge orifice to prevent grease from depositing in the orifice and plugging R Nozzle 87- 120014-001 96508 1 the nozzle. Each one -piece nozzle has a 3/8" (1.0 cm) NPT F Nozzle (or female connection while each two -piece nozzle has a 3/8" Ply Nom* 87-120012 -001 96982 2 (1.0 cm) NPT male connection. All nozzles are equipped with a stainless steal internal strainer and incorporate DM Nozzle 87- 120015 - 001 96980 3 chrome plated brass bodies. Each nozzle is identified by the nozzle type stamped on the body. Each nozzle has a ADP-S Nozzle N/A 96979 1 flow number which is a measure of its discharge or flow rate. The nozzle types, code number a flow numbers are given in the Table. In addition swivel adapter, P/N 87- 120021 -001 may be used in conjunction with any one -piece nozzle. The ADP -S swivel nozzle may be used interchangeably only with two -piece ADP nozzle. FOIL DISK / DISK CAP 2.060 Sri 375 NPT I - i NOZZLE 111111 - I - (INTERNAL THREAD) DESIGNATION - i m STRAINER .375 NPT .875 HEX r 1.000 HEX t_ 318'NPT taw FOIL SEAL cur (WASHER TOWARDS • NOZ2LE WdY) DUNK CAP * -4,44�4I UPPER Boor Ir, 1 �I mow NOZZLE ,- OSSIONATODN II NSL) O N ru m 2ikAIr k L IMAM err (1.0 ern) NAT MALE ..,.s ...r tOvirER EDDY STRAINER This literature is provided for informational purposes only. 1000E- FENWAL,INC. assumes no KIdde Fire Systems responsibility for the product's suitability for a particular application. The product must be prop- 400 Main Street erly applied to work correctly. Ashland, MA 01721 USA If you need more information on this product, or if you have a particular problem or question, Tel• MAR {1.01_9MV1 System Design 3 -8 PIPING REQUIREMENTS Kidde systems do not require balanced piping to achieve proper distribution of wet chemical to all nozzles. Balanced piping is not necessary because a liquid has no difficulty in turning corners or changing directions. Kidde nozzles come equipped with permanent predetermined orifices. This means that the liquid will be delivered in the exact quantities necessary to the duct, plenum and appliance hazards as required. All pipe shall be schedule 40 (standard weight) black steel. Pipe may be chrome plated. Galvanized pipe shall not be used. All pipe and fittings must be made tight without pipe dope or thread sealant. Pipe fittings shall be standard weight steel, cast iron, malleable iron or ductile iron. Galvanized fittings shall not be used. Branch line connection and individual nozzle connections may be made by using either the outlet or the run of a tee. 3 -8.1 Stainless Steel Tubing and Fittings Stainless steel tubing may be used on all Kidde systems. Fittings may be stainless steel compression or stainless steel flare types. Bending of tubing using mandrels is permissible. 3 -8.2 Pipe Sizing Pipe sizes are determined by the total number of flow numbers running through a particular piece of pipe. This is the flow demand for that portion of the system. Note: It is not permissible to drop pipe diameters below the required value. For example, using 1/2 -inch pipe to flow 18 flow numbers is not permissible. However, increasing pipe diameter is acceptable (i.e., using 1 -inch pipe to flow 18 flow numbers) providing the system complies with internal pipe volume limitations. Table 3 -31. Flow Number Range and Pipe Type Flow Number Range Minimum Pipe Size .035 Wall Stainless Steel Tubing Size 1 — 2 1/4 -inch 3/8 -inch 1 — 8 3/8 -inch N/A 1 — 12 1/2 -inch 5/8 -inch 13 — 24 3/4 -inch 7/8 -inch 25 — 48 1 -inch 1 -inch 3 -8.3 General Rules • A maximum of 100 equivalent ft. (30.5 m) but not more than 40 linear ft. (12.2 m) of 1/4- in. pipe may be used from each branch line. • The highest point of the system shall not exceed 12 ft. (3.7 m) above the cylinder outlet. • The vertical rise of a branch line above the supply line shall not exceed a maximum of 4 ft. (1.2 m). • Maximum discharge pipe volume limitations shall not be exceeded. • Maximum equivalent length limitations shall not be exceeded. • Maximum flow points for a given pipe shall not be exceeded. • There are to be no low points or "traps" present in discharge piping. P/N 87- 122000 -001 3 -43 September 2006 System Design 3 -8.4 Discharge Line Volume Limitations There is a discharge line volume limitation in Kidde systems. Discharge line volume is the total volume of all pipe, tubing, and fittings used in singular or multiple cylinder systems. To measure discharge line volume, it is necessary to measure all pipe length from the center of one fitting to the center of the next fitting and multiply by the volume - per -foot factor given in Table 3 -32 and Table 3 -33. Table 3 -32. Piping Discharge Line Volume Size Piping Discharge Line Volume 1/4 in. 1.25 in. per linear foot - ( 67.2 cm per linear meter) 3/8 in. 2.29 in. per linear foot - ( 123.1 cm per linear meter) 1/2 in. 3.65 in. per linear foot- (196.2 cm per linear meter) 3/4 in. 6.40 in. per linear foot - ( 344.1 cm per linear meter) 1 in. 10.37 in. per linear foot - ( 557.5 cm per linear meter) Table 3 -33. Tubing Discharge Line Volume Size Piping Discharge Line Volume 3/8 in. 0.88 in. per linear foot - ( 47.3 cm per linear meter) 5/8 in. 2.90 in. per linear foot - ( 155.9 cm per linear meter) 7/8 in. 6.11 in. per linear foot - ( 328.5 cm per linear meter) I 1 in. 8.15 in. per linear foot - ( 438.2 cm per linear meter) i Table 3 -34. Maximum Allowable 3/8 -inch Pipe Volume Total Discharge Pipe Total Discharge Tubing Max. Allowable 3/8 -inch Cylinder Size Volume Max. per Max. per Cylinder Pipe Volume per System Cylinder WHDR -125 (4.7 L) 72 in. (1180 cm 3 ) 1 51 in. (836 cm 3 ) 1 72 in. (1180 cm 3 ) WHDR -260 (9.5 L) 139 in. (2278 cm 3 ) 1 99 in. (1622 cm 3 ) 1 95 in. (1557 cm 3 ) WHDR -400 (15 L) 400 in. (6555 cm 3 ) 282 in. (4621 cm 3 ) 1 95 in. (1557 cm 3 ) WHDR -600 (22.7 L) 400 in. (6555 cm 3 ) 282 in. (4621 cm 1 95 in. (1557 cm 3 ) 1 Cannot Manifold Note: The maximum allowable 3/8 -inch pipe volume is not in addition to the total discharge line volume, but represents a portion of the total volume which may be dedicated to 3/8 -inch pipe alone. September 2006 3 -44 P/N 87- 122000 -001 System Design 3 -8.4.1 EQUIVALENT LENGTH LIMITATIONS Equivalent feet is defined as the actual measured length of discharge line plus the equivalent length for each fitting in the line as obtained from the data given in Table 3 -35 and Table 3 -36. Table 3 -35. Pipe Fitting Equivalent Length Equivalent Length Pipe Fittings 1/4 in. 3/8 in. 1/2 in. 3/4 in. 1 in. (6.3 mm) (9.5 mm) (13 mm) (19 mm) (25.4 mm) 90° Elbow 0.9 ft. 1.3 ft. 1.5 ft. 2.1 ft. 2.7 ft. (.27 m) (.40 m) (.46 m) (.64 m) (.82 m) 45° Elbow 0.4 ft. 0.6 ft. 0.8 ft. 1.0 ft. 1.3 ft. (.12 m) (.18 m) (.24 m) (.30 m) (.40 m) Tee (Outlet) 2.0 ft. 2.7 ft. 3.5 ft. 4.5 ft. 5.8 ft. (.61 m) (.82 m) (1.07 m) (1.37 m) (1.77 m) Tee (Run) 0.5 ft. 0.8 ft. 1.1 ft. 1.4 ft. 1.7 ft. (.15 m) (.24 m) (.34 m) (.43 m) (.52 m) Red. (1/2 in. to 1/4 in.) 0.3 ft. - - - - (13 mm to 6.3 mm) (.09 m) Red. (1/2 in. to 3/8 in.) - 0.3 ft. - - - (13 mm to 9.5 mm) (.09 m) Red. (3/4 in. to 1/2 in.) - - 0.4 ft. - - (19 mm to 13 mm) (.12 m) Red. (1 in. to 3/4 in.) - - - 0.5 ft. - (25.4 mm to 19 mm) (.15 m) Equivalent feet is measured from the cylinder (the farthest cylinder in a manifold) to the most remote nozzle. Equivalent feet is also measured between the two most remote nozzles. Equivalent feet is measured only along that branch with the most equivalent feet. Table 3 -36 lists the maximum equivalent lengths for each cylinder size. Table 3 -36. Tube Fitting Equivalent Length Equivalent Length Tube Fittings 3/8 in. 5/8 in. 7/8 in. 1 in. (9.5 mm) (16 mm) (22 mm) (25.4 mm) 90° Elbow 1.5 ft. 2.5 ft. 4.0 ft. 4.5 ft. (.46 m) (.76 m) (1.22 m) (1.37 m) 90° Bend 0.5 ft. 1.0 ft. 1.0 ft. 1.0 ft. (.15 m) (.30 m) (.30 m) (.30 m) 45° Elbow 0.8 ft. 1.3 ft. 2.0 ft. 2.3 ft. (.24 m) (.40 m) (.61 m) (.70 m) 45° Bend 0.5 ft. 0.5 ft. 0.5 ft. 0.5 ft. (.15 m) (.15 m) (.15 m) (.15 m) Tee (Outlet) 1.5 ft. 2.5 ft. 4.0 ft. 4.5 ft. (.46 m) (.76 m) (1.2 m) (1.37 m) Tee (Run) 0.5 ft. 0.5 ft. 1.0 ft. 1.0 ft. (.15 m) (.15 m) (.30 m) (.30 m) P/N 87- 122000 -001 3 -45 September 2006 System Design 12 in. (.3 m) I t kI II II I 1/2 in. (13 mm) PIPE 90° ELBOW 90° ELBOW Figure 3 - 37. 1/2 in. (13 mm) Piping with 90° Elbow Equivalent Feet (from Table 3 -35) 90° 1/2 in. (13 mm) Elbow: 1.5 eq. ft. 90° 1/2 in. (13 mm) Elbow: 1.5 eq. ft. 1.0 ft. of 1/2 in. (13 mm) Pipe 4.0 eq. ft. TOTAL A tee can be considered one of two ways, depending on orientation. Figure 3 -38 shows the different orientations that can occur. The equivalent feet for a reducing tee is determined by the larger size of the tee. Refer to Table 3 -35 or Table 3 -36 for equivalent feet. EXAMPLE TO THE MOST REMOTE NOZZLE TO THE MOST TO A NOZZLE THAT IS ON EITHER SIDE REMOTE NOZZLE NOT THE MOST REMOTE • CYLOINDr CFROM DER r FROM TO A NOZZLE THAT IS TO THE MOST CYLINDER NOT THE MOST REMOTE REMOTE NOZZLE TEE ON THE BULL (OUTLET) TEE ON THE RUN CO NE DER D A TEE ON T Figure 3 -38. Tees Table 3 -37. Remote Nozzles Cylinder Size Equivalent Feet from Cylinder to Equivalent Feet Between Most Most Remote Nozzle Remote Nozzles WHDR -125 39 ft. (11.9 m) 33 ft. (10.1 m) WHDR -260 63.4 ft. (14.3 m) 43.7 ft. (13.3 m) WHDR -400 132 ft. (40.2 m) 95 ft. (29 m) WHDR -600 75 ft. (22.9 m) 80 ft. (24.4 m) 2 The maximums listed in Table 3 -37 apply to manifold systems as well as single cylinder systems. September 2006 3 -46 P/N 87- 122000 -001 System Design 3 -8.4.4 DETECTOR Detectors using Kidde approved fusible link detectors are required over cooking appliances and in the ducts of kitchen cooking equipment per NFPA 17A and NFPA 96. For protection of the duct, a detector must be centered either flush with the hood -duct opening or in the duct but not more than 12 inches (305 mm) downstream from where the duct is connected to the hood. When mounted in the duct, the detector should be oriented so that the bracket does not shield the link from the hot air stream, and the fusible link is centered in the duct. Maximum dimension per detector is 54 in. x 54 in. (1372 mm x 1372 mm). Appliances having a surface area larger than 54 in. x 54 in. (1372 mm x 1372 mm) require additional detectors. When a cooking appliance is under the hood -duct opening, the appliance is protected by the detector mounted at the hood -duct opening or 12 in. (305 mm) maximum into the duct. An additional detector is not needed to protect that appliance. A temperature survey must be performed at all locations where detectors will be installed. The survey must be conducted under maximum cooking or appliance cleaning conditions in order to determine the optimum exhaust air flow locations and to record the peak temperatures that are expected to occur. Once the survey is completed: • Select the lowest temperature rated detector that can be used. • Make sure the maximum exposure temperature of the link exceeds the maximum temperature obtained from the survey. • Make sure links are located in the exhaust air flow, not in dead air spaces. This will provide the fastest detector response. Note: Care must be taken not to install links directly in the exhaust flow of appliance flue gas. 12 in. (305 mm) MAX. IF APPLIANCE IS UNDER HOOD DUCT OPENING X -1--X- I - 1 -X1 3/4 in. F r i I x 1 1 X 1 � I X l 3/4 in- - I l- -1-1 �' I 3/4 in. (19 mm) DISCHARGE PIPING LIQUID SEAL ADAPTERS I STOVE I IGRIDDLEI I FRYER II STOVE II FRYER I I STOVE I ICHARBROILER 1 I GRIDDLE IF24 in.+Il♦24 in.♦II4-24 in.*II4-24 in.-II4-18 in.-01 I4-30 in. -,.I If-- 48 in. --}I UPRIGHT 14 56 in. —+I (610 mm) (610 mm) (610 mm) (610 mm) (457 mm) (762 mm) (1219 mm) BROILER (1422 mm) 14- 34 in.-01 (864 mm) Figure 3 -40. Positioning Detectors September 2006 3 -50 P/N 87- 122000 -001 TECHNICAL DATA VEHICLE SPRAY BOOTH ACTUATION Table 1. Mechanical Cable Parameters Table 4. Vehicle Spray Booth System Pressure Actuation Max. Total Max.* of Maximum Maximum Maximum Max, s of Length of 1At" Maximum Cable Line Cable Corner Detectors Tee fin Extinguishing o.d. x .031° switc u es (P Minimum Length Pulleys Pulleys g System Will High Tubing Temperature Cylinders Pressure Actuation �ILne Detection and 200 ft Tubing, Manual Release- 50 40 — (61 m) 0°F 140 R 5 R to-trip Line 1 20 2 (- 17.8°C) (43 m) (1.5 m) Detection and 200 ft 0°F 160 ft. 5 ft Manual Release- (61 m) 50 40 — (-17.8°C) 8°C) 15 (49 m) 2 (1.5 m) to-trip Line 2 Pull-to -trip Remote 100 ft 0°F 200 it- 5 ft. 2 30 — 1 • (- 17.8°C) 8 (61 m) (1.5 m) Manual Release (30 m) - - Mechanical Gas 100 ft 30 _ 1 ° ORDERING INFORMATION Valve Release (30 m) • Tee pulley counts as two corner pulleys. Maximum is from Control System, Part Number Description Weight through tee pulley, to each device. WHDR SYSTEM PRESSURE ACTUATION 87- 120099 -001 XVCorltrol System includes: 16 b. Table 2. WHDR System Pressure Actuation 1 ea. 87- 120042-001 System Valve Actuator Max. Total 1 ea. 87- 120043-001 System Cartridge Max. s of Length of 114" Pressure # of fin Extinguishing o.d. x .031" Swch P Minimum 1 ea. 87 - 120044 Test Cartridge Operating Temperature Cylinders sd Pressure 838) Tubing g 1 ea. 87 - 120058 - 001 EMT Connector Kit Tubing Actuation ILne 0°F 106 ft 5 E 2 ea. 87 120039 Microswitch Kit ( 17.8°C) 12 (32 m) 2 (1.5 m) 87 120042 System Valve Actuator 2 b. 0°F 91 11. 2 5 ft. ( (28 m) (1.5 m) 87- 120043 -001 System Cartridge 1 b. IND SYSTEM PRESSURE ACTUATION High Pressure Hose for Table 3. IND System Pressure Actuation 87-120045-001 Cylinder Mount 1 b. Max. Total Max. # or 87- 120044-001 Test Cartridge 1 b. Max. s of Length of 1/4" Operating Extinguishing Minimum o.d. x .031" Switches (P/N "�"" 87- 120058 -001 EMT Connector Kit 1 b. e+++p 18SS3a i System Wall High Tubing Temperature Cylinders Pressure Actuation Tubing, 87- 120039 -001 Microswitch Kit (SPDT) 1 b. -40°F 14 16611. t -40°F 2 5 1 ( (51 m) (1.5 m) 83- 100034-001 Electric Actuator Kit 2 b. (C) 20 (37 m) 2 (1 s m) 87-120046-001 Valve Rebuild Kit 1 b. 87- 120047-001 Microswitch kit, SPDT 0.1 b. 83- 100035-001 Actuation Delay 4 b. WHDR Systems designed and installed according to manual P/N 87- 122000 -001. IND Systems designed and installed according to manual P/N 220423. Vehicle Spray Booth Systems designed and installed ac- cording to manual P/N 83- 100036 -001. Kidde XV is a trademark of Kidde - Fenwal, Inc. This literature is provided for Informational purposes only. KIDDE - FENWAL, INC. assumes no responsibility for the product's suitability for a particular application. The product must be prop Kidde Fire Systems erly applied to work correctly. It 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 400 Main Street Wet Chemical fKiddeF i re Systems Fusible Link Housing Kit Effective: April 2002 K -87 -012 P /N: 804548 DESCRIPTION The maximum exposure temperature is the maximum am- The Fusible Link Housing Kit consists of a fusible link hous- bient air temperature in which a fusible link may be installed. ing. Two 1/2" EMT connectors, a supply of cable crimp The maximum air temperature at the point of link tempera - sleeves and an "5" hook to attach the fusible link to the ture shown in the table. 1/16" cable leading to the control head. Note: Detectors and links on this page cannot be used in Fusible links are used in conjunction with the fusible link conjunction with the KRS -50 control box. These de- housing kit. The fusible links are held together with a low tectors and links must be used with the following melting alloy which melts at a predetermined temperature, control head part numbers: 486607, 899063, allowing two halves of the link to separate. 899176, 899175 and 899082. There are two temperature designations which apply to both Max. Load Rating fusible links and quartzoid bulb links. One temperature is Pmt Number Fusible Link Exposure called the rating temperature and the other is called the Rating Temperature mm. max. maximum exposure temperature. The rating temperature, which is stamped on the fusible 282661 165 °F 100 °F (38°C) 10 b. 40 lb. link, is the temperature at which the link will separate when 282662 212 °F 150°F (65°C) 10 b. 40 lb. new. However, continual exposure to cycling ambient tern- peratures may cause a degradation of the link over time. 282664 360 °F 300°F (149°C) 10 b. 40 lb. Therefore, the fusible links must be replaced semiannually with a new link having the proper temperature rating. 282666 500 °F 440 °F (226°C) 10 b. 40 lb. ADAPTER BST EMT R BRACKET . ,," EMT i CABLE TO MECHANICAL CONTROL HEAD FROM OTHER 1 4 + - x • DETECTORS CRit� aLEEVE FU$ LE $ OOK LAST DETECTOR IN SER ES EMT ADAPTER \ BRACKET 1.15 EMT TO MECHANICAL CONTROL HEAD OR _ r , ' °TER DETECTORS �_ aTAwLESs STEEL CABLE t CRerP SLEEVE t t NOBLE LINK SHOOK . ) 0 1=&11211111011.1 • This literature is provided for informational purposes only. KIDDE-FENWAL,INC. assumes no Kidde Flre Systems responsibility for the product's suitability for a particular application. The product must be prop- 400 Main Street erly applied to work correctly. Ashland, MA 01721 USA if you need more information on this product, or if you have a particular problem or question, T mew RR _WW1 Component Description 2 -2.3.8 TEE PULLEY, P/N 843791 (XV ONLY) The Tee Pulley is required when more than one Remote Manual Release (P /N 875572) or two (2) gas valves are used in the same system. TO REMOTE MANUAL RELEASE TO REMOTE 4 -5/16 in. MANUAL RELEASE IP 4;46..._ r _ ----A-----_ 'Ntmb----v, ii_i t, /1 (110.2 mm) ■ 4 -1/2 in. (114 mm) I) / t I • SINGLE OUTLET END Figure 2 -33. Tee Pulley, P/N 843791 September 2006 2 -30 P/N 87- 122000 -001 , Installation 6. Install SVA bolts through the bottom of the XV Control System into the SVA. `l ) il . ieL 0 0 # $. * i rn SVA BOLT 7 , . V SVA BOLT SVA Figure 4 -15. Mounting the XV Control System to the SVA 7. For multiple cylinder installations, install 1/8 -inch NPT (M) x 1/4 copper tubing adapters. Compression type adapters are permissible. 8. 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 -16. Ensure that each connection is secure. Note: Minimum 5 ft. (1.2 m) copper tubing (total). 9. 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. P/N 87- 122000 -001 4 -15 September 2006 Installation y S d /a'4 ; 2-1/2 in. LOOP EXAMPLES t . ; - (Recommended) C "'?lei ��qIq \ + et/ i i 1/8 in. ° PIPE PLUG 0 U ; Figure 4 -16. 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 required 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. XV CONTROL SYSTEM 7 y " I. ; HIGH PRESSURE i " -�• 1: NITROGEN TUBING SVA NAM 1/8 NPT FITTING Figure 4 -17. Installing High Pressure Nitrogen Tubing 11. Remove the SVAs from the cylinder valves and re- install the valve protection plates. September 2006 4 -16 P/N 87- 122000 -001 fr X� .. Lt f : 0,i r . - y �+,A 6 1+,t 6 ) 4 r ' 1� 4,4 ( ( • i \,Z f 6'■'t + ( �) C5` ,A (6h; ) n) C i J A . 1 , , v ,,. „' +r \w , -r.. /V - , , ti '..A n.:,^w .. X .r:• A, ', A i • y -' I`A _.. - ' t 4 11 r ; f o t_ i .. _.,,, ,,, ii) � \_ :sue �?' , � J ` .oy .� ;1 , ' , . ( a Kidde Fire Systems ��! l " A ■ )� A UTC F ire 8 Security Company Cj e J [i C�tj Pj o f C o / /L� n )) ' ' r' '�, 1 1, J 6 ' t' 1 il(! ( D) ? f • I � h3 ./,‘ fli This is to certify that );, i q � ..0 Cliff Martin t! ,4 t ..t. ( ! An employee o , ( � , , „ q f ti ; Valley Fire Control, Albany, OR, USA (! . � ` Y , ; , i f. 3% I 1 ►' an AUTHORIZED KIDDE DISTRIBUTOR ), 1)) - 9"4 F ( � r � has successfully completed a Re- certification training session covering design, ) _ = , � " (� installation, operation and maintenance and has demonstrated a practical knowledge of '( ;'; :- f : , � � t ) ' the following Kidde systems /products: )) ' � " ! Kidde WHDRTM Wet Chemical Fire Suppression System r? )' 1) pp Y >> t t 6 4 ,':■dk q I \tii gi : . • 61 1 r -1 )> ., ,, :f r r i ))'' Issue Date: June 22, 2010 ) � � - � k ,` q; qE . . , . i . .X IC ct'� Expiration Date: June 22 2013 ) F .. - 4) . . « Stephe arry, Instructor Certificate No: 26465 , 1�, ; '/'; #Ji ■ fil )) This certificate is non - transferable. Certificate is only valid as long as the above named company employs the certified individual. Acceptance of this certificate implies agreement to abide by the - '_ - i A t L! terms of distributor agreement by the above named company and individual. Any violation or alteration of this certificate will result in the immediate voiding of this certificat �(( 7 }r'� 1 , F ` , L l 1 4. v1 I 7; �� ..� Z_ �� _.. -i,C - ��rlS��.-- � w �� mac' : — ` w�� `r�_��_. �L,� � � �. '' t Y ` . s{ : a �si� , �t A OS .1. fl .3 - t i 1 .j.. ! 1 - ! �/ .\� .s3'.e :Or..- ,, ..3'.. _ . Or. _ -l 1 '1 11 ` ..M .v " .. .�I�� l- "ti. �I� v V. � / a4 . ✓'vi T�I� -- �I�' �I� _ ♦Y' �I� ✓ " -� ` ay � .. "'\ �� ' 4> .y. '. . � � � .v � .s .`,� 4 ` � / .�- V ._ T `: ' e (,. \ -`,. ` 4,� cam: -) 0 ,.,) f W. , + W.) 4 , W♦ 4 k , , f ' ; ✓ 4 cam' ' 4 c�; e'4 , 4' -' ' ! System Location: Valley Fire Control 217 SE Main St. System Model: Albany, OR 97321 Date of Installation: 541- 928 -9523 Wet Chemical Fire Suppression System Installation Checklist per Kidde Fire Systems Wet Chemical Fire Suppression System Installation Manual Section 4-5 o 11.1 Q ❑ ❑ Plans & Permits on site for review ❑ ❑ Piping of required size used ❑ 0 All System Components are UL Listed 0 ❑ Equivalent lengths within parameters O 0 Discharge line volume within parameters O 0 Cylinder(s) installed securely using proper ❑ 0 Discharge line blown out with air or nitrogen bracket 0 0 Pipe fittings tight O 0 Cylinder(s) charged with wet chemical ❑ ❑ Pipe property supported ❑ 0 Cylinder(s) pressurized to 175 psig (1205 kPa) ❑ ❑ Balloon Test: air or nitrogen discharged through lines ❑ 0 Control Device(s) installed with proper tension O 0 Control Device(s) tensioning tool(s) removed ❑ ❑ Pneumatic release operation tested manually ❑ ❑ Control Device CO2/N2 cartridge installed ❑ ❑ Control Device(s) cover installed, sealed ❑ ❑ Mechanical Gas Valve completely open O 0 Control copper tubing lines blown out ❑ ❑ Gas Valve operation tested ❑ 0 Control copper tubing fittings connected & tight ❑ ❑ Electric Gas Valve equipped with manual reset relay ❑ 0 Proper load & temperature rating fusible links ❑ 0 Electric shut down of equipment verified installed O 0 Fusible link installed at each duct opening ❑ ❑ Remote Manual Release installed along path of O 0 Fusible link installed over each protected egress appliance 0 ❑ Remote Manual Release installed at 48" ❑ 0 Fusible links installed with required travel 0 0 Remote Manual Release signage installed distance 0 ❑ Remote: Cable anchored in block or around O 0 Link line trip test performed pulley O 0 Remote: Pull pin sealed D ❑ Corner Pulleys used for all changes in direction O ❑ Cable in groove of each corner pulley ❑ 0 Fan Warning sign in conspicuous place ❑ 0 Detection system tested for operation 0 0 Picture taken, or "as is" drawing made O ❑ Owner's Manual reviewed with owner 0 0 Proper Nozzles installed as required 0 0 Owner's Manual left on site O ❑ Nozzles tightened O 0 Nozzle Burst Discs intact ❑ 0 System left reset and operable O ❑ Nozzles position properly (height, orientation) ❑ 0 K Class Extinguisher in Kitchen O ❑ Restaurant Owner or Representative has received Owners Manual X O ❑ This system has been installed per NFPA 17A, NFPA 96 and the Manufacturer's Installation Manual Technician: Date: