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2036 PALOMAR AIRPORT RD; ; AS040180; Permit
1/31/25,12:10 PM 1 AS040180 Permit Data City of Carlsbad Sprinkler Permit Permit No: AS040180 2036 PALOMAR Job Address: Status: ISSUED AIRPORT RD Permit Type: SPRINK Applied 12/9/2004 Parcel No: 7602218000 Approved: 3/1/2005 Lot #: 0 Reference No.: Issued: 3/1/2005 PC #: Inspector: Project Title: JET SOURCE FIRE SPRINKLER PLAN CHECK & INSPECTIONS Applicant: LINDLEY FIRE PROTECTION 2220 E VIA BURTON ANAHEIM CA 714-535-5761 IA!!A111 i JET SOURCE INC ATTN: GENERAL MANAGER 2056 PALOMAR AIRPORT RD CARLSBAD CA Fees ($) Add'I Fees ($) Total ($) Balance ($) 1,150 0 1,150 0 about:blank 1/1 LUSARDI CONSTRUCTION 17507449064 P.01 DARYL K. JAMES & ASSOCIATES, INC. - A Fire Code Resource 040 1go ~'Aj'f COpy Technical Evaluation - Central Window Sprinklers JetSource Hangar 2036 Palomar Airport Road Carlsbad, CA 92008 0 oT(d Jat: CUE Mk cçoc.. -. t44ç- 'imL ki') $7Dw k)W)u LCAteJ4 1b P'h- vl .c& -cwE- PbL& TLL4S tt( 205 Collna Terrace Vista, CA 92084 T(760)724-7001 F(760)724-8837 F 11-LE COPY MAR-25-2O5 -I 1:19 LUSARDI CONSTRUCTION =1' It- - - .0 1 * -Q 4- 17607449064 Daryl K. James, President 205 Colina Terrace Vista, CA 92084 T. 760 724-7001 F. 780 724-8837 Email kitfiresbcglobal.net March 15, 2005 Deputy Fire Marshal Greg Ryan Carlsbad Fire Department 1635 Faraday Avenue Carlsbad, CA 92008 RE: Technical Evaluation - Window Sprinklers In Lieu of Firelite Glass Proj: JetSource Hangar 2036 Palomar Airport Road Carlsbad, CA 92008 I OVERVIEW Daryl K. James & Associates, Inc. will demonstrate, through code references, the 2004 ICC Evaluation Service Legacy Report NER-516 and manufacturer's cut sheets that the proposed equivalency to allow window sprinklers in lieu of Firelite Glass will be in full compliance with the 2001 editions of the California Building Code, California Fire Code and National Fire Protection Standards as they relate to the described use. This technical evaluation presented to you is complete and provides an adequate level of fire and life safety to the occupants of the building. This technical evaluation is presented as a request for equivalency since the California Büildinj Code requires one-hour protection and does not directly address the principles of automatic sprinkler system protection for glazing assemblies located in interior non-loadbearing fire separation assemblies. The proposed system will follow the 1999 edition of NFPA 13 Section 11-4.3 Window Protection, Manufacturer's Specifications for specific application quick response sprinklers and ICC Evaluation Service Legacy Report NER-5 16. II DESIGN TEAM Compliance with California Code requirements is based on data provided to Daryl K. James & Associates, Inc. by the following contact: Mike Ramsey. Planning Coordinator Ltardi Construction Company 760-744-3133 MAR-25-005 10:19 LUSARD I CONSTRUCTION 17607449064 P.03 DARYL K. JAMES & ASSOCIATES, INC. - A Fire Code Resource JetSource Page 2 of 4 III C0DL4NALYS1S1TECHN1CAL REFERENCES The purpose of this evaluation is to provide the JetSource design team with testing data and guidelines applicable to the installation of TYCO Fire Product Central Model WS Window Sprinklers. Final details for submittal of fire sprinkler plans will be based on the information provided in this technical evaluation. The following applicable codes and standards were used for this evaluation: > 2001 California Building Code (CBC) and Handbook 2001 California Fire Code (CFC) 1999 National Fire Protection Association Standard 13 Automatic Sprinkler Systems Handbook, Eight Edition Manufacturer's Specifications -WS, '4 Inch Orifice Quick Response Sprinklers 20041CC Evaluation Service Legacy Report NER-516 Subject of 2004 ICC Evaluation Service Legacy Report NER-516 Automatic sprinkler system for glazing assemblies located in interior non-load-bearing fire separation assemblies which are installed to establish a faire-resistance rating. IV REQUEST FOR EQUIVALENCY Code References > All openings in one-hour fire resistive occupancy separations shall be protected by a fire assembly having a one-hour fire protection rating in accordance with CBC Sec. 302.3. > In accordance with CRC Table 3-B, a one-hour fire resistive occupancy separation shall be provided as shown in CRC Table 3-B Occupancy Separation Requirements B - F-i F-2 S-2I S-5 B N N N N 1 F-i N N 1 N I F-2 N 1 N N S-2 I N NN N S-5 I 1 1 I 1 N Code Intent The general rationale behind the use of fire-resistive occupancy separations concerns itself with the amount of combustibles encompassed in an occupancy and is termed as the "fire loading". Thus fire loading is relative to the occupancy separation between two distinct occupancies. The code intends that each occupancy shall be separated from any other by requiring fire resistive separations between certain occupancies, depending on the potential hazards representative of the separated occupancies. (Technical Refrrence #2) MAR-25-2005 1019 LUSARD I CONSTRUCTION 17607449064 P.04 DARYL K. JAMES & ASSOCIATES, INC. - A Fire Code Resource JetSource Page 3 of 4 Alternative Materials and Methods The JetSource design team would like to exercise CFC 103.1.2 by presenting an alternative method of protecting the openings in interior non-load-bearing fire separation assemblies with Central window sprinklers tested in accordance with ASTM E 119 as per the 2004 ICC Evaluation Service Legacy Report NER-516 The report describes Central Model WS Window Sprinkler as a sprinkler designed to wet the entire surface of a glass non-load-bearing wall assembly in order to provide the required fire-resistance rating. The sprinklers shall be located on both sides of an interior non-load-bearing fire separation assembly. The ICC-ES Subcommittee for the National Evaluation Service finds that the TFP/CSC Model WS Window Sprinkler complies with or is suitable alternative to that specified in the 2000 International Building Code, the 2000 Residential Code and the 2002 Accumulative Supplement to the International Codes, and the 1997 Uniform Building Code, subject to the following conditions Products shall be installed in accordance with the attached report and the manufacturer's installation instructions as specified in attached report. The instructions within the 2004 ICC Evaluation Service Legacy Report NER-5 16 govern if there are any conflicts between the manufacturer's instructions and this report. Hydraulic calculations shall show a maximum pressure of 175 psi on the vertical sidewall sprinkler heads and horizontal sidewall sprinkler heads separated by a vertical mullion, The hydraulic calculation shall show a maximum pressure of 70 psi for horizontal sidewall sprinkler heads that are not separated by a vertical mullion which acts as a baffle between sprinkler heads. The glazing assembly shall not have intermediate horizontal mullions. The glazing shall not be used in locations that contain materials that represent explosion or detonation hazards. S. System piping shall be designed in accordance with NFPA 13. Glazing assemblies that incorporate other than wet-type sprinkler systems, single panes or nonioadbeazing assemblies are outside the scope of this report. All combustible materials shall be kept 2 inches from the face of the glass. This can be accomplished by a 36 inch pony wall. S. Glazing assemblies are required to be equipped with a solid partial wall at least 36 inches above the finished floor, as instructed by the manufacture's specifications or by approved alternative protection measures. The automatic water supply shall have the capability to supply water to the assembly for a time not less than the rating of the assembly (one-hour) and a maximum of 2 hours. The 2004 ICC Evaluation Service Legacy Report NER-516 is subject to periodic re- examination. V PRODUCT DESCRIPTION The Central Window Sprinkler Model WS sprinklers are designed to wet the entire surface of the glass non-load-bearing wall assembly in order to provide the fire-resistance rating. The sprinklers shall bc located on both sides of an interior non-load-bearing fire separation assembly. S MAR-25-2005 10:19 LUSARDI CONSTRUCTION 17607449064 P.05 DARYL K. JAMES & ASSOCIATES, INC. - A Fire Code Resource JetSource Page of The sprinklers are used to achieve a 2 hour fire-resistance rating for interior and exterior non-load-bearing walls comprised of Vt inch thick or greater heat strengthened glass or tempered glass in a noncombustible frame. The fire resistance rating was tested in accordance with ASTM E 119. Installation and Hydraulic Requirements Refer to the 2004 ICC Evaluation Service Legacy Report NER-516, 1999 NFPA 13 Sec. 11-4.3 and manufacturer's specifications for specific sprinkler installation and hydraulic guidelines. (Technical Reference #2) P7 OPINION Based on the research conducted in support of this technical evaluation and the recommendations provided herein, it is our opinion that the proposed use of the Central Model WS Window Sprinklers to protect windows in fire resistive assemblies in lieu of Firelite Glass will be in full compliance with the 2001 editions of the California Building Code, California Fire Code, 1999 NFPA 13, manufacturer's specifications and ICC Evaluation Service Legacy Report NER-5 16 as it relates to the described use and occupancy. We feel this evaluation is complete and provides an adequate level of fire and life safety for the occupants and the building. If, after reviewing this evaluation, you have any questions or comments, or you are in need of further information, please do not hesitate to contact me. We look forward to working with you to resolve any issues that may arise, and will be awaiting your response. Thank you, 6 Daryl 4KJam!', A Certified FPO 111/Fire Marshal (RET) MAR-25-25 10:20 LUSARDI CONSTRUCTION 176744964 P.06 TECHNICAL REFERENCE #1 MAR-25-005 10:20 LUSARDI CONSTRUCTION 17607449064 p.07 2001 CALIFORNIA BUILDING CODE 301 302.3 Chapter 3 USE OR OCCUPANCY For qualified historical buildings orproperties, see Chapter 34, Divijld,r II. SECTION 301 - OCCUPANCY CLASSIFIED Every building, whether existing or hereafter erected, shall be classified by the building official according to its use or the char-acter of its occupancy, as set forth in Table 3-A, as a building of one of the following occupancy groups: Group A—Assembly (see Section 303.1 1) Group B--Business (see Section 304.1) Group C--Organized Camp (See Section 431A) Group E—Educational (see Section 305.1) Group IF—Factory and Industrial (see Section 306.1) Group H—Hazardous (see Section 307.1) Group 1—Instilutional (see Section 308,1) Group M—Mercantile (see Section 309.1) Group R—Residenlial (see Section 310.1) Group S—Storage (see Section 311.1) Group IJ—Ulility (see Section 312.1) Any occupancy not mentioned specifically or about which there is any question shall be classified by the building official and included in the group that its use most nearly resembles, based on the existing or proposed fire and life hazard. For changes in use, see Section 3405, 301.1 fFor O$I-JPD 1, 2 & .3] For adtiukrnal requirements of C general acuje care hospitals, psychiatric hospitals, skilled nuTs- ing facilities, intermediate care facilities and clinics, see Sections 420A, 422A, 422A and 423A. SECTION 302 - MIXED USE OR OCCUPANCY 302.1 General. When a building is used for more than one occu- pancy purpose, each part of the building comprising a distinct "occupancy," as described in Section 301, shall be separated from any other occupancy as specificd in Section 302.4. EXCEYIlONS: I, When an approved spray booth constructed in accordance with the Fire Code is insulted, such booth need not be sep- arated from Group B l H. M or S Occupancies. The following occupancies neti not be separated from the uses Iv which ihey are accessory: 2 I Assembly ronnie having a floor area of not over 750square (cci (69.7 rn2) 2.2 Adrninisiraiiv: and cIerjcl offices and Similar rooms that do not cXCcd 25 percent of the floor area of the major use when not related to Group H, Division 2 and Group H,Divi- sion 3 Occupancies. 2.3 Gift shops. administrative offices and similar rooms in Group P., Division 1 Occupancies not exceeding lOpercent of the floor area of the major use. 2.4 The kitchen serving the dining area of which ii is a pail. 25 Customer waiting rooms not exceeding 450 square feel i.s m2) when not related to Group H Occupancies and ivlten such waiting rooms have an exit directly to the exterior. An occupancy separation need not be provided between a Group P. Division 3 Occupancy and a carport having no enclosed uses above, provided the carport is entirely Orion on Iwo or more bides. 'I. A Group S. Division 3 Occupancy used exclusively for the park-ing or storage or private Or pleasure-type motor vehicles need not be separated from a Group S, Oivieian l Occupancy Open parking garage a; defined in Section 311 1. When a building houses more than one occupancy, each por- tion of the building shall conform to the requirements for the oc- cupancy housed therein. An occupancy shall not be located above the story or height set forth in Table 5-B, except as provided in Section 506. When a mixed occupancy building contains a Group H, Division 6 Occu- pancy, the portion containing the Group H, Division 6 Occupancy shall not exceed three stories or 55 feet (16 764 mm) in height. 302.2 Ponns of Occupancy Separations. Occupancy separa. tions shall be vertical or horizontal orboth or, when necessary, of such other form as may be required to afford a complete separa. lion between the various occupancy divisions in the building. Where the occupancy separation is horizontal, structural mem- bers supporting the separation shall be protected by equivalent fire-resistive construction. 302.3 1'pes of Occupancy Separations. Occupancy separa- tions shall be classed as four-hour fire-resistive," "three-hour fire-resistive,' "two-hour fire-resistive" and "one-hour fire- resistive," A four-hour fire-resistive occupancy separation shall have no openings therein and shall not be of less than four-hour fire- resistive Construction. A three-hour fire-resistive occupancy separation shall not be of less than three-hour fire-resistive construction. All openings in walls forming such separation shall be protected by a fire assembly having a three-hour fire-protection rating The total width of all openings in any three-hour fire-resistive occupancy separation wall in any one story shall not exceed 25 percent of the length of the wall in that story and no single opening shall have an area greater than 120 square feet (11 rn') All openings in floors forming a three-hour tire-resistive occu- pancy separation shall be protected by shaft, stairway, ramp or escalator enclosures extending above and below such openings. The walls of such enclosures shall not be of less than two-hour Fire-resistive construction and all openings therein shalt be pro- tected by a fire assembly having a one and one-half-hour fire- protection rating. EXCEPT2ON When the walls of such enclosure extending below the threc-hour fire-resistive occupancy separation to the foundation are provided with S tire-resistive rating otnol less than three hours with openings 1herein protected as required for walls forming three-hour occupancy separations the enclosurewalls extending above such floor used as the three-hour fire-resistive occupancy separation may have a one -hour fire-resistive rating, provided; I. The occupancy above is not required to be of Type I or It fire-resistive construction, and 2. The enclosure walls do not enclose an eicil stairway, a ramp or an escalator required to have enclosure walls of not less than two-hour fire-resistive construction, A Iwo-hour firc-rcsiscive occupancy separation shall not be of less than two-hour fire-resislive Construction. All openings in such separation shall be protected by a fire assembly having a one- and one-half-hour lire-protection rating. A onc-hour fire-resistive occupancy separation shall not be of less than one-hour fire-resistive construction. All openings in such separation shall be protected by a fire assembly having a one-hour fire-protection rating. 1-13 MR-25-205 1:2 LUSARD I CONSTRUCTION 1760744964 F.8 TABLE 3.B 2001 CALIFORNIA BUILDING CODE TABLE 3-C TABLE 3-B--REQUIRED SEPARATiON IN BUILDINGS OF MIXED OCC U P A N C Y ' ( H O U R S ) UI ----- II - tR NOT PERMITTED IN MIXED OCCUPANCIES. SEE SECnON 307.2.8 EUIUU U U _ L _ ---------_URIUh1UUUUUlIU _ - L _ _ - a_ -- EaULIuIuIaIJR L - _ LM - 1I_ i I IU For detailed requirements and exceptions, see Section 302.4. 2For special provisions on highly baa materials, see the Fire Code. 3For agricultural buildings, see also Appendix Chate0. 4See Section 309.2,2 for exception. 3For Group F, Division I woodworking establishments with more than 2.50 0 s q u a r e f e d ( 2 3 2 . 3 m 2 ) , t h e o c c u p a n c y s e p a r a t i o n s h a l l b e o n e h o u r . TABLE 3-0--REQUIRED SEPARATION OF SPECIFIC-USE AREAS IN GROUP I, DIVISION 1.1 HOSPITAL AND NURSING HOMES og$CRIFTTON OCCUPANCY SEPARATION Employee locker rooms None Gift/retail shops None Handicraft shops None Kitchens None Laboratories that employ hazardous materials in quantities less than that which would cause classification as a Group if Occupancy One hour Laundries greater than 100 square feet (9.3 vn2)1 One hour Paint shops employing hazardous substances and materials in quantities less then chat which would cause classification is a Group H Occupancy One hour S. Physical plant maintenance shop One hour Soiled linen roomt One hour Storage rooms 100 square feet (9.3 m2) or less in area storing combustible material None II. Storage rooms more than 100 square feet (9.3 m2) storing combustible material One hour 12. Trash -collect ion rooms1 One hour - 1For rubbish and 1iflCn chute Icrnhinarion rooms, Sec Section 711.5. 1-40.4 C A C A C A C ti C A C A C A C A C A C A C A C A C A C A C A MlR-25-205 1:21 LUSARDI CONSTRUCTION 1767449064 P.10 TECHNICAL REFERENCE #2 MAR-25-25 1:21 LUSARDI CONSTRUCTION 03.1.2 safro and 0117C1 iei'u/tif jo,ts qf the 51a1e fire morIia/ shall be u jc.illoirs I, The vi', coul7ly, or city and county jurisdiction in the area aiThct& by the standard or regulation shall delegate the e.nfirceiiivsie of the biiildiii standards relating to fire and panic .cq/ety and other icgulwions oft/ic suite fire marshal as they relaic to Group R, Division 3 dweIlh.c as described in Sec/ion 310 of Parr 2 of the California Building Standards code, to either of the jblloi'iir. 1760?449064 P.11 2001 CALIFORNIA FIRE CODE tion of such proceedings, and any judgment restiltin thercfiom shall be assumed by this jurisdiction. This code shall not be construed to relieve from or lessen the responsibility of any person owning, operating or controlling any building or structure for any damages to persons or properly caused by defects, nor shall the code enforcement agency or its parent jurisdiction be held as assuming any such liability by reason 01' the inspections authorized by this code or any permits or ccniflcatcs issued under this code. I I The chief of the fire authority of the airy, county, or city anti county, or aiithorl:ed representative. / 2 The chief building official of the city, county, or city ulul county or at; authorized representative, The chief of any city or county fire department or of am j?re protection district, and any authorized represenuith'e, s/la/I eqfoi'ce Within its jurisdiction the building standards and ocher regulations of the state fire putaisllcul, except those described in Scairj,u /01.2.2.2, item / or Item 4 The state flue iota's/ial shall have the authority to eillbrve the bit/Wing .rras,dcirLls and ixhe,' regulations of the Slate fire incur/pal in areas oiitide of corparale cities and districts pio'idinflre protection services, 4 The state lire marshal shall have the authority to enJn'cc such bisildiiig standards and ether rcuIalions of the stein' fire pipat-shal in corporate and districts providing fire-prolti.?ion services wi request of the chic/fire official or the governing bori' i..4,'fèc charged pursuant/a the enforcement authority of ritEs section shalt not exceed the estimated reasonable' cost of providing the service fir which the fee Is charged, plii'slrant to Section 66014 of the Government Code. 101.3 Subjects Not Specifically Regulated by this Code. Where no applicable standardi or requirements are set forth in this code, or contained within other laws, codes, regulations, ordinances or bylaws adopted by the jurisdiction, compliance with applicable standards of the National Fire Protection AsSOciation Or other nationally recognized Ike afoiy standards as cue nppruved shall be deemed as prima facie evidence of compliance with the intent of this code. Sec also Section 9001.2. Nothing herein shall droguic from the power of the chief to deterniinc compliance with codes or standards fr those activities or liistl iaiiuns within the chiet's jurisdiction or responsibility. 101.4 Supplemental Rules and Rcgul:utions. The chief is to render itii'pretaiions of this code and to make and enforce rules and supplemental regulations in order to carry out the application and intern of its provisions. Such interpretations, rules and rogulations shall be in conformance with the intent and purpose of this codc and rhall be available to the public during normal business hours, 015 Liability. The chief and othcr individuals chsrged by the chief viih tile control or extinguishment of any tire, the enforcement of this code or any other official duties, acting in good faith and Without malice in the discharge of their duties, shall not thereby be rendered personally liable for any damage that may accrue to persons or properly as a result of any act or by reason of any act or OifliSStOfl in the discharge of their duties. Any suit brought against the chief or such individuals because of such act or Omission perlorltltd in the etpl'orL'cp,lent ofan), provision of such codes ot other pertinent in'vs or ordinances implemented through the ctitbrcn,ent of this code or enlirccd by the code enforcement agency shall be de1ended by this jurisdiCti011 until final termina- See also Section 103.3.2.1. 101.6 Conflicting Provisions. Where there is a conflict between a general requirement and a specific requirement, the specific requirement shall be applicable, 1017 Sverabi1Ity. If any provision of this code or the application thereof to any person or circumstance is held invalid, the remainder of the code' and the application ot'such provision to other persons or circumstances shall not be affected thereby. 10I.9 References to Appendix. When this cock references the appendix, the provisions in the appendix shall not apply LIIIICSS specifically adopted. 101.9 AmendntenI, When reference is made to a portion of this code or other applicable laws or ordinances, the reference applies to all amendments and additions now or hereafter made. SECTION 102 — RETROACTIVE APPLICATION TO EXISTING CONDITIONS 102.1 £ristlng Cond1tIoi,. The provisiàns of this code haul cipplj' to conditions arising 180 days after the publication thereof or cut a letter dare as established by the California Building Standards commission, conditions not legally in existence at the effective date of this code, and to conditions which, In the opinion of' the chief constitute a distinct hascird to 1IC or properly. See also Appendices 1.4 and I.B. SECTION 103— INSPECTION AND ENFORCEMENT 103.1 General. T03.1.1 'l'ecllnietil assistance, To determine the acceptability of technologies, processes. products, facilities, materials and uses attending the design, operation or use of a building or premises bjCCi to the inspcclioil of the department, the chief is atitltori'.ed ig require the owner or the person in possession Or control of the building or promises to provide, WiLIlOLIL Charge to due jurisdiction. a technical opinion and report. The opinion and report shall be prepared by a qunliried engineer, specialist, laboratory or fire safety specialty organization acceptable to the chief and the owner and shall analyze the firesafety properties of the design. operation Or USC of the building or premises and the facilities and appurtenances situated thereon, to recommend necessary changes. The chicf is authorized to require design submittals to berr the stamp of a professional engineer. 103.1.2 Alternate materials and methods. The chief is authorized to approve alternate maicrials or methods provided that the chief finds that the proposed design, use or operation sacisfaciorily complies with tile intent of this code and iliat the method ol' work performed or operation is, for the purpose intended. ni least eqLtivalefll to flat prescribed in this code in quality, strenih, ctThctiveness, lire resislailee, durahilil) and stifcy. Approvals under the authori ly herein contained shall be subject to the approval of the bulclng official whcncvu the nitcittate material or method involve'; nafleis regulated by the Building Code, C A C A C A C A C A C A C A 1.2 November 22, 2004 EMERGENCY SUPPLEMENT MAR-25-205 1:21 LUSRRDI CONSTRUCTION 1760744964 P.12 S11. NER516 LEGACY REPORT Reissued January 1, 2004 ICC Evaluation Service, Inc. I BueJnjj oia . 53a * W M Road, Mibr, C 90601 • ) 59943 1g OMse '900 Montclar Road. Sue A, BJrmhgharn, Pdabarria 352131 (205) 599-5800 WWWicc-es.org . 4051 West RossrnowR, C4wft ClubHills. Io6O47O a (708)799.2305 Legacy report on the 2000 International Building Coda', the 2000 international Residential Codeo and the 2002 Accumulative Supplement to the International Codeslu, the BOCA' National Building Code/1999, the 1999 Standard Building Code s the 1997 Uniform Building CodeN and the 1998 Intern atlonal One- and Two-Family Dwelling Ceder DIVISION 13— SPECIAL CONSTRUCTION Section 13930— Wet-PIpe Fire Suppression Sprinklers EVALUATION SUBJECT: TYCO Fire Products (TFP)ICentrel Sprinkler Company (Ccc) Window Sprinklertm Model WS"', 1/2-Inch Orifice Quick Response Vertical and Horizontal Sidewall Sprinklers SIN 1Y3388, TY3488, C3388 and C3480 REPORT HOLDER: TYCO Fire Products Research and Development 1467 Elmwood Avenue Cranston, Rhode Island 02910 wwwtcoflow.com 1.0 SUBJECT Automatic sprinkler system for glazing assemblies located in interior non-load-bearing fire separation assemblies orexterlor walls which are installed to establish a fire-resIstance rating. 2.0 PROPERTY FOR WHICH EVALUATION IS SOUGHT 2.1 Alternative materials, design and method of construction and equipment 2.2 FIre-resistance rating 3.0 DESCRIPTION 3,2 TFPICSC Model WS Sprinkler Head The TFPICSC Model WSTU SprinklerHead is manufactured for two different orientations. The first type, illustrated In Figure 1 Is a horizontal sidewall that is designed to face the window assembly horizontally. The second type, illustrated in Figure 2 is a pendant vertical sIdewall that is designed to face the window assembly vertically. The Model WS is a quick response sprinkler head that releases once the ambient temperature reaches either 155 or 200 F (68 or 93 C), depending on which rated sprinkler head Is Installed. The sprinkler heads have an orifice and thread size of '4 inch (12.7 mm). 3.3 Glass Fire Separation Assembly The glass used within the assembly shall be single or glazed, nominal 1/4-inch (6.4 mm) thick or greater, heat strengthened glass or tempered glass manufactured in accordance with ASTM C 1048 or Federal Specification DD-G- 140313. The glass component of the wall assembly shall have a maximum height of 13 feet (3965 mm) with an unlimited horizontal span. The glass assembly shall be retained by a noncombustible frame with a standard molded EPDM rubber gasket serving as the seal. Glass panes that are connected by butt-joints shall be sealed with a silicone construction sealant between the Individual panes or by an aluminum mullion. 4.0 INSTALLATION 4.1 Sprinkler Orientation When locating the TFPICSC Model WS horizontal sidewall, window frame from '4 to 4 inches (12.7 to 102 mm) away from The Central Window Sprinklertm Model WS sprinklers are designed to wet the entire surface of a glass non-load-bearing the glass and 2 to 4 inches (51 to 102 mm) down from the top of the noncombustible frame as shown in Figure 1. The walls assembly In order to provide the fire-resistance rating. TFP/CSC Model WS vertical sidewall shall be located 4 to 12 The sprinklers shall be located on the inside of the glaing inches (102 to 305 mm) from the face of the 91a85 and 2 to 4' assembly located in exterior walls required to be rated for Inches (51 to 102 mm) down from the top of the noncombusi- protection and on both sides of an interior non-load-bearing lble frame as shown in Figure 2. All combustible materials fire separation assembly. See Conditions Of Use section 7.5 shall be kept 2 inches (51 mm) from the face of the glass. This for exterior wall applications, can be accomplished by a 36-inch (914 mm) pony wall. The The sprinklers are used to achieve a 2 hour fire-resistance use of alternate methods of maintaining clearance to rating for interior and exterior non-load-bearing walls combustibles is outside the scope of this report (See Condition comprised of '/4-inch (6.4 mm) thick or greater heat 01 Use 7,8), strengthened glass or tempered glass in a noncombustible frame. The fire-resistance rating was tested in accordance with ASTM E 119, /CC.5Ikgoc). ropor,.i are itot 10 be cclatfrlscd dr reorrunting nesth,IIc.r or any other allrib,,Ix not rpeciJkally odftmed. ,,' are they to be ro,i.r,,,sed or on endorsonent of lh silt/er, 0/,he report urn recolnmL'.idarjonfor/ti vie. There is no in,rany by ic:ç evt7!l4a,oJI Service. Inc, ctnjresi or Imp/ted. as 10 onyfinthllg or othi, nw'r.r In phis report, uP w to any producl covered by the rrporl. Cc,ighi 0 2004 Page lot 3 MAR-25-205 1:21 LUSARDI CONSTRUCTION 176744964 P.13 The mamum distance between window sprinklers shall be B feet (2440 mm) center to center. The minimum distance shall be 6 feet (1830 mm) unless the sprinklers are separated by vertical mullion which acts as a baffle between sprinkler heads. The maximum distance maintained between the sprinkler head and the mullion shall be half the distance required between sprinklers. 4.2 Hydraulic Requirements The size of the sprinkler pipe that supplies the window sprinklers shall be based on hydraulic calculations performed In accordance with NFPA 13. In a sprinklered building, the hydraulic calculations shall be performed on the hydraulically most remote sprinkler heads contained within 46.5 linear feet (14 183 mm). The window sprinkler demand shall be added to the calculations for the standard wet-type sprinkler system at the point in the system that the, connect, as required by NFPA 13. in buildings that are not equipped with an automatic suppression system, all the sprinklers located within the area shall be considered to flow simultaneously for the hydraulic calculations. The minimum flow per sprinkler shall be based on the horizontal distance of each sprinkler head. Sprinkler heads which are 6 to 8 feet (1830 to 2440 mm) apart shall have a flow of 20 gpm (75.7 Llrn) and a pressure of 12.7 psi (87.6 kPa), Sprinkler heads that are less than 6 feet (1830 mm) apart shall be calculated for a flow of 15 gpm (58.8 Urn) and a pressure of 7.0 psi (48.3 kPa). - Installation shall comply with this report and a copy of this report shall be available at all limes on the Job site during installation. Additional details are in the TYCO Fire Products, Technical Data Sheet #TFP620. printed 843. 5.0 IDENTIFICATION All TFP/CSC Window Sprinklertm Model INS TO sprinklers shall bear a label Identifying the manufacturers name, the product name and the name of the testing agency, UL Testing Laboratories Inc. and this report number NER-516 for field identification. 7.1 Products shall be installed in accordance with this report and the manufacturer's installation instructions as specified in this ropoK. The Instructions within this report govern if there are any conflicts between the manufacture?s instructions and this report. 7.2 Hydraulic calculations shall showa madmum pressure of 175 psi (1207 kPa)-on the vertical sidewall sprinkler heads and horizontal sidewall sprinkler heads separated by a vertical mullion. The hydraulic calculation shall show a medmum pressure of 70 psI (483 kPa) for horizontal sidewall sprinkler heads that are not separated by vertical mullion which acts as a baffle between sprinkler heads shall be shown. 7.3 The glazing assembly shall not have intermediate horizontal mullions. 7.4 The glazing shall not be used in locations that contain materials that represent explosion or detonatIon hazards. 7.5 in Jurisdictions that have adopted the 2000 InternatIonal Building Code and the 2002 Accumulative Supplement to the International CodesTh, DOW National Building Co4e/1999 and the 1999 Standard Building Code', the TFP/CSC Window Sprinklertm Model WST?d shall not be used to achieve a lire-resistance rating on glazing assemblies within exterior walls that have a horizontal fire separation distance of less than 5 feet (1525 mm) (the distance from a common property line or assumed property line). In jurisdictions that have adopted the 2000 International Residential Code" with the 2002 Accumulative Supplemonito the !nternationalCodestm and the 1998 International One- and Two-Family Dwelling Code', the TFPICSC Window Sprinklertm Model WStm shall not be used to achieve a fire.- resistance rating on glazing assemblies within exterior walls that have a horizontal fire separation distance of less than 3 feet (915 mm) (the distance from a common property line or assumed property line). 6.0 EVIDENCE SUBMITTED In jurisdictions that have adopted the 1997 Uniform Building Code",, the TFP/CSC Window Sprinklertm 6.1 Test report File EX683, Project 94N1C27353, August Model WS'w shall not be used to achieve a fire- 22, 1995, Underwriters Laboratories Inc., in resistive rating In exterior walls. _ 6 7.6 System piping shall be designed, sized and installed in ,2 Manufacturer's installation literature; TYCO Technical accordance with NFPA 13, Data Sheet F FP62O, prInted 8-03. 6.3 Letter reportfrom Donald J. Bcehmer, P,E., December 4, 1995, considering design criteria for the rated assembly. 6.4 UL Directory, Fire Protection Equipment 1998. 6.5 Letter from Underwriters Laboratories Inc., dated July 3, 2002, indicating that it is acceptable to Install the specific application window sprinkler, TFP/CSC Model WS (SIN C3388, C3488, 1Y3388 and TV 3488), with double-glazing. 7.0 CONDITIONS OF USE The ICC-ES Subcommittee for the National Evaluation Service finds that the TFP/CSC Window Sprinklertm Model WS' as described in this report complies with or is a suitable aftemative to that specified in the 2000 InternatIonal Building Code', the 2000 Intemation a! Reside ntial Cod@0 and the 2002AcaimuI('ve Supplement to the International Codes"", the BOCA' National Building Cade/1999, the 1999 Standard Building Code', the 1997 Uniform Building Codetm and the 1998 International One- and Two-Family Dwelling Code', subject to the following conditions: 7.7 Glazing Assemblies that incorporate other than wet- tpe sprinkler systems or load-bOaring assemblies are outside the scope of this report. 7.8 All combustible materials shall be kept 2 inches (51 mm) from the face of the glass. This can be accomplished by a 36-inch (914 mm) pony wall. The evaluation of the use of alternative methods to the pony wall described In this report to maintain a minimum 24nch (51 mm) clearance of combustibles from the face of the assembly is outside the scope of this evaluation. The use of and alternative method shall be subjected to specific approval by the authority having jurisdiction and evidence supporting the alternative construction shall be submitted to the code official with the application for permit. 7.9 The automatic water supply shall have the capability to supply water to the assembly for a time not less than the rating of the assembly. The maximum fire- resistance rating shall not exceed 2 hours. 7.10 This report Is subject to periodic re-examination. For information on the current status of this report consult the [CC-ES. Instaflailan tiote: All frame arms must be In vertIcal alignment MAR-25-2005 10:22 LUSARD I CONSTRUCTION 17607449064 P.14 page 3of3 NER516 Mu3l be w,thin the frame of winaow. baIan NoMamum I__I Maximum Height 13-0 FIGURE 1* FIGURE 2' WSTN HORIZONTAL SIDEWALL WSTm PENDENT VERTICAL SIDEWALL SPRINKLER INSTALLATION SPRINKLER INSTALLATION *THESE DRAWINGS ARE FOR ILLUSTRATION PURPOSES ONLY. THEY ARE NOT INTENDED FOR USE AS CONSTRUCTION DOCUMENTS FOR THE PURPOSE OF DESIGN, FABRICATION OR ERECTION. MAR-25-205 1:22 LUSARDI CONSTRUCTION 1'?6744964 P.15 MARINE SYSTEMS 13-153 applicable, at least one elastomer.ric gaskctshall be kept in the cabinet for each fire department connection that is installed onboard the vessel 112.3.2 The cabinet containing spare sprinklers, special wrenches. and elascomctric gaskets shall be located in the same central safcty station that contains the alarm annuncia- tor panel (s) and supervisory indicators. 11.2.4 System Pipe and Fittings. 11-2.4.1 • When ferrous materials are used for piping between the sea chest and zone control valves these materials shall be protected against corrosion by hot dip galvanizing or by the use of Schedule 80 piping. 11.2.4.2 Maximum design pressure for copper and brass pipe shall not exceed 250 psi (17.2 bar). 11.2.5 Pipe Support, 11.2.5.1' Pipe supports shall comply with the following: (a) Pipe supports shall be designed to provide adequate lateral, longitudinal, and vertical sway bracing. The design shall account For the degree of bracing, which varies with the route and operation of the vessel, Bracing shall be designed to ensure the following: Slamming, heaving, and rolling will not shift sprinkler piping, potentially moving sprinklers above ceilings, bulkheads, or other obstructions. Piping and sprinklers will remain in place at a steady heel angle at least equal to the maximum required damaged survival angle. (b) Pipe supports shall be welded to the structure. Hang. era that can loosen during ship motion or vibration, such as screw.clown-typc hangers, shall not be permitted. Exception: Hangars that are listed/or seismic use shall be Permitted to be used in accordance with their listing. 11.2.5.2 Sprinkler piping shall be supported by the primary structural members of the vessel such as beams, girders, and! stiffeners. 11.2.5.3* The components of hanger assemblies that are welded directly to the ship NVUCEUre shall not be required to be listed. 11.2.5.4' U-hook siz,.es shall be no less than that specified in Table 6.1.4.1. 11-2.6 Valves. 11-2.6.1 All indicating, supply, and zone control valves shall be supervised open from a ccntral safety station. 11-2.6.2 Drain and test valves shall meet the applicable requirements of 46 CPR 56.20 and 56.60, 11.2.6.3 Valve markings shall include the information required by 46 CPR 56.20-5 (a). 11.2.7 Fare Department Connections and International Shore Connections. 11.2.7.1* A Lire department connection and an Internaugnal Shore Connection shall be installed. Exception: Fire department connections shall not be required on t'es sets that oerale primarily on international voyages. 11.2.7.2 Connections shall be located near the gangway or other shore access point so that they are readily accessible to the land-based Lire department. Fire department and Interna- tional Shore Connections shall be colored and marked so that Elie connections are easily located from the shore access point (i.e., gangway location) and will not be confused with a fire- main connection. An 18 in. x 18 in, (0.46 m X 0.46 m) sign dis- playing standard symbol 4-2.1 of NFPA 170, Standard for Fire Safety Symbols, shall be placed at the C nncCUOfl so that it is in plain sight from the shore access point. Connections on both sides of the vessel shall be provided where shore access arrangements make it necessary. 11.273' Fire department connection thread type shall be compatible with fire department equipment. 11-5 System Requirements, 11.3.1* Relief Valves. Relief valves shall be provided on all wet pipe systems. 11-3.2 Spare Detection Devices. The number of spare detec- tion devices or fusible elements used for protection systems that shall be carried per temperature rating is as follows: Vessels shall have two spare detection devices or fusible elements when operating voyages are normally less than 24 hours. Vessels shall have four spare detection devices or fusible elements when operating voyages are normally more than 24 hours. 11.3.3 System Piping Supervision. All preaction sprinkler sys- tems shall be supervised regardless of the number of sprin- klers supplied. 11-3.4 circulating Closed Loop Systems. Circulating closed loop systems shall not be permitted. 11-4 Installation Requirements. 11-4.3 Temperature Zones. Intermediate temperature-.rated. sprinklers shall be installed under a noninsulated steel deck that is exposed to sunlight. 11.4.2* Residential Sprinklers Residential sprinklers shall be permitted for use only in sleeping accommodation areas. 11.4.3 Window Protection. Where required,, windows shall be protected by sprinklers installed at a distance not exceed- ing 1 ft (0.3 m) from the glazing at a spacing not exceeding 6 ft (1.8 rn) such that the entire glazing surface is wetted at a linear density not less than 6 gpm/ft (75 mm/mm). Exception.' Window sprinkler protection systems installed in accor- dance with their installation and testing criteria. 11-4.4* Concealed Spaces. Concealed spaces that are con- structed of combustible materials, or materials with combusti- ble finishes or that contain combustible materials, shall be sprinklered. Exception: Space that contain only nonm4athc piping that is eontin- uc.u.cly filled with wOlm' are not required to be 4erink1ered. 1999 Edition MAR-25-2005 10:22 LUSARDI CONSTRUCTION Wei 11L' Model WSTM Specific Application Window SprinklersTM 5.6 K-factor - Quick Response Vertical Sidewall & Horiz. Sidewall Glass Bulb Automatic Sprinkler Tyco Fire Products --- www.centralsprinkler.com 451 North Cannon Avenue, Lansdale, Pennsylvania 19446 --- USA Customer Service/Sales: Tel: (215) 362-0700 / Fax: (215) 362•5385 Technical Services; Tel: (800) 381.9312 / Fax: (BOO) 791-5500 17607449064 P.16 II - - CENTRAL General Description The Central Model WS, 5.5 K-factor, Pendent Vertical Sidewall and Horizon- tal Sidewall, Specific Application Window Spriniclers are quick response glass bulb type spray sprinklers. These sprinklers are the first sprinklers ever to be specifically Listed to provide protection for heat strengthened or tempered glass windows using closed sprinklers. As part of the testing, the gas flow required to achieve the time/ temperature relationship specified in ASTM El 19 was established in a test furnace without sprinkler protection. A Window assembly protected with Model WS Specilic Application Window Sprinklers was then installed in the test furnace and the same gas flow condi- tions were maintained for a two hour test period. No cracking or visible damage to the window was permitted during the test period (even when a hose stream was directed at the window). The success of the Model WS Specific Application Window Sprinkler is based on its specially designed deflector, that ensures that the spray pattern wets the entire surface of the window, and its Iasi response thermal sensitivity, Based on this successful testing, the Model WS Specific Application Window Sprinkler can be used as interior protection of windows or glazing in a sprinklered building or non sprinklered building. Also, the Model WS Specific Application Window Sprinkler can be used as a open sprinkler for Outside Sprinkler Protection against Exposure Are. using the design requirements of NFPA. As with any specific application sprinkler. the installation instructions included in this data sheet must be preciseley followed, National Evalua- tion Service Inc. (NES), ICBO Evalua- tion Service. Inc. (lCBO ES), and Underwriters Labratories of Canada (ULC) guidelines apply, consult the specific approval report. Operation: The glass bulb contains a fluid which expands when exposed to heat. When the rated temperature is reached, the Fluid expands sufficiently to shatter the glass bulb, which then allows the sprinkler to activate & flow water. WARNING The Model WS Specific Application Window Sprinklers described herein must be installed & maintained in compliance with this document, as we/l as with the applicable standards of the National Fire Protection Association, in addition to the standards of any other authorities having jurisdiction. Failure to do so may impair the integrity of these devices. The owner is responsible for maintaining their fire protection system and devices in proper operating condition, The installing contractor or sprinkler manufacturer should be contacted relative 10 any questions. Technical 1.0 Data Sprinkler Identification Number SIN C3388 - Horizontal Sidewall SIN C3488 - Pendent Vertical Sidewall Approvals UL, C-UL & ULC Usted, NYC Approved. (The approvals apply only to the service conditions indicated in the Design Criteria Section) Additional Recognition: National Evaluation Service (NER 516) ICO Evaluation Service (ER 5790) Pipe Thread Connection 1/2 inch NPT Discharge Coefficient K = 5.8 GPM/psi"2 (80.6 LPM/bar"2) Temperature Ratings 155°F/6B°C & 200F/93C Finishes Sprinkler: White Polyester, Chrome Plated, or Natural Brass Specific Application Window Sprinklers Physical Characteristics The Model WS Window Sprinklers utilize a dezincificalion resistant (DZR) bronze frame and a 3 mm bulb. The two-piece button assembly is brass and copper, The sprinkler frame orifice is sealed with a gasketed spring plate (Belleville Seal) consist- ing of a beryllium nickel disc spring that is sealed on both its inside and outside edges with a TeflonTM gasket. The compression screw is bronze, & the deflector is brass. No. 6-2.0 MAR-25-25 10:23 LUSARDI CONSTRUCTION In Design Criteria The Model WS Window Sprinklers are listed by UL and C-UL and NYC Approved (MEA 191 -96.E) for use as a "Specific Application Window Sprinkler and as open spnnklers for "Outside use. These sprinklers are also recognized by the National Evaluation Service Inc. (NES), ICBO Evaluation Service, Inc. (ICBO ES), and Underwriters Labratories of Canada (ULC) as providing a two- hour equivalency for a fire separation assembly, when installed In accordance with the NES Report (NER 516), LOBO Evaluation Service Report (ER 5790), and ULC/ORO-C263.1 Appendix A. Note NER 518 can be obtained at wwwnatevaLorg. ER 5790 can be obtained at wwwicbc.org. ULC/ORD-C263 1 AppendiA can be obtained by contacting Technical SeMces. When acceptable to the Authority Having Jurisdic- on and unless modified by one of the reports mentioned above, N Model WS Specific Application Window Sprinklers may be used in either a sprirklered or unspflnklered building to protect nonoperable window openings that are part of a fire separation provided: in an interior fire separation, the window sprinklers are installed on both sides of the window in the fire separation. (Ref. Figure A) in jurisdictions where exterior spatial separation is defined as protecting an adjacent building from a fire in your building window sprinklers are installed on the interior side of the building (Ref. Figure B), or in jurisdictions where exterior spatial separation is defined as protecting your building from a fire in an adjacent building, open window sprinklers are installed on the exterior side of the building (Ref, Figure C). System Interior Protection - Wet Systems. Outside Exposure Protection - Deluge. ssjv Non Opererable Heat-strengthened, Tempered, or stronger glass window assemblies that are a minimum 114" (6 mm) thick. Noncombustible Frame with a standard EPDM rubber gasket seal. Vertical joints of glass panes must be connected by butt-joints sealed with a silicone sealant between the individual panes or by Noncombustible Mullions (Ref. Figure D & E) MaxffnLLenothpf Window AssembJy Unlirftited Maximum Height 12f Windgw Aagam_bly, 13'(3,96 m) (Ref. Figure G & H) Maximum Distance BetweeitWlndpwSntlnkters; 8(2,44 m) (Ref. Figure D & E) 1760744964 P.17 1nterriiate Horizontal Mullions: Intermediate Horizontal Mullions were not tested with the window sprinkler. Their use is outside the scope of the "Specific Application" Listing for the window sprinklers. (Ref. Figure F) D-ofWdor Sprinkler Deflectors must be located as described below in order to ensure that the entire surfaceof the glass window is covered. Sprinkler Deflectors are positioned with respect to the window frame not the ceiling. Horizontal Sidewall Locate within the outside edge of the window frame from 1/2" to 4" (12,7 mm to 101,6 mm) away from the glass and 2"±1" (50,8 mm ±25,4 mm) down from the top of exposed glass. (Ret. Figure 0) Pendant Vertical Sidewall - Locate 4" to 12" (101,6 mm to 304,8 mm) from the face of the glass and 3" ±1" (76,2 mm ±25,4 mm) down from the top of exposed glass. (Ref. Figure H) Minlmçn CJarance From Face Qf.tas&toCombustible Materials: All combustible materials shall be kept 2" (50,6 mm) from the front face of the glass. This can be accomplished by a 36' (914,4 mm) pony wall or any other method acceptable to the Authority Having Jurisdiction. The window sprinklers can be used with any metalic flush or extended escutcheon, provided the dimensions from the sprinkler deflector to the window frame and glass surface as specified in this data sheet are maintained, These sprinklers are not listed for recessed applications. RcQmmefled HraulIeReqfremenIs The Authority Having Jurisdiction should be consulted to determine the hydraulic requirements for each installation. Interior Protection Sprinklered Building Identify which compart- mented area has the most hydraulically demanding window sprinklers. Calculate all of the sprinklers within a compartmented area or the number of window sprinklers required to cover a combined linear length of glass equal to 1.2 x the square root of the system area of operation, whichever is greater. For example it the building design area is 1500 ft2 then 1.2 x (1500 ff)"i = 46,5 linear feet of glass or 1.2 x (139 m2)'2 m 14,2 linear meters of glass. Add the window sprinkler demand to your most demanding hydraulic design area. Interior Protection Non-Spdnklered - Calculate all the sprinklers on the most demanding side of the glazing assembly within the enclosure, Exterior Exposure Protection - Calculate all sprinklers controlled by the deluge valve using the design requirements of NFPA. Duration of W@1eL$u The duration of the water supply must comply with the requirements of NFPA. In the event the window sprinklers are being used to provide the equivalency of a fir rating, the water supply must be capable of supplying water for the required rating period. Minimum Flow oerSpnriider: MIt nunQistce Between ndowSp,nkte 6(1,83 m) (Ref. Figure 0 & E), unless separated by a baffle or mullion of sufficiant depth to act as a baffle. (A mullion will act as a baffle, when in the case of the Pendant Vertical Sidewall, the mullion extends to the back of the sprinkler deflector, and in the case of the Horizontal Sidewall, the mullion extends to the sprinkler wrench flat) ?4iniu2istanrptn Standard Soinkiers 6(1.83 m) unless separated by a baffle. Mullioned Glazing Assemblies - Locate window sprinklers within each mullioned glazing segment. (Ref. Figure D) Sutt Jointed Glazing Assemblies - Locate window sprinklers on maximum 8(2,44 m) centers. (Ref. Figure E) Maxin'iumj)istance from VertirAl 4(1,22 m). (Ref. Figure D) 4' (101,6 mm). (Ref. Figure D) Minimum Spacing Flow/Pressure 61 to 8' 20.0 gpm 112.7 psi (1,83rn(o2,44m) 75,7LpmI 0,88 bar Less than 6' 15.0 gpm / 7.0 psi (1,83m) 56,8Lpm10,48 bar - Horizontal Sidewall 70 psi (4,83 bar) Vertical Sidewall = 175 psi (12,07 bat) The 70 psi is only for cold solder purposes. If there is a baffle or mullion of sufficient depth to act a5 a baffle, separating the sprinklers, the maximum pressure is 175 Psi, MAR-25--2005 18:23 LUSARD I CONSTRUCTION 17687449064 P.18 Figure 1 - Model WS, Horizontal Sidewall Specific Application Window Sprinkler TOP OF SPRINKLER 2-1/8k 1 (54,0 mm) - DEFLECTOR 1/2w NFl I 13/16 J (20,6 mm) 1-5/6w (41,3 mm) 7-1 WRENCH 7/16(11,1 mm) FLAT MAKE-IN ELEVATION TOWARDS WINDOW VIEW Figure 2- Model WS, Pendant Vertical Sidewall Specific Application Window Sprinkler 7I16 (11,1 mm) MAKE-IN FRONT VIEW ...1/2"Npr_t WRENC FLAT 17 (54.0 mm) 2-1/6•' SIDE VIEW TOWARDS WINDOW 0' TOP OF SPRINKLER DEFLECTOR I_.......1.1/32_I I 4 5/8 (26,2 mm) I I (159 mm) 2-1/16W I (52,4 rnni) mm) ELEVATION VIEW Figure 3 - Cross Section Model WS Pendent Vertical Sidewall Specific Application Window Sprinkler GASKETED SPRING PLATE I BUTTON (BELLEVILLE \ SEAL) GLASS 01 - BUL5 SPRINKLER OPERATING FRAME - - - . - ELEMENT COMPRESSION DEFLECTOR SCREW INSIDE WJ MAR-25-25 10:23 LUSARDI CONSTRUCTION 176744964 P.19 13 Installation The Model WS Specific Application Window Sprinklers must be installed in accordance with the following instructions. NOTES Do not install any bulb type sprinkler if the bulb is cracked or there is a loss of liquid from the bulb. With the sprinkler held horizontal, a small air bubble should be present. The diameter of the air bubble Is approximately 1/16 inch (1,6 mm). A leak tight 1/2 inch NPT sprinkler join: should be obtained with a torque f 7 to 14 ft.lbs. (9,5 to 14,0 Nm). A maximum of 21 ft lbs. (28,5 Nm) of torque Is to be used to install 1/2 inch NPT sprinklers, Higher levels of torque may distort the sprinkler inlet with consequent leakage or Impair- ment of the sprinkler. Step 1, The pendent vertical sidewall sprinkler must be installed only in the pendent position with the centerline of the sprinkler parallel to the glass si.irface. The sprinkler must be creintated so that the direction of flow indicated on the sprinkler deflector is lacing the window, The horiontal sidewall sprinker must be installed only in the horlzontal position with the centerline of the sprinkler perpendicu- lar to the glass surface. The sprinkler must be oreintated so that the word Top Indicated on the sprinkler deflector is facing the top of window frame, Step 2. With pipe thread sealant applied to the pipe threads, hand tighten the sprinkler into the sprinkler fitting. Step 3. Wrench tighten the Sprinkler using only the Combination Sprinkler Wrench (Ref. Figure 4). The Combi- nation Sprinkler Wrench is to be applied to the Sprinkler Wrench flats only. Figure A - Interior Fire Separation When acceptable to the Ajthorfty Having Jurisdiction the Model WS Specific Application Window Sprinklers may be used in either a sprinklered or unsprinktered building to protect nonoperable window openings that are part of a fire separaon provided in an Interior fire separation, the window sprinklers are installed on both sides of the window in the fire separation. Figure B - Exterior Separation oljrsIoE 1N510E EXPOSURE SIDE When acceptable to the Authority Having Jurisdiction the Model WS Specific Application Window Sprinklers may be used in either a sprinklered or unaprinklered building to protect nonoperabte window openings that are part of a lire separation provided in jurisdictions where exterior spatial separation is defined as protecting an adjacent building from a fire in your building, window sprinklers are installed on the interior side of the building Figure C - Exterior Separation I NSI D OJTSlDG EXPOSURE SIDE When aeptabte to the Authority Having Jurisdiction the Model WS Specific Application Window Sprinklers may be used irg either a sprinklered or urispririklered building to prott nonoperabis window openings that are part of a fire separation provided in jurisdictions where exterior spatial separation is defined as protecting your building From a fire in an adjacent building, open window sprinklers are installed on the exterior side of the building Figure 4- Combination Sprinkler Wrench (Part 01106) MAR-25-25 10:24 LUSARD I CONSTRUCTION 1bi'Jbq r • Figure D - Multiple Windows Separated by Mullions iv 8 (244 rr) Maximum 6 (1.83 ni) Minimunr ' MulU9 Minlmum Distance Between Window Sprinklers Is 5(1.83 m) unless separated by a baffle or mullion of sullicloni depth to act Max - 4(122 m) Mi • 4 (101,6 mm) as a baffle. (Pendent Ver!lcat Sidewall 8p'Inkiero show br clarity) Figure E - Multiple Windows Separated by Butt Joints Max -4 (122 in) Mm 4 (101.6 mm) 8(2.44 ru) H '1 H I 6(1.83 rn No Minimum or Maximum Mullion Bud Joint I Window Sprinklers are NOT required to be located with respect to horizontal or vertical butt (Pendant Vertical Sidewall Sprinklels show for '34ariiy Figure F - Windows with Horizontal Mullions T tr Mullion Window Sprinklers are NOT Listed to protect windows when intermediate horizontal mullions are present. Intermediate (Pendent Vertical Sldew:iil Sprinklers Show lot clarity) LINDLEY FIRE PROTECTION Co. 2220 E. VIA BURTON ANAHEIM, CA LINDLEY FIRE PROTECTION WATER FLOW DATA FOR JETSOURCE CARLSBAD, CA 2220 E. Via Burton Anaheim, California 92806 (714) 535-5761 FAX (714) 535-0576 California 9 Nevada 9 Oregon • Oklahoma • Arizona LINDLEY FIRE PROTECTION CO., INC. FIRE SPRINKLER INSPECTION REPORT 2220 E. Via Burton, Anaheim, California 92806 AUTOMATIC FIRE SPRINKLER SYSTEMS (714) 535-5761 FAX (714) 535-0576 DAT 0/6 - PROJECT ADDRESS Car ~V-~a TYPE OF INSPECTION: SLJV °ts - c - LECTóJ r 0 FLOW TEST SUMMARY REPORT pagel LOCATION:CARLSBAD AIRPORT DATE: TIME: Static Hydrant Number: Flowing Hydrant Number: Elevation: Elevation: Dist. Between Hydrants: Diameter of Main: 12 Outlet Diameter: 2.50 in Number flowing: 1 Coeff. Static pressure: 95.00 psi Residual pressure: Pitot Reading: 70.00 psi Flow: Flow at 20 psi: 4172.9 gpm GRAPH: PSI 100 +/Normal Pressure-No Flow-95.00 psi I S\\ I 90 + \\\\/Test Flow-1404.3 gpm-85.00 psi R... I 80+ .... I 70+ .... I 60 + .... I 50 + .... I 40 + .... I 30+ ... I 20 + Avail. Flow @ 20 psi=4172.9 gpm * 10 + I 0 +-+--.-+----+-----+------+--------+--------+---------+-----------+ 9001350 1800 2250 2700 3150 3600 4050 4500 FLOW (GPM) NOTES: Flowing hydrant is assumed to be on a circulating main or downstream of the pressure test hydrant on a dead-end system. Flow analysis assumes a gravity flow system with no distribution pumps and having no demand, other than the test flow. Distance between hydrants, elevations & main diameter are for information only. 0.90 85.00 psi 1404.3 gpm FLOW TEST SUMMARY REPORT page2 20. Normal Pressure-No Flow-95.00 psi Test Flow-1404.3 gpm-85.00 psi N N \ N N N N N \ N N \ \ N N N N N \ \ \ N \ \ \ N \ \ N \ N \ \ N N \ \ N \ N N N N N N N \ \ N \ N \ N \ N N \ \ N \ Avail. Flow @ 20 psi=4172.9 gpm'0 100. 90. 80. 70. G A 60. G E P R 50. E S S U 40. R E 30. 10. 8501275 1700 2125 2550 2975 3400 3825 4250 FLOW (GPM) LINDLEY FIRE PROTECTION Co. 2220 E. VIA BURTON ANAHEIM, CA 714-535-5761 HYDRAULIC CALCULATIONS FOR JETSOURCE 2036 PALOMAR AIRPORT RD. CARLSBAD, CA MEZZANINE DATE: 12-02-04 -DESIGN DATA- SYSTEM DENSITY: AREA OF APPLICATION: COVERAGE PER SPRINKLER: NUMBER OF SPRINKLERS CALCULATED TOTAL SPRINKLER WATER FLOW REQUIRED: TOTAL WATER REQUIRED (INCLUDING HOSE) FLOW AND PRESSURE & BASE OF RISER: SPRINKLER ORIFICE SIZE: CONTRACTOR CERTIFICATION NUMBER: .2 GPMISQ. FT. 900 SQ. FT. 130 SQ. FT. 8 SPRINKLERS 227.6 GPM 477.6 GPM 227.6 GPM @ 59.9 PSI 'A" C16/C34NO. 713562 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 1 DATE: 12/2/2004 C:\DATA\JETSOURCE.MEZZSDF.SDF JOB TITLE: JETSOURCE MEZZ. .2 FOR 900 SQ. FT. ORD. GROUP 2 WATER SUPPLY DATA SOURCE STATIC RESID. FLOW AVAIL. TOTAL REQ'D NODE PRESS. PRESS. @ PRESS. @ DEMAND PRESS. TAG (PSI) (PSI) (GPM) (PSI) (GPM) (PSI) U3 85.5 76.5 1404.0 84.3 477.6 64.9 AGGREGATE FLOW ANALYSIS: TOTAL FLOW AT SOURCE 477.6 GPM TOTAL HOSE STREAM ALLOWANCE AT SOURCE 150.0 GPM OTHER HOSE STREAM ALLOWANCES 100.0 GPM TOTAL DISCHARGE FROM ACTIVE SPRINKLERS 227.6 GPM NODE ANALYSIS DATA PRESSURE NODE TAG ELEVATION NODE TYPE TOTAL NORMAL DISCHARGE (FT) (PSI) (PSI) (GPM) Hi 33.3 - - - - 46.1 46.1 - - - H2 33.3 - - - - 46.1 46.1 - - - H3 33.3 - - - - 46.0 46.0 - - - H4 33.3 - - - - 46.0 46.0 - - - H5 33.3 - - - - 46.0 46.0 - - - H6 33.3 - - - - 46.0 46.0 - - - H7 33.3 - - - - 46.0 46.0 - - - H8 33.3 - - - - 46.1 46.1 - - - H9 33.3 - - - - 46.1 46.1 - - - H10 33.3 - - - - 46.0 46.0 - - - Nil 33.3 - - - - 46.0 46.0 - - - H12 33.3 - - - - 46.0 46.0 - - - H13 33.3 - - - - 46.0 46.0 - - - H14 33.3 - - - - 46.0 46.0 - - - H15 33.3 - - - - 46.1 46.1 - - - H16 33.3 - - - - 46.1 46.1 - - - H17 33.3 - - - - 46.0 46.0 - - - H18 33.3 - - - - 46.0 46.0 - - - H19 33.3 - - - - 46.0 46.0 - - - H20 33.3 - - - - 46.0 46.0 - - - H21 33.3 - - - - 46.0 46.0 - - - H22 33.3 - - - - 46.1 46.1 - - - H23 33.3 - - - - 46.1 46.1 - - - H24 33.3 - - - - 46.0 46.0 - - - H25 33.3 - - - - 46.0 46.0 - - - H26 33.3 - - - - 46.0 46.0 - - - H27 33.3 - - - - 46.0 46.0 - - - H28 33.3 - - - - 46.0 46.0 - - - H29 33.3 - - - - 46.1 46.1 - - - H30 33.3 - - - - 46.1 46.1 - - - H31 33.3 - - - - 46.1 46.0 - - - 1 29.2 - - - - 47.9 47.9 - - - 2 29.2 - - - - 47.9 47.9 - - - 3 29.2 - - - - 47.9 47.9 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 2 DATE: 12/2/2004 C:\DATA\JETSOURCE.MEZZSDF.SDF JOB TITLE: JETSOURCE MEZZ. .2 FOR 900 SQ. FT. ORD. GROUP 2 NODE ANALYSIS DATA PRESSURE NODE TAG ELEVATION NODE TYPE TOTAL NORMAL DISCHARGE (FT) (PSI) (PSI) (GPM) 4 29.2 - - - - 47.9 47.9 - - - 5 29.2 - - - - 47.9 47.9 - - - 6 29.2 - - - - 47.9 47.9 - - - 7 29.2 - - - - 47.9 47.9 - - - 8 29.2 - - - - 47.9 47.9 - - - 9 29.2 - - - - 47.9 47.9 - - - 10 29.2 - - - - 47.9 47.9 - - - 11 29.2 - - - - 47.9 47.9 - - - 12 29.2 - - - - 47.9 47.9 - - - 13 29.2 - - - - 47.9 47.9 - - - 14 29.2 - - - - 47.9 47.9 - - - 15 29.2 - - - - 47.9 47.9 - - - 16 29.2 - - - - 47.9 47.9 - - - 17 29.2 - - - 48.0 47.9 - - - 18 29.2 - - - - 48.0 47.9 - - - 19 29.2 - - - - 48.1 48.0 - - - 20 29.2 - - - - 48.0 47.9 - - - 21 29.2 - - - - 47.9 47.9 - - - 22 29.2 - - - - 47.9 47.9 - - - 23 29.2 - - - - 47.9 47.9 - - - 24 29.2 - - - - 47.9 47.9 - - - 25 29.2 - - - - 47.9 47.9 - - - 26 29.2 - - - - 47.9 47.9 - - - 27 29.2 - - - - 47.8 47.8 - - - 28 29.2 - - - - 47.8 47.8 - - - 29 29.2 - - - - 47.8 47.8 - - - 30 29.2 - - - - 47.8 47.8 - - - 31 29.2 - - - - 47.8 47.8 - - - 32 29.2 - - - - 47.8 47.8 - - - 33 29.2 - - - - 47.8 47.8 - - - 34 29.2 - - - - 47.8 47.8 - - - 35 29.2 - - - - 47.8 47.8 - - - 36 29.2 - - - - 47.8 47.8 - - - 37 29.2 - - - - 47.8 47.8 - - - 38 29.2 - - - - 47.8 47.8 - - - 39 29.2 - - - - 47.8 47.8 - - 40 29.2 - - - - 47.8 47.8 - - - 41 29.2 - - - - 47.8 47.8 - - - 42 29.2 - - - - 47.8 47.7 - - - 43 29.2 - - - - 47.7 47.7 - - - 44 29.2 - - - - 47.7 47.7 - - - 45 29.2 - - - - 47.7 47.6 - - - 46 29.2 - - - - 47.7 47.6 - - 47 29.2 - - - - 47.6 47.6 48 29.2 - - - - 47.6 47.6 - - - 49 29.2 - - - - 47.6 47.6 - - - 50 29.2 - - - - 47.6 47.6 - - - 51 29.2 - - - - 47.6 47.6 - - - 52 29.2 - - - - 47.1 47.0 - - - 53 29.2 - - - - 47.4 47.4 - - - 54 29.2 - - - - 47.6 47.6 - - - 55 29.2 - - - - 47.8 47.8 - - - SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 3 DATE: 12/2/2004 C:\DATA\JETSOURCE.MEZZSDF.SDF JOB TITLE: JETSOURCE MEZZ. .2 FOR 900 SQ. FT. ORD. GROUP 2 NODE ANALYSIS DATA PRESSURE NODE TAG ELEVATION NODE TYPE TOTAL NORMAL DISCHARGE (FT) (PSI) (PSI) (GPM) 56 29.2 - - - - 47.0 46.7 - - - 57 29.2 - - - - 47.6 47.6 - - - H32 11.3 K= 5.44 23.6 23.6 26.4 H33 11.3 K= 5.44 25.1 22.8 26.0 H34 11.3 K= 5.44 33.1 27.6 28.6 H35 11.3 K= 5.44 24.4 24.4 26.9 H36 11.3 K= 5.44 26.3 23.9 26.6 H37 11.3 K= 5.44 32.9 27.3 28.4 H38 11.3 K= 5.44 35.7 35.7 32.5 H39 11.3 K= 5.44 38.4 34.9 32.2 Ml 11.3 - - - - 46.2 45.7 - - - M2 11.3 - - - - 46.2 46.0 - - - M3 11.3 - - - - 46.5 45.8 - - - TOR 27.8 - - - - 48.8 48.7 - - - BOR 2.0 HOSE STREAM 60.0 59.9 100.0 Ul 2.0 - - - - 60.0 60.0 - - - U2 2.0 - - - - 64.0 64.0 - - - U3 0.0 SOURCE 64.9 64.9 327.6 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 4 DATE: 12/2/2004 C:\DATA\JETSOURCE.MEZZSDF.SDF JOB TITLE: JETSOURCE MEZZ. .2 FOR 900 SQ. FT. ORD. GROUP 2 PIPE DATA PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. PT PN DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (PSI) (PSI) (GPM) FL/FT (PSI) Pipe: 1 3.9 2.223 PL 48.88 PF 0.0 1 29.2 47.9 47.9 0.0 0.3 120 FTG 2T PE -1.8 Hi 33.3 46.1 46.1 0.0 0.000 TL 76.88 PV 0.0 Pipe: 2 3.9 2.223 PL 9.83 PF 0.0 Hi 33.3 46.1 46.1 0.0 0.3 120 FTC ---- FE 0.0 H2 33.3 46.1 46.1 0.0 0.000 TL 9.83 PV 0.0 Pipe: 3 3.9 2.223 PL 9.83 PF 0.0 H2 33.3 46.1 46.1 0.0 0.3 120 FTG ---- PE 0.0 H3 33.3 46.0 46.0 0.0 0.000 TL 9.83 PV 0.0 Pipe: 4 3.9 2.223 PL 9.83 PF 0.0 H3 33.3 46.0 46.0 0.0 0.3 120 FTG ---- PE 0.0 R4 33.3 46.0 46.0 0.0 0.000 TL 9.83 PV 0.0 Pipe: 5 3.9 2.223 PL 9.83 PF 0.0 H4 33.3 46.0 46.0 0.0 0.3 120 FTC ---- FE 0.0 H5 33.3 46.0 46.0 0.0 0.000 TL 9.83 PV 0.0 Pipe: 6 3.9 2.223 FL 9.83 PF 0.0 H5 33.3 46.0 46.0 0.0 0.3 120 FTG ---- FE 0.0 H6 33.3 46.0 46.0 0.0 0.000 TL 9.83 PV 0.0 Pipe: 7 3.9 2.223 FL 9.83 PF 0.0 R6 33.3 46.0 46.0 0.0 0.3 120 FTG ---- FE 0.0 1-17 33.3 46.0 46.0 0.0 0.000 TL 9.83 PV 0.0 Pipe: 8 3.9 2.223 FL 48.83 PF 0.0 H7 33.3 46.0 46.0 0.0 0.3 120 FTC 2T FE 1.8 27 29.2 47.8 47.8 0.0 0.000 TL 76.83 PV 0.0 Pipe: 9 3.9 2.223 FL 48.83 PF 0.0 2 29.2 47.9 47.9 0.0 0.3 120 FTG 2T FE -1.8 H8 33.3 46.1 46.1 0.0 0.000 TL 76.83 PV 0.0 Pipe: 10 3.9 2.223 FL 9.83 PF 0.0 H8 33.3 46.1 46.1 0.0 0.3 120 FTG ---- PE 0.0 H9 33.3 46.1 46.1 0.0 0.000 TL 9.83 FV 0.0 Pipe: ii 3.9 2.223 FL 9.83 PF 0.0 H9 33.3 46.1 46.1 0.0 0.3 120 FTC ---- FE 0.0 H10 33.3 46.0 46.0 0.0 0.000 TL 9.83 PV 0.0 Pipe: 12 3.9 2.223 FL 9.83 PF 0.0 H10 33.3 46.0 46.0 0.0 0.3 120 FTG ---- PE 0.0 Hil 33.3 46.0 46.0 0.0 0.000 TL 9.83 PV 0.0 Pipe: 13 3.9 2.223 FL 9.83 PF 0.0 Hil 33.3 46.0 46.0 0.0 0.3 120 FTG ---- FE 0.0 H12 33.3 46.0 46.0 0.0 0.000 TL 9.83 PV 0.0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 5 DATE: 12/2/2004 C:\DATA\JETSOURCE.MEZZSDF.SDF JOB TITLE: JETSOURCE MEZZ. .2 FOR 900 SQ. FT. ORD. GROUP 2 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. PT PN DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (PSI) (PSI) (GPM) FL/FT (PSI) Pipe: 14 3.9 2.223 PL 9.83 PF 0.0 H12 33.3 46.0 46.0 0.0 0.3 120 FTC ---- FE 0.0 H13 33.3 46.0 46.0 0.0 0.000 TL 9.83 PV 0.0 Pipe: 15 3.9 2.223 PL 9.83 PF 0.0 H13 33.3 46.0 46.0 0.0 0.3 120 FTG ---- PE 0.0 H14 33.3 46.0 46.0 0.0 0.000 TL 9.83 PV 0.0 Pipe: 16 3.9 2.223 FL 48.88 PF 0.0 H14 33.3 46.0 46.0 0.0 0.3 120 FTG 2T PE 1.8 28 29.2 47.8 47.8 0.0 0.000 TL 76.88 PV 0.0 Pipe: 17 3.9 2.223 PL 48.88 PF 0.0 3 29.2 47.9 47.9 0.0 0.3 120 FTC 2T FE -1.8 H15 33.3 46.1 46.1 0.0 0.000 TL 76.88 PV 0.0 Pipe: 18 3.9 2.223 FL 9.83 PF 0.0 1-115 33.3 46.1 46.1 0.0 0.3 120 FTG ---- FE 0.0 H16 33.3 46.1 46.1 0.0 0.000 TL 9.83 PV 0.0 Pipe: 19 3.9 2.223 PL 9.83 PF 0.0 H16 33.3 46.1 46.1 0.0 0.3 120 FTG ---- PE 0.0 1-117 33.3 46.0 46.0 0.0 0.000 TL 9.83 PV 0.0 Pipe: 20 3.9 2.223 FL 9.83 PF 0.0 H17 33.3 46.0 46.0 0.0 0.3 120 FTC ---- FE 0.0 H18 33.3 46.0 46.0 0.0 0.000 TL 9.83 PV 0.0 Pipe: 21 3.9 2.223 FL 9.83 PF 0.0 H18 33.3 46.0 46.0 0.0 0.3 120 FTG ---- PE 0.0 H19 33.3 46.0 46.0 0.0 0.000 TL 9.83 PV 0.0 Pipe: 22 3.9 2.223 FL 9.83 PF 0.0 H19 33.3 46.0 46.0 0.0 0.3 120 FTG ---- PE 0.0 H20 33.3 46.0 46.0 0.0 0.000 TL 9.83 PV 0.0 Pipe: 23 3.9 2.223 PL 9.83 PF 0.0 H20 33.3 46.0 46.0 0.0 0.3 120 FTC ---- FE 0.0 H21 33.3 46.0 46.0 0.0 0.000 TL 9.83 PV 0.0 Pipe: 24 3.9 2.223 FL 48.88 PF 0.0 H21 33.3 46.0 46.0 0.0 0.3 120 FTG 2T FE 1.8 29 29.2 47.8 47.8 0.0 0.000 TL 76.88 PV 0.0 Pipe: 25 4.0 2.223 FL 48.88 PF 0.0 4 29.2 47.9 47.9 0.0 0.3 120 FTG 2T PE -1.8 1-122 33.3 46.1 46.1 0.0 0.000 TL 76.88 PV 0.0 Pipe: 26 4.0 2.223 PL 9.83 PF 0.0 1-122 33.3 46.1 46.1 0.0 0.3 120 FTC ---- FE 0.0 H23 33.3 46.1 46.1 0.0 0.000 TL 9.83 PV 0.0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 6 DATE: 12/2/2004 C:\DATA\JETSOURCE.MEZZSDF.SDF JOB TITLE: JETSOURCE MEZZ. .2 FOR 900 SQ. FT. ORD. GROUP 2 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. PT PN DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (PSI) (PSI) (GPM) FL/FT (PSI) Pipe: 27 4.0 2.223 PL 9.83 PF 0.0 H23 33.3 46.1 46.1 0.0 0.3 120 FTG ---- PE 0.0 H24 33.3 46.0 46.0 0.0 0.000 TL 9.83 PV 0.0 Pipe: 28 4.0 2.223 PL 9.83 PF 0.0 H24 33.3 46.0 46.0 0.0 0.3 120 FTG ---- PE 0.0 H25 33.3 46.0 46.0 0.0 0.000 TL 9.83 PV 0.0 Pipe: 29 4.0 2.223 PL 9.83 PF 0.0 H25 33.3 46.0 46.0 0.0 0.3 120 FTG ---- PE 0.0 H26 33.3 46.0 46.0 0.0 0.000 TL 9.83 PV 0.0 Pipe: 30 4.0 2.223 PL 9.83 PF 0.0 H26 33.3 46.0 46.0 0.0 0.3 120 FTG ---- PE 0.0 H27 33.3 46.0 46.0 0.0 0.000 TL 9.83 PV 0.0 Pipe: 31 4.0 2.223 PL 9.83 PF 0.0 H27 33.3 46.0 46.0 0.0 0.3 120 FTG ---- PE 0.0 H28 33.3 46.0 46.0 0.0 0.000 TL 9.83 PV 0.0 Pipe: 32 4.0 2.223 PL 48.88 PF 0.0 H28 33.3 46.0 46.0 0.0 0.3 120 FTG 2T PE 1.8 30 29.2 47.8 47.8 0.0 0.000 TL 76.88 PV 0.0 Pipe: 33 4.0 2.223 PL 48.88 PF 0.0 5 29.2 47.9 47.9 0.0 0.3 120 FTG 2T PE -1.8 H29 33.3 46.1 46.1 0.0 0.000 TL 76.88 PV 0.0 Pipe: 34 4.0 2.223 PL 9.83 PF 0.0 H29 33.3 46.1 46.1 0.0 0.3 120 FTG ---- PE 0.0 H30 33.3 46.1 46.1 0.0 0.000 TL 9.83 PV 0.0 Pipe: 35 4.0 2.223 PL 9.83 PF 0.0 H30 33.3 46.1 46.1 0.0 0.3 120 FTG ---- PE 0.0 H31 33.3 46.1 46.0 0.0 0.000 TL 9.83 PV 0.0 Pipe: 36 4.0 2.223 PL 98.21 PF 0.0 H31 33.3 46.1 46.0 0.0 0.3 120 FTG 2T PE 1.8 31 29.2 47.8 47.8 0.0 0.000 TL 126.21 PV 0.0 Pipe: 37 4.2 2.223 PL 156.75 PF 0.0 6 29.2 47.9 47.9 0.0 0.3 120 FTG 4T PE 0.0 32 29.2 47.8 47.8 0.0 0.000 TL 212.75 PV 0.0 Pipe: 38 4.4 2.223 PL 156.75 PF 0.0 7 29.2 47.9 47.9 0.0 0.4 120 FTG 4T PE 0.0 33 29.2 47.8 47.8 0.0 0.000 TL 212.75 PV 0.0 Pipe: 39 4.7 2.223 PL 156.75 PF 0.0 8 29.2 47.9 47.9 0.0 0.4 120 FTG 4T PE 0.0 34 29.2 47.8 47.8 0.0 0.000 TL 212.75 PV 0.0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 7 DATE: 12/2/2004 C:\DATA\JETSOURCE.MEZZSDF.SDF JOB TITLE: JETSOURCE MEZZ. .2 FOR 900 SQ. FT. ORD. GROUP 2 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. PT PN DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (PSI) (PSI) (GPM) FL/FT (PSI) Pipe: 40 5.0 2.223 PL 156.75 PF 0.1 9 29.2 47.9 47.9 0.0 0.4 120 FTC 4T PE 0.0 35 29.2 47.8 47.8 0.0 0.000 TL 212.75 PV 0.0 Pipe: 41 5.4 2.223 PL 156.75 PF 0.1 10 29.2 47.9 47.9 0.0 0.4 120 FTG 4T PE 0.0 36 29.2 47.8 47.8 0.0 0.000 TL 212.75 PV 0.0 Pipe: 42 5.9 2.223 PL 156.75 PF 0.1 11 29.2 47.9 47.9 0.0 0.5 120 FTG 4T PE 0.0 37 29.2 47.8 47.8 0.0 0.000 TL 212.75 PV 0.0 Pipe: 43 5.9 2.223 PL 168.75 PF 0.1 12 29.2 47.9 47.9 0.0 0.5 120 FTC 4T8L PE 0.0 38 29.2 47.8 47.8 0.0 0.000 TL 256.75 PV 0.0 Pipe: 44 6.5 2.223 PL 168.75 PF 0.1 13 29.2 47.9 47.9 0.0 0.5 120 FTG 4T8L PE 0.0 39 29.2 47.8 47.8 0.0 0.000 TL 256.75 PV 0.0 Pipe: 45 7.1 2.223 PL 168.75 PF 0.1 14 29.2 47.9 47.9 0.0 0.6 120 FTG 4T8L PE 0.0 40 29.2 47.8 47.8 0.0 0.000 TL 256.75 PV 0.0 Pipe: 46 7.9 2.223 PL 168.75 PF 0.2 15 29.2 47.9 47.9 0.0 0.7 120 FTC 4T8L PE 0.0 41 29.2 47.8 47.8 0.0 0.001 TL 256.75 PV 0.0 Pipe: 47 8.7 2.223 PL 168.75 PF 0.2 16 29.2 47.9 47.9 0.0 0.7 120 FTG 4T8L PE 0.0 42 29.2 47.8 47.7 0.0 0.001 TL 256.75 PV 0.0 Pipe: 48 9.6 2.223 PL 168.75 PF 0.2 17 29.2 48.0 47.9 0.0 0.8 120 FTG 4T8L PE 0.0 43 29.2 47.7 47.7 0.0 0.001 TL 256.75 PV 0.0 Pipe: 49 11.8 2.223 PL 156.75 PF 0.3 18 29.2 48.0 47.9 0.0 1.0 120 FTC 4T PE 0.0 44 29.2 47.7 47.7 0.0 0.001 TL 212.75 PV 0.0 Pipe: 50 12.1 2.223 PL 156.75 PF 0.3 20 29.2 48.0 47.9 0.0 1.0 120 FTG 4T PE 0.0 45 29.2 47.7 47.6 0.0 0.001 TL 212.75 PV 0.0 Pipe: 51 12.2 2.223 PL 156.75 PF 0.3 21 29.2 47.9 47.9 0.0 1.0 120 FTG 4T PE 0.0 46 29.2 47.7 47.6 0.0 0.001 TL 212.75 PV 0.0 Pipe: 52 40.7 2.223 PL 22.96 PF 0.8 22 29.2 47.9 47.9 0.0 3.4 120 FTC 37P PE 0.0 52 29.2 47.1 47.0 0.0 0.012 TL 64.96 PV 0.1 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 8 DATE: 12/2/2004 C:\DATA\JETSOURCE.MEZZSDF.SDF JOB TITLE: JETSOURCE MEZZ. .2 FOR 900 SQ. FT. ORD. GROUP 2 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. PT PN DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (PSI) (PSI) (GPM) FL/FT (PSI) Pipe: 53 83.9 2.223 PL 2.50 PF 0.1 52 29.2 47.1 47.0 0.0 6.9 120 FTG ---- PE 0.0 56 29.2 47.0 46.7 0.0 0.048 TL 2.50 PV 0.3 Pipe: 54 -21.2 2.223 FL 125.79 PF 0.7 56 29.2 47.0 46.7 0.0 1.7 120 FTG 4T PE 0.0 46 29.2 47.7 47.6 0.0 0.004 TL 181.79 PV 0.0 Pipe: 55 -43.2 2.223 FL 19.75 PF 0.3 52 29.2 47.1 47.0 0.0 3.6 120 FTG L PE 0.0 53 29.2 47.4 47.4 0.0 0.014 TL 23.75 PV 0.1 Pipe: 56 -14.2 2.223 PL 59.33 PF 0.2 53 29.2 47.4 47.4 0.0 1.2 120 FTG 2T PE 0.0 54 29.2 47.6 47.6 0.0 0.002 TL 87.33 PV 0.0 Pipe: 57 -7.0 2.223 PL 63.04 PF 0.0 54 29.2 47.6 47.6 0.0 0.6 120 FTG 2TL PE 0.0 48 29.2 47.6 47.6 0.0 0.000 TL 95.04 PV 0.0 Pipe: 58 -7.2 2.223 PL 61.54 PF 0.0 54 29.2 47.6 47.6 0.0 0.6 120 FTG 2TL PE 0.0 49 29.2 47.6 47.6 0.0 0.001 TL 93.54 PV 0.0 Pipe: 59 29.0 2.223 PL 38.71 PF 0.5 23 29.2 47.9 47.9 0.0 2.4 120 FTG 2TL PE 0.0 53 29.2 47.4 47.4 0.0 0.007 TL 70.71 PV 0.0 Pipe: 60 7.7 2.223 PL 99.62 PF 0.1 24 29.2 47.9 47.9 0.0 0.6 120 FTG 2TL FE 0.0 55 29.2 47.8 47.8 0.0 0.001 TL 131.62 PV 0.0 Pipe: 61 15.0 2.223 PL 64.33 PF 0.2 55 29.2 47.8 47.8 0.0 1.2 120 FTG 2TL FE 0.0 50 29.2 47.6 47.6 0.0 0.002 TL 96.33 PV 0.0 Pipe: 62 7.3 2.223 PL 104.79 PF 0.1 25 29.2 47.9 47.9 0.0 0.6 120 FTG 3T PE 0.0 55 29.2 47.8 47.8 0.0 0.001 TL 146.79 PV 0.0 Pipe: 63 11.7 2.223 PL 156.75 PF 0.3 26 29.2 47.9 47.9 0.0 1.0 120 FTG 4T FE 0.0 51 29.2 47.6 47.6 0.0 0.001 TL 212.75 PV 0.0 Pipe: 64 -26.4 1.080 FL 7.83 PF 1.5 H32 11.3 23.6 23.6 26.4 9.3 120 FTG ---- PE 0.0 H33 11.3 25.1 22.8 26.0 0.189 TL 7.83 PV 0.6 Pipe: 65 -52.4 1.080 PL 11.83 PF 7.9 H33 11.3 25.1 22.8 26.0 18.4 120 FTG ---- PE 0.0 H34 11.3 33.1 27.6 28.6 0.672 TL 11.83 PV 2.3 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 9 DATE: 12/2/2004 C:\DATA\JETSOURCE.MEZZSDF.SDF JOB TITLE: JETSOURCE MEZZ. .2 FOR 900 SQ. FT. ORD. GROUP 2 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. PT PN DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (PSI) (PSI) (GPM) FL/FT (PSI) Pipe: 66 -81.0 1.080 PL 3.75 PF 13.2 H34 11.3 33.1 27.6 28.6 28.4 120 FTG T PE 0.0 Ml 11.3 46.2 45.7 0.0 1.503 TL 8.75 PV 5.4 Pipe: 67 -26.9 1.080 PL 9.42 PF 1.8 H35 11.3 24.4 24.4 26.9 9.4 120 FTG ---- PE 0.0 H36 11.3 26.3 23.9 26.6 0.195 TL 9.42 PV 0.6 Pipe: 68 -53.5 1.080 PL 9.42 PF 6.6 H36 11.3 26.3 23.9 26.6 18.7 120 FTG ---- PE 0.0 H37 11.3 32.9 27.3 28.4 0.697 TL 9.42 PV 2.4 Pipe: 69 -81.9 1.080 PL 3.67 PF 13.3 }{37 11.3 32.9 27.3 28.4 28.7 120 FTG T PE 0.0 M2 11.3 46.2 46.0 0.0 1.534 TL 8.67 PV 5.5 Pipe: 70 -32.5 1.080 PL 9.83 PF 2.7 1-138 11.3 35.7 35.7 32.5 11.4 120 FTG ---- PE 0.0 H39 11.3 38.4 34.9 32.2 0.277 TL 9.83 PV 0.9 Pipe: 71 -64.6 1.080 PL 3.21 PF 8.1 H39 11.3 38.4 34.9 32.2 22.6 120 FTG T PE 0.0 M3 11.3 46.5 45.8 0.0 0.989 TL 8.21 PV 3.4 Pipe: 72 -105.0 2.223 PL 77.67 PF 8.5 Ml 11.3 46.2 45.7 0.0 8.7 120 FTG 2T3L PE -7.7 56 29.2 47.0 46.7 0.0 0.072 TL 117.67 PV 0.5 Pipe: 73 24.0 2.223 PL 12.50 PF 0.1 Ml 11.3 46.2 45.7 0.0 2.0 120 FTG ---- PE 0.0 M2 11.3 46.2 46.0 0.0 0.005 TL 12.50 PV 0.0 Pipe: 74 -58.0 2.223 PL 14.21 PF 0.3 M2 11.3 46.2 46.0 0.0 4.8 120 FTG ---- PE 0.0 M3 11.3 46.5 45.8 0.0 0.024 TL 14.21 PV 0.2 Pipe: 75 -122.6 2.223 PL 60.21 PF 8.9 M3 11.3 46.5 45.8 0.0 10.1 120 FTG 2TL PE -7.7 47 29.2 47.6 47.6 0.0 0.096 TL 92.21 PV 0.7 Pipe: 76 3.9 4.328 PL 10.00 PF 0.0 27 29.2 47.8 47.8 0.0 0.1 120 FTG ---- PE 0.0 28 29.2 47.8 47.8 0.0 0.000 TL 10.00 PV 0.0 Pipe: 77 7.8 4.328 PL 10.00 PF 0.0 28 29.2 47.8 47.8 0.0 0.2 120 FTG ---- PE 0.0 29 29.2 47.8 47.8 0.0 0.000 TL 10.00 PV 0.0 Pipe: 78 11.7 4.328 PL 10.00 PF 0.0 29 29.2 47.8 47.8 0.0 0.3 120 FTG ---- PE 0.0 30 29.2 47.8 47.8 0.0 0.000 TL 10.00 PV 0.0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 10 DATE: 12/2/2004 C:\DATA\JETSOURCE.MEZZSDF.SDF JOB TITLE: JETSOURCE MEZZ. .2 FOR 900 SQ. FT. ORD. GROUP 2 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. PT PN DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (PSI) (PSI) (GPM) FL/FT (PSI) Pipe: 79 15.7 4.328 PL 10.00 PF 0.0 30 29.2 47.8 47.8 0.0 0.3 120 FTG ---- PE 0.0 31 29.2 47.8 47.8 0.0 0.000 TL 10.00 PV 0.0 Pipe: 80 19.7 4.328 PL 10.00 PF 0.0 31 29.2 47.8 47.8 0.0 0.4 120 FTG FE 0.0 32 29.2 47.8 47.8 0.0 0.000 TL 10.00 PV 0.0 Pipe: 81 23.9 4.328 PL 10.00 PF 0.0 32 29.2 47.8 47.8 0.0 0.5 120 FTG ---- FE 0.0 33 29.2 47.8 47.8 0.0 0.000 TL 10.00 PV 0.0 Pipe: 82 28.4 4.328 FL 10.00 PF 0.0 33 29.2 47.8 47.8 0.0 0.6 120 FTG ---- FE 0.0 34 29.2 47.8 47.8 0.0 0.000 TL 10.00 PV 0.0 Pipe: 83 33.1 4.328 PL 10.00 PF 0.0 34 29.2 47.8 47.8 0.0 0.7 120 FTG PE 0.0 35 29.2 47.8 47.8 0.0 0.000 TL 10.00 PV 0.0 Pipe: 84 38.1 4.328 FL 10.00 PF 0.0 35 29.2 47.8 47.8 0.0 0.8 120 FTG ---- FE 0.0 36 29.2 47.8 47.8 0.0 0.000 TL 10.00 PV 0.0 Pipe: 85 43.5 4.328 PL 10.00 PF 0.0 36 29.2 47.8 47.8 0.0 0.9 120 FTG ---- FE 0.0 37 29.2 47.8 47.8 0.0 0.001 TL 10.00 PV 0.0 Pipe: 86 49.5 4.328 FL 10.00 PF 0.0 37 29.2 47.8 47.8 0.0 1.1 120 FTG ---- PE 0.0 38 29.2 47.8 47.8 0.0 0.001 TL 10.00 PV 0.0 Pipe: 87 55.3 4.328 FL 10.00 PF 0.0 38 29.2 47.8 47.8 0.0 1.2 120 FTG ---- PE 0.0 39 29.2 47.8 47.8 0.0 0.001 TL 10.00 PV 0.0 Pipe: 88 61.8 4.328 FL 10.00 FE' 0.0 39 29.2 47.8 47.8 0.0 1.3 120 FTG ---- FE 0.0 40 29.2 47.8 47.8 0.0 0.001 TL 10.00 PV 0.0 Pipe: 89 68.9 4.328 FL 10.00 PF 0.0 40 29.2 47.8 47.8 0.0 1.5 120 FTG ---- PE 0.0 41 29.2 47.8 47.8 0.0 0.001 TL 10.00 PV 0.0 Pipe: 90 76.8 4.328 FL 10.00 PF 0.0 41 29.2 47.8 47.8 0.0 1.7 120 FTG ---- FE 0.0 42 29.2 47.8 47.7 0.0 0.002 TL 10.00 PV 0.0 Pipe: 91 85.5 4.328 FL 10.00 PF 0.0 42 29.2 47.8 47.7 0.0 1.9 120 FTG ---- FE 0.0 43 29.2 47.7 47.7 0.0 0.002 TL 10.00 PV 0.0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 11 DATE: 12/2/2004 C:\DATA\JETSOURCE.MEZZSDF.SDF JOB TITLE: JETSOURCE MEZZ. .2 FOR 900 SQ. FT. ORD. GROUP 2 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. PT PN DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (PSI) (PSI) (GPM) FL/FT (PSI) Pipe: 92 95.1 4.328 PL 10.00 PF 0.0 43 29.2 47.7 47.7 0.0 2.1 120 FTG ---- PE 0.0 44 29.2 47.7 47.7 0.0 0.002 TL 10.00 PV 0.0 Pipe: 93 107.0 4.328 PL 10.00 PF 0.0 44 29.2 47.7 47.7 0.0 2.3 120 FTG ---- PE 0.0 45 29.2 47.7 47.6 0.0 0.003 TL 10.00 PV 0.0 Pipe: 94 119.0 4.328 PL 10.00 PF 0.0 45 29.2 47.7 47.6 0.0 2.6 120 FTG ---- PE 0.0 46 29.2 47.7 47.6 0.0 0.004 TL 10.00 PV 0.0 Pipe: 95 110.1 4.328 PL 8.42 PF 0.0 46 29.2 47.7 47.6 0.0 2.4 120 FTG ---- PE 0.0 47 29.2 47.6 47.6 0.0 0.003 TL 8.42 PV 0.0 Pipe: 96 -12.5 4.328 PL 2.75 PF 0.0 47 29.2 47.6 47.6 0.0 0.3 120 FTG ---- PE 0.0 57 29.2 47.6 47.6 0.0 0.000 TL 2.75 PV 0.0 Pipe: 97 -12.5 4.328 PL 4.50 PF 0.0 57 29.2 47.6 47.6 0.0 0.3 120 FTG ---- PE 0.0 48 29.2 47.6 47.6 0.0 0.000 TL 4.50 PV 0.0 Pipe: 98 -19.5 4.328 PL 6.50 PF 0.0 48 29.2 47.6 47.6 0.0 0.4 120 FTG ---- PE 0.0 49 29.2 47.6 47.6 0.0 0.000 TL 6.50 PV 0.0 Pipe: 99 -26.7 4.328 PL 13.33 PF 0.0 49 29.2 47.6 47.6 0.0 0.6 120 FTG ---- PE 0.0 50 29.2 47.6 47.6 0.0 0.000 TL 13.33 PV 0.0 Pipe: 100 -11.7 4.328 PL 6.75 PF 0.0 50 29.2 47.6 47.6 0.0 0.3 120 FTG ---- PE 0.0 51 29.2 47.6 47.6 0.0 0.000 TL 6.75 PV 0.0 Pipe: 101 -3.9 4.328 PL 10.00 PF 0.0 1 29.2 47.9 47.9 0.0 0.1 120 FTG ---- PE 0.0 2 29.2 47.9 47.9 0.0 0.000 TL 10.00 PV 0.0 Pipe: 102 -7.8 4.328 PL 10.00 PF 0.0 2 29.2 47.9 47.9 0.0 0.2 120 FTG ---- PE 0.0 3 29.2 47.9 47.9 0.0 0.000 TL 10.00 PV 0.0 Pipe: 103 -11.7 4.328 PL 10.00 PF 0.0 3 29.2 47.9 47.9 0.0 0.3 120 FTG ---- PE 0.0 4 29.2 47.9 47.9 0.0 0.000 TL 10.00 PV 0.0 Pipe: 104 -15.7 4.328 PL 10.00 PF 0.0 4 29.2 47.9 47.9 0.0 0.3 120 FTG ---- PE 0.0 5 29.2 47.9 47.9 0.0 0.000 TL 10.00 PV 0.0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 12 DATE: 12/2/2004 C:\DATA\JETSOURCE.MEZZSDF.SDF JOB TITLE: JETSOURCE MEZZ. .2 FOR 900 SQ. FT. ORD. GROUP 2 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. PT PN DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (PSI) (PSI) (GPM) FL/FT (PSI) Pipe: 105 -19.7 4.328 PL 10.00 PF 0.0 5 29.2 47.9 47.9 0.0 0.4 120 FTG ---- PE 0.0 6 29.2 47.9 47.9 0.0 0.000 TL 10.00 PV 0.0 Pipe: 106 -23.9 4.328 PL 10.00 PF 0.0 6 29.2 47.9 47.9 0.0 0.5 120 FTG ---- PE 0.0 7 29.2 47.9 47.9 0.0 0.000 TL 10.00 PV 0.0 Pipe: 107 -28.4 4.328 PL 10.00 PF 0.0 7 29.2 47.9 47.9 0.0 0.6 120 FTG ---- PE 0.0 8 29.2 47.9 47.9 0.0 0.000 TL 10.00 PV 0.0 Pipe: 108 -33.1 4.328 PL 10.00 PF 0.0 8 29.2 47.9 47.9 0.0 0.7 120 FTG ---- PE 0.0 9 29.2 47.9 47.9 0.0 0.000 TL 10.00 PV 0.0 Pipe: 109 -38.1 4.328 PL 10.00 PF 0.0 9 29.2 47.9 47.9 0.0 0.8 120 FTG ---- PE 0.0 10 29.2 47.9 47.9 0.0 0.000 TL 10.00 PV 0.0 Pipe: 110 -43.5 4.328 PL 10.00 PF 0.0 10 29.2 47.9 47.9 0.0 0.9 120 FTG ---- PE 0.0 11 29.2 47.9 47.9 0.0 0.001 TL 10.00 PV 0.0 Pipe: 111 -49.5 4.328 PL 10.00 PF 0.0 11 29.2 47.9 47.9 0.0 1.1 120 FTG ---- PE 0.0 12 29.2 47.9 47.9 0.0 0.001 TL 10.00 PV 0.0 Pipe: 112 -55.3 4.328 PL 10.00 PF 0.0 12 29.2 47.9 47.9 0.0 1.2 120 FTG ---- PE 0.0 13 29.2 47.9 47.9 0.0 0.001 TL 10.00 PV 0.0 Pipe: 113 -61.8 4.328 PL 10.00 PF 0.0 13 29.2 47.9 47.9 0.0 1.3 120 FTG ---- PE 0.0 14 29.2 47.9 47.9 0.0 0.001 TL 10.00 PV 0.0 Pipe: 114 -68.9 4.328 PL 10.00 PF 0.0 14 29.2 47.9 47.9 0.0 1.5 120 FTG ---- PE 0.0 15 29.2 47.9 47.9 0.0 0.001 TL 10.00 PV 0.0 Pipe: 115 -76.8 4.328 PL 10.00 PF 0.0 15 29.2 47.9 47.9 0.0 1.7 120 FTG ---- PE 0.0 16 29.2 47.9 47.9 0.0 0.002 TL 10.00 PV 0.0 Pipe: 116 -85.5 4.328 PL 10.00 PF 0.0 16 29.2 47.9 47.9 0.0 1.9 120 FTG ---- PE 0.0 17 29.2 48.0 47.9 0.0 0.002 TL 10.00 PV 0.0 Pipe: 117 -95.1 4.328 PL 10.00 PF 0.0 17 29.2 48.0 47.9 0.0 2.1 120 FTG ---- PE 0.0 18 29.2 48.0 47.9 0.0 0.002 TL 10.00 PV 0.0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 13 DATE: 12/2/2004 C:\DATA\JETSOURCE.MEZZSDF.SDF JOB TITLE: JETSOURCE MEZZ. .2 FOR 900 SQ. FT. ORD. GROUP 2 PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. PT PN DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (PSI) (PSI) (GPM) FL/FT (PSI) Pipe: 118 -107.0 4.328 PL 5.83 PF 0.1 18 29.2 48.0 47.9 0.0 2.3 120 FTG T PE 0.0 19 29.2 48.1 48.0 0.0 0.003 TL 33.83 PV 0.0 Pipe: 119 120.6 4.328 PL 4.17 PF 0.1 19 29.2 48.1. 48.0 0.0 2.6 120 FTG T PE 0.0 20 29.2 48.0 47.9 0.0 0.004 TL 32.17 PV 0.0 Pipe: 120 108.6 4.328 PL 10.00 PF 0.0 20 29.2 48.0 47.9 0.0 2.4 120 FTG ---- PE 0.0 21 29.2 47.9 47.9 0.0 0.003 TL 10.00 PV 0.0 Pipe: 121 96.4 4.328 PL 13.75 PF 0.0 21 29.2 47.9 47.9 0.0 2.1 120 FTG ---- PE 0.0 22 29.2 47.9 47.9 0.0 0.002 TL 13.75 PV 0.0 Pipe: 122 55.7 4.328 PL 9.25 PF 0.0 22 29.2 47.9 47.9 0.0 1.2 120 FTG ---- PE 0.0 23 29.2 47.9 47.9 0.0 0.001 TL 9.25 PV 0.0 Pipe: 123 26.7 4.328 PL 4.75 PF 0.0 23 29.2 47.9 47.9 0.0 0.6 120 FTG ---- PE 0.0 24 29.2 47.9 47.9 0.0 0.000 TL 4.75 PV 0.0 Pipe: 124 18.9 4.328 PL 7.08 PF 0.0 24 29.2 47.9 47.9 0.0 0.4 120 FTG ---- PE 0.0 25 29.2 47.9 47.9 0.0 0.000 TL 7.08 PV 0.0 Pipe: 125 11.7 4.328 PL 7.50 PF 0.0 25 29.2 47.9 47.9 0.0 0.3 120 FTG ---- PE 0.0 26 29.2 47.9 47.9 0.0 0.000 TL 7.50 PV 0.0 Pipe: 126 -227.6 6.385 PL 18.92 PF 0.1 19 29.2 48.1 48.0 0.0 2.3 120 FTG 2L PE 0.6 TOR 27.8 48.8 48.7 0.0 0.002 TL 42.92 PV 0.0 Pipe: 127 -227.6 6.385 PL 24.42 PF 0.0 TOR 27.8 48.8 48.7 0.0 2.3 120 FTG ---- PE 11.2 BOR 2.0 60.0 59.9 100.0 0.002 TL 24.42 PV 0.0 Pipe: 128 -327.6 8.249 PL 0.50 PF 0.0 BOR 2.0 60.0 59.9 100.0 2.0 120 FTG TL PE 0.0 Ui 2.0 60.0 60.0 0.0 0.001 TL 48.50 PV 0.0 Pipe: 129 FIXED PRESSURE LOSS DEVICE U2 2.0 0.0 64.0 0.0 4.0 psi, 327.6 gpm Ui 2.0 0.0 60.0 0.0 Pipe: 130 -327.6 8.044 PL 7.50 PF 0.1 U2 2.0 64.0 64.0 0.0 2.1 150 FTG T2LG PE 0.9 U3 0.0 64.9 64.9 (N/A) 0.001. TL 72.50 PV 0.0 1.00 12.00 10.00 6.00 1.00 17.00 14.00 12.00 4.00 35.00 14.00 26.00 4.00 35.00 24.00 38.00 4.00 15.00 15.00 39.00 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 14 DATE: 12/2/2004 C:\DATA\JETSOURCE.MEZZSDF.SDF JOB TITLE: JETSOUP.CE MEZZ. .2 FOR 900 SQ. FT. ORD. GROUP 2 NOTES: Calculations were performed by the HASS 7.6 computer program under license no. 38010408 granted by HRS Systems, Inc. 4792 LaVista Road Tucker, GA 30084 The system has been calculated to provide an average imbalance at each node of 0.001 gpm and a maximum imbalance at any node of 0.069 gpm. Velocity pressures have been included in the calculation of the system pressures and flows. Maximum water velocity is 28.7 ft/sec at pipe 69. PIPE FITTINGS TABLE Pipe Table Name: LINDLEY.PIP PAGE: E MATERIAL: PVC150 }{WC: 150 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G N F Ell Tee LngEll ChkVlv BfyVlv GatVlv NPTee 45 8.044 26.00 35.00 13.00 45.00 17.00 4.00 35.00 9.00 PAGE: J MATERIAL: LINDLE HWC: 120 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G A D N Ell Tee LngEll ChkVlv BfyVlv GatVlv AlmChk DPVlv NPTee -------------------------------------------------------- 45 1.080 2.00 5.00 2.00 5.00 8.00 1.00 2.223 7.00 14.00 4.00 15.00 10.00 2.00 4.328 14.00 28.00 9.00 31.00 22.00 4 .00 6.385 18.00 39.00 12.00 40.00 13.00 7.00 8.249 18.00 35.00 13.00 45.00 13.00 9.00 100.0 WATER SUPPLY ANALYSIS Static: 85.50 psi Resid: 76.50 psi Flow: 1404.0 gpm LEGEND Available pressure 84.28 psi @ 477.6 gpm Required pressure 2 64.94 psi 8 477.6 gpm Source Supply Curve System Demand Curve A U G E 2 P 60.0 R E S S U R E 40.0 p S ± 20.0 -14.71 i I i i i i I 400 600 800 1000 1200 1400 1600 it:IsIs] FLOW (GPM) SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 16 DATE: 12/2/2004 C:\DATA\JETSOURCE.MEZZSDF.SDF JOB TITLE: JETSOURCE MEZZ. .2 FOR 900 SQ. FT. ORD. GROUP 2 WATER SUPPLY CURVE 96+ 88+ *\\\\\\ I 0 \\\\\\\ \\\\\\\ 80+ \\\\\\\ \\\\\\ I * <-76.5 psi @ 1404 gpm I Flow Test Point 72+ P64+ X R I E I S I S 56+ U I R I E I 48+ ( I P S I 40+ ) I 32+ 24+ 16+ LEGEND I 'I X = Required Water Supply I 64.94 psi @ 477.6 gpm 8+ 0 = Available Water Supply 84.28 psi @ 477.6 gpm 0++-+---+----+-----+------+--------+--------+---------+-----------+ 400 600 800 1000 1200 1400 1600 1800 2000 FLOW (GPM) SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 17 DATE: 12/2/2004 C:\DATA\JETSOURCE.MEZZSDF.SDF JOB TITLE: JETSOURCE MEZZ. .2 FOR 900 SQ. FT. ORD. GROUP 2 Utility Report: Equivalent K-Factor Calculator Node Sprinkler Pres. Dia. Pipe Ftgs. Total H-W Equivalent Name K-Factor (psi) (in) Len. (ft) Len. (ft) coef. K-factor ANY 5.60 21.60 1.080 ----------------------------------------------------------------------- 2.00 T 7.00 120.00 5.44 LINDLEY FIRE PROTECTION Co. 2220 E. VIA BURTON ANAHEIM, CA 714-535-5761 HYDRAULIC CALCULATIONS FOR JETSOURCE 2036 PALOMAR AIRPORT RD. CARLSBAD, CA ROOF DATE: 12-02-04 -DESIGN DATA- SYSTEM DENSITY: AREA OF APPLICATION: COVERAGE PER SPRINKLER: NUMBER OF SPRINKLERS CALCULATED: TOTAL SPRINKLER WATER FLOW REQUIRED: TOTAL WATER REQUIRED (INCLUDING HOSE) FLOW AND PRESSURE & BASE OF RISER: SPRINKLER ORIFICE SIZE: CONTRACTOR CERTIFICATION NUMBER: .45 GPM/SQ. FT. 3000 SQ. FT. 98 SQ. FT. 31 SPRINKLERS 1434.4 GPM 1934.4 GPM 1434.4 GPM @ 61.7 PSI 3 /417 C16/C34NO. 713562 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 1 DATE: 12/2/2004 C:\DATA\JETSOURCE.SDF JOB TITLE: JETSOURCE ROOF .45 FOR 3000 SQ. FT. WATER SUPPLY DATA SOURCE STATIC RESID. FLOW AVAIL. TOTAL REQ'D NODE PRESS. PRESS. @ PRESS. @ DEMAND PRESS. TAG (PSI) (PSI) (GPM) (PSI) (GPM) (PSI) U3 85.5 76.5 1404.0 69.2 1934.4 67.9 AGGREGATE FLOW ANALYSIS: TOTAL FLOW AT SOURCE 1934.4 GPM TOTAL HOSE STREAM ALLOWANCE AT SOURCE 400.0 GPM OTHER HOSE STREAM ALLOWANCES 100.0 GPM TOTAL DISCHARGE FROM ACTIVE SPRINKLERS 1434.4 GPM NODE ANALYSIS DATA PRESSURE NODE TAG ELEVATION NODE TYPE TOTAL NORMAL DISCHARGE (FT) (PSI) (PSI) (GPM) Hi 33.3 K=14.00 11.3 10.2 44.7 H2 33.3 K=14.00 10.5 10.0 44.2 H3 33.3 K=14.00 10.2 10.0 44.4 H4 33.3 K=14.00 10.2 10.2 44.7 H5 33.3 K=14.00 10.2 10.0 44.4 H6 33.3 K=14.00 10.6 10.0 44.2 H7 33.3 K=14.00 11.3 10.2 44.8 H8 33.3 K=14.00 11.4 10.2 44.8 H9 33.3 K=14.00 10.6 10.0 44.3 H10 33.3 K=14.00 10.3 10.1 44.4 Hii 33.3 K=14.00 10.2 10.2 44.8 H12 33.3 K=14.00 10.3 10.1 44.4 H13 33.3 K=14.00 10.6 10.0 44.3 H14 33.3 K=14.00 11.4 10.2 44.8 His 33.3 K=14.00 11.5 10.3 45.0 H16 33.3 K=14.00 10.7 10.1 44.5 H17 33.3 K14.00 10.4 10.2 44.6 H18 33.3 K=14.00 10.3 10.3 45.0 H19 33.3 K=14.00 10.4 10.2 44.6 H20 33.3 K=14.00 10.7 10.1 44.5 H21 33.3 K=14.00 11.5 10.3 45.0 H22 33.3 K=14.00 11.7 10.5 45.5 H23 33.3 K=14.00 10.9 10.3 44.9 H24 33.3 K=14.00 10.6 10.4 45.1 H25 33.3 K=14.00 10.5 10.5 45.4 H26 33.3 K=14.00 10.6 10.4 45.1 H27 33.3 K=14.00 10.9 10.3 44.9 H28 33.3 K=14.00 11.7 10.6 45.5 H29 33.3 K=14.00 19.0 18.5 60.3 H30 33.3 K=14.00 18.9 18.9 60.8 H31 33.3 K=14.00 18.9 18.6 60.4 1 29.2 - - - - 24.6 24.5 - - - 2 29.2 - - - - 24.6 24.3 - - - 3 29.2 - - - - 24.9 24.2 - - - SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 2 DATE: 12/2/2004 C:\DATA\JET5OtJRCE.SDF JOB TITLE: JETSOURCE ROOF .45 FOR 3000 SQ. FT. NODE ANALYSIS DATA PRESSURE NODE TAG ELEVATION NODE TYPE TOTAL NORMAL DISCHARGE (FT) (PSI) (PSI) (GPM) 4 29.2 - - - - 25.3 24.0 5 29.2 - - - - 26.1 24.4 - - - 6 29.2 - - - - 27.1 25.4 - - - 7 29.2 - - - - 28.1 26.4 - - - 8 29.2 - - - - 29.1 27.4 - - - 9 29.2 - - - - 30.1 28.4 - - - 10 29.2 - - - - 31.1 29.3 - - - 11 29.2 - - - - 32.2 30.3 - - - 12 29.2 - - - - 33.3 31.3 - - - 13 29.2 - - - - 34.4 32.4 14 29.2 - - - - 35.6 33.4 - - - 15 29.2 - - - - 36.8 34.5 - - - 16 29.2 - - - - 38.1 35.7 - - - 17 29.2 - - - - 39.6 36.9 - - - 18 29.2 - - - - 41.1 38.1 - - - 19 29.2 - - - - 46.9 45.5 - - - 20 29.2 - - - - 45.5 44.8 - - - 21 29.2 - - - - 45.2 44.7 - - - 22 29.2 - - - - 44.9 44.6 23 29.2 - - - - 44.8 44.6 - - - 24 29.2 - - - - 44.8 44.7 - - - 25 29.2 - - - - 44.7 44.7 - - - 26 29.2 - - - - 44.7 44.7 - - - 27 29.2 - - - - 24.7 24.6 - - - 28 29.2 - - - - 24.7 24.4 - - - 29 29.2 - - - - 24.9 24.2 - - - 30 29.2 - - - - 25.4 24.1 - - - 31 29.2 - - - - 26.1 24.6 - - - 32 29.2 - - - - 27.1 25.5 - - - 33 29.2 - - - - 28.1 26.5 - - - 34 29.2 - - - - 29.0 27.4 - - - 35 29.2 - - - - 30.0 28.4 - - - 36 29.2 - - - - 30.9 29.4 37 29.2 - - - - 31.9 30.4 - - - 38 29.2 - - - - 32.7 31.3 - - - 39 29.2 - - - - 33.6 32.3 - - - 40 29.2 - - - - 34.4 33.2 41 29.2 - - - - 35.1 34.0 - - - 42 29.2 - - - - 35.8 34.8 - - - 43 29.2 - - - - 36.4 35.6 - - - 44 29.2 - - - - 37.0 36.3 - - - 45 29.2 - - - - 37.4 36.9 - - - 46 29.2 - - - - 37.7 37.5 - - - 47 29.2 - - - - 37.9 37.7 - - - 48 29.2 - - - - 37.9 37.8 - - - 49 29.2 - - - - 38.0 37.9 - - - 50 29.2 - - - - 38.1 37.7 - - - 51 29.2 - - - - 38.1 37.9 - - - 52 29.2 - - - - 41.6 41.3 - - - 53 29.2 - - - - 41.7 41.4 - - - 54 29.2 - - - - 38.8 38.6 - - - 55 29.2 - - - - 42.8 42.7 - - - SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 3 DATE: 12/2/2004 C:\DATA\JETSOURCE.SDF JOB TITLE: JETSOURCE ROOF .45 FOR 3000 SQ. FT. NODE ANALYSIS DATA PRESSURE NODE TAG ELEVATION NODE TYPE TOTAL NORMAL DISCHARGE (FT) (PSI) (PSI) (GPM) 56 29.2 - - - - 41.5 41.0 - - - 57 29.2 - - - - 37.9 37.7 H32 11.3 - - - - 47.4 47.4 - - - H33 11.3 - - - - 47.4 47.4 - - - H34 11.3 - - - - 47.4 47.4 - - - H35 11.3 - - - - 47.2 47.2 - - - H36 11.3 - - - - 47.2 47.2 - - - H37 11.3 - - - - 47.2 47.2 - - - H38 11.3 - - - - 47.0 47.0 - - - H39 11.3 - - - - 47.0 47.0 - - - Ml 11.3 - - - - 47.4 47.3 - - - M2 11.3 - - - - 47.2 47.1 - - - M3 11.3 - - - - 47.0 46.9 - - - TOR 27.8 - - - - 49.8 48.4 - - - BOR 2.0 HOSE STREAM 62.3 61.7 100.0 Ui 2.0 - - - - 63.1 63.1 - - - U2 2.0 - - - - 66.1 66.1 - - - U3 0.0 SOURCE 67.9 67.9 1534.4 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 4 DATE: 12/2/2004 C:\DATA\JETSOURCE.SDF JOB TITLE: JETSOURCE ROOF .45 FOR 3000 SQ. FT. PIPE DATA PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. PT PN DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (PSI) (PSI) (GPM) FL/FT (PSI) Pipe: 1 155.4 2.223 PL 48.88 PF 11.5 1 29.2 24.6 24.5 0.0 12.8 120 FTG 2T PE -1.8 Hi 33.3 11.3 10.2 44.7 0.149 TL 76.88 PV 1.1 Pipe: 2 110.7 2.223 PL 9.83 PF 0.8 Hi 33.3 11.3 10.2 44.7 9.1 120 FTC ---- PE 0.0 H2 33.3 10.5 10.0 44.2 0.080 TL 9.83 PV 0.6 Pipe: 3 66.5 2.223 PL 9.83 PF 0.3 H2 33.3 10.5 10.0 44.2 5.5 120 FTG ---- PE 0.0 H3 33.3 10.2 10.0 44.4 0.031 TL 9.83 PV 0.2 Pipe: 4 22.1 2.223 PL 9.83 PF 0.0 H3 33.3 10.2 10.0 44.4 1.8 120 FTG ---- PE 0.0 H4 33.3 10.2 10.2 44.7 0.004 TL 9.83 PV 0.0 Pipe: 5 -22.6 2.223 PL 9.83 PF 0.0 H4 33.3 10.2 10.2 44.7 1.9 120 FTC ---- PE 0.0 H5 33.3 10.2 10.0 44.4 0.004 TL 9.83 PV 0.0 Pipe: 6 -67.0 2.223 PL 9.83 PF 0.3 H5 33.3 10.2 10.0 44.4 5.5 120 FTG ---- PE 0.0 H6 33.3 10.6 10.0 44.2 0.031 TL 9.83 PV 0.2 Pipe: 7 -111.2 2.223 PL 9.83 PF 0.8 H6 33.3 10.6 10.0 44.2 9.2 120 FTG ---- PE 0.0 H7 33.3 11.3 10.2 44.8 0.080 TL 9.83 PV 0.6 Pipe: 8 -156.0 2.223 PL 48.83 PF 11.5 H7 33.3 11.3 10.2 44.8 12.9 120 FTC 2T PE 1.8 27 29.2 24.7 24.6 0.0 0.150 TL 76.83 PV 1.1 Pipe: 9 155.7 2.223 FL 48.83 PF 11.5 2 29.2 24.6 24.3 0.0 12.9 120 FTG 2T PE -1.8 H8 33.3 11.4 10.2 44.8 0.149 TL 76.83 PV 1.1 Pipe: 10 110.9 2.223 PL 9.83 PF 0.8 H8 33.3 11.4 10.2 44.8 9.2 120 FTG ---- PE 0.0 H9 33.3 10.6 10.0 44.3 0.080 TL 9.83 PV 0.6 Pipe: 11 66.6 2.223 PL 9.83 PF 0.3 H9 33.3 10.6 10.0 44.3 5.5 120 FTC ---- FE 0.0 H10 33.3 10.3 10.1 44.4 0.031 TL 9.83 PV 0.2 Pipe: 12 22.2 2.223 PL 9.83 PF 0.0 H10 33.3 10.3 10.1 44.4 1.8 120 FTG ---- PE 0.0 Hil 33.3 10.2 10.2 44.8 0.004 TL 9.83 PV 0.0 Pipe: 13 -22.6 2.223 PL 9.83 PF 0.0 H11 33.3 10.2 10.2 44.8 1.9 120 FTG ---- PE 0.0 H12 33.3 10.3 10.1 44.4 0.004 TL 9.83 PV 0.0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 5 DATE: 12/2/2004 C:\DATA\JETSOURCE.SDF JOB TITLE: JETSOURCE ROOF .45 FOR 3000 SQ. FT. PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. PT PN DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (PSI) (PSI) (GPM) FL/FT (PSI) Pipe: 14 -67.0 2.223 PL 9.83 PF 0.3 1-112 33.3 10.3 10.1 44.4 5.5 120 FTC ---- PE 0.0 H13 33.3 10.6 10.0 44.3 0.031 TL 9.83 PV 0.2 Pipe: 15 -111.3 2.223 PL 9.83 PF 0.8 H13 33.3 10.6 10.0 44.3 9.2 120 FTG ---- PE 0.0 H14 33.3 11.4 10.2 44.8 0.080 TL 9.83 PV 0.6 Pipe: 16 -156.1 2.223 PL 48.88 PF 11.6 H14 33.3 11.4 10.2 44.8 12.9 120 FTG 2T PE 1.8 28 29.2 24.7 24.4 0.0 0.150 TL 76.88 PV 1.1 Pipe: 17 156.4 2.223 PL 48.88 PF 11.6 3 29.2 24.9 24.2 0.0 12.9 120 FTC 2T PE -1.8 H15 33.3 11.5 10.3 45.0 0.151 TL 76.88 PV 1.1 Pipe: 18 111.4 2.223 PL 9.83 PF 0.8 H15 33.3 11.5 10.3 45.0 9.2 120 FTG ---- PE 0.0 H16 33.3 10.7 10.1 44.5 0.080 TL 9.83 PV 0.6 Pipe: 19 66.9 2.223 PL 9.83 PF 0.3 H16 33.3 10.7 10.1 44.5 5.5 120 FTG ---- PE 0.0 1-117 33.3 10.4 10.2 44.6 0.031 TL 9.83 PV 0.2 Pipe: 20 22.3 2.223 PL 9.83 PF 0.0 H17 33.3 10.4 10.2 44.6 1.8 120 FTC ---- PE 0.0 1-118 33.3 10.3 10.3 45.0 0.004 TL 9.83 PV 0.0 Pipe: 21 -22.7 2.223 PL 9.83 PF 0.0 H18 33.3 10.3 10.3 45.0 1.9 120 FTG ---- PE 0.0 H19 33.3 10.4 10.2 44.6 0.004 TL 9.83 PV 0.0 Pipe: 22 -67.3 2.223 PL 9.83 PF 0.3 H19 33.3 10.4 10.2 44.6 5.6 120 FTG ---- PE 0.0 H20 33.3 10.7 10.1 44.5 0.032 TL 9.83 PV 0.2 Pipe: 23 -111.8 2.223 PL 9.83 PF 0.8 1-120 33.3 10.7 10.1 44.5 9.2 120 FTC ---- PE 0.0 H21 33.3 11.5 10.3 45.0 0.081 TL 9.83 PV 0.6 Pipe: 24 -156.9 2.223 PL 48.88 PF 11.7 H21 33.3 11.5 10.3 45.0 13.0 120 FTG 2T PE 1.8 29 29.2 24.9 24.2 0.0 0.152 TL 76.88 PV 1.1 Pipe: 25 158.0 2.223 PL 48.88 PF 11.8 4 29.2 25.3 24.0 0.0 13.1 120 FTG 2T PE -1.8 H22 33.3 11.7 10.5 45.5 0.154 TL 76.88 PV 1.1 Pipe: 26 112.5 2.223 PL 9.83 PF 0.8 H22 33.3 11.7 10.5 45.5 9.3 120 FTC ---- PE 0.0 H23 33.3 10.9 10.3 44.9 0.082 TL 9.83 PV 0.6 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 6 DATE: 12/2/2004 C:\DATA\JETSOURCE.SDF JOB TITLE: JETSOURCE ROOF .45 FOR 3000 SQ. FT. PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. PT PN DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (PSI) (PSI) (GPM) FL/FT (PSI) Pipe: 27 67.5 2.223 PL 9.83 PF 0.3 H23 33.3 10.9 10.3 44.9 5.6 120 FTG ---- PE 0.0 H24 33.3 10.6 10.4 45.1 0.032 TL 9.83 PV 0.2 Pipe: 28 22.5 2.223 PL 9.83 PF 0.0 H24 33.3 10.6 10.4 45.1 1.9 120 FTG ---- PE 0.0 H25 33.3 10.5 10.5 45.4 0.004 TL 9.83 PV 0.0 Pipe: 29 -23.0 2.223 PL 9.83 PF 0.0 H25 33.3 10.5 10.5 45.4 1.9 120 FTG ---- PE 0.0 H26 33.3 10.6 10.4 45.1 0.004 TL 9.83 PV 0.0 Pipe: 30 -68.0 2.223 PL 9.83 PF 0.3 H26 33.3 10.6 10.4 45.1 5.6 120 FTG ---- PE 0.0 H27 33.3 10.9 10.3 44.9 0.032 TL 9.83 PV 0.2 Pipe: 31 -113.0 2.223 PL 9.83 PF 0.8 H27 33.3 10.9 10.3 44.9 9.3 120 FTG ---- PE 0.0 H28 33.3 11.7 10.6 45.5 0.083 TL 9.83 PV 0.6 Pipe: 32 -158.4 2.223 PL 48.88 PF 11.9 H28 33.3 11.7 10.6 45.5 13.1 120 FTG 2T PE 1.8 30 29.2 25.4 24.1 0.0 0.154 TL 76.88 PV 1.2 Pipe: 33 102.0 2.223 PL 48.88 PF 5.3 5 29.2 26.1 24.4 0.0 8.4 120 FTG 2T PE -1.8 H29 33.3 19.0 18.5 60.3 0.068 TL 76.88 PV 0.5 Pipe: 34 41.7 2.223 PL 9.83 PF 0.1 H29 33.3 19.0 18.5 60.3 3.5 120 FTG ---- PE 0.0 H30 33.3 18.9 18.9 60.8 0.013 TL 9.83 PV 0.1. Pipe: 35 -19.1 2.223 PL 9.83 PF 0.0 J-{30 33.3 18.9 18.9 60.8 1.6 120 FTG ---- PE 0.0 H31 33.3 18.9 18.6 60.4 0.003 TL 9.83 PV 0.0 Pipe: 36 -79.5 2.223 PL 98.21 PF 5.4 H31 33.3 18.9 18.6 60.4 6.6 120 FTG 2T PE 1.8 31 29.2 26.1 24.6 0.0 0.043 TL 126.21 PV 0.3 Pipe: 37 -3.8 2.223 PL 156.75 PF 0.0 6 29.2 27.1 25.4 0.0 0.3 120 FTG 4T PE 0.0 32 29.2 27.1 25.5 0.0 0.000 TL 212.75 PV 0.0 Pipe: 38 0.4 2.223 PL 156.75 PF 0.0 7 29.2 28.1 26.4 0.0 0.0 120 FTG 4T PE 0.0 33 29.2 28.1 26.5 0.0 0.000 TL 212.75 PV 0.0 Pipe: 39 4.0 2.223 PL 156.75 PF 0.0 8 29.2 29.1 27.4 0.0 0.3 120 FTG 4T PE 0.0 34 29.2 29.0 27.4 0.0 0.000 TL 212.75 PV 0.0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 7 DATE: 12/2/2004 C:\DATA\JETSOURCE.SDF JOB TITLE: JETSOURCE ROOF .45 FOR 3000 SQ. FT. PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. PT PN DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (PSI) (PSI) (GPM) FL/FT (PSI) Pipe: 40 6.6 2.223 PL 156.75 PF 0.1 9 29.2 30.1 28.4 0.0 0.5 120 FTC 4T PE 0.0 35 29.2 30.0 28.4 0.0 0.000 TL 212.75 PV 0.0 Pipe: 41 9.5 2.223 PL 156.75 PF 0.2 10 29.2 31.1 29.3 0.0 0.8 120 FTG 4T PE 0.0 36 29.2 30.9 29.4 0.0 0.001 TL 212.75 PV 0.0 Pipe: 42 12.9 2.223 PL 156.75 PF 0.3 11 29.2 32.2 30.3 0.0 1.1 120 FTG 4T PE 0.0 37 29.2 31.9 30.4 0.0 0.001 TL 212.75 PV 0.0 Pipe: 43 15.2 2.223 PL 168.75 PF 0.5 12 29.2 33.3 31.3 0.0 1.3 120 FTC 4T8L FE 0.0 38 29.2 32.7 31.3 0.0 0.002 TL 256.75 PV 0.0 Pipe: 44 19.2 2.223 PL 168.75 PF 0.8 13 29.2 34.4 32.4 0.0 1.6 120 FTG 4T8L PE 0.0 39 29.2 33.6 32.3 0.0 0.003 TL 256.75 PV 0.0 Pipe: 45 23.7 2.223 PL 168.75 PF 1.2 14 29.2 35.6 33.4 0.0 2.0 120 FTG 4T8L PE 0.0 40 29.2 34.4 33.2 0.0 0.005 TL 256.75 PV 0.0 Pipe: 46 28.6 2.223 PL 168.75 PF 1.7 15 29.2 36.8 34.5 0.0 2.4 120 FTC 4T8L FE 0.0 41 29.2 35.1 34.0 0.0 0.007 TL 256.75 PV 0.0 Pipe: 47 34.1 2.223 PL 168.75 PF 2.3 16 29.2 38.1 35.7 0.0 2.8 120 FTG 4T8L PE 0.0 42 29.2 35.8 34.8 0.0 0.009 TL 256.75 PV 0.1 Pipe: 48 40.1 2.223 FL 168.75 PF 3.1 17 29.2 39.6 36.9 0.0 3.3 120 FTG 4T8L PE 0.0 43 29.2 36.4 35.6 0.0 0.012 TL 256.75 PV 0.1 Pipe: 49 51.7 2.223 PL 156.75 PF 4.1 18 29.2 41.1 38.1 0.0 4.3 120 FTC 4T FE 0.0 44 29.2 37.0 36.3 0.0 0.019 TL 212.75 PV 0.1 Pipe: 50 74.3 2.223 PL 156.75 PF 8.1 20 29.2 45.5 44.8 0.0 6.1 120 FTG 4T FE 0.0 45 29.2 37.4 36.9 0.0 0.038 TL 212.75 PV 0.3 Pipe: 51 71.1 2.223 PL 156.75 PF 7.5 21 29.2 45.2 44.7 0.0 5.9 120 FTG 4T PE 0.0 46 29.2 37.7 37.5 0.0 0.035 TL 212.75 PV 0.2 Pipe: 52 86.3 2.223 PL 22.96 PF 3.3 22 29.2 44.9 44.6 0.0 7.1 120 FTC 3T FE 0.0 52 29.2 41.6 41.3 0.0 0.050 TL 64.96 PV 0.3 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 8 DATE: 12/2/2004 C:\DATA\JETSOURCE.SDF JOB TITLE: JETSOURCE ROOF .45 FOR 3000 SQ. FT. PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. PT PN DISC. VEL(FPS) HW(C) (FT) SUN. NODES (FT) (PSI) (PSI) (GPM) FL/FT (PSI) Pipe: 53 98.6 2.223 PL 2.50 PF 0.2 52 29.2 41.6 41.3 0.0 8.1 120 FTG ---- PE 0.0 56 29.2 41.5 41.0 0.0 0.064 TL 2.50 PV 0.4 Pipe: 54 53.3 2.223 PL 125.79 PF 3.7 56 29.2 41.5 41.0 0.0 4.4 120 FTG 4T PE 0.0 46 29.2 37.7 37.5 0.0 0.021 TL 181.79 PV 0.1 Pipe: 55 -12.2 2.223 PL 19.75 PF 0.0 52 29.2 41.6 41.3 0.0 1.0 120 FTG L PE 0.0 53 29.2 41.7 41.4 0.0 0.001 TL 23.75 PV 0.0 Pipe: 56 68.2 2.223 PL 59.33 PF 2.8 53 29.2 41.7 41.4 0.0 5.6 120 FTG 2T PE 0.0 54 29.2 38.8 38.6 0.0 0.033 TL 87.33 PV 0.2 Pipe: 57 34.5 2.223 FL 63.04 PF 0.9 54 29.2 38.8 38.6 0.0 2.9 120 FTG 2TL PE 0.0 48 29.2 37.9 37.8 0.0 0.009 TL 95.04 PV 0.1 Pipe: 58 33.7 2.223 PL 61.54 PF 0.8 54 29.2 38.8 38.6 0.0 2.8 120 FTG 2TL PE 0.0 49 29.2 38.0 37.9 0.0 0.009 TL 93.54 PV 0.1 Pipe: 59 80.5 2.223 PL 38.71 PF 3.1 23 29.2 44.8 44.6 0.0 6.7 120 FTG 2TL FE 0.0 53 29.2 41.7 41.4 0.0 0.044 TL 70.71 PV 0.3 Pipe: 60 44.2 2.223 PL 99.62 PF 1.9 24 29.2 44.8 44.7 0.0 3.7 120 FTG 2TL FE 0.0 55 29.2 42.8 42.7 0.0 0.015 TL 131.62 PV 0.1 Pipe: 61 85.6 2.223 PL 64.33 PF 4.8 55 29.2 42.8 42.7 0.0 7.1 120 FTG 2TL PE 0.0 50 29.2 38.1 37.7 0.0 0.049 TL 96.33 PV 0.3 Pipe: 62 41.4 2.223 FL 104.79 PF 1.9 25 29.2 44.7 44.7 0.0 3.4 120 FTG 3T PE 0.0 55 29.2 42.8 42.7 0.0 0.013 TL 146.79 PV 0.1 Pipe: 63 66.8 2.223 FL 156.75 PF 6.6 26 29.2 44.7 44.7 0.0 5.5 120 FTG 4T FE 0.0 51 29.2 38.1 37.9 0.0 0.031 TL 212.75 PV 0.2 Pipe: 64 0.0 1.080 PL 7.83 PF 0.0 H32 11.3 47.4 47.4 0.0 0.0 120 FTG ---- PE 0.0 H33 11.3 47.4 47.4 0.0 0.000 TL 7.83 PV 0.0 Pipe: 65 0.0 1.080 PL 11.83 PF 0.0 H33 11.3 47.4 47.4 0.0 0.0 120 FTG ---- PE 0.0 H34 11.3 47.4 47.4 0.0 0.000 TL 11.83 PV 0.0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 9 DATE: 12/2/2004 C:\DATA\JETSOURCE.SDF JOB TITLE: JETSOURCE ROOF .45 FOR 3000 SQ. FT. PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. PT PN DISC. VEL(FPS) HW(C) (FT) SUN. NODES (FT) (PSI) (PSI) (GPM) FL/FT (PSI) Pipe: 66 0.0 1.080 FL 3.75 PF 0.0 H34 11.3 47.4 47.4 0.0 0.0 120 FTG T PE 0.0 Ml 11.3 47.4 47.3 0.0 0.000 TL 8.75 PV 0.0 Pipe: 67 0.0 1.080 PL 9.42 PF 0.0 H35 11.3 47.2 47.2 0.0 0.0 120 FTG ---- PE 0.0 H36 11.3 47.2 47.2 0.0 0.000 TL 9.42 PV 0.0 Pipe: 68 0.0 1.080 PL 9.42 PF 0.0 H36 11.3 47.2 47.2 0.0 0.0 120 FTG ---- PE 0.0 H37 11.3 47.2 47.2 0.0 0.000 TL 9.42 PV 0.0 Pipe: 69 0.0 1.080 PL 3.67 PF 0.0 H37 11.3 47.2 47.2 0.0 0.0 120 FTG T PE 0.0 M2 11.3 47.2 47.1 0.0 0.000 TL 8.67 PV 0.0 Pipe: 70 0.0 1.080 PL 9.83 PF 0.0 H38 11.3 47.0 47.0 0.0 0.0 120 FTG ----- PE 0.0 H39 11.3 47.0 47.0 0.0 0.000 TL 9.83 PV 0.0 Pipe: 71 0.0 1.080 FL 3.21 FE' 0.0 H39 11.3 47.0 47.0 0.0 0.0 120 FTG T PE 0.0 M3 11.3 47.0 46.9 0.0 0.000 TL 8.21 PV 0.0 Pipe: 72 -45.3 2.223 PL 77.67 PF 1.8 Ml 11.3 47.4 47.3 0.0 3.7 120 FTG 2T3L PE -7.7 56 29.2 41.5 41.0 0.0 0.015 TL 117.67 PV 0.1 Pipe: 73 45.3 2.223 PL 12.50 PF 0.2 Ml 11.3 47.4 47.3 0.0 3.7 120 FTG ---- FE 0.0 M2 11.3 47.2 47.1 0.0 0.015 TL 12.50 PV 0.1 Pipe: 74 45.3 2.223 FL 14.21 PF 0.2 M2 11.3 47.2 47.1 0.0 3.7 120 FTG ---- FE 0.0 M3 11.3 47.0 46.9 0.0 0.015 TL 14.21 PV 0.1 Pipe: 75 45.3 2.223 FL 60.21 PF 1.4 M3 11.3 47.0 46.9 0.0 3.7 120 FTG 27PL PE -7.7 47 29.2 37.9 37.7 0.0 0.015 TL 92.21 PV 0.1 Pipe: 76 -156.0 4.328 FL 10.00 PF 0.1 27 29.2 24.7 24.6 0.0 3.4 120 FTG ---- PE 0.0 28 29.2 24.7 24.4 0.0 0.006 TL 10.00 PV 0.1 Pipe: 77 -312.1 4.328 FL 10.00 PF 0.2 28 29.2 24.7 24.4 0.0 6.8 120 FTG ---- FE 0.0 29 29.2 24.9 24.2 0.0 0.021 TL 10.00 PV 0.3 Pipe: 78 -468.9 4.328 FL 10.00 PF 0.4 29 29.2 24.9 24.2 0.0 10.2 120 FTG ---- PE 0.0 30 29.2 25.4 24.1 0.0 0.045 TL 10.00 PV 0.7 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 10 DATE: 12/2/2004 C:\DATA\JETSOURCE,SDF JOB TITLE: JETSOURCE ROOF .45 FOR 3000 SQ. FT. PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. PT PN DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (PSI) (PSI) (GPM) FL/FT (PSI) Pipe: 79 -627.4 4.328 PL 10.00 PF 0.8 30 29.2 25.4 24.1 0.0 13.7 120 FTG ---- PE 0.0 31 29.2 26.1 24.6 0.0 0.077 TL 10.00 PV 1.3 Pipe: 80 -706.9 4.328 PL 10.00 PF 1.0 31 29.2 26.1 24.6 0.0 15.4 120 FTG ---- PE 0.0 32 29.2 27.1 25.5 0.0 0.096 TL 10.00 PV 1.6 Pipe: 81 -710.6 4.328 PL 10.00 PF 1.0 32 29.2 27.1 25.5 0.0 15.5 120 FTG ---- PE 0.0 33 29.2 28.1 26.5 0.0 0.097 TL 10.00 PV 1.6 Pipe: 82 -710.2 4.328 PL 10.00 PF 1.0 33 29.2 28.1 26.5 0.0 15.5 120 FTG ---- PE 0.0 34 29.2 29.0 27.4 0.0 0.097 TL 10.00 PV 1.6 Pipe: 83 -706.3 4.328 PL 10.00 PF 1.0 34 29.2 29.0 27.4 0.0 15.4 120 FTG ---- PE 0.0 35 29.2 30.0 28.4 0.0 0.096 TL 10.00 PV 1.6 Pipe: 84 -699.7 4.328 PL 10.00 PF 0.9 35 29.2 30.0 28.4 0.0 15.3 120 FTG ---- PE 0.0 36 29.2 30.9 29.4 0.0 0.094 TL 10.00 PV 1.6 Pipe: 85 -690.2 4.328 PL 10.00 PF 0.9 36 29.2 30.9 29.4 0.0 15.1 120 FTG ---- PE 0.0 37 29.2 31.9 30.4 0.0 0.092 TL 10.00 PV 1.5 Pipe: 86 -677.3 4.328 PL 10.00 PF 0.9 37 29.2 31.9 30.4 0.0 14.8 120 FTG ---- PE 0.0 38 29.2 32.7 31.3 0.0 0.088 TL 10.00 PV 1.5 Pipe: 87 -662.1 4.328 PL 10.00 PF 0.8 38 29.2 32.7 31.3 0.0 14.4 120 FTG ---- PE 0.0 39 29.2 33.6 32.3 0.0 0.085 TL 10.00 PV 1.4 Pipe: 88 -642.9 4.328 PL 10.00 PF 0.8 39 29.2 33.6 32.3 0.0 14.0 120 FTG ---- PE 0.0 40 29.2 34.4 33.2 0.0 0.080 TL 10.00 PV 1.3 Pipe: 89 -619.3 4.328 PL 10.00 PF 0.7 40 29.2 34.4 33.2 0.0 13.5 120 FTG ---- PE 0.0 41 29.2 35.1 34.0 0.0 0.075 TL 10.00 PV 1.2 Pipe: 90 -590.6 4.328 PL 10.00 PF 0.7 41 29.2 35.1 34.0 0.0 12.9 120 FTG ---- PE 0.0 42 29.2 35.8 34.8 0.0 0.069 TL 10.00 PV 1.1 Pipe: 91 -556.5 4.328 PL 10.00 PF 0.6 42 29.2 35.8 34.8 0.0 12.1 120 FTG ---- PE 0.0 43 29.2 36.4 35.6 0.0 0.062 TL 10.00 PV 1.0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 11 DATE: 12/2/2004 C:\DATA\JETSOURCE.SDF JOB TITLE: JETSOURCE ROOF .45 FOR 3000 SQ. FT. PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. PT PN DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (PSI) (PSI) (GPM) FL/FT (PSI) Pipe: 92 -516.4 4.328 PL 10.00 PF 0.5 43 29.2 36.4 35.6 0.0 11.3 120 FTG ---- PE 0.0 44 29.2 37.0 36.3 0.0 0.054 TL 10.00 PV 0.9 Pipe: 93 -464.6 4.328 PL 10.00 PF 0.4 44 29.2 37.0 36.3 0.0 10.1 120 FTG ---- PE 0.0 45 29.2 37.4 36.9 0.0 0.044 TL 10.00 PV 0.7 Pipe: 94 -390.3 4.328 PL 10.00 PF 0.3 45 29.2 37.4 36.9 0.0 8.5 120 FTG ---- PE 0.0 46 29.2 37.7 37.5 0.0 0.032 TL 10.00 PV 0.5 Pipe: 95 -265.9 4.328 PL 8.42 PF 0.1 46 29.2 37.7 37.5 0.0 5.8 120 FTG ---- PE 0.0 47 29.2 37.9 37.7 0.0 0.016 TL 8.42 PV 0.2 Pipe: 96 -220.6 4.328 PL 2.75 PF 0.0 47 29.2 37.9 37.7 0.0 4.8 120 FTG ---- PE 0.0 57 29.2 37.9 37.7 0.0 0.011 TL 2.75 PV 0.2 Pipe: 97 -220.6 4.328 PL 4.50 PF 0.0 57 29.2 37.9 37.7 0.0 4.8 120 FTG ---- FE 0.0 48 29.2 37.9 37.8 0.0 0.011 TL 4.50 PV 0.2 Pipe: 98 -186.1 4.328 PL 6.50 PF 0.1 48 29.2 37.9 37.8 0.0 4.1 120 FTG ---- PE 0.0 49 29.2 38.0 37.9 0.0 0.008 TL 6.50 PV 0.1 Pipe: 99 -152.4 4.328 FL 13.33 PF 0.1 49 29.2 38.0 37.9 0.0 3.3 120 FTG ---- PE 0.0 50 29.2 38.1 37.7 0.0 0.006 TL 13.33 PV 0.1 Pipe: 100 -66.8 4.328 FL 6.75 PF 0.0 50 29.2 38.1 37.7 0.0 1.5 120 FTG ---- FE 0.0 51 29.2 38.1 37.9 0.0 0.001 TL 6.75 PV 0.0 Pipe: 101 -155.4 4.328 FL 10.00 PF 0.1 1 29.2 24.6 24.5 0.0 3.4 120 FTG ---- FE 0.0 2 29.2 24.6 24.3 0.0 0.006 TL 10.00 PV 0.1 Pipe: 102 -311.1 4.328 PL 10.00 PF 0.2 2 29.2 24.6 24.3 0.0 6.8 120 FTG ---- PE 0.0 3 29.2 24.9 24.2 0.0 0.021 TL 10.00 PV 0.3 Pipe: 103 -467.5 4.328 PL 10.00 PF 0.4 3 29.2 24.9 24.2 0.0 10.2 120 FTG ---- PE 0.0 4 29.2 25.3 24.0 0.0 0.045 TL 10.00 PV 0.7 Pipe: 104 -625.5 4.328 FL 10.00 PF 0.8 4 29.2 25.3 24.0 0.0 13.6 120 FTG ---- FE 0.0 5 29.2 26.1 24.4 0.0 0.076 TL 10.00 PV 1.3 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 12 DATE: 12/2/2004 C:\DATA\JETSOURCE.SDF JOB TITLE: JETSOURCE ROOF .45 FOR 3000 SQ. FT. PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. PT PN DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (PSI) (PSI) (GPM) FL/FT (PSI) Pipe: 105 -727.5 4.328 PL 10.00 PF 1.0 5 29.2 26.1 24.4 0.0 15.9 120 FTG ---- PE 0.0 6 29.2 27.1 25.4 0.0 0.101 TL 10.00 PV 1.7 Pipe: 106 -723.7 4.328 PL 10.00 PF 1.0 6 29.2 27.1 25.4 0.0 15.8 120 FTG ---- PE 0.0 7 29.2 28.1 26.4 0.0 0.100 TL 10.00 PV 1.7 Pipe: 107 -724.1 4.328 PL 10.00 PF 1.0 7 29.2 28.1 26.4 0.0 15.8 120 FTG ---- PE 0.0 8 29.2 29.1 27.4 0.0 0.100 TL 10.00 PV 1.7 Pipe: 108 -728.1 4.328 PL 10.00 PF 1.0 8 29.2 29.1 27.4 0.0 15.9 120 FTG ---- PE 0.0 9 29.2 30.1 28.4 0.0 0.101 TL 10.00 PV 1.7 Pipe: 109 -734.6 4.328 PL 10.00 PF 1.0 9 29.2 30.1 28.4 0.0 16.0 120 FTG ---- PE 0.0 10 29.2 31.1 29.3 0.0 0.103 TL 10.00 PV 1.7 Pipe: 110 -744.1 4.328 PL 10.00 PF 1.1 10 29.2 31.1 29.3 0.0 16.2 120 FTG ---- PE 0.0 11 29.2 32.2 30.3 0.0 0.105 TL 10.00 PV 1.8 Pipe: 111 -757.0 4.328 PL 10.00 PF 1.1 11 29.2 32.2 30.3 0.0 16.5 120 FTG PE 0.0 12 29.2 33.3 31.3 0.0 0.109 TL 10.00 PV 1.8 Pipe: 112 -772.2 4.328 PL 10.00 PF 1.1 12 29.2 33.3 31.3 0.0 16.8 120 FTG ---- PE 0.0 13 29.2 34.4 32.4 0.0 0.113 TL 10.00 PV 1.9 Pipe: 113 -791.4 4.328 PL 10.00 PF 1.2 13 29.2 34.4 32.4 0.0 17.3 120 FTG ---- PE 0.0 14 29.2 35.6 33.4 0.0 0.118 TL 10.00 PV 2.0 Pipe: 114 -815.1 4.328 PL 10.00 PF 1.2 14 29.2 35.6 33.4 0.0 17.8 120 FTG ---- PE 0.0 15 29.2 36.8 34.5 0.0 0.125 TL 10.00 PV 2.1 Pipe: 115 -843.7 4.328 PL 10.00 PF 1.3 15 29.2 36.8 34.5 0.0 18.4 120 FTG ---- PE 0.0 16 29.2 38.1 35.7 0.0 0.133 TL 10.00 PV 2.3 Pipe: 116 -877.8 4.328 PL 10.00 PF 1.4 16 29.2 38.1 35.7 0.0 19.1 120 FTG ---- PE 0.0 17 29.2 39.6 36.9 0.0 0.143 TL 10.00 PV 2.5 Pipe: 117 -917.9 4.328 PL 10.00 PF 1.6 17 29.2 39.6 36.9 0.0 20.0 120 FTG ---- PE 0.0 18 29.2 41.1 38.1 0.0 0.155 TL 10.00 PV 2.7 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 13 DATE: 12/2/2004 C:\DATA\JETSOURCE.SDF JOB TITLE: JETSOURCE ROOF .45 FOR 3000 SQ. FT. PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. PT PN DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (PSI) (PSI) (GPM) FL/FT (PSI) Pipe: 118 -969.7 4.328 PL 5.83 PF 5.8 18 29.2 41.1 38.1 0.0 21.1 120 FTG T PE 0.0 19 29.2 46.9 45.5 0.0 0.172 TL 33.83 PV 3.0 Pipe: 119 464.6 4.328 PL 4.17 PF 1.4 19 29.2 46.9 45.5 0.0 10.1 120 FTG T PE 0.0 20 29.2 45.5 44.8 0.0 0.044 TL 32.17 PV 0.7 Pipe: 120 390.3 4.328 PL 10.00 PF 0.3 20 29.2 45.5 44.8 0.0 8.5 120 FTG ---- PE 0.0 21 29.2 45.2 44.7 0.0 0.032 TL 10.00 PV 0.5 Pipe: 121 319.2 4.328 PL 13.75 PF 0.3 21 29.2 45.2 44.7 0.0 7.0 120 FTG ---- PE 0.0 22 29.2 44.9 44.6 0.0 0.022 TL 13.75 PV 0.3 Pipe: 122 232.9 4.328 PL 9.25 PF 0.1 22 29.2 44.9 44.6 0.0 5.1 120 FTG ---- PE 0.0 23 29.2 44.8 44.6 0.0 0.012 TL 9.25 PV 0.2 Pipe: 123 152.4 4.328 PL 4.75 PF 0.0 23 29.2 44.8 44.6 0.0 3.3 120 FTG ---- PE 0.0 24 29.2 44.8 44.7 0.0 0.006 TL 4.75 PV 0.1 Pipe: 124 108.2 4.328 PL 7.08 PF 0.0 24 29.2 44.8 44.7 0.0 2.4 120 FTG ---- PE 0.0 25 29.2 44.7 44.7 0.0 0.003 TL 7.08 PV 0.0 Pipe: 125 66.8 4.328 PL 7.50 PF 0.0 25 29.2 44.7 44.7 0.0 1.5 120 FTG ---- PE 0.0 26 29.2 44.7 44.7 0.0 0.001 TL 7.50 PV 0.0 Pipe: 126 -1434.3 6.385 PL 18.92 PF 2.3 19 29.2 46.9 45.5 0.0 14.4 120 FTG 2L PE 0.6 TOR 27.8 49.8 48.4 0.0 0.053 TL 42.92 PV 1.4 Pipe: 127 -1434.3 6.385 PL 24.42 PF 1.3 TOR 27.8 49.8 48.4 0.0 14.4 120 FTG ---- PE 11.2 BOR 2.0 62.3 61.7 100.0 0.053 TL 24.42 PV 1.4 Pipe: 128 -1534.3 8.249 PL 0.50 PF 0.8 BOR 2.0 62.3 61.7 100.0 9.2 120 FTG TL PE 0.0 Ui 2.0 63.1 63.1 0.0 0.017 TL 48.50 PV 0.6 Pipe: 129 FIXED PRESSURE LOSS DEVICE U2 2.0 0.0 66.1 0.0 3.0 psi, 1534.3 gpm Ui 2.0 0.0 63.1 0.0 Pipe: 130 -1534.4 8.044 PL 7.50 PF 0.9 U2 2.0 66.1 66.1 0.0 9.7 150 FTG T2LG PE 0.9 U3 0.0 67.9 67.9 (N/A) 0.013 TL 72.50 PV 0.6 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 14 DATE: 12/2/2004 C:\DATA\JETSOURCE.sDF JOB TITLE: JETSOURCE ROOF .45 FOR 3000 SQ. FT. NOTES: (1) Calculations were performed by the HASS 7.6 computer program under license no. 38010408 granted by HRS Systems, Inc. 4792 LaVista Road Tucker, GA 30084 (2) The system has been calculated to provide an average imbalance at each node of 0.001 gpm and a maximum imbalance at any node of 0.052 gpm. (3) Velocity pressures have been included in the calculation of the system pressures and flows. Maximum water velocity is 21.1 ft/sec at pipe 118. (4) a. System remote area HAS been proven or 'peaked'. Minimum pressure at any sprinkler: 10.200 psi Minimum pressure with remote area shifted one sprinkler space toward left cross main: 10.214 psi Minimum pressure with remote area shifted one sprinkler space toward right cross main: 10.224 psi (5) PIPE FITTINGS TABLE Pipe Table Name: LINDLEY.PIP PAGE: E MATERIAL: PVC150 HWC: 150 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G N F Ell Tee LngEll ChkVlv BfyVlv GatVlv NPTee 45 8.044 26.00 35.00 13.00 45.00 17.00 4.00 35.00 9.00 PAGE: J MATERIAL: LINDLE HWC: 120 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G A D N Ell Tee LngEll --------------------------------------------------------ChkVlv BfyVlv GatVlv AlmChk DPVlv NPTee 45 1.080 2.00 5.00 2.00 5.00 8.00 1.00 12.00 10.00 6.00 1.00 2.223 7.00 14.00 4.00 15.00 10.00 1.00 17.00 14.00 12.00 2.00 4.328 14.00 28.00 9.00 31.00 22.00 4.00 35.00 14.00 26.00 4.00 6.385 18.00 39.00 12.00 40.00 13.00 4.00 35.00 24.00 38.00 7.00 8.249 18.00 35.00 13.00 45.00 13.00 4.00 15.00 15.00 39.00 9.00 A U G E P 60.0 R E S S U R E 40.0 p S 1 20.0 -14.7 ttI3 WATER SUPPLY ANALYSIS 100.0 Static: 85.50 psi Resid: 76.50 Os' F1cn 14040 anm uuu ouu .LUUU .LUU 1400 1600 1800 2000 FLOW (GPM) SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 16 DATE: 12/2/2004 C:\DATA\JET5OtJRCE.SDF JOB TITLE: JETSOURCE ROOF .45 FOR 3000 SQ. FT. WATER SUPPLY CURVE 96+ 88+ *\\\\\\ I \\\\\\\ I \\\\\\\ 80+ \\\\\\\ I * <-76.5 psi @ 1404 gpm I Flow Test Point 72+ I 0 I x P 64+ R E I S I S 56+ U R I E I 48+ ( I P I C L) I 40+ 32+ 24+ 16+ LEGEND I 7' I X = Required Water Supply I 67.95 psi @ 1934.4 gpm 8+ I 0 = Available Water Supply 69.22 psi @ 1934.4 gpm 0++-+---+----+-----+------+--------+--------+---------+-----------+ 400 600 800 1000 1200 1400 1600 1800 2000 FLOW (GPM) A3040180, 3 FIRE SPRINKLER HEAD CUTSHEETS Bulletin 146 Rev.0 Model G VELO Pendent Very Extra Large Orifice Sprinkler 00 C C) Low Pressures for High Hazards 0.70" Orifice, 14.0 K, 7psi (0,5 bar) Minimum End - Head Pressure (SIN R4613) Features The Reliable Model G VELO pendent sprinkler offers opportunity for: Pipe size recIictia,. Fewer sprinklers. Einii-iation of booster pxnps. The best choice *r densities of 0.38 gprrt2 (15 U-nin ftW) or larger. SnplihIes future ESFR conesions. Also iidudes additional Specific Application lis&g: (See detailed "UL Specification Application lbr" described on the back page.) US Patents: 5.890.657 and 5.915.479 UL Guide Number VNIV UL Listing Categoy Sprinklers, Automatic & Open Specific Application Sprinklers Technical Data SprWdar Type Mondnal K Factor SpiWiler He1it SpderklantMlcatlon Niauber (SiN) Pendent 1 0.70 orifice with :% NPT 14.0 200.0 3.10 (7im) 13 (Ri) L_ Product Description The Reliable Model G VELO sprinkler is a Very Extra Large Orifice pendent sprinkler that has been designed to control high challenge fires in both palletized and rack storage occupancies utilizing lower water pressures. The Model G VELO pendent utilizes a center strut solder in compression fusible element. It has been proven in UL and FM full-scale fire testing and corrplies with all applicable mechanical and hydraulic requirements of the latest sprinkler standards. This product is intended for use as a standard spray sprinkler in ulically designed systems with a minimum presstie of 7 psi (0,5 bar) in accordance with the area/density curves of NFPA 13* and for all area/density methods of design as referenced by Factory Mutual Loss Prevention Data Sheets. Design Criteria The following criteria apply when designing an automatic sprinkler system utilizing the Model G VELO sprinkler for NFPA 13* applications. Sprinkler spacing shall beam,nimumof6ft (1.8m). Minimum design pressure 7 psi (0,5 bar). Factory Mutual (FM) Approval for Model G VELOspririlder allows installationfr drops or branch line fittings. Factory Mutual (FM) Loss Prevention Data Sheets contain requirements which differ from NFPA. The Model G VELO is Approved by Factory Mutual for all area/density methods of design as referenced by FM Loss Prevention Data Sheets. Note: The Model G VELO sprinkler is not a Large Drop" or ESFR sprinkler. Temperature Ratings Ctou _ Sp,Wclsr Rating Mn a Cig ra_ Frame me I 'C cow Ordinary 165 I 100 I 38 I Uncolored Intermediate 212 100 150 I 66 I White I High 286 141 225 I 107 I Blue I *For sprinkler standards priorto 1999 edition of NFPA 13 use NFPA standards 231, 231C, 231D & 231F. Listing & Approvals ( 1. Listed by Underwriters Laboratories, Inc. and Certified by UL for Canada (cULus). Approved by F 258-93.E actory NYC ME A Mutual (FM) ( The Reliable Automatic Sprinkler Co., Inc., 525 North MacQuesten Parkway, Mount Vernon, New York 10552 Finishes s_ Apprwak Nahral Biz? 8it Chrome Satvi chrome Approved for all Temperature Lead Wax Wax/lead *cLJLus F*od only 1!ctJLus fisted ffid FM apxoved The UL Specific Application Listing Is: The Model G VELO pendent sprinkler is intended for use in accordance with NFPA 13*. Standards when installed in accordance with the standard sprinkler positioning and area/density flow calculation requirements as specified in the respective standards. The Model G VELO Pendent sprinkler may be installed to protect single, double and muftle row and portable rack storage of Class I-N group A and B plastics, cartoned, expanded or unexpended, as well as exposed unexpanded with a maximum storage height of 20 ft. (6.5m), rnaxirnim ceiling heigliof 25 ft (8.2m) or 27- ft (8.8m) ma*num ceiling height, 36 (914mm) minirrun deflector to top of storage clearance, design density of 0.60 gprrV ft. (24 Lfrnin frn) and design area of 2000 fl. (18& for wet systems and 2600 ft. (242m) for dry systems. esNois: Maximum 27ft ceiling height is allowed by NFPA 13*, without in-rack sprinklers in a protected area, provided the ceiling sprinklers' discharge is increased to 0.6 gprrt2 in a 2000 ft2 design area We: Factory Mutual (FM) Standards also allow the same 2000 ft.2 (18&r1) remote design area when VELO sprinklers are used in this situation. Installation Reliable's Model G VELO Pendent sprinkler must be installed according to the NFPA Standards or the appropriate Factory Mutual Loss Prevention Data Sheet and the Authority Having Jurisdiction. IDefl ector I kieth5onApprovs I I UnditersLaborones.Inc. I (cUlus) I 36 I I I IFactory MAW Reseath(FM) Maintenance Model G VELO Sprinkler should be inspected and the sprinkler system maintained in accordance with NFPA 25. Do not clean sprinklers with soap and water, ammonia or any other cleaning fluids. Remove dust by using a soft brush or gentle vac&uning. Prior to installation, sprinklers should be maintained in the original cartons and packaging until used to rrrnmze the potential for damage to sprinklers that would cause improper operation or non-operation. Remove any sprinkler which has been painted (other than factory applied) or damaged in anyway. A stock of spare sprinklers should be maintained to aJbv quick replacement of damaged or operated sprinklers. Model H Spunkier Wrench Use only the Model H sprinkler wrench for sprinkler removal and installation. Any other type of wrench may damage the sprinkler. C6101 * For sprinkler standards prior to 1999 edition of NFPA 13 use NFPA standards 231, 231C, 231D&231F. The eJIpment presented th thte betth Is to be iwtatled m &xxedaice with the latest ptthied staratardsof the Nattonal Are Pioteclion Asericlation, Factoiy Muitiat Reseacfl Corpczatuai. or other sInI orgaiaIlms and also with the prcNlalons of gcenvnenta1codes orordliances w$wneer aWicable. Prodixits maiufactLted reid dlstrbiled by Flatebte have been protecting fe and property for over 80 s, and e iretaled and sen4ced by the nst tgty quailled and repitlespda5der ccaltraXrs bcathd throughout the United States. Canada and foreign countrlas. The RWM6AtEomatte Sçdal.rCo (800) 431-1588 Sales Offices (800)848-6051 Sales Fax (914) 668-3470 Corpore Offices Internet Address Ped Per Revtaon Iea k0cab updated Cr new date. ECIAWWhUSAGM PiN 9999970138 9EFLETOR* (57,2 WRENCH FLAT Il/20(I2,7mm) MAKE- IN 3/4k NPT 2-5/16 (58,7mn qqp rri MODEL F700 L RECESSED ESCUTCHEON \ 2-7/8' (73,Omm)DIA. ESCUTCHEON PLATE SEATING SURFACE WRENCH FLAT PENDENT, RECESSED PENDENT, AND UPRIGHT SPRINKLERS UNIVERSAL MODEL A STANDARD RESPONSE, 5 mm BULB TYPE, 17/32(20 mm) ORIFICE, 3/4" NPTh PENDENT RECESSED PENDENT UPRIGHT CROSS SECTION Frame 3 - Gasketed 4 - Bulb 6 - Deflector 2 - Button Spring 5- Compression Plate Screw Temperature rating is indicated on deflector or adjacent to orifice seat on frame. ** Pipe thread connections per ISO 7/1 can be provided on special request. FIGURE A 17/32 INCH ORIFICE MODEL A PENDENT, RECESSED PENDENT, AND UPRIGHT SPRINKLERS ININ The 17/32 inch (20 mm) orifice Univer- sal Model A Pendent, Recessed Pen- dent, and Upright Sprinklers (Ref. Fig- ure A) are automatic sprinklers of the frangible bulb type. They are "standard response - large orifice spray sprink- lers" intended for use in fire sprinkler systems designed in accordance with the standard installation rules recog- nized by the applicable Listing or Ap- proval agency (e.g., UL Listing is based on NFPA 13 requirements). The Pendent, Recessed Pendent, and Up- right Sprinklers all produce a hemi- spherical water distribution pattern below the deflector. The recessed versions of the Model A Sprinkler are obtained by utilizing the Model A Pendent Sprinkler in combi- nation with the Model F700 Recessed Escutcheon (Ref. Figures A and C). The F700 Recessed Escutcheon pro- vides 1/2 inch (12,7 mm) of recessed adjustment or up to 3/4 inch (19,1 mm) of adjustment from the flush pendent position. The F700 has a separable two-piece Printed in U.S.A. 1-96 design which allows installation of the sprinklers and pressure testing of the fire protection system, prior to ceiling construction and/or application of a f in- ish coat to the ceiling. They also permit refinishing of a ceiling surface without having to first shut down the fire pro- tection system and remove the sprink- lers. The adjustment provided by the F700 substantially reduces the accuracy to which the length of fixed pipe drops to the sprinklers must be cut. Also, the Closure has 1/2 inch (12,7 mm) wide flange which provides ample clear- ance for covering the mounting hole. Laboratory listings and approvals for the 17/32 inch (20 mm) orifice Model A Pendent, Recessed Pendent, and Up- right Sprinklers are given in Table A. WARNING The 17/32 inch orifice Model A Pen- dent, Recessed Pendent, and Upright Sprinklers described herein must be installed and maintained in compli- ance with this document, as well as applicable standards of the National Fire Protection .Association, in addi- tion to the standards of any other au- thorities having' jurisdiction. Failure to do so may impair the integrity of these devices. The owner is responsible for main- taining their fire protection system and devices in proper operating con- dition. The installing contractor or manufacturer should be contacted rel- ative to any questions. Installation of Model A Pendent Sprinklers in recessed escutcheons other than the F700 will void all sprinkler warranties, as well aspossi- bly void the sprinkler's Approvals and/or Listings. The 17/32 inch (20 mm) orifice Model A Pendent, Recessed Pendent, and Upright Sprinklers are rated, for use at a maximum service pressure of 175 psi (12,1 bar) and they are available in TD526Q SPRINKLER FINISH TYPE TEMPERATURE RATING BULB LIQUID COLOR NATURAL BRASS CHROME PLATED I POLYESTER I COATED I (All Colors) PENDENT and UPRIGHT 135'F/57*C Orange 1,2,3,5,6,7 155'F/68'C Red 175'F/79'C Yellow 200'F/93'C Green 286'F/141C Blue 360'F/182'C Mauve RECESSED PENDENT' 1 35'F/57'C Orange 1,2,4,6,7 155'F/68'C Red 175'F179'C Yellow 200'F/93'C Green NOTES: Listed by Underwriters Laboratories, Inc. Listed by Underwriters' Laboratories of Canada. Approved by Factory Mutual Research Corporation. Approved by Factory Mutual Research Corporation for use in Light Hazard and Ordinary Hazard (Groups 1 and 2) Occupancies.The FM Approvals for Ordinary Hazard Occupancies is limited to wet pipe sprinkler systems and preaction systems qualifying as wet pipe systems. Approved by the Loss Prevention Council (United Kingdom). Approved by the Scientific Services Laboratory (Australia). Accepted by the City of New York under MEA 241-94-E. Installed with 3/4' Model F700 Recessed Escutcheon. TABLE A LABORATORY LISTINGS AND APPROVALS the temperature ratings and finishes indicated in Table A. Recessed versions of the Model A Sprinkler are obtained by utilizing the Model A Pendent Sprinkler in combi- nation with the Model F700 Recessed Escutcheon. The F700 Escutcheons are available with a chrome plated fin- ish or a coated finish in any color. The nominal discharge curve plotted in Figure B represents the flow 'Q' in GPM (LPM) as determined by the fol- lowing formula: 0 = where the nominal discharge coeffi- cient 'K' equals 8.1 (116,8); and, "p' equals the residual flowing pressure in psi (bar). Listing standards permit the actual value of 'K" to vary from 7.4 to 8.2 (106.7 to 118,2); however, for hy- draulic calculations, a K-factor of 8.1 (116,8) is to be applied. The Frame of the Model A Sprinkler (Ref. Figure A), is bronze per ASTM B176 (C87800) or, a proprietary alloy designated as QM. The Button (bulb retainer) is phospher bronze per ASTM B103 (C51000 orC52100). The Gasketed Spring Plate consists of a Berylium Nickel (N03360) disc spring that is sealed on both its inside and outside faces with a Teflont gasket. The Compression Screw is bronze per ASTM B140 (C31400) and the Deflec- tor is brass per ASTM B152 (Cl 1000). The Model A Sprinklers utilize a 5 mm diameter frangible bulb. Table A indi- cates the bulb liquid color as a function of temperature rating. The F700 Recessed Escutcheon pro- vided for use with the Model A Pendent Sprinkler (Ref. Figure C) has a Closure and Mounting Plate fabricated from low carbon steel. The Mounting Plate prongs, which are compressed back into the Mounting Plate as the Closure is pushed over it, maintain a tight fric- tion fit between the two pieces. The Mounting Plate and Closure can also swivel relative to each other and com- pensate for minor non-perpendicular- ity between the Model A Sprinkler and the ceiling. Do not install any bulb type sprinkler if the bulb is cracked or there is a loss of liquid from the bulb. With the sprinkler held horizontal, a small air bubble should be present. The diame- ter of the air bubble is approximately 1/16 inch (1,6 mm) for the 135"F/57"C to 3/32 inch (2,4 mm) for the 360"F/182"C rating. (At higher ambient temperatures, the bubble may be barely perceptable for the lower temperature ratings.) Installation of Model A Pendent Sprinklers in recessed escutcheons other than the F700 will void all sprinkler warranties, as well àspossi- DISCHARGE IN U.S. GALLONS PER MINUTE (GPM) 20 25 30 35 40 45 50 55 50 PARTIAL CURVE ONLY 3,0 MAX, PRESSURE 175 PSI 2,5 1,0 PARTIAL CURVE ONLY MAX. PRESSURE 12,1 BAR 0,5 125 150 175 200 DISCHARGE IN LITRES PER MINUTE FIGURE B NOMINAL DISCHARGE CURVE bly void the sprinkler's Approvals and/or Listings. The Model A Sprinklers must be in- stalled in accordance with the follow- ing instructions. 1. Prior to installing pendent sprinklers and if applicable, verify that the face of the sprinkler fitting is within the proper range of distance which can be accommodated by the type of escutcheon being used. When installing a Model A Pendent t DuPont Registered Trademark FACE OF FITTING 2-1/4" DIA. (57,2 mm) MOUNTING SURFACE 2 ç 2b A 20 t For best overall appearance. tt Remaining 1/4 Inch (6,4 mm) of adjustment can be used to compensate for variations in sprinkler make-in and fitting take-out. (3,7mm) 1 Model A Pendant Sprinkler Model F700 Recessed Escutcheon Mounting Plate Closure FIGURE C MODEL A RECESSED PENDENT SPRINKLER ASSEMBLY WITH TWO-PIECE MODEL F700 RECESSED ESCUTCHEON FULLY RECESSED DIMENSIONSt Up to 1/2 Inch adjustment from r minimum 114 inch to maximum 2 7/8" 01k 3/4 inch recessed position. I F (73,0mm) Dim. Inches mm A- 5/8±1/8ft 15,9±3,2 B-Mm. 13/16 20,6 8-Nom. 1-1/16 27,0 B-Max. 1-5/16 33,3 C-Mm. 1/4 6,4 C-Max. 3/4 19,1 HIGH ADJUSTMENT DIMENSIONS Up to 3/4 Inch adjustment from the flush ceiling position to 3/4 Inch recessed position. Dim. Inches mm A- 1/2±1/4tt 12,7±6,4 B-Mm. 13/16 20,6 B-Nom. 1-3/16 30,2 B-Max. 1-9/16 39,7 C-Mm. FLUSH - C-Max. 3/4 19,1 Sprinkler with the F700 Recessed Escutcheon, for best overall appear- ance, use Dimension "A' indicated under the "Fully Recessed Dimen- sions" heading of Figure C. Other- wise, use Dimension "A" under the "High Adjustment Dimensions" heading. In either case, the remain- ing adjustment can be used to com- pensate for the possible manufac- turing variations in take-out of the fittting, as well as in the make-in of the sprinklers (as permitted by ANSI B1.20.1). After installing the F700 Mounting Plate (or other escutcheon, as appli- cable) over the sprinkler threads, apply pipe thread sealant sparingly to the sprinkler threads only. Use of a Teflont based pipe thread sealant is recommended. Hand tighten the sprinkler into the sprinkler fitting. Refer to Figure 0 and select the appropriate Sprinkler Wrench for tightening the sprinkler into the sprinkler fitting. The F850 Sprinkler Wrench must be used for installing polyester coated sprinklers, in order to prevent dam- age to the sprinkler finish. NOTES A leak tight 3/4 inch NPTsprink- ler joint should be obtained with a torque of 10 to 20 ft.lbs. (13,4 to 26,8 Nm). A maximum of 30 ft. lbs. (40,7 Nm) of torque is to be used to install the sprinklers. Higher levels of torque may distort the sprinkler inlet with conse- quent leakage or impairment of the sprinkler Do not attempt to make-up for in- sufficient adjustment in the es- cutcheon plate by under- or over- tightening the sprinkler. Readjust the position of the sprinkler fitting to suit. In recessed pendent sprinkler instal- lations, after the ceiling has been installed or the finish coat has been applied, slide on the F700 Closure over the Model A Sprinkler and push the Closure over the Mounting Plate until its flange comes in contact with the ceiling. Automatic sprinklers must never be shipped or stored where their temper- atures will exceed 100F/38C and they must never be painted, plated, coated or otherwise altered after leav- ing the factory. Modified sprinklers must be replaced. Sprinklers that have been exposed to corrosive products of combustion, but have not operated, should be replaced if they cannot be completely cleaned by wiping the sprinkler with a cloth or by brushing it with a soft bristle brush. Care must be exercised to avoid dam- age to the sprinklers - both before and after installation. Sprinklers dam- aged by dropping, striking, wrench twist/slippage, or the like, must be re- placed. Also, replace any sprinkler that has a cracked bulb or that has lost liquid from its bulb (ref. Installation Section Note). NOTES Absence of an escutcheon, which is used to cover a clearance hole, may delay the time to sprinkler operation in a fire situation. Before closing a fire protection system control valve for maintenance work on the fire protection system which it con- trols, permission to shut down the af- fected fire protection system must be obtained from the proper authorities and all personnel who may be affected by this action must be notified. It is recommended that automatic sprinkler systems be inspected quar- terly by a qualified Inspection Service. SELECTION: - Select the appropriate wrench _________ __________________ based on the following require- ments: Seller warrants for a period of one year .4 0 from the date of shipment (warranty Model A Sprinklers with a natu- ( period) that the products furnished ral brass or chrome plated fin- hereunder will be free from defects in ish and where the Wrench Flats material and workmanship. shown in Figure Aare accessi- ble, may be be installed using ________ For further details on Warranty, see an 8 or 10 inch adjustable Cres- ________ Price List. cent type wrench or the Model I. F850 Sprinkler Wrench. ri Model A Sprinklers with apoly - ! ORDERING PROCEDURE ester coated finish must only be i Product Symbol Number (PSN) is installed with the Model F850 V Sprinkler Wrench. LI I ____________I A not specified when ordering polyester coated Model A Sprinklers with other WRENCH LUGS _____________ Model A Recessed Pendent than a white color; when ordering color Sprinklers which are to be in- Model F850 Nylon Coated coated Model F700 Recessed Es- stalled after completion of a Sprinkler Wrench cutcheons with other than a white fixed ceiling must only be in- color; or, when ordering sprinklers with stalled with the Model F850 thread connections per ISO 7/1. It is Sprinkler Wrench. suggested that a color chip be pro- vided when ordering special color fin- ishes. Otherwise, responsibility for du- USE: When using an 8 or 10 inch adjustable Crescent type wrench, the wrench is to be plication cannot be accepted. applied to the sprinkler wrench flats only (Ref. Figure A). Contact your local distributor for avail- To use the F850 Sprinkler Wrench, slip the Wrench opening over the Model A ability. Sprinkler Deflector by passing the Sprinkler Wrench around the side of the Sprinkler Assemblies: Sprinkler as shown in the above illustration. Specify: 17/32k orifice, (specify tem- Using a 1/2 inch ratchet drive or by applying an 8 or 10 inch adjustable wrench to perature rating), Model A (specify Pen- dent or Upright) Sprinkler with (specify the hex end of the Sprinkler Wrench, tighten the sprinkler into the fitting. The two type of finish), PSN (specify from lugs located on opposite sides of the Wrench indicate the orientation of the Table B). sprinkler frame arms. NOTE "Special Order" Push up on the Sprinkler Wrench, while it is being turned, to ensure that the Sprinkler Assemblies with ISO 7/1 Thread Connections: Wrench recess stays fully engaged with the sprinkler wrench flats. Specify: 17/32" orifice, (specify tem- Carefully remove the Sprinkler Wrench by disengaging it from the sprinkler wrench perature rating), Model A (specify Pen- dent or Upright) Sprinkler with (specify flats, and then passing it sideways over the sprinkler deflector. type of finish) and with thread connec- FIGURE D tion per ISO 7/1. SPRINKLER WRENCH SELECTION AND USE Recessed Escutëheon: Specify: 3/4" (20 mm) Model F700 Re- cessed Escutcheon with (specify fin- PSN 57—XXX--X--XXX ish), PSN (specify). 3/4 (20 mm) F700 I Chrome Plated .........PSN 56.700-9-010 TEMPERATURE 3/4 (20 mm) F700 RATING White Color Coated ...............PSN 56-700-4-010 135 135F/57C — Sprinkler Wrench: 155 155T/68C Specify: Model F850 Sprinkler SPRINKLER — FINISH 175 175F/79C Wrench, PSN 56-850-4-001. I TYPE I I 1 NATURAL BRASS 200 200F/93C r591 I SR PENDENT j j 4 WHITE POLYESTER 286 286F/141C 590 J SR UPRIGHT 9 CHROME PLATED 360 360FI182C The nominal weights are as follows. 17/32 Orifice Model A Pendent Sprinkler ..........2.8 ozs. (78 g) TABLE B 17/32 Orifice Model A UpnghtSprinkler .......... 2.9ozs. (81 g) PRODUCT SYMBOL NUMBER SELECTION Model F700 STANDARD RESPONSE Recessed Escutcheon 1.2 ozs. (35g) 3/4 INCH ORIFICE MODEL A PENDENT AND UPRIGHT SPRINKLERS Model F850 WITH 17/32 INCH NPT CONNECTIONS - Sprinkler Wrench .........15.5 ozs. (440g) ® Reg. trademark of GRINNELL CORPORATION, 3 TYCO PARK, EXETER, NH 03833 A tqca INTERNATIONAL LTD. COMPANY PENDENT, RECESSED PENDENT, AND UPRIGHT SPRINKLERS UNIVERSAL MODEL A . . •. . - QUICK RESPONSE, 3mm BULB TYPE,-1/2" (15mm)ORIFICE, 1/2" NPT 1 2-3/16' (55,6mg S$P DEFLEC.T0R PENDENT RECESSED PENDENT.. * Temperature rating Is indicated on deflector or adjacent to orifice seat on frame. Pipe thread connections per ISO 7/1 can be pro6ded on special request. 7/16' (I 1,1m m) MAKE- IN UPRIGHT CROSS SECTION I - Frame S - Gasketsd 4. Bulb 2. Button Spring 5- Compression Plate Screw - ii.: 'S • .. , . ''S - FIGURE A 1/2 INCH ORIFICE MODEL A QUICK RESPONSE PENDENT, RECESSED PENDENT, AND UPRIGHT SPRINKLERS GENERAL DESCRIPTION _____ refinishing of a calling surface without ciation, ,in addition to the standards having to first shutdown the fire pro- of any other authorities having furls- tection system and remove the sprink- diction. Failure to do so may impair The 1/2 inch (15mm) orifice Universal lers. . . . . the integrity of these devices. Model A Quick Response Pendent, : • . S Recessed Pendant,. and. Upright . . The vertical adjustment provided by The owner is responsible for main-. Sprinklers (Ref. Figure A) are auto- the Recessed Escutcheons substan- taming their fire protection system matic sprinklers of the frangible bulb tially reduces the accuracy to which and devices in proper operating con type. They are 'quick response - stan- the length of fixed pipe drops to the dition; The installing contractor or. dard orifice spray sprinklers' intended sprinklers must be cut. Also, the Clo- manufacturer should be contacted rel- for use in fire, sprinkler systems de- .. sure has a .112. inch (12,7mm) wide . ative to any questions. S signed In accordance with the stan- flange which provides ample clear- dard installation rules recognized by ' ance for covering the mounting hole. Installation of Model .A. Pendent the applicable Listing or Approval Sprinklers in recessed escutcheons agency (e.g.; UL Listing is based on NFPA 13 requijements). The Pendent, Recessed Pendent, and Upright Sprinklers all produce a hemispherical water distribution pattern below the de- flector.. The recessed versions of the Model A Sprinkler are obtained by utilizing the 'Model A Pendent Sprinkler in combi- nation with either the Model F700 or F705 Recessed Escutcheon (Ref. Fig- ures A and C). The Recessed Escutch- .. eons have a separable two-piece de- sign which allows installation of the , sprinklers and pressure testing of the fire protection system, prior to ceiling construction and/or application of a fin- ish coat to the ceiling. They also permit Laboratory listings and approvals for .thO 1/2 inch (15mm).' orifice Model A Quick Response Pendent, Recessed Pendent, and Upright Sprinklers are given in Table A..,-. The 1/2 inch orifice Model A Quick Response Pendent, Recessed Pendent, and Upright Sprinklers described herein must be installed and main- tained' in compliance with this doèu- ment, as well as applicable standards of the National Fire Protection Asso- olher than the F700 or F705 will void all sprinkler warranties, as well, as possibly void the sprinkler's Approu.' ale and/or Listings. TECHNICAL DATA The 112 inch (15mm) Orifice Model Quick Response Pendent, Recessed Pendent, and Upright Sprinklers are rated for use at 'a maximum service pressure 01175 psi (12,1 bar) and they are available in the temperature rat- ings and finishes indicated in Table A. Recessed versions of the Model A Sprinkler are obtained by utilizing the Printed In U.S.A. 12-96 5 S TD515M' NOTES: •. .... lUsted by Underwriters Laboratories. Inc. as Quick Response Sprinklers. . 2.Usted by Underwriters'. LaboratorleC of Canada-as Quick Response Sprinklers. 3.Approved by Factory Mutual Research Corporation as Quick Response Sprinklers f o r u s e I n L i g h t o r O r d i n a r y H a z a r d ( G r o u p s I a n d 2 ) Occupancles.The FM Approvals are for wet sprinkler systems only and exciudi occup a n c i e s i n v o l v i n g l o w f l a s h . p o i n t ( l e s s , t h 1OOF/38C) flammable liquids or flammable hydraulic liquids. 4.Approved by the Loss Prevefltiofl Council (United'Klngdom) as Quick Response Sprinklers. 5.Approved by the Scientific Services Laboratory. (Astraila)'as Quick Response Sprinklers. . . 6.Accepted by the City of New 'York under MEA 241-94.E. . . .. TABLE A. LABORATORY LISTINGS AND APPROVALS . SPRINKLER FINISH TYPE TEMPERATURE RATING BULB . UQUID- COLOR NATURAL. BRASS CHROME PLATED POLYESTER COATED (All Colors) 135FThTC PENDENT . 155F/68C 1757179C UPRIGHT 200F/93C 286'F/141C Red . and . Orange . . : 1.2,3,4,5.6 Yellow. . Green Blue RECESSED 135F/5TC PENDENT with 185F/6C RECESSED 175 FI79C ESCUTCHEON . 200'F/93C Orange 1, 2,4, 5,6 Red Yellow Green RECESSED 135'F157*C. PENDENT with: .. 135F/STC . RECESSED ., 175. F/79. C: ESCUTCHEON . 200F3C Orange 1,2,3,4,5,6 . .. . 1,2,4,5,6 Red . Yellow.. Green DI3CNAOI PS U.S. SAU.O.i$ PIP NINUTI (OPPS) IS II N N N U $0 . P51514*1101 PS UTMI PU NWM FIGURE NOMINAL DISCHARGE CURVE" all sprinkler wàrranties,as well as.. possibly void the sprinkler's Approv- als and/or Listings. The Model A Sprinklers must be in- stalled in accordance with the follow- ing instructions. 1. Prior to installing pendent sprinklers and il applicable, verify that the face of the sprinkler fitting is within the proper range of distance which-can be accommodated by the type of escutcheon being used. When installing a Model A Pendant Model A Pendent Sprinkler in combi- the bulb liquid color as a function of nation with either the Model F700 or temperature rating F705 Recessed Escutcheon. The Re- : cessed Escutcheons are available The F700 and F705: Recessed Es- with a chrome plated finish oracoated '' cutcheons provided for use with the finish In any color. Model A Pendent Sprinkler (Ref. Fig- ure C) have a Closure and Mounting The nominal discharge curve plotted in . Plate fabricated from low..carbon steel. Figure B represents the flow '0' In The Mounting Plate prongs, which are GPM (L.PM) as determined by the fol• compressed back into the Mounting lowing formula: Plate as the Closure is pushed over it, 0 maintain a tight friction fit. between the two pieces. The Mounting Plate and Closure can also swivel; relative to where the nominal discharge coeffi each other and compensate for minor cient K' equals 5.6 (80.7); and,. Ope non-perpendicularity between the equals the residual flowing pressure in Modef A Sprinkler and the ceiling.. psi (bar). Listing standards permit the ......... ., . . '?_; . ... actual value of K to vary from 5.3 to 5.8 (76A to 83,6); however, for hydrau- lic calculations, e K-factorof 5.6 (80,7) INSTALLATION___________________ is to be applied . ,... ,. .. ......... The Frame of the Model A Sprinkler Do not install any bulb type sprinkler (Ref. Figure A), is bronze per ASTM . if the bulb is cracked or there is a loss B176 (C87800) or, a proprietary alloy S of liquid from the bulb. With the designated OM; The Button (bulb re- sprinkler held horizontal, a small air tamer) is phosphor bronze per ASTM bubble should be present. The diame. 8103 (C51000 or C52100). The Gas- ter of the air bubble is approximately keted Spring Plate consists of a Beryl. 1/16 inch (1,6mm). for the ium Nickel (N03360) disc spring that is . 135'F/57'C to 3/32 inch (2,4mm) for sealed on both its inside and outside the 286'F/14JC rating. (At higher faces with a Teflont gasket. The Corn- ambient temperatures, the bubble pression Screw is bronze per ASTM may be barely perceptable for the B140 .(C31400) and the Deflector is lower temperature ratings.) brass per ASTM B152 (Cl 1000). The Model A Sprinklers utilize a 3rnmdiam. Installation of Model A Pendent eter frangible bulb. Table A indicates Sprinklers in recessed escutcheons other than the F700 or F705 will void t DuPont Registered Trademark o - rrri MODELF705 . Sprinkler with the either the F700 or Msi.'i....- 't S .. F705 Recessed Escutcheon, for best overall appearance, use DI.. FULLY RECESSED . •. FULLY RECESSED mension A indicated under the DIMENSIONSt DIME NSIONSt • Fully Recessed Dunenslons head- . tng of Furs C. Otherwise, use DI. Up to 1/2 Inch adjustment from Up to 114 Inch adjustment from Adjust- minimum. 1/4 Inch to maximum minimum .1/4 Inch to maximum •• ment Dimensions' heading. Inefther case, the remaining adjustment can 3/4 Inch recessed position. 1/2 Inch recessed position. be used to compensate for the pos- sible manufacturing variations In Dim.. Inches ..• .• MN : Dim. inches MM take-out of the liming,- as well as in the make-in of the sprinklers (asper- A- 5/8±1/8tf 15,90,2 A- .. . 1t2tt 12,7 : mitted by ANSI B1.20.1). B-Mm. 3/4 ... . 19,1 B-Mln., 1 25,4 . . i 25,4 B-Nom. 1-1/8 28.6 2. After installing the 'F700 or F705 B-Max. ' 1-1/4 . 3118 . El-max. 1-1/4 31,8. Mounting Plate (or. other escutch- C-Mm. 1/4 6,4 C.Mmn. 1/4 6,4 eon, as applicable) over the -spunk. C-Max. 3/4 19,1 C-Max. IN •• 12,7 ler threads, apply pipe thread seal- ant sparingly to the sprinkler threads only. Use of a Tefldnt based pipe HIGH ADJUSTMENT HIGH ADJUSTMENT ..thread sealant Is recommended. DIMENSIONS . DIMENSIONS . ........ . Hand tighten the sprinkler into the Up to 3/4 Inch adjustment from • Up to 1/2 inch adjustment from. . . sprinkler fitting. the flush ceiling position to 3/4 . the flush ceiling position to 1/2' Inch recessed posltion.' - inch recessed position. Refer to Figure 0 and select the appropriate Sprinkler Wrench for tightening the sprinkler into the Dim. Inches MU • 'Dim. -' Inches:-"'-:MN •• sprinkler lflJng. • 1,2±114tt 12,7±6,4 A. . 3/811/81t 9,513.2 . The F850 Sprinkler Wrench must be s-Mm. • 3/4 19,1. B-Mm I . '25,4. .1 used for installing polyester coated Bom. 1.1/8 28,6 : B-Nom .1-1/4' 31,8 . sprinklers, in order to prevent dam- S-Max. 1.1/2 38,1 B-Max 1-1/2.. 38,1 .' 'age to the sprinkler finish. -. C-Mm. FLUSH . -, C-Min. FLUSH ••• . . C-Max.- 3/4 •' 19,1 — C-Max----1/2- 12.7. •• NOTES A leak tight 1/2 inch NPT.sprinh- r :I . icr joint should be obtained with a - - ..:.. "' . •0 .......- torque of 7 to 14 ft.lbs. (9,5 to 19,0 - - - -_ - -- Nm) A maximum of 21 ft lbs - (28;51'Irn) ôftoque is to be used to install the sprinklers.. Higher ku- 9-710ffi MA • • els of torque may distort the (73,c) . •.- sprinkler inlet with consequent . . leakage .or impairment of the f . 'sprinkler. L 2-l/4 01A.FACE / ..- r (57,2mm) / ' Do not attempt to make-up for'S ii- FITTING-7 j . ________________ . . - sufficient adjustment in the es- S. •. cutcheon plate by under- or ouer. -MOUNTING . tightening the sprinkler -Readfust SURFACE7 ' the position of the sprinkler fitting X.11 z to suit 5. in recessed pendent sprinkler instal- I / . • iations, after the ceiling has been - - f .•.-', -'-i-' installed or the finish coat has been applied,.siide on the F700 or F705 L / 1 • Closure over the Model A Sprinkler C 2.bj ( 7mm) • . . . and, push "the Closure over the .20 - .: • • ' . Mounting Plate until its flange comes in contact with the ceiling. t For best overall appearance. . S . .. S CARE AND MAINTENANCE tt Remaining 1/4 inch (6,4mm) of 1. Model A Pendent Sprinkler Automatic sprinklers must never be adjustment can be usedtO compensate 2- Model F700 or F705 Recessed Escutcheon shipped or stored where their temper- for variations In sprinkler make-in and , . a- Mounting Plate atures will exceed - 100F138'C and fitting take-out. b- Closure , they must never be painted plated. ' S S • FIGURE C • coated or otherwise altered after Ieav- MODEL A RECESSED PENDENT SPRINKLER ASSEMBLY ing the factory. - Modified sprinklers WITH TWO-PIECE MODEL F700 OR F705 RECESSED ESCUTCHEON must be replaced. Sprinklers that have - . '•O SELECTION: Select the appropriate wrench based on the following requirements: Model A Sprinklers with a natural brass or chrome pipted finish and where th wrenâiifowninAgureA&eacCe5. sible, may be be Installed using an 8 or 10 .45 Inch adjustable Crescent type wrench or the Modal FSSO Sprinkler Wrench. Model A Sprinklers with a polyester coated finish must only be Installed with the --- -- Model F850 Sprinkler Wrench. L.L..J.J C' Model A Recessed Pendant Sprinklers I which are to be installed after completion wsc.s LUGS Of a fixed calling must only be installed with' the Model F850 Sprinkler Wrench. . Model F850 Nylon Coated. Sprinkler Wrench USE:.. . . When using an 8 or 10 inch adjustable Crescent type wrench, the wrench Is to be applied to the sprinkler wrench flats only '(Rot. Flgure.A).. To use the F850 Sprinkler Wrench, slip the Wrench opening over, the Model A Sprinkler Deflector by passing the Sprinkler Wrench. around the side of the Sprinkler as shown in the above iUustration. . . . . Using a 1/2 inch ratchet drive or by applying an 8 or 10 inch adjustable wrench to the hex end of the Sprinkler Wrench, tighten the sprinkler 1n1o1he fining. The two lugs located on opposite sides of the Wrench indicate the orientation of the sprinkler frame arms. ..... . Push upon the Sprinkler Wrench.' while it is beiñurned. to ensure that the Wrench recess .,s fully epoed with the sprinkler wrenhiats. . Carefully remove thp Sprinkler Wrench' by disengaging It from the sprinkler wrench flats, and then passing It sideways over the sprinkler deflector. FIGUR — . SPRINKLER WRENCH SELECTION AND USE. PSN57 —XXX--X - XXX 'TEMPERATURE . j J,' RATING 135 . . 135'F/57C I SPRINKLER ..- FINISH 155 '155'F/68C TYPE I [T NATURAL BRASS 175 175F/79'C r371 OR PENDENT - jT' WHITE POLYESTER 200 200'F/93C 370 OR UPRIGHT jj CHROME PLATED . 28€. . 286'F/141'C ........... ' TABLE • .. PRODUCT SYMBOL NUMBER SELECTION FOR 1/2 INCH ORIFICE MODEL A QUICK RESPONSE PENDENT AND UPRIGHT SPRINKLERS -- . ., ,' '' . WITH 1/2 INCH NPT CONNECTIONS been exposed to corrosive products of has a cracked bulb or that has lost combustion, but have not operated, liquid from its bulb (ref. installation should be replaced if they cannot be Section Note). completely cleaned.., by wiping the sprinkler with a cloth or by brushing ft ......' NOTES with a soft bristle brush. " ' ' Absence of. an escutcheon, which is used to cover a clearance hole, may Care must be exercised to avoid dam- delay the time to sprinkler operation age to the sprinklers - both before ' in a fire situation. and after installation. Sprinklers dam- aged 'by dropping, striking, wrench Before closing a fire protection system twist/slippage, or the like, must be re- ., control value for maintenance work on placed. Also, replace any sprinkler that the fireprotection system which it con- trols, permission to shut down the af- fected fire protection system must be obtained from the proper authorities'' and all personnel who may be affected by this action must be notified. It is recommended that automatic sprinkler systems be inspected gur terly by a qualified Inspection Service. Sellerwarrants for a period of one year from the date of shipment (warranty period) that the products furnished hereunder will be tree from defects in. material and workmanship. For further details on Warranty, see Price List. ORDERING PROCEDURE A Product Symbol Number (PSN) Is not specified when ordering polyester- coated Model A Sprinklers with other than a white color; when ordering color coated Recessed Escutcheons with other than a white color; or, when or-.. daring sprinklers with thread connec- tions per ISO 7/1. It is suggested that a color Chip be provided when orderingS ....special color finishes. 'Otherwise, re' sponsibility for duplication cannot be accepted. - .... . Contact your local distributor for avail- ability. Sprinkler 'Assemblies: Specify: 1/2' orlfióe, (specify tempera- ture rating), Model A Quick Response (specify Pendant or Upright) Sprinkler:. with (specify type of finish), PSN - (specify from Table B). Special Order Sprinkler Assemblies with ISO 7/I Thread Connections: - Specify: 1/2' orifice, (specify tempera- ture rating), Mbdel A Quick Response (specify Pendant or Upright) Sprinkler with (specify type of finish) and with thread connection per ISO 7/1;' Recessed Escutcheon: Specify: 1/2' (15mm) Model (specify).. Recessed Escutcheon with (specify' finish), PSN (specify). 1/2' F700 Chrome ..........PSN 56-701.&010 1/2' F700 While ..........PSN 56-7014-010 1/2' F705 Chrome ........... PSN 55.705910 1/2' F705 White ............PSN 56.705410 Sprinkler Wrench: Specify: Model F850 ' Sprinkler Wrench, PSN 56-850.4-001. . db Ran. adernwIcof GRINNELL CORPORATION, 3 TYOO PARK, EXETER, NH 03833 A tijco INTERNATIONAL LTD. COMPANY ELEY LINDLEY FIRE PROTECTION CO., INC. JET SOURCE PROJECT CARLSBAD, CALIFORNIA PRE-A CTION SYSTEM SUBMITTAL DATA 2220 E. Via Burton, Anaheim, California 92806 (714) 535-5761 FAX (714) 535-0576 California • Nevada • Oregon • Oklahoma • Arizona www.lindleyfire.com Features 2 initiating device circuits (Style BID) Waterfiow input (Style BID) Supervisory input (Style (BID) 2 notification appliance circuits (Style Y/Z) 2 release circuits (Style Y) Complies with: - NFPA 72 Local, Auxiliary, Remote Station, Proprietary Protective and Central Station Signaling Systems - NFPA 13 Installation of Sprinkler Systems - NFPA 15 Water Spray Fixed Systems - NFPA 16 Deluge Foam-Water, and Foam-Water Spray Systems Microprocessor-controlled Power-limited on all circuits except Municipal Box output Alarm and trouble resound Discharge timer: 0, 10, or 15 minutes Cross-zone option Dual hazard option (combined or split release) Optional module for 4 zone/function relays (4XZM) Optional transmitter module (4XTM) Optional volt/amp meter module (4XMM) Optional supervised remote annunciator (RZA-4X); requires LED interface module (4XLM) Optional digital communicator (NOTI.FIRE 911A) Disable/enable controls per initiating zone Battery/earth fault supervision Last Event recall feature to trap intermittent trouble conditions Fuse protection on all indicating/release circuits RMS regulated 24 VDC output power, 2.25 amperes 6.5 AH to 15 AH battery options, up to 90 hours standby 230 VAC, 50 Hz international option 4-wire smoke detector power output Non-resettable regulated 24 VDC power output Extensive transient protection Watchdog timer to supervise microprocessor Output circuits protected against false activations by 2- step command sequence Slide-in labels for zone identification Steel cabinet 14.5" wide by 16" high by 5" deep Circuits Input Circuits Detector Circuit 1/Manual Release (Style B/D) Detector Circuit 2 (Style B/D) Waterfiow (Style B/D) Supervisory (Style B/D) Output circuits (optional auxiliary relays track these four circuits) Alarm/Waterfiow Bell (Style Y/Z) Waterflow/Supervisory Bell (Style Y/Z) Releasing Circuit 1 (Style Y) Supervisory Bell/Release Circuit 2 (Style Y) Front Panel Control Switches Switch 1 Tone Silence Switch 2 Alarm Silence Switch 3 Alarm Activate Switch 4 System Reset MEA APPROVED approved System Sensor 12/97 This document is not intended to be used for installation purposes. AOS-954-OO Specifications AC Power • Supervisory current: 5.0 mA 120 VAC, 60 Hz, 1.2 amps • Thp current: 0.35 amps (subtracted from indicating appliance Wire size: 14 AWG with 600 V insulation power) Initiating Circuits: • Coil voltage: 3.65 VDC Power-limited circuitry • Coil resistance: 14.6 ohms Operation: Style B (Class B) / Style D (Class A) • Total wire resistance between panel and trip coil = 3 ohms Standby voltage: 24 VDC (ripple = 10 mV peak-to-peak), SmA For Remote Station service (NFPA-72 Remote Station Protective Signaling Alarm current: 15 mA minimum System): Short circuit current: 40 mA maximum Maximum current allowed for both circuits shall not exceed Maximum detector current in standby: 2 mA (peak) per zone 10 mA per circuit. Maximum loop resistance = 200 ohms Reverse polarity output voltage = 24 VDC. End of Line resistor = 4.7 Kohms, 1/2 watt Detector loop current is sufficient to ensure operation of one alarmed detector per zone Indicating/Releasing Circuits: Power-limited circuitry Maximum voltage drop due to win...- 2 VDC Voltage: 24 VDC RMS regulated (not filtered) Total current to all external devices: 2.25 amps max. Fuses: 2 AG, 4 amps Maximum signaling current per circuit: 1.5 amps End-of-Line Resistor 4.7 Kohms, 1/2 watt (part no. 71252) Alarm and Trouble Relays: Dry Form-C contacts rated for: 2.0 amps @ 30 VDC (resistive) 0.5 amps @ 30 VAC (resistive) Four-wire Smoke Detector Power Output Terminals Up to 200 mA of current is available for 4-wire smoke detectors. RMS Regulated 24 VDC Power Output Terminals Total DC current available for powering external devices is 0.5 amp (subtracted from notification appliance power dedicated to all output circuits). Non-resettable 24 VDC Power Output Terminals Total DC current available from this output is up to 200 mA (subtracted from four-wire smoke power). Field Program Selections 6-position DIP-switch to select: 1\vo-zone, single hazard operation Two-zone, single hazard operation (cross zoned) Two-zone, dual hazard operation (combined release) Two-zone, dual hazard operation (split release) Discharge times: 0, 10, or 15 minutes Cabinet Dimensions: Door: 16.125" high x 14625" wide Backbox: 16.0" high x 145" wide x 4.75" deep Cabinet: 5375" deep NFPA Standard-Specified Requirements Digital Communicator NOTI.FIRE 911A: For Central Station service (NFPA 72 Central Station Protective Signaling System) or Remote Station Service (NFPA 72 Remote Station Protective Signaling System). Transmitter Module (4XTM): For Local Energy Municipal Box service (NFPA-72 Auxiliary Protective Signaling System): Ordering Information PDRP- 1001 Pre-Action/Deluge Control Panel PDRP-1001A Pre-Action/Deluge Control Panel (Canada) System Sensor Worldwide Manufacturing & Distribution In Canada: In the Far East: In Italy: In the United Kingdom: Telephone: 905-812-0767 Telephone: 852-2191-9003 Telephone: 39-40-9490-111 Telephone: 44-1403-276500 Fax: 905-812-0771 Fax: 852-2736-6580 Fax: 39-40-382137 Fax: 44-1403-276501 In China: In India: In Singapore: Telephone: 852-2191-9003 Telefax: 91-022-8202564 Telephone: 65-273-2230 Fax: 852-2736-6580 Fax: 65-273-2610 Page 2 A05-954-00 Optional Boards The PDRP-1001 has mounting slots for two option boards. Any two of ti three option modules may be installed. Transmitter Module (4XTM): The Transmitter option provides a supervised output for local energy municipal box transmitter (for NFPA-72 Auxiliary Pro-tective Signaling System) and alarm and trouble reverse polarity (for NFPA-72 Remote Station Protective Signaling System). Also included is a DISABLE switch and disable trouble LED. Zone Relay Module (4XZM): The Zone Relay module provides Form-C general alarm and trouble contacts and the following Form-C relays: Alarm/Waterflow Bell Waterflow/Supervisory Bell Releasing Circuit I Supervisory Bell/Release Circuit 2 Dry, Form C contacts rated for: 2.0 amps @ 30 VDC (resistive) 0.5 amps @ 30 VAC (resistive) Relays can be silenceable/non-silenceable by jumper Remote Annunciator (RZA4X): The Remote Annunciator mounts on a standard single-gang box and provides the following: System Trouble LED (yellow) Local Piezo Sounder Silence Switch (for local sounder) Alarm/Waterfiow Bell LED (red) Waterflow/Supervisory Bell LED (red) Releasing Circuit I LED (red) Supervisory Bell/Release Circuit 2 LED (red) Note: The Remote Annunciator requires the use of an LED interface module (below). LED Interlace Module (4XLM): The module supports the RZA-4X Remote Annunciator module. The LED Interface Module mounts to the main board occupying one of the two option connectors. Annunciator LED wiring is su-pervised for opens. Faults will activate System Trouble condition. Optional Meters Voltage and Current meters (4XMM): The 4XMM provides a voltmeter to measure the voltage across the batteries and an ammeter to measure the charging current to the batteries. 10 to 100 psi Approximately 3 psi @ 10 psi; 6 psi @ 100 psi Automatic Sprinkler: NFPA 13 One or Two Family Dwelling: NFPA 13D Residential Occupancies up to 4 Stories: NFPA 13R National Fire Alarm Code: NFPA 72 Warranty: 3 years 250 psi Two sets of SPDT (Form C) 10.0 A, '/2 HP @ 125/250 VAC MEA 2.5 A @ 6/12/24 VDC VI APPROVED approved This document is not intended to be used for installation purposes. A05-178-04 The System Sensor EPS40..2 switch is designed to detect a 10 psi decrease or increase from normal system pressure in automatic fire prPtection systems. It is typically used to supervise system air pressure in dry pipe systems or pressure tanks and water pressure supplies of automatic water control valves. The EPS40-2 contains two SPDT switches. Pressure Adjustment Wheel The EPS40-2 features field adjustable pressure sensitivity between 10 and 100 psi. It is factory set to be used in a nominal 40 psi system with a switch transfer occurring at 30 psi and a second switch transfer occurring at 50 psi. The pressure adjustment wheel requires no special tools and can be used to adjust the nominal value of the "window" at which the low and high switches activate. Specifications Enclosure: Rated UL 4x, NEMA 4 indoor Operating or outdoor use Temperature Range: Indoor or outdoor use Cover Tamper Switch: UL Models: ULC Models: Pressure Connection: Factory Setting Optional P/N 546-8000 Factory Installed '/z' NPT male glass reinforced nylon Operates on increase at 50 psi and on decrease at 30 psi Dimensions: Shipping Weight: Service Use: -40°F to 160°F -400C to 71°C 5.12"H x 3.325"W x 4.250"L 13.0 cm x 8.4 cm x 10.8 cm 1.2 lbs. .54 Kg Maximum Adjustment Pressure Range: Differential: Maximum System Pressure: Switch Contacts: 0 System Sensor 6/97 ACTUATOR HORIZONTAL Wrench for ._.N.lCover tamper-resistant screws (P/N WFDW) 31/2 W THE FOLLOWING ARE EXAMPLES OF ACCEPTABLE MOUNTING POSITIONS: lli5 ACTUATOR VERTICAL (DOWN) THE FOLLOWING MOUNTING POSITION IS NOT ACCEPTABLE ACTUATOR VERTICAL (POINTING UP) screws Spring Cam Mounting screws ,—Terminal block BaBase OSY2 Mounting so Retaining housing Mounting Bracket H 31/4 'C' dip Top tfllW NOW: CoOn and B connections will do,. when cliv. moss, I/S of switch (2 thru only) ____ CONTACT RATUdoS1 ed) Actuating lever roller Sw UI total blvd dlstancs. 125/250 VAC lOAUPS I Switch 2 1 24VDC I 2.SAUPS (Assembl Valve Stem Strip Osp Sup. Switch Sup. Switch to nonsttsncisbl. mwatfij zone dtsiodFACPI_ij frd.oinrossstotor Carriage Bolt CON 0041 16~ Clamping B~~To. Hex wrench MFING Yoke ioli FACP Connection Nut SLIDE LA (P/N HEXW)ENOVE OR INS ow Tff to power 5oct05 compatible ball BrsM wtrs U shown for supmvtslon OSY2 Parts mliii bell 01 connection. DO NOT 110w oblppsd wit, lamb to sxtsnd beyond switch housing. DO NOT loop wIts.. Typical Local Bill Confliction Electrical Connections for OSY2 Engineer/Architect Specifications —OSY2 Supervisory Switch Model shall be an OSY2 supervisory switch as manufactured by System Sensor. OSY2 shall be installed on each valve as designated on the drawings and/or as specified herein. Switches shall be mounted so as not to interfere with the normal operation of the valve and shall be adjusted to operate within two revolutions of the valve control or when the stem has moved no more than one- fifth of the distance from its normal position. The mechanism shall be contained in a weatherproof die cast metal housing, which shall provide a side entrance for 1/2" Ordering Information conduit and incorporate the necessary facilities for attachment to the valve. A grounding provision is provided. The switch assembly shall include two switches each with a rated capacity of 10 Amp @ 125/250 VAC and 2.5 Amp g 24 VDC. The cover shall contain tamper- resistant screws for which a security wrench will be provided with each switch. OSY2 shall be Underwriters Laboratories listed for indoor or outdoor use. The OSY2 shall be Factory Mutual approved. OSY2 Outside Screw and Yoke Valve Supervisory Switch - S07-66-02 Replacement Tamper Screws for Cover of OSY2 Two SPDI' Switches; New Mounting Bracket WFDW Replacement Tamper Proof Wrench for Cover of OSYRK Replacement Assembly Kit for OSY2 (Wrenches, OSY2 Screw Pack, J hooks) HEXW Replacement Hex Wrench for 05Y2 546-7000 Cover Tamper Switch Kit for 05Y2 ULC version designated with "A" following the model number and factory installed with cover tamper switch System Sensor Worldwide Distribution In Canada: System Sensor Canada 6581 Kitimat Road, Unit #7 Mississauga, Ontario Canada L5N 3T5 Telephone: 905-812-0767 Fax: 905-812-0771 In the United Kingdom: System Sensor Europe, Ltd. Horsham Gates 111, North St. Horsham, West Sussex RH13 SPJ, United Kingdom Telephone: 44-1403-276500 Fax: 44-1403-276501 In India: System Sensor India A-204 Maheshwari Nagar Orkay Mills Lane Andheri East, Mumbai 400093 Telefax: 91-022-8202564 In the Far East: System Sensor Pittway Far East, Ltd. Suite 706, World Shipping Centre 7 Canton Road Tsimshatsui, Kowloon, Hong Kong Telephone: 852-2730-9090 Fax: 852-2736-6580 Page 2 A05-196-04 The System Sensor OSY2 is used to monitor the open position of an OS&Y (outside screw and yoke) type gate valve. Featuring a new mounting bracket, the OSY2 is designed to mount easily to most OS&Y valves ranging in size from 1" to 12". The OSY2 contains two sets of SPDT (Form C) contacts. New Mounting Bracket Design Fits all newer configuration valve yokes. Utilizes right angle design to provide maximum clearance forvalve components and mounting bolts. Increased height and bracket span allows fitting of troublesome valves. Preassembled bolts and clips save installation time. Open-ended bottom bracket eliminates J bolts and reduces installation time. Single Side Entrance For Conduit Straight conduit entry above the OSY2 mounting bracket requires less expensive fittings and provides a direct conduit pathway to the electrical source. Durable metal enclosure gives the switch protection from adverse environmental conditions. Synchronized Durable Switch Assembly TWo 10 Amp 125/250 VAC, 2.5 Amp 24 VDC switches provided as standard are locked in a synchronized position and enclosed in a rugged terminal block for added strength and durability. Accommodates up to 12 AWG wire. Additional Applications The OSY2 supervisory switch, without its gate valve bracket, can be used to monitor side-bracket style pressure reducing valves. Its three-position switch gives vandal and valve close signals. The adjustable shaft makes installation easier. Optional Tamper Switch Kit Mechanically activated by cover removal. SEMS Clamping Plate Terminal Screw Enables wiring to conform with UL 753 Paragraph 17A.2. Specifications Contact Ratings: Two sets of SPDT (Form C) Overall Switch 10 A @ 125/250 VAC Dimensions: 53/4"H x 31/2"W x 3'/"D 2.5 A a 24 VDC (14.6cm H x 8.9cm W x 8.2cm D) Enclosure: UL Indoor/Outdoor Rated Shipping Weight: 2.8 lbs. Cover Tamper Switch: Service Use: UL Models: Optional P/N 546-7000 Automatic Sprinkler: NFPA 13 ULC Models: Factory Installed One or Two Family Dwelling: NFPA 13D Bracket Span/ Residential Occupancies up to 4 Stories: NFPA 13R Height/Width: 6/4" / 2'/4" / 1" National Fire Alarm Code: NFPA 72 (17.1cm. / 5.7cm / 2.5cm) Warranty: 3 years Operating Temperature Ranges: 32°F - 120°F (0°C - 49'C) z:fj APPROVED approved 0 System Sensor 8/96 This document is not intended to be used for installation purposes. A05-196-04 Pressure Switch Basic Dimensions MODEL EPS40.2 SWITCHES AT 30 P.S.I. (LOW TRIP PT.) B B COM COM A A SW1 SW2 SWITCHES AT 40 P.S.I. (NORMAL) B x B CO COM SW1 SW2 SWITCHES AT 50 P.S.I. (HIGH TRIP PT.) B B COM COM SW1 SW2 Electrical Connections for EPS40.2 NT Typical Sprinkler Application — Dry System I CIRCUIT OF FIRE ALARM INDICATING CIRCUIT EPSHO CONTROL PANEL OF FIRE ALARM CONTROL PANEL I WIRE TO SUPERVISORY WIRE TO ALARM S I4TO I I SPRINKLER I I SYSTEM INSTALL ( CHECK CHECK BLEEDER DRY A VALVE VALVE FOR PIPE TESTING E)_4_4 MOTOR WATER GONG SHUT-OFF AIR LINE —+ VALVE OSEY WATER LOCALALARM BY-PASS SHUT OFF TEST VALVE VALVE VALVE DRY SYSTEM Engineer/Architect Specifications — EPS40.2 Pressure type waterfiow switches shall be a Model EPS40-2 as manufactured by System Sensor of St. Charles, IL. They shall be installed on the sprinkler system with connection as shown on the drawings and/or as specified herein. Pressure switches shall be of the bellows-activated type. Switches shall have a maximum service pressure rating of 250 psi and shall be adjustable from 10-100 psi. There shall be two (2) contacts rated at 10.0 Amp @ 125/250 VAC and 2.5 Amp. @ 6/12/ 24 VDC. The contractor shall furnish and install, where indicated on the plans, pressure switches according to appropriate NFPA standards. Ordering Information Switches shall be provided with a /2" NPT male pressure connection to be connected into the air supply line on the system side of any shut-off valve. Switches shall provide 1 knockout type and 1 open hole for /2" conduit fitting attachment and a ground screw provision for electrical grounding. The switch enclosure shall be weatherproof and carry a UL 4x/ NEMA 4 rating when used with proper electrical fittings and conduit. The cover shall incorporate tamper-resistant screws. The unit shall be listed by Underwriters Laboratories, Inc., the California State Fire Marshal, and MEA, and approved by Factory Mutual. EPS10-1 Alarm Waterfiow, Pressure Switch, One SPDT, 4-20 PSI UW version designated EPS1O-2 Alarm Waterfiow, Pressure Switch, Two SPDT, 4-20 PSI with 'W' following the model EPS40-1 Supervisory Low Pressure Switch, One SPDT, 10-100 PSI number and factory installed EPS40-2 Supervisory High/Low Pressure Switch, TWo SPDT, 10-100 PSI with cover tamper switch S07-66-02 Replacement Tamper Screws for Cover of EPS WFDW Replacement Tamper Proof Wrench for Cover of EPS 546-8000 Cover Tamper Switch for EPS Pressure Switch System Sensor Worldwide Distribution In Canada: System Sensor Canada 6581 Kitimat Road, Unit #7 Mississauga. Ontario Canada L5N 3T5 Telephone: 905-812-0767 Fax: 905-812-0771 In the United Kingdom: System Sensor Europe, Ltd. Horsham Gates III, North St. Horsham, West Sussex RH13 5PJ, United Kingdom Telephone: 44-1403-276500 Fax: 44-1403-276501 In India: System Sensor India A-204 Maheshwari Nagar Orkay Mills Lane Andhen East, Mumbal 400093 Telefax: 91-022-8202564 In the Far East: System Sensor Pittway Far East, Ltd. Suite 706, World Shipping Centre 7 Canton Road Tsimshatsui, Kowloon, Hong Kong Telephone: 852-2730-9090 Fax: 852-2736-6580 Page 2 A05-178-04 The System Sensor EPS40.1 switch is designed to detect a 10 psi decrease from normal system pressure in automatic fire protection systems. It is typically used to supervise system air pressure in dry pipe systems or pressure tanks and water pressure supplies of automatic water control valves. It can be used to initiate electronic signals or to start/shut down auxiliary fire equipment when a low pressure condition occurs. Pressure Adjustment Wheel The EPS40-1 Series features field adjustable pressure sensitivity between 10 and 100 psi. It is factory set to be used in a nominal 40 psi system with a switch transfer occurring at 30 psi. The pressure adjustment wheel requires no special tools and can be used to adjust the point at which the low switch activates. Specifications Rated UL 4x, NEMA 4 indoor or outdoor use Optional P/N 546-8000 Factory Installed 1/2" NPT male glass reinforced nylon Operates on decrease at 30 psi; one set SPDT 10 to 100 psi Approximately 3 psi @ 10 psi; 6 psi @ 100 psi Switch Contacts: - One SPDT (Form C) 10.0 A, 1/2 HP @ 125/250 VAC 2.5 A @ 6/12/24 VDC Dimensions: 5.12"H x 3.325"W x 4.250"L 13.0 cm x 8.4 cm x 10.8 cm Shipping Weight: 1.2 lbs. .54 Kg Service Use: Automatic Sprinkler: NFPA 13 One or Two Family Dwelling: NFPA 13D Residential Occupancies up to 4 Stories: NFPA 13R National Fire Alarm Code: NFPA 72 Warranty: 3 years Enclosure: Cover Tamper Switch: UL Models: ULC Models: Pressure Connection: Factory Setting: Maximum Adjustment Pressure Range: Differential: Maximum System Pressure: Operating Temperature Range: System Sensor 6/97 250 psi Indoor or outdoor use -40°F to 160°F < > IYIEA -40°C to 71°C ® L ~ " X14 approved pproved 0, This document is not intended to be used for installation purposes. Aflc-1 77-fl4 The System Sensor EPS40.2 switch is designed to detect a 10 psi decrease or increase from normal system pressure in automatic fire protection systems. It is typically used to supervise system air pressure in dry pipe systems or pressure tanks and water pressure supplies of automatic water control valves. The EPS40-2 contains two SPDT switches. Pressure Adjustment Wheel The EPS40-2 features field adjustable pressure sensitivity between 10 and 100 psi. It is factory set to be used in a nominal 40 psi system with a switch transfer occurring at 30 psi and a second switch transfer occurring at 50 psi. The pressure adjustment wheel requires no special tools and can be used to adjust the nominal value of the "window" at which the low and high switches activate. Specifications Enclosure: Rated UL 4x, NEMA 4 indoor Operating or outdoor use Temperature Range: Indoor or outdoor use Cover Tamper Switch: UL Models: ULC Models: Pressure Connection: Factory Setting: Maximum Adjustment Pressure Range: Differential: Maximum System Pressure: Switch Contacts: 11 System Sensor 6/97 -40°F to 160°F Optional P/N 546-8000 -40°C to 71°C Factory Installed Dimensions: 5.12"H x 3.325W x 4.250'I '/2" NPT male glass 13.0 cm x 8.4 cm x 10.8 cm reinforced nylon Shipping Weight: 1.2 lbs. Operates on increase at 50 psi .54 Kg and on decrease at 30 psi Service Use: Automatic Sprinkler: NFPA 13 10 to 100 psi One or Two Family Dwelling: NFPA 13D Approximately 3 psi @ 10 psi; Residential Occupancies up to 4 Stories: NFPA 13R 6 psi @ 100 psi National Fire Alarm Code: NFPA 72 Warranty: 3 years 250 psi Two sets of SPDT (Form C) 10.0 A, 1/2 HP @ 125/250 VAC Ø MEA 2.5 A @ 6/12/24 VDC APPROVED approved This document is nnt intendM tn k -- ;--.-"---- - Electrical Connections for EPSIOl and EPS102 HEX ADJUSTMENT SCREW JUSTMENT PIT Pressure Switch Basic Dimensions MCCCI. EPSIOI SWITCH ATE P.S.I. COM SWITCH AT 4.5 P.S.I. (HIGH TRIP PT.) C. MODEL EP8I0.2 SWITCHES AT 0 P.S.I. B B CCVI XCOM_X A A------- SWI swo SWITCHES AT 4.5 P.S.I. (HIGH TRIP PT.) B B COA& xCC x SWI SW'S BOTH SWITCHES ACTIVATE SIMULTANEOUSLY Typical Sprinkler App ASS! TOALARE I I INDICATING CIRELAT EMS F FIR FIRE ALARMPANEL ONTROL PANEL -j I F iRWELER 1' SYSTEM WATER MOTOR GONG am" ALARM CHECK VALVE RETARD LOCALALARM BYWATER PASS OREY VALVE 515110FF VALVE VALVE WET SYSTEM WIRE TO ALARM WIRE ALARM RIOCATTIIU CIRCUIT EPEIO OF FIRE ALAREI CORTWII. PANEL. OF FIRE ALASSI CONTROL PANEL t TO TO toys1511 MOTOR oo CHECK I RETARD SPRWAMER /\MOTOR WATER ALANEDECK PIPEVALVE -j DRY INDICATING CIBCUrr CDRYSYSTEM VALVE -7 WATER WATER LOCAL ALARM OVALVE SKY BY.PASS VALVE 4.0051. ALAWII 0FF SLAJT OFFVALVE E WET SYSTEM VALVE M Engineer/Architect Specifications: EPSIOl. (SPDT),EPSIO-2 (2/SPDT) Model shall be an EPS10-1 or EPS1O-2 pressure type waterfiow switch as manufactured by System Sensor of St. Charles, IL. They shall be installed on the sprinkler system with connection as shown on the drawings and/or as specified herein. Pressure switches shall be of the bellows-activated type. Switches shall have a maximum service pressure rating of 175 psi and shall be factory adjusted to operate at a pressure of 4-8 psi. There shall be one (1) or two (2) SPEll' contacts rated at 10.0 Amp @ 125/250 VAC and 2.5 Amp. @ 6/12/24 VDC. The contractor shall furnish and install, where indicated on the plans, pressure switches according to appropriate NFPA standards. Switches shall be provided with a '/2" NPT male Ordering Information pressure connection to be connected to the alarm check valve of a "wet" sprinkler system, into the intermediate chamber of a "dry" system, or to a pre-action or deluge valve. They shall be activated by any flow of water equal to or in excess of the discharge from one sprinkler head. Switches shall provide 1 knockout type and 1 open hole for 1/2" conduit fitting attachment and a ground screw provision for electrical grounding. The switch enclosure shall be weatherproof and carry a UL 4x/NEMA 4 rating when used with proper electrical fittings and conduit. The cover shall incorporate tamper-resistant screws. The unit shall be listed by Underwriters Laboratories, Inc. and approved by Factory Mutual. EPS10-1 Alarm Waterfiow Pressure Switch, One SPDT, 4-20 PSI *(JLC models designated EPS1O-2 Alarm Waterflow Pressure Switch, Two SPLIT, 4-20 PSI with 'A" following the model EPS40-1 Supervisory Low Pressure Switch, One SPLIT, 10-100 PSI number and factory installed EPS40-2 Supervisory High/Low Pressure Switch, 'IWo SPD'I 10-100 PSI with cover tamper switch S07-66-02 Replacement Tamper Screws for Cover of EPS WFDW Replacement Tamper Proof Wrench for Cover of EPS 546-8000 Cover Tamper Switch for EPS Series System Sensor Worldwide Distribution in Canada: System Sensor Canada 6581 Kitimat Road, Unit #7 Mississauga, Ontario Canada LSN 3T5 Telephone: 905-812-0767 Fax: 905-812-0771 In the United Kingdom: System Sensor Europe, Ltd. Horsham Gates III, North St. Horsham, West Sussex RH13 50, United Kingdom Telephone: 44-1403-276500 F'x: 44-1403-276501 In India: System Sensor India A-204 Maheshwari Nagar Orkay Mills Lane Andheri East, Mumbai 400093 Telefax: 91-022-8202564 In the Far East: System Sensor Pittway Far East, Ltd. Suite 706, World Shipping Centre 7 Canton Road Tsimshatsui, Kowloon, Hong Kong Telephone: 852-2730-9090 Fax: 852-2736-6580 Page 2 A05-176-05 ch.ngsdalaytlm.. at. dial .lthsv Twnvin.I block uction ass). diagrati - I (Rsplac.m.nt PIN A17-0142) front page Ground screw provicled Way n EICITIcII ndiift entrance IN *300540) ).8W dli.) Mounting plant S_U bolt nut Pip. saddle plastic Vane Tom ~w mid at LAY ADJU J? t@30s.c. uva WED Dimensions WED WRCn.INSICU van. of Salad F ____________ WED _______ ___ __ GOP L GON T9plcal FACP Connection Tap Yin. NOTE: Conunon and B connections will i wits,, water in flowing. Dual switch.. SWISalI - \ class when vans I. d.tlsctsd. La.. on 5 slngis detector. I, j permft no to b. combbeid SwItch 2 CONTACT RATINGS 1251250 VACI lOAMPS Strip o.gs I 24 VDC I 2.5 AMPS top, source few with 1011 bed Typical Local 8.0 Csnswctlor WED Field Wiring Diagram Roll paddle opposlt. of flow SITOW while Insetting Saddle gaidurt Pipe SI.. 11011 Slz. I 1WFD 2— 3'/s' I'l. I 4 -0 U boll WFD Assembly Diagram Engineer/Architect Specifications: WFD Waterfiow Detectors Vane-type waterfiow detectors shall be installed on system piping mechanism shall be a sealed mechanical pneumatic unit with as designated on the drawings and/or as specified herein. Detectors shall mount on any clear pipe span of the appropriate nominal size, either a vertical upflow or horizontal run, at least 6" from any fittings which may change water direction, flow rate, or pipe diameter or no closer than 24" from a valve or drain. Detectors shall have a sensitivity in the range of 4 to 10 gallons per minute and a static pressure rating of 250 psi for 2"-8" pipes. The detector shall respond to waterfiow in the specified direction after a preset time delay which is field adjustable. The delay Ordering Information visual indication of actuation. The actuation mechanism shall include a polyethylene vane inserted through a hole in the pipe and connected by a mechanical linkage to the delay mechanism. Outputs shall consist of dual SPDT switches (form C contacts). iWo conduit entrances (one of which is a knockout type) for standard fittings of commonly used electrical conduit shall be provided on the detectors. A grounding provision is provided. All detectors shall be listed by Underwriters Laboratories for indoor or outdoor use. WFD20 Waterfiow Detector, Schedule 10/40, 2" (50 mm) A77-01-02 Replacement Terminal Block for WFD WFD25 Waterflow Detector, Schedule 10/40, 2'/z" (65 mm) 546-7000 Cover Tamper Switch Kit for WFD WFD30 Waterfiow Detector, Schedule 10/40, 3" (80 mm) S07-66-02 Replacement Tamper Screws for Cover of WFD WFD35 Waterfiow Detector, Schedule 10/40, 31/2" WFDW Replacement Tamper Proof Wrench for Cover of WFD40 Waterfiow Detector, Schedule 10/40, 4" (100 mm) WFD WFD50 Waterfiow Detector, Schedule 10/40, 5" C58-164-01 Replacement Metal Cover WFD60 Waterfiow Detector, Schedule 10/40, 6" (150 mm) WFDN4 NEMA4 Gasket Kit WFD80 Waterfiow Detector, Schedule 10/40, 8" (200 mm) 'ULC version designated with following the model number and A3008-00 Replacement Delay Mechanism for WFD 2"-8" sizes factory installed with cover tamper switch System Sensor Worldwide Distribution In Canada: System Sensor Canada 6581 Kitimat Road, Unit 97 Mississauga, Ontario Canada LSN 3T5 Telephone: 905-812-0767 Fax: 905-812-0771 In the United Kingdom: System Sensor Europe, Ltd. Horsham Gates III, North St. Horsham, West Sussex RHI3 5PJ, United Kingdom Telephone: 44-1403-276500 Fax: 44-1403-276501 In India: System Sensor India A-204 Maheshwari Nagar Orkay Mills Lane Andhen East, Mumbai 400093 iBlefax: 91-022-8202564 In the Far East: System Sensor Pittway Far East, Ltd. Suite 706, World Shipping Centre 7 Canton Road Tsimshatsui, Kowloon, Hong Kong Telephone: 852-2730-9090 Fax: 852-2736-6580 Page 2 A05-180-03 A A -- -- - - 6- 0 L I T Y AND SEAVICE SINCE 1938 / - t lNDSTIAL SINE STA6E 0ND JWD STA6E 0lA COMPAESSOAS CFM TANK FREE AIR COMPRESSOR CAPACITY BASE TANK MOTOR SPEED GALLONS MODEL MODEL AT 100 AT 150 H.P. RPM P.S.I.G. P.S.I.G. UP TO 7500 GAL TF-50-B TF-50-T3 17.6 17.5 5 720 OVER TF-50-B TF-50-13 20 - 5 805 TF-75-B TF-75-T3 20.1 20 17-1/2 1 805 7500 GAL Intake Filter/Silencer • Fan Type Compressor Pulley 16" x 38" A.S.M.E. Air Receiver • V-Belt Drive with (Tank Mounted) Enclosed Belt Guard RISER MOUNTED Oil-Less Piston Permanently Lubricated Bearings Air Intake Filter(s) Direct Drive I Standard Electric Motors GeneiBi Oil-Less Air Compressors are fully automatic and designed for easy instal- lation. Special mounting kits with U-bolts are available for riser mounting. Selections shown will fill the system to 40 P.S.I.G. within 30 minutes as outlined in NFPA pam- phlet 13. STANDARD EQUIPMENT: Units are fully automatic and include pressure switch, check valve and safety valve. Motors are single phase and include thermal overload protection. Fractional horsepower units are UL listed. (Standard Air at Sea Level) SYSTEM COMPRESSOR CAPACITY COMPRESSOR AVERAGE MOTOR NO. STANDARD GALLONS MODEL CFM* H.P. CYLINDERS VOLTAGE 110 OL110-16AC 1.35 1/6 1 115/60/1 215 0L215-33AC 2.60 1/3 1 115/60/1 335 0L335-50AC 4.05 1/2 2 115/230/60/1 425 0L425-75AC 5.10 3/4 2 115/230/60/1 675 0L675-100AC 8.15 1 2 115/230/60/1 800 0L800-150AC 9.65 1-1/2 2 115/230/60/1 *Average CFM is the average free air delivery from 0 to 40 P.S.I.G. PRIVATE PRESSURE TONKS(According toWPA-22) Two Stage - Air Cooled • Two Cylinder General Air Compressors for Private Pressure Tanks are designed and rated to comply with the recommendations of the S N.F.P.A. as published in pamphlet #22. General Compressor Pumps are heavy-duty units, two stage, for operation up to 175 P.S.I.G. Cast iron cylinders with aluminum heads and finned intercooler for rapid heat dissipation. Units are designed with taper roller main bearings, low R. P.M. for longer life and pressure switch unloading for loadless start. Base Unit Complete with com- pressor, motor, V-belt drive and enclosed belt guard. All mounted on heavy steel base with drilled floor mounting bracket. Tank Unit complete with compressor, motor, V-belt drive, enclosed belt guard. Start/stop pressure switch. Safety relief valve, pressure gauge, receiver check valve, all mounted on a 30 gallon A.S.M.E. horizontal air receiver. 200 P.S.I.G. maximum working pressure. Li TANK MOUNTED W' L BASE MOUNTED RISER MOUNTED MODEL DIMENSIONS - INCHES L W H 23 11 13 L85-50 23 11 13 L340-75 23 11 13 0 23 14 14 23 14 15 0 0 0 LL235 23 14 15 23 25 15 16 15 15 34 16 28 0 34 16 28 1 35 35 1 16 28 18 28 DIMENSIONS - INCHESMODEL L W H LT200-33 33 13 25 LT285-50 33 13 25 L1340-75 33 13 25 L1425-100 33 14 25 LT585-100 36 15 30 LT850-150 36 15 30 LT995-200 36 15 30 LT1125-300 40 17 32 LT1635-300 40 18 44 LT2350-5001 40 18 44 TF-50-13 1 40 18 44 TF-75-T3 1 40 1 20 1 44 MODEL DIMENSIONS - INCHES L W H OL110-16AC 14 9 8 0L215-33AC 16 9 9 0L335-50AC 16 11 8 0L425-75AC 1 17 11 8 0L675I00AC 20 18 9 0L800-150AC 22 1 18 1 9 LIMITED WARRANTY: Air Products Division, General Blower Co., Inc. warrants its products to be free of defects in material and workmanship under normal use and service for 12 months from date of purchase. Our warranty applies only when such defective parts are returned to us, or our Authorized Service Depot, transportation prepaid, and subject to our inspection and approval. Liability is limited to repair or replacement of material found defective, free of charge, F.O.B. our plant. Unauthorized repairs or replacements will not be subject to factory warranty. This warranty is in lieu of all other warrants, expressed or implied. PDRP-1 O01/PDRP-1 001 A DELUGE N PREACTION CONTROL PANEL a 01 TONE ALARM ALARM SILENCE SILENCE ACTIVATE RESET ---S . SYSTEM s.' SENSOR' A Pittway Company Doc.l 50734 ACPOWEFI fl SYSTEM ALAR RELEASE SUPERVISORY U SYSTEM TROUBLE CIRCUIT TROUBLE ALARM SILENCED POWER TROUBLE N ZONE I a a ZONE 2 a a WATERPLOW — U SUPERVISORY U ECN 97-514 Installation Precautions - Adherence to the following will aid in problem-free installation with long-term reliability: WARNING - Several different sources of power can be connected to the lire alarm control panel. Disconnect all sources of power before servicing. Control unit and associated equipment may be damaged by removing and/or Inserting cards, modules, or interconnecting cables while the unit is energized. Do not attempt to .nstafl, service, or operate this unit until this manual is read and understood. CAUTION - System Reacceptance Test after Software Changes: To ensure proper system operation, this product must be tested In accordance with NFPA 72- 1993 Chapter 7 after any programming operation or change in site-specific software. Reacceptance testing Is required after any change, addition or deletion of system components, or after any modification, repair or adjustment to system hardware or wiring. All components, circuits, system operations, or software functions known to be affected by a change must be 100% tested. In addition, to ensure that other operations are not Inadvertently affected, at least 10% of Initiating devices that are not directly affected by the change, up to a maximum of 50 devices, must also be tested and proper system operation verified. This system meets NFPA requirements for operation at 0490 C132-1200 F and at a relative humidity of 85% RH (non-condensing) at 30°C1860 F. However, the useful life of the system's standby batteries and the electronic components may be adversely affected by extreme temperature ranges and humidity. Therefore, it is recommended that this system and its peripherals be Installed In an environment with a nominal room temperature of 15-270 C/60-800 F. Verity that wire sizes are adequate for all initiating and Indicating device loops. Most devices cannot tolerate more than a 10% I.R. drop from the specified device voltage. Like all solid state electronic devices, this system may operate erratically or can be damaged when subjected to lightning Induced transients. Although no system is completely Immune from lightning transients and interferences, proper grounding will reduce susceptibility. Overhead or outside aerial wiring Is not recommended, due to an increased susceptibility to nearby lightning strikes. Consult with the Technical Services Department if any problems are anticipated or encountered. Disconnect AC power and batteries prior to removing or inserting circuit boards. Failure to do so can damage circuits. Remove all electronic assemblies prior to any drilling, filing, reaming, or punching of the enclosure. When possible, make at cable entries from the sides or rear. Before making modifications, verify that they will not interfere with battery, transformer, and printed circuit board location. Do not tighten screw terminals more than 9 in-lbs. Over tightening may damage threads, resulting in reduced terminal contact pressure and difficulty with screw terminal removal, This system contains static-sensitive components. Always ground yourself with a proper wrist strap before handling any circuits so that static charges are removed from the body. Use static suppressive packaging to protect electronic assemblies removed from the unit. Follow the Instructions in the installation, operating, and programming manuals. These Instructions must be followed to avoid damage to the control panel and associated equipment. FACP operation and reliability depend upon proper Installation. Fire Alarm System Limitations While installing a fire alarm system may make lower insurance rates possible, It Is not a substitute for Are insurance! An automatic fire alarm system - typically made up of smoke detectors, heat 1etectors, manual pull stations, audible warning devices, and a fire alarm control ;Ith remote notification capability can provide early warning of a developing fire. Such a system, however, does not assure protection against property damage or loss of lire resulting from a fire. Any fire alarm system may fail for a variety of reasons: Smoke detectors may not sense fire where smoke cannot reach the detectors such as In chimneys, In walls, or roofs, or on the other side of dosed doors. Smoke detectors also may not sense a fire on another level or floor of a building. A second floor detector, for example, may not sense's first floor or basement fire. Further-more, all types of smoke detectors - both Ionization and photoelectric types, have sensing limitations. No type of smoke detector can sense every kind of fire caused by carelessness and safety hazards like smoking In bed, violent explosions, escaping gas, Improper storage of flammable materials, overloaded electrical circuits, children playing with matches, or arson. IMPORTANTI Smoke detectors must be installed in the same room as the control panel and In rooms used by the system for the connection of alarm transmission wiring, communications, signaling, and/or power. If detectors are not so located, a developing fire may damage the alarm system, crippling its ability to report a fire. FCC Warning WARNING: This equipment generates, uses, and can radiate radio frequency energf and if not Installed and used in accordance with the instruction manual, may cause interference to radio communications. It has been tested and found to comply with the limits for class A computing device pursuant to Subpart B of Part 15 of FCC Rules, which is designed to provide reasonable protection against such interference when operated in a commercial environment. Operation of this equipment in a 'idential area is likely to cause interference, In which case the user will be required correct the interference at his own expense. lions du Canada. Audible warning devices such as bells may not alert people If these devices are located on the other side of dosed or partly open doors Or are located on another floor of a building. A fire alarm system will not operate without any electrical power. If AC power fails, the system will operate from standby batteries only for a specified time. Rate-of-Rise heat detectors may be subject to reduced sensitivity over time. For this reason, the rate-of-rise feature of each detector should be tested at least once per year by a qualified fire protection specialist. Equipment used In the system may not be technically compatible with the control. It Is essential to use only equipment listed for service with your control panel. Telephone lines needed to transmit alarm signals from a premise to a central monitoring station may be out of service or temporarily disabled. The most common cause of fire alarm malfunctions, however, is inadequate maintenance. All devices and system wiring should be tested and maintained by professional fire alarm Installers following written procedures supplied with each device. System inspection and testing should be scheduled monthly or as required by National and/or local fire codes. Adequate written records of all Inspections should be kept. Canadian Requirements This digital apparatus does not exceed the Class A limits for radiation noise emissions from digital apparatus set out In the Radio Interference Regulations of the Canadian Department of Communications. Le present appareil numerique n'emet pas de bruits radioelectriques depassant les limites applicables aux appareils numeriques de la classe A prescrites dans Is Reglement sur le brouillage radioelectrlque edicte par le ministere des Communica- P!CAILO.PIm Table of Contents I I'IFPA Standards ..........................................................4 Additional Information ,.............•.•••••a•••• • . • • • • • . . • • • • . . • u . • • . • • • . 4 1.0 The PDRP1001/PDRP'1001 A ................. ...................................... 5 1.1 Features ....................................................................... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 1.2 Circuits ............................................................................. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 1.3 Optional Boards ......................................................................................... . . . 7 1.4 Remote Annunciator .................................................... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 1.5 Optional Meters ....................................................... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 1.6 Specifications..................................................................... . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 2.0 System Operation ...... ...................... ................. . . . . . . . . . . . . . . . . . . . . . . . . 11 2.1 System Status LEDs ............................................................ . . . . . . . . . . . . . . . . . . . . . . . 11 2.2 Control Switches........................................................................... . . . . . . . . . . . . . . 1 2 2.3 Zone Status LEDs .................................................... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 2 2.4 Supervisory ................................................................................................. 13 2.5 Zone Disable ......................................................................................... . . . . . 1 3 2.6 Last Event Recall ........................................................ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 3 3.0 Installation Procedure ............. ••.s..s.u.s.S .................. 14 3.1 General ........................................................................................... . . . . . . . . . . . . 1 4 3.2 Initiating Device Circuits .............................................................................15 3.3 4-Wire Smoke Detector Connections ...................... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 6 3.4 Output Circuits ........................................................................................ . . . . 1 7 3.5 Power................................................................................. . . . . . . . . . . . . . . . . . . . . . . . . . 1 8 3.6 Optional Modules ......................................................................... . . . . . . . . . . . . . . . 2 0 3.7 Dip Switch Location and Descriptions ....................... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 5 3.8 Setting Mode of Operation ..........................................................................26 Appendix A: Power Calculations........................ ... 27 Appendix B: Device Compatibility Chart........... . ........................ . . Appendix C: NFPA Standard Specific Requirements ....................33 Troubleshooting Table ...................................... .... .................. . . . . . . . . . . . . 38 3 PORP.1001/PORP- lOOM Document 50734 Rev B 1 2 1 2 1 1 9 7 NFPA Standards This control panel complies with the following NFPA standards: NFPA 13 Sprinkler Systems NFPA 15 Water Spray Systems NFPA 16 Foam-Water Deluge and Foam-Water Spray Systems NFPA 72 Central Station Signaling Systems (Automatic, Manual, and Wate r f l o w ) . P r o t e c t e d Premises Unit (Requires NOTI-FIRE 911 AC DACT or MS5012 Slave Communicator).* NFPA 72 Local (Automatic, Manual, Water? low and Sprinkler Supervisory) F i r e A l a r m S y s t e m s . NFPA 72 Auxiliary (Automatic, Manual, and Water? low) Fire Alarm Systems. ( R e q u i r e s 4 X T M . ) NFPA 72 Remote Station (Automatic, Manual, and Waterflow) Fire Alarm S y s t e m s . ( R e q u i r e s 4XTM orNOTl•FlRE 91 1A DAd.) * Applications which require the NOT/-FIRE 91 lAG is not FM approved. II Additional Information Note: Before proceeding, the installer should be familiar with the following document s a n d s t a n d a r d s : NFPA Standards: NFPA 13 Installation of Sprinkler Systems NFPA 15 Water Spray Fixed Systems NFPA 16 Deluge Foam-Water Sprinkler and Foam-Water Spray Systems NFPA 72 Installation, Maintenance, and Use of Central Station Signaling S y s t e m s NFPA 72 Local, Auxiliary, Remote Station and Proprietary Fire Alarm Sy s t e m s NFPA 72 Automatic Fire Detectors NFPA 72 Installation, Maintenance, and Use of Notification Appliances for F i r e A l a r m S y s t e m s NFPA 72 Testing Procedures for Signaling Systems Underwriters Laboratories Documents: UL 38 Manually Actuated Signaling Boxes UL 217 Smoke Detectors, Single and Multiple Station UL 228 Door Closers - Holders for Fire Alarm Systems UL 268 Smoke Detectors for Fire Alarm Systems UL 268A Smoke Detectors for Duct Applications UL 346 Water? low Indicators for Fire Alarm Systems UL 464 Audible Signaling Appliances UL 521 Heat Detectors for Fire Alarm Systems UL 864 Standard for Control Units for Fire Alarm Systems UL 1481 Power Supplies for Fire Alarm Systems UL 1638 Visual Signaling Appliances UL 1971 Signaling Devices for the Hearing Impaired CAN/ULC-S524-M91 Standard for Installation of Fire Alarm Systems CAN/ULC-5527-M87 Standard for Control Units for Fire Alarm Systems Other: NEC Article 300 Wiring Methods NEC Article 760 Fire Alarm Systems Applicable Local and State Building Codes Requirements of the Local Authority Having Jurisdiction Notifier Device Compatibility Document, 15378. ADA Americans with Disabilities Act PDRP1001/PDRP-1001A Document 50734 Rev 8 12/21/97 4 1.0 The PDRP-1 001/PDRP-1 001 A 1.1 Features Microprocessor-controlled Alarm and trouble resound Four Style BID Initiating Device Circuits Two Style VIZ Notification Appliance Circuits Two Style V Release Circuits General alarm and trouble relays Optional module for 4 zone/function relays (4XZM) Optional transmitter module (4XTM). Complies with NFPA 72 Auxiliary and Remote Station Fire Alarm Systems. Optional volt/amp meter module (4XMM) Optional supervised remote annunciator (RZA-4X). Requires LED Interface Module (4XLM) Optional digital communicator (NOTIsFIRE 911 AC).* Complies with NFPA 72 Central Station and NFPA 72 Remote Station Fire Alarm Systems. Designed for sprinklerstandards NFPA 13,15, and 16. Disable/enable controls per initiating zone. Last Event Recall Battery/Earth fault supervision Fuse protection on all Notification/Release Circuits AMS regulated output power, 2.25 amps 7 amp/hour to 15 amp/hour battery options, up to 90 hours standby Resetlable and non-resetlable regulated power outputs Extensive transient protection Watchdog timer to supervise microproces- sor (includes MICRO FAIL LED) Output circuits protected against false activations. Slide-in zone identification labels Steel cabinet 14.5" wide by 16" high by 5" deep Dead-front dress panel option (DP-4X) Trim ring forfiush mount between 16" center studs (TR-4XR) Cross-zone (double-interlock) option Municipal Box output. Interface Module (4XLM) Dual hazard operation Adjustable discharge timer "Applications which require the NOTI-FIRE 91 1AC is not FM a p p r o v e d . 12 Circuits Input Circuits Manual Release/Detector Circuit 1 (Style B/D) Detector Circuit 2 (Style BID) Waterfiow (Style B/D) Supervisory (Style B/D) Output circuits (otlonal auxiliary relay module (4XZM) tracks these four circuits) Alarm/Waterf low Bell (Style V/Z) Waterf low/Supervisory Bell (Style VIZ) Releasing Circuit 1 (Style Y) Supervisory Bell/Release Circuit 2 (Style Y) Front Panel Control Switches Switch 1 Tone Silence Switch 2 Alarm Silence Switch 3 Alarm Activate Switch 4 System Reset PDRP-1001JPDRP-1001A Document 50734 HevB 12121/97 Notification Appliance Releasing Circuits Circuits Styl•V/Z I Relays initiating Device Circuits Alarm Trouble Manual Style BID flslsu con,ucconhim 1 1 2 1 3 1 4 ONC GINO NC CI ISO A+ A. B-I&A, A- B.IR.A A. N.lRA, .JI Transformer AC Circuit Breaker I Ground T86 TBS [ a I N.UL' a J2 1 r- Ammeter Bananas JON a - I . U Connection 4XTM or 4XLM I or 4XZM OPT 4XTM or 4XLM or 4XZM swi I )oPTzi cmss.zon. rI H Notuisd •OptIonBoeJum,a buat Hua Ischa,g. timer Discharge Omar Discharge timer 11111cro Fab LED are underneath lower module ri BATTO C)EARTh Battery Fill LED - Ground Fault LED Figure 1.0-1: PDRP-1001/PDRP-1001 A Installation Diagram PDRP-1001/1'DRP-1001A Document 50734 RevB 12/21/97 IN 1.3 Optional Boards The PDRP-1001/PDRP-1001A has mounting slots for two option boards. Any two o f t h e t h r e e o p t i o n modules may be installed. Transmitter Module (4XTM NOTIFIER) The Transmitter Module provides a supervised output for local energy municipal box transmitter (for NFPA 72-1993 Auxiliary Fire Alarm System) and alarm and trouble reverse polarity circuits (for NFPA 72-1993 Remote Station Fire Alarm System). Also included is a DISABLE switch and disable trouble LED. As a jumper option, the alarm reverse polarity circuit will open on trouble if no alarm exists. LED Interface Module (4XLM NOTIFIER) The LED Interface Module supports the RZA-0 Remote Annunciator module. Annunciatorwiring is supervised for open conditions by this module. The Annunciator Driver Module mounts to the main board, occupying one of the two option connectors. Zone Relay Module (4XZM NOTIFIER) The Zone Relay module provides Form-C contacts for the following: Ala rm/Waterf low Bell Waterf low/Supervisory Bell Releasing Circuit 1 Supervisory Bell/Release Circuit 2 System Alarm System Trouble As a jumper option, the first four relays described above can be made silenceabl e . PDRP-1001/PDRP-1001A Document 50734 RevS 12121/97 VA Transmitter Module (4XTM NOTIFIER) For Local Energy Municipal Box service (NFPA 72 Auxiliary Fire Alarm S y s t e m ) Supervisory current: 5.0 mA. Trip current: 0.35 amps (subtracted from Notification Appliance power). Coil Voltage: 3.65 VDC. Coil resistance: 14.6 ohms. Maximum allowable wire resistance between panel and trip coil: 3 ohms. Municipal Box wiring can leave the building. For Remote Station service (NFPA 72 Remote Station Fire Alarm System) : Maximum load for each circuit: 10 mA. Reverse polarity output voltage: 24 VDC. Remote Alarm and Remote Trouble wiring can leave the building. LED Interface Module (4XLM NOTIFIER) Maximum voltage/current, each output: 27.6V/8mA. Note: Outputs are power limited. Zone Relay Module (4XZM NOTIFIER) Dry Form-C contacts rated: 2.0 amps © 30 VDC (resistive), 0.5 amps © 30 V A C ( r e s i s t i v e ) . 1.4 Remote Annunciator 1.5 Remote Annunciator(RZA-4X NOTIFIER) The Remote Annunciator mounts on a standard single-gang box, and prov i d e s L E D .indication of the following: Alarm/Waterf low Bell (red) Waterflow/Supervisory Bell (red) Releasing Circuit 1 (red) Supervisory Bell/Release Circuit 2 (red) System Trouble LED (yellow) A Local Trouble Sounder and Silence Switch are also provided. All LED wiring i s supervised for open conditions. Any open condition will cause the System Trou b l e LED to illuminate. Note: The Remote Annunciator requires the use of an LED Interface module (4XLM ) . Optional Meters 1"L1 t-r IITIMT.I FIRE ALARM ANNUNCIATOR Voltage, Current Meters (4XMM NOTIFIER) The Meter Module provides a voltmeter to measure the voltage across t h e batteries and an ammeter to measure the charging current to the batteries. The meters are provided as a assembly that mounts to the lower left corner of th e cabinet. tO 2 3011 0 PDRP-1001/PDRP-1001A Document 50734 RevB 12/21/97 1*1 1.6 Specifications AC Power A C Circuit For PDRP-1 001/PDRP-1 001 A: 120 VAC, 50/60 Hz, 1.2 amps Breaker Wire size: minimum #14 AWG with 600V insulation Battery (lead acid only) Maximum Charging Circuit: 27.6V, 1.5 amps Maximum Battery Capacity: 15 AH. (Batteries larger than 1 2 A H r e q u i r e N o t i f i e r #BB-17 or other UL listed battery cabinet.) Initiating Device Circuits Power-limited circuitry Operation: Style B (Class B)/ Style 0 (Class A) Normal Operating Voltage: 24 VDC (ripple =1 .OV peak-to- p e a k ) Alarm current: 15 mA minimum Short circuit current: 40 mA maximum Maximum detector current in standby: 2 mA (max) per z o n e Maximum loop resistance: 200 ohms End-of-line resistor: 4.7K, 112-Watt (NOTIFIER part # 71252 UL listed) Detector loop current is sufficient to ensure operation of o n e a l a r m e d d e t e c t o r p e r z o n e . Supervisory current: 5 mA (including end-of-line resistor ) Notification Appliance and Releasing Circuits Power-limited circuitry Maximum allowable voltage drop due to wiring: 2 VDC Normal Operating Voltage: 24 VDC $ $ $ $ I I Total current available to all external devices: 2.25 amp s . - - Maximum signaling current per circuit: 1.5 amps End-of-line resistor: 4.7K, 1/2-Watt (NOTIFIER part # 7125 2 U L 1 1 3 t e d ) U P1 P2 P3 P4 Alarm and Trouble Relays Output Circuit PTCs Dry Form-C contacts rated: 2.0 amps © 30 VDC (resisti v e ) , 0 . 5 a m p s @ 3 0 V A C ( r e s i s t i v e ) . All relays must be connected to a power-limited power sup p l y . Four-wire Smoke Detector Power Up to 200 mA is available for powering 4-wire smoke d e t e c t o r s . Maximum ripple voltage: 1.0 V p/p Non-resettable Power Total DC current available from this output is up to 200 m A ( s u b t r a c t e d f r o m f o u r - w i r e s m o k e p o w e r ) . Maximum ripple voltage: 1.0 V p/p RMS Regulated Power Total DC current available for powering external devices i s 0 . 5 a m p ( s u b t r a c t e d f r o m 2 . 2 5 amps available to notification appliance Circuits). Maximum ripple voltage: 100 mV p/p Note: For device compatibility data, refer to the Device Compatib i l i t y C h a r t , A p p e n d i x B . PORP-100IIPDRP-1001A Document 50734 ReeB 2I21I97 Door = 14.625" Backbox = 14.5" Cabinet = 5.375" Backbox = 4.750" I I Door = 16.125" Backbox = 16" 1.5" TR-4XR RUBY RD STEEL 16 GA. 163/32 I - 1419/32 Optional Trim Ring TR-4XR Figure 1.6-1: Cabinet Dimensions PDRP-1001/PDRP-1001A Document 50734 Rev 8 12/21/97 0 10 2.0 System Operation 2.1 System Status LEDs Alarm, Trouble andSupevisoryLEDs will flash on and off until the event( s ) h a s b e e n a c k n o w l e d g e d ( T O N E orALARMS/LENCE), at which point the LED will illuminate steadily . AC POWER Green LED that illuminates steadily to indicate presence of AC power. SYSTEM ALARM Red LED that flashes when an alarm occurs. RELEASE Red LED that illuminates steadily when release occurs. After the Discharge Timer has expired, the LED will flash. SUPERVISORY Yellow LED that flashes upon activation of a supervisory device (such as tamper switch) on Zone 4. SYSTEM TROUBLE Yellow LED that flashes for any trouble condition, including those associated with option boards. CIRCUITTROUBLE Yellow LED that flashes for trouble conditions on output circuits (notification and releasing circuits). ALARM SILENCED Yellow LED that illuminates steadily when the ALARM SILENCE switch has been pushed after an alarm. POWER TROUBLE Yellow LED that flashes for low or disconnected batteries and earth fault conditions. BATE Yellow LED that illuminates steadily on motherboard when battery is low or not detected (not visible through door). EARTH Yellow LED that illuminates steadily on motherboard during a ground fault condition (not visible through door). MICRO FAIL Yellow LED that illuminates on motherboard when watchdog timer detects microprocessor failure (not visible through door). BATT EARTH MICRO FAIL 11 PDRP-1001/PDRP-1001A Document 50734 RevO 12/21/97 2.2 Control Switches Tone Silence Acknowledge alarms, troubles and supervisories. The panel has alarm and trouble resound with LED flash of new conditions. The flashing trouble LED(s) illuminate steadily on TONE SILENCE and the piezo sounder silences. A second trouble will resound the piezo. The piezo has three distinct sounds for alarm, trouble, and supervisory. Trouble condi- tions are self restoring. Alarms and supervisories latch and require RESET to clear. Alarm Silence Acknowledge for alarms and supervisories. The ALARM SILENCE switch will silence the local piezo, change any flashing alarm LEDs to steady, and turn off the notification appliance circuits (not the Releasing Circuits). The "ALARM SILENCED LED will illuminate. Alarm silence is a latching function and requires a RESET to clear. Note: Releasing Circuits will turn off only if Discharge timer criteria is satisfied see 'Setting Mode of Operation". Alarm Activate The ALARM ACTIVATE switch may be used to activate Notification Appliance Circuits. ALARM ACTIVATE also activates the System Alarm relay. ALARM ACTIVATE is a latching function. Pressing ALARM SILENCE silences the. notification appliance circuits and System Alarm Relay and lights the Alarm Silenced LED Pressing RESET returns the system to normal. System Reset The RESET switch breaks power to all initiating device circuits, 4-wire smoke power and option boards and will clear any activated output circuits. If any alarm or trouble still exists after reset, they will reactivate the panel. Holding RESET down will perform a LAMP TEST function and will activate the piezo sounder. 2.3 Zone Status LEDs The alarm and/or trouble LED(s) will flash until the event(s) has been acknowledged (TONE or ALARM SILENCE), at which point the LED(s) will illuminate steadily. ALARM LED TROUBLE LED ALARM LED TROUBLE LED ALARM LED TROUBLE LED (NOT USED) TROUBLE LED ['j 12 PDRP.1001IPORP-1001A Document 50734 Rev 8 12/21/97 2.4 Supervisory Zone 4 is always used for monitoring supervisory devices (such as valve t a m p e r s w i t c h e s ) . A s h o r t c i r c u i t on this zone (activation of a N.O. contact) will cause the supervisory L E D a n d t h e z o n e 4 y e l l o w L E D t o f l a s h . The piezo sounder will generate a unique Pressing TONE SILENCE w i l l s i l e n c e t h e p i e z o a n d c a u s e t h e supervisory LED to illuminate steadily, but the Zone 4 Trouble LED will continue to flash. Supervisory signals latch and require RESET to clear. The ALARM SILENCE switc h w i l l s i l e n c e t h e p i e z o , c a u s e t h e supervisory LED to illuminate steadily and turnoff the Supervisory Notifi c a t i o n A p p l i a n c e C i r c u i t . A n o p e n circuit on Zone 4 will be reported as a zone trouble. 2.5 Zone Disable If a zone has been disabled, an alarm that occurs on that zone will fla s h the red zone LED, but neitherthe piezo nor any output circuit will activate. If both power sources are removed from the system, al/zones will be re- enabled upon restoration of power. Disable status will be lost. The Zone Disable routine makes use of the four panel switches as follows: Press and hold in the TONE SILENCE switch. With the TONE SILENCE switch held in, press (in sequence) the ALAR M SILENCE switch, the ALARM ACTIVATE switch, and then the RESET switch. The Zone 1 Alarm LED will flash. To disable Zone 1, press the RESET switch. The Zone 1 yellow LED will li g h t t o show that the zone is disabled. Note: The RESET switch toggles disable status for the selected zone. To select the next zone, press the ALARM SILENCE switch. To select the previous zone, press the ALARM ACTIVATE switch. When disable selections are complete, release the TONE SILENCE s w i t c h . If any zone has been disabled, the trouble relay will activate and System T r o u b l e L E D w i l l f l a s h . 2.6 Last Event Recall Last Event Recall allows the user to display the previous panel statu s . T h e L a s t E v e n t R e c a l l m a k e s u s e of the four panel switches as follows: 1) Press and hold in the TONE SILENCE switch. With the TONE SILENCE switch held in, press (in sequence) the RESET switch, the ALARM ACTIVATE switch, and then the ALARM SILENC E s w i t c h . Last Event is displayed. Release the TONE SILENCE switch to return to normal operation. Note: To clear the Last Event buffer, press RESET twice. 13 PDRP-1001/PDRP-1001A Document 50734 Rev B 12/21/97 3.0 Installation Procedure 3.1 General Carefully unpack the system and check for shipping damage. Mount the cabinet in a c l e a n , dry, vibration-free area in which extreme temperatures are not encountered. The location should be re a d i l y a c c e s s i b l e with sufficient room for easy installation and maintenance. Locate the top of the cabin e t a p p r o x i m a t e l y f i v e feet above the floor with the hinge mounting on the left. Determine the number of c o n d u c t o r s r e q u i r e d f o r the devices to be employed. Pull required conductors into the box through the knockout pro v i d e d . A l l w i r i n g should be in accordance with the National and/or Local codes for fire alarm syste m s . UL Power Limited Wiring Requirements Power limited and non-power limited circuit wiring must remain separated in the cabin e t . A l l p o w e r l i m i t e d circuit wiring must remain at least 0.25" away from any non-power limited circuit wi r i n g . F u r t h e r m o r e , a l l power limited circuit wiring and non-power limited circuit wiring must enter and exit the ca b i n e t t h r o u g h different knockouts and/or conduits. Atypical wiring diagram for the PDRP-1001/PDRP-1 0 0 1 A i s s h o w n below. Power Limited Non-Power Power Limited Circuits Limited Circuits Po Circuits Goes 866860e0eeee8650 eeee eeeeeeeeeee9eee Relays Inhtiaflng Circuits Bell Circuits.. e So own IN - Power Limited mown AC Power mom Limited Iowan e -•__ __ - I Non-Power 0 Limited Circuit 0 PC Board Figure 3.1-1: Typical Wiring Diagram for UL Power-Limited Requirements PDRP-1001/13DRP•100IA Document 50734 RevS 12/21/97 14 4 3.2 Initiating Device Circuits Zones Wire all alarm initiating devices sequentially for proper supervision, initi a t i n g d e v i c e s i n c l u d e : h e a t , photoelectric, and ionization type detectors; and waterf low alarm devices. Refer to the Device Compatibility Chart, Appendix B. Notes: Observe polarity when connecting polarized devices. All circuits are supervised and power limited. Leave Dummy Load (provided) on all unused circuits. Style 9 Style B Initiating Device Supervisory Circuit Circuit 4.7K. 1/2-Waft 4.7K, 112-Waft (NOTIFIERpart# 71252. (NOTIFIER padS 71252. UL listed) UL listed) Style D Initiating Device Circuit -- Manual Release TB4 IN #1 IN #2 J IN #3 IN #4 Figure 3.2-1: Example of Initiating Device Circuits PDRP- 1001/PDRP- 1001A Document 50734 RevS 12121/97 15 1 2 3 4 IN #1 Style B Initiating Device Circuit Initiating Device Circuits 1, 2, 3, or 4 can be used. Style D wiring can also be employed. 4) 3,3 4-Wire Smoke Detector Connections Refer to the Device Compatibility Chart (Appendix B), for suitable 4-wire smoke de t e c t o r s . 24 VDC Red Common (-) Common &) UL-listed 24 VDC Four-Wire Smoke Detectors UL Listed Listed 4.7K, 1/2-Watt Power ELR Supervision Relay TB1 TB4 1 2 I+24vf1 A maximum of 200mA is available from the +24VDC 4-wire smoke detector power cir- cuit on 181 terminals 3 and 4. Any power that is drawn from the +24VDC Non-Resettable Power on TB2 terminals 1 and 2 must be subtracted from available 4-wire detector power. See Sections 'Specifications" and "Power". Figure 3.3-1: Diagram of connections for a 4-Wire Smoke Detector Notes on Style B and Style 0 field wiring: The Power Supervision Relay coil leads must be connected to the last detector base 24V screw t e r m i n a l s . Calculation of the maximum allowable resistance in the 24VDC detector power wiring: (2O.6-V) Where: (N X I) + (N X I) + (I,,) is the maximum resistance of the 24V wires. V. is the minimum operating voltage of the detector or end-of-line relay, whichever is greater, in volts. N is the total number of detectors on the 24V supply loop. I, is the detector current in standby. N is the number of detectors on the 24V power loop which must function at the same time in alarm. I, is the detector current in alarm. I,, is the end-of-line relay current. PDAP-1001/PDRP-1001A Document 50734 RevS 12/21/97 1E Figure C-i B: NFPA 72 Signaling Systems for Central Station Service Program the Fire'Lite MS-5012 for slave application. Reference the I n s t a l l a t i o n M a n u a l f o r a d d i t i o n a l information. seconclary Phone tire • Modulat Cable P= Une PIN MCBL• 7 Alarm LO 0-1 W.4-, 0 Liii Tfouble L-i P*no,y Acltee U 00 DAc poeca Ont DAUJ1M 09Ju,y IRESETHSIENCEIIMOOEj DDDD 0000c DDDD' IDE)EMOM I 120 VAC + I2VDC 4 —m ' 80ftew AC Wiring for DACT/FACP must be connected to the same circuit. TB3 Awim Motherboard MS-5012 Alarm TB3-1 T132-2 TB3-3 TB2-1 Trouble T133-4 T82-4 T83-6 TB2-3 Supervisory 4XZM TB1-1O T132-10 4XZM TB1-12 T132-9 PDRP-1001/PDRP-1001A Document 50734 RevB 12/21/97 35 Gamewell Model M34-56 Local Energy Municipal Box Note: Municipal Box wiring can leave the building. +1 Municipal Box Circuit Figure C-2: NFPA 72 Auxiliary Fire Alarm System All connections are power limited and supervised. This application is not suitable for separate transmission of sprinkler supervisory or trouble conditions. Note: Maximum loop resistance allowed for wiring from control panel to Municipal Box is 3 ohms. NOTIFIER 4XTM Transmitter Module (activated polarities shown) 36 P"] PDRP-1001/PDRP-100A Document 50734 Rev B 12/21/97 Figure C-3: NFPA 72 Remote Station Fire Alarm System Intended for connection to a polarity reversal circuit of a remote station receiving unit having compatible ratings. All connections are power limited and supervised with the exception of the reverse polarity loop. Supervision of the loop is the responsibility of the receiver. FiresLIte RS82-9 Remote Station Receiver UL listed -p -4 A Remote Alarm and Remote Trouble wiring can leave the building. NOTIFIER 4XTM Transmitter Module (activated polarities shown) PDRP-1 OO1/PDRP-1 001 A Document 50734 Rev B 12/21/97 37 Troubleshooting Table check TB2 for proper connectlons.(TB3 for 4XB panels) Remove all field wiring and install. dummy ELR at output circuit. Check for supervisory voltage across it, (Normal -2.3 V), Circuit trouble LED on Notification appliance circuit trouble if problem persist, replace circuit board. - Removed dummy ELR, reconnect field wiring and measure voltage across output; (trouble -5V, short OV). Check for ELR at last device. Check field wiring. Check TB4 for proper connections. Remove field wiring for zone in trouble and Any of the right column . Initiating zone open circuit trouble install dummy ELR (4.7K for 24V; 2.2K for yellow LEDs flushing 12V) If problem persist, replace circuit board, Check for ELR at last device. Check field wiring. Any of the right column Zone disable 1. Check installation manual. System trouble LED on yellow LEDs steady on Missing or Check battery connections. Disconnected I. Remove batteries, check voltage across charger Battery trouble output (17. to 19V for 24V; 8-10V for I2V), Batt yellow LED Low or damage otherwise replace circuit board. S on battery Reconnect batteries, measure battery voltage at battdiy terminals. If voltage is less than 85% of. Power trouble LED on rated voltage, allow them to charge for 48 hours. If problem persist, replace batteries, Remove field wiring from main panel and AC Power LED on optional module(s) (if installed). Install dummy Ground fault trouble ELR (4.7K for 24V; 2.2K for 12V). - Earth yellow LED on Remove both battery leads. If trouble clears, connect one circuit at the time * to pin point the problem. If trouble doesn't clear, replace circuit board. Yellow LED on 4XTM 4XTM 1. Move Municpai Box disconnect switch SWI on OPTI OP'r2 jumper cut pa I. Install optional module(s) or replace jumper if module(s) is not used. Install dummy load it Municpal Box option • Municipal Box open circuit isn't used Check Municpal Box wiring. 1. Remove field wiring and install ELR. If. Any of the right column red LEDs on Short on initiating circuit wiring trouble clears, look for faulty or incorrectly wired devices. Disconnecting Municipal Box switch on 4XTM Jumper for optional modules isn't 1. Cut associated jumper OPTI or OPT2.. does not create a trouble cut 4X7-M: associated LED doesn't activate for alarm, Make sure module is properly installed. trouble or supervisory conditions Optional module trouble Move disable switch SW on 4XZM to the left RZA-4X piezo doesn't Sound for alarm, trouble or I. Make sure that 4XLM module is installed on4XLM supervisory conditions 17 18. 2. Check field wiring. Micro Fail yellow LED on Microprocessor damaged I. Replace circuit board. All RZA-4X LEDs stay on Power wasn't removed prior I. Hit system reset. installation Loss of main power I. Check incoming power (TB5). (TB I for 4XB • System trouble LED on panels) Damaged circuit breaker I. Replace circuit board. AC Power LED oft Micro Fail yellow LED on Microprocessor damaged I. Replace circuit board. 38 PORP-1001/PDRP-1001A Document 50734 Rev B 12/21/97 F] Limited Warranty I SYSTEM SENSOR® warrants its products to be free from defects in materials and workmanship for eighteen (18) months from the date of manufacture, under normal use and service. Products are date stamped at time of manufacture. The sole and exclusive obligation of SYSTEM SENSOR® is to repair or replace, at its option, free of charge for parts and labor, any part which Is defective in materials or workmanship under normal use and service. For products not under SYSTEM SENSORP manufacturing date-stamp control, the warranty Is eighteen (18) months from date of original purchase by SYSTEM SENSOR®'S 'distributor unless the installation Instructions or catalog sets forth a shorter period, in which case the shorter period shall apply. This warranty is void if the product is altered, repaired or serviced by anyone other than Svsrái SENSOR or its authorized distributors or If there is a failure to maintain the products and systems in which they operate in a proper and workable manner. In case of defect, phone SYSTEMS SENsoR's® toll free number 800-SENSOR2 (736-7672) fora Return Authorization number, send defective units postage prepaid to: SYSTEM SENSOR®, Repair Department, RA #, 3825 Ohio Avenue, St. Charles, 11 60174. Please include a note describing the malfunction and suspected cause of failure. This writing constitutes the only warranty made by SYSTEM SENSOR® with respect to its products. SYSTEM SENSOR® does not represent that its products will prevent any loss by - fire or otherwise, or that its products will in all cases provide the protection for which they are installed or intended. Buyer acknowledges that SYSTEM SENSOR® is not an insurer and assumes no risk for loss or damages or the cost of any Inconvenience, transportation, damage, misuse, abuse, accident or similar incident. SYSTEM SENSOR® GIVES NO WARRANTY, EXPRESSED OR IMPLIED, OF MERCHANTABILITY, FITNESS FOR ANY PARTICULAR PURPOSE, OR OTHERWISE WHICH EXTEND BEYOND THE DESCRIPTION ON THE FACE HEREOF. UNDER NO CIRCUMSTANCES SHALL SYSTEM SENSOR® BE LIABLE FOR ANY LOSS OF OR DAMAGE TO PROPERTY, DIRECT, INCIDENTAL OR CONSEQUENTIAL, ARISING OUT OF THE USE OF, OR INABILITY TO USE SYSTEM SENSOR® PRODUCTS. FURTHERMORE, SYSTEM SENSOR® SHALL NOT BE LIABLE FOR ANY PERSONAL INJURY OR DEATH WHICH MAY ARISE IN THE COURSE OF, OR AS A RESULT OF, PERSONAL, COMMERCIAL OR INDUSTRIAL USE OF ITS PRODUCTS. This warranty replaces all previous warranties and is the only warranty made by SYSTEM SENSOR®. No increase or alteration, written or verbal, of the obligation of this warranty is aUthorized. SYSTEM 4, SENSOR® A Division of Pittway 3825 Ohio Avenue, St. Charles, Illinois 60174 1 -800-SENSOR2, FAX: 630-377-6495 ' PDRP-1001/PDAP-I00IA Document 50734 RevB 1221/97 40 H I - .)J.( .. F a 7 B DIMENSIONS \J ic tauI ic An iso 9001 certified company "I'S CARBON STEEL PIPE t.; _-IRE PROTECTION 1SYSTEM [I Vic'-Quick Riser For Series 756 Dry, Series 758 Pre-Action and Series 758 Deluge Devices PRODUCT DESCRIPTION It is now easier than ever to install the revolutionary Victaulic FireLock line of Pie-Action and Deluge devices into your Fire Pro- tection system. With the introduction of the Vic- Quick Riser installation is fast and easy becuase devices are pre-trimmed for your convenience. Vic-Quick Riser includes a Series 705 butterfly valve for system shut-off and a drain kit for testing. Vic- Quick Riser is offered in 21/2 - 8" sizes for use with Series 758-P Pre-Action and Series 758-D Deluge devices. The Vic-Quick Riser can be installed into the system using Style 005 FireLockTM rigid couplings. Once the air lines are hooked up and the drains are connected the device is ready for ser- vice. For complete installa- tion procedures always refer to the installation manual included with each devices. For complete information request submittals 10.40 for the Series 758 Deluge, 10.35 for the Series 756 Dry Valve, and 10.50 for the Series 758 Pie-Action devices. 10 99-1A VALVE Dimensions SIZE Inches/in, Aprx. Nominal Weight Inches Each Artijal mm A B C D E F G H I LbsJ1q GROOVED X GROOVED 21h 18.00 './ 26.00 . 14.00 23.00 12.00 12.00 7.50 5.00 5.00 100.0 76,1 mm 18.00 26.00 14.00 23.00 12.00 12.00 7.50 5.00 5.00 100 3 18.00 26.00 14.00 23.00 12.00 12.00 7.50 5.00 5.00 100.0 4 23.00 26.00 14.00 25.00 15.00 14.00 8.00 9.00 6.00 1450 6 24.00 28.00 16.00 26.00 15.00 15.00 8.50 7.00 7,00 - 175.0 165,1 mm 24.00 28.00 16.00 26.00 15.00 15.00 8.50 7.00 7.00 175.0 8 26.00 27.00 16.00 31.00 16.00 13.00 14.00 9.50 7.00 255.0 This product shall be manufactured by Victaulic Company. All products to be installed in accordance with current Victaulic installation/assembly instructions. Viclaulic reserves the right to change product specifications, designs and standard equipment without notice and without incurring obligations. Victaulic® World Headquarters • P.O. Box 31, Easton, PA 18044-0031 • 4901 Kesslersville Rd., Easton, PA 18040 • 1-800-PICK VIC • FAX: 610/250-8817 • www.victaulic.com 3047 Rev. A 11/00 0 Registered Trademark of Victaulic /0 Copyright 2000 Victaulic Printed in U.S.A. PRODUCT DESCRIPTION Patent Pending -490 \j taUIiC An isa 9001 certified company Style 747 Riser Manifold Assembly The Victaulic Style 747 Riser Manifold Assembly is compact and easy to install in zoned wet sprinkler sys- tems. The Riser Manifold Assembly includes the Manifold Body, a UL Listed and FM Approved Flow Switch, a Pressure Gauge and a Style 720 TestMaster hIM Alarm Test Module with standard ½" orifice. The Style 747 Riser Mani- fold Assembly is available in sizes from 2° through 6° (60,3 - 168,3 mm) with grooved ends for easy installation with standard Victaulic grooved cou- plings. The Riser Manifold Assembly is FM Approved and UL and ULC Listed for working pressures up to 250 PSI (1725 kPa). DIMENSIONS lO.96.1A Manifold Body Size Nominal in. rn Drain Size Dimensions inches/,'i,,,,r Approx. Weight Each Lbsikq - A ____ B C D - E ,2 11/4 16.00 7.90 7.10 510 8.90 19.9 21h 11/4 16.00 8.10 7.40 5.90 8.90 22.7 3 11/4 16.00 8.40 7.70 6.20 8.90 25.6 4 2 16.00 8.90 8.90 7.20 9.10 33.4 6 2 16.00 10.00 9.90 8.30 9.10 45.8 Flow Switch Pressure Gauge Options: Integral pressure relief valve %°, 7A&', 17/" /8" and 3/4" orifices. MATERIAL SPECIFICATIONS Manifold Body: Fabricated from carbon steel pipe conform- ing to ASTM A53 Grade B with integral Victaulic grooved ends. Finish, orange enamel. TeatMaster II: Bronze con- struction complete with dual integral sight glasses and stan- dard ½° test orifice. Single han- dle operation for test and drain functions. Refer to Victaulic Specification Sheet 10.22 for additional details. Optional: Integral pressure relief valve and additional orifices depending on size. Coupling: Victaulic Style 005 FireLockTM coupling complete with Grade "E" - Type A Gasket. Refer to Victaulic Specification Sheet 10.02 for additional details. Waterfiow Detector: System Sensor Model WFD vane type waterflow detector with sealed retard, visual switch activation, and mechanical delay adjust- ment. Cover includes tamper resistant security screws and tool. Note: ULC models WFDA include cover tamper switch. Victaulic® World Headquarters • P.O. Box 31, Easton, PA 18044-0031 • 4901 Kesstersville Rd., Easton, PA 18040 • 1-800-PICK VIC • FAX: 610/250-8817 9 www.victaulic.com X taUIiC® An a 9001 certified company Style 720 TestMaster TM 11 Alarm Test Module PRODUCT DESCRIPTION See Victauhc publication 10.01 for details. Patent Pending Style 720 Grooved Ends The Victaulic® TestMas- terlM II Alarm Test Module incorporates the test func- tion and rapid drain func- tion for wet sprinkler systems into a single unit. The unique two valves-in- one globe design provides a test port with integral orifice and a drain port within the same unit. The TestMaster II is constructed of corrosion resistant bronze with dual polycar- bonate sight glasses and has a working pressure of 300 PSI (2065 kPa). TestMaster II is available with either NPT, BSPT Style 720 Threaded Ends female threaded ends or with grooved ends. The integral ½ orifice is factory fitted. 17/f orifice and other sizes available as ordered options. Style 720 TestMas- ter II can be installed either facing left or right. The Style 720 TestMaster II can be supplied with a pressure gauge port tap- ping. This requirement must be specified at the time of order. The Victaulic Style 720 TestMaster II Alarm Test Module is also available with a pressure relief valve Style 720 with Pressure Relief Valve set at 175 PSI (1206 kPa) - and equipped with either NPT or BSPT female threaded ends. The TestMaster II can also be supplied with both options. The Style 720 provides the pressure relief and gauge port. NOTE: The Style 720 with pressure relief valve and Style 720 with pressure relief valve and gauge port are UL Listed and FM Approved only. Victaulic® World Headquarters • P.O. Box 31 Easton, PA 18044-0031 • 4901 Kesslersvule Rd., Easton, PA 18040 • 1-800-PICK VIC • FAX: 610/250-8817 • www.victaulic.com 2989 Rev. C 4X11 6D Ristrnd Trar$mrk rf Wt, dir np,, v-s, i.- ,. DIMENSIONS Style 720 Grooved Ends Style 720 Threaded Ends FIX i DRAIN POSITION i- E e- F Ll a.mWPOSlT L I AH - Style 720 with Pressure Relief Valve 1022.18 ...a . SIZE Dimensions Approx. Nominal inches/iiiliiil' Weight Each A B C 0 E F G H I J Inches LbSlkq Actual mm STYLE 720 GROOVED ENDS 11/4 315 2.90 5.47 6.43 2.68 3.25 - - - 3.50 6.7 1½ 3.65 3.06 5.47 6.51 2.68 3.75 - - - 4.20 8.9 2 3.65 3.06 5.47 6.51 2.68 3.75 - - - 4.20 9.3 STYLE 720 THREADED ENDS 1 3.00 2.38 5.47 6.43 2.68 3.25 - - - 3.00 7.3 3.90 2.38 547 6.43 2.68 3.25 - - - 3.00 7.0 1W 3.63 2.38 5.47 6..51 2.68 3.75 - - - 3.50 19.5 2* 3.63 2.38 5.47 6.51 2.68 3.75 - - - 3.50 10.0 STYLE 720 WITH PRESSURE RELIEF VALVE 3.00 2.38 5.47 6.43 2:68 3.25 3.90 4.95 4.00 3.00 8.3 11/4 3.00 2:38 5.47 6.43 2.68 3.25 3.90 4.95 4.00 3.00 8.0 11/2 3.63 2.38 5.47 6.51 2.68 3.75 4.09 4.95 4.00 3.50 11.5 2 3.63 2.38 5.47 6.51 2.68 3.75 4.09. 4.95 4.00 3.50 11.0 Not available in Canada. MATERIAL SPECIFICATIONS Body: Bronze Internals: Bronze and copper alloy, except spring is 316 stain- less steel Valve Bonnet: Bronze Sight Glasses: Polycarbonate 0-rings: Nitrile Gland Nut: Copper alloy Indicator Pin/Plate: Carbon steel, zinc plated Handwheel: Malleable iron Open/Shut Label: Aluminum Valve Seats: EPDM Options: TestMaster If can be specially ordered with the body tapped ¼ NPT for a pressure gauge connection. Orifice Sizes: Standard W Optional: 11 W lJ % Pressure Relief Valve Option: Relief Valve: W Pressure Relief Valve, Watts Regulator Model FP 53L 175 psi Fittings: Bronze elbows and hose adapters. Drain Hose: Reinforced plastic. This product shall be manufactured by Viclaulic Company. All products to be installed in accordance with current Viclaulic installation/assembly instructions. Victaulic reserves the right to change product specifications, designs and standard equipment without notice and without incurring obligations. 10.22-2 \jf'ctaulic An 0 9001 certified company PRODUCT DESCRIPTION Series 758 FireLockTM Actuated System Valve With Preaction Trim Grooved X Grooved and Flanged X Grooved 1 The Victaulic® Series 758 Actuated System Valve with Preaction Trim controls the water supply entry into a Preaction System piping and heads. The preaction system is normally supervised with pressurized air or nitrogen in order to detect any leaks in the system. The Series 758 Actuated Valve is a low differential, latched clapper valve that separates system water supply from sprinkler system. The positive latching mechanism uses the supply water pressure from upstream (city side) of the control valve to hold the clapper shut. When the water pressure in the piston -is released the latch retracts from the clapper and the valve actuates. The low differential and unique latch and actuator design of the valve allows the valve to be self resetting, therefore it is not necessary to remove the cover. The low differential design is not subject to water columns and allows the valve to reset without the need of opening the valve. The valve allows the water to operate a water motor alarm and/or electric pressure alarms. The valve is rated to 300 PSI (2065 kPa) water working pressure and is factory tested hydrostatically to 600 PSI (4135 kPa). Air pressure to water pressure ratio is approximately 1 to 8. Standard grooved dimensions conform to ANSI/AWWA C606. Standard flanged dimensions conform to ANSI B16.5, Class 150. The Victaulic Series 758 Preaction System is available grooved X grooved (all sizes) or flanged X grooved ( - 6/ 114.3 - 168.3 mm). The Victaulic Preaction system does NOT require a separate check valve in the preaction system and features a straight through valve body design for lower friction loss. Full trim packages for non- interlocked, single interlocked and double interlocked systems are available. The valve has simple access to all internal parts for easy maintenance. All internal parts are replaceable. Maintenance and service can be performed from the installed position. The rubber clapper seal is easily replaced without removing the clapper from the valve. The body is tapped for main drain and all available trim configurations. The valve is painted inside and out to increase corrosion resistance. The valve features reduced trim pieces and slim design for reduced footprint and substantial space and weight saving. Trim includes an alarm test valve which allows testing of the alarm system without reducing the system pressure. The valve is available with separate trim packages or pre-trimmed for vertical installation. Piston Assembly Latch Alarm Outlet Alarm Test Seat Clapper Seal WEEP" Hole (Deluge and Preaction Valves) Victaulic Company of America • P.O. Box 31, Easton, PA 18044-0031 • 4901 Kesslersville Rd., Easton, PA 18040 • 610/559-3300 • FAX: 610/250-8817 • www.victaulic.com 2224 Rev.0 1/99 a Registered Trademark Victaulic Company of America 0 Copyright 1999 Victaulic Company of America Printed in U.S.A. - - SYSTEM DESCRIPTION Non-Interlocked Non-interlocked systems are designed so that either an event detection by the release mechanism or loss of supervisory air in the sprinkler system will cause the valve to operate. When the valve operates water will enter the sprinkler system and flow from any open heads or other openings in the system. Pneumatic Release: The pneumatic release system uses a supervisory pilot line to detect a release event. When EITHER a pilot head or a system head operates the water in the valve piston is released and the valve operates. If the pilot head activates and a system head does not operate, water will fill the sprinkler system, alarms will be activated and the Victaulic Series 758 Actuated Valve will act as an Alarm Check Valve. If the valve is actuated by the activation or damage of a sprinkler head, water will enter the system and flow from any open heads. Alarms will activate due to water entering the intermediate chamber of the valve. Electric Release: The Victaulic Electric Release System uses an electric solenoid valve, approved electric panel and a compatible detection system. When EITHER an electric detection or a system head operates the water in the valve piston is released and the valve operates. If there is an electric detection and a systen head does not oper water will fill the sprrlth System alarms will system and flow from any open heads. Alarms will activate due to water entering the intermediate chamber of the valve. Single Interlocked Single interlocked systems are designed so that only an event detection by the release mechanism will cause the valve to operate. When the valve operates water will enter the sprinkler system and flow from any open heads or other openings in the system. Pneumatic Release: The pneumatic release system uses a supervisory pilot line to detect a release event. Only when a pilot head operates will the water in the valve piston be released and the valve operate. Pneumatic pressure is maintained in the sprinkler system only for supervisory purposes and a low pressure alarm is installed in the sprinkler system in order to detect any leaks in the system. If the pilot head activates and a system head does not operate, water will fill the sprinkler system, alarms will be activated and the Victaulic Series 758 Actuated Valve will act as an Alarm Check Valve. If a system head is damaged or activates and there is no release mechanism detection the low pressure alarm in the system will activate but no water will flow until there is a release detection. Electric Release: The Victaulic Electric Release System uses an electric solenoid valve, approved electric panel and a compatible detection system. Only when a release system event occurs, will the water in the valve piston be released and the valve Pneumatic pressure the sprinkler system only for supervisory purposes and a low pressure alarm is installed in the sprinkler system in order to detect any leaks in the system. If there is an electric release activation and a sprinkler system head does not operate, the valve will operate and water will fill the sprinkler system, alarms will be activated and the Victaulic Series 758 Actuated Valve will act as an Alarm Check Valve. If a system head is damaged or activates and there is no release mechanism detection the low pressure alarm in the system will activate but the valve will not operate and no water will flow until there is a release detection. Double Interlocked Double interlocked systems are designed so that the valve will actuate only in the event of multiple fire detections by the release mechanisms. If a single release event occurs alarms will sound but the valve will not operate and water will not flow until a second release event is detected. Double interlocked systems are commonly used in refrigerated systems and in systems where water entering the sprinkler system is critical as well as when accidental discharge of water is critical. Pneumatic/Electric Release: The electric/pneumatic preaction system uses both an electric release system, (composed of an approved solenoid valve, electric panel and an appropriate sensor), and pneumatically pressurized sprinkler system. The Victaulic Series 758 Actuated Valve will activate ONLY when there is a pressure loss in the sprinkler system AND the electric detection of a release event. In the event of a loss of pressure in the sprinkler system without an electric detection the valve will not actuate until a second release event is detected. In this way if there is accidental damage to the sprinkler system no water will flow. Additionally, if there is an electric detection and no pressure loss in the sprinkler system the valve will not actuate. Alarms will activate in both cases alerting the user of a detection condition. Electric/Pneumatic/Electric Release: The electric/ pneumatic/electric release uses two electric detection devices, a fire detection device and a low pressure switch installed in the sprinkler system. Both electric detection devices are wired into an approved control panel in a "cross- zoned" configuration. The electric control panel controls a solenoid valve piped to the Victaulic Series 758 Actuated Valve piston. In the event of a fire detection device activation and no pressure loss in the sprinkler system the control panel will not trigger the solenoid valve and the valve will not actuate. If there is a loss of pressure in the sprinkler system due to damage or a head activating and no fire detection the control panel will not trigger the solenoid and the valve will not actuate. The valve will actuate ONLY when BOTH a fire detection event and loss of system pressure occurs. When BOTH signals are received by the control panel the panel triggers the solenoid valve. This allows the water supply pressure in the Series 758 Valve piston to be released and the valve will actuate allowing water into the system. E_ DIMENSIONS 10.35-IA Aprx. Weight Each SIZE Dimensi Lb$.cg Nominal Inches Inches/mm Without Trim With Trim Actual to E Height Depth I MM A B C D E F G H I Flanged Grooved Flanged Grooved GROOVED x GROOVED 1½ 9.00 21.00 13.00 18.00 13.00 10.00 7.00 4.00 4.00 - j 16.7 - 43.0 48.3 228.6 533.4 304.8 457.2 330.2 254.0 177.8 101.6 101.6 - 7.6 - 19.5 2 9.00 21.00 13.00 18.00 13.00 10.00 7.00 4.00 4.00 - 17.0 - 43.0 60.3 228.6 533.4 304.8 457.2 330.2 254.0 177.8 101.6 101.6 - 7.7 - 19.5 21h 12.50 21.00 14.00 20.00 15.50 11.50 7.50 5.00 5.00 .- 41.2 - 65.0 73.0 317.5 533.4 330.2 508.0 393.7 292.1 190.5 127.0 127.0 - 18.7 - 29.5 12.50 21.00 14.00 20.00 15.50 11.50 7.50 5.00 5.00 - 41.2 - 65.0 76.1 mm 317.5 533.4 330.2 508.0 393.7 292.1 190.5 127.0 127.0 - 18.7 - 29.5 3 12.50 21.00 14.00 20.00 15.50 11.50 7.50 5.00 5.00 - 42.1 - 65.0 88.9 317.5 533.4 330.2 508.0 393.7 292.1 190.5 127.0 127.0 - 19.1 - 29.5 4 15.00 20.00 15.00 21.00 14.00 12.00 8.00 9.00 6.00 - 55.0 - 95.0 114.3 381.0 508.0 355.6 533.4 355.6 304.8 203.2 228.6 152.4 - 24.9 - 43.1 6 16.00 21.10 16.00 22.00 14.00 12.00 8.50 7.00 7.00 - 73.0 - 115.0 168.3 406.4 535.9 406.4 558.8 355.6 304.8 215.9 177.8 177.8 - 33.1 - 52.2 16.00 21.10 16.00 22.00 14.00 12.00 8.50 7.00 7.00 - 73.0 - 115.0 165.1 mm 406.4 535.9 406.4 558.8 355.6 304.8 215.9 177.8 177.8 - 33.1 - 52.2 GROOVED X FLANGED 4 16.00 20.00 15.00 21.00 14.00 12.00 8.00 9.00 6.00 65.0 - 105.0 - 114.3 406.4 508.0 355.6 533.4 355.6 304.8 203.2 228.6 152.4 29.5 - 47.6 - 6 17.00 21.10 16.00 22.00 14.00 12.00 8.50 7.00 7.00 83.0 - 125.0 - 168.3 431.8 535.9 406.4 558.8 355.6 304.8 215.9 177,8 177.8 37.6 - 56.7 - 17.00 21.10 16.00 22.00 14.00 12.00 8.50 7.00 7.00 83.0 - 125.0 - 165.1 mm 431,8 535.9 406.4 558.8 355.6 304,8 215.9 177,8 177.8 37.6 - 56.7 - 10.50-3 PERFORMANCE HYDRAULIC FRICTION LOSS 6.0 5.0 4.0 3.0 2.0 a- 0 1.0 0.9 IU 0.8 07 ci) 0.6 0LLJI .5 CC 0.4 0.3 0.2 0.1 10 SERIES 75117561758 20 30 40 60 80 100 200 300 400 600 1,000 2,000 4,000 6,000 10,000 20,000 800 3,000 8,000 FLOW RATE - G.P.M. FRICTIONAL RESISTANCE The chart at right expresses the frictional resistance of Victaulic Series 758 Actuated System Valve in equivalent feet of straight pipe. Nominal Size Inches Equivalent Length of Pipe Feet Nominal Size Inches Equivalent Length of Pipe Feet 1½ 3 3 17 2 9 4 21 21h 8 I 6 22 76.1 mm J 8 J_165.1mm _22 xpressea in equivalent length of pipe C=120. 10.50-4 TRIM PACKAGES Trim packages available for vertical Installation: 1 Thin for the preaction sys- tem installed in a pneumatic release, non-interlocked system. Trim for the preaction system installed in an electric release, non-interlocked system. Trim for the preaction sys- tem installed in a pneumatic release, single interlocked system. Trim for the preaction sys- tem installed in an electric release, single interlocked system. Trim for the preaction sys- tem installed in a pneumatic- electric release, double inter- locked system. Trim for the preaction sys- tem installed in an electric/ pneumatic/electric release, double interlocked system. Trim packages include: All required pipe and fittings. All standard trim accessories. All required gauges. Optional accessories: Series 754/754-A Acceler- ator/Anti-Flood Device - The accelerator can be used on pneumatic release sys- tems in order to speed the system response time. Series 753/753-A Dry Actuator - The Series 753/ 753-A Dry Actuator maintains the water in the piston, con- trolled by the system air pres- sure, in pneumatic actuation systems. (J Series 760 Water motor alarm - The Series 758 preaction trim is designed to activate a mechanical water motor alarm when a sustained flow of water (such as with an open sprinkler head) causes the clapper to lift from its seat. C) Alarm pressure switch - The Series 758 system is designed to allow the installa- tion of pressure switches to activate electric alarms and control panels when a sus- tained flow of water (such as with an open sprinkler head) causes the clapper to lift from its seat. C) Air Pressure Supervisory Switch - Used to monitor the system air pressure. Available with both a low pressure and high pressure sensitivity. C) Air Supply System - The air supply system con- tains all components for establishing and maintaining air in a pneumatic preaction system. Included in the air supply system is the com- pressor, low pressure alarms, ball valves and required trim. C) Air Compressor C) Air Dryer C) Air Maintenance Device C) Alarm Panels C) Solenoid Actuator MATERIAL SPECIFICATIONS dy: Ductile iron, ASTM A-536 de 65-45-12 Ipper and Shafting: Alumi- n bronze UNS-C95500 or S-C36000 :ch and Piston: Aluminum nze UNS-C95500 or UNS- i000 it Seal: EPDM, ASTM D2000 as: Nitrile ings: Stainless steel (300 Les) 10.50-5 MAXIMUM WATER SUPPLY PRESSURE - PSI (Peak) COMPRESSOR REQUIREMENTS 12.0 I : 20 PSI System Air 10.0 J_U-40 PSI System AirJ 'a- 8.0 6.0 U. 'U 4.0 'U 2.0 AIR MAINTENANCE TRIM RECOMMENDED AIR PRESSURE FOR DRY AND PNEUMATIC ACTUATED SYSTEMS 60 50 10 5 10 15 20 25 50 75 100 125 150 175 200 225 250 275 300 NOTES: An air regulator must be used with Series 756/Series 758 Actuated Valves utilizing an Accelerator. Recommended air pressure is for valves using either a Series 753/753-A Dry Actuator or Series 754/754-A Accelera- tor. When supervisory air is required, such as in an electri- cally activated preaction sys- tem, the pressure should be set as low as the supervisory pressure switch installed will permit. When installed with multiple pneumatic actuated valves, the systems must be isolated by using a spring loaded soft seat check valve to assure air integrity to each system. 0.0? i I I I I I I I I I I I I 50 75 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950 1000 SYSTEM CAPACITY (GAL.) Proper Air Supplies for Series 756/Series 758 Actu- ated Valves: 1. When a riser or base mounted air compressor is being used to supply air to a dry valve or preaction system it is not necessary to use the air maintenance trim assembly with the air regulator. In this circumstance the air line of the compressor is connected to the valve trim at the fitting into which the Air Maintenance Trim is normally installed. When the valve is used with this setup it is the engineer/ system designer's responsibil- ity to size the compressor so that the compressor brings the entire system to the required pressure in 30 minutes. The compressor must not be over- sized to provide more air flow as this will slow down or possi- bly prevent the operation of the valve. It must further be emphasized that the base mounted compressor does not provide any backup air to the system and that continuous service (24 hours per day, 7 days per week) must be main- tained in order to prevent the potential of false tripping of the valve due to loss of air pres- sure. Additionally, due to the large on/off differential available on pressure switches that control base mounted compressors, the compressor pressure switch must be adjusted so that the 'ON' contact of the pressure switch is set a mini- mum of 5 PSI higher than the recommended air supply for the valve. 2. When shop air or a tank mounted air compressor is being used, the Air Mainte- nance Trim Assembly (AMTA) must be used. The AMTA is designed to provide the proper air regulation to the sprinkler system which will assure the proper operation of the Fire Safety Valve. In the event of a compressor becoming inoperative the tank mounted air compressor provides the greatest protec- tion. With a properly sized tank, air can be continuously supplied to the sprinkler sys- tem for an extended period of time even with a loss of com- pressor. 10.50-6 TRIM Series 758 Actuated Valve with Double Interlocked - Pneumatic/Electric Release - Preaction Trim (Pressure Switch, Supervisory Switch, Dry Actuator, Accelerator/Anti-Flood Device, Solenoid Actuator and Air Maintenance Trim OPTIONAL) To Flanged X Grooved 10.50-11 OPERATION The Victaulic Preaction System utilizes the Series 758 Actuated Valve to control the entry of the water supply into the Preaction System piping and heads. The Series 758 Actuated Valve is constructed with a clapper hav- ing a replaceable rubber face. The clapper makes contact with the valve seat ring which has access holes to the intermediate chamber of the valve. The clap- per is contacted by the latch which is contacted by the piston rod. In the set position, water supply pressure from upstream of the water supply control valve is maintained in the valve piston which holds the clapper in the closed/set position. The water is maintained in the piston by one of the system release mecha- nisms (pneumatic, hydraulic or electric). Upon the detection of an appropriate actuating event of the Preaction System( see sys- tem description above) the water supply pressure in the pis- ton is released. This causes the piston rod to retract and permits the clapper to pivot freely allow- ing water into the Preaction Sys- tem. Water will flow from all open heads in the piping. Also, water enters the intermediate chamber of the valve through the holes in the seat ring. The water flows from the intermedi- ate chamber to the alarm line thus activating the system alarms. These alarms will con- tinue to sound until the flow of water is stopped. When the flow of water is stopped the spring assisted valve clapper returns to the closed position and the valve acts as an alarm check valve until the system is put back into service as a Preaction System. Manual Operation Any time the manual release handle is pulled water will be released from the piston and the valve will actuate allowing water into the Preaction System. Water motor alarms and alarm pressure switches will activate. This product must be installed by an experienced, trained installer, in accordance with the instructions provided with each valve. These instructions contain important information. Failure to follow these instructions may result in serious personal injury, property damage or valve leakage. It you need additional copies of this product literature or the valve installation instructions or have any questions about the safe installation and use of this device, contact Victaulic Company, P.O. Box 31, Easton, PA 18044-0031 USA, Telephone: 001-610-559-3300. This product shall be manufactured by Victaulic Company. All products to be installed in accordance with current Victaulic installation/assembly instructions. Victaulic reserves the right to change product specifications, designs and standard equipment without notice and without incurring obligations. 10.50-12 p7 \,4CtaUIiC An i 9001 certified company Series 745 FireLock TM Fire-Pac PRODUCT DESCRIPTION The Victaulic FireLock Fire-Pac is a completely pre-assembled sprinkler system fire protection valve that provides max- imum service in a mini- mal, enclosed space. All components installed in the FireLock Fire-Pac are UL/ULC Listed and FM Approved. All elec- trical enclosures and connections are UL Listed, and all materials and wiring conform to NFPA requirements. The FireLock Fire-Pac can incorporate any available valve configu- ration: Deluge - Wet, Dry, and Electric Preaction - Non-Inter- lock, Single-Interlock, and Double-Interlock Dry Included in the Fire- Lock Fire-Pac are a water supply shutoff valve (Series 705W), the sprinkler system fire pro- tection valve, required alarm switches, supervi- sory switches, and all required pressure gauges that are easily viewed through a win- dow in the cabinet door. If required, the system can be supplied with an additional shutoff valve (Series 705W) installed above the sprinkler sys- tem fire protection valve. This additional shutoff valve can provide greater system integrity during trip tests. NOTE: All shutoff valves are pre-wired for supervi- sory alarms. When system air pres- sure is required, a com- pressor can be supplied with an optional air tank and air maintenance device for complete sys- tem integration. The system release panel is part of the cabi- net door for easy access and visibility. All electri- cal connections from inside the panel to the releasing panel are pre- wired All external elec- trical connections are accessible through an enclosure on the out- side of the cabinet. All required pipe con- nections use Victaulic FireLock grooved pipe couplings for ease of installation. Water sup- ply and drain connec- tions can be made from either side of the cabinet. Installation, mainte- nance, and testing man- uals are provided for proper system setup and maintenance. For infor- mation regarding any electrical components, refer to the literature included with the cabinet. The FireLock Fire-Pac must be installed and maintained in accordance with the Installation, maintenance, and testing manual for the fire protection valve. Installation must conform to NFPA standards and any additional requirements of the local authority having Jurisdiction. The owner is responsible for the proper maintenance of the fire protection system. Failure to follow instructions and requirements could cause system failure, resulting in serious personal Injury and property damage. MATERIAL SPECIFICATIONS CABINET DEVICE SPECIFICATIONS: Seat Seal: EPDM, ASTM SPECIFICATIONS: Body: Ductile iron, ASTM A- D2000 Cabinet: Steel 536 Grade 65-45-12 Seals: Nitrile Finish: Grey - ASA-61 Electro- Clapper: Aluminum bronze Springs: Stainless steel (300 statically applied polyester UNSc95500 or UNSC36000 Series) powder Shafting: Shafts are 17-4 stain- less steel Latch and Piston: Aluminum bronze UNS-95500 or UNS- C36000 Victaulic World Headquarters • P.O. Box 31, Easton, PA 18044-0031 • 4901 Kesslersville Rd., Easton, PA 18040 • 1-800-PICK VIC • FAX: 610/250-8817 • www.victaulic.com 3036 Rev.B 5/01 0 Registered Trademark of Victaulic 0 copyright 2001 Victaulic Printed in U.S.A. 4 C Front of cabinet I 4 B A P-9 SHOW- DIMENSIONS SIZE Nominal Inches Actuiilinrn Dimensions inches! Aprx. Wgt. Each LbSJkn Height A Width B Depth C D E F G H I J K 4 75.00 32.00 24.00 10.00 12.00 14.00 12.00 18.50 12.00 21.50 17.75 720.0 6 75.00 32.00 24.00 10.00 12.00 14.00 12.00 18.50 12.00 21.50 17.75 840.0 This product shall be manufactured by Victaulic Company. All products shall be installed in accordance with current Victaulic installation/assembly instructions. Victautic reserves the right to change product specifications, designs and standard equipment without notice and without incurring obligations. 10.23-2 I 0 FireLock Fire-Pac Figure Number System II-IPI -lO40I -L4!J-L05] L21 [i] [~BI Til I I Class Type Size Style Number Ulm Selection PanelDesign Applicable Wiring Code Compressor Selection Air Maintenance Selection Color Selector S A - Dry 024 21/2, 745 01 - Dry Actuated 1 - No Panel 1 - Std. (U.S.) B - 1/6 hp 1 - None (Straight Compressor) 1 - Grey D - Deluge 761 76,1 mm 1A - Dry Actuated w/Add. Control Valve 2- Panel (Includes 2-12V, 12AH Batteries) 2- Canada C - ¼ hp 2 - Regulated Air Maintenance Trim 9 - Special - Pre- 030 3 02 - Dry Actuated/Accelerated 3- Panel with 4XLM LED Interface Module D - % hp Assembly (AMT Assembly) Action 040 4 2A - Dry Actuated/Accelerated w/Add. 4- Panel with 4XTM Transmitter Module E - ½ hp 3 - Regulated Air Maintenance Trim 165 165,1 mm Control Valve 5-Panel with 4XZM Relay Module F - 3/4 hp Assembly with Tank 060 6 03- Deluge Pneumatic 6- Panel with 4XLM LED Interface Module G - 1 hp 9 - Special 3A - Deluge Pneumatic w/Add. Control and RZA-4X Remote Zone Annunciator H - None Valve 7 - Panel with 4XLM LED Interface 9 - Special 04 - Deluge Electric Module and 4XZM Relay Module 4A - Deluge Electric w/Add. Control A - Panel with 4XLM LED Interface Valve Module, RZA-4X Remote Zone 05- Pre-Action Electric Single Interlock Annunciator and 4XZM Relay Module* 5A - Pre-Action Electric Single Interlock B - Panel with 4XLM LED Interface Module, w/Add. Control Valve RZA-4X Remote Zone Annunciator 06- Pre-Action Electric Double Interlock and 4XTM Transmitter Module 6A - Pre-Action Electric Double Interlock C - Panel with 4XLM LED Interface w/Add. Control Valve Module and 4XTM Transmitter Module 07- Pre-Action Pneumatic/Electric D - Panel with 4XTM Transmitter Module and Double Interlock 4XZM Relay Module 7A - Pre-Action Pneumatic/Electric 9-Special Double Interlock w/Add. Control Valve 78 - Pre-Action/Double Int. Electric - Pneumatic/Electric 7C - Pre-Action/Double Int. Electric - Pneumatic/Electric w/Add. Control Valve 08 - Pre-Action Pneumatic/Pneumatic 8A - Pre-Action Pneumatic/Pneumatic w/Add. Control Valve 09- Special This option meets MEA requirements for New York City. CA) JAN-25-2005 171 LUSARDI CONTRUCT ION 176 07449064 P.03 yfl FAX TO: Wk. Sfns AT: MW C0flsVUC?Iofl, Inc RE: Jet Som'ce VP JOB #; CA0400484-0 Phone 7&-741-8557 [cc; FiSQM; SUMWORN Guber7u!z Desn VP B&i(dings P0. Bag f924 TudxJc CA 95381 P/rune (2O) 669-4307 REMARKS: Ej Uige, 0 Parvur review ID RepyASAP EJ FCOn7J7,8Jrd Mike. The above btffldirg has been chocked for the itpdnkW kade pe layout sct 1-18-05. The 3 p01 collateral load the bAding wes designed for wl cover them loads. These loads include (2) liras of 4 diameter pipe, mighing 1037 plf(nducflng water), running perpendicular to the frames at 19'-O' from each aidwaIt and 2 darnetr pip, wyhtin 354 ptf (including water), running perpendicular to the pwiiicat 10 feet c)r) Memo see the attached caledistion shoWna these loads are Jees than the cokftmi load The bufldlTg wes cligned.for. No additional design or beef up is rred. Seismic sway bMft is NBVP and must not be oonnecbd to the pudins. All the sprinkler PIP= per plan may be connected to the purlins and fmnm per details ENIOAI and ENIOA2.. Thank yuu, 3" ILIAX. GAGE (MIN. IJ2' AiD: 4 MIN. PfrCI CLIPS) 'LATES CR BOLTS ARE nor BY VARCO—PRUDEU CON1RACTORS NOTE 11(10 DRiLL OR RE1) WELD S'JSPENSDN ANCIL(S OR PLATES. AL.OWAffLE WAD - I NIP PER PAIR OF BOLTS - 1A RIPS PER INCH OF V/F(D WffI-{Our INSPECTiON 2.0 KIPS PER INCH OF WELD VIlili NSPE(-,UOM ADO PAIRS OF BOLTS OR INCHES OF WELD TO RESIST CE5IrED CONCENTRATED LOAD. LOADS LESS THAN 500 LOS MAY RE SUSPENDED UtUG CLAIJPS. (I 1/2" FROM EDGE CF rLNCE). CONCEfflPM(O LOADS SHALL NOT EXCEED USE DEFINE) COLLATERAL LEADING INIJIcATED ON INC PURCHASE ORDER AND ILl W CALCULATIONS. SUSPENIDEC LOADS FR3M STRUCTURAL BEAMS irtJI \'P FRAMES OR SUPPORT R(A D z ip SELF OfULUNG FASTENER O gOLT Al CEMTEI&ThE OF PIJRLIN OR HFCH(R. 9D_O OR(. HOLES. ROD HANGER OR UNISTRtJT AS NEEDED. ANGLE CUP. DOLlS, UNISTF4JTS, ROD HANCER AND C1AL!c5 NOT UY VARCG—PfWOEJ. ) PRE SPRt4kLER tMOER STEM M&I51 / I BE CAPABLE OF RC5IS1G 250 LOS. PLUS / J WEIGHT or WATER FILLED POE PER CODE I OTHER SUSPENDED LOADS E)(CEEOINC 100 / I LlSS &9JS BE SUSPENDED SIItLAf C) THIS 1/2-- OR u:ss—' JJ OThJL 00 NOT CLAMP TO DOTTOk! FLANGES. CDMTPACTORS NO1t ANY LDAOS OVER 400 [S .TFPUEO t) VP MEMCIERS SUCH AS HVAC. UH1ING, DLJCl1f4Q PIPE SUPPORTS Fi t . aJIJST DE LATERALLY QACEO 10 fl{E WJN WJILDFNGS LATERAL (GAD RESIS1FNO ELE1ENTS (FLJRLIN RACNC STRUTS OR PRIMARY FRAMES) .AS REQUIRED 3Y CODE FOR SEISMIC LOADS. RRAONC IJS BC PROVIDED AND INSTAlLED BY CO)iTRACIOR AND MUST (ESl5T LATERAL LOADS EDUAL. TO 1HE WEIGHT OF IXE SUSPENDED UNIT OR AS REOUBED BY CODE. U1CI-VER IS LESS. __________ SUSPENDED LOADS IENIOAI FROM FURLINS - 1 00 E. LOADS OR GREATER [_I iiaaz