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Home My WebLink AboutPP - 441 COSTCO DR - COSTCO OPTICAL BUILDING - PERMITS AND PLANS441 COSTCO DR ASSOCIATED PERMITS 18-F-081 09-F-075 09-S-084 12-F-252 12-5-101 09-F-190 09-S-185 4410044 SITE LOCATION CITY OF TUKWILA FIRE MARSHAL'S OFFICE 206-575-4407 FIRE PROTECTION SYSTEMS PERMIT APPLICATION Applications and plans must be complete in order to be accepted for plan review. **PLEASE PRINT** King Co. Assessor's Tax No.: QJ. -ict 101 Suite Number: Floor: New Tenant? Yes ❑ - No Site Address: (ALC.10e3/Ce.,0 Tenant Name: `" t 1,U Property Owner's Name: tI,r,,��Q 14 Mailing Address: Lkt CL&W �`n�• 10- ACk City CONTACT PERSON -if there are questions about the submittal. Name: �CA.,C.Ark.C.t, ULU Company Name: Ci OW-MGIki ecu"ct `` ++ } - R-- Mailing Address: ��`1� tSI` � �Qi. City E-mail Address: 3VeGv 1S Gr.trd (Ct V lr(% ,Cbvh Fax Number: Contractor's City of Tukwila Business License number: 61,_, —( L a. bbb State Zip Day Telephone, LCb4 e (*", c)%) Total number of new/relocated devices or sprinkler heads: State Zip Valuation of Project (contractor's bid price): $ \ Scope of Work (please provide detailed information): W 3k C�k1OY \ C`} (j J v..6 (Y\O k \-vr ` 1`( \ V )? (bOn') PERMIT APPLICATION NOTES Value of Construction – In all cases, a value of construction amount should be entered by the applicant. This figure will be reviewed and is subject to possible revision by the Fire Marshal to comply with current fee schedules. Expiration of Plan Review -Every permit issued shall become invalid unless the work on the site authorized by such permit is commenced within 180 days after its issuance, or if the work authorized on the site by such permit is suspended or abandoned for a period of 180 days after the time the work is commenced. The Fire Marshal is authorized to grant, in writing, one or more extensions of time, for periods not more than 180 days each. The extension shall be requested in writing and justifiable cause demonstrated. I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF PERJURY BY THE LAWS OF THE STATE OR WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDING 0 ER OR AUTHORIZED AGENT: Signature: Date: Li /D f l 63 Print Name: '('jt..e: ftG& Day Telephone:PCUO (Os4-1,9 C?' X . ,ISQ) Plan Permit App.doc 8/22/14 TFD FP Form 8 • 4615. Z,t74 157 CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East Tukwila, WA 98188 206-575-4407 Date application accepted: P FIRE PROTECTION SYSTEMS PERMIT APPLICATION Applications and plans must be complete in order to be accepted for plan review. **PLEASE PRINT** SITE LOCATION King Co. Assessor's Tax No.: Site Address: `1 "I I C os4 Co "D V st_ Tenant Name: CCD 'Co.‘o Suite Number: Property Owner's Name: CAS A -C --o W V1 01 R-Sot.L Mailing Address: CONTACT PERSON -if there are questions about the submittal. Name: % ava. H oJok.A-e r Company Name: Vs Q Gi StC.t,•, tky Mailing Address: 2 l Z 60" t (. St # (O3 l lin.R_ R lh-) A- t 2 ( City State Zip Fax Number: 4z_5 14Tb 2.611 Cir Floor: New Tenant? 111- Yes ❑ - No City State Zip Day Telephone: L( 2 Sc.( gb E-mail Address: (40.012.. • I'1oVa.'f'it.0 ex- LaInau•ku.S. Valuation of Project (contractor's bid price): $ ?j, c D O Scope of Work (please provide detailed information): \visro l 1 of v.ck r k a k t.crfa(. o•.rvv, Sys vim. S - r"‘ thAC LA. vt k PERMIT APPLICATION NOTES Value of Construction - In all cases, a value of construction amount should be entered by the applicant. This figure will be reviewed and is subject to possible revision by the Fire Marshal to comply with current fee schedules. Expiration of Plan Review -Every permit issued shall become invalid unless the work on the site authorized by such permit is commenced within 180 days after its issuance, or if the work authorized on the site by such permit is suspended or abandoned for a period of 180 days after the time the work is commenced. The Fire Marshal is authorized to grant, in writing, one or more extensions of time, for periods not more than 180 days each. The extension shall be requested in writing and justifiable cause demonstrated. I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF PERJURY BY THE LAWS OF THE STATE OIV,t1SNGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. rH� V BUILDING OWNER OR AUTHORIZED AGENT: Signature: Print Name: fc( (1A'\ Plan Permit App.doc PEC 2012 TUKWILAFIRE /� Day Telephone: Date: 12 /7 /1Z_ K?S-Yge --ZGdo 5/14/10 TFD FP Form 8 SITE LOCATION CITY OF TUKWILA FIRE DEPARTMENT 444 Andover Park East Tukwila, WA 98188 206-575-4407 Date application accepted: FIRE PROTECTION SYSTEMS PERMIT APPLICATION Applications and plans must be complete in order to be accepted for plan review. Site Address: 41-\\ E Tenant Name: -i **PLEASE PRINT** Property Owner's Name: King Co. Assessor's Tax No.: 36o 7-39 'II ( 07 Suite Number: Floor: New Tenant? ❑ - Yes V- No Mailing Address: I1GJ V f j/8 -rtliewii.4 (M c/g/gy City State Zip CONTACT PERSON -if there are questions about the submittal. Name: Day Telephone: 0,41g - 06-4-`a Company Name: 1% F10... SrS 5 Mailing Address: 1 io to S9 E_f_26-t- "TtNomia W.PL *1344 �p 1, City State Zip E-mail Address: !.,.ttsa+11�/1 @ rjm v t\"r'p krt... cy-) (n Fax Number: *.-5--A — q ` & — DLjb Valuation of Project (contractor's bid price): $ /j 157 Scope of Work (please provide detailed information): tf tiOif`I 1 'EXIST'►Nfr SPfL1Nu1. iz 5'/5Y 1'Y1 -'r ACLONAMPCM. 1Dvtr PERMIT APPLICATION NOTES Value of Construction — In all cases, a value of construction amount should be entered by the applicant. This figure will be reviewed and is subject to possible revision by the Fire Marshal to comply with current fee schedules. Expiration of Plan Review -Every permit issued shall become invalid unless the work on the site authorized by such permit is commenced within 180 days after its issuance, or if the work authorized on the site by such permit is suspended or abandoned for a period of 180 days after the time the work is commenced. The Fire Marshal is authorized to grant, in writing, one or more extensions of time, for periods not more than 180 days each. The extension shall be requested in writing and justifiable cause demonstrated. I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF PERJURY BY THE LAWS OF THE STATE OR WASHINGTON, AND I AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDING OWNER OR A HORIZED AGENT: Signature: Print Name: 5441 Plan Permit App.doc Day Telephone: D5.- 5/14/10 3 Date: 5 r' a 5/14/10 TFD FP Form 8 FIRE DEPARTMENT SPRINKLER PLAN REVIEW COMMENTS Project Name: Costco Optical 441 Costco Dr. Permit No.: 09-S-084 Date: May 19, 2009 Reviewer: Al Metzler Fire Protection Project Coordinator (206)575-4407 • Lateral sway bracing is required at a maximum spacing of 40' for all mains, cross mains, and branch lines 2.5" and larger. Bracing is provided for the last length of pipe but within 6' of the end of a feed or cross main. Bracing is required unless all the pipe is supported by rods less than 6" or by 30 ° wrap-around U -hooks for any size pipe, 9.3.5.3. • Minimum clearance around pipes: 2 " for 1 "-3.5", 4" for 4" and larger, see 4 exceptions, 9.3.4. • Longitudinal sway bracing is a maximum of 80' for mains and cross mains and within 40 ' of the end of the line, 9.3.5.4. • Provide lateral and longitudinal bracing for changes in pipe direction per section 9.3.5.11.2 for pipe size 2 1/2 inches and larger. • Restrain branch lines at the end sprinkler of each line, restrain against vertical and lateral movement, 9.3.6.3. • Restraints for branch lines shall be at intervals per table 9.3.6.4 and section 9.3.6.4, and restrain sprig ups greater than 4', 9.3.6.6. • Comply with ASCE 7-05, section 13.5.6.2.2. • Provide sprinkler protection beneath all obstructions greater than 4 ft. in width. • Extend sprinkler protection to all combustible concealed spaces. • Comply with NFPA 13 obstruction tables. • Comply with obstructed/non-obstructed construction rules for sprinkler head placement. • Sprinkler heads spaced closer than 6 ft. apart must be baffled. • Modifications involving 30 or more heads require hydrostatic test and system isolation if necessary. • These conditions apply to all sprinkler piping exposed as necessary to accomplish the permitted scope of work. All code references are NFPA 13, 2007 Edition. FIRE DEPARTMENT SPRINKLER PLAN REVIEW COMMENTS Project Name: Costco Optical 441 Costco Dr Permit No.: 12-S-101 Date: May 14, 2012 Reviewer: Al Metzler Fire Protection Project Coordinator (206) 575-4407 option # 2 (Inspection Requests) (206) 971-8718 (Plan Review Questions) • Lateral sway bracing is required at a maximum spacing of 40' for all mains, cross mains, and branch lines 2.5" and larger. Bracing is provided for the last length of pipe but within 6' of the end of a feed or cross main. Bracing is required unless all the pipe is supported by rods less than 6" or by 30 ° wrap-around U -hooks for any size pipe, 9.3.5.3. • Minimum clearance around pipes: 2 " for 1"-3.5", 4" for 4" and larger, see 4 exceptions, 9.3.4. • Longitudinal sway bracing is a maximum of 80' for mains and cross mains and within 40 ' of the end of the line, 9.3.5.4. • Provide lateral and longitudinal bracing for changes in pipe direction per section 9.3.5.11.2 for pipe size 2'/2 inches and larger. • Restrain branch lines at the end sprinkler of each line, restrain against vertical and lateral movement, 9.3.6.3. • Restraints for branch lines shall be at intervals per table 9.3.6.4 and section 9.3.6.4, and restrain sprig ups greater than 4', 9.3.6.6. • Comply with ASCE 7-02, section 9.6.2.6.2 (e). • Ceilings used for flex drop attachments shall comply with ASTM C 635 and ASTM C 636 per section 9.2.1.3.3.2. • Where flexible sprinkler hose fittings exceed 6ft. in length and are supported by a suspended ceiling, a hanger(s) attached to the structure shall be required to ensure that the maximum unsupported length does not exceed 6 ft.(9.2.1.3.3.3). • Provide sprinkler protection beneath all obstructions greater than 4 ft. in width. • Extend sprinkler protection to all combustible concealed spaces. • Comply with NFPA 13 obstruction tables. • Comply with obstructed/non-obstructed construction rules for sprinkler head placement. • Sprinkler heads spaced closer than 6 ft. apart must be baffled. • Modifications involving 20 or more sprinkler heads require hydrostatic test and system isolation if necessary. • For dry pipe and double interlock preaction systems in addition to the standard hydrostatic test, an air pressure leakage test at 40 psi shall be conducted for 24 hours. Any leakage that results in a loss of pressure in excess of 1.5 psi for the 24 hours shall be corrected. All code references are NFPA 13, 2010 Edition. TUKWILA FIRE PREVENTION BUREAU 444 Andover Park East, Tukwila, WA 98188 - Phone 206-575-4407 - Fax 206-575-4439 E-mail: tukfdpry@ci.tukwila.wa.us CONTRACTORS MATERIAL AND TEST CERTIFICATE FIRE ALARM AND FIRE DETECTION SYSTEMS Fire alarm System is ready for Fire Department acceptance testing. Failure of test will result in termination of the testing and additional fees will be assessed. Contractor is responsible for supplying manpower for Final Acceptance Test with two-way communications. Date 11/ "Zo /01 Property Address 1/ 9 / Goltz. Suite # City TUKWILA Name of Facility s he Op/ -,'c.4 ( Permit # Of — F-110 Occupied as C.91 h o Of A'( Zip Code Owner or Representative Phone # Installing Company `•-��,� .✓v -. Tom, Installing Contractor's Address /.7Z'149 4) We Cv o City Sr, k yK e_ t) .r f f `r / S Phone # c/6 3 3 Zo `( Installer's Name (PRINT) i&Li/ S License and/or Certificate Su/Pt/K.67-0r f6 Z /t'? General Contractor ! Gr y y Electrical Contractor Se-( /CH( FACP Equipment Manufacturer /Uof. / c. ✓ Model # This system has been installed, pre -tested and operates in accordance with the standards listed below and" was inspected by u)/l( On (date) 1 t / Za /P7 and includes the devices listed on back. Circle all that apply: NFPA 72, Chapter 1 2 4 5 6 7 and/or IFC.SEC 907 NFPA 70, National Electrical Code, Article 760 Manufacturer's Instructions Manufacturer's Instructions lU Other (specify) A Tukwila City Ordinance Numbers 2050, 2051 UL Central Station M nitor S stem is monitored by 5..w4-rta I SIGNED � c Date 11/ to 1-1 System Firmware: Installed version Checksum Date Initial program Installation Date Revisions and Reasons Programmed by EQUIPMENT INSTALLED AND TESTED: Control Panel of_ Make/Model Manual Station _ of _ Make/Model Smoke Detectors _ of _ Make/Model Heat Detectors _ of _ Make/Model Duct Detectors of Make/Model A/V Devices _ of _ Make/Model Audio Devices _ of _ Make/Model Visual Devices _ of _ Make/Model Auto Door Release _ of _ MaIce/Model Trouble Indictors of Make/Model Batteries Readings Battery Full Load Charge Generator _ of _ Make/Model HVAC Controls _ of _ Make/Model . Fire Alarm Dialer of Make/Model Monitored by Annunciator of Make/Model ' O Sprinkler System. (Fire Alarm connections only) Water Flow Sw. _ of _ Make/Model Valve Tamper Sw. J of j_ Make/Model /V'.o h},`. AtAix ( 0 PIV of_ Make/Model Elec. Alarm Bell of Make/Model Automatic time Delay of Water Flow Alarm seconds. None Installed Do you meet audible/visible requirements of WAC 51-20, IFC SEC 907., and/or NFPA 72 Chapter 6? Yes No Test of alarm System on emergency power, satisfactory? Yes — No Test Witnessed by Title Date . Comments: eddins\Fire Alarm Certificate.doc Revised: 10/28/04 TFD FP Form #110 1 of 1 Tol-Brace Seismic Calculations Project Costco Optical Fire Address: Systems West' TDL.CO Frontage Road North, Sul'° , WA 98047 a brand of ilIIE3Cl 7' 833-1248 NFPA Pamphlet #13 219 441 Costco Drive Pacific FIRESWI140B1 Tukwila, WA (253) Job # 2-11-10234 Calculations based on 2007 20 ft. (6.1m) Brace Information Tolco Brace Components Maximum Spacing 20'-0" (6.16m) Tolco Component Fig. Number Adjusted Load Fig.1000 Clamp 1425 lbs. (646 kg.) Fig.980 Universal Swivel 1955 lbs. (887 kg.) *Calculation Based on CONCENTRIC Loading *Please Note: These calculations are for Tolco components only. Use of any other components voids these calculations and the listing of the assembly. Length of Brace 7 '- 0 " (2.16m) Bracing Material 1" Sch.40 Angle from Vertical 45° Min. Least Rad. of Gyration 0.42" (11mm) Assembly Detail TOLCO FIG. 980 UNIVERSAL SWAY BRACE FITTING .,- TOLCO FIG. 1000 FAST CLAMP LIR Value 200 Maximum Horizontal Load 1735 lbs. (787kg.) Force Factor (Fp) 0.5 Fastener Information 519Ibs.(2360.) Fastener Orientation NFPA Type B PIPE STEEL LATERAL -j BRACE 45° Min. From Vertical Detail #3241 Type Bolt Diameter 1/2n. (12mm) Length N/A Brace Identification on Plans SB Maximum Load 2050 lbs. (930kq.) Orientation of Brace Lateral Load Information Size and Type of Pipe Total Length Total Calculated Load 1 % "(38mm) Schedule 40 Pi• a 80 ft. (24.4m) 48 ft. (14.6m) 116 ft. (35.4m) 144 lbs. (66kg.) 70 lbs. (32kg.) 119 lbs. (54kg.) 1'/e"(30mm) Schedule 40 Pipe 1 "(25mm) Schedule 40 Pipe 4"(100mm) Schedule 10 Pipe 20 ft. (6.1m) 118 lbs. (54kg.) Percentage added for Fittings and Sprinklers 15 % 68 lbs.(30.710.) Total Adjusted Load of all pipe within Zone of Influence 519Ibs.(2360.) {Tol-Brace Version 6.5.1} Tol-Brace Seismic Calculations For Costco Optical 441 Costco Drive Job #2-11-10234 Brace Identification Brace Type (Per NFPA#13) Spacing of Brace Orientation of Brace Bracing Material Length of Brace Slenderness Ratio used for Load Calculation True Angle of Brace for Calculation Type of Fastener Length of Fastener Length of Fastener SB NFPA Type B 20 ft.(6m) Lateral 1" Sch.40 7ft. (2m) 200 45° 1/2n. (12mm) In. Bolt N/A In. N/A Summary of Pipe within Zone of Influence 4 inch Sch. 10 11/2 inch Sch. 40 11/2 inch Sch. 40 1 inch Sch. 40 20 Feet (6m) 80 Feet (24m) 48 Feet (15m) 116 Feet (35m) Allowance for Heads and Fittings 15% Conclusions Total Adjusted Load of Pipe in Zone of Influence Material Capacity Fastener Capacity Fig.1000 Clamp Fig.980 Universal Swivel Structural Member: Calculations prepared by James Ruark 519 Ibs.(235kg.) 1735 Ibs.(787kg.) 2050 Ibs.(930kg.) 1425 lbs. (646kg.) 1955 lbs. (887kg. ) Steel Bar Joists* *The description of the Structural Member is for informational purposes only. Tol-Brace software calculates the brace assembly only, not the structure it is attached to. Calculated with Tol-Brace 6.0 Fire visit us at w w.tolco.com 2 of 1 TOLCO a brand of MECO 3 of OPPOSING BRANCH LINE RESTRAINT ;EXAMPLE OP A repscAt. ANCH RE...STRAW' - SEE tWPA #13 2007 SEC. US) UPPERATrAC ENT FASTENER AS REQUIRED MP) TOLCO FIG. 50 (UL) SIDE BEAM BRACKET (TYP) TOWO FIG. 58 (IX) THREADED SIDE BEAM BRACKET (TYP) TOLCO FIG. 25 (UL) SURGE RESTRAINER (TYP) A ALL 'THREAD ROD IGLOO FIG. 99 CUT TO LENGTH TOLCO •Flo. 200 (UL) ADJUSTABLE BAND HANGER (TYP) 4 of 1 MAX DISTANCE FROM TOP OF HA1+IGER ROO TO FIRST STIFFENER TOLCO FIG.98 ROD STIFFENER t MAX SPACING BETWEEN FIG. 98 (SEE CHART) OLSRTT 412 CHANNEL Sr F 1O ROD see LENGTH WITHt STWWFE R 1 3" MAX. SPACING BETWEEN TOLCO FIG. SS 1S` ARE REOUIRED ONLY ON HANGER AND ES THAT HAVE SEISMIC BRACING ATTACHED AT OR WITHIN 4' OF THE ROO, A MINIMUM OF Two STIFFENERS MUS' Be INSTALLED. *RECO)I MENDED TORQUE IS FT.LSS. (OR FINGER TIGHT PLUS ONE HILL TURN WITH A WRENCH). ROO yF . 96 ROO S *RECOMMENDED TORE 8 FTS otATRwr 1'HARM IMOD FIG.i ALL THREAD ROD 1* THRU 1.I II ROO STRUT M2 NEL TOLCO F1G 99 ALL THREAD ROD TOLCO FIG. OW ROD STIFFER. APPROVED Fixed Equipment Anchorage IBse oI Statewide Health naming and Des elcpmen1 OPA- 0300 July 21, 2003 "wad for 3 Y 5 of TOLCO FIG. 980 UNIVERSAL SWIVEL WAY BRACE ATTACHMENT TIGHTEN UNTIL GREAX-OFF SOLT HEAD COMES OFF • MAXIMUM HORIZONTAL. SEISMIC LOAD WO BRACE lat 45* 1,424 Lbs. GRACE MAY GE TOLSTRUT A.12 CHANNEL. SCH. 40 STEEL PIPE, OR OTHER MVROVED MEIdGER UL TEST CRITERIA ALLOWS FOR MAXIMUM DESIGN LOAD OI 275I.. (1,054 Lbs., HORIZONTAL L0.0) MAX. ROD SIZE 3/4°, FOR LARGER ROO DIAMETERS USE FIG. 960I4 APPROVED Fixed Equipment Anchorage 016co or StaLaw106 Health Plamire ancl Dovetconen1 OPA- 0300 July 21;2003 ve.4 lo 3 vtorima TOLCO FIG. '1000 FAST CLAMP 8RACE PIPE SIZE SCH. 40 MAX. HORIZONTAL. 5EtSAUIC L ON) tg 45- 1,o6a Ib. 1 114' 1,060 Lbw FOR SCH.10 - d0 PIPE SIZES 1• - d" MAXHORIZONTAL SEISMIC L FOR ......... .......... UP TO 4' SCH. 7 PIPE 483 LBS. iGHTEN NIT UNTIL V. HAPE LEAF SPRING I)iUENS GOWN. 1` MIN. NOTE: Ft REQUIRINO COI, DANCE MM'I N FM, USE 2 -lit` MIN. 6 of APPROVED Fixed Equipment Anchorage Mee c Statewide r r g end Devaterneni OPA. 0300 July 2112003 FAST CLAMP TRANSVERSE RIGID BRICE 1THROUGH 8' PIPE SIZE SEE STRUCTURft& ATTACHMENTS swoon LO Fla 980 UNIVERS& SWAY ewe ATTACHMENT, TIGHTEN UNTIL BREAX•OFF BOLT HF -AD COMES OFF, (SiE PAGE 11-1) 7 of .44 MIN. (45$ TY") SCH. 40 $TEEL PIPE TRANSVERSE BRACE (SEE PAGE 11-20) TOLCO FIG. 1000 FAST GUMP INSTALL WITHIN 400F SUPPORT HANGER..R00 MAY REQUIRE A STIFFENER. (SEE PAGE 11-10) (TOLCO FIG. 1001, 2001, OR 2002 mAY BE SUBSTITUTED) s' MIN. NOTE' FOR PROJECTS REQUIRING COMPLIANCE WITH FA1, use. 2-1/2"' MIN, APPROVED Fixed Equipment Anchorage &Moe StatevAle Pirating And DevelopMent OPA- 0300 July 21,2003 TOLCO Fie. 1001 SWAY BRACE ATTACHMENT USE 'THIS OPTION WHEN BRACING COPPER OR CI FIFE DATE: My21, 2003 1 oV-3 Tol-Brace Seismic Calculations Project Costco Optical Fire Address: Systems West ToLca Frontage Road North, Sul brand Q,EI CCI WA 98047 833-1248 NFPA Pamphlet #13 219 441 Costco Drive Pacific, FIRESWI140B1 Tukwila, WA (253) Job # 2-11-10234 Calculations based on 2007 Brace Information Tolco Brace Components Maximum Spacing 80'-0" (24.64m) Tolco Component Fig. Number Adjusted Load Fig.4A Clamp 1425 lbs. (646 kg.) Fig.980 Universal Swivel 1955 lbs. (887 kg.) *Calculation Based on CONCENTRIC Loading *Please Note: These calculations are for Tolco components only. Use of any other components voids these calculations and the listing of the assembly. Length of Brace 9 '- 0 " (2.77m) Bracing Material 1 W' Sch.40 Angle from Vertical 45° Min. Least Rad. of Gyration 0.54" (14mm) Assembly Detail TOLCO FIG. 980 UNIVERSAL SWAY BRACE FITTING TYP. LIR Value 200 Maximum Horizontal Load 2349 lbs. (1066kg.) Force Factor (Fp) 0.5 STEEL PIPE eYI LATERAL BRACE ,� TOLCO FIG. 4A /� / PIPE CLAMP FOR SWAY BRACING Fastener Information Fastener Orientation NFPA Type B i0 Mt Type Bolt 12 Diameter 1/2n. ( mm) o 45° Min. From Vertical Detail #1241 Length N/A Brace Identification on Plans SA Maximum Load 2050 lbs. (930kq.) Orientation of Brace Longitudinal Load Information Size and Type of Pipe Total Length Total Calculated Load 4"(100mm) Schedule 10 Pipe 80 ft. (4.4m) 15 % 471 lbs. (214kq.) 71 lbs.(32.060.) Percentage added for Fittings and Sprinklers Total Adjusted Load of all pipe within Zone of Influence 542 Ibs.(246kq.) {Tol-Brace Version 6.5.1) ToI-Brace Seismic Calculations For Costco Optical 441 Costco Drive Brace Identification Brace Type (Per NFPA#13) Spacing of Brace Orientation of Brace Bracing Material Length of Brace Slenderness Ratio used for Load Calculation True Angle of Brace for Calculation Type of Fastener Length of Fastener Length of Fastener Job #2-11-10234 SA NFPA Type B 80 ft.(24m) Longitudinal 11/4" Sch.40 9ft. (3m) 200 45° 1/2n. (12mm) In. Bolt N/A In. N/A Summary of Pipe within Zone of Influence 4 inch Sch. 10 Allowance for Heads and Fittings Conclusions Total Adjusted Load of Pipe in Zone of Influence Material Capacity Fastener Capacity Fig.4A Clamp Fig.980 Universal Swivel Structural Member: Calculations prepared by James Ruark 80 Feet (24m) 15% 542 Ibs.(246kg.) 2349 lbs. (1066kg. ) 2050 Ibs.(930kg.) 1425 Ibs.(646kg.) 1955 Ibs.(887kg.) Steel Beam* *The description of the Structural Member is for informational purposes only. Tol-Brace software calculates the brace assembly only, not the structure it is attached to. Calculated with Tol-Brace 6.0 Fire visit us at www.tolco.com 2 of "3 TOLCO a brand of NIBC 3 of '3 LONGITUDINAL RIGID BRACE - CLEM SUPPORTED PIPE VT THROUGH 24* PIPE SIZE SEE STRUCTURAL ATT ETAIL 2 1 (MAX) MIN (45. 1 TOMO FM. ISO LAVERS& SWAY BRACE ATTACHMENT. 'LIGHTEN LINTiLBREAK-OFF BOLT HEAD COMES OFF. (SEEPAGE 11.1) LTYP) TOLSTRUT A42 CHANNEL,. OR SCH. 40 STEEL PIPE LONGITUDINAL BRACE (SEE PAGE 440 (TYP) TOL® FIC3. 4 QR 4A PIPE CLAMP, \ INSTALL. WHIN e of SUPPORT HANGER, ROO MAY REQUIRE A STIPPENER. (SEE PAGE 12-4. 12-5) APPROVE Fixed Equipment Anchorage 0,103 of 500614104 Hamm kenning ori0 OtiveLowneot OPA. 0300 July 21, 2003 tor3 FIRE SYSTEMS WEST, INC. 206 FRONTAGE ROAD, NORTH SUITE C PACIFIC,WA 98047 HYDRAULIC CALCULATIONS FOR COSTCO OPTICAL EXPANSION FILE NUMBER: 2-11-10234 DATE: MAY 14, 2009 -DESIGN DATA - OCCUPANCY CLASSIFICATION: ORDINARY HAZARD GROUP II DENSITY: .20 gpm/sq. ft. AREA OF APPLICATION: 1500 sq. ft. COVERAGE PER SPRINKLER: 122 sq. ft. NUMBER OF SPRINKLERS CALCULATED: 16 sprinklers TOTAL SPRINKLER WATER FLOW REQUIRED: 532.4 gpm TOTAL WATER REQUIRED (including hose): 782.4 gpm FLOW AND PRESSURE (@ BOR): 532.4 gpm @ 102.9 psi SPRINKLER ORIFICE SIZE: 1/2 inch NAME OF CONTRACTOR: FIRE SYSTEMS WEST, INC. DESIGN/LAYOUT BY: JAMES RUARK AUTHORITY HAVING JURISDICTION: TUKWILA FIRE DEPARTMENT CONTRACTOR CERTIFICATION NUMBER: FIRESWI140B1 CALCULATIONS BY HASS COMPUTER PROGRAM (LICENSE # 5009058210) HRS SYSTEMS, INC. TUCKER, GA 30084 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 2 DATE: 5/14/2009 C:\HASS78\COSTCO OPTICAL EXPANSION.SDF JOB TITLE: Costco Optical Expansion WATER SUPPLY DATA SOURCE STATIC RESID. FLOW AVAIL. TOTAL REQ'D NODE PRESS. PRESS. @ PRESS. @ DEMAND PRESS. TAG (PSI) (PSI) (GPM) (PSI) (GPM) (PSI) 49 155.0 105.0 1505.0 140.1 782.4 104.9 AGGREGATE FLOW ANALYSIS: TOTAL FLOW AT SOURCE 782.4 GPM TOTAL HOSE STREAM ALLOWANCE AT SOURCE 250.0 GPM OTHER HOSE STREAM ALLOWANCES 0.0 GPM TOTAL DISCHARGE FROM ACTIVE SPRINKLERS 532.4 GPM NODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE (FT) (PSI) (GPM) 1 11.5 K= 5.60 26.0 28.5 2 11.5 K= 5.60 29.3 30.3 3 11.5 K= 5.60 42.1 36.3 4 11.5 K= 5.60 50.3 39.7 5 11.5 K= 5.60 57.6 42.5 6. 11.5. - - - - 7.0.3.. - 7 13.8 K= 5.60 22.9 26.8 8 13.8 K= 5.60 27.0 29.1 9 13.8 K= 5.60 38.5 34.8 10 13.8 K= 5.60 46.0 38.0 11 13.8 K= 5.60 52.8 40.7 12 11.5 - - - - 70.6 13 16.0 K= 5.60 18.9 24.3 14 16.0 K= 5.60 20.7 25.5 15 16.0 K= 5.60 29.0 30.1 16 16.0 K= 5.60 33.4 32.4 17 16.0 K= 5.60 38.7 34.8 18 16.0 K= 5.60 47.3 38.5 19 11.5 71.5 20 16.2 87.6 45 16.2 91.0 46 4.0 96.6 47 4.0 101.6 48 1.0 102.9 - - - 49 0.0 SOURCE 104.9 532.4 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 3 DATE: 5/14/2009 C:\HASS78\COSTCO OPTICAL EXPANSION.SDF JOB TITLE: Costco Optical Expansion PIPE DATA PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 1 -28.5 1.049 PL 13.33 PF 3.3 1 11.5 5.6 26.0 28.5 10.6 120 FTG ---- PE 0.0 2 11.5 5.6 29.3 30.3 0.251 TL 13.33 PV Pipe: 2 -58.9 1.049 PL 13.33 PF 12.8 2 11.5 5.6 29.3 30.3 21.9 120 FTG ---- PE 0.0 3 11.5 5.6 42.1 36.3 0.959 TL 13.33 PV Pipe: 3 -95.2 1.380 PL 13.33 PF 8.2 3 11.5 5.6 42.1 36.3 20.4 120 FTG ---- PE 0.0 4 11.5 5.6 50.3 39.7 0.614 TL 13.33 PV Pipe: 4 -134.9 1.610 PL 13.33 PF 7.4 4 11.5 5.6 50.3 39.7 21.3 120 FTG ---- PE 0.0 5 11.5 5.6 57.6 42.5 0.552 TL 13.33 PV Pipe: 5 -177.4 1.610 PL 5.83 PF 12.7 11.5 5.6 57.6 42.5 28.0 120 FTG T PE 0.0 11.5 0.0 70.3 0.0 0.917 TL 13.83 PV Pipe: 6 -26.8 1.049 PL 14.33 PF 4.1 J_.. 13.8 5.6 22.9 26.8 9.9 120 FTG 2E PE 0.0 8 13.8 5.6 27.0 29.1 0.223 TL 18.33 PV Pipe: 7 -55.9 1.049 PL 13.33 PF 11.6 8 13.8 5.6 27.0 29.1 20.7 120 FTG ---- PE 0.0 9 13.8 5.6 38.5 34.8 0.870 TL 13.33 PV Pipe: 8 -90.6 1.380 PL 13.33 PF 7.5 9 13.8 5.6 38.5 34.8 19.4 120 FTG ---- PE 0.0 10 13.8 5.6 46.0 38.0 0.560 TL 13.33 PV Pipe: 9 -128.6 1.610 PL 13.33 PF 6.7 10 13.8 5.6 46.0 38.0 20.3 120 FTG ---- PE 0.0 11 13.8 5.6 52.8 40.7 0.505 TL 13.33 PV Pipe: 10 -169.3 1.610 PL 8.08 PF 16.9 11 13.8 5.6 52.8 40.7 26.7 120 FTG ET PE 1.0 12 11.5 0.0 70.6 0.0 0.840 TL 20.08 PV Pipe: 11 -24.3 1.049 PL 10.00 PF 1.9 13 16.0 5.6 18.9 24.3 9.0 120 FTG ---- PE 0.0 14 16.0 5.6 20.7 25.5 0.187 TL 10.00 PV Pipe: 12 -49.8 1.049 PL 7.67 PF 8.2 14 16.0 5.6 20.7 25.5 18.5 120 FTG 2E PE 0.0 15 16.0 5.6 29.0 30.1 0.705 TL 11.67 PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 4 DATE: 5/14/2009 C:\HASS78\COSTCO OPTICAL EXPANSION.SDF JOB TITLE: Costco Optical Expansion PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 13 -80.0 1.380 PL 10.00 PF 4.4 15 16.0 5.6 29.0 30.1 17.2 120 FTG ---- PE 0.0 16 16.0 5.6 33.4 32.4 0.444 TL 10.00 PV Pipe: 14 -112.3 1.610 PL 13.33 PF 5.2 16 16.0 5.6 33.4 32.4 17.7 120 FTG ---- PE 0.0 17 16.0 5.6 38.7 34.8 0.393 TL 13.33 PV Pipe: 15 -147.2 1.610 PL 13.33 PF 8.6 17 16.0 5.6 38.7 34.8 23.2 120 FTG ---- PE 0.0 18 16.0 5.6 47.3 38.5 0.648 TL 13.33 PV Pipe: 16 -185.7 1.610 PL 10.33 PF 22.3 18 16.0 5.6 47.3 38.5 29.3 120 FTG ET PE 1.9 19 11.5 0.0 71.5 0.0 0.997 TL 22.33 PV Pipe: 17 -177.4 3.260 PL 9.12 PF 0.3 6 11.5 0.0 70.3 0.0 6.8 120 FTG ---- PE 0.0 12 11.5 0.0 70.6 0.0 0.030 TL 9.12 PV Pipe: 18 -346.7 3.260 PL 8.96 PF 0.9 12 11.5 0.0 70.6 0.0 13.3 120 FTG ---- PE 0.0 19 11.5 0.0 71.5 0.0 0.102 TL 8.96 PV Pipe: 19 -532.4 3.260 PL 40.38 PF 18.1 19 11.5 0.0 71.5 0.0 20.5 120 FTG 2ET PE -2.1 20 16.2 0.0 87.6 0.0 0.225 TL 80.38 PV Pipe: 20 -532.4 6.065 PL 261.42 PF 3.5 20 16.2 0.0 87.6 0.0 5.9 120 FTG 4E PE 0.0 45 16.2 0.0 91.0 0.0 0.011 TL 317.42 PV Pipe: 21 -532.4 6.065 PL 12.25 PF 0.2 45 16.2 0.0 91.0 0.0 5.9 120 FTG B PE 5.3 46 4.0 0.0 96.6 0.0 0.011 TL 22.25 PV Pipe: 22 FIXED PRESSURE LOSS DEVICE 47 4.0 0.0 101.6 0.0 5.0 psi, 532.4 gpm 46 4.0 0.0 96.6 0.0 Pipe: 23 -532.4 6.065 PL 3.00 PF 0.0 47 4.0 0.0 101.6 0.0 5.9 120 FTG ---- PE 1.3 48 1.0 0.0 102.9 0.0 0.011 TL 3.00 PV Pipe: 24 -532.4 6.280 PL 100.00 PF 1..5 48 1.0 0.0 102.9 0.0 5.5 140 FTG TLCG PE 0.4 49 0.0 SRCE 104.9 (N/A) 0.007 TL 217.00 PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 5 DATE: 5/14/2009 C:\HASS78\COSTCO OPTICAL EXPANSION.SDF JOB TITLE: Costco Optical Expansion NOTES (HASS): (1) Calculations were performed by the HASS 7.9 computer program under license no. 5009058210 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 0.002 gpm and a maximum imbalance at any node of 0.059 gpm. (3) Total pressure at each node is used in balancing the system. Maximum water velocity is 29.3 ft/sec at pipe 16. (4) PIPE FITTINGS TABLE Pipe Table PAGE: A Diameter (in) Name: STANDARD.PIP MATERIAL: S40 HWC: 120 Equivalent Fitting Lengths in Feet E T L C B G A Ell Tee LngEll ChkV1v BfyVly GatVly AlmChk 1.049 2.00 5.00 2.00 5.00 6.00 1.00 10.00 1.380 3.00 6.00 2.00 7.00 6.00 1.00 10.00 1.610 4.00 8.00 2.00 9.00 6.00 1.00 10.00 6.065 14.00 30.00_ 9.00 32.00 10.00 3.00 28.00 PAGE: B Diameter (in) 3.260 PAGE: D Diameter (in) 6.280 D N DPV1v NPTee 10.00 5.00 10.00 6.00 10.00 8.00 28.00. 30.00 MATERIAL: THNWL HWC: 120 Equivalent Fitting Lengths in Feet E T L C B G A D N Ell Tee LngEll ChkVly BfyVly GatVly AlmChk DPV1v NPTee 10.00 20.00 7.00 22.00 14.00 1.00 18.00 18.00 20.00 MATERIAL: DIRON HWC: 140 Equivalent Fitting Lengths in Feet E T L C B G N Ell Tee LngEll ChkVly BfyVly GatVly NPTee 22.00 47.00 14.00 51.00 16.00 5.00 47.00 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 6 DATE: 5/14/2009 C:\HASS78\COSTCO OPTICAL EXPANSION.SDF JOB TITLE: Costco Optical Expansion E 01 0 LO O 0 0 W In 04 O O 0 O r1 155.00 psi Resid: Available N O 0 0 N 03 r1 O O — O 0 —O' O — 1 O O O O O 0 O O C N O CO to C C7gt0CDW ao4 41 0)00w ELI -Q,m-r1-- O O N O O N • V• .-1 cl' FLOW (GPM) SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 7 DATE: 5/14/2009 C:\HASS78\COSTCO OPTICAL EXPANSION.SDF JOB TITLE: Costco Optical Expansion WATER SUPPLY CURVE 156*\\ 1 \\ \\\ 1 \\ 143+ \\ 1 0\\\ \\ \\ 130+ \\\ 1 \\ 1 \\\ \\ 117+ \\ 1 \\\ I \\ 1 \\ P104+ X * <-105 0 psi @ 1505 gpm R 1 Flow Test Point E 1 S 1 S 91+ U 1 R 1 E 1 78+ P 1 S 1 I 65+ ) 1 1 52+ 1 39+ 1 1 1 26+ LEGEND 1 1 X = Required Water Supply 104.86 psi @ 782.4 gpm 13+ 1 0 = Available Water Supply 140.09 psi @ 782.4 gpm " I" 0++-+---+----+ + + + + + + 400 600 800 1000 1200 1400 1600 1800 2000 FLOW (GPM)° c___ A f • FIRE SYSTEMS WEST, INC. 206 FRONTAGE ROAD, NORTH SUITE C PACIFIC,WA 98047 HYDRAULIC CALCULATIONS FOR COSTCO OPTICAL CLEAN ROOM TUKWILA, WA FILE NUMBER: 2-11-10234 DATE: MAY 14, 2009 -DESIGN DATA - OCCUPANCY CLASSIFICATION: ORDINARY HAZARD GROUP II DENSITY: .20 gpm/sq. ft. AREA OF APPLICATION: 3000 sq. ft. COVERAGE PER SPRINKLER: 130 sq. ft. Max. NUMBER OF SPRINKLERS CALCULATED: 37 sprinklers TOTAL SPRINKLER WATER FLOW REQUIRED: 1171.2 gpm TOTAL WATER REQUIRED (including hose): 1421.3 gpm FLOW AND PRESSURE (@ BOR): 1171.3 gpm @ 89.7 psi SPRINKLER ORIFICE SIZE: 1/2 inch NAME OF CONTRACTOR: FIRE SYSTEMS WEST, INC. DESIGN/LAYOUT BY: JAMES RUARK AUTHORITY HAVING JURISDICTION: TUKWILA FIRE DEPARTMENT CONTRACTOR CERTIFICATION NUMBER: FIRESWI140B1 CALCULATIONS BY HASS COMPUTER PROGRAM (LICENSE # 5009058210) HRS SYSTEMS, INC. TUCKER, GA 30084 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 2 DATE: 5/14/2009 C:\HASS78\COSTCO OPTICAL CLEAN ROOM.SDF JOB TITLE: Costco Optical Clean Room WATER SUPPLY DATA SOURCE STATIC RESID. FLOW AVAIL. TOTAL REQ'D NODE PRESS. PRESS. @ PRESS. @ DEMAND PRESS. TAG (PSI) (PSI) (GPM) (PSI) (GPM) (PSI) 49 155.0 105.0 1505.0 110.0 1421.3 96.7 AGGREGATE FLOW ANALYSIS: TOTAL FLOW AT SOURCE 1421.3 GPM TOTAL HOSE STREAM ALLOWANCE AT SOURCE 250.0 GPM OTHER HOSE STREAM ALLOWANCES 0.0 GPM TOTAL DISCHARGE FROM ACTIVE SPRINKLERS 1171.3 GPM NODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE (FT) (PSI) (GPM) 1 10.0 K= 5.60 21.6 26.0 2 10.0 K= 5.60 23.7 27.2 3 10.0 K= 5.60 30.0 30.7 4 10.0 K= 5.60 33.9 32.6 5 10.0 K= 5.60 37.3 34.2 6 10.0 - - 46.5 7 10.0 K= 5.60 39.0 35.0 8 10.0 K= 5.60 35.5 33.4 9 10.0 K= 5.60 31.4 31.4 10 10.0 K= 5.60 24.7 27.8 11 10.0 K= 5.60 22.9 26.8 12 10.0 K= 5.60 21.6 26.1 13 10.0 K= 5.60 23.8 27.3 14 10.0 K= 5.60 30.2 30.8 15 10.0 K= 5.60 34.1 32.7 16 10.0 K= 5.60 37.4 34.3 17 10.0 - - - - 46.6 18 10.0 K= 5.60 39.2 35.0 19 10.0 K= 5.60 35.6 33.4 20 10.0 K= 5.60 31.5 31.4 21 10.0 K= 5.60 24.8 27.9 22 10.0 K= 5.60 23.0 26.9 23 10.0 K= 5.60 35.2 33.2 24 10.0 K= 5.60 35.9 33.6 25 10.0 K= 5.60 37.1 34.1 26 10.0 K= 5.60 39.7 35.3 27 10.0 47.3 28 10.0 K= 5.60 39.7 35.3 29 10.0 K= 5.60 36.1 33.7 30 10.0 K= 5.60 32.0 31.7 31 10.0 K= 5.60 25.2 28.1 32 10.0 K= 5.60 23.4 27.1 33 10.0 K= 5.60 27.0 29.1 34 10.0 K= 5.60 29.1 30.2 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 3 DATE: 5/14/2009 C:\HASS78\COSTCO OPTICAL CLEAN ROOM.SDF JOB TITLE: Costco Optical Clean Room NODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE (FT) (PSI) (GPM) 35 10.0 K= 5.60 36.9 34.0 36 10.0 K= 5.60 41.6 36.1 37 10.0 48.6 38 10.0 K= 5.60 42.4 36.5 39 10.0 K= 5.60 39.8 35.3 40 10.0 K= 5.60 37.2 34.2 41 10.0 K= 5.60 34.6 32.9 42 10.0 34.6 43 16.2 64.2 44 16.2 68.7 45 16.2 76.9 46 4.0 83.3 47 4.0 88.3 48 1.0 89.7 - - - 49 0.0 SOURCE 96.7 1171.3 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 4 DATE: 5/14/2009 C:\HASS78\COSTCO OPTICAL CLEAN ROOM.SDF JOB TITLE: Costco Optical Clean Room PIPE DATA PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 1 -26.0 1.049 PL 10.00 PF 2.1 1 10.0 5.6 21.6 26.0 9.7 120 FTG ---- PE 0.0 2 10.0 5.6 23.7 27.2 0.211 TL 10.00 PV Pipe: 2 -53.2 1.049 PL 8.00 PF 6.4 2 10.0 5.6 23.7 27.2 19.8 120 FTG ---- PE 0.0 3 10.0 5.6 30.0 30.7 0.796 TL 8.00 PV Pipe: 3 -83.9 1.380 PL 8.00 PF 3.9 3 10.0 5.6 30.0 30.7 18.0 120 FTG ---- PE 0.0 4 10.0 5.6 33.9 32.6 0.486 TL 8.00 PV Pipe: 4 -116.6 1.610 PL 8.00 PF 3.4 4 10.0 5.6 33.9 32.6 18.4 120 FTG ---- PE 0.0 5 10.0 5.6 37.3 34.2 0.421 TL 8.00 PV Pipe: 5 -150.8 1.610 PL 5.50 PF 9.2 5 10.0 5.6 37.3 34.2 23.8 120 FTG T PE 0.0 6 10.0 0.0 46.5 0.0 0.678 TL 13.50 PV 7 Pipe: 6 154.4 1.610 PL 2.50 PF 7.4 10.0 44.0 46.5 0-.0 244.3- 120 FTG- -T---PE -0-.-O 10.0 5.6 39.0 35.0 0.708 TL 10.50 PV Pipe: 7 119.4 1.610 PL 8.00 PF 3.5 10.0 5.6 39.0 35.0 18.8 120 FTG ---- PE 0.0 10.0 5.6 35.5 33.4 0.440 TL 8.00 PV Pipe: 8 86.1 1.380 PL 8.00 PF 4.1 8 10.0 5.6 35.5 33.4 18.5 120 FTG ---- PE 0.0 9 10.0 5.6 31.4 31.4 0.509 TL 8.00 PV Pipe: 9 54.7 1.049 PL 8.00 PF 6.7 9 10.0 5.6 31.4 31.4 20.3 120 FTG ---- PE 0.0 10 10.0 5.6 24.7 27.8 0.836 TL 8.00 PV Pipe: 10 26.8 1.049 PL 8.00 PF 1.8 10 10.0 5.6 24.7 27.8 10.0 120 FTG ---- PE 0.0 11 10.0 5.6 22.9 26.8 0.224 TL 8.00 PV Pipe: 11 -26.1 1.049 PL 10.00 PF 2.1 12 10.0 5.6 21.6 26.1 9.7 120 FTG ---- PE 0.0 13 10.0 5.6 23.8 27.3 0.212 TL 10.00 PV Pipe: 12 -53.3 1.049 PL 8.00 PF 6.4 13 10.0 5.6 23.8 27.3 19.8 120 FTG ---- PE 0.0 14 10.0 5.6 30.2 30.8 0.799 TL: 8.00 PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 5 DATE: 5/14/2009 C:\HASS78\COSTCO OPTICAL CLEAN ROOM.SDF JOB TITLE: Costco Optical Clean Room PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 13 -84.1 1.380 PL 8.00 PF 3.9 14 10.0 5.6 30.2 30.8 18.0 120 FTG ---- PE 0.0 15 10.0 5.6 34.1 32.7 0.488 TL 8.00 PV Pipe: 14 -116.8 1.610 PL 8.00 PF 3.4 15 10.0 5.6 34.1 32.7 18.4 120 FTG ---- PE 0.0 16 10.0 5.6 37.4 34.3 0.423 TL 8.00 PV Pipe: 15 -151.0 1.610 PL 5.50 PF 9.2 16 10.0 5.6 37.4 34.3 23.8 120 FTG T PE 0.0 17 10.0 0.0 46.6 0.0 0.680 TL 13.50 PV Pipe: 16 154.7 1.610 PL 2.50 PF 7.5 17 10.0 0.0 46.6 0.0 24.4 120 FTG T PE 0.0 18 10.0 5.6 39.2 35.0 0.711 TL 10.50 PV Pipe: 17 119.6 1.610 PL 8.00 PF 3.5 18 10.0 5.6 39.2 35.0 18.9 120 FTG ---- PE 0.0 19 10.0 5.6 35.6 33.4 0.442 TL 8.00 PV Pipe: 18 86.2 1.380 PL 8.00 PF 4.1 19 10.0 5.6 35.6 33.4 18.5 120 FTG ---- PE 0.0 20 10.0 5.6 31.5 31.4 0.511 TL 8.00 PV Pipe: 19 54.8 1.049 PL 8.00 PF 6.7 20 10.0 5.6 31.5 31.4 20.3 120 FTG ---- PE 0.0 21 10.0 5.6 24.8 27.9 0.839 TL 8.00 PV Pipe: 20 26.9 1.049 PL 8.00 PF 1.8 21 10.0 5.6 24.8 27.9 10.0 120 FTG ---- PE 0.0 22 10.0 5.6 23.0 26.9 0.225 TL 8.00 PV Pipe: 21 -33.2 1.380 PL 8.00 PF 0.7 23 10.0 5.6 35.2 33.2 7.1 120 FTG ---- PE 0.0 24 10.0 5.6 35.9 33.6 0.087 TL 8.00 PV Pipe: 22 -66.8 1.610 PL 8.00 PF 1.2 24 10.0 5.6 35.9 33.6 10.5 120 FTG ---- PE 0.0 25 10.0 5.6 37.1 34.1 0.150 TL 8.00 PV Pipe: 23 -100.9 1.610 PL 8.00 PF 2.6 25 10.0 5.6 37.1 34.1 15.9 120 FTG ---- PE 0.0 26 10.0 5.6 39.7 35.3 0.322 TL 8.00 PV Pipe: 24 -136.2 1.610 PL 5.50 PF 7.6 26 10.0 5.6 39.7 35.3 21.5 120 FTG T PE 0.0 27 10.0 0.0 47.3 0.0 0.561 TL 13.50 PV Pipe: 25 155.8 1.610 PL 2.50 PF 7.6 27 10.0 0.0 47.3 0.0 24.5 120 FTG T PE 0.0 28 10.0 5.6 39.7 35.3 0.720 TL 10.50 PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 6 DATE: 5/14/2009 C:\HASS78\COSTCO OPTICAL CLEAN ROOM.SDF JOB TITLE: Costco Optical Clean Room PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 26 120.5 1.610 PL 8.00 PF 3.6 28 10.0 5.6 39.7 35.3 19.0 120 FTG ---- PE 0.0 29 10.0 5.6 36.1 33.7 .0.448 TL 8.00 PV Pipe: 27 86.8 1.380 PL 8.00 PF 4.1 29 10.0 5.6 36.1 33.7 18.6 120 FTG ---- PE 0.0 30 10.0 .5.6 32.0 31.7 0.517 TL 8.00 PV Pipe: 28 55.2 1.049 PL 8.00 PF 6.8 30 10.0 5.6 32.0 31.7 20.5 120 FTG ---- PE 0.0 31 10.0 5.6 25.2 28.1 0.850 TL 8.00 PV Pipe: 29 27.1 1.049 PL 8.00 PF 1.8 31 10.0 5.6 25.2 28.1 10.0 120 FTG ---- PE 0.0 32 10.0 5.6 23.4 27.1 0.228 TL 8.00 PV Pipe: 30 -29.1 1.049 PL 8.00 PF 2.1 33 10.0 5.6 27.0 29.1 10.8 120 FTG ---- PE 0.0 34 10.0 5.6 29.1 30.2 0.261 TL 8.00 PV Pipe: 31 -59.3 1.049 PL 8.00 PF 7.8 34 10.0 5.6 29.1 30.2 22.0 120 FTG ---- PE 0.0 35 10.0 5.6 36.9 34.0 0.973 TL 8.00 PV Pipe: 32 -93.4 1.380 PL 8.00 PF 4.7 35 10.0 5.6 36.9 34.0 20.0 120 FTG ---- PE 0.0 36 10.0 5.6 41.6 36.1 0.592 TL 8.00 PV Pipe: 33 -129.5 1.610 PL 5.50 PF 6.9 36 10.0 5.6 41.6 36.1 20.4 120 FTG T PE 0.0 37 10.0 0.0 48.6 0.0 0.512 TL 13.50 PV Pipe: 34 138.9 1.610 PL 2.50 PF 6.1 37 10.0 0.0 48.6 0.0 21.9 120 FTG T PE 0.0 38 10.0 5.6 42.4 36.5 0.583 TL 10.50 PV Pipe: 35 102.4 1.610 PL 8.00 PF 2.7 38 10.0 5.6 42.4 36.5 16.1 120 FTG ---- PE 0.0 39 10.0 5.6 39.8 35.3 0.332 TL 8.00 PV Pipe: 36 67.1 1.380 PL 8.00 PF 2.6 39 10.0 5.6 39.8 35.3 14.4 120 FTG ---- PE 0.0 40 10.0 5.6 37.2 34.2 0.321 TL 8.00 PV Pipe: 37 32.9 1.049 PL 8.00 PF 2.6 40 10.0 5.6 37.2 34.2 12.2 120 FTG ---- PE 0.0 41 10.0 5.6 34.6 32.9 0.327 TL 8.00 PV Pipe: 38 0.0 1.049 PL 8.00 PF 0.0 41 10.0 5.6 34.6 32.9 0.0 120 FTG ---- PE 0.0 42 10.0 0.0 34.6 0.0 0.000 TL 8.00 PV SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 7 DATE: 5/14/2009 C:\HASS78\COSTCO OPTICAL CLEAN ROOM.SDF JOB TITLE: Costco Optical Clean Room PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 39 -305.1 4.260 PL 8.00 PF 0.2 6 10.0 0.0 46.5 0.0 6.9 120 FTG ---- PE 0.0 17 10.0 0.0 46.6 0.0 0.022 TL 8.00 PV Pipe: 40 -610.9 4.260 PL 8.00 PF 0.6 17 10.0 0.0 46.6 0.0 13.8 120 FTG ---- PE 0.0 27 10.0 0.0 47.3 0.0 0.079 TL 8.00 PV Pipe: 41 -902.8 4.260 PL 8.00 PF 1.3 27 10.0 0.0 47.3 0.0 20.3 120 FTG ---- PE 0.0 37 10.0 0.0 48.6 0.0 0.163 TL 8.00 PV Pipe: 42 -1171.2 4.260 PL 17.58 PF 18.3 37 10.0 0.0 48.6 0.0 26.4 120 FTG 2ET PE -2.7 43 16.2 0.0 64.2 0.0 0.263 TL 69.58 PV Pipe: 43 -1171.2 6.065 PL 66.38 PF 4.5 43 16.2 0.0 64.2 0.0 13.0 120 FTG T PE 0.0 44 16.2 0.0 68.7 0.0 0.047 TL 96.38 PV Pipe: 44 -1171.2 6.065 PL 146.58 PF 8.2 44 16.2 0.0 68.7 0.0 13.0 120 FTG 2E PE 0.0 45 16.2 0.0 76.9 0.0 0.047 TL 174.58 PV Pipe: 45 -1171.2 6.065 PL 12.25 PF 1.0 45 16.2 0.0 76.9 0.0 13.0 120 FTG B PE 5.3 46 4.0 0.0 83.3 0.0 0.047 TL 22.25 PV Pipe: 46 FIXED PRESSURE LOSS DEVICE 47 4.0 0.0 88.3 0.0 5.0 psi, 1171.2 gpm 46 4.0 0.0 83.3 0.0 Pipe: 47 -1171.2 6.065 PL 3.00 PF 0.1 47 4.0 0.0 88.3 0.0 13.0 120 FTG ---- PE 1.3 48 1.0 0.0 89.7 0.0 0.047 TL 3.00 PV Pipe: 48 -1171.3 6.280 PL 100.00 PF 6.5 48 1.0 0.0 89.7 0.0 12.1 140 FTG TLCG PE 0.4 49 0.0 SRCE 96.7 (N/A) 0.030 TL 217.00 PV NOTES (HASS): (1) Calculations were performed by the HASS 7.9 computer program under license no. 5009058210 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 0.004 gpm and a maximum imbalance at any node of 0.176 gpm. SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 8 DATE: 5/14/2009 C:\HASS78\COSTCO OPTICAL CLEAN ROOM.SDF JOB TITLE: Costco Optical Clean Room (3) Total pressure at each node is used in balancing the system. Maximum water velocity is 26.4 ft/sec at pipe 42. (4) PIPE FITTINGS TABLE Pipe Table PAGE: A Diameter (in) 1.049 1.380 1.610 6.065 PAGE: B Diameter (in) 4.260 PAGE: D Diameter (in) Name: STANDARD.PIP MATERIAL: S40 HWC: 120 Equivalent Fitting Lengths in Feet E T L C B G A D Ell Tee LngEll ChkVly BfyVly GatVly AlmChk DPV1v 2.00 5.00 2.00 5.00 6.00 1.00 10.00 10.00 3.00 6.00 2.00 7.00 6.00 1.00 10.00 10.00 4.00 8.00 2.00 9.00 6.00 1.00 10.00 10.00 14.00 30.00 9.00 32.00 10.00 3.00 28.00 28.00 N NPTee 5.00 6.00 8.00 30.00 MATERIAL: THNWL HWC: 120 Equivalent Fitting Lengths in Feet E T L C B G A D N Ell Tee LngEll ChkVly BfyVly GatV1v AlmChk DPV1v NPTee 13.00 26.00 8.00 29.00 16.00 3.00 26.00 26.00 26.00 MATERIAL: DIRON HWC: 140 Equivalent Fitting Lengths in Feet E T L C B G N Ell Tee ±ngEll CIikVly BfyVly GatV±v NPTee 6.280 22.00 47.00 14.00 51.00 16.00 5.00 47.00 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 9 DATE: 5/14/2009 C:\HASS78\COSTCO OPTICAL CLEAN ROOM.SDF JOB TITLE: Costco Optical Clean Room E Q. O Ui 0 u) 0 W -,i N 04 0 O O ,-i V -r1 U) 4) 124 -d N 04 H O KC� Z ri >+ U a -d a..-) a1 b W m W -I N N O O 0 O O O 0 O O O O 0 0 0 lfl c' N 0 co k0 V' r, ,-, thrt0C7W aa:Wcocnc4 43 --R.w-,-i-. 0 0 0 N 0 0 — CO r4 0 O r-1 O O O O N 0 — CO O — N ri o SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 10 DATE: 5/14/2009 C:\HASS78\COSTCO OPTICAL CLEAN ROOM.SDF JOB TITLE: Costco Optical Clean Room WATER SUPPLY CURVE 156*\\ I \\ \\\ \\ 143+ 1 130+ 1 1 117+ P104+ R 1 E 1 S 1 S 91+ U 1 R 1 E 1 78+ t 1 P S 1 I 65+ ) I 1 52+ 1 1 39+ \\ \\\ \\ \\ \\\ \\ \\\ \\ \\ \\\ \0 X \\ * <-105.0 psi @ 1505 gpm Flow Test Point 26+ LEGEND 1 X = Required Water Supply it 1 96.65 psi @ 1421.3 gpm " 13+ 11 1 0 = Available Water Supply " I 110.02 psi @ 1421.3 gpm . " I " 0++-+---+----+ + + + + + + 400 600 800 1000 1200 1400 1600 1800 2000 FLOW (GPM) v• FIRE SYSTEMS WEST, INC. 219 FRONTAGE ROAD, NORTH SUITE B PACIFIC,WA 98047 HYDRAULIC CALCULATIONS FOR Costco Expansion Covered Entry Dry HSW FILE NUMBER: 2-11-10234 DATE: MAY 18, 2009 -DESIGN DATA - OCCUPANCY CLASSIFICATION: Ordinary Hazard Group I DENSITY: .15 gpm/sq. ft. AREA OF APPLICATION: Covered Entry . NUMBER OF SPRINKLERS CALCULATED: 2 sprinklers TOTAL SPRINKLER WATER FLOW REQUIRED: 78.0 gpm TOTAL WATER REQUIRED (including hose): 328.0 gpm FLOW AND PRESSURE (@ BOR): 78.0 gpm @ 29.3 psi SPRINKLER ORIFICE SIZE: K=11.2 NAME OF CONTRACTOR: Fire Systems West, Inc. DESIGN/LAYOUT BY: James Ruark AUTHORITY HAVING JURISDICTION: Tukwila Fire Department CONTRACTOR CERTIFICATION NUMBER: FIRESWI140B1 CALCULATIONS BY HASS COMPUTER PROGRAM (LICENSE # 5009058210) HRS SYSTEMS, INC. TUCKER, GA 30084 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 2 DATE: 5/18/2009 C:\HASS78\COSTCO OPTICAL ENTRY.SDF JOB TITLE: Costco Optical Entry WATER SUPPLY DATA SOURCE STATIC RESID. FLOW AVAIL. TOTAL REQ'D NODE PRESS. PRESS. @ PRESS. @ DEMAND PRESS. TAG (PSI) (PSI) (GPM) (PSI) (GPM) (PSI) 49 155.0 105.0 1505.0 152.0 328.0 29.3 AGGREGATE FLOW ANALYSIS: TOTAL FLOW AT SOURCE 328.0 GPM TOTAL HOSE STREAM ALLOWANCE AT SOURCE 250.0 GPM OTHER HOSE STREAM ALLOWANCES 0.0 GPM TOTAL DISCHARGE FROM ACTIVE SPRINKLERS 78.0 GPM NODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE PRESSURE 'DISCHARGE (FT) (PSI) (GPM) 1 11.5 18.9 2 11.5 18.9 3 11.5 18.9 4 11.5 18.9 5 11.5 - - - - 18.9 6 11.5 K= 9.20 18.9 7 13.8 - - - - 18.0 8 13.8 18.0 9 13.8 18.0 10 13.8 18.0 11 13.8 18.0 12 11.5 19.0 13 16.0 17.0 14 16.0. 17.0 15 16.0 17.0 16 16.0 17.0 17 16.0 17.0 18 16.0 17.0 19 11.5 - - - - 19.0 20 16.2 K= 9.20 17.1 45 16.2 - - - - 17.2 46 4.0 22.5 47 4.0 27.5 48 1.0 28.8 49 0.0 SOURCE 29.3 40.0 38.0 78.0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 3 DATE: 5/18/2009 C:\HASS78\COSTCO OPTICAL ENTRY.SDF JOB TITLE: Costco Optical Entry PIPE DATA PIPE.TAG Q(GPM) DIA(IN) .LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 1 0.0 1.049 PL 13.33 PF 0.0 1 11.5 0.0 18.9 0.0 0.0 120 FTG ---- PE 0.0 2 11.5 0.0 18.9 0.0 0.000 TL 13.33 PV Pipe: 2 0.0 1.049 PL 13.33 PF 0.0 2 11.5 0.0 18.9 0.0 0.0 120 FTG ---- PE 0.0 3 11.5 0.0 18.9 0.0 0.000 TL 13.33 PV 3 4 Pipe: 3 0.0 1.380 PL 13.33 'PF 0.0 11.5 0.0 18.9 0.0 0.0 120 FTG ---- PE 0..0 11.5 0.0 18.9 0.0 0.000 TL 13.33 PV Pipe: 4 0.0 1.610 PL 13.33 PF 0.0 11.5 0.0 18.9 0.0 0.0 120 FTG ---- PE 0.0 11.5 0.0 18.9 0.0 0.000 TL 13.33 PV. Pipe: 5 0.0 1.610 PL 5.83 PF 0.0 11.5 0.0 18.9 0.0 0.0 120 FTG T PE 0.0 11.5 9.2 18.9 40.0 0.000 TL 13.83 PV Pipe: 6 0.0 1.049 PL 14.33 PF 0.0 7 13.8 0.0 18.0 0.0 0.0 120 FTG 2E PE 0.0 8 13.8 0.0 18.0 0.0 0.000 TL 18.33 PV Pipe: 7 0.0 1.049 PL 13.33 PF 0.0 13.8 0.0 18.0 0.0 0.0 120 FTG ---- PE 0.0 13.8 0.0 18.0 0.0 0.000 TL 13.33 PV Pipe: 8 0.0 1.380 PL 13.33 PF 0.0 9 13.8 0.0 18.0 0.0 0.0 120 FTG ---- PE 0.0 10 13.8 0.0 18.0' 0.0 0.000 TL 13.33 PV Pipe: 9 0.0 1.610 PL 13.33 PF 0.0 10 13.8 0.0 18.0 0.0 0.0 120 FTG ---- PE 0.0 11 13.8 0.0 18.0 0.0 0.000 TL 13.33 PV Pipe: 10 0.0 1.610 PL 8.08 PF 0.0 11 13.8 0.0 18.0 0.0 0.0 120 FTG ET PE 1.0 12 11.5 0.0 19.0 0.0. 0.000 TL 20.08 PV Pipe: 11 0.0 1.049 PL 10.00 PF 0.0 13 16.0 0.0 17.0 0.0 0.0 120 FTG ---- PE 0.0 14 16.0 0.0 17.0 0.0 0.000 TL 10.00 PV Pipe: 12 0.0 1.049 PL 7.67 PF 0.0 14 16.0 0.0 17.0 0.0 0.0 120 FTG 2E PE 0.0 15 16.0 0.0 17.0 0.0 0.000 TL 11.67 PV • SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 4 DATE: 5/18/2009 C:\HASS78\COSTCO OPTICAL ENTRY.SDF JOB TITLE: Costco Optical Entry PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END. ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 13 0.0 1.380 PL 10.00 PF 0.0 15 16.0 0.0 17.0 0.0 0.0 120 FTG ---- PE 0.0 16 16.0 0.0 17.0 0.0 0.000 TL 10.00 PV Pipe: 14 0.0 1.610 PL 13.33 PF 0.0 16 16.0 0.0 17.0 0.0 0.0 120 FTG ---- PE 0.0 17 16.0 0.0 17.0 0.0 0.000 TL 13.33 PV Pipe: 15 0.0. 1.610 PL 13.33 PF 0.0 17 16.0 0.0 17.0 0.0 0.0 120 FTG ---- PE 0.0 18 16.0 0.0 17.0 0.0 0.000 TL 13.33 PV Pipe: 16 0.0 1.610 PL 10.33 PF 0.0 18 16.0 0.0 17.0 0.0 0.0 120 FTG ET PE 1.9 19 11.5 0.0 19.0 0.0 0.000 TL 22.33 PV Pipe: 17 -40.0 .3.260 PL 9.12 PF 0.0 6 11.5 9.2 18.9 40.0 1.5 120 FTG ---- PE 0.0 12 11.5 0.0 19.0 0.0 0.002 TL 9.12 PV Pipe: 18 -40.0 3.260 PL 8.96 PF 0.0 12 11.5 0.0 19.0 0.0 1.5 120 FTG ---- PE 0.0 19 11.5 0.0 19.0 0.0 0.002 TL 8.96 PV Pipe: 19 -40.0 3.260 PL 40.38 PF 0.2 19 11.5 0.0 19.0 0.0 1.5 120 FTG 2ET PE -2.1 20 16.2 9.2 17.1 38.0 0.002 TL 80.38 PV Pipe: 20 -78.0 6.065 PL 261.42 PF 0.1 20 16.2 9.2 17.1 38.0 0.9 120 FTG 4E PE 0.0 45 16.2 0.0 17.2 0.0 0.000 TL 317.42 PV Pipe: 21 -78.0 6.065 PL 12.25 PF 0.0 45 16.2 0.0 17.2 0.0 0.9 120 FTG B PE 5.3 46 4.0 0.0 22.5 0.0 0.000 TL 22.25 PV Pipe: 22 FIXED PRESSURE LOSS DEVICE 47 4.0 0.0 27.5 0.0 5.0 psi, 78.0 gpm 46 4.0 0.0 22.5 0.0 Pipe: 23 -78.0 6.065 PL 3.00 PF 0.0 47 4.0 0.0 27.5 0.0 0.9 . 120 FTG ---- PE 1.3 48 1.0 0.0 28.8 0.0 0.000 TL 3.00 PV Pipe: 24 -78.0 .6.280 PL 100.00 PF 0.0 48 1.0 0.0 28.8 0.0 0.8 140 FTG TLCG PE 0.4 49 0.0 SRCE 29.3 (N/A) 0.000 TL 217.00 PV r SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 5 DATE: 5/18/2009 C:\HASS78\COSTCO OPTICAL ENTRY.SDF JOB TITLE: Costco Optical Entry NOTES (HASS): (1) Calculations were performed by the HASS 7.9 computer program under license no. 5009058210 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 0.003 gpm and a maximum imbalance at any node of 0.076 gpm. (3) Total pressure at each node is used in balancing the system. Maximum water velocity is 1.5 ft/sec at pipe 17. (4) PIPE FITTINGS TABLE Pipe Table Name:•STANDARD.PIP PAGE: A MATERIAL: S40 HWC: 120 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G A D N Ell Tee LngEll ChkVly BfyVly GatVly AlmChk DPV1v NPTee 1.049 2.00 5.00 2.00 5.00 6.00 1.00 10.00 10.00 5.00 1.380 3.00 6.00 2.00 7.00 6.00 1.00 10.00 10.00 6.00 1.610 4.00 8.00 2.00 9.00 6.00 1.00 10.00 10.00 8.00 6.065 14.00 30.00 9.00 32.00 10.00 3.00 28.00 28.00 30.00 PAGE: B MATERIAL: THNWL HWC: 120 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G A D N E11 Tee LngEll ChkVly BfyVly GatVly AlmChk DPV1v NPTee 3.260 10.00 20.00 7.00 22.00 14.00 1.00 18.00 18.00 20.00 PAGE: D MATERIAL: DIRON HWC: 140 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G N Ell Tee LngEll ChkV1v BfyVly GatVly NPTee 6.280 22.00 47.00 14.00 51.00 16.00 5.00 47.00 DATE: 5/18/2009 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 6 C:\HASS78\COSTCO OPTICAL ENTRY.SDF JOB TITLE: Costco Optical Entry WATER SUPPLY ANALYSIS a O 11) O 0 W a 0 •0 O r -i •ri G! .r., 04 0 0 ui 1n U +.1 0 0. a > > of Q. 14 14 T 0 0 A a) 0 0 U U W • IQN 0m.-1Oo i. 03 7I a+ 41 CO 0 Ma a w" .0 41) Q. $1 0 i •4 n 0 >. .� N 0' N CO CO > to Al 01 c4 N Q' .-1 N N 0 O O O O 0 O O O 0 0 0 0 O l0 a' No O lit) C epi i••1 .-1 r-1 01:4 DOW axCil cncn0aw-u.un•.-1-- O 0 N 0 0 0 N 0 0 0 0 .. o X d' 04 0 0 0 .-1 O O 0 .-I O — 0 CO 0 — 0 l0 N SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 7 DATE: 5/18/2009 C:\HASS78\COSTCO OPTICAL ENTRY.SDF JOB TITLE: Costco Optical Entry WATER SUPPLY CURVE 156*\\ 1 0\\ I \\\ 1 \\ 143+ \\ 1 \\\ \\ 1 \\ 130+ \\\ \\ \\\ \\ 117+ \\ 1 \\\ \\ \\ P104+ * <-105 0 psi @ 1505 gpm R 1 Flow Test Point E I S 1 S 91+ U . 1- R 1 E I 78+ ( P 1 S 1 I 65+ I 52+ 39+ 1=X 26+ LEGEND 1 X = Required Water Supply I 29.25 psi @ 328.0 gpm 13+ I 0 = Available Water Supply I 152.02 psi @ 328.0 gpm. 0++-+---+----+ + + + + + + 400 600 800 1000 1200 1400 1600 1800 2000 FLOW (GPM) SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 8 DATE: 5/18/2009 C:\HASS78\COSTCO OPTICAL ENTRY.SDF JOB TITLE: Costco Optical Entry 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 6 11.20 11.50 1.049 3.00 2T 13.00 120.00 9.20 FIRE SYSTEMS WEST, INC. 206 FRONTAGE ROAD, NORTH SUITE C PACIFIC,WA 98047 HYDRAULIC CALCULATIONS FOR Costco Optical Exhaust Duct Sprinklers Tukwila, WA FILE NUMBER: 2-11-10234 DATE: NOV 19, 2009 -DESIGN DATA - OCCUPANCY CLASSIFICATION: Clean Room Exhaust Duct System DENSITY: Minimum 20 gpm AREA OF APPLICATION: 4 Remote Sprinklers COVERAGE PER SPRINKLER: 10'-0" O.C. NUMBER OF SPRINKLERS CALCULATED: 4 sprinklers TOTAL SPRINKLER WATER FLOW REQUIRED: 84.7 gpm TOTAL WATER REQUIRED (including hose): 334.7 gpm FLOW AND PRESSURE (@ BOR): 84.7 gpm @ 39.7 psi SPRINKLER ORIFICE SIZE: 1/2 inch NAME OF CONTRACTOR: Fire Systems West, Inc. DESIGN/LAYOUT BY: James Ruark AUTHORITY HAVING JURISDICTION: Tukwila Fire Department CONTRACTOR CERTIFICATION NUMBER: FIRESWI140B1 CALCULATIONS BY HASS COMPUTER PROGRAM (LICENSE # 5009058210) HRS SYSTEMS, INC. TUCKER, GA 30084 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 2 DATE: 11/19/2009 C:\HASS78\COSTCO OPTICAL EXHAUST DUCTS.SDF JOB TITLE: Costco Optical Clean Room Exhaust Sprinklers WATER SUPPLY DATA SOURCE STATIC RESID. FLOW AVAIL. TOTAL REQ'D NODE PRESS. PRESS. @ PRESS. @ DEMAND PRESS. TAG (PSI) (PSI) (GPM) (PSI) (GPM) (PSI) 49 155.0 105.0 1505.0 151.9 334.7 46.5 AGGREGATE FLOW ANALYSIS: TOTAL FLOW AT SOURCE 334.7 GPM TOTAL HOSE STREAM ALLOWANCE AT SOURCE 250.0 GPM OTHER HOSE STREAM ALLOWANCES 0.0 GPM TOTAL DISCHARGE FROM ACTIVE SPRINKLERS 84.7 GPM NODE ANALYSIS DATA NODE TAG ELEVATION NODE TYPE PRESSURE DISCHARGE (FT) (PSI) (GPM) 1 14.0 K= 5.60 12.8 20.0 2 14.0 K= 5.60 13.6 20.7 3 13.0 - - - - 15.2 - - - 4 17.0 K= 5.60 14.1 21.0 5 13.0 - - - - 17.1 - - - 6 14.0 K= 5.60 16.9 23.0 7 13.0 - - - - 18.8 8 5.0 31.7 43 16.2 34.3 44 16.2 34.3 45 16.2 34.4 46 4.0 39.7 47 4.0 44.7 48 1.0 - - - - 46.0 49 0.0 SOURCE 46.5 84.7 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 3 DATE: 11/19/2009 C:\HASS78\COSTCO OPTICAL EXHAUST DUCTS.SDF JOB TITLE: Costco Optical Clean Room Exhaust Sprinklers PIPE DATA PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 1 -20.0 1.049 PL 11.50 PF 2.0 1 14.0 5.6 12.8 20.0 7.4 120 FTG 2E PE 0.4 3 13.0 0.0 15.2 0.0 0.130 TL 15.50 PV Pipe: 2 -20.7 1.049 PL 1.50 PF 1.2 2 14.0 5.6 13.6 20.7 7.7 120 FTG ET PE 0.4 3 13.0 0.0 15.2 0.0 0.138 TL 8.50 PV Pipe: 3 -40.7 1.049 PL 4.00 PF 1.9 3 13.0 0.0 15.2 0.0 15.1 120 FTG ---- PE 0.0 5 13.0 0.0 17.1 0.0 0.483 TL 4.00 PV Pipe: 4 -21.0 1.049 PL 4.00 PF 1.3 4 17.0 5.6 14.1 21.0 7.8 120 FTG T PE 1.7 5 13.0 0.0 17.1 0.0 0.143 TL 9.00 PV Pipe: 5 -61.7 1.380 PL 6.00 PF 1.6 5 13.0 0.0 17.1 0.0 13.2 120 FTG ---- PE 0.0 7 13.0 0.0 18.8 0.0 0.275 TL 6.00 PV Pipe: 6 -23.0 1.049 PL 1.50 PF 1.4 6 14.0 5.6 16.9 23.0 8.6 120 FTG ET PE 0.4 7 13.0 0.0 18.8 0.0 0.169 TL 8.50 PV Pipe: 7 -84.7 1.610 PL 26.42 PF 9.4 7 13.0 0.0 18.8 0.0 13.4 120 FTG 2EB PE 3.5 8 5.0 0.0 31.7 0.0 0.233 TL 40.42 PV Pipe: 8 -84.7 1.610 PL 12.00 PF 7.5 8 5.0 0.0 31.7 0.0 13.4 120 FTG 3ET PE -4.9 43 16.2 0.0 34.3 0.0 0.233 TL 32.00 PV Pipe: 9 -84.7 6.065 PL 66.38 PF 0.0 43 16.2 0.0 34.3 0.0 0.9 120 FTG T PE 0.0 44 16.2 0.0 34.3 0.0 0.000 TL 96.38 PV Pipe: 10 -84.7 6.065 PL 146.58 PF 0.1 44 16.2 0.0 34.3 0.0 0.9 120 FTG 2E PE 0.0 45 16.2 0.0 34.4 0.0 0.000 TL 174.58 PV Pipe: 11 -84.7 6.065 PL 12.25 PF 0.0 45 16.2 0.0 34.4 0.0 0.9 120 FTG B PE 5.3 46 4.0 0.0 39.7 0.0 0.000 TL 22.25 PV Pipe: 12 FIXED PRESSURE LOSS DEVICE 47 4.0 0.0 44.7 0.0 5.0 psi, 84.7 gpm 46 4.0 0.0 39.7 0.0 4 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 4 DATE: 11/19/2009 C:\HASS78\COSTCO OPTICAL EXHAUST DUCTS.SDF JOB TITLE: Costco Optical Clean Room Exhaust Sprinklers PIPE TAG Q(GPM) DIA(IN) LENGTH PRESS. END ELEV. NOZ. PT DISC. VEL(FPS) HW(C) (FT) SUM. NODES (FT) (K) (PSI) (GPM) FL/FT (PSI) Pipe: 13 -84.7 6.065 PL 3.00 PF 0.0 47 4.0 0.0 44.7 0.0 0.9 120 FTG ---- PE 1.3 48 1.0 0.0 46.0 0.0 0.000 TL 3.00 PV Pipe: 14 -84.7 6.280 PL 100.00 PF 0.1 48 1.0 0.0 46.0 0.0 0.9 140 FTG TLCG PE 0.4 49 0.0 SRCE 46.5 (N/A) 0.000 TL 217.00 PV NOTES (HASS): (1) Calculations were performed by the HASS 8.0 computer program under license no. 5009058210 granted by HRS Systems, Inc. 208 South Public Square Petersburg, TN 37144 (2) The system has been calculated to provide an average imbalance at each node of 0.012 gpm and a maximum imbalance at any node of 0.164 gpm. (3) Total pressure at each node is used in balancing the system. Maximum water velocity is 15.1 ft/sec at pipe 3. (4) PIPE FITTINGS TABLE Pipe Table Name: STANDARD.PIP PAGE: A MATERIAL: S40 HWC: 120 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G A D N Ell Tee LngEll ChkV1v BfyVly GatV1v AlmChk DPV1v NPTee 1.049 2.00 5.00 2.00 5.00 6.00 1.00 10.00 10.00 5.00 1.380 3.00 6.00 2.00 7.00 6.00 1.00 10.00 10.00 6.00 1.610 4.00 8.00 2.00 9.00 6.00 1.00 10.00 10.00 8.00 6.065 14.00 30.00 9.00 32.00 10.00 3.00 28.00 28.00 30.00 PAGE: D MATERIAL: DIRON HWC: 140 Diameter Equivalent Fitting Lengths in Feet (in) E T L C B G N Ell Tee LngEll ChkV1v BfyVly GatVly NPTee 6.280 22.00 47.00 14.00 51.00 16.00 5.00 47.00 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 5 DATE: 11/19/2009 C:\HASS78\COSTCO OPTICAL EXHAUST DUCTS.SDF JOB TITLE: Costco Optical Clean Room Exhaust Sprinklers E 0) O Z m o 0 )n Ha 105. 00 psi Flow: a E to 0i `N O ,U0 G) l - >Ib w"mm 1W a° )moi ® vii fa G)ma•. toy a• wa°L � � � m 0 - a ' m w 04 H ✓ l N 0 0 0 N 0 0 m r4 —o a 0 a w 0 — o 0 0 l0 0 0 e--1 0 0 N 0 0 0 0 0 co 0 0 0 0 �PrCaow 134awm—acn 0 0 N 0 0 SPRINKLER SYSTEM HYDRAULIC ANALYSIS Page 6 DATE: 11/19/2009 C:\HASS78\COSTCO OPTICAL EXHAUST DUCTS.SDF JOB TITLE: Costco Optical Clean Room Exhaust Sprinklers WATER SUPPLY CURVE 156*\\ 1 0\\ I \\\ \\ 143+ 130+ 117+ \\ \\ \\\ \\ \\ \\\ \\ \\ P104+ * <-105 0 psi @ 1505 gpm R 1 Flow Test Point E 1 S 1 S 91+ U 1 R E 1 78+ ( 1 P S 1 I 65+ 1 52+ IX I 39+ 26+ LEGEND 13+ X = Required Water Supply 46.48 psi @ 334.7 gpm 0 = Available Water Supply 151.90 psi @ 334.7 gpm 0++-+---+----+ + + + + + + 400 600 800 1000 1200 1400 1600 1800 2000 FLOW (GPM) PROJECT: 341144 MIU 441 Costco Drive Tukwila, WA 98188 EQUIPMENT: TWO WAY PRIVATE RADIO ALARM COMMUNICATOR CODE REFERENCE: NFPA 72, 2013ed GUARDIAN SECURITY SYSTEMS 1743 Seattle, WA, 98134 P: 206.622.6545 BY: Sacha Lewis DATE: 20th April 2018/REV 0 PAID APR 20 2018 TUKWILA FIRE FIRE ALARM COMMUNICATOR TABLE OF CONTENTS SECTION 1: PROJECT NARRATIVE, FUNCTIONS, SUPERVISION, SECONDARY POWER, GUARANTEE, CODE COMPLIANCE, EQUIPMENT LIST/BILL OF MATERIALS, BATTERY CALCULATION SECTION 2: PRODUCT DATA SHEETS AND ARCHITECT SPECIFICATIONS FIRE ALARM COMMUNICATOR SECTION 1 PROJECT NARRATIVE FUNCTIONS SUPERVISION SECONDARY POWER SUPPLY GUARANTEE CODE COMPLIANCE EQUIPMENT LIST/BILL OF MATERIALS BATTERY CALCULATION • FIRE ALARM COMMUNICATOR PROJECT NARRATIVE: This is a Two -Way Private Radio Alarm System Communicator, manufactured by AES Intellinet, utilizing a network owned by Guardian Security for the purpose of fire alarm monitoring. FUNCTION: Activation of an alarm, supervisory (if applicable), or trouble condition from the main fire alarm control panel shall cause the following actions: A. Transmit activated condition to the Central Station. B. Initiate specific condition response, per protocols. These actions are a one-time action, until the fire alarm control panel initiates a separate additional condition. SUPERVISION: The system is electrically supervised. Trouble conditions shall illicit a trouble condition, sounding a distinct audible signal and an English display of the specific trouble on the main fire alarm control panel, or via local piezo alarm, including but not limited to: a dingle open or ground in a supervised circuit, shorted signal circuit, antenna or signal loss, low or shorted battery or loss of AC power. These signals will continue until the trouble is corrected. SECONDARY POWER SUPPLY: The system includes a supervised, automatically recharged sealed battery to provide 24 hours of standby and 5 minutes of alarm during a primary power outage, per NFPA. GUARANTEE: The AES System will be warranted for a period of one year (minimum, dependent on contract requirements) from the date of installation being completed and the system being successfully tested by all authorities having jurisdiction. At the end of the guarantee period, we will offer to the customer either extended warranty contracts or provide on-going non-recurring service calls as needed. It is the customers' responsibility to ensure system maintenance and required testing is performed. SYSTEM DEFINITIONS: AHJ: FIRE ALARM COMMUNICATOR Authority Having Jurisdiction: An organization, office, or individual responsible for enforcing the requirements of a code or standard, or for approving equipment, materials, an installation or procedure. (NFPA72 — 3.2.2) GSS: Guardian Security Systems RAT: Radio Alarm Transmitter (NFPA72 — 26.6.3.3.2.1) RARSR: Radio Alarm Repeater Station Receiver (NFPA72 — 26.6.3.3.2.1) RASSR: Radio Alarm Supervising Station Receiver (NFPA72 — 26.6.3.3.2.1) Supervising Station: (aka Central Station) A facility that receives signals from protected premises fire alarm systems and at which personnel are in attendance at all times to respond to these signals. (NFPA72 — 3.3.194) System Unit: The active subassemblies at the supervising station used for signal receiving, processing, display, or recording of status change signals: a failure of one of these assemblies causes the Toss of a number of alarm signals by that unit. (NFPA72 — 3.3.201) FIRE ALARM COMMUNICATOR NFPA72 (2013ed) 26.6.3.3.2 COMPLIANCE: 26.6.3.3.2.1— Independent Receivers The requirements of 26.6.3.3.2(a -c) for a radio alarm repeater station receiver (RARSR) shall be satisfied if the signals from each radio alarm transmitter (RAT) are received and supervised, in accordance with Chapter26, by at least two independently powered, independently operating, and separately located RARSRs or radio alarm supervising station receivers (RASSRs), or by one of each. At least two separate paths shall be provided from a RAT to the ultimate RASSR. 26.6.3.3.2.1— GSS Satisfaction: Guardian utilizes RARSR's in the Bellingham office, located at 1501 Kentucky St, Bellingham, WA. Guardian Security is not required to provide staffing (per 8.5.3.5) because the following criteria is met: There are 2 RASAR units; both in secure locations within a UL listed area of the building. The RARSR's are powered from different power supplies within the building. The RARSR's both have independent antennas permanently affixed to the roof. The RARSR's are independently operating, and each have a unique subscriber ID. The RASAR to RARSR connection is via fixed IP link. Back up dedicated phone lines should the IP link fail Supervision at Central Station (1743 1st Ave S, Seattle, WA) for communication failure, via proprietary UL listed (as part of AES listing) software. 26.6.3.3.2.2 — Maximum Operating Time The end-to-end operating time parameters allowed for a two-way alarm system shall be as follows: Please see NFPA 72-2013 edition for further text. 26.6.3.3.2.2 — GSS Satisfaction: As part of UL listing on the RAT's, these criteria are met through the manufacturer. 26.6.3.3.2.3 — Supervision: Equipment shall be provided at the supervising station for the supervisory and control functions of the supervision or subsidiary station for the repeater station radio transmitting and receiving equipment. This shall be accomplished via a supervised circuit where the radio equipment is remotely located from the system unit. 26.6.3.3.2.3— GSS Satisfaction: As part of the UL listing of both the manufacturer, and Guardian Security's Central Station, this requirement has been tested and is in compliance. This compliance covers 26.6.3.3.2.3 A -D. FIRE ALARM COMMUNICATOR NFPA72 (2013ed) 26.6.3.3.2 COMPLIANCE (CON'T): 26.63.3.2.4 — Transmission Channels: 26.6.3.3.2.4(a) The two-way RF transmission channel shall originate with a RAT at the protected premises and shall terminate at the RF receiving system of an RARSR or RASSR capable of receiving transmissions from such transmitting devices. 26.6.3.3.2.4(a)— GSS Satisfaction: This is accomplished within the proprietary software of the manufacturer. RAT's for the network GSS owns are only programmed to communicate with GSS owned RARSR, RASSR or other RAT's. These units ignore or do not acknowledge other RARSR, RASSR, RAT's of networks not by GSS. 26.6.3.3.2.4 — Transmission Channels: 26.6.3.3.2.4(b) A receiving network transmission channel shall terminate at an RARSR at one end and with either another RARSR or an RASSR at the other end. 26.6.3.3.2.4(b)—GSS Satisfaction: See 26.6.3.3.2.1 and 26.6.3.3.2.4 (a) 26.6.3.3.2.4 — Transmission Channels: 26.6.3.3.2.4(c) Operation of receiving network transmission channels shall conform to the requirements of this code whether channels are private facilities, such as microwave, or leased facilities furnished by a communications utility company. 26.6.3.3.2.4(c)— GSS Satisfaction: This requirement is met through UL testing of Guardian Security's Central Station. FIRE ALARM COMMUNICATOR NFPA72 (2013ed) 26.6.3.3.2 COMPLIANCE (CON'T): 26.6.3.3.2.4 — Transmission Channels: 26.6.3.3.2.4(d) If private signal transmission facilities are used, the equipment necessary to transmit signals shall also comply with the requirements for duplicate equipment or replacement of critical components as described in 26.6.4.2 26.6.3.3.2.4(d) — GSS Satisfaction: This requirement is met through UL testing of Guardian Security's Central Station. In addition, Guardian employs locally trained technicians, and has inventoried spare critical components on site. 26.6.3.3.2.4 — Transmission Channels: 26.6.3.3.2.4(e) The system shall provide information that indicates the quality of the received signal for each RARSR supervising each RAT in accordance with 26.6.3.3.2 and shall provide information at the supervising station when such signal quality falls below the minimum signal quality levels set forth in 26.6.3.3.2 26.6.3.3.2.4(e)— GSS Satisfaction: As set forth in UL Listed proprietary software by the manufacturer, RARSR's are supervised for quality. If the RARSR's fall below UL approved levels (via proprietary software), Central Station is notified via the proprietary software. 26.6.3.3.2.4 — Transmission Channels: 26.6.3.3.2.4(f) Each RAT shall be installed in such a manner so as to provide a signal quality over at least two independent two-way RF transmission channels, of the minimum quality level specified, that satisfies the performance requirements in 26.6.2.4 and 26.6.4. 26.6.3.3.2.4(f)— GSS Satisfaction: The requirements of referenced code 26.6.2.4 and 26.6.4are met via: Units demonstrate FCC compliance labeling All units in Seattle and Bellingham are installed to NFPA70 compliance. All antennas in Seattle and Bellingham utilize single point grounding for protection of the possibility of damage by lightning or static discharging. The requirements of referenced code 26.6.4 are met through UL testing of Guardian Security's Central Station. FIRE ALARM COMMUNICATOR NFPA72 (2013ed) 26.6.3.3.2 COMPLIANCE (CON'T): 26.6.3.3.2.4 — Transmission Channels: 26.6.3.3.2.4(f) 26.6.3.3.2.4(0— GSS Satisfaction (Con't): The requirements of 26.6.3.3.2.4(f) additionally are met via pre -testing of RAT's are the future protected premises by GSS technicians to determine suitable locations of RAT and its respective antenna. GSS technicians before and after installation, as well as acceptance testing shall verify compliance by communicating with central station and obtaining the proper information. It should be noted that proprietary information is utilized to demonstrate compliance. Proprietary information is acceptable per manufacturers UL compliance. 26.6.3.3.2.5 — System Categories: Two-way radio alarm systems shall be divided into two categories on the basis of the following number of RASSRs present in the system. (1) A Type 6 System shall have one RASSR and at least two RARSRs. (2) A Type 7 system shall have more than one RASSR and at least two RARSRs. (3) In a type 7 system, when more than one RARASR is out of service and, as a result, any RATs are no longer being supervised, the affected supervising station shall be notified. (4) In a Type 6 system, when any RARSR is out of service, a trouble signal shall be annunciated at the supervising station. 26.6.3.3.2.5— GSS Satisfaction: Guardian Security network is a Type 7 system. As such, the compliance of line item (3) notification is automatic, as part of the proprietary software of the manufacturer. Furthermore, procedures are initiated to troubleshoot and rectify any unexpected outages. 26.6.3.3.2.6 — Loading Capacities: 26.6.3.3.2.6(a) Allowable loading capacities shall be in accordance with Table 26.6.3.3.2.6(a) 26.6.3.3.2.6(a)— GSS Satisfaction: Compliance shall be checked prior to installation. As with other reporting formats (IE DACR Hunt Groups), Guardian Security Systems maintains own compliance. At request of AHJ, Guardian Security Systems can provide documentation of compliance. FIRE ALARM COMMUNICATOR NFPA72 (2013ed) 26.6.3.3.2 COMPLIANCE (CON'T): 26.6.3.3.2.6 — Loading Capacities: 26.6.3.3.2.6(b) If the signal receiving, processing, display and recording equipment is duplicated at the supervising station and a switchover is able to be accomplished in not more than 30 seconds with no loss of signals during this period, the capacity of a system unit shall be permitted to be unlimited. 26.6.3.3.2.6(b)— GSS Satisfaction: Guardian Security's Central Station operates with redundant systems, primary and back up functions that record and allow for processing of all signals in real time or queued. Should a failure of any system unit (any subassembly), the redundant unit switchover can be accomplished in Tess than 30 seconds, where any queued signals are recorded and/or acknowledged. NFPA72 Edition Cross Reference: NFPA72 2010 4 NFPA 72 2007 26.6.2.4 4 8.6.2.4 26.6.4 4 8.6.5 26.6.3.3.2 4 8.6.3.5 26.6.3.3.2.1 4 8.6.3.5.1 26.6.3.3.2.2 4 8.6.3.5.2 26.6.3.3.2.3 4 8.6.3.5.3 26.6.3.3.2.4(a) 4 8.6.3.5.4.1 26.6.3.3.2.4(b) -i 8.6.3.5.4.2 26.6.3.3.2.4(c) 4 8.6.3.5.4.3 26.6.3.3.2.4(d) -i 8.6.3.5.4.4 26.6.3.3.2.4(e) 4 8.6.3.5.4.5 26.6.3.3.2.4(f) 4 8.6.3.5.4.6 26.6.3.3.2.5 4 8.6.3.5.5 26.6.3.3.2.6(a) 4 8.6.3.5.6.1 26.6.3.3.2.6(b) 4 8.6.3.5.6.2 FIRE ALARM COMMUNICATOR EQUIPMENT LIST: An equipment list, or bill of materials shall be provided to the customer and be part of contract documents. BILL OF MATERIALS: Note: product data sheets may not be available for all parts. Bill of materials subject to field changes. QTY Product ID Product Description 1 7788 AES Fire Communicator 1 7794 AES Intellitap Module BATTERY CALCULATION: Standby Alarm Standby Alarm Part Number Equipment Qty Each Each Total Total (amps) (amps) (amps) (amps) 7788 Communicator 1 0.17500a 0.80000a 0.17500a 0.80000a 7794 Intelligent Reporting Module 1 0.00500a 0.32000a 0.00500a 0.32000a TOTAL DRAW 0.18000a 1.12000a STANDBY - (DRAW) X (60) HOURS 10.800 ALARM = (DRAW) X 10 MINUTES (.17) 0.1904 TOTAL ALARM AND STANDBY 10.9904amp/hrs TOTAL ALARM & STANDBY WITH 1.2 DERATING FACTOR 12.1904amp/hrf. BATTERYBACKUP=USE1 EA7.0AMP/HRBATTERY SECTION 2 FIRE ALARM COMMUNICATOR EQUIPMENT DATA SHEETS 7884MES N 4 • RF Subscriber Unit UL Fire, AA Burglary and NFPA-72 Compliant UL Listed UL Listed Central Station Remote Station 864 Ed. 9, 827, 1610, 365, 681 CSFM NFPA RF Section 8.6.3.5 Advanced Wireless Alarm Monitoring The 7744/7788 smart subscriber unit links an alarm panel to an alarm monitoring central station. This 2 -way transceiver and repeater in one is housed in a full size locking steel cabinet for superior performance. The 7744/7788 supports a wide range of inputs such as NO/NC/EOL and direct voltage. It automatically senses wire and antenna cuts, and monitors battery and AC power status. Advanced status reporting, self -diagnostics and a built-in power supply make the 7744/7788 the first choice for all wireless alarm communication needs. Full Data for Fire and Burglary Use with the optional Firetap for full fire data or the IntelliTap for full fire and burglary data. Available Configurations 7744 — 4 reversing polarity inputs plus 4 programmable EOL inputs 7788 — Programmable EOL inputs with 8 zones Available Options FireTap 7770 IntelliTap 7067 NEMA 4 Enclosure High Gain Antenna Additional Back Up Battery Available in Burglary Beige or Fire Red CORPORATION InteiiNet For Alarm Monitoring • Options for Full Data for Fire and Burglary • Available in 7744 & 7788 Zone Configurations • Built-in Power Supply and Battery Charger • Local Annunciation Options on Board ....t,:. t `'��"r tR za� araKa Par Wireless mesh networking is an innovative technology adopted by many industries with applications that need to communicate data over a large geographic area with a high level of reliability at a low total cost of ownership. The advanced design and 2 -way communications capability provides easy installation, expansion, and management when compared to alternative communication methods, both wired and wireless. RF Subscriber Unit Technical Specifications Radio Standard CSAA frequency ranges: 450-470 MHz and 130-174 MHz, VHF and UHF. Others available Standard Output Power 2 watts (requires FCC license) Power Input 16.5 VAC, 40VA UL listed Class II transformer required Voltage 12 VDC nominal Current 175mA standby; 800mA transmit Alarm Signal Inputs • 4 individually programmable Zones: NO/NC/EOL, trouble restore • RS -232 • Reversing voltage (7744 only) 12 or 24 VDC Operating Temperature Range 0° to 50°C, 32° to 122°F Storage Temperature Range - 10° to 60°C, 14° to 140°F Relative Humidity Range 0-85% RHC non -condensing Back up Battery 12V, 7 AH Low Battery Reporting 22.5 -minute test cycle AC Status Reports to central station after approximately 60 minutes without AC power, reports power restored after approximately 60 minutes of restored power. programmable from 60 to 180 minutes Antenna Cut (local reporting) Form 'C' Contact 1 AMP Size 13.25"H x 8.5"W x 4.3"D 34cm x 21.5cm x 11 cm Weight 6.4 lbs, 2.9 Kilograms (excluding battery) Colors Available in standard Burglary Beige or Fire Red Please specify when ordering Available Options • 7788 RF subscriber unit with 8 EOL inputs • 7744 RF subscriber unit with 4 EOL inputs and 4 reverse polarity inputs • 7770 - FireTap • 7067 - IntelliTap • NEMA 4 Enclosure Please specify when ordering AES-IntelliNet" is the industry leader in delivering high quality wireless mesh networks to the fire and security industry in commercial, corporate, government, and educational applications with its broad line of products and advanced network management tools. Users ofAES-IntelliNet networks have gained significant rev- enue, communications, and cost advantages while meeting the high standards of reliability required for the fire and security industry. AES-IntelliNet alarm monitoring systems are deployed at hundreds of thousands of locations in over 130 countries. Es CORPORATION For Alarm Monitoring For more information Call 800 -AES -NETS (800-237-6387) In telllNet AES Corporation 1 285 Newbury Street 1 Peabody, MA 01960 USA Tel. +1 978-535-7310 1 Fax +1 978-535-7313 1 Email info@aes-intellinet.com Web www.aes-intellinet.com Available configurations • 7788, 8 EOL inputs • 7744, 4 EOL inputs w/4 reverse polarity inputs Copyright 2008 AES Corporation AES-IntelliNet is a registered trademark of AES Corporation 7744/7788/02/08 f AES -7794 IntelliPro FireTM Full Data Module Overview The AES -7794 IntelliPro FireTM is an add-on module for AES subscribers that enables transmission of full alarm zone data from an alarm panel to a central station over an established AES-IntelliNet network. AES subscribers with IntelliPro Fire can operate in applications with or without a phone line providing full emulation of the phone line for the alarm panel communicator. IntelliPro Fire supports most popular alarm commu- nication protocols including Contact ID and Pulse as well as Modem II and Modem III.* Easy Installation IntelliPro Fire easily installs in the subscriber housing and is powered from the transceiver module, requiring no additional power connections. AES sub- scribers can be ordered with IntelliPro Fire installed. IntelliPro to program using the AES Handheld Programmer. Fire is easy Features • Commercial fire alarm applications - with or without phone lines • Transmits full alarm data from any Contact ID or Pulse format fire alarm panel • Supports evanded event reporting from Bosch Modem 11 and Modem 111 alarm panels • Universal wireless alarm transmitter - works with most manufacturers' panels • Easy to install in AES subscriber • Easily programs using an AES Handheld Programmer • Option to monitor telephone lines *The AES -7794 IntelliPro Fire converts Modem Ile and Modem 111a2 codes to Contact ID for transmis- sion over the IntelliNet network and supports those alarm panels listed in the table located at www.aes-intellinet.com/AES-IntelliNet_7094IntelliPro.html. This table will be updated as additional panels are tested. AES Corporation 285 Newbury Street 1 Peabody, MA 01960 USA Call 800 -AES -NETS (800-237-6387) or +1 978-535-7310 1 Fax +1 978-535-7313 1 Email info@aes-intellinet.com Web www.aes-intellinet.com ES CORPORATION IntelliNet For Alarm Monitoring Technical Specifications • Transmits full data to AES receiver using Contact ID or Pulse formats • Formats Supported: Contact ID, Pulse 3+1, Pulse 4+1, Pulse 4+2, Modem Ile*, and Modem 111a2* I/O Connections • AES subscriber with power • Handheld/PC programming port • POTS incoming phone line • Phone output from alarm panel • Trouble output (form C relay) Size • 2.8 x 5.0 inches (7.1cm x 12.7cm) Power Requirements • 12 VDC nominal, primary and backup power provided by the AES RF Transceiver Unit How to Order Model 7794 7744F-ULP 7788F-ULP Description IntelliPro Fire UL Fire Subscriber w/7794 (4 reversing polarity & 4 EOL inputs) UL Fire Subscriber w/7794 Wireless mesh networking is an innovative technology adopted by many industries with applications that need to communicate data over a large geographic area with a high level of reliability at a low total cost of ownership. The advanced design and 2 -way commu- nications capability provides easy installa- tion, expansion, and management when compared to alternative communication methods, both wired and wireless. Copyright 2011 AES Corporation AES-IntelliNet is a registered trademark of AES Corporation 7794/11/03 ACCEPTED 0 Without Comments As Noted in Red Per The Attached Letter These plans have been reviewed by The Tukwila Flre Prevention Bureau for conformance with current City standards. Acceptance is subject to errors and omissions which do not authorize violations of adopted standards and ordinances. The responsibility For the adequacy of design rests totally with the designer. Additions, deletions or revisions to these drawings after this date will void th+.s accepcance and will require a resubmittal of revises drawings for suosewerlc approval. Final acceptance is suoject to fleld test and inspection by The Tukwila Fire Prevention B reau. Date: / ^ iU By: J KWIL ARS, :1" ' RT �l�f T .,71; k5„+t.n-'.:73-6A07 and \/t$ifs''`'trii6 NQ. og't :1d exact address for shut- :Jown or restoration approval. INSTALLATION AND MAINTENANCE INSTRUCTIONS Innov: DH100ACDCLP Air Duct Smoke Detector with Extended Air Speed Range SYSTEM SENSOR® 3825 Ohio Avenue, St. Charles, Illinois 60174 1-800-SENSOR2, FAX: 630-377-6495 www.systemsensor.com The Innovair DH100ACDCLP model is a photoelectric detector ap- proved for an extended air speed range of 100 to 4000 feet per minute (0.5 m/s to 20.3 m/s) and an operational temperature range of 32°F to 131°F (0°C to 55°C). Before Installing Please thoroughly read the System Sensor Guide for Proper Use of Smoke Detectors in Duct Applications (A05-1004), which provides detailed information on detector spacing, placement, zoning, wiring, and special applications. Copies of this manual are available online at www.systemsensor.com or via System Sensor's toll free fax -back service, Documents on Demand at 800/736-7672. NFPA Standards 72 and 90A should also be refer- enced for detailed information. NOTICE: This manual shall he left with the owner/user of this equipment. IMPORTANT: This detector must be tested and maintained reg- ularly following NFPA 72 requirements. The detector should be cleaned at least once a year. Table of Contents Page [1] General Description 1 [2] Limitations of Duct Smoke Detectors 1 [3] Contents of the Duct Smoke Detector Kit 1 [4] Exploded View of Duct Smoke Detector Components 2 [51 Installation Sequence 2 [6] Duct Smoke Detector Maintenance & Test Procedures 4 [7] Detector Cleaning Procedures 7 181 Board Replacement 7 [9] Specifications 8 Warranty 8 [1] General Description An HVAC system supplies conditioned air to virtually every area of a building. Smoke introduced into this air duct system will be distributed throughout the entire building. Smoke detectors de- signed for use in air duct systems are used to sense the presence of smoke in the duct. Model DH100ACDCLP Air Duct Smoke Detector utilizes photoelec- tric technology for the detection of smoke. This detection method, when combined with an efficient housing design, samples air passing through the duct and allows detection of a developing hazardous condition. When sufficient smoke is sensed, an alarm signal is initiated and appropriate action can be taken to shut off fans, blowers, change over air handling systems, etc. These ac- tions can facilitate the management of toxic smoke and fire gases throughout the areas served by the duct system. The DH100ACDCLP detector is designed -to operate on 24 VDC/ VAC, 120 VAC, or 240 VAC. Alarm and supervisory relay con- tacts are available for control panel interface (alarm initiation), HVAC control, and other auxiliary functions. Auxiliary relays are also provided for fan shut down or signaling of up to 9 other detectors in the loop for multiple fan shut down. These detectors are not designed for 2 -wire applications. For testing, the alarm can be enabled by a magnet activated test switch or by the optional remote test station. The duct smoke detector latches into alarm state when an alarm occurs. A green LED flashes to indicate power, a red LED signals local alarm indication, and optional accessories offer a variety of annuncia- tion capabilities. The DH100ACDCLP can be reset by a momentary power inter- ruption, the reset button on the front cover, the control panel, or remote reset accessory. The DH100ACDCLP incorporates a cover tamper feature that provides a trouble signal after 7 minutes if the cover is removed or improperly installed. Proper installation of the cover removes the trouble condition. [2] Limitations Of Duct Smoke Detectors /WARNING The National Fire Protection Association has established that DUCT DETECTORS MUST NOT BE USED AS A SUBSTITUTE FOR OPEN AREA DETECTOR PROTECTION as a means of providing life safety. Nor are they a substitute for early warning in a build- ing's regular fire detection system. System Sensor supports this position and strongly recom- mends that the user read NFPA Standards 90A, 72, and 101. The DH100ACDCLP Air Duct Smoke Detectors are listed per UL 268A. This device will not operate without electrical power. Fire situa- tions may cause an interruption of power. The system safeguards should be discussed with your local fire protection specialist. This device will not sense smoke unless the ventilation system is operating and the cover is installed. For this detector to function properly, it MUST be installed accord- ing to the instructions in this manual. Furthermore, the detector MUST be operated within ALL electrical and environmental speci- fications listed in this manual. Failure to comply with these re- quirements may prevent the detector from activating when smoke is present in the air duct. [S] Contents Of The Duct Smoke Detector Kit 1. Complete housing base and cover assembly 2. Two #10 x P/4" sheet metal screws for mounting 3. Two sampling tube filters 4. One test magnet 5. Drilling template 6. two foam gaskets 7. Four #6 -self tapping mounting screws for the metal sampling tube and optional exhaust tube extension 8. One sampling tube end cap 9. One plastic sampling tube 10. One #8 self -tapping screw for the plastic sampling tube NOTE: For ducts over 1'/z feet, longer sampling tubes must be ordered to complete the installation. They must be the correct length for the width of the duct where they will be installed. See Table 1 on page 3 to determine the inlet tube required for different duct widths. D200-14.00 1 156-0084-009R 11600-V900-9Si [4] Figure 1: Exploded View of Duct Smoke Detector Components FOAM GASKETS CONDUIT HOLES SAMPLING TUBE FIL RS DETECTOR HOUSING METAL SAMPUNG TUBE -1• TERMINAL STRIP POWER BOARD DETECTOR BOARD DETECTOR COVER [5] Installation Sequence [5.1] Verify Duct Air Flow Direction And Velocity Model DH100ACDCLP detectors are designed to be used in air han- dling systems having air velocities of 100 to 4000 feet per minute. Be sure to check engineering specifications to ensure that the air velocity in the duct falls within these parameters. If necessary, use a velocity meter (anemometer) to check the air velocity in the duct. [5.2) Drill The Mounting Holes Remove the paper backing from the mounting template supplied. Affix the template to the duct at the desired mounting location. Make sure the template lies flat and smooth on the duct. Center punch holes A and B. Drill the holes as indicated on the template. [5.2.1] Sampling Tube Installation for Ducts Less Than 1% Feet Wide (see Figure 2) 1. Remove the front cover. 2. Slide the plastic sampling tube into the housing bushing. 3. Align the holes in the bushing with the holes in the sampling tube. Make sure there are 6 exposed holes on the plastic sam- pling tube. Secure with the #8 self -tapping screw into the bot- tom of the permanent tube (shown in Figure 2). NOTE: The sampling tube end cap is critical to the proper opera- tion of the duct smoke detector. The end cap is needed to create the proper air flow to the sensor of the duct smoke detector. NOTE: For ducts greater than 11/2 feet in width, refer to sections (5.4.1J and [5.4.2). Figure 2. Plastic sampling tube connected to duct smoke detector. COVER MOUNTING SCREWS H0165 •00 [5.3] Secure The Detector Housing To The Duct Slide the foam gaskets over the tube bushings as shown in Figure 3. Use the two PK long sheet metal screws to screw the detector housing to the duct. CAUTION: Do not overtighten the screws. Figure S. Installation of foam gaskets over sampling tube bushings: SCREW HOLES FOR ATTACHING HOUSING TO DUCT WORK. H0107 -W [5.4] Sampling Tube Installation for Ducts Greater Than 1% Feet Wide The sampling tube is identified by a series of air inlet holes on the tube. A plastic tube is included for ducts up to 18" in width. All other lengths must be purchased separately. Order the cor- rect length, as specified in Table 1, for width of the duct where it will be installed. It is recommended that the sampling tube length extend at least 2/3 across the duct width for optimal performance. The exhaust tube is molded onto the base of the duct housing, and the A2440-00 Exhaust Tube Extension is available as an ac- cessory in those cases where the molded exhaust port does not extend at least 2 inches into the duct. The sampling tube is always installed with the air inlet holes facing into the air flow. 'Ib assist proper installation, the tube's mounting flange is marked with an arrow. Make sure the sam- pling tube is mounted so that the arrow points into the air flow (see Figure 4). Figure 5 shows the various combinations of tube mounting configurations with respect to air flow. Mounting the detector housing in a vertical orientation is acceptable, provided that the air flows directly into the sampling tube holes as indi- HUIIO•W cated in Figure 4. D200-14-00 2 156-0084-009R Table 1. Sampling tubes recommended for different duct widths: Outside Duct Width 1 to 2 ft. 2 to 4 ft. 4 to 8 ft. 8 to 12 ft. Sampling Tube Recommended* ST -1.5 ST -3 ST -5 ST -10 *must extend a minimum of 2/3 the duct width [5.4.1] Installation For Ducts Greater Than 11/2 Feet But Less Than 8 Feet Wide 1. If the tube is longer than the width of the air duct, drill a3/4" hole in the duct opposite the hole already cut for the sam- pling tube. Make sure the hole is 1" to 2" below the inlet hole on the opposite side of the duct to allow moisture drainage away from the detector. If the tube is shorter than the width of the air duct, install the end cap into the sampling tube as shown in Figure 4. Sampling tubes over 3 ft. long must be supported at the end opposite the duct smoke detector. 2. Slide the tube into the housing bushing that meets the air flow first. Position the tube so that the arrow points into the air flow. 3. Secure the tube flange to the housing bushing with two #6 self -tapping screws. 4. For tubes longer than the width of the air duct, the tube should extend out of the opposite side of the duct. If there are more than 2 holes in the section of the tube extending out of the duct, select a different length using Table 1. Otherwise, trim the end of the tube protruding through the duct so that 1" to 2" of the tube extend outside the duct. Plug this end with the end cap and tape closed any holes in the protruding section of the tube. Be sure to seal the duct where the tube protrudes. NOTE: The sampling tube end cap is critical to the proper opera- tion of the duct smoke detector. The end cap is needed to create the proper air flow to the sensor of the duct smoke detector. Figure 4. Air duct detector sampling tube: AIR HOLES FLANGE ARROW MUST FACE INTO AIR FLOW SAMPLING TUBE END CAP AIR FLOW DIRECTION H0108.02 Figure 5. Tube mounting configurations with varying air flow direction: AIR FLOW DIRECTION DETECTOR HOUSING DOTS INDICATE POSITION OF SAMPLING TUBE HOLES AIR FLOW DIRECTION DETECTOR HOUSING SAMPLING EXHAUST TUBE TUBE A. AIR FLOW DIRECTION DETECTOR HOUSING EXH UST SAM'LING TUBE TUBE HORIZONTAL MOUNTING OF HOUSING EXHAUST TUBE SAMPLING C. TUBE B. VERTICAL MOUNTING OF HOUSING DETECTOR HOUSING AIR FLOW DIRECTION H0109-01 NOTE: Only metal sampling tubes may be used on orientations C and D. [5.4.2] Installation For Ducts More Than 8 Feet Wide NOTE: To install sampling tubes in ducts more than 8 feet wide, work must be performed inside the air duct. Sampling of air in ducts wider than 8 feet is accomplished by using the ST -10 sam- pling tube. If the tube is shorter than the width of the air duct, install the end cap into the sampling tube as shown in Figure 4 and support the end opposite the duct smoke detector. Install the sampling tube as follows: 1. Drill a 3/4" hole in the duct directly opposite the hole already drilled for the sampling tube. Make sure the hole is 1 to 2" below the inlet hole on the opposite side of the duct to allow for moisture drainage. 2. Slide the sampling tube with the flange into the housing bush- ing that meets the air flow first. Position the tube so that the arrow points into the air flow. Secure the tube flange to the housing bushing with two #6 self -tapping screws. 3. From inside the duct, couple the other sections of the sam- pling tube to the section already installed using the '/3" con- duit fittings supplied. Make sure that the holes on both of the air inlet tubes are lined up and facing into the air flow. 4. Trim the end of the tube protruding through the duct so that 1 to 2" of the tube extend outside the duct. Plug this end with the end cap and tape closed any holes in the protrud- ing section of the tube. Be sure to seal the duct when the tube protrudes. NOTE: An alternate method to using the ST -10 is to use two ST -5 inlet tubes. Remove the flange from one of the tubes and install as described above. After the installation, use electrical tape to close off some of the sampling holes so that there are a total of 10 to 12 holes spaced as evenly as possible across the width of the duct. NOTE: Air currents inside the duct may cause excessive vibra- tion, especially when the longer sampling tubes are used. In these cases a 3" floor flange (available at most plumbing supply stores) may be used to fasten the sampling tube to the other side of the duct. When using the flange/connector mounting technique, drill a 1" to 1'/4" hole where the flange will be used. D200-14-00 3 156-0084-009R [5.4.3] Modifications of Sampling Tubes There may be applications where duct widths are not what is specified for the installation. In such cases, it is permissible to modify a sampling tube that is longer than necessary to span the duct width. Use a 0.193 -inch diameter (#10) drill and add the appropriate num- her of holes so that the total number of holes exposed to the air flow in the duct is 10 to 12. Space the additional holes as evenly as pos- sible over the length of the tube. NOTE: This procedure should only be used as a temporary fix. It is not intended as a permanent substitute for ordering the correct length tubes. [5.4.4] Alternate Method of Sampling Tube Installation The detector arrangement can also incorporate the remote mount- ing of the sampling tube and/or exhaust tube. In this case both the detector, sampling tube and exhaust tube (if included) should be rigidly mounted to withstand the pressure and resonant vibra- tions caused by the air velocity. The location of the detector's sampling tube should be such that there is uniform airflow in the cross section area. An air tight connection shall be made between the sampling tube, exhaust tube and their corresponding ports on the detector hous- ing. Upon selection of location in the system, pressure differential across the sampling and exhaust ports in the detector housing shall be verified to be within the allowable range of the detec- tor. This is accomplished by measuring the pressure difference between the inlet and outlet ports on the detector housing using a manometer as described in Section 6 of this manual. [5.5] Install The Filters To install the sampling tube filters, simply push the filters into the sampling and exhaust tube holes, as shown in Figure 6. If a metal sampling tube is used, install the filters over the tube ends. Figure 6. Sampling tube filter installation: H0159-00 ACAUTION Filters require periodic cleaning or replacement, depending on the amount of dust and dirt accumulated. Visually inspect the filters at least quarterly; inspect them more often if the dust accumulation warrants it. See Section [6] for more information. Replacement filters can be ordered from System Sensor, 3825 Ohio Ave., St. Charles, IL 60174. (Exhaust tube/intake tube filter P/N F36-09-11) [5.6] Field Wiring Installation Guidelines All wiring must be installed in compliance with the National Elec- trical Code and the local codes having jurisdiction. Proper wire gauges should be used. The conductors used to connect smoke detectors to control panels and accessory devices should be color - coded to prevent wiring mistakes. Improper connections can pre- vent a system from responding properly in the event of a fire. For signal wiring, (the wiring between interconnected detectors or from detectors to auxiliary devices), it is usually recommended that single conductor wire be no smaller than 18 gauge. The duct smoke detector terminals accommodate wire sizes up to 12 gauge. Smoke detectors and alarm system control panels have specifi- cations for allowable loop resistance. Consult the control panel manufacturer's specifications for the total loop resistance allowed for the particular model control panel being used before wiring the detector loop. Wiring instructions The DH 100ACDCLP detectors are designed for easy wiring. The housing provides a terminal strip with clamping plates. Wiring connections are made by stripping about 3/8" of insulation from the end of the wire, sliding the bare end under the plate, and tightening the clamping plate screw. [5.7] Perform Detector Check 1. Perform STANDBY AND TROUBLE TEST per Section [6.2.1]. 2. Perform MAGNET 'I'EST per Section [6.2.2.1]. The RTS451 test of Section [6.2.2.2] may substitute for this requirement. 3. Perform AIR FLOW TEST per Section [6.1.1]. 4. Perforin SMOKE RESPONSE TEST per Section [6.1.2]. 5. Perform SENSITIVITY TEST per Section [6.2.3]. [5.8] Install The Cover Install the cover using the six screws that are captured in the hous- ing cover. Be certain filters are installed as specified in Section [5.5]. Make sure that the cover fits into the base groove and that all gaskets are in their proper positions. Tighten the six screws. [6] Duct Smoke Detector Maintenance and Test Procedures Test and maintain duct smoke detectors as recommended in NFPA 72. The tests contained in this manual were devised to assist main- tenance personnel in verification of proper detector operation. Before conducting these tests, notify the proper authorities that the smoke detection system will be temporarily out of service. Dis- able the zone or system under test to prevent unwanted alarms. [6.1] Smoke Entry Tests [6.1.1] Air Flow The DH100ACDCLP is designed to operate over an extended air speed range of 100 to 4000 FPM. Tb verify sufficient sampling of ducted air, turn the air handler on and use a manometer to measure the dif- ferential pressure between the two sampling tubes. The differential pressure should measure at least 0.0015 inches of water and no more than 1.2 inches of water. Because most commercially available ma- nometers cannot accurately measure very low pressure differentials, applications with less than 500 FPM of duct air speed may require one of the following: 1) the use of a current -sourcing pressure trans- mitter (Dwyer Series 607) per Section 6.1.4 or; 2) the use of aerosol smoke per section 6.1.2. [6.1.2] Air Flow Test using Aerosol Smoke This test is intended for low -flow systems (100-500 FPM). If the air speed is greater than 500 FPM, use a conventional manometer to measure differential pressure between the sampling tubes, as described in 6.1.1. Drill a'/a" hole 3 feet upstream from the duct smoke detector. With the air handler on, measure the air velocity with an anemometer. Air speed must be at least 100 FPM. Spray aerosol smoke' into the duct through the 1/4" hole for five seconds. Wait two minutes for the duct smoke detector to alarm. If the duct smoke detec- D200-14-00 4 156-0084-009R tor alarms, air is flowing through the detector. Remove the duct smoke detector cover and blow out the residual aerosol smoke from the chamber and reset the duct smoke detector. Use duct tape to seal the aerosol smoke entry hole. `Aerosol smoke can be purchased from Horne Safeguard Indus- tries, Malibu, CA. Phone: 310/457-5813. [6.1.8] Smoke Entry Test To determine if smoke is capable of entering the sensing cham- ber, visually identify any obstructions. Plug the exhaust and sam- pling tube holes to prevent ducted air from carrying smoke away from the detector head, then blow smoke such as cigarette, cotton wick, or punk directly at the head to cause an alarm. REMEMBER TO REMOVE THE PLUGS AFTER THIS TEST, OR THE DETECTOR WILL NOT FUNCTION PROPERLY. [6.1.4] Air Flow Test using Dwyer Series 607 Differ- ential Pressure Transmitter Verify the air speed of the duct using an anemometer. Air speed must be at least 100 FPM. Wire the Dwyer transmitter as shown in Figure 7. Connect the leads of the meter to either side of the 1000Q resistor. Allow unit to warm up for 15 seconds. With both HIGH and LOW pressure ports open to ambient air, measure and record the voltage drop across the 1000Q resistor (measurement 1), 4.00 volts is typical. Using flexible tubing and rubber stoppers, connect the HIGH side of the transmitter to the sampling tube of the duct smoke detector housing, and the LOW side of the trans- mitter to the exhaust tube of the duct smoke detector housing. Measure and record the voltage drop across the 1000Q resistor (measurement 2). Subtract the voltage recorded in measurement 1 from the voltage recorded in measurement 2. If the difference is greater than 0.15 volts, there is enough air flow through the duct smoke detector for proper operation. Figure 7. Procedure for verifying air flow: i NON T...,RIIR Mp.. "R11 TO 111111R0111 10mIWTT11.. 1.10 }NW MMI.T ,MOO M M11 wTIMMC„ .,O.. .RTM{."1 'LIM "0068 0 ..at MTI.R Hotel -01 [6.1.5] Filter Replacement The filters do not substantially affect smoke performance even when up to 90% of the filter is clogged. Quarterly visual inspec- tion usually suffices to determine whether the filters should be replaced because only a high percentage of contamination affects performance. If further testing is required, compare differential pressure readings with and without the filters installed. If the difference exceeds 10% replace the filters. In no case should the pressure differential fall below 0.0015 inches of water. [6.2] Standby, Alarm and Sensitivity Tests The cover must be removed to perforin these tests. The use of a remote accessory for visible indication of power and alarm is recommended. [6.2.1] Standby And Trouble Standby — Look for the presence of the flashing green LED. The LED should flash approximately ev- ery 10 seconds. Trouble — If the detector LED does not flash, then the detector lacks power (check wiring, panel, or power supply), the detector board is missing (replace), the cover has been missing or not se- cured properly for more than 7 minutes (secure cover property), or the unit is defective (return for repair). Test — The trouble condition can be caused inten- tionally to verify correct operation of the system. Remove the detector board to cause a trouble condition locally and at the system control panel. Cover Tamper — If the cover is removed or not properly secured for a period longer than 7 minutes, a trouble sig- nal is generated to indicate the cover is missing. [6.2.2] Alarm Tests [6.2.2.1] M02-0400 Magnet Test 1. Place the painted surface of the magnet onto the TEST locator on the bottom of the housing (Figure 14). 2. The red alarm LED on the detector should latch on, as should any accessories (i.e. RA400Z, RTS451). Verify system control panel alartn status and control panel execution of all intended auxiliary functions (i.e. fan shutdown, damper control, etc.). 3. The detector must be reset by system control panel, front cover reset button, or remote accessory. [6.2.2.2] RTS451/RTS451KEY Remote Test Station The RTS451/RTS451KEY Remote Test Station facilitates test of the alarm capability of the duct smoke detector as indicated in the RTS451/RTS4SIKEY manual. The DH100ACDCLP duct smoke de- tector can be reset by the RTS451/RTS451KEY. If a system control panel is used, the panel itself may also require testing. To install the RTS451/RTS451KEY, connect the device as shown in Figure 10; wire runs must be limited to 25 ohms or less per interconnecting wire. Please note that the magnetic coil supplied with the RTS451 and RTS451KEY is not required when these accessories are used with the DH100 Series detectors. The functionality of the magnetic coil has been designed into the circuitry of the new Innovair" duct smoke detectors. [6.2.2.8] SSK451 Multi -Signaling Accessory The System Sensor SSK451 Multi -Signaling accessory combines a sounder feature with a key activated test and reset function. Green, amber and red LEDs provide a visual indication of power, trouble, and alarm respectively. An optional strobe (PS24LO) with a smoke lens can be added to conform to the codes of cer- tain jurisdictions. `Ib install the SSK451, connect the device as shown in Figure 13. D200 -14 -OO 5 I56.0084 -009R Figure 8. System wiring diagram for 4 -wire duct smoke detectors: ACAUTION Do not loop wire under terminals when wiring detectors. Break wire runs to provide system supervision of connections. INPIIT4 ACCEPT 24 V 24 VAC 50-60 HZ CONNECT POWER SOURCE TO APPROPRIATE TERMINALS OF EACH DETECTOR. AUX FIATINKL 10A 0 30NVDC RES S11VE 100mA MINIMUM 0 5 VDC 1I4 HPO240 VAC 1/8 HP 0 120 VAC NOT INTENDED FOR CONNECTION TO CONTROL PANELS. MHO A 0 30 VDC reeiciven� 2.0 A O 125 VAC resistive ALARM stive ALARL\ AVAILABLE POWER INPUTS 9 10 A B C ?241? ,9 AC 22V0/240_ ALARM AUXIUARY CONTACTS FOR FAN SHUTDOWN, ETC. ALARM AUXIUARY CONTACTS SHOWN IN STANDBY. CONTACTS TRANSFER DURING ALARM AS INDICATED BY THE ARROWS, SUPERVISORY TROUBLE CONTACTS AVAILABLE POWER INPUTS ?�®g� lav VAAC _220 C40V— ALARM AUXILIARY CONTACTS FOR FAN SHUTDOWN, ETC. ALARM AUXILIARY CONTACTS SHOWN IN STANDBY.CONTATS JE DURINGALAINDICATED BY THE ARROWS. SUPERVISORY TROUBLE CONTACTS U 1�� TROUBLE CONTACTS CLOSED IN HARM ANO STANDBY. CONTACTS OPEN WHILE DETECTOR PCB OR POWER IS REMOVED OR WHEN TAMPER FEATURE TIMES OUT. OPEN CONTACTS SIGNAL TROUBLE CONDMON TO PANEL. TROUBLE CONTACTS CLOSED IN HARM AND STANDBY. CONTACTS OPEN WHILE DETECTOR PCB OR POWER 18 REMOVED OR MIEN TAMPER FEATURE TIMES OUT OPEN CONTACTS SIGNAL TROUBLE COIWRWN TO PANEL. CONNECT POWER SOURCE TO APPROPRIATE TERMINALS OF EACH DETECTOR. SEE SPECIFICATIONS FOR ADDITIONAL POWER SUPPLY INFORMATION. FOR WIRING OF AUXILIARY DEVICES, REFER TO MANUFACTURERS INSTALLATION INSTRUCTIONS OR CONTACT MANUFACTURER. NOTE: THE SUPERVISORY RELAY NOW PROVIDES A'FORM C' CONTACT FOR CUSTOMIZED APPUCATIONS. FOR STANDARD APPUCATIONS, ONLY THE' NO' CONTACT IS USED 1 ALARM INITIATION CONTACTS UL USTED 4 -WIRE CONTROL PANEL CONTACTS SHOWN OPEN IN STANDBY. CONTACTS CLOSE IN ALARM. ALARM INITIATION CONTACTS FIRST DETECTOR IN THE LOOP DH100ACDCLP Figure 9. Wiring diagram for DH100ACDCLP to APA451: DH100ACDCLP Alarm Signal 15 Aux. Power+ Sup. N. 0. Sup. COM Aux. Power — APA451 O2 Alarm (Red LED) 0 Power (Green LED) 0 Common NOTE: Wiring diagram shown is for DH100ACDCLP 4 -wire duct smoke detector system equipped without a control panel. H0157,00 Figure 11. Multiple fan shutdown (interconnect): ( 10000090000 I (^ 0(� E9000090000 1990 oo000f000oo ol000i00000 OET.CIGR, MBA I01101. N OR ilNOE,A CONTACTS SHOWN OPEN IN STANDBY. CONTACTS CLOSE IN ALARM. LAST DETECTOR IN THE LOOP DHIOOACDCLP — J 501 RESISTOR SPECIFIED BY PANEL MANUFACTURER Figure 10. Wiring diagram for DH100ACDCLP to RTS451/RTS451KEY: DH100ACDCLP Alarm Signal 15 RTS451/RTS451KEY 0 (Red LED) Alarm Aux. Power + 0-- 1 ISup. N.O. 14 1 Sup. COM *For RTS4S1KEY only without a 1 control panel. 1 0 (Green LED) Power Aux. Power — Reset Test 11 —1-9OOOOPO000I000 09000E0000 OMT TO IE OETICTORS *AMIN N °VICTOR RI COMA J L_ FTE EM IONER0—ANN AKIVAT 110155-01 H0158.01 H015G•00 Important Interconnect Notes • When using the interconnect feature, all interconnected units must be powered with the same, independent supply. • Polarity must be maintained throughout the interconnect wiring. Connect termi- nal 12 on unit 1 to terminal 12 on unit 2 and so on. Similarly, connect terminal 1 on unit 1 to terminal 1 on unit 2 and so on. • Up 10 10 units may be interconnected. 1)200-14-00 6 156-0084-009R Figure 12. Wiring diagrams for optional accessories: ALARM SIGNAI. H) AUX POWER 1-) 0 0 0 DUCT DETECTOR PM00 (OPTIONAL) DH100ACDCLP AUDIBLE ALERT H0161.01 Figure 14. Testing detector alarm: H0160.00 [6.2.3) Sensitivity Tests [6.2.3.1] MOD400 or MOD400R Test After verification of alarm capability, use the MOD400R test mod- ule with a voltmeter to check detector sensitivity as indicated in the test module's manual. The housing cover must be removed to perform this test. If test module readings indicate that the detector head is outside of the acceptable range that is printed on the label of the detector, the detector chamber requires cleaning per Section [71 of this manual. [7) Detector Cleaning Procedures Notify the proper authorities that the smoke detector system is undergoing maintenance, and that the system will temporarily be out of service. Disable the zone or system undergoing mainte- nance to prevent unwanted alarms and possible dispatch of the fire department. [7.1] Air Filters 1. 'Alrn off power to the system. 2. Remove and inspect sampling tube filters. 3. If filters are heavily coated with dirt, replace them with new filters. If they are not heavily coated, use a vacuum cleaner or compressed air nozzle to remove dust, then reinstall the filters. Figure 13. Wiring diagram for DH100ACDCLP to SSK451: FIELD INSTALLED JUMPER FOR TEMPORAL PATTERN SSK451 COMMON+ TEMPORALSELECT'0 ALARM SIGNAL SUPERVISORY SIGNAL O O RESET 0 TEST 0 POWER (-) POWER (+) SO DH100ACDCLP 1) ALARM SIGNAL ©SUPERVISORY �NOt CONTACT RESET TEST AUX. POWER (-) AUX. POWER (+) 7 E FIELD INSTALLED JUMPER NOTE: Wiring diagram shown is for DH100ACDCLP 4 -wire duct smoke detector system equipped without a control panel. [7.2] Photo Detector Board 1. H0162-00 Remove the screen by gently grasping on each side and pull- ing straight off. 2. Lift the photo chamber in the same fashion. Vacuum the screen and cover. Use clean, compressed air to loosen and blow out any remaining debris. Replacement screens (S08-39- 01) are available. 3. Vacuum photo chamber, then use clean compressed air to blow area clean. 4. Replace the chamber by pressing it onto the base. Press the screen into place. It should fit tightly on the chamber. [8.0] Board Replacement [8.1) Detector Board Replacement (part no. A5190) 1. 2. 3. Remove the two detector board mounting screws. Pull gently on the board to remove it. To replace the board, align the board mounting features, holes, and the interconnect terminals. Push the board into place. 4. Secure board with the two mounting screws. [8.2] Power Board replacement (part no. AS064) 1. 2. 3. 4. 5. 6. Disconnect wiring from the terminal block. Remove the two power board mounting screws. Pull gently on the board to remove it. To replace the board, align the board mounting features, holes, and the interconnect terminals. Push the board into place. Secure board with the two mounting screws. Re -connect wiring to terminal block. 0200-14-00 7 I56 -0084-009R 1 • i91 Model DH100ACDCLP Air Duct Smoke Detector Specifications Operating Temperature: Storage Temperature: Humidity: Air Velocity: Dimensions: Weight: Electrical Specifications PowET supply voltage: Input capacitance: Reset voltage: Reset time (with RTS451): Reset time (by power down): Power up time: Alarm response time: Sensitivity Test: 32° to 131° F -22° to 158° F 10% to 93% R.H. non -condensing 100 to 4000 ft./min. 14.38" L x 5.5" W x 2.75" D 3.75 pounds 20-29 VDC 270 pF max. 3.0 VDC min. .03 to 0.3 sec. 0.6 sec. max. 34 sec. max. 2 to 17 sec. See detector label 24 VAC 50 -60 -Hz 270 pF max. 2.0 VAC min. .03 to 0.3 sec. 0.6 sec. max. 34 sec. max. +2 to 17 sec. See detector label 0° t0 55° C -30° to 70° C 0.5 to 20.3 m/sec. 37cm L x 14cm W x 7cm D 1.7 kg 120 VAC 50-60 Hz N/A 10 VAC min. .03 to 0.3 sec. 0.6 sec. max. 34 sec. max. 2 to 17 sec. See detector label 220/240 VAC 50-60 Hz N/A 20 VAC min. .03 to 0.3 sec. 0.6 sec. max. 34 sec. max. 2 to 17 sec. See detector label Power Supply Voltage 20.29 VDC 24 VAC 50.80 Hz 120 VAC 50.80 Hz 220/240 VAC 50.80 Hz CURRENT REOUIREMENTS (USING NO ACCESSORIES) Max. standby current 15 mA 35 mA RMS 25 mA RMS' 15 mA RMS' Max. alar current 70 mA 125 mA RMS ' 35 mA RMS' 25 MA'RMS' CONTACT RATINGS Alarm initiation contacts (SPST) 2.OA A 30 VDC (resistive) Alar auxliary contacts (DPDT) 10A O 30 VDC 10A 0 250 VAC 1/4HPO240VAC 1/8 HP 0 120 VAC Note: Alarm aux8ary contacts must switch 100 mA minimum at 5VDC. Alar auxiliary contacts shall not be connected to iodtaWtg circuits of control panels. Use the alarm initiation contact for this purpose. Trouble contacts (SPOT) 2.OA O 30 VDC (resistive) 2.OA 0 125 VAC (resistive) ACCESSORY CURRENT LOADS AT 24 VDC,,. • 1-. DEVICE ' STANDB& TROUBLE ALARM APA451 , 12.5mA Max. NaV. 30mA Max. PA400 OmA ' ' Na • ' '1BmA'Max. RA400Z pct Na 10m A Max. RTS451 OmA Na 7.5mA Max. RTS451 KEY 12mA• Na 7.5mA Max. SSK451 5mA Max. 9mA Max. 30mA Max. NOTE: When a unit is powered at the 120VAC or 220/240VAC Input. any combination of accessories may be used such that the given accessory loads are: 60 mA or less In the standby state, 110 mA or less In the alarm state. H0164.00 1 Please refer to insert for the Limitations of Fire Alarm Systems Three -Year Limited Warranty System Sensor warrants its enclosed product to be free from defects in materials and workmanship under normal use and service for a period of three years from date of manufacture. System Sensor makes no other express warranty for the enclosed product. No agent, representative, dealer, or employee of the Company has the authority to increase or alter the obligations or limitations of this Warranty. The Company's obliga- tion of this Warranty shall be limited to the replacement of any part of the product which is found to be defective in materials or workman- ship under normal use and service during the three year period com- mencing with the date of manufacture. After phoning System Sensor's toll tree number 800-SENSOR2 (736-7672) for a Return Authorization number, send defective units postage prepaid to: System Sensor, Returns Department, RA # , 3825 Ohio Avenue, St. Charles, IL 60174. Please include a note describing the malfunction and suspected cause of failure. The Company shall not he obligated to replace units which are found to be defective because of damage, unreasonable use, modi- fications, or alterations occurring after the date of manufacture. In no case shall the Company be liable for any consequential or incidental damages for breach of this or any other Warranty, expressed or implied whatsoever, even if the loss or damage is caused by the Company's negligence or fault. Some states do not allow the exclusion or limita- tion of incidental or consequential damages, so the above limitation or exclusion may not apply to you. This Warranty gives you specific legal rights, and you may also have other rights which vary from state to state. D200-14-00 8 156-0084-009R 02006 System Sensor 'fors O Without Comments 1gi As Noted in Red O Per The Attached Letter These plans have been reviewed by The Tukwila Fire Prevention Bureau for conformance with current City standards. Acceptance is subject to errors and omissions which do not authorize violations of adopted standards and ordinances. The responsibility for the adequacy of design `ests totally with the designer. Additions, deletions or revisions to these drawings after this date will void this acceptance and will require a resubmittal of revised drawings for subsequent approval. Anal acceptance is subject to field test and Inspection by The Tukwila Fire Prevention Bureau. Date: 11-1>-- I)-- By:Al—‘51 ok,i- . 4o 6i p,„5...4.1.4( as s,oC.,.;sol ars see,.ov+ q $ ft fir** C (aAdwss 11:4. sk"t: 004. twi 11`)( rtr.04e L.6-.0. rY ,AJ. — ver xe4. -t TUl<WILA FIRE DEPARTMENT Please cell 206-5754407 and give this Fire Permit No. and exact address for shut- down or restoration approval. NOTICE A completed, signed, Tukwila Fire Department Pre-test Certificate must be presented to the Inspector prior to commencement of Acceptance Testing of any Fire Alarm and Detection Systems. Failure of test will result in a Re -inspection Fee and termination of the testinc. FILE Aa.,„ /7LL f -- 4/o & f , 1 p -. zoo -1;14.4. 40,00, .101 f ,r MAX -/off_ sA// Cao -._fro Is. n e mi . S/' A%4/r.,e .04 di -4 '//rr .� c /ca,, noo .ri Ale t4/ of DAL �GY•i — 04,4./ r GK•` • Sy. sem S:� spa.. / , e Brod 4 f MY.'/1 ran eJ ail! v •-• C 41 4,/G NO,/ -iv MOS//L . /��►.� F1'-'cJe4/‘rC /0?2,9 Al` it Viol size_ 2d SVD K4..e- W4 ffeie (50q) «1s �3Zoy W.`// 5,,, 111 w S L UKWRA FIRE D€PARThilhe; Plsese colic 575.44Q7 and give thls Job iVo.o9�F�1 ind exact address for shut. n or restoration eoo►owei ACCEPTED Without Comments As Nt)Ised in Red p Per The Attached Letter These plans have been reviewed by The Tukwila Fire Prevention Bureau for conformance with current City standards. Acceptance is subject to errors and omissions which do not authorize violations of adopted standards and ordinances. The responsibiiit_for the adequacy of design rests totally with the designer.. Additions, deletions or revisions to these drawings after this date will vold this acceptance and will require.a resubmittal of revised drawings for subsequentapproral. Final acceptance is subject to field test and laspecilon by'.. The Tukwila Fire Prevention Bureau. - Date: / / ^ d� V '0 Cl By: 11011 2 tO09 Tukwila ire PC- �z��fz •N BATTERY CALCULATIONS FOR 24VDC AUXILIARY NOTIFICATION APPLIANCE POWER SUPPLY SYMBOL 1 I 1 1 1 MANUFACTURER Building: 1 Costco Wholesale - Tukwila Optical ARC Lab Remodel RING MT. HEIGHT Address: I Tukwila, WA Tukwila, WA EXISTING EXISTING EXISTING EXISTING Power Supply: FCPS-24FS6 Formula R=V/i MANUAL PULL STATION EXISTING Identification #: APS I EXISTING EXISTING -- F VII HORN/STROBE (WALL) Bldg. Area Served: Remodel Areas EXISTING WHEELOCK i -- EX Circuits iD: I 1,2 - - - - - - Device: Wheelock RSS24MCW-FW WaIiStns, 15cd 0 Date: I 07 -May -091 - - - Deuce: Wheelock NS -24 -MCC -FW Ceiling Hom/Strobe, 15cd Qty: 1 Current Each:I .082A I Device: Wheelock NS -24 -MCC -FW Ceiling Hom/Strobe, 30cd Qty: 4 Current Each:I .124A Device: DEVICE TYPE ABBREVIATIONS: Ceiling Hom/Strobe, 75cd Qty: 1 Current Each:I .209A Device: Wheelock NS -24 -MCC -FW Ceiling Horn/Strobe, 95cd Power Supply Current Each:I .275A Device:k(heelock RSS24MCC-FW Ceiling Strobe, 3ocd` Qty: 3 Current Each: .105A APS Auxiliary Power Supply 1 Wheelock RSS-24MCC-FW Fire -Lite FCPS-24FS6 Qty: 2 Current Each: .189A Notification Appliances) Wheelock RSS: 24MCC-FW 1 Qty: 1 Current Each: .249A V1 Strobe, 15cd Wheelock RSS-24MCW-FW CAN1 Ceiling Hom/Strobe, 15cd Wheelock NS-24MCC-FW 14Awg (NAC Circuits) 3.07ohms per 1000' per NEC CAN2 Ceiling Hom/Strobe, 30cd Wheelock NS-24MCC-FW I CAN3 Ceiling Hom/Strobe, 75cd Wheelock NS-24MCC-FW CAN4 Ceiling Hom/Strobe, 95cd Wheelock NS-24MCC-FW CV1 Ceiling Strobe, 30cd Wheelock RSS 24MCC-FR CV2 Ceiling Strobe, 75cd Wheelock RSS24MCC-FR Resistance Total Resist. CV3 Ceiling Strobe, 95cd Wheelock RSS24MCC-FR Length*2 Resistance Voltage L from Device on Circuit OTHER ABBREVIATIONS USED: 1 580 1.7806 24 0.915 mA Current in Milli -amperes NAC 2 1000 I Current in Amperes 1.269 0.05287-5. 3.122875 AH Amp -Hours I 1 0 0 24 0.000 0.000000 1 SPARE 0 0 DEVICES STANDBY/ALARM CURRENT DRAW CALCULATIONS: 0.000 0.000000 0.000000 Per -Unit Sub Total Per -Unit Sub Total Standby Standby Alarm Alarm I I Device Qty. in mA in mA in mA in mA Current Power Supply Voltage Final Does Ckt Fall Within Device Circuit # on Circuit APS 1 65 65 145 145 NAC 1 0.915 1.818725 Notification Appliances 22. 5867 yes NAC 2 1.269 3.122875 V1 3 0 : 0 60 180 0.000 0.000000'" 0.000000' CAN1 1 0 0 82 82 0.000000 0.000000 24.000000 CAN2 4 0 0 124 496 CAN3 1 0 0 209 209 CAN4 1 0 0 275 275 CV1 3 0 0 105 315 CV2 2 0 0 189 378 CV3 1 0 0 249. 249 CALCULATIONS SUMMARY: 0.065 = Total Standby Current in Amperes 24 = Standby Time in Hours Total Standby Current Requirement AmplHours= 1.56 1 I 1 2.329 = Total Alarm Ring Current in Amperes 5 = Ring Time in Minutes I I I 0.083 = Ring Time in Hours 1 I I Total Alarm Ring Curr. Requirement Amp/Hours = 0.19 1 1 I Total Standby/Alarm Ring Current Amp/Hours = 1.75 1 1 Twenty Percent Safety Margin = 0.35 Total Standby Battery Requirement in Amp/Hours= 2.10 1 1 1 Battery Amp/Hour Provided= 7.50 NOTE(S): 1. EXISTING FIRE ALARM EQUIPMENT SHALL REMAIN ACTIVE AND FULLY OPERATIONAL AT ALL TIMES. 2. NEW FIRE ALARM EQUIPMENT SHALL BE CONNECTED TO EXISTING FIRE ALARM SYSTEM. 3. NEW NOTIFICATION APPLIANCES TO BE CENTERED IN ACOUSTICAL CEILING TiLES WHERE APPLICABLE. 4. NEW POWER SUPPLY LOCATION IS FOR REFERENCE ONLY. FINAL LOCATION TO BE DETERMINED iN THE FiELD AND WILL BE REFLECTED IN THE AS-BUILTS. Voltage Drop Work Sheet for Notification Appliance Circuits) SYMBOL EQUIPMENT MANUFACTURER Job Name: Costco Wholesale - Tukwila Optical ARC Lab Remodel RING MT. HEIGHT QTY. Address: Tukwila, WA EXISTING EXISTING EXISTING EXISTING EXISTING -- Formula R=V/i MANUAL PULL STATION EXISTING EXISTING EXISTING EXISTING EXISTING -- F VII HORN/STROBE (WALL) EXISTING EXISTING EXISTING WHEELOCK i -- EX EXISTING DEVICE TO REMAIN 7 - - - - - - Device: Wheelock RSS24MCW-FW WaIiStns, 15cd 0 Qty: 3 Current Each: E OA - - - Deuce: Wheelock NS -24 -MCC -FW Ceiling Hom/Strobe, 15cd Qty: 1 Current Each:I .082A - - - Device: Wheelock NS -24 -MCC -FW Ceiling Hom/Strobe, 30cd Qty: 4 Current Each:I .124A Device: Wheelock NS -24 -MCC -FW Ceiling Hom/Strobe, 75cd Qty: 1 Current Each:I .209A Device: Wheelock NS -24 -MCC -FW Ceiling Horn/Strobe, 95cd Qty: 1 Current Each:I .275A Device:k(heelock RSS24MCC-FW Ceiling Strobe, 3ocd` Qty: 3 Current Each: .105A Device: Wheelock RSS-24MCC-FW Ceiling Strobe, 75cd Qty: 2 Current Each: .189A Device: Wheelock RSS: 24MCC-FW Ceiling Strobe, 95cd Qty: 1 Current Each: .249A I_ Wire: 14Awg (NAC Circuits) 3.07ohms per 1000' per NEC I Resistance, per Notification Circuit Wire Nominal Current Resistance Total Resist. Circuit # Length*2 Resistance Voltage on Circuit from Device on Circuit NAC 1 580 1.7806 24 0.915 0.038125 1.818725 NAC 2 1000 3.07 24 1.269 0.05287-5. 3.122875 SPARE 0 0 24 0.000 0.000000 0.000000 SPARE 0 0 24. 0.000 0.000000 0.000000 Vdrop=I X R Assumptions: Voltage is 24VDC Entire Load Is Applied at End of Circuit I I Voltage Drop per Notification Appliance Circuit 1 Current Total Resist. Voltage Final Does Ckt Fall Within Device Circuit # on Circuit on Circuit Loss Voltage Operating Range 16-33 VDC NAC 1 0.915 1.818725 1.664133 22. 5867 yes NAC 2 1.269 3.122875 3962928 20.037072 yes SPARE 0.000 0.000000'" 0.000000' 24.000000 yes SPARE 0.000 0.000000 0.000000 24.000000 yes EXISTING FIRE ALARM LEGEND SYMBOL EQUIPMENT MANUFACTURER PART NUMBER BACKBOX RING MT. HEIGHT QTY. FiRE ALARM CONTROL PANEL EXISTING EXISTING EXISTING EXISTING EXISTING -- FACP MANUAL PULL STATION EXISTING EXISTING EXISTING EXISTING EXISTING -- F VII HORN/STROBE (WALL) EXISTING EXISTING EXISTING EXISTING EXISTING -- EX EXISTING DEVICE TO REMAIN 7 - - - - - - - - - - - - -- 0 EXISTING DEVICE TO BE REMOVED 6 - - - - - - - - - - - - -- FIRE ALARM LEGEND SYMBOL EQUIPMENT MANUFACTURER PART NUMBER BACKBOX RING MT. HEIGHT QTY. AUXILIARY POWER SUPPLY FIRE -LITE FCPS-24FS6 SUPPLIED N/A AS REQUIRED 1 APS STROBE WHEELOCK RSS-24MCW-FW 4/SQ. 1 -GANG 80" TO BOTTOM 3 i -r4 101 HORN/STROBE WHEELOCK NS-24MCC-FW 4/SQ. 1 -GANG CEILING 7 STROBE WHEELOCK RSS-24MCC-FW 4/SQ. 1 -GANG CEILING 6 END -OF -LINE RESISTOR - - - - - - - - - - - - - - - -- TITLE SHEET - FI ALAN SYSTEM SCALE: NTS FIRE ALARM CABLE/LINETYPE LEGEND CABLE LINETYPE NFPA 72 CIRCUIT TYPE TYPICAL DEVICES CONDUCTORS B NAC (NOTIFICATION APPLIANCE CIRCUIT) AUDIBLE/VISUAL DEVICES (HORNS/STROBES) 14/2 FPLR TO EXISTING INIIiATING DEVICES EXISTING 120VAC CIRCUIT F EXISTING MANUAL PULL STATION TO REMAIN EXISTING FIRE ALARM CONTROL PANEL FLOOR PLAN REMODEL FIRE -UTE FCPS-24FS6 POWER SUPPLY SOUTH MECH. ROOM 'A105' 14/2 FPLR TYP. NAC CIRCUITS NAC#I xxca NAC#I XXCD 12OVAC SPARE SPARE HNAC#1 HNAC#2 SINGLE LINE DIAGRAM NOTE: - ALL AUDIBLE APPLIANCES TO BE TEMPORAL CODE 3. - .ALL STROBES TO BE SYNCRONiZED - DIAGRAM IS REPRESENTATIVE ONLY AND DOES NOT REFLECT ACTUAL QUANTITY OF DEVICES USED. O Without Comments 21 As Noted in Red O Per The Attached:Letter 1 These plans have been reviewed by The Tukwila -Fire 1 r're'i ntion Bureau for conformance with current City andards. Acceptance is subject to errors and omissions which do not authorize violations -of adopted i standards and ordinances. The responsibility. for the adequacy of design rests totally with the -designer. :Additions, deletions or revisions to these drawings after I this date will void cr . Fotance and will require a resubmittal of r: vis =d ', ~,: it7 subsequent approval. Final acceptance iw s v ., s -i i;:, test and inspection by The Tukwila Fire Pr :°r e.r:t tn E it eilu. Date: s -a y ,T 31 / - Eh jure 4'1, 4# CtYC4,S 4dj 4 e 4 4''h'w re4 S 4u2. cicite �vct1e lova/S-Ftpt Covera y, . i' ae t: cde E4 CacJ.-t- IortAker i S eq7• rye w+4%% h.rPNWCe - L.cin CiGoe, -- i 54.-0( a OVee+. ,Ox key.! v • NOTICE A completed, signed, Tukwila Fire Department Pre-test Certificate must be presented to the Inspector prior to commencement of Acceptance Testing of any Fire Alarm and Detection Systems. Failure of test will result in a Re -inspection Fee and termination of the testing. FI TUKWILA FIRE DEPARTI Please call: 575.4402 and give this job No. d 1- f and oxact address for shun ut) +ti1 or r; t {;;;r4tlOI1 arijro^ a. LE APPUCABLE CODES AUTHORITY HAVING JURISDICTION: CITY OF TUKWILA BUILDING CODE: INTERNATIONAL BUILDING CODE, 2006 EDITION FIRE CODE: INTERNATIONAL FIRE CODE, 2006 EDITION IBC/IFC OCCUPANCY TYPE: S2 STANDARDS: NFPA 70, 2005 (NATIONAL ELECTRIC CODE - ARTICLE 760) NFPA 72, 2007 .1 1 C.. 10220 N. NEVADA ST. STE. #200 SPOKANE, WA 99218 PHONE: (509) 468-3204 FAX: (509) 468-2758 ENGINEERING SOLUTIONS FOR: FIRE ALARM * NURSE CALL * PHONE SYSTEMS * SECURITY * CCTV * SOUND SYSTEMS * ACCESS CONTROL HEALTH CARE COMMUNICATIONS PERMIT SET PROJECT TITLE PROJECT LOCATION ILLIAM E. CHAPPELL IV Engineering Technician, Level 3 NICET Registration Num. - . 112518 z 0 w SUBMIT FOR PERMIT 0) O 0 0 w H 0 X 0 z COSTCO WHOLESALE - TUKWILA OPTICAL ARC LAB REMODEL PROJECT TITLE TITLE SHEET - FIRE ALARM SYSTEM SHEET TiTLE JOB NO. 3997 DATE 05-07-09 DRAWN WEC CHECKED BFO SCALE NTS IF 1HIS DRAWING IS NOT 30-x42' IT HAS BEEN REDUCED COPYRIGHT 02001 FIREPOWER, INC. - ?009 FA1 SHEET 1 OF 3 Tukwila Fire r 76? SHEET INDEX FA1 TITLE SHEET - FIRE ALARM SYSTEM FA2 FLOOR PLAN REMODEL - FiRE ALARM SYSTEM FA3 CONNECTION DIAGRAM - FIRE ALARM SYSTEM .1 1 C.. 10220 N. NEVADA ST. STE. #200 SPOKANE, WA 99218 PHONE: (509) 468-3204 FAX: (509) 468-2758 ENGINEERING SOLUTIONS FOR: FIRE ALARM * NURSE CALL * PHONE SYSTEMS * SECURITY * CCTV * SOUND SYSTEMS * ACCESS CONTROL HEALTH CARE COMMUNICATIONS PERMIT SET PROJECT TITLE PROJECT LOCATION ILLIAM E. CHAPPELL IV Engineering Technician, Level 3 NICET Registration Num. - . 112518 z 0 w SUBMIT FOR PERMIT 0) O 0 0 w H 0 X 0 z COSTCO WHOLESALE - TUKWILA OPTICAL ARC LAB REMODEL PROJECT TITLE TITLE SHEET - FIRE ALARM SYSTEM SHEET TiTLE JOB NO. 3997 DATE 05-07-09 DRAWN WEC CHECKED BFO SCALE NTS IF 1HIS DRAWING IS NOT 30-x42' IT HAS BEEN REDUCED COPYRIGHT 02001 FIREPOWER, INC. - ?009 FA1 SHEET 1 OF 3 Tukwila Fire r 76? 9 m 4 lV 230' 0' 39'-0' 384 3V-0• 21'-0• 1T-0' StNY 39'-0' 00) (E SCREEfi WALL (E) PLT,NTER (E) OUTDOOR PATIO (E) COVERED PATIO I IH (E) ELECTJPHONE R.L. (E) COMPUTER CENTRAL Lu o " (E) COUNSEL (E) ACCOUNT AREA OF NEW WORK ■ R.L. 8) VENDft:. ACHIRES P .i.0 TYP ■ I• (E) EMPLOYEE BREAK ROOM (E) LOCKER AREA F IEX NAC#2-07 AC 2-06 B 75NAC#2 8 B � 2-09 X2-05at 4 22--10 NAC#2 = i (TVD 3.97) 4-4 NAC#2-03 (E) WOMEN'S R.R. (E) MENS R.R. BJ' L NAC#2-02 30CD SIPS, NAC#2-0I 11 ____jTO APS 04; `RM'A105' I(.0 (E) SERVICE COMPUTER (E) OFFICE MANAGER L__ (E) STORAGE (E) RISERS FIRE SPRINKLER (8) SLIDING FENCE (E) RECEIVING ENTRANCE (E) LOBBY AREA ■ (E) MEMBER SERVICE (E) OFFICE MANAGERS (E) (E) SHIPPING SHIPPING NOTE: BEAD BLASTER TO EE LOCATED !idNEVI ADDiTIC 1 LAT EAST CF BUIL D!IA:G) (E) BOLLARDS (8) LINK GATE 8'-0" HIGH CHAIN ------- NOTE(S): 1. EXISTING FIRE ALARM EQUIPMENT SHALL REMAIN ACTIVE AND FULLY OPERATIONAL AT ALL TIMES. 2. NEW FIRE ALARM EQUIPMENT SHALL BE CONNECTED TO EXISTING FIRE ALARM SYSTEM. 3. NEW NOTIFICATION APPLIANCES TO BE CENTERED IN ACOUSTICAL CEILING TILES WHERE APPLICABLE. 4. NEW POWER SUPPLY LOCATION IS FOR REFERENCE ONLY. FINAL LOCATION TO BE DETERMINED IN THE FIELD AND WILL BE REFLECTED IN THE AS-BUILTS. (E) BALER R.L ■ (E) BLAST SAND (E) STORAGE (E) JANITOR' TABLE ■ (E) LENS RECEVING (E) RECEIVING ,(E) RAMP _ (E) ROOF H':TCH (E) MAINTENANCE E,. (E) SUPPLY (8) OF C_ SPACE R.L. (E) AIF r )q 0 m (0) FILTER PRESS R.L. ■ R.L. E) ril 0 . , SURFE AREA OF NEW WORK (E'!PLAPTER (E) NORTH DRY • MECH RM- , (Li ROLL -UP (TVD 1.67) Doo,. NAC'1 NAC#I-06 (E) (E) 15CD _ FILTER I A101 I (E) EDGERS E) URFAcT 7.1 (E) PRODUCTION LAB . (;) DvcrCS ■ a (E) CASE Ur; SH(PP ;IG • (0) DRAIN (E) WATER WATER ESR (0) EDGERS (0) SURFACE 7 .,E) RG_L-UP ' lCiz 1.,^)5A� S P ,^)5A‘ IO CHEMICAL STORAGE 1 A1021 NAC#1-02 15c0 1 VESTIBULE 1 1A103I SOUTH MECH RM 1 A1051 (8) (0' EDGERS EGE S TIH(t. NAC#1-01 TO NAC#21. B_1:1 DEVICES``, NAC I-95 3 I ►tom/ R.L. (E) STORAGE (EYEGLASS CASES) R.I ■ ■ (8) COMPACTOR (8) 8'-0" HIGH C.M.U. SCREEN WALL FLOO PLAN �E(V ODEL - (E) LOADING DOCK { 2B NACCD#I-04 95 BEAD BLASTER ROOM 1 A1041 EXTERIOR CHILLER AREA IA106I 1 0 10 FRE ALARM SYSTE v SCALE: 3/32" = 1 -0" J ,� 1^-gvtJwl 10220 N. NEVADA ST. STE. #200 SPOKANE, WA 99218 PHONE: (509) 468-3204 FAX: (509) 468-2758 ENGINEERING SOLUTIONS FOR: FIRE ALARM * NURSE CALL * PHONE SYSTEMS * SECURITY * CCTV * SOUND SYSTEMS * ACCESS CONTROL HEALTH CARE COMMUNICATIONS PERMIT SET PROJECT TITLE WILLIAM E. CHAPPELL IV Engineering Technician, Level 3 NICET Registration Number: 112518 Authorizing Signature: SUBMIT FOR PERMIT O O ti O 1X) O W F— Q X O Z COSTCO WHOLESALE - TUKWILA OPTICAL ARC LAB REMODEL PROJECT TITLE SHEET TITLE - FIRE ALARM SYSTEM SHEET TITLE JOB NO. 3997 DATE 05-07-09 DRAWN WEC CHECKED MP SCALE 3/32" = 1'-0" IF 1HIS DRAWING IS NOT 30'x42' IT HAS BEEN REDUCED COPYRIGHT 02001 FIREPOWER, INC. FA2 SiEET 2 OF 3 120VAC G z m -1 o - o -WHEELOCK,NS-SERIES HORN/STROBES WAR d TO PREVENT ELECTRIC SI K, DO NOT REMOVE THIS COVER. ?!O USER SESi,.EABLE PARTS I NNSIDE WHEELOCK RSS-SERIES STROBES STB At1D DO NO E THE. COVER. NOSE E.O.L. SE;..,_.E_=PARTS s;cE iNAC CKT 14/2 T.P. FPLR CABLE 1 NAC DEVICE ORDER IS FOR REFERENCE ONLY. SEE SHEET FA2 FOR DEVICE IDENTIFICATION. TO NAC2 DEVICES SPARE FIRE -LITE FCPS-24FS6 „n POWER SUPPLY LI u u u u u u u u 1'7 rl.lwt Cr.cr t, 0000000 E.O.L.D. TO BE PLACED ON LAST DEVICE OF RESPECTIVE NAC CIRCUIT. CONNECTIO\ DI ACOA v FRE ALA SYSTEN SCALE: NTS 10220 N. NEVADA ST. STE. #200 SPOKANE, WA 99218 PHONE: (509) 468-3204 FAX: (509) 468-2758 ENGINEERING SOLUTIONS FOR: FIRE ALARM * NURSE CALL * PHONE SYSTEMS * SECURITY * CCTV * SOUND SYSTEMS * ACCESS CONTROL HEALTH CARE COMMUNICATIONS PERMIT SET J W 0 0 w m J r 0 W -J er < J CD --I �O o p - ma. O Q � o D O I- PROJECT TITLE PROJECT LOCATION ILLIAM E. CHAPPELL IV Engineering Technician, Level 3 NICET Registration Num . 112518 Authorizing Signature: z 0 Ltl SUBMIT FOR PERMIT 0) 9 1 CI 0 1— Q X 0 z COSTCO WHOLESALE - TUKWILA OPTICALARC LAB REMODEL PROJECT TITLE CONNECTION DIAGRAM FIRE ALARM SYSTEM SHEET T1TLE JOB NO. 3997 DATE 05-07-09 BFO DRAWN WEC CHECKED SCALE NTS IF 'THIS DRAINING 1$ NOT 30'x42' IT HAS BEEN REDUCED COPYRIGHT 02001 FIREPOWER, INC. FA3 SHEET 3 OF 3 0 39-0' 0 NEW HVAODUCT WORK ABOVE BUNG —� DEMO BACK T AND J SE STATION 90 EU. OFF (1.5') { I�e MO ARMOVER SWITCFI TO FLEX DROP / ,41 6 6 METAL DECKING SPRINKLER PLAN 0 4 8 SCALE 1/4'=1'-0' LCEILING AT 12-0' SLAB ON GRADE BUILDING SECTION NTS 10 O FITTER/LISTER NOTES 1. ALL FLEX DROPS ARE TO BE INSTALLED PER DETAIL A/1 2. EXCLUDING WORK ON OVERTIME OR AFTER HOURS. 3. EXCLUDING RELOCATING OR MODIFYING THE EXISTING SPRINKLER SYSTEM TO ACCOMMODATE THE WORK OF OTHER TRADES. PIPE / FITTING LEGEND NEW SPRINKLER PIPE EXISTING SPRINKLER PIPE WALL LEGEND ( EXISTING WALL EXISTING BRANCHUNE—..- EXISTING 1' DROP EXISTING V ELBOW ❑ Without Comments p As Noted in Red 1Z- Per The Attad legis Letter These plans have been reviewed by The Tukwila Fire Prevention Bureau tor ;- sOratance with current City standards. Acceptan( :(. L'e't to errors and omissions which do no : uta al ire vx)I tir)ns of adopted standards and ordinances. Toe respor'ISihIU t' for the adequacy's `de :( rl r I:otalw,,:Ilth ri:e designer. Additions, deletiorto these drawings after this date will void 'cris W. Vii;l• r^ nire a resubmittal of revised r ,.Vv;r Lf ;;;; s-y;equ nt approval. Final acceptance is subject to field test and Inspection by The Tukwila Fire Prevention bLr Iu• Date:_ S-11 "f � _By:� -1; TUKWILA FIRE DEPARTMENT Please call 206-575-4407 and give this Fire P ra°mit No. --and exact address for shot - down or restoration approval,. Bf NDED (EASYFLE)Q REX DROP (LENGTH PER LEGEND) ACT CEIUNG RECESSED SSP - DETAIL A/1 FILE 1)N AREA MAP NTS GENERAL NOTES Cf/(j29 syr%) 1. ALL STEEL PIPE TO BE AS FOLLOWS UNLESS NOTED OTHERWISE: STEEL PIPE ASTM A-795 OR BETTER PIPE SIZE SCHEDULE WALT' THICKNESS INTERNAL DIAMETER END PREP TYPES ALLOWED RGF WATER /PPE 010801? IN GALLONS 1 40 0.133 1.049 THREADED, CUT GROOVED, ROLL GROOVED, PLAIN ENO, POLISHED 2.05 0.044 " WALL THICKNESS PER NFPA # 13 2. ALL GROOVED COUPLINGS TO BE RIGID TYPE UNLESS NOTED (1 11) WHICH ARE FLEXIBLE. SCOPE OF WORK SMITH FIRE SYSTEMS (SFS) WILL MODIFY THE EXISTING SPRINKLER SYSTEM TO ACCOMMODATE THE NEW DUCT WORK. CLARIFICATIONS: 1. ALL AREAS PROTECTED BY A WET PIPE SYSTEM MUST BE MAINTAINED AT 40°F IN ORDER TO PREVENT FREEZING. EXCLUSIONS: 1. ANY WORK OUTSIDE THIS TENANT SPACE 2. PAINTING OR LABELING OF PIPE. 3. REPLACEMENT OF PAINTED, DAMAGED, OR CORRODED SPRINKLERS. 4. ELECTRICAL OR ALARM WORK OF ANY KIND. 5. BACKFLOW INSTALLATION, MODIFICATION, OR CERTIFICATION (IF REQUIRED) 6. EXCLUDING REPAIRS OR MODIFICATIONS TO THE EXISTING SYSTEM BEYOND THE SCOPE DESCRIBED ABOVE. DESIGN CRITERIA: PER NFPA 13 2007 AND THE CITY OF TUKWILA EXISTING CRITERIA RECEIVING/ STORAGE - .25 GPM/ OVER 4,000 SQ. FT. NEW DESIGN CRITERIA: RECEIVING/ STORAGE - .25 GPM/ OVER 4,000 SQ. FT. TENANT IMPROVEMENT: THIS PROJECT ISA TENANT IMPROVEMENT. THIS FACILITY HAS ALREADY BEEN PROTECTED BY A FIRE SPRINKLER SYSTEM. SMITH FIRE SYSTEMS IS ADDING AND/OR RELOCATING SPRINKLER HEADS TO ACCOMMODATE THE NEW TENANT WALL, CEILING, LIGHTING, AND HVAC LAYOUT. ALL WORK WILL BE DONE WITHOUT AFFECTING THE CAPABILITY OF THE EXISTING SYSTEM. THERE FORE NO NEW HYDRAULIC CALCULATIONS ARE NECESSARY. C 0 PAID MAY 10 2012 TUKWILA FIRE #Z7of pet, AREA OF WORK COSTCO TUKWIIA OPTICAL TI SITE PLAN FLEX LEGEND SPRINKLER LEGEND ABBREVIATIONS SYMBOL LEGEND MAKE TYPE LEN NIPPLE BRKT SCRW ONTY EASY FM -BRAD 72' 1/2' ACT NA 6 90'T- /2' = TALL 90° NIPPLE 525' LONG 2 SYM MANUFACTURER EXISTING • UNCHANGED S.I.N. TYPE MODEL PIPER RA1314 SSP F1-56 WHT WHT 5.6K 1/2' 155° BRACKET LEGEND: ACT = STANDARD OG59 BRACKET GWB = T -BAR, TBS ENDS, AND SBB CLAMP 413AR = T -BAR, TBS ENDS, AND SBB CLAMP TEK = (2) 1/4'x1.5' TEK SCREW WDS = (2) N10x1.5' WOOD SCREW 90°S-1/2' = SHORT 90° NIPPLE 3' LONG 90'T-1/2' = TALL 90° NIPPLE 525' LONG RELOCATED O RELIABLE RA1414 SSP F1-56 WHT WHT 5.6K 1/2' 155° 6 TOTAL NEW 6 AFF 800 BOD BEM BOP BOT Ors FO WOW OFON NAS 0NO ABOVE HASHED FLOOR 001108 OF BEAM BOTTOM OF DEO( B01700 OF JOIST BOTTOM OF Pori10 BOTTOM OF MSS CUT TO SLB MELO 01000 INSIDE FACE OF WALL OUTSIDE FACE OF WALL NO AUTO. 5PIENGER5 UNLESS NOTED OnHETAere 12 CENTERUNE OF PIPE TO REFERENCED BOD STRUCTURE IN INCHES 2 -WAY EARTHQUAKE SWAY BRACE LEI!LH INDICATES TYPE 4 -WAY EARTHQUAKE SWAY BRACE LETTER INDICATES TYPE -�- HANGER LOCATION ELEVATION ABOVE REFERENCED POINT. IN FEET AND INCHES 0 HYDRAULIC CALCULATION NODE (11 FLEXIBLE COUPUNG —{i— RIGID COUPLING NO. DATE BY REVISIONS REASON FOR REVISION BUILDING INFORMATION MAINTENANCE CONTACT : MAINTENANCE PHONE : ALARM COMPANY : ALARM PHONE: ALARM CODE : ALARM PASSWORD: FIRE DEPARTMENT : FIRE DEPT. PHONE : CONTRACT WITH N ‘.(30,6 = Ino, Gjl .9 GBrLIr SKYLINE MAINTENANCE SERVICES - 4a 3808 N. SULLIVAN RD, BLDG 5, SUITE N SPOKANE VALLEY, WA 99216 PROJECT MANAGER : CURT SPROGE PHONE : 253-880-6232 FAX : 509-389-9880 SUPERINTENDENT: PHONE: FAX : ITII 71 41k �•eIv 0/.0 N 7E01 /on SprIO` e� through DeG CERTIFICATE OF CONB'EIENCYSTA.P NTS 5F5 SMITH FIRE SYSTEMS, INC. 1108 5410 AVE EAST TACOMA, WA 98424 CONTR. REG. NO. SMITHFS1360T Bus: ( 253) 928 -1600 FAX: ( 253) 926 - 2350 COSTCO TUKWILA OPTICAL TI ci? 441 COSTCO DRIVE TUKWILA, WA (.4o▪ - I�L 0 LL9 0 0 (33 LLI cr O z 0 0 DESIGNER JEFF S. PROJECT MGR LANE L DATE 5-8-12 SHEET 1 OF 1 JOB NO. TI12064 AC E ./"•'! fl; O Without Comments o As Noted in Red '' Per The Attached Letter These plans have been reviewed by The Tukwila Fire Prevention Bureau for conformance wIth current City standards.. Acceptance is subject to errors and omissions which do not authorize violations of adopted standards and ordinances. The responsibility forthe adequacy of deSign rests totally with the designer. Additions, deletions or revisions to these drawings after this date will vold this acceptance and will require a resubmittal of revised drawings for subsequent approval. final acceptance is subject to field test and inspection by The-Tukvvila Fire Prevention Bureau. Date: S --1q - ci By: k1/•-% / • 4, r4r1 al VII WA t=1 11.0 10114N 1 MI RN OP ) *J1K11411.A FIRE DEPAx i4104.44 Please call: 575-44Q and give this job NO. q and exact address for shut' aown or rRsf.;ration approvair4 NOTICE Weld stamps must be inspected before pipe is hungQJ3Qt paint piping prior to hydrostatic test at7prow. E ;; .P 1-;'. 0 DIJCT ION EA.E, 24-0 3-01,6 _ ^ _ ROLL -UP DOOR- - NE 4.WAY 3 I ;PI EXTERIOR CHILLER AREA LA106 OPEN !I 9 -VERED ENTRY DRY SIDEWALL 1 / SPRINKLER -8% 2- 730 12 --I 0 •„,9 ;11 18 ! 1 BEAD "BLASTER • FiDSZM [2119,4 10-0CH f r CORE DRILL FLEX COUPLING EACH SIDE OF POC - EXTG 6' CAP USE 6 x 3 CONCENTRIC-- \ REDUCER FLE OM Re IN MO ROS FM NMI OM 101 OM MI I= 11111 MO INN ONO WI HANGER LEGEND EXDA SCALE 11&ll = 1-0" SION FLOOR PLAN SPRINKLER HEADS 1 QUIN (10 CH RM 4.01)0SED r (VI 4 ) NEW UNIT HEATER -3- 1.1'S a 24 0 I ( 3 • !! • !,; 8 ) -n 0 2 CP ri "-UNIT HEATER / TEMPERATURE ,e ZONE 13 - _ 64 30" DUCT 7 \ 2-10Y 6-1114 24-0 4 - LOCATE END SP INKLERS UNDER DUCTWO AS REQUIRED. (4 P CES) HYDRAULIC REMOTE. AREA .20 GPM OVER REMOTE 1800 SO. FT. REVISIONS GENERAL NOTES SYM 0 TYH, UPR I ,2, UPRLIIT IT PEN DRY SIC/ALL MFG MODEL TYCO TY -3131 TYCO TY -3131 TYCO TY -3131 ORIFICE 1/2" THREAD TEMP FINISH CANOPY 1/2° 155'QR BRASS NM 1/2" 112' 20OQRI BRASS NIA 1/2" UT 236 -ORI BRAS,S N/A TYCO TY -3231 112" I hZ 155'QR CHROME VIKING VK -252 1/2" 1/Z' 155=SRICHR-O-ME. QTY MK *1-11 27 4 / DATE JW ▪ _ NK SIDEWINDER STRUT BRACKET TOTAL 36 APPROVALS REQUIRED: AUTHORITY OWNER /ARCHITECT DESCRIPTION DISTRIBUTION' TUKWILA FIRE DEPARTMENT OWNER Jr ARCHITECT FIRE SYS 1 LMS WEST EXISTING COSTCO OPTICAL. BUILDING 6 MI MI 1111 FM MI PM NM PR MI 108.101i POC EXISTING r CAP 11111 NI RN 1119 EXISTING 6" SPRINKLER RISER , , 2 1. ALL MATERIAL AND EQUIPMENT TO BE NEV/AND UNDERWRITERS APPROVED. 2. PIPING DIMENSIONS ARE CENTER TO CENTER EXCEPT RISER & DIMENSIONS SHOWN THUSLY (11-6") WHICH ARE END TO END. 3, EARTHQUAKE BRACING SHALL BE PROVIDED IN ACCORDANCE V\ITH NFPA #13. 4. PIPE HANGERS AND METHOD OF HANGING TO BE IN ACCORDANCE WITH NFPA#1& 5, PIPING SHALL BE IN ACCORDANCE WITH NFPA #13. 6. JOINING OF PIPE AND FITTINGS, THREADED AND WELDED SHALL BE IN ACCORDANCE WITH NFPA#13. 7. OWNER TO PROVIDE ADEQUATE HEAT TO PREVENT WATER IN FIFES FROM FREEZING 1N AREAS PROTECTED BY WET PIPE SPRINKLER SYSTEM, 8. STRUCTURAL ADEQUACY OF THE BUILDING TO SUPPORT THE SPRINKLER PIPING IS THE RESPONSIBILITY OF THE OWNER OR HIS STRUCTURAL REPRESENTATIVE. N am on6110 ita Pal Eli am Ns "41 73.8, 1 1 Et; 1 1: 49 SOURCE \ CITY MAIN MINIMMUNN SITE SYMBOLS Mk _ow Imo PIPING BY FSW EXISTING PIPING PIPING B.,' OTHERS FIRE DEPARTMENT CONNECTION POST INDICATOR VALVE EXISTING FIRE HYDRANT GATE VALVE IN ROADWAY BOX NEW FIRE HYDRANT BU,ILDING KEY PLAN SCALE: itr KINK BOLT TOLCO PIG, 990 SWAY BRACE END 1" BRACE PIPE a 7'4' TOLCO FIG.1000 FAST CLAMP LATERAL SWAY BRACE CONCRETE CONNECTION TYPE -CA J 2" WOOD NAILER SIDEWINDER/ HANGER MATE 3/5" ALL THREAD ROD RING HANGER OPEN WEB JOIST (4" AND SMALLER PIPE) HANGER JW SIDEWINDER (WOOD) 112" MIK BOLT TOLCO FIG, 980 SWAY BRACE END 1' BRACE PIPE 7'-0" 4TO59DEL 1,11f!, TOLCO FIG. 980 SWAY BRACE END TOLCO FIG. 4A PIPE CLAMP CONCRETE CONNECTION TYPE -CA LONGITUDINAL SWAY BRACE CMU BLOCK WALL 112" THRU BOLT, N 12"E3ASESTRIJT ! HANGERNK BASE STRUT TO WALL DESIGN CRITERIA AND NOTES 1. ALL MAIN PIPING TO BE SCHEDULE 10 JOINED W/ GROOVED COUPLINGS AND FITTINGS(UNO), 2. ALL TREE BRANCHLINE PIPING TO BE SUPER 40 JOINED W/ CAST IRON THREADED FITTINGS. 3. ALL GROOVED COUPLINGS TO BE RIGID UNLESS NOTED VW 'F' FOR FLEXIBLE. 4. ALL HANGERS AT STEEL BAR JOISTS TO BE TOP BEAM CLAMP, CEILING FLANGE, OR SAMMY SIDEWINDER (UNO), ,-- NEW EXPANSION BUILDING PERMIT # CONTRACT NAME: COSTCO OPTICAL 441 COSTCO DRIVE TUKWILA WA 93027 CIP,ITRAC.-,'T WITH. FERGUSON CONSTRUCTION 7433 FIFTH AVENUE SOUTH SEATTLE WA 93108 PM GREG WILLIAMS FILE BEAD BLASTER ROOM FA104-1 loco- CH SOUTH MECH RM A105 EXPOSED BUILDING SECTION SCALE: NONE 1G.3' AFF BUTTERFLY EXTG, r BACKFLOW46 PREVENTOR Tr , eap,4 9 \ OsouRcE RISER DETAIL SCALE: NONE SCOPE OF WORK FIRE SYSTEMS WEST (FSW) WILL EXTEND THE EXISTING 6" WET SYSTEM TO PROTECT THE NEW BUILDING EXPANSION. FSW WILL START WORK AT A 6' CAP INSIDE THE BUILDING. CLARIFICATIONS -ALL AREAS PROTECTED BY A WET SYSTEM MUST BE MAINTAINED BY OTHERS AT A MINIMUM 40F TO PREVENT FREEZING. EXCLUSIONS -PAINTING OR IASELING OF PIPE ANO/OR EQUIPMENT -ELECTRICAL WRING OF ANY KIND INCLUDING BUT NOT LIMITED TO WATERFLOW SWITCH, ELECTRIC BELL, AND TAMPER SWITCHES -CENTRAL STATION MONITORING EQUIPMENT, WIRING AND SERVICES -ALL UNDERGROUND WORK INCLUDING BUT NOT LIMITED TO: BACKFILL, SELECT FILL, BREAKING PATCHING, SAW CUTTING, LAVVN REPAIR, LANDSCAPING, TREE REMOVAL, STERILIZATION, DEVELOPMENT FEES AND CITY CONNECTION, DESIGN CRITERIA PER NFPA 13(2007) AND THE CITY OF TUKWILA FIRE DEPARTMENT -EXPANSION (MECHANICAL ROOMS) ORDINARY HAZARD GROUP II DESIGN DENSITY .20 GPM/ 1500 S.F. SYSTEM DEMAND AT BASE OF RISER FOR NEW EXPANSION IS 782.4 GPM ( 104.9 PSI INCLUDING 250 GPM HOSE ALLOWANCE Tul/del:Jr° S7 EXPANSION PLAN e Systems West 219 Frontage Road North, Suite B Pacific, WA. 98047 (253) 833-1248 Fax: (253) 735-0113 WA CL# FIRESWI 140B1 0.0. FAB By: .C. INSTALL BY: DES 10 N ER DATE JOB NUMBER SHEET Phone: 206 767 3810 Fax: 206167.7342 JAMES MARK 05/14/09 2-11-102:34 of 2 HANGER LEGEND ;! I 0-1 0-1 - - 0-1 1 I 1 1 1 1 1 1 NIA NA -13f: R'S „ F •11,4,11,,Ce 17,i” 1" MCH Li IN E: ) `411::)PolEN'S R 11'6 FR. 0-1 0- _J VER I EW SE R',11 _: c.ci P T !" • ! TyvnikarroAcrur , • , E) 4•141: fA/..JP,(T,EFi - I el I 1 1 44 1 111111 In IN ' ma ma am ma sir 24j,o 19 9.9 101 • 30 40 01 01 [ °PI • ••••••• HYDRALIP_IC REMOTE AREA .20 GPM VER REMOTE34:7001S . FT. 01 4)-1 01 01 of- * -1 01 •1 01 01 0- 1 1 01 1 1 1 1 1 1 11 1 11 1 1a 11 01 01 RE I „ TOR kr-SO EN NE Ell ;II 7:451E) EIM fkm BE EVE Ell GM ME NI NM El WE ;ft 6 cm cm ma mi cm cm cm ma 73.8t2 cm mn cm cm ha ma mum cm ci et— 0— 0-- 0- 0- 01 4,1 01 01 E), E IVING3 0- 0- oJ ( 49 ) SOURCE SPRINKLER HEADS SYM TYPE MFG MODEL „ 41 PENDENT TYCO TY -3531 SAMMY X -P RESS TOP BEAM CLAMP At.e.a.211,1=1.101,.....11.11191491.111.1.1•1401,11.11' 1 R ORIFICE THREAD TEMP K=5.6 1/2' 155'0,R FINISH IAMITE CANOPY QTY -ttagib-- ONCEALER 41 PENDENT TYCO TY -3251 1<,-5.6 1/2* : 155'SR CHROME REC CHR A-2 • _ PENDENT EXISTINIG EXISfiNG K=5.5 : 155'SR I CHROME REC CHR R-37 .99,99,10,9,1111•111,11111, TOTAL BO MK DATE BY REVISIONS DESCRIPTION APPROVALS REQUIRED: DISTRIBUTION!: AUTHORITY TUKWILA FIRE DEPARTMENT 2 OWNER /ARCHITECT OWNER I ARCHITECT FIRE SYS I EMS WEST 2 GENERAL NOTES 1. ALL MATERIAL AND EQUIPMENT TO BE NEW AND UNDERWRITERS APPROVED_ 2. PIPING DIMENSIONS ARE CENTER TO CENTER EXCEPT RISER 8. DMENSIONS SHOWN THUSLY (1'-6") WHICH ARE END TO END. 3.EARTHQUAKE BRACING SHALL BE PROVIDE U ACCORDANCE WIT -1 NEPA #1.3 4. PIPE HANGERS AND METHOD OF HANGING TO BE IN ACCORDANCE WITH NEPA #13. 5,PIPINC3 SHALL BE IN ACCORDANCE WITH NEPA #13 B. JOINING OF PIPE AND FITTINGS, THREADED AND WELDED SHALL BE IN ACCORDANCE WITH NEPA #13. 7. OWNER TO PROVIDE ADEQUATE HEAT TO PREVENT WATER IN PIPES FROM FREEZING /14 AREAS PROTECTED BY WET PIPE SPRINKLER SYSTEM: 8. STRUCTURAL ADEQUACY OF THE BUILDING TO SUPPORT THE SPRINKLER PIPING IS THE RESPONSIBILITY OF THE OWNER OR HIS STRUCTURAL REPRESENTATIVE, DESIGN CRITERIA AND NOTES %dr Nior •61.17 -. waWWI %U% FIRE SYSTEMS WEST (FSW) WILL EXTEND THE EXISTING 6WET SYSTEM TO PROTECT THE NEW CLEAN ROOM. FSW WILL RELOCATE EXISTING SPRINKLERS IS AREAS OF REMODEL FOR NEW WALL AND CEILING CONFIGURATION. CLARIFICATIONS -ALL AREAS PROTECTED BY A WET SYS EM MUST BE MAINTAINED BY OTHERS AT A MINIMUM 40=F TO PREVENT FREEZING. EXCLUSIONS -PAINTING OR LABELING OF PIPE ANE/OR EQUIPMENT -ELECTRICAL WIRING OF ANY KIND INCLUDING BUT NOT LIMITED TO WATERFLOW SWITCH, ELECTRIC BELL, AND TAMPER SWITCHES -CENTRAL STATION MONITORING EQUIPMENT, WIRING AND SERVICES -ALL UNDERGROUND VVORK INCLUDING BUT NOT LIMITED TO: BACKFILL, SELECT FILL, BREAKING PATCHING, SAW CUTTING, LAWN REPAIR, LANDSCAPING, TREE REMOVAL, STERILIZATION, DEVELOPMENT FEES AND CITY CONNECTION. DESIGN CRITERIA PER NFPA 13(2007) AND THE CITY OF TUKWILA FIRE DEPARTMENT --REMODEL (CLEAN ROOM) ORDINARY HAZARD GROUP II DESIGN DENSITY .20 GPM / 3000 S.F. SYSTEM DEMAND AT BASE OF RISER FOR CLEAN ROOM ADDITION IS 1421.3 GPM 250 GPM HOSE ALLOWANCE 89.7 PSI INCLUDING TOLCO FIG. 625 BAR JOIST ATTACHMENT LOCATE 6" FROM PANEL PON T OUTER THIRD OF TRUSS TCLCO FIG.064 SWAY BRACE END 1" BRACE PIPE@ T-0" / 45 TO 59 DEG. TOLCO FIG, 1000 FAST CLAW' LATERAL SWAY BRACE STEEL CONNECTION TYPE -SB 1/2" 1/2" BOLT, NUT AND WASHER TOLCO FIG. 980 SWAY BRACE END 1" BRACE PIPi 7 17. TOLCO FIG. 90 \ SWAY BRACE END 0 TOLCO FIG. 4A PIPE CLAMP LONGITUDINAL SWAY BRACE STEEL CONNECTION TYPE -SA REMODEL FLOOR PLAN 1. ALL MAIN AND GRIODED BRANCHLINE PIPING TO BE SCHEDULE 10 JOINED WIGROOVED COUPLINGS AND FITTINGS(UNO), 2. ALL TREE BRANCHLINE PIPING TO BE SUPER 40 JOINED VW CAST IRON THREADED FITTINGS, 3, ALL GROOVED COUPLINGS TO BE RIGID UNLESS NOTED Vill 'F' FOR FLEXIBLE, 4, ALL HANGERS AT STEEL BAR JOISTS AND WIDE FLANGE BEAMS TO BE TOP BEAM CLAMP, CEILING FLANGE, OR SAMMY SIDEWINDER (u No). s. ALL PENDENT HEADS NOT NECCESARILY IN CENTER LINE OF CEILING TILES NO CLOSER THAN 4" TO GRID, BUILDING PERMIT # RETAINER STRAP N UT STEEL STRUCTURE BEAM CLAMP A.T.R. SIZE PER N.F.PA RING HANGER HANGER D TOP BEAM CLAMP STEEL DECKING 09 SAMMY X•PRESS XP.20 *.\-- ALL THREAD ROD SIZE PER NFPA 1" AMOVERS HANGER C STEEL, BAR _PRATING DECK INSERT TENANT IMPROVEMENT THIS PROJECT ISA TENANT IMPROVEMENT, THIS FACILITY HAS ALREADY BEEN PROTECTED BY A FIRE SPRINKLER SYSTEM. FIRE SYSTEMS WEST IS ADDING AND/OR RELOCATING SPRINKLER HEADS TO ACCOMMODATE THE NEW TENANT WALL, CEILING. LIGHTING AND HVAC LAYOUT. ALL WORK VVILL BE DONE WITHOUT AFFECTING THE CAPABILITY OF THE EXISTING SYSTEM, SYMBOL LEGEND R - DENOTES A SPRINKLER HEAD TO BE RELOCATED A - DENOTES A SPRINKLER HEAD TO BE ADDED. - REPRESENTS EXISTING SPRINKLER PIPE. - REPRESENTS NEW SPRINKLER PIPE REMODEL PLAN Fire Systems West :ONTRACT NAME: COSTCO OPTICAL 441 COSTCO DRIVE TUKWILA WA 98027 ONTRACT vvirH FERGUSON CONSTRUCTION 7433 FIFTH AVENUE SOUTH SEATTLE WA 98108 PM GREG WILLIAMS Phone: 206.767.3810 Fax: 206.767.7342 219 Frontage Road North, Suite B Pacific, WA. 98047 (253) 833-1248 Fax: (253) 735-0113 WA CL# FIRESWI 140B1 Q.. 0. FAB BY: Q.C. INSTALL BY: DESIG N ER DATE JOB NUMBER SHEET JAM ES R UAR K 06/14/09 2-11-10234 2 or 2 Lu 24-0 9-11/2 (E) aod occupancy sl or a. Vittished iristallatuqn'UlliOypspew... Partial protection ' adequate ,u, .. ceplance limitedl equipment ',01:Firi-ras, knu.. e and linal acceptince. 4,11 comments a d acceptances relate exclusivIV to relative ellect ktions upon tire insurance tates.1hev are not to ii bearkng in nv wav upon ttie question GI whether ,- been exercised with resp t to posstle liability to property. It. is recoe d that oi vatioos co bc construed a "due care" h tor personal Owl OY darnag hazards whicli may result in loss 50 exis, II: MS kV MI mama mu as ma pa 108.51:4 • HANGER LEGEND IMS SES SMI (E) ROLL -UP DOOR— - NE 4 -WAY EXTERIOR - CHILLER- • • -- -- • AREA [A166-1 OPEN --DRY SIDEWALL SPRINKLER r CORE DRILL FLEX COUPLING EACH SIDE OF WALL- —NEW UNIT HEATER POC - EXTG 6- CAP USE 6 x 3 CONCENTRIC—‘, REDUCER 1021 IM MI ISS ISM SIS Pri Sall MO 14121- Rai 140— SM—SISI Val MSI -MS EXPANSION FLOOR PLAN SCALE ,./8' 1-0" SYM f TYPE a UPRIGHT UPRIGHT UPRIGHT SPRINKLER HEADS MFG MODEL ORIFICE TYCO TY -3131 1/2" TYCO TY -3131 1/2" TYCO TY -3131 1/2" PENDENT DRY SIDEWALL TYCO TY -3231 VIKING VK -252 JN NK SIDEWINDER STRUT EACKET THREAD TEMP f FINISH 112' 1550R1 BRASS 1/2" .200OR BRASS 286"QR BRASS 1/2" .1.55'QR1 CHROME 112" 1/2* 155SR CHROME CANOPY NiA OS E D e 20 .> —UNIT HEATER TEMPERATURE ZONE ---LOCATE END SP UNDER DUCTWO REQUIRED. (4 PL 6-11/4 3-01/2 24-0 QTY MK 27 N/A 4 N/A DATE REVISIONS DESCRIPTION 2 PC CHR 2 PC CHR 2 TOTAL 36 APPROVALS REQUIRED: AUTHORI OWNER / ARCHITECT DISTRIBUTION: TUKWILA FIRE DEPARTMENT OWNER/ARCHITECT . 2 --------- FIRE SYSTEMS WEST INKLERS AS CES) HYDRAULIC REMOTE AREA - .20 GPM OVER REMOTE 1500 SO. FT. GENERAL NOTES EXISTING COSTCO OPTICAL BUILDING r. :'7:1111 MS POC- EXISTING 0* CAP 0.7 6 89i IM PRI NM MI UM MI 1O8 -101i 20 EXISTING 6' r+ SPRINKLER RISER :frt.,' MIN 1M MI Mei 73.81 1. ALL MATERIAL AND EQUIPMENT TO BE NEW AND UNDERWRITERS APPROVED. 2. PIPING DIMENSIONS ARE CENTER TO CENTER EXCEPT RISER &DIMENSIONS SHOWN THUSLY (1`-6") WHICH ARE END TO END. 3:EARTHQUAKE BRACING SHALL BE PROVIDED IN ACCORDANCE WITH NFPA #13 4. PIPE HANGERS AND METHOD OF HANGING TO BE IN ACCORDANCE WITH NFPA #13. 5PIPING SHALL BE IN ACCORDANCE WITH NFPA 01, 6. JOINING OF PIPE AND FITTINGS, THREADED AND WELDED SHALL BE IN ACCORDANCE WITH NFPA la 7. OWNER TO PROVIDE ADEQUATE HEAT TO PREVENT WATER IN PIPES FROM FREEZING IN AREAS PROTECTED BY WET PIPE SPRINKLER SYTEM. 8. STRUCTURAL ADEQUACY OF THE BUILDING TO SUPPORT THE SPRINKLER PIPING IS THE RESPONSIBILITY OF THE OWNER OR HIS STRUCTURAL REPRESENTATIVE, prv 4 me le% \—FDC 49) SOURCE 10" CITY MAIN SITE SYMBOLS mow- PIPING BY FSW •MNIN OPP. IPPR. TnInr. 4.0 EXISTING PIPING PIPING BY OTHERS FIRE DEPARTMENT CONNECTION POST INDICATOR VALVE EXISTING FIRE HYDRANT GATE VALVE IN ROADWAY BOX NEW FIRE HYDRANT BUILDING KEY PLAN SCALE: 02" KWIK BOLT TOLCO FIG.960 SWAY BRACE END 1" BRACE PIPE @ T-0" . / 48T0 5 DEG. 7 TOLCO FG. 1000 FAST CLAMP LATERAL SWAY BRACE CONCRETE CONNECTION TYPE—CA 112" KWIK BOLT TOLCO FIG, 90 SWAY BRACE END 1BRACE PIPE@ T-0" /."/ • 45T059DEG TOLCO FIG. 9e0 -----,,, SWAY BRACE END TOLCO FIG. 4A PIPE CLAMP LONGITUDINAL SWAY BRACE CONCRETE CONNECTION TYPE -CA 2.`' WOOD NAILER SIDEWINDER/ HANGER MATE ALL THREAD ROD RING HANGER OPEN WEB JOIST (4" AND SMALLER PIPE) HANGER ,JW SIDEWINDER (WOOD) CMU BLOCK WALL 1 2' THRU BOLT, NUT At HER 12BACE ST HANGER Nis BASE STRUT TO WALL DESIGN CRITERIA AND NOTES 1, ALL MAIN PIPING TO BE SCHEDULE 10 JOINED W/ GROOVED COUPLINGS AND FITTINGS(UNO). 2. ALL TREE BRANCHLINE PIPING TO BE SUPER 40 JOINED W/CAST IRON THREADED FITTINGS, 3. ALL GROOVED COUPLINGS TO BE RIGID UNLESS NOTED Wit 'F' FOR FLEXIBLE 4. ALL HANGERS AT STEEL BAR JOISTS TO BE TOP BEAM CLAMP, CEILING FLANGE, OR SAMMY SIDEWINDER (UNO). NEYVEXPANSION BUILDING PERMIT # BEAD BLASTER ROOM FA1041 1V-0" CH SOUTH mECH RIA A'EtirK1 EXPOSED BUILDING SECTION SCALE: NONE 45 )-- T0lit i 4" sAFF V' BUTTERFLY ExTG. r DACKLO: VALVE PREVINTOR -7:7-11' 11OR FF. RISER DETAIL SCALE: NONE SCOPE OF WORK FIRE SYSTEMS WEST (FSIA) WILL EXTEND THE EXISTING 6" WET SYSTEM TO PROTECT THE NEW BUILDING EXPANSION. FSW WILL START WORK AT A6" CAP INSIDE THE BUILDING. CLARIFICATIONS ALL AREAS PROTECTED BY A WET SYSTEM MUST BE MAINTAINED BY OTHERS AT A MINIMUM 40°F TO PREVENT F REF7I NG. EXCLUSIONS -PAINTING OR LABELING OF PIPE ANDIOR EQUIPMENT -ELECTRCAL WRING OF ANY KIND INCLUDING BUT NOT LIMITED TO WATERFLOW SWITCH, ELECTRIC BELL, ANP TAMPER SWITCHES -CENTRAL STATION MONITORING EQUIPMENT, VVIRING AND SERVICES ALL UNDERGROUND WORK INCLUDING BUT NOT LIMITED TO: BACKFILL, SELECT FILL, BREAKING PATCHING, SAW CUTTING, LAWN REPAIR, LANDSCAPING, TREE REMOVAL, STERILIZATION, DEVELOPMENT FEES AND CITY CONNECTION, DESIGN CRITERIA PER NFPA13(2007)AND THE CITY OF TUKvVILA FIRE DEPARTMENT —EXPANSION (MECHANICAL ROOMS) ORDINARY HAZARD GROUP II DESIGN DENSITY: .20 GPM! 1500 S.F. SYSTEM DEMAND AT BASE OF RISER FOR NEVV EXPANSION 13732.4 GPM (g) 104.9 P81 [NCLUDING 250 GPM HOSE ALLOWANCE CONTRACT NAME: COSTCO OPTICAL 441 COSTCO DRIVE TUKWILA WA 98027 EXPANSION PLAN CCI.NTRACT WITH; FERGUSON CONSTRUCTION 7433 FIFTH AVENUE SOUTH SEATTLE WA 98108 PM GREG WILLIAMS Phone: 206.767.3810 Fax: 206.767.7342 The Systems West 219 Frontage Road North, Suite B Pacific, WA. 98047 (253) 833-1248 Fax: (253) 735-0113 WA C1.4 FIRESWI 1140B1 Q.C. FAB BY: Q.C. INSTALL BY: DESIGNER DATE JOB NUMBER SHEET JAMES RUARK 05/15/09 2-11-10234, of 2 w 11L.rLL -1444,4444 444444444 I. „ 01 •-I *-1 ,-- , • ,, (7- -- P 1`. F I 01 0-1 0-1 JfN E) ANTOR 0-1 eri 7..;,4,r44.151,1141,42 x " .14 44 1 47 4 M S R. R (E) VEN'S .14 414 INCLU SERVK 441 441 (E) SUPPLY 01 01 1 -__ 9, Clet 24. 0 4,4 iss mon on ma 4,4 rc 7 01< I 1 1 1 1 1 1 1 1 1 1 1 •-1 01 wi r051,01:10 -0,..t0,00 01..,00,140,31,...1,001111t.r, T.0.5.00,61Z A 7 J,44 01 .44 r RAU,. IC REMOTE AREA 0 GPM pVER REMOTE 30eelso. FT. s.„ oi 01 01 0- t 0- 44 01 01 (E) R SERS FIRE SPRINKLER , \ -BO 0- K, 48 r, 8 , 7 ) .441 i -;:m RE al Es gal TOR 1 I \ 45 ,) toR ( 49 SOURCE •1 .44 0- 44 44. 0- 01 6 mg gm mg ME El EN EN EN EN 73.8'i 0- 8111 IMI Me OM 0- 1 1 1 1 11 11 1 11 1 1 11 1 1 1 1 11 1 m am J 401 01 01 it1E), ECEIVING -14 01 ( 6 ,44 GENERAL NOTES 5) 4 DESIGN CRITERIA AND NOTES %of NW. Iprar Na.p. W W Ted ‘14. FIRE SYSTEMS WEST (FSW) WILL EXTEND THE EXISTING 6' WET SYSTEM TO PROTECT THE NEW CLEAN ROOM, FSW WILL RELOCATE EXISTING SPRINKLERS IS AREAS OF REMODEL FOR NEW WALL AND CEILING CONFIGURATION. CLARIFICATIONS -ALL AREAS PROTECTED BY A WET SYSTEM MUST BE MAINTAINED BY OTHERS AT A MINIMUM 40'F TO PREVENT FREF_ZI NG. EXCLUSIONS -PAINTING OR LABELING OF PIPE AND/OR EQUIPMENT -ELECTRICAL WIRING OF ANY KIND INCLUDING BUT NOT LIMITED TO WATERFLOW SWITCH, ELECTRIC BELL, AND TAMPER SWITCHES -CENTRAL STATION MONITORING EQUIPMENT, WIRING AND SERVICES -ALL UNDERGROUND WORK INCLUDING BUT NOT LIMITED TO: BACKFILL, SELECT FILL, BREAKING PATCHING, SAW CUTTING, LAWN REPAIR, LANDSCAPING, TREE REMOVAL STERILIZATION, DEVELOPMENT FEES AND CITY CONNECTION, DESIGN CRITERIA PER NFPA. 13(2007) AND THE CITY OF TUKWILA FIRE DEPARTMENT --REMODEL (CLEAN ROOM) ORDINARY HAZARD GROUP II DESIGN DENSITY .20 GPM / 3000 S.F. SYSTEM DEMAND AT BASE OF RISER FOR CLEAN ROOM ADDITION IS 1421.3 GPM @ 89.7 PSI INCLUDING 250 GPM HOSE ALLOWANCE TOLCO FIG. 925 BAR JOIST ATTACHMENT LOCATE 6" FROM PANEL POINT OUTER THIRD OF TRUSS TOLCO FIG. NO SWAY BRACE END -. / . r BRACE PPE@ T-0" 45 TO 59 DEG. TOLCO FK, 1000 FAST CLAMP LATERAL SWAY BRACE STEEL CONNECTION TYPE -SB 1.12" x 1 112- BOLT, NUT AND WASHER TOLCO FIG. 980 SWAY BRACE END .„ SWAY BRACE END TOLCO FIG. 4A PIPE C !871rfBA4ST i8\0 -a\ 41 , -SA REMODEL FLOOR PLAN 1. ALL MATERIAL AND EQUIPMENT TO BE NEW AND UNDERWRITERS APPROVED. 2. PIPING DIMENSIONS ARE CENTER TO CENTER EXCEPT RISER & DIMENSIONS SHOWN THUSLY (1'-6") WHICH ARE END TO END. 3,EARTHQUAKE BRACING SHALL BE PROVIDED IN ACCORDANCE WITH NFPA #13, 4. PIPE HANGERS AND METHOD OF HANGING TO BE IN ACCORDANCE WITH NFPA #13. 5.PIPING SHALL BE IN ACCORDANCE WITH NFPA #13, 6. JOINING OF PIPE AND FITTINGS, THREADED AND WELDED SHALL BE IN ACCORDANCE WITH NFPA *13. 7. OWNER TO PROVIDE ADEQUATE HEAT TO PREVENT WATER IN P?ES FROM FREEZING IN AREAS PROTECTED BY WET PIPE SPRINKLER SYSTEM. 8. STRUCTURAL ADEQUACY OF THE BUILDING TO SUPPORT THE SPRINKLER PIPING IS THE RESPONSIBILITY OF THE OWNER OR HIS STRUCTURAL REPRESENTATIVE. 1. ALL MAIN AND GRIDDED BRANCHLINE PIPING TO BE SCHEDULE 10 JOINED W/ GROOVED COUPLINGS AND FITTINGS(UNO), 2. ALL TREE BRANCHLINE PIPING TO BE SUPER 40 JOINED W/ CAST IRON THREADED FITTINGS. 3. ALL GROOVED COUPLINGS TO BE RIGID UNLESS NOTED WPF' FOR FLEXIBLE 4. ALL HANGERS AT STEEL BAR JOISTS AND WIDE FLANGE BEAMS TO BE TOP BEAM CLAMP, CEILING FLANGE, OR SAMMY SIDEWINDER (UNO), 5, ALL PENDENT HEADS NOT NECCESARILY IN CENTER LINE OF CEILING TILES - NO CLOSER THAN 4" TO GRID, BUILDING PERMIT # CONTRACT NAME COSTCO OPTICAL 441 COSTCO DRIVE TUKWILA WA 98027 CONTRACT WITH: FERGUSON CONSTRUCTION 7433 FIFTH AVENUE SOUTH SEATTLE WA 98108 PM GREG WILLIAMS Phone: 206.767.3810 Fax: 206.767.7342 RETAINER STRAP STEEL STRUCTURE AT,R. SIZE PER N.P.PA HANGER D TOP BEAM CLAMP STEEL DECKING .6 RING HANGER SAMMY X•PRESS MODEL XP•20 ALL THREAD ROD SIZE PER NFPA -1* ARM•OVERS HANGER c STEEL BAR GRATING DECK INSERT TENANTIMPROVEMENT__ THIS PROJECT IS A TENANT IMPROVEMENT. THIS FACILITY HAS ALREADY BEEN PROTECTED BY A FIRE SPRINKLER SYSTEM, FIRE SYSTEMS WEST IS ADDING ,','•NOR RELOCATING SPRINKLER HEADS TO ACCOMMODATE THE NEW TENANT WALL, CEILING. LIGHTING AND I-NIAC LAYOUT ALL WORK WILL BE DONE WITHOUT AFFECTING THE CAPAP,LITY OF THE EXISTING SYSTEM, symam LEGEND R. - DENOTES A SPRINKLER HEAD TO BE RELOCATED. A - DENOTES A SPRINKLER HEAD TO MADDED. - REPRESENTS EXISTING SPRINKLER PIPE. - REPRESENTS NEW SPRINKLER PIPE c. MODEL PLAN Systems West 219 Frontage Road North, Suite B Pacific, WA. 98047 (253) 833-1248 Fax: (253) 735-0113 WA CL* FIRESWI 140E1 FAB BY: DESIGNER DATE JAMES PUNK. 0515/05 • 211-1024 2 of 2 HANGER LEGEND i MODEL TY -3531 SPRINKLER ORIFICE K=5.6 HEADS THREAD 1/2" TEMP FINISH -1LAITITtr 155"QR WHITE CANOPY CONCEAL E QTY - '---- 41 - MK , di DATE ............ BY ' REVISIONS . DESCRIPTION ------ . SYM ® TY P E PENDENT MFG TYCO - C D SAMMY X -PRESS TOP BEAM a.Amp ' , v:, p, eR PENDENT PENDENT TYCO EXISTING TY -3251 EXIS I ING KA -5.6 K--,5.6 ' 117* VT '155'SR CHROME ; 155PSR CHROME REC CHR ____ REC CHR A-2 R-37 , 44 .........4 -mJ 4 44444-44- 4,444 ...44444 A A i \ _., APPROVALS REQUIRED: AUTHORITY DISTRIBUTION: TUKWILA FIRE DEPARTMENT TOTAL 80 OWNER / ARCHITECT OWNER /ARCHITECT FIRE SYSTEMS WEST 2 ( 6 ,44 GENERAL NOTES 5) 4 DESIGN CRITERIA AND NOTES %of NW. Iprar Na.p. W W Ted ‘14. FIRE SYSTEMS WEST (FSW) WILL EXTEND THE EXISTING 6' WET SYSTEM TO PROTECT THE NEW CLEAN ROOM, FSW WILL RELOCATE EXISTING SPRINKLERS IS AREAS OF REMODEL FOR NEW WALL AND CEILING CONFIGURATION. CLARIFICATIONS -ALL AREAS PROTECTED BY A WET SYSTEM MUST BE MAINTAINED BY OTHERS AT A MINIMUM 40'F TO PREVENT FREF_ZI NG. EXCLUSIONS -PAINTING OR LABELING OF PIPE AND/OR EQUIPMENT -ELECTRICAL WIRING OF ANY KIND INCLUDING BUT NOT LIMITED TO WATERFLOW SWITCH, ELECTRIC BELL, AND TAMPER SWITCHES -CENTRAL STATION MONITORING EQUIPMENT, WIRING AND SERVICES -ALL UNDERGROUND WORK INCLUDING BUT NOT LIMITED TO: BACKFILL, SELECT FILL, BREAKING PATCHING, SAW CUTTING, LAWN REPAIR, LANDSCAPING, TREE REMOVAL STERILIZATION, DEVELOPMENT FEES AND CITY CONNECTION, DESIGN CRITERIA PER NFPA. 13(2007) AND THE CITY OF TUKWILA FIRE DEPARTMENT --REMODEL (CLEAN ROOM) ORDINARY HAZARD GROUP II DESIGN DENSITY .20 GPM / 3000 S.F. SYSTEM DEMAND AT BASE OF RISER FOR CLEAN ROOM ADDITION IS 1421.3 GPM @ 89.7 PSI INCLUDING 250 GPM HOSE ALLOWANCE TOLCO FIG. 925 BAR JOIST ATTACHMENT LOCATE 6" FROM PANEL POINT OUTER THIRD OF TRUSS TOLCO FIG. NO SWAY BRACE END -. / . r BRACE PPE@ T-0" 45 TO 59 DEG. TOLCO FK, 1000 FAST CLAMP LATERAL SWAY BRACE STEEL CONNECTION TYPE -SB 1.12" x 1 112- BOLT, NUT AND WASHER TOLCO FIG. 980 SWAY BRACE END .„ SWAY BRACE END TOLCO FIG. 4A PIPE C !871rfBA4ST i8\0 -a\ 41 , -SA REMODEL FLOOR PLAN 1. ALL MATERIAL AND EQUIPMENT TO BE NEW AND UNDERWRITERS APPROVED. 2. PIPING DIMENSIONS ARE CENTER TO CENTER EXCEPT RISER & DIMENSIONS SHOWN THUSLY (1'-6") WHICH ARE END TO END. 3,EARTHQUAKE BRACING SHALL BE PROVIDED IN ACCORDANCE WITH NFPA #13, 4. PIPE HANGERS AND METHOD OF HANGING TO BE IN ACCORDANCE WITH NFPA #13. 5.PIPING SHALL BE IN ACCORDANCE WITH NFPA #13, 6. JOINING OF PIPE AND FITTINGS, THREADED AND WELDED SHALL BE IN ACCORDANCE WITH NFPA *13. 7. OWNER TO PROVIDE ADEQUATE HEAT TO PREVENT WATER IN P?ES FROM FREEZING IN AREAS PROTECTED BY WET PIPE SPRINKLER SYSTEM. 8. STRUCTURAL ADEQUACY OF THE BUILDING TO SUPPORT THE SPRINKLER PIPING IS THE RESPONSIBILITY OF THE OWNER OR HIS STRUCTURAL REPRESENTATIVE. 1. ALL MAIN AND GRIDDED BRANCHLINE PIPING TO BE SCHEDULE 10 JOINED W/ GROOVED COUPLINGS AND FITTINGS(UNO), 2. ALL TREE BRANCHLINE PIPING TO BE SUPER 40 JOINED W/ CAST IRON THREADED FITTINGS. 3. ALL GROOVED COUPLINGS TO BE RIGID UNLESS NOTED WPF' FOR FLEXIBLE 4. ALL HANGERS AT STEEL BAR JOISTS AND WIDE FLANGE BEAMS TO BE TOP BEAM CLAMP, CEILING FLANGE, OR SAMMY SIDEWINDER (UNO), 5, ALL PENDENT HEADS NOT NECCESARILY IN CENTER LINE OF CEILING TILES - NO CLOSER THAN 4" TO GRID, BUILDING PERMIT # CONTRACT NAME COSTCO OPTICAL 441 COSTCO DRIVE TUKWILA WA 98027 CONTRACT WITH: FERGUSON CONSTRUCTION 7433 FIFTH AVENUE SOUTH SEATTLE WA 98108 PM GREG WILLIAMS Phone: 206.767.3810 Fax: 206.767.7342 RETAINER STRAP STEEL STRUCTURE AT,R. SIZE PER N.P.PA HANGER D TOP BEAM CLAMP STEEL DECKING .6 RING HANGER SAMMY X•PRESS MODEL XP•20 ALL THREAD ROD SIZE PER NFPA -1* ARM•OVERS HANGER c STEEL BAR GRATING DECK INSERT TENANTIMPROVEMENT__ THIS PROJECT IS A TENANT IMPROVEMENT. THIS FACILITY HAS ALREADY BEEN PROTECTED BY A FIRE SPRINKLER SYSTEM, FIRE SYSTEMS WEST IS ADDING ,','•NOR RELOCATING SPRINKLER HEADS TO ACCOMMODATE THE NEW TENANT WALL, CEILING. LIGHTING AND I-NIAC LAYOUT ALL WORK WILL BE DONE WITHOUT AFFECTING THE CAPAP,LITY OF THE EXISTING SYSTEM, symam LEGEND R. - DENOTES A SPRINKLER HEAD TO BE RELOCATED. A - DENOTES A SPRINKLER HEAD TO MADDED. - REPRESENTS EXISTING SPRINKLER PIPE. - REPRESENTS NEW SPRINKLER PIPE c. MODEL PLAN Systems West 219 Frontage Road North, Suite B Pacific, WA. 98047 (253) 833-1248 Fax: (253) 735-0113 WA CL* FIRESWI 140E1 FAB BY: DESIGNER DATE JAMES PUNK. 0515/05 • 211-1024 2 of 2 LIJ 0 1:0 0-) 0 I ! 't„`„.7.1! f A F •C I 1 I r - T.: I I 1 , ..,....i . I :7 FT Hi 11- 41 1--- _ • - t. ---LI1 1-X Ig 11--- 1 , i • ' , I • • ' U 1 1 I .? .,..•,..:,.,...,., • 1 , 1 il. . cl LI_ 1 1 I. 1' ,,,1 L„,1 , , 4 ',..-.. 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N1 r1 (9 ,. . ,., .., i .,,. 1 , 1 i ,r,I IN -,•,,• ,,,, I , , 1 , I t., t i i 1 ,1 --1 .,. . ,,-- ,,.... a ., 7.--..-..----_--_--7::::. - 7.7==-- -1, 4:.4.--'-.. . ...,... -A-. S. TIT, , :, ..,:„ 1 1 A .1 , I i ",-: . I 1 1 1 -1-'• I ES11-11BUILE1, i • I i I 1 1, • •----3.,....1,---E-- ^'''"..".fi . 111- I 11 1 1 0 . Without Comments 2;1 As Noted in Red 0 Per The Attached Letter These plans have been reviewed by The Tukwila Fire Prevention Bureau for conformance with current City standards. Acceptance is subject to errors and omissions which do not authorize violations, of adopted -standards and ordinances. The responsibility ['far the............ adequacy of design rests totally with the designer. Additions, deletions or revisions to these drawings after ; this date will void this acceptance and will requireo resubmittal of revised drawings for subsequent ac5proval.• Final acceptance Is subject to field test and In by', The Tukwila Fire Prevention Bureau. Date: ? -6e1 By: AAA -51 1 1.011cWILA FIRE DEPARIMeN4 Please call: 575-4407 and give this Job Mo._ rid exact address for stoat:. or rostoration .aoorotiot ‘vv -60 VcaVC 41) jjLCt 1,41-0-4 i+Orts-: /1..44* . YVATIT ic 1 1 HANG ER LEG END fj SPRINKLER HEADS • • , • .. . .„ . . . ... i ,'...s.W.A : TWIE IV/Fr.3 • MODEL ORIFICE] THREAD I TEM F f FINISH CANOF1Y QTY ... . . . . 1> i PENDENT TYCO T-3231 K.I,S.6 1 1112, 2001Q,R BRASS i I •-•, : DRY PEND. VIKING • K-176 K.6 12' •286QR I CHROME BAOGIE 2 ...,I: 0 - Pt- TI TOP BEAM CLAMP GAGGLE 6 0-1 (E) FIRE STINK RiSER 1 41 0- 71 46 En BM 211LI7I11111 111 TOR 1 49 )-S URGE REVISIONS M7K DATE {BY DESCRIPTION 4)1 741 rm *1 BM EU IBB BM BB as- 1 1 1 1 1 1 14 HU DK Si 16 0- 0- +1.1 _L 11 1 7.1.____.7--_, 1 1•,_. I i Ar• 01 6 ENE BEI ME BA BB IBM EU 11 El EIN 734i 2 .741 GENERAL NOTES 0-] -4 1 1 • I If /Vin7OR 1 1 1 I 1 1 1 •_”1 ;.: I I i i i 0-I 1 1 7.1 1 E) SLIPAY -74 01 PAA 4. ArT 01 1 44 err NB BE I IBII 112 CS BE UN BM se, we mum tali stri.' ,,,, sem 1 IV_ __Iia 24-10 n 0 a el 11 0a 0 0 FIK1 16 112 ME1 22 141 IKE K2 OE ISK 121 _ oi 01 7. .74 0-1 7. 611 ".1R. EEC: IT:1_1V1111.,IT.:3 0- 0- o- DESIGN CRITERIA AND NOTES lgigrATIPI :,AArc gIT: • ....114.4 ; ••,•• SCOPE oP111LortA IE:F.1.,;YSTEM3 WESTI,.FS-A)1AIILL E..11EI) EXISTING SYSTEM TO PROTC'l "THE CLEAN ci.00Icf-1 FV1 WILL PROVIDE NEW AMPEREOFF; VALVE AT ,5••[1.1;1` AFF TO CONTROL DUCT SPRINKLERE; EXCLUSiON -ACCESS DOORS RE.r.,N.JIRED FO K SPIM.KLERS IN c';..1;11-t1.7.i:1L.'.. INSTALLED BY OTERS_ ELECTRICAL WIRING OF ANY KIND INCLOIING E;III NOT LINII1I1104(4 WATERFLOW 3VU1TCH, ELECTRIC BELL, AND 7'AMPER -CENTAL STATION 140NITORING EQUIPMENT WIRING AND SE:RVIC.I:1,13 DcSIGN CRITERIA PER NFPA 1.?„2,007) AND THE CITY OF TUKWILA FIRE DEPARTMENT -REMODEL (CLEAN ROOM) ORDINARY HAZARD GROUP IF DESIGN DENSITY .20 GPM,' 3000 S.F. SYSTEM DEMAND AT BASE OF RISER FOR CLEAN ROOM ADDITION IS 1421.3 GPM Qi 89.7 PSI INCLUDING GM ,/ ( -CLEAN ROOM EXHAUST DUCTS ---•. ., '‘--.. DE.SIGN DENSTY ,r. :::- 0 (4 PM .,1`..".,VR 4 RE MI.,j';' ',..':;',-'I7di••-).,14,..,IJ,7!-.3 „I ( ',.. /-‘ SYSTEM DEMANO AT ml,f.,.i•f-ii OF R la '`" ''''' -' r:` '" J . .. 1 ,. ROOM EXHAUST ric,ICIS11,.„'•:,' ,--,,,,,,,u INcLuDING :50 GPI',4 FIC)5E AL I.. (l WANQE ,... TOLCO FIG„ 225 3R JOIST Aryfk000fr----. LOCATE 6.- FOM NEL POINT OUTER-MIRO r.?' MUS' TOLCO 41C- NO f;i'VVW ACEEND - 1' ERACE PIPE .740" 45 TO 5t DO. TOLCO FIG, 1000 FAST CLAMP LATERAL SWAY BRACE STEEL CONNECTION TYPESB TOP E3A4 i„1 t I , ,,,' • • 1 • ; 112' x lir BOLT, NUT AND WASHER -------*--11 TOLCO o tic'SWAY BRACE E1,10 V' BRACE PIPE TO FA DEG, TOLD° S.3.. 3;0 :Th„SWtV INIACE ETU TOI.00 CLAMP LONGITUDINAL SWAY F3C STEEL C.:CINt.--IFC.110N TYPE -2A REMODEL FLOOR PLAN SCALE: 118,11= 14-0" APPROVALS REQUIRED: ALTHORITY OWNER / ARCHITECT DISTRIBUTION: TUKWILA FIRE DEPARTMENT OWNER / ARCHITECT 1. ALL MATERIAL AND EQUIPMENT TO BE NEW AND UNDERWRITERS APPROVED_ 2. PIPING DIMENSIONS ARE CENTER TO rE-NrER EXCEPT RISER DIMENSIONS SHOWN THUSLY (11-6) WHICH ARE END TO END. ZEARTHQUAKE BRACING SHALL BE PROVIDED IN ACCORDANCE WITH NEPA i/13 4. PIPE HANGERS AND METHOD OF HANGING TO BE IN ACCORDANCE WITH NFPA A13. &PIPING SHALL BE IN ACCORDANCE WITH NFPA 013, G. JOINING OF PIPE AND FITTINGS, THREADED AND WELDED SHLL BE IN ACCORDANCE WITH NFPA 413. 7. OWNER TO PROVIDE ADEQUATE HEAT TO PREVENTWATER IN PIPES FROM FREEZING IN AREAS PROTECTED BY WET PIPE SPRINKLER SSTEM. 8. STRUCTURAL ADEQUACY OF THE BUILDING TO SUPPORT THESPRINKLER PIPING IS THE RESPONSIBILITY OF THE OWNER OR HIS STRUCTURAL REPRESENTATIVE. 1. ALL MAIN AND GRIDDED BRANCHLINE PIPING TO BE SCHEDULE 10 JOINED VW GROOVED COUPLINGS AND FITTING(UNO). 2. ALL TREE BRAI',/CHLINE PIPING 'TO BE SUPER 40 JOINED WICAST IRON THREADED FITTINGS_ 3. ALL GROOVED COUPLINGS TO BE RIGID UNLESS NOTED WPFFOR FLEXIBLE, 4: ALL HANGERS AT STEEL BAR JOISTS AND WIDE FLANGE BEAMS TO BE TOP BEAM CLAMP, CEILING FLANGE. OR SAMMY SIDEWINDER (U1',10). _ ALL PENDENT HEADS NOT NECCESARILY IN CENTER LINE OF CEILING TILES. NO CLOSER THAN 4" TO GRID, • -• "' 41 ; . . 1+1,1 it' 4t:4,11r 44: L4-4 13.- ."4 !..;Pr",4:1,1C1. 1: "1:7;; r'rcLljP, 041.4:3.1:.: 14v01.0 LA'ec r /41. cc.INz r,"r ',41::; f3V L E3U1LDNG PERMIT ;4; CO T R ACT E.: COST -CO OPTICAL 441 COSTCO DRIVE TUKWILA WA 98027 - DEPIC-TE! A: TC/ RELOCA TED • - DENOTES A PRINK.LER HEAT" TO BE - RPRE5CIT:-.7. E.:Y.41;0N4 - REPRESENTS NH' STI,,i'1..'a3744: FILE COPY CO NM.4QT WITH: FERGUSON CONSTRUCVOIN 7433 FIFTH AVENUE SOUTH SEATTLE WA 98108 PM GREG WILLIAMS Phone: 206.767.3810 Fax: 2 6.76 .7349 • HOV i 2009 TokwilaSte •'"1" ;•11711 &n77,1 41 -0/1.404.4.21sorakI 2a; F'aiitce Road North, Suite 0 I fic; ‘A!/k 98'347 52 5 K5 8 Fx: (.95:3) 501'13 1/4/1 r• • : 1!2. . , 1 E1SIGI,!1-12f1,'. J1,..lt,iBHPj L