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Home My WebLink AboutPermit M2000-072 - COSTCO2000 -072 Costco 1160 Saxon Dr. City of Tukwila (206) 431 -3670 Community Development / Public Works • 6300 Southcenter Boulevard, Suite 100 • Tukwila, Washington 98188 MECHANICAL PERMIT Permit No: M2000 -072 Type: B -MECH Category: NRES Address: 1160 SAXON DR Location: Parcel It : 252304-9063 Contractor License No: HUSSMC *134J2 TENANT OWNER CONTACT CONTRACTOR Status: ISSUED Issued: 04/17/2000 Expires: 10/14/2000 COSTCO WHOLESALE 1160 SAXON DR, TIJKWILA WA 98188 SADE PAUL +ELEANOR 585 POINT SAN PEDRO RD, SAN RAFAEL CA 94901 DON JARRETT 7272 FIRST AV 5, SEATTLE WA 98108 HUSSMANN CORPORATION 7272 FIRST AV S, SEATTLE WA 981080267 Phone: Phone: 206 - 763 -9055 Phone: 206 763 -9050 ******************************************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** Permit Description: INSTALL REFRIGERATION AND AIR CONDITIONING EQUIPMENT IN NEW FOOD PROCESSING AREA UMC Edition: 1997 Valuation: 250,000.00 Total Permit Fee: 362.13 ********* A * * * * * *r * * **,rr * * * * * * * * * * * ** * * ** ** * * * * * * * * * * * * **- * * * * * * * * * * * * ** ** fYS •�►T.a3 T.r wYIt �w.� ---- -Y��+Ir.rWYWiaa Permit Center Authorized Signature Gate I hereby certify that, I have read and examined this permit- and know the same to be true and correct. All provisions of law and ordinances governing$ this work will be complied with, whether specified herein or riot. The granting of this permit does not presume to give authority to violate or cancel the provisions of any other state or local laws regulating construction or t : per rmance of work. 1 am authorized to sign for and obtain this buil �g r 1 .. Signature: Print Nume : ,r ef, -_,- aftltlfn f•watlatlirsacsa s.aa mute: fti 4f 4ft[� 7 • Ff sO CP ae Ti tiu t .. iAi 11_ 4l!s t110f4f =„ This permit shall become null and void if the work is not commenced within 180 days from the date of issuance, or if the work iu suspended or abandoned for a period of 180 days from the last inspection, ct-ry 0P. UKW1LA Address: 1360 SAXON DR rnt COST WHOLESALF. rype : -MECH Par e:1 0: 252304-9063 Permit No: M2000072 Stat U : ISSUp..D Applied: 04/07/2000 Issued: 04/ t71,2000 ****(******************************************************************* Permit . Condit ions:: „ . , 14 Plumbing permits she 1 1 be obtained through the Setat,t1e -K trig , County Department of Pub) lc Health : ' ..:piLumb i rig wi 1 1 be inspected by that agency's 1 nc 1 tiding "'all :gag pi ping , '(296-4722). ,... , - . 2 „ 1 et 1-, r i on 1 pertniti-"bhe 1 1 bec: Obt,ai fled, through the •Washington ,"•-i',. .,.State. Di viS ion:;','Of :11.abor,--.„01d:”. Industries and al 1 e 1 e6tr 1 61.1 t , work will be ;:trtapected by that- "'agency (2404(636). . Nt) changes .441-11 b6".:Macle•-tO the plans „unletis tipproved bY.:',the • f ,Engineer andthe..:1Okwi 1 a:: So i lding Divfsi on . . Hi ",,,,:,, ,.. .. ''!All perm:ft4i, Ailspticti On: records.,,, ,arid approVed PlanS Shall be :!ave i lableAt'at t he,- job 'ifi 1 t e pr i or tO : the start 6f any On- i','''IY (strOct.Ao.n . '' T he se docume, n ttrare to be. mai rite i ned and o, va 11 ,4,‘•-.::":. .'.ab 1 fs 1,inti1 1-C„fjne 1 i nopeoti on approval is granted. .:,-, :,::( ,,,,.,. •:.,::,,,,,, tii': ),A1 1 ci0f3trUciti on ,to.1 tor 'done i il:'.6onformance wi th approVedi , .. !pliArik:.,01ricr rtiqui,e,efimentuctf the.'. Uri i f or* Build i ng Cocky, (1)97 '-=•:1-'•:.:',. •. -. '(di VI 'Oil) '''s ,. kimonded, Uni fOrM 'Muchani1:601,, Code (1997 P,di t1 663 , '.',:;•:•,. • # , . t , and liWashington":"'State' Energy Code (1997 Edition) . , ::.-'1,,,., ' =, `:- 6. vii 1 i ill ty of ;.1Permit . • .1 he .. i fiedenee '.o .f a . perini t.. or approve 1 of ''' .3 • ,..:..,.; :i...;,...plai,iiii; speol f totiti Ons 1 and , Computati one shall not. be Joon,- ' r ...,• • ii', i.c- !o.tirOii'il to be a: permit. fOr . (Jr' tut uPprOva 1 of v any v i (..3 1 at,toti i.,."i '''' ' ' (i.ft fie0, or, .t.,'..t4n 'Pt*'00 14110ns' of -the. I.Wilding oode or of any * 14 fothti,i7Ordindnoa of ', the Jur i Scl i eti on '. , No permit. presutning to ‘.•''''',4.:tLgivtit?:eibthority ,to violate or candel the provisions of th4::'. ,cc)cle '',.''Sha 11,''be vil 1 Id. ' • " . ., . 6 lianUf 4(0.Urerli i nstal let ion i nutruct ions required on site t for, thE,bullding inspectors review. , f •,,,, 2 , ,t,•...• . . '.64::' • •.V. - -q'-' . : ... ..' • „ • .! :RT :•,4 • '" • H " • to' v.,.„4", . 4 , • • CITY OF T ` KWI LA Permit Center 6300 Southcenter Boulevard, Suite 100 Tukwila, WA 98188 (206) 431 -3670 Project Number: Permit Number: l ' l Ai 1 OSI •W' M24900- 011-- Mechanical Permit Application Application and plans must be complete in order to be accepted for plan review. Applications will not be accepted through the mail or facsimile. Project Name/Tenant: / _ t� 5�c-O • Value of Mechanical Equipment: `l 50, 000• 6 c 1--T-s4 04 l ( Site Address : 1 /i(tg_ S &Kout e- City State/Zip: 7'uU Tax Parcel Number: Property Owner: C-OSiCv Phone: ( ) Street Address: City State/Zip: Fax #: ( ) Contractor: }�'ussA4b it K WStreet C-O 1" . 1) vss DUI G ''"I3yJ1 Phone: wt. ) 7 6 3 ^ 905 Address: 7a, . tc.,,s1 A Vt. A. SO. City State/Zip: Scafte 4',bV Fax #: (cp06) 76 3 , '3 3? 6 Contact Person .--. Phone: ( ) 5 (we as Street Address: 7 7 ? r,ys `- te. City State/Zip: s� ./. el 9�P.... Fax #: ( ) /4 be/v •�. MECHANICAL PERMIT REVIEW AND APPROVAL REQUESTED: (TO BE PILLED OUT BY APPLICANT) Description of work to be done • lea be specific). uF. / 1 Current copy of Washington State Department of Labor and Industries Valid Contractor's License. If not available at the time of application, a copy of this license will be required before the permit is issued OR submit Form H4, "Affidavit In lieu of Contractor Registration ". Building Owner /Authorized Agents If the applicant Is other than the owner, registered architect/engineer, or contractor licensed by the State of Washington, a notarized latter from the property owner authorizing the agent to submit this permit application and obtain the permit will bo required as part of this submittal. I HEREBY CERTIFY THAT I HAVE READ AND EXAMINED THIS APPLICATION AND KNOW THE SAME TO BE TRUE UNDER PENALTY OF PER JURY BY THE LAWS OF THE STATE OF WASHINGTON, AND 1 AM AUTHORIZED TO APPLY FOR THIS PERMIT. BUILDINGOW Signature: Print name: R/ D AGENT Phone: (g City /State/Zip: 6 Date: .5...7. 40 Fax 0: a p6) Expiration of Plan Review • Applications for which no permit is issued within 190 days following the date of application shall expire by limitation. The building official may extend the time for action by the applicant for a period not exceeding 180 days upon written request by the applicant as defined in Section 114.4 of the Uniform Mechanical Code (current edition). No application shall be extended more than once. Date application accepted: 4 -1-00 Date application expires: Appl on taken by; (initials) 1 1/1/99 web pernmU.doc 1a--1 -Dv :1 Mechanical Permits COMMERCIAL: Two complete sets of drawings and attachments required with application submittal ✓ Suhmill.1l Requirements • Floor plan and system layout Roof plan required to identify individual equipment and the location of each installation (Uniform Mechanical Code 504 (e)) Details and elevations (for roof mounted equipment) and proposed screening Heat Loss Calculations or Washington State Energy Code Form #H -7 H.V.A.C. over 2,000 CFM (approximately 5 ton and larger) must be provided with smoke detection shut- off and will be routed to the Fire Prevention division for additional comments (Uniform Mechanical Code 1009). Specifications must be provided to show that replacement equipment complies with the efficiency ratings and other applicable requirements of the Washington State Nonresidential Energy Code. Structural engineer's analysis is required for new and the replacement of existing roof equipment weighing 400 pounds and greater (Uniform Building Code 1632.1). Structural documentation shall be stamped by a Washington State licensed Structural Engineer. NOTE: Water heaters and vents are included in the Uniform Mechanical Code — please include any water heaters or vents being installed or replaced. RESIDENTIAL: Two complete sets of attachments required with application submittal �ul►►►■►11,►I Ilfvu► o►rrrul ti New Single Family Residence Heat loss calculations or Form 146, Equipment specifications. Chan &out or replacement of existing mechanical eggpment Narrative of work to be done includin: modification to duct work. Installation of Gas Fire lace Narrative with specification of equipment and chimney type. If using existing chimney, provide a letter by a certified chimney sweep stating that the chimney is In safe condition. NOTE: Water heaters and vents are included in the Uniform Mechanical Code — please Include any water heaters or vents being installed or replaced. * * * * * * * * * * * * * * * * * * * * * * * * * * * ** * * ** * * * ** * * * * * * * * * * * * * * * * * * * * * *. CITY OF TUKWILA, WA M 1O fO- TRANSMIT * * * * * * * * * * ** * * * * * * * * * * ** * * *�F * * * *'�F* r * * * ** * * * ** ** *fir * * * * * * * * ** TRANSMIT Number: R9800267 Amount: 362.13 04/17/00 09 :24 .Payment Method: CHECK Notation: HUSSMAN CORP Init: WE.R Th'1a Payment * * * * r * * ** * * * * ** Account Code 000/345.830 000/322.100 M2000 -072 Type: B-MECH MECHANICAL PERMIT 252304-9063 1160 SAXON DR Total Fees :. 362.13 362.13 Total ALL Pmts: 362.13 Balance: .00 ************** * * * * * * * * * * * * * * * * * * * * * * * * * * * * * ** Description Amount PLAN CHECK - NONRES 72.43 MECHANICAL - NONRES 289.70 3615 04/i9 9717 TOTAL 362.3 INSPECTION RECORD Retain a copy with permit INSItCtION NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter Blvd, #100, Tukwila, WA 9818 2UOo -c 7a Pro t1' 4.66 pe of I spec on: 0 '4 -i /1 /i , / / „ A rest: Date '. !led; t Special nstructions: ittati Date want�dv Id 8 Ot `, Requ er: . 0 Approved per applicable codes, COMMENTS: Corrections required prior to approval. Inspector: Date: $47.00 REINSPECTION 6300 Southcenter Blvd Receipt No: E REQUIRED. Prior to inspection, tee must be paid Suite 100. Cali to schedule reins'ection, Date: CIt of Tukwlla Fire Department TUKWILA FIRZ IMPARTMENT FINAL APPROVAL FORN • ""'"7"4... John W. Rants, Mayor Thomas P. Keefe, Are Chief Permit No . Y / Suite # Retain current inspection schedule Needs shift inspection 2 Approved without correction notice Approved with correction notice issued Firen Alarm: 4 �� ►� Hood & Duct: Halon: Monitor: Aar- Pre-Fire: Permits: Authorized Signature Date FINALA'P.FRM T.F.D. Form F.P. 85 Headquarters Station: 444 Andover Park East • Tukwila, Washington 98188 • Thom (246 5754404 • Fax: (200 5754439 INSPECTION RECOk. ' Retain a copy with permit INSPECTION NO. CITY OF TUKWILA BUILDING DIVISION 6300 Southcenter BIvd, #100, Tukwila, WA 98188 wQ1 PERMIT NO. 206)431 -3670 P = ject• Typ o I spe ' ►r, : ► • A +.1 II Date ca ► • O Special nstructio s: Date a : ►• 11 E ►.m. Requester: • It i /....�: Phone: ElApproved per applicable codes. COMMENTS: WA1127M "Corrections requite por to ppr oval, J MAXIM am= rr �'' / ' Inspector: A �, 1 Q $47.00 REINSPECTI i FEE RE + UIRED, Prior to inspection, fee must be paid at 6300 Southcenter Blvd., Suite 100. CaII to schedule reins ection. Date: Department of Community Development 6300 Southcenter Blvd., Ste 100 Tukwila, WA 98188 Phone: (206)4314670 Fax: (206)431.3686 To. w____Lauted) Proms • City of Tukwila Phones Dates fila000 -.223 a 0 Urgent 0 For Review 0 Please Comment 0 Please Me* 0 Please Recycle atm, ow, 141.t. dakt kap t;nataecii" ationn ciptv A42000 07 , L&z ea4v itta et/ Ott/ 4/rtata4aCCimE att vs4u4,1/ lag/ kficu,w amy, rixittettkid 0106-431-360. April 4, 2002 City of Thkwila Steven M. Mullet, Mayor Department of Community Development Steve Lancaster, Director Mr. Don Jarrett 7272 First Ave S Seattle, WA 98108 RE: Permit Application No. h. M2000.072 Location; Costco 1180 Saxon Dr, Dear Permit Holder; In reviewing our current records the above noted permit has not received a final inspection by the City of Tukwila Building Division, Per the Uniform Buliding Code and /or Uniform Mechanical Code, every permit issued by the Building Official under the provisions of this code shall expire by limitation and become null and void If the building or work authorized by such permit Is not commenced within 180 days from the date of such permit, or If the building or work authorized by such permit Is suspended or abandoned at any time after the work Is commenced for a period of 180 days, Based on the above, you are hereby advised to; • Call the City Of Tukwila Permit Center at (208) 431.3870 to schedule a progress or a final inspection • In addition there is a Relnspection Fee of $47,00 owed 10 us for an Inspection conducted 10.18.01, Please contact us to make arrangements for paying this fee, A progress Inspection is Intended to determine Ii substantial work has been accomplished since Issuance of the permit or last inspection; or it the project should be considered abandoned. 11 such determination Is made, the Building Code does allow the Building Official to approve a melon extension up to 180 den, Extension requests must be In writing and provide satisfactory reasons why circumstances beyond the applicant's control have prevented action from being taken. in the event you do not call for the above inspection or request and receive an extension prior to April 10, 2002, your permit will become null and void and any further work on the project will require a new permit and associated fees. Thank you for your cooperation in this matter. Sincerely, Vo Kathryn A. Stetson Permit Technician Xc: Permit File No.M2000.072 Bob Benedicto, Acting Building Official EXPIRED APR 18 2002 6300 Southcenter Boulevard, Suite #100 • Tukwila, Washington 98188 • Phone: 206.431.3670 • Fax: 206.431.3665 city of Tukwila Steven M. Mullet, Mayor Department of Community Development Steve Lancaster, Director August 16, 2001 Mr. Don Jarrett 7272 First Ave. So. Seattle, WA 98108 RC: Permit Status M2000-072 1160 Saxon Drive Dear Mr. Jarrett: In reviewing our current permit files, it appears that your permit for installation of refrigeration & air conditioning equipment in new food processing area at Costco Wholesale issued on April 17, 2000. has not received n final inspection as of the date of this letter by the City of Tukwila Building Division. Per the Uniform Building Coda and/or Uniform Mechanical Code, every permit issued by the building official under the provision of this code shall expire by limitation and become null and void ifthe building or work authorized by such permit is not commenced within 180 days from the date of such permit, or if the building or work authorized by such purmk is suspended or abandoned at any time after the work is commenced for a period of 180 days. Based on the above, if a final inspection is not called liar within ten (10) business days from the date or this letter, the Permit Center will close your file and the work completed to date will be considered non- complying and not in conformance with the Uniform Building Code and /or Mechanical Code. Please contact the Permit Center at (206) 431.3670 if you wish to schedule a raw inspection, Thank you for your cooperation in this matter. Sincerely, go. ilia/1.L. Ct , d-m71,s Kathryn A. Stetson Permit Technician Xtr, `Pi,ri ilt`Fila No, M2000.072 Duunc Grlflin. building ()Biciul viii0,41401 - E.tat,„ our-1-.46 RAJ`' UP' 4.11-°• c. , %Abe ev#A*Pd `"" -0 q0 6300 Southcenter Boulevard. Suite #100 • Tukwila, Washington 98188 • Phone: 206-431-3670 • Fax: 206 - 431.3665 rij C71 Carl _vs rw3 11111;i:1_,-1.:Li',1!-:::;_ili:;--j;.°',-1,:"1!_L-`-l!j'tit.:÷) 11_1�� >r� ,�r�' t 7 1 I ,1...,! t �_..� J?a,,.l..i�11_...t% .(1) _.,•I' It !i..�.j!.11+. 1: ;1!11 ' Y:'t1 p tsri`� rft�i�.i..;r p t r`� "(ji�j��j' z `r ;rl'tJr'fTi µtrij) c' r t` (r ) / r .•: r ,�,=� .:;`71:.;Y •* i \J'1� (,�'1 X41 �1, 11 �'J °1I11j'�A.1 17�t(��ii��r��lf; • )rll �I�ti l�(.j • .111 q{i;w`:? '(y. • i` j.rq , i {j `, 1,'t..r�Ly, 1f,,,hrrr1°: t;( f' 1 r ,1.01, '. y`. 7 ,f-- y .Ae )�'' V r. ti 6-1, r ?:�". °i[a�yrr, I., ,1 .., ,°/ 1 (, 1?. ' :f ..../ \4 ,Ilia -e'1- ;'i'I,lr 11',,, 11 .--r I ty' ti trf ) 1 ( ! . jri,r,;r.t0;1,1i'',' '''•1'0411, (0,1:07;'," 11)( 1 ' jf}�, {b. Modular Panel.Construction Freezer r WWII Screed Grout •_Huilding " Floor 4:1 tQ Interior Fixture N.S.F. approved vapor proof light fixture. 0 Pressure Relief Vent Heated or non - heated when specified. xN Dial Thermometer • Accurately Indicates temperature from -30" to +60" 1', 40" to +15 "C. (0) Pilot light 8 Switch Eor Interior lighting. (J Adjustable Sweep Gasket U Diamond Plate Exterior & Interior Toe Kick. 0 ) Freezer Door Heater. qt) Freezer Threshold Heater. Insulated window & strip curtains Are Available upon request. (3) Interior Safety Release t- lush mounted, Palm actuated, and luminescent. CO Heavy Duty Latch Snap action design with adjustable strike. Available in polished aluminum or chrome plated finish. z • w O 0 O a w • LL w 0 2 Sal w Z� O W MO =W w F ✓ N •• • • -0v, •• 111 • " ' • 4-1,a • '''`Yrk t ' r. na ' 445.' Z H W re D -J U O 0 0O -J• z h W © I- • W Z gO • w Dn § D. ww 0 wz P 2 COI ca Cr" SUPERPLUSTM Central Refrigeration System itxorironic '" Tochnology in a ,;tats of the ;art control pftnr!I uuBGmRnn® z h w ft 2 O - 0 N0 • tiJ - X r • IL W D D. a � W r� W ca WW u. 0 ui P O essvemb Hussmann Technology Brings You Advanced Design In An Advanced Central Refrigeration System A Profit Center for today's supermarkets Energy costs are of prime concern to all store operators, Hussmann designed the SUPERPLUS" to provide total storewide refrigeration,..with minimum energy consumption, It saves you money to make you money! • Hussmann's exclusive Turba -Shed oil separation and regulation system improves the SUPERPLUS System performance and reliability, reducing energy and maintenance costs, • A full line of electronic controls maximize operation and efficiency. • The AutoSurge System (optional) automatically provides the lowest practical ambient - cooled refrigerant temperature. A Hussmann First--- - The Fibertronic Control Panel This innovative use of Fiber Optic Technology adds a new dimension of leadership to Hussmann's SUPERPLUS, Fiber Optics provide noise -free signals to defrost branch boards, eliminating problems inherent with control wiring. Self- Diagnostic System The SUPERPLUS provides a continuous display of com- pressor and defrost status and sends a warning signal should compressor problems occur. Integrated Electronics Center All components of the refriger- ation process controller system, such as the EPC -1000 and the electronic defrost clock, are integrated for design simplicity and single source responsibility. Total system sized for you The optimum system for your particular application may include from 2 to 8 even or uneven compressors, constant or variable speed, plus mounted and /or remote satellites. SUPERPLUS adapts! Bent Tubing Technology Reduces Leaks Hussmann Bridgeton is now using pre -bent tubing on all SUPERPLUS systems, This eliminates a large number of the brazed joints on each rack, substantially reducing the likelihood of refrigerant leaks. Redundant Leak Testing for Superior Reliability SUPERPLUS undergoes multiple factory leak tests. First, systems are ressurized with dry air and subjected to ultrasonic leak detection. Then they are evacu- ated, charged with a helium /dry air mixture and given a helium leak test which is 100 times more sensitive than freon detection. Finally, systems are evacuated to less than 500 microns and charged with dry air. Since CFCs and HCFCs are not used, job site reclamation at start -up is not required. $utwith ( llly c mponded compressors. Vertical receiver optional. Horizontal receivers standard, Factory Tested using Helium Leak Detection Wiring Requirements IN For Remote Header Defrost Assembly (if applicable) —To the defrost control panel provide one 120V 1 P1-115A branch circuit. Between the defrost control panel and the SuperPlus System provide one 120V 15A 2=wire circuit, - 230/3/60 Compressor Units ---To each 'Plus System provide one 208. 230/3/60 ich circuit, one 120V 1 PH 15A circuit. t 120V circuit when single point onnection kit is used.) each remote air- cooled condenser provi .230/3160 branch circuit. • For 460/3/60 Compressor Units—To each SuperPlus System provide one 460 /3/60 branch circuit, one 120V 1 PH 15A circuit, (Omit 120V circuit when single point connection kit is used.) To each remote air - cooled condenser provide one 460 /3/60 branch circuit. For Alarm Wiring -- Between the Compressor Control Panel and the in -store alarm bell provide one 120/1/60 circuit, • Electronic Controls —For ALL Electronic Controls consult the control's manual for wiring requirements. Ite111ative R erants ussmann has layed a leadership role in the; boratory:and field testing of new alternative erants such ;as HPC 34a, HP -62 and ers, We are wOrkint closely with both atomers and suppliers to help insure the railablllty and reliability of new refrigerant ternutives, ui.rmnn3 erintpd in U.S .& 01983 Huesma nn Corporation Catalog RL'4 � on 1 d Bridgeton, MO 63044 (314) 291 2000 Fax: (314) 298 4766 9512 -UP•4M z z w re g O 00 w �w w 0 w z� w 2• © w F Ili• N o� z Flexibility to fit the exact load proffie of an y size or type food store. Every Hussmann SUPERPLUS System is "customized" to meet your exact requirements utilizing Hussmann's unique application computer "COCEL" (Customer Oriented Computer Engineered Legend) Program, It specifies the correct compressor combinations to match your operating load and minimize energy usage. Your SUPERPLUS System may include a wide selection of options to match your requirements. • Up to 32 individual system branches • Complete line of suction control valves • Koo!gas* defrost • Mechanical subcooling • AutoSurge System • Variable speed drive • Heat reclaim • Winter control • EPC -2000 electronic process control • EPC -2000 integral or stand alone defrost manager • Electronic pressure controllers • Remote electric defrost panels • Single phase protection • High suction alarm • Receiver level alarm • Variety of vendor options • 208V control panel • Standard thermoplastic or stainless siee1 braided hose control lines (eliminate capillary tubes) • Screw compressors Fibertronic Control Panel State -of -the -art 120V Control Panel with Fiber Optic Technology! Electronic Defrost Clock Utilizes Fiber Optic Cable The defrost signal is transmitted by light instead of an electrical connection. This use of computer- age technology eliminates the major problem of using electronics with load carrying relays and contactors. Surge or spike currents may disrupt solid state devices. Fiber Optics replaces the control wiring, normally used between the timer and the defrost controls, thus eliminating this age old problem. Fiber Optics provides a noise -free signal to defrost branch boards...eliminates wiring problems and reduces the number of wires in the panel. Integrated Electronics Center • EPC- 1000 /EPC -2000 electronic process controllers maximize efficiency and reliability. • Proprietary field- proven control algorithms. • Single source responsibility) Printed Circuit Boards • Reduce trouble - shooting time by eliminating 1000 feet of wire. • Wiring harnesses with Polarized Plugs Improve serviceability and eliminate wiring errors. Individual Defrost Branch Bards • Mount directly in front of system branch lines. • Individual system number and description. • Instant defrost status recognition. • Indicates valve status. Individual Compressor Boards • Display compressor status. • Reduce service time by lf• a n stir alarm indication for fuse-Mitre; IV pressure, oil failure. Mkro•Processor ' 120V Coni of Pend Eased Con ollsr Minimizes electrical Optimizes trouble- shooting compressor operation time and reduces and monitors critical hazards to service • performance • personnel. parameters. Graz!l bei ar Pilot and prima front ecceeeibth Electronic Defrost Clock or Integral to micro- processor Wed con- troller, Provides defrost flexibility and Improved reliability, Liquid 1111h1 C Sank �aln Ih ling compressors on refrigerant lines, dispfey status. Monitors s Name pressure; shuts all va Man compressor activates if high (e ae noselmnisid *Out diem) k ble Mlcro•Processor 120V Control Panel Based Controller Minimizes electrical Optimizes trouble - shooting compressor operation time and reduces and monitors critical hazards to service performance personnel. parameters. Circuit Breakers Pilot and primary, front accessible. BM frost Branch Show defrost status and valve status. Suction Liqu Lines Reduce installation time for increased savings. CConnection Single point right field power connection. Heat Reclaim Whe (optional) Reduces stores' energy consump- tion by using waste heat for hot air or hot water. Electronic Defrost Clock Stand-alone or Integral to micro- processor based compressor con- troller. Provides defrost flexibility and improved roliabiiity. 'Auld relit Vinyl Conduit eliminates chafing on refrigerant linos, ompressor Oontinually °monnitoorr compressors and display status. High Pressure Cidout Monitors discharge Standard go pressure; shuts off compressor and activates alarm if high pressure condition occurs. arm hartbM cutout shown.) Receiver Level Alarm (optional) Monitors refrig- erant level in receivers and activates alarm If refrigerant level falls below preset level. Preb nt E71lmin tos brazed Joints and reduces risk of leaks, 'Rein overall system height. Lower center of gravity. Reduces system vibration. Extends_ system m life. Allows up to 60% Increase In refrigerant holding capacity If required. luta- lY Hussm an ti high- efficiency separatioon and regulation system, System Dimensions 7Mble 1—Length, Load Point. Nutmrar of Compressors I, C 44 • Cy� Calyle R�dt L MO° Rook C In Copeland 3lar Ji Length Width 24 2 2 77" 1,600 51" 30" 4 3 3 90,5" 1,700 84.5" 30" 5 4 4 113" 1,800 87" 30" 6 5 5 135,5" 1,000 109,5" 30" 7 8 8 158" 2,200 2,200 58"x88"••• 581188 "1•0 30" 30" 8 8 8 158" 'These rack lengths apply to mig rack assemblies only. "Compressor weights must be aided for total system weight flee formula under thiggalbighl heeding. •'•This rook has three ctou IntliWslx load points, not the usual two and four, To determine the length of rack assemblies with uneven size compressors, first compute the mounting dlmons o-I ne using the following formula: (b1 + b2 + b3 +...bx) + al • Mounting Dimensions. b1 through bx are compressor sizes (see'Tbble 2). al Is the left most (lacing control panel) compressor on the rack (see Table 2). System Weights Shipping Weight • Base Rack Weight (see Table 1) + Compressor Weight (see Table 4) + 500 lbs. for shell -and -colt mechanical subcooler (if applicable) ?Male 4-- Compressor Weights _2°2_00 r Abs.) ow 296 OIE We raserve the rl ht to change or revise specifications and product design tw eeentitlethe a � chimes, imprcromentp. do not additions, or replacements for equipment previously sold Of shipped. 500 Depth 7Mble 2— Comprr«or ales Compsssor Typo 111 MN and NR 300 2D and 30 385 40 and110 575 22.5" 380 4R and IR 630 _2°2_00 r Abs.) ow 296 OIE We raserve the rl ht to change or revise specifications and product design tw eeentitlethe a � chimes, imprcromentp. do not additions, or replacements for equipment previously sold Of shipped. 500 Depth 7Mble 2— Comprr«or ales Compsssor Typo 111 II Copeland 213 Cyl. -1.5" 17.5" Capalond 4.8 Cyl, 3" 22.5" Carlyle 3„ 22.5„ Cadyle 08E11175, E 0411141175, 7.5" 27" Once mounting dimensions aro computed, use Table 3 to determine total rack length, Tilde 3—Mounting m1N Val h Mounting Dimension Thiel Nook Length Thru 67" 77" 70.6" max 90,5" 93" max 113" 116,6" max 135.5" 138" max 158" NOTE: To all rack lengths, add 24" when optional shell- and -colt mechanical sub - cooler is specified. Plate type subcoolere do not require additional length. Remote B.LeNNe Dimension UM* 5— M.idmum SOWN* Dimensions r2=11111r1 D•oh Single-tier 50" 37" Twatier 11131111[1111 1E5111 Remote Satellite Weight equals the sum of compressor weights (see Table 4) plus 115 pounds. (Add an additional 50 pounds for two -tier units.) HLC Series LEVITORT SUspended Coil System (for direct drive remote air - cooled condensers) LIL listed with 8,10,12 fins /inch in vertical and lorizonta1 air discharge models. Low ambient fan cycling. HIJssmann` PAINC16 NW Imp 0"1 New Imp, Lan The LEVITOR" system addresses the problem of refrigerant coil wear and Ieaks due to vibration and thermal stress. Rooftop condensers have to operate In some of the toughest conditions imaginable. Temperature extremes result In constant expansion and contraction of refrigerant tubes as fans cycle and loads vary, The con- sequences are costly: rapid tube wear results in leaks, system breakdown and loss of costly refrigerant. We have the answer. LEVITOR Coil Design Eliminates Refrigerant Tube Wear Environmental concerns and spiraling costs of refrigerants have led to the development of direct drive remote air- cooled condensers with the LEVITOR coil support system, This innovate design uses dedicated stain- less steel tubes and a unique coil support system to isolate refrigerant tubes from the unit. Coll support Is transferred from the fins to the stain- less tubes and truncated tube plates which ride freely In "C" channels. Ilibes expand and contract without interference. The result: contact and friction wear Is eliminated. Quiet by Design LEVITOR coil design does more than Just eliminate tube wear, Sound reduction is an added benefit, Unlike traditional air - cooled condensers, fan and coil vibration is isolated from the cabinet, so it is not transmitted to the unit frame and building supports. Exclusive 3 -year Limited Warranty We're so confident about our new suspended coil design that it is protected by a 3 -year limited warranty on workmanship and material. It gives you extra protection from premature tube wear. See bulletin W -1 for complete warranty, Computerized Circuiting How do you keep pace with the new refrigerants and environmental regulations? We can help. Our com- puterized coil circuiting program is designed to minimize the condenser refrigerant charge and maximize sub cooling. Every condenser will be custom circuited to precisely meet your application needs, See order requirements, Modular Design Arranged for vertical and horizontal air discharge. Multi -fan sections compartmented to allow individual fan cycling while preventing off-fen „wlndmllling." Large clean -out access doors standard. Corrosion Resistant Module A has a textured aluminum housing. Larger capacity models employ mill galvanized steel fan sections and coil side baffles. Legs are heavy mill galvanized steel. Optional Hinged Top It's easy. Just loosen two captive bolts and the condenser opens wide for coil, motor and fan service. Each optional hinged venturi fan panel is secured by convenient locking control rods during cleaning or service work. High Efficiency Coil Copper tubes are mechanically ex- panded into corrugated full collared aluminum fins spaced 8,10 or 12 per inch. Coils are pressure tested under water with 400 psig air, evacuated to 500 microns, shipped pressurized with dry nitrogen. Optional fin materials are copper and heresite or lyester coated aluminum. Multi- circuited coils are optional. Liquid sub - cooling circuits are available. Direct Driven Propeller Fans Quiet multi - bladed propeller fans provide uniform air distribution thru the coil. Venturi fan orifices optimize efficiency. Weather Resistant Fan Motors Outdoor condenser motors designed with ball bearings; Inherent overheat protection In each phase; shaft stingers; enclosure, hardware, and lubrication for all weather conditions. Each motor lend Is wired to terminals in an electrical enclosure. Versatile Head Pressure Control Fan Cycling Control Methods: Thermal Fantrol Pressure Fantrol Thermal Pressure Fantrol Variable Speed Fantrol Gravity Dampers Refrigerant Flooding Control Methods: Holdback Dual Holdback Combination Fantrol Holdback ea System Selection THR Total. Heat of Rejection Condenser total heat of rejection (BTUH) is the sum of the evaporator refrigeration effect and the heat of compression which varies with com- pressor type and operating condi- tions. ''THR Calculation Method THR = Open Reciprocating Compressor Capacity (BTUH) + (2545 x BHP) THR = Suction Gas Cooled Hermetic Reciprocating Compressor Capacity (BTUH) + (3413 x KW) THR Estimated Method THR may be estimated by multiplying the rated compressor BTUH capacity by the compressor operating condi- tion factor shown in the proper table. Multiply result by altitude factor when applicable. Table 1 Evapo• Hermetic Compressor rotor Temp, , Condensing Temperature (F) (F) 90 100 110 120 130 140 -40 1.60 1.73 1.80 2.00 ' • -30 1.57 1.62 1.68 1.80 • -20 1.49 1.53 1.58 1.65 ' • -10 1.42 1.46 1.50 1.57 1.64 • 0 1.36 1.40 1.44 1.50 1.56 1.62 5 _ 1.33 1:31 1.41 1.46 1.52 1.59 10 1.31 1.34 1.38 1.43 1.49 1.55 15_ J,28, , 1,32 _ _1.35 __ _ 1.40.1:46. __1.62 20. _ 1, .,_ 1.29 1.33 1.37. 1.43 _1.49 25 1.24 1.27 1.31 1.35 1.40_1.45 30 1,22 1.25 1.28 1.32 1,37 1.42 40 1.18 1.21 1.24 1.27 1.31 1.35 50 1.14 1,17 1,20 1.23 1,26 1.29 'Beyond the normal limits for single stage compressor application. Unless Table 2 Evapo• Open Compressor rotor Temp. Condensing Temperature (F) (F) 90 100 -30 1.37 1.42 -20 1.33 1.37 -10 1.28 1.32 0 1.24 1.28 10 1.21 1.24 20. 1.17 1.20 30 1.14 147 110 120 130 140 1.47 • 1.42 1.47 1,37 1.42 1.32 1,37 1.28 1.32 1.24 1.28 1.20 1.24 • • • 1.47 1.41 1.36 1.32 1.27 • 1.47 1.42 1.37 1.32 40 1,12 ..1.20...1,23.._.1.28 50 1.09 1.12 1.14 1.17 1.20 1.24 Table 2 Altitude Factor Feet Feet 1000 2000 3000 4000 1.02 1.05 1.07 1,10 5000 8000 7000 8000 Factor 1.12 1.16 1.11 1.20 Multi- Circuit Selection Condenser arils may be divided into ninny individual refrigerant circuits or systems; each sized for a specified refrigerant, TI°IR capacity and TD. Systems are tagged for Identification from left to right; facing the connec- tion end. Sample Calculation specified, ODS connections will be sized in accordance with Refrigerant Ltiw Capacity Data - Applicatioris Stolen, Avold locating high TD sections next to low TI3 se•ctbrnis. Add excess cir- cuits to low TD seetlons next to high TD sections. Add excess circuits to outboard sections. 95 °F Ambient - Suction Cooled Seml•Hermetlo Reolp COMP QESIQN SAT SAT CONREMSATINO NOM TO $UCT CONO NET MOTOR TOTAL REF HP REF •F •F •F ITUH KW ITU ITUH FACTOR 4,3 14676 54766 8.1 27645 73545 9.6 32765 83405 9,7 33106 137106 Thermal Fantrol fan cycling Is recommended with muiti-circuited condensers. Holdback flooding control kits may be field Installed in each system liquid drain, rocatin Cam resew* eA =ED ON A22 AT 16• TD CIR. SYSTEM ACTUAL TD SELECT CUITS CIR• NUMIER TO FACTOR THR REQ'D CUITS L TO R •F X 1.5 7.52 8 2 X 1.5 8.52 9 3 X 1.0 9,10 9 4 30 0 134a 15 0 404a 10 10 404a 10 10 22 15 20 110 40090 -20 105 45900 -20 105 50640 +25 110 104000 X X X 1.00 1.03 1,03 1,00 58051 Fi 113827 a 128860 137106 Selection • LCVB 7410 Rated at THR of 477 MBH with R -22 at 15 °TD Having 10 fins /in, Rating for 8 fins /in. is 0,95 x 477 = 453.2 MI3H for LCVB.7408. • LCVR Unit Lists 30 Available Circuits • From Sample Calculation THR Req'd. /Circuit = 437644 _ 30 = 14588. • LCVB -7408 = 453,200 ; 30 = 15107 Available THR /Circuit, UNITS THR REO'D; 437644 14.4 9.4 9.5 15.2 • Circuits Req'd, = Select Ti-IR THR /Circuit, Example. 113627 15107 = 7,52 Circuits • Assign Number of Circuits /System and System Number Left to Right, • Actual TD = (Circuits Req`d Assign Circuit) x Design TO. Example; (7.52 + 8) x 10 = 9,4 FIN FACTOR S'FM.-0.95 10•F /in -1.00 12 =F/iin. -1.04 REF FACTOR R22 -1.00 'R134a -1.06 "R404a -1.03 TO FACTOR 10°1.50 15°1,00 20° --0.75 25.0.60 'Usable for R12 "Usable for R502a, R507a 3 Specifications 18" & 24" Fans Model Key levitor Air Cooled Condenser LC V 0 3 4 10 Air Discharge/Coll Access V•Vertical Up/SIde Access Door H•Horizontal Side Access Door X•Verlical Up/Hinged Fan Pagel E•Horizontal/Hinged Fan Panel Module Leifer Code Number of Fans Rows Deep - - Flns/lnch Please Specify: • Model Number • Electrical Characteristics • Total Heat of Rejection -BTUH • Ambient Temp • Sat. Cond. Temp or TO • Refrigerant • Multi-Circuit Selections MODULE LETTER CODE FAN BUR. FACE ONE FAN WIDE HP PPM DAM FACE TUBES A 1/4 1140 18 % 22 B th 1140 24 %% 30 TWO FANS WIDE 1 Si 1140 24 % 2x30 LCV-VERTICAL UP AIR DISCHARGE LCH-HORIZONTAL AIR DISCHARGE TOTAL HEAT OF REJECTION CAPACITY -STUN (000 OMr1•TED) RATINO BASED ON S5.115°F ENTERING AIN TEMPERATURE TO 18 SATURATED CONDENSING TEMP MINUS ENTERING AIR TEMP MAX WEIGHT INCL LCV OUAN ROWS MODEL FANS DEEP 10 R22 TD 15 20 84041, R607S 1111 10 15 20 Am FLOW CFM FLUUU CHARGE LBS. FLQQU CHARGE LOS, AVAILABLE CIRCUITS ONE FAN WIDE mm A•1210 1 2 12.5 10,0 26,6 12,2 10.2 24.3 2722 5 170 4 A•1410 1 4 10.0 27.0 30,0 17.6 20.3 35,0 2570 10 200 0 0•1210 1 2 30.2 45,4 00,5 20 4 44,2 50:0 0760 10 101 30 0.1310 1 3 30,4 60,1 70,0 38,4 57,0 70.7 0400 14 106 30 0=1410 1 4 46,4 50:2 00,0 44,2 00,4 00.4 0000 10 200 30 D.2210 2 a 00.6 00.7 121,0 50,0 03,3 117.0 13600 10 352 30 112310 2 3 70.0 110,3 167,0 70,7 116,1 153.6 12000 20 372 30 0•2410 2 4 00,0 136,3 101,7 00.4 132.0 170.0 12000 30 400 30 13.3310 3 3 110,3 177,0 230,7 115.1 172,7 230.2 10200 43 660 30 0.3410 3 4 130.3 204.6 272,0 132,0 100.0 205,2 10000 00 600 30 low esonammaim 134310 4 3 167.0 230.7 316,0 163,6 230,2 307.1 26000 04 840 30 134410 4 4 181,7 272.0 303,4 170.0 285.2 353.0 24000 00 000 30 4 wu.. _._..W .. �. .� ._- . .� . 101410=1. a®ma. B4310 5 6 1072 206,0 304.6 101,9 207,0 303.3 32000 02 001 30 0•0410 5 4 227.1 340.7 454,3 221.0 331.5 441.0 30000 07 050 30 134310 0 3 230.7 355,0 473,3 230,2 346,5 400,5 38400 00 1070 30 04410 8 4 272.0 408,8 545.1 205.2 397,0 030,4 30000 110 1150 30 1110=011=011111111=01, 100111114117 ..y_._.._.._,.....r -... ... y.- .._... _....._ ...... .. ...- »....._.. _.. _. -.. -.. .. - _..... -.. -..,.. .. ... .. ,. -. _ ............... _....... 11.7310 7 3 270.1 4142 55222 208,0 4032 537,3 44000 107 1340 30 B•7410 7 4 310.0 477,0 030.0 309.4 404,1 010.0 42000 144 1450 30 TWO FANS WIDE 1.4210 4 2 121.0 181.5 242.0 117,0 178.5 235.4 27000 38 054 00 1.4310 4 4 167.0 230.7 315.0 153.5 230.2 307.1 25600 04 005 00 1.4410 4 4 101.7 272.8 303,4 170.8 265.2 353.0 24000 00 025 00 16310 0 3 230.7 355.0 473.3 230.2 345.6 460.6 38400 00 1118 00 16410 0 4 272.0 400.8 545.1 265.2 397.8 530.4 36000 110 1225 00 1.0310 0 3 315.6 473.3 631,1 307,1 460,6 014,1 51200 128 1705 60 1.8410 8 4 303.4 545.1 726.8 353.0 530,4 707.1 48000 172 1025 00 1.10310 10 3 394.5 591.7 788.9 303.8 5751 767.6 64000 124 1722 60 1.10410 10 4 454.3 681.4 906.5 441.9 663.0 884.0 60000 194 1925 60 1.12310 12 3 473.3 710.0 946.7 460.6 690.8 921.2 76800 172 2095 60 1.12410 12 4 545.1 617.7 1090.2 530.4 795.6 1060.8 72000 232 2225 60 1.14310 14 3 552.2 828.3 1104.5 537.3 806.0 1074.7 89600 214 2725 60 1.14410 14 4 636.0 953.9 1271.9 610.8 928.2 1237.5 84000 288 2925 60 hysical Data 18" & 24" Fans HEADER END VIEW SIDE VIEWS A MODULE mil, N ,t i in A MODULE 1 O MODULES N I _ w. IS -; ;° y i' 11 _.:._:.: :::_.�_: I a • I MODULES N t S4f11p.- . T. L f 07SIi L. I w; { = rs - A... a. A- s 3 i A aq F A •w ' 4 4. , • _ .._... wt ELECTRICAL DATA DIMENSIONAL DATA FAN MOTOR TOTAL RATED FULL LOAD AMPS 2 CONNECTIONS OD IN. (3) MODEL L W N A 1 2N•1 230.1 410.1 201.3 230.3 400.3 INLET OUTLET ONE FAN WIDE A.1 33 31 41 30 2834 1,5 1.6 0,9 — — — r % 8.1 39 45% 309/, 36 43 3.2 3.0 1,5 2.8 2,0 1,3 1% 1% 8.2 75 45% 300/10 72 43 6.4 0,0 3,0 5,0 5,2 2,0 1% 1% 8.3 111 45 %i 300/, 108 43 0,6 9,0 4.6 8,4 7,8 3,9 1% 1% 8.4 147 45%i 3011, 72/72 43 12,8 12.0 0,0 11,2 10,4 5,2 1% 1% 8.5 183 45% 3001, 72130/72 43 10,0 15,0 7,5 14,0 13,0 0,5 2% 2% 8.6 219 45%; 301/10 72/72/72 43 19,2 18.0 9,0 16,8 15,0 7.8 2% 2% 8.7 262 45% 300/,4 72/72/30/72 43 22.4 21,0 10,5 19,6 18,2 9,1 21 2% TWO FANS WIDE •4 75 88% 300/1 ¢ 72 85% 12.8 12.0 6.0 11.2 10.4 6.2 (2) 1% (2) 11/4 4) 111 88% 30%4 108 85% 19.2 18.0 9.0 16.8 15.6 7,8 (2) 1% (2) 1 /4 •8 147 88% 3001,4 72/72 855/ 25,6 24.0 12.0 22.4 20.8 10.4 (2) 1% (2)15/4 ,10 183 88% 309/9 72/36/72 855/ 32.0 30.0 15.0 28.0 26.0 13.0 (2) 21/4 (2) 2% •12 219 88% 309/I6 72/72/72 85% 38,4 36.0 18.0 33.6 31.2 15.6 (2) 2% (2) 2% •14 255 88% 309118 72/72/36/72 85% 44.8 42.0 21.0 39.2 36.4 18.2 (2) 2% (2) 2s /Includes Standard 22" Legs (2) Minimum Unit Circuit Amps . 1.25 x FLA Of One Motor + FLA Of All Remaining Motors (2) Maximum Unit Overload Protection • 2.25 + FLA Of All Remaining Motors (3) Connections are approximate. Exact size is determined by computerized circuiting program. Specifications 30" Fans High Efficiency Models MODULE LETTER CODE FAN SUR• FACE ONE FAN WIDE HP RPM DIAM RACE TUIlES F 1 850 30 11 34 0 1 850 30 '/, 28 TWO FANS WIDE V 1 850 30 34 2x34 W / 850 30 'h 2 x 28 LCV-VERTICAL UP AIR DISCHARGE LCH-HORIZONTAL AIR DISCHARGE TOTAL HEAT OF REJECTION CAPACITV --STUN (000 OMITTED) MODEL MODULE RATING BASED ON 85.110°F ENTERING AIR TEMPERATURE TD I9 SATURATED CONDENSING TEMP MINUS ENTERING AIR TEMP MAX WEIGHT INCL m+ rrma ROW DEPTH FINS/INCH 10 R22 7D 18 20 29 10 R4041, RSOTA TD 15 20 29 ^m FLOW CFM FLOOD CHARGE LBS. FLOOD CHARGE LBS. AVAILABLE CIRCUITS ONE FAN WIDE F•2310 114.0 171.0 228.0 285.0 110,9 188.4 221.0 277.3 21,938 44 605 34 F•2312 120.5 100.8 241.0 301,3 117.2 178.9 234.5 293.1 21,800 44 645 34 F•2400 120.6 109.8 253.0 318.3 123,1 184,8 248.2 307.7 20,925 80 710 34 F.2410 133.0 1991 200.0 332,6 129,4 194,1 250.0 323.5 20,250 60 730 34 F,2412 138,5 207.0 277.0 348.3 134.8 202.1 269,5 338:9 19 774 80 770 34 F.3310 171,0 258,6 342,0 427.8 100A 249,6 332,8 410.0 32,900 66 920 34 F•3312 101,0 271,6 3821 462.6 176,1 264.2 3522 440.3 32,400 60 050 34 F.3400 100.0 205.0 230.0 476.0 1041 277,3 389.7 402.2 31,388 90 1,020 34 F•3410 199.8 299,3 300.0 408.0 104,1 2012 3882 486,3 30,378 00 1,050 34 F.3412 200,0 3121 418.0 620,0 202,4 3031 404,0 600,0 20,010 00 1,080 34 .anit F.4310 220,0 3421 480.0 870.0 221.0 332,0 443,7 664,0 43,076 00 1,100 34 F•4312 241,0 3011 402:0 602,8 234,8 361,7 400,0 600.2 43,200 00 1,220 34 P4400 2831 3701 800,0 632:6 240:2 3613 402,3 616:4 41,860 120 1,360 34 F•4410 206,0 300:0 532:0 6064 260.0 380:2 517,0 0471 40,800 120 1,400 34 F•4412 277,6 4113 656.0 003:0 270:0 408.0 540.0 0751 30,488 120 1440 34 05400 022.6 403,0 045,0 000.3 313,6 470,7 027,0 704,5 63,160 220 2,170 20 00410 346,0 617,6 090.0 UO2 ,6 336,7 6031 671A 830.2 52,734 220 2,270 20 0.5412 357.8 6313 716.0 093.0 347,0 621,0 605,7 8801 02,313 220 1330 20 0.0400 3071 580,5 774,0 007,5 370:0 604,0 753,1 041.4 63,700 200 2,610 20 0.0410 414,0 621.0 020:0 1,0351 402,0 004,2 805,0 1,007,1 63,201 260 2,060 20 06412 420,0 043.6 050,0 1,072,6 417,4 020,1 634,0 1,043,5 62,775 260 2,720 20 TWO FANS WIDE V.4310 2201 3421 4601 570,0 221,0 332,0 443,7 664:0 43,075 06 1,100 68 V.4312 241,0 381,5 4021 002.6 234,0 351,7 460,0 680.2 43,200 60 1,230 08 V•4408 2531 378,6 6001 032,5 240.2 309,3 492,3 616,4 41,050 120 1,300 00 V.4410 2001 399,0 6321 005:0 250,0 380.2 617,0 647,0 40,600 120 1,400 00 V4412 277,0 415,6 6544 0921 209,5 404,3 530,0 0731 39,400 120 1,440 00 V4310 342,0 6134 684,0 0561 332.0 409,1 005.5 031,9 66,013 132 1,010 08 V•0312 3021 6431 7241 905,0 352.2 528,3 704,5 8800 64,000 132 1,040 08 V•6408 380,0 570,0 7601 0501 369,7 554.0 739.6 924,4 62,775 100 2,709 00 V•6410 3990 598.5 7981 097,5 388:2 682,3 7715 070,6 00.750 109 2,100 08 V4412 416.0 624.0 832.0 1,040.0 404,0 607.2 009.5 1,011,0 59,231 100 2,160 60 V•6310 456.0 684.0 9121 1,1401 443.7 665.5 007.4 1,109.2 87,750 170 2,380 68 V•8312 482.0 723.0 9641 ,1205.0 469.0 703.6 038.0 1,172.5 06,400 176 2,460 08 V•8408 506.0 759.0 1,012.0 1,265.0 492.3 738.5 904,7 1,230.0 83,700 240 2.670 68 V•8410 532.0 708.0 1,064.0 1,330.0 517,6 776.5 1,035.3 L294.1 61,000 240 2,800 08 V•8412 555.0 832.5 1,110,0 1,387.5 540.0 810.0 1,080.0 1,350.0 78,976 240 2,880 68 W10400 0451 967.6 1290.0 1,612.5 6271 941.4 1,2552 1,569.0 106,313 440 4,340 56 W.10410 690.0 1,035.0 1,380.0 1,725.0 671,4 1,007.1 1,342.7 1,678.4 105,469 440 4,540 56 W.10412 715.0 1,072.5 1,430.0 1,787.5 695.7 1,Q43.5 1,391.4 1,739.2 104,625 440 4,700 56 •12408 774.0 1,161.0 1,548.0 1,935.0 753.1 1,129.7 1,506.2 1,882.6 127,575 532 5,240 56 W.12410 828.0 1,242.0 1,656.0 2,070.0 805.6 1,208.5 1,611.3 2,014.1 126,563 532 5,350 56 W.12412 858.0 1,287.0 1,716.0 2,145.0 834.8 1,252.3 1,669.7 2,087.1 125,550 532 5,470 56 Specifications 30" Fans High Performance Models MODULE LETTER CODE ONE FAN FAN TUBE FACE WIDE HP PPM DIAM DIAM TUBES J 1'i4 1140 30 IA 34 Y 1'h 1140 30 '/y 28 TWO FANS WIDE K 194 1140 30 i4 2x34 z 11 1140 30 'A 2x28 LCV-VERTICAL UP AIR DISCHARGE LCH-HORIZONTAL AIR DISCHARGE TOTAL HEAT OF REJECTION CAPACITY-BTUH (000 OMITTED) LC MODEL RATING BASED ON 85.11 ST ENTERING AIR TEMPERATURE TO IS SATURATED CONDENSING TEMP MINUS ENTERING AIR TEMP MAX WEIGHT INCL NU FANS ROW DEPTH FINS/INCH 10 R22 TD 15 20 25 10 R404a, R507a TO 15 20 25 .Im FLOW CFM ri.wv CHARGE LBS. rLwu CHARGE LOS, AVAILABLE CIRCUITS ONE FAN WIDE J•2310 127.7 1916 255.3 319.1 124.2 186.3 248.4 310.4 20,688 44 825 34 J•2312 1392 200,7 278.3 347.9 135.4 203.0 270,7 330.4 20,218 44 046 34 J•2406 148.1 219,1 292.1 305,1 142.1 213A 284.2 355.2 27,330 80 730 34 J•2410 163.0 229,4 306,9 382.4 148.0 223,2 297,8 3721 20,494 00 750 34 J -2412 169.9 239.8 319,7 3991 156.6 233.3 311.0 300.8 25,820 60 770 34 J•3310 198,7 295.0 393.3 491,8 191.3 2074 382,0 470.3 43132 80 950 34 J•3312 200,2 312,2 418,3 620,4 202,6 303,7 406.0 500,2 42,324 60 900 34 J•3400 218,6 327.7 437,0 648,3 212,6 310,0 425,1 631.4 41,007 90 1,050 34 J•3410 230.0 345.0 4801 678,0 223.7 336,8 447.6 550.4 39,741 00 1,080 34 J•3412 230,2 358.0 470,4 600,0 232,7 340.0 405.4 501.7 30,730 90 1,110 34 .__ 111111=11 _ J.4310 202,2 303,3 524,4 665,8 265,1 382.6 510,1 637,7 57,370 00 1,230 34 J4312 277,2 415,7 554,3 602,0 200,0 404,4 530,2 0741 80,432 00 1,260 34 J•4400 201.0 436,4 601,0 727,4 203,0 424,0 608,1 707,6 64176 120 1,400 34 J4410 306,0 468,0 011,0 704,7 207.6 440,4 606,2 7431 62,000 120 1,440 34 J =4412 310,8 477,0 037,1 700,4 300,0 4841 010,0 774,7 81,840 120 1 400 34 Y4400 371,5 657,2 742,0 020 0 301,3 842,0 722,7 003.4 00,345 220 2,220 20 Y4410 300.0 506.1 703.6 001.0 300.0 570,0 771.0 004,0 00,236 220 2,320 20 Y•4412 411,7 517.0 023,4 1,020.2 400,6 000,0 001.0 1,001.3 64,560 220 2,380 20 Y•6408 446,1 6071 090,1 1,1121 432,0 640,4 005.0 1,002,4 02114 200 2,670 28 Y4410 476,1 714,2 0622 1,190,3 463.2 004,7 020,3 1,167,0 70,402 206 2,720 20 Y•0412 403,4 740.0 000,7 1233,4 470.0 710,0 050,0 1,100,0 77,400 200 2,780 20 TWO FANS WIDE �, ti ~ .._ ._ 055.6 ... ._ 510,1 _ 637,7 _ s.. _ ,_. 57,370 _ ._..e ._M_ 00 �..,.. -...._ 1,230 00 K'4310 202,2 393,3 524,A 255,1 382,0 K•4312 277,2 416,7 664,3 002,0 209,6 404,4 630,2 074,0 60,432 00 1,270 00 K•4400 201,0 430.4 081,0 727,4 2831 424.0 600,1 707,0 64,670 120 1,400 00 K'4410 306,0 460,9 011,0 704,7 297,0 440.4 696,2 743,0 82,088 120 1,440 08 K•4412 3104 4771 037,1 790,4 309,0 464,0 610.0 774,7 61140 120 1,480 00 K.8310 303,3 500.0 700,0 003.3 382,6 6734 705,2 050,5 80104 132 1170 60 1(4312 410,3 024,6 032,0 1,040.8 405,0 007,5 010,0 1,012,4 84148 132 1,030 00 K4400 4274 055:6 874,0 1,092.6 426,1 037,7 850,2 1,002,0 02,014 180 2000 08 K4410 400.9 008.3 917.7 1,147.1 440,4 009.0 892,7 1,116,9 70,482 189 2,100 08 1(4412 470,4 717,0 950.0 1,190.0 465,4 098.1 930,8 1,1031 77,400 189 2.220 68 K4310 524.4 780,1 1,048.8 1,311.0 610.1 765.2 1,020.3 1,275.3 114,752 170 2,400 09 K4312 664.3 831.6 1,108.0 1,385.7 539.2 808.0 1,070.4 1,348.1 112,864 170 2140 60 K-0408 581,9 872.9 1,163.0 1,454.0 560.1 849.1 1,132.1 1,416.2 109,352 240 2,750 08 K•410 011,8 017.7 1,223.6 1,5291 595.2 892,7 1,190,3 1,487.9 105,976 240 2,880 60 K•8412 638.3 957.4 1,270.6 1,595.0 020.9 931.3 1,241.8 1,652.2 103,280 240 2,960 88 Z•10408 7411 1,112.0 1,483.5 1,854.4 721,6 1,082,4 1,443.1 1103.9 135,690 440 4,440 56 Z•10410 703.5 1,190.3 1,587.0 1,983.8 771.9 1,157,9 1,543.8 1,929.8 132,470 440 4,640 50 Z•10412 822.3 1,233.4 1,644.5 2,055.6 799.9 1,199.8 1,599.8 1,999.7 129,100 440 4,700 66 Z•12408 890.1 1,355.2 1,780.2 1,225.3 885.9 1,298.8 1,731.8 2,164.7 164,028 532 5,350 56 Z•12410 952.2 1,428.3 1,904.4 2,380.5 926.3 1,389.5 1,852.6 2,315.8 158,964 532 5,470 56 Z•12412 986.7 1,480.0 1,973.4 2,466.7 959.9 1,439.8 1,919.7 2,399.7 154,920 532 6,580 56 , 30" Fans n HEADER END VIEW SIDE VIEWS 1 FAN WIDE 2 FANS LONG 3 FANS LONG 14(1) IN • • ❑ 12 IIIIII 0 • 1- -__ . A l �- - a 9 -- e LV ' I__4_1 —i.---9 A 2 FANS WIDE 4 FANS LONG L 1 IN n © 11111111ftli n , !1 1 A A L w 5 FANS LONG Ii.1 I III A g A 8 FANS LONG '' I r.a __ __. _. L MODEL DIMENSIONAL DATA ELECTRICAL DATA (3) CONNECTIONS (4 OVERALL 4' LEO ANCHOR FAN MOTORS 1% NP 1140 RPM 3PH SOHZ 00 MOOUEL INCHES BOLT HOLE CENTERS TOTAL RATED FULL LOAD AMPS INCHES NO FANS L W H(1) A S 0 20111230 4.0 3110/50 INLET • OUTLET a 112 40 66 100 — 44 14,0 74 7,0 1% • 1% J3 (2) 180 40 66 102 — 44 214 10,5 10,6 2% • 214 J4 220 40 05 100 — 44 20,0 14,0 14,0 2'h • 2'A Y8 274 40 60 100 04 44 354 17.6 17,6 2% • 2% Y6 328 40 60 100 — 44 42.0 21,0 21,0 2%•2% K4 112 90 65 106 — 02 20.0 144 14,0 (2) 1%• I% K8(2) 180 90 55 — 54 02 424 214 21,0 (2) 2' • 2'A 1(8 220 90 66 100 — 92 60,0 28,0 20,0 (2 2'4.2'% Z10 274 08 68 108 4 92 70,0 35,0 36.0 (2) 2% • 2/ Z12 328 96 58 108 — 02 84,0 42,0 4 , . 2 2% • 2% _ ,•,,, DIMENSIONAL DATA ELECTRICAL DATA (3) CONNECTIONS (4) OVERALL 1'11• LEO ANCHOR FAN MOTORS 1 HP HO RPM 31416011s 00 MODUEL INCHES BOLT HOLE CENTERS TOTAL RATED FULL LOAD AMPS INCHES NO FANS L W 1(1 A B 0 200 230 460 117i 360/110 INLET • OUTLET F2 112 40 65 108 — 44 08 0,0 4,0 3,6 4,6 1% • 1% F3 (2) 180 48 65 182 — 44 13,2 12,0 08 5,4 0,9 2% • 2% F4 220 48 55 108 -- 44 17,0 10,0 8,0 7,2 02 2'h • 2% 05 274 48 58 100 64 44 224 204 10,0 0,0 11.5 244.2% 06 328 48 68 108 — 44 20,4 24,0 12.0 102 13,6 2% • 2% V4 112 96 55 108 92 17.6 16,0 0,0 7.2 9.2 (2) 1%• 1% V6 (2) 166 96 55 —. 54 92 20.4 24.0 124 10.6 13.8 (2) 2%. 2% V8 220 96 55 100 — 92 35.2 32.0 10.0 14,4 10,4 (2) 2'% • 2'% W10 274 06 68 108 54 92 444 404 20.0 18.0 234 (2) 2% • 2% W12 328 90 50 108 92 52.0 48,0 248 21,6 27,0 (2) 2% • 2`h VIIIIINIIMINI (1) H dimension includes 22 ", field assembled legs. Add 20" foroptional42" legs. (2) Model 1 x 3 has 4 legs • 2 x 6 has 8 legs, (3) Min unit circuit amps = 1.25 x FLA of one motor + FLA or remaining motors. (3) Min unit overload protection = 2.25 x FLA of one motor+ FLA of remaining motors. (3) Variable speed motors and control- contact factory. (4) Connections are approximate. Exact size Is determined by computerized circuiting program. H (horiz. air disch.) dimensions, fantrol location, and unit support - contact factory. Q Standard fantrol location. (_YjOptional fantrol location -must be specified. USE CERTIFIED DRAWINGS FOR CONSTRUCTION Application Locate Condensers no closer than their width from walls or other condensers, Avoid locations near exhaust fans, plumbing vents, flues or chimneys, Parallel Condensers should be the same models resulting in the same refrigerant side pressure drops. Compressor discharge lines should have equal pressure drops to each condenser. Condinser Charge will approxi- mate 30% of the maximum flooding charge listed under "Specifications' for summer design conditions. Low ambient head pressure controls require an additional charge which Is difficult to predict with fan cycl- ing and is maximized with holdback. Receiver Capacity should be adequate to store the condenser summer charge, plus the conden- ser low ambient allowance, plus the evaporator pumpout charge, plus an allowance for piping and heat reclaim coil charges. Receiver Equalizer lines must be free of traps and be connected to the top of condenser liquid outlets — not the Inlet. Equalizers should not be used with holdback controls. Non•Condensables In operating systems are best collected at the condenser Liquid outlet. Use a tee on the horizontal outlet with a purge valve located on top of a 12.18 Inch high, full size, vertical extension. Compressor Discharge lines should be sized to minimize pres- sure drops and maintain oII return gas velocities. Each connection should be looped to the top of the condenser. Gravity Liquid Drain lines should drop from each outlet as low as possible before headering or run- ning horizontally. Pitch downhill to the receiver. Off-The-Line Coil Sections will have refrigerant pressures corre- sponding to the ambient. Check valves or isolating valves should be installed in the liquid drains to prevent refrigerant migration and receiver pressure loss. Liquid-Sub-Cooling may be accomplished with a section of circuits In the coil or with a separate coil section under the last operat- ing fans, Liquid outlet temperature will approach the entering air tem- perature by approximately 6 °F, Benefit is not economical unless TD Is 15 °F or higher. Soo Installation 8 Operating tnstruc• Lions for piping, holdback and fan cycling details. REF RIIOER ANT LINE CAPACITY DMA COPPER LINE LINE CAPACITY IN TONS P. DISC' ROE ' E CO Co TO REC R LBO OP REFRIQ LIQUID PER 100' co SIZE R 22 R404a R134a LIQUID LINE OP LENGTH O, . , 100' 200' 100' 200' 100' 200' R 22 R404a R134a R22 R404a R1341 34 1,6 1.0 1,0 0,0 1,0 0,5 3,0 3 3.7 13 1 1J % 4 3 3 2 3 2 7.4 0 7,7 25 22 20 114 10 0.5 7 4 0,0 4,0 12,7 10.4 13.0 42 30 43 134 20 15 10 7 12 7 10.2 10 20 04 55 05 144 30 20 20 15 20 11 20 23 28,5 90 78 92 2% 05 46 45 30 42 28 47 40 40 100 138 103 214 90 75 75 45 55 43 73 02 72 245 212 250 • Capacity Is compressor suction tons for application between •40° F and +40° F suction at condensing temperatures between SO° F and 120° F sat, • For multiple or unloading compressor application, the vertical discharge riser from the compressor may need to be one size smaller. • This table data is only to be used as a guide. For exact values, please calculate to your specific fob line lengths and design pressure /temp values using ASHRAE handbook or ARi refrigerant tables, W 1 g Low Ambient Head Pressure Control As the ambient ttemperature drops, condensing pressure is lowered proportionately. Evaporators require a minimum pressure differ- ential between liquid feed pressure and saturated suction pressure for thermostatic expansion valve and distributor performance. Condenser coil surface must be reduced to maintain head pressure. cycling fan motors, flooding the coil with refigerant, isolation part of the coil surface, or a combination of the above will maintain minimium head pressure. Standard Fan Cycling Control Panel Arrangements 10 Excess low ambient refrigerant charge will be minimized by manu- ally isolating and pumping out entire condenser of the right half of double fan width models. Holdback flood- ing control or gravity discharge dampers may be used on the remaining condensing surface. • Thermal Fantrol - Electronic temperature control cycles fans In response to entering air tempera- ture. Set points and differential for each step is adjustable. • Pressuretrol- Electronic pressure control with single point pressure transducer cycles fans In response to condenser pressure. Set points and differential for each step is adjustable. • Thermal Pressure Fantrol -Elec- tronic temperature control cycle fans in response to entering air temperature, except for header end fan. Header end fans are controlled by pressure control. • Variable Speed Control- Header end fan(s) are controlled with a speed controller in response to head pressure. Electronic pressure control cycles the balance of fans. • Fan Cycling Sequence -Fans aro cycled off individually or side by side pairs In sequence from the end opposite the header to the header end. Header end fans run continuously If compressors are operating. Control Panel • Standard weather resistant enclosure Is mounted on the left side when looking at the headers. Other locations optional. • Control power is 115 or 230 volts. A transformer is factory installed when required. • Fan contactors with branch circuit fuse protection. Each motor or bank of two motors protected by fuses, • For horizontal airflow applica• tlons, consult factory. • Disconnect not Included, but may be required to meet local codes. Optional Arrangements • Fan motor contactor and fuses only. • Fan motor contactors and fuses only which operate via a customer specified solid state board. Circuit board is factory mounted and wired. • 50/50 spilt with two fan wide models. Each side is controlled separately with individual control panels on each side. • 50% winter reduction with two - fan wide models. The right side fans are isolated in winter. Fans are locked out via a relay or switch during shutdown. *01( ah .".:CHyole• tontnit:Wiongf.: THREE PHASE PILOT CIRCUIT ELECTRICAL CONTROL MOTORS INDIVIDUALLY CYCLED !NNW FAN WIDTH MOOULga ammommaso emummammi Pi MINIMINIIIMIN all1111. 1 1 • • • • •1! 11 It 1 0 Nu 4.11" 4rusj. 44 =if MOTORS CYCLED IN BANKS OF TWO NUN., FAN WIDTH A100(11,111 A, Pesos or Optional Circuit breaker U Fan M0101 ConUsctar 12, T01611111 IRO 0, Fan Motor g, Prelim or Tornperature Control F Control Circuit Pews 0, Control Transformer Mn (W Required) All EXCEPT Al l el ALL Wo !9,s ,rvo 0,19",0 ght tQchdtii or twy 0Q ,, peclticatlp( and product dc i$10.6 in aonneution Witti uny !)store o1 our products, Such. changes do not entitle tho l uyar to cot[eta�Qndin9 changes, tmprovcnrnts, udditluns ar (eptacomants for oquiptnant previously gg ar shipped. .: 94Q12M z .6 U UO UU �W wo co d Z� W 2• p § 92' w V Lt. PA — III r r 1 ru: r�� IS IL At k TECHNICAL DATA BTR SERIES BETWEEN- THE -RAIL UNIT COOLERS 20.50 SERIES BTR C 12.4 DX F22 A 11.41 SERIES BTR j 318 I RBI A HOU CU /AL COIL - --� (Omit C for Steel) NO. FANS COIL ROW DEPTH REFRIGERANT FEED DX- Direct Expansion RT- Recirculated Top Feed RB- Recirculated Bottom Feed FL- Flooded 8-Brine REFRIGERANT A- Ammonia F- Halocarbon R -22. R -507. R -404 TYPE OF DEFROST A -Air or Off Cycle (Room above 36'F) HGC -Hot gas coil only (Room above 32'F) HGU -Hot gas coil and rain pan ED- Electric defrost coil only (Room above 32 °F) (Limited to Models 24. 26. 34 & 36) Catalog 11 /96 -MFwi6fArr. P. 1 .•4 n INDUSTRIAL WHY THE 210 CENTURY WILL BE REALLY COOL. t:j2 BTR SERIES BETWEEN-THE-RAM HE -RML UNIT COOLERS STANDARD FEATURES Efficient Coil Design Coils are constructed with staggered 5 /8" 0.0. tubes and four fins per inch spaced with Turbo - Spacers. that are located between tubes to provide nominal fin spacing and improve fin efficiency by turbulating the air flow. • Steel coils, including internal framing, are hot dip galvanized after assembly. • Copper tube aluminum fin coils are supplied for halocarbon applications. • Copper tube aluminum fin coils cannot be used for ammonia applications, Housing BTR housings are constructed of corrosion resistant stainless steel. Side panels are removable for easy coil access. Drain Pan Designed for full coverage, stainless steel pans are insulated with foamed-in-place polyurethane. Pans have stainless steel bottom covers and are shipped loose for field mounting, The "colless" waffle design of Krack's exclusive hot gas defrost pan contributes significantly greater efficiency in the defrost cycle. The entire pan surface Is in contact with hot gas, eliminating cold spots and assuring instant warm-up. HGU drain pans need to be pipes in series with the evaporator coil, A pan to coil checx valve is usually required (supplied by others). Options: • Hot dip galvanizer, steel coils with brass distrib- utors for halocarbon DXF feed. • Hot gas reheat employing two rows of prime surface or two rows with four FPI --air gap separated from the refrigerating surface. Height dimensions may increase, • Variable fin spacinq—bottom two rows have two FPI remainder a ,c 8 row depth models only). Not recommendea for DX feeds. • Nema 4 factory mc'jnted fan motor disconnect. Accessories: • Thermostatic Expansion Valve (TE` /). liquid line solenoid valve. sight glass, and suction liquid heat exchangers for halocarbon systems. • Electric defrost control panels. • Pan to coil check valves for HGU (shipped loose). Fans & Motors BTR 20, 30, 40 & 50 Series: • Single -phase 50-60 Hz for 115 or 208/230V. • 1/6 HP— Totally Enclosed (TEAO). • Two -speed 1100/830 RPM -- tapped winding capacitor start. • Internal overheat protected. • Factory wires to one common stainless NEMA 1 junction box. • 18' propeller fans have plastic blades with aluminum hubs. Fan sections are compart- mented at each unit hanger, BTR 11, 21, 31 & 41 Series: • Three-phase 50.60 Hz for 208/230.460 or 380V, • • 1/2 HP-1-Totally Enclosed (TEAO). • Single -speed 1140 RPM. • Internal overheat protected —all 3 phases. • Factory wired to one common stainless NEMA 1 junction box. • 30' propeller 'ens have plastic blades with aluminum hubs. Fan sections are compartment- ed at each unit hanger. • OPTIONAL: ' 2 HP two-speed, 1140/850 RPM, two-winding, TEAO, with 3•phase internal overheat protection, Model BTRC 24 & 26 34 & 36 ELECTRICAL DATA Motor Amps 116V 230V Heaters Watts Amps 230V 230/3 208/3 5.6 8,4 2.5 3.8 4800 7200 12,1 13.9 18.1 20.9 BTU SERIES BETWEEN-THE-RAIL -RAIL UNIT COOLERS ENGINEERING DATA Between- the -Rail unit coolers are ideally suited for carcass chill and holding coolers; assembly and snipping docks; boning, cutting and packaging rooms; sausage kitchens; any space above 15 °F where people work. Air Distribution At distribution is four way at the ceiling level. Air throw radius is 20 to 30 feet. The umbrella effect minimizes drafts. Locate units in the center of the bays or on column lines so that the air discharge path is not =nee. b'y piping, walls, or other structural CoIIs Maximum heat transfer is achieved by staggering 51E' D.D. tubes and spacing fins at four per Inch with Turbo - Spacers. • Coils for ammonia or calcium chloride brine are constructed with steel tubes and fins and are hot dip galvanized after fabrication. • Copper tubes with aluminum fins are used with halocarbons, water and glycols, • Coll circuiting Is available for direct expansion, flooded, recirculated top or bottom feeds, brines or heat reclaim, Material of Construction • Hot dipped galvanized steel tube and fins, • Copper tube /aluminum fin. Rating Data Each coil Is engineered for maximum efficiency for its designed specific application, • Capacity Is listed in BTUH /°F TO sensible heat removal with a TD less than 20 °F Unit coolers will absorb the total refrigeration load consisting of both sensible and latent heat if the TO Is adequate for the CFM, • TO Is the temperature difference between room or return air and coil saturated suction temperature. • Flooded ratings are the same as recirculated, Capacity Derate Multipliers • 50 Hz Electrical Power—.88 • 2/4 Variable Fin Spacing; 6 Row Models --• .85 8 Row Models -- .89 Fan Motor Heat Fan motor heat is not included in the rating. • Add 4,000 BTU/HP to the load estimate. Sound. Level Sound level represents the relative sound-pressure in decibels on the 'A' scale when measured six feet horizontally from the unit, Actual sound Isvel measured in the field is dependent upon unit location, room size, and height and surface "hardness" of walls, ceiling and product. :till. " ANINEMINIMMIS Refrigerant Feeds Liquid Recirculated Systems: • Top feed (RTF or RTA) should be used with air defrost and can be used with hot gas defrost. Orifices in each liquid circuit balance the refrigerant flow. Hot gas must pass through the 4flfices extending defrost time, Multiple evaporators defrosted with one hot gas defrost control group can be piped with three lines using a dual pressure regulator In the suction. • Bottom feed (RBF or RBA) Is recommended for rapid defrost since hot gas flows into the non orificed suction header. Liquid and oil Is forces downward, back - flowing the orifices into the liquid header. Liquid overfeed rate should be 3 to 1 for ammonia, and 2 to 1 for halocarbons, Direct Expansion Systems: • Direct expansion systems require thermostatic expansion valves (TEV) with external equalizers. BTR units are provided .:ith orificed distributors. Remove the discharge tube or orifice from the ammonia TEV before installing, otherwise excessive pressure droo will occur causing liquid starvation. • DXF and DXA feeds for not gas aefrost are provided with a header which by-passes the distributor capillaries. H:t gas is supplied directly to the header c- riGC models and ft: T. the drain pan through a check valve on HGU models. Halocarbon 2•pipe hot gas defrost CAI BTR SERIES BE'l[^f]VFE"N -1. HE -RAIL UNIT COOLERS ENGINEERING DATA (continued) systems. employing liquid depression. use the by -pass header to relieve the coil through a check valve bypass around the TEV and LLSV. Water Defrost Spray Water aefrost spray headers are available on BTR 20 through 50 series models, Unit heights are increased and the NON - INSULATED drain pan is wider with an oversized drain connection. Brine Refrigerants Cone &factory. • Provide brine type, concentration, GPM and temperature, • Provide room temperature and recurred BTUH capacity. Fan Motor Electrical Control Since BTR motors have internal overheat protection, multiple motors and units may be cycled with one control. N.E.C. restricts parallel motor total ampaclty to 15 amps for 208 through 480 volts and 20 amps for 120 volts. Single-phase 1/8 HP, series 20 through 50 units can be controlled with manual 2-speed starters, Relays or contactors, used with automatic hot gas defrost, should be arranged not only to cycle motors, BUT TO RESTART MOTORS ON THE HIGH SPEED WINDING. Design must not allow both the high speed and tne low speed windings to be energized at the same time, Three•onase. 1/2 HP, series 11 through 41 units with single•soeed motors can be controlled with conven- tional contactors. Two -speed motors are six lead, two winding type, protected with Internal overheat protectors. Normal starting methods can be used, When factory wired to one common junction box, motors are factory operated for proper rotation. Halocaroon DXF systems should have liquid line solenc'; s interlocked so tne,, are de•energizeo when unit cooler fans are off. This is not requires when compressors are protected with suction traps. Low Humidity Applications Low relative humidity conditions in medium temperature spaces have been achieves with high TD coil designs coupled with variable air : olume or reheat to maintain space temperature. Single -phase Motor Air Volume Control Methods: • Two -speed controlled by 2-stage thermostat • Infinite speed control of multiple units. Contact factory for control panel details, Three -phase Motor Air Volume Control Methods: • Cycling some single speed fans in one or more units as room temperature drops. Coil surface under off -fan continues to refrigerate dehumidi- fying air by convection. Soft coil frost must be removed with normal hot gas cycle or by restarting fans for air defrost cycles. Motors will be wired to individual junction boxes. • Factory mounted line voltage thermostat with sensing bulb in an operating fan return air stream, cycles one or two fans on BTR 31 and 41 series units. Allows automatic fan cycling with single -speed motors using one three pole contactor to control one or more units. A 5'F change in return air temperature is required. Recommended for 35 °F -55'F docks cr work spaces with liquid recirculated feeds, Arrange for defrost as above. Reheat Methods Include: • Two-row 4 FPI, air gapped hot gas reneat coil, Unit height increases. • Two -row, prime surface, hot gas reheat coil, Unit height remains the same for total rows required, Variable air volume or reheat low humidity applica- tions require continuous coil operation wstn 15 to 25 °F TDs. Coil frosting may require defrost cycles to oe manual or be autornat:cally scneauled accordance with space operations sucn as after clean-up cycles. BT SEtu s BETWEEN -q HE -RAIL UNIT' COOLERS PERFORMANCE DATA Air Data Approx, BTR Rows BTRC Deep . -- r- - -•, - • Hi Speed - -• - - - Lo Speed 2870 - -•• -r.... 2435 Fans No /HP Sound Level db(A) arnPPmg Weight (Ibs.) Face Surface Coil Ft.2 Ft.2 Vol. Ft.' , CFM @ CFM @ Hi•RPM Lo•RPM DX Rec. DX Rec. Steel CU /AL 24 4 3650 2000 2360 ' "00 1900 9.9 468 0.54 4000 3000 2.116 66.5 580 420 26 6 2950 2600 29002:80 2340 9.9 705 0.81 3900 2900 2.1/6 67.0 710 470 28 8 4120 3000 3300 2440 2600 9.9 938 1.08 3700 2800 2.1/6 67.5 860 510 34 4 6100 22000 3540 ::.50 2850 14.9 703 0,79 6000 4500 3.1/6 67.5 850 610 36 6 20.8 3900 4350 3270 3500 14.9 1055 1.19 5850 4350 3.1/6 68.0 1040 670 38 8 1524 4500 3270 3500 5850 14.9 1408 1.58 5550 4200 3.1/6 68.5 1300 740 44 4 : 4000 4720 3400 3800 19.8 946 1.16 7980 6000 4.1/6 68.5 1140 830 46 6 ' 5200 5800 4360 4680 19.8 1422 1.74 7780 5800 4.1/6 69.0 1400 920 48 8 ; 6000 6600 4880 5200 19,8 1895 2,30 7380 5800 4.1/6 69.5 1700 1020 54 4 ! .;000 5910 4260 4760 24.8 1186 1.69 10020 7500 5.1/6 69.0 1400 1000 *56 6 35.0 5500 7260 8460 5850 24,8 1780 2.54 9770 7250 5.1/6 69,5 1730 1100 58 t3 "500 8270 6110 8510 24.8 2370 3.36 9270 7000 5.1/6 70,0 2160 1220 2•Speeo Ootlonal 114 4 2430 2870 :300 2435 10,4 508 0.56 6000 4500 1.1/2 77.5 650 450 116 6 3150 3650 2630 3050 10,4 762 0,84 5700 4270 1.1/2 78.0 800 550 118 8 ' 3840 4120 2950 3340 10.4 1016 1 11 5400 4050 1.1/2 78,5 950 650 214 4 4860 5740 4120 4870 20,8 1016 1,11 12000 9000 2.1/2 79.5 1180 870 216 6 6300 7300 5260 6100 20,8 1524 1.67 11400 8550 2.1/2 , 80,0 1480 1050 218 8 -280 8240 ,: 00 6680 20.8 2032 2,23 10800 8100 2.1/2 80,5 1800 1150 31 4 4 '300 8610 :200 7310 31.3 1524 1,67, 18000 13500 3.1/2 820 1730 1280 316 u 3450 10960 ' 900 9150 31,3 2288 2.5,1 17100 12820 3.1/2 82.5 2060 1490 318 8 '1920 12440 3840 10075 31,3 3048 3,34 18200 12150 3.1/2 83.0 2550 1830 414 %720 11460 :240 9740 417 2032 2,22 24000 18000 4.1/2 84,0 2100 1600 416 6 ' 2600 14600 1:320 12200 41 7 3048 3.34 22800 17100 4.1/2 34,5 2800 1940 418 8 ' :560 16480 1 ' EX 13360 41 7 4064 a 46 21600 16200 4.1 /2 35.0 2500 2100 ORDERING INFORMATION When Ordering, Please Specify • Quantity a -o complete moan: number • SST- 33,,,7a:ed suction tem:3•ature • Room tee^'csrature • Fan mow . :stage • Heater '. ; :age (if applies) • Control ti„ :age • Options accessories • Sub•cc^ f.7 Duid -DX feet Krack reserves the right to change or revise specifi- cations ana cr :auct design in cc ^ ^ectron with any 'nature of ti:. • :7.aucts. Such changes co not entitle the c:.yer to correspond- ing changes. Torovements. addir :cns or replace- ments for ecu:oment previously sc:a or shipped. Model Key 20480 SERIES OTR C , _ . 4 1 OX I :22 1 A 1141 SERIES QTR , 318 I RB i 4 1 HOU CU /AL COIL (Omit C tar Meals NO. PANS COIL ROW OEPTH REFRIGERANT PEED - ---- -- OX- Direct Expansion RT- Recirculated Top Feed RD- Recirculated Bottom Feed FL- Flooded 0-Brine REFRIGERANT A- Ammonia F.Halocaroon R•22. R•507. R.404 TYPE OF DEFROST A -Air or Otf Cycle (Room aoove 36"Fe HGC -Hol gas coo only (Room aoove 32 Ft HGU -Hot gas coil and dram pan EO- Electric intros! cod only !Room =we 32 (Limited to Models 21 26 24 & 3s. 1g BTR SERIES BETWEEN-)1 HE-RAIL UNIT COOLERS COIL CONNECTION DATA Contact factory for recirculated halocarbon or brine connections. 'SAE Male Flare Copper Tube -15'F TD Steel Coil --15 °F TD- Ammonia I Drain Pan BTR Model R -22 DXA Recirc. Flooded ; Drain FPT Hot Gas Dist. ODF Suct. O,D. Dist, FPT Suct. MPT Liq, Suct, MPT MPT Lib, MPT Suct. MPT Halocarbon Ammonia O.D. MPT 24 '1/2 1-1/8 1/2 3/4 1/2 1.1/4 1.1/2 1-1/2 26 '1/2 1-1/8 1/2 3/4 1/2 1-1/4 1.1/2 1.1/2 3/4 7/8 3/4 28 7/8 1-3/8 1/2 1 1/2 1-1/4 1.1/2 1-1/2 34 7/8 1-3/8 1/2 1 1/2 1-1/4 1.1/2 1-1/2 36 7/8 1-3/8 1/2 1-1/4 1/2 1-1/2 1.1/2 1 -1/2 3/4 7/8 3/4 38 7/8 1-5/8 1/2 1-1/4 1/2 1-1/2 1 -1/2 1-1/2 44 7/8 1.3/8 1/2 1-1/4 1/2 1-1/2 1 -1/2 1-1/2 48 7/8 14/8 1/2 1-1/4 3/4 2 2 2 1 1-1/8 1 48 7/8 2-1/8 1/2 1-1/2 3/4 2 2 2 54 .7/8 1.5/8 1/2 1-1/4 3/4 2 2 2 56 1-1/8 2-1/8 1/2 1-1/2 3/4 2 2 2 1 1-1/8 1 58 1-1/8 2-1/8 1/2 1.1/2 3/4 2 2 2 114 7/8 1-3/8 1/2 1 1/2 1 -1/2 1-1/2 1-1/2 118 7/8 1.3/8 1/2 1 1/2 1-1/2 1-1/2 1.1/2 1-1/2 1.1/8 1 118 7/8 1-5/8 1/2 1-1/4 1/2 1-1/2 2 2 214 7/8 1-5/8 1/2 1.1/4 1/2 1-1/2 2 2 218 7/8 2-1/8 1/2 1-1/2 1/2 2 2 2 1-1/2 1-1/8 , 1 218 1.3/8 2.1/8 1/2 1-1/2 3/4 2 2 2 314 1-1/8 2•1/8 1/2 1-1/2 3/4 2 2 , 2 318 1.3/8 2.1/8 1/2 1-1/2 3/4 2 2-1/2 + 2-1/2 ( 1.1/2 1-1/8 1 318 1-3/8 2.6/8 1/2 2 3/4 2 2-1/2 2-1/2 , 414 1-3/8 2.1/8 1/2 1.1/2 3/4 2 2-1/2 2.1/2 416 1-3/8 2.5/8 1/2 2 3/4 2-1/2 2.1/2 2.1/2 1.1/2 1•5/8 1.1/2 418 1.3/8 2.5/8 1/2 2 1 2.1/2 2.1/2 2-1/2 Contact factory for recirculated halocarbon or brine connections. 'SAE Male Flare BTR SERIES BETWEEN -1 HE -RAIL UNIT COOLERS DIMENSIONAL DRAWINGS r "A" 2.710..r 51.500 BTR 24.58 34.000 34.750 24.26.28 "A" 2.710 -.+" 117.000 3.250 4- 34.36.38 01.710 111.000 • • I 19.000 24.000 Alq 11000 ""+ 3, END VIEW (I) MOUNTING HOLES • 12000 All dimensions aro in Indus Hangar holes aro 8/8" dia. for 1/2" dia, rod hangers 00,730 2.750 —;+ 1.11 44.46.48 115.000 �--- -- 01.750 — ----- 34,000 ... —.—.— 01,760 —1 2780 "A" DIMENSION 22.000 24.34.44.54 25.000 26.36.46.56 28.000 28.38.48.58 54.56.58 DRAWINGS ARE FOR GENERAL REFERENCE- DO NOT USE FOR CONSTRUCTION PURPOSES. BTR SERIES BE - rHE -RAIL UNVV COOLERS DIMENSIONAL DRAWINGS CLEARANCE REOUIREO FOR FAN.M07OR REMOVAL `-00' 11.000 11.000 "A" 2.710 BTR -114 -418 0.000 4.75037.500 -7.750 114. 116. 116 11.500 2.500 35.500 2.500 9.000 1.750 111,600 7.750 1 N ■ 2.710 1 214.216.218 "1" 131.+ 1,750 115.500 n ,r,,.. wor■Ne ...r. 1.1111 ow - i120.750- 20.750 END VIEW All dimensions are In Inches Hanger holes are 5/8" dia. for 1/2" dia. rod hangers • u 11 11 11 L- 314.818.318 • 11000 14,750 1.000 77.000- - 151.600 7,750 2.710... 414.416.418 "A" DIMENSION 33.500 36,500 39400 114- 214.314414 116. 216- 316416 118. 218.318418 i+ -7.750 DRAWINGS ARE FOR GENERAL REFERENCE DO NOT USE FOR CONSTRUCTION PURPOSES, 11 ig BTR S-EH.IES BETVVEEIV -'I'HJ -RAIL UNIT Coori n.S Air Defrost (above +36 °F room temperature) • Units should oe selected at low face velocity (630 FPM or ess) to prevent mc;sture carryover. • Drain pan is aluminum for long :;te and corrosion protection. Foamed-in-place uretnane insulation and mill galvanized steel cover is optional, Electric Defrost BTRC•24, 26, 34 and 36 electric aefrost models: using halocarbon refrigerants, are provided with serviceable electric defrost heaters Located in fin grooves on the coil face. The drain pan is not heated, limiting applications to rooms above 32 °F. BTR•ED heaters are factory wired for 208V or 230/3/60. Fan motors can be 115V cr 208V- 230/1/60. Electric defrost is time - initiated by a remote time clock and temperature terminateo cy a factory mounted thermostat with fan starting delay. Remote control panels are available to defrost 1, 2 or 3 units at one time. Included are NEMA 1 enclosure, main disconnect, 115V control transformer, necessary contactors. 3 pilot lights, on- off switch, and time clock. Hot Gas Defrost Unit (below +32 °F room temperature) • The un;aue -waffle" (Krack exclusive; stainless steel drain pan allows for the fastest 'it gas defrost available. The design assures maximum pan heat in minimum time. • Drain pan includes foamed- in•place uretnane insulation with a stainless steel cover. • Hot gas defrost units are supplied witn a hot gas header which by- passes the capniaries for rapid defrost (DXA unit applications). Hot Gas Defrost Coil Only (above +33°F room temperature) • Hot gas defrost for the coil with an unneated aluminum drain pan. • Optional foamed -in -place urethane irsutatton with a stainless steel cover is available, • Hot gas defrost units are supplied witn a hot gas header which by-passes the capillaries for rapid defrost (DXA unit applications). BTR SERIES NOTES Z �w 6 U O • ° Ww • LL w 0 g u. _ �o w 2o § -(12 W Pg O Z r m' ao' c3 c� 0") Compact, easy fo maintain unit coolers for today's and tomorrow's refrigerants Compact Low headroom walk -in coolers and freezers call for a special breed of unit coolers. The new Htissmnnn HC Series is specially designed with a low silhouette that fits flush to the ceiling. You get more usable storage space for every walk -in application. Efficient, Easy to Maintain The HC Series is also specially constructed for high efficiency and ease of maintenance. Fifty- five models in a wide range of capacities from 3,900 to 37,200 I3TUH feature 12 -inch fans for more CFM per unit. Expertly crafted aluminum cabinets and drain pans are designed with easy -to -clean radiused corners. Flexibly Designed for Tommorow's Refrigerants Designed to be exceptionally flexible for today's applications and tomorrow's, HC Series coils are specially circuited for applica- 2 lions with new refrigerants its well as R -22. Distributors with interchangeable nozzle orifices optimize performance with all refrigerants. Standard Features • More models to precisely and economically meet super- market application needs • Pressurized, sealed coils with heavy- walled copper tube and rippled full collar aluminum fins • Compact, flush- mounted cabinets use only 15 -3/4 inches of headroom • Air, electric or gas defrost • 12 -inch fans for optimum air volume and uniform air delivery • Permanently lubricated, thermally protected motors • Die- formed patterned aluminum cabinet and drain pan with easy -to- clean radius corners • Electric defrost models feature efficient coil face heaters, drain pan heaters and is safety ther- mostat • Factory wired fan and defrost controls with convenient terminal strips • All models UL /c UL and UL classified to NSF standards • Rugged protective shipping carton exceeds transit specifications Options & Accessories • 115, 230 or 460 volt, single phase motors • I-Iigh efficiency 115 or 230 volt PSC motors • Installed TX valve • Long air throw adapter • Polyester fin coating (6 & 8 FPI air or as defrost only) • Wiring scheme for Protocol and electronic control systems Unit Selection AIR DEFROST - CAPACITIES & ELECTRICAL DATA MODEL NO, HC6A -045 HC6A -056 HC6A•076 HC6A•O90 HCBA•111 HC6A•135 HC6A•166 HC6A•180 HC6A•222 HCBA•278 HCBA•333 CAP.- FAN MOTOR PERFORMANCE•AMPS,1 PHASE STANDARD MOTOR OPTIONAL PSC MOTOR STUN WATTS WATTS 101 TO CFM 115V 2011R30V 460V 115V 20S230.46OV 115V 205/230V 115V 20/1230V 4.500 820 2.1 1.1 0.6 140 100 5,600 800 2.1 1,1 0.6 140 100 7,600 1,530 4.2 2,2 1.2 280 200 9,000 1,840 4.2 2.2 1.2 280. 200 11,100 1,600 4.2 2.2 1.2 280 200 13,500 2,460 6.3 3.3 1.8 420 300 16,600 2,400 6.3 3.3 1,8 420 300 18,000 3,280 8.4 4.4 2.4 560 400 22,200 3,200 8.4 4,4 2A 560 400 27,800 4,000 10.5 5.5 3.0 700 500 33,300 4,800 12.6 6.6 3.6 840 600 HC8A•050 5,000 790 2.1 1.1 0.6 140 100 HC8A•082 6,200 760 2,1 1,1 0.6 140 100 HC8A•088 8,600 1,500 4,2 2.2 1,2 280 200 HC8A•100 10,000 1,580 4.2 2.2 1,2 280 200 HC8A•124 12,400 1,520 4,2 2.2 1.2 280 200 HC8A -150 15,000 2,370 6.3 3,3 1.8 420 300 HC8A =186 18,800 2280 8,3 3,3 1.8 420 300 HC8A•248 24,800 3,040 8.4 4,4 2.4 560 400 HC8A -310 31,000 3,800 10.5 5.5 3,0 700 500 HC8A -372 37,200 4,560 12.6 6,6 3,6 840 600 0.7 0.4 50 0.7 0.4 50 1.4 0.8 100 1.4 0.8 100 L4 0.8 100 2A 1.2 150 2.1 1,2 150 2.8 1.6 200 2.8 1.8 200 3.5 2.0 250 4,2 2.4 300 0,7 0.4 50 0.7 0.4 60 1.4 0.8 100 1,4 0,8 100 1.4 0.8 100 2,1 1,2 150 2.1 1,2 150 2,8 1,6 200 3,5 2.0 250 4,2 2.4 300 ELECTRIC DEFROST - CAPACITIES & ELECTRICAL DATA FAN MOTOR PERFORMANCE•AMPS,1 PHASE DEFROST HEATER PERFORMANCE CAP- IITUHS10'F TD STANDARD MOTOR OPTIONAL PSC T ELECTRIC DEFROST AMPS MODEL NO -25'F +20'F CFM 201/230V 460V WATTS 205R30V WATTS WATTS 230/1 2304 41011 HC4E•042 4,200 4,850 030 1.1 0,6 100 0,4 50 L000 4,4 2,0 2,2 HC4E•066 0,800 84100 1,570 2,2 1,2 200 0.8 100 L600 7.0 4,0 3,5 HC4E•084 8.400 9,700 1,660 2,2 1,2 200 0,8 100 2,000 8.8 5,8 4,4 HC4E•099 9,900 11,700 2,550 3.3 1,8 300 1.2 150 3,000 13,2 8,7 6,0 HC4E•126 12,600 14,550 2,490 3.3 1,8 300 1,2 150 3,000 13,2 0,7 6,6 HC4E•133 13,300 15,800 3,400 4,4 2,4 400 1.6 200 4,000 17.6 11,6 8,8 HC4E•108 10,800 10,400 3,320 4.4 2.4 400 1.6 200 4,000 17,6 11,6 8,8 HC4E•210 21,000 24,250 4.160 5,5 3,0 500 2.0 250 5,000 22.0 14,5 11,0 HC4E•252 25.200 29,100 4.980 0.6 3,6 600 2,4 300 6,000 26.4 17.4 13.2 HC6E•039 3,900 4.500 820 1,1 0.6 100 0.4 50 1.000 4.4 2.9 2,2 HC6E•063 6.300 7,600 1,550 2.2 1.2 200 0.8 100 1,600 7.0 4.0 3,5 HC6E-094 9,400 11,100 1.600 2.2 1.2 200 0,8 100 2,000 8,8 5.8 4,4 HC6E -117 1L700 13,500 2,460 3.3 1.8 300 1.2 150 3,000 13.2 8.7 6.6 HC6E•140 14,000 16,600 2,400 3.3 1,8 300 1.2 150 3,000 13.2 8.7 6.6 HC6E•156 15,600 18,500 3,280 4.4 2.4 400 1.6 200 4,000 17,6 11.6 8.8 HC6E•187 18,700 22,200 3,200 4.4 2.4 400 1.6 200 4,000 17,6 11,6 8.8 HC6E•234 23,400 27,800 4,000 5.5 3.0 500 2.0 250 5,000 22.0 14.5 11.0 HC6E -281 28,100 33,300 4,800 6.6 3.6 600 2.4 300 6,000 26.4 17.4 13.2 4 1 12909 8t Cha 40,0 Bridgeton! MO 0 (314) 2914009 Fax (314) 298,4750 wreseryelte.ilunt to Cnantle.pr revise SpecifiCatians and product design Conjunction with any feature of our products. atioffctlaNeSOO.nOt 004 010 f*Yer to pnappes, improvements. additions or replacements for equipment previously sold Qr , . shIppd. catalog Hc-ci Oittiteci (10.o>, sea•gm Unit Selection HOT GAS DEFROST - CAPACITIES & ELECTRICAL DATA MODEL NO. HC4 *•042 HC4 *•068 HC4 *•084 HC4 *•099 HC4 *•126 HC4 *•133 HC4* =168 HC4 *•210 HC4 *•252 HC8 *•039 HC6 *•083 HC6 *•094 HCB *•117 HC8 *•140 HC6 *•156 HC8 *•187 HCB*•234 HC8 *•281 FAN MOTOR PERFORMANCE•AMPS,1 PHASE CAP•BTUH010'F TO STANDARD MOTOR OPTIONAL PSC MOTOR -251 +201 CFM 115V WATTS 208/230V 460V WATTS 115V 206R30V WATTS DRAIN PAN HEATER AMPS WATTS 11511 230/1 4,200 6,800 8,400 0,900 12,600 13,300 16,800 21,000 25,200 4,850 8,100 9,700 11,700 14,550 15,800 19,400 24,250 29,100 830 1,570 1,660 2,550 2,490 3,400 3,320 4,150 4,980 2.1 4.2 4.2 8.3 6.3 8.4 8.4 10.5 12.6 140 280 280 420 420 560 560 700 840 1.1 2.2 2.2 3.3 3.3 4.4 4.4 5.5 6.8 0.6 1.2 1.2 1.8 1.8 2,4 2.4 3.0 3.8 100 200 200 300 300 400 400 500 600 0.7 1.4 1.4 2.1 2.1 2.8 2.8 3.5 4.2 0.4 0.8 0.8 1.2 1.2 1.6 1.6 2.0 2.4 50 100 100 150 150 200 200 250 300 300 500 600 800 800 1,000 1,000 1,100 1,400 2.6 4.4 5.2 7.0 7.0 8.7 8.7 9.6 12.2 1.3 2.2 2.6 3.5 3.5 4.4 4.4 4.8 6.1 3,900 8,300 9,400 11,700 14.000 15,600 18,700 23,400 28,100 4,500 7,600 11,100 13,500 16,600 18,500 22,200 27,800 33,300 820 1,550 1,600 2,460 2,400 3,280 3,200 4,000 4,800 2.1 4.2 4.2 8.3 8.3 8.4 8.4 10.5 12.8 140 280 280 420 420 560 560 700 840 1.1 2.2 2.2 3,3 3.3 4.4 4,4 5,5 6.0 0.8 1.2 1.2 1.8 1.8 2,4 2.4 3.0 3.8 100 200 200 300 300 400 400 500 800 0.7 1.4 1.4 2.1 2.1 2.8 2.8 3,6 4.2 0,4 0.8 0.8 1.2 1.2 1.6 1.6 2.0 2.4 50 100 100 150 150 200 200 250 300 300 500 800 800 800 1,000 1,000 1,100 1,400 2.0 4.4 5.2 7.0 7.0 8.7 8.7 9.0 12.2 1.3 2.2 2.8 3,5 3.5 4.4 4,4 4.8 6.1 * FOR 3 PIPE FOR 3 PIPE FOR 2 PIPE FOR 2 PIPE HOT GAS WITH GAS PAN LOOP USE "0" HOT OAS WITH ELECTRIC PAN HEATERS USE "H" REVERSE CYCLE KOOL GAS DEFROST WITH OAS PAN LOOP USE "K" REVERSE CYCLE KOOL GAS DEFROST WITH ELECTRIC PAN HEATERS USE "P" MMELAU1M�Nl aSY CAPACITY MULTIPLIER FACTORS SUCTION TEMPERATURE_ MULTIPLIER v -30'F .075 -25 "F 1,000 -20'F 1.025 -15'F 1.050 -10'F 1.075 HC6A•075AB I HU88MANN -•- -- ELECTRICAL CHARACTERISTICS COMPACT SERIES A = 208/230/60/1 8 = 115/60/1 H s 460/60/1 K = 208/230/60/3 FIN SPACINO 4 =4FP1 6 = BFPI 8 = 8FPI TYPE OF DEFROST A = AIR DEFROST E = ELECTRICAL DEFROST 0 = 3 PIPE HOT GAS DEFROST W /HOT GAS DRAIN PAN H = 3 PIPE HOT GAS DEFROST W /ELECTRIC DRAIN PAN K = 2 PIPE REVERSE CYCLE KOOL GAS DEFROST W /HOT GAS DRAIN PAN P = 2 PIPE REVERSE CYCLE KOOL GAS DEFROST W /ELECTRIC DRAIN PAN DESIGN SERIES A = STANDARD SHADED POLE MOTORS = OPTIONAL PSC MOTORS BTUH IN HUNDREDS 3! Specifications /Physical Data NOELS TXV REFRIG CONNECTIONS of OIMENSIONS (IN) SWT MR DEFROST ELECT. DEFROST HOT GAS DEFROST TYPE LIQUID SUCTION HG HANGER A 8 C (LAS) HC4E•042 HC4* -042 EXT 1/2 ODS 5/8 ODS 1/2 ODS 4 18 29.1/8 45 HC4E•068 HC4* -068 EXT 1/2 ODS 7/8 ODS 1/2 ODS 4 27 38.1/8 65 HC4E•084 HC4* -084 EXT 1/2 ODS 7/8 ODS 1/2 ODS 4 36 47.1/8 75 HC4E•099 HC4 *•099 EXT 1/2 ODS 7/8 ODS 1/2 ODS 4 54 65.1/8 105 HC4E -126 HC4* -128 EXT 1/2 ODS 7/8 ODS 1/2 ODS 4 54 65.1/8 115 HC4E -133 HC4* -133 EXT 1/2 ODS 1.1/8 ODS 1/2 ODS 6 36 72 83.1/8 135 HC4E -168 HC4* =168 EXT 1/2 ODS 1.1/8 ODS 1/2 ODS 6 36 72 83.1/8 150 HC4E•210 HC4* -210 EXT 1/2 ODS 1.1/8 DOS 1/2 ODS 6 54 90 101.1/8 230 HC4E -252 HC4* -252 EXT 5/8 ODS 1.1/8 ODS 1/2 ODS 6 54 108 119.1/8 245 HC6A -045 HC6E -O39 HC6 * -039 EXTt 1/2 ODS 5/8 ODS 1/2 ODS 4 18 29.1/8 50 HC6A•056 INT 1/2 ODS 5/8 ODS 4 10 29.1/8 55 HC6A•076 HC6E -063 HC6 *•063 EXT 1/2 ODS 7/8 ODS 1/2 ODS 4 27 38.1/8 75 HC8A•090 EXT 1/2 ODS 7/8 ODS 4 36 47.1/8 80 HC6A•111 HC6E -094 HC6* -094 EXT 1/2 ODS 7/8 ODS 1/2 005 4 38 47.1 /8 90 HCGA -135 HC6E•117 HC6 *•117 EXT 1/2 ODS 7/8 ODS 1/2 ODS 4 54 85.1/8 115 HC6A•168 HC8E•140 HC6* -140 EXT 1/2 ODS 14/8 ODS 1/2 ODS 4 54 65.1/8 125 HCOA•180 HC6E -158 HC6 *•156 EXT 1/2 ODS 14/8 ODS 1/2 ODS 6 36 72 83.1/8 145 HC6A•222 HC6E•187 HC6 *•187 EXT 1/2 ODS 1.1/8 ODS 1/2 ODS 6 36 72 83.1/8 160 HC6A•278 EXT 1/2 ODS 14/8 ODS 6 54 90 101.1/8 250 HC6E•234 HC6 *•234 EXT 5/8 ODS 14/8 ODS 1/2 ON 6 54 90 101.1/8 250 HC6A•333 HCOE•281 HC6 *•281 EXT 5/8 ODS 1.3/8 ODS 1/2 ODS 6 54 108 119.1/8 270 HC8A•050 INT 1/2 ODS 5/8 ODS 4 18 29.1/8 50 HC8A•062 INT 1/2 ODS 5/8 ODS 4 18 29.1/8 55 HC8A•086 EXT 1/2 ODS 7/8 ODS 4 27 38.1/8 65 HCSA•100 EXT 1/2 ODS 7/8 ODS 4 36 47•1/8 70 HC8A•124 EXT 112 ODS 7/8 ODS 4 30 47.1/8 80 HC8A•150 EXT 1/2 ODS 7/8 ON 4 54 05.1/8 110 HC8A•188 EXT 1/2 008 1.1/8 ODS 4 54 65.1/8 125 HC8A•248 EXT 1/2 ODS 1.1 /8 ODS 0 30 72 83.1/8 160 HC8A.310 EXT 1/2 0D8 1.1/8 ODS 6 54 00 101.1/8 230 HC8A•372 EXT 5/8 ODS 1.3/8 ODS 6 54 108 110.1/8 275 tModol HC6A•045 may use Internal equalized expansion valve, KNOCKOUTS FRONT AND TOP or UNIT 4.730 -0, ELECTRICAL CONNECTIONS THIS END C B.� O ((((i qtr 1)))) (o102...1»)) 1)))) O O .750 F.P.T. DRAIN CONNECTION WIRE FAN GUARDS (OP IDONAL • -6.375 ADAPTOR)OV 13,7501 13000 15.935 I REMOVABLE SERVICE PANEL BATH ENDS INLET CONNECTION SUCTION CONNECTION HSM Series Bulletin: SM4185 Supersedes: NEW HUssmAnn® Ceiling Mounted Draw Thru Models 34800 to 182,400 BTUH /10 °TD Air, Electric or Hot Gas Defrost Compact, Serviceable Design with Long Air Throw Ideal for Large Cooler and Freezer Applications CTRICAL KNOCKOUT! AIR DEFRO HEODE CAPACITY (8TUH) LIQUID SUCTION REFRIGERANT NET 10'TD 15•TD CFM SIZE SIZE CHARGE (185) WEIGHT (L85)'.a MODEL +..yy 8M 7, 4.800 111,900, 17,900 885 15 H ELECTRIC AND OAff DEFROST: MODELi.> CAPACITY (STUN 10 °TD) SUCTION TEMP MODEL +20 °F —20 °F 5M24459 3M29±989 i< 800g; 98,900 6M25i 097 16,200 �09;Z00 —40 °F 60,700 67,: 00 \79;100 87, tt. LIQUID SUCTION REFRIGERANT NET CFM SIZE SIZE CHARGE (LOP WEIGHT (L0S) 19.380 1%, 21/4 +; r 36 , <; 785 6 tt' 24i 36.. 11351- 8,'A 1 2 805 7, 2 -'855 Yr yt ",'�.�r 52 "; ..� pace Master .unit coolers... quality refrigeration costs less than you 'think.. When we designed our new Space Master, the quality you expect from our unit coolers was built In to every model In the line. And they're all built with the performance and serviceability you need for a wide range of appiicatione...at a price that's surprisingly low. Check these features: ❑ Wide range of models from 3480 to 18240 BTUHI °TD. 0 High performance, computer matched heat transfer surface with full collar aluminum fine and copper tubes, 0 Efficient draw thru design with 30" dia. aluminum fan blades for uniform air distribution. Fan guards are PVC coated, Air throw is 50 to 60 FT. 0 High efficiency three phase, 900 RPM fan motors permanently lubricated with built in three leg Internal overload protection. ❑ Highly serviceable galvanized steel cabinet with hinged access doors and drain pan, ❑ High quality defrost heaters are removable from the front and rear of the coil, requiring no extra space at tho end of the unit, Temperature terminated defrost le standard. ❑ Drain pane on EDL, HGE, KGE models have electric heaters, ❑ Optional air throw booster for 100 FT AIR THROW, ❑ Optional defrost control panel with factory mounted motor and heater contactors, time clock and disconnect switch, ❑ Optional defrost heater con- tactors, fan motor contactor and time clock, shipped loose, EASY INSTALLATION & SERVICE Quality coils are enclosed In highly serviceable cabinet. MODEL KEY al 1 $ — 530•OKF•22•A NO, of FANS t �-,-- NR6MCIN0 IMPPROMPIUMMINIIMIb 4, 5,5or7 FIN PooWMM NNMs.I C.pilty .1510 (10) IITUH The refrigeration side access door opens wide for easy Installs- tion and service to the expansion valve and equalizer connection. A Schrader valve is Included to facilitate valve adjustment, Electrical side access Is just as trouble-free, A hinged door pro- vides total access to all electrical connections. Electrical connection knockout is furnished. The drain pan Is hinged for hands- free servicing with the drain on the refrigeration side of each unit. 'DEFROST A —AIR ED— ELECTRIC DEFROST (AIOVE 35'F) EDL — ELECTRIC DEFROST (IELOW 30'i) KOE —I PIPE OAS DEFROST NOE- -3 PIPE OAS DEFROST REFRIGERANT DAM OKF•1Y OXf•50x UO 00 W ty WO cn It $ Fy SPECIFICATION$ ION `LINE ' 11/4".FPT DRAIN ..► !'U 77 "` OPTIONAL AIR THROW BOOSTER AIRDEFRO$T MODE CAPACITY (BTUH) --- LIQUID SUCTION REFRIGERANT NET MODEL 10 °TO 15•TD CFM SIZE SIZE CHARGE (WS) WEIGHT (LBS) .. 8M10478, =- ''.::.37,800 66700` , ',a::8,980 . ? 3 ../iii , . ?. 4. .. ,.3; ,. 13. '' 4 ".: x;448' .. „i 'roe ,v, �e �'��, NYI cTBIC.AND OAS 'DEFROST MOOED CAPACITY (BTUH 10 °T0) SUCTION TEMP LIQUID SUCTION REFRIGERANT NET MODEL +20 °F —20 °F —40 °F CFM SIZE SIZE CHARGE (LBS) WEIGHT (LBW 6M14,384." :,:e ... ; :40.300> :. ;':38,400 `30.700': 9.690 :' "VA ' =: '1% '' .e,.;18 6M150126.,' ': Y: v 44.700 > .42 . i 1 , II I a ; a 9,250 '° t 1 8 : 50' SM14•501t "4 Jt. 4 52,;1 i . 50. 001 .40,000: . '.9,330. s 2' . 26 15 558 . ` . _ _ : 58.400 i ;v : 55.800: , , _ ' .500 TM.. 4:8,900 ::. , :1 $ . , 2 26 :; DIMENSIONS UCT10N LIN CTRICAL KNOCKOUTS CAPACITY (BTUH) MODEL SM981289. 10°TD 128,900 16•TD 193.300 rivi 171 CFM 24,900 LIQUID SUCTION REFRIGERANT NET SIZE SIZE CHARGE (L88) WEIGHT (LBS) 2 16 is �Fru;' e: 7 824 LECTIIIC`AND QA DIFNO$T. MQDEL$ y CAPACITY (STUN a 10 °T0) SUCTION TEMP +20 °F -20 °F -40 °F MODEL SM34R.1070.1 > ;... 3 `"° . k112,300`>, 107,000 186 „;ax 2 , 11 ,609 34x1393 46,300 354544{ '. 3 ,100:' . ?'>154,400 LIQUID SUCTION REFRIGERANT NET CFM SIZE SIZE CHARGE (LBS) WEIGHT (LOS) 00 23,600. 26, 00'. :1 78 2 , _4 ::78: 26` ELECTRHJAL DATA MN MOTORS PAN HEALERS OAS PRESSURE SWITCH HEATER SAPEtY TWO PIPE HOT GAS WIRING THREE PIPE HOT GAS WIRING AN MOTORS HEATER! III !O 00 Mf /S t1W10/3' *CONTROL t*ANQORMERREDUNIED ELECTRIC DEFROST WIRING MANY DUNNNT HEATER HEATER' f*N MOTOR! 'AS REOUMIED �ANON LAY AIR DEFROST 1 4.4 4,0 2,0 - - - - - - 384, 426 1 4,4 4,0 2,0 15,3 17.0 8,5 8750 26,5 28,3 14.0 11250 6.2 5.7 2,8 2250 501, 556 1 4.4 4,0 2.0 204 22,0 11.3 9000 25,6 28,3 14,0 11250 5,2 5,7 2,8 2250 AIR DEFROST 2 8.8 8,0 4.0 759, 842 2 8,8 8.0 4,0 38,4 42,2 21,1 16800 47,7 578 274 21000 975 178 6.3 4200 989, 1097 2 8.8 8.0 4,0 38,4 42,2 21,1 10800 47,7 52,8 28.4 21000 9,5 10,6 5,3 4200 AIR DEFROST 3 13,2 12.0 6,0 1070, 1186 3 13,2 12.0 6.0 38,4 42,2 21.1 16800 57.6 674 31,7 25200 977 10.6 5.3 4200 1393, 1544 3 13,2 12,0 6.0 47.7 52.8 26,4 21000 67,2 73,9 38.9 29400 9,7 10.8 5,3 4200 HuuumAnn° A Whitman Company Hussmann Corporation 12999 St. Charles Rock Road Bridgeton, MO 63044 (314) 291.2000 CM i . IS /6 ,CI4VV *CM I I LC IORTHW ES I £.0 ✓v✓ • • • •, M• •• • t• ••• • • •r• •••, COSTCO WHOLESALE TUKWILA, WA 1180 SAXON ROAD TUKWILA, WA 98188 STRUCTURAL CALCULATIONS kint wann qa; p, svp pert e.1Cs, 1/3, 1,4 65 1,4, 1,2 t., 9 (, t0 it 1,12 August 30, 1999 ENW Project No 87022011 rtliv mif 4.l.e CODE: 1997 U.B.0 SEISMIC: 3 WIND: 80 M.P.H. EXPOSURE "B" CITY RECEIVED TUKWILA APR 1 1 200,4 PERMIT CENTER ENGINEERS NORTHWEST, INC. P.S.- sTAUC,uw►1. ENGINEERS JLIV I 0 1 . LIgin ..vu r.... . ....1 /91 1 1 1 •• .6 •I 1 • 1.01 .•• , 1 H••1.. 1 ENGINEERS—NORTHWEST INC. P.S. else WOODLAWN AVE. N.E. - SUITE 205 • SEATTLE, WA 98115 - 12061626 7560 - FAX* (100) fl11iNS Jo.NO. _.._ SWUM gvig Jo. 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SEAM NWT WI Mon NACU III aM (*guffaw* WO s (PI• P*. 1 #0, ftsik PERMIT COORD COPY PLAN REVIEW /ROUTING SLIP ACTIVITY NUMBER: M2000 -072. . _ DATE: 4 -7 -2000 PROJECT NAME: CO_STCO, SITE ADDRESS: 1.160__SAXON DR XX Original Plan Submittal Response to Incomplete Letter # Response to Correction Letter # Revision # After Permit Is Issued DEPARTMENTS,: n Awzsin Public Works F' Pr v ntion -Iii • Structural ❑ Planning Division Permit Coordinator ■ DETERMINATION OF COMPLET, ENESS: (Tues., Thurs.) DUE DATE:4 -11 -2000 Complete Ej Comments: ._ Incomplete ❑ Not Applicable ❑ TUES /THURS ROUTING: Please Route ❑ Structural Review Required REVIEWER'S INITIALS: No further Review Required DATE: APPROVALS OR COilignatis (ten days) DUE DATE3- 9 -2000 Approved ❑ Approved with Conditions E Not Approved (attach comments) ❑ REVIEWER'S INITIALS: DATE: f ORRCTION DETERMINATION: DUE DATE Approved ❑ Approved with Conditions ❑ Not Approved (attach comments) El REVIEWER'S INITIALS: DATE: VIROUTF.POC 5/99 City of Tukwila John W. Rants, Mayo. Fire Department Thomas P. Keefe, Rre Chte ,April 12, 2000 Fire Department Review Control # M2000 -72 (511) Re: H.V.A.C. at Coatco - 1160 Saxon Drive Dear Sir: The attached set of building plans have been reviewed by The Fire Prevention Bureau and are acceptable with the following concerns: 1. H.V.A.C. units, rated at greater than 2,000 cfm require auto - shutdown devices. These devices shall be separately zoned in the alarm panel and local U.L. central station supervision is required'. (City Ordinance #1742) H.V.A.C. systems supplying air in excess of 2 000 cubic feet per minute to enclosed spaces within buildings shall be equipped with an automatic shutoff. Automatic shutoff shall be accomplished by interrupting the power source of the air - moving equipment upon detection of smoke in the main supply -air duct served by such equipment. Smoke detectors shall be labeled by an approved agency for air -duct installation and shall be installed in accordance with the manufacturer's installation } instructions. (UMC 608) 2. .Duct smoke detectors shall be capable of being reset from the alarm panel. (City Ordinance #1742) Remote indicator lights are required on all above ceiling smoke detectors. (City Ordinance #1742) 3. In areas that are not continuously occupied, automatic smoke detection shall be provided at each control unit(s) location to provide.notification of fire at that location. (NFPA 1 -5.6) The installation of wiring and equipment shall be in Headquarters Station: 444 Andover Park East • Tukwila, Washington 98188 • Phone: (206 S75•4404 • Fax. (206) 575445 • city ofMkwlla Fire Depadment Page number 2 John W. Rants, Mayo Thomas P. Keefe, Pie Chte accordance with N.p.P.A. 70, Article 760, Fire Protective Signaling Systems. (NFPA 72 -1- 5.5.4) 4. When the control panel door to the room shall have which reads "Fire Alarm" or Ordinance #1742) is located inside a room, the a sign with one -inch letters "Fire Alarm Control". (City Dedicated fire alarm system circuit breaker(s) shall be equipped with a mechanical lookout device. (NFPA 72 (1-5.2.6.2)) 5. All new fire alarm systems or modifications to existing systems shall have the written approval of The Tukwila Fire Prevention Bureau. No work shall commence until a fire department permit has been obtained. (City Ordinance #174 (UFC 1 01.3) Contact The Tukwila Fire Prevention Bureau to witness all required inspections and teats, (UFC 10.503) (City Ordinance #1742) Any overlooked hazardous condition and /or violation of the adopted Fire or Building Codes does not imply approval of such condition or violation. . Yours truly, .Th,4t The Tukwila Fire Prevention Bureau cc: TFD file ncd Headquarters Station: 444 Andover Park East • Tukwila, Washington 98188 • Phone: (206) 57$.4404 • Fax: (2Oid? S7$4 REGISTERED AS PROVIDED BY LAW A8" CONST CONT GENERAL REGIBT. * EXP. DATE CCO1 HU88MC *1302 05/18/2000 EFFECTIVE DATE 04/09/1987 HUSBMANN CORPORATION ATTNs SANDRA DAVIS 7272 FIRST AVE 8 SEATTLE I a 98108 Signulur Wv%�� Iuucd by DEPARTMENT OP + OR'" D INDUSTRIES ' • ✓ i T " I C 2 IC .L L _J I I , I I L_ . -.J IL_ --I 100 0 0 0 0 0 0 0 0 _ c• HWY \ • j 1•4A:N" ROC NEN TCP7,__A PCTATC 150 NEY JSDA a AL TN' CONTROL • 0 N _1_1 1 FT r cc.cLER ,q: J-4 E5:4•1 , - 0" , fE . I - .1 SM544 ARE,. 4 7 . _ I' ill a 4.■-•J T 0 • coRsc, cc ut_4_ BREAK Room L J ::.30LES ".:8 (Z)7 - ...1291.111c • MINCIENSISis, At =Lt _Dos ,,, e0 , 00 3P03,1 Ar AA. lie 1 aecsiNA U. NE IqA - 4436-1498A I J- c,f . .4.A -44.4 C.CRR 7c, STEK - 0 • COFFEE I°T , CH,F. 1,1 L_ Cz- ' A L N E, 8 P L C A : N T E I SENEP PLUME!%.:, J A o sE r:LD VERIFY EXISTING FLOOR SINKS. =OR NEW - EXISTING FLOOR SINKS SHOULD CCILLP, WITH LOCAL HEALTH CODES AND CASE MANUFACrJPER SPEG:FI:ATIONS. J. E3/4 t N . G ,s r p L E:T.,,s O.ORSINKS MUST PASS INSPECTIONS 88 LOCAL HEALTH :=T PLjM6iN:.; NOTE: ALL NOTES SOWN MA I NOT HAVE BEEN JSED ON THIS PLAN. pRoviDE FLOOR siNK,$) TO BE SE FLUSH W/ FINISHED PLLOOP AND ALSO TO COMPLY W/LOCAL HEALTH CODES PLUMBING ODNTIS TO ALSO PROVIDE FULL GRATE COVERS NOTE. FREELZER AND LAEAT COOLER ZONCENSA 1E DRAINS TO HEAT TAPED AND INSULATED MT. • , 2' ARLAAFLET 1 0 0 _ 7 IF III III iossto N- jtc,,UDING r LCOD DVRC€ LBS, EL, CPU 33.29, r 114.1.11MINIL ... PLL:8LBING CONTR. - 0 PROVIDE ,::- . , 2 •'L SIN, „,...,...„......„,..- PLLVEING :::: A C -...; ALSO - .=' , 0 .,, TDE ;PVT. - 0 . ./... - ,P VEP LOCATION OF SN4 AT J08&'. OA r- 0- L ..1.18,NG :OW NL SWANN -L. A , 6 . cRAO. VP :C.XE3 LOSE 24 :34 :ONCE-SSE oto RSE OPEP AbN, or s :MAP.. lbs. AEFFiGE.ANT 7" 10 ORO Akz-000 - Q72 _ NOTE, GENERAL CONTRACTOR SHALL FURNISH AND INSTALL ALL LEVEL PLATFORMS. CURBS AND STR'UCTUPAL SUPPORTS FOR ALL REFRIGERATION EOUIPEMENT AND INSULATE: CEILING PANELS. • - (7:\ 3 ` DOSS: EpARAT 611E001SE-0 Fur. 0 MECIAANICAL LU MeING C U rr iG: 91.5'111°14G.LA BUILDING ON ISION COP stand tItol 811c, Mar, Check appi oval, ,ect to errors a 00119.5■01,5 581)V°' ,1 tR tiC,e, not atithori7., v‘ Receoiation 'TA ,optett cocie Receipt CO ot ,is,tor' 5 copy *, ,owledy • . - 1 .. • •• ■ ■ ... ... ..1, I .1 ...5 ,....: 1 ... y, .... . i 7sre',IL'1 -;;..., ▪ '-;,' ^ ..• - I, 4 P. = = , r , :f '• ; & ....! 7": ', ti. dtf'. ;1 ,,...77 ,-....-_-: i.i. -.r i.. ,..:". i t --. < ' 7 ?: """ . ' ' 7 T - - - ,-......„--_,. • - 1Z I .. .., 1 - ....1 , • ' 7. :7 2 ,:, ■ I - i • -; 0 <= • _ i , I • -- • ',,."- - f, 13: , c . ,.t z —• -F 2 .. , i7. ef •c -' -- 72 — „...„ t. ... s' -, ,-, • `' P,:_•1 i . I CV _ , , I - ....-71 - - - -i- , E.'...-:= =.-i,E,_'A -.-..,,=, CZ- t_ __ -2 5:: ,'. t • ' 7 - = 1 4 7.2 , E-- 0 i 111111111■/ amnrssAern HA O 0 RECENED Cm OF TUKWILA - pERmiTepatc 4. .•, D !PEP AROH 4 . 1 tal8CaMENSAI alififEWS1, •• #6•161BCA,seedie • • , IWOJEMELICIE 8,7 I AL ASES ITC; LOC•":ONS 12 DATE: 10/8/99 SCALE: r)Fc A 'y'vN • M. MERAZ SALESMAN: OLIN CLAN 0 ) 0 (CD PLAN 4710 SHEET EM 1 [ TI I L J I I L_.1 -, 47=21C7 C H 4 NT R.O_C24 Et I Fr.2 C;HIP AR.E IIIIIIIIIIIIY 0 0 0 0 0 0 0 L_ .1=23.-•••■Nomemsc 0 I ■Er 0 IN a COCLER le:WA N rts_. SR136- WM. +CA- t a.ritaj, , .0 or *Ass. 46 7. NAL: IOU. Vs: • ..Wirat 4*. its istZlrms sr_ I C I L J 1- t Air - cc QC. r C y '\` 4 1 \ ...ENERAL .LUMBING NOTES PLUMBING CONTR. TC F ERIF TNG FLOOR SINKS. FOR NEW AND ' CASES 2, EXISTING FLOOR SINKS SHOLLE C'CuPs LOCAL HEALTH CODES AND CASE mANuFACTuRER SPECIFICATIONS EXISTING FLOOR SINKS M.S PASS ,NSPECTIO,S BY LOCAL HEALS-I ' PLUMBING RE NOTE. Al NOTES SHOWN MA A NOT HAVE BEEN USES ON HIS PLAN PLUMBING COI4TP. TO PPOIOE 2" FLOOR SINK(S) TO BE SET FLUSH FINISHED 41.001 AND ALSO TO COMPL W/LOCAL HEALTH CODES. PLumBINC, CONS- "0 ALSO pRoviDE FULL GRATE COVERS NOTE tREEtEP AND 11€A7 o3OLF.R CONDENSATE DRAINS TO MEAT 'APED AND INSULATED MTH ARMAFLEX. I illii,i' I C•OF 1 °1 ! . JtICE PEERS TANK 'CT J ',HILLER 0 0 L.4 CONTR TC ,Do SINE PLUMBING CONTRA.. SR ALSO PR:VIDE ',RATE COVER vEP - DON Cf SA,40 P JOGS OA P.,0ABiNG CONTRACTOR. AR A,Er n' NaL,CiNG FIODO CHARGE LBS AR FLOW .•Fv-•,.:1 pur L I I I I H I I II II II i I a_ C • mLA •61 AS-LTA IA ,To TA MAA.INE VS-/SE Au, AARAA, AIR COOLED TCA ON TT, OPERATING qE FP, CM AP ::.LE Lbs. REFFHGEPANT A T NOTE. GENERAL CONTRACTOR SHALL FURNIS, AND INSTALL ALL LEVEL PLATFORMS. CURBS AND STRUCTURAL SUPPORTS FOR ALL REFRIGERATION E...UIPEMENT -ND INSULATED CEILING PANELS. Et. IVE0 0 0 -0 1111111i,, I ./ PrOINED tY.v ,)c Ttn(WiLA ' !At! ALAMt - =E:E1ONS i REVISED FLOOR PLAN PER ARCHITECTS LATEST F-HAILED ON Pi, n, ,r,AA M MERAZ .03ED ":3Nco BRA LAE OINtV5_E M M NEPA: ADJUSTED COE DRAIN I LINE DUE '0 COIL :MANGE 10111A HERA: ADJUSTED 'LOON VIAl TO FIN LOCATIONS I 12/03,4 M HERA: C, ATE. 99 SCALE: DRAWN 911. M. MERAZ SALESMAN: OLIN CLiNNIN 0 0 • 0 tIC PLAN 7 1 0 SHEET n fl SHEET COSTCO WHOLESALE 1160 ,, SALE MAN C. N DRA MERAZ A E Fn 1 P UPDATED ALL SUCDON AL AND L101110 LNES I 1C/9/99 A,PAZ . ..DC , 1014 0 RAc, t j 9,2;99 m mERAi 1itvISEDF,10P At. LL [ 1 ' 1- N7 FIXTURE REFRIGERATION PLAN 2 a r 0 I 0 ia)O I 1 I PLPL,PJ:, , 11 -s r '04 , 1 I FT) O 0 O 0 0 .11 A 7 !..-) fl) el I Li Min!. — 1irm _111111.•117* — 7 r L _ _ -t LI r 1-1 L__ n - . _ u _ r_ U. ) 11 11. )1_ )10 0 (;) QI 1 ( Hussmnnn • 11,1r,rdiair■ r,rporolion, 11770 17m/nn Avenue; ChIn, c ( IA 11710 .(10)) 00 4910 I i r ) . #6.1 4.1 NC! rr — • A 7 1••••• -71 J 1 1 ] • erri 1 .... 1 ., 3 P.) r4 ,1 ? .. 1 '1:1 11 ")3.4 1i 1' .",, V.. I i lf a F A I tr,,,),,;;; 11 1 1, 1 L. ill I. s1•1116 Pk. POP tit 11 nnrt itorrN Cr1NTAIN`s. INFORMATInN nt.rciiio IrlIS.9AANN <OPORATI,,, O It AI I ri All II ) ,r11 Ani ).11 AI I II I I I OR TI II 1.0141)(1 I I WIIICII IT I') •,r111.( 11 I) II ;MAI I TA I 1,411 II I , 1))), I ()MI 1-WI ' I )1'41), N) I ',Mir tNIORmA II( )NI II trIPNI))14111, IN W1 (+e IN I*R1 III 1)1 1(16, WIII10111 'lit IIII : WPI N ) oNs,t NI Of ANI■ ',HAI I III RI , I)NI I ;II 1 .1 c#111 .1 N(/11 NON1 I 44,1111111 All pltimblna and elerfrIral grawfnas are furni•shell OS n guide obsial the Ar‘hifeet ang (+we., with 51.14) it.t)rtori god tpulit).1110111.. !!illy 110,011rmin 11,111110b nt, 1111111ef (f.,r All two! III !itions Inw)Ivrng rolf hjorr,l),)). etr)rildt,a))1 "or patf III, W It t It ,k tt 01, 11, Wit. Of if, 400011 I 11 0 ■) 1 10101 1.011,)))06 ))),I autllowod It I. oar•omribtlill I ■! II.� 4 1)),r, I ele■ i 1. .)I I t110i I 11 engione, t., 0.ti•1111.110 .1,,of at g,t AI &1I *al) 0.)114),) tut Al Ih p4,1114. .44) 4040010 ...1q11.11100, 00140l11 1 0 'AA, I.i I 1 011 opp111.01■1, - - - NEY4 - CLC7,L, - - I 0 0 0 0 0 0 0 0 1 C U P■7C. :at 0 O 0 0 L . loo$Sior. H • JAII0Cla =IINDEH J.' NA w•twalk -.V. ,br ...mgEHASO t DA, cw OEM, 44116 aft AkIIINNIEWAw I C —, 1 FCM.M.CLTD I , I I I I 1 L. _1 1. .1 L ..i. .L.. f ,_ _. ALL SYMBOLS MA ri NO - BEEN USED ON THIS PLAN C •ELEC1,CAi i TUB-UP , ssmREADED CONDUIT •2 - 1 • - EM NUMBER .p,,GE, Al SYSTEM NUMBER S01. SLOWER :0 (yI • 'IPERMOST!, (.5 • SOLENOIC VAL ..41, --IN BE, •mPERATURE SENSOR MRED BACK j PPC'PPAf :NP )L ANEL B C NOTE: REFRIGERATION CONTROL FOP 0 J. CHILLER AND O.J. TANI BY EOUIREMEN T SUPPLER. ■Ai 4Ie.4 1- 0 „ NCLUDING ,DIDO CHARGE ._BS.■ AIR f • 0.3.28C -. HI-5SW , LA '51 5-C.' AT,NTA — ..-. LCVZ ',I. CONDENSGR ON TOP OPER , •: I — ;71 -X REFFNG. CHAP lb, Er-c 'IC: I LI__., 'tit:: V ci \ --.... • 9 , - ,...! :....• . - _ - 2_.* f. ■■■..... ,11■111Ir• ...■■••4 % c.... * , :.; C : , 0:: : I z : ,..,. 2 , 1 ii I , = :: - 5 i.:411 f . z - ,=. .!''' t: -±" , : Ez1: !...z &I • i- - ,.,..-...-:---....: ; i ,0;- , i '".--‘2-27' ::: : i : I -_,..- ,..!, : : 1 •= ti • NOTE: GENERAL CONTRACTOR SHALL FURNISH AND NSTALL ALL LEVEL PLAT CURBS AND STRUCTURAL SUPPORTS , : FTC AL_ REFRIGERATION EOUIPEMEN AND - NSOLA TED CEILING PANELS ■F_A !a:7A = MEDD() 072_ RECENEO CrTY OF TUKWILA A PtRIAT CENTEF 5 S; ONE L\ PER ARCHITEc E.makE3ON s S 'T. EM- SYSTE II AO 9,28/9, m mERA, CHANGES JN , SHEE m mEPAZ DATE: SCKE M. MERAZ PLAN 47 SHEET =," A SALE:, OLIN .-2.UNNINCHAM .._ - - - - - - -- ;, -I.,--- , q - , .._ : -.:- Z - • '" - `-, -4. - i 1 • - .., , .-- ,, 5- 2.- i ;7. `r i ,. , -,,,- :-._- -„....._, ,,...,:: II: :::: _ T -, R ot. # ' Oqi AI Ape, 7.; , coma. ps, ,,, ' -FED FOR VS • .. ,. , ! • „, , . - . - ' . .. 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MAN P •".• :- 2CMEC , 1 _ I , _ 1 _ I _ ' 'Ai-- ___ 1 1 I i _ , / N , I I . I ' I ! .\___ i ,--- tl I (N , I 1 ,- , i ___ , I i , 1 „- - I . k . j! , -, . ; • ' I = = ._,,,- ,_ , a CONTROL . 7-- / ; II ,PACK ' 4 , ' rr • 2 ..,: _ 22,.; • (Th 1 2 :2:N - = 3_ P C OM 1 RI-C # 2 OA r% C K SO ./s. I .• • '75 9 - , . , .• . . ' `, ! ' i 8 ,... PzliE_ ,',' 7 -°E1.7,' O'-' SYS # 3 2 • .--_-:- 1-- C -- -E ; I z <63: f , l,LIMPncSS 2 Jti-r1UL, I -,,JS. L. L.Ni.fi.:. ,itri -4t i V1-1.)H4ft!=1 UN ! kr MCA ' 460'i 3P-i 60,`•Z I I 1/Thl \___ A •.,' - . F I 1 ,.,.... ......., .9.8 . - ' BE ROCA, , , )“1 1 : •7.01 7 L , i' 11.5 , i 1 I I ,/==:-...K! ", A _ - ; B CPC- 4E., • - ,-_, .. 230/ 7 1 I 1 I 1 I ,_ , , -2 :-\ , , , ,, .- •4 i •.; .,_, ,_ ,_ ,' ! ,--\ , 4 - : . i . , ii;:.., . .,pAcx \._E•' - TPC - 3c = Z 8 7 6 22,0 1 .._, , . . I A-1 2DL3-0750 , 13.E =E.: 3 , 115 ' 9 :•\ E . • --; "--- ! , _ 3DB3-1000 2C .2, '2.2 =6,2 I__;).! I 1 ; I ! , ‹, 1 ___!! ', _' i /, , . 1 r = - 5 i• i . .__ , 4 , ,__1 x ,1 !‘ - • V-\1 - k _ , - ,!____, ! , - ..c .. E - ' MAIN 004,4E: - 0 s3 1 500 2;2 2 =EC 3 1 1 . _ I I I 1 ;/ - , I\ ,, i(' --A , U. aa c___ / , • I 1 i .1 1 • - K ,_ 1 1 i FEED # 1 DISTRIBUTION °NIEL L.'. = 35.9 @ 230'120 vac 311'; 44' 607 . I FL.= CIRCUIT BREAYER SIZE Mill I 1 I c2 PM - • • S YSTEM * 6 = 7 6 15 a 2 pole m , ,4 . • Mill FOL:11 LAW ER C • 1 •-•' i I I \ (Th •.___/1 • • SYSTEM * 7 - I I SYSTEM #S= 8 = 7.6 15 amp 2 pole i I , I 1 1 \-- I I I i gri ! EXHiJAST FAN = 5.0 15 amp 2 pole I I . • ,,, ._ ! I I I C ,--_•• -:. LIGHTS = I CON1V. OUTLETS = 16.0 20 amp 1 pole • - , - K • ..- , : \____ ! 'C ir\ 15.0 20 amp 1 pole i i , I I C•\'.1' K )1 4- - . • 1 Mill , ___ ., /--,,I ' \___/1 --, < 1,_.' . 1 1 • 0 :RE VISONS II i ! Ell /--)! ;\ - ! K ' . / • -, N___. y---‘ .. , . . Mil , _ / ,,_ I\_ _ ; .... I i ,. 1 . ,, \_./ - - 1 , , ! . . , „, , v, 1 - i_DED CONOENSERS -AKE: -- ' , ,_._, I •- ! I re ___ 1 .. I , 3., CJIL 800fL • ON S YSI'E` -3.•‘• .; , - .• ...E3AZ us II! '-' \__, ' I I , I 1 - / Cl , -- \ I ..-1 I'M Ellill I I 111 (''I \---' I ' I , 1 .•,. REHSED IX MIXI. • KV f,S, 4, . 4\ I ii28P .1 ME.AZ i ' . tcv,sED s,st, TO FUTURE . FREEZER INC ADDEO NE,. , , 1 ,--- , I , L I a /-- • \__,1 A A ',-- , RU ..,• taiwn •• •YERAZ -'. ---', , \,,_21 1 A ' -..= ! ___ , K A ! l'- I Ell . , I 7 -'I , ! 1 D :,.._/ i =I re •,,, , !•;- •I ' • M11111111=1. 1111111111111= ,. ..__. _,, d , i IMIIIIIIIIIIIIIEIII Mill FM ME rtjA hill MIIII al I , . 1 I III a M VIOLA WAO 1111 1.-4170 I _ , 1 • 1 ,1 , , $ \ • ,__. 1 VE, 9 -I 1 (-) \-• LW IMO , i , .._ 1 /, --, 1 ,SJALE: NONE N-- i __ '(:_-)' ,_ M. MERAZ r'2; ; ,..ESIN/! < • II 1----1 •CL '.. CUNNINGHANA I IMENIIII MI MI= MI MIII La NI I mil A MIN Erg Eli IIIIIIIIII1 111= 1 ill Ell , ..... LLI I I 1 ' ILI I I 1 LW V3 . ' ----" V) GENERAL REOUIREMENTIS REMARKS GENERAL NOTES 103 IMPORTANT N':TES 27." WI 4.1.11 ., i■ t--- 1:TEN NC TYPE IF EQUIP:JEN 7 AMP LOAD WATTS VOLTS ; PH I O, & TYPE' OUTLET(S) STUB-JP SEE GEN !Em TO TOP ,NOTES No NO TYPE EQUIPMENT AMP WATTS LOAD I VOL TS PH 4 40 & T (PEI C JTLE II S I STUB TO TOP SEE GEN NOTE NO r -r"eF r 70 1 6. ELECT. CONTR. TO WIRE AND CONNECT PER LOCAL CODES, WI DEFROST HEATERS TO CONTROL PANE', A T OR NEAR COMPP'S 8. ELECT CONTR TO WIRE AND CONNECT PER LOCAL CODES. --72„...„ V) , :". Lill :- .....1 ? 0 = ] . 0 _ C., - 11 : CA • ' 00 Lill 2 IAA CC 6 FREEZER COIL LINE HTR. 250 1 1 5 ' 1', j-BOX K7 :!,. ON WALL 1 _ 1A NO ALJMINLIM WIRE T1' AC CONNECTED 7 : AN Y FUSSM ANN EOUIPMEN r 2A. IF VOLTAGE FOR STORE IS OTHER THAN HA A IS SHOWN. NO, TIFY HUSSMANN AS SOON AS POSSIBLE 3A ALL STARTERS. F.,SEC., DISCONNECTS. BREAKERS. FUSES. CONTACTORS. SwTCHES, J CONDu, cONDULETS, AND WIRES HAT APE NO SUPPLIED 8) HUSSMANN , IT N A PRE AIRED PANEL ARE BY ELECTRICAL CON ACOR UNLESS OTHERVOSE NOTED ,N ANC CONNEOONS BY ELECT CONT. TC BE DONE RE. CODE 4A ALL WITTG - I 5A ELECT CONTR TO DO ALL WIRING AND CONNECTIONS FOR HUSSMANN SUPPLIED EOLiPMENT UNLESS 01 NOTED vDE PANELIS) FOR i, CASE RECLREmEN7S AND CA. ELECT CONTK TO pRo ,:'-' 115v BLOWER COIL(S) AMPS UNLESS OT K:TED ELECT CONTR. TO SEAL ELEcRicAL CON[ul PENS COOLER oR 7A WI TH CALK OIR PROVIDE AND INSTALL 'REEZER BOX WALL ON ROTH SIDES - Er TYPE FITTINGS TO PREVENT AIR MIGRATION AND CONDENSATION. 76 ELECT. CONTF TO SEAL ELECTRICAL CONDUIT INTERNALLY USING SILICONE OR "EY TYPE FITTING OP EQUAL AT COOLER OR FRKEZER BOXES. 8A. ELECT CONTR IS NOT TO USE THE SAME CONDUIT TC R HIGH VOLTAGE WRING AND LOW VOLTAGE SENSOR WIRING 9A A DISCONNECT SWITCH MAY BE REQUIRED 8 • LOCAL CODE. AT EACH FIXTURE TO DISCONNECT FANS. HEATERS AND LIGHTING CIRCUIT'S • 7 RE,UiRED, SWITCH SHALL BE APOVIDED AV` INSTALLED BA ELEcT ,- !YR RECEIVED MY Of TUKWILA ,.., - ,, ,.,,„, !,--, DRAIN `_) 13_4 Ari Cr liu CC Ina ICC (3 two IL/ w ,-1 Om 0 COIL. F AN MOTORS TO CONTROL PANEL LOCATED AT OR NEAR COMPRESSOR. ALSO PROVIDE AN ACCESSIBLE DISCONNECT 11. ELECT NEAR COIL. T-STAT AND SOLENOID CONTR. TO WIPE IN SERIES PER LOCAL COCES THE . THEN WIRE BACK TO C,ONTEOL PANEL LOCATED AT OR NEAP COMPRESSORS up 0 ........ 0 El w 0 • 0 6411 17. ELECT. CONTR. TO WIRE PER LOCAL CODES, A LOW VOLTAGE TEMPERATURE SENSOR TO "EMS " INPUT PANEL LOCATED AT OR NEAR COMPR'S. DO NOT PULL WIRE IN THE SAME CONDUIT WITH HIGH VOLTAGE, USE A SEPARATE 20NDIJIT 19. ELECT. CONTR. TO DO ALL WIRING CONNECTIONS AS PER LOCAL CODES. 01,[!\,t\-: C,\ u Q V N ? ? P.R\'' \ ,,,, ' U' \ c,\C! N • 5 vc., • 0 ‘i , 0 itr 0 PI (1) 1-1 (_',ONDENSER RECUInr-VENTS O ,_ ,• , P 0 WATER '• 7 ----L 412M ,,,., MO DEL HI CV .1; ! PNL. uouAL miRs 1..: FAN C' COND 0 • ..-- '.. NO ITEM COOLED TYPE OF MOTOR(5, NO OF MOT H P F L.A VOLT SEE GEN NOTE NO WIRING DIA. PLAN . SHEET SCHEME 0 • 70 FAN MOTORS 12 1 1/2 42.0 460 19 , ' - - 0 ® FAN moroRs 1 1/2 21.0 460 19 SHEET ■A w 0 A pk #4mpl- r•c•crF;. P . .. - z; • :;?!.„ 24 •.2 • -- ;AR .1; WEAL ,:uPPE Nzs 'a ■• A TiCA F sa.‘ 44# or N. .344 R %URI, 41 •." y A y)Y. LA • •••••NIE ;we .2 7 1:5 TW • * :RA C A SE DEER CST HU= - ERS 1 a.% 4114, _ , 44(.424:4 ,,,,, 92 , T 0044A.A ' 2E4 12•4.. , , •„. .....a ...,.. r44441.--s .40r.-.. hasP1 ' ,40 mit • Aulin 2A'511. , a ".:•• = Z MIPS •.1.1103 Aeon no ZaSE -- # r• T "C'‘... !..7 aurt, 1.011% Sig 4.41E*5 Min #t :ADE "I'•# ; • alt Set 1114411APL • T•P C4:410.1" * 114,. VIC'TES - ••• 0403•• !ic 4 44.4401 2 ALK • \ A44 . 44•Pi 71' MLA "74,4 sore: VSAIA A. • s* " • ••••:. :al '11 ; •":1-.4._ • •.- •• 14.„71: ' SAYE" .3 - 4 . • AA " .... v - - - ... • .- - .. z LiEL A LIAS CONTACTS MP M .OWE : CC = C,ON TROL C P L I T HP HR:R FPET, SC/RE C'oVI T7_,H LR _OW PPESSJRE SW TCH NC TESj. 1 OIL FAIL -PE SAFETY SW1TH 2 TO P EL ■• CUTPUT BOAR 3. REFER ' LA YDOW PANE 3 OOKIPPEl.CIIR MONITOR TO 16M BOARO, FA TORY WIRINC -FIELD WIRINO EY E C. NOTE _ C-0 iv;E"1:".:HUM TE1. CO•ESOF. C DN 1- ROL NOTE 1 HP L IF M 01,) NI — A (mp Al CCI C.C.HEA TER VV N CONTROL COM . A-5 NOTE F _:N OIL FAILURE Li L2 L3 0 0 0 0 0/ 0/ Al A2 ILL NE 1 TMP COST(-0 T210D 6/15/9 , .• N1LDLIj COMPRESSOR C`O II L N 9 NOTE 2 HP LP ! M ',EGEND. A AUXILIARY CCNTACTS MR MODULE POWEP. CC=CONTPGL CIRCUIT HP HIGH PP ESStRE SWITCH LP LOW PRESSURE SWITCH " CIL FAiLURE SAFETY SWITCH 2 TO RELAY OUTPUT r)ARD. REFER TO LA YDOWNS IN :ON TROL PANEL 3 COMPRESSOR MON, TCR TO 16A1 BOARD 4 UNLOADER CON TPOL AND SOLENOID FACTORY WIRING -FIELD WIRING Br B.C. A COMP. A-6 NOTE 1 OF NOTE 3 C C HEATER NC 4 Li N PUN COMP COSTCO T210D 6/15, . M D I ti P! TEMP. COMPRSSOR T F: t C' t' N LECENC: 20N7ACTS VP - LE :wE. CO=3,CNTT-7OL CF T LP LOW PR EYFC SWITCP. NC 1 OIL FAILURE .E..AFE7 CTT- 2 TO E:A OUTPUT E'CAPO RE=ER TO LAIDOwNS :N CON TP IDL PANE I -H• mONFT,.= J 6A. BC: NOTE 4 UNLOADER :.ONTPD NO SOLENCJ: N 3 p---0-• r - L7 OD t 7- 1■, HO NCTE WIRING wiP.+NG Er E.C. LEGEND A AuxiLLAR'r CONTACT:, MP MCnULE POWER; CC=OONTROL CIRCUIT HP HIGH 0 FESSURE SWITCH LP LOW PRESSURE SWITCH NOTES: 1 OIL FAILURE SAFETY SWI ICH 2 TO RELAY OUTPLIT BOARD. REFER TO LAYDOWN'S IN CONTROL PANE_ 3 COMPRESSOR MONITOR TO 16 AI BOARD FACTOR Y WIRING FIELD WIR B E.C. Al ty _ S COMP. A-7 v u — A : NOTE ' OF M A — Tr 4 r''-'** i I N 0-- , N:TE ' C.C.HEATER C.C.HEATER f \AC OIL F ) 0 RUN MEDIUM TEMF. COtvi CONTIL CIF IJIT.115 NOTE 1 OIL FAILURE COMP COSTCO T210D 6/15/98 TTMP. ;11_ L I NOTE N.: "E Z i-i . 'F *7C ._._. , -%•-'--.k- - : , —I---. 3 r--.:-- ----,--:,---.? ../F--?,. m — j„E t MP %/CD2LE - _ LP LOW PREP C.=E NOTE: 1 01_ ■-" SA - _AYE:211'4S N ..JN 3:0mPRESSOF .•.ON.. TO 16A: BOARD NOT 3T7.F' -FIELD WIRING BY E.G MEHLEN,1 OOATF IL CIF, jUIT,11t'v N co VC 0 0 0 72- NCTE 0 LEGEND. A AUXILIARY CONTACTS MP MODULE POWER CC=C0NTOL CIRCUIT HP HIGH PRESSURE SWITCH LP LOW PRESSURE ':T:wiTCH FACTOR , WIRING -FIELD WAIL, BY E.C. Al COMR. A-4 Li 12 NCTE ' HP F NOTE 1 OIL FAILURE SAFETY SAIT=H 2 TO RELAY OUTPUT SCARE. REFER TO LAYE IN .7. ATROL PANEL 3 COMPRESSOR MONITOR TO 16AI BOARD 7, - • • Cl OIL = 1 7 7 7 7 PN ) ( COETCO T21 OD 5/1.5,"'LlE 3 CC COMP. A-8 A NOTE NCTE 1 C.C.HEATER \A Li L2 L3 - 1 I I ) o 0) o ) Al 1 0 ° Q - T T COMP COSTCO T210D 6,15/98 OIL FAILTiiE A: RECEIVED CITY OF TUKWILA ; PFFIPArrrIROFP AN •- . .1(0,•• .,••••••i, L :AEU- 4 L o• TLIII HE'S DATE: IC /8:99 SCALE NCNE: DR M. MERAZ SALESWA CLIN -oA PLAN 4710= SHEET I7 A ;EN= A_XILIAR :0,NTACTS VP VODLE 2:=20N"POL P ."FE LOW PPE' --- PE SWITCH EA SAFETY --, iTPLIT BOARD• . REFER "C 3 COMPRES:i. MON7OR 'D 16A; L F' RING F1E_2 WIRA; E.* E.C. 12i; N _ 84 E.Z1110141 •1=101111 a TRANIcT '20V PRImAP'; 2 .V11-: CEN TAP SECONDAP - P.N. 640-004 3 BD., 2.25 AMP, P.N. 1 ,8' BC , 3 75 AMP` P.N. 640-C.C '10 BD . 7.0 AMP' FACTIP WiP!NG FIELD .t/IRN G 6' E.C. CIM E- J r I- C 0, N CONTROL C CTFR OL LE H - , .. II , 77: OUTPUT BC 11 I I 1 !I :c OUTPUT BOARD I C.C.HEA"EF •■•■•■■• LAYOUT FOR CPC—RvICC CONTROLLER COMPUTER PROCESS CONTROLS, INC. RuN NOTE ,te : v V , : r , I 4 — r I I ‘t : -;-- - I ! ... L' L3 0. ET': OUTPUT ECARD '6,AI INPUT EC,AF-:. NDEN CUPUT BOARD 0, -L2 6/15/98 COSTCO T103 6/15/95 ME TEMP. CHi7,.......1 CONTRO1 Al A LEHNE: - C.JN"ACTS MP MLLE POWER ON .L HP 4 RESSURE LP LC W PPESSUPE Siv."2H NC TES 1 OIL EAr._._•P.E SAFE". SwiTh7i-I 2 7: RELA • OLOT-!_.• BOARD. REFER TO LAYDOWNS IN CON P ANE, CDMPR<EZZOR meNiTOR TO 16AI EGA.F2 NOTE -FIELD W!R G B E.C. N SHIELD RS48.5, OM • G TO ADDITIONAL FED EXPANE 8GARG, BLACK TRANSFORMER BELDEN 8761 22 GA.. 2 CORD RE' SR FLACK COVP. B-2 FACTOR', WIRING FIELD A1PINC BY S . C . , I i I I Hi TO ADC:. TION L EV AN SON BOARDS NO"E OIL I L J P E .2.C.-EATER L2 L3 0 Al 5E 1-E N ' S- A L P-, BELDEN #8767 22 04. 2 CORD 0 c‘ \ BELDEN 4876' o, o C' o C o 72,MP CO 721 6/ ' IC. 1 1 16AI EJAD 0002200 1 1 2' 5 6 7 8 ON1 4151617.1.1CO PROCESS ,ONTROI.S. INC IL NOTE oNUSED NPurS eNt NIA, BONG siStO MaerOP - EmPEPATIVE SAKAAD ee•., N■Em COPPEEPFNEINE poLi SMTCe N POSV1CN MOS? PULL-oFS EFFe, e-•E PEOUTPF e•E - - $.0TCH ec N Not ■ CC. ,SITCN ,11L NOTE 7 DIGITAL NFU T T (DRY CONTACTS) FoP 'MeuTS -8 M. Fr' M TEMP. COM 7 ' r SOR CON TR C.°1_ N BELDEN 22 GA., 3 CORD 0 0000 9 10111 213 I+ 1516 L . 25 , ,7a, COSTCO 11048 6/15/98 NO"E 2 LEGEND • ,, L.X.L■AP CC:N"AOTS. ACCLE C=CDN CARCUI" 1-•P PRESSURE F.10 • LDW PPEESDPE S'i.fiTcH 1 O. FAIL_RE SCRE (1N 2 TO RE:A' OU'Pu" ECA REFER TO LA1)OwNS CONTR0L • .:OhAPRESSOR MON TR TO "EAI BC AP:. "`CTOP ;URN,: -FIELD WI PG EY E.C. 540 580 - 5/C + 58C LAO- -■ 247 » RP ECO, ORE TR A N L:EIP NOTE HP LP CO 8-3 A 7 7 -EA"ER L.2 Non N7 2 "LC L3 - I , O of i D o 51 . I 'COMP COST 7- 2 E,15/98. OIL LLORE TRANSFORMER P 6+O- - -742 3 8D . 2 25 AMP PR 6+0-7G15 .6 80 325 +MR PR 6+C- - 048 1 BO . 72 AMP, 7 -7 S .6 I ECI =- EOAPT COIvr.,,1!2V AND CENTER TAPPED TR,i !NIFRAIO CONNECT,C \--BELDEN 40 \22 2A 2 CSND ED , rs- II K I - t N-7 ! .L SOLENOIE OIL _7E= , E. , "5 , mORE THAN )NE .:05=,.:"E SEE PELA 7. 4 8 5TE - ME MAP' FAC"CR NIP %."1.= FEL: vVIRINC- 8 r E.C. Moo - D72- I- 2 'x7 Ou T p li 800C BOARD ° N. 810-3001 NC C NO1 „ NC t NC SC o!LA %AWL SY:ONNEr: cpc NOTE 5 ,2 K3 K 0 0 0 NC-'S 2 0 ,2 CI) LI' -=•-• I I I K5 1 K61 T S I K8 •=, ■.= 0 0 NC N, • -97 INC NOI COSTCO T1058 SEPARATE PER;',1;T 4,ivp • %I PECENED CITY OF TUKWILA APR -- ?:-M PERMIT CENTEP TT, NO LNANGES .A TICS SKr j:2:L 1,9 . 17 99 el NEPA: NO • 9,2,4 ••■ HERA, CHAN,S "MIS SNEE /5\ ! I /6 DATE. C SCALE. NC DRAWN M. MEP-AZ SALESMAN: OLN CUNNINGHAM PLAN 471 0 SHEET r-Th 4E 3PH/60HZ S P ' ,,---., PIE AND COMM. E T— 321C ETT t •- ■ -• 11 UP : BUS OP E.: T PE - APL'S •77,... 7 - FE vArEF - 6- , I 1 I 1 I 1 I FE 485 B S seE it_APN! PIELIC• WIR!NC). CONTROLLER #1 Al/DI INPUT BOARD : ! NC 7. NOTE 1 LEGEND. SP LOW TAG E AND SINGLE PHASE PRCTE '..TION CONTROL SP1F SING PHASE PROTECTION RELAY FAO•roR WIPNC WIPIN! Pi E.C. 460, I - - .0M:= \ A I VOLTL ILE NI HNIL r " H- PRI) T T IA FOR COMPRES:2.)R\ T, • DI STF'IE- TON NO c (_, /120V 1 1 6 . cc , , j c I ' • c-, 1 ! 1 4 ,- • -1- SP1R SP1R SP1R 206i 12• , :: ! , •.• - rOP . G JP 238 12: POVEF. SUP: TO OTHER LOADS AS PEO'D;) SEE RELATED SCHEMES FOR I) BOARE. POWER CON N TION S 18 - 4 OF Ea,: 600v ,1 iS1.4.476: nOSTnn 7' 0 NOTE CONTROL POWER TRANSc-TORMER: POP CPC-FMC.1.._ Iou INPoT / - BOARDS CONTROL VOLTAGE NOTES: 1. REFER SCHEME TIO4B AND LAYDOWNL IN CONTROL PANEL. 2. Ti TRANSFORMER FOR CPC EOUIPMENT .)NL Y. DO USE WITH OTHER EOLIIPMENT, 3. 8kva TRANSFORMER WITH 460, RRIMAF TO 230v/115v 1oh SECONDARY COSTCO T211 H 6/15/98 - - - - ArEP NEL ,07 o AU. : VOLT A - - F- 3AC:Saa SS2-1:1,5 FACTOR W.P AN- Y EC " Ji5 C 0 208 120 • 2: CO rt.. 123, " ; N L vt Nti\ • I I : AAA. CA 342: OF 32:-2 PS4E5 BUS TO RMCI SW: 7 Orr. tn:!: "Yr_P• S uc)ctf. TQ PRin (NT SUPPLIEE /5\ OVE..= IALAPIt PS485 .0Sir :vs NE".41,3P, Je31.4.tt PR 23: l ' 7 E. 7 • : , 1 1 CO T1 07 5/15/95 NOTES: PERMANENT .; YT .- - 085 HC"-IS1NG ik 11/4 z F • , - 12- • 4 A (ZERO) CALIBRATION PO — I (SRA% 2A_IERAT 1. NiN OK: SUPPLY OP 1" TO VOLT D.C. RPOUIPPD. 2 A P ELLTE SIGNAL 3LT 0 • 0 - 5 VOLT 20 IS RR DRT AL TO LIQUID' LEVEL, 9,07- CAN BE — . . 3. WRE 0.05 AA': ND LEN 3T- DC DC NOT R'J".. DNS: R WRE: WT-. DR NEAP PDVER S...iRRL • WIRING POP EEL ELEC T SE RPOTECT,ON. 4. REEF T. SCHEME Ti DAS l'WNE P AE I-• PANEL. P ACTOR • W RiNG FIELD WIRING F MiL COOLER Vv'TH TIM INITIATED 'TEMPERA LIRL ') 6 1ICIRC1JiT ' ? ( 'BREAKER TT I_ _J 1 DC) COIL #1 TP, N SFiNt SVC 460V 16, \ TC. , ) 1 ) PAN ° DISCONNECT' r c 7— • 6_, I L _ SYSTEM #A2 N -L „. 1 ...._,_ i " I C ONT R 0 L 4 DEFROST RELA Ni Ni REFER TO RELATED CONTROLLER RELAY OUTPUT BOARD SCHEME & LA /DOWNS IN CONTROL PANEL N2 REFER TO PELATED CCN TROLLER ANALOG/DIGITAL INPUT BOARD SCHEME ".! L AYDOWN3 !N 'DNTROL PANEL. AUXILIAF ! FROM FAN DI SCONNF CT BY E.C. NC 3 COS TO HLA P ANEL DISCONNECT LIQUID SOLENOID - COL.u0, IREFRIG N1 •RPL NOTE 3 1— t 1 [xi i —J — TO 16A. E CAR: NC TE 4 N=.= ANALOG DIG:TAL INPUT ETARI TEM= SEN SOP A W -IN LEGEND: DEF=, T CONTACTOR PC FAN 'CONTACTOR TR DEFROST TERMINATION RELAY FACTORY WIRING FIELD WIRING BY E.C. COSTCO T8M 5/15/98 CONTROLLER AN AL :C.- IN _ BC ARE J N 0 E 3 ; TEMP SENSOR AT L.-OIL SP1 LE OEN Sp- AN: S'NOLE FHASE PF OTE CONT. _ SR1 SINGLE _ • c'‘. - P • w EFL: VVIRING E MW00---0072_ \A, / 1 ( - )E -. ...7 cv 7_7 - I:U r i 4 71E TE NOTE 4 L FACTORY WIPING FIELD WRING BY E FA NC TE ' o C TR. OL I SWITCH NOTE 1 LIOUID SOLENCI: AT COIL NOTES. 1. REFER TO RELATEL CONTROLLER RELAY BOARD SCHEME & LA 'DOWNS A CONTROL P ANEL. 2. REFER TO RELATED CON TROLLER AN ....LIG INPUT BOARD SCHEME & LA YD DWNS IN CONTROL PANEL 3. REFER TO REFRIGERATION SCHEDULE AND/OP ELECTRICAL REOUIREMENT SHEETS. 4 DEFROST LIGHT 5. AUXILIARY FROM FAN DISCONNECT BY E.C. / —DEFROST N _ 1 1 -IL L PANE_ NOTE 5 SYSTEM #43 S= SF 'F FAN DISCONNE E0' 4 • TERMIN 1 , BLOCK 1. PEE ' 04E. AN: JTDANE IN "- 2. \ OPM 2.. NE' .55 , AT 3. ..Z■•■ 3N 3F - TC 5).. SECOND AR COST.: 1 6/15, '98 Cs: TJ:7 BFEL : - - • 9 r I I , • __ .2. I 0 VER E T NOTE TO HL PANEL L' L2 L3 - t ' G RE _ A • 4.- ---, - -.I 1 . 1 1 1 6 .6 b b ‘■• 1 4 4 1 1 LL.L. EL.71 H-- I ` AN M : WIRE M,LTIPLE MOTOI-R3 'N ARALLEL SFP/ij /4 I AND CON TR 0_ VOLTAGE LH COSTCO T58 8/16/98 6, RECEIVED CT' OF TUKWILA APR • ' ' PERMIT CENTER 411nrap, Inap.00 T z - < z A ,NANGES ON THSSMTP , PC.:MANGES ON tiL 7m; Stf ET `i M MEI,2 1C./ SCALE: NONE ■DRAWN M. MERAI SWAN: CL CUNNIN A6 DfLE1ED SEr4EPS • 10/1/. PLAN 471 SHEET 1) \ (7 C N3 C • • SOARC NOTE 2 N TELA- ENS A [J L_ DEF HEATER A /5 _ CTOR Y NT, - FIELD "MRP.,., -, BY E 's "' ;CPC:141T RREAKEP CONTE:if:, S 'OH • if NOTE - TH p4N DISCCNNE:T r 11 - r LJ FAN'S TERM. 7- STA f COIL #1 - 7EPRO , RT RE_A NC 7 ‘, NC it ▪ •- 0 LiCL:D SOLE\ ..._ AT COIL NOTE LIQUID SC•IENDIC AT COIL N:TE NC 1. REFE.P "ELATE: 22% TROL_Ez PE_A EL: At SCHEME • _A OWNS N ANEL. 2. REREP - FEL A TED OCN ZE AN INP. ECFE _ ANE_. 3. PEEP FE="IGER - 'N SOF:ED:LE AND CR ELE PED)141P EREETS. 5. A _IX'LIAR FROM FAN DASC. 2NETT STEM WALK—IN CTI_TLE= ELETR_ 7 ) ,L IF - R TIME INIT,,L, TEMPE7-LT ' CONTROL . TcH SYSTEM #A 10 I 4 _ _ N N TO HLA PA NEL DISCONNE Ni REFER T. RELA TED CONTROLLER RELAY TPUT BOARD SCHEME & LA YE:OWNS \I CONTROL PANEL. NC REFEE "9 REL." - El": CONTROLLER 4 NAL0u/DIGITAL INPUT BOARD SCHEME LA JNT N CONTROL PANE. AUXILIA.E1 FRO') AN DISCONNECT BY E.C. LICE if SOLENOID TERmIN L _ BLOCK C1PC.: BREAk E.R 4 --- NOTE KLA OISTRielo I t t 7 6 4 AN 2.; E- CON E - / • r 2 C I I, - 7. • JL ! R .: AN 'A TOP c' C wiRE m - !P_E ARALLEL C1E 7 7 8/16)98 — i L X ND AN A7. DIGITAL IN P2 • [ I TEMP SEN.S3P WAL LEGEND: DC DEFROST CON TOR PC FAN CON TA oT;Lp TR DEFROST TERMINATION RELAY FACTORY WIPING FIELD WIRING BY E.C. COSTCO TEM 6/15/98 •.:E '2 DON DL_ER: NAOG • I - - 3 I I TEe" SD's:SCR AT °cm_ NOTE 2 CCN TROLLER AN AL DO BOARD NOTE 3 LJ TEMP SENSOR COIL — 4‘1, .*■.: L TMi T ERN TO -LA •—. —=") PANFL FACTOF WIRING - FIELD WIRING BY C.O. LIQUID SOLENOID AT COIL • PAC TOE, WIRING FIELD WRING B E.C. Nc7, 5 LIO4 SOLENCID - COIL NOTE 5 No TR" I. PEER TO. RELATED - _ONTP RE_A • EL:AP.2. SCHEME Sc L 2 'ANS 'N CONTROL " ANEL. 2. PER" - E7 OONTRS ANA.L2,G ,NPL; SCHE'AE _A !E OWNS N CONTROL ANEL. 3. PERE", 7 2' REFERAT'ON SOHEDULE AND OP LECTRICAL PECLAREMENT 'SHEETE. DERP.OST LIGHT 5. .A2 X:LAR Y FROM RAN DISDONNE7T C E.C. CON F c_S v'V/FP TIME INITHL.TED TEC' ) NOTE 4 N TO HL. PANEL �,I CON TECL SWTCH NOTE LIQUID SOLENOID AT COIL NOTES: 1. REFER TO RELATED .1..NITROLLER RELAY BOARD SCHEME & LA YDOWN2 IN CONTROL PANEL 2. REFER Ti) RELATED CONTROLLE ANALOG INPUT BOARD SCHEME & LA YDG1/VNS IN CONTROL PANEL 3. REFER TO REFRIGERATION SCHEDULE AND/OR ELECTRICAL FECuIREMENT SHEETS. 4, DEFROST LIGHT 5 AUXILIARY FROM FAN DISCONNECT BY E.C. - DEFROST RELAY NOTE • I 7 F...)/c EM • --DEFROST RELAY NOTE 1 -a NOTE 5 AT COIL 4 1 LIQUID SOLENOID 4 1- —I NOTE 5 SYSTEM #81 CE EC E I TERMINAL 4 , I BLOCK a PELA 4 FAN : iSCONNE 27 E r ED CIRCUIT BREAKER ! 7 es es, FAN DISCONNECT ( BY E.C. TRIAmiN A EL ILK BRFA• ER RE L A Tp -+LA DaSTR.E. ; PANEL 6 6 II • FAN MC`ORS. MPE , To 7 IN P AR AL_F__ 8/16/98 TO HL PANEL Li L2 r - - - f • T I A N MOTOR: C WIRE M _L MOTORS 'N PARALLEL COSTCO T5B 8/16/98 NOTE : CO' TRO-__EP 1 ANALOG !NF'_ BOAR;) • NOTE 3 ! " SENSOR AT COIL NOTES 1 REFE.= CT RELATED 22N REC BOARD SCHEME & _AYDOWS., iN - .ON - . AVE._ 2. 'REFER - 2 FE_A 2:N ANALG NP BCARC SCHEME PANE_ 3. REFER TO "ERP'GER - :D.N ST..rE2L_E_ AND OF E_E.:` .- 4 DERR:2T L T 5 Aox'',JAR -T" RAN SCONNE:' BY E NOTE 2 CONTROLLER AN A_DG INPUT 80ARD \ _1 NOT 3 TEMP' SENSOR AT COIL D MEATS w _yr CYCLE EO 7%1; TED I N5 4 11- UCIJID SOLENOID AT COIL LIQUID 1 REL:. WRAC E.C. BE. R IF CCLE flEFIT TIME IN;TIATEi . TIN/1E TEFRA-II VA TED --- 17 :7 CONTROL Sw1T:H NC.,'TE 4 LIQUID SOLENOID AT COIL LIQUID SOLENOID AT COIL FACTOR WIRING FIELD WIFTIC BY E.C. F t_A • R A NEL COP. TPA. SW TCH NCTE ,.. NOTE • ' • N TE DEFROST RELA NOTES: 1. REFER - C RELATED C. ;'NTR(.3LLER RELAY BOARD SCHEME & LA YDOWNS N CONTROL PANEL. 2. REFER TO P'ELA "ED coNrp 5 P ANAL , NPuT BOARD SCHEME 3, LA yDOWNS iN CONTE:IL PANEL 3. REFER TO REFRIGERATION SCHEDULE AND OR E_ECTRICAL REQUIREMENT SHEETS 4. OEFRC„;...RT,, O LIGHT Auxl, 5. FROM FAN DISCONNECT BY E.C. -; • NOTE S3LENC AT COIL NOTES -DEFROST RELAY NOTE ' I I 4 ! N TO HLA L PANEL -• SYS .`2 'EFRIG RELA ' NOTE 5 -I F- NOTE 5 SYSTEM #82 TERM NA2 BLOCK TERMINAL BLOCK TO HLA DISTRIBUTION 1." L2 BREAKER 1- - L r. - F",:\ 2302NNE:7 EEC. FAN DISCONNECT BY E C c L 4 4 11.- •••• - = AN MCTCPS WPE a40 OPE T T- 8 '6 /98 TO ',ILA PANE_ Li L2 I I ERE.AF ER [ i 6, r Ll L21 .L2 I I • - L L FA N MOTORS INIPE MULTIPLE MC IN PARALLEL COSTCO T58 8/16/98 I D 3N IP NY: 2 SENSOR AT COIL NOTE 2 CONTROLLER ANALOG T BOARD NOTE 3 TEMP SENSOR A T COIL FIE.: 'MP:NG BY E.C. 1 7 :::" . 1 — :1 7 Fr I I 11‘ FACTOR- , MF NI 2TE NOTE 4 FACTORY WIPING FIELD WIRING BY E.C. IT LIQUID SC_ENOT: AT COIL tOA - T-I NO TEC. 1. REA SC-..EYE LA 'DC AiNS N INTP . L 2. REFER TO RE_A TED :ON - TR C__ER ANALOG :N" E. 2APO, SCHEME L N 2ONTP2L ANEL. PEE R RE";GER - SCHECI4LE AND CR ELE. LL"EmEN S-EES ..7E=ROST JO-IT 5. AUXIL , ,PY FROM AN DISCONNE: E E.2. E hILl 81 I ir\; TIME_ :NI TIA - 71 7,00p - 072-- TO • L PANEL 6,1 CON PC • NOTE ' NOTE 7 LIQUID SOLENOID CT :CIL NOTE 5 LIQUID SOLENOID AT COIL RELA N07. ' / -DERE:CST "ELA NOTES 1, REFER TO RELATED I INTPDLLER RELA BOARD SCHEME & LAYDOWNS IN CONTROL PANEL 2. PEEP TO FEL A TEC . 77N TRat.E ANALOC, INPUT BOARD SCHEME .k LA ID IN CONTROL PANEL 3. REFER TO REFRIGERATION TCHEDULE AND/OR ELECTRICAL RECUIPEMENT SHEETS. 4. DEFROST LIGHT 5. AUXILIARY FROM FAN Dr 1 T BY E.C. RE'PLS RELA ! - ! ' • - -r /- 6 NOTE 5 SYSTEM #B FAN SCONNE: E.:. - - - r T TER1`,;iNI RE'RIG. RE_A, TERMINAL SFPARATF EP 1- A ER CiPC rc DrSTP 5 ; S WRE '4- _E MO IN CCCE FNEI. 1 S 6; FAN :SCONNECT / BY E.C. 1 I _ AN iD CPC 8 • ••_:„ AN MOTORS WIRE MULTIPLE MOTORS IN "ARALLEL COSTCO T5B 8/16/98 RECEIVED CITY OF 71.10111.A - ; PERMIT c.ENTEF NO CMANLt._ , 415 WE' ! ADDEO NE, -jA il , FOR 5, • Poor+ 0,1,00 ADOfZ11A€ R11. n • ..JtV.ESSOP Es, >2 AND AI_ SYS., APE c, r oat 1 10/1/99 NO 2_ DATE: PLAN SHEET "E.••ISIG.NS Lu CO , Lu 0. = Cl) 'SCALE: 6, 6, N - 4 DRAWN 3) 1 k,IFP AZ SALESMAN I it OLIN ,2,AN'NOHAM / 1 0 100 vu 6875 34.00 68.75 - D C I 1■1...,- --A .s. --- 1-......i-,-- ...mmixoth....m. I I T 7 .... 1 J-A's "AV '"• • 14:" W SLa ti to :4. XX 5,84 5! t Jr 4 : •••:. :•••. €4 • a•imk-ak, ...:110C JOE - MEMBEF EY OTHEF [96.00] ROOF REFF!GEF.ATCN , PAIG — 1/2" E2_ , Ev., :ABLE AC " COOPS FONT AND •siDC AL :PENrC. ,T•Ao.•Eo M k4E74; pEcRIGEpAlieN ! A CONDENSER NOT SHOWN OR CLARITY • OPENING DETAIL :.:.•••0;• r-n 0 C 3'-6" [41.0Cj SECTION A-A (SCALE: NONE) L'k '4 5 UNIT COOLER HAN'.:ER - 35" E EFACy.E ' '2" THREADED STEEL PEFP■GEPA70N 0 1P!NG — 7 ELEC7F , ANE- INSCE COCLEF Fl OF PANEL I 3' [06.00] 20 4 - I 2 4 .4. EST. OPERATION WEIGHT: LBS SYSTEM REFRIGERANT CHARGE: 2,425 LIS REFRIGERANT: R22 port,F,' - ,p7cNS PPEPRIETARY TrIFOPMA,F1 ELGN' T USSAIANN COPF,PATION OP AFFILIATE() COMPANIES. AM) SHALL BE I)SO CPO' , OR .E puppos, FOR wHir, SUPPUED T SMALL ,,, DE CCPIED. REPRODUCED. OR END VEW FRONT OPERATION WEIGHT: 5,000 LBS SYSTEM NEFRISERANT DIANE: SIR LIS WERKIERANT: N22 1 75,a C a Alp _ " 5 L. 7.750 75C , P DRAIN c. S'areCE ELECT. -NCLOSURE &•Z_ BC To 54C . NSLOE .•%•- .HC COLE c:Pc PH YSICAL DATA SCA_E \CAE Nr:.• A ',ON :7•31PiS :F u0Orr_LS. .4.s.GEq FAN TYPE • '•4•:8A-- 2 ,! CX j *: 7 20S• ; xs ,C- 1 2 OOS 7/8 JOS 54 • "0 1 • 3 CO 1 • 2 00S - ','800S1 - 6 - 54 65-v8 A CROS:- SECTION =_ A "4 opt 4,414. AK'S MCAT - , ;)00T 371 REFRIGERATION PIPE ON HANGER = = EGUIPMENT. TOP VIEW = = EQUIPMENT ELEVATION, BACK VIEW VIEW -A- CCOseii: 0•4 DaIENISC*S = = -- StoCr 'Joh CON*: SII-0 •••- • LBS 4 3.6 /5 : I = REPO LIOCID JNE REFR1G. SZT0I1 UNE * 1/2' 14S,: J-■-■ANGEA: ?ANDO' ;LT CABLE TIES ON ALL _NES ANGLE BRA•:.:1 ET -. REFRIGERATION PIPE ON HANGER CROSS SECTION atrac. at* lot :F I SZE 004101. 411.0.0' 511,1•-.4i•e 43-40: 17.4 '3. 24 6.% • 5.1 5/8 66 -BS '55 195 •:-•• 16 • uo_* LAE I-- 39 39' 39• ••••.:0 CONDENSER TUPPORT E ■-J33MANN "ATLANTA TI NOTES A MAN DOOR 3..C1110% LAE \*/ REFRIGERATION RACF ACCESS :,3L ▪ SEP ACE DOOR PEER,FFA HOUSE uANLFACTUPE E•pAuST rap mAL_ ,Lp.fro, INSULATEE PANELS •••,.L r•EcEpTACLES SAM SAI3 r THR.N• 3 1 4:( L I '4 L-,3" 28' [336 00] E ENO ELE J'IEW viE - - EQUIPMENT ELEVATION, FRONT VIEW VIEW - REFRIGERATION HOUSE: PAINTED WHITE. r 18 x 18'H LOUVEP AREA SERVICE DOOR =E: r!:* y 2.75 — T 2.75 - 2.75 KRACK IBTR SERIES BETWEEN-THE-RAIL UNIT COOLERS I DX i • 34 1 -• L.- A 01 IC § riard 0 '.14 PM I to GI 1 I irZA WA d OR 00 - 6 50 • --- --,- i • ! ■ • ' " _. . '----- . - I 8_00 1 • ■ 1 I I I 1 175. Y/, • 8-00 — " 75 - , ' JO 2.75 — — El DO 68 75 "A* DIMENSION 3.c 5,7 fis 4000 114 - I - fiB 'A' DIMENSION 214 - 216 - 318 000 0 72, KRACK BTR SERIES BETWEEN-THE-RAIL UNIT COOLERS BTR 24 - 58 1; ! 24 - 26 - 28 117' 0C — ! 3t!t;0 45 :5 34 - 36 - 38 22.000 24 .25.000 26- 36- 46- 56 28.000 28- 38- 48- 58 ------- .- 151 44 - 46 - 48 114-24- BTR 114 - 418 ESE X 3i, - 316 - 318 54 - 56 - 58 '54. 50 - - 5 414 - 416 - 418 68.05 RIP • DIMENSONS OWE 1 , PE 5/8" DO /2 • !• -:ANGERS A iR 51: -••■•• 4" — END v:E '///' //// ///// z //: DRAWINGS. ARE 0 .0 , R - DO N0 ZOD 12.00 DC END VIEW ALL CIMEN'SiC`NS ARE IN • NCHES 0:4 ROD DRAWINGS ARE FOR GENERAL REFERENCE- DO NOT USE FOR CONSTRUCTION PURPOSES. _j HANGER HOLES DRE 5,.9 " CIA. 'OR 1,/.;:" PECEIVED CITY OF TuKWILP. Ad - i PEANUT cENTET A 1 CHAI,E0 L LOADS s?, B S,3 ,DILS ,ELETEE1 Sm2 '09 , ,PCF ,,Pa...rtuG SF /\ rAcnINE FOOP AND , 4,DED:10, 4COED NE4 4, coo. /DELETE, SY3L-1393EN OK "(PAZ CE ,, DATE' 1 CH a. '92 SCALE: NONE DP 'AN M. M"'PAZ SA.iz:M AN OLIN 1 JNNlNGHDl SHEET iTh — 7 PLAN 7 '1 0 I I I I I I I r i 1 1 J I 28 [336 00] T 7 .... 1 J-A's "AV '"• • 14:" W SLa ti to :4. XX 5,84 5! t Jr 4 : •••:. :•••. €4 • a•imk-ak, ...:110C JOE - MEMBEF EY OTHEF [96.00] ROOF REFF!GEF.ATCN , PAIG — 1/2" E2_ , Ev., :ABLE AC " COOPS FONT AND •siDC AL :PENrC. ,T•Ao.•Eo M k4E74; pEcRIGEpAlieN ! A CONDENSER NOT SHOWN OR CLARITY • OPENING DETAIL :.:.•••0;• r-n 0 C 3'-6" [41.0Cj SECTION A-A (SCALE: NONE) L'k '4 5 UNIT COOLER HAN'.:ER - 35" E EFACy.E ' '2" THREADED STEEL PEFP■GEPA70N 0 1P!NG — 7 ELEC7F , ANE- INSCE COCLEF Fl OF PANEL I 3' [06.00] 20 4 - I 2 4 .4. EST. OPERATION WEIGHT: LBS SYSTEM REFRIGERANT CHARGE: 2,425 LIS REFRIGERANT: R22 port,F,' - ,p7cNS PPEPRIETARY TrIFOPMA,F1 ELGN' T USSAIANN COPF,PATION OP AFFILIATE() COMPANIES. AM) SHALL BE I)SO CPO' , OR .E puppos, FOR wHir, SUPPUED T SMALL ,,, DE CCPIED. REPRODUCED. OR END VEW FRONT OPERATION WEIGHT: 5,000 LBS SYSTEM NEFRISERANT DIANE: SIR LIS WERKIERANT: N22 1 75,a C a Alp _ " 5 L. 7.750 75C , P DRAIN c. S'areCE ELECT. -NCLOSURE &•Z_ BC To 54C . NSLOE .•%•- .HC COLE c:Pc PH YSICAL DATA SCA_E \CAE Nr:.• A ',ON :7•31PiS :F u0Orr_LS. .4.s.GEq FAN TYPE • '•4•:8A-- 2 ,! CX j *: 7 20S• ; xs ,C- 1 2 OOS 7/8 JOS 54 • "0 1 • 3 CO 1 • 2 00S - ','800S1 - 6 - 54 65-v8 A CROS:- SECTION =_ A "4 opt 4,414. AK'S MCAT - , ;)00T 371 REFRIGERATION PIPE ON HANGER = = EGUIPMENT. TOP VIEW = = EQUIPMENT ELEVATION, BACK VIEW VIEW -A- CCOseii: 0•4 DaIENISC*S = = -- StoCr 'Joh CON*: SII-0 •••- • LBS 4 3.6 /5 : I = REPO LIOCID JNE REFR1G. SZT0I1 UNE * 1/2' 14S,: J-■-■ANGEA: ?ANDO' ;LT CABLE TIES ON ALL _NES ANGLE BRA•:.:1 ET -. REFRIGERATION PIPE ON HANGER CROSS SECTION atrac. at* lot :F I SZE 004101. 411.0.0' 511,1•-.4i•e 43-40: 17.4 '3. 24 6.% • 5.1 5/8 66 -BS '55 195 •:-•• 16 • uo_* LAE I-- 39 39' 39• ••••.:0 CONDENSER TUPPORT E ■-J33MANN "ATLANTA TI NOTES A MAN DOOR 3..C1110% LAE \*/ REFRIGERATION RACF ACCESS :,3L ▪ SEP ACE DOOR PEER,FFA HOUSE uANLFACTUPE E•pAuST rap mAL_ ,Lp.fro, INSULATEE PANELS •••,.L r•EcEpTACLES SAM SAI3 r THR.N• 3 1 4:( L I '4 L-,3" 28' [336 00] E ENO ELE J'IEW viE - - EQUIPMENT ELEVATION, FRONT VIEW VIEW - REFRIGERATION HOUSE: PAINTED WHITE. r 18 x 18'H LOUVEP AREA SERVICE DOOR =E: r!:* y 2.75 — T 2.75 - 2.75 KRACK IBTR SERIES BETWEEN-THE-RAIL UNIT COOLERS I DX i • 34 1 -• L.- A 01 IC § riard 0 '.14 PM I to GI 1 I irZA WA d OR 00 - 6 50 • --- --,- i • ! ■ • ' " _. . '----- . - I 8_00 1 • ■ 1 I I I 1 175. Y/, • 8-00 — " 75 - , ' JO 2.75 — — El DO 68 75 "A* DIMENSION 3.c 5,7 fis 4000 114 - I - fiB 'A' DIMENSION 214 - 216 - 318 000 0 72, KRACK BTR SERIES BETWEEN-THE-RAIL UNIT COOLERS BTR 24 - 58 1; ! 24 - 26 - 28 117' 0C — ! 3t!t;0 45 :5 34 - 36 - 38 22.000 24 .25.000 26- 36- 46- 56 28.000 28- 38- 48- 58 ------- .- 151 44 - 46 - 48 114-24- BTR 114 - 418 ESE X 3i, - 316 - 318 54 - 56 - 58 '54. 50 - - 5 414 - 416 - 418 68.05 RIP • DIMENSONS OWE 1 , PE 5/8" DO /2 • !• -:ANGERS A iR 51: -••■•• 4" — END v:E '///' //// ///// z //: DRAWINGS. ARE 0 .0 , R - DO N0 ZOD 12.00 DC END VIEW ALL CIMEN'SiC`NS ARE IN • NCHES 0:4 ROD DRAWINGS ARE FOR GENERAL REFERENCE- DO NOT USE FOR CONSTRUCTION PURPOSES. _j HANGER HOLES DRE 5,.9 " CIA. 'OR 1,/.;:" PECEIVED CITY OF TuKWILP. Ad - i PEANUT cENTET A 1 CHAI,E0 L LOADS s?, B S,3 ,DILS ,ELETEE1 Sm2 '09 , ,PCF ,,Pa...rtuG SF /\ rAcnINE FOOP AND , 4,DED:10, 4COED NE4 4, coo. /DELETE, SY3L-1393EN OK "(PAZ CE ,, DATE' 1 CH a. '92 SCALE: NONE DP 'AN M. M"'PAZ SA.iz:M AN OLIN 1 JNNlNGHDl SHEET iTh — 7 PLAN 7 '1 0 D_$ -.. MEA 'OMER C 3 - .ILIA SLAW.; SiK.V.ET wEA7 • • 2...Was ?sc. CON...7. LE SJE -01-APPE55.:. 40C-OEL C 01, =ES D.< RYESs E sEss SUCT C'2,2 Er, -vG- PRES< DA ==ESS <A 7,77LINU • , ONLCADE< 6.0 FAN C: OIL s • , - CALL, Di:. SUCT FILTER uFF <R DATE • LAG - • ,• SS « JRC e'S 2 JP'S P. St 99 9, 99 ww 3.'2' <9 T DR. . 259 As< 1,5 1449 S # , if" 3134 • %OE • .1434 ILCA-#.5 - _ • E 'Ey •• LTE. o. T.mr• .E.CCLis C PREP HORSEPOwE. PEERiGEFuNT SU, - EMP CONDENSING TEL, VILOWAT7 PAYED LOAF AMPS NCN SC CAP _ TOTAL 4SC CAR S.•. LK. TEMP S C. FACTOR 'A ' LLammo, a 7.t, ',RACE '44E EILCT vac. r� 4.9. rtr 1 .4'S • 23 :A Te ■ 2.4 '' Zt .8 1 2 VP( 20 . 2. ,..8 2 8- - • 6A .2 i I - 7..• - -46.4 Ce40./.. ST041 !. STEerS RACK . MIX Saat - 114 -• 03.6RRESSOP 4 ,....CESS3RES - ESOC =700,- 3-CF5IoNe 395 9 MINCP REASION RE= DE 2PDAT<" SHOP pEc 40.3-25-3C RS - 75NNe/395 SENTRONIC 9133 • 4C 5TSX) / CHINO Cl..ISTOT.. , ',S7EMS RACK- r.YTSRE MOCEL <CA3 - 3000 ,OA- • PS3-CF5rINB/395 SENTRONFL DES • AL t /0. 5444,2f.1 11494.4 L#114 elt, 0001 8175•2. Et. I 2.42301 IOLA, - .E814. 3'20, 2t T 7.4.7X4 Z3 , 00C, 285-'0 •••• T 4.784:c 3..182.2C, 30E3-2750 P. CAA- , S3--7„,,,NNE,• 31 sENTRON, "7".-•C . :i:� • 5: 4: T.2304C f :HANGM COILS ANC P3,O7EC L0A05 39 PxPTE4 12 ADDED N) SYS ji 3 LCUIP ROOM LOOUNG , TE SYS fAR: ADDEO NOTE 13 CHANGED. <I'S #L - JTUPEL ADDED SYS jI 0 N COOLLER = EOUEST: .ER SHOP P STORE :C.S•TCC. LOCATioN• 7L;I<WILA ,'NA. SALET MANAGER. .CUNNINGHAM CISCI4 'LW tame* so' " k11 • 4.2: 4443 4: "000 4,3- _50C REVISE: PO, _ADS I3 _ CUST,MER RE:UE5 -.CREASED P IiACY -A, ::PEASE': H.P. ON RACK-2. RAC I.• .S NOW DELETED CHANGED C.; .:OOLEF L«AIDS AND NCVs "VSC :«11.S •37E/43 OR ONE REF C,_ AECUESS. C COOLER PETLIRNIEC 3 3CL NSTEAC OF 'D. SCALE PEA LLUSTCA•EA AEDUEST CHANGES' PET .DLN CUNTANGHAlo DELETE ACR"- A-PAN ..S.1.:PPLT ILACK T.C. SUB WEL ONLY). ADDED NOTE 41 CHANGE:: :3IL .9 5 T 5 3 70 SM37- • 628.4 I •WAS Sm36- • 428k I • • IV 93J orscH DEFROST . PER IOC' TOT, EvAR AIR 1 DEF DEE "OIL DOOR IE371.1H1 I TEMP I TEMP . 7, FE TERM , 4425 1 .40 *CP LTNIT ACCESSORIES STITEm -E OE O5 %ANL. Ro# S8 , %Ana ihODOOR R.: • t REC HIGH /LOw 9N29 E: SATEL37E >EC. , ALvE P53-CF544N6, 395 i LoAD SHIFT vALvE 2ENTRON.c SENITROXIC SUCTION ACC,UUTOR HOT CAS pCCST 1 'e 4 1/e LINE SIZES SIZE5 - 1 _43 ; • I I WC. • JO •11 . V AL -AM-AR 4.9C - SAC EA* • • 3 ...P• - N N r so, SOL .4.45 N 5.14, i 2 t Wi•WIE Yaw, T 2. T - RATER 1 44E.04, I5¼j u447 ACC ESSC,ES SYSTEm 23N5 1D -TNE :44LE PRESS AEG 2IY BYPASS PEG eALL - IALVE SHTTS vAsLvE H.W H W. PECLAM SALL .9L 21 9. PECLAIM CHEST .ALA N.W. BYPASS BAL.. .AL /F. 5 M .W. REtLA410 H W REC 7AN1 1- vALvE R BALL +AL, • H 9 R5TL.99 _KE_K CALVE 9. R Au*, aui S.L. N 3913 ALA R LOCI. CuT HE SOMPRESSCRS •ULLIDETE 39 THIS AEEPIGEPATLON SCHEDULE AFT I = - ED 11,9E RP3v7041G , DEGREES STORE TEMPERATURE AND 559 =ELAINE "HESE 'O,) ARE •,• R.VAC62 C.P9E5.1, ANIC COIOONEWS Ill BE NEEDC- DoS DOCUmEMT 3097916 P40441E 9F0P99504 BEL,INGNG 995,AANN P4TERNATK)./ -SED FoR T4E ',POSE <OFT 4.CH - 5 SLPPLIED P STAT.L. NOT BE ooPlo REPRODuC55. OR OhAERvoSE USE '. :-u 3935 19101991101. RhOLE OR 91 9 995 BE 1E9 3 39#€S WIT., THE 99*0R CONSENT OF ,91I. NTERNATIONALL AND DAL- BE RETURNED UPON AEOLIEST 1. 4 30519ANN SHINC "O 9 09B- 2. CPC K4C" 7 3 CONTROL - 59P559 7 uRE OF HE EOLIPUENT ROOm. 3. SIZE "HE ELECTRICAL PANEL 401. DISCONNECT WITH THE FUTURE COMPRESSORS AND Y'REEEER LCADS NELSIDED ■. - HE mc.. 4. LEAVE 11001.4 iN "HE ELEEESPICAL PANEL FOP THE PUTt1RE COMPRESSORS BREA. EPS SDNTACTORS AND CONTROL CIRCLAT. 111.rnars MILD ELL L: "RCA. EA"' * .ILAT. 1 1 4!' 1.'"34NE :1 _ :RC RUC: "0, :1304' 1:401: '44 Er...A:444r • fECTOR. .,s PAP59 445244,...E. AVMS sm.les .:1 RA APE sre44.70 10e 329: PI Koos PUBS 9 13"L:f I- I I 1 LEAIE THE SPACES "P-S. 3N 545 RA.,- =DR FLPLAE ACOT •S00 :DIAIR=ESSCMS A_SC LTLAVE 93-39 N , OR POSSIBLE CONPRE SSC,: 174981 25 32. -2: • a • - • 1 :0 C 174.31 209961 • • 3 553623 ▪ 59=RAC3 SESARCI ". RADS PADS . 2. _N( BAL.. R-22 CI_ SERE- AC&P -320.4. 33 3 1. RESE,CIP 9 • 353- d- ES S.'S. CONE 3-.A9 IS 5.:4993E SP,• " :CNC SOL. • , 32 2 e.4274 SALL 245399 ...c• .42 01923 395 9995 E. - LEVEL ALsAFT. =2: Si, 3E= S0L3NC40 2 211 C- 39917-0 2 '8 L2_55 3-491 THERMAL - 3/85.0. • :CNC DISC!, eAL- s 'ALoE • 55145 :.•.R44. IONE FALL ._ :HECK 4ALvE 1: RUM= :OJT • E e .SOL.,E-EF ACP 'LEE 2395EN5ER 917. *E..915 2ALVE M IN M iliall1=••111117.1211•1111 INNI11111111111111111 M1111125211:15M1 ■11•111=111115 :11 111•111MMI 11=1•111111110 S.C. SOLONGDS 9133 9135 913C oL K.G. BLEE 0039015 2ALvE AN! 1=1111■1 'AFSTAL_E: .82- • 3 , • AS- • • , SP • • EIS:AN LIAR , *5 BULB. YEA, 7CND TEL, Nctes 1). ALL H55 ELD ELECTRICAL BY ELECTRICAL CONTRAC7C.R. .2T ALL , JNiT .200119 FAN 5 w59 R "0 COME FROM RACKS 4 ' 3fe 5.4 3 •, • _ , e 2 ' j, wE• '7 • 2 e 2 5 a :14' • 9 3 7,9 2.44E•.2 ! • e %13 AL' EIDAAP ',SC: DE, :OLT: - 44. Ste ` sce. 9a. .6111 0.9 RAC• _ETTER E"..F<TEA. CONDENSER mOCEL# • PANE_ f • :we. • ' 1•60. CONDENSER :_99 15__- • • DE« *GT EhIG o3S • • 290. 090151095 44714 .1 7 .C7OP NEA• • NvERTE. RAC. CON7Pa....EF SL,71o. - RANSDuCER 910399955 "RANS,C.ER Dpc p L EG TRANSCoCEP R(FPIG LEA, - SANS 8339 5598 S<NSGB ' 4092, PLA SO 90,<CS As. pOARL., 15915 550509 5599/P 80995 "RANSFOPmEs 900E9 mCOEM CABLE - ORE :55155 _09001095 55.35 5 TEMP U1' • 7 REFRI5ERAN7, a••2 CTST=L iOLT • E': sec. 208 51555 INSTALLED =ARTS -0 01 '51 Le.: REL4, 204C,E999R 406 • 53, 7 55•2 LEGS . 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MIIIIIM=11 MMIMm ■IMENIMM■INIMNIMmommilmi IMN SINNNNNENIMMI=IN INIMilmmMINNIIN LIO SOC. UNE RISER Mil MN 1111111■111111=immill=mmlom•MINNIIIIIIINIINNI Mill ININININIIINIMINIIMII MNINNI INI■1111mi■ml MINN NIIII Mil■imim mumimimiNiiiimilliiN MilsoilioNINIMIIININImo mIlM1111111111111mINNINIIIIIIINNIIIIININNIIIMIMmmomMINININI ■ SINIIINmmommmool MISMINI111111111111111MI Mill IMMENENNINNINNIII IIIMMEIMIIIIINIIIMIN MININIIIIIIIIIININIIN IIIMI 1111111111INIIIIN■111111111 MNIMNIIIIMIIIIIIIINIIN OMNI IIIIMININIIiiillimmN11111111 NIIIIIINNIMIMMINIIIIININI 211 /MMEMMINIEMSMEGINIESCEMB211 MECIIEUE UNIT LEETLP: COMPRESSOR ACCESSORIES 3013.3-1000 LOW PSESS. HIGH PRESS SW OIL PRESS SW 05)11 COOLING C <AN CC HEATER P SAT INVERSES GALLON OIL US i 9333 250 29 153572 21109e 469190 P7P7599- 173 R70.-173 953 395 PS3 SE, IRONIC SENTRONIC 190229 255583 5651.5 P7099 P7099 I 73 PS3-CFSH.13/395 SENTRONIC .0.0 DRAIN LINE INLET PRESS REG COND OIL SERE RA TOP OIL RESERVOIR /C50-20 DISCI CHECK VALVE SPLIT CONS 3-WA1 CALVE SPLIT CONS SOL OVIDUMMY 3-W4v NTERNAL . 0 3/8 H 4 3/8 5. 0 SPLIT CONS DISCH GALL VALVE SPLIT CONDO RAIN UNE BALL VALVE SPLIT CONS DRAIN O NE CHECK 41399 s C POMP OUT 5 8 B V SOLI: HECA ACP TU SuELL & BE CONDENSER 481 I 5/85099 WET 'L95' :FIG ,11351• O 090 DIMENuONS •.505 151105€ 105E FACTOR SAFE, FACTOR HEAT RECLAIM ITABH) A9 7/81 /BCONN SYSTEM LE R CONDENSER MOSEL ,,NERTEP RA0. CONTROLLER SUCTION TRANSDUCER DISCHARGE TRANSDUCER DROP LEG TRANSDUCER REFRIG LEA, 'SANS R V BOARDS A I 909935 05 BOARD TRANSFORMER MODEM MOCEIA CABLE STORE 555 59 CONDITIONS .SIDE TEMP/PR 75 55 P 'VYLB 1EM R 75 55 *51 BULB TEMP 70 CONS TEMP 101 F 2 451 .60 3 60 1661 x 96 331-, YES N/. o4 111=1111111111111111111111111111 1111111111111•111111NINININ 11•111•11 111111111111•■ MINIMI=1111111 IMIIIIINIIINII IIIIIIINININ1011 NIIINIMINNI NENsimil IIMIIINI11■1111mIMINIIIN IIMINIIMINIIINNIIIiilMmom 11111111MIN MNIIIIIINNINNIMNEN INIIIIIMmiN11111111111INNININ1111111 MIIIIIMINIIIIMMINNE illoommoNMININII lemming= !moo IIIIIIIMMNINNIMMENNIN 9133 1.11111M1111111.11M=WeiniiiiMillill.1111.1. IIMMINIMMI 3EFA-22S 11111.1=11.1IMMIIIIIMMIIIIMMII IMIIMMEMIII .1111.111111=111.1=1111111111111111.1.1.1. NINNIIMMINNIIIIIIIME•mol MINNIEMNIIINNIIIIIMININNINIMINIININNIlls MIIIIIIIMII IINNINIalINNININNIIIIIIIImm INDOOR. OP 2UTDOOR 'SPRINGS 'SEISMIC ,r17 PADS OUTDOOR ONO ON TOP 053V SCH 8ALL VALVE =ALS ORAN LINE BALL VALVE I Ul I N U UOUID LEVEL ALARM v L REC SHUT OFF 50509510 REC BYPASS SOLONOID Mim 111111111111111111111il= 1111M111111MMIIINI11111111 =1 11•111111•11111111 REC. HIGH LOW BYPASS SASELLTE 1HE3.1 LRLVE LOAD sof, VA, VF SUCTION ACC J1.4ULATOR K G MAIN SOLONoo VALVE K G BLEED SOLONOID VALVE K G MAIN BALL VALVE K G RETURN SOL. & BALL VALVE MAIN DiFFERENTIALSOL HOT GAS 8005T NINIIM111111 1111111111Mill 111111•11111111 11111111111M1 -- INNEN "MIN OMNI MEM 11111111111111111N11 111•111•111111111111 mNh. 11M116111111111N1 NINE INUMIN MININIIMMEMINNim =1= MCA MORD 201 60 MECEMI MINIM IMIMIIMINNIN 111111111M MINN .60 MEMO NNW= =IINE111 MEM S C QMPSESIS3R9C'OE MODEL COMPRESSOR POSITION S .0 CAPACITY =E=RIGERATEE I TEE 5SD.. AD 2Dr D OORS 12' L 8' v. < Slid H 11 6600 05551,9559 I 15, OTAL SOOT "SET UNE H 'P • 3 8 DISCH ; DRAIN ONE . NIl I LINE 2 8 MIIIIIIIIIIIIIM11111111111111•11111 HOP CLI I TAETT FACTORY NSTALLEO PARTS SOC ' SO US. EAR K 5 I 55 . '.' SOL. VOL ALVES 9 1111111111111 NIEMEN TLL RE. ,rues I -- '914 ARE ' MINI 200 LINE SUNS ' UM 11.1111111111111.1111.111. *ATER PP H P VALVE II A BALL VALVE II 1.9 3 STUB ONLY H P & VOLTAGE' RETURN CHECK VALVE H 11 PUMP OUT SOL. & BALL VALVE H R LOCK OUT H II s E LA, LA : 1 : 1• V i7„._AAHLLELicE:Av ( : W ST PASS BALL VALVE 7 8 RS Y-STAT RECLAIM TANI THE EDIAPRESSOPS NELLIOEC ON THIS REFRGERATON scHEDuLE ARE SELECTED 4AT. AVE STORE AR COND- ITIONING SYs PROYIDING 15 DEGREE STORE TEMPERATURE AND 55% REUTNE motAiNTY IF THESE CONO S - c., ARE Not PROVIDED LARGER COMPRESSORS AND COMPONENTS %AT BE NEEDED THIS DOCUMENT CONTAINS PROPRIETARY iNfORMATIGN BELONGING TO NUSSMANN INTERNATIONAL ANO SHALL BE USE(' POP THE PURPOSE POP WHic - T SupPyiTc iT SHALL NOT BE COPIED. REPROOuCED OR OTHERv•SS uSED NCs <HALL SuCH INFORMATION WHOLE OR PART BE GNEN TO OTHERS virrwout PRIOR CONSENT 1.4 INTERNAnoNAL. AND SHALL BE RETURNED UPON REQUEST NEED TO SE ,N PELC BEFORE BoLDING REF 'RACKS VS. OL SUCT. 9.V. RACK MODE L IG. , SL B y , SOL. VOL. P AC, LETTER REMOTE CONDENSES RACK PHySICAL < DIMEN 244" X PC X NI, °REP WI 5.033 LAS Those ore ',mot,' yoltass RECS. TvER SPEC' = H 14 v • 30LBS CONTACIOR 1,PE HLA-32 5-MT NE. OP D 5A I :X., DR.,. PROBE SW', HTR. CPC ROCS IF 2 8/2 • 09 DE, RAur 0 93* 5 OAAEN " T 3)x OPER • 6.9:5 _ES AGE RECEIVER SPECS DIME TA 14 '$5 CAP • 730 LBS CONTACTOR TYPE RACK MOCE- LA 61 /LP NEmA D1 DP MUoo o , Fkc? „ PECEIVED cots OF TUKWILA L K • PERMIT CENTS LIL .ESIONS ELE NAD, /03403 /.‘,. L0 TTE11 P A: / 400(1 51Y50 YMMEIER < ON SHE' • • ISCNEOLLE 1 ,9P DATE. 1 0[E, SCALE: Nis DRAWN M. MERAZ SALESMAN. OLIN.' DLENNIN PLAN 4 71 0 SHEET 1E)