Carrier 17/19EX manuel d'utilisation

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Un bon manuel d’utilisation

Les règles imposent au revendeur l'obligation de fournir à l'acheteur, avec des marchandises, le manuel d’utilisation Carrier 17/19EX. Le manque du manuel d’utilisation ou les informations incorrectes fournies au consommateur sont à la base d'une plainte pour non-conformité du dispositif avec le contrat. Conformément à la loi, l’inclusion du manuel d’utilisation sous une forme autre que le papier est autorisée, ce qui est souvent utilisé récemment, en incluant la forme graphique ou électronique du manuel Carrier 17/19EX ou les vidéos d'instruction pour les utilisateurs. La condition est son caractère lisible et compréhensible.

Qu'est ce que le manuel d’utilisation?

Le mot vient du latin "Instructio", à savoir organiser. Ainsi, le manuel d’utilisation Carrier 17/19EX décrit les étapes de la procédure. Le but du manuel d’utilisation est d’instruire, de faciliter le démarrage, l'utilisation de l'équipement ou l'exécution des actions spécifiques. Le manuel d’utilisation est une collection d'informations sur l'objet/service, une indice.

Malheureusement, peu d'utilisateurs prennent le temps de lire le manuel d’utilisation, et un bon manuel permet non seulement d’apprendre à connaître un certain nombre de fonctionnalités supplémentaires du dispositif acheté, mais aussi éviter la majorité des défaillances.

Donc, ce qui devrait contenir le manuel parfait?

Tout d'abord, le manuel d’utilisation Carrier 17/19EX devrait contenir:
- informations sur les caractéristiques techniques du dispositif Carrier 17/19EX
- nom du fabricant et année de fabrication Carrier 17/19EX
- instructions d'utilisation, de réglage et d’entretien de l'équipement Carrier 17/19EX
- signes de sécurité et attestations confirmant la conformité avec les normes pertinentes

Pourquoi nous ne lisons pas les manuels d’utilisation?

Habituellement, cela est dû au manque de temps et de certitude quant à la fonctionnalité spécifique de l'équipement acheté. Malheureusement, la connexion et le démarrage Carrier 17/19EX ne suffisent pas. Le manuel d’utilisation contient un certain nombre de lignes directrices concernant les fonctionnalités spécifiques, la sécurité, les méthodes d'entretien (même les moyens qui doivent être utilisés), les défauts possibles Carrier 17/19EX et les moyens de résoudre des problèmes communs lors de l'utilisation. Enfin, le manuel contient les coordonnées du service Carrier en l'absence de l'efficacité des solutions proposées. Actuellement, les manuels d’utilisation sous la forme d'animations intéressantes et de vidéos pédagogiques qui sont meilleurs que la brochure, sont très populaires. Ce type de manuel permet à l'utilisateur de voir toute la vidéo d'instruction sans sauter les spécifications et les descriptions techniques compliquées Carrier 17/19EX, comme c’est le cas pour la version papier.

Pourquoi lire le manuel d’utilisation?

Tout d'abord, il contient la réponse sur la structure, les possibilités du dispositif Carrier 17/19EX, l'utilisation de divers accessoires et une gamme d'informations pour profiter pleinement de toutes les fonctionnalités et commodités.

Après un achat réussi de l’équipement/dispositif, prenez un moment pour vous familiariser avec toutes les parties du manuel d'utilisation Carrier 17/19EX. À l'heure actuelle, ils sont soigneusement préparés et traduits pour qu'ils soient non seulement compréhensibles pour les utilisateurs, mais pour qu’ils remplissent leur fonction de base de l'information et d’aide.

Table des matières du manuel d’utilisation

  • Page 1

    17/1 9E X 50 /60 Hz Cen trifu g al L iq u id C hiller s wit h HFC- 1 3 4a S t a rt - Up, O peratio n , an d M a i n te n ance In struc tions M a nufact urer r eserve s th e r ight t o di scont inue, o r change at any t ime, speci fica tions or de signs without no ti ce and withou t incurr ing obligat ions. PC 211 C atal og No. 531 -715 9-95 Form 17[...]

  • Page 2

    DO NOT VE N T refr ig e r ant r eli ef valv e s with in a bui ldi ng. Ou tle t fr om rupt u r e d is c o r r e li e f v a lv e m u st be v en t e d o u t do or s i n ac c or da nc e wi t h t h e l at e s t e di t i on of A SHRAE 1 5 (Safe ty C ode fo r Me chanical R efrigeration). Th e a ccumulation o f r ef ri g era nt i n an en cl os ed s pa ce c[...]

  • Page 3

    DO NO T W E LD O R F LA M E CUT an y ref r iger an t l i ne o r ve sse l unti l al l ref ri g era nt ( li qui d and vap or ) ha s be e n re mo v ed fro m ch ill e r. Trac es of v apor sho uld be d is - pl a ce d with dry air or n itr ogen a nd the w ork ar ea s h oul d be we ll ve ntil ate d. Refr ig- e r ant in c o nta ct with a n o pen f l a me p[...]

  • Page 4

    g as pr ess ur e, l oo se n the co l la r a nd u n scr ew an d d is car d the va lv e st em . DO NO T I NCI NE R AT E . CHECK THE R EF RIGERANT T YPE b efore a d d ing r efrig e rant to th e ma c hine. T h e in tro duct io n o f the w ro ng r ef rige ran t c an cau se d ama ge or m a lfun ct ion to this ma ch in e. Op er a tion of thi s eq uip ment[...]

  • Page 5

    CA UTI ON CAUTION ! D O N O T ST EP on refr ig e ra nt l ine s. B r oken li ne s c an whi p ab out an d ca use pe r - so na l i nj u ry. D O N O T cli mb ove r a m ac hin e . Use p lat for m , catw al k , or s ta gin g. Fo llo w sa fe p r ac tic es w hen u si ng ladde rs. USE MEC H AN ICA L EQUIPMENT (cr an e, h oist, etc .) to lift or move inspect[...]

  • Page 6

    CA UTI ON CAUTION ! PERIO D ICALLY I N SPECT a ll v alve s , fittings, and pi p i n g fo r c orrosion, rust, l e aks, o r da mage . PRO V ID E A D RAI N c on ne cti on i n th e ven t li n e n ear e ach pr ess ur e re lief d evi ce to p r ev en t a bu ild -up of c on de nsate o r r ain wat er .[...]

  • Page 7

    Co nt e nt s Lis t o f Ta bl es Lis t o f Fi gur e s Safe t y C ons id er a tion s Intr od uc tion Ab br evia t io ns 17/1 9 E X M a c hin e Fa mi lia r iza t ion Ma chi ne I d e nti fi c at io n L abe l Sy s tem C o m p o n en t s Cooler Conde ns e r Moto r- Com pre sso r Control Ce nte r Moto r Sta r te r Ut ility Ve ss el[...]

  • Page 8

    Co nt e nt s R efri g era tion C ycle Mot or /O il Re fr ige r ati on Co oli ng Cy c le H erm eti c Mach i ne s (19 Seri es ) L u br ic ati on Cyc l e Su mm a r y Det a ils O p en - Dri ve Ma chin es (1 7 Se ri es) L ubri ca tio n C ycl e Su mm a r y Det a ils St a rter s Co ntr ols De fini t i ons An al og S ig nal Digi t a l Signa l Vola til e M [...]

  • Page 9

    Co nt e nt s Ge nera l P I C S ys te m Compone nts P r o c es sor Mo du l e ( P S IO ) Sta rter Manage me nt M odule ( S M M ) Lo ca l In te rfa ce De vi ce (L I D) 6- Pa ck Re la y B o ard 8 - Input Modul es Oil H e at er C o nt actor (1 C ) Oil Pu mp C onta ct or (2 C ) Ho t Gas B ypas s Cont actor Re lay (3C ) (Opti ona l) Contro l Tra n sformer[...]

  • Page 10

    Co nt e nt s LI D O pe r at i on a nd Menus Gene ral Ala rms a nd Al e rts LID De f a ul t Scre en Menu I tem s M e nu Struc ture To View or Cha nge Poi nt Status Overrid e Op era t i ons To View or Cha nge Tim e Sc hedu l e O pe ra tion To V i ew an d C han ge S et Po i n ts Se r vic e O pe r at io n P I C S ys te m Functio ns Ca pa c ity Cont rol[...]

  • Page 11

    Co nt e nt s De m a nd Li mi t i ng Ma ch i n e T i me r s Oc c upa nc y Schedul e Safe ty Contr o l s Shunt T r ip D ef a u lt Scr een Fr eeze Moto r Co olin g Co n tr o l ( He rme ti c M oto r s O n l y ) Au xi lia r y Oi l Pum p C ont rol ( Ope n-Driv e Ma chines Only ) S h af t Seal Oi l ( Open D ri ve M ach ine s O n l y ) Ra mp Loadi ng Cont [...]

  • Page 12

    Co nt e nt s S p are S a fe t y Inputs S pa re Al ar m Con t ac ts Conde nser Pump Co ntrol Conde nser Fr eeze Pr ev ent i on To w er - F an R e l ay Auto. Re st art Af te r P o w er Fa ilure Wa te r/Br i ne Res et De mand Li m it Contr ol , Opti on (Requi res O pt i on al 8-Inp ut Module ) S u r g e P rev ention Algor i th m S u r ge P r ot ec tio[...]

  • Page 13

    Co nt e nt s Lo a d Bal anc i ng Au to. Resta rt Af te r Pow e r Fa i lur e Ic e B uil d C on tro l Ice Bu ild In i tia ti o n St art - Up/ R e cyc le Op era ti on Te m pe r atur e Cont ro l Du r ing Ic e Buil d Te r m i nat ion o f I ce B ui l d Re tu r n t o Non-Ic e Bu i ld Ope r a ti ons Att ac h to Ne tw or k De vi c e Cont r ol At tachin g to[...]

  • Page 14

    Co nt e nt s Sta rt-Up/Shutdown/Recycle Sequ e nce Lo c al St ar t - U p S h utdown Seque nce Automa tic S oft St op A mps Thre shold C hil l ed W ater R e cy cle M od e S a fe ty Shut dow n B efore In iti al Sta rt-Up Job Da ta Req uire d E q uipment Re qui r ed Us ing t he Ut ili ty Ve ssel a nd Pumpout Syst em Re move S hi ppi ng P ac ka gi ng O[...]

  • Page 15

    Co nt e nt s To rque A l l Ga s ket ed J oints C hec k Ma chi ne Tig htn e ss Re fr ig er a nt T r ac er L e ak Test M a chin e S t anding Vacuum Te st Machine D ehydr ati on In s p ec t W a te r P i p i ng Che ck Opt io nal Pu mp out Compre ssor W at er P ip ing C hec k Re lie f D e vic es Ins pect Wiri ng C he ck I n sul at io n R esi st an ce ( [...]

  • Page 16

    Co nt e nt s C hec k S t art er M ec han ic al- T yp e St art er s S oli d-Sta te Sta rte rs Oi l Charg e P o w er Up t he C ont rols and C heck t he Oil H eat e r Sof twa re Ver sio n S e t Up Ma c hin e Cont rol Con figur at io n Input the Desi gn Set P oi nts Input the Local Occu pi e d S chedul e ( O CC PC01 S) Input S erv ice Co nfi gur at i o[...]

  • Page 17

    Co nt e nt s M odify E quipme nt Confi gura t i o n If N e ces s a ry Ch e ck V ol ta ge Supply Perform an Automa ted Co n t rol Te st Che ck Pumpout Syst em Cont r o ls and Optiona l Pumpout Comp r essor High Al titude Loca tions Cha rg e Re fr i ger a n t i nto Ma ch ine Tri m m i ng Re f ri gera nt Charge In itial Star t-U p P repar at ion Manua[...]

  • Page 18

    Co nt e nt s C hec k O il P res sur e an d C om pre ssor St op Cal i brate M oto r Curre n t D emand S ett i n g T o P rev ent Acc iden tal Star t-U p H ot A lig nmen t Ch ec k f or O p en- Dri ve M a chin e s Do welin g f or Ope n - Driv e Ma chines C hec k Ma chi ne Oper a ti ng Cond i t ion In s t r uct t h e Cu st om er Op era t o r Co ole r-C [...]

  • Page 19

    Co nt e nt s R evi ew M a in te n ance Sa fe ty D ev ice s a n d Pro ce d ur es Ch e ck Ope r ato r Kn owledge R evi ew t h e St art -Up , O per a tio n , an d M ain t en a nc e Ma nu a l Ope r ati ng Ins t r uc tion s Op e rat or Du t ies P repar e t he M a chi ne f or St art -Up To St ar t t h e Ma ch in e Che ck the Ru nni ng Syst em To S t op t[...]

  • Page 20

    Co nt e nt s Pu mp o ut an d R ef ri g era n t T ransf e r Pro ced ures P repar at ion Ope ra ting the Opt i o na l P u m po ut Comp re ssor T o Re ad R e fri ge ran t Pr ess u res T ra nsf erri ng R e f rig era nt f rom N or m al O per a t ion i nto t he U til ity Ve ss el T ra n sf err i n g Re f rig er a nt fro m Nor m al O p era tio n i n to t [...]

  • Page 21

    Co nt e nt s Test Af te r S erv ice , Repa ir, or Ma jor Leak Re fr i ge ran t Tr ac er To P r es s ur ize w it h D r y Ni tro g en Re pair the Le a k, Ret es t, and A ppl y Stand ing V a cuum Te st Che cki ng Gui de Vane Link age Contac t S e al Mai ntenanc e ( Op en-D r ive M ac hi nes ) S ea l D i sa ss em b l y Se al R e ass emb l y Ma chi n e [...]

  • Page 22

    Co nt e nt s We ekly M a in t en an ce C hec k th e Lu b r ica t i o n Sys t e m Sch ed ule d M ai nte na nc e S ervice Ont ime I n sp e ct t h e C o n t r o l C en t er Che ck Sa fe ty and O pera ting Contr ol s Month ly Cha ngi ng Oil Fi l t er 19EX Comp re ss ors F A St yl e C o m pr ess o rs Oi l Spe cific atio n Oi l Chang e s To Cha nge t h e[...]

  • Page 23

    Co nt e nt s In s pec t Re f r ig era nt F l o a t Syst em Inspe ct Relief V a lve s and P ipi ng Coupli ng Main ten anc e (Ope n-Dri v e M a ch ines ) Pr ocedure Moto r M ai n te n a n ce (O pen- Dri ve M ach i nes ) C lea nl in es s S l ee ve Be ari ng s Open- Drive M otor Ha ndling /R i gg ing Op e n -D ri ve Mo t or St o ra g e C om pr e sso r [...]

  • Page 24

    Co nt e nt s In s pec t th e Star ti ng E q ui pm ent C hec k P res sure Tr ans du cer s Pu mpo ut Sy s tem Ma in te nanc e Opti onal P u m p o ut Co mpres sor Oi l Ch arge Pum pout S afe ty C ontrol Sett ings Or de rin g R e p l ac eme n t C hill er P art s O p e n-Dri v e Mo tor Re newa l Part s Tr oub le sh oot i ng Gui de O ve r vi ew C hec kin[...]

  • Page 25

    Co nt e nt s C hec king Pres sur e Tran s du cer s Oil Di ffere n ti al P res sure /Po we r S upply Modul e Ca l i b r ation Trou bl es hooting Tra nsd uc ers T ran sd u c er R e pl ac eme nt Control Al gori thms C hec ko ut Proce dur e Control Te st Control Mod ul e s Re d LE D Gr e e n LEDs Notes on M odul e Operation P roc e ssor M odule (P SI O[...]

  • Page 26

    Co nt e nt s S t arter Ma nagem ent Module ( SM M) Input s Out put s Options M odules (8-I nput) Re plac ing Defect i ve P r oc essor Mo dul es Ins talla ti on of Ne w PSIO M odule 17/1 9 E X P h ys ic a l D a ta an d W ir ing Sc he ma tic s C omp re ssor Fits a n d C l ear ance s I n iti al St art - U p Ch ec kl is t fo r 17/19 EX C ent ri fug al [...]

  • Page 27

    Co nt e nt s Lis t o f Ta bl es Tab le 1 — M ajor PIC Comp o nent s and Panel Loc at ion s Tab le 2 — LID S cre en s Ex am p le 1 — S ta tus 01 Di sp la y S cre en Ex am p le 2 — S ta tus 02 Di sp la y S cre en Ex am p le 3 — S ta tus 03 Di sp la y S cre en Ex am p le 4 — Se tp o in t D isp l a y S cre en Ex am p le 5 — Co nf igur a t[...]

  • Page 28

    Co nt e nt s Tab l e 3 — P rotect ive Sa fe ty Li mi ts a nd Cont rol Set tings Tab le 4 — C apacity O ve r rides Tab le 5A — H FC -1 34 a P r es su re — T em p e r atu re ( F ) Tab le 5B — H FC -1 34 a P r es su re — T em p e r atu re ( C ) Tab le 6 — R ecom m ended Tor que Tab le 7 — C ontrol Test Me nu Func tions Tab le 8 — LI [...]

  • Page 29

    Co nt e nt s Tab le 8 — LID P rima r y an d S e condar y Messa ges a nd Cus tom Al arm / A lert Mess ag es w i th Troubl e sho oti ng Gu ides ( Continue d) H. Norm al Ru n wi th R es et, Te mp era t ure , Or D emand I. N orm al R u n Ov er ri d es Ac ti ve (A le rt s) J. Out - of- Ra nge Sen s or Fa ilure s K. M a c hi ne Pr ote ct L i mit Faul t[...]

  • Page 30

    Co nt e nt s Tab le 14 — M arine W at e rbox Cover Weig hts Tab le 15 — N IH W aterbox Cove r Weig hts Tab le 16 — A ux ilia ry Sy st e ms, El ectric al Dat a Tab le 17 — Ope n-Dri v e Compre ss or Fit s and Cl ear ances Tab le 18 — H erme t i c C ompres s or F i t s and C leara nces[...]

  • Page 31

    Co nt e nt s Lis t o f Fi gur e s Figur e 1 — 17 /19 EX I den t if ica ti o n Figur e 2 — Typic al 17E X Ins t alla t i on Figur e 3 — Typic al 19E X Ins t alla t i on Figur e 4 — R efrige rant , M o tor Cool i ng, a nd O il Cooli ng Cy cle s Figur e 5 — H erme t ic C ompres s or L ubri c a tion Sys t e m (EX C ompre s- so r S how n) Figu[...]

  • Page 32

    Co nt e nt s Figur e 13 — Pow er Panel w i th O pti ons (Her m et ic Ma chine S how n) Figur e 14 — LID De fa ul t Scr e en Figur e 15 — LID S ervic e Scre en Figur e 16 — 17 /19 EX Me n u St ru ctu re Figur e 17 — 17 /19 EX Serv ic e M e nu S t ru ctu re Figur e 18 — Exa mp le of Poin t Stat us Scre en ( St atu s 01) Figur e 19 — Ex [...]

  • Page 33

    Co nt e nt s Figur e 27 — Shi pping Bol t on Open D riv e Motor Figur e 28 — 1 7/1 9EX L eak Test P roc edure s Figur e 29 — D ehydr a t io n C old Tra p Figur e 30 — C o r rec t Mo to r Rot at io n Figur e 31 — R efrige r at i on Log Figur e 32 — Pum pout A r r a nge ment a nd V alve Numbe r Loc a tions ( 12-ft Vessel S hown) Figur e 3[...]

  • Page 34

    Co nt e nt s Figur e 41 — A dj u s ting An g ul ar Mis ali g nme nt in Pl an Figur e 42 — C orr e c ting P a ralle l Misa lignme nt Figur e 43 — Al ig nmen t Ch ec k — A s se mb led C ou p ling Figur e 44 — R emo v i n g t he Oil Filt e r Figur e 45 — Ty pi ca l Flo at V alv e Arra ngeme nt Figur e 46 — Lif ti ng Open-D rive M otor Fi[...]

  • Page 35

    Co nt e nt s Figur e 55 — Ope n-Dri v e Compre ss or Fit s and Cl ear ances Figur e 56 — H erme t i c C ompres s or F i t s and C leara nces Figur e 57 — Ele ctro nic PIC C ontr o l s Wirin g S che matic — H er m et i c Ma ch i ne Figur e 58 — El ectroni c P I C Cont r o ls Wiri ng Schema tic — Open- Drive Mac hin e Figur e 59 — Machi[...]

  • Page 36

    In t ro d uc t io n Pr ior t o ini ti al s ta r t-u p of t h e 17/ 19 EX u nit , t ho s e inv o lved i n th e s ta r t-u p, o pera ti on, and main te nan c e shou ld be thor o ugh ly fa m ili ar w it h th es e in str uct io ns and o th er n ec ess a r y j ob da ta . T h is b ook i s outlined so that you may b e come familiar w i t h the co ntrol sy[...]

  • Page 37

    Th is eq uip ment u se s , a nd ca n r a dia te , r ad io frequ en cy e ne rg y. If n ot in sta ll ed an d u sed in acc or da nc e wi t h t h e i ns t ru ct i on man u al , i t m ay ca us e in t er f ere nc e t o r a d io c o m mun ic a ti ons. It h a s b e en tes te d and fou nd to c ompl y with th e limit s f o r a Cl ass A c om pu t i ng d ev ic[...]

  • Page 38

    Ab br evia t io ns Fre que nt ly us ed a bbr e v iat io ns in t his m anu al in c lud e: CCN — C ar r ier Comf or t N et w or k LCDW — Leavi ng Con denser W a ter CCW — C oun tercl ockw ise LCW — Leavi ng Chi ll ed Wate r CH W — C hi ll ed W ater LED — Lig ht-Em i tt i ng Di ode CHW R — C hi lled W ater Ret urn LID — Local I nt er f[...]

  • Page 39

    17 / 1 9EX Ma chin e F amil ia ri zat i on ( Fi gure 1 , Figu re 2 , an d F i gure 3 ) Ma chi ne I d e nti fi c at io n L abe l Th e ide nt if ic at io n lab el is lo cat ed on t he ri ght s ide o f the m ac h ine c o nt r ol c en te r p ane l. T he lab el con ta ins in fo rm at ion o n m ode l num b er , re fri ger a nt ch arge , rat ed vo lt age [...]

  • Page 40

    Cooler Th is v e ss el ( als o kno wn as th e e v apo rat or ) is l ocat ed un der n eat h t he cond ense r, next to t he ut ili ty ves s e l. T he c o ole r i s m a int ai ned a t lo wer t empe rat ur e/ pr e ss ur e s o t hat ev ap or at in g ref r ige rant c an r em o v e hea t fr om wat er f low ing t hr o ugh i ts in te r nal t ub es . Conde n[...]

  • Page 41

    Moto r S ta r te r ( Pur c has e d S e para te ly) Th e s ta r te r a llo ws f o r t he p r o pe r st ar t ing a nd di s c onn ect ing o f t he e lect r ic al e nerg y f or t he comp re ssor-motor, oi l p ump, oi l h eater, an d co ntrol p a nels. Ut ility Ve ss el Duri ng no r m al op erat ion , t his v es s e l fu nc t ion s a s a n ec on omiz e [...]

  • Page 42

    Comp res s ion r a is es t he r ef r ig eran t tem pe rat ur e ab ov e t hat of t he w at er fl owi ng t hr ou gh t he cond ense r t ub es . W he n th e war m ( t y pic a lly 98 t o 10 2 F [37 t o 40 C] ) r ef r ige rant v apo r c o mes int o c on ta c t wit h t he c ond ense r t ub es, t he r el at iv el y c oo l c ond ensi ng wat er ( t y pic a l[...]

  • Page 43

    Mo tor /Oi l R e f ri ge rat io n C oo lin g C y cl e Th e m ot or is c ool ed by liq uid r e fri gera nt t ak e n fro m t he b ot to m o f the c on den s er v es s el ( Fi gur e 4 ). F low o f ref r ig eran t is mai nt ain ed by t he pr e ss ur e di ffer e nt ial t ha t exi s ts du e to com pr e ss or ope rat ion . Af te r t he r e fri gera nt f l[...]

  • Page 44

    alw ay s a m ini mum fl ow by p as s in g th e TXV , whi ch fl ows t hr ou gh an o r if ic e. Th e TXV v al ve regu lat es f low i nt o th e oil /re fri gera nt p lat e an d fra m e- t y pe he at e xc han ger. Th e bul b fo r t he expa nsio n valv e c o nt r ols oi l te m per a tu r e to t he b ear i ngs. Th e r ef r ige rant lea ving t he h eat ex[...]

  • Page 45

    Det a ils Oi l is c harg ed in to t he re ser v oir (I te m 1 ) t hro ugh a h and v a lv e ( I te m 4 ) w hic h a lso f unct io ns as an oi l drai n. I f t he re is r ef r ige rant in t he m ac h ine , a pu m p is r equ ired f or c ha rgin g. S i ght gla s s es ( It em 10) on t he r es e rv oir wal l per m i t obse r v at ion o f th e oil le v el. [...]

  • Page 46

    As t he o il le aves t he oi l c ool er, i t pa s s es th e oil p re s s ur e t rans d ucer ( I te m 1 4) and t he n th e th er m os t at ic ex p ansi on v al ve bul b (It em 13 ). T he oi l fl ow is t hen d ivid ed, and a p ort ion f lo ws to th e m ot or - en d bea r ing (I t em 19) an d seal . The r em a ind er lub r ic at es t he c om p res s o[...]

  • Page 47

    Duri ng t he m ac h ine s t art - up, t he P I C will e ner g ize t he oi l pum p a nd pr o vide 1 5 s ec on ds of prel ubri c at ion t o t he be ar in gs af te r t he o il pr e ss ur e is v er i fi ed an d bef or e t he c o nt r ols s t ar t t he comp re ssor. D uring shu t do wn, t h e oi l p ump w i ll ru n f or 60 se conds a fter the comp resso[...]

  • Page 48

    Open -Dr i v e Mach i ne s ( 17 S er ie s) Lu b ri cat i o n Cy cle Su mm a r y Th e m ain o il pu mp and o il r es er v o ir ar e c on ta ine d in t he c om p res s or ba se. O il i s p umpe d th r oug h an oi l c ool er and a f il te r t o r em o ve hea t an d any f or ei gn pa r ti c les . A p or t ion o f t he oi l is th en di rec t ed t o s ha[...]

  • Page 49

    Wa te r f lo w th r oug h t he oi l c oo ler is m a nua lly ad just ed b y a plu g v al v e (It em 9 ) t o m ai nt ain th e oil a t an o pera ti ng t empe rat ur e of app rox im a te ly 145 F ( 63 C) . Dur i ng shu td own , the oi l te mper a tu r e is also ma int ai ned a t 15 0 to 1 60 F (6 5 to 7 1 C) by an imm e r sion h eat er (I te m 3 ) i n [...]

  • Page 50

    Starters All s t ar t er s , wh et he r sup pli ed by Ca rr ier or t he c us t om e r , mus t m eet Car r i er S ta r te r Spec i fi c at ion Z - 37 5. T hi s s p ecif ic a ti on c an b e obt ai ned f r om t he Ca rr ier S al es Rep res en ta ti v e. Th e pur p ose of th is s pec i fi c at ion i s t o en sur e t he c om p at ibi lit y of t he st ar[...]

  • Page 51

    Vola til e M em ory Vola ti le m em o ry is m em o ry i ncap abl e of b ein g s us t ain ed if pow er is los t and s u bseq uen tl y restore d . Ge neral Th e 17/ 19 EX h erm et ic c en tri fu gal l iqu id chil ler c on ta ins a m ic r o proc e ss or - ba sed c on tro l cent er t hat m oni to r s a nd c on tro ls all o per a ti ons of th e m ac hi [...]

  • Page 52

    P I C S ys te m Compone nts T h e Pro duct Integrated C o ntrol (PIC) i s the control system o n the machine. See Table 1 . T he PIC c o nt r ols t he op er at io n of t he m a c hin e by m oni to r ing a ll op erat in g c ond it ion s. T he P I C c an dia gno se a pr ob lem an d let th e ope rat or k now w hat th e pr ob lem is an d wha t t o c he[...]

  • Page 53

    Th e P IC co ns ist s of 3 mo dul es hou s ed in side t he 3 m a jor c ompo nen ts. Th e com po nen t name s a nd t he c on tro l volt ag e cont ai ned i n eac h c o mpon ent ar e li ste d bel ow (al so s ee Ta ble 1 ): • cont r ol c e nt er – all e xtra l ow-v o lt age w ir in g ( 24 v or les s) • pow er pan el – 115 v c on tro l volt ag e[...]

  • Page 54

    Th es e in put s ar e c on nect ed t o t he P S I O mod ule . T he P S I O al s o pr ov i des ou tp ut s t o t he: gui de v a ne ac t ua to r ; oi l pu mp; o il he at er; hot gas by p as s ( op ti ona l); mo to r co oli ng so len oid ; an d al a rm co ntact. The PSI O co mmu nicates w ith t h e LID, t he SMM, and t he o ptional 8 -i nput modu les f[...]

  • Page 55

    6- Pa ck Re la y B o ard Th is dev i ce is a c lus t er of 6 p ilo t rel ays loc a te d in t he c on tro l c ent er . It is ene rgiz e d by th e PS IO fo r t he o il pu mp, o il he at er , a larm , opt io nal h ot g as by pa ss r e lay, and mo to r c o oli ng sole noi d ( 19E X m ac h ine s ) o n aux i lia r y o il pu m p ( 17E X m ac h ine s ) . 8[...]

  • Page 56

    Ho t Gas B ypas s Cont actor Re lay (3C ) (Opti ona l) Th is r el ay , lo c at ed in th e p owe r pa nel , c ont rol s t he ope nin g o f th e h ot ga s by p as s v al ve. T he PIC e nerg izes t he rel ay dur i ng lo w loa d, h igh l if t con dit io ns. Oil A u x ilia ry R e lay ( 4C) Th is r ela y, sup plie d on ly wit h ope n-dr i ve m ac hi nes,[...]

  • Page 57

    pres s u re a nd o ut put s t he dif f er en ce a s an oil dif f er en ti al pr es s u re s ig nal t o t he P S IO . Th e P S I O conv e rts t his s ig nal t o di ff er e nt ial o il pr e ss ur e. To c a lib r at e th is r ead ing , ref er t o th e Tro ubl esho ot ing G ui de, Ch e cking Pre ssure Tran sd ucers se ct ion. Cl i ck h er e f or F igu [...]

  • Page 58

    LID O pe rat i on a nd M enu s ( Fig ure 14 , Fi gure 1 5 , Fig ur e 16 , Fig ur e 1 7 , Fi gure 1 8 , Fig ure 19 , and F i gu r e 20 ) Gene ral • The LID d isp lay w i ll a u tomatically reve rt to the d efault scre e n aft e r 1 5 min u tes i f n o sof tke y a cti vit y t ak e s p lace a nd if th e m ac hi ne is no t in t he P u m pdo wn mod e [...]

  • Page 59

    Ala rms a nd Al e rts Alar m ( *) and alert ( !) s t at us ar e in dic a te d on t he De fa ult s c r een a nd t he S t at us ta ble s. An ala r m ( * ) w ill s h ut d own t he co m pres so r. A n al er t (! ) not if ie s t he o pera to r t ha t an u nus u al cond it ion h as oc c ur r e d. T he m a chin e wil l cont in ue t o ope rat e whe n an al[...]

  • Page 60

    LID De f a ul t Scre en Menu I tem s T o p erform an y of the op e rations d escribed b e low, t he PI C mu s t be p owe r ed up a nd h ave succe ssf ul ly comp l eted i t s self t e st. T h e De f au lt scre en me n u sel e cti o n offers f o ur o ptions (St atus, Schedule, Se t p oint, an d Ser v ic e ). T he S t at us m enu a llo ws fo r v i ewi[...]

  • Page 61

    M e nu Struc ture T o p erform an y of the op e rations d escribed b e low, t he PI C mu s t be p owe r ed up a nd h ave succe ssf ul ly comp l eted i t s self t e st. • Pr es s M E NU t o s ele ct f r om th e fo ur av ai lab le op ti ons . • Press t h e soft ke y t ha t co rre sponds t o t he d esired men u st ructure . • Pr es s NE X T o r [...]

  • Page 62

    • Press SELECT to a ccess the highlighted p oint. • Pr ess QU IT to l eav e t he se lect ed d ecis i on or f iel d wit ho ut sa v ing a ny chan ges. • Or, pr es s E NT E R t o lea ve th e s ele c te d dec i sion o r f ie ld an d s av e c ha nge s . N EX T P REV IO US SEL ECT EX IT I N CR EA S E DE CR E AS E QU IT EN TER I N CR EA S E DE CR E [...]

  • Page 63

    To View or Cha nge Poi nt Status ( F i gu re 18 ) Poin t St at us is th e ac t ual v a lue o f al l of t he t em p erat ur e s , pre ss ur es , re lay s , and a c tu at or s sens e d and c o nt r oll ed by t he P I C. 1. On t h e Men u scre en, pre ss ST ATUS t o view t h e li st of Po int St a tus t ables. 2. Pr es s NE X T or P RE V I OU S t o hi[...]

  • Page 64

    3. Press SEL EC T to vi ew t he d esired Poi n t Status t a ble. 4. O n t he P o int S t at us t abl e p r ess N EX T or PRE VI OU S un ti l des i r ed poi nt i s di spla yed on t he screen. F o r D iscre te Points — Press ST AR T or STOP, YES o r N O, O N o r O F F, etc. t o sel e ct the desi red s t at e. Cl i ck h er e f or F igu re 17 — 1 7[...]

  • Page 65

    Fo r A n alo g Poin ts — Press INC REASE or D ECR EASE t o select t he d esired val u e. 5. Press EN T ER to reg i ster n ew va l ue. Overrid e Op era t i ons Note: W h en o ver rid ing or c ha ngi ng me tri c valu es , it is ne ces sar y t o h old th e sof t k ey do wn f or a fe w s ec on ds in or d er to s e e a valu e c han ge, es pe cial ly o[...]

  • Page 66

    To Rem ov e an O ve rri d e 1. O n th e P oin t St at us ta ble p r es s NE X T o r P R E V IO US t o hig hli ght th e des i red po int . 2. Pr es s S E LE C T to ac c es s t he hi ghl igh te d poi nt . 3. Press R ELEASE to remo ve t he o ve rride an d return t he p oi nt t o the PI C ’s au t oma tic con trol. N EX T P REV IO US SEL ECT EX IT N E[...]

  • Page 67

    Ov err ide I nd i cat i o n An o ve rrid e val u e i s indicated by ‘‘SUPVSR,’’ ‘‘SERVC,’’ or ‘‘ BEST ’ ’ fla sh in g ne xt t o the point valu e on t he S t at us ta ble . To View or Cha nge Tim e Sc hedu l e O pe ra tion ( Fi g u re 1 9 ) 1. On t h e Men u scre en, pre ss SCH EDULE . 2. Pr es s NE X T or P RE V I OU S t o h[...]

  • Page 68

    3. Press SEL EC T to a ccess and vie w t he t ime sch edule. 4. Pr es s NE X T or P RE V I OU S t o hi ghl igh t t he de sir ed p er io d or ov er r id e th at y o u wish t o cha nge . 5. Pr es s S E LE C T to ac c es s t he hi ghl igh te d per i od or ov e rr ide . N EX T P REV IO US SEL ECT EX IT N EX T P REV IO US SEL ECT EX IT N EX T P REV IO U[...]

  • Page 69

    6. a. Press INCREASE o r DECREASE to change the t i me values. O ve rrid e values are in one- hou r i ncr em e nt s , up t o 4 ho ur s . b. Press EN ABLE to sel e ct d a ys i n t h e da y-o f-week fie l ds. Pre ss D ISABLE t o eliminate days f r om th e per i od. 7. Press EN T ER to reg i ster t he va lues a nd to mo ve horizont a lly (l eft t o ri[...]

  • Page 70

    8. Pr es s E X I T t o lea ve th e per i od or ov e rr ide . 9. Eit he r r et urn t o St ep 4 t o se lect an ot her p er io d or o v err id e, or pre s s E XI T a gai n t o le av e t he current t ime sch edule scre e n an d sa ve t h e cha n ges. 10. Ho lid ay Des i gna ti on (HO LI DE F ta ble ) m a y be fo und i n th e Service O pe r a tion se ct[...]

  • Page 71

    To Vi e w and C ha nge Set P oi nts ( F i gu re 20 ) 1. To vie w t he Se t Po i nt t ab le, at t he Me nu scre e n pre ss SET POINT. 2. There a re 4 set p oints on t his scre en: Base Demand L imit; L CW Se t Point (l ea ving chilled wa te r set po int ) ; ECW S et Po int (e nt er in g c hi lle d w at er se t p oin t); a nd IC E B UI LD s et po int[...]

  • Page 72

    4. Pr es s S E LE C T to m odi fy t he hi ghl igh te d s et p oin t. 5. Press INC R EASE o r D ECREASE t o c h an ge the sel ected se t point va lue. 6. Press EN T ER to save t he ch a nges a nd re t urn t o the p re vious scre en. Se r vic e O pe r at io n To v i ew t he m en u-dr iv e n pr og ram s av ai lab le f or S er v ic e O pe rat ion , see[...]

  • Page 73

    Ta bl e 2 — LID Sc r ee ns E xa mpl e 1 — St at u s01 D is pl ay S cre en E xa mpl e 2 — St at u s02 D is pl ay S cre en E xa mpl e 3 — St at u s03 D is pl ay S cre en E xa mpl e 4 — S etp oi nt D i sp la y S c re en Exam p le 5 — C onf ig ur at io n (C ON F IG ) D i s pl ay S cre en Exam p le 6 — Le ad /La g C o nfi gu r ati on D i s[...]

  • Page 74

    P I C S ys te m Functio ns Note: T h r oug hou t this man ual , wo rds p rint ed i n capi ta l let t er s and ital ics are v al ues t hat m ay b e view ed on t he L ID . See T ab le 2 f or ex am p les of LI D s c r een s . Poi nt n ames ar e l is t ed in t h e De scri ption co lumn. An ove rview o f L I D operation an d me nus i s gi ven i n Figu r[...]

  • Page 75

    De adban d Th is is th e to lera nce on t he c h ill ed wa te r / br in e te m pera tu re CO NT RO L P OI NT . If th e w a te r te m per a tu r e goe s o ut s ide o f the DEADBAND , th e P IC o pen s o r c l os es t he gu ide v a nes in res po nse un ti l it i s w it hin t ol eran ce. T he PI C m ay be c o nf igu red wi th a 0 .5 ° t o 2° F ( 0. [...]

  • Page 76

    vane re spon s e to c h ill ed wa te r t emp erat ur e b elo w dea dba nd pl us c ont rol p oin t. It c an be adj us t ed on t he L ID f r om a s et t ing o f 2 to 10, and t he d ef aul t set t ing i s 6 .0 . I nc r ea sing e it her of th es e s et t ing s w ill c a use t he v an es to r e spon d slow er th an a lo wer s et t ing . Th e PR OP OR TI[...]

  • Page 77

    Th e c hil ler al so ma int ai ns a s ta r t-t o- s t ar t ti m er and a s t op - to - s ta r t t im er . Th es e t im er s li mit how s o on t he m ac h ine c a n be s t ar t ed. S ee t he Start-Up/Shutdown/Recycle Se quence se ct io n fo r o pera ti ona l inf or ma ti on. Oc c upa nc y Schedul e Th is s c hed ule d et er m in es when t h e chill [...]

  • Page 78

    Note: T h is s ched ule i s f or ill us t r at ion o nly, a nd is no t in te nde d to be a re c omm en ded sc he du le fo r c h ill er ope rat ion . Wh ene ver th e c hil ler is in t he LO CA L m o de, th e m ac hi ne use s O c c up ancy S c he dul e 01. Th e I ce Buil d T im e S che dul e i s S c he dul e 0 2. W hen in t he CCN mod e, O cc upa nc [...]

  • Page 79

    Safe ty Contr o l s Th e P IC m o nit or s all sa fe ty c on tro l inp ut s , an d if r e qui r ed, s hut s dow n th e m ac hi ne or li mit s th e gui de van es to p r ot ec t t he m a c hin e fro m p oss ib le da m age f r om an y o f t he f oll owi ng cond it ion s : • hig h bea ring t em p er at ur e • hig h m ot or win din g te m per a tu r[...]

  • Page 80

    If t he con tro lle r in it iat es a saf et y s hu td own , it di s pla y s t he f aul t on th e L ID wi th a pr i m ary a nd a sec on dary m es s a ge, and en ergi zes an al arm r ela y in t he s t ar t er an d b lin ks t he a lar m li ght o n th e c ont r ol ce nt er . T he a lar m is s t or ed i n mem or y an d can be vi ewe d in t he PI C A lar[...]

  • Page 81

    D ef a u lt Scr een Fr eeze W h enever an al arm occu rs, t he L ID d efault scre e n wi l l f re eze d i splaying t he co ndition o f the mac hi ne at th e ti m e of a lar m . K now led ge of th e ope rat ing s t at e of th e c hil ler at th e ti m e an ala r m o cc urs is usef ul w hen t r oub les h oot in g. C ur r en t m ach ine i nf orm at io [...]

  • Page 82

    ale r t t hr es h old ( 1 8 psid [ 12 4 kP a] ) . O nc e r un nin g, t he a ux il iar y oi l pump w ill re main o n unt il t he com pr e ss or is tu r ned o ff and w ill d een er gi ze wit h t he m ai n oil p um p af t er th e pos t - lu be t im e peri od. S h a ft Seal Oi l Co ntrol ( O pen D riv e Ma chines Only ) All op en dri ve m ac hi nes r e[...]

  • Page 83

    Th er e ar e 2 m e th ods of r am p lo adi ng wit h t he P I C. R amp lo adi ng c an b e bas e d on c hi lle d wat er t em pe rat ur e or on m o to r l oad . 1. T em pe rat ur e r am p l oad ing l im it s th e r at e at w hich e it her lea v ing c h ill ed wa te r o r e nt er in g chilled wa t er temperature d e creases b y a n op e rator-configure[...]

  • Page 84

    Wh ene ver th e m ot or c ur r ent de ma nd li mit s e t po int is r eac h ed, it a cti vat es a c apa cit y over ri de, ag ain wit h a 2-s t ep p r oces s. E x ceed ing 110 % of t he ra te d lo ad a m ps f or mor e t ha n 30 sec on ds wil l ini ti at e a s af et y s h ut dow n. Th e c ompr e s sor h igh lif t (s urg e prev e nt ion ) s e t po int [...]

  • Page 85

    Oil S um p Te m pe rature Contr ol Th e oil su m p te m pera tu r e c o nt rol is reg ula te d by th e PIC w hich u ses th e oil h eat er r el ay whe n th e m ac hi ne is s hu t do wn. As p art o f t he pre -st a rt che cks e xecuted b y the co ntrols, oil sum p t em p er at ure i s c o m pare d aga ins t ev ap orat or r ef rig eran t tem pe rat ur[...]

  • Page 86

    Oi l Coo le r Th e oil mu s t be c o ole d whe n th e c ompr e sso r i s ru nni ng. EX Co mpr ess o r s: T his is ac com p lis h ed t hr ou gh a s mal l, pl at e- t ype he at e xc han ger . Th e h eat exc ha nge r u ses liq uid c o nde ns er r ef r ig er an t as t he c oo lin g liq uid . A r ef r ige rant th er m os t at ic exp a nsion val ve (T XV[...]

  • Page 87

    Aut om at ic Re sta r t Af te r a P o wer F ail ur e is no t act iv a te d whe n a pow er fa ilu re oc c ur s , and t he rem ot e c on ta c t is c lo sed, th e mac hi ne wi ll in dica te a n ala r m b ec au se of t he l os s of v o lt age . Th e c ont ac t s fo r R emot e S t art a re wir ed i nt o th e s ta r te r a t ter m in al s t r ip T B 5, t[...]

  • Page 88

    Conde nser Pump Co ntrol Th e m ac hi ne wi ll m oni to r t he C O N DEN SER PR ESSURE an d m ay tu r n on t his pu mp if t he pres su re bec o m es to o hig h whe nev e r t he c o m pres so r i s sh ut d own . CONDENSER PRESSU R E OVERR I D E i s u sed t o det er m i ne t his pr e ss ur e po int . T hi s v a lue i s f ou nd on t he Equi pmen t S e[...]

  • Page 89

    COND EN SER F R EEZE POI N T , th en t he CONDENSER WAT ER PUMP sha ll be e nerg iz ed unt il t he CO NDEN S ER RE F RI G T EM P is grea te r t han th e C O N DEN SER FREEZE PO INT p lus 5° F (2. 7° C). A n al arm w ill be ge ner a te d i f th e m ach ine is in PUMPD O WN mo de and th e p ump is ene rgiz e d. A n a ler t wil l be ge nera te d if [...]

  • Page 90

    Auto. Re st art Af te r P o w er Fa ilure Th is opt io n may be en abl ed or di s abl ed, and ma y b e view ed/ m odi fi ed in t he C onf ig t ab le of Equ i pment C o nfiguration. If en abled, t h e chi l ler w i ll start u p au t oma tically a fter a sin gle cycl e drop -out , l ow, hig h, o r l oss of v o lt age h as oc c ur r e d, a nd t he po [...]

  • Page 91

    Wa te r/Br i ne Res et Th ree t y pes of c hil led w at er or br i ne r ese t are a v ail abl e an d can be vi ewe d or mod if ied o n th e Equi pmen t Co nf igu r at ion t ab le Co nf ig sel ect ion . T h e LID d efau lt scre en status me ssag e in d icates w he n the ch il led w ater rese t is active . The Con tro l Poin t tem pe r at ur e on t h[...]

  • Page 92

    au to m at ic r es et to t he se t po int bas e d on a t em pe rat ur e s en sor wir e d to t he n umbe r o ne 8- in put m odu le (s ee w irin g dia gr am s or c er t if ied drawi ngs ) . T he t em pe rat ur e s en s or m us t b e wire d to t er m i nal J 1 -19 an d J 1- 20 . T o c onf ig ure Re set T y pe 2 , en te r t he t em p erat ur e o f t he[...]

  • Page 93

    De mand Li m it Contr ol , Opti on (Requi res O pt i on al 8-Inp ut Module ) Th e dem a nd li mit m ay be e xte r nal ly cont r ol led w it h a 4 to 2 0 mA si gna l fro m a n ene rgy man a ge me nt system (EMS). The o ptio n i s se t up o n the Config table. When e nabled, the cont r ol i s s e t f or 100 % dema nd wi th 4 mA an d an op er at or c [...]

  • Page 94

    Poin ts, ( T1 /P1 ;T2/ P 2) . Th es e po int s hav e d ef aul t set t ing s a s d ef ine d on t he S er v i ce1 t abl e, o r on T ab le 4 . Th es e set t ing s and the a lgo rit hm fu nct ion are gr a phi c all y d ispl ayed i n Fi gur e 21 an d F ig u r e 22 . T he 2 s e ts of loa d poi nt s o n th is gr ap h (def au lt s e ttin gs ar e s ho wn) d[...]

  • Page 95

    S u r ge P r ot ec tion Sur gi ng of th e c om pr e ss or c an be d et er m ine d by t he P I C th ro ug h ope r at or co nf ig ur ed set ti ngs . S ur ge w ill c a use am p erag e fl uc t uat io ns of t he c o m pr es s o r m o to r . T he P I C m oni to r s th ese amper a ge s win gs , and if th e s w ing is gr e at er t han t he co nf igu rabl e[...]

  • Page 96

    Lead/La g C ontrol Le a d/La g i s a co ntrol syst em pro ce ss t hat automatica lly st arts an d stop s a l ag or seco nd chi l ler i n a 2 -chiller w a ter syst em. Re fer t o Figu re 16 and F igu r e 1 7 for men u, table, an d screen sele cti on in fo r m at ion . O n m ac hi nes t hat hav e PS I O s o ft wa re wit h Le ad/ La g capa bil it y, i[...]

  • Page 97

    Comm on P o int Sens o r In sta llat io n Lea d/ lag o per a ti on do es not r equ ire a c om m o n chil led w at er poin t s e nsor . C omm on p oin t sens o r s ca n be a dde d to t he 8 - inp ut opt io n modu le, if d es ire d. R ef er to th e c ert if ied d r awi ngs f or te rm ina ti on of sens o r l ead s. Note: I f the commo n p oint se n so[...]

  • Page 98

    M a c hi ne Co m mun i cat ion Wiri ng Ref er to t he mac h ine ’s In sta lla ti on In stru cti ons an d Carrier Comf o rt Network Interface se ct i on f o r i nformation on mach ine co mmunication w iring. L ead / La g O p er at io n Th e P IC c o nt r ol pr o vide s t he a bil ity t o op erat e 2 c hil ler s in t he L E A D/ LA G m o de. It als[...]

  • Page 99

    I f the ad d ress assi g nments p l aced i nto t h e LAG AD DRESS a nd STAN D BY AD DRESS valu es conf li c t, th e lea d/ lag w ill b e disa ble d and a n ale r t (! ) m e s sage w ill o c c ur. F or ex a m ple , if t h e LAG AD DR ESS matche s t he l ead ma chine’s a d dress, t h e le a d/lag w ill b e di sa bled an d a n al e rt (!) me ssage w[...]

  • Page 100

    If th e c onf ig ured l ead c h ill er doe s n ot c o mple te t he s t ar t - up b ef or e t he P RE S T A RT F A UL T TIM ER (us e r c o nf igu red val ue) el apse s, t hen t he l ag chi lle r s h all b e sta r te d and t he l ead ch ill er wil l s hut dow n. T he l ead c h ill er th en m on it or s th e s ta r t req ues t fro m t he a c ti ng le [...]

  • Page 101

    L a g Chil ler Star t-U p R equi rem en ts Bef or e t he la g chil ler c an b e sta r te d, t he f ol low ing c o ndi ti ons m us t b e met : 1. Lead ch i ller ra mp lo a ding must b e comp l ete. 2. Le ad c hi lle r C HI LLE D W A T ER te mp er at u r e mu st be g reat er t han t he C ON TR OL P O I NT pl us 1/ 2 th e WAT E R/ B RI NE DE A D BA ND[...]

  • Page 102

    L a g Chil ler Shutd own Req uire m ent s Th e fo llo win g c ond it ion s mus t be m et in or d er fo r t he l ag c hi lle r t o be s t op ped . 1. Lead ch i ller C OMPRESSOR MO TOR L O AD value i s le ss t ha n t h e le a d chi l le r pe rcent capacity pl u s 1 5%. Note: L ea d chi l ler p e rcent cap a city = 10 0 – L AG PER CENT CAPAC I T Y T[...]

  • Page 103

    If th e lag ch ill er fa ult s whe n th e lea d chil ler is als o f au lt ed, th e s ta nd by c hill er r ev er t s to a sta nd- a lon e CCN mo de of ope rat ion . I f t he lead ch il l er i s in an a la rm ( * ) condition (a s sho w n on the LID panel), the R ESET softkey is pr e s sed t o c l ear t he ala r m, a nd t he chil ler i s pla c ed i n [...]

  • Page 104

    Au to. Resta rt Af te r Pow e r Fa i lur e Wh en an a ut or es t ar t c ond it ion o c c ur s , e ach c hi ller m ay ha ve a del ay add ed t o th e s ta r t-u p sequ ence , de pen din g on it s lea d/ lag c o nf igu rat ion . The le ad chi lle r d oes no t ha v e a del ay. T he lag c hi lle r ha s a 45- s e c ond d ela y . Th e s t an dby c hil ler[...]

  • Page 105

    Th e Ice B uil d T im e Sc he dul e de fi nes t he p erio d du ring w hich ice b uil d is ac t ive if the ice b uil d opt io n is ENA BLE D . If t he I ce B ui ld T im e Sc he dul e ov erl aps ot he r sc h edu les de fi nin g ti me, t he n th e Ice Bu ild T im e Sc h edu le sha ll t ak e pr i orit y . D ur in g th e ic e bu ild p erio d, t he W A T[...]

  • Page 106

    or s ta ndb y c h ill er fo r l ead /l ag an d is ac t iv el y c o nt r oll ed by a le ad chi lle r . T he le ad chi lle r commu n icates the I CE BUILD SET POINT, d esired CH I LL ER ST AR T/STOP state, a nd ACTI VE DEMAN D LIMI T to t he l ag o r st andby chi l ler a s req uired f o r i ce bu i ld, if co nfig- ured t o do so . St art - Up/ R e cy[...]

  • Page 107

    chi l led w ater f l owing. I f the en t eri ng C H ILLED WAT ER /BRINE T EMPERATUR E i ncrea se s abo v e th e IC E B U IL D S E TPO I NT p lus t he RE C Y CLE DE L TA T v a lue , t he c om p res s or wi ll restart a nd co n trol t h e CH I LL ED W AT ER/BRINE TEMPERATURE to t h e I C E BU ILD SE T POIN T. Te m pe r atur e Cont ro l Du r ing Ic e [...]

  • Page 108

    3. Re m ot e Co nt ac t s /Ic e L ev el In put — T erm i nat io n of c omp res sor o per a ti on oc cur s w hen IC E BU ILD TER MIN ATIO N is se t t o CO N T ACT S ON LY OPT ION an d the remo te c on ta cts a re op en. In t hi s c a s e, t he c o nt ac t s a re pr ov i ded f or ic e l ev el t er m i nat io n cont r ol . The r em o te con ta cts c[...]

  • Page 109

    Att ac h to Ne tw or k De vi c e Cont r ol On t he Se rv ic e m en u, o ne of th e s ele cti ons is A T TACH T O N E TW O RK DE V I CE . T hi s t ab le ser v es t he f oll owi ng pu r pos e s: • to u plo ad t he O c c upa ncy S c hed ule N um be r ( i f cha nge d) fo r O CC PC03 S , as de fi ned in t he S er v i ce01 t ab le • to a ttac h t he [...]

  • Page 110

    At tachin g to Ot her CC N Module s If th e m achi ne PS I O ha s b een c o nne cte d to a C CN Ne tw or k or o th er P IC co nt roll ed c hi lle r s th roug h CCN w ir in g, the L ID ca n be us e d to vi ew or c ha nge p ar ame te rs on the o th er c ont r ol ler s. Othe r P I C m ac hi nes c an be vie wed an d set po int s c h ang ed (if t he ot [...]

  • Page 111

    Note: T h e LI D wil l not aut om a ti c all y r e -at ta c h to t he PS I O m o dul e on t he m ac h ine . Pr es s t he ATT A CH so ftk ey t o at ta c h to L OC A L DE V I CE and vi ew t he m ac h ine P S I O . S ervice Oper a tion An ov er v i ew of th e m enu -dr iv en p rogr a ms a vail abl e fo r S e r v ic e O per a ti on is s ho wn in F ig u[...]

  • Page 112

    The me n u ba r (Ne xt-Previous-Select-Exi t ) is di sp layed t o i ndicate t h at yo u ha ve su ccess- f ull y l ogg ed on . If the password i s entered incorrectly, an error me ssag e is d isp l aye d . If thi s occur s, return to St ep 1 an d try lo ggi ng on a gai n. Note: T h e ini ti al f ac t ory s et p ass wo rd is 1- 1- 1 -1. To Lo g Of f [...]

  • Page 113

    Ho l iday S ch e duli ng ( F igu re 24 ) Th e ti m e s c hed ule s m a y b e c o nf ig ured f or s pec i al op er at io n dur i ng a ho lid ay per i od. Wh en modi fyi ng a t im e per i od, t he ‘‘H ’’ at th e e nd of th e d ays of t he we ek f iel d s i gni fi es t hat t he pe riod is app lica ble t o a ho lid ay. ( S e e F ig u r e 24 .) [...]

  • Page 114

    2. I f not l ogg ed on, f oll ow th e i ns t r uct ion s f or T o Log On or To Lo g O f f. O nc e lo gge d o n, pr ess NEX T unt il Eq uip ment Con fi gur a ti on is hi ghl igh te d. 3. O nc e E qu ipme nt C onf ig urat io n is hig hli ght ed , pre ss S E L ECT t o ac c e ss . 4. Pr es s NE X T unt il H oli def is hig hli ght ed . This is t he Ho l[...]

  • Page 115

    5. Press SEL EC T to e nter the D a ta T ab le Se l ect scre en. T h is scree n l ists 1 8 ho l iday t ab les. 6. Pr ess NEX T to h igh lig ht th e hol ida y tab le t ha t you w is h t o view or c han ge. E ach t abl e is on e ho lid ay per i od, s ta r ti ng on a s p ec if ic da te , an d las t in g up t o 99 da ys . 7. Pr es s S E LE C T to ac c [...]

  • Page 116

    8. Pr es s NE X T or P RE V I OU S t o hi ghl igh t t he m on th , da y , or du rat ion . 9. Press SEL EC T to mo di fy the mon th, d a y, o r du ration. 10. Press INC R EASE o r D ECREASE t o c h an ge the sel ected va l ue. N EX T PR EV IO US SEL ECT EX IT N EX T PR EV IO US SEL ECT EX IT INC RE ASE D ECR EA SE Q UI T E NTE R[...]

  • Page 117

    11. Press EN T ER to save t he ch a nges. 12. Press EXIT t o return t o t h e pre vi ous me n u. INC RE ASE D ECR EA SE Q UI T E NTE R N EX T PR EV IO US SEL ECT EX IT C l i ck he re fo r Fig ur e 2 4 — Ex am pl e of H olid ay Per i od Sc r ee n[...]

  • Page 118

    St a rt- Up / S hu t d o wn / Recy cl e S eq ue nc e ( F ig u r e 25 ) Lo c al St ar t - U p Loca l sta r t-u p (or a ma nu al s ta r t-u p) is ini ti at ed by pr e ss ing t he L OC A L m enu s o ft k ey wh ich is on t he de fa ult LI D s c r een . Lo c al s t ar t - up c an p r oc ee d whe n Ti m e S c hed ule 0 1 is in OC CUP I E D m od e, a nd a[...]

  • Page 119

    RECY C LE m ode . I f t he wa te r/b r ine t emp erat ur e i s h igh e nou gh, th e sta r t-u p s equ enc e cont in ues on t o c he c k t he g uid e v ane p osit io n. I f t he g uid e v ane s a re m or e t han 6 % ope n, t he sta r t-u p w ait s un ti l t he PIC c lose s t he v a nes. I f th e v a nes a r e cl os ed , a nd th e oi l pu mp p res s [...]

  • Page 120

    S h utdown Seque nce Shut do wn of th e m ac hi ne c an o cc ur if a ny of t he f ol low ing e vent s hap pen : • th e S TO P but t on is pr e ss ed f or at l east one s e cond ( t he a larm li ght wil l bli nk onc e t o con f irm stop co mma nd) • recycle co ndition i s pre sent (see Chilled Water R ecycl e Mod e se ction) • ti m e s c hed u[...]

  • Page 121

    Cert ai n cond it ion s d urin g shut do wn wil l c han ge t his s eq uen c e: • i f th e C O MPR ESSO R MOT OR L OAD i s g reat er t han 1 0% af t er s hut do wn, or th e sta r te r c o nt ac t s r e main e nerg ized , the oi l pump a nd c hi lle d wat er pu mp r em ai n ene r - gize d and t he a lar m is di s pla yed • i f th e ENT ERING COND[...]

  • Page 122

    Wh en t he S O FT S TO P A MPS T HRE S H OL D is bei ng ap pli ed, a s ta tu s m e ss age ‘‘ SH UTDOW N IN PROG RESS, C OMPRESSOR UN LOADING’’ is sho wn . C hil l ed W ater R e cy cle M od e Th e m ac hi ne may c y c le of f a nd wa it u nt il t he lo ad in cr eas e s t o r es t ar t aga in wh en t he com pr e ss or is r unn ing i n a lig h[...]

  • Page 123

    is a n operator-configured fun ct io n wh i ch de f au lts t o 5 ° F (3 ° C). T hi s va lue i s vie wed/modified on t he Ser v i c e1 t abl e. T he c o mpr ess o r w ill re s ta rt wh en: • in LC W CO NT RO L t he LEAVING CH I LL ED W AT ER t em pe rat ur e is gr e at er th an t he CO NT RO L P OI NT plu s t he R ECYC L E R EST AR T DELTA T ; o[...]

  • Page 124

    S a fe ty Shut dow n A s a fe ty s hu td own i s i den ti c al t o a m anu al shu td own w ith th e ex c ep ti on t hat th e LI D will disp lay th e reas o n f or th e shut do wn, t he al ar m l igh t wi ll bli nk co nt inu ousl y, and t he s pa re a larm con t acts will be en ergized. A sa fety sh u tdown re quires t h at t he R ESET so f t key be[...]

  • Page 125

    B efore In iti al Sta rt-Up Job Da ta Req uire d • list of a ppl ic ab le de sign t emp erat ur e s a nd pre ss ur es ( pr o duc t dat a s ub mit ta l) • mac hi ne cer t if ie d dr aw ing s • sta r ti ng eq uip m ent det ai ls and w ir in g dia gr am s • dia gr am s an d inst r uc t io ns fo r s p ecia l cont r ol s o r o pt ion s • 17/ 1[...]

  • Page 126

    R em ove Shi pp ing Pa ck agin g Remo ve any pa ck agi ng m at er ia l fro m t he co nt r ol c en te r , po wer pa nel , gu ide v a ne ac t ua to r , mot or co oli ng and oi l r e c lai m sole noi ds, m ot or and be ar in g t em p er at ure sen sor c o v ers , and t he f a ctory-mounted st a rter. Open D riv e Mot or Th e m ot or s hou ld be i nspe[...]

  • Page 127

    slus h ing com po und on t he shaf t or ot he r part s m ust be rem ove d usi ng a pet rol eum t y pe s olve nt and o bser v i ng pro per s af et y pr ec a ut ion s. Note: I f th e m ot or ut ili z ed a s hi ppi ng bo lt f or r es t r ai nin g th e r ot or, t he W es t in gho us e lo go mus t be in s ta lle d over t he ho le in t he e ndc o v er . [...]

  • Page 128

    also b e s ta te d. I f e it her is un know n, t he co rr ec t s e que nc e c an b e det er m i ned i n th e fo llo win g mann er: W hi le t he m ot or is un coup led f r om t he lo ad, s ta rt t he m ot or an d obse rv e th e dir e cti on of rot at io n. A llo w t he mot or t o a c hie v e f ul l spe ed bef or e dis co nne cti ng it fro m t he p o[...]

  • Page 129

    Ope n Oil Circui t Valv es Che c k th at t he o il f il te r is o lat io n val v es a re op en by rem o v ing th e v a lve c a p a nd ch eck in g t he valv e st em . ( S ee S c he dul ed M ai nt ena nce, Cha ngi ng O il F ilt er .) To rque A l l Ga s ket ed J oints G a skets n ormally h ave re l axed b y t he t ime t he ma chine arri ve s a t the j[...]

  • Page 130

    prev e nt p oss ib le pi pin g s tre ss a nd da m age d ur in g th e tra ns f er of r e fri ger a nt f r om v es s e l to vesse l d uring t h e le a k t est process, o r an y t ime re frigerant i s t ran sferred. Adj u st the spri ngs whe n th e r ef r ige rant is in op er at in g cond it ion , an d whe n th e wat er c ir c u it s a re fu ll. Re fr[...]

  • Page 131

    1. I f t he pr e ss ur e r ea din gs ar e no r m al f or m ac hi ne con dit io n: a. Ev ac ua te t he n it r oge n hol din g c har g e fro m t he ve ss els , if p res en t. b. Rai s e th e m ac hi ne pre s s ur e, if n eces s a ry , by ad din g r ef r ige r ant unt il p r es s ur e i s a t equ iv al ent s at ur at ed p res s ur e f or t he s ur r o[...]

  • Page 132

    c. Plai nly m ar k an y l eak s wh ich ar e f ou nd. d. Re l ea se the p ressu re i n t h e syst e m. e. Rep air al l lea k s . f. Ret es t th e joi nt s t ha t we r e r epa ired . g. Af t er successfully co mp leting t h e t e st for l arg e le a ks, re mo ve as mu ch nitrogen, a i r, a n d moi st ure a s p ossible, gi ve n t h e f a ct tha t smal[...]

  • Page 133

    5. I f no lea k is f ou nd dur i ng ini ti al s ta rt-u p p ro cedu res , c omp let e th e t r an s fe r of re fri ger a nt gas (see Pu mpou t an d Ref r ig er an t Tr ans f er P r oc e dure s se ction.) 6. I f no l eak is f oun d af te r a r e te s t: a. Tra ns f er th e ref r ige r ant to t he u ti lit y ves sel o r o th er sto r age t an k a nd [...]

  • Page 134

    S t anding Vacuum Te st Wh en pe rfo r m ing t he st an din g vac uu m t es t , o r mach ine d ehyd rat ion , use a m a nome te r o r a wet bul b i ndi c at or . D ial ga ges c an not i ndi cat e t he sm a ll amou nt o f acc ep ta ble l eak a ge duri ng a shor t per i od of ti m e. 1. At ta c h an ab solu te p r ess ure ma nom e te r o r w et b ulb[...]

  • Page 135

    Machine D ehydr ati on Deh y dr at io n is r ec om m en ded i f the m ac h ine h as bee n ope n f or a c o nsid erab le pe r iod o f ti m e, i f the m ac h ine i s k n own t o c on ta in m oi s tu r e, o r i f ther e h as bee n a com pl et e los s of mac hi ne ho ldi ng c ha rge or r ef r ig eran t pre s s ur e. C l i c k he re fo r Ta bl e 5A — [...]

  • Page 136

    Deh y dr at io n is r ead ily ac c om p lis h ed at r oom t em pe rat ur es . Us e of a c old t r ap ( Figu re 29 ) may s ubs t an ti all y re duc e t he t im e r e qui red t o c om pl et e th e deh ydr at io n. T he h igh er th e room te m per a tu r e, t he f as t er de hy dr a ti on t ak es pl ace. A t lo w r oom t em pe r at ur es , a v er y de[...]

  • Page 137

    on t he w et b ulb va cuum in dica to r . At t hi s t em p er at ur e /p r ess ure , iso lat ed p oc ket s of m o is - t ur e c an t ur n i nt o ic e. T he sl ow r at e of ev ap orat io n (s ubl im at io n) of i ce at t he se l ow t em pe r- at ure s/p r ess ur e s g r eat ly in c reas e s d ehyd rat ion t ime . 5. Val ve of f t he v ac u um pum p [...]

  • Page 138

    Che ck Opt io nal Pu mp out Compre ssor W at er P ip ing I f the op t io nal st ora ge tan k an d/or pu mp out syst e m a re in st al led, ch e ck t o ensure the pump out c ond ense r w at er has be en pi ped i n. C hec k f or fi eld -s upp lie d s hut of f v a lv es an d cont r ol s a s s p ec if ie d in t he jo b dat a. Che ck f or r ef r ig er a[...]

  • Page 139

    Ins pect Wiri ng 1. Ex am i ne wi r ing f or c on fo r m anc e t o jo b wir in g dia gr am s an d to a ll ap pli cabl e ele ctri cal codes. 2. On lo w -voltage comp re ssors (60 0 v or less) con nect vol t meter across t he p ower w ires to t he c om p res s or s t ar t er and m e asur e t he v o lt age . Co m par e t hi s r e adi ng wit h t he vo [...]

  • Page 140

    4. The starter for a cen t ri f u ga l co mpre sso r mo t o r mu st contain the components a nd t e rmin a ls req uire d fo r P I C r ef r ig er at io n cont r ol . Ch ec k c er t if ied d r a win gs . 5. Ch ec k th e v olt ag e to t he f ol low ing c o mpon ent s and co m par e t o t he na m epl at e v alu es: o il pump con t act, p umpout co mpre[...]

  • Page 141

    C he ck I n sul at io n R esi st an ce ( H er me tic M o tor ) T e st the mach ine co mpresso r motor and its p ower l ead i nsulation re sistance w ith a 5 00 -v insu lat io n te s te r s u ch as a m ego hm m et er . ( Us e a 50 00-v t es t er fo r m o to r s r a te d ov er 60 0 v .) F a ctory-mounted st a rters d o no t require a megohm test. 1. [...]

  • Page 142

    I f the r ea din gs on a f ie ld- i ns t all ed s t art er ar e un s at isf ac t ory , re pea t t he t est at t he mo to r w it h t he po wer le ads di sco nne cte d. S a ti s fa c to r y r e adi ngs in t hi s s e cond t est ind icat e t he fa ult is in t he p owe r l ead s. Note: Uni t-m o unt ed st ar t ers do n ot h av e t o be m eg ohm t es t e[...]

  • Page 143

    RM = KV + 1 Wh er e RM = Rec o mm end ed min imum in sula ti on r es i sta nc e in me goh m s a t 10 4° F ( 40° C ) o f th e ent ir e w ind ing . KV = R ated mo tor t erminal t o terminal voltage in ki lo vo lts (1 00 0 vo lts = 1 KV). On a n ew wi ndi ng, whe r e th e c ont am i nan t cau sing l ow ins u lat io n res is t an ce is gen eral ly mo[...]

  • Page 144

    en te r ing t he mo to r . Ca ut ion mu st be e xer cis e d, w hen h eat in g th e mot or wit h an y s o ur ce of he at ot he r t han s el f c ont ai ned spa c e h ea te r s, to rai s e t he wi ndi ng te mper a tu re a t a g r adu al rat e t o all ow an y e nt r app ed moi stu r e to v a pori z e and e sc ape w it hou t rup tu r ing t he in s ula t[...]

  • Page 145

    be ing rot at ed , an d t he o il ring s s h oul d b e view ed th r oug h th e v i ewi ng por t s in th e to p o f the be ar in g hou s ing t o v er i fy f r ee r in g rot at ion . 4. O n fa n- coo led mo to rs , t he ar e a ar ou nd he e xte r nal f an i nle t s ho uld b e c heck e d fo r l oose de br is t hat c oul d be dra wn in to t he f an d u[...]

  • Page 146

    Note: C on ductors a n d dra i n wi re mu st b e 2 0 AW G (American W i re G a ge) mi n imum str a nd ed, ti nne d copp er . I nd iv id ual co ndu c to r s m u s t be i nsul at ed wi th P VC , PV C/ ny l on, viny l , Te fl on, or pol yet hy le ne. A n alu minu m/p oly e ste r 1 00% f oi l s hie ld an d an ou te r j ack et of PV C, PV C/ nyl on, c h[...]

  • Page 147

    C hec k S t art er Use t he inst r uct io n an d se rv ice m a nua l s up pli ed b y t he st ar t er m a nuf act ur e r to ver if y t ha t t he st a rt e r h as be e n in stal le d co rrectly. Wh ene ver a st ar t er s af et y t r ip de v ic e ac t iv a te s , wa it at lea st 30 sec o nds bef or e re s et ti ng t he saf et y . T he m ic r o proc e [...]

  • Page 148

    M ec han ic al- T yp e St art er s 1. Ch ec k all f ie ld wi ring c o nne cti ons f or ti ght ne ss , cle aran c e fro m m ov i ng pa r ts, and co rr ec t co n n e cti o n . 2. Check t h e con t actor(s) to be sure t he y mo ve f re ely. Ch e ck t he me chanical in t erlo ck be tw een co nt ac t ors to e nsur e t ha t 1S an d 2M c ont ac t or s c a[...]

  • Page 149

    sec o nds m ay be ch osen a s n eed ed (t y pica lly 20 t o 30 se cond s a re us ed ) . W hen t he t im e r ha s be en s et , ch ec k t ha t th e s t art er (w it h re lay 1CR clos e d) g oes th r oug h a complete a n d pro p er st a rt cycl e . S oli d-Sta te Sta rte rs 1. Ch ec k th at a ll wi ring co nne c ti ons ar e p rope rly te r m ina te d [...]

  • Page 150

    Oi l Charg e If oil i s a dde d, i t m ust m eet Car rie r’s s peci fi c at ion f or c en tri fu gal co mpr ess o r u s age a s de scri bed i n t h e Sche d uled Mai n tenance, O il Sp ecif ic a ti on sectio n. On h erm et ic m ac hi nes, ad d oil t hr ou gh t he o il dr ai n char g ing v a lve ( F igu re 3 , Item 26 ). A pump i s r e qui r ed f [...]

  • Page 151

    pow er th e hea te r a nd t he c on tro l cir c ui t. Th is s et u p all ows t he he at er to e nerg ize wh en t he main mo to r c i rc uit brea ker is of f f or s er v ic e w or k or ex t end ed shu td own s. T he oi l hea te r r e lay st a tus ca n be vie wed o n t h e St a tus02 scre e n on t he L I D. Oil sump t emperature ca n b e vie w ed on [...]

  • Page 152

    Input the Desi gn Set P oi nts Access the L ID set po i nt scre en and vi ew/modify t he base demand li mi t set p oint, and e it her th e LCW s e t po int or t he ECW s e t po int . T he P IC c a n co nt r ol a s et p oin t to e it her th e l eav i ng or ent er i ng chi lle d wat er . Th is c ont r ol me th od is s et in t he E qu ipm e nt C onf i[...]

  • Page 153

    Input S erv ice Co nfi gur at i ons Th e fo llow ing c o nf igu r at ion s r e qui r e th e LI D s c r een t o be in t he S e rv ic e po rti on of th e m e nu. • pass w or d • inp ut t im e a nd da te • LI D c onf ig urat io n • cont r ol ler id ent if ic a ti on • service p arameters • equ ipm e nt c o nf igu r at ion • aut om a te d[...]

  • Page 154

    Ch a nge LI D Conf ig uration If Nec e ssa r y T h e LID C on figuration scre e n is u sed t o vie w o r mo dify t h e LID C CN a ddress, ch a nge t o Engl ish or S I u nit s , a nd t o c han ge t he pa ss wor d . If t her e i s m o re th an on e m ac hi ne at th e job - sit e, c han ge th e LI D a ddre ss on e ac h ma chin e s o t ha t eac h m ach[...]

  • Page 155

    C on figu r e S ER VIC E1 Tabl e Access Se rvice1 table t o modif y/ vie w t h e f o llowing t o j obsite p arameters: * Op en- d r ive m ach ine s o nly . Note: O t he r v a lue s a r e lef t a t the de fa ult v alu es. T he s e m ay be c ha nge d by th e ope rat or as requ ired . Ser v i c e2 an d S erv ice 3 ta ble s ca n be m od if ied b y t he[...]

  • Page 156

    If, a ft er c on fi gur i ng a va lue f or t hes e poi nt s , surg e prev e nt ion i s ope r at ing t oo so on or t oo l at e fo r c o ndi ti ons , th es e pa ram et ers sho uld b e c han ged b y t he o per a to r . Ex am pl e of c o nf igu r at ion : Mach ine o pera ti ng pa r am et er s Ref r ig eran t use d: H FC-1 34a Es ti m at ed M in im um L[...]

  • Page 157

    Suc t ion T em p er at ur e : 42 F (5 . 6 C ) = 37 p sig (255 kPa) saturated re frigerant p ressure (H FC-134a) Con den sing T emp er at ure : 98 F ( 3 6. 7 C) = 1 20 psi g (182 7 k P a) s at ur at ed r e fri gera nt p res s ur e (H FC - 134 a) Maxi mu m Lo ad ∆ T2 : 54 – 44 = 10 ° F ( 1 2. 2 – 6. 7 = 5 .5 ° C) Maxi mu m Lo ad ∆ P2 : 120 [...]

  • Page 158

    Cal cu l at e M i ni mu m L oa d To c a lcul at e m inim u m l oad c o ndi ti ons , es t im at e t he t empe rat ur e di ffer e nce t hat th e c ool er wil l hav e a t 20 % loa d, t he n es t im at e wh at t he su cti on an d c ond ensi ng t em pe rat ur es wi ll be a t th is poi nt . Use t he p r ope r s a tu r at ed pr e ss ur e an d te m per a t[...]

  • Page 159

    If s ur ge p r ev en ti on oc c u r s t oo s o on or t oo la te : M odify E quipme nt Confi gura t i o n If N e ces s a ry Th e Equi pmen t C onf ig urat io n ta ble has t abl es t o s el ec t a nd vi ew or m o dif y. C ar rie r’s cer t if ie d draw ing s w ill h ave t he c on fi gur a ti on v al ues r eq uire d fo r t he j obsi te . Mod if y t h[...]

  • Page 160

    O wner -M odi fie d CC N Table s T h e f o llowing t a bles a re de scrib ed for refere n ce on l y. O ccd ef T ab le Mo d ifications — T he O cc def ta ble s c o nt ain t he L oc al a nd CC N ti me sche d ules, w h ich ca n b e mod i fied h e re, o r i n t h e Sche d ule scre en a s de scribed pre vi ously. Hol ide f Tab le M o dif ic at io ns ?[...]

  • Page 161

    th at th e valu e app ear i ng on th e LI D is cali brat ed to the i nc omi ng po wer vol ta ge r e adi ng. Volt ag e can be ca lib r at ed on ly to b et wee n 90 an d 100 p er c en t of r at ed li ne v ol ta ge. Perform an Automa ted Co n t rol Te st Ch e ck the sa f e t y con t ro ls st a t u s b y p erformi ng a n auto m a t e d con trol s test.[...]

  • Page 162

    Wh en t he t es t i s f in is he d, o r t he EX I T s o ftk ey is pr es s e d, t h e te s t wil l be s t opp ed an d t he Con tro l Te s t men u wil l be di s pla yed. If a s pec i fi c a ut om at ed t es t pr oc e dure i s n ot c o mple te d, acc es s t he pa rti c ula r c o nt r ol t es t t o t es t t he f un cti on wh en r ea dy. T he C ont r ol[...]

  • Page 163

    Che ck Pumpout Syst em Cont r o ls and Optiona l Pumpout Comp r essor Con tro ls inc l ude a n on/ of f s w it c h, a 3 - am p fu s e, th e c om pr es s o r o ver lo ads, an in te r nal t h ermostat, a co mpressor co ntactor, a nd a refrig erant h i gh p re ssure cu t ou t. T h e hi g h pre ssu re cut out i s fa c to r y s et t o o pen at 16 1 p si[...]

  • Page 164

    Cha rg e Re fr i ger a n t i nto Ma ch ine Th e 17/ 19 EX m a chin e m ay hav e t he re fri gera nt a lrea dy ch ar ge d in t he u ti lit y v e ss els . If mac hi ne is no t shi ppe d fu lly c ha rged , ref r ig eran t is shi ppe d sepa rat ely t o c onf or m wi th tra ns po r ta ti on r eg ula ti ons . Th e 17/ 19 EX ma y b e or de r ed wi th a n [...]

  • Page 165

    th e r ef r ige rant c har g ing v a lve, ( Fi gur e 7 a nd F igu re 8 ) or to t he p um po ut c h argi ng con nect io n. Fi r s t eva cuat e t he ni tro gen h old ing ch arge f r om t he ves s e ls. C harg e th e r ef r ige r ant as a gas un til t h e system p re ssure e xcee d s 35 p sig (1 41 kPa ). Aft er the ma chi n e i s b eyo n d thi s p re[...]

  • Page 166

    I ni tial Sta r t-Up P repar at ion Before st arting t he ma chine, ch eck t h at t he : 1. Power is o n to t h e mai n st arter, oil p ump re l ay, t ow er f a n st a rter, o i l h ea ter rel ay, a nd the machine co ntrol center. 2. Co oli ng t owe r w at er is at p rope r l evel , an d at o r b elo w des i gn en te r ing t em p er at ur e . 3. Ma[...]

  • Page 167

    8. Press R EL EASE t o automate t h e chi l ler start/ st op va lue o n t h e St a tus01 scre e n t o e nable t he c hi lle r t o s t ar t . The in it ial f ac t or y s et t ing o f this v al ue is ov e rr idd en t o s to p in or d er to pre vent ac c id ent al s t ar t - up . Manual O pera ti on of th e Gui d e Vanes Manu al op er at io n of t he [...]

  • Page 168

    3. Press EN T ER to ove rri de the au tomatic t a rget. T he scre en w il l no w re ad a val ue o f zero, and t h e wo rd ‘ ‘SUPVSR!’’ wi l l f l ash. 4. Press the SELEC T so f t key, a nd the n p ress REL EASE soft key t o re lease t h e van e s t o AUTOMATIC mo d e. Af t er a f e w seco n ds t h e ‘‘ SU PVSR! ’ ’ wi l l d isa ppea[...]

  • Page 169

    Che ck Rota ti on (O p e n -Dr i ve Moto r) Open D riv e Mot or In it ial St art- Up I niti al Unc oup le d Sta r t-Up Th e i nit ia l sta r t-u p o f the m ot or s hou ld be m a de wit h t he m ot or unc o upl ed. V er if y t ha t oi l has bee n add ed t o eac h b ear i ng ho usin g to t he co rr ec t l ev el . 1. I f t he m ot or is eq uip ped w [...]

  • Page 170

    I f t he be arin g te m per a tu r e r is es an d m ot or ope rat ion a ppe ars to b e norm a l, o pera ti on sho uld c o nt inu e unt il t he b eari ng t em pe rat ur es s t abi liz e . Re c om m en ded l imit s o n be ar ing t em pe rat ur e r is e s o v er am bi ent te m per a tu r e ar e as f oll ows: Note: W h en op er at in g fl ood -lub ric [...]

  • Page 171

    3. Any ab norm a l noi s e or v ibr a ti on s ho uld b e imm ed iat el y i nves t ig at ed an d cor r ec t ed . I ncr ea s ed vib r at ion (w it h th e mot or un co up led f rom it s loa d) c an be i ndi cat ive o f a cha nge i n ba lan ce due t o a m ec h ani cal f ail ure or t he lo osen ing o f a rot or pa r t, a s ta to r w ind ing pro ble m , [...]

  • Page 172

    I niti al Coup led S ta rt -Up Aft er in it ial u nc ou ple d sta r t-u p, t he f ol low ing s t ep s s ho uld be t ak en t o en sur e s af e cou ple d ope r at ion : 1. F oll ow t he pr o cedu r e s ta te d in G ene ral M ai nt ena nce, M ac hi ne A li gnme nt s e cti on t o ali gn t he m ot or t o th e dr iv e n mac hi ne. 2. Pr ep are t he c ou [...]

  • Page 173

    5. Ca r ef ull y o bs er v e t he vi br at io n of t he b ear i ng ho us in g and a ny abn or m al n oise g ene r at or . No te t ha t mot or v ib rat ion m a y n ot b e ide nt ic al t o t he un c oup led v a lue s . I f cou ple d v ibr a ti on is ex c e ss iv e, r ec he ck t he m o unt in g and a lig nm en t. 6. Ca r ef ull y o bs er v e t he b ea[...]

  • Page 174

    If th e m ot or is of T E W A C ( T ot al ly E nc lo sed W at er - t o- A ir Co ole d) des i gn, th e m ax im u m i nle t wa t er temperature a n d t h e wa t er flow ra te (G PM) at t he a ir coo l er must b e as sh ow n by t h e cer t if ied d r awi ng. Ot he rwis e , the di sc har g e air t empe rat ur e f r om th e c ool er ( ac t ual ly th e a[...]

  • Page 175

    C hec k O il P res sur e an d C om pre ssor St op 1. W hen t he mo to r i s u p to f ul l spee d, n ot e th e dif f er en ti al oi l pres s u re r ead ing o n th e LI D de fa ult s c r een . It sho uld b e bet we en 18 a nd 30 p sid ( 12 4 to 2 06 kP ad ). 2. Pr ess t he St op bu tt on a nd li ste n fo r any un usua l soun ds fro m the co m pres so[...]

  • Page 176

    RL A b y m a nua lly ov e r r idi ng t he gu ide v a ne t ar ge t val ue on t he L ID a nd set t ing t he ch ill ed wa te r se t po int to a l ow val ue. Do no t exc e ed 10 5% of th e nam e pla te R LA. 3. When a st ea dy motor cu rren t va l ue i n t he d esired ran g e is me t , co mp are the comp r e ssor mot or a m ps v alu e on th e S t at us[...]

  • Page 177

    H ot A lig nmen t Ch ec k f or O p en- Dri ve M a chin e s Alig nmen t of c om pr e s sor w it h hea t exch ang er s , g ear, and d riv er m ay be a ff ec t ed b y t he ope r at ing t em p erat ure s o f the v ar i ous c om p one nt s. W hen a ll m ac h ine c o mpon ent s hav e rea ch ed o p erating t e mperature (aft e r ru nning n e ar f u ll l o[...]

  • Page 178

    C hec k Ma chi ne Oper a ti ng Cond i t ion Che c k t o be su re th at m a chin e te m per a tu r es , p r e ss ur es , wat er f low s , an d oil a nd ref rig eran t le ve ls in d icate tha t the syst e m i s f un ctioning p ro perly. In s t r uct t h e Cu st om er Op era t o r Ch e ck to be su re t h at the o pe ra t o r(s) u nd e rst a nd s all o[...]

  • Page 179

    M oto r Co mpres sor Ass embl y G u ide va ne a ct ua tor, tran smi ssion, mo t or coo l ing syst em, oil co oling system, temp erature and pr ess u r e sen s ors , oil s igh t g las se s, i nt egra l oi l pu mp, is ol at abl e oi l f ilt er, ex t ra o il a nd mo to r t e mperature sen so rs, syn t he tic o il, an d co mpressor se rviceability. M o[...]

  • Page 180

    Sa fe ty D ev ice s a n d Pro ce d ur es Elec t r ic a l disc on ne cts , r e lie f de v ic e in s pec t io n, a nd ha ndl ing r e fri gera nt . Ch e ck Ope r ato r Kn owledge Sta r t, s to p, a nd shu td own p roc ed ures , s af et y a nd op er at in g c ont r ol s, ref r ig eran t an d oil char g ing , an d job sa fe ty. R evi ew t h e St art -Up[...]

  • Page 181

    P repar e t he M a chi ne f or St art -Up F o llow t h e st e ps de scrib ed in the Init ial St ar t - Up sectio n. To St ar t t h e Ma ch in e 1. St ar t t he w at er pum p s, if th ey ar e no t au to m at ic . 2. On t h e LID d efau lt scre en, pre ss t he L O CAL o r C CN so f t key t o st art the syst e m. If t he mac h ine i s i n th e OC CUP [...]

  • Page 182

    At s h ut dow n, o il le vel s ho uld b e hal fw ay in t he lo wer s ig ht g lass . 4. T he oil pre s sur e s hou ld be be tw een 18 a nd 30 psi ( 124 t o 207 k Pa) dif f eren ti al, a s se en on t he LI D de fa ult s c r een . Ty pic a lly t he r ea din g wil l be 18 t o 25 p s i ( 124 t o 17 2 kP a) at i nit ia l st ar t -up. 5. T he m oi stu r e[...]

  • Page 183

    ba s ed o n k W ra te or t em pe r at ure r at e. I t i s ac ces s e d on t he Equi pmen t C onf ig urat io n menu Config scre e n (T a ble 2 , Exa mp le 5 ). 9. O n ope n-dr i ve m ac hi nes , th e oil p um p wi ll be e nerg iz ed o nce ev e r y 1 2 hou r s d urin g shu td own p er io ds to e ns ur e t ha t t he s ha ft s eal i s f il led w it h o[...]

  • Page 184

    Aft er Li m it ed Shutdow n No spe cial p reparations sh ould be ne cessary. F ol low t he re gular pre l iminary che cks an d sta r ti ng p r oced ur es. Con tro l P ow er mus t be ma int ai ned i n or d er t o keep oil tem p er at ure hot an d all c o nt r ol s af et ie s o pera ti ona l. T he o il pu mp on op en- d riv e m ac h ine s w ill o per[...]

  • Page 185

    Ch e ck t he co oler p ressure o n t h e LID d efau lt screen, and co m p are to the original ho l ding char g e th at w as lef t i n th e m ac hi ne. If ( af te r a dju s ti ng f or am bi ent te m per a tu r e c han ges) an y lo ss i n p re ssure is indicated, check for re f ri ge ra nt le a ks. Se e Che ck Mac hi ne T ig ht nes s s e ctio n. Rech[...]

  • Page 186

    fu lly clo sed, 100 % is fu lly op en. To re lea s e th e gui de v an es to A U TOM AT IC m o de, pres s t he REL EASE soft key. Note: Manu al c on tro l wil l incr e as e t he gu ide v a nes an d over r i de t he pu lld own r a te d urin g sta r t- up. M ot or c ur r en t ab ov e t he el ec t r ic al d em an d set ti ng, c apa cit y o ver r id es [...]

  • Page 187

    Pu mp o u t an d Re fri g e ran t Tr ansf er Pr oc edur es P repar at ion Th e 17/ 19 E X ma y c om e eq uip ped w it h an o pt ion al p um po ut co mpr ess o r . The r e frig er an t ca n be pu m ped f or s er v i ce wor k t o eit he r t he co ole r /co nde ns er / com p res s or s ec t io ns or th e ut ili ty vesse l b y u sin g the p ump o ut sy[...]

  • Page 188

    T o R ea d R e fr i g era nt P res sur e s d urin g pum p out or lea k t es t in g: 1. T he LI D di spla y o n th e m ac hi ne con tro l c ent er is s ui ta ble f or de te r m ini ng ref r ige rant - s id e pre ss ures an d low ( so ft) v ac uu m . F or evac u at ion o r d ehyd rat ion mea s urem e nt , us e a qu ali ty va cuum i ndi c at or or ma [...]

  • Page 189

    T ra nsf erri ng R e f rig era nt f rom N or m al O per a t ion i nto t he U til ity Ve ss el Th es e s t eps de sc r ibe t he me th od of m ov in g ref ri ger a nt f r om t he c oo ler / c on den s er / comp re ssor sectio n s i nto t h e util i ty ve sse l. T hi s i s n ormally pe rf orme d f o r se rvice w o r k on t h e cool er, c o nde nser , [...]

  • Page 190

    d. Wh en all l iqu id has bee n pus h ed int o th e u ti lit y v es s el , close t he c ool er is ola ti on v al ve 7 . e. Access t h e Co n trol T e st, Pump d own f un ction o n t he L ID d isplay t o t urn o n t h e mach i ne wat er pu mps and vi ew t he m ac h ine p res s ur e s. f. T u rn off pu mpout co mp ressor. 2. Ev ac u at e r ef r ige r[...]

  • Page 191

    Transfe rring R efrige rant f rom N or m al Oper a t i on int o the C ool e r/ Conde ns e r/ Co mpre ss or Sec tio n Th es e s t eps de sc r ibe t he me th od of m ov in g ref ri ger a nt f r om t he ut il it y v e ss el in to t he co ole r/ cond ense r/co m pres so r se cti on. T his is no r mall y p er f orm ed f o r se rv ice wo rk o n th e ut i[...]

  • Page 192

    b. Valv e p os it io ns: C lose v a lves 3 an d 4, o pen v a lves 2 an d 5. c. Tu r n on pu mpou t con den s er wat er . d. Ru n t he p umpout co mpressor u ntil the suctio n rea ch es 15 in . H g (5 0 kPa a bs). Monitor pres s u res on t he LI D an d on r ef r ig eran t ga ges . e. Clo s e v alv e 6 . f. T u rn off pu mpout co mp ressor. g. Clo s [...]

  • Page 193

    R e t u r n R e f r ig er a n t t o No r m a l O p e ra t i n g Co n d it io n s 1. Be s ur e t ha t the v es s e l th at w as ope ned h as bee n ev ac u at ed an d deh y dr at ed . 2. Access t h e C o ntrol Test, termi na te lockout f un ctio n to view vesse l pre ssure s and t o turn on machine w ater pumps. 3. O pen va lves 1, 3, a nd 6. 4. Slo [...]

  • Page 194

    9. Cl os e v al ves 1, 3 , 5, and 6 . 10. Co nt inu e on wi th t he t er m i nat e lo ck out fu nc t ion o n th e LI D to t ur n o ff wat er pu mps and en abl e th e c ompr e s sor fo r o per a ti on. Va l v e 1 2 3 4 5 6 7 8 9 10 11 Co ndi tion C CCC C C C C[...]

  • Page 195

    G en era l Mai n ten an ce Re fr ig er a n t Pro p er ti e s HF C- 13 4a is t he s t and ar d r ef r ige rant in t he 17 / 19E X . A t no r ma l at m os ph er ic pr e ss ur e, HF C- 13 4a wi ll bo il at - 14 F ( - 2 5 C) and mu s t, th er ef or e , be k e pt i n pres s u riz ed c o nt ain ers or sto r age t an ks . T he r ef r ig er an t is pra cti[...]

  • Page 196

    Adding Re fri g era nt Fo llo w th e pr oc e dur e s d es cr ibe d in Ch ar ge R ef r ige rant int o M ac h ine se ction. Re mov i ng Re fri gera nt W h en the op tional pu mp out syst e m i s u sed, t h e 17 / 19 EX re frigerant ch arge may be tra ns f er r ed t o a s t or ag e v es s el , or wi th in t he ut il it y v e ss el. Fo llo w proc e dur[...]

  • Page 197

    R efr i g e ran t L e ak Test ing Bec au s e HF C-1 34a is ab ove a tmosp heri c pr es su re at r oo m te mper a tu r e, lea k te s ti ng ca n be perf or m e d wit h r ef r ig er an t in t he m a c hin e. U se an el ect r oni c d et ect or , s o ap bu bbl e solu ti on, or ult ra- so nic lea k de te cto r . Be s u r e t ha t th e ro om i s we ll ven[...]

  • Page 198

    Re fr i ge ran t Tr ac er Use an e nv ir o nmen ta lly ac c ep ta ble r e fri ger a nt a s a t r ac e r f or le ak te s t pro cedu res . To P r es s ur ize w it h D r y Ni tro g en Anot he r m e th od of lea k t es t in g is to p res s ur i ze wit h nit rog en on ly and u s e a s oa p bub ble solu ti on or an u lt r as on ic lea k d et ec t or to d[...]

  • Page 199

    pressure re a ches test l evel. Do n ot e xc eed 1 40 psi g (965 kP a ) . 5. Cl os e t he c ha rgin g v alv e o n th e m ac hi ne. Rem o ve th e c opp er tu be if no lo nge r r e qui red. Re pair the Le a k, Ret es t, and A ppl y Stand ing V a cuum Te st Aft er pr e ss ur iz in g t he m ac hi ne, te s t f or lea ks w it h an el ect r oni c l eak de[...]

  • Page 200

    C on tact S ea l M ain ten a nce (O p e n- D ri ve M a chin e s) (R efer to Fig ure 36 ) Duri ng mac h ine o per a ti on, a fe w dr op s o f oi l p er m inu te n or m al ly s eep s t hr o ugh t he sp ac e bet we en t he cont act s le ev e (I te m 16) a nd t he sh af t l oc knu t (I t em 8) . Th is oi l s lo wly a c cum ula te s in an a tmospheric o[...]

  • Page 201

    S ea l D i sa ss em b l y ( F i gu re 36 ) Con ta c t sea l disa ss em bly an d r epa ir s hou ld be p erf or m ed o nly by we ll qu ali fi ed c om p res s or main te nan c e per s o nne l. T he s e dis a s sem bl y i nst r uct ion s a r e inc l ude d onl y a s a c o nv en ien t refere n ce f o r t he a uthorized se rvi ceman. F o r e ase o f disas[...]

  • Page 202

    11. Pla ce c ont ac t s lee v e in a pr o te c te d ar ea t o av o id da mage t o la ppe d fa c e. 12. Remove outer ca rbon ri ng (Item 1 7). H and le car e fu lly . 13. Remove sp ra y h eader (I t em 3). 14. Use a sp anner wre n ch t o re move sh a ft nu t (Item 8 ). 15. Remove sh a ft sle e ve (I t em 9) a n d con t act ring ke y (I t em 18 ). 16[...]

  • Page 203

    Se al R e ass emb l y ( Figu r e 36 ) Be s ur e t hat all g as k et sur f ac es ar e c l ean a nd t hat all h ole s , in c lud ing o il ho les , ar e pr op er ly ali gne d bet we en ga s k et a nd mat in g fl ang e. C oat gas k e t wi th o il-g r aph it e m ix t ur e t o pr ev e nt st i cking. 1. Assembly gu i de-ring sp ri ng (It e m 2 6) an d g u[...]

  • Page 204

    9. Place ou t er spring (It e m 1 5) ove r sle eve. 10. Separately a ssemble sea l h ousing co ve r (I t em 2), p acking gl a nd g a sket (I t em 13 ), packi n g gl and (I t em 14) , and O - r in g (It em 12 ). 11. O il t he c on ta c t sle eve an d th e O-r i ng an d pla ce th e hou sing a nd gl and a ss em bl y o ver th e sleeve. 12. Ca r ef ull [...]

  • Page 205

    Ma chi n e A lign m e n t (O pe n -Dr i v e Mach ine s ) Al i gnm e nt Me tho ds Th ere are se v eral e s ta bli sh ed p roc ed ures fo r a lig nin g s haf t s. T he di al in dica to r m e th od is pres e nt ed h ere s in ce it is cons i der e d t o be o ne of th e m ost ac cur a te and re lia ble . Ano th er f ast er and e asie r m e th od f or al[...]

  • Page 206

    2. F oll ow t he al ign ment s equ ence sp ecif ie d in t he Ne ar Fi nal A l ign ment section. 3. All a lig nmen t wo r k i s p erf or m ed o n gea r a nd dr i ve equ ipme nt . O nc e t he c om p r e s s or is bo lt ed in a p erf ect ly lev e l posi ti on an d is pip ed t o c ool er and co nde ns er , it m u s t no t be moved pri o r t o hot ch e [...]

  • Page 207

    Note: Drive sh af t en d- f loa t at fi nal d r iv e po sit ion mu st no t al low c o upl ing h ub f ac es t o c ont ac t , or th e c oup lin g s hr ou d to b ind . Pre limina ry Ali g n me nt To g et wi th in di al in dic a to r ra nge , rou ghl y a lig n t he e qui pmen t as sho wn in Figu re 37 an d as de scri be d b el o w. Plac e a s t raig ht[...]

  • Page 208

    N ear F in al Al i g n m en t On c e th e m ac hi ne com p one nt s a re wit hin dia l i ndi c at or r ang e, t he a dju stme nt s f or mis al ign ment s ho uld b e m ade in a s p ec if ic s eq uen c e. Th e fo ur po sit ion s o f al ign m ent de s cr ibe d bel ow are a rr ang ed in t he re c omm en ded o r der. 1. Ang ula r i n ele v at ion — T [...]

  • Page 209

    3. Ang ula r i n pla n — Th is pos i ti on c an e as il y b e lost if p lace d ahe ad of th e tw o adj ust m ent s in el ev at io n. 4. Par a lle l in pl an — Th is a dju stme nt c ann ot be made wh ile t here is st il l an gul ar m i s ali gnme nt in p lan , an d c an ea sily be l ost i f el ev at io n adj us t ment s ar e m ad e.[...]

  • Page 210

    Co rre cti ng An gu l ar M i sal i gn me nt Pr epa r at ion — S ha ft ang ula r m i salig nmen t is mea s ur ed o n th e fa c e of t he c o upl ing h ubs or on bra cke ts at t ac he d t o eac h s h af t (s ee Fi gure 38 a nd Fi gure 39 ) . Br ac k et s ar e pr ef err e d s i nc e th ey ex t end t he d iam e te r o f t he f ac e r ea din gs . Att [...]

  • Page 211

    Meas u r emen t — Occ as i ona lly , c oup lin g fa c es m ay not be pe rfe c tl y t r ue , or may ha ve bee n dama ged i n han dli ng. To c o mpen sat e fo r a ny s uc h r un out , d et er m in e th e ac t ual o r ‘ ‘ne t’ ’ s haf t mis al ign m ent as fo llo ws : Che c k t he o pen ing a t t he t op an d at t he b ot to m o f the c ou p[...]

  • Page 212

    or to a b ur r or ot her da mage t o t he c ou pli ng f ac e. If th e la rger op eni ng r e m ain s the sam e, and r emai ns on t he sa me s id e, t he am ou nt i s ent ir e ly shaf t ( n et ) m i s ali gnm e nt . If th e lar g er ope nin g r em ai ns on t he s am e s i de bu t cha nge s a moun t, m is ali gnm e nt an d runo ut a re pr es e nt . Ad[...]

  • Page 213

    Adj u stment — Ha v ing o bt ain ed t he ne t misa lign m ent , t he am oun t b y wh ic h t he eq uip m ent mus t b e mov ed ca n now b e c alcu lat ed . T o de te r m i ne : S — am o unt of m o vem en t (in p lan ) o r t he t hi ck nes s of s him ( in e lev a ti on) r eq uir e d. Ob ta in : D — c ou pli ng f ac e di amet er in i nc he s ( o [...]

  • Page 214

    If th e lar g er ope nin g bet we en c ou pli ng f ac es is at th e to p, p lace . 07 2 in. of s h im und er eac h rear fo ot or rem ove . 072 in . f rom t he f ront f oo ti ngs to br i ng th e co upl ing s in to an gul ar a lig nmen t in el ev at io n. Ti ght en t he h old dow n bol ts an d rec he ck t he n et m i sali gnm e nt . Th e hei ght of t[...]

  • Page 215

    5. T igh te n th e hol ddo wn bo lt s a nd rec h ec k th e ind ic at or. If th e r ead ing h as chan ged , lo os en t he th r ee b olt s a nd re ad jus t . It m a y be nece ss ary t o o v er o r un der sh oot t he des i r ed read ing t o all ow f or th e ef fe c t of bol t t igh te nin g. Co rre cti ng P ara llel Mis al ig n men t Pr epa r at ion ?[...]

  • Page 216

    poi nt s s i de t o s ide i n a sim il ar m ann er whe n chec k i ng f or m is al ign m ent in pl an. Meas u r emen t — Wit h di al set at z e ro in t he t op po s it ion , rot at e t he s ha ft to whic h t he ind ic at or is at ta c hed 1 80 deg rees . If th e d ial re adi ng is plu s, th e s haf t on w hich t he bu tt on r e s ts is low . If t [...]

  • Page 217

    Fina l A l ignme nt Th e pr oc e dure s a nd t ole r anc e r e qui rem en ts f or f in al al ign ment ar e t he sam e a s t ho s e de- sc r ibe d in t he Ne ar Fi nal Al ign m ent sec t ion . Fina l ali gnme nt i s p erf orm ed j us t p rior t o gr ou ti ng and ma chin e hot chec k . All pi pin g, i nc lu din g wat er an d s te am, mu st be co mple[...]

  • Page 218

    Di sas sem bl ed Co up l ing s 1. Shu t do wn m ac h ine . 2. W it h m ac hi ne ho t, qui c k ly dis a ss em bl e coup lin gs . 3. Check an g ular a nd p a rallel a l ignment in pl an a n d el e vation a s d escribed i n t he N ear F ina l Ali gnme nt se c ti on. Rec o rd th e ind icat or r ea din gs ( s ee I nit ia l Sta r t-Up C heck l ist ) a nd[...]

  • Page 219

    A s sem ble d Co upl ing s If t he re is r oom on th e sh af t bet we en c oup lin g a nd com po nen t to c la m p a s t urdy b r ack et , t he arr an gem e nt i llu stra te d in F igu r e 43 m ay be u sed. Th e c lam p s m u st ha v e r oom t o r ot at e wit h th e s haf t . Th is m et hod i s q uick e r be c aus e t h e coup ling s d o no t ha v [...]

  • Page 220

    Do w el ing Te ch ni q ue s Aft er ho t al ign ment chec k ha s b een c o m ple te d, t he c o m pres so r , ge ar a nd d ri ve mus t b e dow ele d t o t he ir s o lep lat es. D owel ing pe rm it s ex a c t re pos i ti oni ng of com po nen ts if th ey h ave to be mov e d. 1. Do wel ing mu st b e com pl et ed w it h eq uip me nt at max imu m o per a[...]

  • Page 221

    W ee k ly M a in t en an ce C hec k th e Lu b r ica t i o n Sys t e m Mar k th e oil l ev el o n th e r es er v oi r s i ght gla ss , an d obs e rv e th e lev e l each w eek wh ile t he mac hi ne is s hu t do wn. I f the le ve l go e s b elow t h e lo w er sig h t g l ass, t he o il re cla im syst e m w ill n eed t o be ch ecked fo r p rope r o per[...]

  • Page 222

    off . The LID St a tus02 scre e n di sp lays w h ether the he ater is e ne rgized or n ot. I f t he PI C shows th at t he h eat er is en er gi zed, but th e s um p is no t he at ing u p, t he p owe r t o t he oi l hea te r m a y b e of f or t he oi l leve l m ay be t oo lo w. C heck t he oi l leve l, t he o il he at er c ont ac t or v ol ta ge, and[...]

  • Page 223

    Sc he dul ed Ma int e na nc e Es ta bli sh a r egu lar m ain t ena nce s c he dul e bas e d on t he ac t ua l m ac hi ne req uirem e nt s s u ch as m ac hi ne lo ad, r un ho ur s , a nd wa te r q ual it y . T he t im e in te r v als li s te d in t his s ec t io n are of fe r ed as gu ide s t o s er v i c e onl y. S ervice Ont ime Th e LI D w ill d [...]

  • Page 224

    Che ck Sa fe ty and O pera ting Contr ol s Month ly To e nsur e ma chin e pr ot ec t io n, t he C ont r ol T es t A u to m at ed T es t s h oul d be do ne a t le as t once p er m ont h. S ee T abl e 3 for sa fety control settings. Cha ngi ng Oil Fi l t er 19EX Comp re ss ors Cha nge the o il f ilt er on an an nua l bas i s o r w hen th e m achi ne [...]

  • Page 225

    indicated. Scre w t h e asse mb ly in t o the l o cking ri ng. 8. Ev acu at e th e fi lt er / pip ing a s sem bl y. 9. O pen t he i sola ti on v al v es. F A St yl e C o m pr ess o rs 1. T ur n of f o il he at er . 2. Cl os e t he li ne val v e ( F ig u r e 44 , It em 1) to i solate t he o il filter(s). Note: F A ST YLE COMPRESSORS D O N OT HAVE I [...]

  • Page 226

    8. T ur n on oil h eat er and wa r m t he oil t o 140 t o 1 50 F ( 60 t o 6 6 C) . O per a te t he oil p um p fo r 2 min ut es . A d d oil i f req uir e d to k e ep le v el up t o lo wer s ig ht g lass . O il s ho uld b e vis ib le in t he re s er v oi r s i ght gla ss d urin g all o pera tin g an d shut do wn con di- t ion s . Oi l Spe cific atio [...]

  • Page 227

    T o C h an g e th e Oi l 1. O pen t he co nt r ol an d oil h eat er c ir c u it b reak e r. 2. Dra in t he oil r eser vo ir by o pen ing t he o il c h ar gi ng v a lv e, ( F igu re 2 , It em 1 8 or F igu r e 3 , It em 26 ) . Slo wly op en t he v al v e aga inst r ef r ige rant pr es s u re. 3. Ch ang e th e oil f il te r a t this t im e. S ee Ch an[...]

  • Page 228

    ves s el . A mois t ur e i ndi c at ing si ght gla ss i s l ocat ed b ey on d th is fi lt er to i ndi cat e th e v olu me and moi sture i n t h e refrig e ran t. If t he d ry-eye indicates mo isture , locate t he so urce of water imm ed iat el y b y p erf or m in g a th or ou gh le ak c hec k . Oi l Rec lai m Filt er T h e oi l re claim syst em ha [...]

  • Page 229

    ef fe c ts of ov er p res s ur e . To ens u r e aga inst dam a ge t o th e equ ipme nt a nd po s s ibl e inj ur y to pers o nne l, t he s e dev i ces m us t b e kept in pe ak ope rat ing c o ndi ti on. As a m i nim u m, th e fo llo win g m ain te nan c e is r equ ir ed . 1. At le ast on c e a y e ar , di s conn ect t he v ent p ipi ng at t he v al [...]

  • Page 230

    spac e r w it h 8 oz . o f Kop -Fl ex K HP hig h perf or m a nce c ou pli ng gre ase ( Ca rr ier P ar t No. 17D K 680 0 01). In s ta ll ne w gask e ts. Wh en t he c ou pli ng as s e m bly is r em ov e d fo r s c h edu led s e r v ic e of th e c ar bo n seal , rep lac e th e O-r i ng, s pac e r g as k et s , a nd he x b olt s . Op er at in g cond it[...]

  • Page 231

    repa ir, r e cond it ion , or reb uil d th e m ot or , i t is r ec o mm end ed t hat th e nea res t W es t in gho use app ar at us r ep air f ac il it y b e cons u lt ed. In a ddi ti on t o a dai ly obs e rv at ion o f t he ap pea r anc e a nd op er at io n of t he mo to r , it is rec om m e nde d th at a g ene r al in spec t io n proc e dure b e e[...]

  • Page 232

    ai r-t o-a ir he a t e xch anger of T EAAC motors sh o uld b e cle a ned u sing a su pplied t ub e bru sh havi ng sy nt he ti c f ib er br is t le s ( n ot w ire of any t y pe) . Th e s ta nda rd c ool er is equ ipp ed wi th s t ee l tu bes , how ever , in s pe c ial c a ses alu m inu m t ub es m ay be us e d and w ire br u s hes c an s e riou s ly[...]

  • Page 233

    duct s t hrou gh t he sta to r cor e a nd b y re duci ng h eat t rans f er f r om t he win din g in sula ti on sur f ace s to t he co oli ng ai r . Co ndu cti ng c on ta m ina nt s c a n chan ge or in cr eas e e lec t r ic a l stre ss es on t he insu lat io n and co rr osiv e c o nt am in ant s can che mic al ly at ta ck a nd de grad e th e insu la[...]

  • Page 234

    solv e nt s u ch as inh ibi te d m et hy l c hl orof or m m ay be u s ed, but m us t b e used sp ar in gly an d imm ed iat el y r e m ov ed . Whil e th is s olv e nt i s n on-f la m m abl e und er or di nary c on dit io ns , i t is t ox ic and p rope r h eal th a nd saf et y pr ec a ut ion s s h oul d be f oll owe d whi le usi ng it . Solv e nt s o[...]

  • Page 235

    S l ee ve Be ari ng s O il Ch an gin g Th e oil re ser v oir s of th e s elf lub r ic at ed b ear i ngs s ho uld b e drai ned a nd r ef il led e ver y 6 mont hs . M or e f r equ ent c han ges m ay be n eed ed if sev er e o il di sc olo rat ion o r c o nt am in at ion occ urs . I n cond it ion s whe re c on ta m ina ti on do es occ u r , it m ay b e[...]

  • Page 236

    Th e fo llo win g is th e r ec om m en ded p r oc ed ure f or r em ov i ng t he be arin g slee v e: 1. Re m ov e t he oi l drai n plu g in t he ho usin g bot t om and d r ain t he o il sum p . 2. Re m ov e al l inst r um e nt at ion s e ns or s t hat ar e in c o nt ac t w it h th e bea ring sl eev e . Thes e wo uld i nc lu de res i s ta nc e t em p[...]

  • Page 237

    reassemble them to a void a ny mix up in p arts o r d amage to t he su rfaces at t he p artings. 7. W hen r e m ovin g th e lab yr int h s ea ls , m a k e not e of th e pos i ti on of th e ant i- ro ta ti on bu tt on lo c at ed on t he i ns id e of t he t op h alf of t he se al. P ull u p th e gar t er s pr i ng sur r o und ing t he f loa ti ng la [...]

  • Page 238

    10. Pr ot ec t th e s haf t j our n al by wr a ppi ng it wit h c le an, hea v y p ape r o r c a rdbo ard. Rea sse mb ly Bear i ng rea ss em bl y is ba s ic al ly a r ev er s a l of t he d is as s e m bly pr o cedu res out li ned a bove , wit h t he f oll owi ng ad dit io nal s t ep s. U s e e xt r em e c ar e wh e n roll ing o ut t h e lo wer bear [...]

  • Page 239

    1. T he in te r ior of th e bea ring h ousi ng sho uld b e clea ned a nd t hen f lu s hed w it h c lea n oil o r kerosene. 2. T he bea ring ha lves a nd th e sh af t jou rnal sho uld be wip ed c lea n u sing li nt - fre e c l ot h soa ked wi th c l ean o il. CA UTI ON CAUTION ! Du ri ng t he r eas sem bl y o f t h e b ear ing p ar ts, a th i n l a [...]

  • Page 240

    3. All p arts sh ould be care fully i n spected f or nicks, scra t che s, etc. , i n a ny con t act surfaces. Suc h i m per f ec t io ns s hou ld be r e mov ed b y a n app r opr i at e m et hod s u c h as s to nin g, scraping, fil i ng, etc. , followed b y t ho rou g h cle a ning. 4. App ly a fe w dr op s o f oi l to t he j our n al an d bea ring s[...]

  • Page 241

    st r aig ht nes s an d mak e an y c o rr ec t ion s r e qui r ed. Do no t f or c e t he r in g hal v es to get he r. Excessive f o rce may a lter the ro u ndness or f l atness o f the rin g w hich ca n cha n ge i t s oil de liv e ry p erf or m an c e. A p ply lo ck ing co mpou nd t o th e oil r i ng s c r ews pr i or to r e ass em b ly. 10. Assembl[...]

  • Page 242

    I f t he be arin g cap do es not s eat c om pl et ely , r em ov e a nd r es e t the f loa ti ng la byr in th s e al po s it ion . When i nst all ing u ppe r b eari ng c ap t he f lo at ing l aby r i nt h s eal s s o met im es r ot at e an d th e ant i-r o ta ti on ‘‘ ta b’’ d oes no t s ea t in i ts ho lde r , t hus pr e v ent in g th e bea[...]

  • Page 243

    Open- Drive M otor Ha ndling /R i gg ing Eac h m ot or is pr o vide d wit h lif t ing l ugs , wel ded t o t he f our c or n ers of t he m o to r f r am e , for lif t ing t he a s s em bl ed m ac h ine . T he m ot or s ho uld a lwa y s b e lif t ed by us i ng t he li ftin g lug s loca te d on al l fo ur c or ne rs o f t he m ot or f r am e. ( S ee F[...]

  • Page 244

    Note: Refer t o wei ght s s pec i fi ed on c e r ti fi ed dr a win g to d et er m in e prop er lif t ing e qui pmen t requ ired f or s pe c if ic c om po nen ts or as s e mbli es. Op e n -D ri ve Mo t or St o ra g e If th e m ac hi ne is t o be pl ac ed i n ex t end ed shu td own , cert ai n prec a ut ion s m u st be t ak e n to prov i de pro per p[...]

  • Page 245

    shou ld be e nerg iz ed a t the v ol ta ge s ho wn by t he s pa ce hea te r n amep lat e at t ac he d to t he mot or . I nc a nde s c ent lig ht b ulb s c a n be pl ac ed w it hin t he m o to r t o pro vide h eat . H owe v er , i f used , they m us t not be al low ed t o c om e in co nt ac t w it h any pa r ts of th e m ot or bec a use of th e conc[...]

  • Page 246

    C om pr e sso r Be ari n g an d Ge ar Ma int en an c e Th e key to goo d bea ring a nd g ear m ai nt ena nce i s p r ope r l ubr i c at ion . Use th e prop er grad e of oil , mai nt ain ed at r ec om m e nde d lev e l, t em p erat ur e , an d pr es s u r e. I ns p ect t he l ubr i c at ion syst e m re gularly a n d t h oroughly. On ly a tra ine d s[...]

  • Page 247

    Co nde n s e r Sin ce t hi s w ater circu it is usu a lly a n o pen-type syst e m, the t ubes ma y b e sub j ect t o con tami na tio n a n d sca l e. Cl e an the con d en se r tubes with a rotary tube cleaning system a t le ast once p er y ear , and mo r e of te n if t he w at er is c ont am i nat ed . Ins pe c t t he en te r ing a nd le av in g co[...]

  • Page 248

    Wa te r Le ak s Wa te r i s i ndi c a te d du r ing m ach ine o per a ti on by t he ref r ig er an t m oi s tu r e ind icat or ( F igu re 2 ) on t he r ef r ig eran t mot or c oo lin g lin e. W at er le aks s hou ld be r e pai red im m e dia te ly . Wa te r Tr e at m ent Unt rea te d or i m prop erly t rea te d wa te r may res u lt in co rr osio n,[...]

  • Page 249

    In s pec t th e Star ti ng E q ui pm ent Bef or e wo rk ing o n any s t art er , s h ut o ff th e m ac hi ne, and o pen a ll di s c onn ect s s u ppl y ing pow er to t he st ar t er. CA UTI ON CAUTION ! W ate r m ust be w ithi n d e sig n fl ow limit s, cl e an, and tr eat ed t o ens ure pr oper mac hi n e pe rf o rma nc e an d re du ce t h e p ote[...]

  • Page 250

    In s pec t s ta r te r c o nt ac t s u rfa c es fo r we ar or pit t ing o n m ec ha nica l-t y pe s t ar t er s . D o not sand pap er or fi le s il v er - pl at ed c on ta c ts. Fo llo w th e s ta r te r m a nuf ac t ur e r ’s ins t r uc t io ns fo r cont ac t r epl acem e nt , lu br ic a ti on, s par e p ar t s o rder i ng, and o th er m ain te [...]

  • Page 251

    C hec k P res sure Tr ans du cer s On c e a ye ar, t he p res s ur e t r an s duc e rs s h oul d b e chec k e d aga ins t a pr es s u r e gag e r e adi ng. Che c k a ll t hr ee t r an sduc e r s : oi l pr es s u re, c o nde ns er pr e ss ur e, c ool er pr es s u re. No t e the e va porator a nd co n denser pre ssu re rea d ings o n t h e St a tus01[...]

  • Page 252

    Oi l s hou ld be v i sibl e in t he c om pr e ss or s igh t gl as s bot h du ring o pera ti on an d at s h ut dow n. Alwa ys ch eck th e oil l ev el b ef or e op erat in g th e c ompr e s sor . Be fo re add ing o r c h ang ing o il, reli eve t he r ef r ig er an t pre s s ur e as f oll ows: 1. Attach a pressure gage to t he g age p ort o f either c[...]

  • Page 253

    Or de rin g R e p l ac eme n t C hill er P art s Wh en or d erin g Carr ie r s p ecif ie d part s , t he f ol low ing i nf or m at io n mus t a c c om pa ny an or d er: • mac hi ne mod el nu m ber an d s er ia l numb er • name , qu ant it y , a nd pa rt nu m ber of th e par t r equ ired • del iv er y ad dres s an d met hod o f shi pm en t O p[...]

  • Page 254

    Tr oub le sh oot i ng Gui de O ve r vi ew Th e P IC h as m any f eat ur e s t o ai d th e ope rat or and t he t ec h nici an in t r ou ble shoo ti ng a 17/ 19 E X m a c hin e. • By u s ing t he L ID d is pl ay , t he c h ill er ac t ual o pera ti ng con dit io ns c an be v i ewe d whi le th e uni t is run nin g. • The Co n trol Alg o rithm St a[...]

  • Page 255

    C hec king the Di spla y M e ssa ges Th e f irs t area to c heck wh en t r ou ble shoo ti ng t he 17/ 1 9E X is t he L ID dis p lay . I f t he ala rm lig ht is fl as hi ng, c hec k t he pr i m ar y and s e c ond ary m es s ag e lin es on t he LI D de fa ult s c r een ( F igure 14 ). Th es e m es s a ges wi ll in dica te w here t he f au lt i s o cc[...]

  • Page 256

    R esi st an ce C h ec k Tu rn of f t he con t ro l po wer an d dis co nne c t the ter mi nal p lug o f t he se nsor in q ues t io n f rom th e modu le. M easu r e s enso r r esi sta nc e be tw een re cept ac l es d esig nat ed b y t he wi ring d iag ram wit h a dig it al oh mm et er . T he re s is t anc e a nd cor r e s pon din g te m per a tu r e [...]

  • Page 257

    Ch ec k S en s or Ac cur a cy Plac e t he se nsor in a m e diu m o f a kno wn t em pe r a tu r e and c o mpar e t ha t t em pe rat ur e t o th e meas u red r ea din g. T he t he rm om et er us e d to d et er m in e th e te m per a tu r e of t he m e diu m s h oul d be of lab orat or y qu ali ty wi th 0 .5 ° F ( . 25 ° C) gr a dua ti ons . Th e s [...]

  • Page 258

    C hec king Pres sur e Tran s du cer s Th er e ar e 3 p res s ur e t r an s duc e r s on herm et ic m ac h ine s . T hes e d et er m in e c ool er, cond ense r, an d oil p res s ur e . Open -dr iv e ma chin es hav e 4 t r an s duc e rs . T hes e t r an s duc e rs sens e c oo ler p r ess ur e , co nde ns er p res sur e , oil s upp ly pre ss ure, an d[...]

  • Page 259

    To ca lib rat e oil p r ess ure d if fe rent ia l on op en- d riv e mac h ine s, ref er t o Oi l P res sur e D if fe r ent ia l Cal ibr a ti on at th e end o f this s ec t io n. Cal ibr a ti on c a n b e c h ec ked by com pa r ing t he pr ess u r e re adi ngs fro m t he t ran sduc e r ag ain s t an acc u rat e r ef r ige r at ion g age . T hes e r [...]

  • Page 260

    f r om th e tra nsdu cer by th e s upp ly v olt ag e sign al, m eas u red at th e P S IO te r m ina ls J 7- J 34 an d J 7- J 35 . For ex am p le, th e c ond ens e r t r an sduc e r v o lt age i npu t is m ea sur ed a t PS I O t er - min als J 7 - 1 a nd J 7 -2. T he v o lt age rat io m ust be bet we en 0. 80 vd c an d 0. 11 vdc f or th e sof t - wa[...]

  • Page 261

    Oil Di ffere n ti al P res sure /Po we r S upply Modul e Ca l i b r ation ( S ee Fi g u re 4 8 .) Th e oil re s erv oir in t he 1 7E X m achi ne is no t c omm o n to co ole r p r ess ur e . T her e fo r e, a com pa ris on o f pu m p out pu t t o c ool er pr es s u re c oul d not be us e d to p r ov id e dif f er en ti al oi l pres s u re inf or m a[...]

  • Page 262

    Trou bl es hooting Tra nsd uc ers Wh en t rou ble s hoo ti ng tra nsdu cer s, k ee p t he ne gat ive le ad o f y our volt oh mm et er o n t er min al U4 of th e pow er s upp ly ( or te r m ina l 4 on po wer s up pli es wit ho ut t he c o mpar a to r c i rc uit ) . volt ag e VO1 = ( V H1 -V L1) + .4 67 ± . 1 V F o r a ll PI C t ra nsd u c ers: Meas[...]

  • Page 263

    Control Al gori thms C hec ko ut Proce dur e In t he L ID S e rv ic e m en u, o ne of th e ta ble s i s C ont r ol A l gorit h m S t at us . T hi s t ab le con ta ins 6 ta ble s t ha t may be vi ewe d in ord er to s e e how t he p art ic ul ar c ont r ol a lgo r it hm is ope rat ing . Th es e m ai nt ena nce t abl es ar e v er y us e fu l in de te [...]

  • Page 264

    Control Te st Th e Con tro l Te st f eat ure c an che ck a ll of t he t herm i sto r tem p er at ure se ns ors , in clud ing t ho s e on t he O pt ion s m o dul es, p res s ur e t r an sduc e rs , pu mps and t he ir as s oc i at ed f low sw it c hes , th e gui de v an e act uat or , and o th er c ont r ol o ut put s , s u c h as hot gas by p ass . [...]

  • Page 265

    Cli ck her e fo r T a b le 8C — I n Re cycle Shut down C l i c k he re f o r Ta bl e 8D — P re -S tar t A l er ts C l i c k he re fo r Ta bl e 8E — N or ma l or Au t o . -Re s tar t C l i c k he re f o r Ta bl e 8F — S tar t - U p F a ilu re s C l i c k he re f o r Ta bl e 8G — C om pr ess o r Ju mp s ta rt and R ef ri ge r ant Pr ote c t[...]

  • Page 266

    C l i c k he re f o r Ta bl e 8I — N or ma l Ru n O v er ri d es A ct i v e ( Al er t s ) C l i c k he re fo r Ta bl e 8J — Out- of -Ra nge Se ns o r Fa i lu r es C l i ck he re fo r Ta bl e 8K — M ac hi n e P ro t ect Li m it F au lt s C l i c k he re f o r Ta bl e 8L — M ac hi n e A le r t s C l i c k he re f o r Ta bl e 8M — S par e Se[...]

  • Page 267

    Control Mod ul e s Th e P r oc es s o r m od ule (PSI O ), 8-i npu t (O pt ion s) m o dul es, S t ar t er M an age m ent M odu le (SMM), a nd the Lo ca l Interface D evi ce (LID) mo d ul e pe rform co ntin u ou s d ia g no stic e val u atio n s of t he h ar dw ar e t o d et erm in e i ts co ndi ti on. Pr op er op er at io n o f a ll m o dul es is i[...]

  • Page 268

    Re d LE D If th e LE D is bl inki ng c on ti nuo usly at a 2- s ec o nd rat e, it i s in dic a ti ng pr o per op erat io n. I f i t is lit c ont in uou s ly it i ndi cat es a pr ob lem r eq uiri ng r ep lace ment of t he mo dul e. O f f con ti nuo usly ind ic at es t hat th e pow er s hou ld be c h eck ed . If t he r ed L E D bli nk s 3 ti m es per[...]

  • Page 269

    PSI O Module Gre en LE D C los e s t t o Com m un icat io ns Con nec t io n — C ommu n ication wi t h SMM an d 8 - inp ut m o dul e; m u s t bl ink c on ti nuo usly . Othe r G r ee n LE D — Co mmun ication wi t h LID; must b link e very 3 t o 5 se conds. 8-In pu t Mod u les a n d SMM Gre en LE D — Co mmu nic a ti on wi th PS I O mo dul e; w i[...]

  • Page 270

    Notes on M odul e Operation 1. T he m ac h ine o pera to r m o nit or s an d modi fi es c onf ig urat io ns in t he m ic r op roc es s o r t hr o ugh t he 4 s of t k ey s and t he L ID . Co m m uni cat ion w it h th e LI D and t he P S I O i s a cc om pl is he d through the CC N bu s. The commu n ication be t we en the PSI O , SMM, a n d bo t h 8-i[...]

  • Page 271

    I f al l m odu les in dica te c o mm uni cat ion s f ai lur e , che c k c o m m u nica ti ons pl ug on t he PS I O mod ule f or pr o per s ea ti ng. A ls o c he ck t he w ir in g (CCN bu s — 1: r ed , 2:wh t, 3: blk ; S ens o r bu s — 1: r ed , 2:bl k , 3: c lr / wh t). If a goo d conn ect ion i s a s s ur ed a nd t he c on dit io n pers i sts,[...]

  • Page 272

    P roc e ssor M odule (P SI O ) ( Fig ure 51 ) Input s Eac h inp ut cha nne l has 3 te r mi nal s; on ly 2 of th e t erm i nal s a re u s ed. Ap pli c at ion o f m achi ne det erm i nes whi c h t erm in als ar e n or mal ly u s ed. Al ways re fe r t o in div i dua l u nit w ir ing f or t erm i nal numb ers . Out put s Ou tp ut i s 2 0 vdc . T he r e[...]

  • Page 273

    S t arter Ma nagem ent Module ( SM M) ( Fi gure 5 2 ) Input s I n puts on st rips J2 an d J3 a re a mi x of analog a nd d i screte (o n/off ) i nputs. App l icatio n of t he mac hi ne de te rm ine s w hic h te r mina ls ar e use d. Al ways ref er t o t he in div i dua l uni t wi ring d iag r am f o r termi na l n umb e rs. Out put s Ou tp ut s a re[...]

  • Page 274

    Options M odules (8-I nput) Th e opt io ns m odu les ar e o pt ion al ad dit io ns to t he PI C, and a re us ed t o ad d te m per a tu r e res et inp ut s , spa re s ens o r i npu ts, and d em an d limi t in put s. E a ch opt io n modu le con ta ins 8 inp ut s , ea c h inp ut m e ant fo r a s p ecif ic du ty. S ee t he wi ring d iag r am fo r e xac[...]

  • Page 275

    Te r m ina l blo ck con nect io ns ar e pr o vide d on t he op ti ons m od ule s . All s e nsor in put s ar e f iel d wire d and i nst all ed. Op ti ons m od ule 1 ca n be f ac t ory or fi eld -ins t al led . O pt ion s m o dul e 2 is ship ped s e para te ly and m u st be f ie ld in s ta lle d. F or in sta lla ti on, r ef er to t he u nit or fi eld[...]

  • Page 276

    Ins talla ti on of Ne w PSIO M odule 1. Ver i fy if th e ex is t in g P S IO m odu le is de fe c ti v e, b y u sing t he p roc ed ure de sc r ibe d in t he No te s on M od ule O pe rat ion sec t io n, an d Con tro l Mo dul es se c ti on. Do not s e lect th e A t t ac h t o Net wo rk D evic e t ab le if th e LI D dis p lays c om m un icat io n fa il[...]

  • Page 277

    5. Pac k a ge t he de fe c ti v e m odu le in t he ca r to n of t he n ew m od ule f or r et ur n t o Ca rr ier . 6. Restore con t rol syst em power (L I D wi l l sho w ‘ ‘COMMUNICATION F AI LU RE’’ a t b o ttom o f screen). 7. Access the SERVICE menu. H ighlight a nd select ‘ ‘ATTAC H TO N ETWORK DEVICE.’’ Pus h t he ‘ ‘AT TAC [...]

  • Page 278

    14. After t he PSI O t ables have been uploaded into t he L ID, access t he ST ATUS01 scre en. Move t he h ighlight b ar to t he ‘ ‘TOTAL COMPRESSOR ST AR T S’ ’ val u e. Se lect this value an d inc r e ase t he v al ue un ti l it i s t he sa me as th e v alu e fro m t he o ld m od ule . Pr es s E NT E R to save t his va l ue. 15. Move t he[...]

  • Page 279

    17/ 19 EX P hys ic al D ata and W iri ng Sch emati cs Ta ble 1 0 , T ab le 11 , T abl e 12 , Ta ble 1 3 , Tab le 14 , T abl e 15 , Ta ble 1 6 , T ab le 17 , T abl e 18 , F ig u r e 54 , Figu re 55 , F igu re 56 , F ig u r e 57 , Fi g ur e 5 8 , F igu r e 59 , F ig u r e 60 , Fi g ur e 6 1 , an d F ig u re 62 pr ov i de add it ion al in fo rm at ion[...]

  • Page 280

    C omp re ssor Fits a n d C l ear ance s Servi ce a nd re p air o f Carri e r ce ntrifugal comp re ssors sho u ld b e p erformed o nly b y f ully tra ine d and q ual if ied se r vic e pe r sonn el. T he in fo rma ti on in t hi s se c ti on is in c lud ed as a ref er en c e f o r su ch pe rso nn e l on l y. C l i c k he re f o r Ta bl e 13 — Ad di [...]

  • Page 281

    C l i c k he re f o r Ta bl e 17 — Op en -D r iv e C om pr ess o r Fi ts an d C l ea ra nc e s Cl i c k h er e f or F igu re 56 — H er met i c C omp re ss or Fit s an d Cl ea ra nce s C l i c k he re f o r Ta bl e 18 — H er me t i c C om pr es s o r F it s an d C l ea ra nc e s Click h e r e for F igure 5 7 — E le ct ro n ic P IC Con tro ls[...]

  • Page 282

    Click h e r e for F ig u re 60 — H e r me t ic D rive — P ow er Pa n e l Wi th Wa t e r- Co ole d Oil C o ol er Cl i ck he re fo r F ig ur e 6 1 — He rme ti c D ri ve — Po we r Pan el W it h M ot or C o ol i ng Sol e noi d Click h e r e for F igure 6 2 — O p e n Driv e — Po we r P a n el Click h e r e for I n itia l St a rt-Up Ch e ck l[...]

  • Page 283

    * See F igu re 7 , Figu re 8 , Fi gur e 9 , F igu r e 1 0 , Fig u r e 1 1 , F igu re 12 , and Fig ur e 1 3 . Tab le 1 — Maj or P I C Com pone nts a nd P anel Lo cations * P I C Co mp o ne nt Pa ne l Loc a t ion Pr oce ssor Se ns or I npu t/Ou tput Modu le (PSI O ) Cont ro l Cent er Star te r Managem e nt Mod u l e (SMM) S t arter Cabi net Loca l [...]

  • Page 284

    Ta bl e 2 — LID Sc r ee ns No tes: 1. Only 1 2 l ines o f i n formation a ppear on t he L I D screen a t a ny gi ve n t i me. Pre ss N EXT or PREVIO U S to highlight a po int or t o vi ew p o ints be l ow o r ab ove the curre nt scre en. 2. The L I D may b e co nfigured i n En glish or SI un its, a s req uired, t hro ugh t he L ID co nfiguration [...]

  • Page 285

    Note: Al l values a re va riables a va ilable f or read op e ration t o a C C N. D escriptions sh o wn w i th (* ) su pport wri t e operations f o r BEST programming la n guage, da t a-tran sfer, a n d ove rri ding. † In fo rm at ion i s a ppl icab le t o her me ti c m a c hin es onl y . ** In fo r m at ion i s a ppl icab le t o ope n-dr i ve m a[...]

  • Page 286

    Exam ple 2 — S t at u s02 D is pl ay S c ree n To a cc es s th is dis p lay f ro m t he LID d efa ul t screen: 1. Press MEN U . 2. Press ST AT US . 3. Scroll do w n t o h ighlight S T AT US0 2 . 4. Press SELECT . Note: Al l values a re va riables a va ilable f or read op e ration t o a C C N. D escriptions sh o wn w i th (* ) su pport writ e op e[...]

  • Page 287

    Exam ple 3 — S t at u s03 D is pl ay S c ree n To a cc es s th is dis p lay f ro m t he LID d efa ul t screen: 1. Press MEN U . 2. Press ST AT US . 3. Scroll do w n t o h ighlight S T AT US0 3 . 4. Press SELECT . Note: All val ues s ha ll be va riab les av a ila ble f or r ea d ope r at ion t o a CC N net wo rk . De sc r ipt ion s sh own w it h ([...]

  • Page 288

    Exam ple 4 — S et p oi n t D is pl ay S c ree n To a cc es s th is dis p lay f ro m t he LID d efa ul t screen: 1. Press MEN U . 2. Press SETPO I NT . T a ble 2, E xa mpl e 4 — S etp oi nt D ispl a y S cre en Des cri p t ion C o nfig urab le Ra ng e Un it s Re fere nc e P oi n t Na me Def a ul t V a lu e Ba se De m and Lim it LC W Se tpo int EC[...]

  • Page 289

    Exam ple 5 — Co nfi g ur at i on ( Co nfi g ) D is pl ay Sc ree n To a cc es s th is dis p lay f ro m t he LID d efa ul t screen: 1. Press MEN U . 2. Press SER VI CE . 3. Scroll do w n t o h ighlight EQ UIPMENT CONF I G URATION . 4. Press SELECT . 5. Scroll do w n t o h ighlight CO NF IG . 6. Press SELECT . Note: ∆ = de lt a deg rees . Ta bl e [...]

  • Page 290

    Exam ple 6 — Le ad /L ag Co nfi g ur at i on Di sp la y S cre en To a cc es s th is dis p lay f ro m t he LID d efa ul t screen: 1. Press MEN U . 2. Press SER VI CE . 3. Scroll do w n t o h ighlight EQ UIPMENT CONF I G URATION . 4. Press SELECT . 5. Scroll do w n t o h ighlight Lead /Lag . 6. Press SELECT . T a b l e 2 , E xam p l e 6 — L e ad/[...]

  • Page 291

    Exam ple 7 — S erv ic e1 Di sp l ay S cr een To a cc es s th is dis p lay f ro m t he LID d efa ul t screen: 1. Press MEN U . 2. Press SER VI CE . 3. Scroll do w n t o h ighlight EQ UIPMENT SERVICE . 4. Press SELECT . 5. Scroll do w n t o h ighlight SER VICE1 . 6. Press SELECT . T a ble 2, Exam ple 7 — Se rvic e1 Disp la y Scre en D esc ri pti [...]

  • Page 292

    Note: ∆ = del ta d egre es. * In fo r m at ion i s a ppl icab le t o her m et ic m ac h ine s o nly. † In fo r m at ion i s a ppl icab le t o ope n-dr i v e m a c hin es onl y. D em a n d Li mit So ur ce S el ec t: Am ps= 0, Lo ad= 1 A m ps C o rr e ct ion Fac t or M oto r R at ed Loa d A m ps M oto r R at ed Line Vo l ta ge M e ter Ra te d L i[...]

  • Page 293

    Exam ple 8 — S erv ic e2 Di sp l ay S cr een To a cc es s th is dis p lay f ro m t he LID d efa ul t screen: 1. Press MEN U . 2. Press SER VI CE . 3. Scroll do w n t o h ighlight EQ UIPMENT SERVICE . 4. Press SELECT . 5. Scroll do w n t o h ighlight SER VICE2 . 6. Press SELECT . T a bl e 2, Exa m pl e 8 — Ser v ic e2 D i spl a y S cre en Desc r[...]

  • Page 294

    Note: T h is s c r een p r ov id es th e mean s t o ge nera te a lert m es s ag es bas e d on exc e edi ng t he ‘‘ Te m p’’ t hr e sh- old f or e ac h poi nt li ste d. I f th e ‘ ‘E na ble ’’ is se t to 1, a val ue abo ve t he ‘‘ Te mp’’ t hres h old sha ll gen er at e an al er t m e ss age . I f t he ‘‘ Enab le’ ’ i[...]

  • Page 295

    Exam ple 9 — S erv ic e3 Di sp l ay S cr een To a cc es s th is dis p lay f ro m t he LID d efa ul t screen: 1. Press MEN U . 2. Press SER VI CE . 3. Scroll do w n t o h ighlight EQ UIPMENT SERVICE . 4. Press SELECT . 5. Scroll do w n t o h ighlight SER VICE3. Ta b l e 2, E xa m p l e 9 — S er v ic e 3 Di sp la y S cr e en De scr ipt i on C onf[...]

  • Page 296

    Exam ple 10 — M ai n ten an ce ( M ai n t 01) Di sp l ay S cr een To a cc es s th is dis p lay f ro m t he LID d efa ul t screen: 1. Press MENU . 2. Press SERVICE . 3. Scroll do w n t o h ighlight A L GORIT HM STA TU S . 4. Press SELECT . 5. Scroll do w n t o h ighlight M A IN T0 1 . Note: O ve rr idi ng is no t s upp or t ed on th is mai nt ena [...]

  • Page 297

    Exam ple 11 — M ai n ten an ce ( M ai n t 02) Di sp l ay S cr een To a cc es s th is dis p lay f ro m t he LID d efa ul t screen: 1. Press MEN U . 2. Press SER VI CE . 3. Scroll do w n t o h ighlight CO NT RO L A L GO R IT HM ST A TU S . 4. Press SEL ECT . 5. Scroll do w n t o h ighlight M A IN T0 2 . 6. Press SELECT . Note: O ve rr idi ng is no [...]

  • Page 298

    Exam ple 12 — M ai n ten an ce ( M ai n t 03) Di sp l ay S cr een To a cc es s th is dis p lay f ro m t he LID d efa ul t screen: 1. Press MEN U . 2. Press SER VI CE . 3. Scroll do w n t o h ighlight CO NT RO L A L GO R IT HM ST A TU S . 4. Press SEL ECT . 5. Scroll do w n t o h ighlight M A IN T0 3 . 6. Press SELECT . Note: O ve rride i s n ot s[...]

  • Page 299

    Exam ple 13 — M ai n ten an ce ( M ai n t 04) Di sp l ay S cr een To a cc es s th is dis p lay f ro m t he LID d efa ul t screen: 1. Press MEN U . 2. Press SER VI CE . 3. Scroll do w n t o h ighlight CO NT RO L A L GO R IT HM ST A TU S . 4. Press SEL ECT . 5. Scroll do w n t o h ighlight M A IN T0 4 . 6. Press SELECT . No tes: 1. O nly v al ues w[...]

  • Page 300

    Ta bl e 3 — P r ote ctive S a fety Lim i ts a nd Cont r o l S et tings Mon itored Pa r ameter Li m i t A p pli c a bl e Co mme nt s T e m pe r at u re S e ns or s Ou t Of R ange –40 t o 245 F ( –40 to 118.3 C) M us t be out side rang e for 2 s econ ds Pr ess ur e Tr an sd uc ers O u t Of R ange 0.08 t o 0.98 Vo l tage R at io M ust be outsi d[...]

  • Page 301

    F low Swi tch es ( F ield Supp lied) O p era te wa t e r p ump s with machine o ff. Ma nually reduce water f low and o bserve sw itch for p roper cu tout. Saf et y s h ut dow n oc c ur s wh en cut ou t tim e ex c e eds 3 s ec o nds. St a rter A cce le rat i o n T im e (D eter mi ne d b y in ru sh cu r re nt g oin g b el ow 1 00 % co mp re s so r mo[...]

  • Page 302

    Leg end P1 — Mi nimu m Pressu re Lo a d T1 — Min im um T em pe rat ur e Lo ad P2 — Maximum Pressu re L oa d T2 — Maxi mum T e mperature Lo a d * Not av ai lab le on o pen d riv e m ac h ine s . Table 4 — Capacit y Over r ides Ov err id e Cap ac ity Co ntro l Fir st Sta ge S et po int Se c o nd Stage Se tpoi nt O ver ri de T erm in ati o n[...]

  • Page 303

    T able 5A — H FC - 13 4a Pre ssur e — T e mp era ture ( F) Te mp era t ur e (F) Pres su re ( p si ) 0 2 4 6 8 6.5 0 7.5 2 8.6 0 9.6 6 10. 79 10 12 14 16 18 11. 96 13. 17 14. 42 15. 72 17. 06 20 22 24 26 28 18. 45 19. 88 21. 37 22. 90 24. 48 30 32 34 36 38 26. 11 27. 80 29. 53 31. 32 33. 17 40 42 44 46 48 35. 08 37. 04 39. 06 41. 14 43. 28 50 52[...]

  • Page 304

    90 92 94 96 98 104 . 40 108 . 18 112 . 06 116 . 02 120 . 08 100 102 104 106 108 124 . 23 128 . 47 132 . 81 137 . 25 141 . 79 110 112 114 116 118 146 . 43 151 . 17 156 . 01 160 . 96 166 . 01 120 122 124 126 128 171 . 17 176 . 45 181 . 83 187 . 32 192 . 93 130 132 134 136 138 140 198 . 66 204 . 50 210 . 47 216 . 55 222 . 76 229 . 09 Ta bl e 5 A — H[...]

  • Page 305

    T able 5B — H FC - 13 4a Pre ssur e — T e mp era ture ( C) Te mp era t ur e (C) Pres su re ( kP a ) -18. 0 -16. 7 -15. 6 -14. 4 -13. 3 44 .8 51 .9 59 .3 66 .6 74 .4 -12. 2 -11. 1 -10. 0 -8. 9 -7. 8 82 .5 90 .8 99 .4 10 8. 0 11 8. 0 -6. 7 -5. 6 -4. 4 -3. 3 -2. 2 12 7. 0 13 7. 0 14 7. 0 15 8. 0 16 9. 0 -1. 1 0. 0 1. 1 2. 2 3. 3 18 0. 0 19 2. 0 20[...]

  • Page 306

    26. 7 27. 8 28. 9 30. 0 31. 1 59 8. 0 62 1. 0 64 5. 0 66 9. 0 69 4. 0 32. 2 33. 3 34. 4 35. 6 36. 7 72 0. 0 74 6. 0 77 3. 0 80 0. 0 82 8. 0 37. 8 38. 9 40. 0 41. 1 42. 2 85 7. 0 88 6. 0 91 6. 0 94 6. 0 97 8. 0 43. 3 44. 4 45. 6 46. 7 47. 8 101 0. 0 104 2. 0 107 6. 0 111 0. 0 114 5. 0 48. 9 50. 0 51. 1 52. 2 53. 3 118 0. 0 121 7. 0 125 4. 0 129 2. 0[...]

  • Page 307

    * To r que v a lue s b as ed u pon d ry f ric t io n. T able 6 — R ec ommended Torque B olt si z e 1/ 4” 5/ 16” 3/ 8” 1/ 2” 5/ 8” 3/ 4” 7/ 8” 1” 1 1/ 3” 1 1/ 2” G rad e SA E GR 5 Tor qu e * Ft-lbs 3.5 7 12 3 1 6 3 11 5 18 0 275 550 960 N• m 4.7 9.5 16 4 2 8 5 15 6 24 4 373 746 1302 Bo lt s ize M4 M6 M8 M10 M1 2 M1 0 M12 M16 [...]

  • Page 308

    Table 7 — Control Te st Menu Functi ons Te st s T o Be P e rfo rme d Dev ic es T este d 1. A uto ma ted T es t s* 2 . PS IO The r mi sto rs 3 . Opti ons T herm ist ors 4 . Tr an sd u c er s 5 . Gui de V ane Actu a to r 6. Pu mp s Oper at es th e sec on d thr ough se venth tes ts En teri ng c hil l ed wat e r Leavi n g c h illed water En teri ng c[...]

  • Page 309

    * Duri ng an y o f the t est s t ha t are n ot a ut om at ed , an o ut - of - r ang e read ing w ill h av e an a ste r is k (* ) n ext t o th e r ead ing a nd a mes sa ge wi ll be d ispl ayed . † On o pen - driv e ma chin es, d if fe rent ia l p res sur e i s t he o nly oi l pres s u r e dis p lay e d. ** Di s pla yed on ly on he r me ti c m a ch[...]

  • Page 310

    LEG E ND F o r Ta bl e 8, A - N 1CR AU X — C om pr essor Start Cont act O I LPD — Oil Pressure CA P — C om pr essor Curr ent OILT — Oil Sump Temper at ur e CDFL — C onden ser W at er F low PIC — Product Int egr at ed Con trol CH IL S S — C hil l e r Sta r t /St op PRS TRIP — Pressur e Tr ip Co nt act CMPD — D isch ar ge T emper at[...]

  • Page 311

    Ta bl e 8 — LID P r i ma ry and S e condar y Mes sa ges and C usto m Ala r m /A ler t Me ssag es wi th Troubl eshoot ing G uide s B. Ti ming Out or Ti m ed Out Pri ma ry Mes sag e Seco n da ry M es sag e Pro b ab le C au se/ Re med y Re ad y To S t art I n XX Min Unoc cupi ed Mod e Tim e s chedu le f or PIC i s u noccupi ed . Mach ines will star [...]

  • Page 312

    T able 8 — L ID Pr imar y a n d Sec on d a ry M e ss ages a n d C us t om Al arm/ A l ert Mes sage s wi th Troubl eshoot in g G uide s C. I n Recyc l e Shutdown Pri ma ry Mes sag e Sec ond ary Mes sag e Pro b ab le C au se/ Re med y Re cyc le R est a rt Pe ndi ng Occupied Mo de Unit in r ecycle m od e, ch illed wa ter t em pe r a tur e is not h i[...]

  • Page 313

    * [L IMI T ] is s ho wn on t he L ID a s t em p erat ur e, pr es s u re, v o lt age , etc . , set poi nt p rede fi ned o r s e lec t ed b y th e ope rat or as an ov e rr ide , al er t , or al arm c o ndi ti on. [VA L UE ] i s t he a c tu al pr e ss ur e, te m per a tu r e, volt ag e, e tc. , a t wh ic h t he c on tro l tri ppe d. Tab le 8 — LID P[...]

  • Page 314

    T able 8 — L ID Pri mary and S ec on d a ry Me ss ages a n d Cus t om Al arm/ A l ert Mes sage s wi th Troubl e shoot i n g G ui de s E. No r m al o r AU T O . -R E S T AR T Pri ma ry Mes sag e Seco n da ry M es sag e Pro b ab le C au se/ Re med y Startup i n Progress Occupi ed Mode Ma c h ine s tar t ing. T ime sc h edul e i s o c cupi ed. Start[...]

  • Page 315

    Table 8 — LID Prim ary and Seconda ry Mess a ges and Cus tom Al a rm/Al e r t Mess age s with T r o ubleshooting G uides F. S tar t-U p Failur es : Th is is an a lar m co nd itio n. A m anu al r eset is r eq uir ed t o cl ear . Pri mar y Mess ag e S eco n da ry Mess ag e A la rm M es sag e/ P ri ma ry Ca us e Ad d iti o na l Ca us e/ Rem ed y F a[...]

  • Page 316

    * [L IMI T ] is s ho wn on t he L ID a s t em p erat ur e, pr es s u re, v o lt age , etc . , set poi nt p rede fi ned o r s e lec t ed b y th e ope rat or as an ov e rr ide , al er t , or al arm c o ndi ti on. [VA L UE ] i s t he a c tu al pr e ss ur e, te m per a tu r e, volt ag e, e tc. , a t wh ic h t he c on tro l tri ppe d. F a i lure To St a[...]

  • Page 317

    * [L IMI T ] is s ho wn on t he L ID a s t he t em p erat ur e , pre ssu re, v o lt age , etc . , set po int pr ede f ine d or s e lect ed by th e ope rat or as an ov e rr ide , al er t , or al arm c o ndi ti on. [VAL UE] i s t he a c tu al pr e s s ur e, te m per a tu r e, volt ag e, e tc. , a t wh ic h t he c on tro l tri ppe d. Ta b l e 8 — L [...]

  • Page 318

    Ta ble 8 — LID Prim a r y and S e condar y Mes sages and Cu sto m Al a rm /Ale r t Me ss ages with Tr oubl eshooting G ui de s H. N orma l Ru n wi t h Re set, Temper atu re , Or Deman d Pri ma ry Mes sag e Sec ond ary Me ssa ge P ro b ab le C au se/ Re med y R unn ing — R ese t A ct ive 4- 20MA S ignal Res et p rogr am a c tiv e base d upon C o[...]

  • Page 319

    * [L IMI T ] is s ho wn on t he L ID a s t he t em p erat ur e , pre ssu re, v o lt age , etc . , set po int pr ede f ine d or s e lect ed by th e ope rat or as an ov e rr ide , al er t , or al arm c o nt it ion . [ V A LUE ] is th e ac t ual t emp erat ur e , pre s s ur e, volt ag e, e tc. , a t wh ic h t he c on tro l tri ppe d. Ta ble 8 — LID [...]

  • Page 320

    Ta ble 8 — LID Prim a r y and S e condar y M es sa ges and Cu sto m Al a rm /A ler t Me ssage s wi th Troubl eshooting G ui de s J . Out- of-R ange Sens or Fai lu res Pri ma ry Mes sag e Sec on d ary M e ssa ge Alar m Mess ag e/ Pri mar y Ca us e Addi tion a l Cau s e/ Re med y Se nsor Fa ul t Lea v i n g CH W Temp era- tur e S ensor Fau lt : Che[...]

  • Page 321

    Ta bl e 8 — LI D P r ima r y and Se co ndary Mess ages a nd Cust om Al arm/ Al ert Mes sa ges wi th Troubl e shoo ting Guide s K. Ma ch ine Prot ect Li m i t Faults Pr im ary Me ssa ge S e co ndar y Me ssa ge Al arm M e ssa ge / Pri mar y Cau se A dd i t io na l Ca us e/ Rem ed y Pr o te ctive Lim it High Di scharg e Te m p CM PD [V A LUE ] ex ce[...]

  • Page 322

    Pr o te ctive Lim it No Mo tor Cur ren t C A P Lo s s of Mo tor C ur - rent: Chec k sens o r. Che ck w i r i ng: Chec k torqu e setti ng on solid- state st arter. Check fo r ma i n circuit br eaker trip. Check p ower sup ply to P S IO m odul e. Pr o te ctive Lim it P ow er Loss V P Po we r L os s : Ch e ck vol tage supply . Che c k 24-va c i nput o[...]

  • Page 323

    * [L IMI T ] is s ho wn on t he L ID a s t he t em p erat ur e , pre ssu re, v o lt age , etc . , set po int pr ede f ine d or s e lect ed by th e ope rat or as an ov e rr ide , al er t , or al arm c o nt it ion . [ V A LUE ] is th e ac t ual t emp erat ur e , pre s s ur e, volt ag e, e tc. , a t wh ic h t he c on tro l tri ppe d. Pr o te ctive Lim[...]

  • Page 324

    Ta b l e 8 — L I D P ri m a r y an d S e co n d ar y M es sa g es an d C u st o m A la r m /A le r t M e ss ag es wi th Troubl eshoot ing G uide s L . Mac h ine A l ert s Pri ma ry Mes sag e Sec ond ary Mes sag e Al ar m Mess ag e/ Pri ma ry Ca us e Ad di t i on al Cau se /R eme dy Re cyc le A le rt Hi gh A mps at S hut- down High Amps at Recycle[...]

  • Page 325

    * [L IMI T ] is s ho wn on t he L ID a s t he t em p erat ur e , pre ssu re, v o lt age , etc . , set po int pr ede f ine d or s e lect ed by th e ope rat or as an ov e rr ide , al er t , or al arm c o nt it ion . [ V A LUE ] is th e ac t ual t emp erat ur e , pre s s ur e, volt ag e, e tc. , a t wh ic h t he c on tro l tri ppe d. Re cyc le A le rt[...]

  • Page 326

    Ta bl e 8 — LI D P r i m a r y and Sec ondary Mess age s and Cus tom Al arm/ Al ert M essa ges wi th Troubl e shoo ting Gu ides M. Spar e S enso r A l ert M es sage s Pr im ary M ess ag e Se co ndar y Me ssa ge Al arm M e ssa ge /Pr im ary C au se Ad di t i on al Cau se / Rem ed y Spar e Sensor Al er t Com mon C HWS Se n- so r Se nsor F aul t: C [...]

  • Page 327

    Table 8 — LID Prim ary and Seconda ry Mess a ges and Cus tom Al a rm/Al e r t Mess age s with T r o ubleshooting G uides N. Ot her P ro blem s/M a l func ti ons Des cri p t ion R eme dy C hi lle d Wa t er/B r ine Te mp era tur e To o Hi gh (M a c hin e Ru nni ng) Chille d water s e t poin t set too high . Access set poin t on LID a nd ve r ify. C[...]

  • Page 328

    SMM Co mmu n ic ati on s Fa il u r e Che ck that PSIO com munica t io n pl ug s are co nnecte d cor rectl y. Che ck SM M comm uni- ca ti on plug . C heck f o r pr oper SM M pow e r s upp ly. S e e Cont r ol M o d ules se ction . H ig h O il Te mp era tur e Wh i le R un nin g Che ck for pr op er oil le ve l (to o m uch oil). On he rm eti c E X compr[...]

  • Page 329

    Table 9 A — The rmis tor Temper at ure (F) vs R esistanc e/Volt age Dr op Temper at ur e (F) Vol tag e Dr op (V ) R esi st a nce (O h ms) Temperat ur e (F ) Vo lt a ge Dr op (V ) R esistanc e (O h m s ) Tem perat ure (F) Vo lt age Drop (V ) R esi st a nce (O h ms) - 25.0 - 24.0 - 23.0 - 22.0 - 21.0 - 20.0 - 19.0 - 18.0 - 17.0 - 16.0 - 15.0 - 14.0[...]

  • Page 330

    12 5 12 6 12 7 12 8 12 9 13 0 13 1 13 2 13 3 13 4 13 5 13 6 13 7 13 8 13 9 14 0 14 1 14 2 14 3 14 4 14 5 14 6 14 7 14 8 14 9 15 0 15 1 15 2 15 3 15 4 15 5 15 6 15 7 15 8 15 9 16 0 16 1 16 2 16 3 16 4 16 5 16 6 1.607 1.585 1.562 1.538 1.517 1.496 1.474 1.453 1.431 1.408 1.389 1.369 1.348 1.327 1.308 1.291 1.289 1.269 1.250 1.230 1.211 1.192 1.173 1.[...]

  • Page 331

    Ta bl e 9B — The r m istor Te m pera ture ( C) vs Resis tan ce/Volta ge D r o p T emp er atu re ( C) Vo l t ag e Drop (V ) Re si st an ce (Ohms) T em pe rat u re ( C) Vo l tag e Dr op ( V ) Re si stan ce (Ohms) -4 0 -3 9 -3 8 -3 7 -3 6 -3 5 -3 4 -3 3 -3 2 -3 1 -3 0 -2 9 -2 8 -2 7 -2 6 -2 5 -2 4 -2 3 -2 2 -2 1 -2 0 -1 9 -1 8 -1 7 -1 6 -1 5 -1 4 -1[...]

  • Page 332

    52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 1.594 1.553 1.513 1.474 1.436 1.399 1.363 1.327 1.291 1.258 1.225 1.192 1.160 1.129 1.099 1.069 1.040 1.012 0.984 0.949 0.920 0.892 0.865 0.838 0.813 0.789 0.765 0.743 0.722 0.702 0.683 0.665 1 67 0 1 60 9 1 55 0 1 49 3 1 43 9 1 38 7 1 33 7 1 29 0 1 24 4[...]

  • Page 333

    * I f a ma c hin e conf ig urat io n ot her t han 2 - pas s , 150 p sig ( 10 34 kP a) , NI H wat er b ox c onf ig urat io n is us ed , ref er t o th e A ddi ti ona l Coo ler W ei ght s or A ddi ti ona l Con den ser We igh ts t abl es , T ab le 11 a nd T abl e 13 t o obt ai n th e add it ion al dr y an d wat er we igh ts t hat m us t b e a dde d to [...]

  • Page 334

    * If a m ac hi ne con fi gur a ti on ot he r t ha n 2-pa ss , 15 0 ps ig ( 1 034 k P a ), NI H wat er b ox c onf ig urat io n is us ed , ref er t o t he A ddi ti ona l C ool er W eig ht s or A ddi tio na l Co nde nser We igh ts t ab les, T ab le 1 1 a nd T ab le 13 to obt ai n th e add it ion al dr y an d wat er we igh ts t hat m us t b e add ed t [...]

  • Page 335

    NI H — No zz le- I n- H ead † Subt r ac t 228 l b ( 103 k g ) f r om t he r ig gin g weig ht sh own i n Ta ble 1 0 . * Wh en usi ng a m ach ine c o nf igu r at ion o th er th an 2-p ass , N IH wa te rbox e s w it h 150 p s ig (10 34 k Pa) cov er s , add t he w eig ht s l ist ed in t hi s t ab le t o th e app ropr i at e wei ght s in Ta ble 1 0 [...]

  • Page 336

    * Bas ed o n 416 0 v, F D m ot or. † B as ed o n 690 0 v , DQ m ot or . ** Based o n 69 0 0 v, DP motor. †† Base d o n 69 0 0 v, EE motor. * Bas ed o n 330 0 v, F D m ot or. † B as ed o n 630 0 v , DQ m ot or . ** Based o n 63 0 0 v, DP motor. †† Base d o n 63 0 0 v, EE motor. Ta ble 12 — C om pr es sor/Mot or / Sucti on E l bo w Weig[...]

  • Page 337

    NI H — No zz le- I n- H ead * Wh en usi ng a m ach ine c o nf igu r at ion o th er th an 2-p ass , N IH wa te rbox e s w it h 150 p s ig (10 38 k Pa) cov er s , add t he w eig ht s l ist ed in t hi s t ab le t o th e app ropr i at e wei ght s in Ta ble 1 0 t o obt ai n th e c or r ec t cool er wei ght . Ta ble 13 — A ddi tiona l Cooler Weight s[...]

  • Page 338

    * H eat exc ha nge r s wi th ma rine wa te rbox e s h av e he avie r dr y an d o per a ti ng we igh ts th an he at e x chan ger s wit h no zz le- i n-hea d wat e r b oxes . Ta ble 14 — M arine W at erbox Cov er Weig hts * He at Ex ch an ge r Size De si gn M axi mu m Water Pr essure Co ol er Co ndens e r ps i kP a lb kg lb kg 4 1 – 48 150 1034 2[...]

  • Page 339

    NI H — No zz le- i n-He ad * T he 1 50 psi g (103 4 kP a) wat er b ox c ov er wei ght s ar e in clud ed in t he d r y w eig ht s h own i n Ta ble 1 0 . † Tw o dif f er en t wa te r box c ov e rs are p res en t on 2 -pas s m ac h ine s . T he we igh t sho wn in t hi s t ab le repr e sent s th e wei ght of t he w at er bo x c o ver th at c o nt a[...]

  • Page 340

    Leg end FL A — F ul l Loa d Am ps LR A — L ocke d R otor Amps No tes: 1. T he oi l pump i s p owe red t hr ou gh a f iel d wiri ng t er m in al in to t he p owe r p ane l. 2. Pow er to t he co nt r ols an d oil h eat er v ia t he p owe r p ane l m us t b e on cir c u it s t ha t can p r ov id e cont in uou s service wh e n t h e comp re ssor st[...]

  • Page 341

    Ta bl e 1 7 — O p e n- Dri v e Co m p res sor Fits a nd Cl e ara nces It em D esc ri pti o n C le ara nc e Ty pe o f Measure 17 FA 4 17F A5 Min Max Mi n Ma x in. mm in . mm. in . mm in. mm 1 1 s t stage i mpell er to di ap h r ag m S ee Tabu l a ti on Axi al 2 2 nd s tag e i mpe lle r t o di sc har ge w all Axi al 3 1 s t st age l abyri nth .0 16[...]

  • Page 342

    See F igu re 55 f or it em c all out s . 16 Dr i ve -end journ al b eari ng .0 03 .0762 .005 .127 0 .0035 .08 89 .0 055 .1397 D iame tral 17 Wi nda ge ba ff le to sh aft .0 83 2.108 . 104 2.64 2 .079 2.0 07 .1 00 2.540 Diame tral 18 I nner c arbo n ri ng t rav el .0 6 M IN Each D ir ectio n .06 M IN E a ch Dire ction Axial Ta bl e 1 7 — O p e n- [...]

  • Page 343

    * Meas u red wi th s h af t in t hr u st po s it ion ( t owa rds s uc t ion e nd) ; to ler a nce = ± . 0 05 in . (± . 1 27 mm). Tab le 17 — O pe n-Driv e Compre ssor Fits a nd Cl ea r ances (Cont i nued) Tab ulati on — I mp ell er Clear an ce s (Ope n-Dr i v e Compre ss or s) Co mp res so r Si ze Shroud Di am Co de I mp el l er Di am et er D [...]

  • Page 344

    * See F igu re 56 f or it em c all out s . † Cle ar an ces r epr e sent fa c to r y t ol eran c es fo r n ew c om p one nt s . Ta ble 18 — H erme tic Compre ssor Fit s and Cl earanc es I tem* D esc ri pti o n Cl ear an ce† Type of Me asu re in . mm Mi nim um Max i m um Mi ni mu m M a xi mu m 1 1 s t St age Im pell er to D iaphr agm S ee T abu[...]

  • Page 345

    * Measured w i th sh aft i n t hru st p o sition (t ow ards su ct ion en d ); tol e rance = ± . 005 i n. (± . 127 mm). † F i rst-stage di a meter. ** Sec on d-s t age d iame te r. Ta ble 18 — H erme tic Compre ssor Fit s and Cl earanc es (Con ti nued) Ta bul ation — Im pell er Cl e ara nces (H erme tic Compre ssor s) 19EX Shroud C ode FA Sh[...]

  • Page 346

    Figure 1 — 17/19EX Identification[...]

  • Page 347

    Figure 2 — Typical 17EX Installation[...]

  • Page 348

    Figure 3 — Typical 19EX Installation[...]

  • Page 349

    Figure 4 — Refrigerant, Motor Cooling, and Oil Cooling Cycles[...]

  • Page 350

    v Figure 5 — Hermetic Compressor Lubrication System (EX Compressor Shown)[...]

  • Page 351

    Figure 6 — Open-Drive (17 Series) Lubrication Cycle[...]

  • Page 352

    Figure 7 — 17EX Controls and Sensor Locations (Figure 7 continued on next page) Machine Rear; Compressor Side View[...]

  • Page 353

    Compressor End View Figure 7 — 17EX Controls and Sensor Locations (Figure 7 continued on next page)[...]

  • Page 354

    Machine Front View Figure 7 — 17EX Controls and Sensor Locations (Figure 7 continued on next page)[...]

  • Page 355

    Motor End View Figure 7 — 17EX Controls and Sensor Locations (Figure 7 continued on next page)[...]

  • Page 356

    Figure 7 — 17EX Controls and Sensor Locations[...]

  • Page 357

    Machine Rear; Compressor Side View Figure 8 — 19EX Controls and Sensor Locations (Figure 8 continued on next page)[...]

  • Page 358

    Compressor End View Figure 8 — 19EX Controls and Sensor Locations (Figure 8 continued on next page)[...]

  • Page 359

    Machine Rear View Figure 8 — 19EX Controls and Sensor Locations (Figure 8 continued on next page)[...]

  • Page 360

    Motor End View Figure 8 — 19EX Controls and Sensor Locations (Figure 8 continued on next page)[...]

  • Page 361

    Figure 8 — 19EX Controls and Sensor Locations[...]

  • Page 362

    Figure 9 — Control Center (Front View); Shown with Options Module[...]

  • Page 363

    Figure 10 — Control Sensors (Temperature)[...]

  • Page 364

    Figure 11 — Control Sensors (Pressure Transducer, Typical)[...]

  • Page 365

    Figure 12 — Power Panel without Options (Open-Drive Machine Shown)[...]

  • Page 366

    Figure 13 — Power Panel with Options (Hermetic Machine Shown)[...]

  • Page 367

    Figure 14 — LID Default Screen[...]

  • Page 368

    Figure 15 — LID Service Screen[...]

  • Page 369

    Figure 16 — 17/19EX Menu Structure[...]

  • Page 370

    Figure 17 — 17/19EX Service Menu Structure[...]

  • Page 371

    Figure 18 — Example of Point Status Screen (Status01)[...]

  • Page 372

    Figure 19 — Example of Time Schedule Operation Screen[...]

  • Page 373

    Figure 20 — Example of Set Point Screen[...]

  • Page 374

    Figure 21 — 17/19EX Hot Gas Bypass/Surge Prevention[...]

  • Page 375

    Figure 22 — 17/19EX with Default Metric Settings[...]

  • Page 376

    Figure 23 — Example of Attach to Network Device Screen[...]

  • Page 377

    Figure 24 — Example of Holiday Period Screen[...]

  • Page 378

    Figure 25 — Control Sequence[...]

  • Page 379

    Figure 26 — Typical Wet-Bulb Type Vacuum Indicator[...]

  • Page 380

    Figure 27 — Shipping Bolt on Open Drive Motor[...]

  • Page 381

    Figure 28 — 17/19EX Leak Test Procedures[...]

  • Page 382

    Figure 29 — Dehydration Cold Trap[...]

  • Page 383

    Figure 30 — Correct Motor Rotation[...]

  • Page 384

    Figure 31 — Refrigeration Log[...]

  • Page 385

    Figure 32 — Pumpout Arrangement and Valve Number Locations (12-ft Vessel Shown) (Figure 32 continued on next page)[...]

  • Page 386

    Figure 32 — Pumpout Arrangement and Valve Number Locations (12-ft Vessel Shown) (Continued)[...]

  • Page 387

    Figure 33 — Pumpout Unit Wiring Schematic (19EX Shown)[...]

  • Page 388

    Figure 34 — Optional Pumpout Compressor[...]

  • Page 389

    Figure 35 — Electronic Vane Actuator Linkage[...]

  • Page 390

    Figure 36 — Compressor Contact Seal (Open-Drive Machines)[...]

  • Page 391

    Figure 37 — Checking Preliminary Alignment[...]

  • Page 392

    Figure 38 — Measuring Angular Misalignment in Elevation[...]

  • Page 393

    Figure 39 — Measuring Angular Misalignment on Brackets[...]

  • Page 394

    Figure 40 — Alignment Formula[...]

  • Page 395

    Figure 41 — Adjusting Angular Misalignment in Plan[...]

  • Page 396

    Preparation Figure 42 — Correcting Parallel Misalignment (Figure 42 continued on next page)[...]

  • Page 397

    Measurement Figure 42 — Correcting Parallel Misalignment (Figure 42 continued on next page)[...]

  • Page 398

    Adjustment Figure 42 — Correcting Parallel Misalignment[...]

  • Page 399

    To Check Angular Alignment Figure 43 — Alignment Check — Assembled Coupling (Figure 43 continued on next page)[...]

  • Page 400

    To Check Parallel Alignment Figure 43 — Alignment Check — Assembled Coupling[...]

  • Page 401

    Figure 44 — Removing the Oil Filter[...]

  • Page 402

    Figure 45 — Typical Float Valve Arrangement[...]

  • Page 403

    Figure 46 — Lifting Open-Drive Motor[...]

  • Page 404

    Figure 47 — Controls for Optional Pumpout Compressor[...]

  • Page 405

    Figure 48 — Oil Differential Pressure/Power Supply Module[...]

  • Page 406

    Figure 49 — PSIO Module LED Locations[...]

  • Page 407

    Figure 50 — LID Module (Rear View) and LED Locations[...]

  • Page 408

    Figure 51 — Processor (PSIO) Module[...]

  • Page 409

    Figure 52 — Starter Management Module (SMM)[...]

  • Page 410

    Switch Setting Options Module 1 Options Module 2 S1 S2 6 4 7 2 Figure 53 — Options Module[...]

  • Page 411

    Figure 54 — Model Number Nomenclature for Compressor Size (See Figure 1 Also)[...]

  • Page 412

    Note: See Table 17 for dimensions Figure 55 — Open-Drive Compressor Fits and Clearances (Figure 55 continued on next page)[...]

  • Page 413

    Figure 55 — Open-Drive Compressor Fits and Clearances (Figure 55 continued on next page) Note: See Table 17 for dimensions[...]

  • Page 414

    Figure 55 — Open-Drive Compressor Fits and Clearances Note: See Table 17 for dimensions[...]

  • Page 415

    View B Refer to Table 18 for dimensions View A Figure 56 — Hermetic Compressor Fits and Clearances (Figure 56 continued on next page)[...]

  • Page 416

    Figure 56 — Hermetic Compressor Fits and Clearances[...]

  • Page 417

    Figure 57 — Electronic PIC Controls Wiring Schematic — Hermetic Machine (Figure 57 continued on next page)[...]

  • Page 418

    Figure 57 — Electronic PIC Controls Wiring Schematic — Hermetic Machine[...]

  • Page 419

    Figure 58 — Electronic PIC Controls Wiring Schematic — Open Drive Machine (Figure 58 continued on next page)[...]

  • Page 420

    Figure 58 — Electronic PIC Controls Wiring Schematic — Open Drive Machine[...]

  • Page 421

    Figure 59 — Machine Power Panel, Starter Assembly, and Motor Wiring Schematic (Figure 59 continued on next page)[...]

  • Page 422

    Figure 59 — Machine Power Panel, Starter Assembly, and Motor Wiring Schematic[...]

  • Page 423

    Figure 60 — Hermetic Drive — Power Panel with Water-Cooled Oil Cooler[...]

  • Page 424

    Figure 61 — Hermetic Drive — Power Panel with Motor Cooling Solenoid[...]

  • Page 425

    Figure 62 — Open-Drive — Power Panel[...]

  • Page 426

    INITIAL ST ART -UP CHECKLIST FOR 17/19EX CENTRIFUGAL LIQUID CHILLER (Remove and use for job file.) MACHINE INFORMA TION: NAME JOB NO. ADDRESS MODEL CITY S TAT E ZIP S/N DESIGN CONDITIONS: TONS BRINE FLOW RA TE TEMPERA TURE IN TEMPERA TURE OUT PRESSURE DROP P ASS SUCTION TEMPERA TURE CONDENSER TEMPERA TURE COOLER ****** CONDENSER ****** COMPRESSOR:[...]

  • Page 427

    INSPECT WIRING AND RECORD ELECTRICAL DA T A: RA TINGS: Motor V oltage Motor(s) Amps Oil Pump V oltage Starter Amps Line V oltages: Motor Oil Pump Controls/Oil Heater ST ARTER CHECKOUT : Check continuity T1 to T1, etc. (Motor to starter , disconnect motor leads T4, T5, T6.) Do not megohm test solid-state starters, disconnect leads to motor and megge[...]

  • Page 428

    17/19EX CENTRIFUGAL LIQUID CHILLER CONFIGURA TION SETTINGS LOG (Remove and use for job file.) SET POINT T ABLE CONFIGURA TION SHEET DESCRIPTION RANGE UNITS DEF AUL T V ALUE Base Demand Limit 40 to 100 % 100.0 LCW Setpoint 20 to 120 (–6.7 to 48.9) DEG F (DEG C) 50.0 ECW Setpoint 20 to 120 (–6.7 to 48.9) DEG F (DEG C) 60.0 ICE BUILD Setpoint 20 [...]

  • Page 429

    LOCAL MODE TIME SCHEDULE CONFIGURA TION SHEET OCCPC01S Day Flag Occupied Unoccupied MTWTF S SH T i m e T i m e Period 1: Period 2: Period 3: Period 4: Period 5: Period 6: Period 7: Period 8: NOTE: Default setting is OCCUPIED 24 hours/day . ICE BUILD MODE TIME SCHEDULE CONFIGURA TION SHEET OCCPC02S Day Flag Occupied Unoccupied MTWTF S SH T i m e T i[...]

  • Page 430

    CONFIG T ABLE CONFIGURA TION SHEET DESCRIPTION RANGE UNITS DEF AUL T V ALUE RESET TYPE 1 Degrees Reset at 20 mA –30 to 30 (–17 to 17) DEG F (DEG C) 10 (6) RESET TYPE 2 Remote T emp (No Reset) –40 to 245 (–40 to 1 18) DEG F (DEC C) 85 (29) Remote T emp (Full Reset) –40 to 245 (–40 to 1 18) DEG F (DEG C) 65 (18) Degrees Reset –30 to 30 [...]

  • Page 431

    LEAD/LAG T ABLE CONFIGURA TION SHEET DESCRIPTION RANGE UNITS DEF AUL T V ALUE LEAD/LAG SELECT DISABLE =0, LEAD =1, LAG =2, ST ANDBY =3 0, 1, 2, 3 0 Load Balance Option Disable/Enable Disable Common Sensor Option Disable/Enable Disable LAG Percent Capacity 25 to 75 % 50 LAG Address 1 to 236 92 LAG ST ART T imer 2 to 60 Min 10 LAG ST OP Timer 2 to 60[...]

  • Page 432

    SER VICE1 T ABLE CONFIGURA TION SHEET DESCRIPTION RANGE UNITS DEF AUL T V ALUE Motor T emp Override 150 to 200 (66 to 93) DEG F (DEG C) 200 (93) Cond Pressur e Override 90 to 200 (620 to 1379) psig (kPa) 125 (862) Refrig Override Delta T 2t o5 (1 to 3) DEG F (DEG C) 3 (1.6) Chilled Medium W ater/Brine W ater Brine Refrig T rippoint 8t o4 0 (–13.3[...]

  • Page 433

    SER VICE1 T ABLE CONFIGURA TION SHEET DESCRIPTION RANGE UNITS DEF AUL T V ALUE Motor Rated Load Amps 1 to 9999 AMPS 200 Motor Rated Line V oltage 1 to 9999 VOL TS 460 Meter Rated Line kW 1 to 9999 kW 600 Line Frequency 0=60 Hz/1=50 Hz 0/1 0 Compressor Starter T ype REDUCE/FULL REDUCE Condenser Freeze Point –20 to 35 (–28.9 to 1.7) DEG F (DEG C)[...]

  • Page 434

    SER VICE2 T ABLE CONFIGURA TION SHEET DESCRIPTION RANGE UNITS DEF AUL T V ALUE RESET 20 mA Power Sour ce 0/1 0 = EXTERNAL, 1 = INTERNAL 0 DEMAND 20 mA Power Sour ce 0/1 0 = EXTERNAL, 1 = INTERNAL 0 CHWS T emp Enable 0t o4 0 = DISABLE, 1 = HIGH ALER T , 2 = LOW ALER T , 3 = HIGH ALARM, 4 = LOW ALARM 0 CHWS T emp Alert –40 to 245 (–40 to 1 18) DE[...]

  • Page 435

    SER VICE3 T ABLE CONFIGURA TION SHEET DESCRIPTION RANGE UNITS DEF AUL T V ALUE Proportional Inc Band 2t o1 0 6 . 5 Proportional Dec Band 2t o1 0 6 . 0 Proportional ECW Gain 1t o3 2 . 0 Guide V ane T ravel Limit 30 to 100 % 50 HOLIDA Y (HOLIDEF) CONFIGURA TION SHEET HOLIDEF S DESCRIPTION RANGE UNITS V ALUE Holiday Start Month 1t o1 2 Start Day 1t o3[...]

  • Page 436

    BROADCAST (BRODEFS) CONFIGURA TION SHEET DESCRIPTION RANGE UNITS DEF AUL T V ALUE Activate Y es/No No OA T Broadcast Controller Name 8 characters T ext Bus Number 0 to 239 Bus #s 0 Element Number 0 to 239 SE #s 0 OARH Broadcast Controller Name 8 characters T ext Bus Number 0 to 239 Bus #s 0 Element Number 0 to 239 SE #s 0 Daylight Savings Start Mon[...]

  • Page 437

    MACHINE ALIGNMENT REPORT JOB NAME COUPLING SIZE JOB NUMBER TYPE MACHINE SER. NO. WEAR CONDITION DRIVER TYPE SP ACER LENGTH HOT CHECK □ COLD CHECK □ COMPRESSOR COUPLING Open ’’ On ’’ To p □ Bottom □ Diam Step 1 — Angular in Elevation Gear □ Hi □ Drive □ ’’ L o □ DRIVE COUPLING Open ’’ On ’’ To p □ Bottom □ D[...]