Deutsch dropdown-ico

Bryant 580J Bedienungsanleitung

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
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
84
85
86

Zur Seite of

Ähnliche Gebrauchsanleitungen

Richtige Gebrauchsanleitung

Die Vorschriften verpflichten den Verkäufer zur Übertragung der Gebrauchsanleitung Bryant 580J an den Erwerber, zusammen mit der Ware. Eine fehlende Anleitung oder falsche Informationen, die dem Verbraucher übertragen werden, bilden eine Grundlage für eine Reklamation aufgrund Unstimmigkeit des Geräts mit dem Vertrag. Rechtsmäßig lässt man das Anfügen einer Gebrauchsanleitung in anderer Form als Papierform zu, was letztens sehr oft genutzt wird, indem man eine grafische oder elektronische Anleitung von Bryant 580J, sowie Anleitungsvideos für Nutzer beifügt. Die Bedingung ist, dass ihre Form leserlich und verständlich ist.

Was ist eine Gebrauchsanleitung?

Das Wort kommt vom lateinischen „instructio”, d.h. ordnen. Demnach kann man in der Anleitung Bryant 580J die Beschreibung der Etappen der Vorgehensweisen finden. Das Ziel der Anleitung ist die Belehrung, Vereinfachung des Starts, der Nutzung des Geräts oder auch der Ausführung bestimmter Tätigkeiten. Die Anleitung ist eine Sammlung von Informationen über ein Gegenstand/eine Dienstleistung, ein Hinweis.

Leider widmen nicht viele Nutzer ihre Zeit der Gebrauchsanleitung Bryant 580J. Eine gute Gebrauchsanleitung erlaubt nicht nur eine Reihe zusätzlicher Funktionen des gekauften Geräts kennenzulernen, sondern hilft dabei viele Fehler zu vermeiden.

Was sollte also eine ideale Gebrauchsanleitung beinhalten?

Die Gebrauchsanleitung Bryant 580J sollte vor allem folgendes enthalten:
- Informationen über technische Daten des Geräts Bryant 580J
- Den Namen des Produzenten und das Produktionsjahr des Geräts Bryant 580J
- Grundsätze der Bedienung, Regulierung und Wartung des Geräts Bryant 580J
- Sicherheitszeichen und Zertifikate, die die Übereinstimmung mit entsprechenden Normen bestätigen

Warum lesen wir keine Gebrauchsanleitungen?

Der Grund dafür ist die fehlende Zeit und die Sicherheit, was die bestimmten Funktionen der gekauften Geräte angeht. Leider ist das Anschließen und Starten von Bryant 580J zu wenig. Eine Anleitung beinhaltet eine Reihe von Hinweisen bezüglich bestimmter Funktionen, Sicherheitsgrundsätze, Wartungsarten (sogar das, welche Mittel man benutzen sollte), eventueller Fehler von Bryant 580J und Lösungsarten für Probleme, die während der Nutzung auftreten könnten. Immerhin kann man in der Gebrauchsanleitung die Kontaktnummer zum Service Bryant finden, wenn die vorgeschlagenen Lösungen nicht wirksam sind. Aktuell erfreuen sich Anleitungen in Form von interessanten Animationen oder Videoanleitungen an Popularität, die den Nutzer besser ansprechen als eine Broschüre. Diese Art von Anleitung gibt garantiert, dass der Nutzer sich das ganze Video anschaut, ohne die spezifizierten und komplizierten technischen Beschreibungen von Bryant 580J zu überspringen, wie es bei der Papierform passiert.

Warum sollte man Gebrauchsanleitungen lesen?

In der Gebrauchsanleitung finden wir vor allem die Antwort über den Bau sowie die Möglichkeiten des Geräts Bryant 580J, über die Nutzung bestimmter Accessoires und eine Reihe von Informationen, die erlauben, jegliche Funktionen und Bequemlichkeiten zu nutzen.

Nach dem gelungenen Kauf des Geräts, sollte man einige Zeit für das Kennenlernen jedes Teils der Anleitung von Bryant 580J widmen. Aktuell sind sie genau vorbereitet oder übersetzt, damit sie nicht nur verständlich für die Nutzer sind, aber auch ihre grundliegende Hilfs-Informations-Funktion erfüllen.

Inhaltsverzeichnis der Gebrauchsanleitungen

  • Seite 1

    580J GAS H EA T/ELECTRIC COO LING P ACKAG ED ROOF TOP 3 T O 12.5 NOMINAL T ONS Pr oduct Data C08515 (Uni t shown wit h optional l ouvered hail guard. ) the environmentally sound refrigerant[...]

  • Seite 2

    2 T ABLE OF CONTENTS P AGE FEA TURE S AND BE NEFIT S 3 .................... MODEL NUMB ER NOME NCL A TURE 4 ............ F AC TOR Y OPT IONS AND/OR ACCE SSORIE S 6 ..... AHRI COOL ING R A TING T ABLE S 8 ............... HEA T RA T ING T ABL E 9 ......................... SOUND PERFOR MANCE T ABLE 10 ............... PHYSICAL DA T A 12 ...............[...]

  • Seite 3

    3 FEA TURES AND BENEFITS S Single cooli ng stage model s are availa ble from 3 - - 10 ton. S T wo cooling stage models a re avai labl e from 7. 5 - - 12.5 t on. S SEER up to 13. 0. S EER’ s u p to 1 1.1. S IEER’ s up to 1 1.8. S Up to 28% lighter than s imilar industry units. Li ghter rooftops make eas ier replacement jobs. S Utility connection[...]

  • Seite 4

    4 MODE L NUMB ER NOME NCLA TURE 123456789 1 0 1 1 1 2 1 3 1 4 1 5 1 6 1 7 5 8 0 J E 0 6 A 0 7 2 A 1 A 0 A A ____________ ______ ________ ______ Unit T ype Pa c ka g i n g 580J = C ooling/Gas Heat R TU A=S t a n d a r d Legacy Series w/Puron Refrigerant B=L T L Vol ta ge Fact ory Install ed Opt ions E = 4 6 0 --- 3 --- 6 0 0A = Non e J = 208/230 - -[...]

  • Seite 5

    5 T able 1 – F ACTORY- - INST ALLED O PTIO NS AND FIELD - - INST ALLED ACCESSO RIES CA TEGO RY ITEM FA C T O R Y INSTALLED OPTION FIELD INSTALLED ACCE S SOR Y Cabin et Thru - - - the - - - base ele ctric al or gas - - - line c onnectio ns X X Coi l Optio ns Cu/Cu ind oor and /or ou tdoor coils 1 X Pre - - - coate d outd oor coils 1 X Prem ium , E[...]

  • Seite 6

    6 F ACTOR Y OPTIONS AND/OR ACCESS ORIES Economiz er (dry - - bulb or enthalpy) Economi zers save money . They bring in fresh, outside ai r for ventilation; and p rovide cool, outside air t o cool your buildin g. This is the preferred method of low amb ient cooling. Whe n couple d to CO 2 sen sor s, economizer s can prov ide even more savings by cou[...]

  • Seite 7

    7 F ACTOR Y OPTIONS AND/OR ACCESSORIES (cont.) The L egacy L ine 580J*04 - - 14 rooftop c oupled wit h the Perf ect Humidity s ystem is capable of operating in normal design cooli ng mode, subcooling m ode, a nd hot gas rehea t mode. No rmal des ign coolin g mode is when the unit will operate under its normal seque nce of ope ration by cyc ling com[...]

  • Seite 8

    8 T able 2 – AHR I COOL ING RA TING T AB LE 1- - ST AGE C OOLING UNI T COOLING STAGES NOM . CAP ACITY (TONS) NET COOLING CAP ACITY (MBH ) TOT AL POWER (kW) SEER EER IEER 04A 1 3 34.6 3.1 13.00 11.00 N/A 05A 1 4 45.0 4.0 13.00 11.00 N/A 06A 1 5 59.0 5.5 13.00 10.75 N/A 07A 1 6 70.0 6.4 N/A 11.00 11.2 08A 1 7.5 88.0 8.0 N/A 11.00 11.2 09A 1 8.5 97.[...]

  • Seite 9

    9 T abl e 4 – HE A T ING RA TING T ABLE - - NA T URAL GAS & P ROP ANE Unit s Gas Heat AL /S S H EAT EXC HA NG E R TEMP RIS E (DEG F ) THERMAL EFFICI ENCY (%) AFUE (%) INPUT / OU TPUT STAGE 1 (MBH) INPUT / OU TPUT STAGE 2 (MBH) Single Phase 04 LO W --- 72 / 59 25 - - - 55 82% 81% MED --- 115 / 93 55 - - - 85 80% 80% HIGH --- --- --- --- --- 05[...]

  • Seite 10

    10 T able 5 – HEA TING RA TING T ABLE - - LO W NO x 1 UNI T GAS HEAT LO W NO x H E AT E X C H A NG E R TEMP RIS E (DEG F ) THERMAL EFFICI ENCY (%) AFUE (%) INPUT / OU TPUT STAGE 1 (MBH) INPUT / OU TPUT STAGE 2 (MBH) Single Phase 04 LO W --- 60 / 50 20 - - - 50 81% 80% MED --- 90 / 74 30 - - - 60 81% 81% HIGH --- --- --- --- --- 05 LO W --- 60 / 5[...]

  • Seite 11

    11 T abl e 7 – MINIM UM - - MAXIM UM AIRF LO W RA T INGS - - NA TURAL G AS & PROP ANE UNI T HEA T LEVEL COOLING HEATI NG MIN IMUM MAXIMUM MIN IMUM MAXIMUM 580J* 04 LO W 900 1500 990 2190 MED 1000 1550 HIGH --- --- 580J* 05 LO W 1200 2000 990 2190 MED 1330 2460 HIGH 1390 2220 580J* 06 LO W 1500 2500 990 2730 MED 1330 2880 HIGH 1390 2780 580J* [...]

  • Seite 12

    12 T able 8 – PHYS IC AL DA T A (COOL IN G) 3 - - 6 TON S 580J*04A 580J*05A 580J*06A 580J*07A Refr igera tion System #C i r c u i t s/#C o m p ./T y p e 1/1/S c r o l l 1/1/S c r o l l 1/1/ S c r o l l 1/1/S c r o l l Puron r refrig. (R - - - 410A) charge per circuit A/B (lbs - - - oz) 5 --- 1 0 / --- 8 --- 8 / --- 1 0 --- 1 1 / --- 1 4 --- 2 / -[...]

  • Seite 13

    13 T abl e 9 – PH YSICAL DA T A (HE A T ING) 3 - - 6 T ONS 580J*04 580J*05 580J *06 580J*07 Gas Connect ion #o f G a sV a l v e s 1111 Nat. ga s supply line press (in. w.g.)/(PSIG) 4 --- 1 3 / 0 . 1 8 --- 0 . 4 7 4 --- 1 3 / 0 . 1 8 --- 0 . 4 7 4 --- 1 3 / 0 . 1 8 --- 0 . 4 7 4 --- 1 3 / 0 . 1 8 --- 0 . 4 7 Propa ne supp ly line press (in. w .g.)[...]

  • Seite 14

    14 T able 10 – PHY SI CAL D A T A (C OOLIN G) 7.5 - - 8.5 T ONS 580J*08A 580J*08D 580J*09A 580J*09D Refr igera tion System #C i r c u i t s/#C o m p ./T y p e 1/1/S c r o l l 2/2/S c r o l l 1/1/ S c r o l l 2/2/S c r o l l RTPF models R - - - 410a charg e A/B (lbs - - - oz) 13 - - - 12 8 --- 5 / 8 --- 2 1 5 --- 4 1 0 --- 5 / 1 0 --- 1 2 Perfect [...]

  • Seite 15

    15 T able 1 1 – PHYS IC AL D A T A (COOL IN G) 10 - - 12.5 T ONS 580J*12A 580J*12D 580J*14D Refr igera tion System #C i r c u i t s/#C o m p ./T y p e 1/1/S c r o l l 2/2/S c r o l l 2/2/ S c r o l l RTPF models R - - - 410a charg e A/B (lbs - - - oz) 20 - - - 0 1 0 --- 5 / 1 0 --- 3 1 1 --- 0 / 1 1 --- 6 Perfect Humidity R - - - 410a charg e A/B[...]

  • Seite 16

    16 T abl e 12 – P HYSICAL DA T A (HE A T ING) 7. 5 - - 1 2. 5 TONS 580J*08 580J*09 580J *12 580J*14 Gas Connect ion #o f G a sV a l v e s 1111 Nat. ga s supply line press (in. w.g.)/(PSIG) 4 --- 1 3 / 0 . 1 8 --- 0 . 4 7 4 --- 1 3 / 0 . 1 8 --- 0 . 4 7 4 --- 1 3 / 0 . 1 8 --- 0 . 4 7 4 --- 1 3 / 0 . 1 8 --- 0 . 4 7 Propa ne supp ly line press (in[...]

  • Seite 17

    17 CURBS & WEIGHTS DIMENSIONS - - 580J*04 - - 07 C08523 Fig. 1 - - Dime nsions 580J 04 - - 07 580J[...]

  • Seite 18

    18 CURBS & WEIGHTS DIMENSIONS - - 580J*04 - - 07 (cont.) C08599 Fig. 2 - - Dime nsions 580J 04 - - 07 C B A D C08337 Fig. 3 - - Servi ce Cl ear ance LO C DIMENSION CO NDITION A 48 - - - in (1219 mm) Uni t dis conne ct i s mount ed on panel 18 - - - in (457 mm) No d isconnect, conv enience outlet op tion 18 - - - in (457 mm) Recom mended service[...]

  • Seite 19

    19 CURBS & WEIGHTS DIMENSIONS - - 580J*04 - - 07 (cont.) CONNECTOR PKG. ACCY. BC D ALT DRAIN HOLE GAS POWER CONTROL ACCESSORY POWER CRBTMPWR001A01 1’-9 11 / 16 ” [551] 1 3 / 4 ” [44.5] 1’-4” [406] 3 / 4 ” [19] NPT CRBTMPWR003A01 3 / 4 ” [19] NPT 1 / 2 ” [12.7] NPT 1 / 2 ” [12.7] NPT 1 / 2 ” [12.7] NPT ROOFCURB ACCESSORY A UN[...]

  • Seite 20

    20 CURBS & WEIGHTS DIMENSIONS - - 580J*08 - - 12 C10496 Fig. 5 - - Dime nsions 580J 08 - - 12 580J[...]

  • Seite 21

    21 CURBS & WEIGHTS DIMENSIONS - - 580J*08 - - 12 (cont.) C08526 Fig. 6 - - 580J 08- - 12 C B A D C08337 Fig. 7 - - Servi ce Cl ear ance LO C DIMENSION CO NDITION A 48 - - - in (1219 mm) Uni t dis conne ct i s mount ed on panel 36 - - - in (914 mm) I f d i m e n s i o n --- B i s 1 2 --- i n ( 3 0 5 m m ) 18 - - - in (457 mm) No d isconnect, con[...]

  • Seite 22

    22 CURBS & WEIGHTS DIMENSIONS - - 580J*08 - - 14 580J 580J * 08 – 08 – 14 14 UNIT SIZE ROOFCURB ACCESSORY CRRFCURB003A01 CRRFCURB004A01 1’ - 2” (356) 2’ - 0” (610) TYPICAL CORNER F ASTENING DEVICE C10481 Fig. 8 - - Roof Curb Det ails 580J[...]

  • Seite 23

    23 CURBS & WEIGHTS DIMENSIONS - - 580J 14 C10508 Fig. 9 - - Dime nsions 580J- - 14 580J[...]

  • Seite 24

    24 CURBS & WEIGHTS DIMENSIONS - - 580J 14 (cont.) C08528 Fig. 10 - - Dime nsi ons 580J - - 14 C B A D C08337 Fig. 1 1 - - Servi ce Cl ear ance LO C DIMENSION CO NDITION A 48 - - - in (1219 mm) Uni t dis conne ct i s mount ed on panel 36 - - - in (914 mm) I f d i m e n s i o n --- B i s 1 2 --- i n ( 3 0 5 m m ) 18 - - - in (457 mm) No d isconne[...]

  • Seite 25

    25 OPTIONS & ACCESSO R Y WEI GHTS OPTION / AC CES SORY OPTION / ACC ES SORY W EIGHTS 04 05 06 07 08 09 12 14 lb kg lb kg lb kg lb kg lb kg lb kg lb kg lb kg P erfect Hum idity 1 15 7 23 10 25 11 29 13 38 17 47 21 57 21 47 21 P ower Exhaust - - - vertical 50 23 50 23 50 23 50 23 75 34 75 34 75 34 85 39 P ower Exhaust - - - hor izontal 30 14 30 1[...]

  • Seite 26

    26 AP PLIC A TION DA T A Min operat ing ambi ent tem p (coolin g): In mecha nica l cool ing mode, your Bryant rooft op unit ca n safely opera te down to a n outdoor ambient t empera ture of 40 _ F( 4 _ C) a nd 25 _ F( - - 4 _ C) , with an accessory w inter start kit. It is poss i ble to provide c ooling at l ower outdoor ambie nt t empera tures by [...]

  • Seite 27

    27 AP PLIC A TION DA T A (con t.) Sizing a r ooftop Bigger isn’t nece ssarily bett er . Whil e an ai r condit ioner needs to ha ve enough ca paci ty to me et t he design loa ds, it does n’t n eed exces s capacity . In fact, excess capacity typica lly re sults i n very poor part load performanc e and humidity co ntrol. Using higher design te mpe[...]

  • Seite 28

    28 SELECTION PROCEDURE (W ITH 580J*07A EXAMPLE) 1 I. Determ ine coolin g and h eatin g loads . Given: Mixed air dry bul b 80 _ F( 2 7 _ C) Mixed air wet bulb 67 _ F( 1 9 _ C) Ambient dry bul b 95 _ F( 3 5 _ C) TC Load 72. 0 MBH SHC Loa d 54.0 MBH V e rtica l supply ai r 2100 CFM Heati ng load 85.0 MBH External s tatic press ure 0.67 in. w g Electri[...]

  • Seite 29

    29 T abl e 13 – CO OL ING CAP ACITIES 1 - - ST AGE COO LING 3 TONS 580J*04A (RT PF) AMBI ENT TEMPERA TURE 85 95 105 115 EA T (d b) EA T (d b) EAT ( db) EA T (d b) 75 80 85 75 80 85 75 80 85 75 80 85 900 Cfm EA T (w b) 58 TC 28.1 28.1 31.7 26.3 26.3 29.8 24.5 24.5 27.7 22.6 22.6 25.5 SHC 24.4 28.1 31.7 22.9 26.3 29.8 21.3 24.5 27.7 19.6 22.6 25.5 [...]

  • Seite 30

    30 T abl e 14 – CO OL ING CAP ACITIES 1 - - ST AGE COO LING 3 TONS 580J04 ( 3 TON S) - - - UNIT WI TH PERFECT HUMIDITY S YSTEM IN SUBCOOL ING MODE A i r E n t e r i n g E v a p o r a t o r --- C F M Te m p ( F ) A i r E n t Cond enser ( Edb) 80 dry b ulb 80 dry b ulb 80 d ry bulb 72 wet bulb 67 wet bulb 62 wet b ulb 900 1200 1500 900 1200 1500 90[...]

  • Seite 31

    31 T abl e 15 – CO OL ING CAP ACITIES 1 - - ST AGE COO LING 4 TONS 580J*05A (RT PF) AMBI ENT TEMPERA TURE 85 95 105 115 EA T (d b) EAT ( db) EAT (d b) EAT (d b) 75 80 85 75 80 85 75 80 85 75 80 85 1200 Cfm EA T (w b) 58 TC --- --- --- --- --- --- 36.1 36.1 40.7 34.3 34.3 38.6 SHC --- --- --- --- --- --- 31.5 36.1 40.7 29.9 34.3 38.6 62 TC 43.1 43[...]

  • Seite 32

    32 T abl e 16 – CO OL ING CAP ACITIES 1 - - ST AGE COO LING 4 TONS 580J05 ( 4 TON S) - - - UNIT WI TH PERFECT HUMIDITY S YSTEM IN SUBCOOL ING MODE A i r E n t e r i n g E v a p o r a t o r --- C F M Te m p ( F ) A i r E n t Cond enser ( Edb) 80 dry b ulb 80 dry b ulb 80 d ry bulb 72 wet bulb 67 wet bulb 62 wet b ulb 1200 1600 2000 1200 1600 2000 [...]

  • Seite 33

    33 T abl e 17 – CO OL ING CAP ACITIES 1 - - ST AGE COO LING 5 TONS 580J*06A (RT PF) AMBI ENT TEMPERA TURE 85 95 105 115 EA T (d b) EAT ( db) EAT (d b) EAT (d b) 75 80 85 75 80 85 75 80 85 75 80 85 1500 Cfm EA T (w b) 58 TC 52.9 52.9 60.0 49.9 49.9 56.6 46.6 46.6 52.9 43.1 43.1 48.9 SHC 45.8 52.9 60.0 43.2 49.9 56.6 40.4 46.6 52.9 37.3 43.1 48.9 6[...]

  • Seite 34

    34 T abl e 18 – CO OL ING CAP ACITIES 1 - - ST AGE COO LING 5 TONS 580J06 ( 5 TON S) - - - UNIT WI TH PERFECT HUMIDITY S YSTEM IN SUBCOOL ING MODE A i r E n t e r i n g E v a p o r a t o r --- C F M Te m p ( F ) A i r E n t Cond enser ( Edb) 80 dry b ulb 80 dry b ulb 80 d ry bulb 72 wet bulb 67 wet bulb 62 wet b ulb 1750 2000 2250 1750 2000 2250 [...]

  • Seite 35

    35 T abl e 19 – CO OL ING CAP ACITIES 1 - - ST AGE COO LING 6 TONS 580J*07A (RT PF) AMBI ENT TEMPERA TURE 85 95 105 115 EA T (d b) EAT ( db) EAT (d b) EAT (d b) 75 80 85 75 80 85 75 80 85 75 80 85 1800 Cfm EA T (w b) 58 TC 64.9 64.9 73.3 62.1 62.1 70.0 58.9 58.9 66.4 55.6 55.6 62.7 SHC 56.6 64.9 73.3 54.1 62.1 70.0 51.4 58.9 66.4 48.5 55.6 62.7 6[...]

  • Seite 36

    36 T abl e 20 – CO OL ING CAP ACITIES 1 - - ST AGE COO LING 6 TONS 580J07 ( 6 TON S) - - - UNIT WI TH PERFECT HUMIDITY S YSTEM IN SUBCOOL ING MODE A i r E n t e r i n g E v a p o r a t o r --- C F M Te m p ( F ) A i r E n t Cond enser ( Edb) 80 dry b ulb 80 dry b ulb 80 d ry bulb 72 wet bulb 67 wet bulb 62 wet b ulb 2100 2400 2700 2100 2400 2700 [...]

  • Seite 37

    37 T abl e 21 – CO OL ING CAP ACITIES 1 - - ST AGE COO LING 7. 5 TONS 580J*08A (RT PF) AMBI ENT TEMPERA TURE 85 95 105 115 EA T (d b) EA T (d b) EAT (d b) EA ( db ) 75 80 85 75 80 85 75 80 85 75 80 85 2250 Cfm EA T (w b) 58 TC 81.2 81.2 91.8 77.5 77.5 87.7 73.6 73.6 83.3 69.5 69.5 78.7 SHC 70.5 81.2 91.8 67.3 77.5 87.7 63.9 73.6 83.3 60.4 69.5 78[...]

  • Seite 38

    38 T abl e 22 – CO OL ING CAP ACITIES 2 - - ST AGE COO LING 7. 5 TONS 580J*08D (RT PF & Novation) AMBI ENT TEMPERA TURE 85 95 105 115 EA T (d b) EAT ( db) EAT (d b) EA (d b) 75 80 85 75 80 85 75 80 85 75 80 85 2250 Cfm EA T (w b) 58 TC 77.4 77.4 87.8 73.8 73.8 83.8 70.1 70.1 79.5 66.0 66.0 74.9 SHC 66.9 77.4 87.8 63.9 73.8 83.8 60.6 70.1 79.5[...]

  • Seite 39

    39 T able 23 – C OOLIN G CAP AC ITI ES 2- - ST AGE COOLI NG (R TPF ONL Y) 7.5 T ONS 580J08 CO OLI NG CAP ACITIES, UNI T WITH PERFECT HUMIDITY S YSTEM IN SUBCOO LIN G MODE TEMP (F) AI R ENT CON DENSER ( Edb) AIR EN TERIN G EVAPORA TOR - - - CFM 2250/0. 05 3000/0.07 3750/ 0.09 A i r E n t e r i n g E v a p o r a t o r --- E w b ( F ) 72 67 62 72 67[...]

  • Seite 40

    40 T abl e 24 – CO OL ING CAP ACITIES 1 - - ST AGE COO LING 8. 5 TONS 580J*09A (RT PF) AMBI ENT TEMPERA TURE 85 95 105 115 EA T (d b) EA T (d b) EAT (d b) EA T (db ) 75 80 85 75 80 85 75 80 85 75 80 85 2550 Cfm EA T (w b) 58 TC 88.1 88.1 99.9 84.1 84.1 95.3 79.6 79.6 90.3 74.9 74.9 84.9 SHC 76.4 88.1 99.9 72.8 84.1 95.3 69.0 79.6 90.3 64.9 74.9 8[...]

  • Seite 41

    41 T abl e 25 – CO OL ING CAP ACITIES 2 - - ST AGE COO LING 8. 5 TONS 580J*09D (RT PF) AMBI ENT TEMPERA TURE 85 95 105 115 EA (d B) EA ( dB ) EA ( dB ) EA (d B) 75 80 85 75 80 85 75 80 85 75 80 85 2550 Cfm EA T (w b) 58 TC 89.7 89.7 101.6 85.2 85.2 96.5 79.6 79.6 90.1 73.8 73.8 83.6 SHC 77.8 89.7 101.6 73.9 85.2 96.5 69.0 79.6 90.1 64.0 73.8 83.6[...]

  • Seite 42

    42 T able 26 – C OOLIN G CAP AC ITI ES 2- - ST AGE COOLI NG (R TPF ONL Y) 8.5 T ONS 580J09 CO OLI NG CAP ACITIES, UNI T WITH PERFECT HUMIDITY S YSTEM IN SUBCOO LIN G MODE TEMP (F) AI R ENT CON DENSER ( Edb) AIR EN TERIN G EVAPORA TOR - - - CFM 2550/0. 04 3400/0.05 4250/ 0.07 A i r E n t e r i n g E v a p o r a t o r --- E w b ( F ) 72 67 62 72 67[...]

  • Seite 43

    43 T able 27 – COOL IN G CAP ACI TIES 1 - - ST AGE COOLI NG 10 T ONS 580J*12A (RT PF) AMBI ENT TEMPERA TURE 85 95 105 115 EA T (d b) EA T (d b) EAT (d b) EA T (db ) 75 80 85 75 80 85 75 80 85 75 80 85 3000 Cfm EA T (w b) 58 TC 106.3 106.3 120.5 101.7 101.7 115.2 96.6 96.6 109.4 91.0 91.0 103.1 SHC 92.2 106.3 120.5 88.2 101.7 115.2 83.8 96.6 109.4[...]

  • Seite 44

    44 T able 28 – COOL IN G CAP ACI TIES 2 - - ST AGE COOLI NG 10 T ONS 580J*12D (RT PF & Novation) AMBI ENT TEMPERA TURE 85 95 105 115 EA T (d b) EA T (d b) EAT (d b) EA T (db ) 75 80 85 75 80 85 75 80 85 75 80 85 3000 Cfm EA T (w b) 58 TC 107.6 107.6 121.9 102.5 102.5 116.2 96.8 96.8 109.7 90.5 90.5 102.6 SHC 93.2 107.6 121.9 88.8 102.5 116.2 [...]

  • Seite 45

    45 T able 29 – COOL IN G CAP ACI TIES 2- - ST AGE C OOLIN G (R TPF ONL Y) 10 T ONS 580J12 CO OLI NG CAP ACITIES, UNI T WITH PERFECT HUMIDITY S YSTEM IN SUBCOO LIN G MODE TEMP (F) AI R ENT CON DENSER ( Edb) AIR EN TERIN G EVAPORA TOR - - - CFM 3000/0. 04 4000/0.06 5000/ 0.07 A i r E n t e r i n g E v a p o r a t o r --- E w b ( F ) 72 67 62 72 67 [...]

  • Seite 46

    46 T able 30 – COOL IN G CAP ACI TIES 2 - - ST AGE COOLI NG 12.5 T ONS 580J*14D (RT PF & Novation) AMBI ENT TEMPERA TURE 85 95 105 115 EA T (d b) EA T (d b) EAT (d b) EA T (db ) 75 80 85 75 80 85 75 80 85 75 80 85 3600 Cfm EA T (w b) 58 TC 127.6 127.6 142.9 121.7 121.7 137.6 115.0 115.0 130 108.3 108.3 122.6 SHC 110.3 126.6 142.9 105.8 121.7 [...]

  • Seite 47

    47 T able 31 – COOL IN G CAP ACI TIES 2- - ST AGE C OOLIN G (R TPF ONL Y) 12.5 T ONS 580J14 CO OLI NG CAP ACITIES, UNI T WITH PERFECT HUMIDITY S YSTEM IN SUBCOO LIN G MODE TEMP (F) AI R ENT CON DENSER ( Edb) AIR EN TERIN G EVAPORA TOR - - - CFM 3750/0. 02 5000/0.06 6250/ 0.05 A i r E n t e r i n g E v a p o r a t o r --- E w b ( F ) 72 67 62 72 6[...]

  • Seite 48

    48 T abl e 32 – ST A TIC PRESSURE ADDE RS (Fac to ry O pti ons and/o r A ccesso ries) Economize r 3 --- 6 T O N S CFM ( in. wg) 600 800 1000 1250 1500 1750 2000 2250 2500 2750 3000 Ve r ti c a l Economizer 0.01 0. 02 0.04 0.05 0.07 0.09 0.12 0.15 0. 18 0.22 0.26 Horizo ntal Economizer 0.02 0. 03 0.04 0.06 0.08 0.10 0.13 0.15 0. 18 0.23 0.28 7.5 -[...]

  • Seite 49

    49 F AN PERFORMANCE T able 33 – 580J*04 1 PHASE 3 TON HORI ZONT AL S UPPL Y CFM A V A I L A B L EE X T E R N A LS T A T I CP R E S S U R E( i n .w g ) 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BH P F i e l dS u p p l i e dD r i v e 1 Standard Static Option Medium St atic Opt ion 900 553 0.14 681 0.22 782 0.32 870 0.42 948 0.53 975 5[...]

  • Seite 50

    50 F AN PERFORMANCE ( cont.) T able 35 – 580J*04 3 PHASE 3 TON HORI ZONT AL S UPPL Y CFM A V A I L A B L EE X T E R N A LS T A T I CP R E S S U R E( i n .w g ) 0.2 0.4 0. 6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BH P F i e l dS u p p l i e dD r i v e 1 Standard Static Option Medium Stat ic Opt ion 900 553 0.14 681 0.22 782 0.32 870 0.42 948 [...]

  • Seite 51

    51 F AN PERFORMANCE ( cont.) T able 37 – 580J*05 1 PHASE 4 TON HORI ZONT AL S UPPL Y CFM A V A I L A B L EE X T E R N A LS T A T I CP R E S S U R E( i n .w g ) 0.2 0.4 0. 6 0.8 1. 0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BH P Standard Static Option Medium St atic Opt ion 1200 643 0.23 762 0.34 859 0.46 944 0.58 1020 0.71 1300 675 0.28 790 0.40 886 0[...]

  • Seite 52

    52 F AN PERFORMANCE ( cont.) T able 39 – 580J*05 3 PHASE 4 TON HORI ZONT AL S UPPL Y CFM A V A I L A B L EE X T E R N A LS T A T I CP R E S S U R E( i n .w g ) 0.2 0.4 0.6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BH P Standard Static Option Medium St atic Opt ion 1200 643 0.23 762 0.34 859 0.46 944 0.58 1020 0.71 1300 675 0.28 790 0.40 886 0.5[...]

  • Seite 53

    53 F AN PERFORMANCE ( cont.) T able 41 – 580J*06 1 PHASE 5 TON HORI ZONT AL S UPPL Y CFM A V A I L A B L EE X T E R N A LS T A T I CP R E S S U R E( i n .w g ) 0.2 0.4 0. 6 0.8 1. 0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BH P Standard Static Option 1500 800 0.39 904 0.49 999 0.60 1087 0.72 1169 0.85 1625 849 0.48 947 0.59 1038 0.70 1122 0.83 1201 0.[...]

  • Seite 54

    54 F AN PERFORMANCE ( cont.) T able 43 – 580J*06 3 PHASE 5 TON HORI ZONT AL S UPPL Y CFM A V A I L A B L EE X T E R N A LS T A T I CP R E S S U R E( i n .w g ) 0.2 0.4 0. 6 0.8 1. 0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BH P Standard Static Option 1500 800 0.39 904 0.49 999 0.60 1087 0.72 1169 0.85 1625 849 0.48 947 0.59 1038 0.70 1122 0.83 1201 0.[...]

  • Seite 55

    55 F AN PERFORMANCE ( cont.) T able 45 – 580J*07 3 PHASE 6 TON HORI ZONT AL S UPPL Y CFM A V A I L A B L EE X T E R N A LS T A T I CP R E S S U R E( i n .w g ) 0.2 0. 4 0.6 0. 8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BH P F i e l dS u p p l i e dD r i v e 1 Standard Static Option 1800 913 0.64 1010 0.80 1098 0.98 1178 1.16 1252 1.35 1950 972 0.7[...]

  • Seite 56

    56 F AN PERFORMANCE ( cont.) T able 47 – 580J*08 3 PHASE 7.5 TON HORIZONT AL SUPPL Y CFM A V A I L A B L EE X T E R N A LS T A T I CP R E S S U R E( i n .w g ) 0.2 0.4 0.6 0.8 1. 0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BH P Standard Static Option Medium St atic Opt ion 2250 505 0.52 586 0.73 657 0.97 722 1.22 782 1.50 2438 533 0.62 610 0.85 679 1.0[...]

  • Seite 57

    57 F AN PERFORMANCE ( cont.) T able 49 – 580J*09 3 PHASE 8.5 TON HORIZONT AL SUPPL Y CFM A V A I L A B L EE X T E R N A LS T A T I CP R E S S U R E( i n .w g ) 0.2 0.4 0. 6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BH P F i e l d --- S u p p l i e d D r i v e 1 Standard Static Option Medium St atic O pti on 2550 497 0.48 579 0.61 651 0.75 717 0[...]

  • Seite 58

    58 F AN PERFORMANCE ( cont.) T able 51 – 580J*12 3 PHASE 10 T ON HORIZONT AL SU P PL Y CFM A V A I L A B L EE X T E R N A LS T A T I CP R E S S U R E( i n .w g ) 0.2 0.4 0. 6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BH P F i e l dS u p p l i e dD r i v e 1 Standard Static Option Medium St atic O pti on 3000 579 0.70 660 0.89 732 1.09 799 1.29 [...]

  • Seite 59

    59 F AN PERFORMANCE ( cont.) T able 53 – 580J*14 3 PHASE 12.5 TON HORIZONT AL SUPPL Y CFM A V A I L A B L EE X T E R N A LS T A T I CP R E S S U R E( i n .w g ) 0.2 0.4 0. 6 0.8 1.0 RPM BHP RPM BHP RPM BHP RPM BHP RPM BH P Standard Static Option Medium St atic O pti on 3438 639 0.98 713 1.20 781 1.43 843 1.65 901 1.88 3750 683 1.23 753 1.47 817 1[...]

  • Seite 60

    60 F AN PERFORMANCE ( cont.) T able 55 – P ULLEY ADJU STMENT UNI T MOTOR/DRI VE COMB O MOTOR P ULLEY T UR NS OPEN 0.0 0.5 1. 0 1.5 2.0 2. 5 3. 0 3.5 4.0 4. 5 5.0 04 1p h a s e Stand ar d Static 854 825 795 766 736 707 678 648 619 589 560 Mediu m Static 1175 1135 1094 1054 1013 973 932 892 851 811 770 High Stat ic --- --- --- --- --- --- --- --- -[...]

  • Seite 61

    61 ECONOMIZER, BAROMETRI C RELIEF AND PE P E RFORMANCE 0 500 1000 1500 2000 2500 0 0.05 0.1 0.15 0.2 0.25 0.3 RE TU RN DU CT S TAT I C PRE S S U RE (i n . w g ) RE L IE F FL O W (CF M) 3 - 6 T on 7½ - 12½ T on Horiz ont al E c onomi z ers C08070 Fig . 1 2 - - B a rometric Relief F lo w C ap a city 0 1000 2000 3000 4000 5000 6000 0 0.1 0.2 0.3 0.4[...]

  • Seite 62

    62 ELECTRICAL INFO RMA TION T able 56 – 580J*04A 1- - Stage Cooling 3 TONS V --- P h --- H z VOL T AGE RANGE COMP ( ea) OF M (ea) IFM RLA LRA WAT T S FLA TYPE Max WAT T S Max AMP Draw EFF at F ull Load FLA MIN MAX 2 0 8 --- 1 --- 6 0 187 253 16.6 79 325 1.5 Std Sta tic 1000 5.1 70% 4.9 Med Static 1000 5.1 70% 4.9 2 3 0 --- 1 --- 6 0 187 253 16.6 [...]

  • Seite 63

    63 ELECTRICAL INFORMA TION (co nt .) T able 59 – 580J*07A 1- - Stage Cooling 6 TONS V --- P h --- H z VOL T AGE RANGE COMP ( ea) OF M (ea) IFM RLA LRA WAT T S FLA TYPE Max WAT T S Max AMP Draw EFF at F ull Load FLA MIN MAX 2 0 8 --- 3 --- 6 0 187 253 19.0 123 325 1.5 Std Static 2120 5.5 80% 5.2 Med Static 2615 7.9 81% 7.5 High Stat ic 2615 7.9 81[...]

  • Seite 64

    64 ELECTRICAL INFORMA TION (co nt .) T able 62 – 580J*09A 1- - Stage Cooling 8.5 TONS V --- P h --- H z VOL T AGE RANGE COMP ( ea) OF M (ea) IFM RLA LRA WAT T S FLA TYPE Max WAT T S Max AMP Draw EFF at F ull Load FLA MIN MAX 2 0 8 --- 3 --- 6 0 187 253 29.5 195 325 1.5 Std Static 1448 5.5 80% 5.2 Med Static 2120 5.5 80% 5.2 High Stat ic 2694 10.5[...]

  • Seite 65

    65 ELECTRICAL INFORMA TION (co nt .) T able 65 – 580J*12D 2- - Stage Cooling 10 TONS V --- P h --- H z VOL T AGE RANGE COMP ( Cir 1) COMP (Cir 2) OFM (ea) IFM RLA LRA RLA LRA WAT T S FLA TYPE Max WAT T S Max AMP Draw EFF at Ful l Load FLA MIN MAX 2 0 8 --- 3 --- 6 0 187 253 15.6 110 15.9 110 325 1.5 STD 2120 5.5 80% 5.2 MED 3775 10.5 81% 10.0 HIG[...]

  • Seite 66

    66 T able 67 – M CA/MOCP DETERMINA TION NO C.O . O R UNPWRD C.O. UNI T NOM . V --- P h --- H z IFM TYPE COMB USTIO N FAN MOTOR FLA POWER EXHA UST FLA NO C. O. or UN PWRD C.O . NO P .E . w/ P .E. (pwrd fr / un it) MCA MOCP DISC. SIZE MCA MOCP DISC. SIZE FLA LRA FLA LRA 580J*04(A,B ,C, G,H,J) 208/230 - - - 1 - - - 60 STD 0.48 1.9 27.2 40.0 26 95 29[...]

  • Seite 67

    67 T ABLE 67 (cont .) MCA /MOCP DETER MIN A TION NO C.O. OR UNPWR D C.O. UNI T NOM . V --- P h --- H z IFM TYPE COMB USTIO N FAN MOTOR FLA POWER EXHA UST FLA NO C. O. or UN PWRD C.O . NO P .E . w/ P .E. (pwrd fr / un it) MCA MOCP DISC. SIZE MCA MOCP DISC. SIZE FLA LRA FLA LRA 580J*08(D ,F ,K,M) 208/230 - - - 3 - - - 60 STD 0.48 3.8 38.8 50 41 193 4[...]

  • Seite 68

    68 T ABLE 67 (cont .) MCA /MOCP DETER MIN A TION NO C.O. OR UNPWR D C.O. LEGEND: C. O . - - - Conv enienc e outlet DISC - - - Disconnect FLA - - - Full load amps IFM - - - In door fan motor LRA - - - Lock ed ro tor amps MCA - - - Minimum circuit amp s MOCP - - - Maximum over curr ent prote ction P . E . --- P o w e r e x h a u s t U N P W R D C O -[...]

  • Seite 69

    69 T able 68 – M CA/MOCP DETERMINA TION W/ P WRD C.O. UNI T NOM . V --- P h --- H z IFM TYPE COMB USTIO N FAN MOTOR FLA POWER EXHA UST FLA w/ P WRD C.O . NO P .E . w/ P .E. (pwrd fr / un it) MCA MOCP DISC. SIZE MCA MOCP DISC. SIZE FLA LRA FLA LRA 580J*04(A,B ,C, G,H,J) 208/230 - - - 1 - - - 60 STD 0.48 1.9 32.0 45.0 32 100 33.9 50.0 34 102 MED 32[...]

  • Seite 70

    70 T ABLE 68 (cont .) MCA /MOCP DETER MIN A TION W/ PWRD C.O. UNI T NOM . V --- P h --- H z IFM TYPE COMB USTIO N FAN MOTOR FLA POWER EXHA UST FLA w/ P WRD C.O . NO P .E . w/ P .E. (pwr d fr / un it) MCA MOCP DISC. SIZE MCA MOCP DISC. SIZE FLA LRA FLA LRA 580J*08(D ,F ,K,M) 208/230 - - - 3 - - - 60 STD 0.48 3.8 43.6 50 46 198 47.4 60 51 202 MED 45.[...]

  • Seite 71

    71 TYPICAL WIRING DI AGRAMS C08518 Fig. 18 - - 1 - - Stage Cool ing T ypic al Power Di agram 580J[...]

  • Seite 72

    72 TYPICAL WIRING DI AGRAMS (cont .) C08577 Fig. 19 - - 2 - - Stage Cool ing T ypic al Power Di agram 580J[...]

  • Seite 73

    73 C08524 Fig. 20 - - 1 - - Stage T ypic al Wi ring Diagr am 580J[...]

  • Seite 74

    74 C08578 Fig. 21 - - 2 - - Stage T ypic al Wi ring Diagr am 580J[...]

  • Seite 75

    75 SEQUENCE OF OPERA TI ON General The sequenc e be low describes the sequenc e of operat ion for an el ectrom echa nical unit wit h and without a fact ory installed EconoMi$er IV ( called “economizer” in this sequence ). For informat ion rega rding a dire ct digita l controll er , see t he sta rt - - up, opera tions, and troubleshooti ng manua[...]

  • Seite 76

    76 SEQUENCE OF OPERA TI ON (cont. ) On the initial power to the Ec onoMi$er IV control, it will take t he dam per up to 2 1/2 m inute s before it begins to pos ition its elf. After the initial power- - up, fur ther changes in damper position can take up to 30 seconds to initiate. Damper move ment from full c losed to ful l open (or vice versa) will[...]

  • Seite 77

    77 SEQUENCE OF OPERA TI ON (cont. ) COMP COND COIL PERFECT HUMIDITY COIL EV AP COIL INDOOR ENTERING AIR OUTDOOR AIR METERING DEVICE CLOSED V AL VE OPEN V AL VE RH1.x RH2.x CV .x a48-8173 C09456 Subcool ing Mode (Re heat 1) - - Per fec t Humidi ty Syste m (580J04- - 14) COMP COND COIL PERFECT HUMIDITY COIL EV AP COIL INDOOR ENTERING AIR OUTDOOR AIR [...]

  • Seite 78

    78 GUIDE SPECIFICA TIONS - - 580J*04 - - 14 Note about this spec ifica tion: Bryant wrote this speci fica tion in t he 2004 version of t he “Maste rformat” as published by t he Construc tion Speci ficat ion Institute. Pleas e feel free to c opy this sp eci fication directly in to your building s pec. Gas Heat/Electric Cooling Packaged Rooftop H[...]

  • Seite 79

    79 1 1. Shall have a battery back - - up cap able of a minimum of 10, 000 hours of data a nd time clock retention during power outag es. 12. Shall ha ve built - - in support for Bryant techni cia n tool. 13. Shall include an EIA - - 485 protocol communica tion port, an access por t for connection of either a c omputer or a Bryan t technician tool, [...]

  • Seite 80

    80 2. Fact ory assemble d, single - - piec e hea ting and c ooling rooft op unit. Cont aine d within the unit enc losure shall be a ll factory wiri ng, pipi ng, cont rols, and spec ial feature s required pri or to fiel d start - - up. 3. Unit shal l use envi ronmenta lly sound, Puron refri gerant . 4. Unit s hall be installed in accord ance with th[...]

  • Seite 81

    81 5. Ba se Rail a. Unit s hall have base r ails o n a minimum o f 2 s ides. b. Holes shall be prov ided in the bas e rails for rigg ing shackles to facilitate maneu vering an d overh ead riggin g. c. Hole s shall be provi ded in the base rai l for moving t he rooftop by fork t ruck. d. Base r ail shall b e a minimum of 16 g auge thicknes s. 6. Con[...]

  • Seite 82

    82 c. Burners shall incorpor ate orifices for rated heat output up to 2000 ft (610m) eleva tion. Additional access ory kits may be require d for appli cati ons above 2000 ft (610m ) eleva tion, dependi ng on local gas supply condi- tions. d. Each heat exchan ger tube s hall contain multip le dimples fo r increas ed heating eff ectiveness . 4. Optio[...]

  • Seite 83

    83 5. Standa rd All Alumi num Novation Coi ls: a. Sta ndard condenser coi ls shall have al l alumi num NOV A TION Heat Exchange r T e chnology design consisti ng of alumin um multi port flat tu be design an d aluminum fin . Coils s hall be a furn ace brazed d esig n and co ntain epoxy line d shrink wrap on all alum inum to c opper conne ctions. b. [...]

  • Seite 84

    84 b. Sh all use sealed , permanently lu bricated ball- - bearin g type. c. Bl ower fan shall be double - - inle t type wit h forward - - curved bl ades. d. Shall be construc ted from ste el wit h a corrosion resista nt fini sh and dynamic all y balanc ed. 23 81 19.13.N. Condenser Fans and Motors 1. Condense r fan motors: a. Shall be a totally encl[...]

  • Seite 85

    85 4. Perf ect Humidity D ehumidif ication Sy stem: a. T he Perfec t Humidi ty Dehumidi fica tion System shal l be fa ctory insta lle d in single sta ge 580J04 - - 07 and two stage 580J08 - - 14 mode ls with R TPF (round tube plate tin) c ondenser coi ls, and shal l provide gre ate r dehumid ification of the occupied s pace by two modes of dehumidi[...]

  • Seite 86

    86 b. Minim um of four conne ction l ocat ions per unit. 13. Propell er Power Exhaust: a. Power e xhaust shall be used in conj unction wit h an int egrate d econom izer. b. Indepe ndent modul es for vertica l or horizontal re turn configura tions shall be avai labl e. c. Horiz ontal power exhaust is shall be mount ed in ret urn ductwork. d. Power e[...]