G. sequence of operation (heating), H. limit and pressure switch operation, Viii. cooling startup and adjustments – Bryant 585B User Manual
Page 10
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TABLE VI-AIR DELIVERY (FtVMin) AT INDICATED TEMPERATURE
RISE AND RATED HEATING INPUT
585B
Size
Heating
Input (Btuh)
Temperature Rise (°F)
35
37.5
40
42.5
45
47.5
50
52.5
55
57.5
60
62.5
65
67.5
70
72.5
75
018050
& 024050
40,000*
804
751
704
662
626
593
563
536
512
490
469
450
433
417
402
388
375
50,000
1032
963
903
850
802
760
722
688
657
628
602
578
556
535
516
498
481
024075, 030075,
& 036075(10)
60,000*
1206
1126
1056
993
938
889
844
804
768
734
704
676
650
626
603
582
563
75,000
1548
1444
1354
1275
1204
1140
1083
1032
985
942
903
867
833
802
774
747
722
036075(30)
60,000*
1206
1126
1056
993
938
889
844
804
768
734
704
676
650
626
603
582
563
75,000
1548
1444
1354
1275
1204
1140
1083
1032
985
942
903
867
833
802
774
747
722
042100
80,000*
1608
1501
1407
1325
1251
1185
1126
1072
1024
979
938
901
866
834
804
777
751
100,000
2063
1926
1806
1699
1605
1520
1444
1376
1313
1256
1204
1156
1111
1070
1032
996
963
036125, 048125,
& 060125
100,000*
2011
1877
1759
1656
1564
1481
1407
1340
1279
1224
1173
1126
1083
1043
1005
971
938
125,000
2579
2407
2257
2124
2006
1901
1806
1720
1641
1570
1505
1444
1389
1337
1290
1245
1204
060150
120,000*
2413
2252
2111
1987
1877
1778
1689
1608
1535
1469
1407
1351
1299
1251
1206
1165
1126
150,000
3095
2889
2708
2549
2407
2281
2167
2063
1970
1884
1806
1733
1667
1605
1548
1494
1444
*Rated heating input as manufactured with factory-installed burner orifices. Higher inputs shown for each size are the maximum rated
inputs using field-installed burner orifices.
NOTE: Shaded portions of the table are beyond the rated temperature rise range.
F. Airflow and Temperature Rise
The heating section is designed for operation within a tem
perature rise range of 35 to 70°F for units rated up to 75,000
Btuh input (except size 036075, 3-phase units), and within a
range of 45 to 75°F for units with inputs rated at 80,000
Btuh or higher.
Temperature rise is the difference of the air temperature in
the return duct and the air temperature in the discharge
duct at the unit.
Table VT shows the air delivery at various temperature rises
for both A.G.A.-certified input ratings for each size unit.
For heating operation, it is recommended that the airflow
.produces a temperature rise that falls within the range
stamped on the unit rating plate.
Refer to Section VIII, part B, of these instructions to deter
mine and adjust both the heating and cooling airflow.
G. Sequence of Operation (Heating)
The following sequence of operation pertains to model 585B,
208- or 230-V, 3-phase units; size 036075, 036125, 042100, or
048125; however, the sequence of operation of all other units
is very similar. Refer to the line-to-line wiring diagram in
Figure 13.
NOTE:
Although the actual unit wiring may vary slightly
from that shown in Figure 13, the sequence of operation will
not be affected.
With the room thermostat SYSTEM switch in HEAT posi
tion and FAN switch in AUTO position, the sequence of
operation is as follows:
Model 585B is equipped with the intermittent RELITE-type
pilot that does not have a standing flame, gas flow to the
pilot gas valve portion of the main gas valve 5F when the
pilot gas cock is open. The unit is now in a “standby” condi
tion, ready for a “call for heat” from the room thermostat.
When the room thermostat “calls for heat,” control lead R is
connected to control lead W through the room thermostat.
The 821 time-delay blower relay 2G becomes energized
through lead W. After a short delay, during which time the
following burner ignition sequence of operation is com
pleted, the blower relay contacts 2G close and the circuit to
the blower motor 3D2 is completed. This circuit energizes
the blower motor 3D2, starting the blower.
The circuit between R and W through the room thermostat
simultaneously energizes the pilot gas valve portion of the
main gas valve 5F and the pilot igniter 6F. The energized
pilot gas valve portion of the main gas valve 5F permits gas
flow to the pilot 6H.
NOTE:
The pilot gas valve portion of the main gas valve 5F
is a solenoid consisting of a “pick” and a “hold” coil. Both
coils must be energized to open the valve, but only the
“hold” coil must be energized to keep the pilot gas valve
open.
The energized pilot igniter 6F sends a high-voltage charge
to the pilot electrode 6H, producing a spark that ignites the
pilot flame. The pilot flame sensing monometal switch
proves the presence of the pilot flame. Approximately 40 to
60 seconds after the pilot flame is established, pilot 6H
switches its contacts, energizes the main gas valve 5F,
deenergizes the pilot igniter 6F, and deenergizes the “pick”
coil of the pilot solenoid. The main gas valve 5F is heat mo
tor operated; therefore, after approximately 10 seconds, the
main gas valve 5F opens permitting gas flow to the burners
where the gas is ignited by the pilot 6H.
When the room thermostat “call for heat” is satisfied, the
circuit between R and W through the room thermostat
breaks and gas flow through the main gas valve 5F is
stopped. The gas flow to pilot is also stopped and the pilot
flame goes out.
The 821 time-delay blower relay 2G is deenergized. There
will be a delay before the heating relay contacts 2G open.
When these contacts do open, the blower motor 3D2 is
deenergized.
The unit has now returned to a “standby” condition, waiting
for the next “call for heat” from the room thermostat.
H. Limit and Pressure Switch Operation
The furnace limit switch 7H (Figure 13) functions to shut off
the gas valve and main burner operation if the furnace leav
ing air temperature exceeds 175°F.
The pressure switch 7P (Figure 13) is only required when
the unit has been converted for propane gas operation. This
switch is part of the field-installed propane conversion kit.
See the conversion kit Installation Instructions for opera
tion of the pressure switch.
The normally closed furnace limit switch 7H completes the
control circuit through the W pigtail lead to the gas valve
5F. See Figure 13. Should the leaving air temperature rise to
175°F, the switch opens and the W control circuit is broken.
Any interruption in the control circuit through the W pig
tail lead to the gas valve instantly closes the gas valve and
stops gas flow to the burners and pilot.
The control circuit through the gas valve to the blower relay
2G is still closed and the blower motor 3D2 will continue to
run.
When the leaving air temperature drops to the limit switch
^ low-temperature setting, the switch closes, completing the
W control circuit. The electric-spark ignition system cycles
and the unit returns to normal heating operation.
VIII.
COOLING STARTUP AND ADJUSTMENTS
CAUTION:
Complete the stepsin Section VT before starting
unit.
Do not jumper anj" safety devices when operating unit.
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