Heatcraft Refrigeration Products Condensing Units H-IM-CU ユーザーズマニュアル

Under no circumstance should all condenser motors be allowed to cycle off on one control. At least one motor shall be wired to operate at all times. 

Under most circumstances, the condenser motor nearest the inlet header should remain on whenever the compressor is operating.

Fans closest to the headers should not be cycled on standard temperature or pressure controls. Dramatic temperature and pressure changes at the 

headers as a result of fan action can result in possible tube failure. Fan motors are designed for continuous duty operation.  

Fan cycling controls should be adjusted to maintain a minimum of (5) minutes on and (5) minutes off. Short cycling of fans may result in a 

premature failure of motor and/or fan blade. 

Compressors operating below +10°F SST must have air flowing over the compressor at all times when the compressor is running.

Several types of head pressure control systems are available on  

condensing units:

Dual Valve System. (See section on operation and adjustment.)
Single Valve system. No adjustments are necessary.    

 

 

(See section on operation.)
Ambient Fan Cycle Control. (See section on operation  

 

and adjustment.)

The system employs an ORI (open on rise of inlet pressure) valve and an ORD 

( open on rise of differential pressure) valve. The high pressure discharge gas  

is introduced above the liquid in the receiver tank. The receiver discharge is 

regulated by the ORI valve.
The discharge pressure of the ORI valve must be adjusted to regulate the unit 

for proper operating conditions. Adjust the ORI valve shown on the following 

diagram to maintain a discharge pressure of 160 to 180 PSIG.

A.
B.

C.

30

60

2-fan units:

25

65

20

70

4-fan units:

15

75

30

60

40

3-fan units:

25

65

55

20

70

60

6-fan units:

15

75

65

30

60

50

30

8-fan units:

25

65

55

40

20

70

65

50

15

75

70

60

NOTE:   Cycle pairs of fans on double wide units.

Condensing units with dual valves require sufficient charge to partially flood 

the condenser during low ambient conditions.
Valve adjustment should be made with gauges connected to the discharge 

port of the compressor. Adjustments should be made during mild or 

low ambient conditions. Turning the valve stem “clockwise” on the ORI 

valve will increase the discharge pressure, while turning the valve stem 

“counterclockwise” will decrease the discharge pressure.
If adjustments are made during warm ambient conditions, it may not be 

possible to adjust the regulator valve as low as desired.  Readjustment may 

be necessary once cooler conditions prevail.

The standard valve used on high pressure refrigerant systems controls 

the head pressure at approximately 180 PSIG. There is no adjustment for 

this valve. On low pressure refrigerant systems the valve controls pressure 

at approximately 100 PSIG.  For energy efficiency, the 100 PSIG valve is 

sometimes used on high pressure refrigerant systems.
At condensing pressures above the valve setting, flow enters Port C and 

leaves Port R. When the condensing pressure falls below the valve setting, 

the valve modulates to permit discharge gas to enter Port D. Metering 

discharge gas into the refrigerant flow leaving the condenser produces a 

higher pressure at the condenser outlet, reduces the flow, and causes the 

level of liquid refrigerant to rise in the condenser. This “flooding” of the 

condenser with liquid refrigerant reduces the available condensing surface, 

holding the condensing pressure at the valve setting.

This is an automatic winter control method which will maintain a condensing 

pressure within reasonable limits by cycling fan motors in response to 

outside air temperature. The thermostat(s) should be field adjusted to shut 

off the fan when the condensing temperature is reduced to approximately 

90

˚

F. Table 1 lists approximate settings for several system T.D.’s. These settings 

are approximate as they do not take into account variations in load.