Goodman Mfg CPC/CPH installation instructions Drive Belt Tension Adjustment

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t = Span length, inches

C = Center distance, inches

D = Larger sheave diameter, inches d = Smaller sheave diameter, inches

h = Deflection height, inches

DRIVE BELT TENSION ADJUSTMENT

TYPE

SHEAVE

DEFLECTION

DEFLECTION

FORCE (lbs)

 

 

DIAMETER

 

 

 

 

(in)

 

 

(in)

 

 

BELT

DRIVE

Used

New

 

 

 

 

 

 

 

 

 

 

 

 

 

 

A, AX

Standard

3.0 to 4.0

4.2 ± .5

5.5 ± .5

0.313

 

 

 

 

 

 

RECOMMENDED POUNDS OF FORCE PER BELT

New V-belts will drop rapidly during the first few hours of use. Check tension frequently during the first 24 hours of opera- tion. Tension should fall between the minimum and maximum force. To determine the deflection distance from a normal position, measure the distance from sheave to sheave using a straightedge or a cord. This is your reference line. On mul- tiple belt drives, an adjacent undeflected belt can be used as a reference.

EVAPORATOR FAN ROTATION CHECK (THREE PHASE MODELS ONLY)

Check that fan rotates counter-clockwise when viewed from the drive side of unit and in accordance with rotation arrow shown on blower housing. If it does not, reverse the two in- coming power cables. In this case, repeat bearing check.

Do not attempt to change load side wiring. Internal wiring assures all motors and compressors will rotate in correct di- rection once evaporator fan motor rotation check has been made.

ELECTRICAL INPUT CHECK

Make preliminary check of evaporator fan ampere draw and verify that motor nameplate amps are not exceeded. A final check of amp draw should be made upon completion of air balancing of the duct system (see Appendix B).

REFRIGERATION SYSTEM CHECKS

Ensure the hold-down bolts on the compressor are secure and have not vibrated loose during shipment. Check that vi- bration grommets have been installed. Visually check all pip-

ing and clamps. The entire refrigeration system has been factory charged and tested, making it unnecessary to field charge. Factory charges are shown on the unit nameplate.

Install service manifold hoses. Gauges should read satura- tion pressure corresponding to ambient temperature. Charge should be checked to obtain 12° to 15° of sub-cooling per system (i.e. compressor circuits).

START-UP PROCEDURE AND CHECKLIST

Begin with power turned off at all disconnects.

1.Turn thermostat system switch to “Cool,” and fan switch to “Auto” and turn temperature setting as high as it will go.

2.Inspect all registers and set them to the normal open position.

3.Turn on the electrical supply at the disconnect.

4.Turn the fan switch to the “ON” position. The blower should operate after a 7 second delay.

5.Turn the fan switch to “Auto” position. The blower should stop after a 65 second delay.

6.Slowly lower the cooling temperature until the unit starts. The compressor, blower and fan should now be operating. Allow the unit to run 10 minutes, make sure cool air is being supplied by the unit.

7.Turn the temperature setting to the highest position, stopping the unit. The indoor blower will continue to run for 65 seconds.

8.Turn the thermostat system switch to “OFF” and disconnect all power when servicing the unit.

WARNING

HIGH VOLTAGE!

DISCONNECT ALL POWER BEFORE SERVICING OR INSTALLING THIS UNIT. MULTIPLE POWER SOURCES MAY BE PRESENT. FAILURE TO DO SO MAY CAUSE PROPERTY DAMAGE, PERSONAL INJURY OR DEATH.

HEAT PUMP START-UP PROCEDURE

9.Check the cooling mode for the heat pump in the same manner as above. The reversing valve is energized when the thermostat is placed in the cooling position. A clicking sound should be noticeable from the reversing valve. By lowering the temperature setting to call for cooling, the contractor is energized. The compressor, blower and fan should then be running. After the cooling mode is checked out, turn the thermostat system switch to “OFF”.

10.Turn the thermostat system switch to “HEAT” and fan switch to “AUTO”.

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Contents TON 6 TON CPC/CPH Series Replacement Parts Safety InstructionsGeneral Information High VoltageUnit Location Roof Curb POST-INSTALLATION Checks ClearancesRigging Details Roof TOP Duct ConnectionsWeights shown are belt drive with no accessories Electrical Wiring Rigging RemovalSupply STARTUP, ADJUSTMENTS, and Checks Circulating AIR and FiltersVenting Condensate Drain Connection Belt Drive Models only Drive Belt Tension Adjustment Air Flow Adjustments Heat Pump OperationAIR Flow Adjustments PSC MotorMotor Drive Adjustments Motor Sheave Adjustments MaintenanceService Valve Body Damaged Replace valveCPC/H036 Direct Drive Down Shot CPC/H036 Direct Drive HorizontalCPC/H048 Direct Drive Down Shot CPC/H048 Direct Drive HorizontalCPC/H060 Direct Drive Down Shot 790CPC/H060 Direct Drive Horizontal CPC/H036 Standard Belt Drive Down Shot CPC/H048 Standard Belt Drive Down ShotCPC/H060 Standard Belt Drive Down Shot CPC/H072 Standard Belt Drive Down ShotCPC/H036 High Static Belt Drive Down Shot CPC/H048 High Static Belt Drive Down ShotCPC/H060 High Static Belt Drive Down Shot CPC/H072 High Static Belt Drive Down ShotCPC/H036 Standard Belt Drive Horizontal CPC/H048 Standard Belt Drive HorizontalCPC/H060 Standard Belt Drive Horizontal CPC/H072 Standard Belt Drive HorizontalCPC/H036 High Static Belt Drive Horizontal CPC/H048 High Static Belt Drive HorizontalCPC/H060 High Static Belt Drive Horizontal CPC/H072 High Static Belt Drive HorizontalAppendix B Electrical Data Minimum AIR Flow for Electric Heat Unit Heater KIT Minimum CFM Model NumberAppendix C Unit Dimensions 2010,2012 Goodman Manufacturing Company, L.P

CPC/CPH specifications

Goodman Manufacturing, a prominent name in the HVAC industry, offers a range of products designed for efficiency, reliability, and affordability. Among their various offerings, the Goodman CPC (Commercial Packaged Condensing) and CPH (Commercial Packaged Heat Pump) systems stand out due to their advanced features and innovative technologies.

The Goodman CPC and CPH units are designed for commercial applications, providing effective heating and cooling solutions for diverse settings such as restaurants, warehouses, and retail spaces. One of the main features of these systems is their high energy efficiency, which allows businesses to save on energy costs while reducing their carbon footprint. These units typically feature SEER (Seasonal Energy Efficiency Ratio) ratings that comply with or exceed industry standards, ensuring optimal performance throughout the year.

Equipped with high-performing scroll compressors, Goodman’s CPC and CPH systems deliver consistent cooling and heating performance, enhancing overall system reliability. The scroll compressor technology is known for its durability and quieter operation, making it an excellent choice for environments where noise reduction is crucial.

Another significant characteristic of Goodman’s systems is their robust construction. Built with commercial-grade materials, the CPC and CPH units are designed for long-term performance, capable of withstanding harsh weather conditions and heavy usage. The all-aluminum microchannel coils used in these units provide excellent heat exchange efficiency and resist corrosion, ensuring a longer lifespan.

Smart technology integration is another highlight of Goodman’s offerings. The CPC and CPH systems can be equipped with advanced controls, including smart thermostats and remote monitoring capabilities, allowing businesses to optimize their HVAC performance. These technologies enable precise temperature control and energy management, leading to increased comfort and cost savings.

Furthermore, Goodman emphasizes ease of installation and maintenance in the design of their CPC/CPH systems. The compact design and simplified access to key components ensure that service technicians can perform maintenance promptly, minimizing downtime in commercial settings.

Ultimately, Goodman Manufacturing’s CPC and CPH systems represent a blend of energy efficiency, advanced technology, and durability, making them an excellent choice for businesses seeking reliable HVAC solutions. With a commitment to quality and customer satisfaction, Goodman continues to be a leader in the HVAC industry, providing products that meet the needs of today’s diverse commercial environments.