Goodman CK36-1A Room Air Conditioner Owner’s Manual

July 27, 2024
Goodman

Goodman CK36-1A Room Air Conditioner

IMPORTANT MESSAGE TO OWNER
These instructions should be carefully read and kept near the product, for future reference. While these instructions are addressed primarily to the installer, useful maintenance information is included. Have your installing dealer acquaint you with the operating characteristics of the product and periodic maintenance requirements.

CODES AND REGULATIONS
This product is designed and manufactured to permit installation by National Codes. It is the responsibility of the installer to install the product according to National Codes and/or prevailing local codes and regulations. The manufacturer assumes no responsibility for the equipment installed in violation of any code or regulations.

INSPECTION

This product has been inspected at the factory and released to the transportation agency without known damage. Inspect the exterior of the carton for evidence of rough handling in shipment. Unpack carefully, if damage is found, report it immediately to the transportation agency.

REPLACEMENT PARTS

Order all replacement parts through your local distributor. When ordering parts, give the complete model and serial number as shown on the unit rating plate.

INSTALLATION

The condensing unit is designed to be located outside the building with free unobstructed condenser air inlet and discharge. Additionally, the unit must be situated to permit access for service and installation. Condenser air enters from three sides. Air discharges upward from the top of the unit. The refrigerant tube and electrical connections are made on the right side of the unit as you face the compressor compartment. The most common application will find the unit best located 6″ to 10″ from a back wall with the connection side facing the wall.

This “close to the wall” application minimizes exposed tubing and wiring, minimizing the space for youngsters to run around the unit with subsequent damage to the tubes or wiring. (See fig.1). Close-to-the-wall application assures free, unobstructed to the other two sides. in more confined application spaces, such as corners providing a minimum of 10″ clearance on all air inlet sides. For service access to the compressor com- apartment and controls, allow 18″ minimum. We assume the top is completely unobstructed. If units are to be located under an overhang, there should be a minimum of 36″ clearance and provision made to deflect the warm discharge air out from the overhang. See Table 3 for relative elevation limitations and maximum refrigerant line lengths.

The condensing unit must be mounted on a solid, level foundation, i.e. preformed concrete slab or other suitable base. For rooftop applications, make sure the building construction can support the weight and that proper consideration is given to the weather-tight integrity of the roof. The condensing unit contains moving components and can vi borate, therefore, the sound is also a consideration in rooftop applications. Since these units discharge warm condenser air from the top with cooler air being drawn on three sides, plantings can be made in relative proximity to the unit. Owners should be advised to avoid lawn mower discharging toward the unit depositing debris on the fin coil surface reducing product efficiency.

ELECTRICAL SERVICE
Electrical installation will consist of power supply wiring to the condensing unit as well as control wiring between the most, indoor units, and condensing units.

All wiring must be by the National Electrical Code and/or local codes that may apply. (See unit wiring diagram furnished with this instruction). The condensing unit rating plate and the table inside the front cover of this instruction list pertinent electrical data necessary for the selection of proper size electrical service and over-current protection. The owner should be made familiar with the location of the over-current protection, the proper size for this application, and the proper procedure for disconnecting power service to the unit. The condensing unit control wiring requires a 24 Volt mini- Mum 25 VA service from the indoor transformer as shown on the wiring diagram.

REFRIGERANT TUBING
Use only refrigerant-grade (dehydrated and sealed) copper tubing of the size indicated in Table 1 to interconnect the condensing unit with the indoor evaporator. Take extreme care to keep the refrigerant tubing clean and dry before and during installation. Do not remove plugs from the ends of the tubing until the connection is ready to be made. Suction line insulation is necessary to prevent condensation from forming on and dropping from the suction line. Generally, 3/8* wall thickness of Arm flex or equivalent is satisfactory. In severe applications (hot, high-humidity
areas greater thickness may be required.

Apply suction
line insulation by sliding it on the sealed tubing before cutting and making connections.

EVAPORATOR COILS
CAUTION: USE EXTREME CARE IN REMOVING THE CAPS FROM THE SUCTION AND LIQUID LINE FIT- TINGS, AS THERE IS PRESSURE PRESENT. SWEAT CAPS SHOULD BE PUNCTURED BEFORE THE APPLICATION OF HEAT.

SYSTEM START-UP

Condensing units are supplied with an R-22 charge sufficient for a typical matching evaporator and approximately 25′ of interconnecting tubing. Condensing unit liquid and suction valves are closed to contain the charge within the unit. The recommended procedure for processing and charge adjustment is as follows:

  1. Connect the vacuum pump to both base valve service ports.
  2. Evacuate tubing and evaporator thru liquid and suction base valve ports, to 500 microns or less for a minimum of 30 minutes. Close the valve to the pump and wait 15 minutes. Vacuum should not rise above 800 microns. If unable to obtain 500 microns, or the vacuum rises above 800 microns over 15 15-minute periods, discontinue evacuation, pressurize, and check for leaks. Repair any leaks found and repeat step 2.
  3. Close the valve to a vacuum pump and stop the pump. Break the vacuum by opening liquid and suction base valves. Fully open base valves and remove pump lines. Connect service gages being sure to purge lines.
  4. Set the thermostat system switch to “cool” and temperature to the highest setting. Close all disconnects.
  5. Set the thermostat to call for cooling. Check for the operation of indoor and outdoor fans. Allow for at least 10 minutes.
  6. Check the charge and adjust if necessary. (Refer to Appro private “Checking Charge” section).

Table 1

7/8″ required for full ratings
1-1/8″ required for full ratings

The following are instructions on the field connection to the valve and the valve opening procedure.

  1. Tubing should be cut square. Make sure it is round and free of burts at the connecting ends. Clean the tubing toprevent contamination from entering the system.
  2. Wrap a wet rag around the copper valve stub before brazing.
  3. Braze or silver solder the joint.
  4. After brazing quench with a wet rag to cool the joint. Evacuate and charge the connecting lines as outlined in the Installation and Operating instructions.
  5. Remove the valve top cap. Keep the cap in a clean area so dirt does not get in the cap. This is important to be sure that when the cap is replaced after opening the valve it will properly seal.
  6. Using a standard L-shaped allen wrench break open the valve body. To open the valve body after it is broken use a racket wrench with a short allen stub can be used. Please note that you will see oil on the valve stem body when the cap is removed. This oil is put in the valve by the manufacturer and is normal.
  7. Replaced the valve cap finger tight and tightened with a wrench an additional 1/6 of a turn to ensure a seal.

NOTE FOR QUICK CONNECT COILS

installation of the precharged system
Installation procedures will differ when condensing units are provided for use with precharged refrigerant coils and lines. Condensing units are provided with #6 and #11 male quick connects instead of liquid and suction valves attached to the cabinet to contain the R22 charge that is sufficient for matching evaporator coils and 25′ of interconnecting lines. Coils are provided with #6 and #11 male quick connects. Line sets are required with #6 and #11 female quick connects on both ends. Access ports are required in the fittings of both liquid and suction lines at the condenser end. Both coil and line sets included R22 holding charge only.

  1. Connect lines to the evaporator coil before connecting to the condensing unit locating access ports adjacent to the condensing unit.
    • Form tubing so it properly aligns with coil connections.
    • Remove plugs and caps from connections.
    • Check to be sure mating surfaces are clean.
    • Lubricate the rubber seal with clean refrigerant oil and thread couplings together by hand to be sure they are not cross-threaded.
    • Tighten connections using a backup wrench on stationary fitting until coupling bottoms; then tighten 1/6 turn to complete knife edge seal.
  2. Connect lines to the condensing unit in the same manner as to the evaporator coil. Observe the same precautions.
  3. After making all connections and opening valves, check all piping for leaks.

Precharged lines
Caution
Do not remove protective caps until installation has been completed and final connections are to be made. USE EXTREME CARE IN REMOVING CAPS FROM SUCTION AND LIQUID LINE FITTINGS AS THERE IS PRESSURE PRESENT.

CHECKING CHARGE-CAPILLARY TUBE / FIXED ORIFICE SYSTEM

  1. Fully open both base valves.
  2. Connect service gage manifold to base-valve service ports being sure to purge lines. Run the system for at least 10 minutes to allow pressure to stabilize.
  3. Temporarily install a thermometer on the suction (large) line near the condensing unit. Be sure of good contact between the thermometer and the line. Wrap the thermometer with insulating material to ensure an accurate reading.
  4. Refer to Table 2 for proper system superheat. Charge to lower superheat. Bleed charge to raise superheat.
  5. After adjusting the charge for proper superheat, compare suction and liquid pressures to those shown in Table 3. If pressures are not within range, system troubleshooting is needed.
  6. Remove gage lines carefully. Escaping liquid refrigerant can cause burns.

SUPERHEAT CAN BE DETERMINED AS FOLLOWS

  • Read suction pressure. Using Table 4 determine saturated suction temperature.
  • Read suction line temperature. SUPERHEAT = SUCTION LINE TEMP. – SAT. SUCT. TEMP.

Table 2

System Superheat

Table 3
Operating Pressure

Table 5
Saturated Suction Temperature (R-22)

EXPANSION VALVE SYSTEM

  1. Fully open both base valves.
  2. Connect service gage manifold to base-valve service parts being sure to purge lines. Run the system for at least 10 minutes to allow pressure to stabilize.
  3. Temporarily install a thermometer to the liquid (small) line near the condensing unit. Be sure of good contact between the thermometer and the line. Wrap the thermometer with insulating material to ensure accurate reading.
  4. Adjust the charge to obtain a temperature 12-15°F below the saturated liquid temperature determined from Table 5.

Example
Liquid Pressure 260 PSIG Saturated Temp. (Table 10) – 120°F Adjust Charge to Liquid Line Temperature – 105°F

Table 5

SPECIAL NOTE
Systems With More Than 25 ft of Interconnecting Tubing
See Table 6 for the line charge allowance per foot of tubing.

Table 6
line Charne Alinwance (R-22) 07 /ft

See Table 7 for charge allowance in the following filter driers.

Table 7
Filter Drier Charge Allowance (R22)

Systems with over 50 ft. separation between condensing unit and evaporator may require oil charge adjustment. See Table 8

Table 8

Use Either Texaco WF-32 (formerly cappella B) or Suniso3G-S oil.

Note
When installing equipment with a condenser and evaporator, more than 25′ above or below, note special conditions that should be considered in Table 9.

Table 9

Goodman Manufacturing Co., L.P.
1501 Seamist, Houston, Texas 77008 713-861-2500

References

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