If you have issues with the refrigerator and need assistance troubleshooting the problem, you’ve come to the ideal area. Below you can find all of our fridge-related troubleshooting tips, and we likewise list all of the typical symptoms refrigerators experience, like not making ice or being too noisy. Select the sign your fridge is having, and you’ll discover the parts that can repair this issue.
Condenser Fan Motor
Most modern-day frost-free refrigerators will have a fan-cooled condenser coil. The condenser fan takes air through the condenser coil to get rid of heat in addition to flowing air over the drain pan to vaporize the defrost water. If your fridge is making a loud sound, the condenser fan motor could be to blame. The condenser fan motor works at the same time as the evaporator motor and the compressor. Additionally, to sound, your refrigerator might not be remaining as cool as typical and/or maybe turning on and off routinely.
How to check on a refrigerator condenser fan motor:
- Remove your refrigerator from the power source, and after that, remove the rear to gain access to the panel.
- Locate the condenser fan motor. It is usually discovered near the compressor at the bottom back of the refrigerator.
- Visually examine the condenser fan motor for any signs of wear or damage. Try to find any particles or obstructions that could be preventing the fan from moving easily.
- If the fan motor is seized or used, you will need a replacement condenser fan motor.
Evaporator Fan Motor
The evaporator fan motor is responsible for carrying air over the evaporator coils when the compressor is working. If your refrigerator makes a loud noise that seems to originate from the freezer area, a defective evaporator fan motor might be to blame. You might also notice that your refrigerator does not stay as cold as usual, or your ice takes longer to freeze.
How to check a refrigerator evaporator fan motor:
After switching off your refrigerator, eliminate the evaporator fan cover. The evaporator fan cover locates inside the system in the freezer compartment.
Check the evaporator motor for any indications of wear or damage. If there is a significant quantity of ice on the motor, thaw your freezer and see if that solves the problem.
Try to turn the motor shaft manually. It must turn easily with very little resistance.
If you can not turn it easily or visibly worn, you require a replacement evaporator fan motor.
Evaporator Fan Motor Grommet
The evaporator fan motor grommet is used to isolate the motor from the installing bracket and reduce vibration noise. Routine wear and tear can cause the grommets to wear or become detached, increasing vibration and triggering excess noise.
How to check a refrigerator’s evaporator fan motor grommets:
- Switch off your refrigerator.
- Eliminate the evaporator fan cover, which can be found inside of the freezer compartment.
- Check the grommet to find out if it has fallen off or reveal signs of wear or damage.
- If any of the above are real, you will require a replacement evaporator fan motor grommet.
Door Gaskets Or Seals
Door gaskets or seals are discovered along beyond the refrigerator’s doors. They are generally made from a vinyl product and usually have a flexible magnetic strip inside to adhere to the cabinet when the door is closed to create an airtight seal. If there is moisture along the edge of the door, examine the gaskets for distortion or damage. Air leakage through a faulty gasket will develop extreme wetness in the refrigerator, potentially leading to defrost concerns and possible water leakages.
How to examine refrigerator door gaskets or seals:
After switching off your refrigerator, open the fridge and freezer doors to check the door gaskets or seals.
You are searching for any discoloration, mold, wear, missing out on pieces, or anything else that might avoid a correct seal.
If you find any of the above, you will need to replace gaskets or seals.
Water Inlet Valve
The water inlet valve is a solenoid-operated mechanism that links your home water system line to your refrigerator if you have an ice maker or water dispenser. When started, it diverts water from the supply line to the dispenser or fills your ice maker.
How to check the water inlet valve in a refrigerator with a multi-meter:
- Remove your refrigerator, detach the supply of water and find your water inlet valve. It is generally on the back of the fridge, near the bottom. You will need to eliminate the rear panel to access it.
- Examine the valve inlet supply connections for leakages and tighten up or change the adapters. You must likewise check the valve body for any fractures or damage, Inspect the outlet tubing for cracks or abrasions that may also produce a leak, and change any cracked or fragile tubing and ports.
- If none of the above happens to be the leak, exclude the water inlet valve from the system.
- Using a multi-meter on the Rx1 setting, test your valve for continuity by placing the probes on the valve’s terminals. You ought to receive a reading of 200 to 500 ohms.
- If you get any other reading, you will be required to replace the water inlet valve.
Ice Maker Assembly
If your refrigerator is leaking water from in or around the ice maker, you are most likely experiencing problems with the ice circulation itself. The cubes may be too little, one strong block of ice or not being made at all. Check out the ice maker mold to see if there are ice cubes there. If there are no cubes, you must look for issues with the water fill system.
How to examine a refrigerator’s ice maker assembly:
- Remove your device from both the source of power and the water source.
- Check the fill tube and the fill cup area at the back of the ice maker to ensure that they are not frozen. If there is an ice accumulation because of location, confirm no foreign things have interrupted the flow of water into the fill cup.
- Examine the outlet tubing from the fill valve to the ice maker fill tube to indicate constraints.
- If any problems are found while carrying out the checks above, you will may a replacement ice maker assembly. If absolutely nothing apparent has triggered the ice buildup, then presume the inlet valve or tubing.