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Ice Maker would not stop making ice.
First, I tested the ice maker "switch" that actually just covers the beam that regulates the ice maker. In the "off" position, it still made ice. Then, I removed the three screws on the cover over the transmitter and disconnected the circuit board at the wire connector. It stopped. After ordering and receiving the new transmitter and receiver boards, I replaced both boards. They are located on either side of the freezer compartment under panels held in place by three screws. Probably saved 150 to 200 bucks.
Fridge was getting too warm, ice buildup on coils.
WARNING: REPLACING THIS PART REQUIRES CUTTING AND SPLICING ELECTRICAL WIRES. RISK OF ELECTRICAL SHOCK OR FIRE. DO NOT ATTEMPT THIS REPAIR IF YOU ARE NOT EXPERIENCED WITH ELECTRICAL WIRING.
Part Info: The bi-metal strip is clipped onto the evaporator coils and is designed to regulate the defrost coil temperature. If it is not functioning properly you may notice ice buildup preventing air flow (and preventing proper refrigeration), or more rarely the freezer side may get too warm during the defrost cycle.
1: UNPLUG THE FRIDGE! If there is ice buildup, wait until the ice has melted. A box fan blowing at the ice will help melt it more quickly.
2: Remove the panel covering the evaporator coils. It's located inside the fridge, on the freezer side.
3: Un-clip the bi-metal strip from the evaporator coils.
4: Unplug the wires from the evaporator fan, defrost coil and bi-metal strip, then disconnect the main connector that is plugged into the rear wall.
5: Clip both wires to the old ( bad ) bi-metal strip. Cut close to the casing of the bi-metal strip so there are long wires to splice onto.
6: Strip 1/4 to 1/2 inches of insulation off of the ends of the wires ( depending on the size of the wire-nuts you use). Twist the bare wires slightly to prevent fraying.
7: Do the same for the ends of the wires on the (new) bi-metal strip.
8: Take the ends of the wires belonging to the (new) bi-metal strip and the wires coming from the main plug. Take the like-colored wires, and twist the bare metal ends together.
9: Twist on wire nuts, for both sets of wires. Make sure they are snug, with no bare wire showing.
10: Tape over the wire nuts with electrical tape. Tape over the wires nuts in a spiral fashion, completely covering the nut and both wires that are now spliced together. This will prevent accidental shorting.
11: Plug the main plug back into the rear wall of the fridge. Also re-connect the connectors to the evaporator fan and defrost coil. Make sure the clips on the connectors are snug to ensure a good connection.
12: Clip the new bi-metal strip onto the coils, in the same spot as before. ( Usually just after the small incoming copper tubing that connects to the coils, known as the expansion valve. That is usually the coldest spot on the coils during operation).
13: Replace the panel that covers the coils.
14: Plug the fridge back in... Now you fridge should defrost correctly. If it does not, your defrost coil could be burned out, or the control board could be faulty.
I used a flat-head screwdriver to pop out the old light rocker switch. Then, I unplugged the wires, plugged them into the new light rocker switch, and then popped the new switch into the hole. That's it! Lights began working again.
The easiest thing to do was pull the ice make off. After taking the 3 screws out of the wall of the freezer, take a screwdriver (flathead) and push on the tab for the electrical plug and wiggle the cord out. Then you can take 3 screws out for the main cover and another 2 screws on the next cover. There's the part, pop it out and replace holding pins and start the process of putting back together the opposite way you took it apart.
I first removed the power cord of the refrigerator from the receptacle. I then removed the screws (3 each) from both the emitter and receiver face plates with a phillips screw driver. I than carefully removed the connector to the each of the circuit boards. A simple pull maneuver. I removed the circuit boards from the face plates. I took the new parts and put them back in reverse order. I put the power cord back in the receptacle.
First I removed the old lightbulb from the socket and replaced it with a new one to confirm that the bulb was not the problem. I then pryed the socket out with a flat-head screwdriver. I could tell that the socket was anchored in its hole with clips so it was relatively easy to pry it out. Once the socket was out, I disconnected the lead wires and ordered a replacement socket kit from Partselect. When the new one arrived, I reconnected the lead wires to it, snapped it back into its hole, screwed in a new lightbulb, and presto!! The light was back on with no further problem. Thank you, Partselect!! A $15.00 part saved me what probably would have been at least a $100. service call and heaven knows what the technician would have told me I needed!!!
KITCHEN AID SIDE-BY-SIDE REFRIGERATOR ICE-MAKER stopped working due to a broken motor assembly.
Changing the KITCHENAID MOTOR ASSEMBLY TO THE ICE-MAKER was fairly straightforward. The hardest part was figuring out WHAT was broken and how to fix it. I was determined to save myself hundreds of dollars by doing it myself and avoiding a visit by the 'repairman'.
1.) Went to KitchenAid website to look at Parts List for my side-by-side refrigerator and ice maker assembly (a PDF file, easily downloadable) . The illustrations helped me visualize the assembly and various parts involved. 2.) Removed cover on front of ice maker. 3.) Removed hex-head screw on undersurface of icemaker on the right, which stablilizes a plastic cover for the electrical connector to the ice maker. Once this is off, it's then possible to slide the ice maker out. 4.) Slide the ice maker out from it's 'shelf' in the freezer. You won't be able to completely remove it until you disconnect the power supply. 5.) Disconnect the multi-pin power connector. (It's probably safest to unplug the refrigerator altogether before doing this, but I did not. No exposed metal wiring or connectors. No problems when I did it this way.) 6.) Once the ice-maker was out, remove the white cover from the motor assembly (on the left side of the unit). 7.) Remove the three screws from the black housing of the motor assembly. (This is where I discovered that the connector between the motor and drive-train was broken and needed to be replaced.) 8.) Remove and replace the drive system for the ice cube ejector. 9.) Then reverse the steps to reassemble.
This may seem a bit vague, but it's really quite straightforward once the ice maker is out of the freezer. The replacement motor assembly includes the motor, the motor housing, the drive-train, and the ice-cube ejector. Very easy to re-asemble.
Shopping for and ordering the part took some time since there are so many different after-market parts dealers. In all honesty, I'm glad I decided on PartSelect.com. They had a decent price, safe checkout, and timely delivery. All the essentials of a good online store.
Thanks, and good luck to the next guy who has to deal with a KitchenAid snafu.
Beeping noise compressor cutting in and out intermittently
Hello,
My repair went well, wifey was not really sure about me to fixing my own refrigerator at first. however, it was a simple matter for me since i am the owner of my own Refrigeration and Air Conditioning company.
I diagnose, isolated and replaced the problem.
which was really the compressor relay however since the relay was built into the board and i could not relay is built into the board i had to replace the entire board.
Now please note that this symptom is also common to other part so one must first be certain that it is the control board Thank you Ricardo
While looking for parts I read the advice on you web site under the ice maker parts. I also had problems reading the LED codes. They would change each time I unplugged the refrig and powered up. I took the other guys advice, ordered the emittered and receiver and the next morning I had ice. GREAT service guys, thanks. Also the part was on my door step in 1.5 days. Sure beat an expensive service charge.
The ice maker was not getting water. I hotwired the water valve by switching the connectors for the water dispenser and ice maker water valves and water flowed into the icemaker when the water dispenser lever was pushed. I wronly assumed the water valve was good. I removed the icemaker and determined that the gear motor was not getting power in the position the icemaker had stopped.In this position, the thermostat determines when the motor gets power so I replaced the thermostat. The icemaker still would not get water! As it turns out, the water solenoid was sticking due to a deteriorated rubber washer which let the solenoid plunger get too far out of the magnetic field. I replaced the water solenoid assy and all is well. Don't get fooled by hotwiring the valve. If it isn't getting water, the solenoid probably is the culprit.
An easy job for smaller hands. Removed the two bolts holding the light cover. Removed two electrical connections from the old switch by pinching the retaining clip,removed the switch, snapped in the new one and re-attached the connectors. Your online illustrations helped me to know that the plastic housing for the light switch would only swing down so far and was not intended to be removed. Saved me from breaking that plastic cover's tabs. This home repair saved me more than 5 times the cost of hiring a professional to do it. Very happy homeowner.
Compressor running intermittently, Refrigerator Temperature getting higher, Display panel working intermittently
Getting to the board was the hardest part; once the cover was removed and the housing for the control board removed it was simply unplugging 6 connectors and plugging in the new board.
This product comes in a bottle with a brush like Liquid Paper. It goes on incredibly easy. A second coat might be needed. I wanted to prevent rust from setting in so I covered the scratches and dings. The paint is a little brighter since my washer is 10 years old but it still looks great.
If you remove the bottom vent panel of the refrigerator there are two schematics for the refrigerator. One for the fridge and one for the icemaker. The icemaker has an emitter and a receiver that will tell the icemaker when it is ok to dump ice and add water. The receiver has an LED that blinks different codes. The codes give you an idea where your problem is located. In my case it coded out to be the optics (emitter and receiver). Replacement of the parts involves the removal of three screws on each component and disconnecting a wire harness on each component. Install the new components by following the removal process in reverse. The total cost was $80.00. This was half the price Sears wanted for the parts and about the same price to have a Sears repairman just show up at the house.