A final condition that could cause weak pump-out is a loose drive belt that doesn’t rotate the water pump. A sure and quick check that involves no hand tools is to turn the timer knob to a cycle where there is a motor function such as spin or agitate. With the timer dial on spin cycle, the washer should begin to spin the clothes. If you hear the sound of the motor running, but the washer tub is not moving or attempting to spin the clothes, then it can be assumed that the washer drive belt is slipping on the drive motor pulley or the belt is broken. Read the rest of this entry »
The drive motor start and run windings can be checked with a volt/ohmmeter. Set the volt! ohmmeter on the RX-1 scale and place one probe on the white lead of the drive motor terminal block, the remaining probe is placed on the blue lead of the drive motor terminal block. The volt/ohmmeter should show continuity (or approximately four ohms resistance) if the motor winding is good. No continuity would suggest an open or burned-out winding. If the drive motor has a humming sound when the motor tries to start, the start switch must be checked. Read the rest of this entry »
If the washer is not spinning, the next check is of the washer control magnet. Washers use a control magnet, an electrical-mechanical component, to enable the gearcase to shift into the spin cycle. You can easily check the control magnet by using the volt/ohmmeter set on the RX-10 scale. With the volt/ohmmeter on RX-10 scale, connect the probes to both terminals of the control magnet. NOTE: When checking a suspected faulty control magnet, remove the wires from the washer wiring harness to avoid an inaccurate reading. Read the rest of this entry »
Specific failure symptoms include: 1) Washer advances through the cycle but leaves water in the tub, or 2) The washer pumps all of the water out of the tub but clothes are wet at end of the cycle.
Check to be sure the washer lid is securely closed. Most automatic washers are designed to shut OFF if the washer lid is in the “up” position. This is a safety feature designed to prevent injury if the lid is opened while the washer is running and spinning.
Check to make sure that the washer power cord has not worked loose in the wall receptacle. A faulty connection could be the cause of washer failure. Read the rest of this entry »
Specific failure symptoms include: 1) Washer fills with water, and motor starts to run, but the washer agitator does not turn in either a clockwise or counterclockwise direction, or 2) At end of cycle, clothes are gritty and soapy with water.
To find the cause of the problem, first check to make sure that the washer power cord has not worked loose in the wall socket. Read the rest of this entry »
Specific failure symptoms include: 1) When the washer is turned ON, nothing happens. 2) When the washer is turned ON you hear a faint “buzz.”
To find the cause of this problem, first check to be sure that the washer is plugged in a working power source.
Make a line voltage check at the washer receptacle to determine if the problem is a faulty power receptacle or a problem within the washer. Make a voltage line check by setting the volt/ohmmeter on the 150 A/C scale and placing the probes in the holes of the wall receptacle. The meter should read 110-125 volts. Read the rest of this entry »
If the heating element tests OK, you should next check all the electrical wiring from the dryer timer assembly, thermostats, and drive motor. Electrical wiring in a dryer becomes brittle and burned because of the excessive heat. To locate defects in the wiring, use a volt/ohmmeter to make continuity checks on wires that you suspect are faulty.
The problem of no heat in the gas dryer is much the same as the electric dryer, except that instead of checking for a possible defective heating element, you must check the gas ignition circuit. A sure and simple test is check voltage to the gas burner wiring harness. Read the rest of this entry »
Unplug refrigerator power cord. Using hand tools, remove the icemaker from the freezer section of the refrigerator. Remove the front cover from the icemaker. Remove the front component plate that is secured to the ice maker support housing. Remove the screws that secure the cycling thermostat to the icemaker support.
Remove electrical wires from the terminals on the support housing, and carefully remove the thermostat. Read the rest of this entry »
