Washer Repair
There are a few things you can look into fixing yourself before calling for washer repair when having problems. This will save you time and money. As silly as they might sound, they happen often in our field of work:
If your washer is totally non-responsive... you might want to check if it's plugged in or might have blown a fuse in the fuse box inside your apartment or outside your house.
If your washer is leaking... you will want to check the drain hose, making sure it's properly connected to the drain and does not have any cracks.
If your washer keeps filling up with water for a long period of time... and never switches to the agitate cycle, you will need to check that the drain hose is placed at the right height. When installed too low or placed too deep into the drain there is a natural siphoning effect that occurs that does not allows the washer to fill to the appropriate amount before switching to the next cycle.
When all else fails, and you need to have someone repair your washer, call us at 636-579-6222. Our customers are our greatest asset and your recommendation to your friends is your greatest compliment to us. We are more than happy to answer any questions about washer repairs that you might have, even for the "do-it-yourselfers".
How a Washing Machine Works
Washing machines get clothing clean by plunging the clothes through the water and detergent mixture. It is the motion that really helps to loosen dirt.
In top loading machines the agitator twists back and forth pulling the clothes down to the bottom of the tub. The clothes then work their way back up to the top where the agitator grabs them again. In a front loading machine, the clothes tumble and are plunged into the water over and over again. After the water is pumped out, the inner drum uses centrifugal force to wring out more water from the clothes by spinning at several hundred RPMs.
The controls consist of a timer, cycle selector mechanism, water temperature selector, load size selector and start button. The mechanism includes the motor, transmission, clutch, pump, agitator, inner tub, outer tub and water inlet valve.
The washer has two tubs, the inner tub with hundreds of holes in it and the outer tub which holds the water. During the spin cycle the inner tub spins, forcing the water out through the holes to the stationary outer tub.
The design of washing machines change by manufacturer, yet the standard elements are the same.
The cycle selector controls may include separate or integrated controls for water temperature, water level, cycle selection and a start switch.
A lid switch, which indicates whether the lid is open or closed, will interrupt some or all of the washing machine operations.
The water inlet valve connects to the water supply of your home and allows hot and cold water to flow into the tub.
The agitator is in the center of the inner tub. During the wash cycle, the agitator rotates back and forth (about 3/4 of turn) to pull the clothes through the water. At the conclusion of the wash cycle, the water is pumped from the outer tub and into the drain though the drain hose.
The pump, agitator and spin drum are driven by the motor. Some washing machines use direct drive, in which the motor is connected directly to the pump and transmission. Other machines uses a belt drive in which the motor drives the transmission through a pulley and belt. On belt driven machines, the pump is typically connected to the motor by a flexible coupling.
The transmission drives both the spin of the inner tub and the back and forth motion of the agitator. Your washer has either a single direction or a reversing motor. With a single direction motor, an electromechanical device controls whether the transmission drives the agitator or the drum. Reversing motors control the drum when they spin in one direction and the agitator when they spin in the other.
Most washing machines use a clutch to reduce the force generated by fast starting motors. The clutch allows the transmission to grab the drum or agitator in a gradual manner rather than all at once. Some washers use a clutch mechanism while others rely on slippage and gradual tension of the belt and pulley.
There are a few things you can look into fixing yourself before calling for washer repair when having problems. This will save you time and money. As silly as they might sound, they happen often in our field of work:
If your washer is totally non-responsive... you might want to check if it's plugged in or might have blown a fuse in the fuse box inside your apartment or outside your house.
If your washer is leaking... you will want to check the drain hose, making sure it's properly connected to the drain and does not have any cracks.
If your washer keeps filling up with water for a long period of time... and never switches to the agitate cycle, you will need to check that the drain hose is placed at the right height. When installed too low or placed too deep into the drain there is a natural siphoning effect that occurs that does not allows the washer to fill to the appropriate amount before switching to the next cycle.
When all else fails, and you need to have someone repair your washer, call us at 636-579-6222. Our customers are our greatest asset and your recommendation to your friends is your greatest compliment to us. We are more than happy to answer any questions about washer repairs that you might have, even for the "do-it-yourselfers".
How a Washing Machine Works
Washing machines get clothing clean by plunging the clothes through the water and detergent mixture. It is the motion that really helps to loosen dirt.
In top loading machines the agitator twists back and forth pulling the clothes down to the bottom of the tub. The clothes then work their way back up to the top where the agitator grabs them again. In a front loading machine, the clothes tumble and are plunged into the water over and over again. After the water is pumped out, the inner drum uses centrifugal force to wring out more water from the clothes by spinning at several hundred RPMs.
The controls consist of a timer, cycle selector mechanism, water temperature selector, load size selector and start button. The mechanism includes the motor, transmission, clutch, pump, agitator, inner tub, outer tub and water inlet valve.
The washer has two tubs, the inner tub with hundreds of holes in it and the outer tub which holds the water. During the spin cycle the inner tub spins, forcing the water out through the holes to the stationary outer tub.
The design of washing machines change by manufacturer, yet the standard elements are the same.
The cycle selector controls may include separate or integrated controls for water temperature, water level, cycle selection and a start switch.
A lid switch, which indicates whether the lid is open or closed, will interrupt some or all of the washing machine operations.
The water inlet valve connects to the water supply of your home and allows hot and cold water to flow into the tub.
The agitator is in the center of the inner tub. During the wash cycle, the agitator rotates back and forth (about 3/4 of turn) to pull the clothes through the water. At the conclusion of the wash cycle, the water is pumped from the outer tub and into the drain though the drain hose.
The pump, agitator and spin drum are driven by the motor. Some washing machines use direct drive, in which the motor is connected directly to the pump and transmission. Other machines uses a belt drive in which the motor drives the transmission through a pulley and belt. On belt driven machines, the pump is typically connected to the motor by a flexible coupling.
The transmission drives both the spin of the inner tub and the back and forth motion of the agitator. Your washer has either a single direction or a reversing motor. With a single direction motor, an electromechanical device controls whether the transmission drives the agitator or the drum. Reversing motors control the drum when they spin in one direction and the agitator when they spin in the other.
Most washing machines use a clutch to reduce the force generated by fast starting motors. The clutch allows the transmission to grab the drum or agitator in a gradual manner rather than all at once. Some washers use a clutch mechanism while others rely on slippage and gradual tension of the belt and pulley.