العداد - المفاتيح والتروس (تاكيهات) - الصمامات العائمة .. الآلات التي نستخدمها كل يوم

Counter - Switches and gears (tachettes) - Float valves - Washing machines .. The machines we use every day and how they perform

Counter:

The counter that you see in most washing machines is a motor with an electric clock. This meter is usually located behind the handle that you turn to start the machine. But this motor does not move the clock hands, rather it moves a counter of strangely shaped gears called "tachettes". These gears are the main parts that regulate the movement of the washing machine. To know how these gears perform their work, we will take a look at the gear that regulates the movement of the switch:

Keys and gears: (tachettes)

The task of the electric switch in the automatic washing machine is limited to giving the start and end signals to the motor that moves the entire machine. This switch performs its work in the same way as the push button that rings the bell. This means that when you press this switch or button, the current can flow, and it is also cut off if you lift your finger off it and stop pressing it. But the finger that presses this button is different, as in this machine it is the gear that we talked about.

The gear in the drawing looks like any normal gear, except for this large cut that you see on one of its sides. You should notice that this cut is facing the push button and far from it. This indicates that the button is not pressed. This is the position of the gear when the washing machine is stopped. Now we turn this machine.

The machine starts working when you turn a switch in the upper front part of it. This switch turns the gear slowly so that the cut is no longer facing that push button after a while. In this new position, the gear presses the button, and then the current opens, so it flows into the large motor that moves the whole machine, just as it flows into the small watch motor that moves this gear.

When does the machine stop working? It stops when the gear completes a full rotation so that the piece in it returns to its original position facing the push button. The electric clock turns this gear very slowly, so that by the time the power is cut off, the machine has made a number of rotations (about half speed) sufficient for the processes of soaking, washing, turning, drying and removing water from the clothes.

- Other operations require more gears:

The cylindrical vessel must be filled with clean water many times during washing a certain amount of clothes, and the vessel must be emptied each time before supplying it with clean water. This process requires a large number of gears, each of which rotates and moves by means of the same clock engine that operates the handle. Ahmed also performs these gears the task of moving the valve that regulates the movement of the hot water flow. Another gear is responsible for the cold water valve, and a third is responsible for opening a valve that allows the used water to flow out of the cylindrical vessel into the drain. Now let's see how these gears operate those valves.

The gear can operate the valve in two ways; one is used in some washing machines, and the other is used in others. The simplest method is the mechanical method that uses a valve very similar to the valve that is installed in the push button of the drinking faucet. When you press this button, the water flows. When you lift your finger from it, this valve returns to its original position by means of a spring. This happens in washing machines with mechanical valves, but the button is pressed by a gear instead of your finger. The gear has many protrusions, one of which allows hot water to enter the cylindrical container during the washing process. There is another gear with differently arranged protrusions designed to allow cold water to enter this container. (These protrusions need to be designed differently because clothes are washed in hot water, but rinsed in warm water.)

There is also a third gear that opens the drain valve so that the used water flows into it at the appropriate time. Operating the valve by the "magnetic" method requires a specific gear. But this gear does not push the valve button itself; rather, it presses the button of an electric switch. This switch allows electricity to flow through an electromagnet similar to that supplied by an electric bell. This electromagnet attracts a metal rod, which opens or closes the valve.

Float Valves:

I studied the way the gear regulates the flow of water in the cylindrical container of the washing machine. However, some of these machines are equipped with a special valve, whose job is to ensure that the water is kept away from this container when it takes what it needs from it. This valve is similar to the valve that is installed in the siphon of the bathroom. You remember that there is a hollow metal ball in the siphon tank that floats in its water. The job of this ball is limited to operating a valve that regulates the movement of the water flow in this tank. When the water flows in it, the ball floats and floats, and then it moves a rod that closes the valve and stops the flow of water.

The same system (floating ball system) is used in some washing machines - to determine the water level in the cylindrical container. However, this ball does not operate the valve directly, but rather operates a switch that regulates the movement of an electromagnet. When the water level reaches a certain height, the ball holds the water.