KR200152152Y1 - Water level detecting sensor of washing machine - Google Patents

Abstract

The present invention relates to a water level sensor of a washing machine, wherein the diaphragm is changed by the air pressure which changes according to the washing machine level, and the water level detection of the washing machine detects the water level by the frequency change according to the length change of the spring compressed according to the change amount of the diaphragm. In the sensor, an adjustment member for adjusting the elastic force of the spring 54 and the pusher 54 which is moved by the diaphragm 51 is a spring 71 of a constant length above the diaphragm 51. It is composed of a structure disposed between (49), characterized in that the length change of the spring according to the change in the air pressure is kept constant so that no dead band occurs, and because it is configured in this way, it is possible to increase the reliability of the water level detection, the spring The number of parts is reduced and the guide is removed, which reduces manufacturing costs.

Description

Water level sensor of washing machine

The present invention relates to a water level sensor of a washing machine.

As shown in FIG. 1 in a conventional washing machine, in particular, a fully automatic washing machine, an outer tub 3 is installed in the washing machine main body 1, and a belt is driven in the outer tub 3 according to the driving of the motor 5. A washing and dewatering tank 9 for dewatering the laundry cloth by centrifugal force generated by transmitting power through 7 is provided in the dehydrating shaft of the driving device 11, and inside the washing and dewatering tank 9, The driving device 11 includes a pulsator 13 which performs washing by forming a stream of water in the wash water stored in the washing and dewatering tank 9 while repeating the forward and reverse rotations according to the driving of the motor 5. Is installed on the laundry shaft. At this time, the outer tub 3 accommodating the washing and dewatering tank 9 is suspended from the upper part of the washing machine main body 1.

One side of the outer tank (3) is provided with a water level sensing device to properly adjust the amount of water for the air compressed by receiving the pressure of the tap water supplied in the outer tank (3).

The water level detection device is connected to the lower portion of the outer tank (3) and the air is filled therein, the pressure transfer pipe 30, coupled to the upper end of the pressure transfer pipe 30, the inside of the pressure transfer pipe (30) The water level sensor 40 is operated by pressure.

The balancer 19 is disposed on the upper side of the washing / dehydrating tank 9 to prevent the washing-and-dehydrating tank 9 from shaking during dehydration due to an imbalance of the washing and dehydrating tank 9.

In addition, the upper side of the washing machine body (1) is hingedly coupled to one side by using the top plate 21 as a medium, the door means 23 is freely opened and mounted so as to open and close the opening of the washing machine body (1), the top plate ( On one side of 21), the operating means 25 is mounted to select washing conditions and the like.

And, the upper side of the washing machine main body 1 is connected to the water tap 29 through the hose 27 is provided with water supply means 31 for supplying the washing water into the washing and dehydration tank (9) The lower surface of the outer tub 3 is provided with drainage means 33 for discharging the wash water.

As shown in FIG. 2, the water level sensor 40 has a guide 43 interposed therebetween, and a main spring 45 having a large elastic modulus is disposed above and below the case 41. Auxiliary springs 47 having a small modulus of elasticity are arranged in a row, and the adjusting member 49 is screwed to adjust the elastic force of the main spring 45 and the auxiliary spring 47 on the upper side of the main spring 45. The cover 53 is coupled to the lower side of the case 41 via a diaphragm 51, and the upper side of the diaphragm 51 pushes the deformation force of the diaphragm 51 to the auxiliary spring 47. (pusher) 54 is disposed, a cylindrical core 55 moving together with the pusher 54 is coupled to the outside of the pusher 54, the core 55 in the case 41 The coil 57 is wound to electrically operate to form a magnetic force.

On one side of the case 41 is coupled a control means 60 in which electronic components 61 such as a capacitor, an IC, a resistor, and the like are incorporated therein. In addition, a terminal 63 for transmitting the oscillation frequency generated in the case 41 to the control means 60 is coupled between the case 41 and the control means 60.

An air chamber 53a is formed in the cover 53, and an air inlet 53b is formed so that air enters and exits the air chamber 53a. An upper end of the pressure transfer pipe 30 is connected to the air inlet 53b.

In the washing machine to which the conventional water level sensing device is configured as described above, when washing cloth is put into the washing and dehydrating tank 9 in the outer tank 3 and washing conditions are selected on a control panel not shown, hot or cold water is supplied through the water supply means 31. Is supplied to the washing and dewatering tank (9), and then the rotational force according to the operation of the motor (5) is transmitted to the driving device (11) via the belt (7), and this rotational force is decelerated in the driving device (11). It is transmitted to the pulsator 13 to rotate the pulsator (13). At this time, the pulsator 13 performs washing by forming water flow in the washing and dehydrating tank 9 while repeating the forward and reverse rotation.

Next, when washing is finished, the washing water is discharged according to the operation of the drainage means 33, and when water is supplied again through the water supply means 31, the washing and dewatering tank 9 rotates at high speed after rinsing several times. The dehydration is performed from the laundry cloth to complete the washing.

On the other hand, when water is supplied to the washing-and-dehydrating tank 9 and the outer tank 3, the water also flows into the pressure transfer pipe 30 and rises inside the pressure transfer pipe 30, thereby providing a pressure transfer pipe. (30) The air inside is compressed to increase the air pressure. This air pressure is transmitted to the air chamber 53a through the air inlet 53b of the level sensor and acts on the diaphragm 51.

The diaphragm 51 is extended so that the deformation force pushes the pusher 54.

As the pusher 54 moves upward, as the auxiliary spring 47 is compressed and continuously pressed, the main spring 45 is compressed and the distance between the core 55 and the coil 57 is changed to change the magnetic flux. The oscillation frequency changes. The oscillation frequency is transmitted to the control means 60 through the terminal 63, the water level in the outer tank is controlled by determining whether the operation of the on-off valve and the like.

However, in the water level sensor of the washing machine to which the water level sensing device configured as described above is low, that is, when the pressure is low, the water level is detected by the compression of the auxiliary spring 47, and as the water level increases, the air is compressed to become high pressure. After the 47 is completely compressed, the main spring 45 is compressed and the water level is sensed. At this time, between the level of the completion of the compression of the auxiliary spring 47 and the main spring 45 begins to be compressed, as indicated by B in the graph of FIG. This uncompression results in an area where the correct level is not detected.

Therefore, in the dead band, the distance between the core 55 and the coil 57 remains constant in spite of the increase in air pressure due to the continuous rise in the water level, so that the level to be set during control is set in the dead band B. If present, there was a problem that can not detect the correct level.

The present invention has been made to solve the above problems, an object of the present invention is to provide a water level sensor of the washing machine to remove the dead zone of the spring for the change in air pressure to increase the reliability of the water level detection and at the same time reduce the manufacturing cost. .

1 is a longitudinal sectional view showing a washing machine to which a conventional water level sensor is applied.

Figure 2 is a partial longitudinal sectional view showing the main part of the water level sensor of a conventional washing machine.

Figure 3 is a partial longitudinal cross-sectional view showing a water level sensor of the washing machine according to an embodiment of the present invention.

4 is a graph showing the relationship between the frequency and the water level of the water level sensor of the conventional washing machine.

5 is a graph showing the relationship between the frequency and the water level of the water level sensor of the washing machine according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

41: case 49: adjusting member

51: diaphragm 53: cover

55 core 57 coil

71: spring

The water level sensor of the washing machine according to the present invention is a water level sensor of the washing machine that detects the water level by changing the diaphragm by the air pressure that changes according to the washing machine water level and the frequency change according to the length of the spring compressed according to the change amount of the diaphragm. In the upper side of the diaphragm, a spring having a constant length is disposed between the pusher moving by the diaphragm and the adjusting member for adjusting the elastic force of the spring, the spring according to the change of air pressure. The change in length is kept constant so that the dead band does not occur.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. In addition, the same code | symbol is attached | subjected about the part same as the part shown in FIG. 2, and the overlapping description is abbreviate | omitted.

As shown in Figure 3, the water level sensor according to an embodiment of the present invention is one spring 71 of a predetermined length is disposed inside the case 41. At this time, the spring 71 is disposed between the pusher 54 moved by the diaphragm 51 and the adjusting member 49 for adjusting the elastic force of the spring 71.

That is, the water level sensor according to the present invention has a structure in which one spring and a guide are deleted from the conventional water level sensor, and the elastic modulus of the spring 71 is about the middle of the elastic modulus of the conventional main spring auxiliary spring.

In the water level sensor of the washing machine according to the present invention configured as described above, the air pressure increases in the upper side of the pressure transfer pipe 30 by increasing the water level by supplying water to the washing and dehydrating tank 9 and the outer tank 3. It is transmitted to the air chamber 53a through the air inlet 53b of the water level sensor, and the air pressure of the air chamber 53a acts on the spring 71 via the diaphragm 51 and the pusher 54. .

At this time, since the spring 71 is one and is not combined with another member, the force received by the pusher 54 is represented by a change in length proportional to the spring 71, as shown in FIG. Therefore, there is no dead band in accordance with the change in air pressure, it is possible to accurately detect the water level to be set during control.

According to the water level sensor of the washing machine according to the present invention, there is no dead band of the spring for the change in air pressure, it is possible to increase the reliability of the water level detection. In addition, since the number of springs is reduced and the guide is removed, manufacturing cost can be reduced.

Claims (1)

In the water level detection sensor of the washing machine for detecting the water level by the frequency change according to the change in the length of the spring is compressed by the air pressure that changes according to the washing machine level, and the change amount of the diaphragm, the upper side of the diaphragm 51 One spring 71 having a predetermined length has a structure disposed between the pusher 54 which is moved by the diaphragm 51 and the adjusting member 49 that adjusts the elastic force of the spring 71. The level sensor of the washing machine, characterized in that the change in the length of the spring is kept constant according to the change of the dead band does not occur.