KR0156133B1 - Density detection apparatus of washing water of washing machine - Google Patents

Abstract

The present invention relates to a device for detecting the concentration of the wash water contained in the washing tank, and provided with a means for detecting the concentration of the detergent contained in the wash water in the lower portion of the outer tank to the appropriate amount of detergent according to the concentration of the wash water In addition, it automatically detects the concentration of detergent contained in the wash water during washing, and re-inserts the detergent when the amount of detergent contained in the wash water is small, thereby preventing excessive use of the detergent. It also contributes to the improvement of washing efficiency.

To this end, the present invention is fixed to the lower portion of the outer tank wash water washes, the reference chamber is located in the lower portion of the measurement chamber is filled with a light medium, and fixed to one side of the reference chamber through the measurement chamber and the reference chamber in turn It consists of a light emitting element for emitting light and a light receiving element fixed to one side of the measurement chamber to receive the light emitted from the light emitting element so that the microcomputer detects the concentration of the wash water according to the intensity of the voltage flowing through the light receiving element. will be.

Description

Washing water concentration sensor of washing machine

1 is a longitudinal sectional view of the main portion of the washing machine to which the present invention is applied.

2 is an enlarged cross-sectional view of part A of FIG.

3 is a circuit diagram showing a concentration detection unit of the wash water.

4 is a graph showing the correlation between the voltage applied to the light receiving element and the detergent concentration.

5 is a principle diagram for explaining the principle of detecting the concentration of the wash water.

* Explanation of symbols for main parts of the drawings

1: outer tank 2: measuring chamber

3: well-lit medium 4: reference room

5 light emitting element 6 light receiving element

7: cover

The present invention relates to an apparatus for detecting a concentration of washing water contained in a washing tank of a washing machine, and more specifically, to allow light to pass through two materials to detect the concentration of washing water by the intensity of light refraction. .

In recent years, many people are trying to prevent environmental pollution such as air pollution, water pollution, and earth pollution.

Accordingly, in order to prevent water pollution caused by detergents discharged from the home, a campaign to reduce the amount of detergents used for washing is being developed.

However, until now, the general washing machine is not equipped with a device for detecting the concentration of the washing water, so the amount of detergent is determined according to the weight of the laundry detected by the microcomputer and the degree of contamination. When excessively charged, the water quality is contaminated, of course, when less than necessary, there was a problem that the washing efficiency is reduced that much.

The present invention has been made to solve such a problem in the prior art, by providing a means for detecting the concentration of the detergent contained in the wash water in the lower portion of the outer tank to automatically put the appropriate amount of detergent into the wash tank according to the concentration of the wash water. At the same time, the concentration of detergent contained in the wash water is sensed during washing, and if the amount of detergent contained in the wash water is small, the detergent is re-injected to prevent excessive use of the detergent and improve washing efficiency. Its purpose is to contribute.

According to the present invention for achieving the above object, the measurement chamber is fixed to the lower portion of the outer tank and the wash water, the reference chamber is located in the lower portion of the measurement chamber filled with a light medium, and the reference chamber is fixed to one side of the measurement chamber And a light emitting device that emits light to pass through the reference chamber in turn, and a light receiving device that is fixed to one side of the measurement chamber to receive light emitted from the light emitting device, and according to the intensity of the voltage flowing through the light receiving device, A washing water concentration detection device of a washing machine is provided to detect the concentration of the washing machine.

Hereinafter, the present invention will be described in more detail with reference to FIGS. 1 through 5 of the accompanying drawings.

1 is a longitudinal cross-sectional view of a main part of a washing machine to which the present invention is applied, and FIG. 2 is a cross-sectional view showing an enlarged view of part A of FIG. 1, FIG. 3 is a circuit diagram showing a concentration detection unit of wash water, and FIG. Figure 5 is a graph showing the correlation between the voltage and the detergent concentration, Figure 5 is a principle diagram for explaining the principle of detecting the concentration of the wash water, the present invention has a function to separate the detergent liquid contained in the wash water The washing machine is provided with a means for detecting the concentration of the washing water in the lower part of the outer tank (1), if the amount of detergent, washing time and water supply is determined by the amount of laundry to detect the amount of washing water and washing water and detergent according to the determined water supply amount, then washing The means for detecting the concentration of the water detects the concentration of the washing water in which the detergent is added and inputs the value into the microcomputer (not shown). In one embodiment of the present invention as a means for detecting the concentration of the wash water is fixed to the measurement chamber (2) so that the wash water flowing into the outer tank to the bottom of the outer tank (1) of the washing machine as shown in FIG. The lower part of the measurement chamber is fixed to the reference chamber (4) filled with a light medium (3).

The bottom surface of the measuring chamber 2 where the wash water is accumulated is formed in a horizontal plane parallel to the bottom surface of the outer tub 1, and the height of the measuring chamber 2 is formed slightly higher than the bottom surface of the outer tub 1, which is the measuring chamber 2. This is to ensure that all the wash water accumulated in) is drained through the drain.

In addition, the light-transporting medium 3 filled in the reference chamber 4 uses pure distilled water, because the distilled water is relatively inexpensive and easily available and light passes well.

The light emitting device 5 emitting light to pass through the reference chamber and the measurement chamber 2 in order is fixed to one side of the reference chamber 4, and the light emitting device 5 is emitted from the light emitting device 5 to the one side of the measurement chamber 2. The light receiving element 6 which receives light passing through the chamber 4 and the measurement chamber 2 in order is fixed.

In the above, the light emitting element 5 and the light receiving element 6 are incorporated in the cover 7 and the cover is fixed to the outer tub 1 as a screw 8 so that the light emitting element 5 of the reference chamber 4 is fixed. In addition to being fixed to one side, the light receiving element 6 is to be fixed to one side of the measurement chamber (2).

On the other hand, the measurement chamber 2 and the reference chamber 4 is formed of a material through which light is well communicated, and the material is preferably made of the same material, because the light emitted from the light emitting element 5 is the reference chamber (4) This is to make it easy to detect the concentration of turbid water in the microcomputer due to the intensity of the voltage flowing in accordance with the amount of light received by the light receiving element 6 by allowing the refractive index to be the same when passing through the measuring chamber 2.

On the other hand, the light receiving element 6 is displaced from the light emitting element 5 in consideration of the amount of light that is emitted from the light emitting element 5 while passing through the reference chamber 4 and the measurement chamber 2.

Referring to the operation and effects of the present invention configured as described above are as follows.

FIG. 6 is a prochart for explaining the driving of the washing machine to which the present invention is applied as a reference. First, when the laundry is put in the washing tank 9 while the power is applied, and the washing mode is selected, the control of the microcomputer is performed. The motor 11 is driven to rotate the pulsator 10 to the left and right, so that the load is applied to the motor 11 according to the amount of the laundry, in which case the amount of laundry introduced by the microcomputer due to the load on the motor. Detect the amount of detergent, washing time and water supply.

After the detergent amount, washing time, and water supply amount to be added are determined by the above operation, the driving of the motor 11 is stopped and at the same time, the automatic detergent input device is operated to inject the detergent of the determined amount and the water supply valve 12 A predetermined time (time until completion of the water supply of the determined amount) is opened and water supply is started into the washing tank 9.

In this way, a part of the wash water supplied into the washing tank 9 is continuously discharged from the washing tank 9 through the plurality of through holes formed in the washing tank and supplied into the outer tank 1, so that the washing water is filled in the outer tank. In the lower part of (1), as the measurement chamber 2 is fixed so that the washing water supplied into the outer tank is accumulated, the washing water is accumulated in the measuring chamber.

On the other hand, when the wash water collects in the measurement chamber 2, the light emitting element 5 fixed to one side of the reference chamber 9 by the cover 7 emits light, so that the infrared light emitted from the light emitting element is reflected in the reference chamber ( 4) go straight through the medium (3) in the light, the light is refracted by the refractive index of the material at the contact surface of the reference chamber 4 and the measurement chamber (2) and then measured by the cover (7) The light-receiving element receives light since the light continues to the light-receiving element 6 fixed to one side of the light source. In this case, the intensity of the voltage flowing through the light-receiving element is changed depending on the amount of light received. The concentration of the wash water is detected according to the voltage intensity.

Referring to FIG. 5 with reference to the accompanying drawings, if no detergent is included in the wash water accumulated in the measurement chamber 2 as shown in FIG. 5A, the medium 3 filled in the reference chamber 4 and the Since the concentration of the wash water accumulated in the measurement chamber 2 is almost the same, infrared light emitted from the light emitting element 5 travels straight through the medium 3 in the reference chamber 4, and then the reference chamber 4 and the measurement chamber ( At the contact surface, which is the interface of 2), only the refractive index of the material is slightly refracted. On one side of the measurement chamber 2, the light emitting device has only the refractive index of the same material that the reference chamber 2 and the measurement chamber 2 have as described above. Since the light receiving element 6 is fixed to be displaced from (5), infrared light emitted from the light emitting element 5 and passing through the interface between the reference chamber 4 and the measurement chamber 2 continues to wash the wash water in the measurement chamber. Almost all of the measurement chamber 2 As the light reception in the light receiving element 6 fixed to the side of the voltage (V ₀₎ flowing through the light-receiving element is a maximum value, stores it a microcomputer.

However, if the washing water contained in the measuring chamber 2 includes detergent, the concentration of the washing medium accumulated in the reference chamber 4 and the washing water accumulated in the measuring chamber 2 are different. The light emitted and passing through the interface between the reference chamber 4 and the measurement chamber 2 continues to pass through the wash water in the measurement chamber and is refracted as shown in FIG. 5B as proportional to the amount of the detergent contained in the wash water. Since the amount of light received by the element 6 is reduced by that much, the voltage flowing to the light-receiving element is lowered, which is stored by the microcomputer.

As soon as the concentration of the wash water supplied into the washing tank 9 is measured by the same principle, the water supply valve 12 is opened again for a predetermined time and water is further supplied to the minimum level of washable water in the washing tank 9, followed by control of the microcomputer. By rotating the pulsator 10 while driving the motor 11 for a predetermined time by the preliminary washing proceeds, and after the preliminary washing is completed, the measured concentration value of the wash water stored in the microcomputer to the micom When the measured concentration value of the wash water is smaller than the previously input concentration value, the detergent is added into the washing tank 9 by the automatic detergent dispenser in proportion to the small value. In the case where the measured concentration value of the washing water is equal to the input concentration value, the washing operation is performed for a predetermined time like a general washing machine.

After the motor 11 runs for a predetermined time to perform the washing operation, the air pump 14 fixed to the lower part of the outer tank 1 is driven to recover and store the detergent liquid contained in the wash water. The air is generated, and the generated air is supplied to the bubble generator 16 through the air hose 15, thereby generating bubbles in the wash water in the bubble chamber 17.

The bubbles generated in this way are supplied into the reservoir 19 through the connection passage 18 and are finely crushed and liquefied by the nozzle 20 and the crushing plate 21, which are foaming means, and stored in the reservoir 19 in a liquefied state. do.

As described above, as the light emitting element 5 generates infrared light even when separating the detergent liquid contained in the wash water, the generated light is received by the light receiving element 6. The concentration value of the wash water is compared with the preset concentration value. At this time, the process of recovering the detergent liquid contained in the wash water is repeated until the measured concentration value of the wash water reaches the input concentration value. The drain valve 22 is opened to drain the wash water in the washing tank 9.

However, in the washing machine that is not provided with the detergent solution recovery device, the washing valve 9 is immediately opened after the washing operation is completed to drain the washing water in the washing tank 9.

After the drainage is completed as described above, the washing and dehydrating strokes are sequentially performed in the same manner as the conventional washing machine, and then the driving of the motor 11 is stopped by the microcomputer to terminate all washing processes.

As described above, the present invention measures the concentration of the washing water to be filled in the outer tank when the washing water supplied into the washing tank is filled out into the outer tank to allow the microcomputer to input the appropriate amount of detergent by the automatic detergent dispenser according to the concentration value. As a result, water pollution due to excessive input of detergent is prevented and contributes to the improvement of washing efficiency.

Claims (7)

A measurement chamber fixed to the lower part of the outer tank to wash the wash water, a reference chamber filled with a light medium located at the lower part of the measurement chamber, and fixed to one side of the reference chamber to emit light to pass through the measurement chamber and the reference chamber in order. A light-emitting device and a light-receiving device fixed to one side of the measurement chamber to receive the light emitted from the light-emitting device so that the microcomputer senses the concentration of the wash water according to the intensity of the voltage flowing through the light-receiving device. Washing water concentration sensor. The washing water concentration sensing apparatus of claim 1, wherein the bottom of the measuring chamber is a horizontal plane parallel to the bottom of the outer tub, and the position of the measuring chamber is set higher than that of the outer tub. The washing water concentration detecting apparatus of claim 1, wherein the medium filled in the reference chamber is used as distilled water. The washing machine according to claim 1, wherein the light emitting device is fixed to one side of the reference chamber and the light receiving device is fixed to one side of the measurement chamber as the light emitting device and the light receiving device are built in the cover and the cover is broken outside the outer tank. Washing water concentration sensor. According to claim 1, wherein the material constituting the measuring room and the reference room is a wash water concentration detection device of the washing machine, characterized in that the transparent material through the light. The washing water concentration detection apparatus of claim 5, wherein the measurement chamber and the reference chamber are made of transparent material through which light is well communicated. 7. The washing machine concentration detection device according to claim 1 or 6, wherein the light emitting element and the light receiving element are arranged to be offset by the refractive index of light according to the materials of the measurement chamber and the reference chamber.