KR0121127Y1 - A washing machine with a overflow detecting function - Google Patents

Abstract

The present invention relates to an electric washing machine equipped with an overflow detection function, and in particular, an overflow detection device having an overflow detection device equipped with an overflow detection device capable of detecting an overflow phenomenon at an upper side of an outer case to detect overflow when water overflows By generating a signal and draining it safely, even if an abnormality occurs in the water supply operation, the maximum level of the washing tank is kept constant, which improves the stability of the washing machine system and the microcomputer washes the washing system according to the overflow detection signal. The present invention relates to an electric laundry equipped with an overflow detection function to improve the reliability of the system according to the present invention, and to the outer case 2 and the lower side of the outer case 2 to form an outer shape of the body. Electric washer with drain hose 7 installed to drain water In the upper case of the outer case (2), the sump (8) is formed integrally so that the overflow water can be collected when overflowed, and the sump (8) of the sump (8) 8) a drain pipe 9 for draining the water to be collected by the water is installed to be connected to a part of the drain hose 7, and a certain portion of the sump 8 can detect an overflow phenomenon. Overflow detection device 10 is installed.

Description

Electric washer with overflow detection

1 is an explanatory diagram of an electric washing machine to which the present invention is applied,

2 is a circuit diagram for explaining the overflow detection apparatus of the present invention.

* Explanation of symbols for main parts of the drawings

1: washing tank 2: outer case

3: washing motor 4,5: belt and pulley

6: shaft shaft 7: drain hose

8: sump 9: drain pipe

10: overflow detection device 11: detection unit

12: A / D converter 13: Micom

14: Thermistor

The present invention is suitable for an electric washing machine equipped with an overflow detection function. In particular, an overflow detection signal is generated to detect an overflow phenomenon on the upper side of the outer case, and it is safely drained, thereby causing an abnormal water supply operation. Even if this occurs, the maximum water level in the washing tank is kept constant, which improves the stability of the washing machine system, and the microcomputer controls the washing operation of the washing machine system in accordance with the overflow detection signal, thereby improving the reliability of the system. It relates to an electric washing machine equipped with a detection function.

In general, an electric washing machine uses various sensors to clean laundry, and such sensors are used in various types of sensors, such as a pollution state sensor for measuring the contamination state of laundry or a water level sensor for measuring the water level in the washing tank. . Then, the water level sensor as described above detects the pressure change according to the water level of the water supplied into the washing tank (not shown) and converts it into an electrical signal and transmits the converted measurement signal to the microcomputer (not shown) and the measurement at the microcomputer After judging the time, the water level is adjusted according to the judgment result.

However, since the conventional electric washing machine does not have a water overflow (hereinafter referred to as overflow) detection function, when the water level sensor is defective or the microcomputer malfunctions, the water in the washing tank does not stop even if water is supplied to the maximum level. In addition, the unstable state was generated, as well as there was a problem that the fire is caused by a short circuit due to this overflowing water.

The present invention has been devised to solve the above problems,

In the upper part of the outer case, a water collecting tank equipped with an overflow sensing device to detect the overflow phenomenon generates an overflow detection signal when water overflows and drains it safely. Even if a problem occurs, the maximum water level of the washing tank is kept constant, which improves the stability of the washing machine system. In addition, the microcomputer controls the washing operation of the washing machine system according to the overflow detection signal. It is an object of the present invention to provide an electric washing machine equipped with a device.

The present invention for achieving the above object,

An outer case to form the outer shape of the body, a drain hose which is installed on the lower side of the outer case to drain the water, and integrally formed on the upper end of the side of the outer case to collect the overflow water in case of overflow A sump can be installed, a drain pipe installed at a lower end of the sump and connected to a part of the drain hose to drain the water collected into the sump, and installed at a predetermined portion of the sump to overflow It is characterized by consisting of a detection device of the overflow to be detected.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Electric washing machine of the present invention is formed in a predetermined space as shown in Figure 1 is installed on the inner side of the outer case 2 to form the outer shape of the washing tank 1 to perform various washing operations, etc. The lower surface of the outer case 2 is installed so that the washing motor 3 driving the pulsator (not shown) is interlocked with the shaft shaft 6 via the belt 4 and the pulley 5. On the lower side of the outer case (2), a drain hose (7) for draining the water discharged during dehydration administration is properly installed.

And the upper end of the side of the outer case (2) is formed integrally with the sump (8) to be able to collect the overflow water when overflowing, the sump (8) at the lower end of the sump (8) A drain pipe 9 capable of draining the water collected by the pump is installed to be connected to a part of the drain hose 7. In addition, an overflow detection device 10 is installed at a predetermined portion of the sump 8 to detect an overflow phenomenon.

On the other hand, referring to the circuit diagram of the overflow detection apparatus with reference to Figure 2, the present invention is a detector 11 to detect the overflow phenomenon by the temperature change, of the analog sensed from the detector 11 The A / D converter 12 is configured to convert the detection signal into a digital signal, and the microcomputer 13 receives the overflow detection signal from the A / D converter 12 to control the operations of various washing administrations. In addition, a bias voltage Vcc is connected to _one end of the thermistor 14 through a resistor R ₁ , and a capacitor C is connected between the thermistor 14 and the resistor R ₁ . Is connected to a bias resistor (R ₂ ), one end of the capacitor (C) is connected to the input terminal of the A / D converter (12). Here, when the thermistor 14 is influenced by an external influence, that is, an object or a material having heat conductivity, the temperature changes, and accordingly, the internal resistance value changes, and thus the output voltage characteristic changes. It is a semiconductor device with resistance characteristics.

Next will be described the effect of the present invention made of the configuration as described above.

To operate the electric washing machine of the present invention, as shown in FIGS. 1 and 2, the laundry is first put in the washing tank 1, and then cold or hot water is set through the keyboard (not shown). Then, the microcomputer 13 detects the weight of the laundry, and the laundry sets the amount of water and the amount of washing according to the weight, and the microcomputer 13 inputs the washing material according to the set data and opens the water supply valve (not shown). Open to let water in. At this time, the microcomputer 13 continuously checks whether the water supply operation proceeds normally using a water level sensor (not shown), and if determined to be qualitative, supplies the water to the optimum water level and then performs the set washing stroke.

Here, in the normal water supply operation, water does not come into contact with the thermistor 14 of the overflow sensing device 10, so that the output voltage of the thermistor 14 is kept constant. However, if the water level sensor or the microcomputer 13 malfunctions and the water supply operation continues beyond the set optimum water level, an overflow (water overflow) phenomenon occurs because the water level is finally exceeded. Then, as shown in FIG. 1, all the overflowed water flows into the sump (8), and the water collected in the sump (8) is drained to a predetermined place through the drain pipe (9).

At this time, the thermistor 14 of the overflow detection device 10 installed at a predetermined portion of the sump can come into contact with the overflowed water, causing a sudden temperature change, thereby changing the internal resistance value. Accordingly, the output voltage of the sensing unit 11 also changes, and the converted output sensing voltage is input to the microcomputer 13 via the A / D converter 12. That is, as shown in FIG. 2, in the normal water supply operation, the bias voltage Vcc flows to the thermistor 14 through the resistor R1, and when overflow occurs, the surface temperature of the thermistor 14 is increased. As the internal voltage increases rapidly and the internal resistance increases, the bias voltage is input to the A / D converter 12 through the resistor R2.

Therefore, this A / D converter 12 converts this output sensing voltage into a digital signal and inputs it to the microcomputer 13, and in the microcomputer 13 according to the output sensing voltage of the input sensing unit 11 in the present system. It is determined that an overflow phenomenon occurs in the middle of the water supply and stops the entire operation of the water supply operation and washing, and alerts the overflow occurrence error signal to the outside.

As described in the above description, the present invention installs a sump having an overflow detection device capable of detecting an overflow phenomenon on the upper side of the outer case and generates an overflow detection signal when water overflows. By completely draining, even if an abnormality occurs in the water supply operation, the maximum water level of the washing tank is kept constant, thereby improving the stability of the washing machine system, and according to the overflow detection signal, the microcomputer controls the washing operation of the washing machine system accordingly. There is also an effect to improve the reliability of.

Claims (3)

In the electric washing machine having an outer case (2) to form the outer shape of the body and a drain hose (7) installed on the lower side of the outer case (2) to drain water, the outer case (2) The sump (8) is formed integrally with the upper end of the lateral side so that the overflowed water can be collected when overflowed, and the water is collected by the sump (8) at the lower end of the sump (8) A drain pipe 9 is installed to be connected to a part of the drain hose 7, and an overflow detection device capable of detecting an overflow phenomenon at a predetermined portion of the sump container 8 ( 10) Electric washing machine with an overflow detection function, characterized in that is installed. According to claim 1, wherein the overflow detection device for detecting the overflow phenomenon by the temperature change unit 11, A to convert the analog detection signal output from the detection unit 11 into a digital signal / D converter 12, the overflow detection function, characterized in that the microcomputer 13 to receive the overflow detection signal converted from the A / D converter 12 to control the operation of various washing strokes Equipped with a washing machine. 3. The electric washing machine according to claim 2, wherein a thermistor (14) is provided to enable the sensor to act as a sensor.