KR960009221Y1 - A washing machine - Google Patents

Abstract

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Description

washer

1 is a circuit diagram of a conventional washing machine.

2 is a circuit diagram of a washing machine of the present invention.

* Explanation of symbols for main parts of the drawings

A: Micom B: Water Level Detector

C: Drainage motor drive D: Pump drive

S1: Water level sensor P: Pump

DM: Drainage motor T1, T2: Triac

PS: Pressure switch

The present invention relates to a washing machine, and more particularly to a washing machine that is drained using a pump, the washing machine is driven by the water level sensor of the pump.

In general, the washing machine is installed in a washroom or separate laundry room that is easy to drain at home, and the drainage motor is drained by a predetermined stroke during a series of washing administrations, but in South America, it is not a separate laundry room like Korea. The washing machine installed in the kitchen is forced to drain the washing water from the washing machine through the drainage of the kitchen.

In the case of a washing machine for forced drainage using a conventional pump, as shown in FIG. 1, a microcomputer (A) for controlling a series of washing operations with a predetermined program with respect to an input signal, and the microcomputer (A) Input terminal IN of the water level sensor (S1) for detecting the water level supplied to the washing tank, transistor (TR1), resistors (R1-R3) (B) and the microcomputer (A) Drainage motor driver (C) consisting of drainage motor (DM), triac (TRIAC), transistor (TR2), resistor (R4-R6) to drain while driving by the drive output signal, and the drainage motor driver ( C) is connected by a pressure switch (PS) and a pump (P) operated by the water level pressure supplied in parallel with the water, and the conventional washing machine configured as described above drives the pump when the predetermined level is higher than the washing tank during washing. To force the water above a certain level A is adapted to.

As such, the pump P driven for forced drainage is driven by a separate pressure switch PS, and when the pump P is driven, the drain motor DM is also driven simultaneously. DM) drive, and also increase the parts and work efficiency according to the use of a separate pressure switch (PS), as well as the pressure switch (PS) is operated by a mechanical operation, so that the failure or frequent failure As a result, the device has a problem of lowering reliability.

Therefore, an object of the present invention is to provide a washing machine to drive the pump by the water level detected by the water level sensor without using a separate pressure switch, in order to realize the object of the present invention is a series of strokes by the microcomputer The pump driving unit is configured separately from the drain driving to drain after completion, and the pump driving unit is configured to be driven by the water level sensing unit for detecting the water level.

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

FIG. 2 is a circuit diagram of a washing machine of the present invention, in which a microcomputer (A) for controlling a series of washing operations with a predetermined program is input to an input signal, and a water level supplied to a washing tank at an input terminal (IN) of the microcomputer (A). A water level sensor (1) consisting of a water level sensor (S1), a transistor (TR2), and a resistor (R4-R6) for sensing the water, and a drainage motor that drains water while being driven by the drive output signal of the microcomputer (A). A washing machine composed of a drain motor driving unit (C) consisting of (DM), a triac (T1), a transistor (TR1), and a resistor (R1-R3), wherein the microcomputer (A) is connected to the water level detecting unit (B). The pump driving part (D) consisting of the resistors R7-R9, the transistors TR3, the triac T2, and the pump P, which are driven when a predetermined water level signal is inputted, is connected.

Referring to the operation and effect of the subject innovation made up as described above are as follows.

First, when a power is supplied to the washing machine, and a driving selection signal for a series of washing administrations is input from the washing operation selection input unit (not shown) to the microcomputer (A), the water supply driving unit (not shown) is operated by the microcomputer (A). Water is supplied to the washing tank through the water level is detected through the water level sensor (S1) of the water level detection unit (b) and the detected signal is turned off by the transistor (TR1) through the resistor (R1) When the water level of the washing tank reaches the level set in the washing state, the water level is detected by the microcomputer through the water level sensor (S1) of the water level sensing unit (b) and stops the water supply to the set washing operation state. The washing operation and the rinsing operation are performed following the washing operation. At this time, during the washing operation and the rinsing operation, the microcomputer (A) drives the drain motor driving unit (C) during each washing and rinsing administration. When the washing water is drained, the drain motor driving unit (C) is driven separately from the pump driving unit (D), and when washing and rinsing as described above, the water level sensor S1 of the water level sensor S When the water level higher than the water level set during the washing operation is sensed or when the water level higher than the rinsing water level is detected during the rinsing, the micom transistors TR3 through the resistors R7 and R8 of the pump driving unit D. Drive and trigger the triac (T2) to operate the pump (P) to pump water above the washing and rinsing stroke level to drain the water, but in the microcomputer (a) the water level sensing unit (b) When the water reaches a predetermined washing level or rinsing level, the microcomputer (A) interrupts the driving signal of the pump driving unit (D) to stop the driving of the pump P. Thus, the washing level and the rinsing level are set to predetermined values. Water level In one does not state that will be done the washing and rinsing.

As described above, the present invention has a water level detection unit that detects this when the washing and rinsing water level is higher than the preset washing and rinsing water level when the washing and rinsing strokes are supplied to the washing tank during the series of washing administrations. By driving the pump, it is to provide an effect that can improve the simplicity and reliability of the configuration of the device does not need to use a mechanical pressure switch for detecting a separate level.

Claims (1)

The microcomputer (A) for controlling a series of washing operations with a predetermined program with respect to an input signal, a water level sensing unit (B) for detecting a water level supplied to a washing tank, and a driving output signal of the microcomputer (A) In the washing machine composed of a drain motor driver (C) to drain while driving, the pump driver (D) to be driven when a predetermined level signal is input from the water level sensor (B) is connected to the microcomputer (a). Washing machine characterized in that it became.