KR0122371Y1 - Cloth amount detecting circuit for a washing machine - Google Patents

Abstract

The present invention relates to a quantity detection circuit of a washing machine, and the conventional circuit has a large error in detection of the quantity due to the large variation of the sample of the photo coupler, and also increases the cost because a large capacity resistor is required to drive the photo coupler. In addition, the output voltage of the photo coupler is fine, and an amplification part must be provided to amplify it. However, there is a problem that an error occurs in the detection of the amount of capacity due to the amplification deviation of the amplification part. The object of the present invention is to solve the conventional problems, to reduce the number of parts to reduce the cost and to improve the reliability of the washing machine can detect the amount of capacity detection circuit can be accurate.

Description

Quantity detection circuit of washing machine

1 is a quantity detection circuit diagram of a conventional washing machine.

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

3 is the output waveform diagram of each part in the present invention.

* Explanation of symbols for main parts of the drawings

100: DC converter 200: Clamp

300: microcomputer R11, R12: resistance

The present invention relates to a quantity detection circuit, and more particularly, to a quantity detection circuit of a washing machine to be suitable for detecting the correct quantity in the washing tank.

FIG. 1 is a conventional capacity detection circuit diagram of a washing machine. As shown therein, a pressure reducing resistor R1 and a pressure reducing resistor R1 for reducing the counter electromotive force generated by its inertia rotation when the motor M is turned off. Amplifying the diode D1 for rectifying the reduced voltage through the photocoupler, a photo coupler PC1 for outputting a quantity detection signal according to the magnitude of the output voltage of the diode D1, and an output signal of the photo coupler PC1. It consists of an amplifying unit (1) and a microcomputer (2) for receiving the output signal of the amplifying unit (1) to sense the amount of water in the washing tank.

Referring to the operation of the conventional circuit configured as described above is as follows.

When the washing machine is driven and the counter electromotive force is generated by its inertia rotation when the motor M is turned off, the counter electromotive force is reduced by the decompression resistor R1 and rectified by the diode D1 and outputted. The rectified voltage through is applied to the photo coupler PC1, and the photo coupler PC1 outputs a signal according to the applied voltage. In this case, the turn-on amount of the photo coupler PC1 varies depending on the magnitude of the applied voltage.

Since the output signal through the photo coupler PC1 is weak, the amplifier 1 amplifies the output signal.

Since the electrical signal output through the photo coupler (PC1) depends on the number of revolutions of the motor (M), the microcomputer (2) receives the output signal of the photo coupler (PC1) through the amplification unit (1) Can detect the amount of gas within.

However, such a conventional circuit has a large amount of error in detection of the photocoupler due to the large variation of the sample for each sample, and also increases the cost because a large capacity resistor is required to drive the photocoupler, and the output voltage of the photo coupler is fine. In order to amplify, an amplification unit must be provided, but there is a problem in that an error occurs in the detection of the amplification by the amplification deviation of the amplification unit.

The object of the present invention is to provide a quantity detection circuit of a washing machine that can accurately detect the quantity by reducing the number of parts and improve the reliability without using a photocoupler or the like to solve the conventional problems.

The quantity detection circuit of the washing machine for achieving the object of the present invention is a voltage dividing means for dividing the back electromotive force generated by its inertia rotation when the motor (M) is off by a resistance, and smoothing the output voltage through the voltage dividing means DC rectifying means for rectifying and outputting the DC voltage; clamp means for clamping the output voltage of the DC converting means to a predetermined level and outputting the quantity detection signal; and determining the quantity of the laundry in the washing tank by receiving the output signal of the clamp means. It consists of a microcomputer.

Hereinafter, with reference to Figures 2 and 3 attached to an embodiment of the present invention in detail as follows.

When the motor M is turned off after driving of the washing machine, when the inertia rotation outputs a voltage of the counter electromotive force as shown in Fig. 3A, the voltage is divided by the resistors R11 and R12. The pressure is reduced as shown in FIG.

At this time, the voltage of the counter electromotive force output by the inertia rotation of the motor (M) is reduced to a value by the following equation (1).

(V1: divided voltage, V: output voltage of counter electromotive force by inertia rotation of motor)

For example, V = 220V and R11 = 470K And R12 = 30K If, the divided voltage (V1) by the formula (1),

Becomes In other words, the high voltage of 220V is reduced to a low voltage of 13V.

The voltages distributed by the resistors R11 and R12 are smoothed in the capacitor C11 of the DC converter 100 and smoothed through the diode D11 and output as DC voltages. Is clamped below a predetermined voltage (5V) by the diodes (D12, D13) of < RTI ID = 0.0 > 1, < / RTI > and is applied to the microcomputer 300 as a signal having a waveform as shown in FIG.

In more detail, when the DC voltage output from the DC converter 100 becomes + 5V or more, the diode D12 is turned on so that a voltage of up to + 5V is applied to the microcomputer 300. When the ground potential is lower than the diode D13, the diode D13 is turned on so that the voltage of the minimum ground potential is applied to the microcomputer 300. Accordingly, the microcomputer 300 detects the amount of water in the washing tank according to the magnitude of the input voltage.

As described in detail above, the present invention does not use a photocoupler, so the configuration thereof is simplified, so that the number of parts is reduced, thereby reducing costs, reducing errors, and improving reliability.

Claims (1)

In a quantity detecting circuit of a washing machine that detects a quantity using a counter electromotive force generated by its inertia rotation when the motor (M) is off, resistors (R11, R12) for dividing the voltage of the counter electromotive force generated by the motor (M) And a DC converter 100 for smoothing and rectifying the voltage divided by the resistors R11 and R12 by the capacitor C11 and the diode D11 and outputting the DC voltage. The output voltage is clamped to a predetermined level by a diode (D12) to which a power voltage is applied to the cathode and the diode (D13) grounded at the anode, and is configured as a clamp unit (200) for outputting a dose detection signal to the microcomputer (300). Capacity detection circuit of the washing machine characterized in that the.