KR970000049B1 - Cold and hot water valve control circuit - Google Patents

Abstract

The circuit is designed to control the quantity of cool and hot water supplied to the washing tank of a washing machine. The circuit includes : a temperature detective sensor (R1) for varying resistance value depending on the power (B+) applied as a reference voltage and the temperature; a comparator (OP) for detecting the temperature by comparing the power (B+) applied as a reference voltage with the power (B+) applied by dividing into a resistance (R3); and cool and hot water valve control sections (25, 35) for controlling water supply and driven a micro computer (15).

Description

Cold and hot water valve control circuit

1 is a circuit diagram according to the present invention cold and hot water valve control circuit.

2 is a time chart illustrating a state in which proportional control is performed according to the output of the comparator OP.

* Explanation of symbols for main parts of the drawings

15: Micom 25: hot water valve control unit

35: cold water valve control unit 45,55: power supply unit

OP: Comparator RY ₁ , RY ₂ : Relay

SV ₁ , SV ₂ : Solenoid Valve R ₁ : Temperature Sensing Sensor

R ₂ -R ₁₂ : Resistance Q ₁ , Q ₂ : Transistor

B ⁺ : power

The present invention relates to a water supply system for supplying water in a washing machine washing tank, and more particularly, to control the amount of cold and hot water so that water can be supplied while maintaining a predetermined temperature of the water in the washing machine washing tank. It relates to a hot water feed valve control circuit.

Looking at the water supply device of a general washing machine, in the past, only cold water was used, but in recent years, cold water and hot water were simultaneously supplied to wash the laundry inserted into the washing machine more effectively.

In particular, by making a reservation by the control means whether or not the water supply of cold and hot water to be supplied to the washing tank of the washing machine, the washing machine is controlled under the control means of the washing machine in the case of going out after a scheduled time for washing or seeing other tasks. After the cold and hot water was supplied to the washing tank, the laundry could be washed through a washing process and a dehydration process.

However, by controlling the water supply valve of the cold and hot water supplied to the washing tank by such a control means, the laundry in the washing tank is washed after washing the laundry in the washing tank, so that the temperature of the water flowing into the washing tank may be irregularly supplied.

That is, generally, the temperature of the water flowing into the washing tank of the washing machine is most effectively washed at a constant temperature (40 ° C), or the temperature difference between the temperature of cold water and hot water is not constant, and the washing is performed at a higher or lower temperature than the constant temperature. You lose.

Therefore, the present invention has been devised to solve the above problems by using the temperature of the water in the washing tank as a temperature sensor to detect the temperature of the cold and hot water according to the temperature of the water in the washing tank to maintain a constant temperature at all times It is an object of the present invention to provide a cold / hot water valve control circuit.

Hereinafter, the cold and hot water of the present invention will be described in more detail with reference to the accompanying drawings.

FIG. 1 is a circuit diagram of a cold / hot water control circuit of the present invention. The temperature sensor R ₁ having a resistance value changed according to a power supply B ⁺ and a temperature value divided by resistors R ₂ -R ₆ and applied as a reference voltage. ) A comparator (OP) for comparing a sensor and a power supply (B ⁺ ) divided by a resistor (R ₃ ) and detecting a temperature state, and an analog / digital conversion of the output of the comparator (OP) and an output terminal (P _1). (P ₂ ) and a microcomputer 15 for outputting a low / high level control signal, and a cold / hot water valve control unit 25 and 35 driven by the control of the microcomputer 15. The microcomputer 15 has a feature that is configured to proportionally control the operation of the cold / hot water valve control unit 25, 35 according to the output of the comparator OP.

R _{7 to} R _{12, which} are not described in the drawing, are resistors, and Q ₁ and Q ₂ are transistors for driving according to the output terminals P ₁ and P ₂ output levels of the microcomputer 15. Relay interlock 45, 55 is a power supply unit for supplying driving power to the following solenoid valve SV ₁ (SV ₂ ) according to the driving of the relay (RY ₁ ) (RY ₂ ), SV ₁ , SV ₂ is The solenoid valve is driven by the driving power supplied to the power sources 45 and 55 to control the amount of cold and hot water supplied to the washing tank of the washing machine.

When described in more detail the operation effect of the present invention configured as described above.

On one side terminal (+) of comparator (OP), power supply B ⁺ divided by resistance (R ₂ -R ₆ ) is the reference voltage (R ₆ / (R ₅ + R ₆ ) .R ₄ / (R ₂ + R ₄ ) .B ⁺ ) is applied to the other terminal (-) of the comparator (OP) while the power (B ⁺ ) divided by the temperature sensor (R ₁ ) and the resistor (R ₂ ) is connected to the resistor (R ₇ ). Is applied to the comparison voltage R ₃ / (R ₁ + R ₃ ) .B ⁺ .

The comparator OP compares the reference voltage of the one terminal (+) applied with the comparison voltage of the other terminal (−) and applies the comparison value to the microcomputer 15.

At this time, the microcomputer compares the value output of the comparator (OP) which is applied to the 15 temperature sensor (R ₁₎ the other terminal of the comparator (OP) by having different resistance values according to the temperature of the water in the washing machine tub-on () Since the comparison voltage is different from the resistance of the temperature sensor R ₁ , the comparison value output of the comparator OP has a different value.

That is, when the temperature sensor R ₁ has a negative resistance characteristic, the reference voltage applied to one terminal (+) of the comparator OP is constant while the comparison applied to the other terminal (-) of the comparator OP. When the temperature of the water in the washing tank of the washing machine increases, the resistance value of the temperature sensor R ₁ decreases, so that the comparison voltage decreases in proportion to this. When the temperature of the water in the washing tank decreases, the resistance of the temperature sensor R ₁ decreases. Due to this, the comparison voltage is also applied in proportion to the increase.

Therefore, the comparator OP converts the resistance value of the detection sensor R ₁ according to the temperature of the water in the washing machine washing tank and applies the corresponding comparison value to the microcomputer 15.

In addition, in the present invention, the temperature sensor R ₁ has been described as a negative resistance, but in another embodiment, a temperature sensor having a positive resistance may be used. In the microcomputer 15 to which the comparison value is applied according to the temperature change in the washing machine washing tank from the comparator OP, the control signal of the low / high level is output to the output terminals P ₁ and P ₂ according to the comparison value to supply water to the washing tank. Control the cold and hot water supply.

When the temperature of the water in the washing tank sensed by the temperature sensor R ₁ is recognized as a higher value than a predetermined reference temperature, a high level control signal is output to the output terminal P ₂ to drive the transistor Q ₂ . Accordingly, when the relay RY ₂ remains on, the driving power of the power supply unit 55 is applied to the solenoid valve SV ₂ through the relay RY ₂ to drive the solenoid valve SV ₂ to supply cold water to the washing tank. do.

On the other hand, if the temperature of the water in the washing tank sensed by the temperature sensor R ₁ is recognized as a lower value than the reference temperature set arbitrarily, the transistor Q ₁ is output by outputting a high level control signal to the output terminal P ₁ . driving and thereby by keeping the relay (RY ₁₎ on state is applied to the solenoid valve (SV _1), the driving power of the power supply 45 through the relay (RY ₁₎ sikimeuro drive the solenoid, such as the valve (SV ₁₎ Hot water is supplied into the washing tank.

As described above, the microcomputer 15 for outputting the low / high level control signal to the output terminals P ₁ and P ₂ converts the output of the comparator OP into analog / digital conversion and then adjusts the output value according to the level of the comparison value. The control signal output time T ₁ (T ₂ ) (T ₃ ) is output differently as in (A) (B) (C) of FIG. ₂ .

That is, if the difference between the detected temperature values is greater than the set temperature, the cold / hot water supply time is lengthened as shown in (A) of FIG. 2, and if the detected temperature is too close to the set temperature, the temperature of FIG. As in (B), the water supply time is gradually shortened to make the sensing temperature equal to the set temperature.

As described above, according to the present invention, a comparison value that changes according to a reference voltage and a temperature value in a washing tank is a comparison value using a comparator. The comparison value is a cold / hot water valve control unit that controls the cold / hot water supply by analog / digital conversion in a microcomputer. By controlling the driving of the water in the washing tank washing tank has an effect that can be maintained while maintaining the temperature of the water supply.

Claims (2)

A power supply B ⁺ divided by the resistors R ₂ -R ₆ and applied to the reference voltage, and a power supply divided by the temperature sensing sensor R ₁ and the resistor R ₃ , whose resistance varies depending on the temperature value ( B ⁺ ) to compare the comparator (OP) for detecting the temperature state and the analog / digital conversion of the output of the comparator (OP) to output a low / high level control signal to the output terminal (P ₁ ) (P ₂ ) A cold / hot water valve control circuit, comprising: a microcomputer (15) and a cold / hot water valve control unit (25) for driving the microcomputer (15) to control the amount of cold / hot water supply. 2. The cold / hot water valve control circuit according to claim 1, wherein the microcomputer (15) controls the operation of the cold / hot water valve control unit (25) in proportion to the output of the comparator (OP).