KR0136081Y1 - Apparatus for protecting compressor of an airconditioner - Google Patents

Abstract

The present invention relates to a compressor protection device of an air conditioner, which is started or controlled by the control of the microcomputer (1), (1 ') and the microcomputer (1), (1') that control the overall operation of the air conditioner. In the compressor driving device comprising the motors of the compressors 3 and 3 'that are stopped, the compressor temperature at the time of starting the compressors 3 and 3' is sensed to detect the microcomputer 1 and 1 '. Temperature detecting means (4) and (4 ') for transmitting to); When the temperature sensed by the temperature detecting means 4, 4 'is below the reference temperature, the microcomputer 1, 1' to supply power to the motor coils of the compressors 3, 3 '. Power switching means (2) and (2 ') turned on by; The compressor (3), which is connected to the motor coils of the compressor (3) and (3 '), until the compressor temperature reaches the reference temperature in a state where the power switching means (2) and (2') are turned on. Compressor switching means (5), (5 ') which is turned off by the microcomputer (1), (1') to generate heat in the motor coil of (3 '). The present invention generates a heat in the coil of the compressor motor when the compressor ambient temperature of the compressor provided in the air conditioner is low so that the temperature of the compressor is always maintained at a predetermined temperature regardless of the surrounding environment, the compressor is smooth even at low ambient temperature The driving efficiency of the compressor can be improved by being driven.

Description

Compressor protection device of air conditioner

The present invention relates to a compressor protection device of an air conditioner, and particularly, when the ambient temperature of the compressor of the compressor provided in the air conditioner is low, heat is generated from the motor coil of the compressor so that the temperature of the compressor is always at a predetermined temperature regardless of the surrounding environment. The present invention relates to a compressor protection device of an air conditioner, by which the compressor is smoothly driven even at a low ambient temperature, thereby increasing the driving efficiency of the compressor.

The circuit for driving the compressor of the conventional air conditioner includes a single phase compressor starting circuit as shown in FIG. 1 and a three phase compressor driving circuit as shown in FIG. In poor environmental conditions, for example, in the winter, the motor of the compressor is turned on / off by the power switching means 2 by the control signal of the microcomputer 1 without considering the temperature change state caused by the decrease in the ambient temperature of the compressor. 3) was started.

According to the conventional compressor starting circuit, when the compressor installed in the outdoor unit is cold in winter, when the refrigerant inside the compressor is heavier than oil, the oil and the refrigerant are divided into upper and lower parts so that oil is discharged from the compressor. Due to the overload of the compressor does not operate or damage the compressor has caused a problem of shortening the life of the compressor.

On the other hand, in view of the conventional problems as described above in the winter, in order to prevent the temperature decrease of the compressor due to the temperature decrease in the prior art to start while maintaining the temperature by heating the heater or winding the heating wire, but in the prior art According to the present invention, the compressor is started in a state in which the temperature of the compressor is maintained by using a heater heating or a heating wire in a cold winter, so that the problem of the oil and refrigerant separation or overload may be solved, but a separate heater should be provided. The heating wire has to be wound and the heater and the heating wire have to be driven separately, which causes troublesome configuration.

In view of the above conventional problems, the present invention senses the temperature of the compressor at the start of the compressor of the air conditioner and when the temperature of the compressor is lowered, the power is supplied to the motor coil of the compressor in the state in which the operation of the compressor is stopped. When the temperature of the compressor reaches a predetermined temperature by the heat generated by the heating, the power applied to the motor coil of the compressor, that is, the coil wound on the motor, is cut off so that the compressor is always kept at a predetermined temperature. It is an object of the present invention to provide a compressor protection device for an air conditioner that can solve various problems that may be caused in winter and improve the efficiency of the compressor.

The present invention for achieving the above object is a compressor driving device comprising a microcomputer for controlling the overall operation of the air conditioner, and a motor of the compressor that is started or stopped by the control of the microcomputer, Temperature detecting means for detecting a compressor temperature and transferring the temperature to the microcomputer; Power switching means turned on by the micom to supply power to the motor coil of the compressor when the temperature sensed by the temperature detection means is below a reference temperature; A compressor switching means connected to the motor coil of the compressor and turned off by the microcomputer to generate heat in the motor coil of the compressor until the compressor temperature reaches the reference temperature when the power switching means is turned on. do.

1 is a circuit diagram of a conventional single-phase compressor drive device.

2 is a circuit diagram of a conventional three-phase compressor drive device.

3 is a circuit diagram of a single-phase compressor protection device of an air conditioner according to the present invention.

4 is a circuit diagram of a three-phase compressor protection device of the air conditioner according to the present invention.

5 is a flowchart of the operation of the compressor protection device of the air conditioner according to the present invention.

* Explanation of symbols for main parts of the drawings

1: Micom 2,2 ': power switching means

3,3 ': Compressor 4,4': Compressor temperature detection means

5,5 ': Compressor switching means

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

Single and three-phase compressor protection device of the air conditioner according to the present invention, as shown in Figures 3 and 4,

Micom (1), (1 ') that controls the overall operation of the air conditioner,

Power switching means (2) for supplying or cutting off power from the AC power input unit 6 and the three-phase power input unit 6 'on / off under the control of the microcomputers 1 and 1'. , (2 '),

And compressors 3 and 3 'having motors started and stopped by the power supplied through the power supply switching means 2 and 2'.

In addition, the single-phase and three-phase compressor protection device of the air conditioner according to the present invention,

Compressor temperature detecting means (4), (4 ') for sensing the temperature before and after the start of the compressor (3), (3') and apply to the microcomputer (1),

Switched by control signals output from the microcomputers 1 and 1 'to turn on / off the compressors 3 and 3', and through the compressor temperature detection means 4 and 4 '. Compressor switching means (5), (5 ') to be off when the detected compressor temperature is lower than the reference temperature to generate heat in the motor coil of the compressor (3), (3').

Here, in the compressor (3) for single-phase power supply, the compressor switching means (5) and the capacitor connected to the motor coil of the compressor (3) are short-circuited to generate heat, and in the compressor (3 ') for three-phase power supply. By shorting only one of the three-phase motor coils of the compressor 3 ', heat is generated.

Compressor protection device of the air conditioner according to the present invention is configured as described above, as shown in FIG.

A power judging step 50 for recognizing the state of the power switching means 2 and 2 'to determine whether power is applied to the compressors 3 and 3' of the air conditioner;

When the power is applied to the compressors 3 and 3 'as a result of the determination in the power source determination step 50, the compressors 3 and 3 detected through the compressor temperature detection means 4 and 4'. Compressor temperature determination step 52 for determining whether the temperature of ') is less than the predetermined reference temperature, and

A compressor switching off step 53 for turning off compressor switching means 5 and 5 'when the temperature determined in the compressor temperature judging step 52 is below a predetermined temperature;

Power switch for turning on the power switching means 2, 2 'with the compressor switching means 5, 5' turned off to generate heat in the motor coils of the compressors 3, 3 '. On stage 54,

A compressor predetermined temperature determination step 55 for determining whether the temperatures of the compressors 3 and 3 'detected by the compressor temperature detection means 4 and 4' have reached a predetermined temperature;

Air conditioner operation to determine whether the operation switch (not shown) of the air conditioner is turned on when the temperature of the compressors 3 and 3 'detected in the compressor predetermined temperature determination step 55 reaches a predetermined temperature. Judging step 56,

If the operation switch of the air conditioner is turned on as a result of the judgment in the air conditioner operation determination step 56, the power source switching means 2, 2 'and the compressor switching means 5, 5' are respectively A compressor operation step 57 for turning on the compressors 3 and 3 ', and

If it is determined in the air conditioner operation determination step 56 that the operation switch of the air conditioner is not turned on, the compressor switching means 5, 5 'are turned on and the power switching means 2, 2' are turned on. ), The compressor operation stop step 58 is performed to stop the operation of the compressors 3 and 3 '.

Referring to the accompanying drawings the operation of the compressor protection device of the air conditioner according to the present invention configured as described above in more detail as follows.

First, when power is applied to the air conditioner, the microcomputers 1 and 1 'determine whether power is supplied to the air conditioner in the power source determination step 50, and then the microcomputers 1 and 1' are determined. In the compressor temperature detection step 51, the temperatures of the compressors 3 and 3 'are detected through the compressor temperature detection means 4 and 4'. Here, the temperatures of the compressors 3, 3 'detected by the compressor temperature detection means 4, 4' are input to the microcomputer 1, 1 '.

Thereafter, in the compressor temperature determination step 52, the microcomputers 1 and 1 'determine whether the detected temperatures of the compressors 3 and 3' are equal to or less than a predetermined reference temperature. If the determination result is less than the reference temperature, the compressor temperature detection step 51 is returned to detect the temperatures of the compressors 3 and 3 '.

On the other hand, if the temperature of the compressors 3 and 3 'is less than or equal to a predetermined reference temperature as a result of the determination in the compressor temperature determination step 52, the microcomputer 1 and 1' in the compressor switching-off step 53 are performed. ) Turns off the compressor switching means (5) and (5 ').

Thereafter, in the power switch-on step 54, the microcomputers 1 and 1 'turn on the power switching means 2 and 2' to supply power to the motor coils of the compressors 3 and 3 '. The heat is generated by supplying the heat, thereby raising the temperature of the compressors 3 and 3 '.

As described above, the compressor temperature of the microcomputers 1 and 1 'is detected while the temperature of the compressors 3 and 3' is increased by applying power to the motor coils of the compressors 3 and 3 '. The temperature of the compressors 3 and 3 'is detected by means 4 and 4', and the compressor 3 and 3 'temperatures reach the reference temperature in the compressor predetermined temperature determination step 55. In determining whether the temperature of the compressors 3 and 3 'reaches a predetermined temperature, the compressor temperature detection step 51 is repeatedly performed.

On the other hand, when the temperature of the compressors 3, 3 'reaches a predetermined temperature as a result of the determination in the compressor predetermined temperature determination step 55, the microcomputer 1, 1 in the air conditioner operation determination step 56 ') Determines whether the operation switch of the air conditioner is turned on. At this time, if the operation switch is turned on, the microcomputer (1), (1') is the power switching means (2) (2) in the compressor operation step (57). ') And the compressor switching means 5 and 5' are turned on to operate the compressors 3 and 3 ', respectively.

On the other hand, if the operation switch is not turned on as a result of the determination in the air conditioner operation determination step 56, the microcomputer (1), (1 ') is the compressor switching means (5), in the compressor operation stop step 58, The 5 'is turned on and the power supply switching means 2, 2' are turned off to stop the operation of the compressors 3, 3 '.

As described above, the present invention senses the temperature of the compressors 3 and 3 'at the start of the compressors 3 and 3' of the air conditioner and detects the temperature of the compressors 3 and 3 '. If the temperature is lower than the reference temperature, the motor coils of the compressors 3 and 3 'are applied to generate heat while the compressors 3 and 3' are stopped from driving. 3) When the temperature of (3 ') reaches the reference temperature, the power applied to the motor coils of the compressors (3) and (3') is cut off so that the compressor is always kept at a predetermined temperature, which causes the cold winter. It is possible to solve all possible problems and improve the efficiency of the compressor.

Claims (1)

To the motors of the microcomputers 1 and 1 'that control the overall operation of the air conditioner and the compressors 3 and 3' which are started or stopped under the control of the microcomputers 1 and 1 '. Compressor drive device, comprising: temperature detecting means (4), (4 ') for detecting the compressor temperature at the time of startup of the compressor (3), (3') and transmitting it to the microcomputer (1), (1 ') )and; When the temperature sensed by the temperature detecting means 4, 4 'is below the reference temperature, the microcomputer 1, 1' to supply power to the motor coils of the compressors 3, 3 '. Power switching means (2) and (2 ') turned on by; The compressor (3), which is connected to the motor coils of the compressor (3) and (3 '), until the compressor temperature reaches the reference temperature in a state where the power switching means (2) and (2') are turned on. And compressor switching means (5) and (5 ') which are turned off by the microcomputer (1) and (1') to generate heat in the motor coil of (3 ').