KR19980045674A - Air conditioner and compressor control method of air conditioner - Google Patents

Abstract

The present invention relates to an air conditioner and a compressor control method for an air conditioner. The air conditioner is an air conditioner having an indoor unit having an evaporator and an outdoor unit having a compressor for receiving refrigerant from the evaporator, wherein the initial power supply is delayed for a predetermined time to supply the compressor to the compressor. And a power supply control section having a circuit section, a non-delay circuit section for supplying initial power to the compressor without delay, and a selection switch for selecting one of the delay circuit section and the non-delay circuit section. Thereby, the air conditioner which can select to operate the compressor for predetermined time after power supply or to drive power supply immediately is provided.

Description

Air conditioner and compressor control method of air conditioner

The present invention relates to an air conditioner and a compressor control method for an air conditioner.

An air conditioner is generally composed of an indoor unit having an evaporator, an outdoor unit having a compressor receiving a refrigerant from the evaporator, and an outdoor unit having a condenser condensing the refrigerant from the compressor.

3 is a compressor control block diagram of a conventional air conditioner. The block diagram shows that the power supply circuit 120 is connected to all the blocks, and the output signal of the indoor unit operation detection unit 124 detecting the operation of the indoor unit 122 is the compressor restart delay circuit unit 126 and the compressor delay circuit unit at the initial power supply. The output signal of the compressor restart delay circuit unit 126 and the compressor delay circuit unit 130 when the initial power is supplied is transferred to the compressor driver 128 to control the driving of the compressor 132.

In this configuration, the power supply circuit 120 rectifies and supplies a power supply voltage applied from the outside to a DC voltage, and the indoor unit operation detection unit 124 detects whether the indoor unit 122 operates and outputs an indoor unit operation signal.

When the initial power is supplied, the compressor delay circuit unit 130 is supplied with initial power, and the compressor restart delay circuit unit 126 is restarted after the compressor 132 is stopped after the indoor unit 122 is operating. For a protection of the control unit, the compressor 132 operates when a predetermined time (about 2 to 3 minutes) elapses and an indoor unit operation signal is output from the indoor unit operation detection unit 124.

However, in such a conventional air conditioner, since the compressor 132 is driven only after a predetermined time has passed after the initial power supply, unnecessary time is required in the process inspection process or the after service process, and thus productivity is reduced and the after-sales service is performed. There is a problem that the process is delayed.

Accordingly, an object of the present invention is to provide an air conditioner and a compressor control method of an air conditioner capable of selecting a function capable of driving a compressor immediately after a predetermined time has passed after initial power supply.

1 is a compressor control circuit diagram of an air conditioner according to the present invention;

2 is a flowchart illustrating a compressor control method of an air conditioner according to the present invention;

3 is a compressor control block diagram of a conventional air conditioner.

Explanation of symbols for main parts of the drawings

10: delay circuit portion 20: non-delay circuit portion

30: control signal transmitter 40: power supply control unit

50: indoor operation detection unit 60: restart delay circuit unit

70: compressor drive control unit 80: compressor

The object of the present invention is to provide an air conditioner having an indoor unit having an evaporator and an outdoor unit having an outdoor unit having a compressor for receiving refrigerant from the evaporator. And a power supply control unit having a delay circuit unit for supplying to the compressor, a non-delay circuit unit for supplying initial power to the compressor without delay, and a selection switch for selecting one of the delay circuit unit and the non-delay circuit unit. It is achieved by an air conditioner characterized in that.

Here, the indoor unit operation detection unit for detecting the power supply of the indoor unit and outputs the indoor unit operation signal, and the power is delayed by a predetermined time when the compressor restarts after the operation stops in the state that the indoor unit is in operation to be supplied to the compressor It is preferable to comprise the restart delay circuit portion.

The power supply control unit may further include a control signal transmitting unit including a comparator configured to compare a predetermined reference voltage with a voltage from any one selected from the output voltages of the delay circuit unit and the non-delay circuit unit to output a control signal. desirable.

In addition, the delay circuit portion is composed of a RC series circuit, the non-delay circuit portion is a non-resistance line connected in parallel to the resistance of the RC series circuit, the selection switch is preferably provided in the non-resistance line of the non-delay circuit portion.

According to another aspect of the present invention, an air conditioner having an indoor unit having an evaporator and an outdoor unit having an outdoor unit having a compressor for receiving refrigerant from the evaporator, wherein the initial power is delayed by a predetermined time when the initial power is supplied. Supplying the compressor to the compressor without delay, and supplying the compressor to the compressor without delay, and selecting a delay supplying step of the initial power supply and a non-delay supplying step of the initial power supply. A control method of is provided.

The method may include detecting the power supply of the indoor unit and outputting an indoor unit operation signal, and delaying a predetermined time to supply the indoor unit operation signal when the compressor restarts after the compressor is stopped while the indoor unit is in operation. It is preferable to further include.

The selecting of the initial power supply method may further include outputting a control signal by comparing a predetermined reference voltage with a voltage from any one selected from an output voltage of the delay circuit unit and the non-delay circuit unit. desirable.

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

1 is a partial circuit diagram of an air conditioner according to the present invention, which shows a part related to control of a compressor in an outdoor unit. The circuit diagram is largely composed of a power supply control unit 40, an indoor operation detection unit 50, a restart delay circuit unit 60, a compressor drive control unit 70, and a compressor 80, and the power control unit 40 again includes a delay circuit unit 10. ), The non-delay circuit unit 20 and the control signal transmitting unit 30.

In the power supply control unit 40 and the restart delay circuit unit 60, the operational amplifiers IC2 and IC3 compare the input voltages of the non-inverting input terminal and the half terminal input terminal to serve as a comparator for outputting a high or low signal. The IC1 of the indoor unit operation detection unit 50 outputs a high signal when the indoor unit operates, and the compressor driving control unit 70 uses transistors Q1, Q2, Q3, Q4, Q5, and Q6 as the switch elements. The driving of 80 is controlled.

In this configuration, when the initial power is supplied with the selection switch 11 open, the capacitor C1 connected to the non-inverting input terminal of the IC2 of the power supply control unit 40 is charged with a constant voltage through the resistor R1. While the constant voltage is applied to the inverting input terminals by the resistors R2 and R4, the output of IC2 remains low.

The output signal of IC2 applies a low signal to the base terminal of transistor Q3 to turn Q3 off, and when Q3 turns off, Q4 is turned on because 12V is applied to the base terminal of Q4 through resistor R11. When Q4 is turned on, 0V is applied to the base terminal of Q5, and Q5 is turned off. Therefore, the transistor Q3 is turned off, Q4 is turned on, and Q5 is turned off so that the compressor 80 remains stopped.

In this state, when a predetermined time elapses and C1 connected to the non-inverting input terminal of IC2 is charged with a constant voltage, the output of IC2 changes from low to high.

IC1 in the indoor unit operation detection unit 50 detects this when the indoor unit is powered and outputs a high signal. As a result, when Q1 is turned ON, when Q1 is turned ON, 0V is applied to the base terminal of Q2, and Q2 is turned OFF. Therefore, when the indoor unit operates, the transistor Q1 is turned on and Q2 is turned off.

If the output of IC2 is high and the indoor unit is operating and Q2 is OFF, the high signal output from IC2 is applied to the base of Q3 and Q3 is turned on, and by the initial output signal of IC3 of restart delay circuit section 60, Q6 turns on. When Q3 and Q6 are turned on, 0V is applied to the base terminal of Q4 and Q4 is turned off. When Q4 is turned off, 12V is applied to the base terminal of Q5 through R12 and Q5 is turned on. Therefore, the transistors Q3 and Q6 are in an ON state, Q4 is in an OFF state, and Q5 is in an ON state, and the compressor 80 starts driving.

Therefore, when the initial power is supplied while the selection switch 11 is opened, the compressor 80 is driven after a predetermined time has elapsed and the indoor unit is operated.

When the compressor 80 is restarted after stopping in the operating state while the indoor unit is supplied with power and the high signal is output from the IC1 of the indoor unit operation detection unit 50, the non-inverting of the IC3 in the restart delay circuit unit 60 is performed. C3 connected to the input terminal is charged with a constant voltage while the compressor is running, so the output of IC3 remains low.

In this state, when a predetermined time has elapsed and the voltage charged in C3 discharges to a constant voltage through R18, the forward voltage is applied by R15 and R17 connected to the non-inverting input terminal to IC3, so that the output of IC3 becomes high. This signal is applied to the base terminal of the transistor Q6, and Q6 is turned on. In this case, when the output of IC1 in the indoor unit operation detection unit 50 is high, as described above, Q2 remains OFF, Q3 and Q6 are ON, and Q4 is OFF, so Q5 is ON. . Thus, the compressor 80 is driven.

Therefore, when the compressor 80 restarts after the operation stops, the compressor 80 is driven when a predetermined time has elapsed and there is an operation of the indoor unit.

When the selector switch 11 is connected, 12V is directly connected to the non-inverting input terminal of IC2 in the power supply control unit 40 so that the output of IC2 becomes high from the beginning. When the state, Q2 is in the OFF state, as described above, Q3 and Q6 are in the ON state, Q4 is in the OFF state, and Q5 is in the ON state, and the compressor 80 is driven.

Therefore, when the initial power is applied in the state that the selection switch 11 is connected, the compressor 80 is immediately driven without a delay, and this ignorance research drive and the above-described delay drive are determined by the selection switch 11.

On the other hand, the control method of the compressor which concerns on this invention is shown by the flowchart shown in FIG. In the flowchart, it is first checked whether the test key for controlling the connection of the selection switch 11 is in an ON state (S100), and if it is in an OFF state, after a predetermined time has elapsed (S102), it is checked whether an indoor unit operation signal is output (S104). If the test key is in the ON state, it immediately checks whether the indoor unit operation signal is output without delay (S104).

As a result, when the indoor unit operation signal is output, the compressor is driven (S106). Therefore, depending on whether the test key is operated, the compressor may be selected to delay the driving of the compressor for a predetermined time or to be operated simultaneously with the power supply, thereby reducing the time required for the process inspection process and the after-sales service process.

As described above, according to the present invention, an air conditioner and a compressor control method of an air conditioner having a function of selecting an initial power supply to be driven after a predetermined time elapses or being driven simultaneously with power supply. This is provided.

Claims (11)

An air conditioner having an indoor unit provided with an evaporator and an outdoor unit provided with a compressor for receiving refrigerant from the evaporator, A power supply control unit including a delay circuit unit for delaying the initial power for a predetermined time when the initial power supply is supplied to the compressor, and a non-delay circuit unit for supplying the initial power to the compressor without delay; And a selection switch for selecting one of the delay circuit unit and the non-delay circuit unit. The method of claim 1, And an indoor unit operation detection unit for detecting whether the indoor unit is powered and outputting an indoor unit operation signal. The method of claim 1, And a restart delay circuit unit configured to delay the power by a predetermined time and to supply the compressor when the compressor restarts after the compressor is stopped in the operating state of the indoor unit. The method of claim 1, The power supply control unit may further include a control signal transmitting unit including a comparator configured to compare a predetermined reference voltage with a voltage from any one selected from an output voltage of the delay circuit unit and the non-delay circuit unit to output a control signal. Air conditioning. The method of claim 4, wherein And the delay circuit unit is configured as an RC series circuit. The method of claim 5, The non-delay circuit unit is an air conditioner, characterized in that the non-resistance line connected in parallel to the resistance of the RC series circuit. The method of claim 6, And the selection switch is installed in the non-resistance line of the non-delay circuit part. In the compressor control method of an air conditioner having an indoor unit provided with an evaporator and an outdoor unit provided with a compressor for receiving refrigerant from the evaporator, Delaying the initial power by a predetermined time when initial power is supplied to supply the compressor; Supplying initial power to the compressor without delay; And selecting the delayed supplying step of the initial power supply and the non-delaying supplying step of the initial power supply. The method of claim 8, And detecting the power supply of the indoor unit to output an indoor unit operation signal. The method of claim 8, Compressor control method further comprising the step of delaying the power supply to the compressor when the compressor restarts after the operation stops in the operating state of the indoor unit. The method of claim 8, The selecting of the initial power supply method may further include outputting a control signal by comparing a predetermined reference voltage with a voltage from any one selected from output voltages of the delay circuit unit and the non-delay circuit unit. Compressor control method.