KR101287962B1 - Discharge control apparatus and method for air conditioner - Google Patents

Abstract

The present invention relates to a light control method of a discharge control device of an air conditioner, and when the compressor of an air conditioner using a three-phase AC power source is stopped, the voltage charged in the DC link stage is discharged without a separate device. It is to prevent damage. To this end, the present invention, in the air conditioner for generating cold air by a compressor driven by a three-phase AC voltage, if the compressor is stopped after a certain time, the compressor is restarted to discharge the charge voltage charged in the DC link stage It comprises a control unit for controlling so that.

Description

Discharge control device and method of air conditioner {DISCHARGE CONTROL APPARATUS AND METHOD FOR AIR CONDITIONER}

1 is a circuit diagram showing a configuration for a discharge control device of a conventional air conditioner.

2 is an operation flowchart of a discharge control method of a conventional air conditioner.

Figure 3 is a circuit diagram showing a configuration for a discharge control device of the air conditioner of the present invention.

Figure 4 is a flow chart of the operation of the discharge control method of the air conditioner of the present invention.

***** Description of the symbols for the main parts of the drawings *****

100: power supply unit 200: rectification unit

300: DC link stage 400, 500: inverter

600: control unit

The present invention is excessive to the discharge control device of the air conditioner, in particular, when the compressor of the air conditioner using a three-phase AC power supply, the air conditioner to discharge the voltage charged in the DC link stage without a separate device A discharge control apparatus and method of the present invention.

1 is a circuit diagram showing a configuration of a discharge control apparatus of a conventional air conditioner.

As shown in FIG. 1, a power supply unit 10, a rectifying unit 20, a DC link stage 30, a discharge unit 40, an inverter 50, 60, and a control unit 70 are provided.

The power supply unit 10 supplies operating power to the compressor of the air conditioner.

The rectifying unit 20 rectifies the three-phase AC power and applies DC power to the DC link terminal 30.

The DC link stage 30 smoothes the rectified voltage output from the rectifying unit 20 to apply a DC voltage to the inverter 50 and charges a predetermined voltage to the capacitor.

The discharge unit 40 discharges the voltage charged in the DC link terminal 30 according to a control signal.

The discharge unit 40 includes a switch SW2 turned on according to the control signal, and a discharge resistor R for discharging the charging voltage of the DC link terminal 30 through the switch SW2.

In the compressor stop mode, the control unit 70 cuts off the power supply of the power supply unit 10, and also turns on the switch SW2 of the discharge unit 40 to charge the DC link terminal 30. Is discharged through the discharge resistor (R).

In addition, the control unit 70 collectively controls the air conditioning operation of the air conditioner.

Such a conventional apparatus will be described with reference to FIG.

First, the air conditioner performs a general operation.

That is, the control unit 70 compares the temperature set by the user with the current temperature, and controls the operation of the air conditioner to approach the temperature set by the user by turning on or off the compressor based on the comparison result. .

At this time, the control unit 70 cuts off the power supply of the power supply unit 10 in order to stop the operation of the compressor in the stop mode of the compressor, that is, the switch between the power supply unit 10 and the rectification unit 20 ( SW1) is blocked (SP1).

Here, when the power supply unit 10 is cut off, the DC link terminal 30 is charged with a voltage higher than a predetermined level, and the DC link terminal 30 may be damaged by the charged voltage. The voltage charged in the stage 30 must be discharged.

Thus, the control unit 70 turns on the switch SW2 of the discharge unit 40.

Accordingly, the discharge resistor R of the discharge unit 40 discharges the charging voltage charged in the DC link terminal 30 (SP2) Z.

However, in the above-described conventional technology, when the voltage charged in the DC link stage is excessively high, when the discharge is performed through the resistor, excessive heat is generated and the life of the resistor is shortened, thereby causing a problem in the discharge of the DC link voltage. have.

The present invention has been made in order to solve the above problems, when the compressor of the air conditioner using a three-phase AC power source, the voltage charged in the DC link stage is discharged without a separate device, damage to the DC link stage It is an object of the present invention to provide a discharge control device and method for an air conditioner to prevent the damage.

The present invention for achieving the above object, in the air conditioner for generating cold air by a compressor driven by a three-phase AC voltage,

After a certain time when the compressor is stopped,

It characterized in that it comprises a control unit for controlling to discharge the charging voltage charged in the DC link stage by restarting the compressor without operating power supply.

According to an aspect of the present invention,

In an air conditioner that generates cold air by a compressor and a fan driven by a three-phase AC voltage,

When the compressor and the fan is stopped, it comprises a control unit for controlling to discharge the voltage charged in the DC link stage by restarting the compressor or the fan without operating power supply.

According to an aspect of the present invention,

As a discharge control method of an air conditioner that generates cold air by a compressor driven by a three-phase AC voltage,

Determining a stop of the compressor;

As a result of the determination, if the compressor is stopped, after a predetermined time, a process of discharging the charging voltage of the DC link stage by restarting the stopped compressor without supplying the operating power.

According to an aspect of the present invention,

As a discharge control method of an air conditioner that generates cold air by a compressor driven by a three-phase AC voltage,

Determining a stop of the compressor and the fan;

As a result of the determination, when the compressor and the fan are stopped, a process of discharging the charging voltage of the DC link stage is performed by restarting the stopped compressor or the fan without supplying operating power.

Hereinafter, with reference to the accompanying drawings, the operation and effects of the discharge control apparatus and method of the air conditioner according to the present invention will be described in detail.

Figure 3 is a circuit diagram showing the configuration of an embodiment of a discharge control device of the air conditioner of the present invention.

As shown in FIG. 3, the power unit 100, the rectifier unit 200, the DC link stage 300, the first and second inverters 400 and 500, and the control unit 600 are provided.

The power supply unit 100 supplies operating power to the compressor of the air conditioner.

The rectifying unit 200 rectifies the three-phase AC power and applies DC power to the DC link terminal 30.

The DC link stage 300 smoothes the rectified voltage output from the rectifying unit 20 to apply a DC voltage to the inverters 400 and 500 and charges a predetermined voltage to the capacitor.

The first and second inverters 400 and 500 drive the fan and the compressor by varying the DC voltage into an AC voltage according to a pulse width control signal.

When the compressor and the fan are stopped, the control unit 600 controls to discharge the voltage charged in the DC link stage 300 by restarting the compressor or the fan.

The control unit 600 drives the first inverter 500 for operating the fan or the second inverter 400 for operating the compressor by the pulse width modulated signal, thereby charging the voltage of the DC link terminal 300. Restart the compressor or fan.

Such operation of the present invention will be described with reference to FIG.

First, the control unit 70 compares the temperature set by the user with the current temperature, and controls the operation of the air conditioner to approach the temperature set by the user by turning on or off the compressor based on the comparison result.

At this time, the control unit 600 determines whether it is time to stop the operation of the compressor (SP10), when the time to stop the compressor to cut off the power of the power unit 10, that is, the power unit 100 ) And the switch SW1 between the rectifying unit 200.

Next, the control unit 600 applies a pulse width modulation signal to the first inverter 400 or the second inverter 500 to drive the compressor or the fan after a predetermined time elapses (SP11) ( SP12).

Here, when the control unit 600 restarts the compressor, the width of the pulse width modulation signal PWM1 output from the control unit 600 is greater than the width of the pulse width modulation signal PWM2 when the fan is restarted. The output is made larger by a predetermined width.

Then, the voltage charged in the DC link stage 300 is applied to the fan or the compressor through the first inverter 400 or the second inverter 500.

Accordingly, the voltage charged in the DC link stage 300 is discharged while starting the compressor or the fan (SP13).

That is, in the power supply circuit for supplying power to the compressor or fan, when the compressor or fan is stopped, the voltage charged at the DC link terminal of the power supply circuit is applied to the compressor or fan after a predetermined time. The compressor or fan is restarted with an applied charging voltage to discharge the battery.

Specific embodiments or embodiments made in the detailed description of the present invention are intended to clarify the technical contents of the present invention to the last, and should not be construed as limited to these specific embodiments by consultation, the spirit of the present invention and the claims Various changes can be made within the scope of.

As described in detail above, in the power supply circuit for supplying power to the multi-type air conditioner, the compressor or the fan is driven after a certain time when the compressor of the multi-type air conditioner is stopped without a separate device for discharging the DC link voltage. By discharging the voltage charged in the DC link stage, the DC link stage is prevented from being damaged by the charging voltage.

Claims (8)

In an air conditioner that generates cold air by a compressor driven by a three-phase AC voltage, And a control unit for controlling to discharge the charging voltage charged in the DC link stage by restarting the compressor after a predetermined time when the compressor is stopped. The method of claim 1, wherein the control unit, A discharge control apparatus for an air conditioner, wherein an inverter is driven by a pulse width modulated signal PWM to restart a compressor at a charge voltage of a DC link stage. In an air conditioner that generates cold air by a compressor and a fan driven by a three-phase AC voltage, And a control unit which controls to discharge the voltage charged in the DC link stage by restarting the compressor or the fan when the compressor and the fan are stopped. The method of claim 3, wherein the control unit, The discharge control apparatus of the air conditioner characterized by driving the first inverter for operating the fan or the second inverter for operating the compressor by the pulse width modulated signal and restarting the compressor or the fan with the charging voltage of the DC link stage. . As a discharge control method of an air conditioner that generates cold air by a compressor driven by a three-phase AC voltage, Determining a stop of the compressor; And after the compressor is stopped, after a predetermined time, restarting the stopped compressor without supplying operating power to discharge the charging voltage of the DC link stage. The method of claim 5, wherein the discharging of the charging voltage comprises: Driving the inverter by a pulse width modulated signal; The discharge control method of the air conditioner comprising the step of applying a charging voltage charged in the DC link stage to the compressor through the driven inverter. As a discharge control method of an air conditioner that generates cold air by a compressor driven by a three-phase AC voltage, Determining a stop of the compressor and the fan; And, if the compressor and the fan are stopped, after a predetermined time, restarting the stopped compressor or fan without supplying operating power to discharge the charging voltage of the DC link stage. The method of claim 7, wherein the step of discharging the charging voltage, Driving, by the pulse width modulated signal, a first inverter for operating the fan or a second inverter for operating the compressor; Discharge control method of the air conditioner comprising the step of applying a charging voltage charged in the DC link stage to the compressor or the fan through the driven first inverter or the second inverter.

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