KR100608260B1 - An air conditioner and control method thereof - Google Patents

Abstract

The present invention relates to an air conditioner and a control method thereof, and an object of the present invention is to maintain an inverter controller at a constant temperature by adjusting an amount of air passing through a heat sink, and to improve heat exchange efficiency of an outdoor heat exchanger. To this end, the present invention measures the temperature of the heat sink located in the outdoor unit controller, and if the temperature of the heat sink is greater than or equal to a predetermined reference temperature, completely opens a damper that controls the air passage amount of the heat sink. When the temperature of the heat sink is less than the reference temperature, the opening degree of the damper is reduced by a predetermined angle until the temperature of the heat sink reaches the reference temperature.

Description

Air conditioner and control method

1 is a refrigerant flow diagram illustrating an air conditioner according to an embodiment of the present invention.

2 is a cross-sectional view showing an outdoor unit of the air conditioner shown in FIG. 1.

FIG. 3 is a block diagram showing components of the air conditioner shown in FIGS. 1 and 2.

4 is a graph showing the relationship between the efficiency and the air volume of the outdoor heat exchanger according to an embodiment of the present invention.

FIG. 5 is a flowchart illustrating a control method of the air conditioner shown in FIG. 3.

Explanation of symbols on the main parts of the drawings

10: outdoor unit

13: outdoor heat exchanger

19: inverter controller

20: indoor unit

30: heat sink

31: heat sink temperature sensor

32: damper drive unit

33: damper

The present invention relates to an air conditioner and a control method thereof, and more particularly, to an air conditioner and a control method for increasing the efficiency of the outdoor heat exchanger by adjusting the air passage amount of the heat sink.

In general, a heat pump type air conditioner that combines cooling and heating is composed of a cycle in which a series of devices such as a compressor, a condenser, a capillary, and an evaporator are connected in series through a refrigerant pipe, and the refrigerant is repeatedly compressed, condensed, decompressed, and evaporated. .

When the cooling operation is performed by the above configuration, the refrigerant compressed by the gas of high temperature and high pressure in the compressor is converted into a liquid of room temperature and high pressure in the outdoor heat exchanger, and the liquefied refrigerant is decompressed into a liquid of low pressure while passing through a capillary tube to the indoor heat exchanger. Once inside, it absorbs heat from the surroundings, converts it into a gaseous refrigerant, and discharges cold air into the room. That is, the room is cooled by releasing heat absorbed indoors by the indoor heat exchanger to the outdoor by the outdoor heat exchanger.

On the contrary, the heat pump type heating is to reverse the principle of the refrigerating cycle that absorbs the heat of the indoor air and discharges it to the outside to absorb the heat of the outside and radiate the heat to the room. During the heating operation, the flow of refrigerant is reversed from that of the cooling operation to condense and liquefy gas refrigerant in the indoor heat exchanger, and when the liquid refrigerant is evaporated in the outdoor heat exchanger, the movement of heat is reversed to absorb heat from the outdoor air by the outdoor heat exchanger. To discharge heat into the room by the indoor heat exchanger to perform the heating function.

In the outdoor unit of the conventional heat pump type air conditioner, when the outdoor fan rotates, an air flow flowing into the outdoor heat exchanger is formed, whereby heat exchange is performed in the outdoor heat exchanger. In addition, the inverter controller that controls the entire outdoor unit generates heat as the outdoor unit continues to be driven. However, when the temperature of the inverter controller rises above a predetermined temperature, the inverter controller may operate abnormally. Is installing. As air passes through the heat sink, it lowers the temperature of the inverter controller, thereby preventing overheating of the inverter controller.

However, such a conventional air conditioner is the amount of air flowing into the outdoor heat exchanger as much as the amount of air passing through the heat sink, the air passing through the heat sink of the outdoor unit during cooling or heating operation when the air temperature is low, such as winter Also lowers the temperature of the inverter controller more than necessary. As such, regardless of whether or not the inverter controller is overheated, there is a problem in that a constant flow of air is always formed in the heat sink and the amount of air flowing into the outdoor heat exchanger is relatively reduced, resulting in low efficiency.

The present invention is to solve the above problems, an object of the present invention is to adjust the amount of air passing through the heat sink to maintain the inverter controller at a constant temperature, and to improve the heat exchange efficiency of the outdoor heat exchanger of the air conditioner To provide a control method.

In order to achieve the above object, the present invention measures the temperature of a heat sink located in an outdoor unit controller, compares and determines the temperature of the heat sink with a set temperature, and adjusts the air passage of the heat sink according to the determination result. It characterized in that to control.

In addition, the temperature of the heat sink is lowered as the air passing through the heat sink increases.

When the temperature of the heat sink is greater than or equal to a predetermined reference temperature, the damper is completely opened. If the temperature of the heat sink is less than the reference temperature, the damper is opened at a predetermined angle until the temperature of the heat sink reaches the reference temperature. It is characterized by decreasing.

In addition, the heat sink located in the outdoor unit control unit, a heat sink temperature sensor for measuring the temperature of the heat sink, a damper for adjusting the air passage amount of the heat sink, and if the temperature of the heat sink is above a predetermined reference temperature, the damper is completely opened and the If the temperature of the heat sink is less than the reference temperature characterized in that it comprises a control unit for reducing the opening degree of the damper by a predetermined angle until the temperature of the heat sink reaches the reference temperature.

In addition, the heat sink is characterized in that it is configured in the duct shape.

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

1 to 3, the air conditioner according to an embodiment of the present invention includes an outdoor unit 10 and an indoor unit 20 connected to the outdoor unit 10.

The outdoor unit 10 receives a compressor 11 for compressing a refrigerant, a four-way valve 12 for adjusting a flow direction of the refrigerant discharged from the compressor 11, and receives the refrigerant compressed by the compressor 11 from the external air. It includes an outdoor heat exchanger 13 for heat exchange, an outdoor fan 14 forcibly blown by the outdoor heat exchanger 13, and an outdoor fan motor 15 for rotating the outdoor fan 14.

In addition, the outdoor unit 10 is closed in the cooling operation and is installed in parallel with the outdoor electric valve 16 to expand the refrigerant by adjusting the opening degree during the heating operation, and the outdoor electric valve 16 in parallel to bypass the refrigerant only during the cooling operation. A check valve 17 for supplying the refrigerant, an accumulator 18 for delivering refrigerant to the compressor in a gas state, and an inverter controller 19 for controlling the devices of the outdoor unit 10 and performing data communication with the indoor unit microcomputer 24. Include.

In addition, the inverter controller 19 passes through a heat sink 30 for cooling the heat generated by the inverter controller 19, a heat sink temperature sensor 31 for measuring the temperature of the heat sink 30, and a heat sink 30. A damper 33 for adjusting the amount of air to be made, and a damper driver 32 for controlling the opening degree of the damper 33 is included.

On the other hand, the indoor unit 20 is an indoor heat exchanger 21 in which heat exchange is performed after indoor air is sucked, and indoor air is sucked from the outside of the indoor unit 20 and passes through the indoor heat exchanger 21, and then again the indoor unit ( 20 to control the respective devices of the indoor fan 22 to discharge to the outside, the indoor fan motor 23 and the indoor unit 20 to rotate the indoor fan 22 and to perform data communication with the inverter controller 19. The indoor unit microcomputer 24 is included.

In addition, in the pipe connected to the indoor heat exchanger 21, a pipe in which the refrigerant is sucked during the cooling operation is installed with an indoor electric valve 25 for expanding the refrigerant, and the refrigerant discharged from the indoor heat exchanger 21 flows during the cooling operation. In the piping, when a failure occurs in the indoor unit 20 itself or a communication error occurs between the indoor unit 20 and the outdoor unit 10, the refrigerant flowing through the indoor heat exchanger 21 automatically or by a control command of the indoor unit microcomputer 24. Refrigerant control valve 26 to regulate the flow of the is installed.

When the operation of the air conditioner starts, the indoor unit microcomputer 24 and the inverter controller 19 output control signals according to the cooling or heating operation mode, and the driving of the various devices is started accordingly. As driving of the air conditioner continues, heat is generated in various power devices, and a heat sink 30 is installed in the box of the inverter controller 19 to cool the heat generated by the inverter controller 19. The heat sink 30 is in the form of a duct, and outdoor air absorbs heat while passing through the duct heat sink 30 to lower the temperature in the heat sink 30, thereby lowering the temperature around the inverter controller 19. It is done.

On the other hand, when the operation of the air conditioner starts, in the outdoor unit 10, the outdoor air passes through the outdoor heat exchanger 13 by the operation of the outdoor fan 14, and the outdoor heat exchanger 13 is transferred to the condenser or the evaporator according to the cooling and heating mode. The heat exchange of the refrigerant is made by the operation, as shown in FIG. 2, since the outdoor air is dispersed into the air (X) flowing into the outdoor heat exchanger 13 and the air (Y) flowing into the heat sink 30, the heat sink The amount of air X flowing into the outdoor heat exchanger 13 is reduced by the amount of air Y passing through 30.

On the other hand, since the inverter controller 19 operates only within 90 ° C., there is no problem of reliability. Therefore, it is sufficient that only the air amount Y passes through the heat sink 30 such that the temperature of the inverter controller 19 does not exceed 90 ° C. Regardless of the temperature of the inverter controller 19, the temperature of the inverter controller 19 is unnecessarily 50 ° C. or less when the temperature of outdoor air is low, such as in winter, unless the amount of air Y passing through the heat sink 30 is controlled. Will descend.

Therefore, the damper 33 is attached to the front surface of the duct constituting the heat sink 30, the damper 33 is installed so that the opening degree can be adjusted by the damper drive unit 32 composed of a stepper motor, the damper ( According to the opening degree of 33), the air amount Y passing through the heat sink 30 is changed. As shown in FIG. 4, when the damper 33 is completely opened, the air amount Y passing through the heat sink 30 increases and the air amount X sucked into the outdoor heat exchanger 13 decreases, thereby reducing the outdoor heat exchanger 13. The lower the efficiency of the damper 33, the less the amount of air (Y) passing through the heat sink 30, the more the amount of air (X) sucked into the outdoor heat exchanger 13, the greater the outdoor heat exchanger The efficiency of (13) becomes high.

Hereinafter, a method of controlling the air passage amount of the heat sink will be described with reference to FIG. 5.

First, when the user inputs a cooling or heating operation signal, the air conditioner is operated by a cooling and heating cycle according to the input operation mode. When the operation of the air conditioner starts, the outdoor air is sucked into the outdoor heat exchanger 13 by the operation of the outdoor fan 14 in the outdoor unit 10, and heat exchange of the refrigerant is performed, and the outdoor unit 10 is operated in the inverter controller 19. ) And control the operation of the indoor unit microcomputer (24) will generate heat. Then, air passes through the heat sink 30 located in the inverter controller 19 to prevent overheating of the inverter controller 19. (S100)

When the operation of the air conditioner starts, the heat sink temperature sensor 31 senses the temperature of the heat sink 30 and outputs it to the inverter controller 19. (S110).

The inverter controller 19 determines whether the temperature of the heat sink 30 received from the heat sink temperature sensor 31 is 90 ° C. or higher (S120).

When the temperature of the heat sink 30 is 90 ° C. or higher, the inverter controller 19 is overheated, so that the damper driver 32 is controlled to completely open the damper 33 and accordingly, the amount of air passing through the heat sink 30 ( Y) is increased (S140).

On the other hand, if the temperature of the heat sink 30 is less than 90 ℃ can be seen that the operation of the inverter controller 19 is stable, the damper driver 32 is controlled to gradually reduce the opening degree of the damper 33. Since the damper driver 32 generally employs a stepper motor, it is possible to reduce the opening degree of the damper 33 without completely closing the damper 33 by adjusting the number of steps for driving the motor. In this way, the opening degree of the damper 33 is gradually reduced until the temperature of the heat sink 30 increases to 90 degreeC. When the opening degree of the damper 33 is reduced, the amount of air Y passing through the heat sink 30 is relatively lower than when the damper 33 is fully opened, thereby increasing the amount of air X sucked into the outdoor heat exchanger 13. As a result, the heat exchange efficiency of the outdoor heat exchanger 13 is improved.

As such, by periodically measuring the temperature of the heat sink and adjusting the opening degree of the damper, even when the heat sink duct is installed in the inverter controller, when the temperature of the heat sink is low, the amount of air passing through the heat sink duct can be reduced to increase the efficiency of the outdoor heat exchanger.

As described in detail above, the present invention not only prevents overheating of the inverter controller by adjusting the opening degree of the damper according to whether the inverter controller is overheated, but also prevents unnecessary air flow to the heat sink, thereby exchanging heat of the outdoor heat exchanger. It can improve the efficiency and improve the energy efficiency of the air conditioner.

Claims (5)

delete delete Measuring the temperature of the heat sink located in the outdoor unit controller, Comparing and determining a temperature of the heat sink with a set temperature; In the control method of the air conditioner comprising the step of controlling the opening degree of the damper for adjusting the air passage amount of the heat sink according to the determination result, The temperature of the heat sink decreases as the air passage amount of the heat sink increases, and when the temperature of the heat sink is above a predetermined reference temperature, the damper is completely opened, and when the temperature of the heat sink is less than the reference temperature, The control method of the air conditioner, characterized in that the opening degree of the damper is reduced by a predetermined angle until the temperature reaches the reference temperature. A heat sink located in the outdoor unit controller, A heat sink temperature sensor for measuring a temperature of the heat sink; Damper for adjusting the air passage amount of the heat sink, When the temperature of the heat sink is above a predetermined reference temperature, the damper is completely opened. When the temperature of the heat sink is less than the reference temperature, the opening degree of the damper is decreased by a predetermined angle until the temperature of the heat sink reaches the reference temperature. An air conditioner comprising a control unit. The method of claim 4, wherein And the heat sink is formed in a duct shape.

Images