KR100696120B1 - Air conditioner for simultaneously heating and cooling and OUT DOOR UINT in use with it and method for defrosting - Google Patents

Abstract

The present invention relates to a heating and cooling air conditioner, the air-conditioning type air conditioner of the present invention includes a control unit for controlling the operation of the indoor unit and the outdoor unit and the entire system, the outdoor unit compresses the refrigerant by forced circulation and the A first four-way valve for changing a flow direction of the coolant flowing from the compressor according to an operation control signal from a controller, a first electromagnetic expansion valve for lowering and discharging the pressure of the coolant flowing from the indoor unit or the outdoor heat exchanger; The outdoor heat exchanger which processes heat exchange between the refrigerant flowing from the first electromagnetic expansion valve or the first four-way valve and the outdoor air, and the refrigerant flowing from the first four-way valve according to the defrosting operation control signal input from the controller. 1 to change the flow to the electromagnetic expansion valve or the refrigerant flowing from the first electromagnetic expansion valve Characterized in that a second four-way valve for changing a flow gekkeum group the first four-way valve.

Air-conditioning and air conditioning unit, defrosting operation, outdoor unit, indoor unit, electronic expansion valve, four-way valve

Description

Air conditioner for simultaneously heating and cooling and OUT DOOR UINT in use with it and method for defrosting

Figure 1 schematically shows the configuration of a conventional air conditioning type air conditioner.

Figure 2 schematically shows the configuration of a heating and cooling air conditioner according to the present invention.

3A and 3B illustrate an operating state during the defrosting operation for the first and second four-way valves of the air-conditioning type air conditioner according to FIG. 2.

4 is a defrosting operation flowchart of the air-conditioning-type air conditioner according to an embodiment of the present invention.

The present invention relates to a cooling and heating type air conditioner, and more particularly, to a cooling and heating type air conditioner capable of improving heating capability during defrosting operation, an outdoor unit and a defrosting operation method used therefor.

In general, an air conditioner is a device for cooling or heating an indoor space such as a living space, a restaurant, or an office. In order to satisfy various needs of users, such air conditioners are widely used in air-conditioning-type air conditioners capable of both cooling operation and heating operation.

Hereinafter, the configuration and operation of the conventional air-conditioning type air conditioner will be described with reference to the accompanying drawings. Figure 1 schematically shows the configuration of a conventional air conditioning type air conditioner. As shown, the conventional air-conditioning-type air conditioner is largely comprised of the indoor unit 100, the outdoor unit 200, and the control unit 300. In the present exemplary embodiment, the heating and cooling air conditioner exemplifies a heating operation. In the cooling operation, the four-way valve 250 is controlled so that the refrigerant flowing from the compressor 210 flows to the outdoor heat exchanger 230.

The indoor unit 100 includes an indoor heat exchanger 110 installed with a refrigerant pipe therein to handle heat exchange between the refrigerant and indoor air. In addition, the indoor unit 100 further includes a circulation fan although not shown in the drawing. The indoor heat exchanger 110 is operated as an evaporator during the cooling operation and a condenser during the heating operation.

The outdoor unit 200 includes a compressor 210 for compressing and forcibly circulating a refrigerant, a liquid separator 220 for separating only incoming refrigerant into a refrigerant gas and a refrigerant liquid, and sucking only the refrigerant gas separated into the compressor 210; A refrigerant pipe is installed therein to reduce the pressure of the outdoor heat exchanger 230 which processes heat exchange between the refrigerant introduced and the outdoor air, and the refrigerant introduced from the outdoor heat exchanger 230 or the indoor heat exchanger 110. The direction of flowing the refrigerant flowing from the compressor 210 to the outdoor heat exchanger 230 or the indoor heat exchanger 110 according to the operation of the electromagnetic expansion valve 240 and the control signal from the control unit 300. It includes a four-way valve 250 to change. The outdoor heat exchanger 230 is operated as a condenser during the cooling operation and an evaporator during the heating operation.

The controller 300 controls the operation of the entire system, and preferably includes a microprocessor including ROM, RAM, and peripheral circuits, and additional circuits that perform various functions. The control unit 300 performs the cooling operation or the heating operation according to the operation signal input from the operation unit 310, and adjusts the operation speed appropriately by receiving the indoor temperature from a temperature sensor (not shown) that detects the indoor temperature during operation. Can be.

On the other hand, when the outdoor heat exchanger 230 is used as an evaporator during the heating operation, if the outdoor temperature becomes too low, the surface temperature of the outdoor heat exchanger 230 drops to below zero. Therefore, in the related art, frost is formed on the surface of the outdoor heat exchanger 230 that is cold in moisture, which is included in the outdoor air, and thus, the heat exchange ability of the outdoor heat exchanger 230 is deteriorated.

In order to solve this problem, the conventional air-conditioning type air conditioner has been implemented such that the control unit 300 periodically performs defrosting operation at a time when the heating capacity of the heating operation falls. That is, the control unit 300 of the conventional air-conditioning-type air conditioner is a four-way valve to flow the high-pressure gas refrigerant flowing from the compressor 210 to the indoor heat exchanger 110 to the outdoor heat exchanger 230 when a defrosting operation event occurs. By controlling 250, outdoor heat exchanger 230 was operated as a condenser to perform defrosting.

However, the defrosting method of the conventional air-conditioning-type air conditioner has a problem that the indoor heat exchanger 110 is operated as an evaporator during the defrosting operation and the heating capacity is sharply lowered.

Accordingly, the present invention has been proposed to solve the above problems, and an object of the present invention is to provide a cooling and heating type air conditioner and an outdoor unit which can improve the heating capacity by blocking the introduction of cool refrigerant into the room during defrosting operation; It is to provide a defrosting operation method.

Air conditioner according to an aspect of the present invention for achieving the above object comprises a control unit for controlling the operation of the indoor unit and the outdoor unit and the entire system, the outdoor unit compresses the refrigerant by forced circulation and the control unit A first four-way valve for changing a flow direction of the refrigerant flowing from the compressor according to an operation control signal from the compressor; a first electromagnetic expansion valve for reducing the pressure of the refrigerant flowing from the indoor unit or the outdoor heat exchanger; 1 an outdoor heat exchanger for performing heat exchange between the refrigerant flowing from the electromagnetic expansion valve or the first four-way valve and the outdoor air, and the refrigerant flowing from the first four-way valve according to the defrost operation control signal input from the controller; The refrigerant flowing into the electromagnetic expansion valve or flowing from the first electromagnetic expansion valve is It characterized in that it comprises a second four-way valve for changing to flow to the first four-way valve.

According to this aspect, the air-conditioning type air conditioner according to the present invention, by controlling only the second four-way valve during the defrosting operation, it is possible to maintain a constant heating capacity. In other words, the conventional air-conditioning type air conditioner is heated while the indoor heat exchanger acts as an evaporator during the defrosting operation, the heating capacity is sharply lowered, whereas in the air-conditioning type air conditioner of the present invention, the indoor heat exchanger does not operate as the evaporator during the defrosting operation. It is possible to prevent a sudden drop in ability.

According to an additional aspect of the present invention, the outdoor unit is installed between the refrigerant pipes penetrating the inside of the outdoor heat exchanger, and when the defrosting operation control signal is input from the control unit to lower the pressure of the refrigerant flowing through the refrigerant pipe and outflows therein; The expansion valve further includes an electronic expansion valve, and when the defrosting operation control signal is input from the controller, the first electromagnetic expansion valve is driven to discharge the refrigerant flowing therein without a change in pressure, and the control unit is connected to the first four-way valve during the defrosting operation. A second four-way valve is operated to control the outdoor heat exchanger to operate as a condenser / evaporator or an evaporator / condenser.

According to this aspect, the air-conditioning type air conditioner according to the present invention controls the first four-way valve 25 and the second four-way valve 26 during defrosting operation so that the outdoor heat exchanger is operated as a condenser / evaporator or evaporator / condenser. By doing so, the outdoor heat exchanger is implemented to perform defrosting effectively.

The air-conditioning-type air conditioner according to an additional aspect of the present invention is installed in a refrigerant pipe for guiding the refrigerant input from the outdoor unit to the indoor heat exchanger, and further includes a heater for evaporating the liquid refrigerant according to the defrosting operation control signal from the controller. .

According to this aspect, the air-conditioning type air conditioner according to the present invention is implemented to operate the indoor heat exchanger as a condenser by controlling the heater during the defrosting operation. Accordingly, the indoor heat exchanger according to the present invention is implemented to operate as a condenser continuously during the defrosting operation, even though the indoor heat exchanger does not receive the refrigerant on the high pressure from the compressor of the outdoor unit according to the defrosting operation, thereby providing air conditioning and heating according to the present invention It is possible to improve the heating capacity of the unit.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily understand and reproduce the present invention.

Figure 2 schematically shows the configuration of a heating and cooling air conditioner according to the present invention. As shown, the heating and cooling air conditioner of the present invention is largely comprised of the indoor unit 10, the outdoor unit 20, and the control unit 30.

The indoor unit 10 includes an indoor heat exchanger 11 having a refrigerant pipe installed therein to handle heat exchange between the refrigerant and indoor air. In addition, the indoor unit 10 may further include a circulation fan although not shown in the drawing.

In one embodiment, the outdoor unit 20 includes a compressor 21 for compressing and forcibly circulating a refrigerant, and a liquid for separating only an incoming refrigerant into a refrigerant gas and a refrigerant liquid and sucking only the separated refrigerant gas into the compressor 21. Separator 220, an outdoor heat exchanger 23 installed therein, and a heat exchanger 23 for processing heat exchange between the introduced refrigerant and outdoor air, and an inflow from the outdoor heat exchanger 23 or the indoor heat exchanger 11. And a first solenoid expansion valve 24, a first four-way valve 25, and a second four-way valve 26 to lower the pressure of the refrigerant to flow out.

The first four-way valve 25 changes the direction such that the refrigerant flowing from the compressor 21 flows to the outdoor heat exchanger 23 or the indoor heat exchanger 11 according to the operation control signal from the control unit 30. . In one embodiment, the first four-way valve 25 is driven to flow the high-pressure gas refrigerant flowing from the compressor 21 to the outdoor heat exchanger 23 when the cooling operation control signal is input from the control unit 30. . In another embodiment, the first four-way valve 25 is driven to flow the high-pressure gas refrigerant flowing from the compressor 21 to the indoor heat exchanger 11 when a heating operation control signal is input from the controller 30. .

According to a characteristic aspect of the present invention, the second four-way valve 26 receives the flow of the high-pressure gas refrigerant flowing from the first four-way valve 25 when the defrosting operation control signal is input from the controller 30. The valve 24 is changed or the refrigerant flowing from the first electromagnetic expansion valve 24 flows to the first four-way valve 25.

Accordingly, in the air-conditioning type air conditioner of the present invention, when the defrosting operation, the refrigerant flows through the compressor 21 → the first four-way valve 25 → the second four-way valve 26 → the first electromagnetic expansion valve 24 → the outdoor heat exchanger 23. ), The first four-way valve 25 → the liquid separator 220 → the compressor 21 to flow.

On the other hand, the air-conditioning-type air conditioner of the present invention is implemented such that the refrigerant flowing through the indoor unit 10 flows to the indoor heat exchanger 11 → the second four-way valve 26 → the indoor heat exchanger 11 during the defrosting operation. Accordingly, the air-conditioning and air conditioner of the present invention can prevent the heating capacity of the indoor heat exchanger 11 from being rapidly lowered since the indoor heat exchanger 11 is not operated as an evaporator during the defrosting operation.

The controller 30 controls the operation of the entire system, and preferably includes a microprocessor including ROM, RAM, and peripheral circuits, and additional circuits that perform various functions. The control unit 30 performs the cooling operation or the heating operation, and also the defrosting operation according to the operation signal input from the operation unit 31.

In one embodiment, the outdoor unit 20 used in the air-conditioning-type air conditioner of the present invention is installed between the refrigerant pipe passing through the interior of the outdoor heat exchanger 23, the defrosting operation control signal from the control unit 30 is input The second electronic expansion valve 28 for lowering the pressure of the refrigerant flowing through the refrigerant pipe may be further included.

In this case, the controller 30 drives the first electromagnetic expansion valve 24 to allow the refrigerant flowing in during the defrosting operation to flow out without changing the pressure. On the other hand, the outdoor heat exchanger (23) is divided into two by the second electromagnetic expansion valve 28 is implemented to be operated simultaneously with the condenser and the evaporator during the defrosting operation. Further, the control unit 30 controls the first four-way valve 25 and the second four-way valve 26 during the defrosting operation so that the outdoor heat exchanger 23 is partly a condenser and the remaining part is operated as an evaporator or an outdoor heat exchanger. The part of the group is operated by the evaporator and the part by the condenser, so that the outdoor heat exchanger 23 effectively performs defrosting. According to this embodiment, the defrosting operation performed by the controller 30 will be described later with reference to the accompanying drawings.

Air-conditioning type air conditioner according to an additional aspect of the present invention is installed in the refrigerant pipe for guiding the refrigerant input from the outdoor unit to the indoor heat exchanger (11), evaporating the liquid refrigerant in accordance with the defrost operation control signal from the controller 30 A heater may be further included.

According to this aspect, the air-conditioning type air conditioner according to the present invention drives the heater during the defrosting operation, the indoor heat exchanger 11 according to the present invention does not receive the refrigerant on the high pressure gas from the compressor 21 in accordance with the defrosting operation. If not, the refrigerant is heated by the driving of the heater, so that the external air cannot be absorbed during the defrosting operation, so that the cold air is not discharged, thereby reducing the heating decrease due to the cold air.

Hereinafter, a process in which the outdoor heat exchanger operates as a condenser / evaporator or an evaporator / condenser by controlling the first and second electromagnetic expansion valves and the first and second four-way valves during the defrosting operation will be described.

3A and 3B illustrate an operating state during the defrosting operation for the first and second four-way valves of the air-conditioning type air conditioner according to FIG. 2. Here, the components corresponding to those in Fig. 2 are denoted by the same reference numerals.

First, when the defrosting operation is described with reference to FIG. 3A, when the defrosting operation event occurs, the controller drives the first electromagnetic expansion valve 24 to flow out without changing the pressure of the introduced refrigerant, and the pressure of the introduced refrigerant. Drive the second electromagnetic expansion valve 28 so as to flow out, and drive the first four-way valve 25 so that the refrigerant flowing from the compressor 21 flows to the outdoor exchanger 23, and the first electromagnetic expansion. The second four-way valve 26 is driven to flow the refrigerant flowing from the valve 24 into the first four-way valve 25.

Accordingly, in the air-conditioning type air conditioner of the present invention, when the first defrosting operation, the refrigerant flows through the compressor 21 → the first four-way valve 25 → the outdoor heat exchanger 23 → the second electromagnetic expansion valve 28 → the outdoor heat exchanger ( 23) the first electromagnetic expansion valve 24 → the first four-way valve 25 → the liquid separator 220 → the compressor (21).

That is, when the refrigerant flows from the first four-way valve 25 to the outdoor heat exchanger 23 to the second electromagnetic expansion valve 28, the outdoor heat exchanger 23 is a condenser and the second electromagnetic expansion valve 28 to the outdoor. When the heat exchanger 23 flows to the first electromagnetic expansion valve 24, the outdoor heat exchanger 23 operates as an evaporator.

Referring to FIG. 3B, when the defrosting operation event occurs, the controller drives the first electronic expansion valve 24 to flow out without changing the pressure of the refrigerant flowing therein and lowers the pressure of the refrigerant flowing therein. The second electromagnetic expansion valve 28 is driven to flow out, and the first four-way valve 25 is driven to flow the refrigerant flowing from the compressor 21 into the outdoor exchanger 23. In addition, the controller drives the first four-way valve 25 so that the refrigerant flowing from the compressor 23 flows to the second four-way valve 26, and the refrigerant flowing from the first four-way valve 25 is first expanded. The second four-way valve 26 is driven to flow to the valve 24.

Accordingly, the air conditioner of the present invention has a refrigerant 21 during the second defrosting operation, and the refrigerant flows through the compressor 21 → the first four-way valve 25 → the second four-way valve 26 → the first electromagnetic expansion valve 24 → the outdoor heat exchanger. (23) → the second electromagnetic expansion valve 28 → the outdoor heat exchanger 23 → the first four-way valve 25 → the liquid separator 220 → the compressor 21.

That is, when the refrigerant flows from the first electromagnetic expansion valve 24 to the outdoor heat exchanger 23 to the second electromagnetic expansion valve 28, the outdoor heat exchanger 23 is a condenser, and the second electromagnetic expansion valve 28 is applied. When the outdoor heat exchanger 23 flows to the first four-way valve 25, the outdoor heat exchanger 23 operates as an evaporator.

Hereinafter, the defrosting operation performed by the controller 30 will be described with reference to the accompanying drawings. 4 is a defrosting operation flowchart of the air-conditioning-type air conditioner according to an embodiment of the present invention.

First, the controller controls the heating and cooling air-conditioning apparatus of the present invention to perform a heating operation according to a user's operation signal (S101). In one embodiment, the heating operation by the control unit drives the first electromagnetic expansion valve 24 to lower the pressure of the refrigerant flowing in and outflow, and the second electromagnetic expansion valve (2) to flow out the incoming refrigerant without changing the pressure. 28) to drive the first four-way valve 25 so that the refrigerant flowing from the compressor flows to the second four-way valve 26, and the refrigerant flowing from the first four-way valve 25 flows to the indoor heat exchanger. In some cases, the second four-way valve 26 is driven.

Thereafter, the controller checks whether a defrosting operation event occurs during the heating operation (S102). In one embodiment, the defrosting operation event may be the arrival of a set defrosting operation time, and may be various events such as a defrosting operation start temperature input from a temperature sensor installed in an outdoor unit.

Subsequently, when the defrosting operation event occurs, the controller drives the first electromagnetic expansion valve 24 to flow out without changing the pressure of the refrigerant flowing therein, and lowers the pressure of the refrigerant flowing therein to allow the second electronic expansion valve to flow out. 28 to drive the first four-way valve 25 to flow the refrigerant flowing from the compressor 21 to the second four-way valve 26, the refrigerant flowing from the first four-way valve 25 is the first A first defrosting operation of driving the second four-way valve 26 is performed to flow to the electromagnetic expansion valve 24 (S103).

Thereafter, the controller checks whether the first defrosting operation termination event has occurred (S104). In one embodiment, the first defrosting operation end event may be the arrival of the set defrosting operation end time, it may be various events such as the input of the defrosting operation start temperature from the temperature sensor installed in the outdoor unit.

Thereafter, when the first defrosting operation end event occurs, the controller performs a second defrosting operation of driving the first four-way valve 25 to allow the refrigerant flowing from the compressor 21 to flow into the outdoor exchanger 23 (S105). ).

In the air conditioning and air conditioner according to the present invention, during the defrosting operation, the first four-way valve and the second four-way valve are controlled so that the outdoor heat exchanger is operated as a condenser / evaporator or an evaporator / condenser to perform perfect defrosting.

According to an additional aspect of the present invention, the control unit may further include driving a heater installed in the refrigerant pipe for guiding the refrigerant input from the outdoor unit to the indoor heat exchanger when a defrosting operation event occurs. Accordingly, the indoor heat exchanger according to the present invention is implemented to operate as a condenser continuously during the defrosting operation, even though the indoor heat exchanger does not receive the refrigerant on the high pressure from the compressor of the outdoor unit according to the defrosting operation, thereby providing a cooling and heating air according to the present invention. It is possible to improve the heating capacity of the unit.

Thereafter, the controller checks whether the second defrosting operation termination event has occurred (S106). In an embodiment, the second defrosting operation end event may be the arrival of a set defrosting operation end time, or may be various events such as a defrosting operation start temperature input from a temperature sensor installed in an outdoor unit.

Thereafter, when the second defrosting operation end event occurs, the controller checks whether a system end signal is input (S106). The control unit repeatedly performs step S101 of performing a heating operation if the system end signal is not input, and terminates the system.

As described above in detail, the air-conditioning type air conditioner according to the present invention can control the second four-way valve only during the defrosting operation, thereby maintaining a constant heating capacity. That is, the air-conditioning type air conditioner of the present invention has a useful effect of preventing the rapid deterioration of the heating capacity since the indoor heat exchanger does not operate as an evaporator during the defrosting operation.

In addition, the air-conditioning type air conditioner according to the present invention is implemented to operate as a condenser continuously during the defrosting operation by driving the heater even if the indoor heat exchanger does not receive the refrigerant on the high pressure from the compressor of the outdoor unit according to the defrosting operation, heating capacity There is a useful effect that can be improved.

Although the present invention has been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that many various obvious modifications are possible without departing from the scope of the invention from this description. Therefore, it should be interpreted by the claims described to include many such variations.

Claims (8)

In the air-conditioning and air conditioner including a control unit for controlling the operation of the indoor unit and the outdoor unit and the entire system, the heating unit can be improved in the defrosting operation, the outdoor unit: A compressor for compressing and forcibly circulating a refrigerant; A first four-way valve for changing a flow direction of the refrigerant flowing from the compressor according to an operation control signal from the controller; A first electromagnetic expansion valve configured to lower the pressure of the refrigerant flowing from the indoor unit or the outdoor heat exchanger and to discharge the refrigerant; An outdoor heat exchanger configured to process heat exchange between the refrigerant flowing from the first electromagnetic expansion valve or the first four-way valve and the outdoor air; The refrigerant flowing from the first four-way valve flows into the first electromagnetic expansion valve or the refrigerant flowing from the first electromagnetic expansion valve flows to the first four-way valve according to the defrosting operation control signal input from the controller. A second four-way valve to change; A second electronic expansion valve disposed between the refrigerant pipes penetrating the inside of the outdoor heat exchanger and lowering the pressure of the refrigerant flowing through the refrigerant pipe when the defrosting operation control signal is input from the controller; Heating and cooling type air conditioner comprising a. According to claim 1, wherein the outdoor unit: When the defrosting operation control signal is input from the control unit, the first electromagnetic expansion valve is driven to flow out the refrigerant flowing therein without changing the pressure. During the defrosting operation of the control unit, the first four-way valve and the second four-way valve are driven so that the outdoor heat exchanger is partially operated by a condenser and the remaining part is an evaporator, or a part of the outdoor heat exchanger is operated by an evaporator and the other part by a condenser. Heating and cooling type air conditioner, characterized in that the control. The air-conditioning type air conditioner according to claim 1 or 2, further comprising: A heater installed in the refrigerant pipe for guiding the refrigerant input from the outdoor unit to the indoor heat exchanger and evaporating the liquid refrigerant according to a defrost operation control signal from the controller; Heating and cooling type air conditioner, characterized in that it further comprises. In the outdoor unit of the air-conditioning-type air conditioner including a control unit for controlling the operation of the indoor unit and the outdoor unit and the entire system, which can improve the heating capacity during defrosting operation, the outdoor unit: A compressor for compressing and forcibly circulating a refrigerant; A first four-way valve for changing a flow direction of the refrigerant flowing from the compressor according to an operation control signal from the controller; A first electromagnetic expansion valve configured to lower the pressure of the refrigerant flowing from the indoor unit or the outdoor heat exchanger and to discharge the refrigerant; An outdoor heat exchanger configured to process heat exchange between the refrigerant flowing from the first electromagnetic expansion valve or the first four-way valve and the outdoor air; The refrigerant flowing from the first four-way valve flows into the first electromagnetic expansion valve or the refrigerant flowing from the first electromagnetic expansion valve flows to the first four-way valve according to the defrosting operation control signal input from the controller. A second four-way valve to change; A second electronic expansion valve disposed between the refrigerant pipes penetrating the inside of the outdoor heat exchanger and lowering the pressure of the refrigerant flowing through the refrigerant pipe when the defrosting operation control signal is input from the controller; Outdoor unit of a heating and cooling air conditioner, characterized in that it comprises a. delete In the defrosting operation method that can be executed in the control unit of the air-conditioning-type air conditioner including a control unit for controlling the operation of the indoor unit and outdoor unit and the entire system A first four-way valve for changing the flow direction of the refrigerant flowing from the compressor, a first electromagnetic expansion valve for lowering and discharging the pressure of the refrigerant flowing from the indoor unit or the outdoor heat exchanger, and the first electromagnetic expansion valve or An outdoor heat exchanger that handles heat exchange between the refrigerant flowing from the first four-way valve and the outdoor air, and the refrigerant flowing from the first four-way valve flows to the first electromagnetic expansion valve during the defrosting operation or the first electromagnetic expansion. It is installed between the second four-way valve for changing the refrigerant flowing from the valve flows to the first four-way valve and the refrigerant pipe passing through the interior of the outdoor heat exchanger, the pressure of the refrigerant flowing through the refrigerant pipe during the defrosting operation And lowering the second electromagnetic expansion valve to flow out; The defrosting operation method that can be executed in the controller is: Checking whether a defrosting operation event has occurred during the heating operation; A defrosting operation step of driving the second four-way valve to allow the refrigerant flowing from the first four-way valve to flow into the first electromagnetic expansion valve when a defrosting operation event occurs; Defrosting operation method comprising a. The method of claim 6, The defrost operation step is: When a defrosting operation event occurs, the first electromagnetic expansion valve is driven to flow out the refrigerant flowing therein without a pressure change, and the second electromagnetic expansion valve is driven to lower the pressure of the refrigerant flowing therein and flows out from the compressor. A first defrosting operation of driving the first four-way valve to allow the refrigerant to flow to the outdoor exchanger; Confirming whether a first defrosting operation end event has occurred; When the first defrosting operation end event occurs, the first electromagnetic expansion valve is driven to flow out the refrigerant flowing intact without a pressure change, and the second electromagnetic expansion valve is driven to lower the pressure of the flowing refrigerant to flow out. A second defrosting operation of driving the first four-way valve to allow the refrigerant flowing from the compressor to flow into the second four-way valve; Defrosting operation method comprising a. The method according to any one of claims 6 to 7, The air-conditioning and air conditioner is installed in the refrigerant pipe for guiding the refrigerant input from the outdoor unit to the indoor heat exchanger, further comprising a heater for evaporating the liquid refrigerant in accordance with the defrost operation control signal from the control unit, The defrost operation step is: Driving a heater installed in a refrigerant pipe for guiding a refrigerant input from an outdoor unit to an indoor heat exchanger when a defrosting operation event occurs; Defrosting operation method further comprising.

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