KR100626756B1 - Heat pump air-conditioner - Google Patents

Abstract

The present invention relates to a heat pump air conditioner, comprising: a compressor for compressing a refrigerant in a low temperature and low pressure gas state suctioned from an inlet port and discharging the refrigerant through a discharge port in a high temperature and high pressure gas state; An indoor heat exchanger and an outdoor heat exchanger connected to the compressor and a pipe to exchange heat with external air; An expansion mechanism connected between the indoor side heat exchanger and the outdoor side heat exchanger to decompress the room temperature high pressure liquid state refrigerant delivered from one side to a low temperature low pressure liquid state; And a four-way valve having a passage connecting the discharge port and the suction port of the compressor to the indoor heat exchanger and the outdoor heat exchanger, respectively, and switched to change the flow of the refrigerant during heating. At least one of the suction side and the discharge side of the outdoor heat exchanger or each of the suction side of the indoor heat exchanger and the discharge side of the outdoor heat exchanger further includes a gas recovery member for removing gas contained in the refrigerant. It is done.

Heat pump, air conditioner, heat exchanger, expansion mechanism, gas recovery means.

Description

Heat pump air conditioner

1 is a configuration diagram schematically showing the structure of a typical heat pump air conditioner,

Figure 2 is a schematic diagram showing an embodiment of a heat pump air conditioner according to the present invention,

Figure 3 is a schematic diagram showing another embodiment of a heat pump air conditioner according to the present invention.

Explanation of symbols on the main parts of the drawing

10,100; Heat pump air conditioner 11; compressor

12; Four-way valve 13; Indoor side heat exchanger

14; Indoor blower 15; Inflation mechanism

16; Outdoor side heat exchanger 17; Outdoor blower

20,30; First gas recovery members 21 and 31; Second gas recovery member

22,32; First liquid conveying pipe 23,33; Second liquid conveying pipe

34; First gas transfer pipe 35; Second gas transfer pipe

36; First on-off valve 37; 2nd valve

40; Control

The present invention relates to a heat pump air conditioner.

Generally, heat naturally moves from the high temperature side to the low temperature side, but in order to move the heat from the low temperature side to the high temperature side, some action must be applied from the outside. This is the action of the heat pump.

Heat pump air conditioners combine cooling and heating by reversibly using heat transfer mechanisms to the refrigeration cycle consisting of compression, condensation, depressurization and evaporation of refrigerant.

Conventional air-conditioning combined heat pump air conditioner is composed of a compressor (1), a four-way valve (2), an indoor side heat exchanger (3) and its blower (4), an expansion mechanism (5), an outdoor side heat exchanger as shown in FIG. (6) and its blower (7).

The compressor 1 has a suction port 1b and a discharge port 1a, and compresses a refrigerant in a low temperature low pressure gas state sucked from the suction port 1b to discharge the gas in a high temperature high pressure gas state. Discharge through 1a).

The four-way valve 2 has two independent passages 2a and 2b connecting the discharge port 1a and the inlet port 1b of the compressor 1 to the indoor heat exchanger 3 and the outdoor heat exchanger 6, respectively. And a switching operation to change the flow of the coolant according to a mode of cooling operation and heating operation according to a user's selection.

The indoor heat exchanger (3) is located indoors, and serves as an evaporator for evaporating the refrigerant of low temperature and low pressure liquid state into the gas state in the cooling operation mode, and the refrigerant in the high temperature and high pressure gas state in the heating operation mode. Iii) It acts as a condenser to condense to a high pressure liquid state, and acts as a heat exchanger with the surrounding air in response to enthalpy changes of the refrigerant.

The indoor blower 4 is operated to promote a heat exchange action as an evaporator or a condenser of the indoor heat exchanger 3 while simultaneously generating cold or warm air necessary for the room.

The expansion mechanism 5 is connected between the indoor side heat exchanger 3 and the outdoor side heat exchanger 6 to decompress the room temperature high pressure liquid state refrigerant transferred from one side to the low temperature low pressure liquid state.

The outdoor side heat exchanger 6 is located on the outdoor side as opposed to the indoor side heat exchanger 3 and performs heat exchange with the surrounding air as a condenser during the cooling operation and as an evaporator during the heating operation.

The outdoor blower 7 is then operated to promote heat exchange (as a condenser or evaporator) of the outdoor heat exchanger 6.

In Fig. 1, arrows indicate the flow of the coolant, the solid line represents the cooling operation, and the dotted line represents the respective refrigerant flow during the heating operation.

Cooling operation and heating operation mode is changed to the switching of the four-way valve (2) according to the user's selection and then the flow of refrigerant is changed.

1 is a case where the four-way valve 2 is switched to the cooling operation mode.

That is, in the cooling operation mode, the refrigerant is discharged from the compressor 1 and then transferred to the outdoor heat exchanger 6 via the four-way valve 2 and from the outdoor heat exchanger 6 through the expansion mechanism 5. After being transferred to the indoor heat exchanger (3), it is sucked into the compressor (1). When the heating operation mode is changed, the flow of the refrigerant is reversed (in the direction of the dashed arrow) with the cooling operation.

However, the conventional heat pump air conditioner is a refrigerant in which a gas and a liquid are mixed in the refrigerant flowing into the expansion mechanism from the outdoor heat exchanger in the cooling operation mode and the refrigerant entering the indoor heat exchanger from the expansion mechanism. Therefore, the expansion mechanism is inefficient to convert the high-temperature, high-pressure liquid refrigerant to a low-temperature low-pressure liquid refrigerant, and the effect of evaporating the low-temperature low-pressure liquid refrigerant to a gas state while the indoor heat exchanger acts as an evaporator. Since it is made of, there was a problem that the overall cooling performance is eventually reduced.

In addition, there was a problem that the same problem occurs in the heating operation mode.

The present invention has been made to solve the above problems, it is an object to provide a heat pump air conditioner that can improve the overall cooling performance and heating performance compared to the prior art.

According to an aspect of the present invention for achieving the above object, a compressor for compressing a refrigerant in a low-temperature, low-pressure gas state sucked from the suction port to discharge through the discharge port in a high-temperature, high-pressure gas state; An indoor heat exchanger and an outdoor heat exchanger connected to the compressor and a pipe to exchange heat with external air; An expansion mechanism connected between the indoor side heat exchanger and the outdoor side heat exchanger to decompress the room temperature high pressure liquid state refrigerant delivered from one side to a low temperature low pressure liquid state; And a four-way valve having a passage connecting the discharge port and the suction port of the compressor to the indoor heat exchanger and the outdoor heat exchanger, respectively, and switched to change the flow of the refrigerant during heating. At least one of the suction side and the discharge side of the outdoor heat exchanger or each of the suction side of the indoor heat exchanger and the discharge side of the outdoor heat exchanger further includes a gas recovery member for removing gas contained in the refrigerant. A heat pump air conditioner is provided.

Here, the gas recovery member is preferably an air receiver tank.

According to another aspect of the present invention for achieving the above object, a compressor for compressing the refrigerant of the low-temperature, low-pressure gas state sucked from the suction port to discharge through the discharge port in a high-temperature, high-pressure gas state; An indoor heat exchanger and an outdoor heat exchanger connected to the compressor and a pipe to exchange heat with external air; An expansion mechanism connected between the indoor side heat exchanger and the outdoor side heat exchanger to decompress the room temperature high pressure liquid state refrigerant delivered from one side to a low temperature low pressure liquid state; And a four-way valve having a passage connecting the discharge port and the suction port of the compressor to the indoor heat exchanger and the outdoor heat exchanger, respectively, and switching to change the flow of the refrigerant during heating. Each of the suction side and the discharge side of the outdoor side heat exchanger further includes first and second gas recovery members for removing the gas contained in the refrigerant, wherein the first gas recovery member is provided with the suction side of the indoor heat exchanger. It is connected by a first liquid transfer pipe and connected by the discharge side of the indoor heat exchanger and the first gas transfer pipe, the second gas recovery member is connected by the discharge side and the second liquid transfer pipe of the outdoor heat exchanger. And a heat pump air conditioner connected by the suction side of the outdoor heat exchanger and the second gas transfer pipe.

The first gas transfer pipe is provided with a first open / close valve and the second gas transfer pipe has a second open / close valve, wherein the first and second open / close valves are controlled by a control unit, and the control unit is in a cooling operation mode. The first opening and closing valve is opened and the second opening and closing valve is controlled to be closed. In the heating operation mode, the first opening and closing valve is preferably closed and the second opening and closing valve is controlled.

Preferably, the first and second gas recovery members are air receiver tanks.

Hereinafter, a preferred embodiment of a heat pump air conditioner according to the present invention with reference to the accompanying drawings.

Figure 2 is a schematic diagram showing an embodiment of a heat pump air conditioner according to the present invention.

As shown in FIG. 2, the heat pump air conditioner 10 according to the present invention includes a compressor 11, an indoor side heat exchanger 13, an outdoor side heat exchanger 16, an expansion mechanism 15, and a four-way valve. (12), gas recovery members (21, 22).

First, the compressor 11 compresses a refrigerant in a low temperature and low pressure gas state sucked from the inlet 11b and discharges it through the discharge port 11a in a high temperature and high pressure gas state.

The four-way valve 12 has two independent passages 12a and 12b connecting the discharge port 11a and the suction port 11b of the compressor 11 to the indoor heat exchanger 13 and the outdoor heat exchanger 16, respectively. It has a switching operation to change the flow of the refrigerant according to the mode of cooling operation and heating operation according to the user's choice.

The indoor heat exchanger 13 is located indoors, and serves as an evaporator for evaporating the refrigerant of low temperature and low pressure liquid state into the gas state in the cooling operation mode, and the refrigerant of the high temperature and high pressure gas state into the normal temperature and high pressure liquid state in the heating operation mode. It acts as a condenser to condense and heat exchanges with surrounding air in response to the change in enthalpy of the refrigerant.

The indoor blower 14 is operated to promote a heat exchange action as an evaporator or a condenser of the indoor heat exchanger 13 and to generate cold or warm air necessary for the room.

The expansion mechanism 15 is connected between the indoor side heat exchanger 13 and the outdoor side heat exchanger 16 to decompress the room temperature high pressure liquid state refrigerant transferred from one side to the low temperature low pressure liquid state.

The outdoor heat exchanger (16) is located on the outdoor side as opposed to the indoor heat exchanger (13), and functions as a condenser during the cooling operation and an evaporator during the heating operation to exchange heat with ambient air.

The outdoor blower 17 is then operated to promote heat exchange (as a condenser or evaporator) of the outdoor heat exchanger 16.

The gas recovery members 20 and 21 may be any one of the suction side of the indoor heat exchanger 13 and the discharge side of the outdoor heat exchanger 16 or the indoor heat exchanger 13 in a cooling operation mode. Each of the suction side and the discharge side of the outdoor side heat exchanger 16 is to remove the gas contained in the refrigerant.

In FIG. 2, first and second gas recovery members 20 and 21 are provided on the suction side of the indoor heat exchanger 13 and the discharge side of the outdoor heat exchanger 16, respectively. Preferably, the first and second gas recovery members 20, 21 are air receiver tanks.

The present invention is provided with the gas recovery member (20, 21) for removing the gas from the refrigerant as described above, it is possible to provide only the liquid refrigerant to the expansion mechanism (15) and the indoor side heat exchanger (13) in the cooling operation mode. Since there is an effect to maximize the efficiency of the expansion mechanism (15) and the indoor heat exchanger (13).

That is, in the cooling operation mode, the expansion mechanism 15 smoothly converts the high-temperature high-pressure liquid refrigerant into a low-temperature low-pressure liquid refrigerant, and the indoor heat exchanger 13 functions as an evaporator while the low-temperature low-pressure liquid Since the action of evaporating the refrigerant in the gas state to the gas state can be more smoothly, there is an excellent effect that the cooling performance of the heat pump air conditioner 10 according to the present invention is increased.

The operation of the heat pump air conditioner 10 according to the present invention, as shown in Figure 2, the arrow indicates the flow of the refrigerant, the solid line represents the cooling operation, the dotted line represents the refrigerant flow during the heating operation Indicates.

Cooling operation and heating operation mode is changed to the switching of the four-way valve 12 according to the user's selection and then the flow chart of the refrigerant is changed.

2 is a case where the four-way valve 12 is switched to the cooling operation mode.

That is, in the cooling operation mode, the refrigerant is discharged from the compressor 11 and then transferred to the outdoor heat exchanger 16 via the four-way valve 12, and the second liquid transfer pipe 23 from the outdoor heat exchanger 16. Into the second gas recovery member 21 along the ().

The refrigerant introduced into the second gas recovery member 21 flows into the expansion mechanism 15 in a liquid state in a state where gas is partially removed, and the refrigerant introduced into and discharged from the expansion mechanism 15 again transfers the first liquid. The refrigerant introduced into the first gas recovery member 20 along the pipe 22, and the refrigerant introduced into the first gas recovery member 20 flows into the indoor heat exchanger 13 while the gas is removed.

The refrigerant is transferred to the indoor heat exchanger 13 and then sucked into the compressor 11. When the heating operation mode is changed, the flow of the refrigerant is reversed (in the direction of the dashed arrow) with the cooling operation.

Figure 3 is a schematic diagram showing another embodiment of a heat pump air conditioner according to the present invention.

As shown in FIG. 3, the heat pump air conditioner 100 according to the present invention includes a compressor 11, an indoor side heat exchanger 13, an outdoor side heat exchanger 16, an expansion mechanism 15, and a four-way valve. 12, first and second gas recovery members 30,31.

Description of the compressor 11, the indoor side heat exchanger 13, the outdoor side heat exchanger 16, the expansion mechanism 15, and the four-way valve 12 has already been described in the above-described embodiment, The description is omitted here, and the following description will be mainly focused on the components of the heat pump air conditioner 100 which is closely related to the present embodiment.

In the present embodiment, the first and second gas recovery members 30 and 31 are included in the refrigerant on the suction side of the indoor heat exchanger 13 and the discharge side of the outdoor heat exchanger 16 in the cooling operation mode. It is provided to remove the gas.

The first gas recovery member 30 is connected by the suction side of the indoor heat exchanger 13 and the first liquid transfer pipe 32, and the discharge side and the first gas transfer pipe of the indoor heat exchanger 13. 34 is connected to the second gas recovery member 31 by the discharge side of the outdoor side heat exchanger 16 and the second liquid transfer pipe 33, and the outdoor side heat exchanger 16 It is connected by the suction side and the second gas transfer pipe (35).

In the embodiment, the first gas transfer pipe 34 is provided with a first open and close valve 36 and the second gas transfer pipe 35 is preferably provided with a second open and close valve 37.

These first and second on-off valves 36 and 37 are electronic valves, and are preferably controlled by the controller 40.

The control unit 40 controls the heat pump air conditioner 100 according to the present invention to open the first open / close valve 36 and close the second open / close valve 37 when the air conditioner is in a cooling operation mode. In the operation mode, the first open / close valve 36 is closed and the second open / close valve 37 is controlled to open.

The operation of the heat pump air conditioner 100 according to the present invention, as shown in Figure 3, the arrow indicates the flow of the refrigerant, the solid line represents the cooling operation, the dashed line represents each refrigerant flow during the heating operation Indicates.

Cooling operation and heating operation mode is changed to the switching of the four-way valve 12 according to the user's selection and then the flow chart of the refrigerant is changed.

3 is a case where the four-way valve 12 is switched to the cooling operation mode.

That is, in the cooling operation mode, the refrigerant is discharged from the compressor 11 and then transferred to the outdoor heat exchanger 16 via the four-way valve 12, and the second gas recovery member 31 is discharged from the outdoor heat exchanger 16. It is introduced into).

The refrigerant introduced into the second gas recovery member 31 flows into the expansion mechanism 15 along the second liquid transfer pipe 33 in a liquid state in a state where gas is partially removed. At this time, the second on-off valve 37 provided in the second gas transfer pipe 35 is in a closed state.

The refrigerant introduced into and discharged from the expansion mechanism 15 flows into the indoor heat exchanger 13 along the first liquid transfer pipe 32 in a liquid state while the gas is removed from the first gas recovery member 30. do. At this time, the first on-off valve 36 provided in the first gas transfer pipe 34 is in an open state under the control of the controller 40. For this reason, the gas stored in the first gas recovery member 30 is provided to the discharge side of the indoor heat exchanger 13 along the first gas transfer pipe 34.

As such, the gas stored in the first gas recovery member 30 is provided along the first gas transfer pipe 34 to the discharge side of the indoor side heat exchanger 13, thereby providing a refrigerant compensation and heat pump air conditioning according to the present invention. It is possible to sufficiently prevent the degradation of the efficiency of the cooling cycle of the group 100.

The refrigerant is transferred to the indoor heat exchanger 13 and then sucked into the compressor 11.

On the other hand, when the heating operation mode is changed, the flow of the refrigerant is reversed (in the direction of the dotted arrow) with the cooling operation.

That is, in the heating operation mode, the refrigerant is discharged from the compressor 11 and then transferred to the indoor heat exchanger 13 via the four-way valve 12, and the first liquid transfer pipe 32 from the indoor heat exchanger 13. Into the first gas recovery member 30 along the).

The refrigerant introduced into the first gas recovery member 30 flows into the expansion mechanism 15 in the liquid phase in a state where gas is partially removed. At this time, the first on-off valve 36 provided in the first gas transfer pipe 34 is in a closed state.

The refrigerant introduced into and discharged from the expansion mechanism 15 flows into the outdoor heat exchanger 16 along the second liquid transfer pipe 33 in a liquid state while the gas is removed from the first gas recovery member 30 again. do. At this time, the second on-off valve 37 provided in the second gas transfer pipe 35 is in an open state under the control of the controller 40. For this reason, the gas stored in the second gas recovery member 31 is provided along the second gas transfer pipe 31 to the discharge side (suction side in the cooling operation mode) of the outdoor side heat exchanger 16.

In this way, the gas stored in the second gas recovery member 31 is provided along the second gas transfer pipe 35 to the discharge side of the outdoor heat exchanger 16, thereby providing a refrigerant compensation and heat pump air conditioning according to the present invention. It may be possible to prevent a decrease in efficiency for the heating cycle of the device 100.

The refrigerant is transferred to the outdoor heat exchanger 16 and then sucked into the compressor 11.

The present invention relates to a heat pump air conditioner, which is one of the suction side of the indoor heat exchanger and the discharge side of the outdoor heat exchanger or the suction side of the indoor heat exchanger and the outdoor heat exchanger in a cooling operation mode. Each discharge side further includes a gas recovery member for removing the gas contained in the refrigerant, so that the expansion mechanism converts the high-temperature and high-pressure liquid refrigerant into a low-temperature and low-pressure liquid refrigerant in the cooling operation mode. Since the indoor heat exchanger acts as an evaporator, it is possible to more smoothly evaporate the refrigerant in the low-temperature, low-pressure liquid state into the gas state, thereby increasing the overall cooling performance.

In addition, in the present invention, the first gas recovery member is connected by the suction side of the indoor heat exchanger and the first liquid transfer pipe, and is connected by the discharge side of the indoor heat exchanger and the first gas transfer pipe. The gas recovery member is connected by the discharge side of the outdoor heat exchanger and the second liquid transfer pipe, and is connected by the suction side of the outdoor heat exchanger and the second gas transfer pipe, whereby the gas stored in the first gas recovery member Since it is provided to the discharge side of the indoor heat exchanger along the gas transfer pipe, not only can the efficiency reduction for the cooling cycle be prevented, but also the gas stored in the second gas recovery member is stored in the outdoor heat exchanger along the second gas transfer pipe. Since it is provided to the discharge side of the has an excellent effect that can prevent the efficiency decrease for the heating cycle.

Claims (5)

A compressor configured to compress the refrigerant in a low temperature and low pressure gas state sucked from the inlet and discharge the high temperature and high pressure gas through the discharge port; An indoor heat exchanger and an outdoor heat exchanger connected to the compressor and a pipe to exchange heat with external air; An expansion mechanism connected between the indoor side heat exchanger and the outdoor side heat exchanger to decompress the room temperature high pressure liquid state refrigerant delivered from one side to a low temperature low pressure liquid state; And  A four-way valve having a passage connecting the discharge port and the suction port of the compressor to the indoor heat exchanger and the outdoor heat exchanger, respectively, and switched to change the flow of the refrigerant during heating; In the cooling operation mode, any one of the suction side of the indoor heat exchanger and the discharge side of the outdoor heat exchanger or the suction side of the indoor heat exchanger and the discharge side of the outdoor heat exchanger may be removed to remove gas contained in the refrigerant. Heat pump air conditioner further comprises a gas recovery member. The method of claim 1, And the gas recovery member is an air receiver tank. A compressor configured to compress the refrigerant in a low temperature and low pressure gas state sucked from the inlet and discharge the high temperature and high pressure gas through the discharge port; An indoor heat exchanger and an outdoor heat exchanger connected to the compressor and a pipe to exchange heat with external air; An expansion mechanism connected between the indoor side heat exchanger and the outdoor side heat exchanger to decompress the room temperature high pressure liquid state refrigerant delivered from one side to a low temperature low pressure liquid state; And  A four-way valve having a passage connecting the discharge port and the suction port of the compressor to the indoor heat exchanger and the outdoor heat exchanger, respectively, and switched to change the flow of the refrigerant during heating; Each of the suction side of the indoor side heat exchanger and the discharge side of the outdoor side heat exchanger further includes first and second gas recovery members to remove gas contained in the refrigerant in a cooling operation mode, wherein the first gas recovery member Is connected by the suction side of the indoor heat exchanger and the first liquid transfer pipe, and is connected by the discharge side of the indoor heat exchanger and the first gas transfer pipe, and the second gas recovery member is connected to the outdoor heat exchanger. And a heat pump air conditioner connected by a discharge side and a second liquid transfer pipe and connected by a suction side and a second gas transfer pipe of the outdoor side heat exchanger. The method of claim 3, wherein The first gas transfer pipe is provided with a first open / close valve and the second gas transfer pipe has a second open / close valve, wherein the first and second open / close valves are controlled by a control unit, and the control unit is in a cooling operation mode. The first opening and closing valve is opened and the second opening and closing valve is controlled to be closed, and in the heating operation mode, the first opening and closing valve is closed and the second opening and closing valve is controlled to open the heat pump air Conditioner. The method of claim 3, wherein The first and second gas recovery member is a heat pump air conditioner, characterized in that the air receiver tank.

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