KR100728343B1 - Heat pump air-conditioner having indoor heat exchanger of multi type - Google Patents

Abstract

A heat pump type air conditioner with a multi type indoor heat exchanger is provided to supply a sufficient amount of oil to a compressor continuously even when refrigerant pipes are long and a high head is generated, thereby preventing damage or malfunction of the compressor. A heat pump type air conditioner with a multi type indoor heat exchanger comprises an oil separator(20) mounted between a compressor(11) and a 4-way valve(12) for collecting oil from refrigerant discharged from an outlet(11a) of the compressor, and an oil supplier for re-supplying the oil collected by the oil separator to a portion between the compressor and the 4-way valve. The oil supplier has a first connection pipe(100) connecting the oil separator to an inlet of the compressor for supplying the collected oil to the inlet(11b) of the compressor, and a second connection pipe(200) connecting the oil separator to an accumulator(18) for supplying surplus oil to the accumulator by potential energy when the collected oil reaches a set height in the oil separator.

Description

[0001] The present invention relates to a heat pump air conditioner having a multi-type indoor heat exchanger,

FIG. 1 is a schematic view showing a structure of a heat pump air conditioner having a general multi-type indoor heat exchanger,

FIG. 2 is a schematic view showing an embodiment of a heat pump air conditioner having a multi-type indoor heat exchanger according to the present invention,

FIG. 3 is a schematic view showing an electrical connection relationship between a control unit and other elements in the practice of the heat pump air conditioner according to the present invention,

FIG. 4 is a schematic view showing another embodiment of a heat pump air conditioner having a multi-type indoor heat exchanger according to the present invention,

5 is a schematic view showing an electrical connection relationship between a control unit and other elements in another embodiment of the heat pump air conditioner according to the present invention.

Description of the Related Art [0002]

10,10 '; An air conditioner 11; compressor

11a; A discharge port 11b; Inlet

12; Four-way valves 12a and 12b; Passage

13,13 '; Indoor heat exchangers 14 and 14 '; Indoor blower

15,15 '; An expansion mechanism 16; Outdoor heat exchanger

17; Outdoor blower 18; Accumulate

20; Oil separator 30; Opening / closing valve

31; A first opening / closing valve 32; The second opening / closing valve

49; A control unit 50; Flow sensor for compressor

60; An accumulator flow sensor 100; The first connecting piping

200; Second connection piping

The present invention relates to an air conditioner, and more particularly, to a heat pump air conditioner having a multi-type indoor heat exchanger.

Generally, heat travels naturally from the high temperature side to the low temperature side, but in order to transfer heat from the low temperature side to the high temperature side, it must exert some external action. This is the function of the heat pump.

The heat pump air conditioner reversibly uses a transport mechanism for heat transferred to a refrigeration cycle consisting of compression-condensation-decompression-evaporation of a refrigerant, and serves as both cooling and freezing.

In recent years, a heat pump air conditioner having a multi-type indoor heat exchanger capable of providing cooling and heating to a large number of indoor spaces has attracted attention in terms of consumer's preference and practicality.

1 is a schematic view showing the structure of a heat pump air conditioner having a general multi-type indoor heat exchanger.

1, the conventional heat pump air conditioner is composed of a compressor 1, a four-way valve 2, an indoor heat exchanger 3, 3 'and its blower 4, 4' An expansion unit 5,5 ', an outdoor heat exchanger 6, an air blower 7 thereof, and an accumulator 8. [

The compressor 1 compresses a low-temperature and low-pressure gaseous refrigerant (refrigerant) having a suction port 1b and a discharge port 1a and sucked from the suction port 1b and discharges the refrigerant in a high-temperature and high- 1a.

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

The indoor heat exchanger (3, 3 ') is located in the room, serves as an evaporator for evaporating refrigerant in a low-temperature and low-pressure liquid state to a gaseous state in a cooling operation mode, And serves as a condenser for condensing the refrigerant in the state of normal temperature and high pressure so as to exchange heat with the surrounding air in accordance with the enthalpy change of the refrigerant.

The indoor side blowers 4 and 4 'are operated to promote the heat exchange action of the indoor heat exchangers 3 and 3' as an evaporator or a condenser, while simultaneously generating cold air or warm air necessary for the room.

The expansion mechanism (5, 5 ') is connected between the indoor heat exchanger (3, 3') and the outdoor heat exchanger (6) so that the room temperature high pressure liquid refrigerant transferred from either side is reduced Is a capillary.

The outdoor heat exchanger (6) is located on the outdoor side opposite to the indoor heat exchanger (3, 3 '), and serves as a condenser during cooling operation and a heat exchanger with ambient air as an evaporator during heating operation.

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

The accumulator 8 functions to filter the refrigerant remaining in the liquid state in the refrigerant flowing from the four-way valve 2 and to supply the oil to the compressor 1 side.

In Fig. 1, the arrow indicates the flow of the refrigerant, the solid line indicates the cooling operation, and the dotted line indicates the flow of each refrigerant in the heating operation.

The cooling operation mode and the heating operation mode are switched to the four-way valve 2 according to the user's selection, and the flow of the refrigerant is changed at that time.

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 the expansion mechanism 5, 5 ' To the indoor heat exchanger 3, 3 ', and then is sucked into the compressor 1 through the accumulator 8. When the mode is changed to the heating operation mode, the flow of the refrigerant is reversed (in the direction of the dotted arrow) during the cooling operation.

However, in recent years, as consumers want to have more indoor heat exchangers in a heat pump air conditioner having a multi-type indoor heat exchanger, the capacity of the outdoor unit is increased to 40 to 50 HP, and the length of the refrigerant pipe The length of the piping becomes long, and a high drop occurs.

As described above, in the heat pump air conditioner having the multi-type indoor heat exchanger, since the length of the refrigerant pipe becomes long and the piping length becomes long, the compressor is difficult to recover the oil due to the occurrence of the high oil level, .

SUMMARY OF THE INVENTION The present invention has been devised to solve the above-mentioned problems, and it is an object of the present invention to provide a heat pump air conditioner having a multi-type indoor heat exchanger that can protect the compressor by supplying sufficient oil to the compressor at all times even if the refrigerant pipe is long, It has its purpose.

According to an aspect of the present invention, there is provided a compressor comprising: a compressor that compresses a refrigerant in a low-temperature and low-pressure gas state sucked from an inlet, and discharges the refrigerant through a discharge port in a high- An indoor-side heat exchanger and an outdoor-side heat exchanger connected to the compressor by a pipe to exchange heat with outside air; An expansion mechanism connected between the indoor heat exchanger and the outdoor heat exchanger to decompress the room-temperature high-pressure liquid-state refrigerant fed from one side to a low-temperature low-pressure liquid state; 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, so as to change the flow of the refrigerant during cooling and heating; And an accumulator for filtering the refrigerant remaining in a liquid state in the refrigerant flowing from the four-way valve and supplying oil to the compressor side, wherein the compressor is arranged to collect only the oil out of the refrigerant discharged from the discharge port of the compressor, Further comprising an oil separator provided between the oil separator and the oil separator, and an oil supply device for re-supplying the oil collected by the oil separator to the compressor and the accumulator, respectively, wherein the oil separator and the inlet A first connection pipe connecting the oil separator and the accumulator and connecting the oil separator and the accumulator to each other to connect the oil separator to the suction port of the compressor; When the oil reaches to And a second connection pipe for allowing the oil excess of the predetermined height to be provided to the accumulator by the potential energy.

The oil supply device further includes a flow rate sensor for sensing a flow rate in the compressor and a control unit for controlling opening and closing of the opening / closing valve according to flow rate information sensed by the flow rate sensor. The control unit receives the flow rate information from the flow rate sensor and compares the flow rate information in the compressor with predetermined flow rate information. When the flow rate information in the compressor is less than predetermined flow rate information, And closes the opening / closing valve when the flow rate information in the compressor exceeds preset flow rate information.

According to another aspect of the present invention, there is provided a compressor comprising: a compressor which compresses a refrigerant in a low-temperature and low-pressure gaseous state sucked from a suction port and discharges the refrigerant in a gaseous state at a high temperature and a high pressure through a discharge port; An indoor-side heat exchanger and an outdoor-side heat exchanger connected to the compressor by a pipe to exchange heat with outside air; An expansion mechanism connected between the indoor heat exchanger and the outdoor heat exchanger to decompress the room-temperature high-pressure liquid-state refrigerant fed from one side to a low-temperature low-pressure liquid state; 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, so as to change the flow of the refrigerant during cooling and heating; And an accumulator for filtering refrigerant remaining in a liquid state in the refrigerant flowing from the four-way valve and supplying oil to the compressor side, wherein the compressor and the four-way valve are arranged to collect only the oil out of the refrigerant discharged from the discharge port of the compressor, Further comprising an oil separator provided between the oil separator and the oil separator, and an oil supply device for re-supplying the oil collected by the oil separator to the compressor and the accumulator, respectively, wherein the oil separator and the inlet A first connection pipe connecting the oil separator and the accumulator and connecting the oil separator and the accumulator to each other, and connecting the oil separator to the accumulator; Depending on the opening / closing of the oil separator A second connection pipe for supplying the oil collected in the accumulator to the accumulator; flow rate sensing sensors for sensing a flow rate in the compressor and sensing a flow rate in the accumulator; And a control unit for controlling the opening and closing of the first and second open / close valves. The multi-type indoor heat exchanger according to claim 1,
Wherein the controller receives flow rate information from the compressor and the accumulator from the flow rate sensors and compares the flow rate information in the compressor and the accumulator with predetermined flow rate information to determine whether the flow rate information in the compressor and the accumulator is equal to or greater than a predetermined flow rate Closing the first and second open / close valves when the flow rate information in the compressor and the accumulator exceeds predetermined flow rate information, and controls the first and second open / .

Hereinafter, a preferred embodiment of a heat pump air conditioner having a multi-type indoor heat exchanger according to the present invention will be described with reference to the accompanying drawings.

FIG. 2 is a schematic view showing an embodiment of a heat pump air conditioner having a multi-type indoor heat exchanger according to the present invention, and FIG. 3 is a schematic view showing an embodiment of a heat pump air conditioner according to the present invention, Fig. 2 is a schematic diagram showing an electrical connection relationship.

2 and 3, a heat pump air conditioner having a multi-type indoor heat exchanger according to the present invention includes a compressor 11, a four-way valve 12, an indoor heat exchanger 13, 13 ' An outdoor heat exchanger 16 and its blower 17, an accumulator 18, an oil separator 20, and an oil supply device.

First, the compressor 11 compresses the low-temperature low-pressure gaseous refrigerant having the suction port 11b and the discharge port 11a and is sucked from the suction port 11b and discharges it through the discharge port 11a in a high-temperature high-pressure gaseous state.

In the present embodiment, one compressor 11 is provided, but two or more compressors may be provided.

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

The indoor heat exchanger (13, 13 ') is located in the room, serves as an evaporator for evaporating the refrigerant in a low-temperature and low-pressure liquid state to a gaseous state in the cooling operation mode, Serves as a condenser for condensing the refrigerant into a high-pressure liquid state, and performs heat exchange with ambient air corresponding to the change in enthalpy of the refrigerant.

In the present embodiment, the number of indoor heat exchangers 13, 13 'is two in total, but it may be two or more.

The indoor side blowers 14 and 14 'are operated to promote the heat exchange action of the indoor heat exchangers 13 and 13' as an evaporator or a condenser, while at the same time generating cold air or warm air required in the room.

The expansion mechanism (15, 15 ') is connected between the indoor side heat exchanger (13, 13') and the outdoor side heat exchanger (16) and converts the room temperature high pressure liquid refrigerant transferred from either side into a low temperature, Is a capillary.

In the present embodiment, the expansion mechanisms 15 and 15 'are two in total, but may be further provided depending on the increased number of the indoor heat exchangers 13 and 13'.

The outdoor heat exchanger 16 is located on the outdoor side opposite to the indoor heat exchangers 13 and 13 'and functions as a condenser during cooling operation and a heat exchanger with ambient air as an evaporator during heating operation.

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

The accumulator 18 functions to filter the refrigerant remaining in the liquid state in the refrigerant flowing from the four-way valve 12 and to supply the oil to the compressor 11 side.

The oil separator 20 is provided between the compressor 11 and the four-way valve 12 so as to collect only the oil from the refrigerant discharged from the discharge port 11a of the compressor 11. Specifically, the oil separator 20 is provided on a pipe connecting the compressor 11 and the four-way valve 12.

That is, if the oil contained in the oil separator 20 reaches this set height (a hole (not shown) formed in the upper part of the oil separator), an oil excess of this set height can be provided to the accumulator 18 As an accumulator). A detailed description thereof will be described again in the second connection pipe 200 described below.

The oil supply device includes a first connection pipe 100, a second connection pipe 200, a flow rate sensor 50, an on-off valve 30, and a control unit 40.

The first connecting piping 100 connects the oil separator 20 and the inlet 11b side of the compressor 11 with each other. That is, the first connecting pipe 100 connects the oil separator 20 and the pipe connecting the inlet 11b of the compressor 11 and the accumulator 18 to each other.

The first connection pipe 100 provides the oil collected in the oil separator 20 to the suction port 11b side of the compressor 11 depending on whether the opening / closing valve 30 is open or closed.

The second connecting pipe 200 connects the oil separator 20 and the accumulator 18.

This second connection pipe 200 provides the oil excess of the predetermined height to the accumulator 18 by the potential energy when the oil reaches the set height in the oil separator 20. That is, the upper portion of the oil separator 20 is connected to one end of the second connection pipe 200, and the oil separator 20 is preferably located at a higher position in the accumulator 18.

The flow rate sensing sensor 50 senses the flow rate in the compressor 11.

The control unit 40 controls the opening and closing of the opening / closing valve 30 according to the flow rate information sensed by the flow rate sensor 50.

3, the control unit 40 receives the flow rate information from the compressor 11 from the flow rate sensor 50 and compares the flow rate information in the compressor 11 with predetermined flow rate information, And controls the opening / closing valve (30) to be opened when the flow rate information is less than the preset flow rate information.

On the other hand, the control unit 40 controls the opening / closing valve 30 to be closed when the flow rate information in the compressor 11 exceeds the predetermined flow rate information.

The operation of the heat pump air conditioner having the multi-type indoor heat exchanger according to the present invention is as follows.

In Fig. 2, the arrow indicates the flow of the refrigerant, the solid line indicates the cooling operation, and the dotted line indicates the flow of each refrigerant in the heating operation.

The cooling operation mode and the heating operation mode are switched to the four-way valve 12 according to the user's selection, and the flow of the refrigerant is changed at that time.

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 is sent to the outdoor heat exchanger 16 via the oil separator 20 and the four-way valve 12 in turn, Is transferred to the indoor heat exchangers (13, 13 ') through the expansion mechanisms (15, 15') and then sucked into the compressor (11) via the accumulator (18). When the mode is changed to the heating operation mode, the flow of the refrigerant is reversed (in the direction of the dotted arrow) during the cooling operation.

When the oil contained in the oil separator 20 reaches the set height in the above process, an oil excess of the set height is supplied to the accumulator 18 by the potential energy.

3, the control unit 40 compares the flow rate information in the compressor 11 with predetermined flow rate information, and when the flow rate information in the compressor 11 is less than the preset flow rate information, So that the oil contained in the oil separator 20 is supplied to the suction port 11b side of the compressor 11. [

On the other hand, in FIG. 3, when the flow rate information in the compressor 11 exceeds the preset flow rate information, the controller 40 controls the opening / closing valve 30 to close in FIG.

Since the present invention has the above-described configurations, it is possible to sufficiently supply the oil to the compressor at all times, so that breakage and failure of the compressor can be prevented in advance.

In addition, when the number of compressors is more than one due to the above-described structure, oil can be supplied between the compressors efficiently even when the oil is poured into one of the compressors.

FIG. 4 is a block diagram schematically showing another embodiment of a heat pump air conditioner having a multi-type indoor heat exchanger according to the present invention, FIG. 5 is a block diagram of a heat pump air conditioner according to another embodiment of the present invention, And schematically showing an electrical connection relationship between the elements.

4 and 5, a heat pump air conditioner having a multi-type indoor heat exchanger according to the present invention includes a compressor 11, a four-way valve 12, an indoor heat exchanger 13, 13 ' An outdoor heat exchanger 16 and its blower 17, an accumulator 18, an oil separator 20, and an oil supply device.

Here, the compressor 11, the four-way valve 12, the indoor heat exchangers 13 and 13 'and the blowers 14 and 14', the expansion mechanisms 15 and 15 ', the outdoor heat exchanger 16, The blower 17 and the accumulator 18 are substantially the same as those in the above-described embodiment (see FIGS. 2 and 3), and a detailed description thereof will be omitted here.

The oil separator 20 is provided between the compressor 11 and the four-way valve 12 so as to collect only the oil in the refrigerant discharged from the discharge port 11a of the compressor 11. [ Specifically, the oil separator 20 is provided on a pipe connecting the compressor 11 and the four-way valve 12.

The oil supply device includes a first connection pipe 100, a second connection pipe 200, a flow rate sensor 50 of the compressor, a flow rate sensor 60 of the accumulator, a first on-off valve 31, A valve 32, and a control unit 40.

The first connecting piping 100 connects the oil separator 20 and the inlet 11b side of the compressor 11 with each other. That is, the first connecting pipe 100 connects the oil separator 20 and the pipe connecting the inlet 11b of the compressor 11 and the accumulator 18 to each other.

The first connection pipe 100 provides the oil collected in the oil separator 20 to the suction port 11b side of the compressor 11 depending on whether the opening / closing valve 30 is open or closed.

The second connecting pipe 200 connects the oil separator 20 and the accumulator 18.

The second connection pipe 200 provides the oil collected in the oil separator 20 to the accumulator 18 depending on whether the second on-off valve 32 is opened or closed.

The flow rate sensing sensors 50 sense the flow rate in the compressor 11 and sense the flow rate in the accumulator 18.

The control unit 40 controls the opening and closing of the first and second open / close valves 31 and 32 according to the flow rate information sensed by the flow rate sensors 50 and 60.

5, the control unit 40 receives the flow rate information from the flow rate sensing sensors 50 and 60 in the compressor 11 and the accumulator 18 and receives the flow rate information from the compressor 11 and the accumulator 18, Controls the first and second open / close valves (31, 32) to be opened when the flow rate information in the compressor (11) and the accumulator (18) falls below the preset flow rate information by comparing the flow rate information.

On the other hand, the control unit 40 controls the first and second open / close valves 31 and 32 to close when the flow rate information in the compressor 11 and the accumulator 18 exceeds the predetermined flow rate information.

The operation of the heat pump air conditioner having the multi-type indoor heat exchanger according to the present invention is as follows.

In Fig. 4, the arrow indicates the flow of the refrigerant, the solid line indicates the cooling operation, and the dotted line indicates the flow of each refrigerant in the heating operation.

The cooling operation mode and the heating operation mode are switched to the four-way valve 12 according to the user's selection, and the flow of the refrigerant is changed at that time.

4 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 is sent to the outdoor heat exchanger 16 via the oil separator 20 and the four-way valve 12 in turn, Is transferred to the indoor heat exchangers (13, 13 ') through the expansion mechanisms (15, 15') and then sucked into the compressor (11) via the accumulator (18). When the mode is changed to the heating operation mode, the flow of the refrigerant is reversed (in the direction of the dotted arrow) during the cooling operation.

5, the controller 40 receives the flow rate information from the flow rate sensors 50 and 60 in the compressor 11 and the accumulator 18 and receives the flow rate information from the compressor 11 and the accumulator 18 The first and second open / close valves 31 and 32 are opened and closed in FIG. 4 when the flow rate information in the compressor 11 and the accumulator 18 is less than the predetermined flow rate information, .

On the other hand, when the flow rate information in the compressor 11 and the accumulator 18 exceeds the preset flow rate information, the controller 40 closes the first and second open / close valves 31 and 32 in FIG. .

Since the present invention has the above-described configurations, it is possible to sufficiently supply the oil to the compressor at all times, so that breakage and failure of the compressor can be prevented in advance.

In addition, when the number of compressors is more than one due to the above-described structure, oil can be supplied between the compressors efficiently even when the oil is poured into one of the compressors.

The present invention relates to a heat pump air conditioner having a multi-type indoor heat exchanger. The present invention relates to an oil separator provided between a compressor and a four-way valve so as to collect only oil out of refrigerant discharged from a discharge port of a compressor, So that even when the refrigerant pipe is long and the oil level is high, sufficient oil is always supplied to the compressor, so that breakage and failure of the compressor can be prevented and prevented in advance.

In addition, the present invention is advantageous in that oil can be efficiently supplied even if the oil fluctuates between the compressors due to the occurrence of at least one of the compressors.

Claims (7)

A compressor for compressing refrigerant in a low-temperature and low-pressure gaseous state sucked from an inlet port and discharging the refrigerant in a gaseous state at a high temperature and a high pressure through a discharge port; An indoor-side heat exchanger and an outdoor-side heat exchanger connected to the compressor by a pipe to exchange heat with outside air; An expansion mechanism connected between the indoor heat exchanger and the outdoor heat exchanger to decompress the room-temperature high-pressure liquid-state refrigerant fed from one side to a low-temperature low-pressure liquid state; 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, so as to change the flow of the refrigerant during cooling and heating; And And an accumulator for filtering refrigerant remaining in a liquid state in the refrigerant flowing from the four-way valve and supplying oil to the compressor side, An oil separator provided between the compressor and the four-way valve so as to collect only oil from the refrigerant discharged from the discharge port of the compressor; and an oil supply device for supplying the oil collected by the oil separator to the compressor and the accumulator, respectively Further, Wherein the oil supply device includes a first connection pipe connecting the oil separator to the suction port side of the compressor and for supplying the oil collected in the oil separator to the suction port side of the compressor depending on whether the open / close valve is opened or closed, And a second connection pipe connecting the separator and the accumulator and allowing the excess oil of the predetermined height to be supplied to the accumulator by the potential energy when the oil reaches the set height in the oil separator. Heat pump air conditioner. delete The method according to claim 1, The oil supply device includes: A flow rate sensor for sensing a flow rate in the compressor, Further comprising a control unit for controlling the opening and closing of the opening / closing valve according to the flow rate information detected by the flow rate sensor. The method of claim 3, Wherein, The flow rate information in the compressor is received from the flow rate sensor, and the flow rate information in the compressor is compared with predetermined flow rate information to open the on / off valve when the flow rate information in the compressor is less than predetermined flow rate information The flow rate information in the compressor is received from the flow rate sensor, and the flow rate information in the compressor is compared with predetermined flow rate information to close the opening / closing valve when the flow rate information in the compressor exceeds predetermined flow rate information Wherein the heat exchanger is controlled so as to cause the heat exchanger to cool the heat exchanger. A compressor for compressing refrigerant in a low-temperature and low-pressure gaseous state sucked from an inlet port and discharging the refrigerant in a gaseous state at a high temperature and a high pressure through a discharge port; An indoor-side heat exchanger and an outdoor-side heat exchanger connected to the compressor by a pipe to exchange heat with outside air; An expansion mechanism connected between the indoor heat exchanger and the outdoor heat exchanger to decompress the room-temperature high-pressure liquid-state refrigerant fed from one side to a low-temperature low-pressure liquid state; 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, so as to change the flow of the refrigerant during cooling and heating; And And an accumulator for filtering refrigerant remaining in a liquid state in the refrigerant flowing from the four-way valve and supplying oil to the compressor side, An oil separator provided between the compressor and the four-way valve so as to collect only oil from the refrigerant discharged from the discharge port of the compressor; and an oil supply device for supplying the oil collected by the oil separator to the compressor and the accumulator, respectively Further, Wherein the oil supply device includes a first connection pipe for connecting the oil separator to the suction port side of the compressor and for supplying the oil collected in the oil separator to the suction port side of the compressor depending on whether the first opening / A second connection pipe connecting the oil separator and the accumulator and providing the oil collected in the oil separator to the accumulator depending on whether the second open / close valve is open or closed, and a second connection pipe for detecting a flow rate in the compressor, And a control unit for controlling the opening and closing of the first and second open / close valves according to the flow rate information detected by the flow rate sensors. The multi-type indoor heat exchanger according to claim 1, Harmonics. delete 6. The method of claim 5, Wherein, The flow rate information in the compressor and the accumulator is received from the flow rate sensors, and the flow rate information in the compressor and the accumulator is compared with the flow rate information in the compressor and the accumulator, The first and second open / close valves are opened, or the flow rate information in the compressor and the accumulator is received from the flow rate sensors, and the flow rate information in the compressor and the accumulator and the preset flow rate information And closes the first and second open / close valves when the flow rate information in the compressor and the accumulator exceeds the predetermined flow rate information. The multi-type indoor heat exchanger according to claim 1,

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