KR100504880B1 - Multi-air conditioner capable of heating and cooling simultaneously with supercooling- accumulator - Google Patents

Abstract

The present invention relates to an air-conditioning simultaneous multi air conditioner having a supercooled accumulator, comprising: an outdoor unit having an outdoor heat exchanger; A plurality of indoor units having an indoor heat exchanger and an expansion device; A casing is provided to form a receiving space around a refrigerant pipe through which the high-pressure liquid refrigerant flows through the outdoor heat exchanger so that the low-temperature refrigerant via the indoor unit in the cooling operation can be temporarily accommodated. A supercooled accumulator for allowing the high-pressure liquid refrigerant to be supercooled to flow into the expansion device; And an oil return pipe connected to the bottom of the casing of the subcooled accumulator so that oil of the bottom of the casing can be returned to the outdoor unit. As a result, there is provided a cooling / cooling simultaneous multi air conditioner having a supercooling accumulator capable of suppressing noise generation of an expansion device of an indoor unit in a cooling operation due to the introduction of two phases of refrigerant and improving cooling capability.

Description

MULTI-AIR CONDITIONER CAPABLE OF HEATING AND COOLING SIMULTANEOUSLY WITH SUPERCOOLING- ACCUMULATOR}

The present invention relates to an air-conditioning simultaneous multi air conditioner having an overcooling accumulator, and more particularly, to suppresses the noise generation of the expansion unit of an indoor unit in a cooling operation due to the introduction of two phases of refrigerant, and to provide a cooling capability. The present invention relates to a simultaneous air-conditioning and multi-air conditioner having a supercooled accumulator.

1 is a configuration of a refrigeration cycle of a conventional air-conditioning simultaneous multi air conditioner. As shown, the simultaneous heating and cooling multi air conditioner, the indoor unit having a heat exchanger 12, a plurality of indoor units 11 arranged in the indoor space, and the outdoor unit 21 having a compressor 23 is arranged outdoors. And a distributor 41 disposed between the outdoor unit 21 and the indoor unit 11 so that appropriate refrigerant can be introduced into the indoor heat exchanger 12 according to the operation of the indoor unit 11. .

The outdoor unit 21 includes a plurality of compressors 23 for compressing a refrigerant, a four-way valve 25 disposed on the discharge side of the compressor 23, and a pair of outdoor heat exchangers connected to the discharge side of the four-way valve 25. The group 27 is provided. The discharge side of the compressor 23 is connected in communication with each other and is connected to the suction side of the four-way valve 25, the accumulator 24 is connected to the suction side of the compressor 23.

One end of the high-pressure engine 35 through which the refrigerant compressed by the compressor 23 flows to the indoor unit 11 is connected between the discharge side of the compressor 23 and the four-way valve 25, and an outdoor heat exchanger 27. One side of the blowing fan 28 is provided to facilitate the flow of air.

One side of the outdoor heat exchanger (27) is connected with a high pressure liquid tube (37) so that the refrigerant via the outdoor heat exchanger (27) flows to the indoor unit (11), and the high pressure liquid tube (37) performs outdoor heat exchange during heating. The check valve 29, the bypass passage 31, and the outdoor expansion device 33 are provided so that the refrigerant can be expanded under reduced pressure before the gas 27 is introduced.

The indoor unit 11 includes a plurality of indoor heat exchangers 12 and an indoor expansion device 13.

A distributor 41 is provided between the outdoor unit 21 and the indoor unit 11 so that the refrigerant can be appropriately provided according to the cooling and / or heating operation state of each indoor unit 11.

The distributor 41 is connected to the high-pressure engine section 42a through which the compressed high-pressure gaseous refrigerant flows, and the indoor expansion device 13 of each indoor heat exchanger 12, and has a high-pressure liquid refrigerant therein. It consists of the high pressure liquid pipe part 42b which flows, and the low pressure engine part 42c which the refrigerant | coolant of the low pressure gas state which flows through each indoor heat exchanger 12 flows. The mutually joined low pressure engine section 42c is connected in communication with the suction side of the accumulator 24 and corresponds to the high pressure engine section 42a and the low pressure engine section 42c respectively connected to each indoor heat exchanger 12. High pressure valve 43 and low pressure valve 44 are respectively provided to open and close the flow path.

However, in the conventional air-conditioning simultaneous multi air conditioner, when the distance between the outdoor unit 21 and the indoor unit 11 is far and connected to the long pipe, the refrigerant is not sufficiently cooled due to pressure loss, and thus two phases Inflow into the indoor expansion device 13 of the indoor unit 11 during the cooling operation in a state not only causes noise but also causes a decrease in cooling capacity.

In addition, when the refrigerant does not sufficiently absorb the latent heat of evaporation, there is a problem that the liquid refrigerant flows into the compressor 23 and the compressor 23 may be damaged.

Accordingly, it is an object of the present invention to provide a simultaneous air-conditioning multi-air conditioner having an overcooling accumulator capable of suppressing noise generation of an expansion device of an indoor unit during cooling operation due to the inflow of abnormal refrigerant and improving cooling capability. .

The object is, according to the present invention, an outdoor unit having an outdoor heat exchanger; A plurality of indoor units having an indoor heat exchanger and an expansion device; A casing is provided to form a receiving space around a refrigerant pipe through which the high-pressure liquid refrigerant flows through the outdoor heat exchanger so that the low-temperature refrigerant via the indoor unit in the cooling operation can be temporarily accommodated. A supercooled accumulator for allowing the high-pressure liquid refrigerant to be supercooled to flow into the expansion device; And an oil return pipe connected to the bottom of the casing of the subcooled accumulator so that the oil at the bottom of the casing can be returned to the outdoor unit side. Is achieved.

Here, it is effective to further include an on-off valve for opening and closing the oil return pipe.

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Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

2 is a configuration diagram of a refrigeration cycle of a simultaneous heating and cooling multi-type air conditioner with a subcooled accumulator according to an embodiment of the present invention, FIG. 3 is an enlarged view of a main part of FIG. 2, and FIG. 4 is a line IV-IV of FIG. 3. 5 is a cross-sectional view taken along the line VV of FIG. 3. The same and equivalent parts as those described above and shown in the drawings will be described with the same reference numerals for convenience of description. As shown in these figures, the air-conditioning simultaneous multi air conditioner equipped with the present subcooled accumulator includes an outdoor unit 21 having a compressor 23 and an outdoor heat exchanger 27, an indoor heat exchanger 12, and an indoor unit. A plurality of indoor units 11 having an expansion device 13 and a high pressure liquid tube 37 through which the refrigerant passing through the outdoor heat exchanger 27 flow are disposed so that the refrigerant in the high pressure liquid tube 37 is supercooled. The supercooled accumulator 51 is included.

The four-way valve 25 is connected to the discharge side of the compressor 23, and the outdoor heat exchanger 27 is connected to one discharge part of the four-way valve 25. The other side of the outdoor heat exchanger (27) is connected with a high pressure liquid tube (37) so that a high-pressure liquid refrigerant flows, and the high pressure liquid tube (37) is a check valve (29), a bypass flow path (31) and the outdoor An expansion device 33 is provided. A blower fan 28 is disposed at one side of the outdoor heat exchanger 27 to facilitate heat exchange of the outdoor heat exchanger 27.

The high pressure engine 35 is connected to the discharge side of the compressor 23 so that the compressed high-pressure gaseous refrigerant can flow therebetween, and the indoor unit 11 is operated between the outdoor unit 21 and the indoor unit 11. The distributor 41 is provided so that a suitable refrigerant can be provided according to the state.

The distributor 41 includes a high pressure engine section 42a through which a high-pressure gaseous refrigerant flows, a high pressure liquid pipe section 42b through which a high-temperature liquid refrigerant flows, and a low pressure through which a low-temperature gaseous refrigerant flows. The engine part 42c is provided. High-pressure valve 43 and low-pressure valve 44 are provided in high-pressure engine part 42a and low-pressure engine part 42c, respectively, so that the flow path can be opened and closed.

On the other hand, in some sections of the internal high pressure liquid pipe part 42b of the distributor 41, a subcooled accumulator 51 is provided so that the refrigerant in the liquid state flowing therein can be sufficiently cooled.

The supercooled accumulator 51 is provided with a casing 52 which forms a temporary accommodating space of the low-temperature gaseous refrigerant flowing out from the indoor unit 11 in the cooling operation around the high pressure liquid pipe part 42b.

The low pressure engine part 42c through which the low-temperature gaseous refrigerant flows through the indoor heat exchanger 12 of each indoor unit 11 is connected to the side part along the longitudinal direction of the casing 52, respectively. , At one end along the longitudinal direction, an outlet pipe 53 is installed to allow the refrigerant inside to flow out.

The end of the outflow pipe 53 inserted into the casing 52 of the subcooled accumulator 51 is provided to be spaced apart from the bottom by a predetermined distance, and the oil inside the casing 52 returns to the compressor 23. One end of the oil return pipe 55 is connected in communication with each other so as to be possible. The other end of the oil return pipe 55 is connected to each other in communication with the outlet pipe 53, the oil return pipe 55 is provided with an on-off valve 57 to open and close the oil return pipe (55).

By this configuration, when the indoor unit 11 in which the cooling operation is performed in the indoor unit 11 is operated more so-called cooling main body than the indoor unit 11 in which the heating operation is performed, the high-pressure gaseous refrigerant compressed by the compressor 23 is operated. Some of them flow through the outdoor heat exchanger 27 along the high pressure liquid pipe 37 to the distributor 41, and some of them flow along the high pressure pipe 35. At this time, all of the low pressure valves 44 of the low pressure engine part 42c connected to the indoor unit 11 in the cooling operation are opened, and all of the high pressure valves 43 of the high pressure engine part 42a are shut off. The high pressure valve 43 of the high pressure engine part 42a connected to the indoor unit 11 during the heating operation is opened, and the low pressure valve 44 of the low pressure engine part 42c is shut off.

The refrigerant flowing along the high pressure engine (35) flows into the indoor heat exchanger (12) of the indoor unit (11) during heating operation through the high pressure valve (43) of the high pressure engine (42a), and performs a heating function. It is joined to the high pressure liquid pipe part 42b and flows into the indoor unit 11 during the cooling operation to perform the cooling function.

Meanwhile, the refrigerant flowing into the distributor 41 along the high pressure liquid pipe 37 is expanded under reduced pressure through the indoor expansion device 13 of each indoor unit 11 in the cooling operation to absorb latent heat of evaporation in the indoor heat exchanger 12. While performing a cooling function, it flows into the casing 52 of the subcooled accumulator 51 along the low pressure engine part 42c. At this time, heat exchange is performed with the high-pressure refrigerant flowing in the section disposed inside the casing 52 of the subcooled accumulator 51. That is, the refrigerant flowing along the high-pressure liquid pipe 37 passes through the indoor expansion device 13 of the indoor unit 11 during the cooling operation under supercooling, thereby reducing noise and improving cooling ability. The low-temperature refrigerant inside the casing 52 of the subcooled accumulator 51 absorbs heat from the high-pressure liquid pipe 37 to raise the temperature, and the refrigerant whose temperature is raised to the accumulator 24 along the outlet pipe 53. It is introduced to promote the evaporation of the refrigerant to prevent the liquid refrigerant is sucked into the compressor (23).

On the other hand, when the oil flowing with the refrigerant collects a certain amount or more at the bottom of the casing 52, the on / off valve 57 of the oil return pipe 55 is opened to allow the oil of the casing 52 to open the oil return pipe 55. Accordingly, the outdoor unit 21 is returned to the outdoor unit 21.

 In the above-described and illustrated embodiments, the case where the cooling main unit operation is performed in which the number of the indoor units that are air-cooled is larger than the number of the indoor units that are in the heating operation is described as an example. Since the high-pressure valve is blocked, all the compressed refrigerant is cooled by the subcooled accumulator through the outdoor heat exchanger to perform the cooling function.

As described above, according to the present invention, an outdoor unit having an outdoor heat exchanger; A plurality of indoor units having an indoor heat exchanger and an expansion device; A casing is provided to form a receiving space around a refrigerant pipe through which the high-pressure liquid refrigerant flows through the outdoor heat exchanger so that the low-temperature refrigerant via the indoor unit in the cooling operation can be temporarily accommodated. A supercooled accumulator for allowing the high-pressure liquid refrigerant to be supercooled to flow into the expansion device; It is connected to the bottom of the casing of the subcooled accumulator to include an oil return pipe for returning the oil of the bottom of the casing to the outdoor unit side, the distance between the indoor unit and the outdoor unit is connected to the long pipe Unlike in the conventional case in which two phases of refrigerant due to pressure loss are introduced into the expansion unit of a cooling indoor unit, causing noise and lowering the cooling capacity, the noise can be reduced and the cooling capacity is improved. There is provided a simultaneous air-conditioning multi air conditioner with a subcooled accumulator.

Further, according to the present invention, unlike the conventional case where the refrigerant passing through the indoor unit during the cooling operation does not sufficiently absorb the latent heat and the liquid refrigerant flows into the compressor, causing damage to the compressor. There is provided a simultaneous air-conditioning multi air conditioner with a subcooled accumulator.

1 is a configuration of a refrigeration cycle of a conventional air-conditioning simultaneous multi air conditioner,

2 is a configuration of a refrigeration cycle of a simultaneous heating and cooling multi-type air conditioner having a supercooling accumulator according to an embodiment of the present invention;

3 is an enlarged view illustrating main parts of FIG. 2;

4 is a cross-sectional view taken along line IV-IV of FIG. 3;

5 is a cross-sectional view taken along the line VV of FIG. 3.

Explanation of symbols on the main parts of the drawings

11: indoor unit 12: indoor heat exchanger

13: indoor expansion device 21: outdoor unit

23: compressor 27: outdoor heat exchanger

37: high pressure liquid pipe 41: distributor

42b: high pressure liquid part 51: subcooled accumulator

52: casing 53: outflow pipe

55: oil return pipe 57: on-off valve

Claims (3)

An outdoor unit having an outdoor heat exchanger; A plurality of indoor units having an indoor heat exchanger and an expansion device; A casing is provided to form a receiving space around a refrigerant pipe through which the high-pressure liquid refrigerant flows through the outdoor heat exchanger so that the low-temperature refrigerant via the indoor unit in the cooling operation can be temporarily accommodated. A supercooled accumulator for allowing the high-pressure liquid refrigerant to be supercooled to flow into the expansion device; And an oil return pipe connected to the bottom of the casing of the subcooled accumulator so that oil of the bottom of the casing can be returned to the outdoor unit side. delete The method of claim 1, Simultaneous air-conditioning multi-air conditioner with an overcooling accumulator, characterized in that it further comprises an opening and closing valve for opening and closing the oil return pipe.