KR101119383B1 - Multi-air conditioner capable of heating and cooling simultaneously - Google Patents

Abstract

The present invention relates to an outdoor unit having a compressor; A plurality of indoor units; A distributor interposed between the outdoor unit and the indoor unit to distribute the refrigerant via the outdoor unit to the indoor unit; A high pressure engine having one side connected to the discharge side of the compressor and the other side connected to the distributor; When the indoor unit is operated in all the cooling unit of the indoor unit is characterized in that it comprises a condensation inhibiting unit for suppressing the condensation of the refrigerant inside the high-pressure engine. As a result, there is provided a cooling and heating simultaneous multi air conditioner which can suppress unnecessary condensation of the refrigerant and prevent the refrigerant shortage.

Description

Air-conditioning simultaneous multi-conditioner {MULTI-AIR CONDITIONER CAPABLE OF HEATING AND COOLING SIMULTANEOUSLY}

1 is a view showing a conventional air-conditioning simultaneous multi air conditioner,

2 is a view for explaining a cooling room operation state of FIG.

3 is a configuration diagram of a simultaneous air-conditioning type multi air conditioner according to an embodiment of the present invention;

4 is a view for explaining the operation of FIG.

Explanation of symbols on the main parts of the drawings

10: outdoor unit 11: compressor

15: outdoor heat exchanger 19: outdoor expansion device

30: indoor unit 31: indoor heat exchanger

33: indoor expansion device 40: distributor

41: high pressure engine 42: high pressure valve

43: high pressure liquid pipe 45: low pressure engine

46: low pressure valve 51: high pressure engine opening and closing valve

55: control unit

The present invention relates to a simultaneous air-conditioning type multi air conditioner, and more particularly, to an air-conditioning type multi air conditioner capable of preventing unnecessary condensation of a refrigerant to prevent refrigerant shortage.

1 is a view showing a conventional air-conditioning simultaneous multi air conditioner, Figure 2 is a view for explaining the operating state of the cooling and discharge chamber of FIG. As shown in these figures, the air-conditioning simultaneous multi air conditioner is interposed between an outdoor unit 10, a plurality of indoor units 30 arranged in each room, and an outdoor unit 10 and an indoor unit 30. And a distributor 40 to properly distribute the refrigerant of the outdoor unit 10 to the indoor unit 30.

The outdoor unit 10 includes a compressor 11 for compressing a refrigerant, a flow path switching valve 13 arranged to switch a refrigerant passage on the discharge side of the compressor 11, and a refrigerant compressed during cooling operation through heat dissipation. It consists of an outdoor heat exchanger (15) for condensation. An accumulator 12 is provided at one side of the compressor 11, and an outdoor fan 17 is installed at one side of the outdoor heat exchanger 15 to promote heat exchange. An outdoor expansion device 19 is provided at one side of the outdoor heat exchanger 15 along the flow direction of the refrigerant, and a bypass passage 21 having a check valve 23 is formed at one side of the outdoor expansion device 19. have.

Each indoor unit 30 is provided with the indoor heat exchanger 31 which heat-exchanges with indoor air as a refrigerant | coolant passes, and the indoor expansion device 33 provided in one side of the indoor heat exchanger 31, respectively.

On the other hand, the distributor 40, one side is connected to the discharge side of the compressor 11, the high-pressure engine 41, one side is connected to the outdoor heat exchanger 15, the high-pressure liquid pipe 43, and one side is the compressor 11 Each of the low pressure engines 45 connected to the suction side of the high pressure engine 41 and the low pressure engine 45 has a high pressure valve 42 and the low pressure valve 46 so as to open and close the refrigerant pipe, respectively. Each is installed.

By such a configuration, when some of the indoor unit 30 is cooled and some is heated, as shown in FIG. 1, some of the refrigerant discharged from the compressor 11 passes through the outdoor heat exchanger 15. And flows to the distributor 40 along the high pressure liquid tube 43, and a part of the fluid flows to the distributor 40 along the high pressure tube 41. The refrigerant in the high pressure liquid tube 43 flowing to the distributor 40 flows to the indoor unit 30 which is operated to be cooled, passes through the indoor expansion device 33, expands under reduced pressure, and cools to absorb latent heat in the indoor heat exchanger 31. Will perform the action. The refrigerant of the high pressure engine 41 flows into the indoor unit 30 which is heated and radiates to perform a heating operation, condenses, and then merges with the refrigerant of the high pressure liquid tube 43.

On the other hand, when all of the indoor unit 30 to be operated is cooled, as shown in Figure 2, the refrigerant discharged from the compressor (11) along the high-pressure liquid pipe 43 via the outdoor heat exchanger (15) It flows to the distributor 40, expands under reduced pressure through the indoor expansion device 33 of the indoor unit 30 being operated, and performs a cooling operation to absorb latent heat in the indoor heat exchanger 31.

By the way, in the conventional air-conditioning simultaneous multi air conditioner, when all of the indoor unit 30 to be operated is air-cooled, some of the refrigerant compressed and discharged by the compressor 11 is distributed through the high-pressure engine 41. Since the condensation of the refrigerant occurs inside the high-pressure engine 41, the liquid refrigerant accumulates and causes a shortage of the refrigerant circulated, thereby impairing the cooling performance. In particular, when the distance between the outdoor unit 10 and the distributor 40 is long so that the high-pressure engine 41 becomes a long pipe of several tens to hundreds of meters, the inside of the distributor 40 side of the high-pressure engine 41 There is a problem in that a considerable amount of liquid refrigerant accumulates, and not only deepens the shortage of the refrigerant circulated, but also increases the forced deterioration of the compressor 11 due to the oil shortage.

Accordingly, an object of the present invention is to provide a simultaneous heating and cooling type multi air conditioner which can prevent unnecessary condensation of a refrigerant to prevent a shortage of refrigerant.

The object is, according to the present invention, an outdoor unit having a compressor; A plurality of indoor units; A distributor interposed between the outdoor unit and the indoor unit to distribute the refrigerant via the outdoor unit to the indoor unit; A high pressure engine having one side connected to the discharge side of the compressor and the other side connected to the distributor; The air conditioner is achieved by a simultaneous air-conditioning type multi air conditioner including a condensation inhibiting unit for suppressing the condensation of the refrigerant inside the high-pressure engine when the indoor unit operated in the indoor unit is completely cooled.

Here, the condensation inhibiting unit is preferably configured to include a high pressure engine opening and closing valve for opening and closing the high pressure engine.

The high pressure engine opening and closing valve may be configured to be coupled to the compressor side end of the high pressure engine.

The high pressure engine opening / closing valve is controlled to shut off the high pressure engine when the indoor units which are driven among the plurality of indoor units are completely cooled, and when the at least one of the indoor units is heated, the high pressure engine is opened. It is preferable to comprise a control unit for controlling the engine opening and closing valve.

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

3 is a configuration diagram of a simultaneous air-conditioning type multi air conditioner according to an embodiment of the present invention, and FIG. 4 is a view for explaining the operation 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 present air-conditioning simultaneous multi air conditioner includes an outdoor unit 10 having a compressor 11, a plurality of indoor units 30, an outdoor unit 10, and an indoor unit 30. The distributor 40 is interposed between the distributor 40 to distribute the refrigerant via the outdoor unit 10 to the indoor unit 30 in operation, one side is connected in communication with the discharge side of the compressor 11 and the other side is the distributor 40 It is configured to include a high-pressure engine (41) connected to the) and the condensation suppression unit implemented in the form of a high-pressure engine opening and closing valve 51 for suppressing the refrigerant inside the high-pressure engine (41) condensation.

Each indoor unit 30 includes an indoor heat exchanger 31 in which refrigerant and indoor air exchange with each other, and an indoor expansion device 33 disposed on one side of the indoor heat exchanger 31.

The outdoor unit 10 includes a compressor 11 for compressing a refrigerant and an outdoor heat exchanger 15 for exchanging heat between the refrigerant and outdoor air. A flow path switching valve 13 is provided on the discharge side of the compressor 11 so as to switch the flow path of the refrigerant, and an accumulator 12 is provided on the suction side. One side of the outdoor heat exchanger (15) is provided with an outdoor fan (17) to promote heat exchange of the outdoor heat exchanger (15), and on one side of the outdoor heat exchanger (15) along the flow direction of the refrigerant 19) is installed. One side of the outdoor expansion device 19 is formed with a bypass passage 21 provided with a check valve 23.

The distributor 40 includes a high pressure tube 41 having one side connected to the discharge side of the compressor 11, a high pressure liquid tube 43 at which one side exchanges heat with the outdoor heat exchanger 15, and one side having a compressor ( 11) is provided with a low pressure engine (45) connected to the suction side of each of the high pressure engine (41) and the low pressure engine (45) is provided with a high pressure valve 42 and a low pressure valve 46 to open and close the flow path. Each is installed.

On the other hand, in the upstream end of the high-pressure engine 41 along the flow direction of the refrigerant, the high-pressure engine opening and closing valve 51 to function as a condensation inhibiting unit for suppressing the condensation of the refrigerant inside the high-pressure engine 41 during the cooling operation. Is installed. The high pressure engine open / close valve 51 is connected to each indoor unit 30 so that the high pressure engine open / close valve is shut off when the indoor unit 30 operated in each indoor unit 30 is cooled. 51 and is electrically connected to a control unit 55 for controlling the high-pressure engine 41 to open when at least one of the indoor units 30 is heated.

By this configuration, when the indoor unit 30 to be operated in each of the indoor unit 30 is all the cooling operation, the controller 55 controls the high-pressure engine opening and closing valve 51, as shown in FIG. By blocking the high pressure engine 41, the refrigerant discharged from the compressor 11 is prevented from flowing into the high pressure engine 41 and condensing inside the high pressure engine 41. As a result, the refrigerant compressed and discharged from the compressor 11 flows to the outdoor heat exchanger 15 via the flow path switching valve 13, and after being condensed in the outdoor heat exchanger 15, follows the high pressure liquid pipe 43. Flow to distributor 40. The refrigerant flowing into the distributor 40 flows into the indoor unit 30 that is operated, expands under reduced pressure in the indoor expansion device 33, and performs a cooling operation to absorb latent heat in the indoor heat exchanger 31.

On the other hand, when at least one of the operating indoor unit 30 is heated, the control unit 55 controls the high pressure engine opening and closing valve 51 to open the high pressure engine 41, as shown in FIG. Accordingly, some of the refrigerant compressed by the compressor 11 flows to the distributor 40 along the high pressure liquid pipe 43 via the outdoor heat exchanger 15, and some of the compressed refrigerant moves the high pressure engine 41. Along with distributor 40. Refrigerants respectively flowed into the distributor 40 flow into the indoor heat exchanger 31 to perform cooling and heating operations.

As described above, according to the present invention, there is provided an outdoor unit having a compressor, a plurality of indoor units, and a distributor interposed between the outdoor unit and the indoor unit so that the refrigerant passing through the outdoor unit is distributed to the operating indoor unit. One side is connected to the discharge side of the compressor and the other side is connected to the high-pressure engine connected to the distributor, and the condensation inhibiting unit for suppressing the condensation of the refrigerant inside the high-pressure engine, by suppressing unnecessary condensation of the refrigerant to run out of refrigerant Multi-air conditioners with simultaneous heating and cooling are provided to prevent the phenomenon.

Claims (4)

An outdoor unit having a compressor; A plurality of indoor units; A distributor interposed between the outdoor unit and the indoor unit to distribute the refrigerant via the outdoor unit to the indoor unit; A high pressure engine having one side connected to the discharge side of the compressor and the other side connected to the distributor; And a condensation inhibiting unit for suppressing condensation of the refrigerant inside the high-pressure engine when all the indoor units operated in the indoor units are cooled and operated. The method of claim 1, The condensation inhibiting unit air-conditioning simultaneous multi-air conditioner, characterized in that it comprises a high-pressure engine opening and closing valve for opening and closing the high-pressure engine. 3. The method of claim 2, The high-pressure engine opening and closing valve is air-conditioning simultaneous multi-air conditioner, characterized in that coupled to the compressor side end of the high-pressure engine. The method according to claim 2 or 3, The high pressure engine opening / closing valve is controlled to shut off the high pressure engine when the indoor units which are driven among the plurality of indoor units are completely cooled, and when the at least one of the indoor units is heated, the high pressure engine is opened. Air-conditioning simultaneous type multi air conditioner further comprising a control unit for controlling the engine opening and closing valve.

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