KR100794779B1 - A heat pump type multiple air-conditioner - Google Patents

Abstract

The present invention relates to a heat pump type multi air conditioner which is connected to a plurality of indoor units in one outdoor unit and can be used as a heater or a cooler, and particularly, a flow path conversion for switching the circulation direction of the refrigerant on a refrigerant pipe branched inside the outdoor unit. The present invention relates to a heat pump type multi-air conditioner and a control method thereof, in which a refrigerant is selectively supplied to a plurality of indoor units so that cooling and heating can be simultaneously performed.

The heat pump type air conditioner according to the present invention includes a compressor installed in the outdoor unit for compressing a refrigerant, an outdoor side heat exchanger for exchanging a refrigerant supplied from the compressor with outdoor air, and a refrigerant supplied from the compressor for indoor air. And a plurality of indoor side heat exchangers for exchanging heat with each other, and are provided in the discharge tube of the compressor to supply refrigerant to the outdoor heat exchanger when the air conditioner is in cooling operation, and to supply the refrigerant to the indoor heat exchanger when the air conditioner is in heating operation. It is characterized in that it comprises a four-way valve for supplying, and a flow path conversion device for changing the flow path of the part of the refrigerant discharged from the four-way valve so that a plurality of the indoor unit can perform individual operation.

Multi-type Air Conditioner, Heat Pump, Flow Converter, Switching Valve, Shut-off Valve

Description

Heat pump type multiple air conditioner {A heat pump type multiple air-conditioner}             

1 is a main part configuration diagram showing the flow of the refrigerant when the indoor units of the heat pump type multi air conditioner according to the prior art are all operated as a cooler,

2 is a main part configuration diagram showing the flow of the refrigerant when the indoor units of the heat pump type multi air conditioner according to the prior art are all operated as a heater,

3 is a main part configuration diagram showing the flow of the refrigerant when the indoor unit of the heat pump type multi air conditioner according to the present invention are all operated as a cooler,

4 is a main part configuration diagram showing the flow of the refrigerant when all the indoor units of the heat pump type multi air conditioner according to the present invention is operated as a heater,

5 is a main part configuration diagram showing the flow of the refrigerant when the third indoor unit of the heat pump type multi air conditioner according to the present invention is operated as a heater, the first indoor unit is operated as a cooler,

<Explanation of symbols on main parts of the drawings>

50: outdoor unit 51: compressor

52: four-way valve 53: indoor side heat exchanger                 

54 receiver 55 valve

56: branch pipe 60: indoor unit

62: indoor side heat exchanger

The present invention relates to a heat pump type multi air conditioner which is connected to a plurality of indoor units in one outdoor unit and can be used as a heater or a cooler, and particularly, a flow path conversion for switching the circulation direction of the refrigerant on a refrigerant pipe branched inside the outdoor unit. The present invention relates to a heat pump type multi-air conditioner and a control method thereof, in which a refrigerant is selectively supplied to a plurality of indoor units so that cooling and heating can be simultaneously performed.

In general, a heat pump type air conditioner is an air conditioner for cooling or heating operation because a four-way valve for selectively supplying refrigerant to an outdoor heat exchanger or an indoor heat exchanger is installed in a discharge pipe of a compressor. Only one indoor unit is installed, and the heat pump type multi air conditioner which can perform cooling and heating action in each space is demonstrated.

1 is a configuration of the main part showing the flow of the refrigerant when the indoor unit of the heat pump type multi air conditioner according to the prior art is all cooling operation, Figure 2 is a indoor unit of the heat pump type multi air conditioner according to the prior art All are main part structure diagram which showed the flow of a refrigerant | coolant at the time of heating operation.

The conventional heat pump type air conditioner includes an outdoor unit 10 for supplying a refrigerant having a temperature corresponding to each operating state, and a plurality of indoor units 20 for exchanging heat from the refrigerant supplied from the outdoor unit 10 with indoor air. ) And a refrigerant pipe connecting the outdoor unit 10 and the indoor unit 20.

The outdoor unit 10 includes a compressor 11 for compressing a refrigerant at a high temperature and a high pressure, an outdoor heat exchanger 13 for exchanging heat exchanged between the refrigerant circulated by the compressor 11 and outdoor air, and the compressor 11. And a four-way valve 12 which is installed in a discharge tube of the air supply tube to supply the refrigerant to the outdoor heat exchanger 13 when the cooling operation is performed and to supply the refrigerant to the indoor unit 20 when the heating operation is performed. An expansion valve (not shown) connected to the discharge tube of the side heat exchanger 13 and converting the refrigerant into a low-temperature, low-pressure liquid refrigerant, and the refrigerant discharged from the outdoor unit 10 are branched to each indoor unit 20 or each. Installed in the first and second receivers 14 and 15 and the refrigerant pipes extending from the first receiver 14 to combine the refrigerant flowing from the indoor unit of the receiver into one tube. The first, second and third flow control valves 16 to determine It consists of the box.

The indoor unit 20 includes an indoor side heat exchanger 22 for exchanging heat supplied from the first and second receivers 14 and 15 to the indoor air.

Looking at the operation of the heat pump-type multi air conditioner according to the prior art configured as described above are as follows.                         

First, when all the indoor units of the heat pump type air conditioner perform the cooling operation, as shown in FIG. 1, the refrigerant compressed by the compressor 11 passes through the four-way valve 12 to the outdoor heat exchanger 13. It is supplied, and is heat exchanged with the outside air in the outdoor heat exchanger (13) to be converted into a low temperature refrigerant.

The converted refrigerant is branched to each indoor unit 20 while passing through the first receiver 14, and is converted into a refrigerant having a low temperature and a low pressure while passing through an expansion valve and supplied to each indoor side heat exchanger 22. It works.

Thereafter, the refrigerant is combined through the second receiver 15 and flows back into the compressor 11 to circulate.

At this time, when the operation of one indoor unit, for example, the first indoor unit 20a of the plurality of indoor units is stopped by the user's operation, the first flow control valve 16a is closed to supply the refrigerant to the first indoor unit 20a. Is blocked.

When all the indoor units of the heat pump type air conditioner according to the prior art perform the heating operation, as shown in FIG. 2, first, the compressor 11 is driven to compress the refrigerant to a high temperature and a high pressure, and the compressed refrigerant is everywhere. The valve 12 is supplied to each of the indoor side heat exchangers 22 through the second receiver 15.

The refrigerant supplied to the indoor heat exchanger 22 releases heat to each indoor, and is combined into one by the first receiver 14 and supplied to the outdoor heat exchanger 13, and the outdoor heat exchanger 13. ) Absorbs heat from the outdoor air and circulates back to the compressor (11).                         

At this time, when the operation of the indoor unit by the user is stopped, for example, when the driving of the second indoor unit 20b is stopped, the second flow control valve 16b is closed to stop the supply of the refrigerant to the second indoor unit 20b. Thus, only the first and third indoor units 20a and 20c perform the heating operation.

However, in the conventional heat pump type air conditioner, the four-way valve 12 is installed in the discharge pipe of the compressor 11, and the discharge pipe of the four-way valve 12 is the outdoor heat exchanger 13 and the Since it is connected to the indoor heat exchanger 22, all of the refrigerant discharged from the compressor 11 is simultaneously supplied to the outdoor heat exchanger 13 or to the indoor heat exchanger 22 installed in each indoor unit 20. A plurality of indoor units 20 all perform the same operation of cooling or heating, and there is a problem in that they cannot perform an air conditioning action for each use.

The present invention has been made to solve the above problems of the prior art, the flow path conversion device is installed so that the refrigerant discharged from the four-way valve can be selectively supplied to the outdoor heat exchanger and each indoor heat exchanger at the same time. As a result, it is an object of the present invention to provide a heat pump type air conditioner in which each indoor unit can be selectively used as a heater or a cooler so that operation can be performed for each indoor use.

Heat pump type air conditioner according to the present invention for solving the above problems is a heat pump type air conditioner having a single outdoor unit and a plurality of indoor units to perform the cooling and heating operation, discharged from the compressor in the outdoor unit Four-way valve for controlling the flow of the refrigerant, a first receiver for allowing the refrigerant to flow between each of the indoor side heat exchanger installed in the outdoor unit and each of the plurality of indoor units, the first receiver and the respective indoor side A plurality of flow regulating valves installed between the heat exchangers to determine the flow of the refrigerant to the indoor units, a second receiver for allowing the refrigerant to flow between the four-way valve and each of the indoor side heat exchangers, the four-way valve and the outdoor unit The flow path between the side heat exchanger and the flow path between the second receiver and the respective indoor side heat exchanger A branching pipe to be connected, a third receiver positioned in the branch pipe to divide a flow path branched between the four-way valve and the outdoor heat exchanger, and a refrigerant flow between the third receiver and each indoor heat exchanger. A plurality of switching valves each independently opening and closing the plurality of switching valves, and opening and closing the refrigerant flow between the second receiver and each of the indoor side heat exchangers, and respectively operating opposite to opening and closing operations of the corresponding switching valves among the plurality of switching valves. A plurality of shutoff valves is included.

Hereinafter, an embodiment of a heat pump type multi air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a main part configuration diagram showing when all the indoor units of the heat pump type multi air conditioner according to the present invention performs the cooling operation, and FIG. 4 is a diagram showing all the indoor units of the heat pump type multi air conditioner according to the present invention. It is a principal part block diagram which shows when carrying out operation.

The heat pump type multi-air conditioner according to the present invention is an outdoor unit 50 for exchanging heat and outdoor air and a refrigerant, and an indoor unit for cooling or heating operation by exchanging refrigerant supplied from the outdoor unit 50 with indoor air ( 60, and a refrigerant pipe for connecting the outdoor unit 50 and the indoor unit 60 is configured.

The outdoor unit 50 is connected to a compressor 51 for compressing a refrigerant at a high temperature and a high pressure, and an outdoor side heat exchanger connected to a discharge pipe of the compressor 51 to exchange heat with the outdoor air with a refrigerant supplied from the compressor 51. Is installed between the compressor 53 and the compressor 51 and the outdoor heat exchanger 53 to supply the refrigerant to the outdoor heat exchanger 53 during the cooling operation, and to the indoor unit 60 during the heating operation. Four-way valve 52 for supplying the branch, and the refrigerant discharged to the outside of the outdoor unit 60 or the refrigerant flowing into the interior unit (60) or the agent to combine the refrigerant flowing from each indoor unit into one A plurality of flow control valves installed in the discharge pipes or the inlet pipes of the first and second receivers 54a and 54b and the first and second receivers 54a and 54b to determine the refrigerant supply to each indoor unit 60; 55a, 55b, 55c and the refrigerant paths are switched to be different from the plurality of indoor units 60. A flow path converting apparatus for carrying out individual driving is included.

Here, the flow path conversion device is provided on the branch pipe 56 and the branch pipe 56 connected from the four-way valve 52 and the outdoor heat exchanger 53 to the discharge port of the second receiver 54b. Installed in the third receiver 54c and the pipe branched from the third receiver 54c, and are opened when the indoor unit performs the heating operation, and the refrigerant discharged from the compressor is not supplied to the outdoor heat exchanger, and the flow path is converted. And a plurality of changeover valves 55g, 55h, 55i to be supplied to the indoor unit, and a refrigerant installed in a pipe branched from the second receiver 54b to pass through the changeover valve to be prevented from flowing into the second receiver. Shut-off valves 55d, 55e, 55f are included.

In addition, the indoor unit 60 includes an indoor side heat exchanger 62 connected to a refrigerant pipe branched from the second receiver 54b, and heats the refrigerant supplied from the outdoor unit 50 and the indoor air. Exchange to perform cooling or heating.

Looking at the operation of the heat pump-type multi air conditioner according to the present invention configured as described above are as follows.

First, when all the indoor units of the heat pump type air conditioner perform cooling operation, as shown in FIG. 3, when the power is applied and the compressor 51 is driven, the compressed refrigerant passes through the four-way valve 52 to the outdoor side. The heat exchanger (53) is heat exchanged with the outdoor air to convert it into a low temperature refrigerant.

Thereafter, the refrigerant is supplied to each indoor unit through the first receiver 54a, and is converted into a liquid refrigerant of low temperature and low pressure through an expansion valve (not shown) to heat heat in the indoor air in the indoor heat exchanger 62. Absorbed and introduced to the outdoor unit 50 again.

The refrigerant introduced into the outdoor unit 50 is combined into one refrigerant passage through the second receiver 54b, and then circulated while flowing into the compressor 51 through the four-way valve 52.

At this time, since all the indoor units 60 perform the cooling operation, the conversion valves 55g, 55h, 55i are all closed, and the shutoff valves 55d, 55e, 55f are all kept open.

Figure 4 is a configuration of the main part shown when the indoor unit of the heat pump type multi air conditioner according to the present invention are all used as a heater.                     

When all the indoor units 60 are used as heaters, the flow path of the refrigerant is reversed as compared with when all the indoor units 60 are used as air conditioners. That is, the refrigerant discharged from the compressor 51 passes through the four-way valve 52 and branches from the second receiver 54b to each indoor unit 60 to release heat from the indoor heat exchanger 62. 1 is introduced through the receiver 54a to absorb heat from the outdoor heat exchanger 62.

At this time, since the indoor unit 60 performs all heating operations, the conversion valves 55g, 55h, 55i are all closed, and the shutoff valves 55d, 55e, 55f are all kept open.

In the above two cases, when the driving of the plurality of indoor units 60 is stopped by the user's operation, the first, second, third, fourth, fifth, and sixth flow rates provided at the discharge ports of the first and second receivers 54a and 54b. The valve connected to the indoor unit 60 in which the operation is stopped among the control valves 55a, 55b, 55c, 55d, 55e, and 55f is closed to stop the supply of the refrigerant.

5 is a main part configuration diagram showing a refrigerant flow when the third indoor unit is operated as a heater and the first and second indoor units are operated as a cooler among the indoor units of the heat pump type multi air conditioner according to the present invention.

First, the compressor 51 is driven to compress the refrigerant at high temperature and high pressure, and the compressed refrigerant is supplied to the outdoor heat exchanger 53 through the four-way valve 52.

At this time, since the third conversion valve 55i installed on the refrigerant pipe connected to the third indoor unit 60c is opened, some of the refrigerant supplied to the outdoor heat exchanger 53 is along the branch pipe 56. Passing through the third receiver 54c, it is supplied to the third indoor side heat exchanger 62c provided in the third indoor unit 60c via the third conversion valve 55i to perform the heating operation.

In addition, the refrigerant supplied to the outdoor heat exchanger 53 is branched through the first receiver 54a, and the first and second indoor units 60a and 60b through the second and third flow control valves 55b and 55c. It is supplied to and performs a cooling operation.

The refrigerant heat exchanged in the first and second indoor side heat exchangers 62a and 62b is introduced into the second receiver 54b through the second and third shutoff valves 55e and 55f, where one flow path is provided. Combined and introduced back into the compressor 51 through the four-way valve (52).

At this time, the first shut-off valve 55d is closed so that the refrigerant passing through the third switching valve 55i is supplied to the third indoor unit 60c without being introduced into the second receiver 54b.

In addition, the refrigerant that has been heated in the third indoor side heat exchanger 62c flows into the first receiver 54a through the first flow control valve 55a, and is discharged from the outdoor side heat exchanger 53. The combined refrigerant is supplied to the first and second indoor units 60a and 60b and circulated.

By the operation of the heat pump type multi air conditioner operated as described above, a plurality of indoor units 60 can each perform different operations.

In the heat pump type multi-air conditioner according to the present invention configured as described above, a branch pipe connected to the discharge pipe of the second receiver is installed between the four-way valve and the outdoor side heat exchanger, and a receiver and a plurality of valves are installed on the branch pipe. As a result, the refrigerant compressed by the compressor is supplied to the outdoor heat exchanger through the four-way valve, and when the cooling operation is performed, the refrigerant branched by the branch pipe is supplied to the indoor unit installed in a specific room to perform a heating operation. There is an advantage that the individual air conditioning can be performed simultaneously by the user's choice of cooling and heating the space.

Claims (5)

In the heat pump type air conditioner having a single outdoor unit and a plurality of indoor units to perform the cooling and heating operation, Four-way valve for controlling the flow of the refrigerant discharged from the compressor in the outdoor unit; A first receiver configured to allow a refrigerant to flow between an outdoor side heat exchanger installed in the outdoor unit and each indoor side heat exchanger respectively installed in the plurality of indoor units; A plurality of flow control valves installed between the first receiver and the respective indoor side heat exchangers to determine a refrigerant flow to the indoor units; A second receiver for allowing a refrigerant to flow between the four-way valve and each of the indoor side heat exchangers; A branch pipe connecting a flow path between the four-way valve and the outdoor heat exchanger and a flow path between the second receiver and each of the indoor heat exchangers; A third receiver positioned in the branch pipe to divide a flow path branched between the four-way valve and the outdoor side heat exchanger; A plurality of conversion valves that independently open and close a refrigerant flow between the third receiver and the respective indoor side heat exchangers; And A plurality of shutoff valves that open and close a refrigerant flow between the second receiver and each of the indoor side heat exchangers, and each of the plurality of shutoff valves operates opposite to the opening and closing operation of a corresponding changeover valve. Air conditioner. delete delete delete delete

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