KR101300888B1 - Multi-type air conditioner - Google Patents

Abstract

The present invention relates to an air conditioner, and more particularly to a multi-type air conditioner.

According to an aspect of the present invention, there is provided a multi-type air conditioner, including: a plurality of outdoor units accommodating a compressor and an outdoor heat exchanger; A refrigerant inlet pipe allowing a refrigerant to flow into the compressor; A refrigerant outlet pipe allowing the refrigerant to flow out of the outdoor heat exchanger; And a valve provided on the refrigerant inlet pipe and the refrigerant outlet pipe to control the flow of the refrigerant, wherein the valve includes a refrigerant to the stopped outdoor unit when the operation of any one of the outdoor units is stopped. The solenoid valve is opened or closed by the control unit so that the inflow or outflow is blocked; And a manual shut-off valve configured to be manually opened or closed to block the refrigerant from flowing into or out of the replaced outdoor unit when the outdoor unit is replaced by any one of the plurality of outdoor units.

According to the multi-type air conditioner according to the present invention, when one of the plurality of outdoor units is stopped due to a breakdown or the like, and the necessity of replacement is required, the refrigerant is prevented from entering or exiting the outdoor unit, and the refrigerant flowing in the refrigerant flow pipe. It has the effect of reducing the pressure loss.

Air conditioner, outdoor unit, indoor unit, solenoid valve, manual shut off valve

Description

Multi-type air conditioner

1 is a system configuration diagram showing a multi-type air conditioner according to a first embodiment of the present invention.

2 is a perspective view showing a multi-type air conditioner according to a first embodiment of the present invention.

3 is a perspective view showing a multi-type air conditioner according to a second embodiment of the present invention.

           <Explanation of symbols for the main parts of the drawings>

1: multi air conditioner 10: main outdoor unit

11, 31: Outdoor fan 12, 32: Outdoor case

13, 33: compressor 14, 34: outdoor heat exchanger

18, 38: outlet 19, 39: inlet

40: indoor unit 43: indoor heat exchanger

50: refrigerant flow pipe 51: main coolant pipe

51a: main cooling pipe 52: branch liquid pipe

53: branch engine 60: refrigerant inlet valve case

60a: refrigerant outlet valve casing 61, 62, 63, 64: solenoid valve

61a, 62a, 63a, 64a: manual shut off valve

The present invention relates to an air conditioner, and more particularly to a multi-type air conditioner.

In general, an air conditioner sucks hot air in a room and heats it with a low-temperature refrigerant and discharges it to the room to cool the room, or inhales cold air in the room to heat it with a high-temperature refrigerant and discharges it to the room to heat the room. The system is a compressor, a condenser, an expansion valve and an evaporator.

The air conditioner may be classified into an integrated air conditioner and a separate air conditioner according to whether the outdoor unit including the compressor and the condenser and the indoor unit including the expansion valve and the evaporator are integrally formed.

Meanwhile, recently, multi-type air conditioners have been released that can be effectively applied when installing two or more air conditioners in a home or when installing an air conditioner in each office in a building having several offices. In addition, the outdoor unit of the multi-type air conditioner includes a main outdoor unit and a backup outdoor unit for stably cooling or heating the room.

However, in the outdoor unit of the conventional multi-type air conditioner composed of a plurality of outdoor units, the refrigerant flows into the stopped outdoor unit even when one outdoor unit is stopped by a failure or the like. Due to the inflow of the refrigerant there is a problem that the pressure of the refrigerant is lost.

In addition, in order to compensate for the pressure loss of the refrigerant, there is a problem in that the other outdoor unit is excessively operated to lower the reliability of the outdoor unit.

Accordingly, an object of the present invention is to solve the above problems, when the outdoor unit of any one of the outdoor unit of the multi-type air conditioner consisting of a plurality of outdoor units is stopped by a failure or the like, the outdoor unit is required It is an object of the present invention to provide an outdoor unit of a multi-type air conditioner which prevents refrigerant from flowing into the furnace.

Multi-type air conditioner according to an embodiment of the present invention for achieving the above object of the present invention, a plurality of outdoor unit accommodating the compressor and the outdoor heat exchanger; A refrigerant inlet pipe allowing a refrigerant to flow into the compressor; A refrigerant outlet pipe allowing the refrigerant to flow out of the outdoor heat exchanger; And a valve provided on the refrigerant inlet pipe and the refrigerant outlet pipe to control the flow of the refrigerant, wherein the valve includes a refrigerant to the stopped outdoor unit when the operation of any one of the outdoor units is stopped. The solenoid valve is opened or closed by the control unit so that the inflow or outflow is blocked; And a manual shut-off valve configured to be manually opened or closed to block the refrigerant from flowing into or out of the replaced outdoor unit when the outdoor unit is replaced by any one of the plurality of outdoor units.

In another aspect, a multi-type air conditioner according to an embodiment of the present invention for achieving the object of the present invention includes a plurality of outdoor units accommodating a compressor and an outdoor heat exchanger; A refrigerant inlet pipe through which the refrigerant flows into the compressor; A refrigerant outlet pipe allowing the refrigerant to flow out of the outdoor heat exchanger; A refrigerant inlet valve case connected to one side of the refrigerant inlet pipe to classify the refrigerant; A refrigerant outlet valve case having one side connected to the refrigerant outlet pipe to allow refrigerant to be joined; And a valve formed in the refrigerant inlet valve case and the refrigerant outlet valve case to control the flow of the refrigerant flowing along the refrigerant inlet pipe and the refrigerant outlet pipe.

According to the multi-type air conditioner according to the present invention, when one of the plurality of outdoor units is stopped due to a breakdown or the like, and the necessity of replacement is required, the refrigerant is prevented from entering or exiting the outdoor unit, and the refrigerant flowing in the refrigerant flow pipe. The pressure loss of the effect is reduced.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. However, the spirit of the present invention is not limited to the presented embodiments, and other inventions within the scope of the spirit of the present invention or other embodiments which are deteriorated by addition, modification, or deletion of other components can be easily proposed. Can be.

1 is a system block diagram showing a multi-type air conditioner according to a first embodiment of the present invention, Figure 2 is a perspective view showing a multi-type air conditioner according to a first embodiment of the present invention.

1 and 2, the multi-type air conditioner 1 according to the first embodiment of the present invention includes a main outdoor unit 10 having a compressor 13 and an outdoor heat exchanger 14 formed therein, and An auxiliary outdoor unit 30 having a compressor 37 and an outdoor heat exchanger 34, a plurality of indoor units 40 installed inside the building and having an indoor heat exchanger 43 therein, and the main outdoor unit 10. And a refrigerant flow pipe (50) providing a flow path through which the refrigerant flows between the auxiliary outdoor unit (30) and the plurality of indoor units (40), and the refrigerant withdrawal / Solenoid valves 61, 62, 63, 64 and on the inlet pipes 54, 55, 56, 57 which control the flow of refrigerant and the solenoid valves 61, 62, 63 Passive shutoff valves 61a, 62a, 63a and 64a which are formed in close proximity to the 64 are included.

In detail, the main outdoor unit 10 is exposed to one side of the case 12, the compressor 13 installed inside the case 12, and the case 12 forming an external shape so that the outdoor air flows. The outdoor fan 11 and the outdoor heat exchanger 14 is formed to exchange heat with the refrigerant flowing from the compressor 10 and the outdoor air. In addition, the front of the case 12 has an outlet 18 through which the refrigerant flowing out of the outdoor heat exchanger 14 flows out of the case 12 and an inlet through which the refrigerant flows into the outdoor unit 10. (19) is formed.

In more detail, the gaseous refrigerant whose flow is controlled by the manual shut-off valve 64a and the solenoid valve 64 is introduced into the compressor 13. The refrigerant flowing into the compressor 13 is changed into a high-pressure gaseous refrigerant by a compression action. The high temperature gaseous refrigerant flows into the refrigerant inlet 15 of the outdoor heat exchanger 14 after passing through a four-way valve 19a formed inside the main outdoor unit 10. In addition, the high-pressure gaseous refrigerant introduced into the outdoor heat exchanger 14 exchanges heat with outdoor air by the outdoor fan 11 formed near the outdoor heat exchanger 14. The high-pressure gas phase refrigerant to be heat-exchanged is converted into a low-temperature liquid phase refrigerant and flows out to the refrigerant outlet 16 of the outdoor heat exchanger 14. The coolant thus discharged is discharged to the coolant flow pipe 50 through the outlet 18. At this time, the flow of the refrigerant is controlled by the solenoid valve 63 and the manual shut-off valve 63a.

On the other hand, the auxiliary outdoor unit 30 is installed on one side of the main outdoor unit 10 as described above in case the main outdoor unit 10 stops due to a failure or the like. Since the configuration of the auxiliary outdoor unit 30 is the same as the main outdoor unit 10, a detailed description thereof will be omitted.

In addition, the plurality of indoor units 40 includes an indoor case 42 forming an external shape, an indoor heat exchanger 43, and an indoor fan 41 formed inside the indoor case 42.

In detail, the indoor case 42 is installed on a wall or a ceiling of the room, and includes an air intake port through which air in the room is sucked and a discharge port through which the heat exchanged with the indoor heat exchanger 43 is discharged. And the indoor fan 41 formed in close proximity to the indoor heat exchanger 43 formed in the case 40 allows the indoor air to flow through the indoor heat exchanger 43.

In addition, an indoor refrigerant inlet 44 is formed at one side of the case 42 to allow the refrigerant to flow into the indoor heat exchanger 43, and the indoor heat exchanger 43 is at one side of the indoor refrigerant inlet 44. An indoor refrigerant outlet 45 is formed to allow the refrigerant flowing out from the case 42 to flow out of the case 42.

In more detail, a low temperature liquid refrigerant flows through the indoor refrigerant inlet 44 and passes through the expansion valve 46 to the indoor heat exchanger 43. At this time, the indoor air sucked by the indoor fan 41 undergoes heat exchange while passing through the indoor heat exchanger 43. And the indoor air exchanged in this way is discharged back to the room to make the room comfortable.

In addition, the refrigerant flow tube 50 according to the first embodiment of the present invention for allowing the refrigerant to flow between the main outdoor unit 10 and the auxiliary outdoor unit 30 and the plurality of indoor units 40 is coupled. Hereinafter, the refrigerant flow pipe 50 will be described in detail.

The refrigerant flow pipe 50 according to the first embodiment of the present invention includes a main coolant pipe 51, a main cooling pipe 50a, a branch liquid pipe 52, a branch engine 53, and a refrigerant inlet pipe 55 ( 56 and the refrigerant outlet pipes 54 and 57 are included.

In detail, a branched liquid pipe 52 is formed at a plurality of places of the liquid injection pipe 50 so that the refrigerant is introduced into the indoor inlets 44 of the plurality of indoor units 40.

In addition, the branch engine 53 for introducing the refrigerant flowing out of the indoor outlet 45 of the plurality of indoor units 40 into the main cooling engine 50a includes the plurality of indoor units 40 and the main cooling engine 50a. It is connected in between.

In addition, a plurality of refrigerant outlet pipes 54 and 57 for allowing refrigerant flowing out of the main outdoor unit 10 and the auxiliary outdoor unit 30 to flow into and merge with the main cold liquid pipe 51 is provided in the main / secondary outdoor unit. (10) 30 is formed between the main cold liquid pipe 51.

In other words, one end of the refrigerant outlet pipe 57 connected to the main outdoor unit 10 is connected to the main outdoor unit 10, and the other end thereof is connected to an end of the main cold liquid pipe 51 so that the main outdoor unit ( 10 to allow the cold air flowing out from the main cold liquid pipe (51). The refrigerant outlet pipe 54 connected to the auxiliary outdoor unit 30 has one end connected to the auxiliary outdoor unit 30 and the other end connected to an approximately middle portion of the main cold liquid pipe 51. The refrigerant flowing out of the auxiliary outdoor unit 30 is introduced into the main cold liquid pipe 51.

In addition, the refrigerant inlet pipes 55 and 56 which allow the refrigerant flowing in the main cold engine 51a to flow into the main outdoor unit 10 and the auxiliary outdoor unit 30 are respectively connected to the main cold engine 51a. It is formed between the main / auxiliary outdoor unit (10, 30). In other words, the refrigerant inlet pipe 56, one end is connected to the end of the main cold engine 51, the other end is connected to the main outdoor unit 10 to allow the refrigerant to flow. In addition, one end of the refrigerant inlet pipe 56 is connected to an approximately middle portion of the main cold engine 51, and the other end thereof is connected to the auxiliary outdoor unit 30 to allow the refrigerant to flow therein.

In addition, the refrigerant flowing in the refrigerant inlet pipe 55, 56 and the refrigerant outlet pipe (54, 57) in the refrigerant inlet pipe (55), 56 and the refrigerant outlet pipe (54) (57). Solenoid valves 61, 62, 63, 64 and manual shut-off valves 61a, 62a, 63a, 64a that control communication are formed.

In detail, the solenoid valves 63 and 64 are formed on the refrigerant inlet tube 56 and the refrigerant outlet tube 57 of the main outdoor unit 10, respectively. The solenoid valves 61 and 62 are formed on the refrigerant inlet tube 55 and the refrigerant outlet tube 54 of the auxiliary outdoor unit 30, respectively. These solenoid valves 61, 62, 63, 64 are used solenoid valve operated by the electromagnetic force. The solenoid valves 61, 62, 63, 64 are controlled by a controller not shown in the figure. In other words, the control unit detects an operation state of the main outdoor unit 10 and the auxiliary outdoor unit 30 by means of detecting whether the main or auxiliary outdoor unit 10 or 30 stops or fails. Thus, the opening and closing of the solenoid valves 61, 62, 63 and 64 is controlled. Herein, it will be appreciated that the sensing means can be any means that can be presented by a person of ordinary skill in the art, and a detailed example thereof will be omitted.

In more detail, when it is determined that the main outdoor unit 10 has failed or is stopped, the controller is provided on the refrigerant inlet pipe 56 and the refrigerant outlet pipe 57 connected to the main outdoor unit 10. The solenoid valves 63 and 64 which are formed are closed-controlled. The controller may be formed on the refrigerant inlet pipe 55 and the refrigerant outlet pipe 54 connected to the auxiliary outdoor unit 30 when it is determined that the auxiliary outdoor unit 30 has failed or is stopped. The solenoid valves 61 and 62 are closed-controlled. When the operation of the main outdoor unit 10 or the auxiliary outdoor unit 30 is stopped by the operation of the solenoid valves 61, 62, 63, 64 as described above, the main outdoor unit 10 or the Refrigerant flows in or out of the auxiliary outdoor unit 30 is blocked.

In addition, the front or rear of the solenoid valves 61, 62, 63, 64 are manually operated to communicate within the refrigerant inlet pipes 55, 56 and the refrigerant outlet pipes 54, 57. The manual shut-off valves 61a, 62a, 63a and 64a for controlling the communication of the refrigerant to be formed are formed.

In detail, the manual shutoff valve 63a is formed on the refrigerant outlet pipe 57 connected to the main outdoor unit 10, and the manual shutoff valve 64a is the refrigerant connected to the main outdoor unit 10. It is formed on the inlet pipe 56, the manual shut-off valve 61a is formed on the refrigerant outlet pipe 54 connected to the auxiliary outdoor unit 30, the manual shut-off valve 62a is the auxiliary outdoor unit It is formed on the refrigerant inlet pipe 55 connected to (30). When the main outdoor unit 10 or the auxiliary outdoor unit 30 is replaced, the manual shut-off valves 61a, 62a, 63a, 64a are replaced by the main outdoor unit 10 or the auxiliary outdoor unit 30 that is replaced. At the same time, the refrigerant is prevented from flowing into the main coolant pipe 51a and the main coolant pipe 51.

Meanwhile, in the embodiment of the present invention, since two outdoor units are considered, only two of the refrigerant inlet pipes 55 and 56 and the refrigerant outlet pipes 54 and 57 are provided, but the present invention is not limited thereto. No, it is noted that the auxiliary coolant drawing pipe and the auxiliary coolant drawing pipe may be further formed in case another outdoor unit is added. Further, it will be appreciated that an auxiliary solenoid valve and an auxiliary manual shut-off valve may be further formed on the auxiliary refrigerant drawing pipe and the auxiliary refrigerant drawing pipe.

Hereinafter, the operation of the multi-type air conditioner 1 according to the first embodiment of the present invention having the configuration as described above will be described.

First, when power is applied to the multi-type air conditioner 1 according to the first embodiment of the present invention, the main outdoor unit 10 operates. In detail, the compressor 13 starts to operate to compress the refrigerant contained in the compressor 13. Subsequently, the compressed high-temperature gas phase refrigerant passes through the outdoor heat exchanger 14 through the four-way valve 34. At this time, the outdoor fan 11 is operated to pass outdoor air through the outdoor heat exchanger 14. During this process, the refrigerant flowing in the outdoor heat exchanger 14 undergoes heat exchange with outdoor air to change phase into a liquid refrigerant. Then, the liquid refrigerant passes through the outlet 18, the solenoid valve 63 and the manual shut-off valve 63 to enter the refrigerant outlet pipe 57. The refrigerant flowing through the refrigerant outlet pipe 57 is classified into a plurality of branching liquid pipes 52 while passing through the main coolant pipe 51 and introduced into the indoor unit 40.

The refrigerant introduced into the indoor unit 40 undergoes heat exchange with the indoor air introduced by the blowing fan 41 while passing through the indoor heat exchanger 43 to change phase into a refrigerant in the gas phase. The indoor air heat-exchanged in this way is discharged into the room to make the indoor environment comfortable.

Subsequently, the gaseous refrigerant flowing out of the indoor heat exchanger 43 passes through the branch engine 53 and joins the refrigerant flowing out of another indoor unit while passing through the main cold engine 51a. The joined refrigerant flows through the refrigerant inlet pipe 56, the manual shut-off valve 56a, and the solenoid valve 64 sequentially and flows into the compressor 13 of the main outdoor unit 10.

On the other hand, if the main outdoor unit 10 is stopped by a failure or the like during the cycle as described above, the backup operation to operate the auxiliary outdoor unit 30 is performed. In detail, the control unit closes and controls the solenoid valves 63 and 64 to block communication of the refrigerant flowing into or out of the main outdoor unit 10. In this way, the solenoid valves 63 and 64 block communication of the refrigerant. The control unit opens and controls the solenoid valves 61 and 62 for controlling refrigerant communication to the auxiliary outdoor unit 30. Thus, the solenoid valves 61 and 62 are opened to allow the refrigerant to communicate with the auxiliary outdoor unit 30.

In this way, when the main outdoor unit 10 is stopped, the refrigerant is introduced into or out of the main outdoor unit 10 is blocked. In addition, the refrigerant flows into or out of the auxiliary outdoor unit 30.

Here, in the description of the above operation, the operation of the main outdoor unit 10 and the auxiliary outdoor unit 30 in the backup operation mode operation has been described, but is not limited thereto. The main outdoor unit 10 and the auxiliary outdoor unit 30 are not limited thereto. It is to be noted that an operation may be proposed to block the inflow or outflow of the refrigerant to the stationary outdoor unit when any one is stopped when is simultaneously operated.

In addition, when any one of the main outdoor unit 10 and the auxiliary outdoor unit 30 is replaced, the manual shut-off valves 61a, 62a, 63a, 64a are operated by a user, and the refrigerant is replaced by the outdoor unit. Inflow or outflow is blocked.

Hereinafter, a refrigerant flow tube according to a second embodiment of the present invention will be described.

3 is a perspective view showing a multi-type air conditioner according to a second embodiment of the present invention.

3, the refrigerant flow pipe 50 according to the second embodiment of the present invention is the solenoid valve 61, 62, 63, 64 and the manual shut-off valve (61a) (62a) (63a) (64a) The refrigerant inlet valve case 60 and the refrigerant outlet valve case 60a are formed. In addition, the auxiliary solenoid valves 65, 66 and the manual shut-off valves 61a, 62a, 63a, 64a formed on one side of the solenoid valves 61, 62, 63, 64 are provided. Auxiliary manual shut-off valve (65a) (66a) formed on one side of is further included.

In detail, one side of the refrigerant outlet valve case 60a is connected to the refrigerant outlet pipes 54 and 57, and the other side is connected to the main cold liquid pipe 51.

In more detail, a plurality of refrigerant inlet ports 71 are formed at one side of the refrigerant outlet valve case 60a, and the refrigerant inlet ports 71 are connected to the outdoor units 10 and 30. 56, 57 is connected. A coolant outlet port 74 is formed at the other side of the coolant inlet valve case 60 to be connected to the main cold liquid pipe 51. In addition, a chamber is formed inside the refrigerant inlet valve case 60 to allow the refrigerant introduced into the refrigerant inlet port 71 to be joined, and one side of the chamber communicates with the refrigerant outlet port 74. . The refrigerant joined in the chamber passes through the refrigerant outlet port 74 and flows out into the main cold liquid pipe 51.

In addition, a plurality of manual shutoff valves 61a and 63a and a plurality of solenoid valves 61 and 63 are formed at one side of the inflow refrigerant case 60 to control the opening and closing of the plurality of refrigerant inflow ports 71. . Since the plurality of solenoid valves 61 and 63 and the manual shut-off valves 61a and 63a operate substantially the same as those of the first embodiment described above, a description of the specific operation thereof will be omitted. In addition, an auxiliary refrigerant inflow port 73 is further formed on one side of the plurality of refrigerant inflow ports 71 in preparation for the installation of another outdoor unit in a plurality of outdoor units. In addition, an auxiliary solenoid valve 65 and an auxiliary manual shutoff valve 65a for controlling the opening and closing of the auxiliary refrigerant inflow port 73 are further formed. On the other hand, such an auxiliary solenoid valve 65 and the auxiliary manual shut-off valve 65a are closed when another outdoor unit is not installed.

In addition, the refrigerant inlet valve case 60 has a plurality of refrigerant inlet pipes 55 and 56 connected to one side thereof, and a main cooling engine 50a connected to the other side thereof.

In more detail, a plurality of refrigerant outlet ports 75 connected to a plurality of refrigerant inlet pipes 55 and 56 connected to a plurality of outdoor units 10 and 30 are formed at one side of the refrigerant inlet valve case 60. do. And the other side of the refrigerant inlet valve case 60 is formed with a refrigerant inlet port 78 to allow the refrigerant to flow from the main cooling pipe (51a). In addition, the inside of the refrigerant inlet valve case 60 has a structure that allows the refrigerant flowing into the refrigerant inlet port 78 to flow into the refrigerant outlet port 75. In other words, a predetermined chamber is provided inside the refrigerant inlet valve case 60, one side of the chamber communicates with the refrigerant inlet port 78, and the other side communicates with a plurality of refrigerant outlet ports 75. Take the structure. By this structure, the refrigerant flowing from the main cooling engine 51a is classified and introduced into the plurality of outdoor units 10 and 30 through the chamber and the plurality of refrigerant outlet ports 75.

In addition, a plurality of solenoid valves 62 and 64 and a plurality of manual shut-off valves 62a and 64a are formed to control the opening and closing of the plurality of refrigerant outlet ports 75. Since the actions of the plurality of solenoid valves 62 and 64 and the plurality of manual shut-off valves 62a and 64a are substantially the same as those of the first embodiment of the present invention, their specific actions will be omitted.

Meanwhile, an auxiliary solenoid valve 66 and an auxiliary manual shutoff valve 66a are formed at one side of the plurality of solenoid valves 62 and 64 and the plurality of manual shutoff valves 62a and 64a to further add an outdoor unit. Can be installed.

Here, the coolant inlet valve case 60 and the coolant outlet valve case 60a have been shown to be formed separately, but the present invention is not limited thereto. In addition, the auxiliary solenoid valves 65 and 66 and the manual shut-off valves 65a and 66a have been proposed to be formed in two more in case of adding one outdoor unit, but the present invention is not limited thereto. It should be noted that they can be formed in plural in pairs.

Hereinafter, the operation of the multi-type air conditioner according to the second embodiment of the present invention will be described, but the operation of the indoor unit 40 and the outdoor unit 10, 30 is the first embodiment described above and its Since the operation is substantially the same, only the refrigerant pipe 50 will be described.

When the main and auxiliary outdoor units 10 and 30 operate at the same time, and the operation of the auxiliary outdoor unit 30 stops due to a failure or the like, the solenoid valve 61 formed in the refrigerant outlet valve case 60a is It is closed. As a result, the flow of the refrigerant from the chamber inside the refrigerant outlet valve case 60a to the refrigerant inlet port 71 connected to the auxiliary outdoor unit 30 is blocked. In addition, the solenoid valve 62 formed in the refrigerant inlet valve case 60 is closed to prevent the refrigerant from flowing out of the auxiliary outdoor unit 30.

Therefore, the auxiliary outdoor unit 30 has no inflow or outflow of the refrigerant. This prevents an overload of the compressor of the main outdoor unit 10.

On the other hand, when the number of the indoor unit 40 is increased, the capacity required for the main / auxiliary outdoor unit 10, 30 is increased, the installation of a separate outdoor unit is required. At this time, the refrigerant outlet valve case 60a and the auxiliary refrigerant inlet port 77 and the auxiliary refrigerant outlet port 73 formed in the refrigerant inlet valve case 60 are connected to the separate outdoor unit so that refrigerant is introduced. Or spilled. In this way, the capacity of the multi-type air conditioner can be increased.

According to the multi-type air conditioner according to the present invention as described above, when the outdoor unit of any one of the plurality of outdoor units is stopped due to a failure or the need for replacement is required, the refrigerant is prevented from entering or exiting the outdoor unit, The pressure loss of the refrigerant flowing in the flow pipe is reduced.

In addition, the pressure loss reduction of the refrigerant flow pipe is prevented from overloading the other outdoor unit, thereby ensuring the reliability of operation of the outdoor unit.

In addition, the overload of the other outdoor unit is prevented, and the energy efficiency of the outdoor unit as well as the multi-type air conditioner is improved.

In addition, due to the manual shut-off valve, there is an effect that the refrigerant is prevented from flowing out of the refrigerant flow pipe when the outdoor unit is replaced.

Claims (7)

A plurality of outdoor units accommodating the compressor and the outdoor heat exchanger; A refrigerant inlet pipe allowing a refrigerant to flow into the compressor; A refrigerant outlet pipe allowing the refrigerant to flow out of the outdoor heat exchanger; And A valve provided on each of the refrigerant inlet pipe and the refrigerant outlet pipe to control the flow of the refrigerant; In the valve, A solenoid valve configured to be opened or closed by a controller to block the flow of refrigerant into or out of the stopped outdoor unit when operation of one of the outdoor units is stopped; And And a manual shut-off valve configured to manually open or close the refrigerant to prevent the inflow or outflow of the refrigerant into the replaced outdoor unit when the outdoor unit of the plurality of outdoor units is replaced. The method of claim 1, At least one auxiliary refrigerant inlet pipe and auxiliary refrigerant outlet pipe for allowing the outdoor unit to be expanded, and the auxiliary refrigerant inlet pipe and the multi-type air conditioner is further provided on each of the auxiliary outlet pipe. The method of claim 1, And at least one outdoor unit is stopped, and at least one outdoor unit connected to the stopped outdoor unit and the solenoid valve installed on the refrigerant inlet tube are automatically closed. delete A plurality of outdoor units accommodating the compressor and the outdoor heat exchanger; A refrigerant inlet pipe allowing a refrigerant to flow into the compressor; A refrigerant outlet pipe allowing the refrigerant to flow out of the outdoor heat exchanger; A refrigerant inlet valve case having one side connected to the refrigerant inlet pipe to classify the refrigerant; A refrigerant outlet valve case having one side connected to the refrigerant outlet pipe to allow refrigerant to be joined; And And a valve formed in the refrigerant inlet valve case and the refrigerant outlet valve case to control a flow of the refrigerant flowing along the refrigerant inlet pipe and the refrigerant outlet pipe. 6. The method of claim 5, And the refrigerant inlet valve case and the refrigerant outlet valve case are integrally formed. 6. The method of claim 5, At least one auxiliary refrigerant inlet tube and auxiliary refrigerant outlet tube allowing the outdoor unit to be expanded; At least one auxiliary inlet port formed in the refrigerant inlet valve case and connected to the auxiliary refrigerant inlet pipe; At least one auxiliary outlet port formed in the refrigerant outlet valve case and connected to the auxiliary refrigerant outlet pipe; And a supplementary valve configured to respectively open the refrigerant inlet valve case and the refrigerant outlet valve case to control the opening and closing of the auxiliary inlet port and the auxiliary outlet port.

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