KR101314627B1 - Air conditioning system and refrigerant leakage sensing device - Google Patents

Abstract

The present invention relates to an air conditioning system and a refrigerant leakage detecting apparatus of an air conditioning system, and an air conditioning system and a refrigerant leakage detecting apparatus of an air conditioning system that accurately and automatically detect a refrigerant leaking from a refrigerant pipe of the air conditioning system. will be.

Description

AIR CONDITIONING SYSTEM AND REFRIGERANT LEAKAGE SENSING DEVICE}

The present invention relates to an air conditioning system and a refrigerant leakage detecting apparatus of an air conditioning system, and an air conditioning system and a refrigerant leakage detecting apparatus of an air conditioning system that accurately and automatically detect a refrigerant leaking from a refrigerant pipe of the air conditioning system. will be.

In general, an air conditioning system is a cooling / heating system that cools a room by a repetitive action of sucking indoor air, exchanging heat with a low temperature refrigerant, and then discharging it into the room, or heating the room by a reverse action. An outdoor heat exchanger-expansion valve-indoor heat exchanger that forms a series of cycles.

In addition, the recent air conditioning system dehumidifies and performs dehumidification process while circulating humid air and circulating humid air, which supplies and filters contaminated air in the room besides cooling and heating of the air conditioning space and supplies it back into the air conditioning space. It has several additional functions, such as a dehumidification function that supplies air back to the air conditioning space.

The air conditioning system may be classified into a separate air conditioning system in which the outdoor unit and the indoor unit are separately installed, and an integrated air conditioning system in which the outdoor unit and the indoor unit are integrally provided. Recently, the indoor unit and the outdoor unit are separated, the indoor unit is installed indoors, and the outdoor air is a separate type of air conditioning system is installed in outdoor.

The separate type air conditioner system can minimize the noise generated by the compressor constituting the outdoor unit into the room, and can reduce the volume of the indoor unit installed in the room, compared to the integrated air conditioner.

However, in the case of the separate air conditioning system, the length of the refrigerant pipe connecting between the indoor unit and the outdoor unit is long, and defects such as pores exist in the refrigerant pipe, so that even if the refrigerant leaks, the refrigerant cannot be accurately detected. Has existed.

1 is a schematic diagram of an air conditioning system according to the prior art, and FIGS. 2A and 2B are schematic perspective views and cross-sectional views of a refrigerant pipe of the air conditioning system according to the prior art.

As shown in FIG. 1, an air conditioning system according to the related art includes an indoor unit including an indoor heat exchanger and an expansion valve, an outdoor unit including an outdoor heat exchanger and a compressor, and a refrigerant to flow between the indoor unit and the indoor unit. It consists of a refrigerant pipe connecting the indoor unit and the outdoor unit.

As shown in Figure 2a and 2b, the refrigerant pipe of the air conditioning system according to the prior art is to prevent the heat loss of the refrigerant flow pipe and the refrigerant flow pipe in which the refrigerant flows and the refrigerant inside the refrigerant flow pipe is affected by the external heat It is composed of a heat insulating layer made of a heat insulating material to prevent that.

However, in the air conditioning system and the refrigerant pipe according to the prior art, in order to check whether the refrigerant leaks from the refrigerant pipe, the air conditioning system maintainer should check the whole refrigerant pipe with the refrigerant leakage meter and check whether the refrigerant leaks regularly. There was inconvenience to be carried out. In addition, the air conditioning system according to the prior art has a problem that it is difficult to install a separate device for detecting the refrigerant leakage due to the lack of a structure that can concentrate the leaking refrigerant to a certain area. For this reason, the air conditioning system according to the related art has a problem that the refrigerant is leaked and the amount of the refrigerant flowing inside the air conditioning system is insufficient, which hinders the efficiency of the air conditioning system.

Accordingly, an object of the present invention is to provide an air conditioning system and a refrigerant leakage detecting device of an air conditioning system that solve the problems according to the prior art.

Specifically, an object of the present invention is to provide an air conditioning system and a refrigerant leakage detecting device of the air conditioning system to automatically detect the refrigerant leaking from the refrigerant pipe.

Further, another object of the present invention is to provide an air conditioning system and a refrigerant leakage detecting device of an air conditioning system that can accurately detect whether a refrigerant leaks even if the amount of refrigerant leaked from the refrigerant pipe is minute.

According to an embodiment of the present invention for solving the above problems, the present invention, at least one indoor unit; At least one outdoor unit; A refrigerant pipe connecting the indoor unit and the outdoor unit and having a refrigerant flowing therein; And at least one refrigerant detecting unit detecting a refrigerant leaked between the indoor unit and the outdoor unit, wherein the refrigerant detecting unit includes at least one of a connection end of the outdoor unit and the refrigerant pipe and a connection end of the indoor unit and the refrigerant pipe. The air conditioning system may be provided at one or more connection ends to sense the presence or absence of refrigerant leaking from the refrigerant pipe.

Preferably, the refrigerant pipe may include a refrigerant flow pipe through which a refrigerant flows between the indoor unit and the outdoor unit, and a refrigerant flow pipe installed outside the refrigerant flow pipe along a longitudinal direction of the refrigerant flow pipe and leaked from the refrigerant flow pipe. And a heat insulating layer surrounding the refrigerant refrigerant leaking toward the refrigerant detecting unit and the refrigerant flow tube and the leakage refrigerant auxiliary pipe together.

In addition, the leakage refrigerant auxiliary pipe is preferably made of a porous material or a porous structure.

In addition, the refrigerant detection unit is characterized in that connected to the end of the leakage refrigerant auxiliary pipe.

In addition, preferably, the refrigerant detecting unit is provided at all connection ends between the outdoor unit and the refrigerant pipe and all connection ends between the indoor unit and the refrigerant pipe.

In addition, preferably, the refrigerant detecting unit includes a forced blower which is inserted into the leakage refrigerant auxiliary pipe to forcibly flow the refrigerant leaked from the refrigerant flow tube toward the refrigerant detecting unit.

In addition, the forced blower may include a shaft rotatably installed at the center of the refrigerant suction unit of the refrigerant detector and a fan coupled to an end of the shaft.

In addition, preferably, the refrigerant detecting unit further comprises a control terminal for providing a user information on the refrigerant leakage when the refrigerant leak is detected.

In addition, preferably, the control terminal is connected to the refrigerant detection unit is characterized in that the wireless communication network.

In addition, the control terminal is characterized in that for providing the user with information on the refrigerant pipe or the section in which the refrigerant leakage occurs.

According to another embodiment of the present invention for solving the above problems, the present invention, a refrigerant flow pipe that the refrigerant flows between the indoor unit and the outdoor unit; A leakage refrigerant auxiliary pipe arranged to be external to the outer surface of the refrigerant flow pipe to recover the refrigerant leaked from the refrigerant flow pipe, and having a plurality of perforations; An insulating layer surrounding the refrigerant flow pipe and the leakage refrigerant auxiliary pipe together; And a refrigerant detector mounted at an end of the leakage refrigerant auxiliary pipe, and configured to suck the refrigerant leaked from the refrigerant flow pipe through the leakage refrigerant auxiliary pipe. have.

In addition, preferably, the refrigerant detecting unit includes a forced blower which is inserted into the leakage refrigerant auxiliary pipe to forcibly flow the refrigerant leaked from the refrigerant flow tube toward the refrigerant detecting unit.

In addition, the forced blower may include a shaft rotatably installed at the center of the refrigerant suction unit of the refrigerant detector and a fan coupled to an end of the shaft.

In addition, preferably, the diameter of the fan is smaller than the inner diameter of the leakage refrigerant auxiliary pipe, and a part of the shaft and the fan is characterized in that located inside the leakage refrigerant auxiliary pipe.

According to the above problem solving means, the present invention can automatically detect the refrigerant leaking from the refrigerant pipe.

In addition, the present invention can accurately detect whether the refrigerant leaks even if the amount of refrigerant leaking from the refrigerant pipe is minute. Therefore, the present invention can quickly detect whether the refrigerant leaks to prevent the refrigerant from running out of the entire air conditioning system, and as a result, it is possible to prevent the efficiency of the air conditioning system from deteriorating due to the refrigerant shortage. Can be.

In addition, the present invention can detect a section in which the refrigerant leaked out of the entire length of the refrigerant pipe. For this reason, maintenance of a refrigerant pipe can be made easy.

1 is a schematic diagram of an air conditioning system according to the prior art.
2A and 2B are schematic perspective views and cross-sectional views of a refrigerant pipe of an air conditioning system according to the related art.
3 is a schematic diagram of an air conditioning system according to an embodiment of the present invention.
4 is a schematic perspective view of a refrigerant pipe according to an embodiment of the present invention.
5 is a schematic cross-sectional view of a refrigerant pipe according to an embodiment of the present invention.
6 is a schematic perspective view of a refrigerant leakage detecting apparatus according to an embodiment of the present invention.
7 is a schematic perspective view of a refrigerant leakage detecting apparatus according to another embodiment of the present invention.

Hereinafter, an air conditioning system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

In addition, the same or corresponding components are denoted by the same reference numerals regardless of the reference numerals, and redundant description thereof will be omitted. For convenience of explanation, the size and shape of each constituent member shown may be exaggerated or reduced have.

Hereinafter, an air conditioning system according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

3 is a schematic diagram of an air conditioning system 1000 according to an embodiment of the present invention.

As shown in FIG. 3, the air conditioning system 1000 according to the present invention connects at least one indoor unit and at least one outdoor unit connected to the indoor unit to allow refrigerant to flow, and connects the indoor unit and the outdoor unit. A refrigerant pipe 100 through which refrigerant flows, at least one refrigerant detection unit 200 for detecting refrigerant leaking between the indoor unit and the outdoor unit, and the refrigerant detection unit 200 are connected in a data communication manner. And a control terminal 300 for receiving information on whether the refrigerant leaks from the refrigerant detection unit 200.

The indoor unit is an indoor heat exchanger for cooling or heating indoor air by exchanging refrigerant and indoor air, an expansion valve for lowering the pressure of the refrigerant, a blower fan 243, an air intake unit for sucking indoor air, and an indoor heat exchanger. It includes an air discharge unit for discharging the heat exchanged indoor air into the room.

The indoor heat exchanger and / or expansion valve of the indoor unit is connected to the refrigerant pipe 100 connected to the outdoor unit through the connecting end of the indoor unit, and the refrigerant flowing into the indoor unit and / or the refrigerant flowing out of the indoor unit are connected to the connecting end of the indoor unit. Passing through, as will be described later, at the connection end of the indoor unit, a refrigerant detecting unit 200 for detecting leakage of refrigerant may be installed.

The indoor unit may be made of a stand type indoor unit, a ceiling-embedded indoor unit, a wall-mounted indoor unit, and the like as illustrated in FIG. 3.

However, the components and types of the indoor unit described above are exemplary and the present invention is not limited thereto.

The outdoor unit includes an outdoor heat exchanger for exchanging refrigerant and outdoor air, a compressor for compressing the refrigerant, a blower fan 243, an air suction unit for sucking outdoor air, and an air discharge unit for discharging outdoor air.

In addition, the compressor and / or the outdoor heat exchanger of the outdoor unit is connected to the refrigerant pipe 100 connected to the indoor unit through the connecting end of the outdoor unit, and the refrigerant flowing into the outdoor unit and / or the refrigerant flowing out of the outdoor unit are connected to the connecting end of the outdoor unit. As it will be described later, the refrigerant detecting unit 200 for detecting the leakage of the refrigerant may be installed at the connection end of the outdoor unit.

However, the configuration of the outdoor unit is exemplary and the present invention is not limited thereto.

The refrigerant pipe 100 according to the present invention includes a refrigerant flow pipe 110 through which the refrigerant flows, and an auxiliary pipe 120 for leakage refrigerant for recovering the refrigerant leaked from the refrigerant flow pipe 110. The leakage refrigerant auxiliary pipe 120 will be described in more detail with reference to the accompanying drawings below.

The refrigerant detecting unit 200 is installed at at least one connection end of the connection end of the outdoor unit connecting the refrigerant pipe 100 and the outdoor unit and the connection end of the indoor unit connecting the indoor unit and the refrigerant pipe 100. The refrigerant detecting unit 200 will be described in more detail below with reference to the drawings for the refrigerant leakage detecting apparatus.

When the refrigerant leaked from the refrigerant detecting unit 200 is detected, the control terminal 300 transmits information on the refrigerant leakage to the user.

The control terminal 300 may be connected to the refrigerant detector 200 through a wireless communication network. The wireless communication network may be, for example, BLUE TOOTH or ZIGBEE or WIFI.

By installing the refrigerant detecting unit 200 at the connection end of the indoor unit and / or the connection end of the outdoor unit in this way, it is possible to automate the refrigerant leakage detection, so that the maintenance of the air conditioning system (1000) maintains the refrigerant pipe ( 100) Eliminate the inconvenience of having to check the whole regularly.

The refrigerant detecting unit 200 may be installed at all of the connection ends of all indoor units and all connection units of all outdoor units, and the control terminal 300 may be a section of the refrigerant pipe 100 or the refrigerant pipe 100 in which refrigerant leakage occurs. Information may be obtained, and the obtained information may be provided to the user.

In addition, the control terminal 300 may transmit the information on the refrigerant leakage to the person in charge of maintenance of the air conditioning system 1000 through a wireless communication network as well as the user.

Preferably, the control terminal 300 may be a remote control of the indoor unit or a control unit of the indoor unit.

4 is a schematic perspective view of a refrigerant pipe 100 according to an embodiment of the present invention, Figure 5 is a schematic cross-sectional view of the refrigerant pipe 100 according to an embodiment of the present invention, Figure 6 A schematic perspective view of a refrigerant leakage detecting apparatus according to an embodiment of the present invention.

As shown in Figure 4 to 6, the refrigerant leakage detection apparatus according to an embodiment of the present invention, the leakage refrigerant auxiliary pipe 120, the leakage refrigerant auxiliary pipe 120 and the refrigerant flow pipe 110. Surrounding insulation layer 130 and the refrigerant detecting unit 200 is included.

As shown in FIGS. 4 and 5, the refrigerant pipe 100 includes a refrigerant flow pipe 110, a leakage refrigerant auxiliary pipe 120 disposed side by side in the refrigerant flow pipe 110, and the refrigerant flow pipe 110. And a heat insulation layer 130 surrounding the leakage refrigerant auxiliary pipe 120 together.

The refrigerant flow tube 110 is a pipe connecting the indoor unit and the outdoor unit so that the refrigerant flows between the indoor unit and the outdoor unit. Specifically, the refrigerant flow pipe 110 is connected to the indoor heat exchanger and / or expansion valve of the indoor unit and the compressor and / or outdoor heat exchanger of the outdoor unit to complete a refrigerant cycle.

The leakage refrigerant auxiliary pipe 120 is disposed to be external to the refrigerant flow pipe 110 and is installed along the longitudinal direction of the refrigerant flow pipe 110. Specifically, the leakage refrigerant auxiliary pipe 120 may be installed to surround the refrigerant flow pipe in a spiral shape along the longitudinal direction, or may be installed in parallel with the refrigerant flow pipe.

As shown in FIG. 6, one end of the leakage refrigerant auxiliary pipe 120 is coupled to the refrigerant detection unit 200, and recovers the refrigerant leaked from the refrigerant flow tube 110 to the refrigerant detection unit 200. .

Preferably, the leakage refrigerant auxiliary pipe 120 may have an outer diameter smaller than the outer diameter of the refrigerant flow pipe (110).

The leakage refrigerant auxiliary pipe 120 may have a porous structure. Specifically, the leakage refrigerant auxiliary pipe 120 includes a plurality of drilling holes 121 formed along the radial direction and along the longitudinal direction. The drilling hole 121 is an opening through which the refrigerant leaked from the refrigerant flow tube 110 is sucked into the auxiliary refrigerant pipe 120 for leakage refrigerant.

In addition, the leakage refrigerant auxiliary pipe 120 may be made of a porous material so that the leaked refrigerant may be introduced into the leakage refrigerant auxiliary pipe 120.

The heat insulation layer 130 is disposed in the refrigerant pipe 100 to surround the refrigerant flow pipe 110 and the leakage refrigerant auxiliary pipe 120 together. An outer surface of the refrigerant flow tube 110, an outer surface of the leakage refrigerant auxiliary pipe 120, and an inner surface of the heat insulation layer 130 form a predetermined empty space 131. The refrigerant leaked from the refrigerant flow pipe 110 flows into the leakage refrigerant auxiliary pipe 120 through the boring hole 121 of the leakage refrigerant auxiliary pipe 120 due to diffusion through the empty space 131. Then, the leaked refrigerant collected into the refrigerant flow tube 110 flows along the leakage refrigerant auxiliary pipe 120 and moves to the refrigerant detector 200.

The heat insulation layer 130 is made of a heat insulating material to insulate the refrigerant flow pipe 110 and the leakage refrigerant auxiliary pipe 120, to prevent the heat of the refrigerant flowing in the refrigerant flow pipe 110 is discharged to the outside and to the outside heat To prevent the refrigerant from being affected.

In this way, by having a leakage refrigerant auxiliary pipe 120 disposed to be in contact with the refrigerant flow tube 110, the refrigerant leaked from the refrigerant flow tube 110 can be collected and moved to the refrigerant detection unit 200, thereby Even if a small amount of refrigerant is leaked, the leaked refrigerant may be collected into the leakage refrigerant auxiliary pipe 120 through the boring hole 121 formed throughout the refrigerant pipe 100, thereby finally increasing the concentration of the leaked refrigerant. The detection unit 200 may suck the leaked refrigerant having a high concentration, and thus detect the refrigerant leak in the refrigerant flow tube 110. Therefore, the present invention can accurately detect whether the refrigerant leaks even if the amount of refrigerant leak is minute, thereby improving the detection accuracy of the refrigerant leak.

The refrigerant detecting unit 200 includes a refrigerant detecting unit 200, a main body 210, and a mounting groove 220 to which an end of the leakage refrigerant auxiliary pipe 120 is coupled to a front surface of the main body of the refrigerant detecting unit 200. And a refrigerant suction part 230 through which the leaked refrigerant is sucked. The mounting groove is disposed along the edge of the refrigerant suction unit 230.

The refrigerant detecting unit 200 is a device that detects the presence or absence of the leaked refrigerant collected and recovered through the leakage refrigerant auxiliary pipe 120. The refrigerant detecting unit 200 is an electronic refrigerant leak detector, and uses a principle that a sensor flowing a high voltage current reacts with the refrigerant.

For example, the refrigerant detecting unit 200 uses an ion source type electronic sensor, a thermistor type electronic sensor sensing a temperature change according to the refrigerant, and a non-conductive type electronic type using a principle that the halogen inhaled refrigerant changes the resistance of the sensor. Sensors and the like. However, this is exemplary and the present invention is not limited thereto.

Preferably, the refrigerant detecting unit 200 may be provided at all connection ends between the outdoor unit and the refrigerant pipe 100 and all connection ends between the indoor unit and the refrigerant pipe 100. In this way, by installing the refrigerant detecting unit 200 in all the connecting end can accurately detect the position of the refrigerant pipe 100 in which the refrigerant leaks, and thus it is possible to quickly and easily maintain the maintenance of the refrigerant pipe 100 have.

7 is a schematic perspective view of a refrigerant leakage detecting apparatus according to another embodiment of the present invention.

As shown in FIG. 7, the refrigerant leakage detecting apparatus according to another embodiment of the present invention includes a leakage refrigerant auxiliary pipe 120, a leakage refrigerant auxiliary pipe 120, and a refrigerant flow pipe 110. It includes a heat insulating layer 130, a refrigerant detector 200, a forced blower 240 is installed in the refrigerant detector 200 and inserted into the leakage refrigerant auxiliary pipe 120. For the sake of clarity and to avoid duplication, detailed descriptions of components overlapping with the refrigerant leakage detecting apparatus according to an embodiment of the present invention will be omitted.

Referring to FIG. 7, the forced blower 240 is a device that is inserted into the leakage refrigerant auxiliary pipe 120 to forcibly flow the refrigerant leaked from the refrigerant flow pipe 110 toward the refrigerant detector 200.

The forced blower 240 includes a shaft 241 rotatably installed at the center of the refrigerant suction unit of the refrigerant detector 200, and a fan 243 coupled to an end of the shaft 241.

One end of the shaft 241 is provided with a fan 243 is rotated to generate a suction force for forcibly flowing the refrigerant toward the suction portion of the refrigerant detection unit 200, the other end of the shaft 241 is the refrigerant detection unit 200 ) Is fastened to a driving motor (not shown) provided therein.

At least a portion of the shaft 241 and the fan 243 are inserted into the leakage refrigerant auxiliary pipe 120. Preferably, the diameter of the fan 243 may be smaller than the inner diameter of the auxiliary refrigerant pipe 120 for leakage refrigerant.

The leaked refrigerant moves to the refrigerant detector 200 through the leakage refrigerant auxiliary pipe 120 by the diffusion phenomenon, but the diffusion phenomenon is low flow rate before the leaked refrigerant reaches the refrigerant detector 200. There is a risk of leaking to the outside through a defect such as a crack of the 130, because of this, even though the refrigerant leaked from the refrigerant flow pipe actually leaked refrigerant does not reach the refrigerant detecting unit 200, the refrigerant detecting unit 200 ) May not detect the leakage of refrigerant. However, by providing a forced blower 240 according to the present invention, before the refrigerant leaks to the outside through the defect of the heat insulating layer 130, the refrigerant detection unit through the secondary refrigerant pipe 120 for leaking refrigerant concentrated and quickly By forcibly flowing toward (200), leakage of the refrigerant can be detected more accurately and quickly.

Further, preferably, the refrigerant detecting unit 200 continuously and / or periodically leaks refrigerant when the air conditioning system 1000 is stopped and / or when the air conditioning system 1000 is in operation. And the forced blower 240 operates continuously and / or periodically when the air conditioning system 1000 is stopped and / or when the air conditioning system 1000 is in operation. The refrigerant may be forced to the refrigerant detecting unit 200.

By periodically operating the refrigerant detector 200 and / or the forced blower 240 without continuously operating it, it is possible to prevent unnecessary waste of power required to detect the leaked refrigerant. In addition, even when the air conditioning system 1000 is stopped, the refrigerant detecting unit 200 and / or the forced blower 240 may be operated to accurately detect the refrigerant leaked when the air conditioning system 1000 is stopped. have.

As described above, the present invention can automatically detect the refrigerant leaking from the refrigerant pipe.

In addition, the present invention can accurately detect whether the refrigerant leaks even if the amount of refrigerant leaking from the refrigerant pipe is minute. Therefore, the present invention can quickly detect whether the refrigerant leaks to prevent the refrigerant from running out of the entire air conditioning system, and as a result, it is possible to prevent the efficiency of the air conditioning system from deteriorating due to the refrigerant shortage. Can be.

In addition, the present invention can detect a section in which the refrigerant leaked out of the entire length of the refrigerant pipe. For this reason, maintenance of a refrigerant pipe can be made easy.

The foregoing description of the preferred embodiments of the present invention has been presented for purposes of illustration and various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention, And additions should be considered as falling within the scope of the following claims.

1000: air conditioning system 100: refrigerant pipe
110: refrigerant flow pipe 120: leakage refrigerant auxiliary pipe
121: punched hole 130: heat insulation layer
131: empty space 200: refrigerant detection unit
210: refrigerant detection unit body 220: mounting groove
230: suction unit 240: forced blower
241 shaft 243 fan
300: control terminal

Claims (14)

At least one indoor unit;
At least one outdoor unit;
A refrigerant pipe connecting the indoor unit and the outdoor unit and having a refrigerant flowing therein; And
And at least one refrigerant detector configured to detect a refrigerant leaked between the indoor unit and the outdoor unit.
The refrigerant detecting unit is provided at at least one connection end of the connection end of the outdoor unit and the refrigerant pipe and the connection end of the indoor unit and the refrigerant pipe to detect the presence of refrigerant leaking from the refrigerant pipe,
The refrigerant pipe is a refrigerant flow pipe for flowing the refrigerant between the indoor unit and the outdoor unit, and is installed along the longitudinal direction of the refrigerant flow pipe outside the refrigerant flow pipe and recovers the refrigerant leaked from the refrigerant flow pipe toward the refrigerant detection unit And a heat insulating layer surrounding the leakage refrigerant auxiliary pipe, and the refrigerant flow pipe and the leakage refrigerant auxiliary pipe together. delete The method of claim 1,
The leakage refrigerant auxiliary pipe is composed of a porous material or air conditioning system characterized in that it has a porous structure. The method of claim 1,
The refrigerant detecting unit is air conditioning system, characterized in that connected to the end of the leakage refrigerant auxiliary pipe. The method of claim 1,
And the refrigerant detecting unit is provided at all connection ends between the outdoor unit and the refrigerant pipe and all connection ends between the indoor unit and the refrigerant pipe. The method of claim 1,
The refrigerant detecting unit comprises a forced blower which is inserted into the leakage refrigerant auxiliary pipe to forcibly flow the refrigerant leaked from the refrigerant flow tube toward the refrigerant detecting unit. The method according to claim 6,
The forced air blowing unit includes a shaft rotatably installed at the center of the refrigerant suction unit of the refrigerant detecting unit and a fan coupled to an end of the shaft. The method of claim 1,
And a control terminal which provides a user with information on the refrigerant leakage when the refrigerant leakage is detected by the refrigerant detection unit. 9. The method of claim 8,
The control terminal is an air conditioning system, characterized in that connected to the refrigerant detection unit in a wireless communication network. 9. The method of claim 8,
The control terminal provides the user with information on the refrigerant pipe or section in which the refrigerant leakage occurred. A refrigerant flow pipe through which a refrigerant flows between the indoor unit and the outdoor unit;
A leakage refrigerant auxiliary pipe arranged to be external to the outer surface of the refrigerant flow pipe to recover the refrigerant leaked from the refrigerant flow pipe, and having a plurality of perforations;
An insulating layer surrounding the refrigerant flow pipe and the leakage refrigerant auxiliary pipe together; And
And a refrigerant detector mounted at an end of the leakage refrigerant auxiliary pipe and configured to suck the refrigerant leaked from the refrigerant flow pipe through the leakage refrigerant auxiliary pipe. 12. The method of claim 11,
The refrigerant detection unit, the refrigerant leakage detection device of the air conditioning system, characterized in that it is inserted into the leakage refrigerant auxiliary pipe forcibly flowing the refrigerant leaked from the refrigerant flow tube toward the refrigerant detection unit. The method of claim 12,
The forced blower comprises a shaft rotatably installed at the center of the refrigerant suction unit of the refrigerant detector and a fan coupled to an end of the shaft. The method of claim 13,
And a diameter of the fan is smaller than an inner diameter of the leakage refrigerant auxiliary pipe, and a part of the shaft and the fan are located inside the leakage refrigerant auxiliary pipe.

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