KR200278441Y1 - Connection structure of Air-conditioner pipe - Google Patents

Abstract

The present disclosure relates to a refrigerant pipe connection structure of an air conditioner in the refrigerant pipe connection of the air conditioner, which can maintain the refrigerant hermeticity of the connection portion.

The refrigerant pipe connection structure of the air conditioner includes a first pipe to which the first flange is welded, a second pipe having a jaw formed on an outer circumferential surface thereof, and an end fitted to be caught by the jaw of the second pipe. O-ring for sealing between the second pipe, the second flange for sealing the two pipes while contacting the first flange after the second pipe fitted with the o-ring into the first pipe, the first flange and the second flange It consists of screws to join.

The refrigerant pipe connecting structure of the present invention air conditioner can facilitate the connection work of the pipe, it is possible to maintain the airtightness of the refrigerant.

Description

Connection structure of air-conditioner pipe

The present invention relates to a refrigerant pipe connection of an air conditioner in the refrigerant pipe connection of the air conditioner for cooling the room through heat exchange of refrigerant gas and air, which can maintain the refrigerant airtightness of the connection portion.

In general, an air conditioner refers to a device that cools an atmosphere by evaporating a refrigerant at room temperature to take heat from the surrounding atmosphere, and can be divided into a separate type and an integrated type, and a separate type is used.

1 is a front view showing the configuration of a general air conditioner.

As shown, the indoor unit (A) is provided with an intake portion (d) through which the outside air is introduced and an exhaust portion (a) through which the cooled air is discharged, and an evaporator (c) for cooling the outside air is provided. A blower (b) is installed between the intake portion (d) and the exhaust portion (a) to allow air circulation.

Further, a drain pan (e) is installed below the evaporator (c) to collect condensate generated when cooling the sucked air, and a condensation hose (f) is connected from the drain pan (e) so that the condensate is outdoors. It is supposed to go out.

The outdoor unit B is provided with a compressor f and a condenser g, and a cooling fan h is installed to increase the efficiency of the condenser g.

In addition, the indoor unit (A) and the outdoor unit (B) is connected to the refrigerant pipes (i, j), the liquid pipe (i) and the liquid pipe (i) which exits from the condenser (g) of the outdoor unit and is connected to the evaporator (c) of the indoor unit This is the gas pipe j coming out of the compressor f of the outdoor unit and connected to the evaporator c of the indoor unit.

2 is a front view of the inside of the indoor unit of FIG. 1.

As shown, the refrigerant pipe (1) has a lot of bent portion is difficult to manufacture integrally, and coupled with the extension pipe (m) of the components, it is used by connecting two or more pipes.

3 is a front view which shows the joint for connection of the conventional air conditioner refrigerant pipe among the accompanying drawings.

As shown, in the refrigerant pipe (l) connection of the air conditioner, Conventionally, a rotatable swivel nut (n) is installed at the end of the refrigerant pipe (l) and the union solder (o) is fixed to the extension pipe (m) of the components to connect the swivel nut (n) and the union solder (o). It is in the form of screwing.

However, in the conventional air conditioner refrigerant pipe connection, it is necessary to expand the refrigerant pipe, so the work efficiency is decreased, and the connection between the refrigerant pipe expansion part and the extension tube to be inserted should be good, depending on the skill of the operator, between the swivel nut and the union solder. Coupling force varies depending on the operator, there was a problem in that the refrigerant tightness is inferior due to the minute gap in the screw and nut fastening.

The problem is that the efficiency of the operation is lowered and the airtightness of the refrigerant is not maintained. In the connection of the refrigerant pipe, it is necessary to expand the nut and tighten the nut which cannot ignore the thread gap. It is possible to work on and to have a crimp joint that can securely close the gap between the pipes.

Accordingly, an object of the present invention is to facilitate the connection work of the air conditioner refrigerant pipe, and to maintain the airtightness of the refrigerant.

1 is a front view showing the configuration of a typical air conditioner

2 is a front view of the inside of the indoor unit of FIG.

Figure 3 is a front view showing a joint for connecting a conventional air conditioner refrigerant pipe

4 is a cross-sectional view showing a refrigerant pipe connection structure of an air conditioner according to the present invention

※ Explanation of main parts of drawing

10: first piping 20: second piping

30: first flange 40: second flange

50: o-ring 60: screw

Refrigerant pipe connection structure of the present invention air conditioner for achieving the above object,

This is accomplished by inserting an o-ring between the refrigerant tube and the extension tube of the air conditioner components and pressing it with the flanges joined to the two pipes, and then screwing the two flanges together.

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

4 is a cross-sectional view showing a refrigerant pipe connection structure of the air conditioner according to the present invention.

As shown in the drawing, the first flange 10 is welded to the outer circumferential surface of the first pipe 10, the second pipe 20 having the jaw formed on the outer circumferential surface, and the jaw of the second pipe 20. The O-ring 50 for sealing between the first pipe 10 and the second pipe 20 and the second pipe 20 in which the O-ring 50 is fitted to the first pipe 10. ) Into the second flange 40 which seals the two pipes while contacting the first flange 30 and the screw 60 which couples the first flange 30 and the second flange 40 to each other. consist of.

Refrigerant pipe connection structure as described above can be connected without expanding or deforming the pipe, by inserting the O-ring between the pipe to increase the airtightness of the pipe end.

Further, by contacting and crimping the flange on the outer circumferential surface of the tube, the airtight tube is tightened once more to maintain the airtightness of the refrigerant.

As described above, in the past, the expansion efficiency of the refrigerant pipe was required, and thus the working efficiency was decreased. Therefore, the coupling force between the swivel nut and the union solder was different depending on the operator because it depends only on the skill of the operator. Due to the minute gap, the airtightness of the refrigerant is reduced at the pipe connection, the present invention solves the above problems to facilitate the connection of the refrigerant pipe, it is possible to maintain the airtightness of the refrigerant because it is connected in the same conditions regardless of the operator have.

Claims (1)

In the refrigerant pipe connection structure of the air conditioner, A first pipe 10 to which the first flange 30 is welded to the outer circumferential surface; A second pipe 20 having a jaw formed on an outer circumferential surface thereof; An o-ring 50 fitted to an end to be caught by the jaw of the second pipe 20 to seal between the first pipe 10 and the second pipe 20; A second flange 40 which seals the two pipes while putting the second pipe 20 into which the O-ring 50 is inserted, into the first pipe 10, and then contacting the first flange 30; And Refrigerant pipe connection structure of the air conditioner including a screw 60 for coupling the first flange 30 and the second flange 40