KR200163613Y1 - Connection ring for coupling manifold and coolant pipe of evaporator - Google Patents

Abstract

The present invention relates to a connection ring for connecting an evaporator of a car heat exchanger and a refrigerant pipe for supplying a refrigerant to the evaporator. The connection ring is cut in a predetermined width to wrap the outer diameter of the manifold corresponding to the inlet of the evaporator with elastic force. The refrigerant pipe to be inserted is to be welded firmly.

Description

Connection ring for evaporator manifold and refrigerant pipe joint

The present invention relates to a connection ring for connecting an evaporator of an automobile heat exchanger and a refrigerant pipe for supplying a refrigerant to the evaporator. In particular, the connection ring is cut in a predetermined width to wrap the outer circumference of the manifold corresponding to the inlet of the evaporator with elastic force. The refrigerant pipe inserted into the inlet is to be welded firmly.

Car air conditioner of the automobile is a device for supplying the heat exchanged cold air into the cabin by the forced circulation of the working fluid called the refrigerant inside the refrigeration system to the heat exchange between the refrigerant and the outside air.

The refrigeration system is composed of a plurality of heat exchangers, the refrigerant pipe is organically connected so that the refrigerant flows between these heat exchangers. Among these heat exchangers, an evaporator is provided to expand the refrigerant to absorb external hot air and thereby perform heat exchange. The evaporator is easily connected to the refrigerant pipe and the manifold is fixed at one end to distribute the supplied refrigerant through a predetermined path inside the evaporator.

As described above, the manifold 1 fixed to the evaporator is formed in a pair as shown in FIG. 1, and an inlet 11 is provided to allow the refrigerant pipe 2 to be inserted into one end thereof, and the inside of the inlet 11 is provided. An outlet 12 is formed in each of the refrigerant to be supplied.

The refrigerant pipe (2) is inserted into the manifold (1) inlet (11) to be connected by welding, as shown in Figure 2, the connecting ring (3) to the outer diameter of the manifold (1) inlet (11) first Insert the refrigerant pipe (2) in the inner diameter of the manifold (1) when these connections are fused in the welding furnace is fixed as shown in FIG.

In this process, the connecting ring 3 inserted into the outer diameter of the manifold 1 is to prevent the manifold 1 composed of a pair from being opened out by the high heat generated during the welding process.

However, since the structure of the conventional connection ring 3 configured as described above has a perfect annular shape having a predetermined thickness and width, the manifold 1 has an inner diameter such that the inlet 11 of the manifold 1 does not open to the outside. The assembly of these dimensions is difficult to process because it must be inserted into the outer diameter.

In addition, one of the assembly problems as described above when the paired manifold (1) is assembled, each of the outer diameter must be exactly matched to the rounded state can be inserted into the connecting ring (3), such inconvenience In order to solve the problem, if the inner diameter of the connection ring 3 is allowed to be larger than the outer diameter of the manifold 1, the defect that the manifold 1 is opened due to the high heat generated during welding has occurred.

Therefore, since the manifold 1 must be assembled close to a circle because the connection ring 3 is configured in a complete annular shape, the assembling process is difficult, and the connection ring 3 even when the outer diameter of the manifold 1 is in a round shape. Since the overall dimensional management is difficult because it must be assembled by force fitting method, it is inconvenient to assemble, and if these welding is not solved, the welding phenomenon occurs in these welding parts, which leads to the phenomenon that the refrigerant leaks to the outside. .

The present invention is devised to solve the conventional defects as described above, the technical problem is to cut a portion of the connection ring to a predetermined width to pass through the inner and outer diameters so that the connection ring has elasticity to secure the outer diameter of the manifold To be assembled.

1 is a plan view of a typical manifold

2 is a perspective view showing a conventional manifold and a refrigerant pipe joint

3 is a side cross-sectional view showing the assembled state of FIG.

4 is a perspective view showing a connection ring of the present invention

Figure 5 is a side cross-sectional view showing an assembled state of the present invention

6 is a front view showing the assembled state of the present invention

※ Explanation of code for main part of drawing

30: connection ring

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. Figure 4 is a perspective view showing a connection ring of the present invention, Figure 5 is a side cross-sectional view showing an assembled state of the present invention, Figure 6 is a front view showing an assembled state of the present invention.

The present invention relates to a manifold of an evaporator and a connecting ring for inserting a refrigerant pipe for supplying a refrigerant to the evaporator to the manifold to securely fix it.

As shown in FIG. 4, the connection ring 30 is cut in a predetermined width such that a portion of the connection ring 30 passes through the inner and outer diameters so that the annular ring may have elasticity. The present invention is to cut through the inner and outer diameter to be as elastic as the cut width.

Accordingly, the present invention is to be fitted to the outer diameter of the manifold (1) in which the refrigerant pipe (2) is inserted, there is a flow interval of the cut portion, even if the outer diameter of the manifold (1) does not become round, the outer diameter of the manifold (1) It can be easily assembled in the assembly, and also the outer diameter of the manifold (1) in the assembled state is wrapped with an elastic force, so that the refrigerant pipe (2) into which the manifold (1) is inserted can be tightly welded to these close contact portion.

And the connection ring 30 is always fitted to the outer diameter of the manifold (1) while accumulating elasticity so that the outer diameter of the manifold (1) and the inner diameter of the connection ring 30 to be interference fit. Similarly, the dimensional tolerances do not have to be accurate, which simplifies the manufacturing process and the assembly process.

In other words, even if an assembly tolerance occurs between the outer diameter of the manifold (1) and the inner diameter of the connection ring 30 of the present invention, if the tolerance falls within the elastic range of the connection ring (30), the connection ring (30) The manifold 1 is wrapped and assembled by interference fit.

Therefore, the present invention is made by cutting the inner diameter and the outer diameter to a predetermined width to have elastic force, so that even if the manifold outer diameter does not become round within the range of elastic force, it is simply assembled by interference fit, simplifying the manufacturing process, and cooling tube. By close welding, it is possible to prevent the leakage of the welded part.

In addition, when the refrigerant pipe is inserted into the manifold inlet during the assembly process, the connecting ring can be inserted into the manifold outer diameter regardless of whether the refrigerant tube is inserted before or after the insertion of the refrigerant pipe. Will have the effect.

Claims (1)

In the annular connection ring for inserting and fixing the manifold of the evaporator and the refrigerant pipe for supplying the refrigerant to the evaporator, And a connection ring for connecting the evaporator manifold and the refrigerant pipe, characterized in that the inner and outer diameters are cut in a predetermined width so as to have elasticity at a predetermined position of the connection ring.