KR200304918Y1 - End plate assembly device of heat exchanger - Google Patents

Abstract

The present invention relates to a heat exchanger end plate assembling apparatus that allows the end plates to be easily assembled between the header tanks even when the distance between the two header tanks is not constant, the configuration of which is at one side of the cap sealing the both ends of the header tank. It is characterized in that it comprises a support that is integrally protruded in the direction and the end plate is fixed, and a fixing piece protruding to a predetermined width and height to be fixed by holding the support of the cap on both ends of the end plate.

Description

End plate assembly device of heat exchanger

The present invention relates to an end plate assembly device of a heat exchanger, and in particular, it is possible to simply assemble the end plate between the header tank even if the distance between the two header tanks is not constant.

The heat exchanger is installed on the flow path of the air conditioning system to heat the working fluid flowing on the flow path with the external air so as to cool and heat a predetermined space.

The heat exchanger is manufactured in various ways according to the purpose of use, the place and other conditions. In the present specification, an end plate of the condenser which condenses a gaseous working fluid in a cooling system to change into a working fluid in a liquid phase is mainly used. An example of the assembling apparatus of the present invention will be described. However, the configuration of the heat exchanger is generally similar, so that the present invention is not limited to the condenser but is applied to all heat exchangers in advance.

In this way, the heat exchanger installed in the air passage of the air conditioning system, especially the cooling system, heat-exchanges the working fluid in the flow path with the external air to change the gas working fluid into a liquid phase (condenser), and also evaporates the working fluid in the liquid phase. By doing so, it absorbs external air heat and cools a predetermined space (evaporator).

The conventional configuration of the condenser used as a heat exchanger as described above is a working fluid by baffles 11 fixed inside both header tanks 10 so as to perform heat exchange while the working fluid on the flow passage passes as shown in FIG. 1. A plurality of tubes 12 are fixedly spaced up and down between the two header tanks 10 so as to flow in a zigzag manner, and the heat exchange efficiency of the working fluid is increased between the tubes 12 with a large heat transfer area. The corrugated pin 13 is fixed to be raised, and the end plate 14 protecting the corrugated pin 13 is fixed to the outermost corrugated pin 13.

Both ends of both header tanks 10 are sealed with a cap 15 to allow the working fluid to be discharged through the tube 12 into the flow path.

Looking at the assembly structure of the conventional end plate 14 in the heat exchanger configured as described above, as shown in Figure 2, both ends of the end plate 14 was assembled in close contact with the both header tank 10.

However, such an assembly structure has a cylindrical shape, so that both ends of the end plate 14 must be formed in a semicircular shape in the same manner as the outer circumferential wall of the header tank 10, so that the process thereof is not easy. In addition, since the header tank 10 is spaced apart from each other by the assembly of the tube 12, the header tank 10 may be fixed in order to fix the end plate 14 to the header tank 10. Its dimensioning was difficult because the distance and the length of the endplate 14 had to be exactly the same.

In other words, when the length of the end plate 14 is longer or shorter than the spaced distance of the header tank 10 in the assembling process, the assembly of the end plate 14 is impossible.

Therefore, the conventional end plate 14 assembly structure has a problem in that the man-hour of the end plate 14 is increased, and there is a need to accurately match the assembly dimensions, thereby degrading heat exchanger productivity.

The present invention is to solve the conventional defects as described above, the technical problem is that the heat exchanger end plate assembling apparatus that makes it easy to assemble the end plate between the header tank even if the distance between the two header tanks is not constant. In providing.

The heat exchanger end plate assembly is characterized in that the end plate is fixed to the appropriate position of the support extending integrally from the header tank.

1 is a front view of a conventional heat exchanger

Figure 2 is a plan sectional view showing the end plate assembly in the header tank of the conventional heat exchanger

Figure 3 is a plan view showing an end plate assembly according to the present invention

4 is a front sectional view taken along the line A-A of FIG.

Figure 5 is a side cross-sectional view showing an end plate assembly according to the present invention

※ Explanation of codes for main parts of drawing

100: cap 110: support

500: end plate 510: fixed piece

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. Figure 3 is a plan view showing an end plate assembly according to the present invention, Figure 4 is a front sectional view taken along line A-A of Figure 3, Figure 5 is a side cross-sectional view showing an end plate assembly according to the present invention.

The heat exchanger to which the present invention is applied is fixed with a plurality of tubes 300 between both header tanks 200, both ends of which are closed with a cap 100, as usual, and between the tubes 300, corrugated fins ( 400 is installed to help the heat exchange of the working fluid, the end plate 500 for protecting the corrugated pin 400 is fixed to the outermost corrugated pin 400.

In such a heat exchanger, the end plate assembly of the inventive heat exchanger is a support that is integrally protruded in the lateral direction so that the end plate 500 is fixed to one side of the cap 100 for sealing both ends of the header tank 200 ( 110, and a fixing piece 510 protruding at a predetermined width and height to hold and hold the support 110 of the cap 100 at one or both ends of the end plate 500.

The support 110 has a latching jaw 120 protrudes downward at a predetermined bottom surface so that the assembly position of the end plate 500 can be designated.

The following describes the assembly process of the subject innovation constituted as described above.

In the state in which the cap 100 is sealed at both ends of the header tank 200, the end plate 500 is fixed to the support 110 of these header tanks 200, which is the end of the support 110 and the end. After overlapping both ends of the plate 500, the end plate 500 is bent at both ends of the fixing piece 510 to hold the support 110 as shown in FIGS. 3 and 5. At this time, assembling position of the end plate 500 is automatically specified as both ends are in close contact with the engaging jaw 120 of each of the support (110).

In addition, the end plate 500 may be assembled between the engaging jaw 120 by making the assembly position in close contact with the engaging jaw 120 as described above, but by removing the engaging jaw 120, the support ( By assembling at the proper position of 110), the assembly can be made convenient. This is taken into account when the distance between the two locking projections 120 does not coincide with the length of the end plate 500 according to the assembly dimension error.

The present invention configured as described above is easy to assemble the end plate 500 even when the assembly error occurs when assembling the heat exchanger, even when the distance between the both sides of the header tank 200 and the end plate 500 does not exactly match. It will have the effect of reducing it.

Claims (1)

A plurality of tubes are arranged to be spaced vertically and vertically so that the working fluid flows zigzag by baffles fixed to both sides of the head tank where both ends are sealed by a cap, and the working fluids are arranged with a large heat transfer area between the tubes. In the heat exchanger is fixed to the corrugated fins to increase the heat exchange efficiency of the end plate, the end plate for protecting the corrugated pins on the outermost outer corrugated fins, A support for protruding integrally from one side of the cap for sealing both ends of the header tank to secure the end plate, and a locking projection protruding from the end plate in close contact with a bottom predetermined position; End plate assembly of the heat exchanger characterized in that it comprises a fixing piece protruding to a predetermined width and height to be fixed by holding the support of the cap on both ends of the end plate.