KR200163612Y1 - Pipe assembly apparatus for heat exchanger - Google Patents

Abstract

The present invention simplifies the cost reduction and assembly process by reducing the number of parts used when assembling the inlet / outnet pipe on one side of the evaporator, and also provides a guide for supporting the inlet / outnet pipe on the end plate. The present invention relates to an apparatus for assembling an inlet / outnet pipe of a heat exchanger, which prevents sagging of an inlet / outnet pipe and welds it more firmly. The configuration thereof has a predetermined diameter and extends a predetermined length, The inlet / outnet pipe is inserted into the inlet / outlet pipe, which is bent in opposite directions and fixedly spaced apart from the fixed bracket for assembling the expansion valve, and the inlet / outlet periphery where the inlet / outnet pipe is assembled. The boss protrudes outward so that it can be fixed, and the free end of the innet / outnet pipe is assembled to the inlet and outlet. Innet / Out is spaced vertically downwardly to a predetermined position of the inlet and outlet so as not to move to accommodate the respective four pipe body therein and including an end plate which is a guide having a predetermined distance in the right and left projecting configuration, respectively.

Description

Innet / Outnet pipe assembly device of heat exchanger

The present invention relates to an inlet / outnet pipe assembling apparatus of a heat exchanger, in particular, when assembling an inlet / outnet pipe integrally on one side of an evaporator, the assembly process is simplified and the cost is reduced by reducing the number of parts used therein. In addition, the end plate is provided with a guide that prevents sagging and lateral movement of the innet / outnet pipe, so that the innet / outnet pipe can be more firmly fixed.

The car air conditioner is an air conditioning system that cools the interior of a vehicle by allowing a working fluid called a refrigerant to continuously flow in a predetermined flow path, and by using a special property of the working fluid to allow a heat exchanger installed on the flow path to absorb air heat in the interior of the cabin.

The general structure of such a car air conditioner is connected with a refrigerant pipe so that a working fluid can continuously flow between a compressor, a condenser, an expansion valve, and an evaporator, as is known.

The compressor compresses the working fluid in the refrigerant pipe to a gas state of high temperature and high pressure and sends it to the condenser, and the condenser exchanges the working fluid of high temperature and high pressure with outside air to change the phase into a liquid state and then send it to the expansion valve. The expansion valve rapidly expands the working fluid of the liquid to form a low-temperature, low-pressure frost-shaped form and sends it to the evaporator, the evaporator absorbs the air in the cabin by using the working fluid to cool the interior of the cabin and the heat exchange. The repeated working fluid is sent back to the compressor so that the cooling cycle can be operated continuously.

Here, the evaporator, which is a kind of heat exchanger, is manufactured in various shapes according to the purpose and use of the heat exchanger. The general configuration of the heat exchanger includes a corrugated fin to increase the heat transfer area between a plurality of flat tubes through which heat exchange is performed. Inserted, the end plate is attached to both sides of the corrugated pin to protect the flat tube and the corrugated pin, the end plate is attached to the Innet pipe and the Outnet pipe so that the working fluid can enter and exit.

However, the conventional evaporator is a tank providing a passage for the working fluid flows on each flat tube is composed of a two cup form of the inner cup and the outer cup in order to pass the working fluid through the two cup tank Innet pipes had to be attached to one end plate, and outnet pipes had to be attached to the other end plate.

Therefore, if the innet / outnet pipe is attached to both ends of the end plate, the refrigerant pipe continued to pass through the side of the body of the evaporator, which interferes with the air flowing into the cabin from the evaporator, thereby reducing the amount of air. .

In order to solve this problem, the tank of the flat tube that provides a passage through which working fluid flows is configured in the form of 3 cups so that the innet / outnet pipe is attached to one side of the end plate of the evaporator so as not to disturb the flow of air. .

1 shows an exploded perspective view of an evaporator composed of a flat tube of a three cup tank type. It is provided with a tank through which the working fluid flows in the upper portion of the flat tube (1), which has an inlet cup (11) protruding to guide the working fluid into the evaporator in the upper center, and the lower portion of the inlet cup (11) First and second outnet cups provided on both sides to provide a passage through which the working fluid passing through the inlet cup 11 can circulate through the flat tube 1, and also provide a passage for discharging the circulated working fluid to the outside. 12) 13 are protruded.

As described above, in the evaporator having the 3-cup tank-shaped flat tube 1, the working fluid flows into the innet cup 11 through the innet pipe 14 to reach the last flat tube 1 and the last flat tube 1 Innet cup 11 and the first outnet cup 12 are in communication with each other, the working fluid flows into the first outnet cup 12 to pass through the flat tube (1) U-turn and heat exchange The heat-exchanged working fluid exits to the outer pipe 15 through the second outer net cup 13 and is discharged to the compressor.

As described above, the three-cup tank-shaped conventional evaporator has both the Innet pipe 14 and the Outlet pipe 15 attached to one side of the end plate 16 as described above. It is shown by 2,3.

This is because the assembly process is complicated because the Innet pipe 14 and the Outnet pipe 15 are separately attached to one end plate 16, and the Innet pipe 14 and the Outnet pipe 15 Many parts required for the air conditioner are attached and its structure is complicated (FIG. 2). In addition, the structure for integrally forming the Innet pipe 14 and the Outnet pipe 15 is end plate 16 so as to firmly fix the Innet pipe 14 and the Outnet pipe 15 as shown in FIG. ) As a separate attachment plate 17 is provided on the outside, complicated assembly parts must be installed on the attachment plate 17, and as a result, the number of parts is increased and manufacturing costs are increased.

Therefore, the present invention is devised to solve the conventional problems as described above, the technical problem is to reduce the number of parts used in assembling the Innet / Outnet pipe integrally on one side of the evaporator to reduce the cost and reduce the assembly process It is to provide an innet / outnet pipe assembly of the heat exchanger that can simply do.

Another technical problem of the present invention is to provide a guide for preventing sagging and lateral movement of an innet / outnet pipe on the end plate, which can secure the innet / outnet pipe more firmly. To provide a net pipe assembly device.

The present invention is to easily assemble the Innet pipe and the Outlet pipe on the one end plate of the evaporator in one piece, which is parallel to the Innet / Outnet pipe for guiding the entry and exit of the working fluid to the fixed bracket in which the expansion valve is installed. Assemble it integrally and assemble this innet / outnet pipe directly to the end plate inlet / outlet of the evaporator to reduce the number of parts by reducing the number of parts, and also prevent the innet / outnet pipe from being brazed to the endplate. It is characterized in that to guide the projection to the downward entry and exit of the end plate.

1 is an exploded perspective view of a conventional heat exchanger

Figure 2 is a perspective view showing a conventional innet / outnet pipe assembly

Figure 3 is a perspective view showing the assembly of the innet / outnet pipe of another conventional embodiment

Figure 4 is a side view of the heat exchanger showing the assembled state of the present invention

5 is a cross-sectional view taken along the line A-A of FIG.

6 is a front view of another embodiment of the present invention;

7 is a front view of another embodiment of the present invention

8 is a front view of another embodiment of the present invention

9 is a plan sectional view of FIG. 6 or 8 of the present invention;

10 is a cross-sectional view taken along the line B-B of FIG.

FIG. 11 is a front sectional view showing the innet / outnet pipe used in FIG. 10; FIG.

※ Explanation of code for main part of drawing

10,20: Innet / Outnet pipe 101: Inlet and outlet

102,103: Boss 104,104a: Guide

40: guide 105: support

Hereinafter, based on the accompanying drawings will be described a possible embodiment of the present invention. Figure 4 is a side view of the heat exchanger showing the assembled state of the present invention, Figure 5 is a cross-sectional view taken along line A-A of Figure 4, Figures 6 to 9 is a front or plan cross-sectional view of various embodiments of the present invention. FIG. 10 is a sectional view taken along the line B-B of FIG. 11, and FIG. 11 is a front sectional view showing the innet / outnet pipe use state of FIG.

The present invention allows to easily fix the Innet / Outnet pipe integrally so that the working fluid can enter and exit the heat exchanger, in particular one end plate of the evaporator, its configuration is a predetermined diameter as shown in Figs. Has a predetermined length and extends the upper and lower parts are bent in opposite directions to each other, the lower end is fixed to the fixed bracket (B) for assembling the expansion valve, respectively, the innet / outnet pipe (10) (20) and the And an end plate 30 for brazing assembly of the free end of the innet / outnet pipe 10 and 20 to the inlet and outlet 101 through which the working fluid flows.

The end plate 30 is a hollow boss (102) (103) so that the inlet / outlet pipe (10, 20) is inserted into the periphery of the inlet and outlet 101 through which it can be firmly assembled with a wider contact area ) Protrudes integrally to a predetermined length to the outside. The bosses 102 and 103 may be integrally formed with the body of the end plate 30 by bending the area corresponding to the hole to the outside without opening the hole when forming the entrance and exit 101. In addition, the end plate 30 is fixed to the predetermined position of the left and right sides of the inlet / outnet pipe (10, 20) in the downward predetermined position of the boss (102) 103 by tightly fitting it. A pair of guides 104 and 104a protrude from two positions spaced apart from each other vertically and vertically so as to be spaced apart from each other.

The assembly of the present invention configured as described above is inserted into the boss (102) 103 of the inlet / outlet pipe (10, 20) of the inlet / outlet 101 of the end plate 30 as shown in FIG. Brazing is assembled, which is firmly assembled because it is in surface contact with a large area of the boss (102) and (103) protruding the Internet / outnet pipe (10).

The guides 104 and 104a protrude downward from the inlet and outlet 101 of the end plate 30 so that the free ends of the innet / outnet pipes 10 and 20 are the bosses 102 and 103 respectively. In the inserted state in the guide 104, 104a is fixed to the body of the inlet / the outer pipe (10, 20) in the internet / outnet pipe (10, 20) is assembled It doesn't move during the process or brazing process, making it easy to assemble and robust.

Meanwhile, in another embodiment of the guides 104 and 104a, the lower end of the innet / outnet pipe 10 and 20 inserted into a predetermined position inside the body, as shown in FIGS. 6 and 9, has an end plate 30. The support 105 is laterally extended in parallel with the end plate 30 so as not to be in close contact with the end plate 30.

Accordingly, when the internet / outnet pipes 10 and 20 are inserted between the guides 104 and 104a constituted in pairs, the support 105 is the innet / outnet pipes 10 and 20. Since the bottom is supported, the innet / outnet pipes 10 and 20 do not sag downwards.

And another embodiment of the present invention, as shown in Figure 8 when the in / out pipe (10, 20) assembled to the end plate 30 to the end plate 30 so that it can be firmly assembled to a larger area The inlet / outlet pipe 10 has a hollow guide piece 40 fixed to protrude outward so that it can be used for the same purpose as the boss 102 and 103 at the inlet and outlet 101 and the protruded outer periphery. (20) is inserted and brazed as usual.

The guide piece 40 has the same function as the bosses 102 and 103 of the previous embodiment, which is difficult to form the bosses 102 and 103 or protrudes from the bosses 102 and 103. It is intended to be used to more firmly fix the innet / outnet pipes 10 and 20 with a wider contact area with a length that extends longer than the length. Accordingly, the protruding length of the guide piece 40 is appropriately used according to the capacity of the heat exchanger.

On the other hand, Figures 10 and 11 show another embodiment of the innet / outnet pipe according to the present invention. Unlike ordinary cylindrical pipes, the innet / outnet pipes 10a and 20a have a pair of semi-circular pipes 102a, each of which has a semicircular body and a flange 101a provided at both ends thereof so as to increase the joining area. ) Are assembled to each other. Cylindrical innet / outnet pipes 10a and 20a are spaced apart from the end plate 30 by the minimum rounding distance when assembled to the end plate 30 because a rounding part inevitably occurs in the bent portion. Since 102a) is manufactured by a pressing process, a rounding part is hardly generated, and thus, the volume is assembled closer to the end plate 30 to reduce the volume.

The present invention constituted as described above, since the innet / outnet pipe 10 and 20 are integrally fixed to the fixing bracket B to form a set, the innet / outnet pipe 10 and 20 Is assembled together when it is fitted to the boss 102, 103 or guide piece 40 of the endplate can be convenient to assemble.

In addition, when the innet / outnet pipes 10 and 20 are fixed to the end plate 30 as described above, the guides 104 and 104a of the end plate 30 are connected to the innet / outnet pipe 10. Not only to fix the 20 to move left and right, but also the support 105 of the guide 104, 104a to prevent sagging of the Internet / out-pipe (10, 20), while assembling its convenience and robustness I can assemble it easily.

Therefore, the present invention simply inserts the Innet / Outnet pipe into the end plate and brazes it, thereby simplifying the number of parts. It is secured so as to secure a strong assembly. In addition, when using the innet / outnet pipe as a semi-circular pipe is assembled closer to the end plate it is possible to install in a narrow space to provide the convenience of installation.

Claims (4)

An innet / outnet pipe having a predetermined diameter and extending in a predetermined length, the upper and lower portions of which are bent in opposite directions to each other so that the lower end thereof is fixed to the fixing bracket for assembling the expansion valve; The boss protrudes outward so that the innet / outnet pipe can be fixed to the entrance / exit periphery of the inlet / outlet pipe where the innet / outnet pipe is assembled, and the innet / out when the free end of the innet / outnet pipe is assembled to the inlet / outlet. It includes an end plate each of which is a pair of guides each spaced up and down at a predetermined downward position of the entrance and exit with a constant distance from side to side so as not to move by accommodating each of the net pipe body inside the interference fit type; Innet / outnet pipe assembly apparatus of the heat exchanger. According to claim 1, The end plate is characterized in that the hollow guide piece is fixed to protrude outward so that the inlet / outlet pipe is inserted into the periphery of the inlet and outlet through which the working fluid enters and can be firmly fixed to a wider area Innet / outnet pipe assembly device for heat exchanger. The innet / outnet pipe assembly of the heat exchanger according to claim 1, wherein the guide of the end plate extends horizontally so that the innet / outnet pipe does not sag in the direction of the end plate at a predetermined position inside the body. Device. The heat exchanger of claim 1, wherein the innet / outnet pipe is formed by assembling a pair of semicircular pipes each having a body having a semicircular shape and having flanges to widen the joint area at both ends thereof. Innet / Outnet pipe assembly.