KR20040005240A - Heat exchanger - Google Patents

Abstract

PURPOSE: A heat exchanger is provided to improve the heat exchanger and to improve the fastening method of a mounting pin and a tank. CONSTITUTION: A heat exchanger has plural tubes(31); an upper header(32) and a lower header into which the ends of the tubes are inserted; an upper tank(34) and a lower tank each combined to the upper header and the lower header; radiant fins(33) situated between the tubes; a support(35) having an extension part(36) to be extended to the surface of the upper and lower tanks and a mounting pin-combining part(37); and a mounting pin combined to the mounting pin-combining part. The support is joined to the end of the tube. The mounting pin-combining part is formed to the end of the extension part.

Description

Heat exchanger

The present invention relates to a heat exchanger, and more particularly to a heat exchanger in which mounting pins are fixed to an end cap or support.

In general, the vehicle is equipped with various types of heat exchangers, for example, a heater core for heating the vehicle, a radiator for cooling the engine of the vehicle, a condenser for cooling the vehicle, an evaporator, and an oil cooler for cooling the oil for the automatic transmission. This includes. Among the heat exchangers, a radiator adopts a method of receiving heat by circulating cooling water forcedly circulated by the water pump by circulating a water jacket formed in the engine, and releasing it to outside air by circulating it in the radiator.

The radiator typically dissipates heat from the engine to the outside by forced convection by a fan installed in the engine room and by convection according to the running of the vehicle. The radiator is fixed to the tip of the engine room via a beam, allowing heat exchange to be carried out by the wind forcedly blown by the fan when the vehicle is running.

1 shows a schematic exploded perspective view of a conventional radiator.

Referring to the drawings, the heat exchanger 11 which is a vehicle radiator includes an upper header 18 and a lower header 17 spaced apart from each other at predetermined intervals, and between the upper header 18 and the lower header 17. There are a plurality of tubes 12 arranged in parallel so that the ends of each tube are coupled to the headers 17, 18. A heat dissipation fin 13 is placed between the plurality of parallel tubes 12 to expand the heat dissipation area. The upper tank 14 is coupled to the upper portion of the upper header 18, and the lower tank 15 is coupled to the lower portion of the lower header 17, respectively. Tanks 14 and 15 coupled to the headers 18 and 17, respectively, form a flow passage for the coolant, and the coolant flowing therethrough circulates through the tube 12 to release heat accumulated in the coolant to the outside air. have. The support 22 is coupled to the outside of the parallel tubes 12.

Meanwhile, mounting pins 21 are attached to the upper tank 14 and the lower tank 15. The mounting pin 21 is formed in a cylindrical shape having a protrusion 21a as can be seen from the drawing. When the mounting pins 21 are attached to the tanks 14 and 15, the tanks 14 and 15 are drilled and the brazing operation is performed while the protrusion 21a is inserted.

Shown in FIG. 2 is a schematic exploded perspective view of a portion of the heat exchanger of FIG. 1.

Referring to the figure, the ends of the tubes 27 are coupled to the header 28, with the tank 24 coupled to the header 28. Supports 25 are installed at both ends of the plurality of tubes 27 that are installed in parallel. In the example shown in FIG. 1, both ends are closed when the header and the tank are coupled, but in the example shown in FIG. 2, both ends are opened when the header and the tank are combined, and thus the end cap 29 ) To close both ends. When attaching the mounting pin 21 to the tank 24, the hole 24b is formed in the tank 24, and the brazing is performed while the protrusion 21a of the mounting pin 21 is inserted into the hole 24b. Done.

In the radiator described with reference to FIGS. 1 and 2, since the mounting pins are formed by attaching the holes 14b and 24b to the tank 24, there is a problem that there is always a possibility of leakage of coolant. That is, although the holes 14b and 24b are filled through brazing, there is always a possibility of coolant leakage if brazing is not performed normally. In addition, since the contact area between the mounting pin 21 and the tanks 14 and 24 is not large, there is a problem in that it is vulnerable to vibration and cannot guarantee the reliability of attachment. In addition, the conventional mounting pin is a cylindrical shape was processed through extrusion or forging, there was also a problem of the overall manufacturing cost and weight increase. On the other hand, conventionally, after brazing the radiator core, the plastic tank is fixedly coupled by caulking to the tab formed on the header, so there is a problem that a separate assembly process other than brazing is required in manufacturing.

The present invention has been made to solve the above problems, it is an object of the present invention to provide an improved heat exchanger.

Another object of the present invention is to provide a heat exchanger having an improved manner of attachment of a mounting pin and a tank.

1 is a schematic perspective view of a heat exchanger which is a general vehicle radiator.

2 is a schematic perspective view of a portion of another heat exchanger;

3 is a schematic exploded perspective view of a part of a first embodiment of a heat exchanger according to the present invention;

4 is a schematic exploded perspective view of a part of a second embodiment of a heat exchanger according to the invention;

<Brief description of the main parts of the drawing>

11.radiator 12.tube

13. Mounting pin 14. Upper tank

15. Lower tank 31.41. tube

32.42. Header 33.43 Mounting Pin

34.44. Tank 35.45. support

38. Mounting pin 47. End cap

In order to achieve the above object, according to the present invention, a plurality of tubes; An upper header and a lower header into which the end of the tube is inserted; An upper tank and a lower tank respectively coupled to the upper header and the lower header; A heat dissipation fin disposed between the plurality of tubes; A support joined to an end of the plurality of tubes, the support having an upper end, an extension extending to the surface of the lower tank, and a mounting pin coupling part formed at an end of the extension; There is provided a heat exchanger having a mounting pin coupled to the mounting pin coupling portion.

Also according to the present invention, a plurality of tubes; An upper header and a lower header into which the end of the tube is inserted; An upper tank and a lower tank respectively coupled to the upper header and the lower header; A heat dissipation fin disposed between the plurality of tubes; An end cap for sealing the open headers of the upper header, the lower header, and the upper tank and the lower tank, respectively, the extension extending from the end cap to the surface of the tank; An end cap having a mounting pin coupling portion formed at an end of the portion; There is provided a heat exchanger having a mounting pin coupled to the mounting pin coupling portion.

According to one feature of the invention, the mounting pin coupling portion is formed in a half cylindrical shape, the mounting pin is formed in a hollow cylindrical shape so that the mounting pin coupling portion is fitted to the mounting pin and brazed.

Hereinafter, the heat exchanger according to the present invention will be described in more detail with reference to the embodiments shown in the drawings.

3 shows a schematic perspective view of a part of a first embodiment of a heat exchanger according to the invention.

The overall structure of the heat exchanger according to the invention is generally similar to that described with reference to FIG. 1. That is, as described with reference to FIG. 1, a plurality of tubes 31 arranged in parallel, an upper header coupled to upper and lower portions of the tubes 31, and a lower header (not shown) And an upper tank 34 coupled to the upper header and the lower header, a lower tank (not shown), a heat dissipation fin 33 disposed between the tubes 31, and the plurality of And a support 35 disposed at the end of the tubes 31.

According to a feature of the present invention, an end of the support 35 is provided with a support extension 36 formed integrally with the support 35, and a mounting pin coupling portion 37 formed thereon, and the mounting pin coupling portion ( Mounting pin 38 is coupled onto 37. That is, as can be clearly seen by comparing FIG. 3 with FIG. 1, the support 35 is disposed at an end of the plurality of tubes 31, and a mounting pin 33 is provided therebetween, and the support 35 is provided. One end in the longitudinal direction of the () to extend to surround the end of the tank 34 and the header 32 to form a support extension 36, the mounting pin coupling portion 37 at the end of the support extension 36 ) To form.

The mounting pin coupling portion 37 may be formed in various shapes, but in the embodiment shown in the figure, it is formed as half of a cylinder. The mounting pin 38 is formed in a hollow cylindrical shape so that the mounting pin coupling portion 37 can be fitted to the lower end of the mounting pin 38. The support extension 36 is brazed to the header 32 and the tank 34 in contact therewith, and the mounting pin 38 is also brazed to the mounting pin coupling portion 37 to achieve a stable bonding state. .

4 shows a schematic perspective view of a part of a second embodiment of a heat exchanger according to the invention.

Referring to the drawings, the overall structure of a heat exchanger according to the present invention is generally similar to that described with reference to FIG. That is, as described with reference to FIG. 2, the end where the tank 44 and the header 42 are joined is open, and the open end is closed by the end cap 47. Meanwhile, a plurality of tubes 41 arranged in parallel, an upper header 42 coupled to upper and lower portions of the tubes 41, and a lower header (not shown), and the upper and lower headers An upper tank 44 and a lower tank (not shown) coupled to each other, a heat dissipation fin 43 disposed between the tubes 41, and ends of the plurality of tubes 41. The support 45 arrange | positioned is provided.

According to another feature of the invention, the end cap 47 is formed with an extension portion 48 of the end cap 47, a mounting pin coupling portion 49 is formed on the extension portion 48, a mounting pin The mounting pin coupling portion 49 is fitted to the lower end of the 49. The extension 48 of the end cap 47 is formed integrally with the end cap 47 and will be brazed against the surface of the tank 44. In addition, the mounting pin coupling portion 49 is also formed in a half cylinder. The cylindrical mounting pin 50 having the lower end portion is fitted with the mounting pin coupling portion 49 therein.

Although not shown in the drawing, in another example, even when sealing the end of the tank and the header by the end cap, such as the heat exchanger shown in Figure 4 may be formed in the mounting mounting pin coupling portion at the end of the support. That is, in FIG. 4, instead of forming the extension portion 48 and the mounting pin coupling portion 49 in the end cap 47, the end of the support 45 extends so as to surround the end of the end cap 47. And, a mounting pin coupling portion may be provided to allow the mounting pin 50 to be fitted.

The heat exchanger according to the present invention has an advantage in that the attachment of the mounting fins to the heat exchanger does not puncture the tank, thereby reducing the possibility of leakage of the completed heat exchanger. In addition, there is an advantage that the reliability of the mounting pin is improved. Furthermore, since the mounting pin is formed in a hollow cylindrical shape, manufacturing cost and weight can be reduced, and since the tank is also made of aluminum material, the whole radiator can be brazed and manufactured integrally. Thus, the mounting pins can be brazed and coupled to the tank.

Although the present invention has been described with reference to one embodiment shown in the accompanying drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent embodiments are possible. will be. Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

Claims (3)

A plurality of tubes; An upper header and a lower header into which the end of the tube is inserted; An upper tank and a lower tank respectively coupled to the upper header and the lower header; A heat dissipation fin disposed between the plurality of tubes; A support joined to an end of the plurality of tubes, the support having an upper end, an extension extending to the surface of the lower tank, and a mounting pin coupling part formed at an end of the extension; And a mounting pin coupled to the mounting pin coupling portion. A plurality of tubes; An upper header and a lower header into which the end of the tube is inserted; An upper tank and a lower tank respectively coupled to the upper header and the lower header; A heat dissipation fin disposed between the plurality of tubes; An end cap for sealing the open headers of the upper header, the lower header, and the upper tank and the lower tank, respectively, the extension extending from the end cap to the surface of the tank; An end cap having a mounting pin coupling portion formed at an end of the portion; And a mounting pin coupled to the mounting pin coupling portion. The method according to claim 1 or 2, The mounting pin coupling portion is formed in a half cylindrical shape, wherein the mounting pin is formed in a hollow cylindrical shape, the mounting pin coupling portion is fitted to the mounting pin and the heat exchanger, characterized in that brazing.