KR101592928B1 - The heat exchanger - Google Patents

Abstract

The present invention relates to a heat exchanger.

The heat exchanger of the present invention includes: a header tank having a header and a tank assembled to form a heat exchange medium flow path through which a heat exchange medium flows; A plurality of tubes connected to the header tank and having a heat exchange medium flow path through which the heat exchange medium flows; And a plurality of fins interposed between the tubes, wherein a protruding portion protruding inward is formed in the bent portion located at an outer lower portion of the tank fitting portion of the header, And a groove corresponding to the protruding shape of the protruding portion is formed at a portion contacting the protruding portion.

INDUSTRIAL APPLICABILITY The heat exchanger of the present invention is excellent in pressure resistance and can prevent breakage from occurring in the bent portion located at the outer lower portion of the tank coupling portion of the header.

Radiator, Header, Tank, Header Tank, Pressure, Emboss

Description

{HEAT EXCHANGER}

The present invention relates to a heat exchanger such as a radiator or an intercooler installed in a vehicle, and more particularly to a heat exchanger having a header tank, a tube, and a fin.

The vehicle is equipped with various types of heat exchangers.

For example, in general, an internal combustion engine compresses supplied fuel and ignites and burns the fuel at a high temperature and a high pressure.

Accordingly, considerable heat is generated in the internal combustion engine. When the internal combustion engine is left unattended, the members constituting the engine such as the piston or the cylinder are overheated and can not perform their functions fully.

Therefore, in general, a water jacket is provided around the cylinder of the engine, and a heat exchange medium such as cooling water is circulated therein to cool the overheated engine.

However, if the heat exchange medium is left as it is, the engine can not be cooled by boiling, so a radiator, which is a kind of heat exchanger, is installed in front of the vehicle to cool the heated heat exchange medium by blowing air through the running wind or the fan.

On the other hand, a vehicle is equipped with a turbocharger, which is a device for sucking outside air to rotate the turbine and supplying high-temperature compressed air generated in the cylinder to the cylinder, in order to increase the output of the engine according to the type of vehicle.

However, the air rapidly compressed by the turbocharger expands due to the increase of the temperature, and the oxygen density is lowered, resulting in a decrease in the charging efficiency in the cylinder.

In order to compensate for this, an intercooler is installed in the vehicle. By using this intercooler, the high-temperature air rapidly compressed by the supercharger is cooled to increase the air density, thereby improving the suction efficiency of the cylinder, Not only increases but also significantly reduces carbon dioxide emissions.

In general, heat exchangers such as a radiator and an intercooler are arranged side by side as shown in FIG. 1 and have a plurality of tubes 1 in which a heat exchange medium flow path is formed in which a heat exchange medium such as cooling water flows.

It also has a plurality of pins (2) interposed between the tubes (1).

The header tank 3 is disposed at both ends of the tube 1 and has a heat exchange medium flow path through which a heat exchange medium such as cooling water flows.

The support 4 is provided in such a manner as to support the outermost pin among the plurality of pins 2.

The heat exchanging medium flows into the radiator or the intercooler through the inlet pipe. The heat exchanging medium flowing into the inlet pipe is moved to the tube through the header tank on one side.

The heat exchange medium moved to the tube is discharged to the outlet pipe through the other header tank.

In this process, the high-temperature heat exchange medium is cooled by heat exchange with the outside air at a low temperature.

A single heat exchange medium flow path is formed in the tube. However, in some cases, a plurality of heat exchange medium flow paths are formed by partition walls in order to improve heat exchange efficiency.

Supports installed in the radiator support various components such as the pin and tube are stably coupled, and the stability of the radiator is ensured.

The supporting structure of the support includes an outer coupling structure that is coupled to the outside of the core (in the radiator, a core means a main component for heat exchange, such as a header tank), and an outer coupling structure in which the support is inserted into the core (mainly inside the header tank) There is an inner joining structure which is combined in a form of being formed.

The inner coupling structure can improve the heat exchange efficiency by reducing the dead space, but has a disadvantage in that the contact length between the pin and the tube is short in the structural bending portion.

Since the outer joint structure utilizes more parts in the given size as the area of the pin and the tube, the heat exchange efficiency is better than that of the inner joint structure.

The header tank 3 which is a component of the radiator is generally formed by assembling a header 3a, a gasket 3b and a tank 3c as shown in FIG. 2a. The leakage of the heat exchange medium is prevented by the gasket 3b .

That is, the gasket is located between the header and the tank and is compressed to prevent leakage of the heat exchange medium.

Generally, the gasket compression ratio in a normal assembled state is 20% to 40%.

However, the conventional header tank is vulnerable to pressure and has a problem that the occurrence rate of breakage is high.

Most of the breakage occurred in the joint portion of the header and the tank, and in particular, the breakage occurred in the bent portion located in the outer lower portion of the tank joint portion of the header (see FIG. 2B)

This causes the header and the tank to be forced to expand in opposite directions due to the pressure of the heat exchange medium located on the heat exchange medium flow path of the header tank, and this force is concentrated on the bent portion located at the outer lower portion of the tank engagement portion of the header .

An object of the present invention is to provide a heat exchanger which is excellent in pressure resistance and can prevent breakage of a bent portion located at an outer lower portion of a tank coupling portion of a header .

In the present invention, the bending portion located at the outer lower portion of the tank coupling portion of the header is formed with protruding portions protruding from the inner side by being depressed when viewed from the outside of the header, So that a good tank can be obtained in which excellent pressure resistance is ensured.

The heat exchanger of the present invention is formed by assembling a header and a tank, and has a header tank for forming a heat exchange medium flow path through which the heat exchange medium flows.

In addition, a plurality of tubes connected to the header tank and having a heat exchange medium flow path through which the heat exchange medium flows are formed.

In addition, it has a plurality of fins interposed between the tubes.

In addition, a protruding portion protruding inward is formed in a bent portion located at an outer lower portion of the header coupling portion of the header, and a groove corresponding to a protruding shape of the protruding portion is formed at a portion of the header- Respectively.

In the present invention, the protruding portion may be embossed to have a predetermined curvature on the outer surface.

Also, a plurality of the protrusions may be formed in the longitudinal direction of the header.

The header of the heat exchanger of the present invention is formed by assembling a header and a tank, and forms a heat exchange medium flow path through which the heat exchange medium flows. A plurality of tubes connected to the header tank and having a heat exchange medium flow path through which the heat exchange medium flows; Wherein a protruding portion protruding inward is formed in a bent portion located at an outer lower portion of a tank coupling portion of the header, and a portion of the header side end portion of the tank, which is in contact with the protruding portion, And a groove corresponding to the projecting shape of the projecting portion is formed.

Therefore, the pressure resistance of the header tank is excellent, and breakage can be prevented from occurring in the bent portion located at the outer lower portion of the tank coupling portion of the header.

In the present invention, when the protruding portion has an embossed shape having a predetermined curvature on the outer surface, it is possible to minimize the concentration of stress in the vicinity of the edge, thereby further improving the pressure resistance.

Hereinafter, the technical idea of the present invention will be described more specifically with reference to the accompanying drawings.

It is to be understood, however, that the appended drawings illustrate only typical embodiments of the present invention and are not to be considered as limiting the scope of the invention.

FIG. 2A is a cross-sectional view of a header tank made of a header, a gasket, and a tank in a conventional heat exchanger, and FIG. 2B is a schematic view for explaining a crack generated in a header in a structure of a header tank composed of a header, a gasket, and a tank.

3 is an exploded perspective view for explaining a conventional header tank structure.

4 is an exploded perspective view of a header tank for explaining a header tank which is a constituent element of the present invention in which protrusions are formed.

5 is a cross-sectional view of the header tank for explaining the coupling state of the header and the tank shown in Fig. 4. Fig.

6 is a schematic view for explaining a header tank in a structure in which a protrusion is in contact with a lower portion of a tank and a groove corresponding to the shape of the protrusion is formed in a portion of the tank where the protrusion comes into contact with the protrusion.

7 is an exploded perspective view for explaining a header and a tank which are components of the header tank shown in Fig.

The present invention relates to a heat exchanger such as a radiator.

Thus, the heat exchanger of the present invention has a header tank 30 that forms a heat exchange medium flow path through which the heat exchange medium flows, as in the prior art, and this header tank includes a header 31, a gasket 32, and a tank 33 .

In addition, a plurality of tubes 1 connected to the header tank 30 and having a heat exchange medium flow path through which a heat exchange medium flows are formed.

Further, it has a plurality of pins (2) interposed between the tubes (1).

However, the present invention has a header tank 30 having excellent pressure resistance, which is excellent in pressure resistance and can prevent breakage of the bent portion 31a located at the outer lower portion of the tank coupling portion 31d of the header 31 Heat exchanger.

To this end, in the present invention, the protruding portion 31c protruding inward is formed in the bent portion 31a located at the outer lower side of the tank fitting portion 31d of the header 31. [

That is, the bent portion 31a located at the outer lower portion of the tank coupling portion 31d of the header 31 is pressed to the inside of the header to protrude from the inner side when viewed from the outside, Lt; / RTI >

It is preferable that a plurality of these projecting portions 31c are formed at intervals in the longitudinal direction of the header 31 to enhance the pressure resistance and facilitate the formation of the projecting portions 31c.

The method of forming the projecting portion 31c as described above includes a method of pressing the bent portion 31a with a pressing rod or the like fixed to the press.

When the protrusion 31c is formed as described above, since the bending portion 31a positioned at the outer lower portion is resistant to the force to spread, the header tank is excellent in pressure resistance.

In the present invention, it is preferable that the projecting portion 31c has an embossed shape having a predetermined curvature on the outer surface.

That is, it is preferable that the vicinity of the edge of the projection 31c forms a curved surface.

If the vicinity of the edge of the protruding portion 31c is in the form of an angled edge, stress can be concentrated on the angular edge portion, and the breakage occurrence rate is increased.

Since the structure in which the protruding portion 31c has an angular edge is pressed by an angled pressure bar fixed to a press or the like, it is not preferable to pressurize itself to generate a minute crack or the like in the header 31a alone.

However, in the case where the vicinity of the edge of the projection 31c forms a curved surface, stress can be prevented from concentrating near the edge of the projection 31c.

In addition, cracks and the like are not generated in the process of forming the projecting portions 31c.

The method of forming the embossed shape having a certain curvature, that is, the protruding portion 31c forming the curved surface in the vicinity of the edge, is formed by pressing the bent portion 31a with the pressing portion of the pressing portion is fixed to the press can do.

In the present invention, the protruding portion 31c is in contact with the lower portion of the tank 33, and at the portion of the tank-side end portion 33E of the tank 33 which is in contact with the protruding portion 31c, It is preferable that grooves 33a corresponding to the grooves 33a are formed.

According to this configuration, it is possible to stably engage the header 31 and the tank 33, and as a result, the pressure resistance is further improved due to the stable engagement.

Particularly, since the contact portion between the header 31 and the tank 33 increases, and the header 31 and the tank 33 come into contact with each other in various directions, the pressure resistance is excellent. (The header 31 and the tank 33, The fact that the header 31 and the tank 33 are subjected to the direction of the force for canceling the expansion pressure when the tank 33 is subjected to the expansion pressure results in an excellent pressure resistance.

Reference numeral 31b denotes a clamping portion for preventing the header 31 and the tank 33 from being separated.

Figure 1 shows a schematic radiator schematic

FIG. 2A is a cross-sectional view of a header tank in which a conventional header, gasket,

FIG. 2B is a schematic view for explaining the generation of cracks in the header in the structure of the header tank in which the conventional header, gasket, and tank are assembled

3 is an exploded perspective view for explaining a conventional header tank structure.

4 is an exploded perspective view of a header tank for explaining a header tank which is a constituent element of the present invention in which protrusions are formed;

5 is a cross-sectional view of the header tank for explaining the state of engagement of the header and the tank shown in FIG.

6 is a schematic view for explaining a header tank in a structure in which a protrusion is brought into contact with a lower portion of a tank and a groove corresponding to the protruding shape of the protrusion is formed in a portion of the tank,

7 is an exploded perspective view for explaining a header and a tank which are components of the header tank shown in Fig.

Description of the Related Art

1. Tube 2. Pin

3. Header tank 3a. Header

3b. Gasket 3c. Tank

4. Support 30. Header tank

31. Header 31a. Bent portion

31b. The clamping portion 31c. projection part

31d. Tank coupling 32. Gasket

33. Tank 33a. home

33E. Header side end

Claims (3)

A header tank 30 in which a header 31 and a tank 33 are assembled to form a heat exchange medium flow path through which the heat exchange medium flows; A plurality of tubes 1 connected to the header tank 30 and having a heat exchange medium flow path through which the heat exchange medium flows; And a plurality of fins (2) interposed between the tubes (1), the heat exchanger The header 31 includes a clamping part 31b located at an upper portion of the tank coupling part 31d and coupling the header 31 to the tank 33 and a clamping part 31b provided at the lower outer side of the tank coupling part 31d, (31a) A protruding portion 31c protruding inward is formed in the bent portion 31a and a protruding portion 31c is formed at a portion of the header side end portion 33E of the tank 33 which is in contact with the protruding portion 31c, A groove 33a corresponding to the protrusion 31c is formed to be engageable with the protrusion 31c, Wherein the projecting portion (31c) is embossed to prevent stress from concentrating on the edge. delete The method according to claim 1, Wherein a plurality of the projecting portions (31c) are formed in the longitudinal direction of the header (31).

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