KR20110031825A - Radiator - Google Patents

Abstract

PURPOSE: A radiator is provided to prevent the leakage of the cooling water and to reduce cost increase due to the design changes of a header and a tank. CONSTITUTION: A radiator comprises a header tank(100), a plurality of tubes(200), and fins(300). The header tank comprises a header(10), a tank(20), and a gasket(30). An insertion part is formed along the perimeter of the header. The tank comprises a coupling part. The coupling part is formed along the perimeter of the open surface of the tank and faces an insertion part. The gasket is sandwiched between the insertion part of the header and the coupling part of the tank. Both ends of the tubes are fixed to the header tank and form a flow path for a heat exchange medium. The header comprises a protrusion, which is formed on the side of the insertion part.

Description

Radiator {Radiator}

The present invention relates to a radiator, and more particularly, to a radiator having a protruding jaw in the header of the radiator to prevent the gasket from being separated and coupled when the header and the tank are combined.

In general, a radiator is one of automobile heat exchangers, and the heat exchanger is a typical example of a radiator used for condenser, evaporator, and engine cooling used in an air conditioning system. The radiator consists of four parts, which is a pair of header tanks in which a tank and a header are coupled to each other, a tube connected to allow the header tanks to communicate with each other, and a heat transfer to replace heat of the refrigerant circulated through the tube. It consists of pins.

Radiator of the above configuration is required to block the outside to replace the heat. In particular, the outflow of the refrigerant frequently occurs at the header and tank joint, which is due to the airtightness of the gasket and the structure of the tank.

Hereinafter, the coupling structure of the conventional gasket and the header and the tank will be described together with the accompanying drawings.

1 is a perspective view of a conventional radiator, FIG. 2 is a sectional view of a conventional header tank, and FIG. 3 is a sectional view of a header tank from which a conventional gasket is separated.

Conventional radiator (R) is a header tank (9) provided side by side spaced apart as shown in Figure 1; A tube 4 having both ends fixed to the header tank 9 to form a heat exchange medium flow path; Pins 5 interposed between the tubes 4; And a control unit.

As shown in FIGS. 1 and 2, the header tank 9 consists of a header 1 and a tank 2, in order to maintain sealing and airtightness between the header 1 and the tank 2. The gasket 3 is built in.

The gasket 3 is first seated on the insertion portion 1a formed of the header 1, and then is pressed in such a manner that the coupling portion 2a of the tank 2 is not detached from the insertion portion 1a of the header 1. To

However, as shown in FIG. 3, when the header 1 and the tank 2 are coupled to each other, the gasket 3 seated on the insertion portion 1a is often detached and rides on the top of the insertion portion 1a. Is generated. When the header 1 and the tank 2 are coupled in a state in which the gasket 3 is separated from the gasket 3, the airtightness may be degraded and leakage of the coolant may occur, thereby degrading the cooling performance of the automobile engine.

Due to the above problems, the situation is required to develop a radiator structure that can prevent the separation of the gasket and maintain the airtightness of the header and tank when assembling the tank to the header.

The present invention has been made in order to solve the above problems, an object of the present invention, to form a projection jaw in the insertion portion of the header for the radiator, to form a projection groove corresponding to the projection jaw in the tank coupling the header and the tank To provide a radiator to prevent the departure of the gasket seated in the insertion portion.

The radiator of the present invention includes a header 10 in which an insertion portion 11 is formed along a circumference, and a tank 20 in which a coupling portion 21 protrudes along a circumference of an open surface corresponding to the insertion portion 11. And a gasket 30 fitted between the insertion part 11 of the header 10 and the coupling part 21 of the tank 20, and a header tank provided side by side with a predetermined distance therebetween ( 100); A plurality of tubes 200 fixed at both ends to the header tank to form a heat exchange medium flow path; A pin 300 interposed between the tubes 200; Radiator (R) comprising a, the header 10 is a projection jaw (12) formed on the side of the insertion portion (11); The tank 20 is formed on the inner surface of the coupling portion 21, the projection groove 22 corresponding to the projection jaw (12); And a control unit.

In addition, the protrusion jaw 12 is formed in a plurality at regular intervals along the circumference of the insertion portion 11, the protrusion groove 22 is corresponding to the protrusion jaw 12 of the coupling portion 21 It is characterized in that a plurality is formed along the circumference.

In addition, the insertion portion 11 has an inner vertical portion 11a and a bottom portion 11b extending in an “U” shape with an upper side opened around the header 10 to accommodate the gasket 30. And an outer vertical portion 11c, and the protrusion jaw 12 protrudes from the inner vertical portion 11a toward the outer vertical portion 11c and is higher than the height of the gasket 30. Characterized in that formed.

Radiator of the present invention by the configuration as described above to prevent the leakage of the coolant by preventing the separation of the gasket that may occur when the header and the tank coupling, it is possible to manufacture without significant modification of the existing header and tank mold header and tank This can reduce the cost increase caused by the design change.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.

Figure 4 is a perspective view of the radiator of the present invention, Figure 5 is a partial exploded perspective view of the header tank of the present invention. Figure 6 is a partially exploded perspective view showing a coupling state of the header and the gasket of the present invention, Figure 7 is an internal perspective view of Figure 6, Figure 8 is a partial perspective view of the header tank coupling structure of the present invention. 9 is a partial cross-sectional view of the coupling state of the gasket and the header of the present invention, Figure 10 is a partial cross-sectional view of the header tank coupling structure of the present invention. 11 is a side view of the header protrusion of the present invention, Figure 12 is a header plan view of the present invention.

Referring to Figure 4, the radiator (R) of the present invention is a header tank 100 is provided side by side with a predetermined distance apart, a plurality of tubes fixed to both ends in the header tank 100 to form a heat exchange medium flow path And a pin 300 interposed between the tube 200 and the tube 200.

The header tank 100 may include a header 10, a tank 20, and a gasket 30.

5 to 10, the header 10 may have a plurality of tube insertion holes 10a into which the tubes are inserted. Insertion portion 11 may be formed along the circumference of the header 10. The insertion part 11 has an inner vertical portion 11a extending from the periphery of the header 10 to the lower end and a bottom portion extending outward from the header 10 from the lower end of the inner vertical portion 11a ( 11b) and an outer vertical portion 11c formed upward from an outer end of the bottom portion 11b. The upper end of the outer vertical portion (11c) is bent close to the upper surface of the coupling portion 21 of the tank 20 to be described later is formed bending portion 11d for coupling the header 10 and the tank 20 Can be.

At this time, the inner vertical portion (11a) may be provided with a protruding jaw 12 protruding toward the outer vertical portion (11c) at the top. The protruding jaw 12 may be formed through a pressing process of processing the header 10. Since the protruding jaw 12 is formed by a press process, it may be formed in an embossment shape. That is, as the protruding jaw 12 protrudes to the inside of the header 10, the outer surface of the header 10 may be formed in a concave groove. As the inner surface of the header 10 protrudes from the inner vertical portion 11a toward the outer vertical portion 11c, the outer surface of the inner vertical portion 11a is the protruding jaw 12 of the insertion portion. The gasket 30 fitted to the inner surface of the 11 is provided to prevent the gasket 30 from being separated during the coupling of the header 10 and the tank 20. The protruding jaw 12 may be continuously formed at predetermined intervals along the circumference of the inner vertical portion 11a.

As shown in FIGS. 11 and 12, when the protrusion jaw 12 is formed too far, the gasket 30 is prevented from falling off, and when the gap is too close, it is difficult to insert the gasket 30. The interval can be adjusted according to the intention of the skilled person. At this time, the interval (S) is defined as both sides of the adjacent protruding jaw (12).

The protruding jaw 12 may have any shape as long as it protrudes to prevent the gasket 30 from being separated. The lower end of the protruding jaw 12 may be formed at an upper end than the height of the gasket 30.

In addition, when the bottom thickness T of the protruding jaw 12 is formed too thick, the work process of fitting the gasket 30 becomes difficult, and when the bottom thickness is too thin, the separation prevention efficiency decreases, so the bottom thickness T is reduced. Can be adjusted according to the intention of the skilled person. At this time, the bottom thickness T is defined as the shortest distance from the bottom end of the protruding jaw 12 to the inner vertical portion 11a.

In addition, if the left and right width of the protruding jaw 12 is too wide, the work process for fitting the gasket 30 becomes difficult, and if the left and right width are too narrow, the separation prevention efficiency is lowered, so the left and right width W are intended by those skilled in the art. Can be adjusted by At this time, the left and right width (W) is defined as the shortest distance on both sides of the protruding jaw (12).

5 to 10, the tank 20 is coupled to the header 10 so that a space is formed in the longitudinal direction so that a communication path through which cooling water flows is formed so that one surface is opened. The tank 20 is provided with a coupling portion 21 extending along the outer circumference of the open surface to be fitted with the header 10. As shown in FIG. 7, a protruding groove 22 corresponding to the protruding jaw 12 of the header 10 may be formed on the inner circumferential surface of the coupling portion 21. This is to allow the protrusion jaw 12 and the protrusion groove 22 to be engaged with each other when the header 10 and the tank 20 are coupled to each other. The protruding groove 22 may be concave outward from the inner circumferential surface on which the coupling portion 21 is formed. The shape and number of the protruding grooves 22 may coincide with the protruding jaw 12. However, the width or thickness of the protruding groove 22 may be slightly larger than that of the protruding jaw 12 in order to smoothly couple the protruding jaw 12 and the protruding groove 22.

Referring to FIG. 4, the gasket 30 may have a cylindrical shape made of resin. The gasket 30 is a conventionally known technique is used, the detailed description of the shape or configuration thereof will be omitted.

Hereinafter, the operation of the present invention configured as described above will be described with reference to the drawings.

5 to 8, the gasket 30 for improving the sealing property is inserted and seated in the insertion part 11 of the header 10. However, when the seated gasket 30 is assembled with the header 10 and the tank 20, the gasket 30 may not be brought into close contact with the inner surface of the inserting part 11 by pressure or shock, and may be separated.

In order to prevent this, in the present invention, by forming a protruding jaw 12 at the upper end of the inner vertical portion 11a of the insertion portion 11, the gasket 30 when the gasket 30 is seated on the insertion portion 11 The upper end of the protruding jaw 12 is forced to be secured by being fixed to prevent the departure of the gasket 30 by the external force.

The gasket 30 is seated on the insertion part 11 of the header 10, and then the pressure of the coupling part 21 of the tank 20 is directed toward the insertion part 11 on which the gasket 30 is seated. After applying close contact, the bending coupling portion 11d of the hair 10 may be bent upward of the coupling portion 21 to firmly couple the header 10 and the tank 20. At this time, in order to prevent the play that may occur after the coupling due to the projection jaw 12, the engaging portion 21 of the tank 20 may be formed with a projection groove 22 on the surface in contact with the projection jaw (12). .

Since the protruding jaw 12 may be formed during the press working of the header 10, the protruding jaw 12 may be manufactured with only a slight deformation in the mold of the existing header 10, thereby preventing the gasket 30 from being separated at a low cost. It can work.

The terms or words used in this specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors may appropriately define the concept of terms in order to best explain their invention in the best way possible. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention based on the principle that the present invention. Therefore, the embodiments described in the present specification and the configuration shown in the drawings are only the most preferred embodiments of the present invention, and do not satisfy all of the technical idea of the present invention, and various equivalents may be substituted for them at the time of the present application. It should be understood that there may be water and variations.

1 is a perspective view of a conventional radiator

2 is a cross-sectional view of a conventional header tank

3 is a cross-sectional view of a header tank in which a conventional gasket is separated

4 is a perspective view of a radiator of the present invention

5 is an exploded perspective view of a header tank of the present invention

Figure 6 is a partially exploded perspective view showing a coupling state of the header and the gasket of the present invention

7 is an internal perspective view of FIG.

Figure 8 is a partial perspective view of the header tank coupling structure of the present invention

9 is a partial cross-sectional view of the coupling state of the gasket and header of the present invention;

10 is a partial cross-sectional view of the header tank coupling structure of the present invention.

Figure 11 is a side view of the header protrusion of the present invention

12 is a header plan view of the present invention.

<Description of the symbols for the main parts of the drawings>

R: Radiator

100: header tank 200: tube

300: pin

10: header 11: insertion portion

11a: inside vertical portion 11b: bottom portion

11c: outer vertical portion 12: protruding jaw

20 tank 21 coupling part

22: protrusion groove

30: Gasket

Claims (3)

A header 10 in which an insertion portion 11 is formed along a circumference, a tank 20 in which a coupling portion 21 protrudes along a circumference of an opening corresponding to the insertion portion 11, and the header ( A header tank 100 including a gasket 30 fitted between the insertion part 11 of the 10 and the coupling part 21 of the tank 20 and spaced apart from each other by a predetermined distance; A plurality of tubes 200 fixed at both ends to the header tank to form a heat exchange medium flow path; A pin 300 interposed between the tubes 200; In the radiator R comprising a, The header 10 is a projection jaw (12) formed on the side of the insertion portion (11); The tank 20 is formed on the inner surface of the coupling portion 21, the projection groove 22 corresponding to the projection jaw (12); Radiator comprising a. The method of claim 1, The projection jaw 12 is formed in a plurality at regular intervals along the circumference of the insertion portion 11, Radiator, characterized in that the plurality of protrusion grooves 22 are formed along the circumference of the coupling portion (21) corresponding to the protrusion jaw (12). The method of claim 1, The insertion portion 11 includes an inner vertical portion 11a, a bottom portion 11b extending in an “U” shape having an upper side opened around the header 10 so that the gasket 30 can be accommodated, and Including the outer vertical portion (11c), the protruding jaw 12 is formed to protrude toward the outer vertical portion (11c) from the inner vertical portion (11a), formed on the upper side than the height of the gasket (30) Radiator characterized in that the.

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