KR101564338B1 - heat exchanger - Google Patents

Abstract

The present invention relates to a heat exchanger having a structure for joining a header tank having a high pressure resistance, more particularly, to a header having a plurality of tabs protruding along left and right edges of the header and extending from left and right ends of the tank, The tabs are inserted into the tap holes, and the header and the tank are coupled to each other. Further, the left and right sides of the header are connected to the hooks of the ends of the bent portions by the bent portions, The present invention relates to a heat exchanger having a coupling structure of a header and a header which are supported by being wrapped by a tube.

Heat Exchanger, Header, Tank, Pressure, Tap, Clamping, Hook

Description

Heat Exchanger

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heat exchanger having a structure of a header tank having a high pressure resistance, and more particularly, to a heat exchanger having a header tank coupling structure capable of basically blocking refrigerant leakage by increasing binding force between a header and a tank.

1 is a perspective view showing a general heat exchanger.

As shown in FIG. 1, a plurality of tubes 40 through which cooling water flows are provided with radiating fins 50 for improving the heat exchange efficiency. The radiating fins 50 are provided with a support (60). Both ends of the tube 40 and the support 70 are inserted into the tube insertion hole 21 of the header 20 and are fastened together. The header 30 is coupled with the tank 30, A communication path is formed along the direction.

2, the header 20 and the tank 30 are formed by inserting a sealing member 70 into the coupling portion 22 of the header 20 and the tank 30, So that the sealing member 70 is compressed and the tabs 23 formed at both ends of the header 20 protrude upward from the coupling protrusions 31 of the tank 30, An external force is applied to the tabs 23 of the header 20 in a horizontal direction to clamp the coupling protrusions 31 of the tank 30 so as to surround them.

On the other hand, in the refrigerant flow of the heat exchanger, the refrigerant pressure must be repeatedly applied to the header tank, and in particular, a high pressure is temporarily applied to the header tank, which affects the coupling of the header tank. Only the tab 23 surrounding the coupling protrusion 31 of the header joins the header tank against the pressure. If the tab 23 can not withstand the pressure, the coupling of the header tank is completely maintained And the risk of internal refrigerant leaks increases.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide a method of improving the fixation structure of the tab, So that the tank and the header are mutually fixed by adding the coupling means to the header, thereby improving the coupling force of the header tank.

The heat exchanger according to the present invention comprises

A plurality of tubes arranged in parallel at regular intervals in parallel with the air blowing direction; A fin interposed between the tubes and increasing the heat transfer area with air flowing between the tubes; A plurality of tube insertion holes into which the ends of the tubes are coupled, the tubes having a seating portion formed on both sides along the longitudinal direction; And a header tank that is formed of a tank that is coupled to the header and forms a flow path of a heat exchange medium therein, wherein the header has a plurality of tabs protruded along left and right edges of the left and right ends, Wherein the bent portion extending from both ends toward the header is provided with a plurality of tab holes, the tabs are inserted into the tab holes, and the header and the tank are coupled to each other.

Here, the bending portion closely contacts the header at left and right sides, and the header and the tank are coupled to each other.

Wherein an upper portion of the tab inserted into the tapped hole is clamped toward the tank so that the header and the tank are coupled to each other.

A hook is formed at an end of the bent part, and the hook covers the header from below, and the header and the tank are coupled.

In this case, the header and the tank are coupled to each other by a latching protrusion and a latching groove which are formed as a pair in the hook portion of the tank or the header.

According to the present invention, the pressure resistance of the combination of the header and the tank is greatly increased. Since the tabs of the heads are coupled to the tap holes provided in the tanks other than the outer side of the tank, the possibility that the tabs completely move leftward and rightward and separated from the tank is low even if the tabs are opened by the pressure of the refrigerant. In addition, since the bent portion extended from the tank is fixed at the left and right sides and the hook portion catches the header again at the lower side, the coupling is more firmly prevented from being released due to the pressure, do.

Hereinafter, the heat exchanger of the present invention having the above-described characteristics will be described in detail with reference to the accompanying drawings.

Figures 4a and 4b are perspective views of the header tank of the heat exchanger before and after clamping, and Figure 5 is a perspective view of the header / tank of the present invention. FIG. 6 is a cross-sectional view taken along the line A-A 'of FIG. 4A, and FIG. 7 is a cross-sectional view taken along the line B-B' of FIG. 4A. 8 is a cross-sectional view of another embodiment of the header / tank of the present invention.

4, the heat exchanger of the present invention is inserted into a tap hole 310 of a tank 300 in which a tab 230 of a header 200 located at the upper portion is located, and then the protruded tab 230 is inserted into a tank 300, and the tank 300 is fixed to the header 200. 4 shows a state in which the tab 230 is clamped toward the center of the tank 300. This is to reduce the possibility that the end of the tab 230 may interfere with the outside, 300 may be clamped in any direction. A tab 230 is clamped at a predetermined distance from the outside of the tank 300. A blocking wall is formed in a space where the tab 230 is not seated so that the tab 230 is seated at an accurate position when clamping the tab 230. [ Further, the clamped tabs 230 are prevented from moving left and right without interference with each other.

Referring to FIG. 5, the header 200 and the tank 300 will be described in more detail. As shown in the figure, the header 200 has a plurality of tube insertion holes 210 in which tubes are inserted, A seating part 220 is formed along the left and right ends of the seating part 220. A plurality of tabs 230 protrude from the seating part 220 at predetermined intervals. 5, the tabs 230 are formed at the same positions corresponding to the right and left sides of the head 230 at predetermined intervals. However, the tabs 230 are alternately staggered to the left and right of the head, The pressure applied to the header tank 300 after the coupling with the tank 300 is alternately and evenly distributed to the tabs 230 formed on the left and right sides of the entire length of the header 200, .

The tank 300 is coupled with the header 200 and has a space formed therein in the longitudinal direction so as to form a communication path through which the cooling water flows. Bending parts 320 extending from both ends of the header 200 are formed on the left and right sides of the header 200. The bending parts 320 are bent downward toward the header 200. [ The bending part 320 is formed with a tab hole 310 into which the tab 230 of the header 200 is inserted and a hook part 330 bent at an end thereof toward the inside.

The shape of the bent portion 320 is formed corresponding to the shape of the seating portion 220 of the header 200 and the tab 230 formed at the end of the header 200. The method of combining the header 200 and the tank 300 Will be described later.

6 and 7, a method of assembling the header 200 and the tank 300 will be described. 6 shows a coupling sectional view of a portion where the tapped hole 310 is formed. First, the tab 230 of the head enters the hollow space inside the hooked portion 330 and the bent portion 320 of the tank 300, Is inserted into the tapped hole (310) formed in the base plate (320). At the same time, the left and right seating grooves of the header 200 move along the tabs 230 and are slidably fitted in the empty spaces and are wrapped and assembled by the bent portions 320 and the hook portions 330. Although the material of the tank 300 is not limited, generally, the tank 300 is injection-molded by plastic, so that the tank 300 has elasticity enough to create the clearance required for the assembly, and the assembly is smoothly performed.

The left and right ends of the head where the tab 230 is not formed are inserted and assembled into the hollow space inside the bent portion 320 and the hook portion 330 only at the seating portion 220 as shown in FIG. At this time, the end of the seating part 220 may be in line with the upper space of the inner space of the bending part 320, but a groove may be formed on the upper surface of the inner space of the bending part 320 to increase the binding force. It is preferable to fit the end of the seating part 220 where the tab 230 is not formed in the groove.

In the case where the tab 230 and the tab hole 310 are not provided, it is also possible to assemble only the shape of the bent portion 320 and the hook portion 330. In this case, the end of the mounting groove and the front end of the bent portion 320 are fitted to each other, but only the head is gripped by the hook portion 330.

The bending part 320 extends from left and right ends of the tank 300. The length of the bending part 320 extends in the left and right directions. The length of the bending part 320 is set such that the front end part of the bending part 320 is fitted into the seating groove, The bending portion 320 is bent downward toward the header 200. The bending portion 320 is bent downward toward the header 200, The tanker has bent portions 320 bent in a curved shape so that the head is once again tightly wrapped around the left and right sides by the bent portion 320 which bends and extends downward.

Further, the header 200 is wrapped and supported by the hook portion 330 from below. The hook portion 330 supports the seating groove of the header 200 on the left and right sides of the header 200 so as to surround only a part of the seating groove so that both ends of the header 200 can be inserted and assembled Only to the formed part) is sufficient.

8 is a sectional view of a header 200 / tank 300 according to another embodiment of the present invention in which a latching protrusion 340 and a latching groove 240 are added. As shown in FIG. 8, 330 and the locking protrusions 340 are formed in the protrusions 340 and the locking recesses 240 are formed in the header 200 corresponding to the locking protrusions 340 when the locking protrusions 340 are assembled. The locking protrusions 340 and the locking grooves 240 may be integrally formed long along the longitudinal direction of the header tank or may be formed by dividing the individual locking protrusions 340 and the locking grooves 240 at necessary longitudinal direction points. It is of course possible to form the hooks 330 in a pair in contrary to that of FIG. 8 but to form the latching grooves 240 and to form the latching protrusions 340 in the corresponding headers 200.

The reason why the present invention is distinguished from the prior art and the pressure resistance of the coupling is increased is as follows. First, the tab 230 protruding from the head is not bent on the outer surface of the tank 300, The tab 230 can not be completely removed from the tab hole 310 even if the diaphragm tab 230 can not withstand the pressure and the tab 230 can not be fully released from the tab hole 310. Therefore, The possibility of the release of the coupling is lowered.

The bending portion 320 is bent in the direction of the header 200 and the bending portion 320 extending downwardly is in close contact with the seating groove which is fitted in the inner hollow space of the bending portion 320, So that the tank 300 is assembled firmly without a clearance to the right and left, so that the bonding force is increased.

Thirdly, in addition to holding the tank 300 using the tab 230, the header 300 may also be used to reattach the header 200 using the hook 330 formed at the end of the bend 320 Once grabbing, the binding force is increased.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It goes without saying that various modifications can be made.

1 is a perspective view showing a conventional heat exchanger;

2 is an exploded perspective view of a header tank of a conventional heat exchanger.

3 is a sectional view of the header tank engaging portion of Fig.

4A and 4B are perspective views of the header tank of the heat exchanger of the present invention before and after clamping.

Figure 5 is a perspective view of the header /

6 is a cross-sectional view along the line A-A 'in FIG. 4A;

7 is a sectional view taken along the line B-B 'in FIG. 4A.

8 is a cross-sectional view of another embodiment of the header / tank of the present invention.

DESCRIPTION OF REFERENCE NUMERALS

200: header 210: tube insertion hole

220: seat part 230: tab

240: Retaining groove

300: tank 310: tap hole

320:

330:

340:

Claims (5)

A plurality of tubes (40) arranged in parallel at regular intervals in the air blowing direction; A pin (50) interposed between the tubes (40) and increasing the heat transfer area with air flowing between the tubes (40); A header 200 having a plurality of tube insertion holes 210 to which end portions of the tubes 40 are coupled and having a seating portion 220 formed on both sides along the longitudinal direction; And a tank (300) coupled to the header (200) and forming a flow passage of the heat exchange medium therein, the header tank comprising: The header 200 includes a plurality of tabs 230 protruding from the left and right ends of the tank 300 and extending from left and right ends of the tank 300 and bent toward the header 200 The tab 230 is inserted into the tab hole 310 and the bent portion 320 closely covers the header 200 in the left and right directions, Wherein an upper portion of the tabs (230) inserted into the tank (310) is clamped toward the tank (300) to couple the header (200) and the tank (300). delete delete The method according to claim 1, A hook part 330 is formed at an end of the bent part 320 and the hook part 330 covers the header 200 from below and the header 200 and the tank 300 are coupled. . 5. The method of claim 4, The header 200 and the tank 300 are separated by the latching protrusion 340 and the latching groove 240 which are selectively formed in pairs in the hook portion 330 of the tank 300 or the header 200, Wherein the heat exchanger is coupled to the heat exchanger.

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