KR101130845B1 - Protector of the heat exchanger - Google Patents

Abstract

The present invention relates to a heat exchanger protector for the heat dissipation tube and the heat dissipation fins are installed on the outer side of the curved heat exchanger is formed so that the heat dissipation tube and the heat dissipation fins can be protected from external impact. The present invention is a heat exchange tube and the heat dissipation fin installed between the header and the heat exchanger protector is installed so as to protect from external impact, is formed in the form of a long rod having a predetermined thickness long outer heat dissipation fin between the header It is installed on the outside, but the heat dissipation tube and the heat dissipation fin are curved in accordance with the curved shape so that the curved shape is formed on the rod-shaped material at a certain interval on the structure of the 'V' shaped groove is formed.

Description

Protector of the heat exchanger

The present invention relates to a heat exchanger protector, and more particularly, a heat exchanger protector for heat exchanger tube and heat dissipation fins are installed on the outer side of the heat exchanger formed in a curved deflection so that the heat dissipation tube and the heat dissipation fin can be protected from external impact. It is about.

Devices such as an air conditioner, a refrigerator, and an automobile air conditioner are configured to include a heat exchanger, and a general heat exchanger is configured to include components such as a header, a heat dissipation tube, and a heat dissipation fin.

1 is a view for explaining the structure of a conventional general heat exchanger. As shown in FIG. 1, the headers 12 of the heat exchanger 10 are installed to face each other at predetermined intervals on both sides in a vertical direction or a left and right direction, and the headers 12 located on both sides face each other. On the surface, the ends of the heat dissipation tube 14 are connected at regular intervals, while the heat dissipation fins 16 are arranged between the heat dissipation tube 14 and the heat dissipation tube 14 in a thin metal array in a zigzag form. In addition, in order to ensure that the heat dissipation tube 14 and the heat dissipation fin 16 installed between the header 12 and the header 12 on both sides can be protected by external impact, a guard ( 20) is installed.

The components such as the header 12, the heat dissipation tube 14, the heat dissipation fin 16, and the guard 20 of the heat exchanger 10 described above are made of a metal such as aluminum or copper having excellent thermal conductivity and excellent corrosion resistance. It is common.

On the other hand, the heat exchanger 10 configured as described above is configured in a form refracted in a predetermined angle curve as shown in Figure 2 in accordance with various conditions such as heat dissipation capacity, heat dissipation space, heat dissipation performance or the installation position of the peripheral parts This may be done.

However, as described above, when the middle portion of the heat exchanger is formed in a structure that is refracted in a predetermined angle curve, the guard must also be formed to be bent in accordance with the curved shape of the heat dissipation tube and the heat dissipation fin. As it is formed in a corrugated form, not only the appearance is not good, but also there is a problem that the refractive portion becomes vulnerable to external impact.

Therefore, the present invention has been made in order to solve the problems of the prior art as described above, the heat dissipation tube and the heat dissipation fin is installed on the outer side of the heat exchanger is curved curved bent so that the heat dissipation tube and the heat dissipation fin from the external impact It is an object to provide a guard for a heat exchanger that allows it to be protected.

Another object of the present invention is to provide a guard for a heat exchanger that can be easily bent in accordance with the type of refraction of the heat dissipation tube and the heat dissipation fin.

The present invention is configured to achieve the object as described above is as follows.

The present invention is a heat exchange tube and the heat dissipation fin installed between the header and the heat exchanger protector is installed so as to protect from external impact, is formed in the form of a long rod having a predetermined thickness long outer heat dissipation fin between the header It is installed on the outside, but the heat dissipation tube and the heat dissipation fin are curved in accordance with the curved shape so that the curved shape is formed on the rod-shaped material at a certain interval on the structure of the 'V' shaped groove is formed.

In the inner vertex portion of the deflection groove in the heat exchanger protector according to the present invention, an arc-shaped refraction center is formed.

On both ends of the rod-shaped material in contact with the header in the guard for a heat exchanger according to the present invention is further formed an arc-shaped coupling portion having a radius corresponding to the outer diameter of the header.

On one side of the position spaced apart from the coupling portion in the protector for a heat exchanger according to the present invention, a support piece in contact with the end of the heat radiation fin is further protruded.

Reinforcing ribs are formed over a predetermined section of the support piece in the protector for a heat exchanger according to the present invention.

According to the guard for the heat exchanger according to the present invention there is an effect that can be naturally bent without wrinkles in accordance with the curved shape of the heat dissipation tube and the heat radiation fin bent in a curved shape.

In addition, according to the guard for the heat exchanger according to the present invention the end portion to be joined to the header is not only formed in the shape of an arc corresponding to the outer circumference of the header, but also has the advantage that a more stable installation is possible by forming a support piece to contact the end of the heat dissipation fin There is this.

1 and 2 are views for explaining a conventional heat exchanger structure.
3 is a perspective view of a protector for a heat exchanger according to an embodiment of the present invention.
4 is a plan view of a guard for a heat exchanger according to an embodiment of the present invention.
5 is a perspective view of a heat exchanger provided with a guard according to an embodiment of the present invention.

Hereinafter will be described in more detail with reference to the accompanying drawings with respect to the configuration and operation of the guard for the heat exchanger according to an embodiment of the present invention.

Numeral 100 denotes a heat exchanger, and reference numeral 200 denotes a guard for a heat exchanger according to an embodiment of the present invention.

Heat exchanger protector 200 according to an embodiment of the present invention is installed on the outside of the heat dissipation unit consisting of the heat dissipation tube 120 and the heat dissipation fin 130 between the header 110 of the heat exchanger 100 is the heat dissipation tube 120 ) And the heat dissipation fins 130 are to be protected from external impact.

In particular, the heat exchanger protector 200 according to the embodiment of the present invention is configured so that the heat dissipation unit consisting of the heat dissipation tube 120 and the heat dissipation fin 130 can be applied to the heat exchanger 100 bent in a curved shape.

The header 110 of the heat exchanger 100 described above is installed in pairs at predetermined intervals in the vertical direction or the left and right directions. A plurality of heat dissipation tubes 120 are installed at a predetermined interval between the header 110 and the header 110 of the heat exchanger 100, and a zigzag heat dissipation fin between the heat dissipation tube 120 and the heat dissipation tube 120. 130 is installed.

In particular, the heat exchanger 100 according to the embodiment of the present invention has a shape in which the heat dissipation unit consisting of the heat dissipation tube 120 and the heat dissipation fin 130 is refracted in a predetermined angle curve as shown in the drawing.

Heat exchanger guard 200 according to an embodiment of the present invention is formed in the shape of a long rod having a predetermined thickness, the heat dissipation unit consisting of the heat dissipation tube 120 and the heat dissipation fin 130 of the heat exchanger 100 Installed on the outskirts of the That is, among the heat dissipation tube 120 and the heat dissipation fins 130 installed between the header 110 and the header 110, the heat dissipation tube 120 or the heat dissipation fin 130 is disposed outside.

In particular, the heat exchanger protector 200 according to an embodiment of the present invention is a rod so that the heat dissipation unit consisting of the heat dissipation tube 120 and the heat dissipation fin 130 can be easily refracted in a curved shape in accordance with the curved shape. Refractive grooves 220 of the 'V' shape are formed on the material of the form at regular intervals. In the heat exchanger protector 200 according to an embodiment of the present invention, the angle of the deflection groove 220 is formed within a range of 30 ° to 90 °.

In addition, an arc-shaped refractive center 222 is formed at the inner vertex portion of the aforementioned refractive groove 220. In the heat exchanger guard 200 according to the embodiment of the present invention, the diameter of the refractive center 222 is formed within a range of 2 to 3 mm.

The above-described refractive groove 220 and the refractive center 222 are formed through a process in which the rod-shaped material of the guard 200 is pressed, and the refractive center 222 is located at a position about halfway in the width direction of the rod-shaped material. It is positioned and is formed in a structure in which the refractive groove 220 is open in either direction.

The guard 200 is preferably formed of an aluminum material having excellent thermal conductivity and corrosion resistance as well as excellent workability.

On the other hand, in both ends of the rod-shaped material in contact with the header 110 in the heat exchanger guard 200 according to an embodiment of the present invention arc-shaped coupling portion 230 having a radius corresponding to the outer diameter of the header 110 is Is formed.

A cover 210 is formed between the coupling part 230 and the coupling part 230 positioned at both ends of the guard 200, and the cover part 210 and the coupling part 230 are inclined part 240. ) Is formed to have a mutual height difference.

As described above, the coupling portion 230 formed in the shape of an arc is integrated with the header 110 by a welding process such as brazing in a state in which the coupling portion 230 is stably connected to the corresponding position of the header 110.

And the support piece 250 which the end of the heat dissipation fin 130 abuts on one side of the position separated from the above-mentioned coupling part 230 is formed to protrude. The support piece 250 is made of a structure that is refracted after a portion of the rod-shaped material is cut through a process in which the rod-shaped material is punched with a punch when the protector 100 is manufactured.

Reinforcing ribs 260 are formed over a predetermined section inside the support piece 250 in the guard of the heat exchanger according to the embodiment of the present invention. The reinforcing rib 260 is press-formed to the rod-shaped material of the guard 200 to form a convex protruding shape on the other side, while the other is made of a concave recessed shape.

The guard 200 configured as described above is formed to a length corresponding to the interval between the header 110, the rod in accordance with the direction in which the heat dissipation tube 120 and the heat dissipation fin 130 of the heat exchanger 100 is refracted. Refraction groove 220 is formed in the material of the form.

And the guard 200 according to the embodiment of the present invention may be mounted in a state in which the heat dissipation tube 120 and the heat dissipation fin 130 are first integrated with the header 110 by brazing welding, the heat dissipation tube 120 And it may be integrated with the header 110 through the brazing welding in the state that is mounted with the heat dissipation fin 130.

In addition, the guard 200 according to the embodiment of the present invention, although the heat radiation tube 120 and the heat dissipation fin 130 of the heat exchanger 100 may be mounted in a state where the first refraction was formed in a curved shape, the heat dissipation tube In a state in which the heat dissipation unit including the 120 and the heat dissipation fin 130 is first mounted, the heat dissipation unit may be refracted in a curved shape together with the heat dissipation unit.

The present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the technical idea of the present invention.

100. Heat Exchanger 110. Header
120. Heat dissipation tube 130. Heat dissipation fins
200. Guard 210. Cover
220. Refractive groove 222. Refractive center
230. Coupling part 250. Support piece

Claims (5)

The heat dissipation tube and the heat dissipation fin installed between the header and the header are installed to be protected from external impact, while being formed in a long rod shape having a predetermined thickness and installed outside the outermost heat dissipation fin between the header and the heat dissipation. In the heat exchanger guard for forming a 'V' shaped refraction groove at regular intervals on the rod-shaped material so that the tube and the heat dissipation fin can be curved in accordance with the curved bend,
An arc-shaped refraction center is formed at an inner vertex portion of the refraction groove, and an arc-shaped coupling portion having a radius corresponding to the outer diameter of the header is formed on both ends of a rod-shaped material contacting the header. On one side of the position spaced apart from the support piece is in contact with the end of the heat dissipation fin is formed protruding, the inner side of the support piece for the heat exchanger, characterized in that a reinforcing rib is formed over a certain section. delete delete delete delete

Images