KR200376365Y1 - Radiator - Google Patents

Abstract

The present invention relates to an improved design of a radiator provided with a heat dissipation tube between the stands, and more specifically, a plurality of heat dissipation pipes formed with a plurality of heat dissipation fins at predetermined intervals are installed between a pair of stands having a plurality of support holes, In a known heat sink in which all the heat pipes are connected in a zigzag manner by connecting the ends of the heat pipes protruding out of the stand by using a curved connection formed to bend in a semicircular shape,

After cutting the outer surface of the pipe 10b in a spiral manner, the cut portion is raised in a direction perpendicular to the pipe 10b to zigzag the heat pipe 10 in which the heat radiation fins 10a integral with the pipe 10b are formed. It is formed to be integrally bent to be installed between the pair of stands 30 formed with a plurality of support holes 30a, thereby improving the heat generating performance and productivity of the radiator.

Description

Radiator

The present invention relates to an improved design of a radiator provided with a heat dissipation tube between stands, and more specifically, a heat dissipation fin is also formed at a curved connection portion of a heat dissipation tube that is bent from the outside of the stand to improve heat transfer and thermal efficiency of the radiator. Relates to a radiator.

A radiator is a type of heating device, commonly called a radiator, in which a plurality of heat radiating fins made of thin metal plates are attached to the outer circumferential surface of the pipe at regular intervals so that the heat of hot water passing through the heat radiating tube is released into the atmosphere through the radiating fins. It is.

Such a radiator is manufactured in various forms, the most common of which is to install the radiator tube in a zigzag connection between a pair of stands.

However, the general heat dissipation tube has a problem in that it is difficult to bend the heat dissipation tube because the heat dissipation fin is attached to the outer circumferential surface of the pipe by welding or pressing.

Therefore, in order to zigzag the heat dissipation tubes between the pair of stands, the end of the heat dissipation tube exposed to the outside of the stand after installing a plurality of heat dissipation tubes in the form of straight pipe between the pair of stands which have formed a plurality of support holes. By welding the curved connecting portion formed in a semi-circular shape, all the heat pipes are connected in a zigzag, so the welding work of the curved connecting portion requires a lot of time and labor, and the productivity is low.

In addition, the curved connection portion connecting the heat dissipation tube from the outside of the stand does not form a heat dissipation fin, so that the heat dissipation property of the curved connection portion is greatly reduced, and thus the performance of the heat dissipator is deteriorated.

An object of the present invention is to improve the heat dissipation performance of the heat dissipator as well as to improve the productivity of the heat dissipator to solve the conventional problems as described above.

In order to achieve the above object of the present invention, the present invention is to form a curved connection only by bending the heat dissipation tube without welding work, and to form a heat dissipation fin in the curved connection part to improve the performance of the radiator. The explanation is as follows.

Install a plurality of heat dissipation tubes formed with a plurality of heat dissipation fins at predetermined intervals between a pair of stands in which a plurality of support holes are formed, and connect the ends of the heat dissipation tubes protruding outward from the stand using a curved connection portion bent in a semicircular shape to radiate all heat In the known radiator, in which the tube is zigzag connected,

After cutting the outer surface of the pipe 10b in a spiral manner, the cut portion is raised in a direction perpendicular to the pipe 10b to zigzag the heat pipe 10 in which the heat radiation fins 10a integral with the pipe 10b are formed. It is a structure provided between the pair of stands 30 in which it integrally formed in the shape of a bend, and formed the several support hole 30a.

Unexplained symbol '40' represents 'connector'.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Accompanying drawings Figure 1 shows the most preferred embodiment of the present invention, as shown in the drawing, the heat dissipation tube 10 is to be installed to zigzag connection between a pair of stand 30 is installed symmetrically.

At this time, as shown in the figure, a plurality of heat dissipation fins 10a are also formed at a predetermined interval in the curved connection portion 20 of the heat dissipation tube 10 formed at the outside of the stand 30.

That is, the heat dissipation tube 10 of the present invention, as shown in Figure 3 attached to the pipe (10b) after cutting the outer surface of the pipe in a spiral direction to the pipe (10b) perpendicular to the direction of the pipe ( Since the heat dissipation fins 10a are integrally formed with the 10b, the heat dissipation fins 10a are not separated from the pipe 10b even when the heat dissipation tube 10 having the heat dissipation fins 10a is bent.

Accordingly, as shown in the drawing, the heat dissipation tube 10 having the heat dissipation fins 10a formed therein is zigzag, and then the heat dissipation tube 10 is installed in the support hole 30a formed in the stand 30, thereby being located outside the stand 30. Cooling fins are also formed in the curved connection portion 20 to improve heat generation performance using the heat dissipation tube 10.

In addition, in forming the curved connecting portion 20, since the heat radiation tube 10 formed to have a predetermined length without any welding operation is only required to be bent in a zigzag, the welding operation due to the formation of the connection portion is excluded during the manufacture of the heat radiation tube 10. This can greatly improve productivity.

As described above, the present invention not only improves heat dissipation by forming heat dissipation fins at the curved joints in which the heat dissipation tube of the heat dissipator is bent, but also improves productivity by making the heat dissipation tube easy without welding. There is.

1 is a front view of the present invention

2 is a side view of the present invention

3 is an enlarged view of a heat pipe part of the present invention

4 is a front view illustrating a conventional general radiator.

<Description of Symbols for Main Parts of Drawings>

10: heat radiating tube 10a: heat radiating fin

10b: pipe 20: curved connection

30: stand 30a: support worker

40 connector

Claims (1)

Install a plurality of heat dissipation tubes formed with a plurality of heat dissipation fins at predetermined intervals between a pair of stands in which a plurality of support holes are formed, and connect the ends of the heat dissipation tubes protruding outward from the stand using a curved connection portion bent in a semicircular shape to radiate all heat In the known radiator, in which the tube is zigzag connected, After cutting the outer surface of the pipe 10b in a spiral manner, the cut portion is raised in a direction perpendicular to the pipe 10b to zigzag the heat pipe 10 in which the heat radiation fins 10a integral with the pipe 10b are formed. Radiator formed integrally to be bent by a pair, and installed between a pair of stands 30 in which a plurality of support holes 30a are formed.