KR0131493Y1 - Radiator protection tube for heating - Google Patents

Abstract

The present invention relates to a heat radiator for generating heat by heat conduction through a heat medium. Particularly, a protection tube made of the same material or a material resistant to corrosion is inserted into the heat sink heat passage of the radiator, and then the protection tube is replaced again. By pulling out, the outer circumferential surface of the protective tube and the inner surface of the flow path can be maintained in close contact with each other so that the heat medium can be circulated without being in direct contact with the heat sink, and the corrosion of the heat sink by various chemicals contained in the heat medium can be prevented. On the other hand, it is related to the heat sink protection tube of the heat radiator for heating pipe parts and the heat sink made of dissimilar metal to prevent the galvanic corrosion of the heat sink to obtain a long life effect of the product.

Description

Heat sink protection tube of radiator for heating

The present invention relates to a heat radiator for generating heat by passing a heat medium (hot water, steam, heat medium flow), and more specifically, to the same material or corrosion as the surrounding piping parts inside the heat medium path provided in the heat sink of the hot water radiator. Insert the protective tube of strong material and draw the protective tube again so that the outer circumferential surface of the protective tube and the inner side of the flow path can be kept in close contact, so that the heating medium can pass through it without being in direct contact with the heat sink. It is possible to prevent corrosion of the inside of the heat sink by the heat sink, and to prevent the galvanic corrosion of the radiator made of the peripheral piping parts of the heat sink and the dissimilar metals. It is about.

In general, as shown in FIG. 3 of the accompanying drawings, the heat dissipator includes a heat dissipation plate 13 having a heat dissipation wing 13a and a heat medium passage 13b between the supply pipe and the return pipe 11 and 12 at regular intervals. In the state, the supply pipe and the return pipe 11 and 12 of the radiator are connected to the angle valve 14a, the union band 14a, and the union band 14b connected to the piping member (pipeline) 14, It has a conventional heat medium circulation system in which the heat medium generated from the boiler flows along the pipe and is discharged to the union band 14b through the angle radiator 14a through the entire radiator, that is, the heat medium is the heat medium passage of the heat sink 13. When passing through the (13b) heat is conducted to the heat dissipation wing (13a) will be a heat dissipation action. In such a radiator, when the heat sink is made of Al material, the pipe parts connected to the periphery thereof are made of Cu or other metal materials instead of Al material, so that galvanic corrosion due to dissimilar metal bonding occurs.

In addition, since the heat medium in which the chemicals are mixed in the heat medium path of the heat sink is in direct contact, the inside of the heat sink of Al is easily corroded. In addition, in the Korean Utility Model Publication No. 95-1877 (Publication No.), which is introduced to solve these problems, the copper plate is bent several times with a certain length to form several protrusions, and the copper plate on which the protrusions are formed in a circular shape. It is bent to form a heat sink, and the heat sink is inserted into the heat sink, and then fixed with a fixture having several grooves formed therein to induce the heat medium to flow into the heat sink to prevent corrosion. Since the gap is inserted inside the heat sink, the corrosion caused by the gap is generated, as well as the thermal conductivity is lowered, thereby lowering the heating efficiency.

The present invention has been made to solve the above-mentioned conventional problems, the present invention, it is possible to protect the heat sink from the chemicals (corrosion agent, antifreeze, etc.) to achieve a free fluid movement in the Al heat sink heat medium passage, It is an object of the present invention to provide a heat sink protection tube of a heating radiator that can prevent galvanic corrosion of the radiator and at the same time increase the thermal conductivity.

Characteristic technical features of the present invention for achieving this purpose, a separate protective tube inside the heat medium passage provided in the heat sink of the heating heater is provided with a heat medium path capable of inducing the flow of the heat medium and the heat dissipation wing is provided around the passage. In the insert, insert a protective tube (copper tube, steel tube, SuS tube, etc.) of the same material or corrosion resistant to the piping parts inside the heat medium passage of the heat sink, and then draw the protective tube to the outer peripheral surface of the protective tube and the inner surface of the flow path It is configured to maintain close contact.

1 is an exploded perspective view of a heat sink according to the present invention.

2 is a cross-sectional plan view of the coupling state of the heat sink according to the present invention.

3 is a front view of a general radiator for heating.

* Explanation of symbols for main parts of the drawings

11,12: supply pipe and return pipe 13: heat sink

13a: heat dissipation wing 13b: heat medium passage

14 piping member 14a: angle valve

14b: Union Band 15: Protective Tube

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

1 is an exploded perspective view showing the structure of a heat sink to which the present invention is applied. FIG. 2 is a cross-sectional view of the heat sink of FIG. 1. As shown in FIG. 11) (12) between the heat medium passage (13b) and the heat dissipation plate (13a) with a plurality of heat dissipation plate (13) is provided to form a heat medium flow line, and the supply pipe 11 is connected to the piping member (14) An angle valve 14a is provided, and a union band 14b is connected to the return pipe 12.

In such a known heat radiator structure, the heat dissipation plate 13 according to the present invention has the same material as the piping member part inside the heat medium passage 13b of the heat dissipation plate 13 as shown in FIGS. 1 and 2. After inserting the protective tube 15 is drawn to the protective tube 15 again the outer peripheral surface of the protective tube 15 and the heat medium passage (13b) is configured to be in close contact, where the protective tube 15 is a heat sink ( The heat carrier of the heat sink 13 is inserted into the heat medium passage 13b of FIG. 13 and then drawn out to the protective tube 15 so that the outer circumferential surface of the protective tube 15 and the inner surface of the heat medium passage 13b are in close contact with each other. Even if the protection tube 15 is drawn inside the passage 13b to obtain heat conduction efficiency almost the same as that of the heat radiating mechanism consisting of only the heat sink 13 as in the prior art, and the protection tube inside the heat medium passage 13b of the heat sink 13. 15 departures Claim is to.

The radiator for heating according to the present invention configured as described above can be used by connecting the pipe member 14 to the boiler as a medium in a conventional manner.

That is, the heat medium generated from the boiler (not shown in the drawing) is passed through the radiator body consisting of the supply pipe, the return pipe 11, 12 and the heat sink 13 through the angle valve 14a along the pipe member 14. Through the union band (14b) again to form a heat medium water circulation line circulated to the boiler along the piping member 14, at this time, it is to radiate heat from the radiator body.

The heat radiator according to the present invention having such a normal function has a protective tube 15 made of the same material as that of the piping member 14 inside the heat medium passage 13b of the heat sink 13, and thus is drawn. 13) is passed in a non-contact state, so that the heat sink 13 can be protected from various chemicals mixed in the heat medium, and thus the life extension effect can be obtained.

In addition, the protective tube 15 specially arranged in the heat medium passage (13b) of the heat dissipation plate 13 is made of the same material as the piping member 14 parts to prevent galvanic corrosion that may be caused by dissimilar metal bonding in the radiator. It is to provide an effect that can be done.

As described above, the present invention inserts the protective tube 15 of the same material as the piping part into the heat medium passage 13b and then draws the protective tube 15 again so that the outer circumferential surface of the protective tube 15 and the inner surface of the heat medium passage 13b are in close contact with each other. By maintaining the state to improve the thermal conductivity, it is possible to increase the heating efficiency while maintaining a safe and good adhesion state is effective to prevent the degradation of corrosion.

Claims (1)

It is arranged between the supply pipe and the return pipe (11) (12), the heat medium passage (13b) is formed to induce the flow of the heat medium, the heat radiating wing integrally with the heat medium passage (13b) around the heat medium passage (13b) In the case of inserting a separate protective tube 15 into the heat medium passage (13b) provided in the heat sink 13 of the heat radiator for heating (13a) provided, the protective tube of the same material as the piping parts inside the heat medium passage (13b). (15) and then the protective tube (15) again to draw the protective tube 15, the outer circumferential surface and the heat medium passage (13b) the inner surface of the heat sink protection tube of the heating radiator, characterized in that to maintain a close state.