KR200145311Y1 - Heat pipe - Google Patents

Abstract

The present invention relates to a heat pipe for horizontal heat transfer. When a working fluid is charged into a sealed tube and one end receives heat from the outside, the working fluid in the sealed tube is momentarily evaporated, and a pressure difference occurs and the vapor moved is evaporated. It relates to the internal structure of heat pipes and their sealing plugs, which transfer latent heat around condensed tubes and condensate, and the condensed liquid moves back to the heating zone for continuous heat transfer. Capillary phenomenon is to facilitate the heat transfer in the horizontal state.

Description

Heat Pipes for Horizontal Heat Transfer

1 is a perspective view of the present invention.

2 is a cross-sectional view before sealing of the present invention.

3 is a cross-sectional view after sealing of the present invention.

Figure 4 is an illustration of the state of use of the present invention.

* Explanation of symbols for main parts of the drawings

1: subjective 2: screen mesh

3,4 stopper 5: infusion tube

6 closed part 7 welded part

8: external plug 9: socket

The present invention relates to a heat pipe for horizontal heat transfer. More specifically, for use in agriculture, the working fluid is filled into a sealed tube, and once the heat is received from the outside, the working fluid in the sealed tube is momentarily evaporated. The pressure difference occurs and moves the vapor, which transfers the latent heat of evaporation around the closed tube and condenses, and the condensed liquid moves back to the heating site to allow for continuous heat transfer.

Since the condensate after heat dissipation is circulated only by the force of the earth's gravity, it needs to be inclined, and in case of the long length, the heat transfer efficiency is low and the production length is usually less than 2m. Has been extremely limited, and there is a drawback that it does not work well when applied to horizontal surfaces such as rice fields and fields or floors.

The present invention devised the internal shape and plug structure of heat pipes to compensate for these shortcomings and to increase the heat transport capacity of long heat pipes (length; 4m) for agricultural applications considering energy saving. It can be applied to the installation form and various uses of the screen mesh to facilitate the heat transfer even in the horizontal state by using a structure that protects the inner welding part so that there is no protruding portion outside the pipe.

The present invention for this purpose, unlike the conventional heat pipe that the heat dissipation heat dissipation to the wall surface to flow the inclined surface according to the natural phenomenon, the screen mesh (metal wire mesh) is closely adhered to the inner wall of the main pipe, General heat pipe by dissipating latent heat of evaporation and liquefied heating medium by using capillary phenomenon through this fine and dense screen mesh to move large and semi-forced regardless of earth's gravity. Compared with the screen mesh, the condensate moves quickly, so the heat transfer amount is greatly increased by increasing the amount of heat medium entering the pipe and the circulation speed of the transfer cycle, and the proper plug structure and internal shape to withstand the internal pressure increase in the pipe. And the inlet of the heat carrier has a double structure, so that the external unnecessary filling It protects the inside sealing and welding area from heat and transfers heat from heat source to superconducting heat. As a result, it uses the force of earth's gravity and capillary phenomenon at the same time. It is characterized by greatly expanding the application range.

The subject matter of the present invention will be described in detail with reference to the accompanying drawings, which is an embodiment thereof.

1 is a partial perspective view associated with the front view of the present invention,

2 is a structural cross-sectional view before filling the heating medium, that is, before closing the plug.

3 is a structural cross-sectional view after the heating medium is filled, that is, after the plug is sealed.

Figure 4 is an illustration of the state of use of the subject innovation,

Screen mesh (2) is closely adhered to the inner wall of the outer main pipe (1), one end is fixed by welding with a stopper (3), the other end is a stopper (4) with an injection tube (5) fixed by welding The heat pipe is injected into the injection pipe (5), press the injection hole as a crimping tool to form a closed portion (6), and then the end is welded and sealed with the welding portion (7) and the outer plug (8) is completed It is.

The present invention as described above is to be easily detachable in a horizontal state to the socket 9 as shown in Figure 4 and there is no external protrusion as shown, it is very convenient for installation and maintenance.

In the internal operation, the heat medium vaporizes at the heating part, diffuses and moves to the movement path of steam, and then heat exchanges to the outside. will be.

And the heating medium is welded and fixed by triple stopper device, so it can withstand the high pressure inside and is suitable for agricultural use without any protruding part. It is also practical for construction and maintenance.

The gist of the present invention is that the heat pipe can be installed horizontally by installing the screen mesh inside, and the triple plug sealing structure has strong internal pressure so that there is no protrusion structure on the outside, so all other local shapes and design changes can be made. It is included in the claims of the present invention.

Claims (1)

The screen mesh (2) is brought into close contact with the inner wall of the outer main pipe (1), and one end is welded with a stopper (3), and the other end is weld fixed with a stopper (4) with an injection pipe (5) inserted therein. (5) the heat medium is injected and press the injection hole as a crimping tool to form the closing part 6, and then the end is welded and sealed again with the welding part 7 and the horizontal plug characterized in that the completed structure by inserting Heat pipe for heat transfer.