KR100343663B1 - A boiler with the form of heat pipe - Google Patents

Abstract

The present invention relates to a heat pipe type boiler to which a double heat pipe is applied, and the heat pipe type boiler according to the present invention is heated by the heating device (40) and the heating device (40), thereby heating the circulation of heating water. The heating water circulation pipe 50 and the one end is heated in the heating device 40, the other end is connected to the heating water circulation pipe 50 to heat the heat generated by the heating device 40 A heat pipe 60 for delivering to one end of the circulation pipe 50; The heat pipe 60 is sealed and the heat applied to the heating end of the inner tube 62 through the repeated evaporative condensation action in the inner tube 62 is latent heat dissipation The working fluid 64 to be delivered to the stage, the fluid moving means 66 for circulating the working fluid 64 through the capillary action in the inner tube 62, and the heat dissipating end side outer surface of the inner tube 62 As the latent heat retaining liquid 70 which absorbs the heat dissipated to the outer tube 68 and the outer tube 68 and radiates to the outside of the inner tube 62, thereby preventing a rapid phase change of the working fluid 64. Characterized in that made.

According to the heat pipe type boiler according to the present invention as described above, the phenomenon in which the working fluid is rapidly condensed due to the structure of the heat pipe is prevented, so that the heat transfer time is relatively extended, thereby achieving a more efficient heating operation.

Description

A boiler with the form of heat pipe}

The present invention relates to a boiler, and more particularly, to a heat pipe type boiler to which a double heat pipe is applied.

In general, a boiler is a device for heating cold water into hot water, and is applied to heating facilities, etc., and classified into various types according to heating methods. Among them, the heat pipe type boiler is such that the heat-transfer medium such as water is not directly heated by the heat source, but is indirectly heated by the heat pipe, and as shown in FIG. 1, a heating device 10 such as an electric heating element, and the The heat pipe 20 is mounted to the heating device 10 so that one end thereof is heated, and the heating water circulation pipe 30 connected to the other end of the heat pipe 20 is composed as a main component.

Here, the heat pipe 20 includes a metallic vacuum tube 22 of a sealed structure, a working fluid 24 injected into the vacuum tube 22, and a fluid moving means 26 provided in the vacuum tube 22. The working fluid 24 has a direct action of transferring heat in the vacuum tube 22 while repeating evaporation and condensation in the vacuum tube 22. Distilled water, methanol, sodium, and the like are usually used. It is determined according to the purpose of use of the pipe 20. Then, the fluid transfer means 26 is evaporated by heating and evaporating at one end (heating end) of the vacuum tube 22, and then again to restore the working fluid 24 liquefied at the other end (heat dissipation end). It consists of a screen mesh to move the liquid using.

According to the heat pipe 20, when one end (heating end) of the vacuum tube 22 is heated by the heating device 10, the working fluid 24 easily evaporates at a low pressure in the vacuum tube 22. When the evaporated working fluid 24 moves to the other end (heat dissipation end) of the vacuum tube 22, the latent heat of evaporation is transferred and condensed around the sealed vacuum tube 22, and the condensed working fluid 24 moves again. Heat is transferred to the circulation, which is moved to the heating end by means 26. According to the so-called super-heat conduction action of the heat pipe 20, the heating end and the heat dissipation end are heated to the same temperature at about the same time, and since there is almost no heat loss, heat can be transmitted very effectively.

Therefore, according to the heat pipe type boiler according to the related art as described above, since the heating water is heated through the heat pipe 20 having high heat transfer efficiency, the heating water circulation pipe 30 is directly heated to cool the cooling water. Warming can achieve an energy saving effect using the high heat transfer characteristics of the heat pipe 20 together with structural simplicity such as reduced plumbing facilities of the heating water circulation pipe 30 as compared to the direct heating boiler.

However, in a conventional heat pipe type boiler having a structure in which the heating water circulation pipe 30 directly surrounds one end (heat dissipation end) of the vacuum tube 22 of the heat pipe 20, the heat generated in the vacuum tube 22 is generated. Due to the operating characteristics of the heat pipe 20 which transfers heat through the phase change (condensation) of the working fluid 24, the heat dissipation end is in contact with the cold heating water, and the working fluid 24 is rapidly condensed. There is a problem that the heat transfer efficiency is lowered.

The present invention has been made to solve the above-mentioned conventional problems, for the purpose of providing a heat pipe type boiler that can increase the heat transfer efficiency by preventing the phenomenon that the working fluid is rapidly condensed through the latent heat holding liquid between the vacuum tube and the heating water. do.

1 is a schematic cross-sectional view showing the structure of a typical heat pipe type boiler.

2 is a cross-sectional view showing the structure of a heat pipe and a heating water circulation pipe applied to an embodiment of the present invention.

3 is a cross-sectional view taken along the line III-III of FIG. 2.

4 is a cross-sectional view showing a modified structure of the heating water circulation pipe applied to the embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

40: heating device 42: ceramic heating element

44 electrode 46 heat transfer medium

50: heating water circulation pipe 60: heat pipe

62: inner tube 64: working fluid

66: fluid transfer means 68: outer tube

70: latent heat retention liquid

Heat pipe type boiler provided to achieve the above object is a heating device, a heating water circulation pipe that performs the heating circulation of the heating water by being heated by the heating device, and one end of the heating device is heated, the other end A heat pipe which is connected to the heating water circulation pipe to transfer heat generated by the heating apparatus to one end of the heating water circulation pipe; An inner tube having the structure in which the heat pipe is sealed, a working fluid that latently heats the heat applied to the heating end of the inner tube through the repeated evaporative condensation action in the inner tube, and transfers the heat to the heat dissipating end; The fluid moving means for circulating the working fluid through the capillary action, the outer tube surrounding the outer surface of the heat dissipation end side of the inner tube, and the rapid phase of the working fluid by absorbing heat dissipated in the outer tube to the outside of the inner tube Characterized in that it consists of a latent heat retention liquid to prevent changes.

Here, the heating water circulation pipe has a structure in which one end thereof surrounds the outer tube of the heat pipe, or a part thereof is drawn into the outer tube of the heat pipe to form a spiral heating water circulation path around the inner tube. .

Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 2 to 4, and the same parts as those in the prior art will be omitted and the same reference numerals will be given.

First, the heat pipe type boiler according to the embodiment of the present invention is heated from the heating device 40, the heating water circulation pipe 50 for the circulation of the heating water, and the heating device 40 as shown in FIG. It consists of a so-called dual structure heat pipe 60 that transfers heat to the water circulation pipe 50 side, the dual structure heat pipe 60 is an inner tube 62 of the sealed structure and the inner tube 62 ) The working fluid 64 for latent heat transfer to the heat dissipation end through the repeated evaporative condensation in the inner pipe 62, and the capillary action in the inner pipe 64. Fluid moving means 66 such as a screen mesh for circulating the working fluid, an outer tube 68 surrounding the outer surface of the heat dissipation end side of the inner tube 62, and an inner tube 62 filled in the outer tube 68 Absorption of heat dissipated to outside causes rapid phase change of working fluid 64 Underground it is made up of latent heat of retentate (70).

And, the heating water circulation pipe 50 connected to the heat pipe 40 of such a dual structure is made of an external type having a structure in which one end completely surrounds the outer tube 68 of the heat pipe 60 (FIG. 3), as shown in FIG. 4, a portion of the heat pipe 60 is introduced into the outer tube 68 of the heat pipe 60 to form a spiral heating water circulation path about the inner tube 62.

On the other hand, the heating device 40 applied to the embodiment of the present invention is preferably configured by an electric heating method using a ceramic heating element in order to reduce the power cost, such a heating element of the ceramic heating element type heating element 42 of the ceramic material And an electrode 44 connected to the ceramic heating element 42 to supply power to the heating element 42, and provided at one side of the heating element 42 to provide heat to the inside of the heat pipe 60. It consists of a heat transfer medium 46 which transfers the heat generated by the heating element 42 to one side of the tube 62 (see Fig. 2).

According to the embodiment of the present invention configured as described above, due to the structural characteristics of the heat pipe 60, the heat dissipated at the heat dissipating end of the inner tube 62 is preferentially through the latent heat holding liquid 70 in the outer tube 68 Is absorbed from the working fluid 64 so that the rate of heat dissipation from the working fluid 64 in a gaseous state is reduced, and as a result, the phase change (condensation) phenomenon of the working fluid 64 proceeds gradually, and therefore, it is diverted from the working fluid 64. The heat is transferred to the heating water circulation pipe 50 in a state where the heat is slowly and evenly spread through the latent heat holding liquid 70. Therefore, the heat transfer time is extended and more efficient heat transfer action is performed.

In addition, in the present embodiment, when the heating water circulation pipe 50 is made of a built-in type, since the portion in contact with the latent heat holding liquid 70 is not exposed to the outside, unnecessary heat dissipation does not occur, such as more efficient heat transfer. Is performed.

In addition, according to the embodiment of the present invention, the heat pipe 60 can be heated to a high temperature with a small amount of power supply through the ceramic heating element-type heating device 40 as described above.

According to the heat pipe type boiler according to the present invention, the phenomenon in which the working fluid is rapidly condensed due to the structure of the heat pipe is prevented, so that the heat transfer time is relatively extended, thereby achieving a more efficient heating operation.

Claims (3)

With heating device, A heating water circulation pipe which is heated by the heating device to perform a heating circulation action of the heating water; One end of the heating device is heated, and the other end is connected to the heating water circulation pipe to transfer heat generated from the heating device to one end of the heating water circulation pipe. In a heat pipe type boiler comprising; The heat pipe An inner tube of a sealed structure, A working fluid transferring latent heat applied to the heating end of the inner tube through the repeated evaporative condensation action in the inner tube and transferring the heat to the radiating end; A fluid moving means for circulating a working fluid through a capillary action in the inner tube; An outer tube surrounding an outer surface of the heat dissipation end side of the inner tube; The latent heat retention liquid which is filled in the outer tube to absorb the heat dissipated to the outside of the inner tube to prevent the rapid phase change of the working fluid Heat pipe type boiler, characterized in that consisting of. According to claim 1, wherein the heating water circulation pipe A heat pipe type boiler, one end of which surrounds an outer tube of the heat pipe and is connected to the heat pipe. According to claim 1, wherein the heating water circulation pipe A part of the heat pipe type boiler characterized in that the part is drawn into the outer tube of the heat pipe to form a spiral heating water circulation path around the inner tube, and connected to the heat pipe.