KR200295756Y1 - stove using the heat pipe of high temperature - Google Patents

Abstract

The present invention uses a high-temperature heat pipe as a heating element for a stove used for heating or cooking simple foods, and uses no fuel such as petroleum or consumes electricity at all in order to produce enough heat with a small amount of electricity. It is a design devised for a stove using a heat pipe known to be a structural configuration that can be saved.

Description

Stove using the heat pipe of high temperature}

The present invention is a technical field of heating apparatus using electric energy among various heating apparatuses used for heating purposes indoors in the winter, ie oil, electricity, stove, etc. This oil is inefficient due to the inefficient waste of energy by burning precious oil and recharging the imported oil only to obtain heat as it relies on all imports, and the user's health threats due to inevitably soot generated during combustion of this oil. The problem is that more natural energy and a relatively clean energy source are also consumed by burning coal, petroleum, etc. as a fuel and generating electricity by operating a turbine using this heat to generate precious natural resources. It has been wasted.

As described above, the conventional heating device such as an oil stove or electric stove burns fossil fuel such as oil or coal such as petroleum, and wastes energy due to heating and cooking using heat from the heat. In order to minimize these wastes, various devices have been proposed for the complete combustion of fuel, but no technology or apparatus has been provided that can sufficiently produce the required heat while dramatically reducing the oil or electric energy.

1 is a partially cut-away perspective view of a stove implemented according to the present invention

FIG. 2 is a vertical cross-sectional view schematically showing an endothermic and a heating relationship of a heating device (heat pipe) of a stove according to the present invention; FIG.

Figure 3 is a partial longitudinal cross-sectional view when the shape of the electric heater is changed as another embodiment

(Code description of main parts of drawing)

1.heat pipe 2.capillary layer 3,3a.sealing plate

4. Thermal conduction material 5. Far infrared emitter 10. Stove

Expected 11.Electric Heater 12. Heat Insulation

13.stove protection net 14.on, off switch 15.timer switch

The present invention is designed to solve the above problems and to provide a heating stove that radiates high heat while using only basic minimum electrical energy. In general, the heating stove uses electricity resistance to continuously supply electricity to the resistor. Only by supplying it was to continue to generate heat. The invention devises a low-voltage electric heater in the lower part of the heat pipe mounted on the electric heating stove implemented according to the present invention, which is completely independent of the heating system of the electric heating stove as described above, and the lower end of the heat pipe is an electric heater. When heated, the upper end of the heat pipe mounted vertically on the stove according to the present invention dissipates high-temperature heat without heat loss, and has a structural configuration using a heat pipe to save electric energy dramatically and dramatically. In order to make it easier to understand the principle concept and operating state of the present application to the present invention attached to the physical phenomenon description of the characteristics of the heat pipe with reference to FIG. Heat Pipe (1) (published Mar. 11, 1988, latest machine glossary: see 297p) is certified According to the test results, the pipe (1) sized to the required diameter and length by using SUS316L (standard of stainless steel) or high heat resistant steel, which has been proved to be excellent in corrosion resistance and heat resistance and excellent in thermal conductivity. A mesh made of SUS316L material also forms a capillary layer (WICK) 2 in which a plurality of dense metal meshes 2a are laminated, and both ends of the pipe 1 are sealed with a sealing plate 3, 3a, but one sealing plate 3 ) Indents the intermediate portion to a predetermined length to interpolate and fix the electric heater 11 known to the recess 1a, and the inside of the pipe 1 has a physical property of absorbing high heat and generating heat (Hg, K, Na, naphthalene, etc.) (4) is sealed in the appropriate amount and the remaining internal space is a vacuum structure, such heat pipe 1 is an electric heater 11 fixed to one recessed portion (1a) of heat of a constant temperature The heat is applied to the heat pipe (1) Since only the high thermal conductive material is enclosed, heat is conducted to the ordinary thermal conductive material (4). At this time, the thermal conductive material (4) is instantaneously evaporated and heats the heat received from the electric heater (11) without absorbing heat as it is. The fast-moving thermoconductive material 4, which is rapidly moved to the other end of the pipe 1 (shown as "→" in the heat pipe of FIG. 2), also dissipates the heat it has received to the outside instantaneously. Is condensed, liquefied and moved to the side where it was first evaporated along the capillary layer 2 made of SUS316L mesh It is known as the known physical phenomenon and the principle of operation of the heat pipe 1 to continuously repeat the operation of absorbing heat vaporized from the outside and vaporizing the heat to instantaneously conduct (position shift). The heat pipe 1 having the physical properties as described above is attached to the center of the stove 10 base 10a, as shown in FIG. 1 attached to the heat pipe 1, and is fixed upright in the outer circumferential surface of the high temperature heat pipe 1 ocher, elvan An electric heater 11 laminated with a far-infrared radiator 5 sintered in the shape of a circular or polygonal disk having a constant size and thickness, and fixed to the recessed portion 1a inserted into the bottom of the heat pipe 1. ) And the heat pipe absorbs and vaporizes the high heat received from the heat-conducting material (4) (shown in Figs. (1) The moment above the upper tip At the same time, while condensing and liquefying in the condensation part of the upper end of the heat pipe 1, the high heat of the same temperature as the endotherm of the heat energy owned by the heat is instantaneously generated outside the upper part of the heat pipe 1 and It is liquefied and moved instantaneously along the capillary layer 2 toward the heat absorbing part, and absorbs high heat from the electric heater 11 and vaporizes it. Heat dissipation without heat loss due to the endothermic effect of the heating of the electric heater (11).

Here, the electric heater 11 may be wound in a coil form on the outer circumferential surface of the heat pipe 1 as shown in FIG. 3 as another embodiment. The outer part of the electric heater 11 has a heat insulating material having a certain material ( 12) to prevent heat loss.

In the drawings, reference numeral 13 denotes a stove protection net, 14 on and off switches, and 15 a timer switch.

By employing the high temperature heat pipe 1 configured as described above to the stove 10 and turning on the electric heater 11, the heat conduction material 4 absorbs heat dissipated from the low-voltage electric heater 11 without heat loss. Then, even though heat is radiated to high heat, it can provide energy-saving and heat-free pollution-free stove 10 by supplying low-voltage electricity and generating heat without the loss of calories while dramatically saving electric energy. It works. Therefore, if the structure is expanded, it can be used as a heat source for boilers, various heating furnaces and boilers, and also, when burning fossil fuels such as petroleum or coal, there is no generation of harmful gases to various human bodies due to incomplete combustion. From the far-infrared radiator 1 winding the heat pipe 1, far-infrared rays are radiated to promote the health of the user by smoothing the blood circulation of the human body, thereby contributing to maintaining the health of the user.

Claims (1)

A stove 10 is constructed using a heat pipe 1 in which a thermally conductive material 4 (Hg, K, Na, etc.) is enclosed therein, and the stove 10 has a constant diameter and length in the center of the base 10a. The heat pipe 1 is fixed upright, and the electric heater 11 is fixed to the bottom of the heat pipe 1, and on the outer circumferential surface of the heat pipe 1, powders such as ocher and elvan are made of circular or polygonal particles of a certain size and thickness. A stove using a heat pipe formed by winding up a far-infrared radiator (5) laminated by sintering a disk form.