KR20100003501U - Electric radiator - Google Patents

Abstract

The present invention relates to an electric radiator that heats the heat generated by the electric heater to the outside through a heat pipe in which a heat conducting medium is accommodated to the outside to increase the temperature of the room.

Electric radiator according to the present invention, the electric heater for receiving heat to generate electricity; A chamber accommodating the electric heater and filled with magnesia therein; A lower portion is inserted into the chamber, and a heat conductive medium is filled therein, and the upper portion includes a hollow heat pipe connected by a communicating tube.

Electric Heaters, Heat Pipes, Chambers, Communication Tubes, Heat Dissipation Fins, Thermal Conductive Media, Magnesa

Description

Electric radiator {ELECTRIC RADIATOR}

The present invention relates to an electric radiator, and more particularly, to an electric radiator to heat the heat generated by the electric heater to the outside through a heat pipe containing a heat conducting medium in the lower portion to increase the temperature of the room.

Generally, a radiator is mainly used to increase indoor temperature in a home, office, factory, sauna, etc., and the radiator heats water with a boiler or an electric heater, circulates the heated water, and heats it with ambient air to increase the room temperature. It is a device to raise.

However, the above method can only dissipate heat below 100 ° C, and the heat dissipation temperature is only about 60 ° C, resulting in low thermal efficiency, high oil or gas loss, and low combustion efficiency. It is uneconomical and takes a long time to heat (heat dissipation), and harmful gases are emitted when oil or gas burns, and the composition is complicated, which makes maintenance and maintenance cumbersome, and also generates a lot of noise.

The technology developed and registered by the applicant of the present invention in order to improve the above problems is a practical registration No. 432334 electric heat radiator, briefly described with reference to FIG. 1, an electric heater that receives electricity from a power source and generates heat When (1) is installed in the installation groove (7) formed in the main body (2) in which water is embedded and the water is heated, the intake port (3) of the steam flow tube (4) installed in communication with the main body on the upper part of the main body (2) When the hot steam circulates from the exhaust port 6 to the exhaust port 6, the steam is in contact with the heat pipe 5 installed so that the lower end is inserted into the steam flow pipe 4, and the heat medium in the heat pipe 5 which receives heat is vaporized. As it moves to the top of the heat pipe to release the heat of vaporization to the outside.

However, since the above method is an indirect heat transfer method in which water is heated and heat is transferred to the heat pipe only by steam generated at this time, not only heat loss is required but also a lot of time and fuel are required to heat water. In addition, there is a problem that the configuration of the radiator itself is complicated and bulky, and there are many difficulties in installation and repair.

The present invention is devised to solve the above problems, an object of the present invention, the heat generated in the electric heater used as a heat source to heat the outside through the heat pipe by the heat conducting medium to quickly reduce the temperature of the room It is possible to increase the heat dissipation efficiency by increasing the cost, economical due to low heating cost, no emission of harmful gas, simple structure of the radiator itself, low maintenance and repair cost, and to provide the electric radiator with low noise. will be.

Electric radiator according to the present invention for solving the above problems, the electric heater for generating heat by receiving electricity; A chamber accommodating the electric heater and filled with magnesia therein; A lower portion is inserted into the chamber, a heat conductive medium is filled therein, and the upper portion includes a hollow heat pipe connected by a communicating tube.

Preferably, a plurality of heat dissipation fins are formed on the outer circumferential wall of the heat pipe, and any one of methanol, acetone, and heat medium oil is used as the heat conductive medium.

Electric radiator according to the present invention having the features as described above, because the heat generated from the electric heater is radiated to the outside through the heat pipe by the heat conducting medium, the thermal efficiency is high, rapid heat dissipation, simple structure It is very efficient and economical because of low maintenance and low cost.

 An embodiment of an electric radiator according to the present invention will be described with reference to FIGS. 2 and 3.

The electric radiator includes an electric heater 10 that receives electricity to generate heat; A chamber 14 accommodating the electric heater 10 and filled with magnesa 13, which is a heating element having a high thermal conductivity; The lower part is inserted into the chamber 14, the heat conducting medium 24 is filled therein, and the upper part is composed of a hollow heat pipe 21 communicated by the communication tube 23.

The electric heater 10 is inserted and installed in the chamber 14 in parallel in the longitudinal direction, and one end thereof is formed to protrude from the chamber 14 so as to be connected to the power source 11. The inside of the chamber 14 is filled with a magnesia 13 for conducting heat generated by the electric heater 10 to the heat conducting medium 24 in the heat pipe 21 efficiently and quickly. The lower part of the heat pipe 21 is inserted and installed in the chamber 14 filled with the magnesa 13, and the upper part of the heat pipe 21 is connected to each other by the communication tube 23, the communication tube ( 23) also increases the heat dissipation area. On the outer circumferential wall of the heat pipe 21, a plurality of heat dissipation fins 22 are further formed to protrude to increase the heat dissipation area to improve heat dissipation efficiency.

The thermally conductive medium 24 injected into the heat pipe 21 is a thermally conductive material having a low drop point in a liquid or gel state, and the thermally conductive medium 24 inside the heat pipe is heated by heat heated under the heat pipe 21. As it vaporizes, heat is quickly transferred to the entire heat pipe 21. As the heat conducting medium, volatile substances such as methanol and acetone, water, mercury, and the like may be used, and heat medium oil having low corrosiveness and excellent heat transfer efficiency and heat conductivity even at low temperatures may be used. Preferably, the heat conductive medium 24 is filled only in a part of the heat pipe 21, and the heat dissipation fins 22 are preferably made of copper, aluminum, or the like having excellent thermal conductivity.

The above design can be used in a place where high temperature heat such as a steam film is required, and by installing a fan (not shown) on one side of the heat pipe 21, it may be forced to discharge the heat to the outside.

Briefly describing the operation of the electric radiator configured as described above, when the power source 11 is supplied to the electric heater 10 first, the electric heater generates heat, and the heat in the chamber 14 surrounding the electric heater 10. It is transmitted to the magnesa 13. The heat transferred to the magnesa 13 is transferred to the heat conduction medium 24 of the heat pipe 21 inserted and installed in the chamber 14, and the heat conduction medium 24 having the lower drop point is vaporized by heat and convection. When it moves to the upper side of the heat pipe by the action and encounters the air in contact with the heat pipe, heat of vaporization is taken out to radiate heat and change back into liquid.

That is, when power is supplied to the electric heater 12 and the electric heater generates heat, heat is transferred to the magnesia 13 and heat is applied to the lower portion of the heat pipe 21 in contact with the magnesia 13. Thereafter, when heat is applied to the heat conducting medium 24 inside the heat pipe 21, the heat conducting medium is vaporized and heat energy moves upwardly to heat the heat pipe 21, thereby continuously increasing the outside temperature. It works.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and variations without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas falling within the scope of the present invention should be interpreted as being included in the scope of the present invention.

1 is a view showing an electric heat radiator according to the conventional design.

2 is a cross-sectional view showing an electric radiator according to the present invention.

3 is a side cross-sectional view of an electric radiator according to the present invention.

   ** Explanation of symbols for the main parts of the drawing **

10. Electric Heater 11. Power

13. Magnesa 14. Chamber

21. Heat pipes 22. Heat sink fins

23. Communication tube 24. Heat conduction medium

Claims (4)

In an electric radiator using electricity as a heat source, An electric heater supplied with electricity to generate heat; A chamber accommodating the electric heater and filled with magnesia therein; A hollow heat pipe in which a lower portion is inserted into the chamber, a heat conductive medium is filled in the upper portion, and upper portions thereof communicate with each other by a communicating tube; Electric radiator, characterized in that configured to include. The method of claim 1, The outer circumferential wall of the heat pipe is characterized in that a plurality of heat radiation fins are further formed. The method of claim 1, The heat conducting medium is an electric radiator, characterized in that any one of methanol, acetone, heat medium oil. The method of claim 1, And the heat conducting medium is filled in only part of the heat pipe.

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