KR20100111337A - A device to generate heat by induction heating type - Google Patents

Abstract

PURPOSE: A heat generating device using high-frequency induction coils, for increasing thermal efficiency by heating a heating medium in an induction heating method, is provided to dually heat a heating medium by circulating a heating medium through an inner pipe. CONSTITUTION: A heat generating device using high-frequency induction coils comprises a plurality of metal material pipes(12), a radiating plate, outer and inner ceramic pipe, a water tub(20), a radiating pipe(30) and a pump(50). The both end part of multiple metal material pipes projected through both sides of the water tub is connected to a connector. The radiating plate is installed at the outside of the metal material pipe. Outer and inner ceramic pipe are inserted into the inner side of the metal material pipe. An induction heating coil is wound in the outer circumference of the inner ceramic pipe. The radiating pipe is installed between an inlet and an outlet. The pump circulates heating medium.

Description

Heat generating device using high frequency induction coil {A device to generate heat by induction heating type}

The present invention relates to a heat generator using a high frequency coil to generate heat by heating a heating medium such as water or oil stored in a water tank using a high frequency induction heating method (induction heating method).

In the case of a general hot water generator using electricity, a heater that operates as an electric heating coil is provided to heat the water inside the tank.

However, the conventional heating method has a disadvantage in that the heat efficiency is not high because the hot water effect is not superior to the amount of electricity consumed since it adopts a structure that generates a heater by flowing a current through the electric heating coil.

Therefore, the present invention was developed to solve this problem, the present invention is to heat the water or oil inside the tank using the induction coil, and to discharge the heated water or oil to the radiator, compared to the conventional electric heating method The thermal efficiency is greatly improved.

Originally, the induction heating method used in the present invention means an electromagnetic induction heating method, and the electromagnetic induction heating method is an application of a high efficiency magnetic wire induction technology, and magnetic lines are generated through an alternating current through an induction heating coil. When the metal body approaches the magnetic force line, the metal body generates heat by electric resistance.

On the other hand, the induction heating method does not generate a flame or harmful gas, so there is no danger of fire, and since the gas is not used as a heat source, carbon monoxide is not generated and indoor oxygen consumption is low, and thus a comfortable room can be maintained. In recent years, induction stoves used for cooking utensils, induction heating fans, induction heating bed, etc. have been used in various ways.

Therefore, the present invention is also invented in this context, and was developed to generate high temperature heat more efficiently by heating water or oil inside the tank using an induction heating coil.

Although the present invention and its configuration are different, the induction hot water generator using the high frequency induction heating method

Patent No. 858353 (Induction Boiler Apparatus),

Patent No.762951 (Induction Boiler).

The present invention is to significantly improve the thermal efficiency compared to the conventional electric hot water boiler by using a high frequency heating method.

Both ends of the plurality of metal pipes 12 are installed through both sides of the water tank 20, and both ends of the plurality of metal pipes 12 protruding from both sides of the water tank 20 are connected by a connector 12 ', A heat sink 11 is provided on the outside of the metal pipe 12,

An outer ceramic pipe 13 and an inner ceramic pipe 15 wound around the outer circumferential surface of the metal pipe 12 are inserted into the outer side of the metallic pipe 12, and the heating medium 40 is discharged into the water tank 20. And an inlet port 21 and an inlet port 22 introduced therein, and a heat dissipation tube 30 is installed between the outlet port 21 and the inlet port 22, and either one of the outlet port 21 and the inlet port 22. The pump 50 for circulating the heating medium 40 is installed.

In the above, the inner metal pipe 16 is installed inside the inner ceramic pipe 15 wound around the induction heating coil 14,

Both ends of the inner metal pipe 16 are connected to each other by an inner pipe connector 16 ′ so that the heating medium 40 is circulated, and the inner metal pipe end 17 of one of the inner metal pipes 16 is an inlet. And an end 18 of another inner metal pipe 16 is connected to the outlet 21.

The heating medium 40 filling the inside of the water tank 20 uses water or oil, and a drain valve 80 and a heating medium filling valve 70 are attached to the water tank 20, and the water tank ( 20) When the heating medium 40 to be filled in the inside of the water is attached to the air vent (60).

In addition, the induction heating coil 14 is formed to spirally wind copper pipe, and the plurality of metal pipes 12 or the plurality of inner metal pipes 16 inserted into the metal pipe 12 are all magnetic. It was made of a metal material having a.

The present invention heats the heating medium in the tank (in tank) by the induction heating method, the heating time is faster than the conventional electric heater method, the thermal efficiency is very high, there is an advantage that the electricity consumption is reduced.

In addition, by circulating the heating medium with the inner pipe located inside the induction heating, the heating medium is doubled, and the heating medium circulated with the inner pipe can cool the induction heating coil, and the heating coil is damaged by high heat. Can be prevented.

By protruding both ends of the metal pipe out of the side wall of the water tank and opening and closing the protrusion with a U-shaped connector, it has a simple structure that can easily be repaired in case of failure of the induction heating coil or other parts inside the metal pipe.

Therefore, the present invention can be used for a long time with little fear of failure, and its structure is very simple, so that ordinary consumers can use it very conveniently.

Both ends of the plurality of metal pipes 12 installed to penetrate both sides of the water tank 20 are coupled to the water tank 20 by the coupling and the inlet for sealing and sealing 23,

Both ends of the metal pipe 12 penetrating both sides of the water tank 20 are connected to each other by the connector (12 ').

An outer ceramic pipe 13 is inserted into each of the plurality of metal pipes 12, and an inner ceramic pipe 14 spirally wound around the outer circumferential surface of the induction heating coil 14 is inserted into the outer ceramic pipe 13. When the high frequency by the high frequency generation circuit (not shown) is applied to the induction heating coil 14, the metal pipe 12 outside the outer ceramic pipe 13 generates heat by the electromagnetic induction action, 20) The heating medium 40 on the inside is heated.

A heat sink 11 is attached to the outer circumferential surface of the metal pipe 12 to effectively transfer heat to the heating medium 40, and the heated heating medium 40 provides an outlet 21 coupled to the water tank 20. Is circulated through the heat radiating tube 30 to radiate heat.

Thereafter, the heating medium 40 cooled by the heat radiation again circulates through the water tank 20 through the inlet 22 coupled to the water tank 20.

One side of the outlet 21 or the inlet 22 is equipped with a pump 50 to force circulation of the heating medium 40.

Originally, the induction heating coil heating method is a high frequency induction heating method. When a magnetic object enters a magnetic field generated around electric wires, the magnetic field and the magnetic object interfere (resistance). Induction heating coil 14 wound around the inner ceramic pipe 15 according to the present invention generates heat by heating the metal pipe 12 outside the outer ceramic pipe 13, which is an insulator, by a high frequency induction method. Will be

The magnetic field generated by the induction heating coil 14 wound on the inner ceramic pipe 15 propagates out of the outer ceramic pipe 13 to heat the metal pipe 12, and at the same time the induction heating coil 14 is wound. The inner inner ceramic pipe 15 also acts inside.

Accordingly, when the inner metal pipe 16 is inserted into the inner ceramic pipe 15, the inner metal pipe 16 also generates heat by the magnetic field.

In view of the above, in another embodiment of the present invention, each inner metal pipe 16 embedded in the inner ceramic pipe 15 constitutes a closed circuit, and the inner metal pipe which is heated by the induction heating coil 14. When the heating medium 40 is circulated inside, the heating medium 40 is heated to cool the induction heating coil 14 wound around the inner ceramic pipe 15.

As such, when the heating medium 40 is circulated into the inner metal pipe 16 inserted into the inner ceramic pipe 15, the heating temperature of the entire heating medium 40 is increased and the induction heating coil 14 is cooled. It has the effect of extending the life of the induction heating coil (14).

As described above, both ends of the inner metal pipe 16 are connected to each other by the inner pipe connector 16 ′ to form a closed circuit, but one end 17 of the inner metal pipe 16 is an inlet 22 of the water tank 20. ) Is connected to each other, and the end 18 of the other inner metal pipe 16 is connected to the outlet 21 of the tank so that the heating medium 40 flowing inside the inner metal pipe 16 is circulated.

The heating medium 40 filled in the water tank 20 uses water or oil, and when water is used as the heating medium 40, a separate hot water discharge port 80 and a water supply hole in the water tank 20 are used. If 70 is installed, the water tank 20 serves as a hot water tank or hot water boiler.

In addition, when the water tank is used as a hot water tank, an air outlet 60 for discharging air generated when heated is installed.

However, since hot water cannot be heated to a high temperature such as oil, the heating medium 40 filled inside the water tank 20 is more effective in oil, and the oil is suitably mineral oil.

As such, the heating medium 40 heated by the induction heating method inside the water tank 20 is radiated through the heat dissipation pipe 30, cooled, and then repeatedly flowed into the water tank to be heated.

As described above, the heat generating apparatus using the high frequency induction coil corresponding to the present invention has a simple structure and high thermal efficiency as compared to the conventional electric heater method, and thus, industrial applicability will be sufficient.

1 is a schematic interior view showing one embodiment of the present invention.

Figure 2 is a schematic interior view showing another embodiment of the present invention.

Figure 3 is a cross sectional view of the portion A in Figure 1;

4 is a cross-sectional view of the portion B in FIG. 2;

FIG. 5 is a longitudinal sectional view of the portion A in FIG. 1; FIG.

6 is a longitudinal cross-sectional view of the portion B in FIG. 2;

7 is an enlarged cross-sectional view of the portion C in FIG.

8 is an enlarged cross-sectional view of the portion D in FIG.

Claims (6)

Both ends of the plurality of metal pipes 12 are installed through both sides of the water tank 20, and both ends of the plurality of metal pipes 12 protruding from both sides of the water tank 20 are connected by a connector 12 ', The outer side of the metal pipe 12 has a heat sink 11, the inner side of the metal pipe 12, the outer ceramic pipe 13 and the inner ceramic pipe 15 wound around the outer peripheral surface of the induction heating coil 14 is The water tank 20 has an outlet 21 and an inlet 22 through which the heating medium 40 is discharged and introduced, and a heat dissipation tube 30 is installed between the outlet 21 and the inlet 22. And a pump 50 for circulating the heating medium 40 on one side of the discharge port 21 and the inlet port 22. According to claim 1, wherein the inner metal pipe 16 is provided inside the inner ceramic pipe 15 wound around the induction heating coil 14, Both ends of the inner metal pipe 16 are connected to each other by an inner pipe connector 16 ′ so that the heating medium 40 is circulated, and the inner metal pipe end 17 of one of the inner metal pipes 16 is an inlet. Connected with 22, The end 18 of the inner inner metal pipe 16 is connected to the outlet 21, the heat generating device using a high frequency induction coil. The heat generating device using a high frequency induction coil according to claim 1, wherein the heating medium (40) filled inside the water tank (20) uses either water or oil. The heat generating device using a high frequency induction coil according to claim 1, wherein an air discharger (60) is attached to the water tank (20). The heat generating device using a high frequency induction coil according to claim 1, wherein the induction heating coil (14) is formed by winding a copper pipe spirally. The method of claim 1 or 2, wherein the plurality of metal pipes (12), the plurality of inner metal pipes (16) inserted into the metal pipe 12 are all characterized in that the magnetic material is made of a metal material Heat generating device using a high frequency induction coil.

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