KR101806965B1 - generation of heat device for using magnet - Google Patents

Abstract

The present invention relates to a heating device using a magnet.
A first embodiment of the present invention is a heating device using a magnet having a magnet array plate in which a magnet array plate on which magnets are arranged is rotated or fixed and fixed to a rotating body, Includes a fan-shaped yoke; The yoke of the fan shape is characterized in that a plurality of magnets having a rod shape are radially arranged in multiple rows.
A second embodiment of the present invention is directed to a heating device using a magnet having a magnet array plate in which a magnet array plate on which magnets are arranged is rotated or a magnet array plate fixed on and facing the rotating body, Includes a disc-shaped yoke; The disc-shaped yoke is characterized in that a plurality of magnets having a partially rod-like shape are radially arranged in multiple rows.
A third embodiment of the present invention is a heating device using a magnet having a magnet array plate in which a magnet array plate on which magnets are arrayed is rotated or a magnet array plate on which the magnet array plate is fixed facing the rotating body, Includes a disc-shaped yoke; The disk-shaped yoke is characterized in that a plurality of magnets having a rod shape over the entire surface are provided in multiple concentric circles.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

The present invention relates to a heating device using a magnet, and more particularly to a heating device using a magnet, which improves the structure of a heating device using a magnet to rapidly rotate the magnet array plate on which magnets are arranged in a short time, The present invention relates to a heating device using a magnet that can be used as a heating device for a kitchen, or can be applied in a practical application in an industrial field, and can be used in a wider range.

When a magnetic field (or a magnet) approaches the conductor, hysteresis loss and eddy current (eddy current) loss occur in the conductor, causing Joule heat.

Particularly, the ferromagnetic material attached to the magnet has a higher resistance, and the heat of the joule becomes larger. The iron loss caused by the generator, the motor, and the transformer is a representative example of induced heat generated by the magnetic field.

Since the iron loss is a main cause of lowering the thermal efficiency of a generator, an electric motor, a transformer and the like, an iron core of amorphous material which uses a stratified iron core or hardly eddy current is used to reduce iron loss. However, iron loss reduction still remains as a big problem .

Since the iron loss is based on joule heat, a metal having a resistance that is proportional to a square of a current and a resistance, that is, a metal such as steel, nickel, and nichrome wire, and a metal having a low resistance, Heat is also generated in metals such as aluminum and silver.

In general, iron loss is a combination of hysteresis and eddy current. Hysteresis is responsible for 70% of total iron loss, and eddy current is responsible for 30% of total iron loss.

Therefore, the core loss is basically proportional to the square of the magnet density and frequency of the rotor, so that as the rotor size increases, the RPM of the rotor increases, and as the number of poles constituting the rotor increases, the calorific value increases by 4 times .

Meanwhile, in order to obtain a high temperature instantaneously using the iron loss, a high frequency induction heating apparatus is a device in which a joule heat is generated in a nearby conductor by using an induction coil which generates a high frequency of 20 kHz instead of a magnet In order to obtain high Joule heat, generally used for high resistance metal materials such as steel, nickel, nichrome wire, etc., a high frequency of 60 kHz or more should be used in order to generate joule heat in copper or aluminum metal having low resistance.

Currently, high frequency induction heating devices are widely used in electric boilers, induction, etc., and are widely used in various industrial fields such as surface heating and partial heating of metal. However, the heat conversion efficiency is about 50% A technique for providing an induction heating device with high heat conversion efficiency is needed.

KR 10-2014-0007724 A

SUMMARY OF THE INVENTION It is therefore an object of the present invention to improve the structure of a heating device using a magnet so that a magnet array plate having magnets arrayed in a short time is rotated at a high speed, And a heating device using a magnet capable of heating various objects to be heated adjacent to each other.

Another object of the present invention is to provide a heating device using a magnet for heating a rotating body by fixing a magnet array plate on which magnets are arranged and rotating the rotating body facing the magnet array plate at a high speed.

In order to achieve the above object, according to a first aspect of the present invention, there is provided a heating device using a magnet having a magnet array plate rotated or facing a rotating body and having a fixed magnet array plate, Wherein the clearance of the rotating body is 2 mm to 10 mm; Wherein the selected one of the rotating body and the magnet array plate is provided with a fan-shaped yoke maintaining an angle of 0 DEG to 90 DEG, And a plurality of magnets are provided in a plurality of magnets in the fan-shaped yoke maintaining the angle of 0 ° to 90 °.
A second embodiment of the present invention is a heating device using a magnet having a magnet array plate in which a magnet array plate on which magnets are arranged is rotated or fixed with respect to a rotating body so that the clearance between the magnet array plate and the rotor is 2 mm To 10 mm; Wherein the selected one of the rotating body and the magnet array plate includes a disc-shaped yoke; Wherein the disk-shaped yoke is provided with a plurality of magnets in the form of a plurality of magnets, each of which is divided into four sectors and has a sector shape maintaining an angle of 0 ° to 90 °.
A third embodiment of the present invention is a heating device using a magnet having a magnet array plate in which a magnet array plate on which magnets are arranged is rotated or fixed with respect to a rotating body, To 10 mm; Wherein the selected one of the rotating body and the magnet array plate includes a disc-shaped yoke; Wherein the disk-shaped yoke has a blank surface in the range of 0 to 90 degrees divided into quarters and a plurality of magnets in the range of 90 to 360 degrees. do.

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The present invention having the above-described configuration has the following effects.

First, by improving the structure of the heating device using the magnet, the magnet array plate having the magnets arrayed in a short time is rotated at a high speed to raise it to high temperature, so that the fluid contained in various objects to be heated adjacent to the magnet array plate can be boiled or heated Therefore, there is an effect that it can be applied to a kitchen heating device or a heating device in an industrial field where it is necessary, so that it is advantageously used and generated and used.

Second, there is an effect of heating articles to be heated at various industrial sites by rotating the rotating body facing the magnet array plate at high speed by fixing the magnet array plate on which the magnets are arranged.

1 is a plan view showing a first embodiment of the present invention.
2 is a front view showing a first embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are a plan view and a front view showing a first embodiment according to the present invention.

As shown in the drawings, the present invention is characterized in that the magnet array plate in which the magnets are arranged is coupled to the shaft of the motor and rotates and heats the conductor disposed at the opposed position, or the magnet array plate in which the magnets are arranged, The present invention is applied to a heating apparatus using a magnet in which a rotating body rotating with facing a plate generates heat.

The feature of the first embodiment according to the present invention is that the yoke 11 having the fan-shaped yoke 11 and the fan-shaped yoke 11 are provided in any one of the rotating body 10 and the magnet array plate 10 ' A plurality of magnets 12 having a rod shape are provided in multiple rows, that is, radially arranged in a plurality of rows.

As shown in FIGS. 3A and 3B, the yoke 11 may be formed in a disc shape, and the yoke 11 may be formed in a disc shape, The disk-shaped yoke 11 may be provided with a plurality of magnets 12 partially in the form of rods in a radial manner.

3 (c), the yoke 11 may be provided in a circular plate shape, and the disk-shaped yoke 11 may be provided with a circular plate- A plurality of magnets 12 having a rod shape across the entire surface may be provided in multiple rows in the concentric direction.

Of course, when the yoke 12 is formed in a disk shape, it is effective that a shaft hole is formed in the center of the yoke 12.

The operation of the present invention configured as described above will be described.

For example, when the magnet array plate 10 'is mounted on a shaft of a motor which is omitted from the drawing, and is rotated by the driving force of the motor and is spaced a predetermined distance therefrom, Joule heat will be generated in the array plate 10 'to heat the container.

Therefore, it is possible to heat the food or water inside the container.

Of course, it can be applied as a wafer cleaner, which is one of semiconductor wafer production processes, and can be applied to various fields in various industrial fields.

Also, even if the magnet array plate 10 'is fixed and the rotating body 10 is mounted on the shaft of the motor and rotated at a high speed, the rotating body 10 is rotated by the joule heat generated in the magnet array plate 10' And is heated to a high temperature.

The following table shows the result of installing the rotating body 10 with a gap of 2 mm to 10 mm with the magnet array plate 10 'fixed at 500 RPM.

That is, when the gap between the magnet array plate 10 'and the rotating body 10 is 2 mm, the temperature of the rotating body 10 is heated to 88.5 ° C. in one minute.

The magnets 12 mounted on the upper surface of the yoke 11 are curved in a curved shape at an upper end corner portion of the magnet array plate 10 ' It is effective to arrange such that it is not subjected to wind resistance even if it is rotated.

It will be understood by those skilled in the art that the present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics thereof.

Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

10; Rotating body 10 '; Magnetic array plate
11; Yoke 12; magnet

Claims (4)

1. A heating device using a magnet having a magnet array plate on which magnets are arranged or a magnet array plate on which the magnet array plate is fixed and facing the rotating body,
The clearance between the magnet array plate and the rotating body is 2 mm to 10 mm;
Wherein the selected one of the rotating body and the magnet array plate is provided with a fan-shaped yoke maintaining an angle of 0 DEG to 90 DEG,
Wherein the plurality of magnets are provided in multiple rows in the fan-shaped yoke that maintains the quarter-divided angle of 0 ° to 90 °.
1. A heating device using a magnet having a magnet array plate on which magnets are arranged or a magnet array plate on which the magnet array plate is fixed and facing the rotating body,
The clearance between the magnet array plate and the rotating body is 2 mm to 10 mm;
Wherein the selected one of the rotating body and the magnet array plate includes a disc-shaped yoke;
Wherein the disk-shaped yoke is provided with a plurality of magnets in a multi-row shape having a sector shape that is divided into four equal halves of 0 ° to 90 °.
1. A heating device using a magnet having a magnet array plate on which magnets are arranged or a magnet array plate on which the magnet array plate is fixed and facing the rotating body,
The clearance between the magnet array plate and the rotating body is 2 mm to 10 mm;
Wherein the selected one of the rotating body and the magnet array plate includes a disc-shaped yoke;
Wherein the disk-shaped yoke has a blank surface in the range of 0 to 90 degrees divided into quadrants and a plurality of magnets in a range of 90 to 360 degrees.










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