KR101683186B1 - Heat supply device using microwave heat generator - Google Patents

Abstract

[0001] The present invention relates to a heat supply device using an electromagnetic wave generating body, more particularly, to a wave-type electromagnetic wave generating body piece attached to a body having a plurality of flow holes formed therein, The present invention relates to a heat supply unit using an electromagnetic wave heating element which has a high thermal efficiency and is easy to install, by allowing air to flow alone and air flowing along the outer periphery of the body to be heated quickly.
Since the heat supply unit using the electromagnetic wave heating element of the present invention can be installed anywhere on the pipe through which the air flows, the expansion is very high and the heating is instantaneously carried out at a high temperature. Therefore, It is different from other heat supply equipments.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heat supply device using a microwave heating element,

[0001] The present invention relates to a heat supply device using an electromagnetic wave generating body, more particularly, to a wave-type electromagnetic wave generating body piece attached to a body having a plurality of flow holes formed therein, The present invention relates to a heat supply unit using an electromagnetic wave heating element which has a high thermal efficiency and is easy to install, by allowing air to flow alone and air flowing along the outer periphery of the body to be heated quickly.

In order to change the state of the substance or material by applying heat, or to incinerate or dispose of it, a heat supply unit is essential.

Conventional heaters have been used with electric resistance heaters, electric heaters using high frequencies, or burners using fossil fuels such as gas and oil.

Various apparatuses are formed by attaching the heat supply unit. There are developed a food processing apparatus or a dryer for treating a metal by heat treatment, for treating water waste with a large amount of water, and then treating it in the form of powder after evaporating moisture.

The technology of the heat treatment furnace in which the heat supply unit is used is disclosed in Korean Patent Publication No. 0994860 in which a plurality of heat supply devices are formed in the heat treatment furnace and the hot water supplied from the heat treatment equipment continuously heat- Respectively.

Electromagnetic waves, or microwaves, are electromagnetic waves having a frequency ranging from 1 GHz to 30 GHz, and electromagnetic waves in this frequency band have a wavelength of 1 mm to 30 cm.

Conventional electromagnetic waves can photograph broadcast, communication, radar, microwave, and ground surface, and are utilized variously such as utilization of self position information.

The object to be heated can be heated using the electromagnetic wave (for example, a frequency of 300 MHz to 300 GHz). The heating is dielectric heating by dielectric loss which heats the object while energy is lost in the object to be heated, And joule heating by induction current which induces an induction current in the heated object and heats the heated object by a resistance component.

In addition, recently, a heat supply apparatus using various electromagnetic wave heating elements is provided by using a phenomenon in which silicon carbide (Sic) is irradiated with electromagnetic waves to generate heat while silicon carbide is activated.

However, the conventional heat supply apparatus using the electromagnetic wave heating element has the following problems.

(1) An electromagnetic wave heating element is not supplied in the form of a separate heat source, but an electromagnetic wave heating element is attached in the form of an accessory, so that the electromagnetic wave is irradiated to the electromagnetic wave heating element and the conductor directly contacting the electromagnetic wave heating element or in contact with the electromagnetic wave heating element So that heat exchange with the air flowing in the periphery thereof occurs. Therefore, it should be installed from the time of manufacture of the heat supply apparatus.

(2) Since heat exchange with the flowing air occurs only on the surface of the electromagnetic wave heating element, rapid heat exchange does not occur and the thermal efficiency is lowered.

(3) Electromagnetic waves arriving at the electromagnetic wave heating element are reflected without being completely absorbed, and flow backward to damage the electromagnetic wave oscillator on the waveguide.

In order to solve the above-described problems, the present invention provides a microwave oven comprising: a body having a plurality of flow holes formed therein, a wave-like electromagnetic wave heating element piece attached to the inner wall with an adhesive,

And a waveguide having one side attached to the inlet hole and the other side formed with an electromagnetic wave oscillator.

According to the heat supply unit using the electromagnetic wave generating body of the present invention, the following effects are produced.

(1) Since the heat supply unit is formed in a single shape, it can be installed anywhere on the pipe where air flows, which is convenient.

(2) A body is disposed on a channel through which air flows. Since a plurality of flow holes or gratings are formed in the body, air flows into the empty space between the flow holes or the grids, and scattered and attached wave- So that heat exchange takes place rapidly.

(3) Wave-type electromagnetic wave The electromagnetic wave that has reached the piece of heating element is formed in a three-dimensional shape, and the electromagnetic wave is almost completely absorbed while repeating reflection and absorption.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a heat supply device using an electromagnetic wave heating element formed as a preferred embodiment of the present invention. FIG.
2 is a cross-sectional view of a heat supplier using an electromagnetic wave heating element formed as a preferred embodiment of the present invention.
3 is a use state diagram of a heat supplier using an electromagnetic wave heating element formed as a preferred embodiment of the present invention.
4 is a perspective view of a body of a heat supply device using an electromagnetic wave heating element formed according to another embodiment of the present invention.
FIG. 5 is a conceptual view showing the inter-grid spacing of a heat supplier using an electromagnetic wave heating element formed according to another embodiment of the present invention. FIG.
6 is an enlarged view of a wave type electromagnetic wave heating element piece of a heat supply device using an electromagnetic wave heating element formed as a preferred embodiment of the present invention.

A body 100 having a plurality of flow holes 101, wave-like electromagnetic wave heating element pieces 110 attached to an inner wall thereof as an adhesive, and an inlet hole 105 formed on one side thereof;

One side of which is connected to the inlet hole 105 and the other side is formed of a waveguide 200 having an electromagnetic wave oscillator 210 formed therein.

The body 100 may be formed of a plate-like electromagnetic wave heating element or a refractory material having a metal plate, silicon carbide as a main component.

The diameter of the flow hole 101 is smaller than the length of the wavelength of the electromagnetic wave radiated from the electromagnetic wave oscillator 210. The flow hole 101 is formed in the body 100 so that electromagnetic waves can not escape by the shielding effect. So that electromagnetic waves can not pass therethrough.

The size of the diameter of the flow hole 101 is suitably 1 to 10 mm, and is set differently according to the wavelength of the microwave.

The shielding effect of the microwave according to the size and arrangement of the flow holes 101 is

, Which is designed by setting the size of the diameter so that the shielding effect is less than 10 ~ 120dB.

The wave-type electromagnetic wave heating element piece 110 is formed by crushing a plate-shaped electromagnetic wave heating body having silicon carbide (SiC) as a main component, and has wave shape and various sizes and shapes of a three-dimensional shape.

The wave-type electromagnetic wave heating element piece 110 adheres to the inner wall of the body 100 as an adhesive regardless of the position of the flow hole 101.

The adhesive is adhered using an adhesive having a heat-resistant temperature of at least 1000 占 폚 to 1600 占 폚 (e.g., Super 3000 or the like).

When attaching the wave-type electromagnetic wave generating element piece 110, the flow hole 101 may be partially clogged, but it is formed so as not to completely block the flow of air along the flow hole 101.

In another embodiment of the present invention, an insulating plate 120 having an electromagnetic wave inflow hole 125 formed on one side of the body 100 is connected to the peripheral portion of the insulating plate 120, And a plurality of wave-shaped electromagnetic wave emitting body pieces 110 are attached to the inner wall of the metal wire 130 in the form of a lattice.

The metal wire 130 is formed of a metal material such as stainless steel, iron, or copper, and is formed in a lattice shape.

The metal wire 130 is formed so that the metal wire 130 is wound in a plate form and then rolled up to be attached to the periphery of the heat insulating plate 120 and to squeeze and cover the side surface of the metal wire 130 in a lattice formed by the metal wire 130.

Shielding effect (attenuation ratio, dB) that can be leaked by the size of the wavelength (?) Of the microwave, and the distance D between the wire and the center of the wire P).

The formula for obtaining the shield effect (dB) (see FIG. 5)

, It is appropriate to set the shielding effect to between 10 and 120 dB. If the shielding effect is large, the microwave leakage amount becomes large. If the shielding effect is small, the microwave leakage amount is reduced.

That is, as the wire center distance P increases, the shielding effect decreases, and when the diameter increases, the shielding effect increases.

The body 100 can not flow between the gratings due to the metal wire 130 formed in a lattice shape. The air flows between the gratings and directly exchanges heat with the wave-like electromagnetic wave heating element pieces 110 formed on the inner wall, Rapid heat exchange occurs with the heat conducted to the metal wire 130.

Hereinafter, the operation and operation of the heat supply device using the electromagnetic wave heating element formed in the preferred embodiment of the present invention will be described.

The heat supply unit of the present invention is formed such that only the body 100 protrudes on a pipe through which air flows through a wall surface of a device requiring air heating (hereinafter, referred to as 'heat devices').

The heating apparatuses may be variously formed with air flow tubes. The heat supply apparatus of the present invention can supply heat by installing simple components on the air flow tubes 10 of the heating apparatus through wall surfaces.

The electromagnetic wave is oscillated in the electromagnetic wave oscillator 210 when the heat supply device is operated after the heat supply device of the present invention is inserted into the heating devices and the generated electromagnetic wave is guided along the waveguide 200 to the inflow hole 105 or the electromagnetic wave inflow hole 120 And is irradiated to the inside of the body 100.

The electromagnetic waves irradiated to the inside of the body 100 reach the plurality of wave-type electromagnetic wave heating element pieces 110, and are reflected and absorbed many times and are completely absorbed.

Thereafter, when the air flows and reaches the heat supply unit, some air passes through the inlet hole 105 or the electromagnetic inlet hole 120 of the body 100, flows into the inside, and heat exchange is directly performed with the wave-type electromagnetic heating element piece 110 , And some air is heat exchanged along the outer surface of the body 100.

According to the heat supply unit using the electromagnetic wave heating element of the present invention, since the heat supply unit is formed in a single shape, the body can be installed on a pipe through which the air flows, Air flow holes or lattices, air flows into the empty space between the flow holes or the lattices, and at the same time, since the wave-like electromagnetic wave heating element pieces are scattered in a three-dimensional shape, they can be brought into contact with air and heat exchange occurs rapidly. Of the electromagnetic wave is formed in a three-dimensional shape, and the reflection and absorption are repetitively absorbed so as to be almost completely absorbed.

In particular, since the heat supply unit using the electromagnetic wave generating element of the present invention can be installed anywhere on the pipe through which the air flows, the expansion is very high and the heating is instantaneously carried out at a high temperature. It will be different from other heaters such as gas burners.

While the present invention has been described with reference to the preferred embodiments thereof, it will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

100: body 101: flow hole
105: Inflow hole 106: Electromagnetic wave inflow hole
110: wave type electromagnetic wave heating element piece 120: electromagnetic wave input hole
130: metal wire 200: wave guide
210: electromagnetic wave oscillator

Claims (4)

A body in which a plurality of flow holes are formed, a wave type electromagnetic wave heating element piece is attached to the inner wall with an adhesive, and an inlet hole is formed on one side;
And a waveguide having one side connected to the inlet hole and the other side formed with an electromagnetic wave oscillator. The method according to claim 1,
And the diameter of the flow hole is 1 to 10 mm. And a metal wire is formed in a lattice shape so as to form a space portion therein, and a plurality of wave-type electromagnetic wave heating element pieces are formed on the inner wall of the lattice-shaped metal wire, A body attached thereto;
And a waveguide having one side connected to the inlet hole and the other side formed with an electromagnetic wave oscillator. delete

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