KR101622203B1 - Mesh type waveguide for microwave - Google Patents

Abstract

The present invention relates to a meshed waveguide for microwave transfer and, more specifically, to a meshed waveguide for microwave transfer capable of improving durability by preventing the leakage of a microwave by forming a waveguide wherein the microwave oscillated from a microwave oscillator can be guided and transferred to an activated object in a mesh shape, and by not adding a thermal shock to the microwave oscillator by removing heat and moisture. According to the meshed waveguide for microwave transfer of the present invention, a body is formed in a mesh shape and the microwave is not leaked. An internal heat is escaped since air flow can be generated. A conductive area becomes smaller and a reverse heat is eliminated. Therefore, the microwave oscillator is less affected. Even if the moisture is infiltrated, the moisture is discharged to the outside by a space between meshes formed on the body. Thus, the microwave oscillator is not affected by the moisture. The meshed waveguide is light since the body is formed as the mesh shape. The installation is simple since the mechanical transformation is easy. A flange (10) is formed on both sides of the meshed waveguide. A square body shaped body (20) is formed on the center.

Description

[0001] MESH TYPE WAVEGUIDE FOR MICROWAVE FOR MICROWAVE TRANSFER [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mesh type waveguide for microwave transmission, and more particularly, to a wave type waveguide for microwave transmission, in which a microwave oscillated from a microwave oscillator is guided to an object to be activated, The present invention also relates to a mesh-type plate pipe for microwave transfer capable of enhancing durability by preventing heat and humidity from being applied to the microwave oscillator.

A microwave is an electromagnetic wave having a frequency of 1 GHz to 30 GHz, and the electromagnetic wave in this frequency band has a wavelength of 1 mm to 30 cm.

Conventional microwaves can be used for broadcast, communication, radar, microwave, and ground surface photographing, and various applications such as utilization of self-location information are being utilized.

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

The conventional waveguide passes through the waveguide until the microwave generated by the conventional microwave oscillator is transmitted to the heating element. The conventional waveguide is formed in a square box shape with both sides opened by metal material, and flanges for connection are formed at both ends.

A conventional technique for waveguide for microwave transport is disclosed in Korean Patent Registration No. 1420246.

However, conventional waveguides for microwave transport, particularly waveguides used in high-temperature microwave heating elements, have the following problems.

(1) The high temperature transferred from the microwave heating element is transmitted not only by the convection inside the waveguide but also by the conduction, which affects the microwave oscillator and shortens the service life.

(2) Moisture flows from the end of the waveguide to the microwave oscillator through the inside of the waveguide, which seriously affects the durability.

In order to solve the above-described problems, the present invention is characterized in that a flange is formed on both sides thereof, and a rectangular box-shaped body is formed in the center, and a metal wire having a diameter (D) ), As shown in Fig.

The wire center distance P and the diameter D of each wire are determined by selecting the amount by which the shielding effect of a wavelength (?) And a predetermined amount (dB) or less of the corresponding microwave can occur.

According to the mesh-type waveguide for microwave transfer of the present invention, the following effect occurs.

(1) Although the body is formed as a mesh type, the microwave is not leaked. However, the airflow may be generated, thereby reducing heat inside the microwave oven.

(2) Even if moisture is introduced, the microwave oscillator is not influenced by moisture because the microwave oscillator flows out to the outside due to the space between the meshes formed on the body.

(3) It is formed as a mesh type and is lighter and easier to be installed because of easy mechanical deformation.

1 is a perspective view of a conventional wave guide;
2 is a perspective view of a mesh type waveguide for microwave transport of the present invention.
3 is an enlarged perspective view of a body portion of a mesh type waveguide for microwave transport of the present invention.

A flange 10 is formed on both sides of the body 20 and a body 20 having a square box shape is formed at the center of the body 20. The body 20 has a metal wire 22 having a diameter D of 0.2 to 0.5 mm, And are spaced apart from each other by a center distance P,

The wire center distance P and the diameter D of each wire are determined by selecting the amount by which the shielding effect of a wavelength (?) And a certain amount (dB) of the microwave can occur.

The flange 10 is made of a metal material and is formed to be able to support both ends of the body 20.

A microwave oscillator may be attached to one side of the flange 10 and a body portion of a heating element may be attached to the other side.

The body 20 is formed by forming a metal wire 22 in a lattice shape and then forming it into a box shape or a metal pipe of a letter shape at each corner portion and forming metal wires 22 ) Can be formed by attaching a wire panel woven with a wire.

The body 20 may be formed by squeezing the metal wire 22 widely and rolling it into a circular shape.

Shielding effect (attenuation ratio, dB) which 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)

, 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 inventor of the present invention is based on the assumption that the wavelength λ is about 328 to 360 mm or 122 to 150 mm, and it is appropriate to configure the attenuation ratio to 50 dB or less.

Hereinafter, the operation of the mesh-type waveguide for microwave transport formed in a preferred embodiment of the present invention will be described.

When the microwave oscillator is operated, a microwave is generated, and the microwave oscillated is moved along the waveguide.

When the microwave is moved as described above, the microwave heating element formed at the end of the wave guide is activated and heated, and the heat moves along the wave guide.

At this time, due to the interval between the lattices formed on the body 20 of the waveguide, the moisture and the high heat are discharged or escaped to the outside, and the heat flowing backward is dissipated, and the contained moisture is also removed.

However, due to the shielding effect, microwaves can never move and can be moved.

According to the mesh-type waveguide for microwave transfer according to the present invention, the body is formed as a mesh type so that microwaves are not leaked. However, since airflow may be generated, internal heat is removed, Therefore, the microwave oscillator is less influenced by the humidity because the microwave oscillator has a small influence and the moisture flows out to the outside due to the space between the meshes formed on the body. Therefore, the microwave oscillator is formed as a mesh type, It is easy to deform and the installation is easy.

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.

10: flange 20: body
22: metal wire

Claims (4)

delete delete A flange is formed on both sides thereof, and a rectangular box-shaped body is formed in the center. The body is formed in a lattice such that a metal wire having a diameter (D) of 0.2 to 0.5 mm is spaced apart from the wire center distance P,
The wire center distance P and the diameter D of each wire are determined so as to be determined by the following equation by setting the wavelength (λ) of the microwave and the amount (10 to 120 dB) capable of generating the shielding effect (B) And,

Wherein the body is formed with a metal pipe having an a-letter shape at each corner, and a wire panel welded with a metal wire is welded to both sides of the pipe to join the end of the metal panel to the mesh type waveguide. delete

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