KR20000050547A - Microwave coupling structure on Magnetron for microwave oven - Google Patents

Abstract

PURPOSE: A high frequency coupling structure of a magnetron for a microwave oven is provided to minimize heat loss and to improve efficiency by increasing an output, by transferring microwave energy to the output to the utmost when the microwave energy is generated in the magnetron. CONSTITUTION: In a high frequency coupling structure of a magnetron for a microwave oven, a circular cylinder(30) is separated in a regular interval from a strap. A coupling ring(31) composed of a metal thin plate connected to the cylinder, is closely fixed to a upper magnetic pole, so that a high frequency coupling is realized by a capacitance component.

Description

Microwave coupling structure on Magnetron for microwave oven

The present invention relates to a magnetron for a microwave oven, and in particular, when microwave energy is generated in the magnetron, microwave energy is transmitted to the output unit without loss as much as possible, thereby minimizing the loss of heat as heat and increasing the output to improve efficiency. The present invention relates to a high frequency coupling structure of a magnetron for a microwave oven to improve productivity by simplifying unnecessary manufacturing processes such as antenna shaping.

In the structure of the conventional microwave magnetron, as shown in FIG. 1, a plurality of vanes 16 are assembled and formed inside the anode main body 15 to form a resonant cavity between the anode main body 15 and the vanes 16. It is.

In addition, a strap 17 for connecting the vanes 16 in a π mode is formed, and a filament 11, which is a cathode part, is positioned at the center of the anode main body 15, and between the vanes 16 and the filaments 11. Interaction space is formed.

The hot electrons are emitted by flowing a current between the center lead 21 and the side lead 22 connected to the filament 11, and the hot electrons are emitted by the strong electric field and the permanent magnet 9 applied between the cathode and the anode. It is formed to generate high frequency energy by the magnetic field.

In addition, in order to apply the magnetic flux to the above-described working space, a magnetic closure circuit is formed of the permanent magnet 9, the upper magnetic pole 6, the lower magnetic pole 12, the yoke upper plate 7 and the yoke lower plate 8. In order to transmit the high frequency energy generated in the working space to the outside, the antenna 1 is positioned on one of the plurality of vanes 16, and the cylindrical A ceramics 2 and A seals 3, which are secured to each other, surround the antenna. It is located cheaply. An output side choke 5 is formed inside the A-sil 3 to suppress unnecessary electromagnetic waves, and a gasket 4 is formed outside the A-sil 3 to prevent electromagnetic leakage when the microwave oven is mounted. .

In addition, since the high frequency energy is not discharged to the outside is lost as heat, the cooling fin 10 for dissipating the heat is installed, the upper end shield 12 and the lower end for supporting the filament 11 for emitting electrons The shield 13 is formed, and the F seal 18, the F ceramic 20, and the ceramic space 19 form an input portion.

On the other hand, the choke coil 25 and the through type are provided in order to prevent unnecessary high frequency components leaking to the input portion along the center lead 21, the side lead 22, the lower end shield 13, and the lower magnetic pole 12, which are cathode supports. A filter circuit composed of a condenser 26 and a ferrite 24 which is an electromagnetic wave absorber are formed on the outside thereof, and the filter box 23 has a yoke bottom plate 8 to suppress high frequency and fundamental waves radiated directly from the cathode terminal. It is formed in the lower part.

The operation of the conventional magnetron configured as described above will be described with reference to FIG. 1.

First, when a current is applied to the filament 11, heat electrons are generated therein, and resonance is generated by the vane 16 and the anode main body 15, and the permanent magnet 9, the upper magnetic pole 6, and the lower magnetic pole 14 ), Microwave energy is generated by a magnetic closure circuit composed of a yoke top plate 7 and a yoke bottom plate 8, and an antenna 1 is connected to one of a plurality of vanes 16 to transfer the energy to the outside. come.

This transfers the energy generated in the plurality of resonant structures in the anode main body 15 through the strap 17 to the outside through the antenna 1 connected to one vane 16.

That is, when the magnetron operates, high frequency energy is generated by the resonance mode and the electromagnetic field formed between the vanes 16. The strap 17 is used to unite the resonance mode, and the generated energy causes the strap 17 to It is transmitted to the outside through the antenna (1).

However, this conventional magnetron has a problem in the energy transfer process through the strap 17, which is a problem that is lost as heat.

Therefore, the present invention has been proposed to solve the above problems of the prior art, and when microwave energy is generated in the magnetron, microwave energy is transmitted to the output unit without loss as much as possible to minimize the loss of heat and increase the output. The purpose of the present invention is to provide a high frequency coupling structure of a magnetron for a microwave oven to improve productivity by improving efficiency by simplifying unnecessary manufacturing processes such as antenna shaping.

Technical means of the present invention for achieving this object is a plurality of vanes are arranged radially around the anode cylindrical portion and the axial direction of the anode cylindrical portion on the inner wall of the anode cylindrical portion and a plurality of rings alternately connecting the vanes Or a magnetron for a microwave oven having a toroidal strap structure, in which a circular cylinder is spaced apart from the strap at a predetermined distance, and a coupling ring made of a metal sheet connected to the cylinder and partitioned therein is provided with an upper magnetic pole or a seal. It is characterized in that the high frequency coupling is made by the capacitive component to be fixedly attached to the airtight.

1 is a cross-sectional view of a conventional magnetron.

Figure 2 is a high frequency coupling structure of the magnetron according to the present invention.

Figure 3 (a) is a block diagram of the coupling ring according to the present invention.

(B) is an antenna configuration diagram according to the present invention.

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

30: round cylinder

31: coupling ring 32: antenna

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

Figure 2 shows a high frequency coupling structure diagram of the magnetron according to the present invention, Figure 3 (a) shows a coupling ring configuration diagram according to the present invention, (b) shows an antenna configuration diagram.

As shown in Figs. 2 and 3, the present invention is characterized in that a plurality of vanes 16 are radially arranged around the anode cylinder portion and the axial direction of the anode cylinder portion on the inner wall of the anode cylinder portion, and the vanes 16 are disposed. In the magnetron for a microwave oven having a plurality of rings or annular straps 17 which alternately connect them, the circular cylinder 30 spaced apart from the strap 17 by a predetermined distance is positioned, and the cylinder 30 and The coupling ring 31, which is made of connected metal sheets and partitions the inside thereof, is hermetically fixed to the upper magnetic pole 6 or the A seal 3.

It is also possible to form a disk-shaped metal plate in place of the circular cylinder 30 described above.

In addition, the shape of the partition member of the coupling ring 31 can be approximately pinwheel shape.

Referring to the operation and effect of the present invention configured as described above are as follows.

First, a disk-shaped antenna is positioned on the upper end of the strap 17 and the vane 16 which are constantly resonated in the π mode at regular intervals to facilitate coupling between the antenna and the high frequency energy generated in each resonance region.

And the coupling ring 31 shown in (a) of Figure 3 increases the capacitance component and the coupling between the antenna and the high frequency energy generated by being connected to the antenna 32 in order to eliminate the potential difference with the anode main body 15 Stability is improved by making it through the entire resonance mode.

Therefore, it is possible to reduce the process for shaping the existing antenna (1).

As described above, since the present invention is formed by high frequency coupling over the entire resonance mode, it is possible to increase the efficiency by increasing the output by improving the stability and also eliminating the process such as unnecessary antenna shaping of the conventional magnetron. The effect is to reduce the process.

Claims (3)

A magnetron for a microwave oven having an anode cylinder and a plurality of vanes radially arranged around the axial direction of the anode cylinder on the inner wall of the anode cylinder, and a plurality of rings or ring-shaped strap structures that connect the vanes alternately. To A circular cylinder spaced apart from the strap by a predetermined distance is positioned, and a coupling ring made of a metal thin plate connected to the cylinder and partitioned inside thereof is fixedly attached to an upper stimulus or an air seal to form a high frequency coupling by a capacitive component. The high frequency coupling structure of the magnetron for a microwave oven, characterized in that the built-in. The method of claim 1, High frequency coupling structure of the magnetron for a microwave oven, characterized in that formed in the plate-shaped metal plate instead of the circular cylinder. The method of claim 1, The shape of the partition member of the coupling ring is a high frequency coupling structure of the magnetron for a microwave oven, characterized in that formed in a pinwheel shape.