KR19990014033U - Magnetron's antenna and vane coupling structure - Google Patents

Abstract

The present invention relates to a coupling structure of an antenna and a vane of a magnetron, and more particularly, to a coupling structure of an antenna and a vane of a magnetron to provide an optimal installation state by sliding the antenna to the vane.

That is, the purpose is to provide a coupling structure of the antenna and the vane of the magnetron to adjust the high frequency output of the antenna, in order to achieve the above object, the present invention is to combine the antenna to the vane of the magnetron, The vane 12 is formed with a guide portion 12a such that the lower end of the antenna 15 slides, and then welded to the guide portion 12a while the antenna 15 is slid in a proper position. will be.

Description

Magnetron's antenna and vane coupling structure

The present invention relates to a coupling structure of an antenna and a vane of a magnetron, and more particularly, to a coupling structure of an antenna and a vane of a magnetron to provide an optimal installation state by sliding the antenna to the vane.

The resonance structure of a typical magnetron will be described with reference to FIG. 1 as follows. An anode (2), a filament (1) for emitting hot electrons on the center axis of the anode (2), a plurality of vanes (3) formed radially inside the anode (2), and the anode (2) A magnet (5) installed at the top and the bottom to generate a magnetic force line, and an upper pole piece and a lower pole piece (4) (41) for receiving a magnetic force line from the magnet (5) to form a magnetic field in a vertical direction; The antenna 8 is welded to the installation groove 3a of the vane 3 to protrude electromagnetic waves to the outside.

The operation of the magnetron configured as described above causes the release of hot electrons when the filament 1, which acts as a cathode, is heated, which is generated by the electric field and the magnets (5) (51) and the upper and lower pole pieces (4) (41). It is attracted while rotating toward the vane 3 by the action of the magnetic field. At this time, the tip of the vane (3) is the end of the resonant circuit is induced (+) or (-) charge, so that the electrons rotate in the working space is gathered like a change, the rotation angle frequency and vanes ( 3) When the resonant frequency of the resonant circuit composed of the spaces between them is synchronized, the oscillation continues safely.

In other words, the resonant circuit is caused by the capacitor C due to the space between the strap rings and the inductance L by the capacitor, vanes 3 and the anode 2 itself, due to the space between the strap rings and the vanes 3. Is configured ( ) 2,450 MHZ, the oscillation frequency of magnetron, is generated.

By the way, in the related art, although the output of the high frequency varies depending on the installation position of the antenna 8, as shown in the enlarged view of FIG. 1, the narrow installation groove 3a of the vane 3 to which the lower end of the antenna 8 is fitted. ) Is already formed, there is a problem that the antenna 8 cannot be adjusted when the output of the high frequency emitted from the antenna 8 is low or high.

The present invention was created in view of the above problems, and formed a guide part such that the lower end of the antenna slides on the vane, and then welding the antenna in a state where the antenna is slid to the guide part. Its purpose is to provide a coupling structure between the magnetron and the vane to adjust the output.

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

Figure 2 is an exploded perspective view of the main portion showing the coupling state of the antenna and the vane according to the present invention.

Figure 3 is a sectional view of the main part showing a coupling state of the antenna and the vane according to the present invention.

Explanation of symbols for the main parts of the drawings

12: vane 12a: information desk

15: antenna 15a: home

In order to achieve the above object, the present invention combines an antenna to a vane of a magnetron, and forms a guide part such that the lower end of the antenna slides on the vane, and then slides the antenna at an appropriate position on the guide part. It is characterized by welding.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the present invention in detail as follows.

Figure 2 is an exploded perspective view of the main portion showing the coupling state of the antenna and the vane according to the present invention, Figure 3 is a cross-sectional view of the main portion showing a coupling state of the antenna and the vane according to the present invention.

Referring to the resonance structure of the magnetron, an anode 10, a filament 11 for emitting hot electrons on the center axis of the anode 10, and a plurality of vanes radially provided inside the anode 10 12), a magnet (not shown) installed at upper and lower ends of the anode 10 to generate a magnetic force line, and an upper pole piece and a lower pole piece that receive magnetic force lines from the magnet to form a magnetic field in a vertical direction ( 13) 14 and an antenna 15 welded to the vanes 12 to project electromagnetic waves to the outside.

Herein, the coupling structure of the vane 12 and the antenna 15 will be described in more detail. As illustrated in FIG. 2, a guide part 12a is formed at an upper end of the vane 12, and the guide part 12a is provided. The guide groove 15a is formed to slide along the guide portion 12a at the lower end of the antenna 15 corresponding to the state, and then the guide groove 15a of the antenna 15 slides on the guide portion 12a. In this case, power is applied to the antenna 15 to weld the antenna 15 to the silver component coated on the antenna 15.

The above description is only one embodiment of the present invention, the configuration of the present invention can be changed any number within the scope of the subject matter.

Referring to the operation of the subject innovation configured as described above in detail.

In the coupling structure of the vane 12 and the antenna 15 of the magnetron, the guide groove 15a at the bottom of the antenna 15 is inserted into the guide portion 12a of the vane 12, and then the antenna 15 While guiding the guide groove (15a) to the guide portion (12a) to adjust the optimum state of the high frequency.

Then, when the power is applied to the antenna 15, the lower component of the antenna 15 is welded to the vanes 12 while the silver component coated on the antenna 15 is melted.

That is, the high frequency output of the magnetron is maintained in an optimal state by sliding the guide groove 15a of the antenna 15 to the guide portion 12a of the vane 12 to ensure a desired high frequency output.

Therefore, the present invention forms the guide portion 12a such that the lower end of the antenna 15 slides on the vane 12, and then welds the antenna 15 to the guide portion 12a in a proper position. By doing so, there is an effect that the high frequency output of the antenna 15 can be adjusted.

Claims (1)

In coupling the antenna to the vanes of the magnetron, The vane 12 is formed with a guide portion 12a such that the lower end of the antenna 15 slides, and then welded to the guide portion 12a while the antenna 15 is slid in a proper position. Coupling structure of magnetron antenna and vane.