KR810002105Y1 - Magnetron - Google Patents

Abstract

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Description

magnetron

Figure 1 is a partially cutaway front view of an embodiment of a magnetron according to the present invention.

2 is a sectional front view of the main portion of another embodiment.

The present invention relates to the structure of the output portion of the magnetron.

In general, it is well known that the magnetron contains a large number of high frequencies in the generated microwaves, but the conventional magnetron has a structure in which electromagnetic waves are radiated to the outside while containing these high-frequency components.

And among these high frequencies, especially the 2nd high frequency is 3rd, 4th,... … … Even when compared to harmonics such as a strong one, such magnetrons are used in microwave ovens. Electromagnetic wave absorbers are being installed in order to confront the leakage of electromagnetic waves.

It is an object of the present invention to provide a magnetron that can reflect high frequency inside a magnetron and prevent radiation to the outside as a simple structure without increasing the number of parts in view of the above-mentioned conventional drawbacks.

Hereinafter, a detailed description of the present invention according to the embodiment shown in Figures 1 and 2 as follows.

1 is a partial cutaway view of an embodiment of a magnetron of the present invention. In the figure, the magnetron A has a cylindrical anode 1 and a cathode 2 placed at the central axis position of the anode 1 and oriented in the axial direction in which the long-life portion is electric. Both ends of the cathode 2 are provided with a circular flat plate 3 for preventing electrons from spreading in the axial direction. Moreover, a plurality of blade plates 4 protrude from the inner surface of the positive electrode 1 described above. The blade plate 4 surrounds the cathode 2 that has been delivered to the tip and forms a cavity. In addition, conical poles 5 and 6 are hermetically connected to upper and lower openings of the positive electrode 1, and circular holes 5a and 6a opened in the center thereof approach the flat plate 3. Doing. On the upper surface of the magnetic pole 5 described above, a funnel-shaped metal tube 7 is usually provided in close contact with its large diameter portion. The small-diameter portion of the metal tube 7 is hermetically connected to a cylindrical body, for example, a ceramic, such as ceramic, and an opening of the cup-shaped metal exhaust pipe 9 is closely connected to the upper end of the insulator 8. It is. The opening part of this exhaust pipe 9 is closely contacted and connected. The exhaust pipe 9 is usually 1/4 of the wavelength η / n of the second high frequency (n = 2,3, ...) contained in the microwave output (wavelength = η of the fundamental wave) emitted from the magnetron A. It has length 1 (= η / 4n) of length. The upper portion of the exhaust pipe 9 is covered with a metal protective cover 10 serving as an output antenna. The advantage 9a of the exhaust pipe 9 is as described in the laboratory 46-10617, and the oxygen inside the magnetron, which has been discharged from here, is discharged from here, and is then annealed by a hydraulic roller or the like. The one end 11a of the output lead 11 made of or the like is crimped and hermetically sealed. The other end 11b of this output lead 11 is connected to the blade plate 4 which has passed through the circular hole 5b opened to a part of the magnetic pole 5 and is electrically connected by soldering or the like.

As apparent from the structure of the above embodiment, the microwave generated in the resonant cavity propagates the output lead 11 to reach the exhaust pipe 9, but the exhaust pipe 9 has only a relatively small series reactance with respect to the microwave. Since it is not shown, it is copied out without failure. In contrast, for example, for a particular second high frequency, the exhaust pipe 9 has a very high series reactance, so that the second high frequency component is reflected here to significantly reduce the radiation to the outside. (Of course, in this case The strongest second high frequency is actually reduced by 10 dB or more than in the prior art. And it is clear that changing the foregoing 1 can reduce the radiation to a specific high frequency outside. In addition, as shown in FIG. 2, when the metal film 12 is attached to the inner surface of the insulator 8, which is connected to the metal exhaust pipe 9, the length 1 is set at the tip of the metal film 12. Think about it.

Here, in the foregoing embodiment, the structure having the output unit provided in the axial direction of the anode 1 is shown, but not limited to this, a hole is drilled in the side wall of the anode 1, and the transverse direction is formed outside the hole. It is also possible, of course, to provide a structure in which the output unit is provided, and is connected to the blade plate 4 in the anode 1 through a hole in which the output lead 11 is inserted into the exhaust pipe 9 of the output unit.

As described above, according to the present invention, there is an excellent advantage of obtaining a magnetron that does not radiate a specific high frequency wave to the outside. As an example in which a portion of the high frequency is prevented from being radiated to the output portion, there is a U.S. Patent No. 3,595,94. However, since it is provided outside the magnetron body, it has a special additional part. Therefore, according to such a structure, it is impossible to make it simple structure with few components like this invention.

Claims (1)

The cylindrical anode and the cup-shaped metal exhaust pipe having a depth of about 1/4 of a specific high frequency wavelength of the microwave output oscillated at a predetermined interval therebetween, and the anode connected to the opening of the exhaust pipe A cylindrical insulator interposed between the exhaust pipe and the exhaust pipe, a plurality of blade plates protruding toward the central axis on the inner surface of the anode, and airtightly sealed from outside air to form a resonance cavity, and one end connected to the profit plate. It is a magnetron with an output lead that is electrically pinched by the exhaust pipe that is electrically connected through the inside of the insulator that has the other end, and is hermetically sealed from the outside air.