KR830000919B1 - magnetron - Google Patents

Abstract

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Description

magnetron

1 is a sectional view showing the main parts of an example of a conventional magnetron;

2 is a sectional view showing the main parts of the gasket of FIG.

3 is a sectional view showing the principal parts of an embodiment of a magnetron according to the present invention;

4 is a sectional view showing the principal parts of another embodiment of a magnetron according to the present invention;

5 is a sectional view showing the principal parts of yet another embodiment of a magnetron according to the present invention;

The present invention relates to a magnetron, in particular a gasket fixing structure for shielding leakage of high frequency output.

In general, since the magnetron generates high frequency output efficiently, it is widely used for heating or thawing foods by being installed in a microwave oven or a thawing machine.

1 is a principal part longitudinal side view which shows an example of the typical magnetron conventionally used.

In the figure, reference numeral 1 denotes an anode cylinder usually formed of, for example, oxygen-free copper, and a plurality of vanes 2 fixed radially are installed on an inner wall thereof.

The anode 3 is composed of the anode cylinder 1 and the vanes 2. In addition, (4) and (5) are the pole-shaped poles fixed to the upper and lower ends of the anode cylinder (1), the cup-shaped component (6) is above the poles (4), for example It is fixed by lead soldering or the like, and the insulator 7 is disposed on the upper portion thereof.

Moreover, on the center axis of the said anode 3, the hot electron radiation cathode 8 which is arrange | positioned in the space formed by the front-end | tip part of many vanes 2, for example, formed the thorium tungsten in spiral form is arrange | positioned, A space of a certain distance is formed between the hot electron radiating cathode 8 and the tip of the vane 2 in the working space 9.

In addition, (10) and (11) are the shield ends respectively arrange | positioned at the both ends of the hot electron radiation cathode 8, and prevent electron deviate to an axial direction.

(12a) (12b) is a side support, (12c) is a center support, and the upper end of each of them is fixed through the insulator (7), the other end is fixed and support the thermoelectron radiation cathode (8), and at the same time the operating current Supply.

In addition, (13a)-(13c) is a sealing member for fixing each said support | pillar (12a)-(12c) in the airtight state in the insulator (7), (14) the support | pillar (12a)-(12c) penetrates, An insulating spacer for preventing vibration and correcting the position of the hot electron radiation cathode 8, 15 is a sealing metal member fixed to the magnetic pole 5, 16 is a state protruding from the sealing metal member 15 An antenna 17 made of a metal rod, which is a dome of the formed insulator, and one end of which is connected to the vane 2 is inserted into the help 16.

This antenna 17 draws high frequency output to the outside. 18 and 19 are permanent magnets, respectively, and 20 and 21 are yokes for guiding the magnetic field generated by the permanent magnets 18 and 19 to the working space 9, respectively. Is an outer lead wire connected to the support posts 12a and 12c. Moreover, the LC filter circuit comprised as the coil 26 and the high voltage | capacitor 27 which were impressed through the outer periphery of the ferrite iron core 24, for example through the silicone rubber adhesive 25 at the front-end | tip part of the outer lead wire 22 is carried out. Is connected. The outer circumferential portion of the input portion including the L-C filter circuit is surrounded by the filter case 28 and shielded at high frequency. Further, 29 is a metal gasket inserted into a ring-shaped request formed in the cross section of the sealing metal member 15, the yoke 21, and the magnetic pole 5, and the gasket 29 is usually made of stainless steel wire or Metal wires, such as a brass wire, are woven into a solid shape and molded into a ring shape, and have good elasticity and conductivity.

The metal gasket 29 serves to press-contact the input end of the waveguide not shown when the magnetron is mounted in the microwave oven, and to shield the high frequency output leaking out of the waveguide at the antenna 17. Have

In the conventional magnetron configured as described above, a predetermined operating current is supplied between the external lead wires 22 and 23 to heat the hot electron radiating cathode 8, and a predetermined voltage is supplied to the anode 3. The high frequency oscillation operation is performed, and the high frequency oscillation output is radiated in the oven of the microwave oven, for example, via the waveguide at the antenna 17.

However, in the magnetron according to the above configuration, the metal gasket 29 inserted into the ring-shaped request formed by the end faces of the metal member 15, the yoke 21 and the magnetic pole 5 is a second one. As shown in the figure, the gasket 29 is generally supported by the elastic force and the frictional force of the gasket 29 itself until the input terminal of the waveguide is connected.

However, since the metal gasket 29 is a molded article made by squeezing a metal wire, the dimensional accuracy is extremely low, and the deformation during the press working is performed on the sealing metal member 15 and the yoke 21 of the portion forming the request. Since axial depression occurred, stable support of the gasket 29 was extremely difficult. In addition, when the magnetron is transported, attached, or the like, the gasket 29 may come off, and when it is attached and operated in this state, high frequency energy is leaked and radiated from the required portion, which is dangerous to the human body. It causes a lot of side effects, such as a problem of generating a radio wave, generating a spark at the output part, and causing the magnetron to become inoperable, and significantly reducing the reliability of the magnetron.

Accordingly, an object of the present invention is to provide a magnetron having improved reliability by eliminating side effects caused by dropping out of a metal gasket. In order to achieve the above object, the magnetron according to the present invention is to install a connection part for preventing the gasket from falling off at a portion in contact with the gasket of the yoke.

EMBODIMENT OF THE INVENTION Hereinafter, the magnetron which concerns on this invention is demonstrated in detail with reference to drawings.

3 is a sectional view showing the main parts of an embodiment of a magnetron according to the present invention.

Since the same symbols as the first diagram become the same elements, the description thereof is omitted.

In FIG. 3, in the part which contact | connects the gasket 29 of the yoke 30, the edge part 30a which the pole 5 side becomes larger diameter than the support 16 side is formed, and this end part The gasket 29 inserted in the request by 30a is connected.

According to such a structure, since the edge part 30a of the yoke 30 is supported by pressure-fitting the outer peripheral part of the gasket 29 as the outer diameter receiving part of the gasket 29, the fall of the gasket 29 is reliably ensured. Can be prevented.

Moreover, according to such a structure, since the outer diameter precision of the gasket 29 can be delayed to some extent, the manufacturing cost of the gasket 29 becomes inexpensive. 4 is a sectional view showing the main parts of another embodiment of the magnetron according to the present invention, and since the same symbols as those of the first diagram are the same elements, the description thereof will be omitted.

In the figure, the inclined portion 31a is formed in the portion in contact with the gasket 29 of the yoke 31 with a larger diameter than the side of the help 16 on the magnetic pole 5 side. Since the outer circumferential portion of the gasket 29 inserted in the request is pressed and supported, the dropping of the gasket 29 can be reliably prevented.

Also in this case, since the outer diameter precision of the gasket 29 can be slowed to some extent, the manufacturing cost of the gasket 29 becomes inexpensive. 5 is a cross-sectional view of main parts showing another embodiment of the magnetron according to the present invention, and the same symbols as those of the first diagram become the same elements, and thus description thereof is omitted.

In the same figure, a ring-shaped bent portion 32a protruding on the side of the support 16 is formed at a portion in contact with the gasket 29 of the yoke 32, and the bent portion 32a is used to form the inside of the request. Since the inserted gasket 29 is press-fitted and supported, the falling off of the gasket 29 can be reliably prevented, and the same effects as described above can be obtained.

Moreover, according to such a structure, it is also possible to make the thickness of the gasket 29 thin, and since the thickness of the yoke 32 can be made thin with this, material cost, manufacturing cost, etc. become inexpensive.

As described above, according to the present invention, since the dropping of the metal gasket can be reliably prevented, there are no accidents such as leakage of radio frequency energy, danger to the human body due to radiation, occurrence of radio interference and malfunction of the magnetron. It is eliminated and an extremely excellent effect can be obtained which can greatly improve the reliability of the magnetron.

Claims (1)

A positive electrode having a plurality of vanes disposed radially around the negative electrode, a magnetic pole disposed at the output side end of the positive electrode and guiding the magnetic flux of the permanent magnet to the center of the positive electrode, and a cup-shaped vacuum fixed to the central magnetic pole end; The yoke 30 and the yoke 30 and the vacuum sealing are disposed in contact with the sealing metal member 15 and the outer peripheral portion of the vacuum sealing metal member 15 of the magnetic pole end face to form a permanent magnet. A magnetron having a metal gasket 29 inserted into a request formed by an outer circumferential surface of the metal member 15, wherein the gasket 29 of the yoke 30 comes into contact with the gasket 29 to prevent the gasket from falling off. (30b) (32a) was formed, the magnetron characterized in that.

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