KR100385738B1 - Shield strap ring for magnetron - Google Patents

Abstract

PURPOSE: A shield strap ring is provided to effectively prevent an escape of thermal electrons by arranging a disk type shield strap ring on the top of a cathode. CONSTITUTION: A magnetron comprises vanes(2) arranged along the inner surface of an anode(1); a strap ring(3) for interconnecting the vanes through a tuning circuit; a cathode(4) disposed at the center axis of the anode; and a filament(5) taken up along the cathode. The inner strap ring fixed at the top of the anode is arranged as a disk type so as to cover the top of the space formed in the vanes and prevent an escape of thermal electrons.

Description

Magnetron shield strapping

The present invention relates to a magnetron capable of radiating microwaves used to heat food and the like as a core part of a microwave oven, and in particular, the deviation of hot electrons from a working space in which hot electrons emitted from the cathode 4 are accelerated. A shield combined strap ring (3) for preventing.

Magnetron is a kind of microwave tube for generating microwaves, usually cylindrical anwood (1) and the cathode (4) located in the central axis of the anode (1) and the filament surrounding it When the magnetic field is applied perpendicularly to the electric field, when the magnitude of the magnetic field exceeds a certain threshold, the anode current decreases rapidly and the magnetic field of the hot electrons emitted from the cathode 4 by the heating of the filament 5. The internal oscillation causes oscillation similar to cyclotron radiation that emits electromagnetic waves according to the centripetal acceleration of electrons due to the spiral movement of electrons in the magnetic field, and divides the anode wood (1) into n and synchronizes therebetween. It is a magnetron that is widely used to increase the efficiency of oscillation by connecting to a circuit.

Such a conventional magnetron connects ten vanes 2 directly to the inner side of a cylindrical inwoodwood 1 to form a ten-parted annwood 1, and has a strap ring 3 for tuning them. Each vane 2 is formed by alternatingly connecting the adjacent vanes 2 so as to have a different micropotential difference, and forming a magnetic field perpendicular to the vanes 2 above and below the cylindrical anods 1, respectively. Magnet 8 was mounted.

In addition, the hot electrons emitted by the heating of the filament 5 wound around the upper end of the cathode 4 so as not to leave the working space formed by the intersection of the horizontal electric field and the vertical magnetic field are maintained. In order to form the top shield (6).

However, as shown in FIG. 2, the top shield 6 in this conventional magnetron is formed integrally with the cathode 4 so as to avoid contact with the end of the vane 2 positioned adjacent thereto. The size is limited, and accordingly, the space is separated by a predetermined distance between the top shield 6 and the vane 2, and there is a problem in that the hot electrons deviate therebetween, thereby decreasing the efficiency of the magnetron.

Accordingly, the present invention is devised to solve such deviation from the working space of the conventional hot electrons, and instead of forming the top shield 6 for preventing the deviation of the hot electrons in the upper end of the conventional cathode 4, An object of the present invention is to provide a shield combined strap ring 3 made of a disc.

According to the present invention having the above object, the inner strap ring 3 mounted on the upper end of the vane 2 of the annular strap rings 3 in the conventional magnetron has a disc shape.

In addition, the present invention is to cover the top of the working space formed inside the vane (2) with the disk-shaped strap ring (3).

In addition, the present invention completely covers the upper portion of the cathode 4 to suppress the hot electrons emitted from the cathode 4 from deviating from the working space.

Hereinafter, the configuration will be described in detail with reference to the accompanying drawings.

The shield strap ring 3 of the magnetron according to the present invention has a vane 2 mounted on an inner surface of the anodwood 1 made of anoxic copper and a ring-shaped connecting vane 2 to a tuning circuit. The annular strap in a conventional magnetron consisting of a strap ring 3 and a cathode 4 located in the center of the vane 2 and a filament 5 mounted to wind around the cathode 4. The inner strap ring 3 fixed above the anode 1 of the ring 3 is replaced with a disc to prevent deviation of hot electrons from the working space formed below it.

Thus, the top shield 6 formed at the top of the cathode 4 in the conventional magnetron loses its meaning of existence, thus simply a simple linear cathode 4 to the extent that the filament 5 can be fixed. It can be formed as. This is because the cathode 4 is not deformed even at a high temperature and the physical properties such as electrical conductivity must not change, so that the cathode 4 is formed from a material having a very high melting point such as tungsten. It means that the production of the cathode 4 according to the molding method can be simplified, and can significantly alleviate the difficulty of molding.

Since the strap ring 3 is made of a relatively easy-to-handle metal such as anoxic copper and the like as the anode 1, it is obvious that the strap ring 3 can be easily formed even if the shape is complicated.

The shield strap ring 3 according to the present invention is applied only to the upper end of the anode wood (1), and the lower end of the anode wood (1) is attached to the lower end of the anode wood (1) Emission of hot electrons through is not considered in the present invention.

As described above, the disk-shaped strap ring 3 according to the present invention as described above is directly fixed to the upper end of the vanes 2 to form a minute potential difference between the vanes 2 and at the same time the vanes 2. By connecting the interconnects alternately to form a tuning circuit and covering the entire upper part of the working space formed below, the heat electrons emitted from the cathode 4 by heating by the filament 5 The effect of effectively suppressing deviations from the working space is provided.

In addition, the present invention does not form the top shield 6 formed on the upper end of the cathode 4 in the conventional magnetron by satisfying the conditions such as the heat resistance of the cathode 4 and the maintenance of electrical conductivity, etc. In sintering 4) with tungsten, the shape of the cathode 4 can be simplified, thereby simplifying the sintering process and improving productivity.

Although the present invention has been described in detail only with respect to the above-described embodiments, it will be apparent to those skilled in the art that the present invention may be changed or modified within the spirit and scope of the present invention, and such changes or modifications are attached to the appended claims. Should be limited by

1 is a partial cutaway perspective view schematically showing a conventional magnetron.

2 is an enlarged cross-sectional view showing a portion of a working space centered on a cathode in a conventional magnetron.

3 is an assembly diagram showing a state in which the vanes are connected with the shield strap ring according to the present invention to cover the upper portion of the working space.

Figure 4 is a cross-sectional view showing a state covering the top of the working space by connecting the vanes with the shield strap ring according to the present invention.

** Description of symbols for the main parts of the drawings

1: anodwood 2: vane 3: strapping

4 cathode 5 filament 6 top shield

7: end shield 8: magnet

Claims (1)

A vane 2 mounted on the inner surface of the anodized wood 1 made of anoxic copper having a cylindrical shape, a ring-shaped strap ring 3 connecting the vanes 2 to a tuning circuit, and a center of the vane 2 Above the annwood 1 of the annular strap ring 3 in a conventional magnetron consisting of a cathode 4 positioned at and a filament 5 mounted around the cathode 4. Shield strap of the magnetron to replace the fixed inner strap ring (3) in the shape of a disc to prevent the deviation of the thermoelectricity from the working space formed below.