KR0121881Y1 - Filament supporting structure of magnetron - Google Patents

Abstract

The present invention reduces the number of fasteners and the manufacturing process, and to improve the durability by preventing vibration and shock transmitted to the filament, the magnetic poles are installed on the upper and lower ends of the anode cylinder, and the anode cylinder is fastened The lead wires are connected to the cathode cylinder, the lead wires connected to the filament mounted inside the cathode cylinder, and a fixing groove formed in the magnetic pole fastened to the cathode cylinder upper surface so that the lead wires are penetrated to support the upper end. It is a filament supporting structure of magnetron, which is composed of ceramic spacers.

Description

Magnetron filament support structure

1 is a cross-sectional view showing the structure of a general magnetron.

2 is a cross-sectional view showing a filament support structure of a conventional magnetron.

3 is a cross-sectional view showing a filament support structure of the present invention magnetron.

* Explanation of symbols for main parts of the drawings

20: anode 21: anode cylinder

22: Bain 23: Stimulation

30: negative electrode 31: negative electrode cylinder

32: negative electrode ceramic 33: lead wire

40: ceramic spacer 41: fixed groove

The present invention reduces the number of fasteners and the manufacturing process, and relates to a filament support structure of the magnetron to improve the durability by preventing vibration and shock transmitted to the filament.

As shown in FIG. 1, a general magnetron is provided with a yoke 1 having cooling fins 1a installed on an inner circumferential surface and a filter box 1b mounted on a lower surface thereof, and a center of an inner circumferential surface of the yoke 1. A positive electrode portion 2 for generating high frequency energy, a negative electrode portion 3 fastened to the lower end portion of the positive electrode portion 2, an output portion cylinder 4a fastened to an upper end portion of the positive electrode portion 2, and An output part ceramic 4b which is fastened to the upper end of the output part cylinder 4a and protruded so as to protrude to the upper center of the yoke 1, and which is fastened to the inner center of the output part ceramic 4b, and whose one end is the anode part 2 It consists of an antenna (4c) is fixed to the vanes and protruding the other end, and an antenna (4d) is fastened to the upper portion of the antenna (4c) to emit high-frequency energy.

In the magnetron, the filament fastened to the cathode part is made of thorium-tungsten (Th-W) alloy, and the impact is made in consideration of stable thermal transfer radiation and lifespan, but the impacted filament is very weak in strength. There was a defect which is easy to be disconnected even in the minute impact.

In the conventional filament support structure of the magnetron, the anode cylinder 2a is fastened to the cooling fins 1a of the yoke 1, as shown in FIGS. 1 and 2, and a plurality of inner cylinders of the anode cylinder 2a. Two vanes 2b are provided radially, and an anode part 2 formed with magnetic poles 2c for maintaining a constant interval at upper and lower ends of the vanes 2b, and an anode cylinder of the anode part 2 2a) The negative electrode cylinder 3a is fastened to the lower part, and the negative electrode ceramic 3b is mounted on the lower end of the negative electrode cylinder 3a, and one end is penetrated through the inside of the negative electrode ceramic 3b. A cathode part 3 having the other end of the lead wires 3c connected to the filament 3d, a ceramic spacer 6 fastened so that the lead wires 3c of the cathode part 3 penetrate therein; One end is fixed to the upper surface of the cathode ceramic 3b and the other end is connected to the ceramic spacer 6 It consists of a metal support rod (7).

However, the filament support structure of the conventional magnetron has a ceramic spacer connected to a metal support rod fixed to the negative electrode ceramic in order to support the lead wires for supplying electricity to the filament, but sufficient vibration and shock transmitted to the filament are sufficient. The operation was not stable because it could not be prevented, and there were many fastening parts.

An object of the present invention is to solve the conventional problems as described above, to reduce the number and manufacturing process of the fastening parts, to prevent the vibration and shock transmitted to the filament to improve the durability of the magnetron filament support structure To provide.

Hereinafter, the technical configuration of the present invention in detail.

In the filament support structure of the magnetron of the present invention, as shown in FIG. 3, the anode cylinder 21 is fastened to the cooling fins of the yoke, and a plurality of vanes 22 are radially installed on the inner circumferential surface of the anode cylinder 21. The anode part 20 is provided with magnetic poles 23 for maintaining a constant interval at upper and lower ends of the vanes 22, and the cathode part cylinder 31 is disposed below the anode cylinder 21 of the anode part 20. ) Is fastened to the lower end of the negative electrode cylinder 31, the negative electrode ceramic 32 is mounted, the other end portion of the lead wires 33 through which one end is penetrated into the inside of the negative electrode ceramic 32 Fixing grooves formed in the negative electrode portion 30 connected to the filament 34 and the lower pole 23 of the positive electrode portion 20 fastened to the upper surface of the negative electrode portion cylinder 31 of the negative electrode portion 30 ( 41, a disk-shaped ceramic fastened to the upper ends of the lead wires 33 to be supported. The configuration of the spacer 40 is characterized by its technical configuration.

This filament support structure of the magnetron of the present invention, as shown in Figure 3, in order to support the filament 34 impacted for thorium-Tungsten (Th-W) alloy for stable thermal transfer and life The plate-shaped ceramic spacer 40 is inserted into the lead wires 33 of the filament 34 so as to be firmly attached to the fastening portion between the upper end of the cathode cylinder 31 and the magnetic poles 23, thereby being transmitted to the conventional filament. The metal support rods used to prevent shock and vibration are eliminated, which reduces the fastening parts and manufacturing process, and in the present invention, the filament was unstablely supported by supporting the central portion of the lead wires. By fastening the plate-shaped ceramic spacers to be positioned, the filaments are stably supported.

As described above, the cathode support structure of the magnetron of the present invention, by fastening the disk-shaped ceramic spacer on the upper part of the lead wire of the filament, reducing the number of fastening parts and manufacturing process, vibration and shock transmitted to the filament It is useful to improve the durability by preventing.

Claims (1)

Magnetic poles installed on upper and lower ends of an anode cylinder, a cathode cylinder fastened to the anode cylinder, lead wires connected to a filament mounted inside the cathode cylinder, and a magnetic pole fastened to the upper surface of the cathode cylinder The filament support structure of the magnetron, characterized in that it consists of a ceramic spacer which is fastened to the fixing groove formed in the lead wires are passed through to support the upper end.