KR920005447Y1 - High voltage capacitor - Google Patents

Abstract

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Description

Through Condenser

1 is a cross-sectional view showing a conventional through-type capacitor.

2 is an exploded perspective view of FIG.

3 is a longitudinal sectional view showing a through-type capacitor according to the present invention.

4 is an exploded perspective view showing the main part of the present invention in FIG.

* Explanation of symbols for main parts of the drawings

1A: Ground plate 12: Through hole

2A: condenser element 21: large diameter part

22: small diameter 23: step

The present invention relates to a through-type capacitor of a magnetron device used in a high-power electromagnetic wave device such as a broadcasting device or a microwave oven, and more particularly, the assembly operation is easy because the number of parts of the through-type capacitor is reduced and the position of the through-conductor is easily fixed. The present invention relates to a through-type capacitor that can improve efficiency.

Microwaves required for broadcasting equipment, microwave ovens, etc. are usually obtained from magnetron devices.

Such a magnetron device applies an accelerating voltage (approximately 4.2KV) to a magnetron in a shielded shield case to obtain a very high frequency (basic wave: 2.45 GHz), which is obtained through an oscillating circuit by a through-type capacitor and a coil.

The through-type capacitor related to this technique is composed of the first and second degrees.

On top of the embossing projection 11 of the ground plate 1, the condenser element 2 and the two electrode brackets 3 are arranged and fixed in turn, and two through-conductors 4 are fitted and fixed in the vertical state on the inner surface thereof, respectively. The ground plate 1 and the through conductor 4 are inserted from the lower end of the insulating case 5 and a separate insulating cover 6 is inserted from the lower inner surface of the ground plate 1 to fix the insulating case 5. And an insulating resin 7 is filled on the inner surface of the insulating cover 5.

The conventional through-type condenser has separate through-conductors 4 and electrode fittings 3, so that the number of parts and the manufacturing process are complicated, thereby increasing the cost.

In addition, the through-conductor 4 is provided as a flat terminal portion 41 having a locking step 42 and a cylindrical through-starting portion 43, each attached separately by soldering. And productivity fell and it became a cost increase.

In particular, since the fixing structure of the through conductor 4 is not provided at all in the ground plate 1, the through conductor 4 to which the electrode bracket 3 is soldered and fixed is well tilted in parallel with the through hole of the condenser element 2. When the fastening voltage was applied to the through conductor 4, the insulation resin 7 was deteriorated due to the discharge between the through conductors 4 and shorted between the through conductors 4, thereby causing a fatal defect.

In addition, the lead flows between the trunk conductor 4 and the electrode fittings 3 bury the outer and inner walls of the condenser element 2 to act as a deadly element of the discharge of the through conductor 4 upon application of an accelerating voltage.

The present invention has been made to solve the conventional problems as described above, the purpose is to provide a fixed structure in which the embossing projection and the condenser element of the ground plate is fitted to each other, the assembly work is easy and the through conductor is inclined and assembled The present invention provides a through-type condenser that can improve productivity.

In order to achieve the above object by the present invention to provide a through hole for fixing the position of the condenser element in the embossing projection of the ground plate and to provide a through-type capacitor in which the cylindrical having a stepped jaw condenser element is fixed.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

That is, according to the present invention, as shown in FIGS. 3 and 4, two through holes into which the small diameter portion 22 of the condenser element 2A fits on the upper end surface of the embossing protrusion 11A of the ground plate 1A ( 12) is laid, the condenser element 2A has a large diameter portion 21 and a small diameter portion 22 formed by the short edge 34, and the through-conductor hole 24 is laid in the center of the cylinder.

On electrodes are formed in the step 23 and the through-conductor hole 24 of the capacitor 2A, respectively.

The present invention constituted as described above inserts the small diameter portion 22 of the capacitor element 2A into the through hole 12 of the ground plate 1A, thereby condensing the element 2A on the top surface of the embossing projection 11A of the ground plate 1A. After the silver electrode formed on the step 23 is connected, the through pillar 43 of the through conductor 4 is inserted into the through conductor hole 24 of the condenser element 2A, and the embossing of the ground plate 1A is performed. After assembling the insulating case 5 and the insulating cover 6 from the up and down direction on the inner and outer surfaces of the protrusion 11A, the insulating resin 7 is filled into the insulating case 5 and the insulating cover 6 and molded. The through type capacitor is obtained.

As described above, the small diameter portion 22 of the condenser element 2A is fixed to the through hole 12 of the ground plate 1A, so that the condenser element 2A and the through conductor 4 are inclined to one side and assembled. There is no worry.

Therefore, the assembly operation and the manufacturing process are facilitated, and the work efficiency and productivity are improved, thereby reducing the cost.

Claims (1)

The insulating case 5 and the insulating cover 6 are fitted to the inner and outer surfaces of the embossing protrusion 11 of the ground plate 1, and the capacitor element 2 and the electrode are disposed on the upper surface of the embossing protrusion 11 of the ground plate 1. In the through-type condenser in which the metal fittings 3 and the through-conductors 4 are arranged and molded and molded into the insulating resin 7, the ground plate 1A is formed on both sides of the embossing projection 11A in a circular through-hole 12. 2. The through-type capacitor is characterized in that the capacitor element (2A) has a large diameter portion (21) and a small diameter portion (22) formed by a step (23), and a through-conductor hole (24) is laid in the center thereof.