KR20050015837A - capacitor - Google Patents

Abstract

PURPOSE: A through-hole type condenser is provided to remove slush generated during a welding operation by welding a penetrating conductor on a ground plate. CONSTITUTION: A condenser includes a ground plate(100), a condenser element, a penetrating conductor(300), an insulating case(500), and insulating tube, and an insulating resin. The ground plate includes a rectangular flange exposed therefrom. The rectangular flange includes a penetrating hole at the center. The condenser element is implemented on the rectangular flange and includes penetrating holes at left and right sides. The penetrating conductor is implemented to penetrate the penetrating hole of the condenser element and is made of a tap portion(310) and a penetrating portion(320). An electrode connector is laminated on a periphery of the tap portion. The insulating case is coupled with the condenser element to enclose the penetrating conductor. The insulating tube encloses the penetrating portion of the penetrating conductor. The insulating resin is condensed inside the insulating case and the ground plate.

Description

Through Capacitor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a through capacitor, and more particularly, to a through capacitor for resonance driving a magnetron of a magnetron device used in a large power electromagnetic wave device such as a microwave oven or the like.

In general, during the oscillation of magnetrons used in high-powered electromagnetic wave equipment such as broadcasting equipment and microwave ovens, several frequencies are incidentally generated as noise, and these noises are leaked to the outside along the power supply line or radiated to space. It causes noise and malfunction in the peripheral device, and it is used to eliminate the through-type capacitor.

Referring to the general structure of such a through-type condenser, as shown in FIG. 1, the center plate includes a ground plate 10 having a rectangular flange 11 having a through hole 11a formed therein.

Condenser elements 20 having through holes 21 and 22 formed on the left and right sides of the ground plate 11 are positioned above the rectangular flanges 11, and the through holes of the condenser elements 20 include tab portions ( A through conductor 30 consisting of a 31 and a through portion 32 is provided through.

That is, the tab portion 31 of the through conductor 30 is positioned above the through holes 21 and 22 of the condenser element 20, and the through portion 32 is positioned below.

Meanwhile, the electrode connector 40 is integrally provided on the outer peripheral surface of the lower portion of the tab portion 31 of the through conductor 30, and an insulating tube 50 is inserted into the outer peripheral surface of the through portion 32.

An insulating cover 60 is inserted into a lower portion of the above-described ground plate 10, and an insulating case 70 is assembled in an upper portion thereof.

In addition, the insulating resin (not shown) is filled in the upper and lower portions of the above-described ground plate 10, thereby fixing the above-described parts integrally in an insulating state.

However, these conventional through-type capacitors have problems listed below.

First, since the insulating tube 50 and the insulating cover 60 must be provided to protect the through part 32 of the through conductor 30, there is a problem of causing a cost increase due to the increase in the number of parts.

Second, since the insulating tube 50 and the insulating cover 60 should be provided respectively, there is a problem that causes a decrease in assembly workability due to an increase in the number of assembly operations.

Third, since the above-mentioned element, that is, the capacitor element 20 is typically SnPb welded, since lead is welded as a main component, slush is generated in the welding process, and accordingly, a washing process for removing the slush must be accompanied separately. The problem is inherent.

The present invention has been made to solve such a conventional problem, it is possible to improve the assembly workability by reducing the cost and the number of assembly labor due to the reduction of the number of parts, in particular by changing the welding method of the body, that is, the capacitor element The purpose of the present invention is to provide a through-type condenser that can suppress the occurrence of slush so that the cleaning process can be eliminated, thereby improving the assembly workability.

In order to achieve the above object, the through-type condenser according to the present invention comprises: a ground plate having a rectangular flange with a through-hole formed therein; A condenser element positioned above the rectangular flange of the ground plate and having through holes formed at both left and right sides thereof; A through-conductor installed to penetrate the through-hole of the condenser element, the tab portion positioned at the upper portion of the condenser element, and a through portion positioned at the lower portion thereof, and a through-conductor having an electrode connector integrally formed on an outer circumferential surface of the tab portion; An insulation case coupled to the upper portion of the condenser element to surround the through conductor; An insulating tube surrounding the through part of the through conductor in a predetermined length range; And an insulating resin filled in the insulating case and the ground plate to integrally fix each part in an insulating state.

One preferred feature of the present invention is that the insulating tube extends to a portion adjacent to the lower end of the penetrating portion.

Another desirable feature of the present invention is that the electrode connector is SnZnBi welded to the outer surface of the through conductor and the rectangular ground plate.

Such a characteristic configuration and the resulting effects of the present invention will become more apparent from the following detailed description of the invention with reference to the accompanying drawings.

2 is a perspective view of a through-type capacitor according to the present invention, Figure 3 is an exploded perspective view, Figure 4 is a cross-sectional view.

As shown therein, the through-type condenser according to the present invention includes a ground plate 100, a condenser element 200, and a through conductor 300, an insulation case 500, an insulation tube 600, and an insulation resin 700. It is roughly divided into).

The ground plate 100 is formed of a metal, and a rectangular flange 110 having a through hole 111 formed in a central portion thereof in a rectangular shape is protruded.

The condenser element 200 is positioned above the rectangular flange 110 of the ground plate 100, and in particular, through holes 210 and 220 having predetermined diameters are formed at both left and right sides thereof.

The through conductor 300 is installed through the through holes 210 and 220 formed at both the left and right sides of the condenser element 200, respectively. The through conductors 300 are located at the upper portion of the tab portion 310 and the lower portion of the through hole 210 and 220, respectively. It is defined by the penetration portion 320 is located.

In particular, the electrode connector 400 is integrally provided on the outer peripheral surface of the lower portion of the tab portion 310 of the through conductor 300.

On the other hand, the above-described condenser element 200 is welded to SnZnBi without welding with SnPb on the ground plate 100 as in the prior art, and thus no slush is generated in the welding process and as a result, the cleaning process can be deleted in the process. Will be.

The insulating case 500 is coupled to surround the through-conductor 300 on the ground plate 100, and serves to protect the tab 310.

The insulating tube 600 is coupled to the penetrating portion 320 of the through-conductor 300 exposed to the lower portion of the through-hole 210 and 220 of the condenser element 200 in a predetermined length to cover and protects the same. The length range is wrapped to a position adjacent to the lower end of the through part 320 to act as a conventional insulating cover.

On the other hand, the insulating resin 700 is filled to the inside of the above-mentioned insulating case 500 and the inside of the ground plate 100 and cured to perform the function of integrally fixing each of the above components in an insulating state.

The through-type condenser according to the present invention configured as described above is coupled to the condenser element 200 with the electrode connector 400 and the insulating tube 600 mounted on the through-conductor 300, and insulated from the ground plate 100. One assembly is obtained by filling the insulating resin 700 while being coupled to the case 500.

At this time, the through part 320 of the through conductor 300 is protected by the insulating tube 600, thereby eliminating the need to use an insulating cover as in the prior art, thereby reducing the number of parts and the number of assembly operations.

In addition, when the welding between the condenser element 200 between the through conductor 300 and the ground plate 100 is welded with no-clean Pb-free solder method, that is, SnZnBi welding, slush does not occur as compared with welding with conventional SnPb. The cleaning process can be deleted.

On the other hand, the above-described embodiment is only a description of one preferred embodiment of the present invention, the scope of the present invention is not limited to such, it will be known to those skilled in the art that can be appropriately changed within the scope of the same idea. It may be true.

As described above, according to the through-type condenser according to the present invention, it is possible to protect the through part of the through-conductor only through the insulating tube. There is an advantage that can improve the assembly workability.

In addition, by welding the condenser element between the through-conductor and the ground plate to a clean Pb-free solder, that is, SnZnBi welding, it is possible to remove slush generated when welding through conventional SnPb, and consequently no cleaning process is involved. This also has the effect of improving workability.

1 is an exploded perspective view of a conventional through-type capacitor.

2 is a perspective view of a through-type capacitor according to the present invention.

3 is an exploded perspective view.

4 is a sectional view.

<Description of Signs of Major Parts of Drawings>

100: ground plate 110: rectangular flange

111 through hole 200 condenser element

210,220: Through hole 300: Through conductor

310: tab portion 320: through portion

400: electrode connector 500: insulated case

600: insulating tube 700: insulating resin

Claims (3)

A ground plate on which a rectangular flange with a through hole formed in the center thereof protrudes; A condenser element positioned above the rectangular flange of the ground plate and having through holes formed at both left and right sides thereof; A through-conductor installed to penetrate the through-hole of the condenser element, the tab portion positioned at the upper portion of the condenser element, and a through portion positioned at the lower portion thereof, and a through-conductor having an electrode connector integrally formed on an outer circumferential surface of the tab portion; An insulation case coupled to the upper portion of the condenser element to surround the through conductor; An insulating tube surrounding the through part of the through conductor in a predetermined length range; And an insulating resin filled in the insulating case and the ground plate to integrally fix each component in an insulating state. The method of claim 1, The insulated tube extends to a portion adjacent to the lower end of the through-hole condenser. The method of claim 1, The electrode connector is a through-type capacitor, characterized in that the SnZnBi welding fixed to the outer surface of the through conductor and the rectangular ground plate.