DE9314617U1 - Vacuum interrupter with improved external dielectric strength - Google Patents

Description

93G4 127

Siemens AG

Vacuum interrupter with improved external dielectric strength

The invention lies in the field of electrical switches and is to be used in vacuum switching tubes which have at least one hollow cylindrical ceramic housing part and in which metal parts are soldered to a ceramic housing part on the front side via flanges.

When electrically dimensioning vacuum interrupters, attention must be paid not only to the internal dielectric strength but also to the external dielectric strength. This is usually taken into account by ensuring that the hollow cylindrical ceramic housing parts have sufficient axial length. However, as the voltage increases or designs become smaller, there are limits to this due to the size.

In order to ensure a sufficiently long external creepage path in vacuum switching tubes whose housing comprises at least one metal part and an insulating material part adjoining it in the axial direction, it has already been proposed to envelop the insulating material part made of ceramic and the metal part with a moisture-tight insulating material layer over part of their axial extension, in particular to apply a shrink tube coated with an adhesive on the inside (DE-U 84 36 701). It is also known to coat the ceramic part and the metallic areas adjacent to it with a well-adhering insulating layer by thermal spraying (DE 40 30 806 Al). These known measures can only be applied using a heat source. - The measures used to increase the external dielectric strength

Zm/Ro / 21.09.1993

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The measures provided for in order to improve the electrical strength also depend on the structural design of the switching tube housing. For example, vacuum switching tubes are commonly used in which one or two hollow cylindrical ceramic housing parts form the cylindrical area of the housing and in which metallic end parts are connected to the respective ceramic housing part via flanges. Two ceramic housing parts can be connected to one another via a flange which carries a vapor shield arranged inside the housing (DE 24 40 828 Al, DE 31 30 641 Al and DE 33 44 643 Al). The invention concerns the improvement of the external dielectric strength of such a vacuum switching tube.

Starting from a vacuum interrupter with the features of the preamble of claim 1, the invention is therefore based on the task of improving the external dielectric strength of such a vacuum interrupter using the simplest possible means. To solve this problem, the invention provides that double or multi-layer windings made of an insulating, rubber-elastic, stretchable and self-welding tape are applied to the housing in the area of the metal flanges.

The windings provided according to the invention, which only have to be applied in the area of the potential-carrying end flanges of the tube and, if necessary, also on the middle flanges, are inexpensive to produce. The insulating tape used for this purpose, a commercially available tape based on an ethylene-propylene copolymer (Scotch tape No. 23 from 3M) that is also used for the production of connecting sleeves for power cables, adapts ideally to the respective surface geometry.

93GA127 3

To ensure the improvement in dielectric strength achieved with the invention, it is recommended that the windings in the area of the end flanges be designed in such a way that the individual layers overlap each other by 80 to 90% in the direction of the switching tube center. Furthermore, the
The winding starts of the various windings should be offset from one another in the circumferential direction from metal flange to metal flange. For example, if there are three windings, an offset of 120° is recommended.

An example of the new vacuum interrupter is shown in
shown in Figures 1 to 3.
Figure 1 shows a vacuum interrupter with three windings in the area of the two end flanges and the

center flange and the

Figures 2 and 3 enlarged detail views in

Area of the respective winding.

The housing of the vacuum interrupter according to Figure 1 consists of the two hollow cylindrical ceramic insulators 1 and 2, which are soldered together via a central flange 7, the
both end flanges 3 and 4, the contact connections 5 and 6 and a bellows inside the housing (not shown in detail). The center flange 7 carries
5 a steam shield inside the housing.

The vacuum interrupter is provided with a winding 8, 9, 10 in the area of the soldering between the cap-like end flanges 3 and 4 and the ceramic insulators 1 and 2, as well as in the area of the soldering connection between the ceramic insulators 1 and 2 and the central flange 7. Each winding is wound from a rubber-elastic, stretchable and self-welding insulating tape, which becomes elastic during winding.
is stretched and thus ideally adapted to the

93GA127

adapts to the respective surface geometry. Each winding is made up of at least two layers, preferably 3 to 4 layers. To avoid an electrical weak point in the area of the winding start, the individual layers of the windings 8 and 9 are wound in the direction of the switching tube center with an overlap of around 85%. Such an overlap can also be provided for the winding 10 in the area of the center flange.

Figures 2 and 3 show, in an enlarged view, the areas critical for the external dielectric strength of the vacuum interrupter, which have been dielectrically strengthened by applying the windings 8 and 10.

are.
15

Claims (3)

93641 27 5 Protection claims 1. Vacuum interrupter with at least one hollow cylindrical ceramic housing part and with metal parts that are soldered to the ceramic housing part on the front side via flanges, characterized in that double or multi-layered windings (8,9,10) made of an insulating, rubber-elastic, stretchable and self-welding tape are applied to the housing in the area of the metal flanges (3,4,7). 2. Vacuum interrupter according to claim 1, characterized in that the individual layers of the windings (8, 9) for end flanges (3, 4) overlap each other by 80 to 90% in the direction of the interrupter center. 3. Vacuum interrupter according to claim 1 or 2, characterized in that the winding starts of the various windings (8, 9, 10) are arranged offset from one another by at least 90° in the circumferential direction from metal flange to metal flange.