EP0225840A1 - Surge arrester with a connector part for medium tension switch systems - Google Patents

Abstract

The surge arrester with a plug connector part (1) is used in medium voltage switching stations. Its arrester stack (4) is in an earthed casing (3) filled with SF6, which is sealed at the top by an insulating bushing (6). In addition the live end (9) of the arrester stack (4) is surrounded by a hoodlike shielding electrode (11) with a rounded rim (13). <IMAGE>

Description

The invention relates to a surge arrester with plug-in connection part for medium-voltage switchgear, in which the arrester stack is arranged spring-loaded in a gas-tight, gas-filled, cylindrical housing and the conductor leading to the arrester stack has an insulating bushing which connects to the plug-in connection part, passes through and with Head of the plug connector is in contact.

Such a surge arrester is known from DE-OS 34 11 735. In this known surge arrester with plug-in connection part, the insulating bushing which is penetrated by the conductor leading to the arrester stack surrounds the gas-tightly sealed housing in which the arrester stack is located. This housing consists of a porcelain tube closed at the ends and is filled with gas, namely nitrogen. It also has an overpressure relief device. To the surge arrester part of the known surge arrester, which is surrounded by the insulating bushing, plug connectors for medium-voltage switchgear assemblies of different design are connected in such a way that the conductor of the plug connector part is in contact with the conductor leading to the arrester stack. The plug connection parts are in particular provided with a cone and can also be angled.

In this way, in the known surge arrester, one and the same arrester part is connected to different plug connection parts, so that the surge arrester in can be easily installed or replaced in existing systems. Due to the special constructive design of the insulating bushing, which still surrounds the housing of the arrester stack on all sides, the space required for the arrester part is relatively large.

Furthermore, it is known from GB-PS 13 14 597, for surge arresters for high voltage, the arrester stack of which is located in a housing filled with SF₆, to provide annular shield electrodes with rounded end edges, which are electrically conductively connected to the voltage-side end of the arrester stack and the upper ones Surround part of the arrester stack at a distance. This known field control enables a smaller diameter for the housing of the surge arrester.

The present invention has for its object to provide a surge arrester with plug connector for medium-voltage switchgear in a simple manner so that the required space is low.

To solve this problem, in the case of a surge arrester with a plug connection part of the type described in the innovation, the insulating bushing closes off the grounded cylindrical housing and extends only above the conductor stack surrounded by SF₆, the voltage-side end of which is electrically conductively connected to an annular shield electrode with a rounded end edge , which surrounds the upper part of the arrester stack at a distance.

The space requirement of this surge arrester is therefore determined solely by the distance required between the arrester stack and the grounded cylindrical housing, which can be selected small because the interior of the housing is filled with SF₆ and the voltage at the voltage-side end is controlled by means of an annular shield electrode. Thereby the high tensile strength given when filling with SF₆, alone or in a mixture with other gases, can be used effectively. The arrester part of a surge arrester constructed in this way is also a closed component, which can be provided with any differently designed plug connection part.

A particularly easy-to-install shield electrode is obtained if it expediently has a rear wall which is penetrated by the conductor leading to the stack of conductors. The shield electrode can thus be designed to be self-centering.

If the shield electrode is advantageously formed from sheet metal in a hood-like manner, the end edge being bent back to form a curve, its manufacture is simplified. However, a pressed or cast part made of a plastic with conductive fillers could also be used as the shield electrode. The conductivity of the elastic plastic, in particular, could also be achieved by a conductive coating. Combinations between metal and conductive plastic are also possible.

In the following, the invention will be explained in more detail with reference to the surge arrester with plug-in connection part shown in the figure as an exemplary embodiment in longitudinal section.

An overvoltage arrester, which is to be installed in a simple manner in medium-voltage switchgear, consists of a plug connection part 1 and an arrester part 2, which forms a self-contained component. For this purpose, the arrester part 2 has a cylindrical, grounded, metallic housing 3, which contains the arrester stack 4. The housing 3 has an upper flange part 5, in which the insulating bushing 6 is arranged. The lower end of the cylindrical housing 3 is closed by a cover 7, which as Holding device for the arrester stack 4 serves and carries the steel spring 8, which causes a spring-loaded elastically yielding storage of the arrester stack 4.

The arrester stack 4 consists of stacked, in a suitable manner with each other, for. B. by gluing, connected disks of zinc oxide. The lower end of the arrester stack 4 is held and grounded by the cover 7 with the steel spring 8, while the upper, voltage-side end 9 of the arrester stack 4 is connected to the conductor 10 passing through the insulating bushing 6. In addition, the shield electrode 11 is arranged at this upper voltage-side end 9 of the arrester stack 4, which is designed like a hood and the rear wall 12 of which is also penetrated by the conductor 10. As a result, the shield electrode 11 is self-centering. For the purpose of simple production, the shield electrode 11 is pressed from sheet metal. Its end edge 13 is bent back to form a curve, so that the rounded end of the shield electrode 11, which is favorable in terms of the electrical field, is obtained without great expenditure of material.

By the cheap voltage control achieved with the help of the shield electrode 11 and by the electronegative insulating gas used to fill the cylindrical housing 3, namely SF₆, the diameter of the cylindrical housing 3 can be kept very small. Because of the gas filling, the cover 7 is fitted gas-tight into the cylindrical housing 3 and also contains an overpressure relief device 14 in the form of an overpressure membrane. The fastening of the upper flange part 5 on the cylindrical housing 3 and the fitting of the insulating bushing 6 on the flange part 5 is also designed to be gas-tight.

A further improvement in the voltage control can be brought about by an inner curvature 15 of the upper flange part 5 which is adapted to the shape of the rear wall 12 of the shield electrode 11 len, as well as by rounding the insulating bushing 6 on its surface projecting into the housing 3 or the flange part 5. In the interior of the insulating bushing 6, voltage-controlling pads 16 are also provided.

The upper outer surface 17 of the insulating bushing 6 is conical and forms the connection point to the plug-in connector part 1. The connection between the bushing 6 and the plug-in connector part 1 is gap-free and should in particular be detachable. The conductor 10 passing through the bushing 6 ends on the upper outer surface 17 and is there connected to the end of the conductor 18 passing through the plug-in connection part 1, the galvanic contact being ensured. Fastening eyes 19 are also provided on the upper flange part 5 at a plurality of points which are uniformly distributed along the circumference and comprise both the insulating bushing 6 and the edge of the plug-in connection part 1. With the aid of these attachment eyes 19, the surge arrester can be attached and fixed in a suitable manner on the medium-voltage switchgear.

The plug-in connector part 1 used in the exemplary embodiment shown is linear with an outer cone. However, differently shaped plug connection parts or adapter parts can also be used for the intermediate connection, which are then also fastened to the upper outer surface of the bushing 6 and thus to the arrester part 2.

Claims (4)

1. Surge arrester with plug-in connection part (1) for medium-voltage switchgear, in which the arrester stack (2) is spring-loaded in a gas-tight, gas-filled, cylindrical housing (3) and the conductor (10) leading to the arrester stack (2) is an insulating bushing (6), which connects to the plug connection part (1), passes through and is in contact with the conductor (18) of the plug connection part (1), characterized in that the insulating bushing (6) closes the grounded cylindrical housing (13) and is extends only above the arrester stack (4) surrounded by SF₆, the voltage-side end (9) of which is connected in an electrically conductive manner to an annular shield electrode (11) with a rounded end edge (13), which separates the upper part (9) of the arrester stack (4) surrounds. 2. Surge arrester with plug connection according to claim 1, characterized in that the shield electrode (11) has a rear wall (12) which is penetrated by the conductor (10) leading to the arrester stack (4). 3. Surge arrester with plug connection according to claim 2, characterized in that the shielding electrode (11) is shaped like a hood from sheet metal, the end edge (13) being bent back to form a curve. 4. Surge arrester according to claim 1, 2 or 3, characterized in that the shield electrode (11) adjacent parts (15) of the housing (3, 5) and / or the implementation (6) in a similar manner have rounded surfaces.

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