DE7416553U - Encapsulation with an arrangement for separating impurities - Google Patents

Description

41 / 74 D. Pl, / Approx 16 .12 7ί:

BBC Aktiengesellschaft Brown, Boveri & Cie., Baden (Switzerland )

Encapsulation with an arrangement for separating impurities

The utility model relates to an encapsulation with an arrangement for separating impurities for gas-insulated ones Switch or pipe gas cable.

Tests have shown that in compressed gas-insulated high-voltage arrangements Impurities, especially in the form of metal particles, affect the electrical strength of both free gas lines as well as of insulator surfaces can.

It is already known to transfer such impurities or foreign components caused by abrasion during switching movements into

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to withdraw encapsulated arrangements from the field space by so-called particle traps. Such a particle trap is in Optimization of insulators for gas insulated systems, JCCronin, L ·, K. rei'ry, iLLE-rcipei · i ViHjO-H, uuii ä-i · *, ijj '/ i uebchi'xeben. It is a construction related to the isolator mounts, but its effectiveness is stated to be purely coincidental. This particle trap is an upwardly curved, perforated plate fastened to the isolator holder. However, the freely moving particles mostly only get on or to the edge of this plate, where they are not neutralized and can therefore continue to move freely. Furthermore, it has also already been proposed to prevent the free movement of contaminants in the encapsulation by partially covering the interior of the encapsulation with a sticky substance (CH-PS 462 927). Even with this solution, however, the effectiveness is not guaranteed, because in this case too the particles are not electrically neutralized and thus the risk of the electric field moving them further or partial discharges being triggered.

The invention is based on the object of creating a method and an arrangement with which the fully encapsulated, gas-insulated arrangements for switchgear or pipe gas cables can be reliably separated thus preventing a reduction in electrical strength.

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The aforementioned object is achieved according to the invention by that the impurities are separated by means of a trough-shaped recess. The inventive arrangement for Carrying out the method is characterized in that the encapsulation contains a groove-shaped depression.

The advantage of the invention is, in particular, that the impurities can be removed in a simple manner and with simple means can be separated in the fully encapsulated, gas-insulated arrangements for switchgear or pipe gas cables.

Another advantageous possibility is that the impurities in the trough-shaped depressions are in the middle an insulator installed in these; ^ not electrically inactivated will. According to a further embodiment, the trough-shaped depression can be covered by a perforated cover be. Likewise, all metal parts of the gas-insulated arrangement exposed to the electrical field can at least be partially lined with an insulating layer. The trough-shaped recess can be rounded or undercut Have edges and the gas-insulated arrangement can have a slope of at least 0.5 degrees or more than 0.5 degrees with the horizontal.

With these additional measures, i.e. with the perforated cover the trough-shaped depression with which- lining the

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Trough-shaped indentation or with that of further metal parts with an insulating layer, with the rounded or cut-out ends and with the inclination of the arrangement, lä ^ '- sicn an even greater security when separating insurance

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In the drawing, exemplary embodiments of the subject matter of the invention are shown schematically.
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1 shows a first exemplary embodiment of the invention

in longitudinal section
2 shows the same exemplary embodiment of the invention XiTi \ U6r3Cnni11,

3 shows a modification of the arrangement according to FIGS. 1 and 2 in FIG

Longitudinal section una
4 shows the same modification in cross section.

According to FIG. 1, an encapsulation is denoted by 1. With the reference number 2 a trough-shaped depression is named. A perforated cover is indicated by the number 4 and an insulating layer by the number 5- An inner conductor is designated with the reference number 7 and the number 6 means one Insulator.

In Figs. 2 to 4, the same parts are given the same reference numerals provided, only the modified trough-shaped recess is designated in Fig. 3 and 4 with the number 3.

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.ίο> JirNun) '', the subject of the invention is as follows: J The foreign particles in the electrical field of the gas-insulated arrangements, in particular metal particles created by abrasion, are mainly exposed to the electrostatic field forces and gravity. According to the innovation, these impurities are separated by means of the trough-shaped recess 2 or 3, namely due to the field force and the force of gravity. In order to facilitate the movement of the particles into the trough-shaped recess, the gas-insulated arrangement can have a slight incline . of at least 0.5 degrees, which improves the separation efficiency. The impurities separated in the trough-shaped recess 2, 3, which are often conductive, can be galvanically separated from the encapsulation 1 with the insulating layer 5 and thus inactivated. Other metal parts of the gas-insulated arrangement that are exposed to the electrical field can also be at least partially lined with an insulating layer so that the impurities that have not yet been separated in the trough-shaped recess 2, 3 are also galvanically separated. The perforated cover 4, for example in the form of a wide-meshed grid, prevents the particles that have entered the covered space from occasionally moving out of the area of influence again. The rounded edges of the trough-shaped recess 2 shown in FIGS. 1 and 2 facilitate the movement of the particles into the same, while the undercut edges of the trough-shaped recess 3 shown in FIGS. 3 and 4 prevent the particles from escaping from the same.

Claims (6)

Protection claims 1. Encapsulation with an arrangement for separating contaminants; cleaning for gas-iced switches or pipe gas cables, ο characterized in that the encapsulation (1) has a hollow J contains shaped recess (2, 3). f 2. Encapsulation according to claim 1, characterized in that the walls of the trough-shaped recess (2, 3) in a skip the perforated cover (4). 3. Encapsulation according to claim 1, characterized in that the trough-shaped recess (2, 3) with an insulating layer (5) is lined. 4. Encapsulation according to claim 1, characterized in that all parts of the encapsulation exposed to the electric field are at least partially lined with an insulating layer. 5. Encapsulation according to claim 1, characterized in that the trough-shaped recess (2, 3) rounded (2) or has undercut (3) edges. 7416553 94.11.76 6. Encapsulation according to claim 1, characterized in that -. '. Oi.net that to the horizontal by an angle (-) of is inclined at least 0.5. BBC Aktiengesellschaft Brown, Boveri ά Gie.