DE2708083C2 - Surge arrester for fully insulated switchgear filled with inert gas - Google Patents

Description

The invention relates to a surge arrester according to the preamble of claim 1.

Such a surge arrester is already from the DE-OS 23 11 281 known. The arresters are in it provided coaxial double insulating cylinders, both of which are sealed at the end fittings, the Gap is guided to the outside outside of the switchgear housing and on gas entry from the can be monitored from one side or the other.

Such an arrangement of two coaxial tubes requires a relatively large amount of space, since from For reasons of strength, a certain wall thickness is not undershot without compromising on safety In addition, the length fit required to achieve reliable sealing surfaces is close to tolerances the two pipes difficult and expensive. Two tubes are also expensive.

The object of the present invention is to provide a reliable, gas-tight, easier to manufacture and monitorable sealing of surge arrester housings for installation in encapsulated switchgear systems filled with protective gas.

This object is achieved by the features in the characterizing part of claim I.
In particular, this ensures that the outer, height-insulating protective gas, generally SFe, is kept away from the spark gaps of the surge arrester, or any penetration into the surge arrester is immediately detected and reported because

ίο due to the higher insulation effect of this gas in the Compared to the filling gas of the surge arrester, the set voltage response values of the spark gaps would be exceeded significantly, so that the protection level of the system is raised in an inadmissible manner would. A hazard not only to the device but also to people could be the result, However, at least one prolonged failure of the system for the power supply in the event of a malfunction.

Advantageous exemplary embodiments are listed in the subclaims

An exemplary embodiment of the invention and its mode of operation are explained with reference to the drawing

In a symbolically shown housing 11, the Interior 3 with a protective gas, preferably SFe, is filled, there is a surge arrester consisting of one or more superposed structural members. Each component consists of the active parts built into an insulating cylinder 4 2, i.e. series-connected spark gaps and voltage-dependent resistors. This pillar is closed above and below by a metallic or non-metallic closing fitting 5, the Structural members are assembled by a flange-like center fitting 12. Each joint must be sealed be. In view of the need for the highest possible tightness, three concentric seals 1 built into each sealing point. Between the innermost and the next seal is according to the Invention at each joint an annular channel 6 arranged on two diametrically opposite one another Places are all ring channels 6 through axial supply and discharge channels 7, 8 with each other and with the The outside of the switchgear is connected to the grounded foot part of the arrester. If only one inlet or outlet channel 7.8 to each of the ring channels is available, by connecting a constantly sucking Suction device the leakage of a seal can be noticed and by connecting a gas definition device the leaking side can be determined because, as stated and justified at the beginning, the The interior of the surge arrester is filled with a different gas than the interior of the Switchgear cabinet in which the arrester is located

When arranging two expediently diametrically opposite axial channels 7, 8, a suitable gas, for. B. only air, as indicated by the arrows 9, 10, are constantly blown through and then monitored for the admixture of one or the other filling gas, whereby the leakage of a seal can be determined.

1 sheet of drawings

Claims (5)

Patent claims: 1. Surge arrester for with protective gas filled, fully insulated switchgear, in which all locking points of the arrester housing with several, coaxial seals acting one after the other are provided, characterized in that that at least between two of the seals (1) an annular channel (6) is arranged, which with at least one, the entire axial length of the arrester housing (4) pulling feed (8) and if necessary, a discharge channel (7) of this type is connected to the ring channels (6), the feed (8) and the discharge channel (7) is / are led out of the system filled with inert gas. 2. Surge arrester according to claim 1, characterized in that the channels (Feed channel (8), discharge channel (7)) a suction device with gas detector and definition device is connected is 3. Surge arrester according to claim 1, characterized in that the feed and Discharge channels (7,8) to the ring channel (s) (6) are mounted in a diametrical arrangement and a control gas (9, 10) constantly flows through it are. 4. Surge arrester according to claim 3, characterized in that the flowing through Control gas (9,10) is air. 5. Surge arrester according to one of claims 1 to 4, characterized in that the arrester consists of lower one on top of the other and screwed together construction ^v. Springs (2) and each Dichtungsstclle has at least two coaxial seals (1), between the f ^ nen with the axial supply (8) and / or discharge channels (7) connected annular channel runs.