DE2149435A1 - METAL ENCLOSED HIGH VOLTAGE SWITCHGEAR - Google Patents

Description

SIEMENS AKTIENGESELLSCHAFT Erlangen, September 30, 1971 Berlin and Munich Werner-von-Siemens-Str.

Our mark VPA 71/3803 Sm / Zp

Metal-enclosed high-voltage switchgear

From the German Auslegeschrift 1 241 514 is a metal-encapsulated High-voltage switchgear with a heavy gas different from air, namely sulfur hexafluoride, known, in which a spark gap with its own housing is provided as overvoltage protection. The case is one in the Metal encapsulation of the system used insulating tube that the electrodes of the spark gap encloses and with the gas space the enclosure is connected via a small pressure equalization opening. The pressure compensation opening should ensure that the same pressure prevails in the housing of the spark gap as in the encapsulation itself, without that in the event of a flashover Decomposition products formed at the spark gap can escape significantly from the housing. The familiar arrangement but it is a prerequisite that an arc at the spark gap only lasts for a short time when the decomposition products should not leak out of the housing.

The aim of the invention is a metal-enclosed high-voltage switchgear with compressed gas insulation, the spark gap provided as overvoltage protection in its own housing although it is in communication with the gas space of the enclosure, but also under the most unfavorable circumstances, e.g. B. at any long arc duration, can have no harmful influence on the gas in the enclosure. This goal is achieved according to the invention in that a housing of a surge arrester is filled in a manner known per se with the heavy gas is arranged outside the enclosure and connected to it via a valve-controlled gas line.

• In contrast to one from the American patent specification 2 757 261 known filling of a surge arrester with

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Sulfur hexafluoride, in the case of the e_, only by an increase the switching capacity of the arrester, it is essential for the invention that one of the gas in the encapsulation of the high-voltage switchgear corresponding rollover characteristic is present at the spark gap. For this purpose, a gas atmosphere that matches that of the encapsulation is created through the gas line created. The spark gap has to be housed in a special one that is independent of the encapsulation of the system Housing has the advantage that the spark gap is designed and monitored as a surge arrester of normal construction can be. The normal training includes z. B. a so-called break protection, which has an opening in the housing releases when the surge arrester is overloaded under unfavorable conditions. One would have such a surge arrester placed inside the enclosure of the high-voltage switchgear, so the arrester could respond, which in itself serves to protect the system, to a flashover in the encapsulation due to the deterioration of the gas atmosphere lead if the surge arrester cannot cope with the surge voltage.

In the high-voltage switchgear according to the invention there is to prevent the gas line being blocked in the event of an overload of the arrester, the encapsulation of the system with its gas filling remains so intact, and the surge arrester that z. B. assigned to an overhead line connection on the high-voltage switchgear can be replaced in the usual way.

The invention can be practiced in various ways. For example, a flow-dependent can be used in the gas line Provide working valve that allows the gas to flow out of the enclosure via the possibly destroyed trap housing prevented. Under certain circumstances, the valve can have two directions of response for the flow, including one sudden pressure drop in the trap housing can be prevented. For this purpose z. B. suitable a valve that is in the American U.S. Patent 3,097,280.

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Another embodiment of the invention provides a pressure-dependent valve that blocks the gas line when either a certain absolute pressure is undershot or if there is a certain pressure difference between the housing of the arrester and the metal enclosure of the system is.

Furthermore, the invention can also be provided with an electrically controllable valve that is dependent on a current flowing through the arrester is closed. This way you can ensure that a normal If the arrester responds, the overpressure cannot force any decomposition products into the metal enclosure. Appropriate one becomes the electrically controllable valve with the help of a time control, which can be made mechanically or electrically can open again after a certain time.

For a more detailed explanation of the invention, the following is based on the drawing describes an embodiment.

In the drawing, a metal-encapsulated one is schematically simplified High-voltage switchgear for, for example, 110 kV ■ a three-phase network. The system comprises a double busbar system with the busbars 1 and 2, the circuit breakers 3 and 4 connected to them, which have a bushing 5 are connected to one another, and a bushing 6 with an overhead line connection 7. The overhead line connection 7 can also be a feed for the busbars be.

Outside the earthed metal enclosure 10 of the high-voltage switchgear, which forms a uniform gas space filled with sulfur hexafluoride under an overpressure of 0.5 at, the metal housing 12 is arranged in a surge arrester 13. The surge arrester 13 is electrically connected to the overhead line connection 7 on the one hand and via a bushing on the other hand connected via its housing to an earth terminal 14,

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Its housing 12, which is grounded and contains a spark gap 15 and voltage-dependent resistors 16 in series, is connected to the encapsulation of the high-voltage switchgear via a gas line 17. At 18 there is a breakable membrane denotes, which in the event of a failure of the arrester, an outlet opening releases and thus a bursting of the housing ses 12 prevented.

In the gas line 17, a valve 20 is arranged, which normally is open. Therefore, the housing 12 of the surge arrester 13 with sulfur hexafluoride is among the same Pressure like that in the enclosure 10 filled. The rollover characteristic is therefore dependent on the gas and the pressure the spark gap 15 of the surge arrester 13 adapted to the flashover characteristic of the high-voltage switchgear. Yet the surge arrester can work without influencing the encapsulation 10 and, in the event of an overload, its housing 12 open without contamination of the gas in the encapsulation 10 can occur.

In the exemplary embodiment, the valve 20 is a check valve which prevents the gas from flowing out of the encapsulation via the Housing 12 of the surge arrester 13 prevents. It is provided that the gas line 17 between the housing 12 and the encapsulation 10 itself has such a large flow resistance has that a pressure wave that occurs when the arrester 13 responds does not press any contaminated gas into the enclosure can. Instead of this simplest embodiment of the invention but one can also choose other of the embodiments described above for the valve 20.

In the case of an electrically controllable valve 20, the current can be used to control a solenoid 22 which actuates the valve, z. B. obtained via a converter 23 which is placed around the ground line of the surge arrester 13, as dashed in the figure is indicated.

5 claims

1 figure 309814/0691 -5-

Claims (5)

VPA 71/3803 - 5 - Claims 1 J Metal-enclosed high-voltage switchgear with one of various heavy gas, e.g. B. sulfur hexafluoride, especially under increased pressure, and with an overvoltage protection provided spark gap in its own housing, which is connected to the gas space of the encapsulation via a small Pressure equalization opening is connected, characterized in that a filled in a manner known per se with the heavy gas Housing (12) of a surge arrester (13) arranged outside the enclosure (10) and with this via a valve-controlled Gas line (17) is connected. 2. Metal-enclosed high-voltage switchgear according to claim 1, characterized in that in the gas line (17) a flow-dependent Valve (20) is provided. 3. Metal-enclosed high-voltage switchgear according to claim 1, characterized in that in the gas line (17) a pressure-dependent Valve (20) is provided. 4. Metal-enclosed high-voltage switchgear according to claim 1, characterized in that an electrically controllable valve (20) is provided in the gas line (17), which as a function is closed by a current flowing through the surge arrester. 5. Metal-enclosed high-voltage switchgear according to claim 1, characterized in that the gas line (17) at grounded Parts of the housing (12) is attached. 309814/0691 Lee r side