DE1540091A1 - Vacuum switch for higher voltages - Google Patents

Description

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Licentia Patent-Verwaltungs-GmbH. . irankfurt / Main, Theodor-Stern-Kai 1

Kammann / schz. 24/051

March 11, 1969 '

Vacuum switch for higher voltages

In addition to the patent. ... ... (patent application L 50 736 VIIId / 21c)

The invention relates to a vacuum switch for higher voltages with vacuum interrupter chambers, their movable Switching contacts according to the main patent single-acting pneumatic drives are assigned when they are applied Hold the movable switching contacts in the on position against the force of the opening springs. The vacuum switch according to the main patent is characterized by an extraordinary low consumption of actuating air for the switch-ons, since a vacuum switch itself is only a very has a small switching stroke of a few mm and, on the other hand, the switch according to the main patent is only switched on pneumatically.

Since at higher voltages, e.g. 110 kV and above, the arrangement of Tragstutζein is necessary for earth insulation, means This means that these supports, which have to be hollow because of the supply of the actuating air, are kept low in moisture must be in order to avoid voltage flashovers during practical operation. One would now, as is the case with the usual High-voltage switches, in particular compressed gas switches, happens, constantly direct a flow of scavenging air through the supports, so the advantage of a low consumption of actuating air would be lost again · and larger compressed air tanks would have to be used to be provided on earth potential. To avoid this disadvantage, the invention provides that two to one Unit combined drives in a gas-tight barely

009818/0645

BATH ORIGINAL

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are arranged between two switching chambers and that this Space via hollow support supports for the switching chambers with a gas-tight space containing control valves at ground potential connected and that all rooms are filled with dry air or gas. In such a case he needs Storage container for the actuating air not to be designed larger than to execute a larger number of circuits is necessary. Since there is still additional air due to leakage within the actuating drives enters the gas-tight spaces and hollow supports, the correct filling is always ensured here as well. Should Even an overpressure can arise in these rooms, this can be done through an overpressure valve at the ground potential lying space can be derived.

The drawing shows an embodiment of the invention. Fig. 1 is a section through a double switching chamber for a 60 kV switch and FIG. 2 shows a section through the support and through the support frame of a 110 kV switch.

According to FIG. 1, two vacuum interrupter chambers 1 are arranged within porcelain housings 2 and are held together mechanically by a central metal housing 3. Inside this Housing 3, which is designed gas-tight, is a pneumatic double drive 4 combined to form a structural unit, but it only has a single effect on the moving switch contacts the vacuum interrupter works. The pressurized drive piston 5 actuates the plunger 6 movable switching contact, not shown, and at the same time tensioning an opening spring 7 · The supply of the actuating air takes place via a pipeline 8. When the pressure is removed, this same line switches the spring 7 off the vacuum switch.

From Fig. 2 it can now be seen that the housing 3 has toe supporters 9 lind the actual support he 10 with a further housing 11, which is at ground potential, are connected.

009816/0545

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This housing is also designed to be gas-tight. It contains a pilot valve 12 and a main valve 1.5 · also are a control air tank 14 and an actuating air tank as a wall part 15 provided. The housing 11 is within a Carrying frame housed. If the pilot valve 12 is opened, control air flows into the main valve 15, which is now from the boiler 15 leads compressed air into the double drives 4. • When venting these drives, the air that is present flows out through the opening 16 on the main valve 13, Dehumidifying air is in the housings 3 and 11 in the hollow support ern 9 and 10 under a certain pressure. Should If this increases above a limit value, the overpressure valve 17 opens and also directs the overpressure into Free off. The kettles 14 and 15 only need to be refilled after a large number of switching operations, since very little air is required for a single circuit. You can therefore run with a small volume will.

3 pages description

2 claims

1 sheet of drawing (2 fig) »

BATH

009818/0645 ^B

Claims (2)

Lic ent ia Patent-Verwaltungs-GmbH Frankfurt / Main, Theodor-Stern-Kai 1 Kammann / schz 24/051 Pat en tan Sprüche 1. Vacuum switch for, higher voltages with vacuum interrupter chambers, whose movable switching contacts are assigned to single-acting pneumatic drives that when they are acted upon, the moving switching contacts counteract the force of opening springs in the on position hold, according to patent. ... ... (patent application L 50 736 VIIId / 21c), characterized in that each two drives combined to form a unit are arranged in a gas-tight space between two switching chambers and that this space contains hollow support brackets for the switching chambers with a control valve gas-tight room is connected to fire potential and that all rooms are filled with dry air or gas are. 2. Switch according to claim 1, characterized in that the room at ground potential is protected by a pressure relief valve. 009816/0545 Lower ^ ν ^^