DE609875C - Pressurized gas switch for high voltages - Google Patents

Description

Compressed gas switches for high voltages There are compressed gas switches for Known high voltages at which the drive mechanism is located on a support insulator for the moving contact and above that the control room with the fixed nozzle contact belinded. Such an arrangement claimed for tensions from too or even zoo kV a very large overall height. It has therefore already been proposed to reduce the overall height to reduce that one has the drive cylinder with the drive piston for the movable Contact wholly or partially arranged within the support insulator.

The object of the invention is to improve the dimensions of the switch even further to reduce. The invention thus relates to a gas pressure switch for high voltages, in which the switch room with the contacts is on one to accommodate switch parts certain support insulator is located, which in turn on the pressurized gas container after Type of implementation is attached, - according to the invention in the support insulator Any auxiliary and ancillary equipment also located protrude into the pressurized gas container and the hollow space of the support insulator through a protruding auxiliary and Ancillary equipment, hood that is pulled over, is sealed against the pressurized gas container in a pressure-tight manner is. In this way, a particularly compact design of the entire switch is obtained.

This arrangement can be improved by having one with The current transformer to be assembled with the switch is also located inside the support insulator arranges, as in this way the special space requirement for the current transformer lets save. In order to route the cables to the current transformer connections inside the To simplify the support insulator, it is advantageous as power supply lines to use the current transformer parts of the drive mechanism of the switch, namely especially if the current transformer is arranged under the drive cylinder. Either a special one, in addition to the drive cylinder, serves as a derivation from the current transformer arranged pipe, or you can put a second concentric cylinder around the Provide drive cylinder. In the latter case the electrodynamic ones cancel each other out Forces on. The space between the two concentric cylinders can also be used as Use the supply line of the pressure medium to the interior of the drive cylinder. -J In the drawing, an embodiment of the invention is shown. It means i a pressurized gas storage container on which a switching column is placed which the actual switching contact 2 carries at its upper end. To this switch contact one feed line is connected at 2o. The switch contact rests by means of the Insulator 3 on a metallic middle piece q., To which the second supply line 23 of the same pole is connected. The middle piece 4. is made up of an insulator 5 carried, which in turn with the help of a flange G on the base of the switch is attached. In the middle piece 4 there is a sliding contact 7 in which a switching pin 8 is moved, which establishes the connection with the switching contact 2. This switching pin is moved by a compressed air cylinder g. In the switch pin 8 a toothed rack is inserted, which sets the gear wheel io in rotation when shifting and with it the coupling shaft, so that the switching pins of the three poles only move together can move.

The compressed air required to extinguish the breaking arc is taken through the valve i i of the pressurized gas container i and into the distribution pipe 12 headed. Each switch pole takes its air content from this tube the insulating tube 13, which is used to protect against atmospheric influences from an insulator 24 is surrounded. From there the air passes through the upper insulator and insulating tube 14, which serves to relieve it, to switching point 2. A branch current this air enters the compressed air cylinder 9 above the piston 2 and moves thereby pushing the switch pin 8 downwards. In this way there is a sure guarantee that that -the movement of the switch pins can only begin after the insulating tube 14 is filled with compressed air, so that in all cases when the power is interrupted contact 2 is provided with the compressed gas required to extinguish the arc.

When switching on, compressed air is supplied from below through the small valve 15 inserted into the compressed air cylinder and so that the switch pin moves upwards.

The on-off and on-off valve can either be by means of electromagnets operated remotely or by accesses not indicated in the drawing directly on the switch itself. By using pneumatic controls, the These valves are opened with relatively little forces, nevertheless by name when the shut-off valve is opened, a very strong pressure on the valve surface is overcome be mul3.

The ones flowing out of the switch contact :: 2 when switching off are called Gases are not released directly into the open, but through a layer of Metal rings 16 passed, in which they are cooled and in which all precipitate metal vapors contained in the gases. Also, through this Ring layer achieves a sound-absorbing effect.

The compressed gas cylinder g is designed as a double line and is used at the same time for carrying and as a power supply for the current transformer 17. For recording the steel vessel 18 welded into the pressurized gas container is provided for this converter. Pressurized gas cylinder g and converter 17 are surrounded by high quality paper insulation. Furthermore, the cavity formed by the steel vessel 18 and the support insulator is for The purpose of increasing the insulation strength with a liquid insulating agent, e.g. B. oil, or filled with pressurized gas. In the latter case, one sees to relieve the ceramic insulating body 5 before an insulating cylinder 19 made of hard paper. Of the The space between the insulating bodies 5 and i9 is in communication with the outside air.

If you use compressed gas, especially compressed air, as an insulation medium in the support insulator, this is expediently obtained from the pressurized gas container i by letting it relax via a reducing valve. This dries the pressurized gas, which may be very humid in the container i, and as a result, does not cause any precipitation of moisture on the inner wall of the support insulator emerged.

In the figure, the compressed gas is supplied from the compressed gas container to the switching point through a special insulation line 13 . Instead, the compressed gas can also be supplied within the support insulator through one or more insulating tubes. This can be adapted to the inner surface of the support insulator by suitable shaping, for example by means of an oval cross-section.

The current flows from terminal 2o via the fixed nozzle contact 2, the movable pin contact & and the sliding contact 7 to the inner cylinder 9, from there to the current transformer 17 and further via the outer cylinder 21 to the Terminal 22 and from there to the outer connection terminal 23.

Claims (15)

PATENT CLAIMS: i. Compressed gas switch for high voltages, in which the switch room with the contacts is located on a support insulator intended to accommodate switch parts, which in turn is fastened to the compressed gas container in the manner of a bushing, characterized in that the auxiliary and auxiliary equipment also accommodated in the support insulator is inserted into the compressed gas container protrude and the cavity of the support insulator is closed pressure-tight against the pressurized gas container by a hood that is slipped over the protruding auxiliary and auxiliary equipment. 2. Compressed gas switch according to claim i, in particular for assembly with one Power converter, characterized in that the current transformer is also built into the support insulator is. 3. Compressed gas switch according to claim i and 2, characterized in that the Current transformer hanging on the drive device, in particular on the drive cylinder is attached. 4. compressed gas container according to claim i to 3, characterized in that that the converter protrudes into the pressurized gas container and from it through a hood, in particular made of steel, is separated. 5. Compressed gas switch according to claim i to q., characterized in that the cavity formed by the support insulator and the hood is filled with a liquid isolating agent. ' 6. Compressed gas switch according to claim r to 4, characterized in that the one formed by the support insulator and the hood The cavity is filled with a gaseous insulating medium of higher than atmospheric pressure is. 7. Compressed gas switch according to claim 6, characterized in that the cavity is under a lower pressure than the pressurized gas container and from this over a reducing valve is filled with pressurized gas. B. Compressed gas switch according to claim i to 7, characterized in that the apparatus parts located in the cavity a solid insulating material, especially high-quality paper insulation, are surrounded. G. Compressed gas switch with built-in or built-in current transformer according to claim i to 8, characterized in that the supply lines to the current transformer through Parts of the drive devices of the switch are formed. 1o. Gas pressure switch according to claim g, characterized in that the drive cylinder is used as a power supply is used for the current transformer. i i. Compressed gas switch according to claims g and io, characterized in that that the drive cylinder, which serves as a feed line to the current transformer, from a second Cylinder is surrounded concentrically, which serves as a derivation from the current transformer. i2. Compressed gas switch according to claim i i, characterized in that the intermediate space of the two concentric cylinders as a supply line for the pressure medium to the The interior of the drive cylinder, in particular on the cover side, is used. 13. Compressed gas switch according to claim i to 12, characterized in that also in the hollow support insulator the compressed gas line from the compressed gas container to the switching point is housed. 14 .. Compressed gas switch according to Claim 13, characterized in that the compressed gas line several insulating tubes are provided in the hollow support insulator. 15. Compressed gas switch according to claim 13 and 14, characterized in that the insulating tubes have an oval OOu section and adapt to the inner surface of the support insulator.