DE1175772B - High-voltage gas switch - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school Class: H 02 c

German class: 21c-35/10

Number: 1175 772

File number: V 22525 VIIId / 21c

Filing date: May 21, 1962

Opened on: August 13, 1964

The invention relates to a high-voltage pressure gas switch in which the power and voltage disconnection points are arranged in a permanently under gas pressure chamber and lie on a common axis and the end of the driven moving contact of the power disconnection point as a mating contact of the moving contact the voltage separation point is formed and the movable contact of the Voltage disconnection point in its switch-off position.

In the case of high-voltage compressed gas switches, it is known both for the power disconnection point as well to provide the most varied of arrangements for the voltage separation point, but in the course of the development has enforced such an arrangement in which both separation points on a common Axis lie and the compressed gas required for power separation is not in a storage container pending, but directly at the power disconnection point itself and also at the voltage disconnection point, so that at the moment of contact separation an intensive blowing of the arc immediately takes place. The opening of the separation points can, for. B. be done in such a compressed gas switch that on the tubular movable contact a ventilation of the spaces behind the movable contact the power disconnection point is made while the spaces behind the moving contact the voltage separation point are vented via a throttle hole so that the moving contact of the Voltage separation point only then its movement to achieve the required voltage distance in in the switched-off state of the gas pressure switch when the between the contacts of the Power disconnection point has already been extinguished. Both this pressure gas switch adheres as well as all other pressure gas switches, however, have the disadvantage that for final separation not only at the voltage disconnection point that is necessary to establish the necessary voltage gap required length of the switching chamber must be applied, but this is also at the power disconnection point required, so that despite the known arrangements of the separation points and in spite of the Pressurized gas at the separation points still results in considerable lengths of the switching chambers, which has to be shortened further. There is also no shortening of the length of the switching chambers in such known compressed gas switches instead, in which the movable contact of the voltage separation point, the one with the power disconnection point on a ge high-voltage pressure gas switch

Applicant:

VEB Transformatorenwerk Karl Liebknecht,

Berlin-Oberschöneweide,

Wilhelminenhofstrasse 83-85

Named as inventor:

Horst Bielig, Berlin-Köpenick,

Wolfgang Schmeckebier,

Heinz Mäkelburg, Berlin-Karlshorst

common axis, is carried along by the movable contact of the power disconnection point, because in order to achieve the required distance at the voltage separation point, must with this gas pressure switch the moving contact of the voltage separation point perform an additional movement.

According to the invention, the disadvantage shown is eliminated in that the required voltage spacing between the contacts of the voltage separation point when the switch is switched off that the movable contact of the voltage separation point is in its off position pauses and the movable contact of the power disconnection point moves back to the switch-on position. While When the gas pressure switch is switched off, the movable, hollow one is carried along Contact of the voltage separation point through the movable contact of the power separation point Ventilation of the rooms downstream of the movable contact of the power disconnection point.

This measure according to the invention is in compressed gas switches in which the power and Voltage separation point lie on a common axis, only once through the movable contacts to cover the distance that corresponds to the required voltage distance, while so far everyone of the movable contacts had to cover this distance, since from the moment in which the movable contacts Contact of the power disconnection point had reached the switch-off position, the moving contact of the Voltage separation point had to perform its required movement, with the direction of movement of this contact was in that of the movable contact of the power disconnection point. The movement takes place of the movable contact of the voltage separation point according to the invention also in the direction

409 6W358

10

in which the movable contact of the power disconnection point is moved, but this is already happening in the Moment of movement of the moving contact of the power disconnection point until the movable contact of the power disconnection point has reached its end position. Then stay in this position the moving contact of the voltage disconnection point is, while the moving contact of the power disconnection point is brought back to the on position.

Using a representation, this will be explained in more detail on an exemplary embodiment according to the invention explained.

The drawing shows a separation point arrangement for high-voltage compressed gas switches of the invention Type where 1 is the fixed contact of the power disconnection point and 2 is the moving contact Contact this separation point is referred to, the power separation point from an inlet and out there is an end face contact. The end 3 of the movable contact 2 is used by training as a face contact, it can of course also be designed as an inlet contact, as a mating contact the voltage separation point at which the movable Contact 4 of the voltage separation point is present. Should the switch-off process be carried out with this gas pressure switch are, so is on the hollow movable contact 4 of the voltage separation point a venting of the spaces 5 made behind the contact 2, so that due to the at 6 Pressurized gas present at contact 2, both contact 2 and contact 4 in the direction of arrow 7 be moved. The speed of the contact is determined in the first phase of the shutdown process 2 further increased by the fact that a piston 8 is connected to the contact 2 in a manner known per se stands, one side of which is acted upon by pressurized gas via the bores 9, while the on the opposite side of the piston 8 pending pressurized gas when venting the spaces 5 with over contact 4 flows into the open. If contact 2 and thus also contact 4 has covered a distance, which corresponds to the path required for power separation at the power separation point, so the movement of the contacts is stopped by the contact 4 running against the stop 10. While now the contact 4 through the pending on the screen 11 Pressurized gas remains in this position, the spaces 5 are filled with pressurized gas via the valve 12 filled and move the contact 2 into the on position, causing a separation between the Contacts 3 and 4 come, whereby the resistance is switched off, and that with an intense Blowing of the voltage separation point as well. If contact 2 has reached its switch-on position, so is between contacts 3 and 4 is the one required when the gas pressure switch is switched off Voltage clearance established. If the compressed gas switch is to be switched on, the drive piston of the contact 4 is acted upon by compressed gas and brings it to the stop at contact 3.

Claims (3)

Patent claims: 1. High-voltage gas switch, in which the power and voltage disconnection point in one permanently under gas pressure chamber are arranged and on a common axis lie and the end of the driven movable contact of the power disconnection point as Opposite contact of the movable contact of the voltage separation point is formed and at his Switch-off movement the moving contact of the voltage separation point in its switch-off position takes along, characterized that the required voltage distance between the contacts of the voltage separation point is generated when the switch is switched off in that the movable contact of the voltage separation point is switched off Position remains and the movable contact of the power disconnection point in the switch-on position drives back. 2. High-voltage pressure gas switch according to claim 1, characterized in that the entrainment the movable, hollow contact of the voltage separation point through the movable Contact of the power disconnection point by venting the moving contact of the Power separation point downstream rooms takes place. 3. High-voltage pressure gas switch according to claim 1, characterized in that the end of the movable contact of the power disconnection point as an end face and / or as an inlet contact is trained. Considered publications:
German Patent No. 695 529;
German interpretative document No. 1 099 039. 1 sheet of drawings 409 640/358 8.64 © Bundesdruckerei Berlin