DE1112173B - Pneumatic drive acting in both switching directions for switching contacts of a high-voltage switch, in particular a gas switch - Google Patents

Description

Pneumatic drive for switching contacts, acting in both switching directions of a high-voltage switch, in particular a gas switch The invention relates on high-voltage switches, in particular compressed gas switches, their switching contacts can be operated pneumatically in both switching directions. To achieve a sufficient Contact pressure can be applied to such switches either with an additional compression spring be provided, or the drive piston of the switching contacts is in the switch-on position put under the pressure of the drive means. The invention relates to switches the latter type, especially by avoiding a contact pressure spring with large switching strokes leads to an extension of the drive, to a simple one Build up.

According to the invention is the drive piston of each switching contact designed as a differential piston, the small area of which is constantly under pressure and its large area only to achieve and maintain what is assigned to it Switching state is acted upon with the pressure medium. In particular, the small area of the drive piston assigned to the switch-off. Through the invention the advantage is achieved that the constantly loaded surface of the drive piston like is under the pressure of a mechanical spring, so that in contrast to the known Switches in which the drive means is initially removed from the storage container when it is switched off must be brought up to the drive cylinder, this process is omitted and thus the proper time for the switch-off is considerably reduced. this fact is particularly important for extra-high voltage switches where the Switching chamber and the reservoir of the pressure medium exist greater distances.

To explain the invention, reference is made to the drawing, which a pressure gas switch for medium voltages with a clearly visible voltage isolating section represents.

1 with the switching pin of the voltage isolating path 2 is referred to, which forms the current path of the switch with the power isolating point 3. This is fastened with three supports 4 on the underframe 5 which, in addition to the compressed air tank 6, also contains the control elements required for switching, such as switching valve 7, blow valve 8 and actuating valve 9 .

The switch is shown in the off position. In this position, the small piston surface 10 is under pressure due to the direct connection to the tubular compressed air tank 6 via the line 11 and holds the switching pin 1 in the off position. To turn on the switch, the on valve 9 is opened so that the release piston 12 is applied and the pawl 13 is moved to the left. As a result, the spring-loaded double valve disk 14 is released and pressed down, whereby the vent opening 15 is closed and the valve 16 is opened. Compressed air now flows through the line 17 onto the large piston surface 18, so that the switching pin 1 is pushed upwards, ie into the switched-on position. In this position, the large piston area remains permanently under pressure, whereby the switch pin is held in this position. The compressed air above the small piston surface 10 is pushed back into the compressed air tank 6 during the switch-on movement.

The switch-off takes place by opening the off valve 9, whereby over the line 19, the blow valve 8 for blowing the power isolating section open and via the return piston 20, the switching valve 7 is pushed up and locked will. The space of the large piston surface 18 of the switching pin .1 is thereby vented, so that the constantly applied small piston area comes into effect again and the switch pin down, d. H. is moved to the switch-off position.

Claims (2)

PATENT CLAIMS: 1. Pneumatic drive acting in both switching directions for switching contacts of a high-voltage switch, in particular compressed gas switch, characterized in that the drive piston of each switching contact is designed as a differential piston, the small surface (10) of which is constantly under pressure and the large surface (18) of which is only is acted upon by the pressure medium to achieve and maintain the switching state assigned to it. 2. High voltage switch according to claim 1, characterized in that the small surface (10) of the drive piston is assigned to the switch-off.