DE2759430C2 - Encapsulated switchgear filled with insulating gas - Google Patents

Description

15th

The invention relates to an encapsulated, SF ₆ gas-filled medium-voltage switch cell with at least one switch-disconnector housed therein.

There are switchgear with switching devices known whose interruption points compared to the the rest of the system volume are not sealed, but lie freely in the system volume (FR-PS 14 38 683). This means that any fission products that may arise during the arc quenching can get into the interior of the system unhindered. which undesirably lead to contamination of the surrounding insulating media.

Furthermore, an encapsulated circuit breaker with SFe filling is known (Elektro-Anzeiger 1976. H. 24, P. 595). This has a gas-tight encapsulation in relation to the free atmosphere, so that one can achieve a sufficient switching capacity, the required excess gas pressure can be maintained in the switchgear. Although the sealing of the circuit breaker against the surrounding volume is practically impermeable to gas it cannot be ruled out that gas diffusion due to the high pressure difference takes place from one system to the other and thus a loss of gas occurs which reduces the switching capacity. Diffusion of gaseous fission products would also contaminate the switching chambers surrounding insulating medium.

The present invention was therefore based on the object, in a switchgear of the type mentioned at the beginning Art to prevent contamination of the rest of the system gas filling by fission products and a mechanical one Avoid stressing the sealing parts.

This object was achieved by the characterized part of claim 1.

The measure according to the invention causes in an advantageous manner that a contamination of the switch cell interior is effectively prevented by fission products and that because of the lack of pressure difference Gas diffusion from one system to the other is also practical between the arcing chambers and the switching cell is excluded.

Another advantage that can be achieved with the invention is that the seal of the arcing chambers is no longer mechanically stressed by constant pressure differences.

The invention is explained using an exemplary embodiment described below.

In the drawing , F i g. 1 in a side view with the rear wall removed, an encapsulated switchgear cubicle 1 with a flanged busbar box 3 which accommodates busbars 2 and rests on a support 4. In addition to the associated connecting and holding elements, the switch cell contains essentially a three-pole switch-disconnector with arcing chambers - of which only the first one (item number 5) is visible here - and an earthing switch 6. The movable switching pin 7, which is led out of the arcing chamber 5 in a gas-tight manner, is electrical Connected via movable lines 8 to the busbars 2 and mechanically connected to an output rod 11 via an insulating cross member 9. The drive rod 11 is guided through the cell encapsulation in a gas-tight manner by means of bellows 10 and is connected there to further drive parts.

A drive rod 12 also leads from the earthing switch 6 to the outside in a gas-tight manner through the encapsulation.

There is also a window in the front wall of the cell 13 and plug-in bushings 14 for the cable connection let in gas-tight.

The switching cell volume and the volume of the busbar box 2 are connected via the flange opening 15 and are with insulating gas, preferably under a relatively low overpressure in the range of 0-0.2 bar standing sulfur hexafluoride filled.

According to the invention it is provided that the pressure values of the gas fillings in extinguishing chamber 5 and switching cell 1 in are about the same.

1 sheet of drawings

Claims (1)

Claim: Encapsulated, SF ₆ gas-filled medium-voltage switch cell with at least one switch-disconnector housed therein, characterized in that its interruption points are located in gas-filled arcing chambers (5) which are sealed off from the rest of the cell volume and whose gas filling has approximately the same pressure values as the insulating gas of the switch cell. 10