DE2741357B2 - Electric pressure gas switch - Google Patents

Description

The invention relates to an electrical pressure gas switch with two separable switches Contact pieces and a blower device consisting of piston and cylinder, which during the switch-off process Extinguishing gas is compressed and promotes into the isolating distance for arc extinguishing, whereby the cylinder has two compression chambers and with a piston arrangement adapted to these chambers is provided and wherein in the course of the switch-off movement initially a larger piston surface for precompression and then a smaller piston area is effective.

In blower switches of this type there is the problem of the extinguishing and insulating means for a Compress switch-off as quickly as possible. The necessary pre-compression requires a certain one Stroke of the moving part of the blowing device, which should be kept as small as possible. This can be done at given compression volume, the effective piston area at least during the pre-compression phase be kept large.

From DE-OS 23 61 687 an electric gas switch is known in which the cylinder has two Has sections of different diameters. The cylinder and its sections is one Piston arrangement adapted in such a way that in the course of the disconnection movement first the cylinder piston section larger diameter for pre-compression and then the cylinder piston section smaller Diameter is effective.

According to the invention, another solution to the problem is provided, namely the necessary pre-compression to be achieved by means of a small pre-compression stroke. In particular, the task is to to create a space-saving design of the blowing device with the smallest possible diameter.

According to the invention, this is achieved in that the Piston surface is formed by two pistons of the same diameter and that one of the pistons has passage openings has, which are penetrated by tubular, supported by an inner cylinder wall parts, about which the compression rooms are in constant communication.

This makes it possible to make the diameter of the blower so small that switching chambers can be used with the usual proven dimensions. There is also the pre-compression stroke short, so that the length of the switching chamber can also be kept short. The inventive The design creates the possibility of using existing switching devices with two compression chambers having to be retrofitted with blowing equipment and thereby upgraded for higher switching capacities.

In an advantageous embodiment of the inventive concept, the cylinder is movable with the of the separable contact pieces and connected via the two Koibenanordnucgen by one Drive organ pulled. The piston with the passage openings is advantageously arranged in a stationary manner and the other piston can be controlled as a function of the cylinder movement.

An exemplary embodiment according to the invention is described and the mode of operation explained with the aid of the drawing.
The figure shows a pressure gas switch with a cylindrical switching chamber 1 made of insulating material, in the interior 2 of which sulfur hexafluoride is filled as an extinguishing and insulating agent under a pressure of, for example, 4 bar. In the interior of the switching chamber 1 there is a contact system consisting of two stationary switching pieces 3, 4, which limit the isolating distance with their end faces 5 and are electrically bridged by a movable tubular switching piece 6 in the switched-on position shown in half-section in the figure.

The bridging contact 6 with a cylinder 7 in FIG Arrow direction 8 moves when the switch is opened. Pistons 9 and 10 work together with cylinder 7, at the beginning of the switch-off movement compared to the

^{Γ) 0} cylinder 7 is relatively fixed. The cylinder 7, together with the pistons 9 and 10, forms two compression chambers 11 and 12 which, during the pre-compression path A achieved by the overlap of the switch piece, share a large piston area

"take effect to compress the extinguishing agent. When the bridging contact 6 expires from Switching piece 3 sets a flow through the switching pieces 3 and 3, which are hollow for the discharge of switching gases 4 so that the extinguishing agent that has been pre-compressed up to this point in time flows off.

In the course of the further switching movement, only the extinguishing gas present in the compression chamber 11 is used Separation distance between the contact pieces 3 and 4 promoted, because then the cylinder 7 with its the

^The cylinder wall 13 associated with the piston 10 strikes against the piston 10 and takes it with it in the further course of the switch-off movement. A locking device 17 is provided for this purpose.

piston 9 has passage openings 14, over Compression chambers U and 12 are in constant mg. The passage openings 14 are tubular parts 15 which are connected to the wall 13 nders are connected, interspersed. The piston 9 having the openings 14 is fixedly arranged, while the second piston can be controlled by means of the link device 17 as a function of the cylinder movement. When moving against the direction of arrow S, the piston 10 transferred again into the latched position shown by means of a cam 16

1 sheet of drawings

Claims (3)

Patent claims: 1. Electrical pressure gas switch with two separable contact pieces and a blower device consisting of piston and cylinder, which compresses extinguishing gas during the switch-off process and promotes extinguishing gas into the separating distance for arc extinguishing, the cylinder has two compression chambers and is provided with a piston arrangement adapted to these chambers and where in In the course of the switch-off movement, first a larger piston surface for precompression and then a smaller piston surface is effective, characterized in that the piston surface is formed by two pistons (9, 10) of the same diameter and that one of the pistons (9) has through openings (14) which are penetrated by tubular parts (15) carried by an inner cylinder wall (13), via which the compression spaces (11, 12) are in constant communication . 2. Electrical pressure gas switch according to claim 1, characterized in that the cylinder (7) is connected to the movable (6) of the separable switching pieces (3, 6) and is pulled over the two piston assemblies (9, 10) by a drive member. 3. Electrical pressure gas switch according to claim 1 or 2, characterized in that the piston (9) with the passage openings (14) is arranged stationary and the other piston (10) in Can be controlled as a function of the cylinder movement