DE1041569B - Compressed air switch - Google Patents

Description

The invention relates to the known compressed air switch in which the interruption contacts are arranged in a metallic container constantly filled with compressed air, the movable one Contact is designed as a compressed air-actuated pipe contact and both contacts are in the walls of the metallic container seated bushing insulators are worn. The invention aims To train this type of switch for low and medium voltage so that they can with little effort Isolation material and can be produced with very small dimensions. Switches of this type are suitable as a result their small dimensions especially for switchgear, which are housed in closed enclosures Need to become.

According to the invention, the pipe contact of the switch described is designed so that it has the bushing insulator penetrated along its entire length, and the bushing insulator by means of a sleeve so, that it simultaneously serves as a guide for the pipe contact and as a carrier for the pressurized gas drive of the pipe contact serves. With this design of the switch, the isolator takes on several tasks at the same time, namely that of the insulator and then that of a cylinder for guiding the pipe contact and then closing that of the carrier of the drive of this contact.

A compressed air drive is used to drive the contact, which, as indicated, is operated by the bushing insulator will be carried. In the case of a multi-phase design of the switch, either three switches can be used or the interruption points of all phases are arranged in a common container. Instead of one Movable contact, both contacts of the interruption point can be designed to be movable.

The drawing shows an embodiment of the invention, namely a switch of this is shown in FIG the invention shown in section. The designated 1 compressed air tank of the switch is rectangular Cross-section, it is attached to a console and this in turn to a wall 3. Lid and bottom of the container have coaxial openings for receiving the bushing insulators 4 and 5 Flanges 6 and 11. The insulator 4 carries the fixed contact of the interruption point, it consists of one Cap 8 and a contact 10 loaded by spring 9. Cap 8 is fixed to bushing 4 tied together. The movable contact 12 is seated in a metallic sleeve 13 of the insulator 5. A seal 14 on the contact 12 rests against the sleeve 13.

The pipe contact 12 has an opening 15 at its upper part and carries a valve disk 16 which passes through the rod 17 is connected to an actuating piston 18. The valve housing 19 and the cylinder 20 are assembled and completely outside the

Applicant:

Allmänna Svenska Elektriska Aktiebolaget, Västeräs (Sweden)

Representative: Dipl.-Ing. H. Missling, patent attorney,
Giessen, Bismarckstrasse. 43

Claimed priority:
Sweden 5 October 1955

Haakon Forwald, Ludvika (Sweden),
has been named as the inventor

Bushing insulator 5. The space below the piston 18 in the cylinder space 20 is through the openings 21 and 22 in connection with the atmosphere. The space above the piston 18 is Via lines 32, 33, 23 with the valve 24 in connection. The line 32 consists of a tube made of insulating material. Stand through lines 25 and 34 the container 1 and the valve 24 are always connected to a common compressed air tank. By the tube 26 can communicate the space above the piston 18 via the valve 24 with the atmosphere to be brought.

In the drawing, the switch is shown closed. In this position the room is above the Piston 18 via lines 32, 23, 33, valve 24 and line 25 with the container 1 in connection. The piston 18 presses the movable contact 12 against the contact 10, which can yield so far that that the valve disk 16 is pressed against the edge 27 of the valve housing. When opening the interruption point the valve 24 is adjusted so that the space above the piston 18 in communication comes with the atmosphere. The container pressure then causes the contact 12 to move upward until the valve disk 16 rests against the edge 28 of the housing 19. While the The container 1 is in contact with the atmosphere via the channel 29, the openings 15 in the contact 12, Valve housing 19 and the openings 30 and 22 connected. This causes the arc during the

& 09 659/304

Opening movement flushed by a stream of extinguishing agent.

When the interruption point is closed, the space above the piston 18 is air through the valve 24 supplied. Since the area of the piston 18 is significantly larger than the cross section of the movable contact, this is how the separation point is closed. In order to create a seal between the empty container To obtain valve head 16 and the edge 27, a spring 31 can be arranged in the cylinder 20, which the piston 18 is loaded.

By using a long movable hollow contact that moves inside a pipe insulator is arranged, and from an actuator outside this isolator can isolators Use with a small diameter, which also makes it possible to limit the volume of the container. Because the inner diameter of the insulator is small, the stresses on the insulator are also increased very small with high internal overpressure. In addition, a metallic sleeve can be inside the insulator be attached so that not the isolator, but only the sleeve is exposed to internal overpressure.

Claims (1)

Claim: Compressed air switch with arranged in a metallic container constantly filled with compressed air Breaking contacts, of which the moving contact is a pneumatic tube contact is formed and both contacts of bushing insulators inserted in the walls of the container are carried, characterized in that the pipe contact is its bushing insulator penetrated along its entire length and the bushing insulator by means of a sleeve as a guide for the pipe contact and is designed as a carrier for the pressurized gas drive of the pipe contact. Considered publications:
French patent specification No. 997 193,
1050657, 1050 658. 1 sheet of drawings 809 65Ϊ / 304 10.