DE1094335B - Arrangement for compressed air switches - Google Patents

Description

With some compressed air switches, the contacts of the power switching points are made by supplying Compressed air is opened to the switching mechanisms provided for these switching points. If the switch with is provided with a fast-acting series disconnector, the switching points are closed again after the row disconnector has been opened. The isolation distance required after a circuit between the connections of the switch is created in this case by the open series disconnector.

In the case of compressed air switches that work without such a series disconnector, the contacts the separation points kept in the open position, and the insulation between the connections of the switch wjrd maintained by the power switching points. This means that both the blown air system of the Switch as well as the actuating air system with associated pipe insulators conducting compressed air Pressure must be held until the switch is closed again. Should one with the open switch These pipe insulators are damaged, there is a risk that the switch, like the one with the Switch connected nearby compressed air systems are completely emptied of compressed air.

The invention . aims to provide an arrangement by means of which the aforementioned inconveniences are avoided can be. The arrangement concerns compressed air switches, in which the opening of the contacts of a Separation point happens in such a way that one is below high voltage potential for the said Separation point provided switching mechanism by at least one supply line, the at least partly consists of a pipe insulator, supplies compressed air. The pressure in the said pipe insulator is Maintained after an opening maneuver in order to keep the switching point open and / or good insulation strength between the open contacts of the switching point. The arrangement is characterized in that an organ is provided which after the contact opening with compressed air filled pipe insulator at any point in the pipeline in front of the pipe insulator, the flow opening the supply line to the pipe insulator is considerably reduced. - ..- '

The invention thus means limiting the supply of compressed air to each pipe insulator that conducts compressed air, as soon as the contacts of the line switching point have been opened. This limitation can be substantial because after an interruption the only thing that matters is to keep the pipe insulator under pressure and the leaks in the switch's compressed air system are usually minimal. When a If the isolator becomes damaged, air can no longer escape from the compressed air switch arrangement

Applicant:

Allmänna Svenska Elektriska
Aktiebolaget, Västeräs (Sweden)

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

Claimed priority:
Sweden from March 20, 1959

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

flow out of the switch than the throttled supply line allows. This leakage can be so small that the operation of nearby switches, fed by the same compressed air source can be maintained.

The arrangement is particularly suitable for compressed air switches with several series-connected and Switching points carried by supply lines carrying compressed air are provided per phase, the supply lines consist mostly of pipe insulators. In each supply line there is a separate one Opening-limiting organ used for the pipe insulators mentioned. This prevents that if a pipe insulator breaks or if there is damage in an extinguishing chamber that is under pressure and encloses a separation point, all switching points closed in one phase due to pressure reduction and the switch closes unintentionally.

The organ can preferably consist of a movable valve head, which when filled with compressed air Pipe insulator closes the supply line. There is a continuous channel in the valve head mentioned arranged with a considerably smaller throughflow opening than that of the supply line to the compressed air supply in the case of a damaged pipe insulator.

Alternatively, the organ can be designed with a valve head, which when filled with compressed air Pipe insulator blocks the supply line. To maintain limited communication with the pipe isolator, becomes a branch line with a considerably smaller flow opening

009 677/366

10

than that of the supply line in parallel with the blocked one Part of the supply line arranged.

The valve head is connected to a compressed air actuated piston that closes the valve head Direction actuated when the pipe insulator has been filled with compressed air.

An embodiment of the arrangement according to the invention is shown in the drawing, which has a compressed air switch with three series-connected switching points per phase, seen from the side.

In the drawing, 1 denotes that part of the switch which contains the switching points. The ones not shown The operating mechanisms of the switching points are of such a type that the switching points are opened, when blown air is supplied to them and kept in the open position as long as a certain pressure in the Blown air system is maintained. On the outflow side of the switching points there is also one that is not shown Stop valve that is closed when the switching points are in the open position. The switching points are borne by pipe insulators 2, which are in branch pipes 3 of a main line common to each phase 4 are attached. This is via a common blow valve 5 with one for the switch common compressed air tank 6 connected. The blow valve 5 is actuated by a piston assembly 7, the compressed air is supplied through a line 8 when an actuating valve 9 is opened. Direct opposite the inlet openings of the branch pipe 3 in the main line 4 are movable valve heads 10 arranged. They are each connected to a piston 11, which is in one in the wall of the main line 4 attached cylinder 12 is running. A continuous channel 13 is arranged in the valve head 10. The channel has a throughflow opening which is significantly smaller than that of the pipe insulator 2. The lower side of the piston 11 is in connection with the main line 4 via a channel 14. A spring 15 acts on the Closing movement of the valve head against.

The compressed air switch is opened when the valve 9 is opened, the piston assembly 7 being the Blown air valve 5 opens. The blower air system of the switch is pressurized, the contacts of the switch are opened, after which the shut-off valves on the outlet side of the switching points are closed. the Contacts remain in the open position as long as there is sufficient pressure in the blown air system. As soon as the Pipe insulators 2 are filled with compressed air and the switching points are consequently opened and the shut-off valves closed have been, the inlet to the branch pipe 3 of the valve heads 10 is closed in that Blown air penetrates through the channel 14 under the piston 11 and this under the action of the spring 15 drives upwards. A limited supply of compressed air, which is not enough to prevent the pressure from falling in the pipe insulators 2 will prevent! maintained by the channels 13 in the valve heads.

If one of the pipe insulators is now damaged, the compressed air in the blown air system is applied to it prevented from flowing out through the damaged insulator, since the flow opening · of the corresponding Branch pipe 3 has been greatly reduced and is now equal to that of channel 13. The order also has the advantage that the two remaining switching points in the phase continue to be in the open position being held. If these switching points are dimensioned in such a way that, if necessary, they together meet the nominal voltage of the switch, one avoids operational disturbances caused by an unintentional Closing the switch can be caused.

The switch is opened in that the blow valve 5 is closed, whereby the blown air system is evacuated by compressed air. The valve heads 10 go back to their starting position.

The valve head 10 can alternatively be designed without a continuous channel 13. Instead of this can have a fixed branch line 16 with a small flow opening parallel to the blocked one Part of the branch pipe 3 can be arranged.

Claims (5)

PATENT CLAIMS: 1. Arrangement with a compressed air switch, whose power switching points after an interruption Form isolation distances in the circuit and in which the opening of the contacts of a power switching point happens in that one is under high voltage potential, provided for the said power switching point Switching mechanism supplies compressed air through at least one supply line, which at least partly consists of pipe insulators and in which the pressure is maintained after opening the switch to keep the power switching point open and / or a good voltage isolation between the open contacts of the power switching point, marked durdi a Organ that after the contact has opened in a pipe insulator filled with compressed air at any Place the supply line in front of the pipe insulator, the flow opening of the supply line to the Pipe insulator considerably reduced. 2. Arrangement for compressed air switches according to claim 1, wherein the compressed air switch with several Power switching points connected in series and carried by supply lines carrying compressed air is provided per phase and the supply lines for the most part consist of pipe insulators exist, characterized in that said organ in each supply line before their Pipe insulator is arranged. 3. Arrangement for compressed air switches according to claim 1 or 2, characterized in that the called organ contains a movable valve head, the pipe insulator filled with compressed air the supply line closes, and that in said valve head a continuous channel with a considerable smaller throughflow opening than that of the supply line is arranged to the To throttle compressed air supply to the pipe insulator. 4. Arrangement for compressed air switches according to claim 1 or 2, characterized in that the called organ contains a valve head, the supply line when the pipe insulator is filled with compressed air blocks, and that a branch line with a considerably smaller flow opening than that of the supply line is arranged in parallel with the blocked part of the supply line. 5. Arrangement for compressed air switches according to claim 3 or 4, characterized in that the Valve head is connected to a compressed air operated piston, which when filled with compressed air Pipe insulator affects the valve head in the closing direction. 1 sheet of drawings © 009 677/366 11.60