DE1009699B - Compressed gas switch with several interruption points - Google Patents

Description

GERMAN

Compressed gas switches for high breaking capacity usually consist of power switching points and others Interruption points. The former have the task of essentially switching off the short-circuit current, while the other interruption points either have the necessary voltage spacing between to establish the contacts, then the voltage flow points are or auxiliary resistors to reduce the switch-off current or to control the potential off and on. The switching of these further interruption points can also be done with compressed air take place. In the case of switches with a large breaking capacity, it is often necessary to adjust the switching path to blow compressed air at the other interruption points in order to obtain a perfect extinguishing. This measure increases the demands on the compressed air systems. It must be the one available Pressure can also be given to the other interruption points, although it is not even necessary to have a to use as high a pressure as at the power switching point. The increased compressed air requirement is therefore not necessary at all. You can now save this by reducing the pressure, which in the Actuation of the power switching point occurs, uses to delete the other interruption points. It has been proposed to arrange the contacts in a space also filled with compressed air and when the pressure drops as a result of the switching of the power switching point, the pressure difference between the pressure in this room and the compressed air tank for extinguishing. To this The purpose is to let the compressed air from the space mentioned, which is the extinguishing chamber, into the compressed air tank flow away. This device has the disadvantage that the disconnection capacity of the other Interruption points of the compressed air consumption of the power switching point is dependent, because the pressure does not decrease in the same way in every case. It can happen because the pressure has dropped so little is that an interruption is being questioned. There is also the risk that the Extinguishing arc gases get into the compressed air tank, which then continues to the power switching point where they can endanger the insulation of the switching path.

According to the invention, the disconnection capacity of the further interruption points can be improved by that when accommodating these interruption points outside of the compressed air boiler the for Power switching point, flowing compressed air, the arc gases generated in the other interruption points sucks and that means are provided to render these gases harmless.

Such an arrangement is shown in the figure.

Compressed gas switch with several
Interruption points

Applicant:

Public company Brown, Boveri & Cie. _r Baden (Switzerland)

Representative: Dr.-Ing. E. Sommerfeld, patent attorney,
Munich 23, Dunantstr. 6th

Claimed priority:
Switzerland from October 30, 1956

Hans Thommen, Baden (Switzerland),
has been named as the inventor

1 with a compressed air tank is referred to. An insulator 2, which carries the switching chambers 3, 4, is built on this. 3 is the switching chamber for the power switching point, 4 that for the additional interruption point, one of which is shown in the figure. It is designed here as a voltage separation point which at the same time has to switch off the residual current flowing through the resistor 5. The power switching point is actuated with compressed air via the pipe 6 and supplied with compressed air for the shutdown via the hollow insulator 2. The pipe 6 is connected to the compressed air tank 1 via the isolating piece 7 and the actuating valve 8. The contact of the power switching point is denoted by 9, 10, the contact of the voltage disconnection point by 11, 12. The voltage separation point is actuated via the drive linkage 13, the insulator 14 and the lever 15. The movable contact piece 9 of the power switching point is opened against the spring force of the spring 16. The contact 11, 12 of the voltage separation point is in the space 17, which can be filled with compressed air via the opening 18. 19 is the valve for the arc quenching at the power switching point, 20 is the heat sink, which cools the gases emerging from the voltage separation point and makes them harmless. It consists of several

709 547/319

cooling plates arranged one on top of the other and with small spaces between them.

The process when switching off is now as follows: The valve 8 is opened. This causes compressed air to arrive to the drive piston 21 of the power switching point. This moves down and thereby opens the valve 19, so that compressed air flows into the quenching chamber 3 and the contact 9,10 opens. As a result of this process, the pressure in the compressed air tank and in the supply line 22 now drops. The drive 15 of the voltage separation point is now actuated and the contact 11, 12 opens. The in Compressed air located in space 17 flows off and thereby extinguishes the. Electric arc. This outflow will amplified by the compressed air flowing to the power switching point, as it draws off the im Compressed air located in room 17 acts. The heat sinks 20 cool and clean the compressed air flowing out. Now the main valve closes again, the spring 23 pushes the drive piston upwards, the contact 9 ao closes while contact 11, 12 remains open. The switch is now switched off. Through the opening 18 now compressed air flows back into the space 17, which is thereby filled. The voltage separation point is equipped in the figure in a manner known per se with a nozzle contact.

The compressed gas supply line for the power interruption point is rectangular, the power switching point is in the direction of the feed built up, while the other interruption parts are perpendicular to it. If attaches several interruption points, for example for the switching of resistors or for the connection of several branches, then the feed line is rectangular and thereby the Power switching point on the narrow side, the other interruption points on the broad side of this rectangle appropriate.

It is also possible to provide an arrangement in which the compressed air tank is on the voltage side and is then set up isolated from the earth.

The switching points can then be set up directly on the compressed air tank.

Claims (5)

Patent claims: 1. Compressed gas switch with circuit breakers and other interruption points blown by compressed gas, the pressure drop resulting from the blowing of the power switching point for blowing the further interruption points is exploited and these are attached outside of the pressure vessel in which the pressure drop arises, characterized in that the further interruption points are arranged in this way are that the compressed air flowing out of the power switching point is that in the other interruption points evacuated arc gases, means are provided to make these gases harmless. 2. Compressed gas switch according to claim 1, characterized in that the further interruption points outflowing gas is passed over heat sinks, which consist of several channels with metallic walls. 3. Compressed gas switch according to claim 1, characterized in that the further interruption points are designed as switching nozzle, the axis of which perpendicular to the direction of the compressed air flowing off to the power switching point. 4. Compressed gas switch according to claim 3, characterized in that the supply line on which the various switching points are constructed, is rectangular, such that at the Power interruption points on the narrow side, the other interruption points on the broad side are. 5. Compressed gas switch according to claim 3, characterized in that the switching points are immediate are built on the compressed gas lines, such that the power interruption points in the direction the line, the other interruption points are perpendicular to it. 1 sheet of drawings © 709 547/319 5.