DE739024C - Fault current switching device for electrical high-voltage switches - Google Patents

Description

Fault current switching device for electrical high-voltage switches The invention relates to a fault current switching device for electrical high-voltage switches, in particular switches with a flowing extinguishing agent, such as compressed gas, in which the switching contacts close again for fault checking before the final separation of the line part affected by the fault current and the switch from a monitoring device is controlled at the Adtreteneines fault current the switching contacts of the S onnect after the first opening so long blocks is eliminated until the fault current.

If the fault current does not disappear within a certain time, the interruption of the energy supply and the subsequent restart can have a disruptive effect on the consumers connected to the network, especially if this process is repeated several times with excessively long interruption times. So tolerate z. B. sensitive pantographs, such as lighting systems, only short interruptions, while less sensitive pantographs such. B ' aluminum works or systems for electrical heating, longer interruptions in the energy supply are possible without noticeable disruptions. The synchronism of machine systems must not be disturbed by the interruptions.

These requirements are met by the invention, in which the final opening of the switch when the fault current persists is caused in a known manner by a timing relay, in that the timing relay that responds when the fault current occurs is adapted according to the invention, regardless of the switching process, according to one of the characteristics of the electrical system, adjustable time triggers the switch. In the case of special 1 # emergency situations, e.g. In the event of war, for example, the time will be set according to the most vital customer. In any case, the switch can only close again when the test device releases the block, i.e. H. the error has been eliminated.

The drawing shows an exemplary embodiment of the invention in FIGS. 1 and 2. Fig. I gives a brief illustration of the integration of the switch in the network. The power station i feeds via a substation with the transformer 2 and the circuit breaker 3 and the short-circuit switching device the long-distance line 4 for the consumer 5, which can also be a branch line or two-way line of lower voltage. At the point 6 of the branch line 4 the short circuit or earth fault should occur, whereupon the switch 3 separates the line part 4 from the power station i. The details of the short-circuit switching device are shown in FIG. 2.

The arrows indicate the feed direction that is interrupted by the circuit breaker 3 at the mains phases labeled RST. An isolating converter 7 with the transmission ratio i : i, which does not run any current when the switch is closed, is used for short-circuit testing. If a short circuit now occurs on the consumer side of the network, the switch 3 opens at least to the extinguishing distance. Due to its high impedance, the isolating converter supplies sufficient current to test the network for short circuits and blocks the switch via the blocking relay. This relay with the locking device is in the box 8 and is constructed with the known means. The switch 9, which is also controlled by the main switch 3 , separates one side of the isolation converter from the mains as soon as the circuit breaker 3 finally opens in the event of a permanent short circuit, so that the separated line is de-energized. If the short circuit is eliminated again during the test, the measuring current in the test circuit drops immediately, the blocking relay is released and the switch is closed again. If the measuring current exceeds the no-load current of the line (including the consumer), the open switch remains blocked by the blocking relay and is finally fully opened via the time relay, which is also located in box 8. Instead of the isolating converter, it is of course possible to work with the voltage drop from parallel resistance to power output in a manner known per se.

Claims (2)

PATENT CLAIMS: i. Residual current - stepping device for high-voltage electrical switch. In particular, switches with a flowing extinguishing agent, such as compressed gas, in which the switching contacts close again before the final disconnection of the line section affected by the fault current for fault checking and the switch is controlled by a monitoring device that closes the switching contacts when a fault current occurs the first opening so long until the fault current is eliminated, and in which the final opening of the switch is caused by a timing relay if the fault current persists, characterized in that the timing relay responding with the occurrence of the fault current regardless of your stepping process after one of the Characteristic of the electrical system adapted, adjustable time triggers the switch. 2. Device according to claim i, characterized in that the time setting at diverse consumers is adapted to the most vital consumer.