DE1064134B - Compressed air switch with an odd number of switching points per pole - Google Patents

Description

GERMAN

The subject of the invention is a compressed air switch with several connected in series Power switching points per pole, each of which has two power switching points on a post insulator with the assigned compressed air reservoir. The moving contact of every circuit breaker is in the switch-off position by the compressed air against the force of the tensioned switch-on spring held. Are a larger number of power switching points connected in series and located if these are in the switch-off position, i.e. if they are held in this position by the compressed air, then the In the event of damage, for example due to a drop in pressure in a post insulator, no dangerous state occurs, because only the two power switching points on the sick support switch on, the other power switching points but remain switched off because there is no pressure reduction here. The other power switching points are easily able to maintain the applied voltage.

However, if it is a switch for a voltage of e.g. 110kV, three power switching points are sufficient per pole. So there are two power switching points on one post and on the second Supports arranged only one power switching point. Becomes the support on which there is only one power switching point is located, defective, then the two power switching points on the other post are without further able to hold the applied voltage in the switch-off position. It behaves differently Power switching point, which is arranged solely on a post if the two power switching points accidentally switch on the other support in the event of damage. In this case it is a performance scarf t place unable to hold the voltage present. There will be a breakthrough, what is equivalent to turning on the switch.

In order to avoid this dangerous state, according to the invention, there is a presence of three power switching points per pole, i.e. only one power switching point is arranged on a post insulator, Instead of the second power switching point, one that is under gas pressure when it is switched off Voltage isolating section provided, which in a known manner after the switching off Power switching points opens, but closes first during the switch-on process, in which case it is also known Way the power switching points together with the voltage isolating section with one device are provided to evenly distribute the applied voltage.

If the two power switching points arranged on one post insulator fail, the power switching point of the other post insulator is now a compressed air switch with an odd one
Number of switching points per pole

Applicant:

Voigt & Haeffner Aktiengesellschaft,
Frankfurt / M., Hanauer Landstr. 142-172

Dipl.-Ing. Herbert Wutz, Frankfurt / M., and Richard Schulz, Friedberg (Hess.), have been named as inventors

Together with the voltage isolating section, they are able to hold the applied voltage. The voltage separator So it is not used in a parallel circuit to the power switching points to switch off lying impedances, but to keep the applied voltage in the switch-off position.

Instead of using a voltage isolating section, you could use the insulating properties of one Increase power switching point, but that would make the switch considerably more expensive, apart from the fact that this is difficult for spatial reasons.

By extending the potential control to the additional voltage isolating section, it is not necessary, the electrical strength of the power switching point arranged solely on a post higher than that of the other power switching points, because in the event of a fault, the power switching point would with a total of three power switching points per pole now receive twice the voltage, a load which is also held by the other power switching points.

Since the voltage separation point in a known manner during the switch-off process after the power switching points opens, but is closed before the circuit breaker during the switch-on process, it is ensured that it always switches off, so any blowing is superfluous - this makes it possible to create the voltage separation point with a minimum of effort.

The housing used to accommodate the voltage isolating section expediently has the same housing Shape and dimensions like that of the power switching point, so that optionally on the post insulator

909 609/332

Claims (3)

Neither two power switching sections nor one power switching section and one voltage isolating section can be installed. The pictures serve to explain the inventions. 1, 2, 3 are three power switching points of the same power, and 4 is the switching point for voltage separation, all of which are connected in series. The power switching points 1 and 2 and the power switching point 3 and the voltage isolating section 4 are arranged in pairs on a post insulator each. To the power switching points 1, 2, 3, a resistor 5 with resistance switching point 6 is connected in parallel in a known manner. Furthermore, a control resistor 7, 8, 9 and 10 are arranged parallel to the power switching points 1, 2, 3 and the voltage isolating path 4 in a likewise known manner. In Fig. 1, all switching points are in the "ON" position. When switching off, the circuit breaker points 1, 2 and 3 open first (Fig. 2). The resistors 5 with the switching points 6 and the voltage isolating path 4 are now in series in the circuit, so the residual resistance current flows. The final switch-off position is shown in Figure 3. All switching points are open. If, for example, the post insulator on which the power switching points 1 and 2 (Fig. 3) is located is damaged, these separation points will fail. The power switching point 3 and the voltage separation point 4 only hold the voltage, which is possible because their separation points are under pressure. If the voltage isolating section 4 were not present, the power switching point 3 would not be able to hold the voltage on its own. They would have to have a higher breaking capacity or larger isolating distance than the other power switching distances, which is not necessary due to the arrangement according to the invention. Patent claims: 1. Compressed air holder with several power switching points connected in series per pole, in which 'each two power switching points on a post insulator with an associated compressed air reservoir are located and in the open position the moving contact of each power switching point is held by the pending compressed air against the force of a tensioned spring, thereby characterized that, if necessary, of only three power switching points per pole, ie on a post insulator only one power switching point is arranged instead of the second power switching point a voltage isolating section, which is under gas pressure when switched off, occurs, which opens in a known manner when switching off after the power switching points, but when The first switch-on process closes and the power switching points together with the voltage isolating section are provided in a known manner with a device for evenly distributing the applied voltage. 2. Compressed air switch according to claim 1, characterized in that the voltage isolating section the has the same external dimensions as the circuit breaker. 3. Compressed air switch according to claim 1 and 2, in which the power switching points each have a resistor is connected in parallel with an auxiliary switching point, characterized in that the auxiliary switching points are simultaneously operated with the voltage isolating section. Considered publications:
German Patent Nos. 910 077, 1023 508;
German explanatory documents No. 1 026 395, 1 026 826. 1 sheet of drawings © 909 609/332 8.