DE714837C - Switching device for high voltage switch - Google Patents

Description

Switching device for high-voltage switches It is known that faults which occur as a result of a short circuit or earth fault in high-voltage networks to eliminate short-term disconnection of the faulty power supply unit. In case that the short circuit or the earth fault is formed by an arc, is after the fault was rectified by extinguishing the arc. In the event of such a shutdown, z. B. a connection line between two large power plants, you lose for the time of the shutdown but the coupling of the two power plants. In these times This can be out of step due to non-symmetrical loads on both power plants fall. One is therefore very limited in the time it takes to extinguish the arc. So must z. B. with a 2oo-, V-Leitüng, the same in half a second at the latest reconnected after an earth fault occurs. The normal switching devices are not usable for this purpose because they have a dead time until they are switched off which in itself is on the order of half a second.

The invention relates to a modification of normal switches the purpose of shortening the switching time until it is switched on again as much as possible. For this are according to the invention the movable current-carrying switching parts that one have low mass, of the rest, having a relatively large mass Drive and power transmission parts separated and during the switching process Reflection means are provided that indicate the direction of movement after switching off Achieving the switch-on movement and reverse the recoupling of the current-carrying Bring switching parts with the other drive and power transmission means. A high switching speed is then achieved, and while with the normal Switch the kinetic energy of these fast moving switching elements at the end of the Switch-off movement: is destroyed by dampening devices, is in the case of the object the invention does not destroy this kinetic energy, but to switch it on again made usable. Therefore, a reflection means is used in place of the inelastic damping means intended.

A simplified illustration of a high-voltage switch according to FIG. 1 may serve to explain the inventive solution. The current-carrying movable switching parts exist in this embodiment from a switching pin i, which by means of Pawl 2 with which has a large mass the power transmission and drive star is coupled. The fixed Schaltb is denoted by 4. To switch off the the switch-off spring 5, which is specified here as a compression spring and which accelerates the switch pin in each position in the direction of the switch-off movement.

In this exemplary embodiment, a buffer spring is used as the reflection means 6th

During normal switching, the pawl always remains engaged. In the event of a short circuit or an earth fault and automatic reconnection, the pawl: 2 is released . The switch pin i follows the force of the switch-off spring 5, switches off the switch pin i and interrupts the short .bzw. the earth fault current. At the end of the switch-off movement, the energy of the moving mass of the switching pin i compresses the buffer springs 6, so that when the switching pin i comes to a standstill, the movement of the switching pin is reversed. At the end of this switch-on movement, the pawl 2 causes the switching pin to be coupled to the mass of the power transmission and drive parts 3 that is not involved in the movement.

Another perfection that increases the safety of the reconnection brings about, is achieved according to the invention in that the power transmission and -drive parts when switching off in the direction after the switch-off position towards the reconnecting Switching part are countered so that the coupling takes place with certainty. the Final engagement is achieved by returning the power transmission and drive parts including the light mass of the switch pin in the ON position. At the moment of latching, the heavy mass has an external drive the direction of movement changed, it is already on the way to being switched on again and takes the light weight with it.

The success of this measure is that the heavy mass only needs to cover part of the stroke, so that the total switching time that the switch pin needs to move in the event of an earth fault o to get back, is significantly shortened without higher mechanical stresses occurring on the moving switching or drive parts. But you can with relatively multiple means bypassing the latching and bring about an inevitable coupling. For this purpose, according to a further "proposal according to the invention, an additional I holding part are arranged in such a way that the additional switching part for part of the ubes, e.g. B. at half stroke, the heavy one pale already covered the whole stroke has and remains in the switch-off position with a further switch-off movement of the heavy mass, and that the additional switching part is coupled to the heavy mass by a positive drive gear. The switching pin is not coupled to the heavy mass, but is always located between the heavy mass and your additional switching part. In the switch-gravitational mass m e, the additional switching part also -findet in the on position and thus also the switching pin. The same applies to the switch-off movement. In any intermediate position of the heavy mass between the final switch-off and switch-on position, the switch pin has a freedom of movement that is limited by the position of the heavy mass and that of the additional switch part. This freedom of movement, which is caused by the arrangement of a switch-off spring on the switching piece and the arrangement of a reflective means in the switch-off position, becomes rapid according to the invention. free movement of the switching pin exploited.

In the embodiment according to the embodiment 2 takes place the elimination by initiating the movement of the power transmission and drive parts 3. The switch pin i is faster by the opening spring 5 than the power transmission and drive parts moved to the switch-off position because the one marked with S additional i switching part releases the switching pin i. In the switch-off position the switching pin i thrown back by the reflection means. In the meantime. have, too the power transmission s and drive parts by an external drive i their direction of movement vice versa. When the movement of the large mass is reversed, the additional switching part also becomes S returned to the on position at high speed. He takes it the switch pin i moved in the same way to the end position »on« with and the freely oscillating mass replaces that which has been lost through friction Share of kinetic energy. i In contrast to the execution forum according to Fig. i, in which a pawl is provided, the arrangement according to FIG. 2, as can be seen, inevitably, because the additional switching part 8 moves the switching pin i into the i: Jung leads back even with an incomplete reflection. To In the event of a final switch-off, the switch pin remains in the switch-off position. The reflectivity cannot be used with normal activation will. Only when the additional switching part 8 in rapid movement of the heavy Mass follows after the switch-on position, the switch pin would be additional through this Switching part brought from the switch-off position to the switch-on position.

In order to avoid jerking the switch pin i and the resulting To prevent conditional overstressing, a spring io can be provided according to FIG that also serves as a means of reflection. The spring io connects the switch pin with the heavy mass. In the event of a switching process caused by an earth fault the switch pin would not then at first when it was switched on be taken away immediately, but the spring would be stretched, the one soon to come Entrainment causes. The additional switching part 8 can then, .the switching pin i at - as far as possible, move the shock absorbed into the switch-on position because the switch pin i already has a speed in the switch-on direction.

The switching device described can be used together with the opening spring combined into a structural unit and housed in a common housing will. Such a unit can be retrofitted to any circuit breaker o. The like. Be attached.

In Fig. 4, another embodiment is shown in which instead of a lever transmission according to FIGS. 2 and 3, a spur gear transmission ii, e.g. B. with the translation i: 2 is used.

Claims (1)

PATENT CLAIMS: i. Continuous switching device for high voltage switches for the short-term separation of a line, characterized in that the movable Stroindurch- (iossen switching parts, which have a low mass, from the remaining, a relatively large mass having drive and power transmission parts are separated during the switching process, and that reflection means are provided are the direction of movement after switching off to achieve the switching on movement reverse and the recoupling of the switching parts through which current flows with the bring about the remaining drive and power transmission parts, 2. indexing device according to claim i, characterized in that the power transmission and drive parts when switching off in the direction after the switch-off position to the one to be switched on again Switching part are countered so that the coupling takes place with certainty. ` -3. Indexing device according to claims i and 2, characterized in that the Decoupling of the switching parts through which current flows, e.g. B. the switch pin of the Power transmission and drive parts through the movement of the power transmission and drive parts, namely in the initial part of this movement. 4 .. switching device according to claims i and 2, characterized in that an additional switching part is provided is that inevitably has to deal with the heavy power transmission and drive parts a transmission is connected in such a way that the additional shift part in a part of the stroke of the heavy mass already covers the entire stroke, and that with one further stroke of the power transmission and drive parts the additional switching part remains in the vicinity or in the switch-off position. 5. Switching device according to Claim 1, 2 and 4, characterized in that the switching pin is arranged so that it is in every position between the power transmission and drive parts on the one hand and the additional switching part is on the other hand, so that the switching pin inevitably reaches both the on and the off end position. 6th Indexing device according to claims 1, 2, 4 and 5, characterized in that as Reflection means a the switching pin with the power transmission and drive parts serves as an elastic connecting spring. 7. indexing device according to claim i, 2, 4 to 6, characterized in that the switch pin is attached to a lever, which is provided together with the additional switching part on one and the same axis is. B. indexing device according to claim i to 7, characterized in that the same optionally forms a structural unit with the switch-off spring, which subsequently can be attached to a high voltage switch.