DE569455C - High-voltage switchgear with a double busbar system - Google Patents

Description

High voltage switchgear with double busbar system In electrical High-voltage switchgears have recently suffered several serious industrial accidents by pulling disconnectors under load. Against the use of circuit breaker interlocks There are considerable operational and economic concerns. If you want to rule out industrial accidents with disconnectors, nothing remains left than to do without the use of "disconnectors at all.

There are known switchgear in which the individual branches the double busbar systems are connected by two circuit breakers each. By using two circuit breakers for each consumer and producer feeder however, there are considerable additional costs; at the same time, the space required by the system increases extraordinary. Another arrangement has attempted to overcome these disadvantages to avoid that the circuit breaker is movably attached and bridged to L. the busbar connections under load from a busbar connection to the other switched «can be grounded. However, this proposal did not consider that the busbar change both under load and without connection of the busbar systems must be possible.

After the invention "- a busbar change is optionally available Load as well as without connection of the busbar systems by a movable current bridge between the two busbar connections, which are now either in the The bridging position is brought when a switch is to be made under load, or is in the open position when the circuit breaker is also open be disconnected from one busbar connector and moved towards the other target.

In the figures, a switchgear according to the invention is shown.

Fig. I shows a structural embodiment; Fig.2 shows a schematic Depiction.

The double busbars i and 2 are supported by the frame 3. The connecting lines 4 and 5 of the two busbar systems lead via bushings 6 and 7 to the connecting pieces 8 and g, which can be connected to one another by a movable current bridge. The contact piece ii of the movably mounted expansion switch 12 slides on the connection pieces 8 and 9 as well as the power bridge io connecting them. Between this contact track and the cable termination 15 of the junction, an extendable switching truck 16 is connected, which contains a current transformer 17 and a dry voltage transformer 18. The converters are also connected to the fixed lines using plug-in contacts. The switch car thus replaces the feeder disconnector blade that was most commonly used up to now. The measuring instruments and relays 28 are attached to the front plate 27 attached to the carriage 16. The current bridge io is controlled by a linkage i9 which is moved by the clutch switch 2o (see Fig. 2), not shown in FIG. The clutch switch is inserted in a known manner under the supervision of a synchronizing device 21 which is connected to the converters 22 and 23. Instead, you could also attach a lock that allows the movement of the current bridge io only after inserting a clutch switch.

Should the feeder now be under load, for example from the busbars i are switched to the busbars 2, then after synchronization the 2o coupling switch present in all systems is inserted through which the busbars i and 2 are connected to each other. When inserting the clutch switch 2o the linkage ig closes the current bridges io of the switchable at the same time Branch or, more appropriately, all branches connected to the busbars are connected. The circuit breaker 12 can now be switched off in the closed state of the position shown can be moved to the right into position 32. The clutch switch 2o is then opened again, so that the current bridge io also opens.

The switching movement of the circuit breaker can be done at the same time make usable for audit purposes. In the construction example of FIG the expansion switch i2 is mounted on the carrier 25 by rollers 24. Should he Switch itself is revised, so it is seen in the drawing to the left brought into position 42. If a revision of the drive 26 is desired, it will be Switch moved to the right to position 52. With further movement the switch can be completely removed from the system for repairs, for example.

When using the switching truck containing the converter, the Despite the use of only a single circuit breaker, the system does not have any branch circuit breakers at all more.

The switchgear according to the invention is particularly suitable for use of expansion switches that have a straight current path and which therefore the sliding contacts can be attached above and below the switch without special current loops leading around the switch are required. The in Fig. i provided contact track 14 can by a flexible, to the circuit breaker connected supply line must be replaced. The connection of the flexible line to the The plug-in contact of the transducer switchgear can be designed in such a way that it extends after it has been extended of the circuit breaker and the 1leßwandlerschaltwagen, so if the flexible supply line is tension-free, can be resolved.

Claims (7)

PATENT CLAIMS: i. High voltage switchgear with double busbar system and with one that can be used optionally for both busbar connections of a feeder Circuit breaker operated by moving from one busbar connection to the other under load through the intermediary of a current bridge connecting the busbar connections can be moved, characterized in that the current bridge is movable in this way it is appropriate that the busbar change either under load or without The two busbar systems are connected by opening the current bridge can. 2. Switchgear according to claim i, characterized in that the current bridge at the same time serves as a guideway for circuit breaker sliding contacts. 3. Switchgear according to claims i and 2, characterized by the use of circuit breakers with a straight current path, especially expansion switches. .I. Switchgear after Claim i to 3, characterized in that the movement of the busbar connections connecting current bridge depending on the position of the busbars connecting clutch switch is controlled. 5. Switchgear according to claim q., characterized in that the current bridges of all branches of a busbar system can be moved simultaneously depending on the position of the clutch switch. 6. Switchgear according to claims i to 5, characterized in that the circuit breakers by continuation the changeover movement beyond both operating positions in revision positions can be brought. 7. Switchgear according to claim i to 6, characterized by the use of a switching truck with plug contacts containing current and voltage converters as a voltage interruption for the branches.