EP1376633A1 - Switching apparatus - Google Patents

Abstract

A spark gap (7) triggered by a high voltage signal from a pulse generator (9), is connected in parallel with the switch (2) contacts (3, 4). The spark gap is connected such that the current flowing through it following triggering, activates the drive unit (6), causing the contacts to close together.

Description

Technical field

The present invention relates to a current switching device according to the preamble of claim 1, for the Use in systems for distribution and transmission electrical energy is provided.

State of the art

Current switching devices of this type with two relative mutually movable switching contacts, which by means of a Drive arrangement between an open position and The closing position can be switched, are known, for example from DE-C-43 04 921. Such current switching devices are able to switch high currents and to lead even over a long period of time.

Next are quick-switching devices for Switching high currents is known to be a triggerable Discharge path by two in one fixed Distance from each other electrodes is fixed. The two electrodes take over the control of the nominal current and must be trained accordingly. In the GB-A-2 304 990 disclosed switching device of this type the electrodes are surrounded by a trigger electrode. At least one electrode, namely the cathode, consists of one easily evaporating material, preferably zinc. To the This switching device is switched on by applying a voltage across the trigger electrode between this and an arc ignited the cathode. The resulting Metal vapor coming from the cathode releases one Discharge between the electrodes and thus a current flow through the switching device. Through the in operation the nominal current flowing through the electrodes becomes metal vapors generated after the power cut inside the Lower switching device.

Presentation of the invention

The invention is based on the object of a current switching device of the type mentioned at the outset to create the not only high currents for long periods without ins Weight dropping damage can result, but also can switch high currents precisely in time.

This task is accomplished with a current switching device Features of claim 1 solved.

The precise closing of the current switching device is done by triggering the parallel to the switching element switched spark gap. By after triggering through the spark gap current flows the drive arrangement activated, which then the switching contacts of the switching element, which is preferably a vacuum switch from which Open position moved to the closed position. The switching element, which is designed for high nominal current loads, now takes over the power supply. The spark gap is from relieved of a long lead of the nominal current and can therefore be structurally simpler.

Preferred further developments of the inventive Current switching device form the subject of the dependent Expectations.

Brief description of the drawings

Fig. 1

in schematischer Darstellung eine erste Ausführungsform einer erfindungsgemässen Stromschalteinrichtung, und

Fig. 1

in einer der Fig. 1 entsprechenden Darstellung eine zweite Ausführungsform einer erfindungsgemässen Stromschalteinrichtung.

The invention is explained in more detail below with reference to figures which merely represent exemplary embodiments. Show it:

Fig. 1

a schematic representation of a first embodiment of a current switching device according to the invention, and

Fig. 1

in a representation corresponding to FIG. 1, a second embodiment of a current switching device according to the invention.

Ways of Carrying Out the Invention

The first embodiment shown schematically in FIG. 1 a current switching device according to the invention 1 has a switching element 2 with a fixed switching contact 3 and a movable switch contact 4. The latter is via a switch rod indicated by dashed lines 5 connected to a drive arrangement 6. The switch contacts 3, 4 are in their open position in FIG. 1 shown at a distance from each other are.

The switching element 2 is preferably a vacuum switch that has the advantage that the switching path of the movable switching contact 4 is short. As a drive arrangement 6 at Embodiment shown a bistable magnetic Drive used, as for example from EP-A-0 883 146 or DE-C-43 04 921 is known.

Parallel to the switching contacts 3, 4 of the switching element 2 is a spark gap 7 connected in an evacuated or is housed with a gas-filled vessel 8. A trigger pulse generator is for triggering the spark gap 7 9 provided that the on the basis of control commands Trigger pulses generated.

In the parallel current path 10 containing the spark gap 7 is in series with spark gap 7, a transducer 11, which in In the present case, a current transformer is switched. On the secondary side, the transducer 11 is connected to a first one Input 12 of the drive arrangement 6 connected. Latter has a second input 13 for an opening of the Switching element 2 causing control signal.

The mode of operation of the current switching device 1 according to FIG. 1 is as follows:

A control command is used to switch on a current the trigger pulse generator 9 activated, the trigger pulse generated by which the spark gap 7 is triggered. To the triggering flows in the parallel current path 10 of the current switching device 1 a stream. In the secondary circuit of the transducer 11 a signal is generated which is transmitted to the first Input 12 of the drive arrangement 6 is created. Thereby becomes a switch-on movement in the drive arrangement 6 triggered, such as that in the aforementioned DE-C-43 04 921 is described in more detail. The movable switch contact 4 of the switching element 2 is on the shift rod 5th moved from the open position to the closed position. The closed switching element 2 now takes over the current from the spark gap 7.

To interrupt the flowing through the switching element 2 Current is sent to the second input 13 of the drive arrangement 6, a control signal is applied that indicates a switch-off movement triggers. The movable switch contact 4 is in its open position moved back.

The second embodiment shown in FIG distinguishes current switching device 1 only from the first embodiment shown in FIG another embodiment of the drive arrangement 6. In the 1 and 2 are corresponding components uses the same reference numerals.

The drive arrangement 6 of the current switching device 1 according to 2 has an electromagnetic switch-on drive, of which only the excitation coil 14 is shown in FIG. 2 is. This excitation coil 14 is in series with the spark gap 7 switched in the parallel current path 10 and triggers at her Excitation of a switch-on of the shift rod 5. to Drive arrangement 6 also includes a second excitation coil 15, which is part of an otherwise not shown electromagnetic switch-off drive forms. The excitation coil 15 is connected to a control circuit 16. Instead of the electromagnetic switch-off drive or in addition to this one can be dashed in FIG. 2 mechanical switch-off unit 17 provided his.

The mode of operation of the current switching device shown in FIG. 2 1 largely corresponds to that based on Embodiment according to FIG. 1 mode of operation explained.

By after triggering the spark gap 7 in Parallel circuit 10 of the current switching device 1 flowing current, the excitation coil 14 is excited, resulting in The consequence is that the movable switching contact 4 of the switching element 2 from the open position to the closed position is moved. The current is now over the closed Switching element 2 performed.

In order to open the switching element 2, the excitation coil 15 of the opening drive from the control circuit 16 ago excited. The movable switch contact 4 is in its open position moved back. In the alternative version with a mechanical switch-off unit 17 is used for Opening the switching element 2.

In both described embodiments, this is done Switching on the current by triggering the spark gap 7, which allows the timing of power on to be precise to control. The after triggering the spark gap 7 through the current flowing in the parallel circuit 10 becomes the trigger and possibly also to carry out the switch-on process of the switching element 2, which after closing the power supply. The spark gap 7 therefore has a high only for a short time To carry electricity.

LIST OF REFERENCE NUMBERS

1

Power switching device

2

switching element

3

fixed switch contact

4

movable switch contact

5

shift rod

6

drive arrangement

7

radio link

8th

Vessel

9

Trigger pulse generator

10

Parallel current path

11

transducers

12

first entrance

13

second entrance

14

Excitation coil of the closing drive

15

Excitation coil of the switch-off drive

16

control circuit

17

mechanical switch-off unit

Claims (10)

Current switching device with a switching element (2) which has two switching contacts (3, 4) arranged at a distance from one another in an open position, and with a drive arrangement (6) for moving the switching contacts (3, 4) relative to one another from the open position to a closed position , characterized by a spark gap (7) which is connected in parallel to the switching contacts (3, 4) of the switching element (2) and can be triggered by means of a trigger signal and is operatively connected to the drive arrangement (6) in such a way that the drive arrangement (6) is replaced by the Triggering the spark gap (7) is activated by this flowing current in order to move the switch contacts (3, 4) into the closed position. Switching device according to claim 1, characterized in that the spark gap (7) is accommodated in an evacuated or gas-filled vessel (8). Switching device according to claim 1 or 2, characterized in that the switching element (2) is a vacuum switch. Switching device according to one of claims 1 to 3, characterized in that the switching element (2) has a fixed switching contact (3) and a movable switching contact (4) which is drive-connected to the drive arrangement (6). Switching device according to one of claims 1 to 4, characterized in that the drive arrangement (6) is designed as a bistable magnetic drive. Switching device according to Claim 5, characterized in that a measuring transducer (11) connected in series with the spark gap (7) and arranged on the secondary side is arranged in the parallel circuit (10) which contains the spark gap (7) and which is parallel to the switching contacts (3, 4) the drive arrangement (6) is connected. Switching device according to one of claims 1 to 4, characterized in that the drive arrangement (6) has an electromagnetic switch-on drive for closing the switch contacts (3, 4). Switching device according to claim 7, characterized in that the electromagnetic switch-on drive has an excitation coil (14) which is connected in series to the spark gap (7) in the parallel circuit (10) containing the spark gap (7) and parallel to the switching contacts (3, 4). is switched. Switching device according to claim 7 or 8, characterized in that the drive arrangement (6) for opening the switch contacts (3, 4) has an electromagnetic switch-off drive with an excitation coil (15) connected to a control device (16). Switching device according to one of claims 7 to 9, characterized by a mechanical switch-off unit (17) for opening the switch contacts (3, 4).

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