DE1946705A1 - Arrangement for selector protection in connection with thyristor diverter switches - Google Patents

Description

Arrangement for selector protection in connection with thyristor diverter switches The invention relates to push-button switches that are equipped with thyristors. With these diverter switches, switching takes place by igniting or blocking the with the respective desired tapping of the control winding via a selector contact thyristor device lying in series. The ignition or blocking of the thyristor devices takes place via a control unit. If a malfunction occurs on this control unit, then there is nevertheless the possibility that the Step selector (in the event of voltage fluctuations in the network) is switched to another control winding tap. In this Case there is a risk that the voter contact when leaving the set Tapping under Iest switches, which leads to the destruction of the meter and at least failure, if not damage, of the transformer.

Although the thyristor devices are preceded by fuses, they speak however, only in the event of a step-by-step short circuit or operational overcurrents. To the to exclude the dangers outlined above when operating thyristor asynchronous switches, it is therefore necessary to take special measures to protect the meter and the Eransformators to meet.

According to the invention, the above-described object is achieved by a Arrangement for securing ehyristor diverter switches released, with the indicator, that the selected tap and that of the preselected tap of the control winding are assigned Selector contacts of the load switch are each mechanically coupled to an auxiliary switch are, with the auxiliary switch assigned to the preselected tap between the chosen Tap and discharge, the auxiliary switch assigned to the selected tap is arranged between the preselected tap and the outlet and that the mechanical coupling between the counter contacts and the auxiliary switches Closing the switching sections of the auxiliary switches before the respective Selector contact caused by the tap. The auxiliary switch turns it on Trip circuit closed, which drives the on-load switch via a relay is switched off, so that the switching process of the diverter switch, d. H. the actuation of the selector contact is interrupted, thus the last set tap can not leave.

The main switch can be triggered at the same time.

The invention is explained in more detail below with reference to FIGS. 1 and 2. tert. Fig. 1 shows schematically the structure of a single-phase thyristor diverter switch. The two selector contacts 1 and 2 are connected to the taps 3 and 4 of the control winding 5 and are via the thyristor devices 10 and 20 with the output line 6 of the diverter switch tied together. With the selector contacts 1 and 2, the auxiliary switches 11 and 21 are mechanical coupled. In series with auxiliary switches 11 and 21 lie the Thyristor devices 10 and 20, a series resistor 7 and a Stromfendler 8, the one Relay 9 sneist.

The mode of operation of the arrangement is as follows: In the normal case is exemplary the thyristor device 10 lying in series with the auxiliary switch 11 is blown, the thyristor device 20 locked, and the auxiliary switches 11 and 21 open. Of the Current flows from the tap 3 via the selector contact 1, the thyristor device 10 for rejection 6.

Switching to the next tap can be done in such a way that the Thyristor device 10 locked and the thyristor device 20 is lurchgezünd so that now the current is drawn from the tap 4. However, switching can also be used on a tap that has not yet been selected may be required that a switching movement of the selector contact 2 makes it necessary. Before this happens, as a result of the mechanical coupling of the selector contact 2 with the auxiliary switch 11 of this closed. If, as described, the thyristor device 10 is triggered, the thyristor device 20 but locked, the relay 9 remains de-energized and the switching process runs without Interruption. In the event of a fault, i. H. if for example by an error in the control unit for the thyristors in the last switching process of the diverter switch was not led to the end, so that the Thyristqrgerät 10 blocked, but the thyristor device 20 is ignited, the current flows from the tap 4 via the selector contact 2 and the thyristor device 20 for discharge 6. When switching to the next tap, selector contact 2 would have to be open under load. By closing the auxiliary switch coupled to the selector contact 11, the relay 9 is energized via the current transformer 8 and switches the load switch drive 'so that the switching process is interrupted.

Fig. 2 shows the inventive arrangement for a three-phase Neutral point switch.

Claims (2)

P a t e n t a n p r ü c h e Order for the protection of the voter in particular in connection with Thyristor diverter switches, characterized in that the selected and the selector contacts of the load transfer switch assigned to the preselected tap of the control winding are each mechanically coupled with an auxiliary switch, the one of the preselected Tap assigned auxiliary switches between the selected tap and the discharge, the auxiliary switch assigned to the selected tap between the preselected Tapping and the From line is arranged and that the mechanical Coupling between the selector contacts and the auxiliary switches a closing of the Switching path of the auxiliary switch before the respective selector contact expires caused by the tapping of the control winding. 2. Arrangement according to claim 1, characterized in that the auxiliary switch close a trip circuit that switches off the load transfer switch drive via a relay and / or tripping the main transformer switch. Blank page