DE3505718C2 - - Google Patents

Description

The invention relates to an arrangement with converter current Solution in the trip circuit of protection relays by type of claim 1.

Fig. 1 shows such an arrangement. Here, the system-side shunt release 10 is supplied via the trigger converter 2 from the secondary circuits 3 of the main converter 1 . (AEG-TELEFUNKEN, LISTE "Measuring and protection relays in housing design" 1981/82, page 8/15).

In order to keep the load on the main converter 1 as low as possible in normal operation, the tripping converter 2 is short-circuited on the därseiten by the break contact 9 of the trip relay 8 in the protective relay 7 .

Only at the moment when the protective relay responds, the shunt release 10 is connected to the secondary winding 5 of the tripping converter 2 via the make contact of the tripping relay 8 .

The tripping converter 2 is designed such that its iron core when loaded by the shunt release 10 when the trigger relay 8 is reached when the rated current in the primary winding 4 is exceeded, the magnetic saturation is reached, so that the errors occurring in the network to be protected sometimes very high short-circuit currents can not be transferred to the secondary side. The shunt release 10 and the closer of the relay 8 are protected in this way against overload.

Such an arrangement is also in the magazine "Elektro-Technik", Dec. 17, 1955, pp. 445-447.

From DE-GM 17 46 610 an arrangement with tripping current is known, in response to reducing the secondary current load a main converter, the current flowing in the primary circuit of a trip converter, which the secondary winding of the main converter delivers to an open circuit is switched over.

From DE-OS 25 08 979 it is known to use the winding of a current transformer a varistor in order to protect it from inductive voltage peaks protect.

As long as the secondary winding 5 of the tripping transducer 2 is short-circuited by the break contact 9 , the tripping transducer transfers high short-circuit currents linearly to the secondary winding 5 because of the then very low-impedance burden until the protective relay trips.

If the protection relay is set with a delay, the short-circuited secondary circuit must be able to process this high current for this delay time. For this reason, the winding 5 , the connecting lines and in particular the special break contact 9 must be dimensioned for high current carrying capacity.

The present invention is therefore based on the object de to create a circuit arrangement which allows that the secondary circuit for a much lower current resilience can be designed.

According to the invention, this task is performed with the in the license plate the circuit means specified solved.

An embodiment of the invention is shown in Fig. 2 Darge.

Fig. 2 shows an arrangement with transformer current release in which a second secondary winding 6 is applied to the trigger wall ler 2 and is looped in at points P 1 and P 2 , so that when the normally closed contact 9 is closed, the secondary winding 6 with the secondary winding 5 is switched in series is.

If the protective relay 7 responds, the shunt release 10 is connected to the secondary winding 5 via the make contact of the release relay 8 in the same way as in the arrangement according to FIG. 1; the switch 12 interrupts the circuit to be protected.

The secondary winding 6 is therefore only through current when the release relay 8 is in the idle state and is therefore called quiescent current winding. It receives in relation to the secondary winding 5 a significantly higher number of turns in order to reduce the current in the short-circuited state of the tripping converter on the secondary side and thus to protect the break contact circuit from excessive current load.

In order to limit the inductive voltage peak that occurs when the normally closed contact 9 is opened, a varistor 11 is placed over the secondary winding 6 .

Claims (2)

1. Arrangement with transformer current release in the trip circuit of protective relays for AC networks, with one main converter ( 1 ) per phase and one on the secondary windings ( 3 ) of the closed trip converter ( 2 ) for providing an operating current for a shunt trip device ( 10 ), whereby in normal operation the trip converter ( 2 ) on the secondary side through the break contact ( 9 ) of an A7slöserelais ( 8 ) in the protective relay ( 7 ) is short-circuited, characterized in that the tripping converter ( 2 ) in addition to the first secondary winding ( 5 ) a second secondary winding ( 6 ) with a substantial has a larger number of turns and that the second secondary winding ( 6 ) is looped into the secondary-side short-circuit so that when the normally closed contact ( 9 ) is closed, the two secondary windings ( 5 and 6 ) of the tripping converter ( 2 ) are electrically connected in series. 2. Arrangement according to claim 1, characterized in that the second secondary winding ( 6 ) of the trigger converter ( 2 ) is a voltage-limiting element, for example a varistor ( 11 ) is connected in parallel.