DE968303C - Circuit breaker interlock - Google Patents

Description

An automatic locking device for circuit breakers is known. It contains an electromagnetic one Locking device, which is activated by the between the switch contacts "when pulling the Disconnector resulting voltage gradient is controlled in such a way that the between a Main contact and a pre-contact switched blocking coil energized when switching over the pre-contact and thereby the lock against opening

ίο the disconnector is activated. the Locking device is energized by the voltage gradient in one when switching off suddenly or in constant transition to the circuit applied resistance. The constructive execution is like that made that the resistance value increases with the angle of rotation covered by the cutting knife. From the start of switching off, the resistor carries the full main current, with the blocking coil only after reaching a certain voltage

ao drop across the resistor to respond.

The invention also relates to a disconnector interlock, in which the disconnector blade is moved over a contact isolated from the main contact before switching off, on which a blocking coil, dimensioned for short duty cycles at nominal current, to actuate a blocking device whose other connection is connected to the main contact. The arrangement is

according to the invention made so that a current-dependent resistor in front of or parallel to the blocking coil with a strongly negative temperature coefficient, preferably a resistor based on uranium or titanium dioxide, lies.

It is true that it is in a device for controlling variable speed drives DC generators with two opposing shunt field windings known, the a field winding a resistance of negative

♦ o to connect current characteristics in parallel. This happens, in order to achieve a self-regulating effect in this way and the voltage generated to be kept constant regardless of the fluctuations in the drive speed. According to the invention on the other hand, a current-dependent resistor is used to protect the blocking coil of a circuit breaker used because this blocking coil is very exposed to different currents. It must be measured in this way ensure that they are safe even with small currents that are far below the rated current responds, and thus there is a risk that this coil at much higher, but still operational Stream burns.

An exemplary embodiment of the invention will be explained with reference to the drawing. The cutting knife 3 performs a swivel movement during the disconnection. Its free end is in the switch-on position on a main contact 1, which is able to carry the operating current. A second Main contact 1 is at the end of the trajectory and is also designed so that he is able to carry the operating current continuously when the disconnection is locked and that Separating knife 3 stops on this main contact for some time. Between the two conductive with each other connected main contacts 1 is the pre-contact 2 isolated from them. On the pre-contact The blocking coil 4 is connected to 2 and the main contact located further outside. in the In the idle state, the relay armature 5 holds a locking pawl 6, which is only indicated schematically in the drawing Location.

According to the invention, a current-dependent resistor 7 is connected in parallel with the blocking coil 4. As soon the cutting knife 3 reaches the pre-contact 2 in the course of a switch-off movement a voltage gradient and a current flow through the blocking coil 4. This attracts its armature 5 and thereby lets the pawl 6 fall, which is placed in front of the cutting knife 3 (dashed position) and thus preventing the disconnector from opening.

The blocking coil 4 is endangered by the current flowing through it. First is the Locking coil practically alone in the main circuit. Only when the dwell time of the cutting knife 3 on the pre-contact 2 has exceeded a certain value, the current-dependent resistance comes 7 due to its strongly negative temperature coefficient to the effect and protects on this Way the blocking coil from thermal overload or destruction. The resistance value falls as a function from the switch-on time.

The locking device according to the invention thus produces an improved effect.

The invention can be used in the same way if the trip coil is not directly, but is connected to the isolating switch with the interposition of a current transformer.

Claims (1)

Claim: Disconnector interlock, in which the disconnector knife is operated via a from the main contact isolated contact is moved, on which one for small duty cycle at The rated current-rated trip coil for actuating a blocking device is connected, the other connection of which is on the main contact, characterized in that .forward or parallel A current-dependent resistor with a strongly negative temperature coefficient for the trip coil, preferably a resistor based on uranium or titanium dioxide.