DE2248901A1 - SURGE ARRESTERS - Google Patents

Description

Surge arrester The invention relates to a surge arrester with a spark gap with a series of blown coils to extinguish the arc at the spark gap and with a bleeder resistor connected in series.

There are already known surge arresters which are connected in series of current-limiting spark gaps and voltage-dependent resistors. The current-limiting spark gaps are arranged in arcing chambers that run through stacked one on top of the other and correspondingly shaped plates formed between them are. Under the influence of a magnetic field generated by the blow coils the arcs between the spark gaps after the response of Driven away from the point of contact, extended and on the walls of the extinguishing chambers chilled. This increases their resistance, which also reduces the voltage drop across the spark gaps is increased.

If the arrester responds in the event of overvoltage, then it flows first the leakage current, which is practically only limited by the resistors. On these Resistances, a residual voltage occurs, which does not exceed a certain value allowed. After a magnetic field has been built up by the blowing coils, the arcs begin to wander, which increases the voltage drop across the spark gaps.

The disadvantage of this known device is that still a high leakage current can flow if the The discharge process has not yet subsided. Since in such a case the residual voltage the voltage drop at the spark gaps is also added to the resistors, the additional voltage level can be exceeded with high leakage currents.

It is the object of the present invention to remedy this disadvantage. According to the invention, this is thereby achieved achieved that parallel to the bleeder resistor an inductive switching element is arranged such that the time constant of the A parallel connection consisting of a leakage resistor and an inductive switching element The time constant for the voltage build-up on the is at least approximately the same Spark gap.

In the following an embodiment of the invention is based on Drawings explained in more detail. It shows Fig. L the schematic diagram of the described AusfUhrungsbeispiels, and Fig. 2 the representation of the voltage curve at the spark gaps and the parallel connection of inductance and bleeder resistance as a function currently.

According to Fig. 1, the device is made so that a current-limiting Spark gap 1 between the blow coils bridged by a parallel resistor 4 3 occurs. A bleeder resistor R connected in series with this arrangement is an inductance 5 of the value L is connected in parallel. The time constant T "L / R of this Parallel connection is chosen so that it respects the time constants of the voltage build-up at the spark gap 1 is at least approximately the same.

The effect achieved in this way can be seen from FIG.

The parallel connection of inductance L and bleeder resistor R is generated a time-dependent voltage curve UR, the time constant T of which is equal to the time constant of the voltage curve UF at spark gap 1.

The measure described will result in exceeding the permissible Residual voltage is prevented by increasing the voltage build-up at the spark gaps the voltage drop across the resistor R becomes smaller.

Claims (1)

Patent claim Surge arrester with spark gap, with one in series Blow-out coil to extinguish the arc at the spark gap and with one in series switched bleeder resistor, characterized in that parallel to the bleeder resistor (2) an inductive switching element (5) is arranged such that the time constant the parallel connection consisting of leakage resistance and inductive switching element The time constant for the voltage build-up on the is at least approximately the same Spark gap.