DE454101C - Overcurrent protection of electrical power networks - Google Patents

Description

Electric line networks are usually much less stressed than at night by day. According to the lower consumption, they also run in the control centers usually fewer generators. The overcurrent protection must now be set so that that the smallest tripping current is greater than the. is the maximum permissible operating current, because otherwise with high loads, but that

ίο are not yet to be regarded as overcurrents, the protective devices could respond.

On the other hand, there is a risk that

the few machines that run at night in the event of a short circuit, not the ones to respond Apply the required current to the relay.

It is less dependent than electricity

Voltage drop from machine power; but relays with both the Response as well as the expiry time is only dependent on the voltage, also not meet all requirements. The invention relates to a relay arrangement at the response of the relay not only from the level of the overcurrent, but also from depends on the voltage drop generated by the overcurrent. The invention can primarily apply to those relays where the level of the current at which the Relay responds, by an ordinary current relay and the expiration time of one any other system, for example a wattmetric relay based on the Ferraris principle, being affected.

According to the invention, this current relay is now under the influence of another Relays are available, which of the voltage drop generated by the overcurrent depends and which the current relay is completely or partially except in normal operation Effect sets. For example, the winding of the current relay can be through a contact be short-circuited, which is then opened by a special voltage relay, when the tension has decreased by a certain amount. The winding of the Current relay is then of course to be dimensioned in such a way that the relay is at the smallest conceivable Overcurrent, which can be smaller than an operating current flowing at another time, responds. Instead of winding the To short-circuit the current relay, you can also use one of the voltage relays actuated normally closed contact put a resistance in parallel, which under normal conditions absorbs such a large part of the current that the current flowing in the current coil is not sufficient for the relay to respond to bring, but when arriving

*! The patent seeker stated as the inventor:

Josef Biermanns in Berlin-Karlshorst.

speak of the voltage relay is switched off, so that then the total current through the current coil flows. In such relays, where the Ferraris disc through the current relay a certain initial speed is given, you can use the voltage relay of the disc by the falling armature of this relay also give an impetus.

ίο In the accompanying drawing, an embodiment of the invention is shown. A current transformer α and a voltage transformer b supply the current and the voltage by which a three-legged relay core c is excited. The current flowing in the voltage coils of the relay is conducted via a contact d , which only has to be closed when a torque is to be exerted on the Ferrari disk e. Of the

ao contact d is actuated by a current relay g , which is connected to the same current transformer as the current coil of the Ferraris relay. In the shunt to the winding of this current relay is a break contact h, which is from a

The voltage drop relay f is opened when the voltage drops. Depending on whether the contact h bridges the current coil directly or with the interposition of a resistor i , no current at all or a certain fraction of the operating current flows in the circuit.

Claims (3)

Patent claims: 1. Overcurrent protection device for electrical line networks by means of such Timing relays, in which the response by a current relay and the expiry time by a separate system, for example a wattmetrical relay, is influenced, characterized in that the response of the regulating the expiry time System depends not only on the current, but also on the voltage drop generated by the overcurrent is. 2. Overcurrent protection according to claim 1, characterized in that the overcurrent relay, which makes the system regulating the expiry time respond, in normal operation through the contacts of a voltage drop relay is short-circuited, but this short-circuit is canceled when the voltage is on has decreased a certain value. 3. Overcurrent protection according to claim 1, characterized in that the overcurrent relay, which sets the system regulating the elapsed time in motion, a resistor is connected in parallel to control the The main part of the current absorbs and the voltage drop through the voltage relay is switched off. 1 sheet of drawings.