DE410008C - Circuit for relay with current and voltage winding in alternating current networks - Google Patents

Description

GERMAN EMPIRE

ISSUED FEBRUARY 21, 1925

REICH PATENT OFFICE

PATENT LETTERING

CLASS 21 c GROUP 57

(A 41774 FJIIj21 c ³ )

General Electricity Society in Berlin *).

Circuit for relays with current and voltage winding in alternating current networks.
Patented in the German Empire on March 11, 1924.

The voltage coils of relays, whose So speaks in a star-connected rotary release time depends on the voltage, \ power supply with a non-earthed zero point must be switched in such a way that a! a two-phase short-circuit at least fault, which is at the level of any one of the I a relay correctly, if in each phase one voltage of a system has an influence, relay with a voltage winding connected to the line voltage at at least one relay connected to this voltage. When it rains. Since the causes for the de-three-phase short-circuit will even be all standing faults of various kinds. B. responds correctly in the event of a short circuit, but does not change the line-to-line voltage. The earth faults almost ineffective. entire system suffers only one publishing house

*) The patent seeker stated as the inventor:

Josef Biermanns in Karlshm ~ st.

tion, d. H. the voltages of the individual phases against earth change.

It is similar as soon as the zero point of the network - directly or via an ohmic Resistance or an inductance - is earthed, in the event of a single-phase earth fault, which corresponds to a single-phase short circuit, only the relevant phase voltage is significant influenced, while the linked voltages drop only slightly. On the other hand, in the case of multi-phase short circuits, only the phase voltage can be influenced.

You could help yourself by doubling the number of relays and the Voltage coils of one half to the chained, that of the other to the phase voltage lays. But that meant an undesirable additional load on the system. For a simplified solution of the task at hand has already been proposed by means of an auxiliary relay, e.g. B. in a three-phase network, the three voltage drop relays with earth j short in star, with short circuit in delta closed! switch.

An even simpler solution is obtained according to the invention if the relays are used provides itself with contacts that switch the voltage coils in the desired way, namely in such a way that in the case of a single-phase ■ short circuit at the phase voltage, in the case of multiphase are due to the chained voltage. An advantage over the known device apart from the lower number of contacts and the resulting greater operational reliability, in the fact that not always all voltage coils, but only those that are from the overcurrent energized relays can be controlled.

The idea of the invention is explained with the aid of the accompanying figures. Fig. Τ represents a two-phase network, Fig. 2 a three-phase network, both with a resistor earthed zero point. The connection is missing in networks with ungrounded zero point the zero point with earth, but otherwise the circuit and its mode of operation is exact the same.

In Fig. Ι go from the transformer with a grounded center point, two lines u and ν , in which the current coil α of a relay is switched on. The voltage coils b are connected via changeover contacts in such a way that in the idle state the voltage coil of the relay of the phase u is connected to uo , that of the relay of the phases is connected to vo. If both phases are now short-circuited to the right of the relay, both relays respond and the current coils switch the voltage coils, which are now both connected to the voltage uv influenced by the short circuit. With a single-phase short circuit, if z. B. the phase u is connected to earth, the relay of this phase u responds and switches the voltage coil of the relay of phase ν . However, this has no effect on tripping, since this relay itself does not respond. The essential thing is that as a result of the failure of the relay lying in ν , the voltage coil of the responding relay u remains connected to uo , because that is the phase affected by the earth fault. In the three-phase network shown in Fig. 2, the task is achieved in an analogous manner. In the case of a multi-phase short circuit, the voltage coil of one of the relays responding under the short-circuit current is safely connected to the linked voltage of the short-circuited phases.

Should the zero point not be readily accessible at the point where the relays are located an artificial zero point is to be created with known means, to which the Voltage coils are connected.

Claims (2)

85 patent claims: 1. Circuit for relays with current and voltage winding in AC networks, characterized in that a switching device is connected to each relay, which in the event of an overcurrent responds in the current coil of the relay and which in the event of a ground fault of a phase the voltage coil to the voltage of this Phase, in the case of a short circuit between two phases, however, at least one voltage coil connected to the line voltage between these phases. 2. Circuit according to claim 1, characterized in that the voltage coil of the relay one phase to the contacts of the switching device one to one relay belonging to the other phase is connected in such a way that it is in the idle state is between the phase belonging to the first relay and earth when responding of the relay of the second phase is due to the linked voltage between the two phases. 1 sheet of drawings.