SU678580A2 - Device for relay protection with deshunting of shut-off electromagnet - Google Patents

Description

and cause a delay in the protection action (or require a large gap between the contacts of the current relay).

The purpose of the additional invention is to eliminate this disadvantage of the basic invention, according to the author's certificate No. 233058

This goal is achieved by the fact that a second commutating two-winding choke is additionally introduced into the device for relay protection with the deactivation of the shutdown electromagnet according to the author's certificate No. 233058, each of which windings is connected in series with the corresponding winding of the first throttle.

The schematic diagram of the proposed device is shown in FIG. .

Commuting double-winding chokes b and 7 have exactly the same parameters.

The parameters of the working and additional windings may be the same, but they may differ. This is ensured by the number of coils wound at the same time and constitute the windings. So, when winding two katu simultaneously; NIS (according to the type of bifilar winding) {the working and additional windings have exactly the same parameters. When three-four coils are wound at the same time (also according to the type of bi-filar winding), one of the windings is a worker or additional - it can have more turns and more resistance than the other. This determines the distribution of currents to the contact opening mome 5 across the working and additional windings and, ultimately, the current load is broken by the disconnecting contact -5 of the current relay 3. For example, at the same operating and additional winding parameters, the current in the contact 5 is disconnected equal to half the total current, and with a double-coil auxiliary winding and a single-coil operating current in the circuit of the opening contact 5 is equal to one third of the total current in the protection circuit. On the other hand, after opening the break contact 5

the voltage induced on the additional winding due to magnetic coupling with the working one, proportional to the ratio of their turns, will be the same in the first case and twice as large in the second case. 5 In normal mode, the protection circuit is in the idle state. In the event of a short circuit in the protected network, the current in the secondary circuit of the current transformer 1 increases.

0 PH flows through the current relay 3 and through two parallel circuits shunting the tripping electromagnet 2 circuit. When the current relay 3 trips, it closes

5 contact 4 and the disconnecting contact 5 opens. Since the magnetic fluxes of the additional windings 10 and 11 do not compensate for the magnetic fluxes of the working windings 8 and 9, the resistances of the chokes 6 and 7 sharply increase and the main part of the secondary short-circuit current rushes electromagnet off 2, ensuring its operation and protection action. Until the short-circuit is turned off, additional windings will be induced on the additional windings 10 and 11, which due to the opposite direction will be mutually compensated, resulting in

0 the voltage on the open disconnecting pin 5 will be the same as that on the electromagnet of the trip 2..

The use of the invention will improve the reliability of the relay protection circuit and the de-shunting of the tripping electromagnet by facilitating the operating conditions of the contacts of the current relay, opening the high secondary short-circuit currents.

Claims (1)

1. USSR author's certificate 233058, cl. H 01 F 7/18, 1967. L. ,, - ir