SU1552250A1 - Switch with electromagnetic actuator - Google Patents

Abstract

This invention relates to electrical engineering, in particular, to a power switch. The purpose of the invention is to expand the functionality. This ensures that the switch is turned off with a latching fit in the event of a short circuit being turned on while the drive is powered with a rectified current from a source dependent on the voltage of the switch-switched circuit. A spring-loaded pair of links located near the dead center is inserted into the kinematic circuit of the switch, breaking before the moment of the breakdown of the insulating gap between the closing contacts of the switch. 1 il.

Description

The invention relates to electrical engineering, in particular, to a power circuit breaker, and can be effectively used in the manufacture of high-voltage circuit breakers, including vacuum ones, with an electromagnetic drive, fed by a rectified current from a voltage-dependent circuit-switched circuit.

The aim of the invention is to extend the functionality by providing a switch to short-circuit with a latching when the switch is operated with a drive on a rectified current, powered by a dependent voltage of a switched power supply circuit.

The drawing shows a kinematic circuit breaker.

The switch contains an electromagnet 1 with a pusher 2, a free-release mechanism consisting of lever 3 and links 4-8, a mechanism for transmitting movement to moving arms 9 of arcing chambers consisting of a three-stage system of two-arm L-shaped levers 10-12 and links, 13-15. The switch with a drive also contains a spring 16, a latch 17, a lever that pushes the switch contacts, an intermediate shaft 19, a pusher 20 of the shutdown electromagnet 21, an axis and springs 22-25. The lever arm J2 associated with the moving contact 9 is made of an insulating material. In addition, a pair of links 26 and 27 at the beginning of switching on near the dead center is introduced into the kinematic circuit of the switch,

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spring loaded 28. The lever 29, which is mounted on the intermediate shaft 19, acts on this pair. The break in the links is controlled by the stop 30.,

The switch works as follows,

In the initial switch-on period, the links 26 and 27 located near the dead center prevent the shaft 19 from turning clockwise. As the current flowing through the winding of electromagnet I increases, the force created by it increases. When the current reaches close to the steady-state value, the links 26 and 27 are broken out and, as indicated, the force created by them and the counteraction to the inclusion decreases sharply. Even if at this moment the supply voltage completely disappears, the switch completely completes the switch-on operation with the landing of the latching drive. This happens for the following reason. Increasing to an almost steady-state value, the turn-on electromagnet cannot instantly decrease to zero and continues to flow in the same direction, closing through the rectifier diodes. However, its value decreases exponentially. However, at the same time, due to the fracture of links 26 and 27, the counteracting force of the switch to the drive and the gap between the poles of the switching-on electromagnet

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magnet, which leads to the preservation of the magnitude of the force generated by the electromagnet and ensuring reliable switching of the switch.

Turning off the switch occurs in the prototype. In so doing, the links 26 and 27 return to their original position under the action of the spring 28.

The use of the invention makes it possible to optimally solve the problem of controlling high-voltage switches, including vacuum ones, in electrical installations where it is not possible to provide power to the drives from an independent source. Moreover, such electrical installations in power systems constitute the overwhelming majority, especially in electrical networks for agricultural purposes.

Claims (1)

Invention Formula Electromagnetic actuator switch containing moving and stationary contacts, shaft, intermediate shaft, breaking spring and electromagnetic current fed by a rectified current, characterized in that, in order to expand functionality, a pair of spring-loaded links acting on an intermediate drive is introduced into the kinematic scheme of the electromagnetic drive. the switch shaft and being in its open position near the dead center. 7 th gh 8 to