RU2676467C2 - Load break switch drive - Google Patents

Abstract

FIELD: hardware engineering.SUBSTANCE: invention relates to the field of high-voltage engineering. Drive of the load switch contains a block with a charge spring, fastened on both sides by plates, which rotate for switching on and off, in the direction of the force of the cocked spring. Driving lever is rigidly fastened to one of the plates of the specified block, the transmission mechanism in the form of a thrust with axes is connected to the load switch, the platoon levers act on the plates of the block, coil spring is made with a torsion spring, resting with its edges into the holes of the pins of the cocking levers separately for switching on and separately for switching off. Platoon levers are equipped with stop teeth locking the cocked edges of the spring before giving the command to turn on or off remotely or automatically. Force of the edges of the spring is transmitted to the switch from the axis of the block with a spring without intermediate links, which leads to a decrease in effort for cocking the springs.EFFECT: technical result: simplified drive design, improved manufacturability.1 cl, 3 dwg

Description

The invention relates to the field of high-voltage apparatus of the building, specifically to the design of spring-loaded drive circuit breakers.

According to the requirements of operation, the load switches must provide quick shutdown and inclusion immediately at the time of operation or remote (including automatic) shutdown or inclusion by means of pre-charged actuator springs held by the locking device until the command appears.

Of the known drives closest to the claimed invention is the drive circuit breaker according to the patent of the Russian Federation No. 21094464 from 07/18/97

In this known load-breaker drive comprising a U-shaped lever rotating in an arc of a circle and being thrown to two extreme positions when turned on or off through a dead point corresponding to the state of charged springs.

The disadvantage of this drive is the large number of components and parts included in the design, cumbersomeness, great laboriousness in manufacturing, and the most irreparable disadvantage is that it is impossible to charge the spring to turn off before turning on the drive of the circuit breaker, or to turn it on to turn off.

The present invention is to create a design to avoid these disadvantages.

This goal is solved by the fact that in the known drive of the load switch, comprising a block with a cocking spring, fastened on both sides by plates turning on and off, the driving lever of the drive rigidly fastened to one of the plates of the specified block, the transmission mechanism in the form of traction with axes associated with the load breakers, cocking levers separately for switching on and separately for turning off, the cocking spring in the block with plates is made by a torsion spring, the edges of this spring enter the hole of the pins for charging GOVERNMENTAL levers, provided with the abutment teeth, to control the electromagnets remotely or automatically, and these act through the platoon levers block the plate on the leading drive lever, which via a gear drives a load switch. In this case, the action of the platoon switching lever is excluded by a separate articulated mechanism after the circuit breaker is closed.

In FIG. 1 shows the drive assembly; FIG. 2 view AA of FIG. 1, in FIG. 3 cocking lever to turn off.

The drive of FIG. 1 is depicted in the off state, but the springs are not cocked and consists of a housing 1, a fixed axis 2, on which a block 3 with a torsion spring 4, a fixed axis 7, on which the levers of the electromagnets 8, the electromagnet (hereinafter - EM) disconnect 9 are installed , EM - inclusion 10, the driving lever 11, rigidly attached to the block 3, the transmission mechanism 12 with the axis, the cocking levers 13, the inclusion 14, the hinge mechanism 15. The cocking levers 13 and 14 contain pins 16 with holes 17 that include the edges springs 4. Lever mechanism 8 EM with has a roller stop 18. In FIG. 2 shows a section along AA in FIG. 2. here the driving lever 11 of the actuator 8 is clearly visible connected to the axis of the transmission mechanism 12 directly to the side of the switch, and the lever 11 is rigidly connected to the plate of the block 6. The hinge mechanism 15 is connected to the plate 6. The cocking lever 11 for turning on has a pharynx B, the figured hole and the hole for fixing the pin, and the abutment tooth B .. the roller stop 18 is pressed by a spring (not shown) to the outer contour of the lever 11.

In FIG. 3 shows a cocking lever for disengaging 13, also with a figured hole, a hole for fixing a pin, plus a hole for a finger of a functional purpose, a persistent tooth G.

When the cocking lever 13 (Fig. 3) is rotated to turn off the clockwise movement, the spring cocked to turn off is locked by a roller 18 against tooth G. By rotating the lever 14 counterclockwise, we lock the spring by engaging with a stop tooth B. During this operation, the roller of the hinge mechanism 15 throat B.

When giving a command to turn on, the lever 14 is rotating clockwise in FIG. 2 pulls the plate 6 with it using the hinge mechanism 15 together with the drive lever 11 and makes a switch. The position of the lever 11 after turning on is shown by dashed lines. After turning on, the hinge mechanism 15 leaves the cordon. When giving the command to turn off, that is, on EM 9, the left edge of the spring, rotating counterclockwise, acts with its pin on the plate 5, drives the block with the drive lever 11, performs a shutdown.

The plates 5 and 6 are provided with grooves for the passage of the pins when cocking the springs.

The drive circuit breaker made according to the present invention showed stable reliable operation during mechanical testing of prototypes. At the same time, the design is greatly simplified, the weight is reduced by 35% compared with the analogue. Reduced the required force of the spring loading by 20%, also compared to the analogue.

Claims (1)

The drive of the high-voltage load switch, comprising a block with a spring loaded, fastened on both sides by plates, rotating to turn on and off in accordance with the direction of the spring forces, cocking levers acting on the block plates separately for switching on and separately for turning off, the transmission mechanism is in the form of traction with an axis connected to the load switch, the drive drive lever, rigidly attached to one of the plates of the specified block, acting on the transmission mechanism, characterized in that the water spring is made by a torsion spring, abutting against the holes in the platoon levers pins equipped with locking elements in the form of an abutment tooth, to control the electromagnets remotely or automatically, and acts on the platen levers through the block plate on the drive lever, while the action of the platoon switch on lever the lever is excluded by a separate articulated mechanism after switching on.

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