RU2113030C1 - Vacuum circuit breaker - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: vacuum circuit breaker has at least one arc-control chamber, operating mechanism, insulating control rod, and hold-down mechanism that has plug with longitudinal slot to receive bushing; the latter is connected to plug through pin passed through longitudinal slot of plug and hold-down spring and locked in position by means of washer. Pin is also locked in position by means of this washer; bushing has projection supporting mentioned washer. EFFECT: improved reliability and simplified design. 2 cl, 2 dwg

Description

 The invention relates to the field of electrical engineering, in particular to the design of vacuum circuit breakers and drive mechanisms for them.

 Known electrical switching apparatus having a vacuum interrupter chamber, inside which are movable and fixed contacts. To the end of the movable contact protruding from the vacuum chamber housing, a bolt is fastened passing through the preload spring located between the two supporting surfaces, the trip lever and the third supporting surface fixed by two nuts located at the end of the bolt [1].

 The disadvantage of this technical solution is the difficulty of adjusting the preload force, as well as the tendency to decrease it, since during operation the thickness of the contact material decreases and the size between the first and second abutment surfaces increases, which determines the preload force.

 The closest in technical essence and the achieved result to the invention is a switch in which the drive, connected by means of a traction mechanism to tighten the contacts in the vacuum chamber, is made in the form of a fork with a groove located inside the sleeve, connected to the fork with an axis passed through the groove of the fork , and preload springs supported on the washer. The fork is placed in the sleeve with the possibility of mutual swing around the axis, and the rod is rigidly connected to the preload mechanism [2].

 A disadvantage of the known technical solution adopted for the prototype is the low reliability of the assembly of the assembly, since the washer and axis are fixed with locking rings, in addition, to ensure stability of the characteristic, the preload spring requires adjusting the position of the fork, since the fork is screwed into the end of the movable contact.

 The aim of the invention is to increase reliability and simplify the design.

 This is achieved by the fact that the vacuum switch contains at least one vacuum arcing chamber, a drive, an insulating rod and a prepress mechanism having a fork with a longitudinal groove attached to the movable terminal of the chamber by means of a pin, a sleeve connected to the fork with an axis passing through the longitudinal groove forks, and a preload spring fixed by the washer, the axis being also fixed by the specified washer, and the sleeve has a protrusion on which the specified washer rests.

 In FIG. 1 shows the mechanism for tightening the contacts of the vacuum circuit breaker in the off position; in FIG. 2 - the same, in the on position.

 The high-voltage vacuum circuit breaker contains arcing chambers 1, movable contacts 2, on which a current collector 3 is mounted. A stud 4 is screwed into the end of the movable contact 2, which pushes the current collector 3 at terminal 2 with a plug 5. At the output, the sleeve 6 has a threaded hole into which the insulating rod 9 is screwed. On the sleeve 6 there is a protrusion on which the washer 10 rests, fixing the axis 7 and the preload spring 11. The inner part of the sleeve 6 and the outer fork 5 are provided with a clearance to ensure I mutual rocking and radial displacement.

 In the off position of the switch, the compression spring 11 is in the pre-compression position, and the axis 7 abuts against the lower part of the longitudinal groove 8 of the plug 5. When the switch is turned on, the drive shaft, rotating around its axis, makes the insulating rod 9 move upward, which simultaneously moves the movable contact up 2 and the preload mechanism until the stationary and movable contacts of the arcing chamber touch. After the chamber contacts are closed, the insulating rod 9 continues to move upward, compressing the spring 11 through the sleeve 9 and the washer 10 resting against its protrusion 10 to a predetermined value. In this case, the plug 5 after the closure of the contacts of the camera remains stationary. This completes the process of turning on the switch.

 In the on position of the switch between the axis 7 and the lower part of the groove 8 there is a gap. The circuit breaker trips in the reverse order of closure. The insulating rod 9, moving downward, selects the visible gap in the groove 8 of the plug 5 until the contacts of the vacuum chamber 1 open. In this case, the spring 11 is opened and the movable contact 2 is driven through the axis 7, the sleeve 6, the plug 5.

 The application of this invention allows to simplify the design and increase the reliability of the circuit breaker, since the plug 5 has a certain size of the groove 8 relative to the end of the movable output and does not require adjustment, and the washer 10, abutting against the protrusion of the sleeve 6, reliably fixes the axis 7 and spring 11, creating the required preload force.

Claims (2)

 1. A vacuum circuit breaker comprising at least one vacuum interrupter chamber, an actuator, an insulating rod and a preload mechanism comprising a fork with a longitudinal groove, a sleeve connected to the fork by an axis passing through the longitudinal groove of the fork, and a compression spring fixed by a washer, characterized the fact that the axis is also fixed by the specified washer, and the sleeve has a protrusion on which the specified washer rests.  2. The switch according to claim 1, characterized in that the plug is made with an internal thread and is attached to the movable contact of the camera by means of an additionally inserted pin.

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