CS256870B1 - Insulating casing for vacuum contactor's or switches' switching-/ff part - Google Patents

Abstract

The vacuum contactor consists of two voltages separate functional parts. Insulating the case is composed of two mirror-identical block blocks L. This the shape allows it to be pressed directly into the blocks both bushings for the control lever bearing pin interrupter contacts as well as the fastening nut to attach connecting bridges the block assembly is connected. On fasteners the bridges are vacuum mounted quencher and passports. Production of blocks even the bridges are simple and fastening parts they are functionally reliable.

Description

The present invention relates to an insulating housing for a trip portion of a vacuum contactor or circuit breaker.

The modern vacuum contactor consists of two voltage-separated functional parts. In part a switching part whose purpose is to switch the consumption current on the voltage side and a grounded mechanical part whose purpose is to control the movable contact of the vacuum tripping element - interrupter.

Insulating sleeves are either molded from glass fiber reinforced plastics or cast from cast epoxy resins. For isolation reasons, U-shaped bushings are produced by biasing the interrupter from three sides, either as a single unit for all three phases or for each interrupter separately.

These housings in this design have a number of technical problems and difficulties.

Considerable technical difficulties arise during the realization of a bearing bearing double or reversible bearing. single-reversible insulating control lever. The bearing must be mounted in a separate part, which consists of the housing as a whole, which must be insulated against both the grounded frame and the adjacent phases and therefore its assembly is very complicated.

A further disadvantage of this concept is also the fact that the press technology of reinforced molding materials requires that the pressed metal parts, such as the fastening nuts of the brackets carrying the vacuum interrupter, are positioned in the pressing direction, i.e. in the case of the bottom of the insulating sleeve. This presents a functional disadvantage in the attachment of the vacuum interrupter, which forces the fastening bolts to refrain under force control.

The biggest disadvantage, however, is that, while respecting these circumstances, the mold is very complex, costly, and requires a lot of expensive milling work.

The above-mentioned disadvantages are substantially eliminated by the invention of the insulating sleeve for the tripping part of the vacuum contactor or circuit breaker, which consists in that the insulating sleeve of the vacuum interrupter is composed of two L-shaped parallel blocks.

The split configuration of the insulating sleeve according to the invention allows for simple manufacture, easy mounting of the control lever bearing while ensuring good insulating state of the interrupter and creating a mechanically stronger construction of the insulating sleeve. Compared to the original arrangement, the vacuum interrupter can be mounted on the axis of the connecting bridge and the insulating sleeve, which ensures symmetrical loading of the interrupter fixing points. The block form is easy to manufacture and therefore new and reliable.

Figures 1a and 1b show an exemplary embodiment of an insulating sleeve block, and Figures 2a, 2b and 2c show an example of an insulating sleeve arrangement made up of two blocks with the location of a vacuum interrupter.

The insulating housing of the vacuum interrupter is composed of two L-shaped blocks 4 identical to each other. FIGS. 1a and 1b show an example of a specific embodiment of one of them. The L-shaped block 4 has, on the inner side of the side part A, on the one hand protrusions with a pressed-in housing 3 'of the vacuum lever interrupter lever 2, and on both ends two protrusions with pressed-on fastening nuts 5. On the outer side of the lower part B of the block 4, two retaining nuts T are recessed for fastening the insulating sleeve to the support frame of the contactor. A notch 9 is formed in the lower part B of the block 4, which forms an opening for the passage of the control lever 2 of the vacuum interrupter 11 when the two blocks 4 are assembled into the insulating sleeve.

The method of construction of an insulating sleeve of two L-shaped identical blocks makes it possible to press both the sleeve 2 of the control lever 2 and the fastening nut 5 and the fixing nut T directly into the molded part 4 in the mold.

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To each other, the blocks 4 forming the insulating sleeve are connected by connecting bridges 6, which at the same time carry the vacuum interrupter JL and the feed passages S.

SUBJECT OF THE INVENTION

Claims (2)

SUBJECT OF THE INVENTION Insulating sleeve for the vacuum contactor or circuit-breaker opening with protrusions for locating the control lever bearings, recesses for recessed fastening nuts of the connecting bridges and retaining nuts for securing the sleeve to the contactor support frame, characterized in that the insulating bush of the vacuum interrupter (1) L-shaped parallelepipers (4) 2 drawings