RU196566U1 - VACUUM SWITCH INSULATION CAP - Google Patents

Abstract

The technical solution relates to low-voltage and high-voltage electric devices. The technical result of the proposed solution is to increase the strength, reliability, durability. The technical result is achieved in that the insulating cap of the vacuum circuit breaker around the arcing chamber and the traction insulator, made in the form of a monolithic body with mounting pads in the inner part of the casing, for mechanical attachment of the intermediate and external conductive busbars, characterized in that the mounting pads are equipped with metal insulators built into the insulator nuts. The hood may contain hot flashes at the base of the hood equipped with nuts. The cap can be made by casting from polycarbonate. Technical result - increased strength is achieved by the fact that the fastening element engages with a metal nut, which increases the strength of the connection compared to plastic. The increase in reliability is achieved by a more reliable connection of a specially made nut compared to a thread cut in plastic. An increase in durability is achieved by lower abrasion of the threads of metal nuts compared to plastic threads during the periodic assembly and disassembly of the vacuum circuit breaker. A useful model can be successfully used for the manufacture of insulating caps as part of a vacuum circuit breaker. 2 zp f-ly, 5 ill.

Description

The technical solution relates to low-voltage and high-voltage electric devices.

The well-known "Repair and packaging process of a post-contact module of a fixed type for an outdoor high voltage vacuum circuit breaker" CN 105489418 [1] containing a vacuum interrupter is sealed with silicone rubber, and the upper and lower conductors are directly sealed with epoxy resin in a solid pole casing.

The disadvantages of the known design is its non-repairability.

Closest to the claimed technical solution is the "High-voltage circuit breaker" RU 88846 [2], including an insulating cap of the vacuum circuit breaker, an intermediate conductive bus located between the arcing chamber and the traction insulator, insulating caps around the arcing chamber and the traction insulator made in the form of a monolithic body with mounting pads in the inner part of the housing, for mechanical attachment of the intermediate and external conductive busbars.

Known design maintainable.

A disadvantage of the known design is the low strength and reliability of the mounting of conductive tires, as well as low operational durability.

The technical result of the proposed solution is to increase strength, reliability, durability.

The technical result is achieved by the fact that the insulating cap of the vacuum circuit breaker around the arcing chamber and the traction insulator is made in the form of a monolithic body with mounting pads in the internal part of the housing for mechanically attaching the intermediate and external conductive busbars, characterized in that the mounting pads are equipped with metal nuts integrated into the insulator .

The cap may contain tides at the base of the cap, equipped with nuts, which will further increase the strength, reliability, durability due to improved conditions for fastening the cap.

The cap can be made by casting from polycarbonate, which allows you to get a strong, reliable, durable cap.

In FIG. 1 shows the proposed cap, a view from the exit side of the intermediate bus, in FIG. 2 is a section along the direction of the intermediate tire, in FIG. 3 is a section across the direction of the intermediate tire; FIG. 4 is a top view, FIG. 5 bottom view, where:

1 - mounting pad of the external conductive bus;

2 - mounting pad of the intermediate conductive busbar;

3 - nuts of the external conductive bus;

4 - nuts of the intermediate conductive bus;

5 - nuts at the base of the cap with the tides.

The device operates as follows: On the mounting pad of the external conductive bus 1, an external bus is located, on the mounting pad of the intermediate conductive bus 2, respectively, an intermediate bus, for example, connected to a movable electrode of a ceramic switch cylinder (not shown). The tires are fastened by means of the nuts of the external conductive bus 3 and the nuts of the intermediate conductive bus 4, respectively. With nuts at the base of the cap with tides 5, the cap is attached to the base (not shown).

EFFECT: increased strength is achieved by the fact that the fastening element engages with a metal nut, which increases the strength of the joint compared to plastic. The increase in reliability is achieved by a more reliable connection of a specially made nut in comparison with a thread cut in plastic. Increased durability is achieved by lower abrasion of the thread of metal nuts compared to plastic thread, during the periodic assembly and disassembly of the vacuum circuit breaker.

Industrial application. The utility model can be successfully used for the manufacture of insulating caps as part of a vacuum circuit breaker.

Claims (3)

1. The insulating cap of the vacuum circuit breaker around the arcing chamber and the traction insulator, made in the form of a monolithic body with mounting pads in the inner part of the housing, for mechanical attachment of the intermediate and external conductive busbars, characterized in that the mounting pads are equipped with metal nuts integrated into the insulator. 2. The cap according to claim 1, characterized in that it contains tides at the base of the cap, equipped with nuts. 3. The cap according to claim 1, characterized in that it is made by casting from polycarbonate.

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