SU421061A1 - VACUUM DULAR KAL \ EPA - Google Patents

Description

one

This invention relates to vacuum switching devices.

The known vacuum interrupter chambers have a number of design flaws from a technological point of view. The presence of steel bushings at the ends of the camera body complicates the manufacturing technology.

If the steel bushing is soldered to the coffer bushing before joining with glass, then a material with a high melting point, above the welding temperature of the carpet with glass, should be chosen as the Crío. If the steel bushing is soldered to the coffer bushing after connecting the cog with glass, the soldering process is complicated by the fact that it is necessary to take measures against sudden heating of the metal with glass. Furthermore, since the shields are tightly inserted into the steel bushes, difficulties arise in their fastening and preventing oxidation.

The purpose of the invention is to simplify the costructing of the chamber, improve the technology and manufacture and reduce its cost, but not to impair its operational properties.

This is achieved by the fact that the camera body, consisting of a dielectric and shaped flanges, is manufactured separately, and the nodes of the movable and fixed contact holders are attached to it through the transition rings.

The drawing shows the described device.

It contains a stationary contact holder 1, to which the nrina on the transition sleeve 2, with a cylindrical screen 3 fixed by rolling, protecting the dielectric 4 from the vapors of the contact material 5. The sleeve 2

welded in shielding gas across the board of a vacuum-tight seal with a flange 6. To the iodovid contact holder 7 is attached to part 8, and welded to it by a vacuum-flipped seam the bellows 9 made of stainless steel and

screen 10 bellows. The second end of the bellows 9 is located between the guide sleeve And and the flange 12 of the corus chamber, and the fastening of these three parts is carried out by welding in shielding gas with a non-consumable electrode, which provides a vacuum-tight weld.

A camera body consisting of flanges 6, 12 and dielectric 4 is manufactured separately. Moreover, the flanges 6, 12 of the housing are in the form of two adjacent cylinders of different diameters to compensate for thermal stresses arising due to different coefficients of linear expansion of the chamber parts. This eliminates their effect on

a metal layer with a dielectric and a spa is kept tight.

Metal flags 6, 12, transition sleeve 2, part 8, screen 10, guide sleeve 11 and screen 3 are made by stamping or drawing, which drastically reduces the cost of the chamber.

The presence of the transition sleeve 2 ensures the assembly of the chamber without heating the bellows and the contact holder assemblies to high temperatures; no special measures are required to eliminate the oxidation of the parts inside the vacuum chamber. All this increases the reliability of the vacuum chamber, reduces its cost and allows automation of production.

P | redmet invention

Claims (2)

1. A vacuum arc chamber containing a dielectric body with flanges, a movable contact with a bellows, a fixed contact fixed in the case, a screen and a guide sleeve, characterized in that, in order to reduce thermal stresses and simplify the technology, the flanges of the case are made two connected cylinders of different diameters, to which an adapter ring with an annular protrusion and an end of the bellows are welded by an external contour, together with a guide sleeve, the screen being reinforced, for example, by rolling on an annular neck mortar adapter ring. 2. A chamber according to claim 1, characterized in that the end of the bellows is located between the guide sleeve and the transition ring, the end of the bellows, the guide sleeve and the interflow ring being fastened together.