SU665343A1 - Arc-extinguishing vacuum chamber contact system - Google Patents

Description

The disadvantage of this design lies in the fact that it has little use of the shielding effect of the protective electrodes, so the progress of the moving contacts at high operating voltages should be greater. Especially this disadvantage manifests itself in chambers with large nominal and switchable currents, where the area of the contacting surfaces must be large and, therefore, the diameter of the aperture of the protective electrodes must also be large, which significantly worsens their shielding properties on the contacting surfaces.

The purpose of the invention is to reduce the stroke of the moving contact and to provide a predetermined intensity of the electrical zero on the contacting surfaces.

The goal is achieved by the fact that a high-voltage vacuum arcing chamber contains a contact system consisting of two stationary hollow protective electrodes located at some distance along the longitudinal axis, and, for example, two moving electrodes moving inwards and apertures of protective electrodes, which look like and the movable contact consists of plates moving in the gaps of the protective electrodes. The slots in the protective electrodes and the contact plates are made, for example, annular.

FIG. 1 shows a vacuum arc chamber, longitudinal section; in fig. 2 is a section A-A in FIG. one.

The vacuum extinguishing chamber with the insulating body 1 is hermetically sealed with metal flanges 2. The extinguishing system is formed by fixed protective electrodes 3, 4 and moving contacts 5. The protective electrodes are attached to the current leads 6, and the movable contacts are connected to the current-carrying rods 8 through the posts 7. The rolling current-carrying rod is sealed by a bellows 9. The outer part and the inner part of the fixed protective electrode are fastened with jumpers 10, between which the stands 7, carrying p movable contact 5. Arc suppression system of separation from the insulating body by protective screens 11.

Contact system works as follows.

When activated, one or both of the movable contacts 5 are pulled out from the protective electrodes until they touch each other. Through the current-carrying rods 8, the pillars 7 and the contacts 5, a current begins to flow. When disconnected, the contacts 5 move apart and sink into the immobile protective electrodes 3, 4. Between the zanchite electrodes 3, 4 there is a ring

n; spruce, the width of which is determined by the thickness of the movable contact 5. The smaller the thickness of the movable contact 5, the narrower it is between occupied electrodes 3, 4 and the smaller the required depth of the contact surface inside the protective electrodes. The ratio of the intensity to the electric field on the contacting surface of the movable contact 5; to the strength Eu of the electric field on the surface of the protective electrodes E- can be characterized by the field reduction factor K, which depends on the angle of shielding

  - | | ")

3

Formula inventions

Claims (2)

1. Contact high voltage system vacuum arc chamber, consisting of two fixed hollow protective electrodes located at some distance along the longitudinal axis, and, for example, two moving electrodes moving inside the holes of the protective electrodes, characterized in that, in order to reduce the motion of the moving contacts and provide the electric field on the contacting surfaces, these holes in the protective electrodes are made in the form of slots, and the movable contact is made in the form of plates moving in the protective gaps electrodes. 2. A system according to claim 1, characterized in that the slots in the protective electrodes and the contact plates are annular. Information sources, taken into account in the examination 1. The patent of England L 1126053, cl. H 1 N, pub. 1965. 2. US patent number 3914568, cl. 200-144V, publ. 1968.