SU752534A1 - High-frequency vacuum switch - Google Patents

Description

water from the contacts. The presence of the lead-in bellows creates an additional opposing force to the movement of the moving contact, which requires an increase in drive power and reduces the speed of the switch.

The aim of the invention is to eliminate these drawbacks, i.e., increase reliability, increase the transmitted power and speed of the vacuum switch. This goal is achieved by the fact that in a well-known high-frequency vacuum switch containing an evacuated flask inside which there are moving and fixed contacts, a moving mechanism for moving contacts made in the form of a bellows unit, current leads to moving and fixed contacts, current leads to moving contacts are made in the form of a symmetrical located relative to the axis of the fixed contact and pairwise connected by the ends of the elastic metal plates on which the movable contact is fixed Covering fixed with opposite ends of one of the mutually connected plates mounted on pin movable contacts and the ends of the other plates are associated with the mechanism for moving the contacts.

With this design, the movable contacts of the stationary and reliable multi-point contacting are ensured by the elasticity of each of the pairs of plates.

The path of high frequency current and heat flux in the proposed design is much less with a comparable area through which current and heat flux flows and, consequently, power losses in the current lead are reduced and the heat removal from the contacts is improved.

The small mass of each of the moving contacts and the mutually opposite directions of the applied switching forces reduce the magnitude of the mechanical loads acting on the switch and increase its reliability. With this design of the current lead, the magnitude of the radial movement of each ns moving contacts is much greater than the translational movement of the drive, which provides increased speed, reduced contact capacity, allows the use of bellows with a smaller stroke, increase wear resistance, reduce the size and weight of the switch.

FIG. 1 shows a general view of the described switch in the on position; in fig. 2 is a section along A-A in FIG. one; pas figs. 3-part switch (contacts open).

The switch contains an insulating flask 1, vacuum-tight with rings 2, at the ends of which are located pin 3 of fixed contact and pin 4 of movable contacts, moving mechanism of sliding contacts, including sleeve 5, sleeved with pin 4, rod 6, located in sleeve and rigidly connected to the plug 7.

The sealing of the switch is provided by a bellows 8 which is vacuum-tightly connected to the plug 7 and the sleeve 5.

The movable contacts 9 are fixed at common ends of plates 10 and I which are pairwise connected together, which are current leads. The opposite ends of the plates 10 are fixed on the plug 7 and the plates 11 on pin 4. The fixed contact 12 is connected through the current lead 13 to pin 3. Pin 3 has pin 14, which is closed by cap 15. The initial state of the switch, wherein the moving contacts 9 are closed to the fixed contact 12 is provided with a spring 16.

When moving the rod 6, the plug 7 is intermixed with the ends of the plates 10 fixed on it. The plates 10 and 11 are bent at the same time, the contacts open and the contacts 9 move in the radial direction.

In comparison with the prototype, the proposed switch has a higher reliability, transmitting power and speed.

Claims (3)

1. USSR author's certificate number 153318, cl. H 01 H 33/66, 1962. 2. USSR author's certificate number 203022, cl. H 01 H 33/66, 1964. 3. Authors certificate of the USSR 295152, cl. H OSH 33/66, 1968. t u