RU2765681C2 - High-voltage vacuum relay - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to a structure of a vacuum relay with an electromagnetic drive of a polarized type in a metal-ceramic design, designed for switching high-power high-voltage circuits without load. In the vacuum relay, an electromagnet consists of two flat magnetic conductors connected by a washer and an axis, on which a magnet and two shortened frameless control coils are located. Adjustment of the core stroke is carried out by two screws located in threaded holes of magnetic cores. Winding is carried out by a thermoset wire. A ceramic rod is used as an internal insulator, with which a movable contact and an axis are soldered into the end. Two washers are used to strengthen the solder joint. The connection of a vacuum chamber to the drive is carried out through a plate, a weld of which, with a washer, forms a mounting flange.

EFFECT: easier installation, provision of the possibility of a denser layout in equipment, reduction in the weight and overall characteristics, reduction in labor costs and production costs.

1 cl, 1 dwg

Description

The invention relates to electrical engineering, namely to high-voltage high-frequency vacuum switches and switches (hereinafter referred to as vacuum relays) with a polarized type electromagnetic drive on permanent magnets, designed for currentless switching of high-power high-voltage electrical and high-frequency radio circuits.

The vacuum relay can be used in stationary, mobile and on-board electrical and radio engineering equipment as a switching element.

From the prior art a vacuum relay with an electromagnetic drive of a polarized type in a ceramic-metal design, designed for the above purposes - RU 2560128, 01.10.2013, the invention is closest in terms of the totality of features to the claimed invention and is taken as a prototype. This invention was introduced into a number of mass-produced products and repeatedly confirmed the achieved technical result - increased reliability, wear resistance, speed, reduced control power. A significant disadvantage of the prototype is the transverse arrangement of the electromagnetic actuator relative to the vacuum chamber, which complicates its installation and dismantling (in case of repair) in the equipment.

The proposed design borrows the principle of operation of the above invention, but has a longitudinal arrangement of the electromagnetic drive relative to the vacuum chamber. This arrangement not only facilitates installation, but also suggests the possibility of a denser arrangement in the equipment. The essence of the claimed invention is illustrated by the drawing. The electromagnet consists of two flat magnetic circuits 27 connected by a washer 30 and an axis 26, on which a magnet 22 and two control coils 16 are located. Stroke adjustment

the core is carried out by two screws 9 and 15 located in the threaded holes of the magnetic circuits 27. A single movable assembly, consisting of a movable contact 11, a rod 12, washers 28, an axis 20 and a core 21, is fixed on the membrane 10. A distinctive feature of the control coils 16 is their frameless . The frameless winding method allows saving on frames and more rational use of the internal volume of the reduced drive. Winding is carried out by thermosintered wire. All this makes it possible to reduce the outer diameter of the housing 31 of the electromagnetic drive.

In the design of the prototype, a ceramic rod with two blind holes is used as an internal insulator. As practice has shown, it is very difficult to obtain stable dimensions of blind holes with the required accuracy. The proposed design uses a rod 12 without holes. Movable contact And and axis 20 are soldered to it at the end. To strengthen the solder joint, two washers 28 are used.

The connection of the vacuum chamber with the drive is carried out by a weld, which forms a mounting flange.

EFFECT: facilitating installation, providing the possibility of a denser arrangement in the equipment, reducing weight and size characteristics, reducing labor costs and production costs while maintaining the technical results of the prototype.

Claims (1)

A high-voltage vacuum relay containing an electromagnet with two adjusting screws located in the threaded holes of the magnetic circuits and adjusting the core stroke, a single movable assembly fixed to the membrane, a magnet holding the core in two extreme positions, a ceramic rod used as an internal insulator, which differs in longitudinal the location of the electromagnetic drive relative to the vacuum chamber; the presence of two flat magnetic circuits connected by a washer and an axis on which a magnet and two frameless control coils are located; the presence of a welded seam of a vacuum chamber with an electromagnetic drive, forming a mounting flange; the presence of two washers for strengthening the soldered joints of the movable contact and the axis with the ends of the ceramic rod.

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