RU214258U1 - Vacuum contactor - Google Patents

Abstract

The utility model relates to AC electrical devices intended for switching power electrical circuits. The technical result consists in increasing the reliability due to protection against burnout at starting currents. In a vacuum contactor containing a housing in which an electromagnetic drive with coils and a lever assembly with an armature are installed, the electromagnetic drive contains a normally closed contact placed on a traverse in a block of additional contacts fixed on the housing, connected by means of flexible current-conducting connections to the capacitor and to the terminals of the coil windings electromagnetic drive, wherein the normally closed contact is configured to open when the main contacts of the contactor are closed, and with the ability to close when the main contacts of the contactor are open, and with the ability to control the connection of the holding coil windings when the additional contacts switch when the main contacts are turned on. 3 ill.

Description

The utility model relates to electrical engineering, in particular to AC electrical devices designed for switching power electrical circuits.

According to patent RU 164777, a vacuum electromagnetic contactor is known, containing a housing made of electrically insulating material with a partition and an L-shaped lever having arms of various lengths, at least one vacuum arc chute with movable and fixed contacts, an electromagnetic drive, at least one electromagnet , containing a flat armature, a yoke, a coil and a core, a compression spring designed to open the contacts, equipped with a means for adjusting the load, in which the baffle of the body is located between the vacuum arc chamber and the electromagnetic drive, the axes of the coil and the core are located perpendicular to the baffle of the body, the long arm G -shaped lever is kinematically connected to a movable contact by means of a rod head, and a longitudinal groove is made in the short arm, in which a flat anchor is fixed, and when the electromagnet is de-energized, the short arm is located at an acute angle to the partition of the housing m in such a way that the part of the flat armature remote from the axis of the L-shaped lever contacts the surface of the housing partition or the stop fixed on it, and when the flat armature contacts the core, there is a gap between the long arm of the L-shaped lever and the head of the rod, containing the block of auxiliary contacts, the slider of which, carrying movable contacts, is kinematically connected by means of a pusher and an additional two-arm lever, on which the pusher is fixed, with a long arm of the L-shaped lever, while mounting holes are symmetrically made on the side walls of the housing on both sides for attaching the auxiliary contact block, the axis of the additional two-arm lever and a hole for connecting the conductors of the auxiliary contact block to the board and / or terminal block located inside the case.

The disadvantages of the known contactor are the relatively low power of the drive and the limited scope of the DC control coils.

The closest to the claimed technical solution is a three-pole vacuum contactor known from patent RU161911, containing a housing with brackets, in which three arcing vacuum chambers with current leads and movable chamber leads are installed, an electromagnetic drive with two coils, a lever assembly with an armature and adjusting screws, made with the possibility of contact with a movable part, a terminal block and a contactor control unit, characterized in that the contactor has a sensor and an actuating relay element fixed on one of the brackets, while the sensor is made in the form of a sensing element and a permanent magnet, which are separated by a movable part representing is a steel plate located coaxially with one of the adjusting screws of the lever, the same ends of the windings of the actuating relay element are connected in parallel, with one end connected to the positive pole of the rectifier bridge, and the other to its negative pole through the output circuits of the sensing element. The diode bridge is connected to the relay, and the coil windings are connected to the contactor control unit.

The disadvantage of the known device is the low reliability due to the possibility of burnout coils due to power surges.

The technical result of the claimed utility model is an increase in reliability due to protection against burnout at starting currents.

The technical result is achieved by the fact that in the vacuum contactor, containing a housing in which an electromagnetic drive with coils and a lever assembly with an armature are installed, according to the utility model, the electromagnetic drive contains a normally closed contact placed on a traverse in a block of additional contacts fixed on the housing, connected by means of flexible current-conducting connections to the capacitor and to the terminals of the windings of the electromagnetic drive coils, while the normally closed contact is made with the ability to open when the main contacts of the contactor are closed, and with the ability to close when the main contacts of the contactor are open, and with the ability to control the connection of the holding coil windings when auxiliary contacts switch when the main contacts are switched on.

Under the "electromagnetic drive" should be understood as a set of parts, the joint work of which is aimed at controlling the switching of the main contacts. The “electromagnetic drive”, among other things, includes the components of the electromagnetic drive, namely: armature, cores, control coils, contact blocks that control the inclusion of coil windings, a printed circuit board with electronic components, as well as components of these components.

The presence of a capacitor connected by means of flexible conductive connections to a normally closed contact makes it possible to dampen voltage surges, a normally closed contact connected by means of flexible conductive connections to the capacitor and to the terminals of the windings of the electromagnetic drive coils is protected from burnout at starting currents, when the starting winding is operating, when In this case, the normally closed contact controls the switching of the winding at the moment when the additional contacts are switched and the holding winding is connected, at the moment the holding winding is connected, a capacitor is connected that dampens voltage surges, thereby the coil winding and the normally closed contact are protected from burnout, thereby increasing the reliability and devices and increases its service life.

The essence of the claimed utility model is illustrated by the drawing:

In FIG. 1 shows a general view of the vacuum contactor.

In FIG. 2 shows area A in Fig. 1 in profile projection.

In FIG. 3 shows the electrical circuit of the vacuum contactor.

The "electromagnetic drive" refers to a set of parts, the joint work of which leads to the closing / opening of the electromagnet of the vacuum contactor.

Normally closed contact 1 is placed in the body of the block 2 of additional contacts on the traverse 3, the body of the block of additional contacts is rigidly fixed on the body 4 of the contactor, this ensures a fixed position of the traverse of the block of additional contacts relative to the lever 5 that controls the movement of the traverse 3, while the lever that controls the movement of the traverse, also fixed on the body 4 of the contactor and the trajectory of the lever movement is predetermined by the constructive contactor, this increases the reliability of operation of the normally closed contact 1 and the reliability of the design as a whole. Normally closed contact 1 is connected by means of flexible conductive connections 12 to capacitor 10.

Contact part 7 of the fixed contact of the normally closed contact is fixed on the current-carrying terminal 8, equipped with terminal 9, the flexible conductor is connected to the current-carrying terminal 8 of the fixed contact by means of a terminal with hardware, the edge of the flexible conductor is cleaned (it is possible to use a tip) and wound under the terminal, wrapped around the methyl stem with a thread and pressed with a hardware with a terminal, this ensures the reliability of the connection design with the capacitor 10 and ensures the reliability of the connection design of the normally closed contact with the windings of the coils 11.

The connection of a normally closed contact with the terminals of the windings of the coils of the electromagnetic drive is made by means of flexible conductive connections, flexible conductive connections are an insulated wire of a larger cross section than the coil winding. When voltage is applied to the control coils of the contactor, the coils create an electromagnetic field and attract the movable part of the magnet, fixed on the L-shaped lever. The lever rotates around the axis under the action of the moving part of the magnet and pulls a spring-loaded rod attached to the l-shaped lever by means of a pin. The rod, connected to the cover of the composite adjusting part, pulls the base of the connecting element with the pusher, the pusher is threaded and screwed into the holder of the moving contact with the moving contact by means of a thread, so the contactor contacts open. The rotation of the adjusting part allows you to adjust the depth of entry of the pusher into the holder of the movable contact.

Claims (1)

Vacuum contactor, containing a housing in which an electromagnetic drive with coils and a lever assembly with an armature are installed, characterized in that the electromagnetic drive contains a normally closed contact placed on a traverse in a block of additional contacts fixed on the housing, connected by means of flexible conductive connections to the capacitor and to terminals of the windings of the coils of the electromagnetic drive, while the normally closed contact is made with the ability to open when the main contacts of the contactor are closed, and with the ability to close when the main contacts of the contactor are open, and with the ability to control the connection of the holding coil windings when the additional contacts switch when the main contacts are turned on .

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