RU164777U1 - VACUUM ELECTROMAGNETIC CONTACTOR - Google Patents

Abstract

1. Vacuum electromagnetic contactor, comprising a body with a baffle made of electrical insulating material and a L-shaped lever having shoulders of various lengths, at least one vacuum arcing chamber with movable and fixed contacts, an electromagnetic drive of at least one electromagnet containing a flat an anchor, a yoke, a coil and a core, a compression spring designed to open the contacts, equipped with means for adjusting the load value, in which the partition wall is located with a vacuum interrupter chamber and an electromagnetic drive, the axis of the coil and core are perpendicular to the body partition, the long arm of the L-shaped lever is kinematically connected to the movable contact by means of the rod head, and in the short arm there is a longitudinal groove in which the flat armature is fixed, and when de-energized, electromagnet the short arm is located at an acute angle to the partition wall of the housing so that the part of the flat armature remote from the axis of the L-shaped arm contacts the surface egorodki body or fixed thereto abutment and in contact with the flat armature core between the long arm of L-shaped lever and the head has zazor.2 rod. The vacuum electromagnetic contactor according to claim 1, characterized in that it comprises a block of auxiliary contacts, the slider of which carrying movable contacts is kinematically connected by means of a pusher and an additional two-shouldered lever, on which the pusher is fixed, with a long arm of the L-shaped lever, the side walls of the housing on both sides symmetrically made mounting

Description

The invention relates to the field of electrical engineering, in particular to electrical apparatus for switching power electrical circuits of alternating current, designed for frequent remote on and off in normal operation.

Known vacuum contactor, designed for frequent remote on and off in normal operation, containing three vacuum arcing chambers, an electromagnet, a housing, an insulating arm with an electromagnet armature, an arm axis, a yoke that disconnects a spring, a lever travel limiter and an auxiliary contact block equipped with a button , characterized in that it introduced an additional lever mounted on the housing with the possibility of rotation, the long shoulder of the additional lever interacts with the lever of the contactor, and the short arm with the button of the auxiliary contact block, the ratio of the short arm of the auxiliary lever to its long shoulder is equal to the ratio of the button travel of the auxiliary contact block to the working stroke of the contactor lever at the point of interaction with the additional lever (Patent for invention RU 2367049, publ. 09/10/2009 ) [one].

A disadvantage of the known technical solution is that the insulating lever is made linear, while at a different distance from the axis it interacts with a rod of movable contacts, an armature or an electromagnet. This limits the possibilities of using these devices when, for example, the working length of the armature of the electromagnet and the movable contact are the same or slightly different.

Known contactor designed for frequent remote on and off in normal operation, containing vacuum arcing chambers, electromagnets, an insulating casing with a baffle, a bed, a mounting element with an electromagnet armature, located on the axis, a yoke that disconnects the spring, the travel limiter of the L-shaped lever , a block of auxiliary contacts, in which the long part of the L-shaped lever is connected to the armature of the electromagnet, and the short one is connected to a rod that transmits movement to a movable contact (Floor Patent utility model RU 144317, published on 08.20.2014) [2].

In the known device [2] in comparison with the device [1], the dimensions are reduced due to the use of the L-shaped lever, and the location of the axis of the coil of the electromagnet perpendicular to the partition of the housing, while the design is more complicated due to the presence in addition to the housing made of an insulating material, and beds.

It should be noted that the dimensions in the technical solution [2] are not sufficiently reduced.

The closest analogue of the proposed technical solution for the combination of essential features is a technical solution [2].

The purpose of the utility model is to eliminate the noted drawbacks.

The technical problem solved by this utility model is aimed at reducing the dimensions of the device, simplifying the design by eliminating the bed and expanding the arsenal of hardware designed for switching AC power electric circuits.

The specified technical problem is solved by the following set of essential features.

A vacuum electromagnetic contactor, comprising a body with a baffle made of electrical insulating material and a L-shaped lever having shoulders of various lengths, at least one vacuum interrupter chamber with movable and fixed contacts, an electromagnetic drive from at least one electromagnet containing a flat armature, the yoke, the coil and the core, a compression spring designed to open the contacts, equipped with a means for adjusting the load in which the partition wall is located between with a vacuum interrupter chamber and an electromagnetic drive, the axis of the coil and core are perpendicular to the body partition, the long arm of the L-shaped lever is kinematically connected to the movable contact by the rod head, and in the short arm there is a longitudinal groove in which the flat armature is fixed, and when de-energized, electromagnet the short arm is located at an acute angle to the partition wall of the housing, so that the part of the flat armature remote from the axis of the L-shaped arm contacts the surface of the campuses housing or attached to it an abutment and in contact with the flat armature core between the long arm of L-shaped lever and the stem has a head gap.

The following essential features are common with the closest analogue.

A vacuum electromagnetic contactor, comprising a body with a baffle made of electrical insulating material and a L-shaped lever having shoulders of various lengths, at least one vacuum interrupter chamber with movable and fixed contacts, an electromagnetic drive from at least one electromagnet containing a flat armature, the yoke, the coil and the core, a compression spring designed to open the contacts, equipped with a means for adjusting the load in which the partition wall is located between with a vacuum interrupter chamber and an electromagnetic drive, the axis of the coil is perpendicular to the bulkhead of the housing; when the flat armature contacts the core, there is a gap between the arm of the L-shaped lever and the rod head.

The essential features distinguishing from the closest analogue are: the long arm of the L-shaped lever is kinematically connected to the movable contact by means of the rod head, and in the short arm there is a longitudinal groove in which the flat armature is fixed, and when de-energized, the short arm is at an acute angle to the body partition so that the part of the flat armature remote from the axis of the L-shaped lever contacts the surface of the partition wall of the housing or the support fixed to it, and when it contacts th armature core between the long arm of L-shaped lever and the stem has a head gap.

In particular, the vacuum electromagnetic contactor may comprise a block of auxiliary contacts, the slider of which carrying movable contacts is kinematically connected by means of a pusher and an additional two-shouldered lever, on which the pusher is fixed, with a long arm of the L-shaped lever, while on the side walls of the housing on both sides symmetrically made mounting holes for mounting the block of auxiliary contacts, the axis of the additional two shoulders of the lever and the hole for summing the conductors of the block of auxiliary contacts clocks to the board and / or terminal block located inside the case.

The essence of the utility model is illustrated by drawings.

In FIG. 1 shows a vacuum contactor - view from the side of the vacuum contacts.

In FIG. 2 is a right view in FIG. one.

In FIG. 3 is a partial section along по-A in FIG. one.

The vacuum electromagnetic contactor comprises a housing 1 made of an insulating material, one, two or three chambers 2 of a vacuum arrester and a contact system.

The contact system consists of fixed and movable contacts located in the vacuum interrupter chambers.

The fixed contacts are electrically connected to the flat terminals 3, and the movable contacts are electrically connected to the flat terminals 4 by means of flexible conductors 5. The flat terminals 3 can be made integrally with the cameras or fixedly mounted on them. The findings 3 and 4 are fixedly connected on the longitudinal flat surfaces of the protrusions of the partition (Fig. 2) of the housing 1 with screws by means of spring (grover) and ordinary washers.

The vacuum electromagnetic contactor also contains an electromagnetic drive with several or one electromagnet with coil 6, yoke 7 and armature 8.

An L-shaped lever made of electrical insulating material, one long arm of which 9 is located at right angles to the other short arm 10, is mounted with the possibility of swinging movements on an axis 11 fixed in the housing 1. The axis 11 is fixed from axial displacement by means of a threaded hole case 1 fixed from rotation by a spring washer and screw nut (Fig. 2), the cylindrical end of which is located in the annular groove of the axis 11.

The long arm 9 of the L-shaped lever is kinematically connected to each movable contact by means of an intermediate element in the form of a washer 12 with a spherical hole in contact with the surface of the spherical head of the rod 13. The washer 12 is installed in the hole of the long shoulder 9 of the L-shaped lever with the possibility of a return translational movement on the flat bottom surface of the hole. It is possible to exclude the intermediate link in the form of a washer 12 with direct contact of the rod head 13 with the surface of the long arm 9 of the L-shaped lever located on the side opposite from the vacuum arcing chamber. To do this, in the long shoulder 9 of the L-shaped lever, you need to make a longitudinal groove under the rod and the rod head 13 to allow insertion of the rod head 13.

A flat arm 8 of an electromagnet fixed in the form of a rectangular plate with a blind hole 14 for fixing the end of a compression spring 15 for opening contacts in it is fixedly fixed by means of screws and spring washers to the short shoulder 10 of the L-shaped lever. The second end of the spring 15 is fixed on a stepped cylinder 16 with a threaded hole into which a screw 17 is screwed, mounted with a cylindrical head in the hole of the yoke 7 of the electromagnet with rotation and limited from axial movement relative to the yoke 7 by the cylindrical end of another screw located in the annular groove of the cylindrical screw head 17.

A lock nut 18, a spring 19 and two washers 20 and 21 are installed on the threaded end of the rod 13 with a flange directed towards the spring 19 to prevent its displacement in the transverse direction.

A block 22 of auxiliary contacts is also mounted on the housing 1 (Fig. 3), a rectangular cross-section slider 23 of which is mounted in the guides of the block 22 and carries pairwise movable contacts spring-loaded between themselves and fixedly fixed fixed contacts located in its longitudinal rectangular holes.

The slider 23 is kinematically connected with the long shoulder 9 of the L-shaped lever by means of a pusher 24 with a threaded end screwed into the shoulder 25 of the additional two-shouldered lever and fixed on it by means of a lock nut 26, and the shoulder 27 of the additional two-shouldered lever mounted with the possibility of swinging movements on the axis 28 and interacting with the long shoulder 9 of the L-shaped lever by means of a metal strip 29 fixed to it.

An opening 30 is made in the side wall of the housing 1 for introducing the conductors 31 of the auxiliary auxiliary unit 22 into the housing 1 and connecting them together with the conductors designed to control the electromagnetic drive to the terminals with the terminal block attached to the board 32 mounted on the corners 33 fixed in the housing 1. The control panel can be installed on the housing 1 or moved outside the housing 1 and connected to the terminals by the terminal block.

To secure the housing 1 at the installation site, paws 34 are made on it.

The axis 11 of the L-shaped lever is installed in the housing 1 from two ends on the bearings 35.

Auxiliary contact block 22, an additional two-arm lever with a pusher 24 with an axis 28 and a gasket 29 can be reinstalled on the opposite side wall of the housing 1. For this purpose, the corresponding threaded holes for the screws of the housing of the auxiliary contact block 22, the hole 30 for introducing conductors are symmetrically located on both walls 31 block 22 auxiliary contacts inside the housing 1 and the hole for mounting the axis 28 of the additional two shoulders of the lever, and on both sides next to the side machines of the housing 1 on a long m shoulder 9 of the L-shaped lever made stepped holes for the heads and rod sections of the screws for mounting the gasket 29, which made threaded holes for threading the screws.

The axis 36 of the coil 6 and the core 37 of the electromagnet 6 are located perpendicular to the partition wall of the housing 1, namely its surface located on the side of the electromagnet and the electromagnetic drive.

The emphasis for the anchor 8 is the surface of the partition wall of the housing 1, or the emphasis fixed on it, made of durable material.

The vacuum electromagnetic contactor can be made with either one or two or three vacuum interrupter chambers, as well as with an electromagnetic drive containing one or more coils 6 and cores 37 of electromagnets, while they have one common armature 8 and one common yoke 7 .

The failure of the movable contact is the distance by which the place of contact of the movable contact with the fixed contact can be displaced from the fully closed position if the fixed contact is removed.

The failure of the movable contact is regulated by screwing or unscrewing the threaded part 38 of the rod 13 from the movable contact and fixing it in a new position with a lock nut 18.

The position of the pusher 24 relative to the shoulder 25 of the additional two-shouldered lever is adjusted by screwing or unscrewing from the threaded hole in the shoulder 25 of the additional two-shouldered lever and fixing it in the new position with the lock nut 26.

The spring 15 is equipped with means for adjusting the load value, made in the form of a stepped cylinder 16 with a threaded hole in which the screw 17 is installed. The head part of the screw 17 is made cylindrical with an annular groove located in the yoke hole 7 and cylindrical fixed from axial movement in its annular groove the end of the screw 39 installed in the threaded hole of the yoke 7.

The adjustment of the load of the spring 15 is carried out by rotating the screw 17 with subsequent fixation by the screw 39.

All threaded holes available in the housing 1 are first made on cylindrical metal inserts that are pressed into cylindrical holes made in the insulating material of the housing 1.

To mount the yoke 7 of the electromagnet on the housing 1, projections 40 are made with a cylindrical surface on the sides of the housing 1. The yoke 7 is screwed into the threaded holes of the side walls of the housing 1. The screw heads are recessed and located in the stepped holes of the yoke. In the same way, cores 37 are mounted on which coils 6 of electromagnets are mounted.

When applying voltage to the electromagnet, the armature 8 is attracted to the core 37 of the electromagnet. The L-shaped lever, in the short shoulder 10 of which the anchor 8 is fixed, rotates around its axis (in Fig. 2 - clockwise). In this case, the spring 15 is compressed, the movable contacts under the influence of air pressure outside the vacuum interrupter chamber move together with the rod 13, the washer 12 and the long arm 9 of the L-shaped lever in the direction of the stationary contacts until closed. After that, the L-shaped lever continues to rotate on the axis 11 until the flat surface of the armature 8 contacts the flat surface of the core, while a gap is formed between the rod head 13 and the long arm 9 of the L-shaped lever, the value of which determines the magnitude of the failure of the movable contact. When the rod head 13 interacts with the long arm 9 of the L-shaped lever not directly, but by means of the washer 12, this clearance is determined by the play of the L-shaped lever, within which the rotation of the lever does not cause the movement of the movable contact, or by the play of the washer 12.

In the process of rotation of the L-shaped lever, its long shoulder 9, through the gasket 29, presses on the shoulder 27 of the additional two-shouldered lever mounted on the axis 28, the other shoulder 25 of which presses the pusher 24 attached to it onto the end of the slider 23.

In the process of rotation of both levers, the slider 23 translationally moves into the guides of the housing of the auxiliary unit block 22, first opening normally closed contacts and then closing normally open contacts.

When the electromagnetic drive is disconnected, under the load of the spring 15, the L-shaped lever rotates counterclockwise in FIG. 2 to the stop, removed from the axis 11 of the L-shaped lever, by a part of the flat anchor 8, fixed in the groove of the short shoulder 10 of the L-shaped lever, into the partition of the housing 1 or the stop fixed thereon. In this case, the long shoulder 9 of the L-shaped lever interacts with the rod head 13 by means of the washer 12 or directly (in the absence of the washer 12) and, moving the rod 13 and the movable contact with it, opens its connection with the stationary contact of the vacuum interrupter chamber, and the contacts of the auxiliary contact unit 22 are returned to their original position.

In the presented technical solution, as can be seen in FIG. 2, the thickness of the short arm 10 of the L-shaped lever within certain limits does not affect the dimensions of the device, in this regard, the short arm 10 is of sufficient thickness to securely fasten the flat armature 8 therein.

Due to the fact that the short shoulder 10 of the L-shaped lever does not interfere with the rotation of the L-shaped lever under the load of the spring 15 until the end of the flat arm 8 is in contact, preferably with the partition of the housing 1 or with a stop fixed thereto, ceteris paribus, the dimensions of the device are reduced by reducing the distance between the partition wall of the housing 1 and the yoke 7 of the electromagnet.

Claims (2)

1. Vacuum electromagnetic contactor, comprising a body with a baffle made of electrical insulating material and a L-shaped lever having shoulders of various lengths, at least one vacuum arcing chamber with movable and fixed contacts, an electromagnetic drive of at least one electromagnet containing a flat an anchor, a yoke, a coil and a core, a compression spring designed to open the contacts, equipped with means for adjusting the load value, in which the partition wall is located with a vacuum interrupter chamber and an electromagnetic drive, the axis of the coil and core are perpendicular to the body partition, the long arm of the L-shaped lever is kinematically connected to the movable contact by means of the rod head, and in the short arm there is a longitudinal groove in which the flat armature is fixed, and when de-energized, electromagnet the short arm is located at an acute angle to the partition wall of the housing so that the part of the flat armature remote from the axis of the L-shaped arm contacts the surface egorodki body or fixed thereto abutment and in contact with the flat armature core between the long arm of L-shaped lever and the stem has a head gap. 2. The vacuum electromagnetic contactor according to claim 1, characterized in that it comprises a block of auxiliary contacts, the slider of which carrying movable contacts is kinematically connected by means of a pusher and an additional two-shouldered lever on which the pusher is fixed, with a long arm of the L-shaped lever, on the side walls of the housing, the mounting holes are symmetrically made on both sides for mounting the auxiliary contact block, the axis of the additional two-shouldered lever and the hole for connecting the auxiliary conductors of the block atelnyh contacts to the board and / or the terminal block located inside the housing.

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