RU2552524C2 - Electromagnetic polarised switch - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: invention is intended for automatic systems at explosive hazardous facilities subjected to external impacts and vibration. The electromagnetic polarised switch comprises hinged armature mounted at the central axis between two parallel magnetic cores with control circuits, a bridging unit with movable contacts, which is related to the armature, and fixed contacts. The armature is symmetrical; permanent magnets are placed diametrically in its slots; the magnets are made of hard-magnetic material with high coercive force and magnetised in direction to the tangent line of the armature turning circle. The bridging unit is placed at the central axis.

EFFECT: increased resistance to impact and vibration action, increased number of contacts with maintained dimensions and weight, as well as expansion of its application scope.

5 dwg

Description

The invention is intended for automation systems of explosive objects subjected to shock and vibration external influences.

Currently, there are a variety of designs of electromagnetic polarized switches, but all of them have certain disadvantages that do not fully meet the task of the invention.

Known electromagnetic polarized switches, each of which contains windings, magnetic cores, permanent magnets, rotary armature, contacts [A. with. USSR No. 452874 from 07/17/1972, published 05.12.1974, Bulletin No. 45; A.S. USSR No. 1024994 of December 29, 1981, published June 23, 1983, Bulletin No. 23; A.S. USSR No. 1760576 dated 05/07/1990, published on 09/07/1992, Bulletin No. 33].

The rotary anchor of the known electromagnetic polarized switches located inside the magnetic system provides a small angle of rotation, which imposes restrictions on the contacts used, which must also have small contact gaps. This circumstance does not allow the use of such electromagnetic switches, for example, for explosive objects subjected to shock, for objects that require switching electrical circuits with significant currents.

Known electromagnetic relay is an electromagnetic polarized switch containing a rotary armature with a permanent magnet mounted between two magnetic cores with control windings, a jumper with movable contacts connected to the armature and fixed contacts [a.s. USSR No. 1269217 A1 of 02.01.1985, published on 11/07/1986, Bulletin No. 41].

The design of its contact system is not reliable enough for automation systems of explosive objects subjected to shock and vibration external influences. The permanent magnet is located at anchor on the small shoulder from the axis of rotation of the armature and does not provide a significant turning moment, which limits the number of contacts in the known electromagnetic relay. The anchor has a small angle of rotation, which imposes restrictions on the contacts used by the size of the contact gaps or the movement of movable contacts. The asymmetric rotary anchor also does not ensure the preservation of its position under high-intensity shock and vibration influences.

This electromagnetic polarized switch is considered as a prototype.

The problem to which the invention is directed is the creation of an electromagnetic polarized switch that provides increased angles and angles of rotation of the armature and maintains its state under high-impact and vibrational influences.

The technical result obtained by using the invention is to increase the resistance of the electromagnetic polarized switch to shock and vibration and increase the number of contacts, while maintaining overall mass characteristics.

The specified technical result is achieved in that in an electromagnetic polarized switch containing a rotary armature with a permanent magnet mounted between two magnetic cores with control windings, a jumper with movable contacts connected to the armature and fixed contacts, according to the invention, the armature is fixed on the central axis of the switch between the parallel magnetic circuits and made symmetrical with a diametrical placement in its grooves of permanent magnets made of hard magnetic about material with high coercive force and magnetized in the direction tangential to the circle of rotation of the armature, and the bridge is placed on the central axis.

In addition, to increase reliability while maintaining overall mass characteristics by eliminating the long-term presence of the windings under voltage and the absence of an additional pulse shaper, the switch is equipped with elastic control contacts (self-disconnecting) of the windings and a pusher with an insulating sleeve fixed to the jumper.

Implementation of an electromagnetic polarized switch containing a central axis with a jumper mounted on it with movable contacts and a rotary arm located between parallel magnetic circuits with control windings, made symmetrical with diametrical placement of permanent magnets in its grooves made of magnetically hard material with high coercive force and magnetized in the direction tangent to the circle of rotation of the anchor, allows you to:

- eliminate the demagnetization of permanent magnets during operation even when they are placed in an open magnetic circuit;

- increase the created moment of rotation of the anchor and the angle of rotation;

- provide the moment of rotation of the anchor at the entire angle of its rotation;

- make full use of the magnetic energy of magnets;

- to exclude a change in the state of the polarized electromagnetic switch from high-intensity shock and vibration effects.

An increase in the angle and the created moment of rotation of the armature allows you to use a contact system with a large number of contacts and provide increased contact gaps while maintaining overall mass characteristics, the symmetrical design of the armature reduces the likelihood of spontaneous changes in the state of contacts during high-intensity vibration and shock.

The presence in the claimed invention features that distinguish it from the prototype, allows us to consider it appropriate to the condition of "novelty."

New features that contain a distinctive part of the claims are not identified in technical solutions for a similar purpose. On this basis, we can conclude that the claimed invention meets the condition of "inventive step".

The invention is illustrated by drawings.

Figure 1 shows a longitudinal section of an electromagnetic polarized switch.

Figure 2 is a cross section aa in figure 1, the design of the magnetic system.

Figure 3 is a transverse section bB in figure 1, the design of the contact system.

Figure 4 - dependence of the turning moments acting on the anchor when switching from the initial state to the triggered.

Figure 5 - dependence of the turning moments acting on the anchor when switching from the triggered state to the original.

The electromagnetic polarized switch contains a magnetic system consisting of two parallel magnetic circuits 1, on which two windings are made - working 2 and fender 3. Boards 4 are attached to the magnetic circuits 1. A central axis 5 is mounted in the holes of the boards 4, on which is fixed between the two magnetic circuits symmetrical anchor 6 with the possibility of rotation. Anchor 6 is made diametrically grooves 7, which are placed permanent magnets 8 (Fig.1, 2).

A jumper 9 is also fixed on the central axis 5 with movable contacts 10 made in the form of conductive knives, with which it switches the fixed contacts 11 fixed to the current leads 12 by the bushes 13. The current leads 12 are installed in the panel 14 on the insulators 15. In the panel 14 are installed on the insulators 16 also current leads 17, 18. Elastic contacts 19 are fixed to current leads 17, which are control (self-disconnect) contacts of windings 2, 3. Each elastic contact 19 is opened by a pusher 20 mounted on a jumper 9. On the pusher 20 is located insulating sleeve 21. The design of the control contacts (self-disconnection) provides voltage to the windings 2 and 3, for example, 90% of the angle of rotation of the armature 6. Only at the final stage of rotation of the armature 6 (10% or tenth of the value of its angle of rotation) voltage winding is not fed. The presence of control contacts (self-disconnection) of the windings eliminates their overheating due to prolonged exposure to voltage and does not require providing voltage to the windings for a strictly defined time (Fig. 1, 2).

The casing 22 isolates the internal volume of the electromagnetic polarized switch. Magnetic cores 1 are made of soft magnetic steel; boards 4, casing 22, anchor 6, axis 5 - of non-magnetic metal. Permanent magnets 8 are made of magnetically hard material with a high coercive force and are magnetized in a direction tangential to the circle of rotation of the armature. Workers 2 and fender 3 windings on the magnetic cores 1 are connected in pairs in series, while the end of the windings on the first magnetic circuit is connected to the end of the windings on the second (Fig. 2).

An electromagnetic polarized switch operates as follows.

In the absence of voltage on the windings 2 and 3, the armature 6 is drawn by magnets 8 to the poles of the magnetic circuits 1, providing the initial or triggered state of the electromagnetic polarized switch.

When voltage is applied to the serially connected working windings 2, magnetic fluxes are realized in the latter, causing repulsion of the permanent magnets 8, mounted on the armature 6, from one pole of the magnetic cores 1 - moment M _о and their attraction to the other pole of the magnetic cores - moment M _p (from the initial angular position ϕ ₀ to the angular position ϕ ₃ (figure 4)), that is, the armature 6 is rotated with axis 5. Further, when the voltage is removed from the working windings 2 due to the opening of the elastic contacts (self-disconnecting contacts) 19 by the pusher 20 to in the final rotation section (from the angular position ϕ ₃ to the final angular position ϕ ₄ ), the armature 6 is attracted to the poles of the magnetic cores already due to the created force of attraction of the magnets 8 to the poles, the switch 9 by moving contacts 10 switches the fixed contacts 11 and the electromagnetic polarized switch remains in this switched condition.

When voltage is applied to the series-connected fencing windings 3, magnetic fluxes are realized in the latter, creating rotation moments M _o and M _p (Fig. 5), similarly causing the armature 6 to rotate with axis 5 in the opposite direction from the extreme angular position ϕ ₄ to the angular position ϕ ₁ . Further, even when the voltage was removed from the fender windings 3 due to the opening of the elastic contacts (self-disconnecting contacts) 19 by the pusher 20 in the final turn section (from the angular position ϕ ₁ to the final angular position ϕ ₀ (figure 5)), the armature 6 is attracted to other poles of the magnetic cores 1 already due to the created force of attraction of the magnets 8 to these poles, the switch 9 moving contacts 10 switches the fixed contacts 11 and the electromagnetic polarized switch remains in this state.

The total turning moment acting on the anchor (M _s = M _o + M _p ) due to the total force acting on the anchor at the beginning, throughout and at the end of its rotation is sufficient, even with an increased angle of rotation of the armature, for reliable operation of the polarized electromagnetic switch (Fig. 4, 5). In the average angular position ϕ ₂ (Figs. 4, 5), the total turning moment acting on the anchor also has a sufficient value, eliminating the “freezing” of the anchor in this position.

The implementation of magnets from a hard magnetic material with a high coercive force eliminates the demagnetization of permanent magnets during operation even when they are placed in an open magnetic circuit.

The location of the permanent magnets in the grooves of the symmetrical armature allows to increase the created moment of rotation of the armature and the angle of rotation, as well as to provide a sufficient moment of rotation of the armature at the entire angle of rotation and facilitates the required balancing of the armature to ensure the preservation of the state of the electromagnetic polarized switch under significant shock and vibration influences.

Magnetization of magnets in a direction tangential to the circle of its rotation allows maximum use of the magnetic energy of the magnets.

The location of the armature between the parallel magnetic circuits allows you to reduce the size of the electromagnetic polarized switch.

Thus, the use of the inventive electromagnetic polarized switch will provide an increased angle and the moment of rotation of the armature, at which the contacts can be spaced relative to each other at sufficient distances, and also increase their number. The symmetrical design of the armature increases the resistance of the electromagnetic polarized switch to high-impact and vibration impacts and significantly expands its possible applications.

In the inventive electromagnetic polarized switch can be used "cut-in" contacts with two-way contact, providing switching and transmission of both small and high currents, which will also expand its field of application.

In addition, the presence of additional elastic contacts, which are the control (self-disconnecting) contacts of the windings, and the pusher mounted on the switch with an insulating sleeve, allows you to save overall mass characteristics, which will also expand its field of application.

Thus, the above information indicates the fulfillment of the following set of conditions when using the claimed invention:

- a tool embodying the claimed invention in its implementation, is intended for use in industry, namely in automation systems of explosive objects subjected to shock and vibration external influences;

- for the claimed device in the form as it is described in the independent claim, the possibility of its implementation is confirmed;

- a tool embodying the claimed invention in the implementation, is able to provide increased resistance to shock and vibration while maintaining overall mass characteristics and expand its field of application.

Therefore, the claimed invention meets the condition of "industrial applicability".

Claims (1)

An electromagnetic polarized switch comprising a rotary armature with a permanent magnet mounted between two magnetic circuits with control windings, a movable contact switch and fixed contacts connected to the armature, characterized in that it is provided with winding control elastic contacts and a pusher mounted on the switch with an insulating sleeve, an armature fixed on the central axis of the switch between the parallel magnetic circuits and made symmetrical with a diametrical placement in its grooves of permanent magnets made of hard magnetic material with a high coercive force and magnetized in a direction tangential to the circle of rotation of the armature, and the bridge is placed on the central axis.

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