RU2761001C1 - Linear asynchronous electric drive for a vibration centrifugal separator - Google Patents

Abstract

FIELD: separation.

SUBSTANCE: invention relates to separators intended for separating primarily grain materials, and can be used in milling, chemical, and other branches of industry. A linear asynchronous electric drive for a vibration centrifugal separator consisting of a body, a working element, a rotary motion drive of the working element from a rotation engine and a vibration drive of the working element in the vertical plane from a flat linear asynchronous electric engine, the inductors whereof are rigidly fixed on the base, and the rotor thereof in the form of a ring with symmetrical through holes is movable and spring-loaded in the vertical plane, made of metal with high electrical conductivity, and rigidly connected with the working element. Arc-shaped symmetrical plates are located in the through symmetrical holes of the ring, interconnected by guides spring-loaded relative to the axial shaft of the ring, configured to move in the vertical plane. The arc-shaped plates are made of the same material as the ring.

EFFECT: increase in the power characteristics of the drive for increasing the efficiency of separation.

1 cl, 5 dwg

Description

The invention relates to separators designed for separating, mainly grain materials into fractions by size, and can be used at breeding stations, elevators, farms, factories for the production of seeds and cereals, as well as in milling, feed, chemical and other industries ...

Known vibro-centrifugal grain separator, consisting of a body, a rotating and vibrating working body, drives for vibration and rotational movements of the working body (USSR author's certificate No. 506439 class B07B 1/44. Vibro-centrifugal grain separator / Goncharov E.S., Prilutsky A.N. ., Polupanov F.P., Voloshin N.I., Bydrievsky Yu.V., Starkov A.A., Kodin N.A., Shishkin N.V., Antonov B.N., Tsukareva S.F., Malkin BL; applicant and patentee Ukrainian head research institute of mechanization and electrification of agriculture, Gorky machine-building plant named after M. Vorobiev, 03/15/1976, Bulletin No. 10).

The disadvantage of the technical solution is the low reliability of the vibration drive of the working body of the vibrocentrifugal separator due to the transfer of significant dynamic forces to the bearing assemblies, the presence of a large number of rubbing and wearing parts.

The closest to the proposed technical solution is an installation consisting of a body, a working body, a rotary motion drive of the working body from the rotation motor and a vibration drive of the working body in the vertical plane from a flat linear asynchronous electric motor (LIM), the inductors of which are rigidly fixed on the base, and its the rotor in the form of a ring with symmetric through holes is movable and spring-loaded in the vertical plane, made of metal with high electrical conductivity and rigidly connected to the working body (patent 2678008, Russian Federation, IPC B04b 3/06. Vibration centrifuge / Linenko A.V., Aipov R.S., Khalilov B.R., Kamalov T.I., Gilvanov V.F.Applicant and patent holder Bashkir State Agrarian University, 22.01.2019).

The disadvantage of the technical solution is the change in the electromagnetic force created by the traveling magnetic field of the LIM inductors, due to the alternate passage through this field of through symmetrical holes and the working surface of the ring during the operation of the installation. This is accompanied by frequent transient processes and promotes heating of the LIM, which degrades its energy characteristics.

The technical objective of the invention is to eliminate frequent transient processes in the LIM, which will improve the energy characteristics of a vibration drive based on it.

The technical problem is achieved by the fact that in a linear asynchronous electric drive for a vibratory centrifugal separator, consisting of a body, a working body, a rotary motion drive of the working body from the rotation motor and a vibration drive of the working body in the vertical plane from a flat linear asynchronous electric motor, the inductors of which are rigidly fixed on the base, and its rotor in the form of a ring with symmetric through holes is movable and spring-loaded in the vertical plane, made of metal with high electrical conductivity and rigidly connected to the working body, in the through symmetrical holes of the ring there are arcuate symmetric plates connected to each other by guides spring-loaded relative to the axial shaft of the ring with the possibility movement in the vertical plane, and the arcuate plates are made of the same material as the ring itself.

The use of holes in the ring of symmetric arcuate plates movable in the vertical plane ensures the oscillation of the working body without breaking the magnetic circuit of the LIM inductors, and the width of the plates is such that the merging of the ring with the plates in the horizontal plane is ensured, and the height of one hole makes it possible to place an arcuate plate in it with a power reserve providing amplitude of vibrations of the working body.

At the moment of rotation of the working body at a constant speed, when a part of the ring without holes is located opposite the LIM inductors, an electromagnetic force arises, under the action of which the ring with the working body comes into translational motion, for example, down in the vertical plane. In this case, the elastic elements located under the ring are compressed. As the ring rotates, a moment comes at which the symmetrically located holes of the ring with movable arcuate plates are opposite the LIM inductors, while the electromagnetic field ceases to exert an effect on the ring and begins to affect the movable plates. The interconnected arcuate plates under the action of an electromagnetic force come into downward translational motion, while the elastic element mounted on the axial shaft under the guides is compressed. At this time, the ring, due to the energy accumulated in the elastic elements located under the ring, returns to its original state, while continuing to rotate. Further, at the moment when parts of the ring without holes pass opposite the inductors, the ring will again begin to translate, and the symmetrical plates, also due to the accumulated energy in the elastic element located under the guides, return to their original state and the process described below will be repeated. The oscillation frequency of the working body, in this case, is determined by the number of symmetrical holes with movable spring-loaded plates in the ring and the frequency of rotation of the ring.

The proposed technical solution makes it possible to obtain the oscillatory and rotational motion of the working body with increased energy characteristics. The use of movable arcuate plates ensures the oscillatory movement of the working body without the ON-OFF block of the LIM inductors and excludes frequent transient electromagnetic processes in the drive.

FIG. 1 shows a general view of the proposed device. FIG. 2 shows the position of the ring (its part) at the moment when parts of the ring without movable plates are located opposite the inductors. FIG. 3 the position of the ring (its part) at the moment when parts of the ring with movable symmetric arcuate plates spring-loaded relative to the shaft are located opposite the inductors. FIG. 4 - section A-A according to Fig. 1. FIG. 5 - part of the ring with movable arcuate plates, spring-loaded relative to the axial shaft and interconnected guides.

A linear asynchronous electric drive for a vibratory centrifugal separator has a housing 1, inside which there is a working body 2 (Fig. 1), an inlet pipe 3, a spreader 4, a vibrating and rotary drive of the working body 2. The rotary motion of the working body is driven from an electric motor of rotation 5, on the shaft which is fixed to the pulley 6. The pulley 6 is connected with the driven pulley 8 by means of V-belts 7. The driven pulley 8 is connected to the working body 2 through the splined connection 9.

The electric drive is implemented on the basis of a flat LIM, the inductors 10 of which are rigidly fixed on the base 11, and the rotor is the ring 12. The ring 12 has through symmetrical holes, in which are located spring-loaded relative to the axial shaft 13, using an elastic element 14, connected by guides 15, symmetrical arcuate and movable in the plane of the generatrix of the ring plate 16 (Fig. 5).

Ring 12 is movable and spring-loaded in the vertical plane by means of rollers 17 and elastic elements 18. Ring 12 is made of metal with high electrical conductivity (for example, aluminum or copper) and can be made of aluminum or copper rolled cylindrical tubes or aluminum or copper plate, from which the tubular cylinder is formed (Fig. 4) (Nasar S.A., Boldea I. Linear traction electric machines: Translated from English / Edited by Dr. of Engineering Sciences A.S. Kurbasov. M. : Transport, 1981.176 p.). The arcuate plates 16 are made of the same material as the ring 12.

The device works as follows. When voltage is applied to the electric motor 5, the working body 2 and the ring 12 will perform a rotational movement around their axis, transmitted through the pulleys 6, 8 and the belt drive 7. When voltage is applied to the inductors 10, the working body 2 and the ring 12 will oscillate, carried out due to the traveling magnetic field of the inductors 10, while the LIM inductors are constantly connected to the network.

At the level of the inductors 10 in the ring 12 there are through symmetrical holes with movable arcuate plates 16, therefore, simultaneously with the rotational movement, the ring 12 will oscillate as follows: at the moment of rotation, when a part of the ring 12 without holes is opposite the LAD 10 inductors, an electromagnetic force arises , under the action of which the ring 12 comes into translational motion, for example, downward. When the ring 12 moves, the elastic elements 18 are compressed (Fig. 2).

As the ring 12 rotates, a moment comes at which the symmetrical holes with movable spring-loaded arcuate plates 16 in the ring are located symmetrically relative to the LIM inductors 10. In this case, the electromagnetic field ceases to exert an effect on the ring 12, and begins to influence the movable arcuate plates 16. The plates 16 connected through the guides 15 to each other under the action of the electromagnetic force come into translational motion downward, while the elastic element 14 installed under the guides 15 on axial shaft 13, while the ring 12, under the action of potential energy accumulated in the elastic elements 18, returns to its original state (Fig. 3), while continuing to make a rotational movement. Then, a part of the ring 12 without holes is again located opposite the inductors 10, the movable plates 16 due to the potential energy stored in the elastic element 14 located under the guides 15 are returned to their original state and the process described below is repeated. In this case, the working body 2 performs a vibration-rotary movement.

The width of the movable plates should ensure their merging with the ring 12 in the horizontal plane, which will ensure the elimination of transient processes in the drive, and the height of the holes should ensure the installation of arcuate plates 16 with a height not less than the height of the inductors 10 with a power reserve providing the amplitude of oscillations of the working body.

Through the inlet pipe 3, the original bulk material enters the upper part of the unit, where the air flow created by a fan (not shown) passes through the dispersed bulk material and removes light impurities and dust. The bulk material coming from the spreader 4 under the influence of centrifugal force is pressed against the inner surface of the working body 2 and moves downward. Due to the reciprocating movement of the working body 2, the separation of impurities occurs.

Claims (1)

Linear asynchronous electric drive for a vibrocentrifugal separator consisting of a body, a working body, a rotary motion drive of the working body from the rotation motor and a vibration drive of the working body in the vertical plane from a flat linear asynchronous electric motor, the inductors of which are rigidly fixed on the base, and its rotor is in the form of a ring with symmetric through holes is movable and spring-loaded in the vertical plane, made of metal with high electrical conductivity and rigidly connected to the working body, characterized in that in the through symmetrical holes of the ring there are arcuate symmetric plates connected to each other by guides spring-loaded relative to the axial shaft of the ring with the ability to move in vertical plane, and the arcuate plates are made of the same material as the ring itself.

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