RU2686760C1 - Centrifugal vibratory separator - Google Patents

Abstract

FIELD: technological processes; machine building.

SUBSTANCE: invention relates to separators intended for separation of mainly grain materials, and can be used in flour-grinding, chemical and other industries. Vibration centrifugal separator consists of housing, working member, drive of rotary motion of working member from rotation motor and vibration drive of working member in vertical plane from flat linear asynchronous motor, inductors of which are rigidly fixed on the base, and its rotor is movable and spring-loaded in vertical plane and is made of metal with high electric conductivity. Working element with rotor along axis of rotation are divided into sections movable relative to each other.

EFFECT: reduced installed capacity of the vibration drive and higher reliability of the vibration centrifugal separator design.

1 cl, 3 dwg

Description

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

Known vibrocentrifugal grain separator, consisting of a body, rotating and vibrating the working body, drives for vibratory and rotational movements of the working body [1].

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

Closest to the proposed technical solution is the installation consisting of a body, a working body, a drive of the rotational movement of the working body from the rotation engine and a vibration drive of the working body in a vertical plane from a flat linear induction motor, the inductors of which are rigidly fixed on the base, and its rotor is mobile spring-loaded in a vertical plane and made of metal with high electrical conductivity [2].

The disadvantage of the technical solution is the transfer of large dynamic loads on the elastic elements due to the large mass of the working body and the rotor, simultaneously making an oscillatory motion, a large installed capacity of the linear asynchronous electric motor (LAD), large starting currents of the LAD, which generally reduces the reliability of the vibrating drive.

In all structures known to the authors, the rotational movement of the working body with its simultaneous vibration movement from the LAD occurs with the simultaneous influence of the electromagnetic force of the LAD inductors on its entire rotor, which is connected to the working body.

The aim of the invention is to reduce the installed capacity and increase the reliability of the vibration centrifugal separator.

This is achieved by the fact that the working body with the rotor along the axis of rotation is divided into sections that are movable relative to each other.

The proposed solution has a significant difference from the known ones, which consists in the fact that the electromagnetic force is transmitted from the inductors of the LAD not at the same time to the entire rotor, but only to several sections into which the rotor is divided with the working body. As the rotor rotates, the electromagnetic force from the inductors will in turn be transmitted to each section of the rotor connected with its section of the working body, which is opposite the LAD inductors. During the operation of the centrifugal separator, the LAD inductors are permanently connected to the network. This solution will reduce the dynamic loads on the elastic elements, reduce the installed capacity of the vibration centrifugal separator and increase its reliability.

FIG. 1 shows a general view of the proposed design of a centrifugal separator. FIG. 2 shows a section A-A of FIG. one; in fig. 3 - the position of the section at the time of its location in the electromagnetic field of the inductors of the LAD.

Vibro centrifugal separator has a housing 1. Inside the housing there is a working body consisting of sections 6 (Fig. 1). Inside the case there is a linear electric drive of the vibration movement of the working body in a vertical plane, which is a flat LAD consisting of several inductors 2 (Fig. 2) [3] rigidly fixed on the base, and a rotor, which is divided into vertical moving sections independent of each other 14, which are connected to the sections of the working body 6. The rotor sections 14 are connected with the ring 8 by means of guides 11 (FIG. 3). The sections of the working body with the rotor are movable and spring-loaded in the vertical plane with the help of elastic elements. 10. Sections of the rotor 14 through the ring 8 are connected to a horizontal pulley 9. Pulley 9, using V-belts, receives rotation from a pulley 4 mounted on the shaft of an electric motor 3. When the pulley 9 rotates, the sections of the working element 6 with rotor sections 14 are rotated around their vertical axis through spline joints 5.

Sections of the rotor 14 are made of metal with high electrical conductivity and can be made of aluminum or copper plates, which further bends in accordance with the bending radius of the section of the working body and is divided into sections equal to the number of sections of the working body.

Inside the housing of the centrifugal separator, parallel to the generatrix of the working body, the receiving funnel 12, the fan 13 and the spreaders 7 are installed.

When voltage is applied to the electric motor 3 (Fig. 1), the working body of the vibrating centrifugal separator will make a rotational movement around its axis, while the LAD inductors are constantly connected to the network. At the moment of rotation of the working body, when the rotor sections are located opposite the LAD inductors, an electromagnetic force occurs, under the action of which the sections of the rotor with the working body sections come in translational motion, for example, downwards. When moving sections of the elastic elements 10 are compressed (Fig. 3). As the working body rotates, there comes a moment at which the rotor sections emerge from the electromagnetic field of the LAD inductors, while the electromagnetic forces disappear and under the action of potential energy accumulated in the elastic elements 10, the sections return to their original state (Fig. 3), continuing to make rotational motion. Then the next section of the rotor is again located opposite the inductors 2 and then the process described is repeated. Thus, the sections of the working body with the sections of the rotor make a vibration-rotational movement.

Through the inlet and dispenser of the source bulk material enters the upper part of the unit - fan 13, where the air flow created by the fan passes through the scattered bulk material and removes light impurities and dust. The bulk material coming from the spreader is pressed by the centrifugal force to the inner surface of the sieve sections and moves down under its own weight. Due to the reciprocating movement of the sections, weed impurities are separated.

In this design, the frequency and amplitude of oscillations of the sections of the working body depends on its frequency of rotation, respectively, by adjusting the frequency of rotation of the working body, you can change the parameters of its oscillations. The frequency of rotation of the working body can be changed using a voltage frequency converter or thyristor voltage regulators [4].

Also, the frequency and amplitude of oscillations of the working body depends on the number of sections into which the rotor 14 is divided. The more such sections, the greater the frequency of oscillations of the working body at the same rotation frequency.

The separation of the working body and the rotor of the vibrocentrifugal separator into sections allows to bring forward the movement at the same time not the entire working body, but only those sections opposite the LAD inductors. This allows you to reduce the installed capacity of the vibration drive, as well as several times reduce the dynamic load on the elastic elements and the entire structure as a whole. At the same time, the quality of separation and productivity remain the same.

Information sources

1. USSR author's certificate No. 506439 in class В07В 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 B.L .; Applicant and patent holder Ukrainian Lead Research Institute of Agricultural Mechanization and Electrification, Gorky Machine-Building Plant M. Vorobyov, 03/15/1976. Bulletin No. 10.

2. Patent 2624702, Russian Federation, IPC B04b 3/06. Vibration centrifuge / Linenko A.V., Linenko Yu.A., Khalilov B.R., Tuktarov M.F .; applicant and patent holder Bashkir State Agricultural University, 09.03.2016

3. Nasar SA, Boldea I. Linear traction electric machines: Trans. from English / Ed. Dr. techn. Sciences ASKurbasova. M .: Transport, 1981. 176 p.

4. Ilinsky N.F., Moskalenko V.V. Electric drive: energy and resource saving: studies. allowance for stud. higher studies. institutions - Moscow: Publishing Center "Academy", 2008. - 208 p.

Claims (1)

Vibrocentrifugal separator consisting of a body, a working body, a drive of rotational movement of the working body from a rotation engine and a vibration drive of a working body in a vertical plane from a flat linear asynchronous electric motor whose inductors are rigidly fixed to the base, and its rotor is mobile and spring-loaded in a vertical plane and is of metal with high electrical conductivity, characterized in that the working body with the rotor along the axis of rotation is divided into sections movable relative to each other .

Images