RU2739284C1 - Centrifugal vibratory separator - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: disclosed invention relates to separators intended for separation of grain materials into fractions by size, and can be used at breeding stations, elevators, in farms, in factories for production of seeds and cereals, as well as in flour-grinding, mixed feed, chemical and other industries. Vibration centrifugal separator consists of housing, working member, drive of rotary movement of working member from rotation motor and vibration drive of working member in vertical plane from linear asynchronous motor (LAM), inductors of which are rigidly fixed on base, and its rotor is movable and spring-loaded in vertical plane, made of metal with high electrical conductivity and rigidly connected to working member. LAM inductors are arc-shaped, in which slots for winding laying are made perpendicular to generating axis of inductors.

EFFECT: creation of superposition of vibration motion on rotary motion with improved energy efficiency, as well as reduction of drive noise level.

1 cl, 4 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 rotary movements of the working body (USSR author's certificate No. 506439 class B07B 1/44. Vibrating 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 patentee of the Ukrainian Head Scientific 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 linear asynchronous electric motor (LIM), whose inductors are rigidly fixed on the base, and its rotor movable and spring-loaded in a vertical plane, made of metal with high electrical conductivity and rigidly connected to the working body (Patent 2678008, Russian Federation, IPC B 04b 3/06.

Vibrating centrifuge / Linenko A.V., Aipov R.S., Khalilov B.R., Kamalov T.I., Gilvanov V.F. Applicant and patentee Bashkir State Agrarian University, 22.01.2019). The disadvantage of the technical solution is the uneven air gap between the ring (rotor) and the LIM inductors, through which electromagnetic power is transmitted from the inductors to the ring. An uneven air gap, with a maximum value of the gap along the vertical axis of the inductor, leads to an increased no-load current of the LIM, an increase in the power consumption of the LIM from the network, an increase in noise and a deterioration in the energy characteristics of the vibration drive as a whole.

The aim of the invention is to provide a uniform air gap between the ring (rotor) and the LIM inductors, which will improve the energy characteristics of the vibration drive based on it and reduce the noise level of the drive. This is achieved by the fact that the LIM inductors are made in the form of an arcuate shape, in which the slots for laying the winding are made perpendicular to the generating axis of the inductors.

The arcuate shape of the LIM inductors provides a uniform air gap between the ring (rotor) and the LIM inductors, in which the slots for laying the winding are made perpendicular to the generating axis of the inductors. A uniform air gap, with a projected value, ensures the maximum transmission of electromagnetic power from the LIM inductors to the ring (rotor), which is accompanied by a decrease in the idle current of the LIM, a decrease in the LIM power consumption from the network, a decrease in noise and an increase in the energy characteristics of the vibration drive as a whole. It should be noted that the proposed arc-shaped form of LIM inductors does not apply to the known arc-stator motors, since in the latter, the grooves for laying the winding are made parallel to the generatrix of the axis of the inductors (Fridkin P.A. Gearless arc-drive electric drive. - M .: Energia, 1970. - 137 p.), and in the LAD under consideration - perpendicularly.

The proposed technical solution makes it possible to obtain a linear movement of a rotating working body with increased energy characteristics of the vibration drive due to the arcuate shape of the LIM inductors, in which the slots for laying the winding are made perpendicular to the generating axis of the inductors and has a significant difference.

Figure 1 shows a General view of the proposed vibration separator. Figure 2 shows the position of the ring (its part) at the moment when parts of the ring without holes are located opposite the inductors; figure 3 of the position of the working body (its part) at the moment when parts of the ring with holes are located opposite the inductors; figure 4 is a section a-a according to figure 1.

The vibro-centrifugal separator has a housing 1, inside which there is a working body 2 (figure 1). The drive of the rotary movement of the working body is carried out from the rotation electric motor 8, on the shaft of which the pulley 7 is fixed. The pulley 7 is connected with the driven pulley 6 by means of V-belts 15. The pulley 6 is connected to the working body 2 through the splined connection 5.

Inside the housing 1 there is an inlet pipe 16, a winnower 13, a spreader 14, a vibration drive of the working body 2 in the vertical plane, from the LIM, consisting of arc-shaped inductors 3 (Fig. 4), in which the slots for laying the winding are made perpendicular to the generating axis of the inductors. Inductors 3 are rigidly fixed on the base 12, and the rotor is a ring 4, with through symmetrical holes 9 made on it.

Ring 4 is movable and spring-loaded in the vertical plane with the help of rollers 11 and elastic elements 10. Ring 4 is made of metal with high electrical conductivity (for example, aluminum or copper) and can be made of cylindrical aluminum or copper rolled tubes or aluminum or copper plate , from which the tubular cylinder is formed (Nasar S.Α., Boldea I. Linear traction electric machines: Translated from English / Edited by Dr. of Engineering Sciences A.S. Kurbasov. M: Transport, 1981. 176 p. .).

The device works as follows. When voltage is applied to the electric motor 8, the working body 2 and the ring 4 will perform a rotational movement around their axis, transmitted through the splined connection 5 from the pulley 6, while the LAD 3 inductors are constantly connected to the network. At the moment of rotation, when a part of the ring 4 without holes is opposite the LAD inductors 3, an electromagnetic force arises, under the action of which the ring 4 comes into forward motion, for example, downward. When the ring 4 moves, the elastic elements 10 are compressed (figure 2). As the ring 4 rotates, the moment comes at which the holes 9 in the ring are located symmetrically relative to the LIM inductors 3, while the electromagnetic force disappears and under the action of the potential energy accumulated in the elastic elements 10, the ring 4 returns to its original state (Fig. 3) while continuing to rotate. Then, a part of the ring without holes is again placed opposite the inductors 3 and the process described below is repeated. In this case, the working body 2 performs a vibration-rotational movement. The size of one hole 9 on the ring 4 should not be less than the size of the working surface of one inductor 3, which will ensure the return of the working body to its original position at the moment when the symmetrical holes 9 are located opposite the inductors 4 LIM, due to the elastic elements 10.

Through the inlet pipe 16, the original bulk material enters the upper part of the block - winnower 13, where the air flow created by the fan passes through the bulk material being spread and removes light impurities and dust. The bulk material coming from the spreader 14 is pressed against the inner surface of the working body 2 under the influence of centrifugal force and moves downward. Due to the reciprocating movement of the working body 2, the separation of trash impurities occurs.

Claims (1)

Vibration 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 linear asynchronous electric motor (LIM), whose inductors are rigidly fixed on the base, and its rotor is movable and spring-loaded in the vertical plane , is made of metal with high electrical conductivity and is rigidly connected to the working body, characterized in that the LIM inductors are made of an arched shape, in which the slots for laying the winding are made perpendicular to the generating axis of the inductors.

Images