RU1779627C - Method and apparatus for moving globular magnetic bodies - Google Patents

Abstract

Usage: the movement of spherical bodies of ferromagnetic material through a running magnetic poll. SUMMARY OF THE INVENTION: a magnetic field is applied to a part of the surface of a ball located above its diametrical plane and farthest from the latter. 2 sec., P.F., 2 ill.

Description

The invention relates to the field of transport and is intended for moving magnetic balls, including those formed from crushed and powder material. It is most suitable for use in the mining industry for transporting iron ores and ore concentrates.

A known method of moving magnetic bodies of a spherical shape, which consists in exposing them to a traveling electromagnetic field 1. The movement of the ball occurs on the surface of the inductor. Moreover, the part of the ball that is in contact with the inductor is affected by an electromagnetic field of higher intensity, which leads to an increase in sliding friction forces (due to the dragging of the ball), resulting in increased energy costs for transportation.

A device for transporting magnetic materials is also known, including a conveyor in the form of an inductor of a linear motor with coils connected to the electric network and placed along the path of movement 2. The main disadvantage of this device is the high energy consumption for transportation due to the sliding friction force between the surfaces, material and conveyor.

The purpose of the invention is to reduce energy costs for transportation.

The goal is achieved by the fact that according to the proposed method for moving magnetic shells of a spherical shape, traveling electromagnetic fields are applied to a part of the surface of the ball located above its diametrical horizontal plane and farthest from the latter.

A device for implementing the method, comprising a conveyor in the form of an inductor of a linear motor with coils connected to the electric network and placed along the path of movement,

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equipped with a non-magnetic tray installed under the inductor facing the tray with a working surface, which is mounted on separate supports, for example telescopic, mounted on both sides of the inductor along it.

In FIG. 1 is a side view of a device for moving magnetic bodies of a spherical shape; FIG. 2 is a section AA in FIG. 1.

The device comprises a tray 1 made of non-magnetic material and mounted under the working surface 2 of the inductor 3 of the linear motor. The coils 4 of the inductor 3 are connected to the electrical network (not shown in the figures) and are placed along the tray 1. The tray 1 is mounted on the supports 5, and the inductor 3 is mounted on the supports 6. The supports 6 are installed on both sides of the inductor 3 along it and can be made telescopic. Moveable balls 7 are in tray 1.

The method is implemented as follows. Balls 7 made of magnetic material are placed in the tray 1. On the coils 4 of the inductor 3, power is supplied with a frequency, for example, 50 Hz. At the inductor 3 along the tray 1, a traveling electromagnetic field appears, which acts on the upper part of the ball and carries it along. The movement of the ball occurs due to its rolling on the tray. The speed of movement is determined by the speed of the traveling electromagnetic field, i.e. AC frequency in inductor 3.

Since when the magnetic field of the inductor is applied to the upper part of the ball, the maximum moment of rotation is created relative to the point of contact of the ball

with the surface of the tray and mechanical energy losses occur only to overcome rolling friction, the total energy loss is lower than the energy loss during transportation by others

by known methods.

Claims (2)

1. A method for moving magnetic bodies of a spherical shape, comprising under the influence of a traveling electromagnetic field on the ferromagnetic body, characterized in that, in order to improve energy performance, the effect of osua (is applied to the part of the surface of the ball located above its diametrical horizontal plane and farthest from the latter. 2. A device for moving magnetic bodies of a spherical shape, containing conveyor in the form of an inductor of a linear motor with coils connected to the electric network and placed along the path of movement, characterized in that that, in order to reduce energy consumption, it is equipped with a non-magnetic tray installed under the inductor facing the tray with the working surface, which is mounted on separate supports installed on both sides of the inductor along it.