SU1166828A1 - Electric magnetic separator - Google Patents

Abstract

1. TRAILING SAMORAZGRUZHAKSCHIYSYA ELECTROMAGNETIC IRON .OTDELITEL comprising an electromagnet with DC magnetization Chiva coils, pole pieces and the yoke, and a discharge device, characterized in that, to reduce the weight and dimensions of the design and reliability of povppeni separators, it is provided with additional. T-shaped pole tips, and the discharge device is made in the form of installation. The non-magnetic rail mounted under the pole tips is rigidly connected to linear inductors, with the inductors placed on additional pole ends, with the rail and inductors installed with the possibility of reciprocating movement in the horizontal plane. . 2. The iron separator according to claim 1, characterized in that, (L with a chain of automation of the unloading process, limit switches are installed at the edges of the additional pole pieces. F o 00: 00

Description

one

This invention relates to the recovery of ferromagnetic metal objects from a material flow, such as coal, ore, sand, etc.

A device for extracting metal particles from a stream of bulk material is known, which is an iron separator mounted hingedly on a frame and made in the form of a conveyor belt 1 J

A disadvantage of the known device is the low efficiency of separating iron objects.

Closest to the invention in its technical essence and the effect achieved is an suspended self-unloading electromagnetic iron separator including a direct current electromagnet with magnetizing coils, pole pieces and a magnetic circuit and a discharge device 2 J.

The disadvantages of this device are the large weight, size and lack of reliability of the separator.

The purpose of the invention is to reduce the weight and dimensions of the structure and increase the reliability of the device.

This goal is achieved by the fact that the device is equipped with additional T-shaped pole pieces, and the discharge device is designed as a non-magnetic rail mounted under the pole tips rigidly connected to linear inductors, and the inductors are placed on additional pole pieces, while the rail and inductors are fitted with possibility of reciprocating movement in the horizontal plane.

In addition, in order to automate the unloading process, end terminators are installed at the edges of the additional pole pieces. ,

FIG. 1 shows the proposed iron separator j cross-section; in fig. 2 is a view A of FIG. 1 in FIG. 3, view B in FIG. 2

The structure of the iron separator consists of a magnetic circuit 1, magnetizing coils 2, moving linear inductors 3, rolling bearings 4, additional T-shaped pole pieces 5, fundamentals 8282

pole tips 6, non-magnetic gasket 7, movable rigid non-magnetic rail 8, limit switches 9 and 10, spring-loaded restrictor rods 11 and 12 with springs 13 and 14 and switch-disconnect rods 15 and 16 fixed at the opposite ends of the additional T-shaped pole tips

The device works as follows i

In the operating mode, the iron separator is suspended above the belt

a conveyor that transports the material to be separated (coal, sand, ore, etc.). Coils 2 are connected to an R network of direct current, resulting in an electromagnet

the iron separator creates a stationary operating magnetic field by which ferromagnetic metal objects are extracted from the material to be separated, which are attracted to the surface of the non-magnetic gasket 7 (in the area of the working pole pieces 6). To unload these items, inductors 3 are periodically connected to a three-phase AC network, resulting in inductors together with a rigidly connected with it. rake 8 comes into motion. In this case, the thrust force is created due to the interaction of 3 traveling magnetic fields created by inductors with protrusions beyond the limits of the electromagnet by massive parts of additional T-shaped tips 5.

On the path of movement, the rail 8 hooks and pulls the extracted ferromagnetic objects out of the zone of the working pole tips 6, where as a result of the weakening of the working stationary magnetic field, there is a drop, i.e. unloading, retrieved items into a dedicated receiver. The movement of inductors in the direction

Forward completes after the impact of the latter with restrictor stem 1.2. At the same time, the springs 14 provide the impact softening, and the stock switch 16 together with the limit switch 10 automatically disconnects and reverses the inductors 3, as a result of which the latter begin to move in

Claims (2)

1. SUSPENDED SELF-UNLOADING ELECTROMAGNETIC JELLY 30. A separator comprising a direct current electromagnet with magnetizing coils, pole tips and a magnetic circuit, and an unloading device, characterized in that, for the purpose of the flax, with the possibility of reciprocating movement in a horizontal plane. 2. Iron separator according to π. 1, 3 characterized in that, in order to automate the unloading process, limit switches are installed on the edges of the additional pole pieces. Fig 1 1 1166828 2