RU1810109C - Magnetic separator - Google Patents

Abstract

Usage: magnetic enrichment of minerals. SUMMARY OF THE INVENTION: The magnetic separator is provided with a screen made in the form of ferromagnetic plates, between which there are permanent magnets, the magnetization axis of which is perpendicular to the cross section of the plates, and the length of these magnets is 0.2-0.4 of the plate length along the generatrix of the separator bath. 4 ill., 1 tablet,

Description

FIELD OF THE INVENTION This invention relates to magnetic mineral processing and can be used in concentration plants processing magnetite ores.

The aim of the invention is to increase the efficiency of the separator by improving the quality of the magnetic product by creating a rational topography of the magnetic field in the extraction zone of the separator.

In FIG. 1 and FIG. 2 - presents a magnetic separator; in FIG. 3 and 4 are sections of the known and proposed separators.

The magnetic separator includes a non-magnetic drum 1, a magnetic system located inside it, consisting of a magnetic circuit 2 and a series of permanent magnets rigidly fixed on it with alternating polarity З, a bath 4, a screen consisting of ferromagnetic plates 5 and magnetic elements 6, unloading devices 7 and 8 and loading box 9.

Magnetic separator operates as follows.

The initial pulp from the loading device 9 enters through the loading channel into the bath of the separator 4. As it passes through the loading channel, the pulp is exposed to a magnetic field and magnetized;

Due to the fact that the lines of force near the separator bath are directed concentrically, and above the poles of the magnetic system perpendicular to the direction of movement of the pulp, there is a directed transport of the magnetic product to areas of increased concentration of magnetic field lines with subsequent extraction of the magnetic product to the surface of the working body 1 in the form needle structures, transport and unloading of concentrate in the receiver. However, the non-magnetic product moves by gravity to the tail unloading area and is unloaded into the receiver 8.

Since under the bottom of the bath there is a screen consisting of ferromagnetic plates, in the gaps between which are magnetic blocks, the magnetization axis of which coincides with the cross section of the ferromagnetic plates, magnetic shunting

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system flow prevents loss of magnetic energy outside the separation workspace. In addition, a secondary magnetic flux is formed near the bottom of the separator bathtub, which facilitates the transport of magnetic material deposited on the bottom of the bathtub to areas of increased concentration of field lines, and this, in turn, ensures its intensive extraction on the surface of the working body in these areas.

In general, the implementation of the screen in the form of elements of ferromagnetic plates and magnetic blocks determines, firstly, the continuous transport of the magnetic product from areas with a low concentration of magnetic field lines to areas of increased magnetic flux concentration and, secondly, more intensive extraction from these areas magnetic product in the form of small needle aggregates, which significantly improves the quality of the magnetic product. By reducing the capture of non-magnetic material into the magnetic phase during its movement, the separation efficiency is also increased.

The proposed magnetic separator has been tested under laboratory and industrial conditions of the Vysokogorsky ore management with a capacity of 120 t / h and a mass fraction of solid in the pulp of 30%.

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The initial feed was the ore of Magnetitov mine with a mass fraction of iron of 30.1% and a grade of 0.074 - 62%.

The test results are shown in the table,

Analysis of the test results shows that the proposed magnetic separator, in comparison with the known one, allows to increase the quality of the concentrate by 1.1% and reduce the loss of iron in the tailings by 0.6%, which leads to an increase in the efficiency of the separation process.

For r m at L. and z about b re te n and:

A magnetic separator including a non-magnetic drum mounted for rotation, a magnetic system located inside it, consisting of a magnetic conductor and permanent magnets of alternating polarity, a bath, loading and unloading devices and a screen located concentrically to the bottom of the separator bath, about moreover, and in order to increase the separator efficiency by improving the quality of the concentrate, the screen is made in the form of ferromagnetic plates, between which there are permanent magnets, the axis the magnetization of which is perpendicular to the cross section of the plates, and the length of these magnets is 0.2-0.4 of the plate length along the generatrix of the separator bath.

 Table continuation

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