RU194345U1 - DRUM MAGNETIC SEPARATOR - Google Patents

Abstract

The utility model relates to the field of mineral processing and can be used in mining, metallurgical, construction and other industries. A useful model is aimed at reducing the loss of the useful component in the separation of iron ore by ensuring uniform magnetic field induction along the length of the separator bath. This is achieved by the fact that the drum magnetic separator consists of a bath in which a rotating non-magnetic drum 6 with a magnetic system located therein is installed emoy 4 has bath bikonotsilindricheskoy shape, the central part of which consists of a cylinder 1, conjugated with symmetrical side portions the truncated partial-conical bodies 2 bounded by planar side walls 3.

Description

The utility model relates to the field of mineral processing and can be used in mining and processing, metallurgical, construction and other industries.

Known drum magnetic separator (RU patent for invention No. 2319549, published March 20, 2008, bull. No. 8), which includes a rotating non-magnetic drum, a cylindrical bath, loading and unloading devices, a magnetic system inside the drum of the main and additional magnets with the same magnetic polarity.

A disadvantage of the known construction is that the magnetic field intensity is taken into account only in the direction of the pulp movement, and no measures are taken to ensure the same magnetic field intensity in the direction perpendicular to the pulp movement, i.e. in the longitudinal section of the bath.

Known drum magnetic separator with a variable magnetic field (RF patent for the invention No. 2528661, published 09/20/2014, bull. No. 26) containing a housing (bath), a rotating non-magnetic drum and two magnetic systems with permanent magnets mounted on both sides relative to the axis of the drum.

The disadvantages of the known separator is the change in the parameters of the magnetic field relative to the surface of the shell of the drum only in the Central working zone of the movement of the pulp.

The closest analogue adopted for the prototype is a magnetic separator with a variable magnetic field (RF patent for the invention No. 2460584, published September 10, 2012, bull. No. 25), having a housing (bath), inside which a rotating non-magnetic drum and a magnetic system are concentrically placed, rigidly connected to the base of the separator, divided into sections of different types of magnets, allowing you to change the amplitude of the magnetic field.

The following features of the prototype coincide with the essential features of the utility model: a bath in which a rotating non-magnetic drum with a magnetic system located in it is installed.

The disadvantage of the prototype is the presence of "dead zones" of the movement of the pulp, close to the ends of the bath, where the separation efficiency is reduced.

A common drawback of all considered drum magnetic separators is the imperfect geometric shape of the bath. This entails the under-extraction of the useful component in the lateral parts of the working area due to the reduced magnetic field induction caused by the lack of similarity between the surface along which the pulp (cylindrical) moves and the equipotential magnetic field induction surfaces. In the magnetic separator, the material to be separated along the entire length of the working zone (the zone of the cylindrical bath) is equally distant from the drum surface, while the equipotential surfaces of the magnetic field induction of the magnetic system of the separator are concave. As a result, induction at the same distance from the surface of the drum in the central part of the working area is much higher than at the edges. The irregularity of the induction causes the loss of iron ore raw materials during separation, since the extraction along the edges of the working zone of the separator bath is reduced due to a smaller induction compared to the center. To reduce losses, it is necessary to approximate the shape of the surface of the working zone of the bath to the shape of equipotential surfaces of the induction of the magnetic system of the separator.

The utility model is aimed at reducing the loss of the useful component during the separation of iron ore material by ensuring uniformity of magnetic field induction along the length of the separator bath.

This is achieved by the fact that the drum magnetic separator, consisting of a bath in which a rotating non-magnetic drum is installed with a magnetic system located in it, has a bicon cylindrical bath, the central part of which consists of a cylinder mating with symmetrical side sections in the form of truncated semi-cones bounded by flat side walls.

The essence of the utility model is illustrated by graphic materials, which show sections of a biconocylindrical bath: in FIG. 1 - longitudinal, in FIG. 2 - axial.

The drum magnetic separator consists of a bicon cylindrical bathtub, which is a trough, the central part of which is made in the form of a cylinder 1, conjugated with symmetrical side sections in the form of truncated half-cones 2, bounded and joined to the flat side walls 3 of the bathtub. The magnetic system 4 is mounted on the shaft 5 of the rotating non-magnetic drum 6 installed inside the bath with the pulp located in it 7. The magnetic system 4 has a length slightly greater than the length of the central part of the bath 1, therefore, when passing the pulp 7 along the bottom of the bath, there are equipotential lines of magnetic induction 8 in the central part of the working area and along its edges approach the drum near the side walls of the bath 3.

Drum magnetic separator operates as follows. The separated material, for example, iron ore, in the form of pulp 7 is fed into a bath having a bicon cylindrical shape, with a central part in the form of a cylinder 1, conjugated with symmetrical side sections in the form of truncated half-cones 2, bounded and joined to the flat side walls 3 of the bath. When the magnetic system 4 is mounted on the shaft 5 of the rotating non-magnetic drum 6, the equipotential lines of induction of the magnetic field 8, being concave, are as close as possible to the shape of the surface of the working area of the bath in the form of a cylinder 1 and two truncated half-cones 2 along the edges of the bath. The approximate equality of induction is achieved along the entire length of the working zone of the bath, which leads to a more complete extraction of the useful component, for example, iron ore component, from the pulp 7.

The proposed utility model will reduce the loss of the useful component during the enrichment of the separated material by ensuring uniform magnetic field induction along the length of the separator bath and similarity of the working surface of the bath to equipotential lines of magnetic induction.

In addition, it allows you to increase productivity by increasing the efficiency of the separator, reduce the cost of secondary separation, the use of production facilities, save energy and water resources.

Claims (1)

A magnetic drum separator consisting of a bath in which a rotating non-magnetic drum is mounted with a magnetic system located in it, characterized in that the bath has a bicon cylindrical shape, the central part of which consists of a cylinder mating with symmetrical side sections in the form of truncated semi-cones bounded by flat side the walls.

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