RU2812732C1 - Magnetic separator - Google Patents

Abstract

FIELD: magnetic separation.

SUBSTANCE: invention relates to the field of magnetic sorting of materials containing magnetic materials and can be used for processing unsorted material in mining, metallurgical, and other industries. The magnetic separator includes a feeder, a rotating drum made of a non-magnetic material, and a magnetic system located inside the drum and including magnets mounted in rows on a base made of a magnetic material, and receivers of separation products. The magnets on the base are installed so that at least in one row they have different orientations of magnetic polarity relative to the base and relative to each other and at least once in the following order: in the magnet of the row, one of the polarities is directed towards the adjacent magnet, in the adjacent magnet, the same polarity is directed in the opposite direction from the base, in the next magnet the same polarity is directed towards the previous magnet, in the next, nearby magnet, the same polarity is directed towards the base.

EFFECT: improved efficiency of sorting of materials containing magnetic materials.

1 cl, 2 dwg

Description

The invention relates to the field of magnetic classification of materials with magnets and can be used in mining, metallurgical and other industries.

A drum magnetic separator is known, containing a non-magnetic rotating drum and a magnetic system located inside the drum, a feeder and a receiver, where the magnetic system is made of plates of permanent magnets neodimirezhelezobor, assembled in the first quarter of the drum in the form of rings with alternating magnetic polarity along the width of the drum, in the second quarter The magnetic system is also made from plates of neodimzhelezobor permanent magnets, assembled in the form of magnetic rows with alternating magnetic polarity along the direction of movement of the material, with a variable pole pitch from 120 to 60 mm and the possibility of combining individual plates into blocks (patent RU 2344879 C1, publ. 27.01. 2009).

The disadvantage of the known device is the irrationality of the design due to the use of an excessive number of magnets of different designs.

A known drum magnetic separator includes a non-magnetic rotating drum and a magnetic system located inside the drum, a feeder and receivers of separation products, where the magnetic system is made of permanent magnets in the form of rectangular prisms, united by alternating sections of two rows along the direction of movement of the drum and consisting of the same sections of magnets installed on a base with multidirectional magnetic moments, and in other areas magnets are installed on an edge with magnetic moments directed towards each other with the possibility of changing the counter angle of inclination of the magnets (patent RU 2380164 C1, publ. 01/27/2010 - prototype).

The disadvantage of the known device is that the specified alternation of the polarity of the magnets and the location of the magnets does not provide a sufficient increase in the magnetic field from the side of the separated product and thereby the efficiency of the separation process.

The objective of the invention is to increase the magnetic field on the part of the material being classified and thereby increase the efficiency of classification of materials with magnets.

The solution to this problem is achieved by the fact that in a magnetic separator, including a feeder, a rotating drum made of non-magnetic material and a magnetic system located inside the drum and including magnets mounted on a base made of magnetic material, arranged in rows, receivers of separation products, what is new is that the magnets on the base are installed so that, at least in one row, they have a different orientation of the magnetic polarity relative to the base and relative to each other and, at least once, in the following order: in the magnet of the row, one of the polarities is directed towards the adjacent magnet; a nearby magnet has the same polarity directed in the opposite direction from the base; in the next magnet the same polarity is directed towards the previous magnet; in the next nearby magnet, the same polarity is directed towards the base.

With the proposed arrangement and alternation of magnets in the magnetic system, an intense magnetic field is created from the moving surface of the magnetic drum, which makes it possible to increase the efficiency of the magnetic separation process.

The essence of the invention is illustrated by the example of a drum magnetic separator in Fig. 1 and fig. 2. In FIG. 1 drum magnetic separator is shown in a radial section, in FIG. 2 drum magnetic separator is shown in section along the axis of the separator.

The magnetic separator contains a housing 1, including a bath 2, a feeder 3 for loading the classified product and a magnetic product receiver 4 and a non-magnetic product receiver 5, a rotating drum 6 made of non-magnetic material and a magnetic system 7 located inside the drum. The magnetic system includes a base 8 made of magnetic material and magnets 9 mounted on it, arranged in rows. The magnets in the row on the base are arranged in the following order: in the magnet of the row, one of the polarities is directed towards the adjacent magnet; a nearby magnet has the same polarity directed in the opposite direction from the base; in the next magnet the same polarity is directed towards the previous magnet; in the next nearby magnet, the same polarity is directed towards the base. This sequence of magnet polarity orientation can be repeated throughout the entire row of magnets in the magnetic system.

As a result, with the proposed arrangement and alternation of magnets, an intense magnetic field is created outside the drum, and there is practically no magnetic field intensity inside the drum.

The device works as follows.

The classified material through the feeder 3 enters the bath 2 of the drum magnetic separator in the zone of influence of the magnets 9 of the magnetic system 7. Due to the proposed arrangement and alternation of magnets with different polarities in the magnetic system, the magnetic field has a higher intensity in the separator bath and the magnetic product is attracted with greater force to drum 6 and is held on it. When the drum rotates, the magnetic product is transferred to the magnetic product receiver 4 and, outside the influence of the magnetic field, is removed from the magnetic separator. The non-magnetic material is removed by gravity from the separator to the non-magnetic product receiver 5.

Thus, the use of the proposed technical solution will increase the efficiency of classification of materials with magnetic materials by increasing the magnetic field strength on the part of the material being classified.

Claims (1)

A magnetic separator, including a feeder, a rotating drum made of non-magnetic material and a magnetic system located inside the drum and including magnets installed in rows on a base made of magnetic material, receivers of separation products, characterized in that the magnets on the base are installed so that at least in the same row have different orientations of magnetic polarity relative to the base and relative to each other and at least once in the following order: in the magnet of the row, one of the polarities is directed towards the adjacent magnet, in the adjacent magnet the same polarity is directed in the opposite direction from the base, in the next magnet the same polarity is directed towards the previous magnet, in the next magnet located nearby, the same polarity is directed towards the base.