RU229440U1 - Drum magnetic separator - Google Patents

Abstract

The utility model relates to the mining industry and is intended for use in the complex enrichment of crushed weakly magnetic and strongly magnetic ores, placer deposits of gold, platinum group and rare earth elements, as well as for the associated extraction of valuable mineral concentrate in traditional mineral enrichment schemes. A drum magnetic separator comprises a hollow cylindrical working element equipped with water supply means, a magnetic system, a guide cylindrical roller, a feeder, an unloading device, a magnetic concentrate receiver and a non-magnetic material receiver. The magnetic system, additionally equipped with a guide cylindrical roller, is made in the form of a movable endless belt with rectangular permanent magnets fixed thereto, enveloping the cylindrical working element and the guide cylindrical roller. The cylindrical working element is made of a non-magnetic metal. The endless belt is made of a ferromagnetic composite flexible material to enhance the closure of the poles of the permanent magnets. The technical result is to increase the efficiency of magnetic impurities extraction.

Description

The utility model relates to the mining industry and is intended for use in the complex enrichment of crushed weakly magnetic and strongly magnetic ores, placer deposits of gold, platinum group and rare earth elements, as well as for the associated extraction of valuable mineral concentrate in traditional mineral enrichment schemes.

An electromagnetic separator is known, which includes an inclined drum made of a non-magnetic material, an electromagnetic system located outside the drum and made with grooves, a conveyor installed in the drum for removing the magnetic fraction, a feeder and receivers for the separation products, wherein the drum is installed eccentrically to the electromagnetic system (A.S. No. 797770, B03C 1/10 published on 23.01.1981).

The disadvantage of this device is the low productivity of capturing weakly magnetic particles, caused by the mobility of the working element relative to the magnetic system and the change in the magnetic field gradient along the perimeter of the working element.

Also known is a drum magnetic separator comprising a rotating non-magnetic drum body, an unloading device and a magnetic system with permanent magnets made in the form of rectangular prisms, characterized in that the drum is mounted on the outlet flange of a rotating ball mill and rotates together with it, a support structure is located around the drum, on which an arc-shaped yoke serving as a magnetic circuit is mounted with a gap to the drum body in the plane of its rotation, the sector of which is equal to 200-220° and is installed with a shift against the rotation of the drum at an angle of 20-40° from the vertical axis of the plane of rotation of the drum, while on the surface of the yoke facing the drum body, magnetic systems with permanent magnets made of rare-earth metal alloys are located, wherein the permanent magnets are made in the form of rectangular prisms with an aspect ratio a:b:h equal to 2:1:0.8, in turn, the magnets on the arc-shaped yoke are mounted with a pole pitch S equal to 80-160 mm, in addition, pole metal concentrators for magnetic systems of the yoke are made on the inner surface of the steel drum, and an unloading device in the form of a box tray is fixed on the support structure perpendicular to the plane of rotation of the drum and with a downward slope, which serves to remove magnetic impurities, and the tray is installed in such a way that its beginning is located under the upper end of the yoke arc with magnetic systems (RU No. 2400306 dated 13.08.2009, B03C 1/10, B02C 23/10, published 27.09.2010).

The disadvantage of this device is the low performance in capturing weakly magnetic particles, caused by the mobility of the working element relative to the magnetic system.

The closest in technical essence and achieved result to the claimed technical solution is a drum magnetic separator, including a cylindrical working element equipped with sprinklers, a magnetic system installed on the outside of the working element, partitions located inside the working element, a feeder and a receiver of magnetic concentrate, wherein the partitions are made in the form of rectangular plates and are placed parallel to the longitudinal axis of the working element and perpendicular to each other (Patent of the Russian Federation No. 134453 dated 15.07.2013, B03C 1/10, published: 20.11.2013 Bulletin No. 32).

The disadvantage of this device is the insufficient completeness of magnetic particle capture with the capture of the valuable component. The rotating cylindrical working element and the stationary magnetic system facilitate the movement of the magnetic field gradient on the inner surface of the working element during its rotation, which leads to the movement of the separation material in the capture zone and, accordingly, to the loss of the captured, deposited and captured separation material.

The technical result of the utility model is an increase in the efficiency of extracting magnetic impurities due to the use of a magnetic system made in the form of a movable endless belt with fixed rectangular permanent magnets, enveloping a cylindrical working element, which ensures the constancy of the magnetic field gradient during movement as a single whole - the separation material, the cylindrical working element and the magnetic system.

The specified technical result is achieved in that the drum magnetic separator contains a hollow cylindrical working element equipped with water supply means, a feeder, a guide cylindrical roller, an unloading device and a receiver of magnetic concentrate, a magnetic system which is made in the form of a movable endless belt with fixed rectangular permanent magnets and envelops the cylindrical working element and the guide cylindrical roller.

What is new in the proposed device in comparison with the prototype is that the magnetic system is made in the form of a movable endless belt with rectangular permanent magnets fixed to it and goes around the cylindrical working element and the guide cylindrical roller.

The claimed technical solution is explained by a drawing, where the figure shows side and front views of a drum magnetic separator.

Fig. 1 shows a drum magnetic separator in section, general view, where:

1 – cylindrical working element

2 – magnetic system;

3 – guide cylindrical roller;

4 – feeder of the initial material;

5 – unloading device;

6 – magnetic concentrate receiver;

7 – receiver of non-magnetic materials – tailings.

The drum magnetic separator comprises a hollow cylindrical working element 1, equipped with water supply means (not shown in the drawing), a magnetic system 2, a guide cylindrical roller – 3, a feeder of the initial material 4, an unloading device 5, a receiver of magnetic concentrate 6 and a receiver of non-magnetic materials – tailings 7. The unloading device is made in the form of a tray. The cylindrical working element is made of non-magnetic metal.

Magnetic system 2 is made in the form of a movable endless belt with rectangular permanent magnets fixed to it and goes around the cylindrical working element 1 of the separator and the guide cylindrical roller 3. The endless belt is represented by a flexible material in the form of a rubberized conveyor belt, where rectangular permanent magnets with alternating magnetic poles are fixed, which causes the closure of the magnetic poles and the formation of a closed magnetic field perpendicular to the perimeter of the rectangular base of the magnets of the magnetic system. The endless flexible belt can be made of a ferromagnetic composite material to enhance the closure of the magnetic poles of the rectangular permanent magnets.

The drum magnetic separator works as follows:

The starting material is pulp, which is fed through the starting material feeder 4 to the internal cavity of the cylindrical working element 1 of the drum magnetic separator, where the magnetic system 2 is adjacent to the outside of the cylindrical working element 1, forming a magnetic field gradient on the internal surface of the cylindrical working element 1.

The pulp containing a suspension of magnetic and non-magnetic minerals representing heavy and light fractions, flowing along the inner surface along the cylindrical working element 1, is exposed to the action of closed lines of force of the magnetic field and the force of the gravitational field. Weakly magnetic and strongly magnetic particles adhere to the inner surface of the cylindrical working element of the drum magnetic separator, forming a carpet of magnetic particles, which has the ability to capture non-magnetic particles of minerals. Uncaptured material is carried away by the pulp and gets into the receiver 7.

Closed magnetic field lines formed on the inner surface of the cylindrical working element 1 facilitate the capture of magnetic minerals from the pulp flow and the formation of a “carpet” of magnetic minerals on the inner surface of the cylindrical working element 1.

As the separation material accumulates, automatic removal occurs. Automatic removal of the separation material occurs as follows. The drum magnetic separator, consisting of a hollow cylindrical working element 1 and a magnetic system 2 made in the form of an endless belt with rectangular permanent magnets fixed to it and a guide cylindrical roller 3, is set in motion as shown in Fig. 1. The accumulated separation material, by means of rotation of the cylindrical working element 1 and the joint movement of the magnetic system 2, rises upward without reorientation of the magnetic field lines and, upon reaching the region of divergence of the magnetic system 2 from the cylindrical working element 1 above the unloading device 5, the separation material breaks away from the inner surface of the cylindrical working element 1 and enters the unloading device 5.

The constancy of magnetic lines of force on the inner surface of the cylindrical working element 1 is achieved by the joint movement of the magnetic system 2 and the cylindrical working element of the drum magnetic separator during the process of automatic removal of the separation material and is an advantage over known analogues.

With a rich content of magnetic minerals, the drum magnetic separator operates in a continuous unloading mode with an adjustable rotation speed of the cylindrical working element.

This design is a user-friendly device that allows for increased device productivity and high selectivity in separating materials.

Offered as a utility model, the device is quite universal and can be used on washing devices and dredges of various modifications, in sludge enrichment plants, and also as a process control at any stage of enrichment schemes.

Claims (1)

A drum magnetic separator comprising a hollow cylindrical working element equipped with water supply means and mounted with the possibility of rotation, a feeder configured to feed the initial material to the internal cavity of the cylindrical working element, a magnetic system, an unloading device and a magnetic concentrate receiver, characterized in that it is equipped with a guide cylindrical roller, wherein the magnetic system is made in the form of a movable endless belt made of a ferromagnetic composite flexible material with rectangular permanent magnets fixed thereto with alternating magnetic poles, enveloping the cylindrical working element and a guide cylindrical roller, wherein the hollow cylindrical working element is made of a non-magnetic metal.