RU2220775C1 - Drum-type magnetic separator with inverse magnetic fields - Google Patents

Abstract

FIELD: magnetic separation of mineral mixtures at high degree of selectivity for concentration purposes. SUBSTANCE: proposed magnetic separator includes non-magnetic revolving drum, magnetic system located inside drum for creation of pulsed magnetic field, feeder and receiver for products of separation. Magnetic system is made from permanent magnets for their rotation at varying frequency near inner surface of drum and axes of rotation parallel to axis of rotation of drum for change of angles between vertical line and radius vectors to axes of rotation of magnets. EFFECT: enhanced efficiency of breaking magnetic conglomerates and strands; enhanced selectivity of separation; reduced power requirements. 1 dwg

Description

The invention relates to the field of magnetic separation of mineral mixtures with a high degree of selectivity in order to enrich them.

Known drum magnetic separator, including a stationary radial multipolar magnetic system with a package of magnetic plates [1].

The disadvantage of this separator is the small number of magnetization reversal cycles of the separated product.

The closest technical solution to the proposed one is a magnetic separator, including a non-magnetic drum and a magnetic system consisting of permanent magnets and electromagnets equipped with multivibrators, a feeder and receivers of separation products [2].

The disadvantages of this separator are limitations in the intensity of pulsating magnetic fields and increased energy consumption.

The technical result of the proposed magnetic separator with inverse magnetic fields is the effective destruction of magnetic conglomerates and strands, high selectivity of separation of separation products, low energy consumption.

The specified technical result is achieved in that in a magnetic separator including a non-magnetic rotating drum and a magnetic system located inside the drum that creates pulsating magnetic fields, a feeder and a receiver of separation products, the new one is that the magnetic system is made of permanent magnets with the possibility of rotation with variable frequency near the inner surface of the drum and the axis of rotation parallel to the axis of rotation of the drum, with the possibility of changing the angles between the vertical and radius vectors to the axis of rotation of the magnets.

Figure 1 shows a schematic sectional view of a separator.

The separator is equipped with a loading device 1, a rotating drum 2, with the possibility of adjusting the number of revolutions, inside which there is a magnetic system consisting of permanent magnets in the form of rectangular prisms 3, 4, 5 with the possibility of rotation around the axes 6, 7, 8 with an adjustable number of revolutions, located parallel to the axis of rotation of the drum. It is possible to change the angles α, β, γ between the vertical and the radius vectors to the axis of rotation of the magnets. The separator is equipped with a screen 9, reflecting non-magnetic particles, and a movable shutter 10, designed to separate the flows of magnetic and non-magnetic particles.

The separator works as follows. The separated product in the form of dry powder from the loading device falls on the surface of the rotating drum of the separator. Under the action of an alternating magnetic field created by the rotating magnet 3, magnetization of "soft magnetic" particles and the rotation of "hard" particles on the surface of the drum occur repeatedly, which contributes to the destruction of magnetic conglomerates and strands, and the effective separation of magnetic and non-magnetic particles. Non-magnetic particles move along trajectory 12, and magnetic particles with residues of non-magnetic particles fall into the area of action of magnets 4 and 5, where additional cleaning and separation of the remnants of non-magnetic particles (trajectory 12 and 13) and magnetic (trajectory 14) takes place. The output of magnetic and non-magnetic products is carried out in the direction of the arrows 15 and 16, respectively.

The inventive separator differs from the prototype in that the use of rotating magnets with high magnetic induction and adjustable speed leads to magnetization reversal and efficient separation of the separated materials. The ability to change the angles α, β, and γ and the rotational speed of the drum and magnets, as well as the presence of a movable damper, allow the separator to be configured to obtain high-purity magnetic concentrates at lower energy costs.

Sources of information

1. Copyright certificate 582835, cl. B 03 C 1/10.

2. Copyright certificate 668706, cl. B 03 C 1/10 (prototype).

Claims (1)

A magnetic separator with inverse magnetic fields, including a non-magnetic rotating drum and a magnetic system located inside the drum, creating pulsating magnetic fields, a feeder and a receiver of separation products, characterized in that the magnetic system is made of permanent magnets with the possibility of rotation with a variable frequency near the inner surface the drum and the axes of rotation parallel to the axis of rotation of the drum, with the ability to change the angles between the vertical and radius vectors to the axis of rotation of the magnets .

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