SU1468597A1 - Electric magnetic trommel separator - Google Patents

Abstract

The invention relates to magnetic enrichment and increases the efficiency of the separation process due to the intensification of the unloading of the magnetic product. In the bath 2 a non-magnetic drum (NB) 1 is installed. Inside the NB 1 there is a magnetic system 3 of permanent magnets. The inductor of a running magnetic field (IBMP) is located behind the loading tube 4. Additional IBP 8 is located along the rotational path of the NB 1 behind the IBMP 7 in front of the discharge nozzle 5. The original pulp through the nozzle 4 enters the zone of action of the IBMP 7. The magnetic particles come into rotational motion are released from adhering waste rock and combined into floccules. The floccules are transported by the NB 1 in the direction of the discharge nozzle 5. Before unloading, the magnetic field of the BMP 8 acts on them and additionally cleans them and intensifies the unloading process. The direction of the traveling magnetic field of the EBM 8 is opposite to the direction of rotation of the NB 1. 1 sludge. (L l.5 4; about 00 cd g vj

Description

The invention relates to magnetic enrichment and can be used to enrich ferrous ores.

The purpose of the invention is to increase the efficiency of the separation process due to the intensification of the unloading of the magnetic product.

The drawing shows an electromagnetic separator.

The separator includes a non-magnetic drum 1 mounted rotatably in the bath 2, a magnetic system 3 of permanent magnets located inside the drum, a loading device (nozzle) 4 and devices (nozzles) for unloading the magnetic 5 and non-magnetic 6 products, an inductor 7 traveling magnetic the floor installed behind the loading nozzle 4, an additional inductor 8 of the traveling magnetic field, installed along the rotation of the drum behind the main inductor 7 in front of the discharge nozzle 5 of the magnetic product.

Electromagnetic drum separator works. As follows.

The original slurry from the feed inlet 4 flows by gravity through the feed zone to the separation zone. In the area of the power supply, the traveling magnetic field of the linear inductor 7 causes the magnetic particles to rotate, and as a result of the centrifugal rotational forces, they are released from the adhering waste rock, and due to the magnetic attraction forces, the rotating magnetic floccules are combined in small sizes. - shields the magnetic properties of the magnetic part of the source material before further separation. In the separation zone, a combined magnetic field is created as a result of the application of the traveling magnetic field of the linear inductor 7 to the stationary magnetic field of the magnetic system 3 of the permanent magnets. The go side of the magnetic system 3 is acted upon by a magnetic particle (floccule) by a magnetic attraction force in the direction of the nonmagnetic drum 1. The running magnetic field of the linear inductor 7 moving in the direction of rotation of the nonmagnetic drum 1 rotates around a horizontal axis in the direction of the traveling magnetic field magnetic particles, which, in contact with the lower wall of the bath 2, move in the opposite direction, i.e. against the flow of the pulp entering the separation zone, which increases their

the residence time in the separation zone allows the extraction of fine magnetic particles captured by a stream of non-magnetic material into the magnetic product. In the separation zone, the magnetic flocs are enlarged, the flocculated magnetic material is pressed against the surface of the non-magnetic drum 1 and transported to the concentrate separation zone. When transporting a magnetic material under the influence of a combined magnetic field, which is created by the magnetic fields of the permanent magnetic system 3 and the inductor 8, the trapped non-magnetic particles are separated from the magnetic fraction. The non-magnetic product is removed by gravity from the bath 2 to the discharge port 6. The running magnetic field of the linear inductor 8 has a direction opposite to the direction of rotation of the non-magnetic drum 1, and rotates

0 around the horizontal axis in the direction of the traveling magnetic field magnetic particles, which, in contact with the bottom wall of the bath 2, move in the direction of the discharge pipe 5 for the magnetic concentrate. The magnetic material transported by the non-magnetic drum 1 in the concentrate separation zone is further purified from non-magnetic inclusions in the combined magnetic field and removed through the discharge pipe 5 for the magnetic concentrate, opposite which only a stationary magnetic field is created to improve the transport of the magnetic product.

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Claims (1)

Invention Formula Electromagnetic drum separator, including a non-magnetic drum mounted for rotation in a bath, a magnetic system of constant magnets, located inside the drum, loading device and devices for unloading magnetic and non-magnetic products and a linear inductor running magnetic field a charging nozzle, characterized in that, in order to increase the efficiency of the separation process due to the intensification of the unloading of the magnetic product, the separator is provided with an additional inductor of the traveling magnetic field established along the rotation of the drum behind the main inductor before the discharge device of the magnetic product.