SU1685526A1 - Electromagnetic separator - Google Patents

Abstract

The invention relates to the separation of materials according to magnetic properties. The goal is to expand the technological capabilities of the separator by increasing the extraction of low-magnetic materials. The separator includes a roll (B) 1 mounted for rotation between the pole pieces 2 of the electromagnetic system. To supply power, there is a vibration block (VL) 3. A gate (LIJ) 4 is mounted above VL 3, fastened to VL 3 and forming a receiving chute 5 with it. VL 3 serves the source material towards B 1. Non-magnetic particles 7 fall from VL 3 to their receiver. The highly magnetic particles are attracted to B 1 and its rotation is removed from the gap between B 1 and the pole tip. In the zone of a weakened magnetic field, they are detached from B 1 and vibrating W 4 are poured into their receiver. Weakly magnetic particles 6 are attracted to B 1, but are strongly detached from it earlier than strongly magnetic. Thanks to the fact that Ø 4 is fixed on the VL 3 and introduced into the interpolar gap, the weakly magnetic particles also fall onto the surface of Ø 4. with strongly magnetic particles-. 1 ill., 1 tab. Yo

Description

The invention relates to devices for separating materials according to specific magnetic susceptibility and can be used in the mining, metallurgical and other industries.

The purpose of the invention is to increase the recovery of low-magnetic materials.

The drawing schematically shows a separator.

The separator contains a roller 1. placed between the pole pieces 2 of the electromagnetic system, a tray 3 connected to a vibrator (not shown), mounted on a tray and mounted above it, formed by a gate 4 and a vibrating channel 3 receiving chute 5. The gate 4 and chute 5 are inserted into the gap between roll 1 and lower

pole piece 2 so that the entrance to the groove 5 is located near the plane of the minimum distance between roller 1 and pole piece 2.

The operation of the separator is carried out as follows.

The particles of the material being separated are moving along the vibrating chute 3 towards the roll 1. The magnet particle 6 is attracted to the roll 1 in the zone of maximum exposure of the magnetic field to the particles (near the plane the minimum distance between the roller and the pole tip) The most magnetic particles carried by the rotating roll 1 from the gap between the roll 1 and the pole tip 2, are detached from roll and fall on gate

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4. The remaining magnetic particles, attracted by the roller 1, are detached from it within the gap between the roller 1 and the pole tip 2, fall onto the vibrating gate 4, are removed from the gap and fall from it along with the most magnetic particles. The non-magnetic particles 7 are not attracted to the roll 1, continue to move along the vibrating channel 3, fall into the vibrating receiving chute 5 and are removed from it separately from the particles attracted to the roll 1.

The performance of the proposed separator and the efficiency of material separation with to 10 m / kg were checked by magnetic separation of the powder mixture with quartz sand fractions - (0.63 + 0.18) mm. The sand in the mixture was introduced in the amount of 0.5% by weight, the specific magnetic susceptibility of titanium powder was 3.2 m3 / kg, and that of silica sand (-0.3 10 j m3 / kg).

The results of the comparative separation of this mixture on the proposed

the separator and the known (laboratory magnetic separator 138T - SEM) are presented in the table.

From the data it follows that

Claims (1)

The proposed separator allows for a high efficiency (over 95%) to release a more magnetic material from a mixture of materials with m3 / kg, which are considered conditionally non-magnetic. Magnetic separation of the same mixture on a known separator did not give positive results. An electromagnetic separator comprising a roller mounted rotatably between the pole pieces of an electromagnetic system and located above a horizontal vibrating channel, a receiving groove and a gate, characterized in that, in order to increase the extraction of weakly magnified materials, the sliding gate is fixed on the vibrating channel, mounted above it with tray receiving chute. ,