SU1637880A1 - Method and apparatus for classifying ore slurries - Google Patents

Abstract

The invention relates to magnetic enrichment and can be used to clean out concentrates in the mining industry. The purpose of the invention is to increase the efficiency of the classification process. To do this, the initial pulp moved under the action of vibration is acted upon alternately, first by a magnetic field (MP), the intensity vector of which is directed perpendicular to the velocity vector of the pulp, and then MP, the direction of the velocity vector of the pulp. The polarity of the MP periodically changes the movement of the pulp. The method is carried out using a device containing a vibrating channel (VL) 1, inside which electromagnets (EM) 2 are placed with rectangular cores mounted perpendicular to the longitudinal axis of the VL 1 with the possibility of movement in a vertical plane. Between the EM 2 there are located with the possibility of moving the partition 3, which are fastened on the spring-loaded support 4. On the overhead line 1 there are discharged plzopo.podlani, made of two plates 5 connected at one end of the barrel with the one overhead line 1, and the other between each other flexible elements 6. The original pulp flows from the feeder through the valve 7 to SL 1, from where the non-magnetic part merges under the action of vibration and pressure into the container 8. The plates 5 are attracted to EM 2. Magnetic particles are attracted to EM 2 and removed from the flow. After filling them with the EM 2, they close the valve 7 and turn off the EM 2. Under the action of the springs of the support 4 the EM 2 and the bulkheads 3 are raised. The plates 5 are lowered and a gap is formed, into which magnetic particles are fed under the action of vibration and gravity. After unloading the magnetic particles, the cycle is repeated. 2 sec. and 2 z. p. f-ly. 4 il. Och xi 00 00 about

Description

The invention relates to magnetic enrichment and can be used to clean out concentrates in the mining industry.

The purpose of the invention is to increase the efficiency of the classification process.

1 shows a device for carrying out the method for classifying ore pulps, side view; fig 2 is the same. view

from above; on fig.Z - section aa in figure 1; figure 4 - section bb in figure 1.

The method is carried out as follows.

The original pulp enters the separation zone and moves under the action of vibration along the separation zone, where it is affected by a magnetic field, the intensity of which increases as the pulp moves. The pulp is alternately applied first by the magnetic field, the intensity vector of which is directed perpendicular to the velocity vector of the pulp, and then due to the change in the direction of movement of the pulp, it is affected by a magnetic field whose intensity vector coincides with the velocity field of the pulp. are in the course of the movement of the pulp. The extracted particles under the action of vibration and their own weight are discharged into the receivers of the magnetic particles. After that, the cycle repeats.

A device for implementing a method for classifying ore pulps includes a vibrating channel 1 with a bottom, inside which electromagnets 2 are located with rectangular cores, partitions 3 are located between electromagnets that can be moved and mounted on a spring-loaded support 4. In the bottom of the tray there are unloading devices 5 for magnetic and non-magnetic material, made of two plates interconnected by flexible elements 6, and the other end mounted pivotally on the vibrating tray 1. The device is equipped with a slide Coy, 7 and 8 for receiving the container and the container tails 9 for receiving the finished product.

A device for implementing the method for classifying ore slurries works as follows.

The pulp from the feeder through the valve 7 enters the vibrating channel 1, from where under the action of pressure and vibrational oscillations merges into the container 8. The plates 5 are attracted to the electromagnets 2 and thereby block the access of the pulp into the container 9. Partitions 3 increase the turbulence of the pulp movement. The separation of magnetic particles from non-magnetic particles occurs due to the fact that magnetic particles are attracted by electromagnets 2 and are thus removed from the pulp. When the vibration channel t is filled with magnetic particles, the valve 7 is closed and the electromagnets 2 are turned off. Under the action of the springs on the support 4, the electromagnets are raised. At this time, the plates under the action of their own fan and the weight of the magnetic particles are lowered and with the help of flexible elements 6 they form slots in the bottom of the vibrating tray 1. Magnetic particles under the action of vibrational vibrations and their own weight through

the slots in the bottom of the vibrating channel 1 fall into the container 9. After unloading the magnetic particles, the process of extracting and separating the magnetic particles from non-magnetic particles repeats.

Claims (4)

1. A method of classifying ore pulps, including the effect on the original pulp by vibration and a magnetic field, the intensity of which increases as the pulp moves, discharging separation products, characterized in that, in order to increase the efficiency of the classification process, the original pulp is impacted along its motion alternately first by a magnetic field, the intensity vector of which is directed perpendicular to the velocity vector of the pulp, and then by a magnetic field, the direction of the vector which coincides with the direction velocity vector of the pulp, while the polarity of the magnetic field is periodically changed along the movement of the pulp. 2. A device for classifying ore pulps, including a vibrating channel with a bottom, an electromagnetic system, partitions installed in a vibrating channel perpendicular to its longitudinal axis, a feeder and discharge devices for a magnetic and non-magnetic material, in order to increase the efficiency of the classification process, The electromagnetic system is designed as electromagnets with a rectangular core installed in a vibrating channel perpendicular to its longitudinal axis with the possibility of moving in a vertical plane, with adjacent electromagnets having opposite polarity, partitions are installed between electromagnets with the possibility of moving in a vertical plane with a gap relative to the sides of the vibro response. ° 3. The device according to claim 2, that is, so that the electromagnets and partitions mounted on a spring-loaded support with the possibility of oscillations in a vertical plane. 4. The device according to claims 2 and 3, characterized in that the discharge device for the magnetic material is made in the form of two plates, one ends of which are hingedly mounted on the vibrating channel, and the other ends are connected to each other by flexible elements, and installed under each an electromagnet on the bottom. Ml 1637880 And n 34 /P / Yy R & ®igM Editor N. Gorvat Compiled by I. Shumov Tehred M. Morgental t J i fug / Aa Proofreader M. Demchik