SU1510927A1 - Magnetic separator - Google Patents

Abstract

The invention relates to dry magnetic separation and is intended to average the quality of the ore before subsequent enrichment. The goal is to increase productivity while reducing energy costs. Under the feeder, on the frame 1, two inclined non-magnetic cylindrical drums (B / 2) are mounted with the possibility of rotation in opposite directions. Inside each B 2 there is a magnetic system / MS /, made of sections 4-7. Each previous section of the MC has a field strength of less than the next. The angle of inclination B 2 varies between 27-34 °. Receivers 8-10 of separation products are installed under the sections. In front of the separator, a receiver of 11 tails is installed. Through the feeder to the surface of the B 2 enters the ore. Magnetic pieces are attracted to the surface B 2 and carried by their rotation into receivers 8-10. Non-magnetic chunks are slid due to the inclination of the B 2 into the receiver 11. On the surface of the B 2 in the area of operation of section 4 of the MS, a strong magnetic fraction is retained over the section 5 of the fraction with lower magnetic properties. Above section 7, the weakly magnetic fraction itself stands out. 2 Il.

Description

15

ate

 Yu

The invention relates to dry magnetic separation and can be used to average the quality of ore prior to subsequent enrichment.

The purpose of the invention is to increase productivity while reducing energy costs.

FIG. 1 shows a longitudinal section of one of the drums; in fig. 2 - separator when used for averaging ore, general view.

The magnetic separator includes a frame 1 on which two inclined non-magnetic cylindrical drums 2 are mounted. The drums 2 are installed without a gap with the possibility of rotation in opposite directions around the axes 3 having the possibility of inclination to the horizon.

The angle of inclination varies from 27 to 34 °. Inside each drum 2 a magnetic system is installed, made of several sections, for example of four sections 4, 5, 6 and 7.

The intensity of the field created by each section on the surface of the drum 2 is different and increases from the top section 4 to the bottom 7.

Thus, section 4 creates a field of 500 Oe, section 5-1500 Oe, section 6-5000 Oe and section 7-10000 E. Nodal sections have 8, 9, 10 mid-range receivers installed. In front of the separator, a receiver of 11 tails is installed. Above the drums 2 there is a feeder 12 in the form of inclined lattices with ribs 13. The magnetic system is made of electromagnets 14 mounted on an internal stationary drum 15. The drums 2 are driven in rotation by a drive 16. Ore is fed by a G7 conveyor. Between the hoppers 8, 9, 10, hooks 18 are installed. Conveyors 19 are used for removal of intermediate products. Conveyor 20 serves for mixing of intermediate products, and conveyor 21 for removal of intermediate products.

The device works as follows.

Include the drive 16, the conveyor 17 and the conveyors 19-21. Ore through the feeder 12 enters the surface of the drums 2. Magnetic chunks are attracted to the surface of the drums 2 and are carried out due to their rotation to the receivers 8-10. Non-magnetic pieces slide by tilting into the receiver 11.

On the surface of the drums 2 in the area of operation of section 4 of the magnetic system (in a weak field) a highly magnetic fraction is retained; over section 5, fractions with lower magnetic properties; over section 7 the weakly magnetic itself stands out

fractions. If necessary, by adjusting the position of the hooks 18, it is possible to change the iron content in the products entering the receivers 8-10. It is possible to set up individual receivers under each section.

Conveyors 19 feed ore from bins 8-10 to conveyor 20, where the ore is mixed in various grades. By metering the ore from different bins, it is possible to average the iron content in the ore on the conveyor 20, which supplies the ore with a stabilized content for further enrichment.

Claims (1)

Invention Formula A magnetic separator comprising two non-magnetic cylindrical drums arranged in a row mounted rotatably in opposite directions below the feeder, with a magnetic system placed inside each drum and receivers of separation products, characterized in that, in order to increase productivity while reducing energy costs, the drums are set obliquely, and the magnetic systems are made of sections, each previous section of the magnetic system has a lower intensity than the subsequent one. 7 13 2