SU812347A1 - Electromagnetic rotor-type separator - Google Patents

Description

(54) ELECTROMAGNETIC ROTARY SEPARATOR

The invention relates to the enrichment of minerals, and more specifically to the separation of particles in a magnetic field according to magnetic properties.

A rotary separator is known, consisting of an electromagnetic system, a drive, a steel rotor, placed between the poles of an electromagnetic system and forming an annular chamber filled with ferromagnetic bodies in the form of corrugated plates 1.

The disadvantage of this separator is that the feed to it can flow freely on the surface of ferromagnetic bodies. This leads to the fact that the initial power must be supplied in a small volume, which would be filtered through the ferromagnetic bodies before they leave the interpolar gap of the electromagnetic system. In addition, freely spreading over the surface of ferromagnetic bodies, the initial power supply can penetrate into the gap between them outside the working area and, without enrichment, mix with separation products, deteriorating their quality and reducing the efficiency of the separator.

Also known is an electromagnetic rotary separator, including an electromagnetic system with poles, a working body made in the form of a rotor divided into sections with a ferromagnetic filler, located between the poles of the electromagnetic system, a rotor drive, squirting, a device for loading power and discharge of separation products 12 J.

The disadvantage of it is the low efficiency of the separation process.

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

The goal is achieved by the fact that the sections are provided with gratings, the cells of which are located concentrically forming the rotor, while the gratings are mounted Above the ferromagnetic filler.

Figure 1 shows the separator, a cross-section; in figure 2 - its working body in the plan.

The rotor separator consists of the rotor 1 / rotating between the poles 2 of the electromagnetic system 3. The rotor is provided with an annular chamber 4, divided into cells filled with ferromagnetic bodies (plates, balls, rods, etc.).

Over the ferromagnetic bodies, a lattice 5 is placed, consisting of radial b and annular 7 ribs forming closed compartments 8 in plan. The initial power is supplied to the working body of the feeder 9. The concentrate is drained by sprinklers 10.

The device works as follows.

Through the feeder 9, the initial feed enters the grate 5 and fills the compartments a without spreading over the rotor surface. It is then filtered through ferromagnetic bodies. In the interpolar gap, the magnetic fraction of the initial supply is attracted to the ferromagnetic bodies and the rotor moves out of the working gap, and then is washed into the corresponding receiver with water supplied under the spray through the sprinkler. The nonmagnetic fraction flows freely through the ferromagnetic filler into its receiver.

The proposed rotary electromagnetic separator makes it possible to increase the enrichment efficiency by increasing productivity, since large volumes of the initial feed can be fed to the rotor without fear that it will spread over the rotor.

working area. In addition, the enrichment efficiency is enhanced by eliminating the possibility of smearing the spread of the original feed with the final separation products.

Claims (2)

1. Reference enrichment of ores. M. Nedra, 1974, v.2, p.1, p.217. 2. USSR author's certificate on application 2688472/03, 0 cl. B 03 C 1/30, 1978. ABOUT BUT ./ ig.2