SU751430A1 - Electromagnetic polygradient separator - Google Patents

Description

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The invention relates to the field of mineral processing and can be used in the separation of particles in a magnetic field according to magnetic properties, in particular in the separation of fine ores.

A polygradient separator is known, which contains an electromagnetic system, a working body in the form of a rotating rotor, the annular chamber of which is filled with plates that are located at some distance from each other, on the surfaces of which vertical edges are applied. In addition, the separator is equipped with a rotor drive, splashes, loading devices and devices for collecting separation products 1.

The disadvantage of this separator is that the height of the corrugated plasties that fill the annular chamber of the rotor is equal to the height of the pole tips of the magnetic system, and the upper edge of these plates coincides with the upper edge of the pole tip, which leads to the magnetic induction in the working gap equal in size over the entire height of the plate, as a result of which the magnetic fraction of the initial feed, once in the working gap, immediately attracts the curves in the upper part of the plate, closes the gap and equals The steady attraction of the magpty chastpts to the tip of the nosefl} 1and throughout its height.

5 This is significantly enrichment efficiency due to the reduction in the production capacity of the separator and a decrease in the quality indicators of separation. Also known is an electromagnetic noli 10 degrees Gradient separator, including an electromagnetic system with poles, a working body made in the form of a rotor with a ferromagnetic air rim and placed between the poles of an electromagnetic system, we drive, spray, loading and unloading devices 2.

This separator has the same disadvantages. The purpose of the invention is to enhance

20 efficiency of the separation process due to the creation in the working area of variable induction.

The goal is achieved by the fact that the upper edge of the ferromagnetic nanowave is located above the upper edge of the electromagnet system. Due to the scattering of the magnetic flux, the magnetic induction in the upper protruding part of the ferromagnetic aggregate is

lower than the induction in the interpolar gap of the magnetic system. Thus, the induction in the ferromagnetic filler of such a separator increases from top to bottom but just two of the original itania in the working area, which means that in the upper part of the chamber of the working body to the ferromagnetic filler there will be particles that have a high magnetic susceptibility its parts are private properties with worse magical properties, a hundred will allow more ravopolomerio to load ferromagnetic bodies and will not cause the gap between them in the upper part of the working area to become larger than By simultaneously absorbing spindle and weak mapped particles.

In addition, the constant voltage of the magnetic fraction along the height of the ferrolingeary bodies reduces the number of trapped non-magnetic particles, which leads to an increase in the quality of the separation products.

In the drawing is an extractable nolgradgradentent separator, but a cross section.

The separator consists of a Ji3 electromagicky (mapgitpoi) system 1 with poles 2, between which are located the working chamber of the working organ, fermite ferrite pigmer 4.

Work opian shuffled with nomon; The initial pickup is fed through the O device. The unloading device / serves as the separation product. B spatter b is suspicious of c.vibiB and product separation of a ferromagnetic semiconductor.

The device works in the following way.

Through the boot device and the initial pulsing in the form of pulp and accessible to the working body kit - with a ferromagnetic filler 4. Using the drive on the working body, the magnetic fraction of the source diets is not interchanged between the zeroes 2 electromagnetic (magnetic) system 1. Irn bends to the ferromagitic zanolptel, and the non-magnetic flows freely into the discharge device. Due to the fact that the upper edge of the ferromagnetic zonahlntel is pushed over the upper edge of the pole tips, the particles of the magnetic fraction, possessing a greater magnetic susceptibility, irit in the upper part, in which the inductive is lower than in that particular ferromagnetic zapolpttel,

which lies directly in the interpolar gap. In this part of the chamber particles are attracted, possessing a smaller magnetize susceptibility. Then raviomerno filled with magnetic particles.

However, the height of the ferromagnetic snorkel is outputted from the magnetic field, where the magnetic fraction is washed off with water from the spray 8 to the corresponding section of the j-discontinuity device 7.

The vertical component of the magnetic force is exerted, and on ferromagnetic solids, it reliably presses the ferroMaiTiHTHbie of the body to the stop m, which is in the form of the working organ, which prevents them

shift at the moment of introduction into the interpolar gap and removal from it.

Claims (2)

1.Ioligradient separators. Sat M., “Nedra, 1U73, p. 117-119. 2. USSR author's certificate on the application 26071bb / 22-03, cl. In the OZS 1/10, 18.U4.7a.