RU1801591C - Electromagnetic drum separator - Google Patents

Abstract

Usage: extraction of ferromagnetic bodies from coal, sand and other bulk materials in the coal and mining industry, ferrous and non-ferrous metallurgy for the separation of slag and processing of secondary metals. SUMMARY OF THE INVENTION: The separator consists of a drum with a fixed electromagnetic system. The latter includes disk-mounted poles in the form of disks with pole tips with a triangular cross-sectional shape and additional poles with a rectangular axial cross-section and pole tips with a triangular axial cross-section. Additional poles are placed on the cylindrical surface of the magnetizing winding. The rectangular cross section of each additional pole has a width greater than the width of its pole end, associated with it by a certain ratio. 3 ill.

Description

The invention relates to the mining industry and can be used to extract ferromagnetic bodies from coal, sand and other bulk materials in the coal and mining industry, ferrous and non-ferrous metallurgy for slag separation and processing of secondary metals.

The aim of the invention is to increase the extraction efficiency of weakly magnetic bodies by increasing the magnetic field strength.

Figure 1 shows the proposed electromagnetic drum separator (section); figure 2 - additional pole (axial section); on fig.Z - separation scheme ...

1 shows an electromagnetic drum separator including a drum

1 with a stationary electromagnetic system located inside it, consisting of poles 3 located on the shaft 2 in the form of discs with pole tips 4 with a triangular axial section and a magnetizing winding 5 with additional poles 6 with pole tips 7 of a triangular placed on its cylindrical surface between the poles 3 axial section shapes.

Figure 2 shows an additional pole 6 with a pole tip 7 of a triangular shape (axial section). The width a (8) of the additional pole 6 is greater than the width of the base of the corresponding pole piece 7, and the thickness b (9) is determined by the location of the additional pole 6 relative to the nearest pole 3 by the formula (1).

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Fig. 3 shows a separated material with ferromagnetic inclusions 10 transported by a conveyor belt

11 in the direction of the arrow 12, the dividing slide 13 and the drum 1, rotated in the direction of the arrow 14.

The separation process is carried out as follows. When the conveyor belt 11 moves in the direction of the arrow

12, the separated material with ferromagnetic inclusions 10 is fed into the working area of the electromagnetic drum separator, the drum of which 1 rotates in the direction of arrow 14. When current flows through the magnetizing winding 5 in the working area of the separator between poles 3 with pole tips 4 and additional poles 6 with pole tips 7 a magnetic field is created under the influence of which the ferromagnetic inclusions 10 are attracted to the surface of the drum 1 and, when it is rotated, are pulled out of the gate 13.

The use of additional poles 6 of the proposed design allows the magnetizing winding 5 to be continuous and to provide greater MDS than in the prototype with the same separator size, which improves the extraction efficiency of low-magnetic bodies.

The thickness of the additional poles b b (8) varies from the condition of sufficiency for conducting a working magnetic flux, decreasing in magnitude from poles 3 to the middle of the working area with optimal magnetic induction in steel and is determined by formula (1).

Thus, the application of the proposed design of the electromagnetic drum separator allows

and

Compared with the prototype, by 15% increase the efficiency of extraction of weakly magnetic bodies by increasing the magnetic field strength.

Claims (1)

5 claims An electromagnetic drum separator comprising a drum with a stationary electromagnetic system located inside it, consisting of poles located on the shaft in the form of disks with pole tips with a triangular axial section, and a magnetizing winding, characterized in that that, in order to increase the efficiency of the treatment of weakly magnetic bodies by increasing the magnetic field strength, the drum electromagnetic system is made with the cylindrical surface placed between the main poles 20 magnetizing windings with additional poles with a rectangular shape of the base section and with pole tips, with a triangular shape of the axial section, with a rectangular section 25 of each additional pole in full. but with a width greater than the width of its pole end, and with a thickness determined from a mathematical expression 30b c-D + d-a (0.5n-k), m, where b is the thickness of the rectangular cross section, m; a is the width of the rectangular cross section, m; D is the diameter of the disks, m ;. n is the number of additional poles; 35 k - the number of the additional pole from the nearest main pole; c, d are the coefficients of taking into account the saturation regime of the magnetically conductive material of the poles; 40 0.01 s 0.03; 6.015 d 0.05. FIG 2 fshgz