UA51595C2 - Magnetic system of drum separator - Google Patents

Abstract

Invention relates to the separation of minerals, in particular, to the magnetic separation of slightly magnetic ores. The magnetic system of drum separator includes cowling, radially magnetized blocks of polarity in the form of ferromagnetic rectangular base, magnetic wedges, lateral rectangular plates made of soft-iron material, plates of basic magnets, support magnets, concentrator made of ferromagnetic material protruding above the surface of magnet block. Invention ensures the increase of strength and uniformity of magnetic field on the working surface of the drum.

Description

Description of the invention

The invention relates to the enrichment of minerals, in particular, to the magnetic separation of weakly magnetic ores. 2 The known magnetic system of the drum separator, which includes radially magnetized blocks of alternating polarity fixed on the yoke at the same distance, which are made in the form of a ferromagnetic rectangular cup, inside which there is a stack of main magnets in the form of tiles of the same height, magnetized in the direction from the bottom to the top (AS USSR Mo 1666182 VOZS1/10, BV Mo 28 1991).

The disadvantage of such a system is a large zone of low tension in the middle of the surface of the upper tile, because 710 the main part of the lines of force of the magnetic field is concentrated on the horizontal edges of the block. This leads to an increase in the heterogeneity of the field due to its high intensity in the zones between adjacent blocks and low intensity above the surface of the block.

The closest technical solution, chosen as a prototype, is the magnetic system of the drum separator, which includes a core, inside which radially magnetized blocks of alternating polarity are fixed on a yoke, 72 between which magnetic wedges are installed, while each block is made in the form of a ferromagnetic rectangular base with opposite side rectangular plates connected to it, and inside the block there are plates of main magnets mounted on tiles of supporting magnets, while a concentrator made of ferromagnetic material is installed along the axis of the block between the plates of the main magnets, and the polarity of the magnets adjacent to the concentrator the same (A. A. Azaryan et al. "Quality of mineral raw materials", Kryvyi Rih, "Mineral", p. 1591.

The disadvantage of such a system is that the magnetic flux of high intensity on the horizontal edges of the concentrator is closed through the walls of the block made of ferrite. This leads to the fact that between blocks of alternating polarity, the intensity of the magnetic field decreases to almost zero and increases the inhomogeneity of the magnetic field, creating significant tangential forces. Tangentially acting magnetic forces c 22 disrupt the smooth movement of magnetic particles to the discharge device, slowing down their movement in the vicinity of the field peaks. Slowing down the movement of magnetic particles leads to the formation of clusters of material, which reduce the efficiency of its separation by physical and mechanical properties with the help of magnetic, gravitational and centripetal forces.

The basis of the invention is the task of improving the design of the magnetic system of the drum separator by making the side plates of blocks made of magnetic material and placing the concentrators between Ge»! by the main magnets of the concentrator, the body of which protrudes above the surface of the block formed by the plates of the main magnets on the side of the separator sleeve. at

This will ensure an increase in the intensity and uniformity of the magnetic field on the working surface of the drum and "-- an increase in the efficiency of the separation of weakly magnetic ores. 3o Compared to the prototype, this design of the magnetic system allows you to concentrate the magnetic flux on the edges of the concentrator protruding above the surface of the block.

The protruding part of the concentrator, being closer to the surface of the drum liner, ensures a high intensity of the magnetic field on the surface of the drum liner. Since the concentrator protrudes above the surface of the block, the plate with a steel magnet has less of a shunting effect on the magnetic flux and a large part of the power lines is closed on the concentrator of the opposite polarity. Thus, the intensity c of the magnetic field in the area of the magnetic plates increases and its uniformity increases along the circumference of the drum. z" The task is solved due to the fact that the magnetic system of the drum separator includes a core, inside which radially magnetized blocks of alternating polarity are fixed on the yoke, between which magnetic wedges are installed, while each block is made in the form of a ferromagnetic rectangular base made of connected to it by opposite side rectangular plates, and inside the block are placed the plates of the i-th main magnets, which are installed on the tiles of the supporting magnets, while a concentrator made of ferromagnetic material is installed along the axis of the block between the plates - the main magnets, and the polarity of the magnets is on the adjacent walls to the hub, the same. and-th According to the invention, the side plates of the blocks are made of a magnetic material, and the hub

Te) 20 protrudes above the surface of the magnetic block to a height equal to sl No?!

AN « (KB - Ng)x (1- This is in Ne (tk I Gru.

ГФ) where ANK is the amount of excess of the concentrator above the surface of the block of magnetic plates from the side of the coil; ую КБ - the diameter of the common thread;

No - the size of the gap between the edge of the concentrator and the base;

Ne - the axial size of the magnetic system; 60 tk - the thickness of the magnetic wedge;

Gr - the thickness of the side plate.

The claimed invention is illustrated by a diagram showing the magnetic system of a drum magnetic separator (side view).

The magnetic system of the drum separator includes a yoke 1, to which the bases b of 3 magnetic blocks of alternating polarity are attached with the help of bolts 2, the side plates 4, which are connected to the base C, are in contact with magnetic wedges 5. Plates b are placed inside each magnetic block main magnets, and between the plates 6 of the main magnets and the base Z there are support magnets 7. A concentrator 8 is installed along the axis of the magnetic block. A coaxial yoke 1 above the magnetic blocks is placed over the separator drum 9.

The implementation of the claimed invention is illustrated by an example of an experimental design of a drum separator magnetic system.

Custom 9 is made of titanium alloy in the form of a cylinder with a radius K - 0.45 m and a wall thickness of 5 mm.

Yoke 1 is made with holes for attaching the base of magnetic blocks using bolts 2.

Plates 6 of the main magnets and supporting magnets 7, which are 50 x 50 x 1O0mm, as well as magnetic wedges 5 7/0 Made of neodymium - iron - boron alloy (Ma - Re - B).

The size of the side plates of 4 magnetic blocks is 80 x 50 x Zmm, and the bases (3) are 50 x 50 x 10mm. They are made of a magnetic material, for example, steel grade St.3.

A bolt 2 with Mb or M8 thread is attached to each base C.

The concentrator 8 is made of ferromagnetic material with a residual magnetic flux permeability of 75 scattering Me - 14.8:1077, the axial size of the He system - 80 7 107 m.

Properties of magnets: B2 - 0.98T; Neg - 650.7 10ZkA/m. The thickness of the magnet t is 10 7 10m, the height of the magnet No is 50 7 10Zm. Hub height

НЕ - Но 4 ANK where ANK is the amount of excess of the concentrator above the surface of the block of magnetic plates from the common side;

But - the height of the magnet.

The height of the concentrator above the surface of the block is determined depending on the size of the technological gap between the block and the custom. When placing a part of the concentrator above the surface of the block, the technological gap between the concentrator and the custom must be preserved. Therefore, the height of the excess of the concentrator above the surface of the block and the size of the technological gap are geometrically related. block, the technological gap between the concentrator and the custom must be preserved. Therefore, the height of the excess of the concentrator above the surface of the block and the size of the technological gap are geometrically related.

Ne" yu yu" ANKe(ВБ- Ne)" -3--3--ts-t7) F

Not A (because I'm Gr)

IS)

ANK - (457103 - 121073) x (1 - 8021073 / (VOU103 and 551073 and 37107)) - 1.002107Z3M, -

The conductivity of the working gap is min x MONOM /Mh - 12.5571077 x 8010 x B/B - 2.041077 (Hn), where Mo/M is the ratio of the number of magnetic tubes with the same magnetic parameters;

Pe) -12.5571077 - magnetic constant. "

Let's take the scattering conductivity from one end side of the magnet as kht-0471077 (Hn). si s Dissipation conductivity of five khz» khp: ZbaMe/MEMO:- 10 x 50103 x 5/4 x 12.5571077 x 7.5271071(Hn). where Zvp is the area of the lateral surface of the reference magnet.

The total scattering conductivity of sl 79 dmhe?ujoude (0.94 z 15.04U10-7 « 15981077 (Hn).

The total area of all magnets - Zt - 9 x 257107 - 217103 mm2, s Cross section of the concentrator in the working area 20 5B - 10103 x 50103 - 510 m, is) K i at : : - "1-7 outline flow, taking into account that the residual the magnetic permeability of ferrite is Me - 14.810 sl Fe Va b v / (min v Ah Me 7 W / NK) - (0.98 x 257107 x 2.041077) / (2.041077 x 15.9871077 4 14.81077. x 257103 / 51.00/10733 - 0.567103 (Vb)

Induction on the surface of the concentrator 25 V - Фе / Жб - 0.567103 / 0.5103 - 112(T)

GF) The total induction of several unipolar blocks assembled together increases due to the reduction of the dispersion of end surface fluxes. during operation of the separator, the magnetic system works as follows.

The magnetic field of the block is created both by the main magnetic plates 6 and by the supporting magnets 7. At the same time, the main part of the magnetic flux is created by the main magnetic plates 6. The role of the supporting magnets 7 is twofold: by their presence and due to the direction of magnetization, they reduce the magnitude of the scattering fluxes of the main magnets b, and the direction of their magnetization is such that the magnetic flux of the main magnets b is combined with the magnetic flux of additional supporting magnets 7, and the total flux over the surface of the coil 9 increases. The protruding part of the concentrator 8 above the surface of the main magnets allows to concentrate the lines of force of the magnetic field on the surface of the concentrator 8, especially in the area of the edges. This leads to the fact that the lines of force of the magnetic field will be closed through the hub 8 of the opposite polarity, and the dissipation flow through the side walls 4 will be minimal. This is achieved due to the rather small magnetic permeability of the side plates of the 4 blocks, made of a magnetically soft material, for example steel grade St. 3, as well as the close location of the neighboring block. In addition, it provides a reduction in the dips in the magnetic field in both the radial and tangential directions, which increases the uniformity of the magnetic field and improves the separation process.

The proposed design of the magnetic system of the drum separator allows to significantly improve the technological indicators of dry beneficiation of weakly magnetic ores. As shown by the research and testing of the 7/0 experimental sample of the magnetic block of the separator of the new design, the induction on the edges of the working surface of the concentrator is В - 1.09T, which is 1295 times higher than in the prototype. In the case of dry magnetic separation of magnetite ores, the magnetic separator with the proposed magnetic system, in comparison with the serially produced separator ("VPBS 90-250"), ensures, at the same load, an increase in the yield of waste "tails" from 6 - 1095 to 15 - 2295, an increase of the mass part of the total magnetic iron, respectively, by Z - 595 and /5 Reduction of the content of magnetic iron in the "tails" from 4 - 595 to 2.5 - 3905.

Claims (1)

The formula of the invention is the magnetic system of the drum separator, which includes a core, inside which radially magnetized blocks of alternating polarity are fixed on the yoke, between which magnetic wedges are installed, while each block is made in the form of a ferromagnetic rectangular base with opposite side rectangular plates connected to it , and inside the block are placed the plates of the main magnets, which are installed on the tiles of the supporting magnets, while along the axis of the block, between the plates of the main magnets, a concentrator made of ferromagnetic material is installed, and the polarity of the magnets adjacent to the concentrator is the same, which differs in that the side plates blocks are made of a magnetic material, and the concentrator protrudes (o) above the surface of the magnetic block to a height equal to 2 Le ANi-СВЬ-Ne) (Inny Р R, Yaet (byu KA tr) o , Shh where ANE is the amount of excess of the concentrator above the surface of the block of magnetic plates from the side of the coil; (2) Kb - the diameter of the coil; Io) НИ - the size of the gap between the ribs hub rum and custom; - No - the axial size of the magnetic system; tk - the thickness of the magnetic wedge; Io) Gr - the thickness of the side plate. - and? 1 - 1 se) sl ime) 60 b5