SU1613170A1 - Disk magnetic separator - Google Patents

Abstract

The invention relates to means for magnetic separation of materials. The goal is to increase the recovery of ferromagnetic particles. The separator contains the working body in the form of rotatable disks / D / 1 made of ferromagnetic material. The magnetic system is made up of permanent magnets / PM / 3, located between D 1 and facing each side of D 1 with the same poles. The device 4 for unloading the ferromagnetic particles is made in the form of endless bands / L / 5 with ferromagnetic protrusions 6. L 5 is installed between D 1. Cleaner 7 is made in the form of non-magnetic plates. The main 8 and additional 9 devices for unloading ferromagnetic inclusions are provided with catchers in the form of PM 10. The magnetic system in the form of a set of PM 3 placed in a rectangular frame 11 is fixed by an annular stabilizer 12 with protrusions 13. The threaded rods and flanges tighten the structure. Infinite L 5 tension on the roller 15 and the stabilizer 12. The material is conveyed to the work zone by a conveyor. Under the action of magnetic forces, ferromagnetic particles are attracted to D 1, and due to their rotation they are carried to fixture 8. There the protrusions 6 are demagnetized and the ferromagnetic particles fall into fixture 8. A nonmagnetic fraction captured by chance is dumped onto the conveyor and the magnetic fraction is attracted to PM 10. Small ferromagnetic particles that have not fallen from the projections 6 move to fixture 9. Cleaner 7 cuts them off from L 5. The nonmagnetic fraction, still left from L 5, falls into the slot of fixture 9, and the magnetic fraction attracts PM 10. 2 Il.

Description

The invention relates to the magnetic separation of materials and can be applied for the purification of polymer blends and other bulk non-magnetic materials from ferromagnetic bodies in the polymer and plastic materials of the industry.

The purpose of the invention is to increase the recovery of ferromagnetic particles.

Figure 1 shows the device, a cross-section; figure 2 - section aa in figure 1.

The device includes a working body mounted on a shaft in the form of thin ferromagnetic (steel) disks 1 of different diameters, a magnetic system 2 located between the disks and consisting of permanent magnets 3, Ha6pariHbix of non-magnetic plates and facing the same side of the disk poles, device A for unloading ferromagnetic material in the form of an endless belt 5 with ferromagnetic protrusions 6, cleaner 7 in the form of non-magnetic plates, main 8 and additional 9 unloading devices for ferromagnetic GOVERNMENTAL bodies, equipped with a magnetic trap E with PICs from conductive multipole permanent magnitov10.

The permanent magnets 3 are located in a rectangular frame 11 and are rigidly fixed by annular stabilizers 12 with internal rectangular protrusions 13. The disks 1 are interconnected by four cylindrical rods 14 with thread and end flanges. 4 ferromagnetic puller

The material is attached on one side to the tension roller 15, and on the other on the ring stabilizer 12. The shaft is driven by the gearmotor 16.

The device works as follows.

The initial ground polymer mixture is supplied dry on a moving conveyor belt. Into the working space between the ferromagnetic discs 1. Under the action of a magnetic one. The forces of ferromagnetic bodies of different sizes and shapes are attracted to the entire thickness of the polymer mixture to be cleaned and transported by an endless belt 5 stripper to the main unloading device 8. ..

For better transportation and removal of ferromagnetic bodies of different sizes, as well as small magnetic particles from the surface of the disks 1, on the belt 5 there are installed narzok ferromagnetic protrusions 6, which are attracted by magnetic bodies in the interpolar gaps of the iron separator. When ferromagnetic protrusions 6 with high magnetic permeability emerge from the magnetic pop zone, they are demagnetized to a small residual magnetization, at which the ferromagnetic bodies break down into the main discharge device 8, where they are held by magnetic traps. non-magnetic polymer mixture breaking from the tape 5. Once in the discharge

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device, non-magnetic particles fall through the slit of the magnetic catcher

on the conveyor belt and mixed with the main mass of the polymer blend.

Small ferromagnetic particles and polymer blend particles remaining on the surface of the discs are removed by the purifier 7 and enter into an additional unloading device 9, where small ferromagnetic particles are trapped on the surface of a flat magnetic system with a small pole pitch, and 15 non-magnetic particles the mixture comes from the additional unloading device 9 through an adjustable slotted exit to the conveyor belt with the original polymer mixture.

f

formula of invention

A disk magnetic separator including a working body in the form of rotatably mounted disks with a magnetic system of permanent magnets, a cleaner in the form of nonmagnetic plates and a device for unloading ferromagnetic inclusions, characterized in that, in order to increase the recovery of ferromagnetic particles, a device for unloading ferromagnetic particles particles are made in the form of infinite tapes with ferromagnetic protrusions installed between the disks, and permanent magnets are located between the disks that are made and s ferromagnetic material, and turned to the disks of the same poles.

Claims (1)

SUMMARY OF THE INVENTION A disk magnetic separator comprising a working body in the form of disks mounted with the possibility of rotation of permanent magnetic disks, a cleaner in the form of non-magnetic plates and a device for unloading ferromagnetic inclusions, characterized in that, in order to increase the extraction of ferromagnetic particles, a device for unloading ferromagnetic particles are made in the form of endless ribbons with ferromagnetic protrusions mounted between the disks, and permanent magnets are located between the disks, which The others are made of ferromagnetic material, and face the discs with the same poles. Order 3851 Circulation 473 Subscription VNIIIPI of the State Committee for Inventions and Discoveries at the State Committee for Science and Technology 113035, Moscow, Zh-35, Raushskaya nab., D. 4/5 Production and Publishing Plant Patent, Uzhgorod, st. Gagarina, 101