RU125492U1 - MAGNETIC FLOATER-THICKENER - Google Patents

Abstract

Magnetic flocculator-thickener, including an annular slurry pipeline with partitions, a rotating magnetic system of permanent magnets with high magnetic induction, characterized in that the magnetic system is made of a thick-walled ferromagnetic cylinder with slots (windows) in which permanent magnets are placed with a step greater than the width of the magnet the arc of the cylinder, and the slurry pipeline is made in the form of non-magnetic pipes located on the outside of the magnetic system and covering it around the circumference.

Description

The utility model relates to the enrichment of minerals and can be used at various stages of multi-stage magnetic separation, for de-cladding and thickening of finely ground magnetite ores.

To intensify the processes of magnetic separation, magnetizing devices are used, designed to combine finely dispersed magnetic particles, for example magnetite, into larger floccule formations (conglomerates) due to the magnetostatic interaction. Such an enlargement leads to an increase in the extraction of magnetite and a decrease in the loss of the useful product in the tailings during magnetic separation (Handbook of ore dressing, Basic processes, M. "Nedra" 1983, p.198).

However, these devices do not work efficiently due to the destruction of magnetic flocs by turbulent pulp flows after they exit the magnetic field. This occurs due to a decrease in the magnetic forces of interaction between particles and friability of flocs.

Currently used devices for the magnetic processing of pulps with the aim of combining fine particles into enlarged formations of a device in the form of solenoids with a constant magnetic field inside which the pulp flows, or of various systems of stationary magnets that are motionless relative to the pulp stream, are limited in their capabilities, since the increase in tension of the magnetic field leads to intense sticking of magnetic particles to the wall of the slurry pipeline at the location of the magnets, which makes it difficult to change further pulp, and at high values of magnetic induction - to the complete cessation of its functioning.

The main disadvantage of existing devices is the fundamental impossibility of using permanent magnets with high magnetic field induction.

The closest to the proposed magnetic flocculator-thickener by the set of essential features is a device for the magnetic processing of pulps RU 106146 U1, 1/03, July 10, 2011, including a magnetic system of permanent magnets with the possibility of rotation around an annular slurry pipeline with non-magnetic partitions.

The disadvantage of this device is the relatively low productivity and design complexity of the moving magnetic system.

The technical result of the proposed utility model is the ability to obtain large and mechanically strong magnetic flocs through the use of magnets with high magnetic induction and the additional effect of magnetic pressing of the flocs.

The technical result is achieved in that a device for magnetic pulp processing, including an annular pulp line with partitions and a rotating magnetic system of permanent magnets with high magnetic induction, is new in that a magnetic system made of a thick-walled ferromagnetic cylinder with slots (windows) in which Permanent magnets are placed with a step greater than the width of the magnet along the arc of the cylinder, and the slurry pipe is made in the form of non-magnetic pipes located on the outside of the magnetic system and covering it in a circle.

Figure 1 presents a schematic view of a magnetic flocculator-thickener in plan, and figure 2 is a view along aa (figure 1).

The magnetic system of the device consists of a ferromagnetic cylinder 1, mounted on an axis 2 in bearings 3 and connected to an electric motor 4 with a gearbox 5 with the possibility of changing the number of revolutions. Permanent magnets 6 in the form of rectangular prisms with a step greater than the width of the magnet along the arc of the cylinder are placed inside the tube opposite the cut-outs (windows) in its wall with magnetic induction directed perpendicular to the axis of rotation. The pulp line of non-magnetic pipes 7 is located outside and covers the magnetic system.

The flocculator-thickener works as follows.

The pulp intended for magnetic processing is fed from above into the tank 8, distributed through the pipes and enters the tank 9, equipped with a gate 10, designed to adjust the speed of passage of the pulp through the pipes. When the magnetic system rotates when the magnets are opposite the pipes under the influence of magnetic force, the magnetic minerals are pressed against the pipe walls. The permanent magnets with high magnetic induction (Nd-Fe-B) with magnetic fields up to 160 kA / m used in the device provide intensive flocculation of magnetic particles and their hardening due to "magnetic pressing" near the pipe walls. With a further rotation of the magnetic system, the pipe walls prevent the magnetic mass from moving behind the magnets, and the magnetic force that presses the magnetic particles against the pipe walls decreases due to the closure of the magnetic flux along the ferromagnetic gaps between adjacent cylinder windows. Compressed into floccules, magnetic particles are moved by a stream of water into the container 9.

The tests of a prototype magnetic flocculator-thickener showed an increase in the mass of flocs by more than 10 times with high strength to destruction by turbulent flows in slurry pipelines.

Using the proposed device in deslamers will significantly reduce the loss of a useful product in the drain, and installing it in front of magnetic separators at the last stage of enrichment will increase the iron content in the magnetic concentrate.

Claims (1)

Magnetic flocculator-thickener, including an annular slurry pipeline with partitions, a rotating magnetic system of permanent magnets with high magnetic induction, characterized in that the magnetic system is made of a thick-walled ferromagnetic cylinder with slots (windows) in which permanent magnets are placed with a step greater than the width of the magnet the arc of the cylinder, and the slurry pipeline is made in the form of non-magnetic pipes located on the outside of the magnetic system and covering it around the circumference.

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