SU1125052A1 - Magnetohydrostatic separator - Google Patents

Abstract

MAGNETIC HYDROSTATIC SEPARATOR, including a magnetic system consisting of a magnetic circuit made of permanent magnets and pole pieces, a chamber with a magnetic fluid located in the interpolar gap, loading and unloading devices, characterized in that, in order to increase the separation efficiency in a wide gap. the range of densities of the separated fractions by adjusting the effective density of the magnetic fluid, the magnetic circuit is made in the form of cylinders magnetized in diameter, and is mounted rotatably, and the pole pieces are mounted rotatably relative to the magnetic core and are made in the form of teeth, the surfaces of which are facing the chamber has the form of hyperbolas of different curvature, and on the surface of the magnetic circuit between the pole tips are placed up (L ki from a nonmagnetic material. 01 SP Yu

Description

And: and) brsthenne ogisitsi to enrichment ii) ,. minerals and .VO / KOI to be used for separation, 1 Ы 1 mixtures by density in i-opH (p; uioii industry.

Izvesyup m;, 11 PITO idrostatic separator, Biv.iK) 4aio: iuin the main system, the chamber with the magic liquid, loading and unloading devices 1.

The closest to the invention in technical essence and the achieved effect is a magnetohydrostatic separator, including a magnetic system consisting of a magnetic core of permanent and pole tips, a chamber with magnetic fluid located in the interpolar gap, loading and unloading devices 2.

A disadvantage of the known separator is the low separation efficiency in a wide range of densities separated by a fraction.

The aim of the invention is to increase the separation efficiency in a wide range of densities of the separated fractions by adjusting the effective density of the magnetic fluid.

This goal is achieved by the fact that in a magnetohydrostatic separator including a magnetic system consisting of a magnetic core of permanent magnets and pole pieces, a chamber with a magnetic fluid located in the interpolar gap, a loading and unloading device, the magnetic circuit is made in the form of cylinders magnetized diameter, and is mounted rotatably, and pole pieces are mounted rotatably with respect to the magnetic conductor and are made in the form of teeth, the surfaces of which, facing To the chamber, they have the form of hyperbolas of different curvature, with inserts made of non-magnetic material placed on the surface of the magnetic circuit between the pole tips.

FIG. 1 shows a separator, front view; in fig. 2 - the same, top view.

Magnetohydrostatic separator

includes a magnetic circuit consisting of permanent magnets 1 placed on the axes Oi and Oj and pole pieces 2 mounted on the cylindrical surface of the magnetic circuit on the landing providing mutual rotation, chamber 3 with magnetic fluid 4, housing 5, non-magnetic inserts 6, vibrating feeder 7, the loading device 8, the winding pipes 9, the discharge devices 10. To control the position of the pole pieces, the magnetic circuit is connected to a non-magnetic bracket 11, in which a mechanical retainer 12 is installed. The magnetic field in the chamber is guided by the mechanism 13, which ensures the synchronous rotation of the magnetic circuit. The rotation mechanism is made, for example, from an even number of gears engaged in the engagement, as shown in FIG. 2 for case 4 gears. The rotation can be carried out manually, in which case the position of the magnets is fixed, for example, by a ratchet mechanism, or by means of an electric motor.

The separator works as follows.

The vibratory feeder 7 with the hopper 8 from the conveyor of the processing plant is filled with the initial product, which then enters the chamber 3 with magnetic fluid 4, where the separation process is carried out. The separated products through the nozzles 9 enter the hoppers 10. The position of the pole pieces is set with a latch 12. Then the yro.:i turn of the magnetic core is adjusted smoothly by the mechanism 13. With the position of the magnets, the magnetic liquid becomes maximally aligned with the profile of the pole tip. If the material to be divided does not float, then the positions of the pole HHKCJ bushings are switched in steps with a successive increase in the magnetic field gradient.

Thus, there is a consistent selection of particles of material of different densities.

The material can be removed from the surface of the magnetic fluid either directly or by moving the floating material along the surface of the magnetic fluid towards the magnetic field (longitudinal gradient) (. The walking permanent magnets provide a magnetic field in the gap to 4 ( 1 mm with induction of up to 0.8 tesla, which allows in magnetic fluid with a magnetization of 10 Gs (10.10 a / m) to get an increase of up to 20 g / cm1

Thus, the implementation of the magnetic circuit in the form of a cylinder, and. pole tips in the form of teeth allows for increased separation efficiency over a wide range of densities of the material to be separated.

Claims (1)

MAGNETO-HYDROSTATIC SEPARATOR, including a magnetic system consisting of a magnetic circuit of permanent magnets and pole pieces, a chamber with magnetic fluid located in the pole gap, loading and unloading devices, characterized in that, in order to increase the efficiency of separation in a wide. the density range of the separated fractions by adjusting the effective density of the magnetic fluid, the magnetic circuit is made in the form of cylinders magnetized in diameter and rotatably mounted, and the pole pieces are rotatably mounted relative to the magnetic circuit and are made in the form of teeth whose surfaces facing the chamber have the shape of hyperbolas of various curvatures, and inserts of non-magnetic material are placed on the surface of the magnetic circuit between the pole pieces. SU „1125052 Fig 7 ' I ί 25052