RU2395346C1 - Magnetic fluid separator - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: magnetic fluid separator refers to mineral processing. Magnetic fluid separator includes feeder, magnetic system with a slot and magnetic fluid, receivers of separation products of basic material. In addition, it is equipped with housing with operating fluid, the bottom of which is installed at an angle to horizontal surface. Magnetic system is located on lower side of the housing bottom, its power magnetic lines are directed perpendicular to the bottom. Magnetic fluid is located above the bottom throughout the surface area of magnetic system.

EFFECT: higher operating efficiency of device.

4 cl, 1 dwg, 2 ex

Description

The invention relates to the field of mineral processing by density separation of liquid media and can be used to extract valuable components from ores, as well as to treat water, including various impurities.

Known magneto-liquid separator, consisting of a housing, nozzles for feeding the mixture and removal of the magnetic and non-magnetic components of the mixture, magnets and coalescence elements. The magnets are equipped with inserts of soft magnetic material, in the form of truncated pyramids and mounted on both sides of each magnet. The coalescence elements are equipped with shutters in the form of plates, which increase their sizes from top to bottom along the height of the apparatus, and are installed near the inner wall of the housing under the coalescence elements (AS No. 889096 Magneto-liquid Separator, priority 04.01.80, B03C 1/00, published 12/15/81, bull. No. 46).

However, such a known separator does not allow the effective extraction of valuable components from ores during the processing of secondary raw materials.

The closest in technical essence is a magneto-liquid separator, comprising a magnetic system with pole tips having a hyperbolic profile in a vertical cutting plane, casings mounted on these surfaces and forming a separation chamber, feeder and receivers of separation products. The separator is equipped with additional housings made of non-magnetic material, mounted on the lower and lateral surfaces of the pole pieces, coupled to their hyperbolic surface (AS No. 1505588 "Magnetic-liquid separator", priority 09.03.87, B03C 1/30, published 07.09.89 Bulletin No. 33).

The disadvantages of this separator are low productivity, up to 20 kg / h, high consumption of magnetic fluid, up to 40 liters per ton of separated material.

The objective of the proposed technical solution is to create a magneto-liquid separator, which allows to increase the efficiency when extracting valuable components from ores and in the processing of secondary raw materials.

The indicated technical result is achieved in that the magneto-liquid separator comprises a feeder, a housing with a working fluid, a housing base mounted at an angle to a horizontal surface, a magnetic system with a slit and magnetic fluid, the magnetic system being located on the bottom side of the base, its magnetic lines of force directed perpendicularly the base, and magnetic fluid is located on top of the base of the housing over the entire area of the magnetic system, the receivers of the separation products of the source material.

The angle of inclination of the base to a horizontal surface is 15-40 degrees.

The receiver of the useful product is equipped with a shutter for unloading the container.

The saturation magnetization of a magnetic fluid is 5 to 15 kA / m.

Distinctive features of the technical solution is that the magneto-liquid separator is additionally equipped with a housing with working fluid, the base of the housing is installed at an angle to the horizontal surface, the magnetic system is located on the underside of the base of the housing, and its magnetic lines are directed perpendicular to the base, and the magnetic fluid is located on top of the base over the entire area of the magnetic system.

The angle of inclination of the base to a horizontal surface is 15-40 degrees.

The receiver of the useful product is equipped with a shutter for unloading the container.

The saturation magnetization of a magnetic fluid is 5 to 15 kA / m.

The supply of a magneto-liquid separator with a housing with a working fluid, the density parameters of which can be selected depending on the density of the material to be separated, allows you to separate both dry and wetted starting products. As the working fluid can be used water or fluids with a different density, for example, saline solution. In addition, the presence of a working fluid improves the sliding of particles discharged along the surface of the magnetic fluid, thereby reducing the entrainment of the magnetic fluid itself from the device.

Installed at an angle to the horizontal surface, the base of the body performs the function of the working surface of the separator, providing a speed of translational motion and uniform runoff of the separated source material. The angle of inclination of the base can vary in the range from 15-40 degrees, established experimentally. The change in the angle of inclination depends on the composition of the source material fed to the separation.

Fixing a magnetic system consisting of permanent magnets on the bottom side of the base with the direction of the magnetic lines perpendicular to the base allows you to evenly hold the magnetic fluid on an inclined surface over the entire area of the magnetic system, respectively, thereby increasing the separation surface area of the separated source material.

The presence of a shutter in the receiver of the heavy fraction of the useful product allows you to maintain the continuity of the separation process and protect the magnetic fluid from leakage during unloading of the useful product.

The magnetic fluid used can have magnetization parameters from 5 to 15 kA / m, established experimentally and selected depending on the density of the separated source material.

The magneto-liquid separator of the claimed design is a universal device that allows you to separate materials with a density difference of 1-2 g / cm ³ over a wide separation range by fraction sizes from 20 μm to 8 mm (both in the mining of precious and rare-earth metals, and in the extraction of diamonds, demantoids, etc.).

The invention is illustrated in the drawing, which shows a structural diagram of the device.

The magneto-liquid separator comprises a feeder 1 for supplying a wetted starting material, mounted on a housing 2 of non-magnetic material, with a working fluid 3; an inclined base 4 of the housing 2, which is the working surface of the separator, a magnetic system 5 with a slit 6, consisting of permanent magnets mounted perpendicular to the slit 6, with the direction of the magnetic lines 14 perpendicular to the base 4, magnetic fluid 7 in the form of a ferrocolloid solution is placed on the base 4 based, for example, silicone or kerosene, a useful product receiver equipped with a guide 8, a shutter 9 and a container for unloading 10; a light fraction receiver 11 of a shared starting material (not shown). The inclination of the base is regulated by a special mechanism (not shown). To give a stable position to the separator, the separator housing 2 is equipped with support legs 12. The device is also equipped with a tube 13 for equalizing the pressure of the working fluid over the base and guide 8.

Magneto-liquid separator operates as follows. The separation of the source material is carried out by density. The initial separated material in the form of a non-magnetic wetted mixture enters from the feeder 1 in an even layer into the upper part of the housing 2 filled with the working fluid 3, drops down, flows down the inclined base 4 and enters the magnetic fluid 7 held by magnetic lines 14 of the magnetic system 5 on the inclined the base 4 and evenly distributed relative to the surface of the magnetic system 5. The heavy fraction of the useful product with a density higher than the density of the magnetic fluid 7 drowns in it and further, sliding along obliquely surface of the base 4, enters the slit 6. Further, useful product enters the receiver - container 10 along the guide 8 through the shutter 9. When filling the container 10 overlaps the shutter 9, the container is unloaded, then the shutter opens again. The light fraction, whose density is lower than the density of the magnetic fluid 7, sliding along the inclined surface of the base over the magnetic fluid 7 and bypassing the gap 6, enters another receiver of the separation products of the source material 11. The angle of inclination of the base relative to the horizontal surface is regulated by the mechanism and can vary from 15 to 40 degrees. The saturation magnetization of a magnetic fluid is 5 to 15 kA / m.

Examples of specific performance of the device

Example 1. A moistened initial product in the form of pulp, from which it is necessary to extract gold, is supplied from feeder 1 to housing 2 with working fluid 3. Water is used as working fluid. The initial product sinks in water, falls on an inclined surface of the base 4, then flows down it to the magnetic fluid 7 and is divided by density. In this case, the angle of inclination of the base relative to the horizontal surface is 35-40 degrees. Gold particles have a density of 19.3 g / cm ³ . The saturation magnetization of the magnetic fluid 7 is 10 kA / m, and the density of the magnetic fluid is 0.9 g / cm ³ . The magnetic induction of the magnetic system 5 is 0.15 T, which allows you to hold the magnetic fluid on the inclined surface of the base 4 of the housing. The pseudo-weight is 18.5 g / cm ³ . In a magnetic fluid drowns and enters the slot 6 along the guide 8 and then into the capacity of the useful product 10 fraction of the shared source product with a density exceeding 18.5 g / cm ³ . The light fraction with a density of less than 18.5 g / cm ³ on top of the magnetic fluid 7, bypassing the gap 6, drains along the inclined surface of the base 4 into the light fraction receiver 11.

Example 2. A wetted initial product in the form of pulp, from which it is necessary to extract diamonds (density 3.514 g / cm ³ ) or demantoid (density 3.8 g / cm ³ ), is fed from feeder 1 to housing 2 with working fluid 3. As working fluid use water. The initial product sinks in water, falls on an inclined surface of the base 4, then flows down along it and is divided by density in magnetic fluid 7. In this case, the angle of inclination of the surface of the base 4 is 15-20 degrees. A magnetic system 5 with magnetic induction on the surface of 0.15 T allows you to hold the magnetic fluid 7 on an inclined surface of the base layer. Moreover, the magnetic fluid has a saturation magnetization of 7 kA / m, its density is 0.85 g / cm ³ . The pseudo-weight is 3.4 g / cm ³ . In a magnetic fluid drowns and gets into the slot 6 along the guide 8 and into the capacity of the useful product 10 fraction of the shared source product with a density exceeding 3.4 g / cm ³ . The light fraction with a density of less than 3.4 g / cm ³ on top of the magnetic fluid 7, bypassing the gap 6, drains along the inclined surface of the base 4 into the light fraction receiver 11.

Conducted industrial tests of the claimed invention showed its effectiveness in the extraction of valuable components from ores and valuable components in the processing of secondary raw materials. A positive indicator of the operation of the claimed device is the absence of environmental pollution factors, the absence of moving parts in the device (except for the mechanism for withdrawing light fractions to the dump), low power consumption, ease of installation and operation.

Claims (4)

1. Magnetic-liquid separator containing a feeder, a magnetic system with a slit and magnetic fluid, receivers of the separation products of the source material, characterized in that it is further provided with a housing with a working fluid, the base of which is installed at an angle to a horizontal surface, while the magnetic system is located on the bottom side the base of the body, its magnetic lines of force are directed perpendicular to the base, and the magnetic fluid is located on top of the base over the entire area of the magnetic system. 2. The magneto-liquid separator according to claim 1, characterized in that the angle of inclination of the base to the horizontal surface is 15-40 °. 3. The magneto-liquid separator according to claim 1, characterized in that the receiver of the useful product is equipped with a shutter for unloading the tank. 4. The magneto-liquid separator according to claim 1, characterized in that the saturation magnetization of the magnetic fluid is from 5 to 15 kA / m

Images