RU2432995C1 - Screw separator - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to separation of materials with magnetic susceptibility and may be used in ore-dressing and metallurgical industries, as well as at treatment facilities for treatment of industrial and domestic sewage water and wastes. The screw separator comprises a bearing frame made of a vertical axial stand, a pulp collector, a helical groove, a magnetic system that generates magnetic intensity in a zone of dressing product separation with direction of magnetic forces to extracted grains, a device to separate and discharge dressing products, a distributor of wash water for even distribution of wash water along the perimeter of the groove and to adjust its amount. The helical groove is made with the possibility of rotation around its vertical axis and is equipped with a device to control and reverse rotation. The magnetic system for development of magnetic intensity is located inside the helical groove.

EFFECT: improved efficiency of material separation.

7 cl, 2 dwg, 1 tbl

Description

The invention relates to the separation of materials with magnetic susceptibility, and can be used in mining and metallurgical industries, as well as in wastewater treatment plants for the processing of industrial and domestic wastewater and waste.

A known magnetic screw separator comprising a supporting frame consisting of a vertical axial bed, a slurry receiver, a helical trough, a magnetic system that creates magnetic tension in the separation zone of the enrichment product with the direction of magnetic forces on the allocated grains, a device for separation and output of enrichment products. In this case, the electromagnetic system is made in the form of a vertically mounted solenoid, and a helical groove is placed inside the solenoid (SU 1736610 A1, B03C 1/02, 05/30/1992). This screw separator is the combination of features and purpose the closest analogue (prototype) to the proposed.

The disadvantages of this screw separator include the location of the screw chute inside the solenoid, which increases the dimensions of the installation, complicates its maintenance, and does not allow visual monitoring of the process.

The task to which the invention is directed is the development of a screw separator, which, with its simplicity of design, high productivity, low labor intensity in operation, allows controlling centrifugal forces and provides high efficiency of separation of the source material into magnetic and non-magnetic parts.

The technical result achieved in the claimed invention is to increase the resultant forces acting on magnetic particles at a lower magnetic field strength, to reduce energy costs, to control centrifugal forces arising from the processing of the material, and to visually monitor the progress of the process , increasing the efficiency of enrichment of the magnetic product.

The specified technical result is achieved by the fact that a screw separator comprising a supporting frame consisting of a vertical axial bed, a slurry receiver, a spiral chute, a magnetic system that creates magnetic tension in the separation zone of the enrichment product with the direction of magnetic forces on the released grains, a device for separation and output of products enrichment, according to the invention contains a distributor of flushing water for uniform distribution of flushing water around the entire perimeter of the gutter and adjust its quantity, screw The trough is rotatable around its vertical axis and is equipped with a device for regulating and reversing rotation, and a magnetic system for creating magnetic tension is located inside the screw trough.

The magnetic system can be mounted in a separator frame.

In one of the possible embodiments of the screw separator, the vertical axial bed of the supporting frame can be made of any magnetic alloys, for example UNDK-24, or of ceramic anisotropic magnets made of barium ferrite (BaO · 6Fe ₂ O ₃ ).

In addition, the magnetic system is made of electromagnets powered by direct current, or electromagnets powered by alternating current.

In addition, the magnetic system is made of individual elements of any shape, for example spiral.

In a preferred embodiment of the screw separator, the magnetic system is installed with an adjustable magnetic field voltage in the separation space of the processed material with a magnetic field strength of 39790 A / m ≤H≤1671180 A / m.

In addition, the spiral chute is made of plastic material by links interconnected by grooves made in the end parts of each link, lubricated with glue or without it, and reinforced with tie rods along the entire length.

The flushing water distributor is used for uniform distribution of flushing water around the entire perimeter of the helical trough and adjusting its quantity.

The magnetic system located inside the helical trough increases the resultant of the forces acting on the magnetic particles at a lower magnetic field, reduces energy costs and increases the efficiency of enrichment of the magnetic product, and also allows visual observation of the process.

By creating magnetic tension enrichment product in the separation zone, the physical properties of the pulp can be changed: dielectric, viscosity, speed, surface tension, etc. With an increase in the speed of movement, the friction force of the grains against the walls of the helical trough decreases. Exposure to a magnetic field changes the wetting heat between a liquid and a solid surface. Improving the wettability of hard surfaces intensifies particle deposition. By changing the wettability of the surfaces of solids, it is possible to increase the separation efficiency of mineral products.

By imparting rotational movements that can be adjusted and reversed to the helical groove, the centrifugal forces arising from the processing of the material are controlled. Large, but light grains can be directed to the periphery, and small but heavy grains can be directed to the center.

The combined use of magnetic field strength and rotational motions in the separation space of the processed material also makes it possible to reduce energy costs while effectively enriching the magnetic product, which can be achieved with lower values of magnetic field strength.

The creation of magnetic tension in the separation zone of the enrichment product with the direction of magnetic forces on the released grains leads to the fact that, in addition to gravitational (gravity), hydrodynamic (dynamic water pressure), and centrifugal forces, the grain of the material is also affected by magnetic forces in the swirling pulp stream. Metallomagnetic particles stand out from the general flow of the moving pulp, changing their path in the direction of motion of the magnetic force. By controlling the arising centrifugal forces by means of imparting, by means of a device for regulating and reversing the rotation of the helical groove, the helical groove of rotational movements, which can also be adjusted and reversed, large but light grains are directed to the periphery, and small but heavy grains are directed to the center. Under the influence of gravity or dynamic pressure of water, particles that do not have magnetic properties (tails) are freely removed from this zone, while particles that have magnetic properties are held in a magnetic field and the transport system of the device for separation and removal of enrichment products is transported to the other side.

The regulation of the magnetic field strength and frequency of rotation of the helical groove is carried out by changing the type of processed source product, as well as establishing the optimal mode for fluctuations in the material composition during processing.

The design of the magnetic system of this screw separator can be any. Screw separators with electromagnetic direct current powered magnetic system design are less reliable than screw separators with electromagnetic direct current magnetic system design due to the fact that their operation depends not only on the availability of electricity in the AC network, but also on the condition of the converters and ballasts of a direct current network. The most reliable are screw separators with magnetic systems composed of permanent magnets. It is possible to regulate the magnetic field strength in the separation space of the processed material of a screw separator with a magnetic system made of permanent magnets, for example, by moving the separation elements (screens) between the magnets and the processed material, by controlling the working magnetic resistance of the magnetic shunt in the permanent magnet circuit, etc. d.

It is advisable to make a helical chute, made in the form of a spiral with a vertical axis, from cast iron or steel casting, rolled steel, usually lined with wear-resistant rubber, preferably grade 6253; as well as from plastic material, links interconnected by means of grooves made in the end parts of each link, lubricated with glue or without it, and reinforced with tie rods along the entire length.

The essence of the invention is illustrated by drawings, where figure 1 and figure 2 shows an embodiment of a screw separator.

The screw separator consists of a slurry receiver 1, a spiral chute 2, a device for separation and output of enrichment products 3, a distributor of flushing water 4, a vertical axial bed 5 of the supporting frame 6, a magnetic system to create the effect of magnetic forces on the extracted substance 7, devices for regulating and reversing rotation of the helical groove 8.

Screw separator operates as follows.

The magnetic system 7 is turned on. From the distributor of flushing water 4, flushing water is uniformly distributed around the entire perimeter of the inner side of the trough, which forms a stream of small depth. The source material (pulp) enters the slurry receiver 1. At the same time, the speed of the initial suspension flow (pulp) is extinguished, a stream with a kinematic structure close to the helical one is formed, and a smooth input of the flow into the screw chute 2 mounted on the supporting frame 6. Further, the pulp along a helical chute 2 under the action of gravity flows down in the form of a thin, different depth along the cross section of the chute of the stream. As the pulp flows through the swirling flow, in addition to gravitational (gravity), hydrodynamic (dynamic water pressure), and centrifugal forces, magnetic forces also act on the grains of the material. Metallomagnetic particles stand out from the general flow of the moving pulp, changing their path in the direction of motion of the magnetic force. By controlling the emerging centrifugal forces by means of imparting, by means of a device for regulating and reversing the rotation of the helical groove 8, the helical groove 2 rotational movements, which can also be controlled and reversed, large but light grains are directed to the periphery, and small but heavy grains are directed to the center. Small but heavy particles with magnetic properties are concentrated at the inner side of the screw groove 2, and large but light particles that do not have magnetic properties are concentrated at the outer. Under the influence of gravity or dynamic pressure of water, particles that do not have magnetic properties (tails) are freely removed from this zone, while particles that have magnetic properties are held in a magnetic field and the transport system of the device for separation and removal of enrichment products 3 is removed On the other side.

Example.

A pilot test of the developed screw separator was carried out. For this, the magnitude of the magnetic field in the separation space of the processed material was created at the following values: 35000 A / m, 39790 A / m, 860000 A / m, 1671180 A / m, 1700000 A / m. The rotation frequency of the helical trough was varied in the range: from 5 to 62.5 rpm.

For the experiments, ore with an initial iron content of 37.2% was taken.

Table Comparative results of ore dressing in a known manner on a magnetic screw separator and the proposed screw separator in various modes Screw separator Magnetic field strength, A / m The frequency of rotation of the helical groove, rpm Mass fraction of iron in the initial product,% Mass fraction of iron in concentrate,% Mass fraction of iron in the tails,% Extraction of iron in concentrate,% Prototype there is no data - 37,2 53,2 12,4 86.9 Proposed 39790 60 37,2 54.8 11.2 87.8 Proposed 860000 55 37,2 57.7 9.1 89.7 Proposed 1671180 45 37,2 58.9 6.0 93,4 Proposed 35,000 62.5 37,2 52.1 12.6 87.2 Proposed 1,700,000 42.5 37,2 54.5 11.7 87.3 Proposed 39790 5 37,2 53.9 12.0 87.0 Proposed 860000 twenty 37,2 54.6 11.6 87.2 Proposed 1671180 thirty 37,2 54.9 11.1 87.7

The table shows that with the same mass fraction of iron in the same initial product, the proposed screw separator can reduce the mass fraction of iron in the tailings from 12.4% to 6.0%, improve the quality of the concentrate from 53.2% to 58.9%, increasing recovery from 86.9% to 93.4%.

Significant improvement of enrichment indices is provided at a magnetic field strength of 39790 A / m ≤H≤1671180 A / m and a rotation frequency of 42.5 <ω≤60 rpm. The regulation of the magnetic field strength and frequency of rotation of the helical trough is carried out by changing the type of processed source product, as well as establishing the optimal mode for fluctuations in the material composition during processing.

The invention makes it possible to increase the efficiency of separation of the source material into magnetic and non-magnetic parts by creating conditions for the manifestation of differences (contrasts) in the separation parameters, by increasing the resultant forces acting on the magnetic particles, the ability to control centrifugal forces arising from the processing of the material, reduce energy costs, and also allows you to visually monitor the progress of the process.

Claims (7)

1. A screw separator comprising a supporting frame, consisting of a vertical axial bed, a slurry receiver, a spiral chute, a magnetic system that creates magnetic tension in the separation zone of the enrichment product with the direction of magnetic forces on the separated grains, a device for separation and output of enrichment products, characterized in that contains a distributor of flushing water for uniform distribution of flushing water around the entire perimeter of the gutter and adjusting its quantity, the screw gutter is made to rotate around its th vertical axis and provided with a device for regulating and reverse rotation, and a magnetic system for creating a magnetic intensity is disposed within the helical trough. 2. The screw separator according to claim 1, characterized in that the magnetic system is mounted in the separator frame. 3. The screw separator according to claim 1, characterized in that the vertical axial bed of the supporting frame is made of any magnetic alloys, such as UNDK-24 or ceramic anisotropic magnets made of barium ferrite (BaO · Fe ₂ O ₃ ). 4. The screw separator according to claim 1, characterized in that the magnetic system is made of electromagnets supplied with direct current or electromagnets supplied with alternating current. 5. The screw separator according to claim 4, characterized in that the magnetic system is made of individual elements of any shape, for example spiral. 6. The screw separator according to claim 4, characterized in that the magnetic system is installed with an adjustable magnetic field voltage in the separation space of the processed material with a magnetic field strength of 39790 A / m ≤H≤1671180 A / m. 7. The screw separator according to one of claims 1 to 6, characterized in that the screw chute is made of plastic material by links interconnected by grooves made in the end parts of each link, lubricated with or without glue, and reinforced along the entire length coupling studs.

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