RU2700135C1 - Magnetic separator on permanent magnets for wet enrichment of weakly magnetic materials - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention is intended for wet enrichment of weakly magnetic materials and can be widely used in mining-and-dressing, glass, food, light, chemical and other industries. Magnetic separator on permanent magnets for wet enrichment of weakly magnetic materials includes a housing with a bath, two magnetic systems in it with a gap and made of permanent magnets, the main and additional magnets. Main magnetic system is located in a drum driven by an electric motor with possibility of rotation relative to the drum axis, the device is also equipped with a loading box and unloading devices in the form of branch pipes for discharge of magnetic and non-magnetic pulp, as well as a pipeline for liquid supply. Loading box of the case is equipped with a pulp supply flow stabilizer, which helps to distribute the pulp uniformly over the entire working length of the separator. Housing of device is made in the form of box structure, equipped with two legs, with bottom in form of bath. Separator drum is located in central part of housing and equipped with drive shaft. Inside the non-magnetic body of the drum, there is a shaft of the main magnetic system made in the form of annular segments of permanent magnets equipped with pole tips installed in turn on the non-magnetic body of the drum of the separator. Main magnetic system is equipped with a unit for adjustment of its position inside the magnetic drum located on the shaft end of the main magnetic system. Housing of the device is equipped with a system of flushing nozzles located on the supply pipeline, and a sector concave-concave partition made under the separator drum and facing the bottom of the bath with its curved part. On the external surface of the partition wall, there is an additional magnetic system of permanent magnets. Device is equipped with working clearance adjustment unit between magnetic systems installed on both sides of main magnet system drive shaft end. Between the pole tips of the main magnetic system there are channels for passage of the separated liquid into the working gap of the pole tips. Between magnetic systems spacers are installed, which serve to reduce losses of liquid outside magnetic tips.

EFFECT: improved efficiency of wet enrichment process of weakly magnetic materials.

1 cl, 3 dwg, 1 tbl

Description

The invention is intended for wet enrichment of weakly magnetic materials and can be widely used in mining, glass, food, light, chemical and other industries.

The well-known "Roller separator with permanent magnets for the enrichment of weakly magnetic materials", including loading and unloading devices, a housing, rotary gates, a puller concentrate and made with the possibility of rotation around the horizontal axis of the magnetic roll, on the surface of which are fixed permanent magnets of alternating polarity from an alloy of neodymium with iron and boron, while the magnetic roll is made in the form of a hollow cylinder, and the magnets are made in the form of rings with ring disks made of magnetically soft glued to them with Ali, and in the case of wet processing apparatus is provided with a device for supplying water. RF patent for ПМ No. 104487, MKI: V03C1 / 00; public date 05/20/2011 The “Magnetic Separator” is known, comprising a housing inside which a non-magnetic drum is mounted concentrically mounted for rotation, and a magnetic system rigidly connected to the separator base, loading and unloading devices, the magnetic system being made in the form of permanent magnets with alternating polarity and increasing amplitude of the magnetic field in the direction of movement of the drum in the first working area of the separator, in its second zone, the permanent magnets have the same amplitude the magnetic field strength, and in the third zone of the separator a permanent magnet with an amplitude of magnetic field strength is installed, which ensures magnetite is kept above the discharge zone of the separator tails, while in the fourth separator zone there are permanent magnets, the magnitude of the amplitude of the magnetic field and the pole pitch is less than the second, with ferromagnetic rods embedded in the drum.

RF patent for the invention No. 2460584, MKI: B03C 1/10; D. publ. 09/10/2012

The closest technical solution to the proposed invention is the “Magnetic separator”, inside of which there is a magnetic system located above the bath loading box, and under the bath discharge boxes for concentrate and tails, and sprayed placed above the box for concentrate, while the separator is equipped with an additional magnetic system, tray for industrial product and additional spray, moreover, the additional magnetic system is located with a gap in front of the main along the rotation of the drum, and its upper the edge is located at the level of the loading box, the tray for industrial product is located above the main magnetic system, and the unloading box for tails is at the lower edge of the additional magnetic system, while the main magnetic system is mounted with the possibility of rotation around the axis of the drum, and an additional spray is located between the box for tails and the bottom of the bath, and in the bottom of the bath holes are made that match the holes of the additional spray. Auth. testimonial. USSR No. 1528564, IPC: VO3S 1 / 00.15.12.89

The disadvantages of the above technical solutions include the lack of separation efficiency due to the lack of regulation of the direction of magnetic fields generated by magnetic systems, which creates a magnetic field with an inhomogeneous intensity.

The technical result includes improving the efficiency of the process of wet enrichment of weakly magnetic materials by using magnetic systems in the device equipped with two nodes that regulate their position relative to each other, respectively, this affects the change in the induction of the magnetic fields generated by the magnetic systems and helps the optimal orientation of these fields with respect to the flow of processed materials. In addition, the efficiency of the wet enrichment of weakly magnetic materials is significantly affected by the use of feed pulp and flushing nozzles in the damper device, which contributes to the uniform distribution of the working flow to the pole pieces of the main magnetic system.

The technical result is achieved due to the fact that the "Permanent Magnetic Separator for the wet enrichment of weakly magnetic materials" includes a body with a bath, two magnetic systems of permanent magnets placed in it with a gap, the main and additional. The main magnetic system is located in the drum, driven by an electric motor, with the possibility of rotation about the axis of the drum. The device is also equipped with a loading box and unloading devices, in the form of nozzles for draining magnetic and non-magnetic pulp, as well as a pipe for supplying liquid, and an electric drive, while the loading box of the housing is equipped with a flow damper for the supplied pulp, which helps to evenly distribute the incoming pulp along the entire working length separator. The body of the device is made in the form of a box-shaped structure, equipped with two legs, with a bottom in the form of a bath. The separator drum is located in the central part of the housing, and is equipped with a drive shaft. Inside the non-magnetic drum casing is located the shaft of the main magnetic system, made in the form of annular segments of permanent magnets, equipped with pole pieces, which are in turn mounted on the non-magnetic casing of the drum of the separator. The main magnetic system is equipped with a node for adjusting its position inside the magnetic drum located on the shaft end of the main magnetic system. The body of the device is equipped with a system of flushing nozzles located on the supply pipe and sector curved-concave partition, made under the separator drum and facing the curved part towards the bottom of the bath. An additional permanent magnet magnetic system is installed on the outer surface of the partition; in addition, the device is equipped with a working gap control unit between the magnetic systems mounted on both sides of the drive shaft end of the main magnetic system. Between the pole tips of the main magnetic system, channels are made for passage of the separated liquid into the working gap of the pole tips, and spacers are installed between the magnetic systems to reduce fluid loss outside the magnetic tips.

A permanent magnet separator for enriching weakly magnetic materials is illustrated in FIG. 1, 2 and 3 Fig. 1 - Permanent magnet separator for wet enrichment of weakly magnetic materials (cross section of the separator in a vertical plane - general layout);

Fig 2 - Permanent magnet separator for wet enrichment of weakly magnetic materials (arrangement of the adjustment nodes of the two magnetic systems of the primary and secondary); Fig 3 - Permanent magnet separator for wet enrichment of weakly magnetic materials (longitudinal section diagram of the working area of the separator housing along the horizontal axis). According to FIG. 1, 2 and 3, a permanent magnet magnetic separator for wet enrichment of weakly magnetic materials comprises a separator housing 1 with a bath 2 and a loading box 3 equipped with a flow damper 4. The separator is also equipped with an electric motor 5 with a drive and branch pipes for non-magnetic 6 and magnetic pulp 7. Drum the separator with a non-magnetic casing is equipped with a magnetic system 9 containing ring disks of permanent magnets, which is the main magnetic system of the separator, as well as an additional magnetic system 10, also containing permanent magnets. Flush nozzles 11 are installed in the separator housing 1, and both magnetic systems are equipped with control units, the main magnetic system being the control unit 12 for its location inside the separator drum, and the additional magnetic system is the control unit 13 for the working gap between the magnetic systems installed on both sides of the drive end the shaft 14 of the magnetic drum. The main magnetic system 9, in turn, is equipped with a drive shaft 15 with a possibility of rotation relative to m of the separator drum 8. The control unit 12 of the main magnetic system is located opposite to the drive shaft of the separator drum at the end of the shaft 15 of the main magnetic system, while the magnets of the main magnetic system are equipped with pole lugs 16, between which channels 17 are made for passage of the separated liquid into the gap between the pole lugs 16. In addition, the device casing is equipped with a sector vygne a concave partition 18 located under the magnetic drum 8 and facing the curved part to the sides of the bottom of the bath 2, while on the outer surface of the partition 18 an additional magnetic system 10 is also made of permanent magnets. Between the magnetic systems 9 and 10 spacers 19 are installed, which serve for reduce fluid loss outside the magnetic tips.

Distinctive design features:

- the ability to control the position of the magnetic systems to ensure the best removal of the separated product in the separation zone.

- the ability to control the working gap between the magnetic systems of the separator, which allows to provide the necessary magnetic induction of magnetic systems for the separation of weakly magnetic ores.

- the use for the separation of weakly magnetic ores of permanent magnets with the provision in the working gap of magnetic induction of 1.2 T.

- the use of a special form of pole pieces.

- use for removal of product washing nozzles. A permanent magnet separator for wet enrichment of weakly magnetic materials works as follows: a material containing weakly magnetic particles is pre-mixed with water and sent to a loading box 3 with a flow damper 4, which has a specially shaped feed neck, flow damper and feed nozzles help evenly distribute the incoming pulp along the entire working length of the separator and divide the separated medium into separate streams that are fed into the separator bath band maximum of the magnetic field, which increases the effectiveness of magnetic separation. Further, in the separator bath 2, under the influence of a magnetic field created by two magnetic systems 9 and 10, weakly magnetic particles are attracted to the pole pieces 16 of the main magnetic system 9, which are magnetic flux concentrators, and are made of soft magnetic steel, then the weakly magnetic particles travel to the end of the magnetic system 9 into the discharge zone. The position of the magnetic systems 9 and 10 relative to each other is set so that the main magnetic system 9 with pole pieces 16 to which weakly magnetic particles are attracted, draws the magnetic fraction into the zone of no magnetic field of the second magnetic system 10.

Proposed as an invention, “Permanent Magnetic Separator for the wet enrichment of weakly magnetic materials” allows the best removal of the separated product in the separation zone by adjusting the position of the magnetic systems. In addition, it provides the ability to control the working gap between the magnetic systems of the separator, which allows you to create the necessary magnetic induction of magnetic systems for the separation of weakly magnetic ores.

An example of wet separation of ilmenite sands on the described installation of a magnetic separator in several stages with sequential cleaning of the non-magnetic fraction is shown in table 1.

Claims (1)

Permanent magnet separator for wet enrichment of weakly magnetic materials, including a housing with a bathtub, two permanent magnet systems placed in it with a gap - the main and additional, while the main magnetic system is located in the drum driven by an electric motor with the possibility of rotation about the axis of the drum , the device is also equipped with a loading box and unloading devices in the form of pipes for the removal of magnetic and non-magnetic pulp, as well as a pipeline for supplying liquid characterized in that the loading box of the housing is equipped with a flow damper for the supplied pulp, which helps to evenly distribute the incoming pulp along the entire working length of the separator, and the housing of the device is made in the form of a box-like structure equipped with two legs with a bottom in the form of a bath, while the separator drum located in the Central part of the housing and is equipped with a drive shaft, inside the non-magnetic drum housing is the shaft of the main magnetic system, made in the form of ring segments of permanent magnets, equipped with pole pieces mounted in turn on a non-magnetic casing of the separator drum, and the main magnetic system is equipped with a node for adjusting its position inside the magnetic drum located on the shaft end of the main magnetic system, in addition, the device casing is equipped with a system of flushing nozzles located on the supply pipe and sector curved-concave partition made under the separator drum and facing the curved part towards the bottom of the bath, while on the outer surface An additional permanent magnet magnetic system is installed, in addition, the device is equipped with a working gap control unit between the magnetic systems mounted on both sides of the drive shaft end of the main magnetic system, and finally, channels are made between the pole tips of the main magnetic system for the separated liquid to pass into the working the gap of the pole pieces, and spacers are installed between the magnetic systems, which serve to reduce fluid loss outside the magnetic tips.

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