RU2731242C1 - Magnetic separator with permanent magnets for separation of loose materials - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to magnetic separators and can be used for separation of loose materials into nonmagnetic and magnetic components in mining, glass, food, light, chemical and other industries. Magnetic separator on permanent magnets for separation of loose products includes housing with upper receiving box for supply of loose materials, with lower branches of magnetic and non-magnetic fractions, magnetic system made from permanent magnets in form of parallelepiped and separation inclined plane. Magnetic system is installed in upper part of separator housing. Separation inclined plane is made on one side of the magnetic system in the form of a dropper representing a flat sheet repeating the shape of this surface of the magnetic system. At the surface of the dropper directed to the flow of loose materials there are dashpots in the form of conical steps. Above magnetic system and dropper on wall of housing there is a hinged mechanism equipped with electric drive, and magnetic system opposite side is installed on bracket connected to hinged mechanism, which serves to change position of magnetic system and dropper during working process. In the lower part of the housing there is a retainer with which the dropper comes into contact in the middle of the process of its removal from magnetic impurities.

EFFECT: higher efficiency of separation process.

1 cl, 3 dwg

Description

The invention relates to magnetic separators, and can be used to separate bulk materials into non-magnetic and magnetic components in mining, glass, food, light, chemical and other industrial sectors.

Known "Magnetic separator", containing a housing, inside which concentrically placed a non-magnetic drum, mounted with the possibility of rotation, and a magnetic system rigidly connected to the base of the separator, loading and unloading devices, while the magnetic system is made in the form of permanent magnets with alternating polarity and increasing the amplitude of the magnetic field in the direction of the drum movement in the first working zone of the separator, in its second zone the permanent magnets have the same amplitude of the magnetic field, and in the third zone of the separator a permanent magnet is installed with the amplitude of the magnetic field, which ensures the retention of magnetite above the zone of discharge of the separator tails, In this case, permanent magnets are placed in the fourth zone of the separator, the magnitude of the amplitude of the magnetic field strength and the pitch of the poles is less than in the second, and ferromagnetic rods are built into the drum.

RF patent for invention №2460584, MKI: В03С 1/10; d. publ. 10.09.2012

The closest technical solution to the proposed invention is a magnetic separator-analyzer, which includes a rotating magnetic system, while the magnetic system is made in the form of a strip consisting of main permanent magnets connected by side faces in the form of rectangular parallelepipeds, on which additional permanent magnets are laid on two opposite sides with smaller dimensions in width and magnetic moments directed in the same direction as the main magnets, with the axis of rotation passing through the side faces of the main magnets, and is additionally equipped with a vibrating inclined plane. RF patent for invention №2231394, MKI: В03С 1/06; d. publ. June 27, 2004

The technical result includes improving the efficiency of the separation process by using such an arrangement of the magnetic system in the separator design, which makes it possible to increase the volume of the effect of the magnetic field on the entire material to be separated, thereby increasing the efficiency of cleaning materials from magnetic impurities, as well as, accordingly, improving the quality of the separated fractions due to also the presence of an automatic cleaning system and special holding zones in the form of dampers on the ejector.

The technical result is achieved due to the fact that "Magnetic separator on permanent magnets for separating bulk materials includes a housing with an upper receiving box for feeding bulk materials, with lower outlets of magnetic and non-magnetic fractions, a magnetic system of permanent magnets in the form of a parallelepiped and a separation inclined plane. In this case, the magnetic system is installed in the upper part of the separator body. The separation inclined plane is made on one of the sides of the magnetic system in the form of a spreader, which is a flat sheet that repeats the shape of this surface of the magnetic system. On the surface of the spreader directed towards the flow of bulk materials, dampers in the form of conical ledges are made. Above the magnetic system and the ejector on the wall of the case, there is a hinge mechanism equipped with an electric drive. In turn, the magnetic system is mounted on the opposite side on a bracket associated with a hinge mechanism that serves to change the position of the magnetic system and the ejector during the working process. In the lower part of the body there is a latch, with which the ejector comes into contact in the middle of the process of cleaning it from magnetic impurities.

A permanent magnet magnetic separator for separating bulk materials is illustrated in FIG. 1, 2 and 3

Fig. 1 - Magnetic separator with permanent magnets for separating bulk materials (cross-section of the separator along the vertical plane - general diagram);

Fig. 2 - Magnetic separator on permanent magnets for separating bulk materials (layout of the separator units in the middle of the cleaning process from magnetic impurities);

Fig. 3 - Magnetic separator for bulk materials (layout of the separator assemblies at the end of the working process).

Referring to FIG. 1, 2 and 3, a magnetic separator on permanent magnets for separating bulk materials contains a separator body 1, an upper receiving box 2, a magnetic system 3 of permanent magnets in the form of a parallelepiped located in the body, and a separation inclined plane, and the separation inclined plane is made on one of the sides magnetic system in the form of a stripper 4, which is a flat sheet that repeats the shape of this surface of the magnetic system 3. The stripper 4 is equipped on the side of the working surface with dampers 5 in the form of tapered ledges, and the magnetic system 3 is mounted on the opposite side on the bracket 6, above the magnetic system 3 and the ejector 4 on the wall of the housing 1 is equipped with an electric drive, the hinge mechanism 7, with which the bracket 6 of the magnetic system is connected. The hinge mechanism 7, together with an electric drive, serves to change the position of the magnetic system 3 and the ejector 4 during the working process. In the lower part of the body there is a latch 8, with which the ejector 4 comes into contact in the middle of the process of cleaning it from magnetic impurities. At the bottom, the housing is equipped with output boxes for non-magnetic 9 and 10 magnetic materials.

The magnetic separator on permanent magnets for separating bulk materials works as follows: bulk materials enter the separator body 1 through the upper receiving box 2 and move downward by gravity, the magnetic system 3, separated from the product by the ejector 4 made of magnetically transparent material, is installed so that the maximum amount material passed through the magnetic lines of the magnetic system of the separator. The magnetic system 3 retains magnetic impurities on the stripper 4, in turn, the stripper 4 has special in the form of ledges - dampers 5, forming on the flat edge of the zone free from the material to be separated (Fig. 3 5), which contributes to the retention of impurities with greater reliability. In the absence of material in gravity, the separator cleans from magnetic impurities, for this, the magnetic system 3 rotates together with the ejector 4 (Fig. 2), then the ejector 4 is fixed in the cleaning position with a special lock 8, and the magnetic system 3 using the bracket 6 and the hinge mechanism 7, connected to the electric drive, continues to move to the top point (rear wall of the separator body 1), FIG. 3, while the magnetic field ceases to act on the impurities located on the ejector 4, and the impurities fall down under their own weight into the lower output box 10 for the magnetic fraction. Then the magnetic system returns to its original position and product separation is resumed.

The proposed as an invention "Magnetic separator on permanent magnets for the separation of bulk materials" allows you to achieve high separation efficiency due to the design of the separator, in which the location of the magnetic system allows you to increase the volume of the effect of the magnetic field on the entire material to be separated, thereby increasing the efficiency of cleaning materials from magnetic impurities , as well as and, accordingly, an improvement in the quality of the separated fractions due to the presence of an automatic cleaning system and special holding zones in the form of dampers on the dumper.

Claims (1)

Magnetic separator on permanent magnets for the separation of bulk products, including a housing with an upper receiving box for feeding bulk materials, with lower outlets of magnetic and non-magnetic fractions, a magnetic system of permanent magnets in the form of a parallelepiped and a separation inclined plane, characterized in that the magnetic the system is installed in the upper part of the separator body, and the separation inclined plane is made on one of the sides of the magnetic system in the form of a spreader, which is a flat sheet that repeats the shape of this surface of the magnetic system, while on the surface of the spreader directed to the flow of bulk materials, dampers are made in in the form of conical ledges, in turn, a hinge mechanism equipped with an electric drive is installed above the magnetic system and the ejector on the housing wall, and the magnetic system is mounted on the opposite side on a bracket connected to the hinge mechanism that serves to change the polo of the magnetic system and the ejector during the working process, in the lower part of the case there is a latch with which the ejector comes into contact in the middle of the process of cleaning it from magnetic impurities.

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