RU2012418C1 - Electromagnetic separator - Google Patents

Abstract

FIELD: food processing, light, chemical and other industries. SUBSTANCE: separator has magnetic circuit with polar tips, magnetization coils, a detachable unit of the product line with polygradient members fastened on the inner lateral walls, concentrators of magnetic field induction in the form of bars. The bars are fastened on the horizontal axes and their free ends can turn under the action of the magnetic field and outside particles. When the voltage is fed to the magnetization coils a nonuniform magnetic field is created in the interpolar space. The turn concentrators of the magnetic field induction turn and are located along the magnetic lines of force. When passing by the outsize particles, the concentrators are deviated letting these particles pass. On the completion of the separation process the detachable unit moves out and is demagnetized. EFFECT: enhanced the magnetic enrichment of materials. 2 dwg

Description

 The invention relates to magnetic enrichment for removing magnetic inclusions from bulk materials in the food, light, chemical and other industries.

 A known magnetic separator having an inter-pole gap is conical in the upper part and of constant width in the lower part. The disadvantage of this separator is that due to the overlapping part of the interpolar gap by the diamagnetic gasket due to the need to ensure the attraction of ferromagnetic particles only to the rotating rotor, an increase in the interpolar gap is required to ensure a given performance. This is all the more necessary because in many separated materials there is a large variation in the sizes of loose particles, lumps, and stones. An increase in the interpolar gap leads to a decrease in separation efficiency. To achieve the desired separation efficiency, it is necessary to increase the power of the magnetic system, and accordingly the dimensions, weight and cost of the installation.

 The closest technical solution is a magnetic separator, in which polygradient elements in the form of plates are rigidly mounted on the inner walls of the product pipeline.

 In this separator, in order to ensure the passage of bulk material in the interpolar gap without filling, this gap is also substantially larger than the size of the maximum particles and lumps found in the bulk material, i.e., the interpolar gap is overestimated.

 The aim of the invention is to increase the efficiency of the separator without increasing the power of the magnetic system, dimensions and weight of the installation.

 This goal is achieved by increasing magnetic induction while maintaining the dimensions and energy intensity of the electromagnetic separator, which is equipped with horizontal axes located inside the product pipeline, and magnetic induction concentrators are fixed at one end and installed with the possibility of rotation of the free end under the influence of a magnetic field and oversized particles.

 In FIG. 1 shows the proposed separator, top view; in FIG. 2 is a section AA in FIG. 1.

The separator contains a magnetic circuit 1 with pole tips 2, magnetization coils 3, a removable product duct block 4 with magnetic induction concentrators 5 and 6 mounted on the inner side walls, a wedge-shaped material distributor 7, support rollers 8 located on the bracket 9. Under the wedge-shaped distributor 7 on the axes 10 located horizontally and parallel to the pole end 2, polygradient elements are pivotally mounted, comprising a sleeve 12, with the possibility of its rotation on the axis 10, and the rod 11, rigidly mounted on and the sleeve 12. The angle of rotation of the rod 11 does not exceed 90 ^about . The removable unit 4 is made in the form of inter-polar space with the possibility of sliding it onto the support rollers 8 of the bracket 9 to remove adhered magnetic inclusions.

An electromagnetic separator operates as follows. When voltage is applied to the magnetization coils 3 in the interpole space, an uneven magnetic field is created inside the extraction unit. The rotary induction concentrators 11 rotate on the axes 10 by an angle of not more than 90 ^° and occupy position 13 (shown by a dotted line) with the rods 11 located along the magnetic field lines, increasing magnetic induction in the separation zone. Due to the presence of rotary polygradient elements, the extraction of magnetic inclusions increases, especially in the center of the removable unit. With the passage of large particles and lumps, the rods 11 are deflected downward, turning around the axis 10, passing oversized material. The same thing happens with an increase in the volume of passing separated material. Upon completion of the separation process, the withdrawal unit 4 is advanced from the pole space onto the support rollers 8 of the bracket 9, after which the demagnetization of all types of hubs of the removable unit and the removal of inclusions adhering to them occur.

 The use of additional rotary concentrators (polygradient elements) in the form of rods (corrugated rods) does not reduce the performance of the installation, allows the passage of oversized separated particles, and at the same time increases the separation efficiency without increasing the power of the magnetic system, dimensions and weight of the installation.

 The proposed separator can be used in food, light, chemical and other industries where the removal of magnetic impurities from bulk materials is required.

 (56) Copyright certificate of the USSR N 1304885, cl. B 03 C 1/26, 1985.

 USSR author's certificate N 1708422, cl. B 03 C 1/30, 1989.

Claims (1)

 ELECTROMAGNETIC SEPARATOR, including an electromagnet with pole tips, between which there is a product pipeline with polygradient elements rigidly fixed on its inner side surface, magnetic field induction concentrators in the form of rods placed inside the product pipeline with a gap relative to polygradient elements, characterized in that, in order to increase efficiency separation process by increasing magnetic induction while maintaining the overall dimensions and energy intensity of the electromagnetic separator, it is provided with horizontal axes arranged inside the product pipeline and magnetic flux concentrators with one end fixed to them and are mounted rotatably at the free end of the magnetic field and oversized particles.

Images