SU1139506A1 - Electrodynamic separator - Google Patents

Abstract

1. ELECTRODYNAMIC SEPARATOR containing a transporting organ, receivers of separation products and a magnetic system made in the form of a disk mounted for rotation and located under the transporting body in a plane parallel to the plane of the latter, with permanent magnets alternating along the perimeter on the working surface of the disk a polarity disk, characterized in that, in order to improve the efficiency of the separation process by creating braking electrically conductive particles force at the entrance to the separation zone, each magnet is located at an angle od "equal to 5-85 to the radius of the disk passing through the center of symmetry of the magnet, and the disk is filled with grooves in which the magnets are placed. 2. The separator according to claim 1, about t l-and 3 tea. The fact that the pole of the magnetic system is defined by the ratio a / C is equal to 0.3-5, where d is the size of the electrically conductive particles, C is the pole pitch of the magnetic system. with 3 s And then M o

Description

The invention relates to the enrichment of minerals and can be used to separate materials according to electrical conductivity. An electrodynamic separator is known, including a transporting organ, receivers of separation products and a magnetic system made in the form of a disk with magnets l mounted on its surface. The disadvantage of this separation separator is the low efficiency of the separation process. The closest to the invention in terms of its essence and the effect achieved is an electrodynamic separator, including a transporting organ, receivers of separation products and a magnetic system, effected in the form of a disk, mounted rotatably and located under the transporting body in a plane parallel to the plane of the latter, Moreover, permanent magnets with polar poles 2j alternating along the perimeter of the disc are placed on the disk working surface. A disadvantage of the known separator is the low efficiency of the separation process. The purpose of the invention is to increase the efficiency of the separation process by creating an effort that inhibits electrically conductive particles when entering the separation zone. This goal is achieved by the fact that an electrodynamic separator containing a transporting organ, receivers of separation and a magnetic system, made in the form of a disk mounted for rotation and located under the transporting body in a plane parallel to the plane of the latter, and on the working surface of the disk Permanent magnets with polarity of poles alternating around the disk perimeter, each magnet is located at an angle of 5-85 ° to the radius of the disk passing through the center of the symmetry ii magnet, the disc vsholnen with grooves in which the magnets are arranged. In addition, the pole pitch of the magnetic system is defined by an a / t otnophenia, equal to 0.3–5, where 31 is a large electrical conductive particle, h; - pole pitch of the magnetic system. Figure 1 shows the separator, a longitudinal section / figure 2 is the same, top view. The device contains a transporting organ 1, a magnetic system, made in the form of a disk 2 with permanent magnets 3 placed in grooves on its surface, which have the polarity of poles 4 alternating along the perimeter of the disk 4. The permanent magnets 3 are installed so that the longitudinal axis, 5 of each of them forms, with a radius of 6 disk 2, passing through the center of symmetry 7 of magnet 3, the angle Oi is 5-85. In addition, the device contains receivers 8 separation products. The device works as follows. The separable mixture is supplied in the direction indicated by the arrow 9 by the transporting body 1 to the separation zone. Here it falls into a rotating magnetic field created by the rotation of permanent magnets 3 installed in grooves on the surface of disk 2. Under the influence of this field, eddy currents in a mixture of non-ferrous metal induce a magnetic field, the interaction of which with a rotating magnetic field. the field leads to the appearance of a force Ff. A deflecting force Fff also occurs when a magnetic field of eddy currents interacts with a rotating magnetic field. Under by the action of the force deflecting, the non-ferrous metal particles are moved along the surface of the transporting organ 1 to the receivers 8 of the separation products. Since the magnitude of the braking force depends on the length of the projection of the magnet on the direction, perpendicular to the direction of movement of the transporting organ, and the magnitude of the deflecting force on the length of the projection of the magnet in the direction that coincides with the direction of movement of the transporting organ, changing the angle ot within 5-85 , you can choose the relationship between the braking and bias forces depending on the size of the magnet, the size of the non-ferrous metal particles and the feed rate of the 31

so that a deflecting force will be sufficient to extract all the non-ferrous metal particles present in the mixture. In addition, the pole pitch of the magnetic system is selected from a ratio of 0.3-5. This ratio indicates that the selection of the pole pitch of the magnetic system is largely determined by the size of non-ferrous metal particles. When this ratio is less than 0.3, the separation process stops, and non-ferrous metals begin to behave like particles of ferromagnetic material in a traveling magnetic field, t, e, begin to rotate395064

move around its center of gravity and move in the direction opposite to the direction of the running floor. When the value of the specified ratio. more than 5, the increase in force acting on the non-ferrous metal particle is almost stopped.

Thus, the location of each magnet at an angle of about 510 85 ° to the radius of the disk passing through the center of symmetry of the magnet, making the disk with grooves in which the magnets are placed and the definition of the magnitude of the magnitude 0 of 5 , 3-5. Improves separation efficiency.

FIG. 2

Claims (2)

1. ELECTRODYNAMIC SEPARATOR containing a transporting body, detectors of separation products and a magnetic system made in the form of a disk mounted for rotation and located under the transporting body in a plane parallel to the plane of the latter, with permanent magnets alternating around the perimeter placed on the working surface of the disk disk polarity of the poles, characterized in that, in order to increase the efficiency of the separation process by creating a braking force of the electrically conductive particles When entering the separation zone, each magnet is arranged at an angle equal to 5-85 ° to the radius of the disk ,, passing through the center of symmetry of the magnet, wherein the disc is formed with grooves in which are located magnets. 2, The separator by π. 1, characterized in that * that the pole pitch of the magnetic system is determined by the ratio o / C equal to 0.3-5, where Qi is the size of the electrically conductive particles, C is the pole pitch of the magnetic system.