SU1039569A1 - Electromagnetic separator pulley - Google Patents

Abstract

ELECTROMAGNETIC SEPARATOR PULLEY, including an electromagnetic system consisting of a magnetic core, excitation windings and three pole discs, characterized in that, in order to increase the separation process efficiency by reducing the effect of resistance forces on the extraction of magnetic particles, the pulley is equipped with an additional excitation winding made of two parts and installed sectionally on the sides of the middle pole disk.

Description

V ph. / J The invention relates to enriched minerals and can be used in the separation of materials according to magnetic properties in the mining, metallurgical and other industries. A pulley of an electromagnetic separator is known, which includes a magnetic system, a shell, a current-collecting device 1. The disadvantage of this pulley is the high energy consumption of the extracted magnetic fraction, which is necessary to overcome the resistance forces of the separation process. The closest in technical essence and the achieved result the proposed is a pulley of an electromagnetic separator comprising a magnetic system consisting of a magnet duct, two excitation windings and three pole discs 2. However, this electromagnetic pulley lacks the efficiency of the separation process This is due to the action of large forces of resistance to extraction; A significant part of these forces is the resistance of the medium to be separated. With the progressive movement of ferritemagnetic bodies to the surface of the pulley. The purpose of the invention is to increase the efficiency of the separation process by reducing the effect of resistance forces on the extraction of magnetic particles. This goal is achieved by the fact that the electromagnetic separator pulley, which includes an electromagnetic system consisting of a magnetic conductor, excitation windings and three pole disks, is equipped with an additional excitation winding / made of two parts and located sec. On the sides of the middle pole disk. Figure 1 shows the pulley of the electromagnetic separator, the section; 2, the vectors of magnetizing forces are generated by the excitation current. The pulley of an electromagnetic separator includes an electromagnetic system consisting of a magnetic core 1, excitation windings 2 and 3, and an additional winding 4, pole discs 5-7. The electromagnetic pulley surrounds the conveyor belt 8, on which the material 9 is separated. The electromagnetic separator pulley operates as follows. The electromagnetic system, which includes the magnetic core 1, the excitation windings 2-4 and pole disks 5-7, creates a magnetic field, into the zone of action of which on the conveyor belt 8 is fed a separable material 9, part of which is a ferromagnetic body 10. A ferromagnetic body under the action of the magnetic field moves to the pulley. The consequence of this is the appearance of a cone 11 of immobility. The direction of action of the section of yurgo, caused by the action of current, is shown in portions 12 — windings 3 and 4, and 13 — windings 2 and 4, respectively. Winding. 2-4 are connected to the three phases of a variable T1rg network. The vector 14 of the magnetizing force of the winding 2 advances by 120 ° the vector 15 of the magnetizing force of the winding 4 and lags 120 behind the vector 16 of the magnetizing force of the winding 3. Since the winding 2 and half of the winding 3 are located together, their total magnetizing force is equal to the sum of vector 14 and half of vector 16 is shown by vector 17. The magnetizing force 4 and the other half of winding 3 is equal to the sum of vector 15 and half of vector 16 and is shown by vector 18. Obviously, the angle 19 between vectors 17 and 13 is equal to 90 °. Consequently, when the sum of the magnetizing force of the winding 2 and half of the winding 3 reaches max1mmum, the total magnetizing force of the winding 4 and the other half of the winding 3 decreases to zero, and vice versa. Accordingly, the separating force 13, which occurs under the action of current in the winding 2 and half of the winding 3, is maximum at the moment when the minimum of the separating force is reached. LIA 12 generated by the winding current 4 | and the other half of the winding 3. After a quarter of a period, the intensity of the working field of the winding 2 and by: half of the winding 3 becomes very small, the working field of the winding 4 acquires amplitude value and half of the winding 3, the direction of movement of the ferromagnetic body 10 changes from the direction of the separating force 13 until our separation force force 1.2 f to the immobility cone 11 remains aside. Thus, depending on the phase of the current in the windings of the electromagnetic system, the movement of the ferromagnetic body 10 is of a circular character, as a result of which the immobility cone 11 is smaller than in translational motion, and is set aside from the direction of movement of the ferromagnetic body 10, Having passed through the separated medium, the ferromagnetic body 10 is pressed against the conveyor belt 8 near one of the pole disks 5, 6 or 7. Upon further movement of the conveyor belt 8, the separated medium is poured into one bunker , and the ferromagnetic bodies 10 move together with the conveyor belt 8 to the place of departure of the belt 8 from the Frozen 5-7 discs, where they are torn off from the bag and Q are dropped by another bunker.

Thus, the working field of the electromagnetic pulley gives the movement of the extracted ferromagnetic body oscillatory character, which leads to

reduction of resistance to extraction and allows for and tensiВV separation process.

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Claims (1)

. ELECTROMAGNETIC SEPARATOR PULLEY, including an electromagnetic system consisting of a magnetic circuit, field windings and three pole disks ^ characterized in that, in order to increase the efficiency of the separation process by reducing the action of resistance to the extraction of magnetic particles, the pulley is equipped with an additional excitation winding made of two parts and mounted sectionally on the sides of the middle pole disk.