SU1030022A1 - Electromagnetic pulley-type separator - Google Patents

Abstract

ELECTROMAGNETIC PULLEY SEPARATOR, which includes an electromagnetic system consisting of excitation windings, interpolar rings and magnetic poles with flaps, a distribution box and diamagnetic inserts, distinguished by the fact that, in order to increase separation efficiency due to magnetic field intensification, the magnetic field in the work area is different the flap surface of the magnetic poles is made with arcuate grooves located along the generatrix of the inner flap surface. . 1 00 y to

Description

The invention relates to mineral processing and can be used to extract ferromagnetic objects from non-magnetic fibers. A electromagnetic pulley separator is known, comprising a magnetic system consisting of poles and field windings, interpolar. rings 11. The disadvantage of this separator is the low separation efficiency at the edges of the electromagnetic pulley, because the maximum field strength is created above the interpolar gap area, and as you move to the pole flaps, the field strength decreases. The closest to the proposed technical essence and the achieved result is an electromagnetic pulley separator, including an electromagnetic system consisting of excitation windings, interpolar rings and magnetic poles with flaps of the current-distribution box, and a diamagnetic insert 2.. The disadvantages of this separator include the following: In a pulley electromagnetic separator, the edges of the poles facing one another and the outer edges of the poles are jagged and covered with paramagnetic rings. In places where the end edges of the poles and the outer end edges of the poles are jagged, zones with increased magnetic force are created along acute angles (the effect of an acute angle). When the external surface is combined, the edges of the pole with the external surface of the pulley in these places, the extracted ferromagnetic objects can not be unloaded and slip along the transport belt to form the tape times. Partially taking into account this factor and the outer jagged edges of the poles are removed from the outer surface of the pulley separator ... and formed in stupas on the outer edges were blocked with paramagnetic rings. Removing the surface of the teeth from the outer surface of the pulley separator, as is well known, leads to a weakening of the magnetic field not only on the surface of the magnetic system, but also in the entire working area, which drastically reduces the extracting ability of the entire separator. The overlap of the serrated edges with paramagnetic (magnetic susceptibility of paramagnetic steels is 100, 1000 and more times lower than that of ferromagnetic ones), practically does not cause an increase in the magnetic field, but leads only to an excessive consumption of critical materials, paramagnetic steels, increasing the metal intensity of the whole structure. The aim of the invention is to increase the separation efficiency due to the intensification of the magnetic field in the working area. This goal is achieved by the fact that in an electromagnetic pulley separator comprising an electromagnetic system consisting of excitation windings, interpolar rings and magnetic poles with flaps, a current distribution box and a gap, diamagnetic rates, the inner surface of the flaps of the magnetic poles are made with arc-shaped grooves arranged along forming the inner surface of the flap. Figure 1 shows the separator, the cut; in fig. 2 is a section A-A in FIG. Fig. 3 shows the principle of operation of a separator. The electromagnetic pulley separator includes an electromagnetic system consisting of poles 1, excitation windings 2 and interpolar rings 3, a current distribution box 4, a diamagnetic insert 5. Magnetic poles 1 are made with flaps 6. The separator operates as follows way., The source material on the conveyor belt enters the electromagnetic pulley in the zone of action of a magnetic field created by an electromagnetic system from the poles 1, the excitation windings 2 and the interpolar rings 3. The current distribution flax box 4 supplies electricity to the magnetic system and made explosion-proof. Magnetic objects are attracted to the surface of the pulley and in the process of moving / moving along the belt they pass to the unloading site. Using diamagnetic. of the separator inserts 5, built into the middle part of the poles, the process of unloading magnetic particles takes place qualitatively, with less wear on the tape. Magnetic poles of b magnetic poles 1 are made with arcuate grooves. In the present technical solution, zones with increased magnetic force are created by making the inner surface of the flap 6 of the magnetic poles 1 with arc-shaped slots along the generatrix of the inner surface; This allows the outer surface of the flap to be combined with the outer surface of the pulley separator, and creating zones with increased magnetic force to transfer the flaps from the outer to the inner surface, which are not involved in the metal extraction process or in its removal from the surface of the magnetic system. With a suitable selection of the number of cavities, it is always easy to achieve the desired (optimal for the considered

the task of changing the intensity of the magnetic field on the surface of the pulley over the trough and satisfactory unloading of magnetic inclusions, which allows to increase the service life of the conveyor belt of the separator -.

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Claims (1)

ELECTROMAGNETIC PULLEY SEPARATOR, including an electromagnetic system consisting of field windings, interpolar rings and magnetic poles with flaps, a current distribution box and diamagnetic inserts, are distinguished by the fact that, in order to increase the separation efficiency due to the intensification of the magnetic field in the working area, the internal the flap surface of the magnetic poles is made with grooves of an arcuate shape located along the generatrix of the inner surface of the flaps. <g ω s