SU1651965A1 - Electromagnetic separator - Google Patents

Abstract

The invention relates to magnetic separation and is intended for the purification of various suspensions from metal impurities contained in them. The purpose of the invention is to increase the working efficiency by expanding the range of the class of recoverable particles during the separation of suspensions. The separator contains an electromagnetic system with pole tips (PN) 5 located above and below along the length of the transporting separable material chute 6. Polygraphic elements made in the form of cylindrical tension springs 7 are installed relative to each other between the side walls of the channel 6 (ETC). Lower PN 5 installed with a gap relative to each other. The pag of the installation of PN 5 and their longitudinal axes coincide, respectively, with the pitch of the location of the PR 7 and their longitudinal axes. The pulp is fed along chute 6. In the zones of location of the PR 7, a high-intensity and high-gradient magnetic field is created, under the action of which electromagnetic forces act on the PR 7 and the PR 7 expands. The pulp passes 1 between the turns of PR 7. The metal impurities are deposited on the turns of PR 7, and the cleaned pulp comes by gravity to the receiver. As metal impurities accumulate on the turns of PR 7, they are periodically unloaded. 2 Il. l

Description

The invention relates to magnetic separation and is intended for the purification of various suspensions from metal impurities contained in them.

The aim of the invention is to increase the efficiency of operation by expanding the range of the class of recoverable particles during the separation of suspensions.

FIG. 1 shows a separator, a general view; FIG. 2 is a section A-A in FIG. one.

The separator consists of an electromagnetic system made in the form of cores 1 with magnetizing coils 2 placed on them, an upper pole 3 and a lower pole 4 attached to the end surfaces of the cores, and pole pieces 5 attached at a certain step to the lower pole 4 (FIG. 2); a working channel made in the form of a gutter 6 of a non-magnetic material, inside which polygraphic elements are attached to the side walls of the gutter — cylindrical extension springs 7 made of ferromagnetic material and installed perpendicular to the longitudinal axis of the channel with the possibility of

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spring and horizontal planes, the springs 7 are installed with a pitch equal to the pitch of the pole pieces 5, and the working channel is installed between the upper pole 3 and the pole pieces 5 so that the axes of the springs 7 and the longitudinal axes of the pole pieces 5 are located in the same vertical planes, wherein the channel 6 is installed between the poles with the possibility of movement in the horizontal plane.

The separator works as follows.

In the operating mode, the electromagnetic system together with the working channel installed in it is installed at a certain angle to the horizon (almost 15-20 °), sufficient for the flow of suspension through the working channel by gravity, then using a feeder (Fig. 2) or some other devices are slurried into the working channel, and magnetizing coils 2 are connected to a DC source. In this case, the coils 2 are magnetically opposed, therefore the main part of the magnetic flux will close in the working gap between the upper pole 3 and the end surfaces of the pole pieces 5, i.e. in the areas where the springs 7 are located (see Fig. 2). As a result, the ferromagnetic mass of the springs 7 is strongly magnetized and, thus, a high-intensity and high-gradient magnetic field is created in local volumes inside the working channel. At the same time, due to the placement of the ferromagnetic spring masses 7 in relatively small gaps between the flat surface of the upper pole 3 and the face faces of the pole pieces 5, the fraction of the magnetic flux in the electromagnetic system increases significantly, as a result of which the scatter flux decreases, which reduces the metal intensity and the power consumption of the electromagnet, and hence the separator as a whole.

Under the action of the magnetic field of the spring 7, electromagnetic forces will act, tending to press the springs against the end-surfaces of the pole pieces 5, and since

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the edges of the springs are permanently attached to the side walls of the chute 6, the springs in an operating mode bend in vertical planes (almost along an arc pressed to the bottom of the chute 6), which is equivalent to some stretching of the springs necessary to ensure a sufficiently free flow of suspension between the turns of the springs. In the process of passing the suspension through the working channel (along arrow C in Fig. 2), under the pressure of the suspension flow, the springs 7 are additionally bent in a horizontal plane, which is equivalent to additional stretching of the springs, and thus, additional opening of the springs is realized, which helps to maintain a sufficiently free passing the suspension between the coils of the springs as the pressure of the suspension of the suspension increases; In this case, the metal impurities contained in the flow of the suspension in their overwhelming mass are mechanically in contact with amagnichennoy ferromagnetic mass springs 7 and intensively deposited on coils of the springs, and thus purified slurry passes freely by gravity through the working channel and supplied to any receiver.

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As the ferromagnetic metal impurities accumulate on the turns of the springs 7, they are periodically unloaded. For this purpose, the supply of the suspension to the working channel is stopped and the coils 2 are disconnected, after which the working channel is extracted from the electromagnet and the metal impurities are removed from the channel, for example, by washing the channel. In this case, due to the elastic forces of the spring 7, they are compressed, again taking the original

position, due to which the extracted metal impurities are mechanically pressed between the coils of the springs, which virtually eliminates the fall of the metal impurities and their contact with the end surfaces of the sufficiently magnetized pole pieces 5 in the process of excavation of the working channel, i.e. in the process of moving the channel in the horizontal plane (towards the arrow C). This eliminates the need to clean the pole pieces 5 from metal impurities during each discharge cycle.

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Claims (1)

Invention Formula Electromagnetic separator, which includes an electromagnetic system with pole pieces located above and below along the length of the transporting separable material chute, characterized in that, in order to increase efficiency by expanding the range of the class of recoverable particles during the separation of suspensions, it is equipped with a polygraph Dental elements installed with a gap relative to each other between the side walls of the chute perpendicular to the longitudinal axis and made in the form of cylindrical extension springs, while the lower poles are installed with a gap relative to each other, the installation step and their longitudinal axes coincide with the spacing of the springs and their longitudinal axes. 1D Gu h R one /.J WWWVWW WW WWW / five H 7 t I J ± 7 / /.J Z-T FIG. 2