FR2464752A2 - MAGNETIC SEPARATOR - Google Patents

Abstract

MAGNETIC SEPARATOR, IN PARTICULAR WITH A DRUM, IN WHICH THE MAGNETIC FIELD CREATED BY SEVERAL MAGNETS EXTENDS IN A SPACE MAGNETICALLY IN DIRECTION OF THE SEPARATION ZONE, THE MAGNETS BEING ARRANGED IN THE SAME DIRECTION AND THE CONDUCTING COILS OF THE MAGNETS BEING ELONGATED . THE CONDUCTIVE COILS OF ELONGATED SHAPE 2, 5 OF THE VARIOUS MAGNETS ARE ARRANGED SIDE BY SIDE IN THE DIRECTION OF THE LONGITUDINAL AXIS 3 OF THE DRUM AND THE CONDUCTING COILS - VIEWED IN THE CIRCUMFERENTIAL DIRECTION OF THE DRUM - HAVE AN APPROXIMATELY APPROPRIATE DRUM CURVATURE 1.

Description

1.

  The invention relates to a magnetic separator

  particularly with a drum, intended to separate

  magnetisable and non-magnetisable cells in a separation zone.

  magnetic flux, the magnetic field pro-

  by magnets or magnet systems extending in a magnetically open field space towards the separation zone, the magnets or magnet systems being arranged in the same direction and the conductive coils of the magnets or magnet systems being

  magnets being elongated, according to the main patent.

  In the magnetic separator known by

  the main patent, the conductive coils of elliptical shape

  magnets are arranged in such a way that their longitudinal axes lie in the longitudinal direction of the

  drum. In this way, we get an open field in the-

  which it is constituted, between the different magnets or system

  magnets, opposite poles that lead to greater

  density of lines of force and therefore an increase in

  these magnetic parallel to the longitudinal axis of the system

  drum, for the same number of magnets or systems of

  mants. In addition, thanks to this constitution and

  of the different magnets or magnet systems, a special constitution of the

  which, in relation to magnets or magnet systems

  can be used to fill relatively

  large in a magnetic field.

  The invention aims to improve this

  magnetic separator known by the main patent, in particular

  in the field of magnetic field

  This problem is solved thanks to the fact that

  elongated conductive bins of different magnets

  are arranged side by side in the direction of the longitudinal axis

  dinal the drum and that the conductive coils - seen in the circumferential direction of the drum - have a shape roughly adapted to the curvature of the drum. In this way,

  the width of the field can be very advantageously extended.

  gnetic over the entire length of the drum. This allows optimal use of the magnetic drum and therefore larger material flow rates. In addition, very advantageously, by adding or subtracting conductive coils, the width of the magnetic field can be varied at will and thus have an influence on the materials to be separated. Therefore, the arrangement according to the invention of elongated conductive coils on the magnetic separator very advantageously allows individual adaptation to

  separate from each other in each case.

  According to one embodiment of the invention,

  the conductive coils have elliptical windings

  or arranged on racetrack track ("race-track"). This gives a particularly advantageous form of

conductive coils.

  According to another advantageous embodiment of the invention, the windings of the conductive coils are arranged, in the region of the small axis of the ellipses, with increasing spacings towards the outside. In this way, by changing the curvature of the different coil layers in

  the region of the small axis of the ellipses, one can obtain a

  induction, which reduces the forces

  thanks to which we obtain, again, an extrac-

  easy mechanical action of the magnetic product.

  According to one embodiment of the invention, the different conductive coils have a shape roughly

  in D. Conductive coils of this kind are particularly

  simple and inexpensive to manufacture.

  According to another embodiment of the in-

  the conductive coils are arranged adjustably, individually or as a whole, in the

  circumferential direction of the drum.-Thus, he left

  easy to adapt the magnetic force field

  the special needs of the materials to be separated.

  Other details, features and advantages of the invention will become apparent with regard to the exemplary embodiments shown schematically in the accompanying drawings in which - FIG. 1 shows in perspective a separator

  magnetic drum according to the invention provided with coils con-

  conductors of elliptical form; FIG. 2 shows in perspective a magnetic drum separator according to the invention provided with conducting coils in D. As shown in FIG. 1, in FIG.

  drum 1 of a magnetic drum separator are

  side by side in the direction of the longitudinal axis

  3 of the drum, conductive coils 2 of elliptical shape

  than or on the track. The longitudinal axes of these conductive coils 2 are located in the circumferential direction of the drum. These conductive coils, which are superconducting and are deflected by 90 relatively

  the conductive coils of the main patent, are

  streets by the current in the same direction, as shown by

the arrows 4.

  Thanks to the constitution and the

  given according to the invention to the conductive coils

  2, very advantageously a magnetic field is obtained.

  particularly uniform, extending over the entire length of the drum. Thus, not only is optimal use made of the magnetic field, but the magnetic drum separator is also optimally utilized. In addition, the conductive coils 2, which can be both without iron with

  iron core, are adapted to the curvature of the lateral wall.

  1 of the drum. This results in a particularly uniform field intensity throughout the region of action of the

  magnetic field generated by the conductive coils.

  The conductive coils 2 can also

  very advantageously be arranged in an adjustable manner,

  individually or as a whole in the direction

  drum conference. In this way, it is

  particularly easy to adapt the magnetic separator to

  drum according to the invention to the materials which are to be

  in the case in point, in particular the properties

  materials and their composition. In addition,

  According to the invention, it is also possible to modify the width of the magnetic field by removing or adding conductive coils so that it is also possible, by this means, to easily influence the materials to be separated. each other in each

  case. The windings 2 'of the conductive coils 2 can

  also very advantageously, as shown in Figure 1, be arranged with increasing spacings towards

  1o the outside in the region of the small axis of the ellipses.

  Thus, very advantageously, it is ensured in the region of

  small axis of ellipses a decrease in magnetic forces

  compared to the regions of the conductive coils

  between the centers of the ellipses, which

  vorise the extraction of the magnetic product.

  Furthermore, as shown in FIG. 2, the conductive coils 5 according to the invention can also

  very advantageously to have a D-shape. These coils con-

  5 are particularly distinguished by their

simple and economical cation.

Claims (6)

R E V E N D I C A T IO N S   1.- Magnetic separator, in particular   drum link, intended to separate magnet particles   and non-magnetizable in a separate zone of separation   magnetic flux, the magnetic field produced by a plurality of magnets or magnet systems extending in a magnetically open field space towards the separation zone, the magnets or magnet systems being arranged in the same direction and the conductive coils of the magnets being of elongated shape, according to the main patent, magnetic separator characterized in that the elongated conductive coils (2, 5) of the different magnets   are arranged side by side in the direction of the long axis   of the drum and that the conductive coils-seen in the circumferential direction of the drum-have   a pace roughly adapted to the curvature of the drum (1).   2. Separator according to claim 1, characterized in that the conductive coils (2, 5), in their longitudinal extension, are substantially located in the direction of the circumference of the drum, preferably   transversely to the axis (3) of the drum.   3. Separator according to one of the   1 and 2, characterized in that the conductive coils   (2) have elliptical windings (2 ') or arranged in racetrack track.   4. Separator according to claim 3,   characterized in that the windings (2 ') of the coils con-   ductors are located in the region of the minor axis of   ellipses, with increasing spacings to the outside.   5.- Separator according to the claims   1 and 2 characterized in that the conductive coils (5) have a shape roughly in D. 6.- Separator according to any one   Claims 1 to 5, characterized in that the coils   conductive elements (2, 5) are arranged in an adjustable manner, indi-   or in their entirety, in the direction drum lecture.