DE238352C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 238352 CLASS \ b. GROUP

FRIED. KRUPP ACT.-GES. GRUSONWERK in MAGDEBURG-BUCKAU.

Magnetic separator with fixed in a circle around a stationary axis arranged magnets, over which a magnetizable, rotatable about this axis, the magnet as a common anchor

and a ring serving opposite pole circles,

Patented in the German Empire on January 13, 191t.

Magnetic separators are already known in which they are in a circle around a stationary axis Magnets are fixedly arranged, over which a magnetizable, rotatable about this axis Ring circles, which serves the magnets as a common anchor and counter pole. That Roligut is passed through the field gaps of the individual magnetic fields. The magnetic one Good is attracted here by the rotating ring and guided out of the magnetic fields; it falls in the space between two adjacent magnetic fields.

In these known devices it has been shown that strongly magnetic material, such as z. B. magnetite, roasted iron stone, when passing through a magnetic field not only from the upper orbiting magnetic pole, but also from the lower stationary one is influenced, and often to such an extent that it affects the raw material feeding funds accumulates in the magnetic field. Furthermore, it is not when the goods are passed through the field gap possible to process goods of significantly different grain sizes at the same time. That the same applies to raw material of coarser grain,

z. B. those whose grain size exceeds 7 mm.

It is now the purpose of the invention to remedy these drawbacks. This purpose will achieved by the fact that besides the magnetizable, the magnet as common Armature and opposite pole serving ring a second non-magnetizable rotatable ring the Magnets and the field gap of the magnetic fields against the work material. the Rings can be connected to each other or independent of each other around a common Axis be rotatable. In the latter case, they can have different rotational speeds from each other.

The device forming the subject of the invention is shown in FIGS. 1 and 2 of the drawing illustrated in vertical section in some embodiments.

It will first be described the Ausführungsforni according to Fig. Ι.

A number of magnets b, which have a common core α and which are excited by a coil c in the embodiment shown, lie in a circle around a stationary axis. A shaft d, the axis of which coincides with the axis of the magnets and which passes through a

any drive, ζ. B. bevel gears β, f, can be set in rotation, carries at its upper end a non-rotatably connected to it disk-shaped body g. A magnetizable ring i is attached to the downwardly bent edge h of the body g , which ring serves the magnet b in a known manner as a common armature and opposite pole. The ring i carries a second, but non-magnetizable ring k, which is intended to cover the magnets b and the field gaps of the individual magnetic fields after the device feeding the raw material. Feeding channels m, which are distributed so that a channel m is arranged for each of the magnets b, serve to feed the raw material. If necessary, the feed chutes can be given a shaking or vibrating shock movement by any device not shown in the drawing.

The mode of operation of the device is as follows: The raw material is fed to the feeder chutes m by means of any device and fed to the individual magnetic fields into which it arrives at the lower end of each feeder chute m. The magnetic good is then attracted to both poles, magnetic pole b and opposite pole i, of each magnetic field at the same time. While the non-magnetic material is diverted downwards at the lower end of each channel m , the magnetic material collects on the rings i and k , is guided by these from the individual magnetic fields and falls down in the space between two adjacent magnets b . In order to prevent the magnetic material from reaching the next magnetic field when the armature ring ί rotates rapidly, a spray device (not shown in the drawing) can be placed between two adjacent poles b:

Strings, a brush, etc. are switched on.

In the embodiment according to FIG. 2, the non-magnetizable ring k, which covers the field gaps and magnets against the work piece, is rotatably mounted about the same axis independently of the magnetizable ring i. It is carried by a disk η which sits rotatably on the shaft d and is mounted on the disk g carrying the magnetizable ring i . The disk η and the shaft d obtained by means of a differential gear p, q, r, s from each other different rotational speeds, and zwat in the embodiment shown in such a way that the shaft d carrying the magnetizable ring i rotates more slowly than that carrying the non-magnetizable ring k Disc n.

The non-magnetizable ring k here also covers the magnetizable ring i , which in this arrangement of the ring k prevents magnetic material from getting between the two rings into the field gap. The magnetic material collects here only on the non-magnetizable ring k .

On its right and left halves, FIG. 2 has two different embodiments of the non-magnetizable ring k . The embodiment illustrated on the right half of FIG. 2 is used when the poles are arranged directly one above the other. The embodiment of the ring illustrated on the left half of FIG. 2 applies to a pole position according to FIG. 1.

It can be seen from the above that the invention not only eliminates any harmful influence of the lower magnetic poles b of each magnetic field, but also achieves that these poles support the attraction of the magnetic particles. The non-magnetizable ring k prevents magnetic material from getting on the lower. fixed pole b attaches or enters the field column. Since the width of the field gap of each of the magnetic fields is independent of the grain size, the field height can be selected to be small and, as a result, a strong magnetic field can be generated with a relatively low power consumption. As a result, raw material of various grain sizes, e.g. B. those of the finest grain up to about 50 mm grain size, can be processed at the same time without the need to change the width of the field gap.

The large pieces are grabbed and carried by both poles of each field while they are in the magnetic field, in the embodiment according to FIG. 1 from the upper pole (armature ring i) directly, from the lower pole (magnet b) by means of this pole covering ring k, in the embodiment according to FIG. 2 of both poles by means of the ring k.

The position of the feed device can either be chosen so that the path of the fed material the path of the separated magnetic material in any direction crosses, or in such a way that both paths run parallel, in the same way or in opposite directions Direction.

It should also be emphasized that separators set up according to the invention for both wet as well as dry reprocessing can be used.

Claims (1)

Patent claim:
Magnetic separator with magnets fixedly arranged in a circle around a stationary axis, over which a magnetizable ring, which can be rotated about this axis, serves as a common armature and opposite pole for the magnet, revolves, characterized in that a second, but non-magnetizable, rotatable around the same axis, Ring (k) the magnets (b) and. Covering field gaps against the material to be worked, the speed of rotation of this ring being the same as or different from that of the magnetizable ring. For this purpose ι sheet of drawings.