DE265032C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

JVI 265032 -. ■■ CLASS 1 h. GROUP

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

There are a number of smaller plants that process separately extracted ore types are whose magnetic properties are very different, and their delivery rate is changing. Did you want a special magnetic separator for each type of ore? set up, none of these separators would be related to the changing flow rate its magnetic structure fully exploited

ίο be. According to the invention, the Ore types in a common magnetic separator at the same time but separately processed from each other. This is achieved in that the magnetic field is concurrent divided with the Gutsführung in subfields of mutually different field strengths will. In order to determine the field strengths of the individual subfields the various magnetic The field gap widths of the subfields are to be adapted as much as possible to the properties of the ore types independently adjustable. The changing flow rate and one full use of the magnetic structure is achieved by varying the width of each the devil taken into account.

The invention can be embodied in various ways and can be used with all separators find, in which the material is introduced into the field gap and the path of the supplied material to be separated with the material of the discharged magnetic material is synchronous.

In the drawing, the invention is for example in one embodiment on a roll cutter illustrated.

FIG. 1 shows an axial, vertical longitudinal section through the roller cutter and FIG. 2 shows a section at right angles to the roller axis along the line AB in FIG.

α is the upper and b the lower pole of the separator. A cylindrical intermediate pole rotates between the two. This intermediate pole consists in a known manner of a number of rings d 'which are strung together on an axis c and appropriately sharpened around the circumference. These are held in their position on the axis c by a collar e and a nut f . The axis c is driven by any drive, e.g. B. pulley g rotated. Between the rings d of the roller pole and the lower pole b , the feed device for the material to be cut goes through.

In order to be able to separate ore types with mutually different magnetic properties and variable conveying quantities at the same time, the lower pole is divided into lamellae k in the same direction as the material supply. In the illustrated example, the number and thickness of the lamellae are expediently chosen to be equal to the number and thickness of the rings d , so that a lamella k is positioned opposite each ring d. The lamellas are adjustable in the direction of the attractive intermediate pole in order to change the field gap width, e.g. B. by screw bolts m. They can be combined into groups of different widths (ie number of lamellas) and field gap widths. Three such groups are illustrated in the drawing. y ₀

The scrap of each group is given up at. «. In the individual subfields of the magnetic field, the magnetic material is attracted to the cutting edges of the rotating rings d, then guided out of the field by them and finally, if it does not fall off by itself, mechanically, e.g. B. removed by sprayers. The discharge takes place through a channel j>, while a channel q is used to discharge the non-magnetic material. In order to take into account the variable width of the subfields, the feed device h and the channel fi, if necessary also the channel q, z. B. be equipped with sliding partitions, not shown in the drawing. However, separate, easily exchangeable feed and discharge devices could also be provided.

Instead of the intermediate roller pole which discharges the magnetic material, it could also be a other discharge means can be used.

The decomposition of the magnetic field could also be achieved in such a way that one of the poles, e.g. B.

in the embodiment of the separator shown in the drawing, the lower, or also both fixed poles from parallel with the material feed lying next to each other, interchangeable pole pieces of different width and height exist.

The formation of sub-fields of different thickness and width can also be achieved by grading the roller, e.g. B. by the fact that the rings, as is known per se in roll cutters, are different diameters and make them interchangeable. Furthermore, the arrangement of pole lamellas can be combined with the arrangement of rings of different diameters. In the embodiment shown, the material is passed between the roller and the lower pole b . It could also be passed between the roller and the top pole. In this case one would expediently undertake the decomposition of the magnetic field into the partial fields identified above by the upper pole.

Claims (5)

Patent claims: 1. Magnetic separator, in which the material to be cut is introduced into a field gap is, characterized in that the magnetic field concurrently with the Gutszuführ in subfields of each other different field strength is decomposed. 2. Magnetic separator according to claim 1, characterized in that the field gap widths of the partial fields are independent of one another are changeable. 3. Magnetic separator according to claim 1 and 2, characterized in that the Width of the subfields can be changed. 4. Magnetic separator according to claim 1, characterized in that for formation of the changeable subfields of one of the poles or both of them running at the same time as the material feed are divided into slats, which can be adjusted independently, so that they can be changed in groups Width and field gap width can be combined. 5. Magnetic separator according to claim 1, characterized in that the subdivision of the magnetic field by graduation of the roller, possibly in connection with a corresponding gradation of an or both poles takes place. 1 sheet of drawings