DE468936C - Secondary pole formation with magnetic drum separators for coarse material - Google Patents

Description

Secondary pole formation in magnetic drum separators for large pieces Good Magnetic drums are mostly used for the magnetic separation of lumpy ores, on the outside of which the divorce takes place. This shows the evil, that the spherical pieces of ore have only one or very few points on the attractive cylinder surfaces of the drum. Bigger spherical heavier ones Pieces therefore fall off earlier than flat and lighter pieces of the same permeability. Attempts have been made to remedy this drawback by using beveled rings or stepped rings Rings between which the material to be cut would be stored, according to patent specification 288155 to eliminate. Here, however, the spherical pieces are not the strongest attractive step edges, but they are stored only on one point of the after outside magnetic increasingly weaker step edges.

The present invention overcomes these deficiencies. the Pieces of ore are brought into indentations that run in a cross shape or similar Field gaps are formed so that the rounded pieces of ore with multiple points lie in the cross-shaped field gap. This results in a much better adhesion of the large heavy spherical pieces of ore obtained. It can be z. B. also proportionate separate large, difficult to magnetize pieces of ore with the same drum diameter and like electrical. Energy expenditure could not be eliminated so far. It will this magnetic separator with grooves in the pole pieces is known per se provided.

In Fig. I to 5, two embodiments are shown.

Fig. I shows a vertical section through the magnetic drum, Fig. 2 a view, Fig. 3 a longitudinal section of the same.

To the fixed magnet system, consisting of the magnet core a, the primary magnetic poles b and the magnetic coils c, the drum shell d rotates with it the secondary pole rings e. These rings are made of good magnetic material, e.g. B. wrought iron, and form with their opposite edges on the material to be cut attractive secondary poles. However, these edges do not run like they did before Circular designs on the circumference, but they form one behind the other on the circumference Hollows or notches. These recessed indentations or notches can be made Compound straight lines or curves that define the cutting debris include in scrap movement. The new effect can be seen in Figs. 6 to 9. With most magnetic separators, the spherical pieces of ore only stand on one Points in contact with the cylindrical surface (Fig. 6). With stepped offset, but otherwise cylindrical rings, as in patent z88 i55, is a spherical piece of ore only at two points with the most strongly magnetized step edges brought into contact (Fig. 7). The ones indicated in this figure outer points show the points of contact with the magnetically much weaker outer ones Step edges. The latter contact makes the magnetic attraction very little improved.

Fig.8 shows the two lines of contact of the spherical piece of ore with the opposing trough-shaped secondary pole ring edges formed. These hollow edges are interrupted at the deepest point to create an even stronger one To achieve concentration of lines of force and to obtain a cross-shaped field (Fig.9). A spherical piece is thus held magnetically much better here than with all of them previously known facilities. It is clear that this creates the strongest attraction is achieved.

Claims (1)

PATENT CLAIM: Secondary pole formation in magnetic drum cutters with Ring pole pairs encompassing the sides in the direction of the drum axis on the drum, characterized in that the pole rings in the circumferential direction are provided with trough-shaped recesses, such that the line of the field gap abandoned Gutsstück in both directions of the drum circumference of pole faces are included, the resulting, the individual Gutsstück laterally all around gripping shells also in the direction of the drum axis of pole edges of the longitudinally subdivided or toothed drum rings are traversed.