DE275928C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 275928 CLASS 1 b. GROUP

is abandoned.

Patented in the German Empire on June 29, 1913.

When separating heavily magnetizable substances, disturbances are often found in the highly concentrated ones Magnetic fields instead of the more easily magnetizable substances present in the material to be cut. Especially with Scheidern, in which the material to be cut is placed on a magnetized cutting surface, makes itself felt this drawback is noticeable by the easily magnetizable substances also outside the

ίο No magnetic fields from the discharge body can be rinsed off well. These substances thus gradually accumulate so that the non-magnetizable parts of the material to be cut behind the easily magnetized store spare parts and thus do not flow out in time or not at all, so that the divorce is adversely affected.

When it comes to the divorce of matter, which is best in the way let divide that you give up the material to be cut on a magnetized surface, z. B. fine Sludge, you could so far through the more easily magnetizable in the material to be cut Particles disturbances and impurities of the excreted heavily magnetizable Substances due to non-magnetisable goods, which are caused by the easily magnetisable substances on the Do not avoid vaginal surface with excreted. These could be more easily magnetized Do not simply separate particles from the cutting surface itself beforehand.

The invention is intended to ensure that the material to be cut before it is in the actual Intensive cutting field arrives through a magnet on the discharge body or on the cutting surface associated pre-separator ring is freed from the more easily magnetizable substances.

All the advantages that a separator has for certain substances in which the divorce takes place on a cutting surface, are thus retained in the subject matter of the invention. For The special genre of separators still has the advantages of the well-known zone separators added.

In the known zone separators, the heavily magnetizable substances or all Well-separating materials are lifted out of the material to be cut by magnetized blades and discharged laterally, while with separators, in which the material to be cut is on a cutting surface is abandoned, the magnetizable substances that are to be excreted, not need to be drawn to cutting edges that go beyond it, but only something have to move sideways in order to remain lying there and by the peculiarity of the whole Scheiders to be carried out. The well-known zone separators enable sharp excretion Easily magnetizable substances from the material to be cut before the same is applied to the actual material strong magnetic field arrives. This advantage is now also in accordance with the invention Separating, in which the material to be cut is placed on a cutting surface, is also achieved.

Furthermore, according to the invention, the separating ring should be designed so that the elimination of the more easily magnetizable substances

by the pre-selection ring also happens in two different ways, firstly by the The material to be cut is guided under ring-shaped cutting edges or ring-shaped zones, and secondly in that the material to be cut slides over ring-shaped cutting edges. In the former divorce the most easily magnetizable and coarser substances are excreted and in the second separation the finest, more easily magnetizable substances.

In the drawing, the subject of the invention is, for example, on a ring separator attached to the lower rotating bell, the edge of which serves as a separating surface and discharge body.

Fig. Ι represents a vertical section,
Fig. 2 is a plan view.
The magnetic coil b is located around the magnetic core α. The foot end of the magnet core α is surrounded by a rotatable bell c , while a plate with several pole pieces d lies on the head end. These individual poles d therefore have a different polarity than the bell c or its upper surface, which serves as a cutting surface at the points that are below the poles d. A ring e made of magnetizable material with ring-shaped cutting edges 0 and ft is attached to the bell c so that a magnetic field is created between the cutting edges 0 and ft of the ring e and the poles d which is naturally weaker than that between the bell c and the Poland d. The bell c and ring E are brought by the worm drive in in rotation. The whole rests on the block η.

The way it works is as follows:
The material to be cut is brought into the funnel / from which it runs onto the four chutes f . The material to be cut runs on these chutes under the ring e or under the magnetized cutting edges 0 . The cutting edges 0 lift magnetisable materials out of the material to be cut. The magnetization of these cutting edges is considerably less at the points on the ring e that are not above the poles d. The points of the cutting edges, which are located above the poles and above the chutes f and thus above the material to be cut, are magnetized, pull magnetisable materials out of the material to be cut and, as they continue to rotate between the poles, become again in the axes AA and BB (plan view) demagnetized or weaker magnetic, so that the adhering, discharged material can easily be brushed off or brushed off at these points. After it has slid under the cutting edges o, the material to be cut runs onto the ring-shaped cutting edge ft, on which magnetizable materials are also separated from the material to be cut by sticking to the cutting edge and being discharged by rotating the same. The material to be cut only then reaches the actual cutting surface on which the heavily magnetizable substances are attracted and adhere and are also discharged, while the non-magnetizable substance slides over the rotating cutting surface and falls into the container h. The heavily magnetizable substances that remain on the sheath surface are sprayed off the sheath surface and get into the container i as soon as the sheath surface is no longer under the fixed poles d and is therefore no longer strongly magnetized. The products discharged through the ring e enter the container k. From these containers, which together form an annular channel with partition walls, the individual products can run out through the outlets h ¹ , i ¹ , k ¹ into a rotating three-compartment channel q which they can then run out through recesses in the bell c in a fixed, three-compartment channel r lying outside the bell c.

The subject of the invention can also be used for ore separators with a fixed cutting surface and rotatable upper poles can be used. The pre-selection ring is then also fixed. The more easily magnetizable substances separated by the pre-separator ring can also with the heavily magnetizable ones excreted through the cutting surface or discharge body Substances are brought together and derived together.

Claims (2)

Patent Claims: 1. Electromagnetic ring separator, in which the sludge is deposited on an annular separating surface is abandoned, characterized in that the cutting surface is magnetically connected to a pre-cutting ring. 2. Electromagnetic separator according to claim 1, characterized in that the pre-cutting ring consists of several ring-shaped cutting edges which are arranged in this way are that the material to be cut is partly through the cutting edge, partly through the cutting edge is carried away. 1 sheet of drawings.