DE3337145A1 - STARKFELD-MAGNETSCHEIDER - Google Patents

Description

Dr.-Ing. Dr. jur. VOLKMAR TETZNER v «* c« * h.si ™ ee3 3337145

8000 MÖNCHEN 71 LAWYER and PATENTANWALTY j _Te , _{efon; (M9) 79 88 03}

Telegrams: "Tetzner patent Munich" Telex: 5 212 262 p.Ue d

P 5554

Strong field magnetic separator

The invention relates to a strong field magnetic separator according to the preamble of the claim 1.

Strong field magnetic separators, as they are in particular used for sorting weakly magnetic minerals contain "a number of opposing surface poles and cutting edge poles to generate strongly converging ones Magnetic fields. The turbidity here penetrates the flow channels between the poles of the surface and the poles of the cutting edge, the of Magnetic particles carried along with the sludge by the strongly converging magnetic field the cutting edge poles (for example toothed plates) are guided and adhere there.

The success of the separation is determined, among other things, by the differences in field strength. For example the surface and cutting edge poles are formed by plates that have a flat surface on one side and on the other hand ribs with a triangular cross-sectional profile, this is the rule

Maximum of the field strength in the area of the rib crest and the minimum of the field strength in the area of the rib base.

Now the selectivity of a magnetic separator is determined by its ability to remove particles different mass and different magnetic susceptibility to deposit. Magnetic and non-magnetic particles are almost evenly distributed in the flow space. In order to be able to polarize small magnetic particles in the area of the bottom of the rib, is a minimum field strength is required there. At this value the minimum field strength in the range of the rib base results in a correspondingly higher field strength at the rib crest, through which then larger, but specifically weaker magnetic particles, which in themselves are in the non-magnetic Discharge should be attracted to the rib comb.

The invention is therefore based on the object of developing a strong field magnetic separator which is characterized by a greater selectivity. 25th

This object is achieved according to the invention by the characterizing features of claim 1 solved.

By subdividing the space between the surface pole and an opposing cutting edge pole into one with a non-magnetic, wear-resistant one

f 3337H5

Material-filled space of low field strength and a flow channel for the pulp forming In a room with high field strength, the field strength difference within the flow channel is more desirable Way reduced. This reduces the risk of large, but specifically weaker magnetic ones Particles in the area of the highest field strength are drawn to the cutting edge pole and thus separated.

The boundary between the space filled with non-magnetic material and the space expediently runs the flow channel for the space forming the sludge approximately along an area of the same field strength. The selection of this area results from a compromise between the desired values the throughput rate and the selectivity.

An embodiment of the invention is illustrated in the drawing. Show it 20th

Fig. 1 is a schematic representation of a known strong field magnetic separator.

Fig. 2 is a diagram showing the course of the magnetic forces in the in Fig. 1 with

χ reproduces the designated space,

Fig. 3 is a schematic representation of the strong field magnetic according to the invention ^ O Scheiders.

Q 3337U5

-A -

The known strong-field magnetic separator schematically illustrated in FIG. 1 contains a Number of opposing surface poles and cutting edge poles, which are defined by plates 1 are formed, which on one side has a flat surface 2 and on the other side ribs have a triangular cross-sectional profile. The plane surface 2 here forms the Surface pole and the ribs 3, the cutting edge poles.

Between the plane surface 2 and the ribs 3 there is a flow channel 4 for the pulp, which contains the magnetic particles to be deposited.

FIG. 2 shows the course of the magnetic forces (relative values) within that designated by χ in FIG Area. The amounts vary between 0.5 66 (maximum) at the rib crest and 0.005 (minimum) im Area of the bottom of the ribs. This large area has the consequence that one is in its magnetic Susceptibility and grain size very heterogeneous mixture is stimulated in a wide range. From it the result is a poor degree of separation.

In the solution according to the invention shown in Fig. 3, on the other hand, the space between the Surface pole (plane surface 2) and the opposing cutting edge poles (ribs 3) into one with non-magnetic, Wear-resistant material-filled space 5 of low field strength and a space 6 of high field strength which forms the flow channels for the pulp divided.

3337U5

The space 5 filled with non-magnetic material extends from the plane surface up to the rib base 7, while the space 6 forming the flow channels for the pulp is the rib Comb 8 encloses and ends in the region of the rib flanks 9.

The boundary 10 between the spaces 5 and 6 is approximate in the exemplary embodiment according to FIG. 3 designed circular arc. This limit expediently follows an area of the same field strength.

In Fig. 2 three lines of the same field strength (and thus the same magnetic Force) for the relative values 0.05, 0.03 and 0.02.

Claims (3)

Patent claims: 1. Strong field magnetic separator containing a number of opposing surface poles and cutting edge poles for generating strongly converging magnetic fields, with between the surface poles and cutting edge poles There are flow channels for the pulp, characterized, that the space between the surface pole (2) and an opposing cutting edge pole (3) in a space (5) filled with non-magnetic, wear-resistant material with a low field strength and a flow channel for the pulp forming space (6) high field strength is divided. 2. Magnetic separator according to claim 1, characterized in that that the boundary between the space (5) filled with non-magnetic material and that which forms the flow channel for the pulp Space (6) approximately the same along an area ^25th Field strength runs. 3. Magnetic separator according to claim 1, in which the surface and cutting edge poles are formed by plates that have a flat surface on one side and ribs on the other having a triangular cross-sectional profile, characterized in that the 3337Ί45 with non-magnetic material filled space (5) from the plane surface (2) of a plate (1) to extends to the rib base (7) of the adjacent plate, during which the flow channel for the pulp-forming space (6) encloses the rib comb (8) and in the region of the rib flanks (9) ends.