DE1009571B - Strong field magnetic separator (with grooved opposite pole) - Google Patents

Description

GERMAN

The invention deals with a strong field magnetic separator with a rotating roller discharge body on the Material passage through the air gap of the magnetic frame for fine and very fine-grained goods, which are particularly suitable for the separation of weakly magnetic ores.

In the case of the known roll cutters, one uses to separate weakly magnetic and weaker ones magnetic or non-magnetic components have two opposing forces, namely the force of attraction a convergent magnetic field that drives the stronger magnetic particles towards the discharge roller, and the centrifugal force created by the rapid rotation of the roller on the circumference of the roller adhering particles and tries to throw them off the roller. Must be with the roll cutters hence the separation of the particles of higher susceptibility from those of lower susceptibility all the more become cleaner, the stronger the induction and the greater the convergence of the magnetic field.

The increase in induction is now due to the magnetic saturation in the discharge rollers and the Limitation of the possible ampere turns on the magnetic separators of usual size economical and technical limits. The convergence of the magnetic field cannot be increased at will either, without exceeding the economic dimensions of the magnetic separator.

The invention now increases the convergence of the magnetic field and the induction at the one for the separation of the goods crucial points of the air gap without increasing the number of ampere turns at given Dimensions of the magnetic separator and achieved this in that in the the roller discharge body opposite pole one or more grooves are provided, which through a non-magnetic Covered or filled in. With such grooves you can see the convergence of the magnetic field one or more places in the air gap for the passage of goods on both sides of the grooves considerably increase and at the same time increase the induction on both sides of the grooves with constant flow. The grooves also considerably weaken the field in the area of the grooves, so that already Good adhering to the discharge roller is loosened up again and relocated. This will be about trapped non-magnetic particles released and thrown off. In this way one achieves with the invention at the same time a greater selectivity and greater throughput.

Experiments have shown that z. B. the throughput a strong field magnetic separator through a groove in the pole by around 60% and the enrichment in an iron ore concentrate from 31 to 34% with approximately the same metal yield.

Strong field magnetic separator
(with grooved opposite pole)

Applicant:

Ore mining Salzgitter Aktiengesellschaft, Salzgitter-Bad

Dipl.-Ing. Arnold Goltz, Salzgitter-Gebhardshagen,

and Dipl.-Ing. Kurt Neumann, Salzgitter-Bad,

have been named as inventors

The groove is in the invention with a, non-magnetic Fabric covered or filled in. To cover you can z. B. high-manganese sheet metal use. Covering or filling the groove avoids the clogging of debris in the groove and thus the blockage of the passage gap.

If you only provide a single groove on the opposite pole, then it is advisable to use this groove in the direction of passage of the good seen to provide something in front of the symmetry line of the pole. The place strengthened Field convergence behind the groove then coincides with the narrowest point of the air gap.

In the case of magnetic separators, in their magnetic frame there are several discharge rollers with an associated air gap are, you can the groove or grooves according to the invention on all of the discharge rollers opposite Poland provide.

The drawing shows an exemplary embodiment for a magnetic separator with a discharge roller schematic representation.

On the pole frame 1 with the excitation coil 2 is a discharge roller rotating in the direction of the arrow 3 4 is provided, which can be corrugated in the usual way. The discharge roller 4 is at rest Opposite pole 5 of the magnet frame 1 opposite. In the opposite pole 5 is parallel to the axis of rotation of the discharge roller a groove 6 included, which is covered with a non-magnetic plate 7 in the example. In the Flooding through the pole frame 1 therefore forms places of strong field convergence above and below the groove 6 and high induction.

In the example, the material to be separated is opened onto the air gap through the chute 8 in the direction of arrow 9.

709 547/119

given, the particles having higher susceptibility be driven to the discharge roller 4 by the high field convergence in front of the groove 6. In the field of At groove 6, the field is then suddenly weakened. This leads to a rearrangement of the Roller 4 adhering particles and for centrifuging possibly between the stronger magnetic particles trapped non-magnetic particles. Behind the groove there is another point of strong field convergence, those for the strong adhesion and the drive possibly still free magnetic particles to the Discharge roller 4 ensures. Below the air gap, the material is separated into magnetic (arrow 10) and non-magnetic (arrow 11), dissipated. For better acceptance of the magnetic goods, one can go to the Provide a scraper brush at the lowest point of the discharge roller, which is not shown in the example.

Claims (2)

Claims ·. 1. Strong field magnetic separator with rotating roller discharge body through the material passage the air gap of the magnetic frame for granular goods, especially for the separation of weakly magnetic Ores, characterized in that in the one opposite the roller discharge body Pol one or more grooves parallel to the axis of the discharge roller are provided through a non-magnetic material is filled in or covered. 2. Strong field magnetic separator according to claim 1, characterized in that when using only a single groove, this groove, seen in the direction of passage of the goods, in front of the line of symmetry of the opposite pole at rest. 1 sheet of drawings © 709 547/119 5.57