DE827181C - Magnetic separator - Google Patents

Description

Magnetic separator The invention relates to the special design of a Magnetic separator with rotating roller discharge body at the product passage through the air gap.

Even if these well-known magnetic separators, in which the one pole through the rotating, possibly laminated, roller discharge body, but the other is formed by the flat end face of the magnet yoke and in which the to be separated The air gap is well inclined to the vertical because of its operational reliability and sufficient selectivity are preferred to other types in many cases, so their unrestricted use stands for the relatively low concentrate consumption against, especially when separating weakly magnetic ores. An improvement the amount of concentrate obtained by increasing the number of revolutions of the discharge rollers, greater density of lines of force and, to a certain extent, also by widening the air gap would perhaps be possible in itself, limits are essentially set by the fact that the necessary ampere turns cannot be accommodated and the force field thus does not achieve the strength required for weakly magnetic ores. Alone even an increase in the speed of rotation of the rollers requires an increase of the ampere turns, so that a further increase in power through additional field reinforcement or even by widening the average cross-section becomes impossible without exceeding .the limit of economic efficiency and selectivity, especially with the less high quality weakly magnetic iron ores are particularly low.

An improvement is now without a profitability impairment Change of the magnetic conditions possible, with even an increase in the Selectivity is achieved when according to the invention, with vertical and horizontal Field guidance on both sides of the air gap circumferential. optionally laminated thick-walled rollers or solid rollers are arranged, their facing each other Parts of their outer surfaces form the actual pole faces at the air gap, while the opposite of the magnet yoke are immediately adjacent.

This inventive proposal is based on the Erketintnis that through the Arrangement of two discharge rollers, the discharged material flow in three separate partial flows (two streams of magnetic good and one stream of non-magnetic good) is, while in the case of the magnetic separators with only one discharge body the upstream material flow is only separated into two partial flows, namely into one flow magnetic and a current non-magnetic good, so that after the device of the invention twice the amount of concentrate is taken out compared to the single roller arrangement.

There are now magnetic separators for fine-grained ores with two neighboring ones Discharge bodies known in which from an upstream cutting point with the help from baffles and baffles to each of the rollers a separate stream even further departing good is fed and both streams are completely separated from each other the correspondingly wide, sometimes even with diamagnetic separating plates enforce the space between the rollers divided into two partial air gaps. In these known devices, therefore, the partial air gap is given up The material flow is not divided into three sub-flows as in the present invention, but only separated into two sub-streams. The effect is practically the same as that at the beginning treated known magnetic separator with a rotating roller discharge body and a flat face of the magnet hole as the opposite pole.

For the elimination of very fine iron particles from heavily loosened ones Asbestos fiber is another device with two very far apart thin-walled hollow sheet metal cylinders rotating at only two to three revolutions per minute known with interior pqlen, in which the goods (asbestos fibers and iron particles) is whirled up in the space between the sheet metal drums by a stream of air, so that the material is brought closer to the two drums, and the drums the iron particles can catch and spread against the flow of material, through the arrangement of soft iron strips in your space between the rollers above or below the common center plane the rollers can, in the case of the subject matter of the invention, the field formation in the air gap are favorably influenced. Similarly, they would also be in the same place as the bars arranged auxiliary magnets act. The bars or the auxiliary magnets are expediently triangular with their cross-sectional part engaging between the rollers educated.

Two cutting points can easily be placed in the same magnetic frame are arranged, which are then expediently arranged vertically one below the other are, so that a pre-separation is made with the upper part of the cut and with the lower part Separation point for a subsequent separation »; Iimeii can.

To explain the invention, two different ones are shown in FIGS Types of embodiment of a magnetic separator and special details thereof are shown schematically shown.

The embodiment according to Fig. 1 is a Magnetic separator with one cutting point, with the magnetic separator according to Fig. 2 by one those with two superimposed cutting points. Otherwise, both types of execution built on the same basic principle.

The magnetic separator according to. @ L) l). i consists of a magnetic frame i with excitation coil 2, in the upper yoke of which the cutting point is arranged. the Yoke ends 3 and .4 are formed like a pole. With only a small air gap 5 or 6 are in front of these pole pieces, the discharge rollers 7 and 8, which in known Way in the direction of the arrow, that is, in the direction of the passage of goods. Of the Air gap 9 is formed by the facing parts of the surface of the two discharge rollers educated. I) The penalty lines occur from the pole pieces to the opposite ones Surface parts of the rollers over.

The material is fed in from above and the material throughput is in vertical direction. The flow of material passing through the air gap 9 is shown in divided into three partial flows, namely the non-magnetic material falls almost vertically downwards in the direction of the arrow io. «- while the magnetic property of each of the two rollers separated on the sides in two partial streams i i and 12 will.

In the embodiment according to: \ 1> l> .2, the magnet frame consists of two horseshoe-like magnet parts i ° and i6. In addition, the two dividing points are formed in the upper and lower yokes of the magnet in the same way as those in Fig. T shown cutting point.

In Fig. 3 the soft iron bar 13 is between the rollers 7 and 8 shown with its triangular lower cross-sectional part in the gusset between the rollers 7 and <8 protrudes and centrically due to the curvature of their side surfaces with the outer surfaces of the rollers to improve field management and compaction of the field. In the same way, a similar one can also be used below the rollers Be arranged bar. In the embodiment according to Fig. 4 is a strip-like auxiliary magnet 14 with a special instead of the soft iron bar Excitation winding 15 is provided.

Claims (5)

PATENT CLAIMS: 1, magnetic separator with revolving roller discharge body at the material passage through the air gap of the magnetic frame for granular material, in particular for the separation of weakly magnetic iron ores, characterized in that a) the pole faces on both sides of the air gap through the outer surfaces of thick-walled rollers or solid rollers Are formed, b) the magnetic lines of force on the outer roller surface facing away from the air gap pass from the magnet yoke to the rollers, c) the rollers are arranged at the same height when the goods pass vertically between the rollers. 2. Magnetic separator according to claim i, characterized in that that in the upper and / or below the passage cross-section of the rollers A soft iron strip running parallel to the rollers is arranged in the air space. 3. Magnetic separator according to claims 1 and 2, characterized in that the in the angled channel-shaped part of the air gap engaging bar cross-section for example is triangular to adapt to the roll shape. 4. Magnetic separator after Claim 1, characterized in that above and / or below the rollers auxiliary magnets Strip-like poles engaging in the channel-shaped part of the air gap are arranged. 5. Magnetic separator according to claims 1 'to 4, characterized in that that in the same magnet frame two cutting points are vertically below one another are arranged.