DE1887301U - DRUM MAGNETIC SEPARATOR. - Google Patents

Description

The invention relates to a device which gnetisierbaren for separating ma components from a mixture of magnetizable and non-magnetizable components * z «B» to be eliminated of iron parts or iron-containing components Coal- o ", like * other -mixture, serves"

For this purpose, besides Bamd magnet separators, drum magnet separators are used. Separators used, which consist of drums made of non-magnetizable Material with outside or * inside the drum

There are electro or permanent magnets *

There are, for example, drums with magnets arranged in their interior common, over which the mixture to be separated is passed ^ or which above one charged with the material to be separated continuous tape are arranged, 'so that the magnetizable Constituents adhere to the drum surface and become too a separate chutej during the

non-magnetizable components above or below the drum The disadvantage of this device is that once the dwell time of the mixture inside the magnetic Field is relatively short so that the magnetizable components are not completely magnetized, and on the other hand, that the magnetizable constituents located further away from the drum surface in the batch only come from a weaker one magnetic field are detected, so that they may not, especially when it comes to relatively heavy parts be safely separated from the non-magnetized components *

Furthermore, a device has become known in which fell the mixture is inside an inclined, revolving drum »fixed permanent magnets attached to the outside arej and into which a stream of air may be blown can «through the interaction of gravity in the magnetic field acting forces and the air flow should separate magnetizable and non-magnetizable components can be achieved »Such an arrangement may possibly be for powdery or possibly * very fine-grained mixtures, but not e.g. for coal mixtures ο »the like»

In a similarly designed device, it is known that To arrange pole pieces of an electromagnet on the inner wall of a rotating drum so that between them a ring-shaped An air gap with a strong magnetic field is created * When the drum rotates, the mixture is created as a result of centrifugal force

thrown against the drum wall, whereby the magnetizable Components in the annular air gap collect from which they then removed by means of a scraper and placed in a separate chute be directed. Again, this device is only obvious suitable for mixtures consisting of relatively small components

Finally, an inclined, rotating drum made of non-magnetizable material is known, the inside of which has radially arranged blade _{heads protruding into the interior of the drum f} the outwardly protruding rod feet when the drum rotates temporarily a semicircular _t in a pole body of a stationary magnet going through existing anger. The inside of the drum is charged with the mixture to be separated, "whereby this is particularly circulated by the blade heads rotating with the drum". the magnetic force of which holds the magnetizable components of the mixture between the blade heads, while the non-magnetizable components fall off as a result of gravity. If the rod feet leave the half-ring groove, the magnetic field between the shovel heads is also reduced so that the magnetizable parts located between the shovel heads can fall into a suitably arranged chute and are thus read out of the mixture. During the practical testing of this device, however, manifold difficulties have arisen.

If these blade heads enter the very strong magnetic field between the pole pieces, a considerable amount of energy is generated. In order that the smallest possible air gap remains between the rod feet of the blade heads and the pole pieces because of the necessary low magnetic resistance, such a device requires, on the other hand, a very precise bearing and guidance heavy chunks of existing batches are loaded _? as a result of which they are heavily stressed, this precise mounting and guidance is damaged within a short time, and then the device becomes unusable Gravity fall out between these} but often also entrain magnetisable components "Conversely, it was also observed" that non-magnetisable parts caught between the blade heads and the magnetised parts _} and only fell into the chute together with the magnetisable parts. "So such a device is unsuitable for as complete a separation as possible »

The invention is based on the object of creating a simple device of the type under consideration that is less prone to failure} which avoids the listed disadvantages of known constructions.

The inventive drum magnetic separator consists of one inclined, rotating and hollow drum made of non-magnetized

material. Outside the drum, fixed electric or permanent magnets are arranged parallel to a section of the drum shell in such a way that a strong magnetic field is created inside the drum near the edge zones opposite the magnet initiated, only the magnetizable parts, which are detected by the magnetic field and adhering to the inner surface of the drum shell, move upwards as the drum rotates, while the non-magnetic components fall off _. so they fall off the wall and into a chute arranged in a manner known per se or onto a conveyor belt with which they are conveyed out of the inner wall of the drum A scraper can also be arranged above the chute.

In an expedient embodiment of the subject matter of the invention, the circulation caused by the rotation of the drum can of the mixture can be increased by the fact that pins, rods or the like are fixedly arranged in the interior of the drum, which protrude into the mixture to be separated and thereby stir it * If magnetizable components fall off anyway, before they reach the chute, they become with the inventive Arrangement again brought into the magnetic field so that they can be read out with a very high degree of sensitivity before they can exit the drum through its outlet "

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The front side of the drum used for loading is provided with a ring-shaped edge, which prevents the material fed into the drum from flowing back * to allow it to run off too quickly of the brought in goods is to be avoided with a preferably inclined to the drum inner surface annular Provide storage edge.

In Figures 1 and 2 of the drawing, the subject of the invention is based on a preferred embodiment which is explained in more detail below,

Fig. 1 shows a cross section through the inventive _t drum magnetic separator schematically shown and

Fig. 2 is a side view of the drum magnetic separator according to Fig.l *

The structure of the magnetic drum separator according to the invention is shown in FIG emerged «it consists of the cylindrical» circumferential Drum Xl, outside which the fixed electromagnets 12 are arranged approximately in a semicircle. When the drum rotates 11 in the direction of arrow 13 initially all components of the mixture in the drum l4 remain on the inner wall of the Drum stick until finally the non-magnetizable components fall off again due to gravity »during the magnetizable components 15j as long as they are in the field of the electromagnet 12, as a result of the action of the Magnetic field stick to the inner wall and carried upwards

will. At the highest point 16 of the drum 11 they leave the magnetic field and now fall into a chute 17, which is inclined inside the drum, by means of which they from the interior of the drum into a container 18 or onto a conveyor belt as can be seen from FIG Brush or the like. -wiper 19 removed from the drum wall *

The arrangement of an annular return barrier is also shown in FIG. 2 20 on the front face of the drum 11 through which the mixture is introduced. This backflow barrier 20 prevents parts of the mixture from falling out of the filling opening again after being fed into the drum. At the exit end The drum 11 is a barrier 21 similar to the return barrier 20 is arranged, which is the material in the drum something jams, which prevents it from running off too quickly from the inside of the drum «The jammed, non-magnetizable Well finally exceeds the storage edge 21 and falls onto a chute 22 or a conveyor belt in order to divert it.

On the inner wall of the drum 11 are parallel to the drum axis running low strips 23 arranged, through which a better entrainment of the goods and a better .anhaft to the Inner drum wall is reached »

Claims (4)

1. Drum magnetic separator ztajtn separation rtiagiiei; izable components from a mixture of non-magnetizable and magnetizable components, consisting of an inclined, rotating and hollow drum made of non-magnetic material ₉ whose interior is passed by the mixture, and from outside the drum parallel Fixed magnets attached to part of the drum jacket.! _{characterized by 9} .. fixed electro or permanent magnets ₅ located outside the drum by means of which a magnetic field is generated inside the drum in the area opposite the magnets "* 2 * drum magnetic separator as claimed in claim ₉ characterized by an X on the Äufgabeseite the drum arranged _f annular return barrier * 3 * drum magnetic separator according to claim 1 or 2 ^ by means of the ^ arranged on the outlet side of the drum Ring-shaped retaining edge preferably inclined to the drum axis for the non-magnetizable good » TELEPHONE! 18 4 57 4. Drum magnetic separator according to one of claims 1 to 3 $ characterized by a chute or a conveyor belt, which are used in a known manner for receiving and transporting the magnetic field leaving the inside of the drum magnetizable components. 5 · Magnetic drum separator according to claim 4, characterized by one above the chute on the inner wall of the drum, wipers arranged outside the magnetic field. 6 »Magnetic drum separator according to one of Claims 1 to 5» ge * · characterized by bars or the like * gate jumps arranged in a manner known per se on the inside wall of the drum 7 * drum magnetic separator according to one of claims 1 to 6, characterized by stationary in the interior of the drum
arranged protruding into the mixture to be separated and
this revolving pins, rods or the like *