DE160409C - - Google Patents

Description

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IMPERIAL

PATENT OFFICE

The invention relates to the magnetic, magnetic processing of ores, in which in a known manner by means of drums rotating around stationary magnets or the like. The non-magnetic within the magnetic Fields are thrown off and those thrown off by baffle and guide surfaces Particles are brought back to a rotating body of the system. To the effect

ίο to increase the magnetic fields as much as possible, According to the invention, the goods placed on the one rotating body are in the magnetic field between the two opposite pole pieces of a magnet system, each rotated by a rotating body divorced and the thrown-off material repeated through catch and guide surfaces into the field, namely to 'the first or second rotating body for renewed action the magnetic and centrifugal forces returned. One thing is useful here the pole piece with its rotating body is deeper than the other, so that an obliquely directed Field is created through which the ore mixture is partly due to the longest possible route gravity, partly through centrifugal force with repeated return through ' Baffles is passed. Furthermore, the good passes expediently before it is put into the The cutting field is guided by a pre-cutting device that either has its own magnet possesses or extends into the magnetic field of the separator in the form of guide surfaces. here the ore is more or less sharply separated before being fed to the first rotating body Layered bearings, of which the lowest layer, which is closest to the rotating surface, contains the highly magnetic parts, while the overlying layers are weakly or not at all magnetic. In this way the top, as a result The layers that are thrown off by the centrifugal force are, from the outset, highly magnetic Components withdrawn. In this regard, it should be noted that it is known per se to magnetically process material before it is introduced precoat in the separator in layers of different magnetic sensitivity. But these are ore separators of a different kind, in which the ore with the strongest magnetic parts is on top is pre-layered. In the present separator is also a device for Suction of the lighter non-magnetic parts during the divorce, as well as from the already separated, magnetic parts hanging on one of the rotating bodies in used in a known way. According to the invention, the suction channel for separating the Dust arranged during the divorce in such a way that its transverse to the direction of the Well-lying walls or webs arranged in the same direction in the channel "open the door. · catch and guide surfaces for repeated feed

Form recirculation of the thrown off particles. The lower wall of this suction channel is expediently provided with an extension, which the upper rotating body to a small extent Distances accompanied a distance so that the non-magnetic particles in the narrow and long slot between the rotating body and the guide surface shake through each other.

In the drawing, three embodiments of the present device are in verticals Sections illustrated.

In all three embodiments, a magnetic field is used for separation, which is formed between the pole pieces G and K with the lateral extensions F and /, which are rotated by drums or the like. E and /. The pole piece G, on whose drum E the ore is first placed, lies laterally above the opposite pole piece K. Both drums E and / move in the same direction through the magnetic field.

The feed hopper A, which is open at the bottom, of the ore separator shown in FIG. 1 is provided with a device for regulating the outflow of the comminuted ore mixture. The material can be placed directly on the drum E of the first pole piece. However, it is preferable to feed the ore from the hopper to a cylinder B or the like.

feed with a magnetic field. The latter is generated, for example, by the magnetic core C arranged in the cylinder B or by induction. A preliminary separation of the magnetic parts from the non-magnetic or weakly magnetic parts takes place on the cylinder B , since the rotating cylinder holds a considerable amount of the magnetic parts in place during the passage of the ore through the field of the magnet C until they reach a point which is in line with the ends of the pole of magnet C, from where they fall onto the actual separator.

■ The parts that are not tightened will fall off the cylinder due to gravity or become thrown off by the low centrifugal force developed by this cylinder.

The magnetic parts attracted by the cylinder B fall at about c (Fig. 1) onto the magnetizable drum or the cylinder E. Here they form the lowest layer on which the parts not attracted by the previous separator B fall during the rotation of the drum, and here one form another layer. The magnetic parts of the upper layers are now also attracted and held on the surface of the trammel E as a result of the attraction by the lower layer and the separator.

The described device for pre-stacking the goods can be replaced by any other. As shown in FIG. 2, an inclined plate B ¹ made of non-magnetic material can introduce the ore mixture into the region of the magnetic field over a certain length before the ore is delivered onto the drum E. During the movement of the ore on the plate B ¹ , the magnetic lines of force, supported by the movements of the ore, pull some of the magnetizable ore parts in the ore layer downwards. The ore mixture is therefore more or less sharply stratified as it falls from the lower edge of the plate. The lowest layer consists of highly magnetic parts.

Through the non-magnetic baffle plate or the like. D (Fig. 1), the parts not attracted by the cylinder B , which are partly thrown off, are all directed onto the drum E.

The drum E is expediently given a relatively high rotational speed in order to increase the performance of the machine and to obtain a sufficiently large centrifugal effect, the latter should be so great that the non-magnetic parts are thrown off while the magnetic parts stick to the drum . The latter are the parts that are fed in at e , as well as the components that have fallen onto the drum E with the non-magnetic at D and are drawn to the drum here. The material thrown off by the drum E is held in the magnetic field in order to pull out all the magnetic parts that have not yet been separated out. The ejected material can be fed back to the first or second rotating body of the system once or repeatedly by means of deflection plates.

According to FIG. 1, the deflection back onto the second rotating body I takes place through the plate H. The material to be cut is of course to be kept on the drum 7 in the necessary expansion.

The separator / is expediently rotated more slowly than drum jE, so that centrifugal forces do not occur particularly. The parts that are not magnetizable or not sufficiently magnetizable will therefore slide along the cylinder until they fall off as a result of the force of gravity. As a result of the oblique field direction, the parts not thrown off the drum E also remain in the magnetic field in which they cross. the magnetic field fall on the second drum, which again leads them across the field. This greatly facilitates the attraction and separation of the attractable parts of the mixture, since these parts pass the field twice. The magnetic parts, which adhere to the drum E , fall out of the area of the field, over the non-magnetic plate L into a suitable container. at

Due to the relatively low speed of rotation of the drum /, the more strongly magnetic parts that adhere to the drum I are completely carried out of the field and fall into a container Q, while the weaker magnetic parts drop off before the wall P. As already noted, the speed of the cylinder / is so slow that no or very little centrifugal force arises. In order to prevent the unattracted parts from falling off prematurely from this cylinder and to bring these parts repeatedly into contact with the latter, i.e. back into the field, several non-magnetic, inclined plates N are arranged on the vertical wall M , with which the wall M is made from can consist of one piece. What cannot be put on now falls against these plates, is rolled around and finally taken away. These parts fall from plate to plate by rolling over the edge of each plate so that they are completely shaken together and the magnetic particles still present therein are subjected to the action of the field and are drawn to the drum I , which they are placed in the container P or Q creates.

In the embodiments according to FIGS. 2 and 3, dust and the lighter, non-magnetic ore parts are sucked off in a known manner during the separation and after the separation. According to the invention, the suction channels which protrude into the vaginal area receive special designs. C ² (Fig. 2) is a suction box or pipe, the lower end of which, reaching close to the drum E , is open and the drum circumference E is adapted. The box C ² is connected to a discharge pipe by a pipe C ^s. Inside the pipe C ° there is a fan C. The box C ² is divided along its length by panels C , so that the draft in the box is better distributed.

The suction box has a downward, non-magnetic extension C ³ , which is as wide as the cylinder E and is concentric to this. The gap between the circumference of the cylinder and the plate C ⁸ is sufficient that the ore parts which do not adhere to the cylinder by themselves do not touch the cylinder when passing through the field. At the lower end, the curved plate C ^{3 is provided} with a rib C ⁴ which going out and down.

Within the suction box C ² and near the lower opening, a web D ' ¹ D ^{s is} arranged, which allows the magnetic, which adheres to the surface of the cylinder E , to pass freely. The heavy good particles, which are thrown off by this cylinder, are separated and caught by the lighter parts. The web can consist of a single non-magnetic plate or, as FIG. 2 shows, of two plates D ² and D ^s , of which the former is adjustably connected to the other by wing screws. Different ore mixtures contain different amounts of dust and lighter components. Therefore, the top plate D ^{2 is} to be pushed back and forth, thereby shortening or lengthening the deflector and catching only the heavy constituents of each mixture.

A second suction device may loading in ⁷ * ^ known way be used to dust or light particles from the previously separate magnetic, which adheres to the cylinder E to remove. This suction device; is appropriate (Fig. 2

and 3) from a box E ² made of non-magnetic material. This box is as long as the cylinder E and is open on its upper side. A suction device E ^s leads to a discharge pipe.

Fig. 2 (as well as the other figures) shows that the magnetic field is determined by a line which leads from the end of the upper pole extension F to the end of the upper pole extension / and by a line which the lower pole extension F and J connects. Of course, the field has different strengths, since it is strongest in the middle and gradually decreases towards the sides. Within the field lie part of the feed board B ¹ , the lower end of the suction box C ² , the deflector D ² D ^s , the curved plate C ³ and the suction box E ² .

In the embodiment of the invention shown in Fig. 2, after the cylinders have been set in motion and the magnets energized, the crushed ore is fed from hopper A onto board B ¹ , on which the mixture slides down into the field. Here, highly magnetic parts come to lie at the bottom and are also brought to the bottom of the surface of the cylinder E ^{when they fall over the lower edge of the board S 1.} The material which is not attracted by this cylinder is thrown λνίκΐ against the outside of the upper wall of the suction box and falls back onto the cylinder. As a result, the less magnetic parts are repeatedly subjected to the attraction force of the cylinder. Inside the suction box C ² , the unattached material is thrown off the cylinder surface again, the heavy parts being held up by the plates D ³ and D ² and the lighter particles and dust being sucked off via these plates.

Claims (5)

The rest falls inside against the rear wall of the suction box and gets back onto the cylinder. In this way the magnetic field is made to act intensively on the material. If the plates D2 Dz are not carefully adjusted and heavy parts roll over them, they are nevertheless fed back to the cylinder through the lower wall of the suction box. After the plates D2 Ds have passed, the material that has not been held is thrown off the cylinder again it falls inwardly against the rear wall of the suction box and during this movement is subject to the action of the air flow X5, so that light constituents are removed - · circumference and the curved plate C3. During the passage through this channel, the end not adhering to the cylinder is repeatedly shaken and moved, so that the cylinder E is offered numerous possibilities to attract all magnetic parts. This falls on the lower edge of the curved plate C3 Non-magnetic or too weakly magnetic, the completely non-magnetic succeed gt into a container M. During the fall, the ore residue still touches the surface of the second cylinder / in a very strong field zone. Any attractable particles that may still be present are therefore held here and carried by the cylinder to a container O for less magnetic parts or into a container P Q for more magnetic parts. The magnetic that adheres to the cylinder E, after all non-attractive particles (at the end of the curved plate C3) have been deposited, is passed over the open mouth of the suction box E2 and cleaned of dust here. After this second cleaning, the magnetic particles reach the other limit of the magnetic field, which coincides with the end of the lower pole extension · F, and leave the cylinder either by centrifugal force or by gravity. According to FIGS. 1 and 2, the ore is placed directly on the cylinder E after passing the device for pre-layering. For the separation of certain ore types, however, it is desirable that the ore mixture only passes across the magnetic field for a considerable time without coming into contact with the cylinder. This gives the opportunity for a long time to effect a previous separation of the strongly magnetizable particles from the non-magnetic or only weakly magnetic particles. An insertion device of this type is shown in Fig. 3 and consists of a feed board B2, the lower end of which lies normally within the magnetic field and is provided with an extension B3 which conforms to the shape of the cylinder surface and is concentric therewith. The ore slowly slides down the outer convex surface 'of the extension Bs until it reaches the lower edge, from where the magnetic particles are attracted to the cylinder E, while the non-attractable particles fall against a plate C5 and from there to the cylinder further separation of still attractable particles are fed. The parts that are not tightened again are removed from the cylinder. E repelled and experience the same treatment as in the embodiment according to FIG. 2. The suction boxes C2 and E2 can also be used with this device, while the plates D2 and D3 do not appear to be necessary in this device. Patent A ν claims: 1. Method of magnetic processing by means of fixed magnets rotating drums or the like. Which the non-magnetic within the magnetic Throwing off fields with recirculation · of the thrown-off particles to a rotating body of the system by means of baffles and guide surfaces, characterized in that the one Rotating body abandoned good in the magnetic field between the two each other opposite pole pieces of a magnet system, each revolving around a rotating body, and the thrown off through collecting and guide surfaces repeatedly in the field, namely to the first and second rotating body for renewed Effect of magnetic and centrifugal forces is returned. : 2. embodiment of the method according to claim 1 with preceding stratification of the material according to the magnetic sensitivity, characterized in that the material by means of a magnetic drum (B) and baffle (D) or in the magnetic field near the first rotating body protruding guideways or the like the degree of magnetic sensitivity of the particles with the most sensitive particles at the bottom is given up on the first rotating body, for the purpose of keeping the upper layers to be thrown off as free of the more strongly magnetic components of the mixture as possible from the outset. 3. Device for carrying out the method according to claim i, characterized in that that of the pole pieces provided with circumferential jackets or the like of the magnet system laterally over the one to which the goods are initially fed the opposite pole piece lies, for the purpose, for the good as a result of the oblique field direction to get as long a path as possible within the magnetic field. 4. Apparatus for carrying out the method according to claim 1 with device for sucking off the lighter non-magnetic good particles during the divorce, characterized in that a Suction channel in the vaginal zone starts in such a way that its transverse to the direction of travel of the Well-lying walls or webs arranged in the same direction in the channel, the collecting and guiding surfaces for repeated Return of the thrown off. Particles form. 5. Embodiment of the device according to claim 4, characterized in that that the wall of the suction channel extending from the cutting zone, which lasts as a collecting and guiding surface, comes into effect is provided with an extension, which the upper rotating body at a small distance accompanied a distance so that the non-magnetic particles in the narrow and ' long slot between the rotating body and. shake the guide surface. For this purpose ι sheet of drawings.