DE2528713A1 - METHOD AND DEVICE FOR THE PROCESSING OF SUBSTANCES BY MAGNETIC SEPARATION - Google Patents

Description

Annex to the patent application for H 75/34

Klöckner-Humboldt-Deutz Gr./La

Aktiengesellschaft

dated June 12, 1975

Method and device for the preparation of substances by magnetic separation

The invention relates to a method for the preparation of substances by magnetic separation, wherein in a carrier medium suspended, fine-grained solid particles passed as a stream of material in a channel through a magnetic field and substance proportions both according to their magnetizability and their specificity Weight can be steered out of its path and separated.

The invention also relates to a device for carrying out this method.

The separation of particle mixtures with components of different Magnetisability, which are suspended e.g. in a liquid carrier medium as a material flow an important type of processing, for example for the separation or concentration of ores.

The advantages of this process known as "wet separation" over dry separation are one for lower susceptibility values suitable area of application, higher throughput rates and fewer mechanically moving parts.

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From the German laid-open specification 2.159.525 a method and a device for separating magnetizable Particles of a fine-grained solid described with the help of a magnetic field. With this well-known According to normal process practice, the fine-grained solid is first mixed with water to form a process Turbidity prepared evenly over the entire cross-section of the carrier center channel, evenly distributed and in one Channel passed through the magnetic field. Because of the concentric arrangement of this channel and its facilities In order to separate the good parts, the flow must be parallel to the direction of gravity, so be done as vertically as possible. However, such a method has the disadvantage that although the magnetizable Particles concentrate in the direction of the magnetic force within the flow cross-section, but that on the other hand, the amount of non-magnetic particles in the separation area is not reduced. As a result, in the known method, the selectivity and the output are impaired to an undesired extent. The known device also has the disadvantage that more strongly magnetizable particles on the vertical duct wall can be knocked down relatively easily and then adhere, causing serious disturbances until the proceedings are interrupted.

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The same disadvantage arises with another known device, which is described in US Pat. No. 3,608,718 is described. In this known device is also in order to prevent the adherence of more strongly magnetizable particles on the wall of the flow channel to prevent the actual flow of material concentric with an annular Flow surrounded by washing liquid. However, this measure depends on the performance of the magnetic separator system very detrimental because, as is well known, the gradient of the magnetic field ^ the poles of a quadrupole towards the center drops to zero.

The object of the invention is to provide a flawless method while avoiding such disadvantages of the previously known methods and enable efficient separation of particles according to their magnetic susceptibility.

This is done according to the invention in that the direction of the flow of material is set together with the magnetic field at an angle oL to the direction of gravity, with a magnetic force corresponding to its specific susceptibility, independent of the angle oC, as the deflection force on the one hand, and on the other hand one opposite to this, by the factor sine <X. modifiable component of the gravity effect, while as a deflection force on a nonmagnetic T _e ilchen only the sine component of the DC gravity acts.

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This method has the advantage that the non-magnetic particles are also deflected in one direction from their basic flow direction, while the magnetizable particles in the opposite direction and weakly magnetizable goods - depending on the angle oC - may not be deflected at all magnetic particles counteracts a selectable large component of gravity, their tendency to precipitate and stick to the wall is lower than with the known methods mentioned,

If necessary, however, it can also be of advantage that the angle OC is carefully set in such a way that material fractions with the relatively greatest susceptibility are deposited on a wall of the duct. In this case it makes sense that the material components deposited on the wall of the channel are removed mechanically and the remaining material components are discharged from the channel by the flow of the carrier medium. A device for carrying out the method according to the invention is characterized by a duct 2, 42 which can be adjusted at an angle Of to the direction of gravity S, the upper side of which is assigned a magnetic pole system 1, 41 extending in the longitudinal direction of duct 2, 42. An expedient embodiment of the invention provides that the channel 42 with the magnetic pole system 41 is adjustable about a horizontal axis 40.

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It is advantageous here if the feed device for the material to be processed and the collecting devices 54, ^ for the processed material are fixed and connected to the channel 2, 42 by flexible connections 4, 9, 10 and 44, 50, 51.

Because, moreover, as already mentioned, it can be useful to use proportions of substance in order to achieve a concentrate of the relatively greatest susceptibility to deposit on a wall of the canal, it proves to be expedient to that the precipitation wall of the canal in itself known Way is designed as a mechanical discharge device, preferably as a conveyor belt. In a useful embodiment of the device according to the invention, it can finally be provided that the outlets 48, 49 are equipped with throttling devices 52, 53 for the processed material.

And finally, in order to achieve the greatest possible magnetic intensity in the area of the canal, use can be made of the fact that the magnetic pole system 1 consists of a large number of adjacent, antiparallel superconducting, ordered coils that generate magnetic fields, and that to increase the force effect in the direction of the canal 2 the magnetic fields of the magnetic pole system 1 facing away from the channel 2 are short-circuited ^{with a ferromagnetic armature 1 f.}

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The method according to the invention is described below using schematically illustrated exemplary embodiments inventive devices explained in more detail.

Show it:

1 shows a device according to the invention in section.

2 shows the parallelogram of forces in gravity as a function of the angle

3 shows the forces acting on a magnetizable particle.

4 shows another device according to the invention in section with a mechanical one Discharge device for the magnetic concentrate.

Figure 1 shows a planar, open magnet arrangement from a plurality of adjacent poles, for example in the form of superconducting magnet coils, which are

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generation of the field gradients are alternately excited in one or the other direction. Surface to surface with this magnet arrangement / there is a channel. This has at its upper end 3 a broken, movable hose connection 4 for filling in the goods and at its lower end 5 a screen 6. which it splits the material flow into two separate partial flows. These two partial flows are each discharged from the channel 2 through a separate outlet element 7 and 8, which is indicated purely schematically by two flexible discharge lines 9 and 10. Furthermore, a magnetizable particle 11 can be seen in the higher part of the channel 2. This is transported through the channel by the carrier medium at the flow velocity V ". In practice, this speed is, for example, 0.1 m / sec. With a length of the magnet system of, for example, 800 mm, this means that the dwell time in the effective area of the magnetic field is about 8 seconds. · The force M, which is perpendicular to the surface of the pole arrangement of the magnet system, acts on the particle 11, and S denotes the direction of gravity. The angle oC results between this direction S and the direction of the central axis of the channel 2. In addition to the magnetic force M, the force of gravity acts on the particle 11, represented by the arrow s. In FIG.

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in the gram, which results from the directions perpendicular to one another, on the one hand, of the flow of the material flow V and, on the other hand, of the magnetic lines of force H. The force of gravity s acting on the particle 11 can accordingly be broken down into a component, opposite to the magnetic force, of magnitude (si sinusoc) and into a component, rectified to the flow V _x , of value (see cosine c *).

FIG. 3 shows again the particle 11, in its center of mass 0 attack the following forces: The magnetic force "M" and the force of gravity "s" »This can in turn decompose into the component opposite to the magnetic force according to the angle od (see sinus ex) and into the rectified with the flow velocity V

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Component (s · co sinus al). From the two forces H and s a parallelogram can be put together which the The resulting R of these two forces gives. It is readily apparent that the particle 11 under the action the resultant R in the direction of R on the upper duct wall 12, indicated by the dashed paraboloid Line 12 * is deflected so that this particle 11 finally through the outlet 7 and the discharge line 9 into one provided for the concentrate, not shown here more precisely Receiving vessel has reached. Furthermore, FIG. 1 Ib channel 2 shows the non-magnetizable particle 14.

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The magnetic force zero and the force of gravity s · act on this. Depending on the angle o , a component (s ^7. Sinus of) of the force of gravity s' results, which sets the particle in motion against the lower channel wall 15. In this way, the non-magnetic particle 14 arrives with the flow on the dashed line Path 14 'into the outlet part 8 for the non-magnetic material, and through the discharge line 10 into the collecting vessel intended for the non-magnetic portion, which is not shown in detail.

Figure 4 shows another device according to the invention. The entire apparatus can be rotated about the horizontal axis 40 arranged. It consists essentially of the magnet system 41 and shown in a schematic representation the channel system 42. You can see the upper filling end 43, which is connected to the stationarily arranged filling funnel 45 by the flexible hose 44. The task of the goods takes place at 46. The channel 42 also has a separating device at its lower end Aperture 47 and the outlets 48 for the concentrate and 49 for the less magnetizable or non-magnetic Good. From there, two flexible hoses 50 and 51, provided with throttling devices, for example the hose clamps 52 and 53 to the receptacle 54 for the concentrate and another 55 for dead material.

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It can also be seen that the precipitation wall 56 of the channel 42 consists of a conveyor belt 57, which has the function of a mechanical discharge device. The belt 57 is essentially stretched over four pulleys and is moved at 59, for example by an electric drum motor, in the direction of travel 60 around the magnet system. Strongly magnetizable Particles that adhere to the precipitation wall 56 in the immediate vicinity of the pole arrangement kQ as a magnetic concentrate are caught by the rubber lip scraper 61 as a result of the belt movement, stripped from the belt and transported with the flow into the outlet part 48 intended for the concentrate. In this way, the belt works in cooperation with the scraper 61 as a mechanical discharge device. In order to avoid major leakage of the pulp, there are flexible rubber seals at 61 and 62, which are shown purely schematically. Furthermore, a labyrinth seal, likewise shown schematically, is located in the direction of flow below the flexible wiper 61. The function of the entire apparatus is clearly and easily recognizable from the illustration according to FIG. This representation is of course only to be understood in a purely functional and schematic manner, because the device relates to the design of the magnet system

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and / or the channel arrangement as well as with regard to their usual technical details varies to a large extent v / can earth.

Claims ,

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Claims (9)

Claims 1. Process for the preparation of substances by magnetic separation, in which fine-grained solid particles suspended in a carrier medium are guided as a flow of material in a channel through a magnetic field and material components are guided and separated from their path according to their magnetizability and their specific weight, characterized in that the direction of the material flow V together with the magnetic field 1 is set at an angle o £ to the direction of the gravitational force S, with a magnetic force M corresponding to its specific susceptibility and independent of the angle Ct as the deflection force on the one hand, and on the other hand a component s · sinoc of the force of gravity s which is opposite to this and can be changed by the factor sinoc, while the component s · sinoi of the force of gravity s acts exclusively as a deflection force on a non-magnetic particle. 2. The method according to claim 1, characterized in that the angle «is set in such a way that the substance proportions with the relatively greatest susceptibility a wall 56 of the channel 42 are deposited. - 13 609883/0513 3. The method according to claim 1 and 2, characterized in that precipitated material fractions on the wall of the channel mechanically, and the remaining substances are carried out of the channel by the flow of the carrier medium. 4. Apparatus for performing the method according to claims 1 to 3, characterized by one for direction the force of gravity S at an angle oc adjustable channel 2.42, the top of which extends in the longitudinal direction of the channel 2.42 extending magnetic pole system associated with 1.41 is. 5. Apparatus according to claim ^ F-, characterized in that that the channel 42 with the magnetic pole system 41 is adjustable about a horizontal axis 40. 6. Device according to claim 4 and 5, characterized in that that the feeding device 45 for the material to be processed as well as the collecting devices 54, 55 for the Processed goods are arranged in a fixed position and connected to duct 2.42 by flexible connections 4,9,10 and 44,50,51 are. 7. Device according to one of claims 4 to 6, characterized in that the precipitation wall 56 of the channel - 14 609883/051 3 is designed in a manner known per se as a mechanical discharge device, preferably as a conveyor belt 57. 8. Device according to one of claims 4 to 7, characterized in that the outlets 48, 49 for the processed Well equipped with throttling devices 52, 53. 9. Device according to one of claims 4 to 8, characterized in that the magnetic pole system 1 consists of a There is a large number of superconducting coils, which are arranged in antiparallel and generate magnetic fields, and that to increase the force in the direction of channel 2, the magnetic fields turned away from channel 2 of the magnetic pole system 1 are short-circuited with a ferromagnetic armature 1 '. 609883/051 3 Blank page