DE1204151B - Classification channel with an endless conveyor belt - Google Patents

Description

Classifying chute with an endless conveyor belt The invention relates to a classifying channel with an endless conveyor belt, the upper run of which is different Has inclined sections, with a flushing flow directed against the conveying direction and with a kink behind which - seen in the direction of conveyance of the goods - the Upper run surface includes an acute angle of inclination with the horizontal.

The processing or separation of solid bodies such as ores or the like takes place either according to density (sorting) and / or according to grain size (sorting). To the Exercise of this method devices are known in which the material to be separated in a water flow through an inclined, preferably having transverse strips, moving conveyor belt is passed, so that through this so-called stream washes the lighter parts are separated from the heavier ones. The conveyor belt has in this device preferably a box-shaped cross-section.

There are also washes known in which the differences in Sinking speed of the individual components of the material to be separated used for separating will. If the material to be separated consists of parts that are all homogeneous, then in general their size determining the lowering speed; the product to be separated is inhomogeneous, then the smaller parts will be made of heavier material in front of the larger parts with a lower specific gravity. These prior art devices have the disadvantage that they work with a considerable inaccuracy factor because mostly the prerequisites that enable a favorable degree of efficiency, such as to narrowly limited grain size range, clearly differentiated fractions, inexpensive Washability curve or the like, are not given.

Finally, devices are known in which by means of a liquid flow guided in a closed line, in which the material to be separated is abandoned in the middle part of the canal and thereby the separation is carried out, that the material is a mechanically generated countermovement through a movable bottom of the channel is issued, through which a standing vortex movement of the goods is formed. the end this vortex, the lighter material parts are carried in the direction of flow, and the heavy cargo is carried away against the current by the movable floor of the pipeline. The principle applied there differs fundamentally from the Principles that are used in the above-mentioned devices by using Form standing vortex movements of the goods, whereby the heavy goods are formed from the vortices through the moving floor of the canal upstream and the light goods through the Liquid flow is guided downstream. That procedure is therefore suitable for a particularly clean washing of the goods and guarantees precise separation even with goods to be separated with an extensive grain size range or unfavorable washability curves. However, the device required to carry out this process requires a too large space, not to mention that they are not exactly cost-effective is cheap.

The invention is therefore based on the object for processing or separation of solid bodies, such as ore od. The like. A device is available pose that does not have the aforementioned disadvantages and in which the separation be carried out at least as precisely according to the density and / or according to the grain size can as in the device according to the method described last. Outgoing a classification channel of the type mentioned at the beginning is therefore the solution to this Proposed task, the conveyor belt a known box-shaped To give a cross-section and to incline its upper run against the horizontal in such a way that that seen in the conveying direction of the goods -the upper run surface lying in front of the kink forms an acute angle with the horizontal which is smaller than the acute angle Angle of the upper run surface lying behind the kink, in which area the kink a vibration device acting perpendicular to the belt surfaces is provided while under the upper run surfaces lying in front of and behind the kink Magnets and flushing devices are arranged above them. By arranging the magnets one achieves that even a material to be separated with a low ore content can be effectively separated can and the magnetic particles because of the direct assignment of a flushing device be washed out well.

It is useful to measure the oscillation amplitude of the vibration device less than 3 mm and the number of vibrations between 500 and 3000 per minute. This arrangement makes the stratification process most favorable in terms of weight influenced. An embodiment of the classifying flume according to the invention is shown below on the basis of this schematically depicting drawings. It shows F i g. 1 shows a side view of the classifying channel according to the invention, FIG. 2 is a plan view onto the classification channel in the direction of arrow 1 in FIG. 1, Fig. 3 a view in the direction of arrows X-X of FIG. 1, Fig. 4 shows the angular relationships in the area of the kink of the endless conveyor belt, FIG. 5 and 6 magnet arrangements, find the use in the classification channel according to the invention.

According to the F i g. 1 to 3 consists of the classification channel according to the invention from one deflected by means of pulleys 2, 2 ', which revolve in the direction of arrows I' Conveyor belt 1, 1 '. The upper run surface 1 'of this endless conveyor belt is depressed in the center plane 0-0 by rollers 3, so that the - in the conveying direction of the goods seen - the upper run surface b lying in front of the kink with the horizontal includes an angle ß which is smaller than the angle α, which the behind the Kink point lying upper run surface a encloses with the horizontal. The angles a and ß are dependent on the different specific weights of the parts to be separated, their different sizes, the size of the required lowering speed, the presence of magnetic parts or the like. They preferably take values between 6 to 60 ° or 3 to 30 °.

With the reference numbers 4, 5, 6 is one in the area of the kink arranged vibration device, which is perpendicular to the upper run surface works. In the exemplary embodiment, this vibration device is on the lower run surface adjacent cross bars 4, a carrier plate 5, and one with these elements in Operational connection standing eccentric 6 is formed, of course, are in this regard other embodiments are conceivable.

It is useful to measure the oscillation amplitude of this vibration device less than 3 mm and the number of vibrations between 500 and 3000 per minute.

The upper run surface 1 'is divided into the three sections A, B and C, the middle section B being bent by the arrangement of the rollers 3 according to the invention. The reference numerals 7, 7 'and 7 " denote flushing devices which wash the material to be separated fed via the funnel 8. Magnets 9 and 9' are arranged under the upper run surface sections A and C located in front of and behind the kink. These magnets exist Advantageously from a plurality of permanent magnets 10, 10 ', between each of which a magnetic part 11, 11' is arranged. According to the invention, it is now proposed to design the magnet 9 in the area A of the upper run surface 1 'of the endless conveyor belt so that two permanent magnets are identical Polarity are arranged next to those of other polarity, as shown in Fig. 5. The magnet 9 'in section C of the upper run surface should be designed as shown in Fig. 6, ie permanent magnets 10' are arranged in this way that adjacent permanent magnets have different polarities. The reference numerals 12, 12 'each designate the magnetic field lines.

The mode of operation of the classification channel according to the invention is as follows: The material to be separated is fed through the funnel 8 in the area of the kink, and the vibration device 4, 5, 6 primarily supports its distribution via the whole belt surface. Since a water trough forms in the area of the kink, which can assume a depth of 10 mm and more, takes place in section B first a stratification according to the different weights of the individual parts that are supported is by the vibrating device; heavy parts therefore come closer to the belt surface to lie as light parts. A standing vortex movement that forms in section B. of the goods also supports this separation process. This vortex movement is created from the meeting of the over the upper run surface a faster and over the upper run surface b slower flowing liquid stream.

The above-described arrangement achieves that the lighter ones Good parts are discharged in the flow direction via the pulley 2 'and the Heavy goods' by the conveyor belt against the current over the pulley 2 is discharged. The abandoned in the section B separating material is once because of the forming eddies and on the other hand by the vibrating conveyor belt in connection with the flushing device 7 'extremely clean, and a very precise cutting is guaranteed. This arrangement alone has advantages compared to the known methods.

The light material portion discharged in the direction of flow comes in section C through the magnetic field of the magnet 9 ', the field lines 12' of which are aligned parallel to the strip surface. This magnet 9 'is now assigned a further flushing device 7 ", whereby the stream of light material is additionally diluted, that is, in the area of the magnet 9' a kind of whirling movement is again formed, so that another separation takes place here Magnet 9 'supported, which attracts the magnetically conductive particles still contained in the liquid flow to the belt surface. These particles are then also guided against the current through the conveyor belt. The arrangement of the magnet 9' therefore further increases the efficiency of the device according to the invention The field lines 12 of the magnet 9 arranged in section A are aligned at right angles to the belt surface that d This arrangement achieves a further increase in efficiency. The device according to the invention therefore ensures the treatment of high-quality iron ore with, for example, 40% ore content, but it also ensures the treatment of, for example, very heavy ores such as zinc ores, tungsten ores or the like. The arrangement of the various flushing devices allows the sludge admixtures to be drawn off effectively; it goes without saying that the strength of the flushing flow can be regulated in order to meet the various requirements.

Claims (2)

Claims: 1. Classification channel with an endless conveyor belt, the upper run of which has differently inclined sections, with one against the conveying direction directed flushing flow and with a kink, behind the - in the conveying direction seen of the good - the upper run surface has an acute angle of inclination with the horizontal includes, characterized in that the conveyor belt (1, 1 ') one per se known, box-shaped cross-section, with the front and rear of the kink (3) lying upper run surfaces (1'-b, 1'-a) each one pointed with the horizontal Include angles, of which the angle (ß) in front of the kink (3) is smaller is as the angle («) behind the kink (3) that continues to be in the area the kink (3) a vibration device acting perpendicular to the belt surfaces (4, 5, 6) is provided, while lying under the in front of and behind the kink (3) Upper run surfaces (a and b) magnets (9, 9 ') and flushing devices (7) above them are. 2. Classifying channel according to claim 1, characterized in that the vibration amplitude of the vibration device (4, 5, 6) is less than 3 mm and the number of vibrations is between 500 and 3000 per minute. Considered publications: German Patent Nos. 52 411, 826 883, 849 878, 874 582, 959 811; German Auslegeschriften No. 1 040 165, 1059 371; French Patent No. 1195 673; Austrian Patent No. 76 952; U.S. Patent No. 2,825,462.