DE1171367B - Agitator flotation apparatus - Google Patents

Description

Agitator flotation apparatus The invention relates to a flotation apparatus with a stirring and a swimming cell, in which the stirring and ventilation is carried out a horizontal perforated hollow drum that is partially immersed in the flotation pulp takes place, into which the air enters at the front and its exhaling part at Rotating the drum is moved towards the swimming cell.

In a known flotation device of this type, the swimming cell is separated from the stirring cell next to it by a vertical transverse wall. Of the Foam generated by the hollow drum becomes zwax on the protruding part of the drum thrown over the liquid in the stirred cell, but must again immerse in the liquid and only then through a lower opening of the between between the stirring cell and the floating cell into the floating cell via = step; where he now has to penetrate the liquid from bottom to top, until it can finally swim to the surface of the liquid. With this one Many air bubbles in the foam transition from the stirring cell to the swimming cell destroyed, which is why the efficiency of such a flotation device is only relatively can be low: There is also the risk that the air bubbles of the foam during the more or less violent ascending in the swimming cell also coarse grains or carry gait particles that should actually be excreted upwards. However, this considerably reduces the purity of the foam concentrate obtained. Eventually, during the relatively long ascent of the air bubbles in the swimming cell several small air bubbles can easily be compared to one unite large air bubble, which then bursts on the surface and thereby for foam formation is lost. This also results in a corresponding reduction the efficiency of the whole flotation device.

The same difficulties arise with another known one Flotation device, in which not only air, but at the same time also the pulp and the flotation agent are introduced and furthermore the stirring cell that receives the hollow drum and one that receives the foam that has formed Floating cell combined into a single foam cell free of partition walls or the like is. In this known arrangement, however, the hollow drum is below the liquid level and arranged with its axis running vertically, so that that of the hollow drum Ejected foam will immediately enter the liquid and through it must ascend a greater or lesser distance until it reaches the surface of the single foam cell, which at the same time accommodates the hollow drum, can swim.

Finally, a flotation device is known; where the swim cell is arranged above the stirring cell, so that the foam generated in the stirring cell in turn penetrate into the turbidity and rise through it upwards. It result from this the same shortcomings as in the known flotation device described at the beginning with stirring and swimming cells arranged next to one another and separated by a transverse wall.

The object of the invention is to remedy these disadvantages of the known flotation devices to fix. According to the invention this is achieved in that the swimming cell with the one next to it. Stirring cell to a single, od of partition walls. Like. Free Foam cell and the pulp and flotation agent inlet with the front air inlet is combined, wherein the swimming cell has a length transverse to the drum axis, which corresponds to about twice the drum diameter. With this: arrangement arrives the foam ejected from the hollow drum above the liquid unhindered directly on the surface of the liquid in the swimming cell and there will be any further submersion and more or less violent dragging along of the foam through the liquid as well as rising of the foam generated avoided. It follows that the first foam generation educated small air bubbles remain undisturbed and the foam thus lasts longer and accordingly remains effective. It is also avoided that with the violently moved Liquid and the rising or moving more or less violently in it Air bubbles in the foam also mechanically entrained the gaits to be eliminated will.

According to further features of the invention, it has to be increased the efficiency of the flotation device proved to be particularly useful, the hollow drum by inner, radial or helical partitions in two or to subdivide several sections and / or between the hollow drum and the opposite one overflows a rake emanating from a point above the drum to be provided.

An exemplary embodiment of the subject matter of the invention is shown in the drawing. It shows F i g. 1 the flotation device in plan, F i g. 2 shows a longitudinal section of the flotation device along line II of FIG. 1, Fig. 3 and 4 cross sections of the flotation device according to lines III-III and IV-IV of FIG. 1. The foam cell 1 of the flotation device consists of two vertical side walls 2 and a bottom wall 3, which has a front rising part 103 and a rear part 203 bent upwards in a semicircle. In the rear section of the foam cell 1 there is arranged a horizontal circumferential hollow drum 4 which has a relatively thin, perforated jacket and the position of which is essentially coaxial with the rear semicircular end wall 203 of the foam cell 1. The drum 4 is made of metal; and is attached to a shaft 6 by radial partitions 5 which divide the interior of the drum into several sections.

One end face 104 of the drum 4 is closed, while the opposite end face is open and opens out through a recess 7 in the corresponding side wall 2 of the foam cell into a loading box 8 attached to the side of the basin 1. The closed end face 104 of the drum 4 runs in a guide ring 9 attached to the corresponding q side wall 2 of the foam cell 1, while the open end face of the drum engages in a circular groove provided in a ring 10 attached to the outside of the corresponding side wall 2 of the foam cell and a labyrinth seal between drum 4 and foam cell wall 1 forms.

The drum shaft 6 runs in outer ball bearings 11 - and by means of stuffing boxes 12, sealingly through one side wall 2 of the foam cell 1 or through the side wall of the loading box B. The parts of the drum shaft 6 that are in contact with the seals of the stuffing boxes 12 are provided with protective sleeves 13 Mistake. The drum shaft 6 is driven by an electric motor 14 via a V-belt drive 15, 16, 17. The motor 14 is mounted at the top on one side wall 2 of the foam cell 1 on a support 20 which can be pivoted about the axis 18 and can be locked by the tightening bolt 19 in order to be able to regulate the tension of the drive belt 16.

The lateral charging box 8 is provided at its lower part with two inlet nozzles 21, 22 for the pulp to be treated. B. for so-called raw pulp that has not yet been treated; and, the other nozzle 22 is intended for already treated pulp coming from a similar or different flotation device. In addition, the charging box 8 can be connected to the foam cell 1 through a bottom opening via a pipe 23 and a valve 24 . The charging box 8 communicates with the outside air at the top. The air inlet opening can be regulated by an adjustable cover 25 . A device 37, e.g. B. a container with an adjustable drip outlet, the flotation agent can also run into the feed box 8.

During operation, the slurry entering the charging box 8, together with the flotation agents added therein and the inflowing air, is sucked in by the rapidly rotating drum 4 through the open end face of the same and through the corresponding recess 7 in the side wall 2 of the foam cell 1 . Air, pulp and flotation agent are vigorously mixed with one another in the drum 4 and this mixture is thrown through the perforated drum shell into the foam cell 1, a liquid level A being set in the foam cell which is higher than the liquid level B in the charging box B.

The suction effect of the rotating drum 4 can be enhanced by a preferably propeller-like impeller 26 that is attached to the drum shaft 6 in the lateral connection opening 7 between the drum and the charging box 8 and extends with its wing ends below the liquid level B in the charging box 8. The mixing of the pulp with air and flotation agents is significantly promoted both by this fan wheel 26 and by the inner partition walls 5 of the drum 4, which act as blades.

The drum 4 is not completely immersed in the sludge in the foam cell 1. The air / turbidity mixture formed in the drum 4 is therefore thrown forward like a waterfall by the upper drum shell part, which rises above the liquid level A in the foam cell 1 and is not exposed to any counterpressure, with the curved rear wall 203 of the foam cell 1 serving as a guide surface . This tumbling movement of the air-turbidity mixture, the passage of the same through the fine openings of the drum 4 and the previous admixture of the flotation agents cause a strong foam formation which begins as soon as it is being thrown out through the drum shell. The foam bubbles with the mineral particles adhering to them collect on the liquid surface in the front part of the foam cell 1 and are thrown over the front edge 29 of this basin by a rotating scraper blade 27 into a collecting container 28. The shaft 30 of the scraper blade 27 is driven by the drum shaft 6 via a V-belt drive 31, 32, 33 and a set belt drive 35 with stepped pulleys 34, 36 . The space between the rotating drum 4 and the front overflow edge 29 of the foam cell 1 is kept open and completely free, with the exception of a removable rake 38 or the like, which has the task of avoiding currents and waves in the front part of the foam cell 1. The particles of deaf rock (gang ax or mountains) slowly sink to the ground and run off together with the sludge through a lateral mountain drain 39 from the foam cell 1. The rotation of the drum 4 and the consequent permanent agitation and recirculation of the slurry in the foam cell 1 keep pace in suspension and avoid sedimentation is the same 3 on the pelvic floor at the mount drain 39 corresponding side wall 2 of the foam cell 1, an outer drainage box 40 is attached , which is divided into two chambers 140 and 240 by an overflow weir 43 which is height-adjustable by means of a screw nut 41 and screw spindle 42. The pulp flowing out of the base outlet 39 rises in one chamber 140 of the drainage box 40 and falls over the weir 43 into the other chamber 240, from where it flows out through the drainage nozzle 44. The liquid level A in the foam cell 1 can be adjusted by raising and lowering the overflow weir 43. If the valve 45 in the outlet connection 44 is closed and the valve 24 in the connecting pipe 23 between the foam cell 1 and the charging box 8 is opened, the pulp can be returned to the charging box 8 for further treatment.

Since the foam is already being thrown out when the air-cloudy mixture is thrown out formed by the perforated jacket of the rotating drum 4, the size of the Foam bubbles through the clear cross-section of the holes or slots in the drum shell determined and can be modified simply by changing the size of these holes and be adapted to the particular mineral to be processed. The ones from the upper part of the Foam bubbles ejected from the rotating drum 4 remain for the most part immediately on the liquid surface A in the foam cell 1 and run on this surface forward. The vertical passage of the air bubbles through the turbidity in the foam cell, d. H. the long ascent of the air bubbles through the turbidity and the subsequent undesirable The entrainment of the gait particles is largely reduced. The ones on the fine particles of the mineral to be extracted, the adhesive effect exerted by the air bubbles mainly occurs when the air-turbidity mixture passes through the perforated one Drum shell and the short passage of air bubbles through the drum 4 turbidity layer entrained in orbital motion or during forward motion of the air bubbles on the liquid level A in the foam cell 1 to the appearance.

Claims (3)

Claims: 1. Flotation apparatus with a stirring and a swimming cell, in which the stirring and aeration through a partial in the flotation pulp submerged horizontal perforated hollow drum, into which the air at the front enters and the part that emerges when the drum rotates after the swimming cell is moved towards, characterized in that the swimming cell with the stirring cell to a single foam cell (1) free of dividing walls or the like and the pulp and flotation agent inlet is combined with the front air inlet, wherein the swimming cell has a length transversely to the drum axis which is approximately double Drum diameter corresponds. 2. flotation apparatus according to claim 1, characterized in that that the hollow drum (4) by inner radial or helical partitions (5) is divided into two or more sections. 3. Flotation apparatus according to claim 1, characterized in that a rake (38) extending from a point above the drum is provided between the hollow drum (4) and the opposite overflow (29). Documents considered: German Patent No. 674 395; British Patent No. 1.46 396; U.S. Patent Nos. 1361342, 1873,843.