DE2605635A1 - DEVICE FOR FOAM FLOTATION - Google Patents

Description

DIPL-CHEM. DR.ELISABETH JUNG 8 MUNICH 40.

DIPL-PHYS. DR. J ₀ RGEN SCHiRDEWAHN SSKS !? ⁶ "

D R.-IN G. GERHARD SCHMIT T -NILSON telefiramm address: invent / mdnchen

PATENTANWÄLTE ^ ™ ⁶ » 2605635

February 12, 1976 Dr. S / fi

J 956 M + a

ENGLISH CLAYS LOVERING POCHIN & COMPANY LIMITED St. Austeil, Cornwall, England

Device for froth flotation

Priority: February 14, 1975, No. 6485/75, England

The invention relates to a device for froth flotation and, more particularly, to a device for froth flotation the mechanical, self-ventilating construction, which is particularly suitable for the treatment of fine minerals suitable. The invention also extends to the materials treated in the device according to the invention their treatment.

Usually, foam flotation cells are only used for treatment used by materials that are desludged, d. H. which are treated in such a way that there are few particles in the Range from 15 to 75 ρ or less. There is one major problem that arises in handling such materials in the sedimentation or deposition of the coarser existing particles. Consequently, many types of froth flotation cells available have been constructed so that there is considerable turbulence in the

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Adjusts fluid occupying the lower parts of the cell. This is an advantage as it ensures is that the particulate matter to be treated is kept in suspension and therefore the froth flotation separation is subjected. It has now been found that the treatment of fine mineral particles, i.e. H. of minerals, which consist of particles which are essentially all smaller than an equivalent spherical diameter of 15o p, can be achieved in foam floation cells. That Sedimentation in the foam flotation cell is therefore no longer a serious problem. However, it requires a very generate large numbers of fine air bubbles to float the fine particles. This requirement requires a higher running edge or impeller speed. With the conventionally designed cells for froth flotation or for swimming expansion, these would be higher impeller speeds create unnecessarily high turbulence and an extremely rapid increase in wear the impeller or other parts of the cell as well as lead to excessive energy consumption.

The object underlying the invention is therefore to create a foam flotation cell that with higher impeller speeds and at high ventilation values can work, but a relatively low energy consumption and has a low degree of turbulence in the liquid filling the cell.

In the case of a foam flotation device, this task is carried out by a rotating shaft with an impeller at the lower end or in the vicinity thereof, the impeller having a substantially horizontal base plate on the upper one and lower surface a variety of. radially extending blades or wings is attached, of which at least some extend to a point on or near the periphery of the base plate, and

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solved by a stationary cover plate, which has a larger diameter than the impeller, directly is arranged above and is separated from the blades of the impeller by a small free space, wherein the ring area of the cover plate, which extends radially beyond the circumference of the impeller, with downwards protruding ribs are provided which are offset relative to the radial direction with respect to the direction of rotation of the impeller or are inclined.

The downwardly protruding ribs formed on the cover plate are advantageously flat and can deviate from the radial direction by about 45 °. In operation, the impeller rotates so that the ribs are inclined in a leading sense. Conveniently, the upper surface of the impeller has four to ten blades, which extend from the rotating shaft 7 around the circumference of the base plate. All these wings can have a constant and the same height over their length. On the bottom the impeller is advantageously the same or a slightly smaller number of blades. Every wing may extend from the rotating shaft to a location on or near the periphery of the base plate. With preferred Embodiments taper the wings that are attached to the underside of the base plate of the impeller are arranged in depth, their depth being very close to the shaft is largest and smallest very close to the perimeter of the base column. The taper is preferably uniform gradually along the radial extent of these wings. The maximum depth of these wings at the bottom of the impeller can be less than the maximum height of the blades at the top of the impeller. It is also beneficial In addition to the wings, a large number of stub wings are to be provided, which extend from the circumference of the base plate a point about midway between the circumference and the rotating shaft and that between all or some

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the full size vanes are located at the top of the impeller.

The cover plate has a central opening through which the rotating shaft passes through. This central opening is preferably dimensioned so that there is a free space between the shaft and the inner circumference of the cover plate. This free space or this play can be provided in such a way that the central opening extends radially outwards to a level beyond the radially very inner extension of the wings on the top of the base plate extends.

The cover plate can be attached to the walls of the froth flotation cell fixed guiding devices or baffles, an expedient arrangement being: to provide a conical hood which extends over the central opening of the cover plate and on which the Guiding devices are attached ..

The material to be subjected to the froth flotation is preferably fed to the cell in the area of the impeller and can advantageously be led to the interior of the conical hood described above. The cell will Air is supplied via a supply pipe which extends from a level which is above the level which by the liquid or foam reached when the cell is in use, to a level near the impeller extends. This is expediently achieved in that a casing is provided around the shaft.

The impeller is preferably dimensioned so that its diameter is at least three times its axial height is, preferably about five to nine times its axial height.

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The invention is explained in more detail, for example, with the aid of the accompanying drawings.

1 shows a schematic sectional side view of an embodiment of a foam flotation device.

Fig. 2 shows in a flow diagram the use of several froth flotation cells connected in series.

Fig. 3 shows a side view of a preferred construction of the impeller and the cover plate, the Cover plate is shown in section and the impeller partially cut along line 3-3 of FIG.

FIG. 4 is a top plan view of the impeller and a sectional view of the cover plate taken along line 4-4 of FIG Fig. 3.

The foam flotation cell shown in the drawings has an impeller, which on the one hand has a base plate 1a, to which a plurality of wings 1b, Ic and 1d are attached. The impeller is at the bottom of a Shaft 5 fastened by an electric motor 2, which sits on a steel structure 3 holding it, via an arrangement can be driven by belts and pulleys 4. The drive of the shaft 5 is transmitted via a bearing 6. To the impeller 1 around a fixed cover plate 7 is arranged, which is held by four diagonal guide plates 8, which end in a conical hood 78.

The cover plate has a larger diameter than the filigree wheel 1 and is from the blades 1b and 1c of the impeller separated by a small amount of free space, generally from 1/24 to 1 / 3o the diameter of the impeller enough. In a foam flotation cell with a diameter

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of 14o cm (56 ⁿ ) and an impeller with a diameter of 75 cm (30 ⁿ ), the clearance or the free space can thus be 2.5 cm (1 "). The shaft 5 is surrounded by a casing 9, which forms one piece with the conical hood 78 and is thus held by the guide plates 8. The slurry to be subjected to the froth flotation is fed to the cell via a pipe 1o which discharges the slurry to the inside of the conical hood 78. The hood has a A number of openings, not shown, are provided so that the slurry can be drawn through the openings from outside the hood by the impeller 1. The casing is provided with holes 15, whereby the circulation of the slurry is supported air is drawn into the cell of the casing 9. The product of the device or the effluent material emerges from the cell through an opening 11 and via a weir 12, the height of which is indicated, for example, by H. inserting or removing boards, such as wooden boards, is adjustable which are slidable in slots at each end of the weir. The product of the device finally leaves the cell through an opening 13. The level of slurry in the cell during operation is indicated by 14, the top of the foam by 15. The foam is skimmed off over a lip 16 by means of a rotating vane 17 which extends over a corresponding transmission is driven by the motor 2. In this embodiment, the side walls 18 of the cells are made of wood.

As can be seen from FIGS. 3 and 4, six vanes 1b are provided, which are arranged on the upper side of the base plate 1a of the impeller 1. This six-wings extending from a location adjacent the shaft to the periphery of the base plate. In addition, six shorter stub blades 1c are provided, which extend from the circumference of the base plate by about half the radius of the impeller

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extend inside. Six relatively flat tapered wings 1d are attached to the underside of the base plate, which extends from a point adjacent to the shaft 5, where its depth is greatest, but still smaller than that Height of the blades 1b and Ic, extend to the periphery of the impeller, where their depth is almost zero.

The stationary cover plate 7 has an upper plate element 7a, of which twelve planar or flat ribs 7b follow hang down, which are arranged in the ring area between the circumference of the base plate 1a of the impeller and that of the upper plate member 7a of the cover plate is formed. The ribs 7b are straight, extend vertically downwards and are inclined so that their longitudinal axis forms an angle of 45 ° with the radial direction. The impeller is driven so that the ribs in a leading direction with respect to the direction of rotation of the impeller are inclined, which in this embodiment of the the arrow 29 indicated is clockwise.

In a conventional design, the diameter of the impeller is 75 cm (3 o ") and its axial height is 1o cm (4.25"). The free space between the top plate member 7a and the tops of the wings 1b and 1c is 2.5 cm (1 ").

In Fig. 2 six identical cells 21 to 26 are shown, each of which is operated so that its impeller one Has a peripheral speed that is greater than 75o m / min (25oo ft / min). The cells are connected in series so that the delivery product from cell 21 is supplied to cell 22 etc. through the cells connected in series, wherein the final product is the delivery product from the cell 26.

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In operation, an aqueous slurry of a particulate Materials A fed together with suitable reagents B, C and D to a premixing zone 2o. The mix occurs from zone 2o, where a foaming agent E is added to it before the mixture of the first foam flotation cell 21 is fed. In the arrangement shown in the flow diagram of FIG. 2, it is assumed that a collector reagent Contaminants from the material to be treated collects, so that the foam product discharged from each of the cells is thrown away. In operation, the total residence time of the materials treated in an arrangement, as shown in Fig. 2, vary from 30 to 100 minutes.

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Claims (1)

PATENT CLAIMS A device for froth flotation comprising a shaft with an impeller at its lower end or in the vicinity thereof, the impeller having a substantially horizontal base plate, and with a stationary cover plate which is arranged directly above the impeller and the diameter of which is larger than that of the impeller, characterized in that a plurality of radially arranged vanes (1b _f te, 1d) are attached to the top and bottom of the base plate (ta), of which at least some (Ib, Id) up to one Place on the circumference of the base plate (la) or in the vicinity thereof that the stationary cover plate (7) is separated from the blades (1b _f lc, ld} of the impeller (1) by a small free space and has a central opening through which the shaft (5) passes, and that the annular region of the cover plate (7), which extends radially beyond the circumference of the impeller (1), is provided with downwardly projecting ribs' Tb) which are inclined to the radial direction related to the direction of rotation of the impeller (1). 2. Device according to claim 1, characterized in that that between the inner circumference of the cover plate (7J and a free space is provided for the shaft (5). 3. Apparatus according to claim 2, characterized in that the central opening of the cover plate (7) radially outwards to a level beyond the radially innermost extension of the wings (Ib) on the top the base plate (la) extends. 609835/0325 4. Device according to one of the preceding claims, characterized in that the downward protruding Ribs (7b) are plane-parallel. 5. Device according to one of the preceding claims, characterized in that the downward protruding Ribs (7b) by about 45 ° with respect to the radial direction deviate or advance. 6. Device according to one of the preceding claims ... me, characterized in that the wings (Id) , dis a: a! the underside of the base plate (ta) are arranged _f taper in depth along their radial extent. 7. Device according to one of the preceding claims, characterized in that the maximum depth of the Wing (Id) on the underside of the base plate * -, - C "a) less is aid the maximum height of the wings (Ib, 1c) on top of the base plate (la). 8. Device according to one of the preceding claims » characterized in that four to ten wings (1b) are present on the top of the base plate (la) are. 9. Apparatus according to claim 8, characterized in that that all wings (Ib) have the same height over their entire longitudinal extent. Io. Device according to one of the preceding claims, characterized in that the number of wings (Ib) on the top of the base plate da} the number the wing (Id) on the underside of the base plate (1a) corresponds to or is larger than this Number. 603835/0325 11. Device according to one of the preceding claims, characterized in that a plurality of stub wings (1c) are provided on top of the base plate (1a) in addition to the wings (1b), wherein each of the tunnel wings (1c) between two of the wings (1b) is arranged and extends from a location on the circumference of the base plate (1a) or in the vicinity thereof extends to a point approximately midway between the circumference and the shaft (5). 12. Device according to one of the preceding claims, characterized in that the diameter of the impeller (1) is at least three times its axial height. 13. The apparatus according to claim 12, characterized in that the diameter of the impeller (1) by five times extends up to nine times its axial height. 14. Device according to one of the preceding claims, characterized in that the separation between the Upper sides of the wings (1d, 1c) on the upper side of the base plate (1a) and the cover plate (7) in the area from 1/24 to 1 / 3o of the diameter of the impeller (1) lies. 15. Device according to one of the preceding claims, characterized in that the stationary cover plate (7) is carried by diagonal guide plates (8) which are in a conical hood (78) near the shaft (5) ends. 16. The device according to claim 15, characterized in that that a casing (9) extends around the shaft (5) and is integral with the conical hood (78) forms. 609835/0325 17. The apparatus of claim 15 or 16, characterized gekeimzeichnet, Dab the conical hood {78} with one or more apertures is provided through which a froth flotation to subjecting the material is fed. 18. Device according to one of claims 15 to 17, characterized in that the lining 19) is provided with openings Π9) to support the circulation of the slurry in the cell to sinter. 19. Device according to one of claims 15 to 18, characterized in that the covering _a CS) has an upwardly going laängserStreckung sufficient to act as an air inlet when the froth flotation cell is in operation. 20. Device according to one of the preceding claims, characterized by a rotary vane 111} " which is so constructed and arranged that it removes foam from the cell contents when the device is in operation. 21. Device according to one of the preceding claims, characterized in that several cells one behind the other arranged connected to each other. 6Ö9835 / Q32S