DE854034C - Air distribution arrangement for foam swimming devices - Google Patents

Description

Air distribution arrangement for foam flotation devices The invention refers to an air distribution arrangement in foam flotation treatment of ores, in particular on devices for ventilation with mechanical air distributors or agitator.

During the foam swim treatment, Lufi is introduced into a cell, which contains an aqueous suspension of finely divided ore particles. The air rises high in suspension in the form of bubbles and forms on the surface of the liquid a foam blanket. The cell is usually powered for ventilation and provided for stirring the liquid. This power drive has a number Wings open.

It is known to set up the drive device so that their Wings extend outward from the disc, around a so-called stepped Form disc. Such an arrangement, however, causes uncontrollable Outward movements of the pulp after the pulp has been aerated.

It is also known to be round rods or perpendicular to ordered panels to provide the drive device to further subdivide the air bubbles of the pulp. It has also been proposed to have radial walls within the above the drive device Provide located zone to counteract the rotation of the pulp. Such However, walls tend to accumulate the air bubbles, so that an uneven Air distribution in the pulp is created.

The present invention aims to provide an air distribution device in swimming treatment machines through which the mentioned disadvantage avoided and in which the pulp against fixed guide wings or baffles is controllably directed to the outside.

The invention is illustrated in the drawing, for example.

Fig. I is a schematic longitudinal section through part of an air distribution device according to a preferred embodiment of the invention; Fig.2 is a cross section by the device along line A-A of Fig. i.

The drive device or the rotor i is on in a suitable manner the drive spindle 2 attached so that it is together. can run around with her. The rotor consists of a disc 3, on the surface of which a number of blades 4 are attached radially are. The disc 3 has a cutout 5 between each wing on its periphery. Each cutout is deepest at the trailing edge of each wing. The direction of rotation is indicated in Figure 2 by an arrow. The purpose of the cutouts 5 is to facilitate the entry of the pulp into the rotor. The spindle 2 is from one Surrounding tube 6 through which air is introduced into the rotor. On tube 6 is a plate 7 suitably attached to cover the rotor. On the plate 7 an annular part 8 is attached, which with a number of guide wings or Impact surfaces 9 are provided, which form a small angle a with the radius. At the underside of the disk 3 of the rotor is a number of radial blades io less Fixed height.

When the .Rotor is set in rotation by the spindle 2 during operation is, in turn, by a suitable, not shown drive rotation receives, air is due to the centrifugal action of the blades 4 of the disc 3 in the Sucked in space inside the tube 6, and from there it passes through the middle Opening of the plate 7. In order to get the necessary amount of air, this space can be used an air compressor can be connected.

The ore pulp is fed to the cell within which the described Rotor is provided. The wings io serve to bring the pulp in underneath the rotor To keep suspension.

When the rotor revolves, the wing 4 becomes known at the trailing edge Way creates a vacuum, which the pulp through the recesses 5 of the disc 3 and mixes with the air sucked into the rotor from the pipe 6. The mixture from pulp and air is thrown against the next wing 4 of the rotor, so that the air is finely distributed. Then the air-pulp mixture is moved from the rotor to the outside conveyed and thereby forced between the fixed guide wings or baffles 9 to step through. These surfaces further break up the air bubbles that have formed. Through this, that the guide surfaces 9 make an angle a with the radius opposite to the direction of rotation of the rotor (Fig.2) is the rotation of the pulp caused by the rotor is, essentially canceled, so that the pulp, the guide surfaces 9 substantially leaves in the radial direction. This will ensure an even air distribution over reaches the whole cell area and the swimming treatment in an extraordinary way improved.

Through the recesses 5 of the disc 3, the pulp is made from a below of the rotor is removed from the zone that is essentially free of air bubbles is. In this way, the pulp mixed with air, the above and all around the rotor is present, not sucked into the rotor.

Claims (2)

PATENT CLAIMS: i. Air distribution and stirring device in machines for foam swimming preparation, characterized by a rotor (i) with a circular disc, on the top of which radial blades are attached, and the is surrounded by guide surfaces (9), the disc (3) being peripheral between each wing (4) Has recesses (5) which are deepest on the trailing edge of each wing (4) are 'to the suction of ore into the rotor from the underlying im essential air-free zone to facilitate. 2. Air distribution and agitation device according to claim i, characterized in that each outer guide or impact surface (9) Forms a small angle (a) with the radius of the rotor (i) in order to influence the rotation of the rotor (i) to substantially or entirely eliminate the pulp.