SU1745345A1 - Centrifugal flotation machine - Google Patents

Abstract

The invention relates to the beneficiation of minerals. The goal is to increase the performance of the flotation process by optimizing the effect of ultrasonic oscillations on the pulp. The centrifugal acoustic flotation machine consists of a chamber 1, made of an upper cylindrical larger diameter part 3, a conical part 2 and a lower cylindrical smaller diameter part 4, arranged in series in height. Above, part 3 of chamber 1 is closed by an annular lid7, on which a threshold in the form of a hollow cylinder is located overflow. The lid 7 is the base of the annular tray 9 for the foam product. Directly under the cover 7 on the periphery of part 3 of the location is the source 13 of the high-frequency ultrasonic vibrations, the radiating surface of which is facing down. In part 4 of camera 1 on its axis there is a source13 of low-frequency ultrasonic vibrations with a radiating surface directed upwards. On the axis of the chamber 1 there is a freely rotating hollow shaft 9. In the upper part of the shaft 9, at the level of the upper edge of the threshold 10 are foamy crests 14. In part 2, the main aerators 12 are fixed to the shaft 9. Additional aerators are located along the walls of the chamber 1. In part 4 aerator 11. In part 3 there is a tangential feeding pipe 5, and in part 4 - a tangential tail pipe 6. The pulp through pipe 5 enters chamber 1, where it is aerated with air bubbles from aerators 12 and 11. Due to the centrifugal forces of the flotation complex They are centered at the axis of the chamber and float up, bypassing the lid 7. Foam by combs 14 is removed through threshold 10 in tray 8. The non-enclosed part of the pulp is removed through nozzle 6. Ultrasonic cola

Description

The invention relates to the beneficiation of minerals, namely, devices for flotation beneficiation of ores.

The purpose of the invention is to increase the efficiency of flotation.

Fig. 1 shows a centrifugal flotation machine, a slit; Fig 2 is a top view with a section AA.

The machine consists of a body 1, made of conjugated by means of a conical insert 2 of the upper cylindrical part 3 of large diameter

and the lower cylindrical part 4 of a smaller diameter, located at opposite ends of the tangential supply case 5 on the upper cylindrical part and unloading 6 on the lower cylindrical part of the nozzles, chamber cover 7, which is also the base of the antifouling tray 8 fixed on the cover 7 coaxially with the drain housing cylindrical pipe 5. aligned with the hollow shaft housing with the possibility of free rotation with foam-removing combs 10 above the discharge cylindrical pipe fixed on the shaft 9, The additional tubular 11 and main 12 rigidly located on the lower part of the shaft, aerators, sources of 13 high frequency ultrasonic vibrations located around the periphery of the lid inside the case and low frequency 12 fixed in the lower cylindrical part of the case above the main aerator through sound-absorbing material 13.

The machine works as follows. The enriched material in the form of pulp is fed into the chamber through the supply nozzle 5. The sources of ultrasonic vibrations 11, 12 are turned on, and air is fed through the hollow shaft into the aerators 12.11. Moreover, the aerators are autonomously supplied with air, and for this, the shaft is made with a separable wall in the middle, and air is supplied from above and below, respectively.

Under the influence of the tangential power supply, the shaft 6 with the aerators 12, 11 is rotated spontaneously by means of the flap 14, dispersing air bubbles in the chamber through the aerators. The conical insertion of the chamber 1 under the conditions of the centrifugal movement of the pulp allows concentrating the rising mineralized bubbles in the internal ascending stream.

The particles of the material to be separated, being in the pulp, under the action of centrifugal force are thrown to the wall of the cone, where the main process of attaching the minerals to air bubbles dispersed by additional tubular aerators occurs. The lightly-floated hydrophobic particles are pushed back toward the center of the body, lifted and removed from the body in the form of mineralized foam. At the same time, the mineralized foam mounted on the top of the comb 7 is timely removed in the annular tray, due to the difference in the peripheral velocity of the pulp inside the chamber at the top of the drain soothing cylindrical nozzle.

The foam on the ring tray 8 under the action of oscillations of the high-frequency emitter is quenched.

Large and hardly floatable particles

gradually, turn by turn, being pressed against the walls of the cone, they fall into the zone of action of low-frequency ultrasonic vibrations in the lower cylindrical part of the chamber. Cavitation caused by these vibrations contributes to the cleaning of the surface of the extracted minerals and the restoration of hydrophobic properties and, in addition, causes the dispersion of air bubbles, significantly intensifying the process

flotation cleaning of under-recovered minerals.

The hydrophilic waste rock particles are removed through the discharge nozzle. Thus, when a centrifugal flotation machine is operating, a rational and consistent process of mineralization of air bubbles with mineral grains of various sizes and flotation abilities is ensured, their timely removal into the froth product with the intensifying effect of high and low frequency ultrasonic vibrations, thus increasing the productivity and efficiency of flotation.

Claims (1)

Invention Formula 1. A centrifugal flotation machine, including a body with a lid, tangential supply and discharge pipes located at the opposite ends of the body, mounted on the cover coaxially with the body of a drain cylindrical pipe, installed in the lower part of the body aerator, which is different in order to increase efficiency flotation, it is equipped with an additional aerator with blades and sources of ultrasonic vibrations of high and low frequencies, the body is made of the upper a large diameter cylindrical part, high frequency ultrasonic oscillation sources located on the periphery of the cap inside the housing, low frequency ultrasonic oscillation sources located in the lower cylindrical part above the aerator, while the additional aerator is installed inside the conical insert. 2 The machine according to claim 1, in connection with the fact that it is provided with a coaxial body with a continuous shaft, the main and additional aerators are tubular and fixed to the hollow shaft, while the shaft with aerators is installed with the possibility of free rotation, and the tubes of the additional aerator are placed along the forming conical insert. 3. Machine according to claim 1, characterized in that it is provided with rigidly mounted on the hollow shaft above the drain cylindrical air // FIG. 2 skimy nozzle foam removing combs. 4. Machine according to claim 1, characterized in that it is provided with a defoaming tray located on the lid of a coaxially cylindrical tube.