RU1547127C - Tacky separation and film flotation device - Google Patents

Abstract

FIELD: concentration of minerals. SUBSTANCE: device has frame 1 carrying charging unit 2 formed as hollow drum 13 with working member 3 in the form of diverging body 16. Surface of working member 3 is made from hydrophobic material with tacky coating. Spreader 4 formed by faces 18 and 19 coupled with scraper 5 is extending along working member generatrix. Tail and concentrate discharge units 6 and 7 are positioned behind working member 3. Additional spreader 8 is fixed with its radial ribs 9 within charging unit 2 in axial alignment with it. Unit 8 in the form of truncated cone 10 with blind end wall 11 is oriented by its large base 12 in the direction of charging. Drum 13 has impermeable cylindrical surface 14 and end walls 15 with inlet and outlet openings. Cantilevered diverging body 16 is fixed on wall 15 in axial alignment with respect to it. Diameter of inlet opening 17 of diverging body 16 is equal to inner diameter of outlet opening of drum 13. Faces 18 and 19 of spreader 4 are disposed at an angle one with respect to the other so that three-sided member is formed. Face 18 is fixed and has radius of curvature equal to that of diverging body 16. Material mixing blades 20 are fixed on inner cylindrical surface 14 of drum 13 in equally spaced relation one with respect to the other. Basic charge is mixed in drum 13 with fluoroplastic granules. Particles of valuable components adhere to granules, which are delivered to working member and moved over its inner surface. Fluoroplastic granules with particles of valuable components adhered to tacky coating of working member are removed from its surface by scraper 5 and delivered on pulp surface. Concentrate is discharged through unit 7. Tail product is conducted through diverging body 16 and discharged through discharge unit 6. EFFECT: intensified process and increased quantity of extracted valuable component. 2 cl, 1 dwg

Description

 The invention relates to mineral processing and can be used to extract naturally hydrophobic and hydrophobized particles.

 The purpose of the invention is the intensification of the process and increase the extraction of a valuable component.

 In the device for sticky separation and film flotation containing a bed, a loading device, a working body made of a material with a hydrophobic surface with a sticky coating, a spreading device.

 The drawing shows a device for sticky separation and film flotation, a General view in section.

 The device for sticky separation and film flotation contains a frame 1, a loading device 2 mounted on it with a working body 3 made of a material with a hydrophobic surface with an adhesive coating, a spreading device 4 located along the generatrix of the working body 3, a scraper 5 for concentrate removal, unloading devices 6 and 7 for the output of tails and concentrate.

 Inside the loading device 2 coaxially with it there is an additional spreading device 8, fixed by radial ribs 9 and made in the form of a truncated cone 10 with a blind end wall 11 facing the large base 12 towards the load side. The loading device 2 is made in the form of a hollow drum 13 with an impermeable cylindrical surface 14 and end walls 15 with inlet and outlet openings. The working body 3 is made in the form of a bell 16, coaxially and cantileverly mounted on the end wall 15 of the drum 13 with an outlet.

 The diameter of the inlet 17 of the socket 16 and the inner diameter of the outlet of the end wall 15 of the drum 13 are equal. The spreading device 4 is made in the form of two faces 18 and 19 located at an angle to each other and communicated with the scraper 5 with the formation of a hollow trihedral element, one of the faces 18 of which is perforated and has a radius of curvature equal to the radius of curvature of the socket 16.

 The device is equipped with blades 20 for mixing the material, evenly fixed on the inner cylindrical surface 14 of the drum 13. The working body 3 is immersed with its lower part in the bath 21, equipped with an adjustable overflow threshold 22 and a receiver 23 for the concentrate. A loading chute 24 is also installed on the bed 1 for supplying initial power, a pipeline 25 for supplying a high-temperature aqueous emulsion of a sticky composition with PTFE granules and a drive system.

 The end wall 12 of the larger base of the cone 10 of the additional spreading device 8 is ring-shaped, the opposite end wall 11 is blind, provide in the spreading device 8 the necessary level of high-temperature emulsion and the discharge of granules into the feed of the loading device. The spreading device 4 is cantileverly fixed to the bed 1 and is equipped with a pressure pipe 26 for supplying the molten adhesive composition. The drum 13 is mounted on the frame 1 by means of rollers and provided with a gear gear 27 for its rotation.

 A device for sticky separation and film flotation works as follows.

 By means of a drive, a drum 13 with a socket 16 is driven into rotation. The bath 21 is filled with water until a drain mirror is obtained through an adjustable threshold 22, which sets the required water level in the bath 21. A high-temperature aqueous emulsion of sticky composition with fluoroplastic granules is fed into the pipe 25 into the discharge pipe 26 under pressure - molten sticky composition, into the feed chute 24 - the source material in the form of pulp.

 The sticky composition through the pipe 26 enters under pressure in the spreading device 4, and from it through the perforated wall 18 to the moving hydrophobic surface of the working body 3, making it spread. When immersed in water, the adhesive coating on the working body cools.

 The feed supplied in the form of pulp to the drum 13 of the feeding device 2 is mixed with the fluoroplastic granules coated with the sticky composition coming out of the additional device 8. The particles of the valuable component adhere to the sticky coating of the fluoroplastic granules, forming sticky complexes, which then go together with the material into the working body 3 through the inlet 17 of the socket 16, moving along its inner surface covered with a sticky composition.

 Particles of a valuable component adhering to the sticky coating of the working body and sticky complexes are removed from the surface of the working body by a scraper 5 and enter the pulp surface. Particles of a valuable component and sticky complexes flowing out of the pulp volume to the water-air interface by the film flotation mechanism enter there. The liquor separation and film flotation concentrate obtained in this way enters overflow through a threshold 22 to a concentrate receiver 23, and then, through a nozzle 7, it is removed from the apparatus for regenerating granules and separating them from particles of a valuable component, after which the granules again enter the process.

 The tail product, moving along the surface of the socket 16 to its outlet, is lowered to the bottom of the bath 21, from where it is discharged from the apparatus through the discharge pipe 6.

 Guaranteed extraction of particles of a valuable component by film flotation can be carried out under intensive conditions only under the condition of a high hydrophobicity of their surface and ensuring reliable contact of the particles with the water-air interface at a sufficient flotation force for these particles, which firmly holds them on the liquid surface.

 These conditions can be fulfilled if, by successive operations, preliminary reliable contact of particles of a valuable component with particles of a material with an extremely hydrophobic surface (for example, fluoroplastic granules) coated with a thin adhesive layer is ensured, thereby ensuring the formation of strong sticky complexes from particles of a valuable component and extremely hydrophobic particles of the working body by the mechanism of sticky separation, and then already reliable contact of the formed sticky complex with the water - ozduh, creating conditions for their guaranteed amount of output from the pulp on its surface. If, however, the granules are larger and the density is lower than the recoverable particles, then this will create conditions for the reliable removal of sticky complexes to the water – air interface and their retention on the liquid surface, because the “buoyancy” of such a complex is much higher than particles of a valuable component . Failure to observe such a sequence can lead to separate film flotation of fluoroplastic granules and particles of a valuable component introduced into the pulp without achieving the goal.

 Reliable contact of the sticky complex with the water-air interface is possible by removing particles of slurry from the pulp volume onto its surface with fluoroplastic granules introduced into it. It is provided, on the one hand, by the extremely hydrophobic surface of the fluoroplastic granules, and, on the other hand, by their lower density (compared to the processed material) and increased particle size, which increase the strength of film flotation.

 The reliability of the formation of sticky complexes in the mineral pulp is ensured by the dispersion of the sticky working body (fluoroplastic granules) during the movement.

 The guaranteed exit of sticky complexes and particles of a valuable component to the water-air interface is ensured by the fact that the inner surface of the working body (which is a combination of sticky separation and film flotation in one device and a structural element that displays particles of the enriched material from the pulp volume to its surface, t ie at the water-air interface) is extremely hydrophobic and coated with a sticky composition. In this case, the release of hydrophobic and hydrophobized particles of a valuable component and sticky complexes to the water-air interface and above it is carried out both by the sticky separation mechanism and by the film flotation mechanism, because if particles of a valuable component or sticky complex are fixed on a sticky coating, then they, having passed the water-air interface, will be extracted into the concentrate by the sticky separation mechanism. If, however, they are not firmly fixed on the adhesive coating, then in this case the sticky separation mechanism will contribute to the fixation of particles of a valuable component and sticky complexes at the water-air interface by the film flotation mechanism. In both cases, the extraction of particles of a valuable component will be guaranteed, which is essential for intensive modes of operation of the apparatus.

 Applying a sticky coating to the hydrophobic surface of the granules in the device is carried out by mixing them in a high-temperature aqueous emulsion of the sticky composition, which is carried out in an additional spreading device immediately before the granules are fed into the source enriched material.

 The repeated contact of the particles of the enriched material with the sticky coating of granules is carried out by mixing them in a pulp with granules treated with an adhesive composition in a loading device made in the form of a hollow rotating drum equipped with vanes for mixing the material, placed uniformly and fixed on the inner surface of its cylindrical wall. When the material is mixed with granules, the sticky coating is simultaneously cooled and its cohesive-adhesive properties are increased.

 Fluoroplastic granules after their regeneration and separation from the particles of a valuable component can be used repeatedly in the process, performing an intermediary role in the flotation process. The difference in size and density between the fluoroplastic granules and particles of a valuable component contributes to their reliable and efficient separation.

 To efficiently remove hydrophobic and hydrophobized particles of fine-grained material and sticky complexes by sticky separation, it is necessary to have a working body with a sticky coating that does not lose its activity over time, which is achievable with its continuous renewal (removal and spreading without stopping the process), while it is enough to immerse a moving working worker an organ into the volume of the pulp, which will flow around it in a certain way, providing multiple contact between the particles of the material and the sticky complexes with a sticky coating.

 To ensure multiple contact also requires a certain constructive solution of the working body and its location in the bath.

 In terms of the constructive solution of the working body, the multiple contact of the particles of the material and the sticky complexes with the sticky coating can be achieved if the working body is made in the form of a horizontally located socket, immersed with its lower part in the bath. When the initial pulp is fed into the rotating bell, particles of the material with the sticky complexes located in it will move along its surface, repeatedly touching the sticky coating. The decrease in the yield of concentrate in the device will be ensured by the fact that the working body in it moves in an aqueous medium, which will wash off hydrophilic particles mechanically introduced into the sticky coating.

 To reduce the consumption of ointment and its total amount that is simultaneously involved in the process, it is advisable to have a thin layer of sticky coating, which is sufficient when processing fine-grained material using the proposed device. For high-quality fixing of the adhesive coating on the bearing surface (working body), it is necessary that this surface is as hydrophobic as possible. In this case, it is advisable to use fluoroplastic lining plates. Obtaining a thinner layer of sticky coating can be achieved by applying it on a hydrophobic surface in molten form, followed by cooling. Immersion of the working body in the pulp provides the necessary cooling of the sticky coating.

 It is rational to apply a sticky coating on the surface of the working body in molten form by forcing it through a perforated wall pressed against the moving surface of the working body. This is not difficult to achieve if the plastering device for this device is performed at the same time with a scraper for removing the sticky separation concentrate in the form of a hollow tooth directed along the wall of the socket, with the base and apex located respectively at the outlet and inlet of the socket. The wall of the tooth adjacent to the surface of the socket must be perforated and have equal curvature with it.

 To exclude the difference in water level during the transition of the initial pulp from the drum of the loading device into the socket of the working body, it is necessary that the diameter of the inlet of the socket and the inner diameter of the ring of the end face wall of the drum be equal to each other.

Claims (2)

 1. DEVICE FOR TICKY SEPARATION AND FILM FLOTATION, containing a bed, a loading device, a working body made of a material with a hydrophobic surface with a sticky coating, a spreading device located along the generatrix of the working body, a scraper for removing concentrate, discharge devices for removing tails and concentrate , characterized in that, in order to intensify the process and increase the extraction of a valuable component, it is equipped with an additional spreading device, fixed by with dial ribs on the inner walls of the loading device coaxially with it and made in the form of a truncated cone with a blind end wall facing the large base towards the loading side, and the loading device is made in the form of a hollow drum with an impermeable cylindrical surface and end walls with inlet and outlet openings, this working body is made in the form of a bell, coaxially and cantileverly mounted on the end wall of the drum with the outlet, and the diameter of the inlet the flask and the inner diameter of the outlet end of the end wall of the drum are equal, and the spreading device is made in the form of two faces, connected to each other and communicated with the scraper by the formation of a hollow trihedral element, one of which is perforated and has a radius of curvature equal to the radius of curvature of the bell.  2. The device according to claim 1, characterized in that it is equipped with vanes for mixing the material, uniformly fixed on the inner cylindrical surface of the drum.