RU2204439C2 - Method of re-extraction of fine heavy minerals and metals in the course of flushing and screen sluice box for realization of this method - Google Patents

Abstract

FIELD: methods and devices for obtaining concentrate from fine and thin particles of valuable component in the course of flushing in sluice box, mainly gold and platinum-containing sands. SUBSTANCE: proposed method includes acceleration of material to be separated forming pulsating flow of pulp over chute of sluice box with bottom made in form of components of template mounted in succession. Each part of sectional template is closed at the top with sheet of screen where holes are drilled. Each component of template has inlet slot between sheet of screen and jointing riffle whose area is greater than that of outlet slot. Velocity of pulp flow inside each component of template is reduced due to intake of part of upper flow of pulp through inlet slot; this flow is directed to top of screen sheet of subsequent component of template. Particles of valuable component are entrapped in cells of rubber mat found under each component of template. EFFECT: enhanced efficiency at high productivity of flushing unit. 4 cl, 5 dwg, 1 ex

Description

 The invention relates to techniques and technology for mineral processing, mainly gold and platinum sands, as well as crushed ores by gravity methods.

 A known method of mineral processing, RF patent 2034662, publ. 05/10/95, cl. 03 V 5/70, including feeding the pulp containing liquid and solid phases with grains of valuable component and gangue to the treatment zone, forming and accelerating the flow of the treated pulp in the initial section, moving the stream in the longitudinal direction along the processing zone, in which coating, creating stationary vortices during the movement of the pulp, filling the capture coating with grains of a valuable component while restoring the capture ability of the coating and rinsing the capture coating with n accumulation of a valuable component.

 Disadvantage: along with the pulp stream, particles of the valuable component are partially carried out to the drain, since there is no general acceleration or deceleration of the stream to discharge the heavier component by the stream, which leads to low extraction of the small valuable component.

 A known method of enriching the rock mass in a stream created at the gateway under the influence of inertial forces (RF patent 2147933, publ. 04/27/2000, CL 03 V 5/72, 7/00), including the formation of a pulp stream at the gateway, the deposition of heavy particles and pulmonary discharge, characterized in that the pulp stream is formed on a screen made at the same time with the lock and located above the lock, by exposing the rock mass to a rock mass, a pulp stream is formed on the lock with rugs and stencils, creating a recovering collecting coating in the form of rug cells with forcibly untwist the pulp flows. Due to the complex movement of the pulp stream at the screen, particles of a valuable component and particles of a heavy fraction are carried out through the screen openings and fall into the general stream to a gateway having a retaining trapping surface.

 Disadvantage: due to the complex movement of the lower part of the pulp stream at the gateway, the floating particles of the valuable component do not reach the lower part of the coating to catch, insufficient washing of the valuable component in a short section of the gateway.

 A known method of washing ore raw materials (RF patent 2047378, class B 03 V 5/26, 5/40), including loading the original pulp, dividing it in a moving stream into light and heavy fractions on an endless belt with a capture coating, moving towards the flow of pulp , continuous flushing of the heavy fraction from the capture coating with water.

 Disadvantage: due to the periodic acceleration and deceleration of the pulp on the moving belt due to the inevitable pulsation of the pulp stream, excessive accumulation of the source material on the belt occurs; when preparing the pulp, there is no separation of the heavy and light fractions in the pulp stream on the moving belt due to its homogeneity.

 A known method of enrichment of heavy minerals and metals on a mechanical tray lock (RF patent 2147934, class B 03 7/00, 5/70, publ. 04/27/2000, bull. 12), including the acceleration of the pulp stream on the inclined surface of each composite tray , reducing the total flow rate in the recess of each composite tray, the impact on the shared material in each composite tray with a water stream to obtain a suspended heavy fraction with a uniformly distributed liquid phase throughout the working part of the composite tray, while the suspended heavy fraction is untwisted cylindrical surface and emit a heavier fraction on the conical surface.

 This method is the closest analogue of the claimed method for the combination of essential features to achieve a technical result.

 Disadvantage: partial loss of valuable component due to mechanical removal along with waste rock due to insufficient length to disperse the pulp, necessary for its separation into heavy and light components.

 The method for recovering small heavy minerals and metals during the washing process and the screening sluice for its implementation have the following advantages: increasing the efficiency of extraction of small and thin particles of a valuable component with high washing process performance, obtaining a concentrate in the form of black and gray concentrate from small and thin particles.

 At the same time, a technical result is achieved in the form of separation of the pulp stream into the heavy and light fractions before additional washing of the heavy fraction thus extracted to extract the valuable component.

 The enrichment method includes trapping the heavy fraction in the screening holes for further washing in the same component catching parts of the airlock, accelerating the pulp stream at the gateway while reducing the total flow rate when passing the catching parts of the lock, affecting the material to be separated in each component of the catching part of the lock with flow to obtain a weighted heavy fraction with a uniformly distributed liquid phase throughout the catching part of the lock in each component catching part of the lock, the allocation is heavier th fraction.

 The peculiarity lies in the fact that the acceleration of the flow is carried out to create a pulsating flow on the inclined surface of the screen with a stratification of the pulp stream into a lighter upper part and a heavier lower part, while the pulp stream is supplied to the gateway, the component catching parts of which are made in the form of components stencil, while each component of the stencil has a roar along the entire length and begins and ends with docking plates installed with the formation of inlet and outlet slots under the foxes the volume of the screen, the heaviest fraction of the material to be separated is extracted from the heavy lower part of the pulp stream, the separated heavy fraction is collected for further washing in each component of the stencil, the material to be separated in each component of the stencil, closed from above with a screen sheet, is carried out by the flow of pulp through the inlet slit having a clearance less than the clearance of the outlet slot, and through the outlet slot on the top of the screen sheet of the next component of the stencil serves the flow of pulp after washing, while Lighter particles with water are discharged to the top through the openings of the screen to better separate both the under-sieve and the over-sieve streams of the pulp into light and heavy fractions, while the heavier fraction is selected in the rug cells of each component of the stencil.

 Known flushing device for mineral processing (RF patent 2038158, publ. 06/27/1995, class B 03 B 5/70), including a loading device, screens, locks, collectors of sublattice products with exhaust holes, and the screens are installed one above the other and are interfaced with gateways.

 Disadvantage: when particles are uniform in size, a heavy fraction is released at the gateway, and when combined with less heavy particles, heavier components may lose their properties and become less mobile when flushing or, on the contrary, get pulled off during working water pressure.

 A well-known chamber concentrator (RF patent 2044571, class B 03 B 5/70, publ. 09/27/1995), including a receiving hopper, a distribution tray in the form of an open trough with a hatch in the bottom, under which there are enrichment chambers from two compartments, one of which is blocked by a sieve, with a bias towards unloading, water fittings.

 Disadvantage: there is no preparatory separation of the oversize product at least partially into the heavy and less heavy fractions, which affects the washing efficiency.

 A well-known tray (RF patent 2035234, class B 03 B 5/26, 5/40, 5/70), including a groove with a hole in the bottom covered by a grate, located under the hole catching pocket with a drain channel.

 Disadvantage: low efficiency of collecting fine gold from the pulp stream passing over the channel over the pocket. Insufficient washing of sand in your pocket.

 This method is the closest analogue of the claimed device and has the following common features: a gateway, a roar, a catching device located under the roar.

 The technical result is achieved by the fact that the enrichment device comprises a gateway in the form of an inclined trough, a screen, a catching device located under the screen.

 The peculiarity lies in the fact that the catching device is made in the form of identical constituent parts of the stencil with rugs, which are installed sequentially on the bottom of the gateway trough, each part of the stencil has a screen sheet with drilled holes over the entire length, each stencil component has an inlet a gap under the screen sheet to create a pulp stream and an exhaust slot for outputting the spent pulp to the top of the screen sheet of the next component of the stencil, and the clearance of the inlet gap is already clearance of the outlet gap.

 The peculiarity lies in the fact that the screening sheet has small corrugations attached to it or a sheet of corrugated iron with cuts directed along the processed pulp.

 The peculiarity is that the gateway in the head part has additional stencils.

In FIG. 1 shows a gateway, most of which has a stencil component, where each stencil component is closed on top with a screen sheet in the form of a sieve: 1 - gateway wall or gateway box; 2 - part of the stencil; 3 - a rubber mat covering the bottom of the gateway; 4 - a screen sheet in the form of a sieve; 11 - stencils of the head of the gateway; 6 - spring-loaded adjustable supports; α is the angle of inclination of the gateway; L is the length of the gateway part of the stencil components, each of which is closed on top with a screen sheet in the form of a sieve, β ₁ is the angle of inclination of the grooves of the head part of the gateway, 7 is small grooves or corrugated sheet.

 Figure 2 shows a cross section of a lock: 8 - installation ribs; 9 - side wall of a composite stencil with cut corners; 10-cross channel channel channel.

Figure 3 - shows a longitudinal section of a component of the stencil, which is closed on top with a screen sheet in the form of a sieve: 5 - docking plate 12 - flute; V ₁ - the speed of the oversize pulp flow; V ₂ - the flow rate of the pulp in the stencil component, each of which is closed on top with a screen sheet in the form of a sieve; r ₁ is the clearance height of the entrance slit K ₁ , r ₂ is the clearance height of the exit slit K ₂ .

Figure 4 shows an enlarged part of the longitudinal section of the gateway: c is the distance between the inclined corrugations of the stencil; β ₂ - the angle of inclination of the grooves of the stencil component; h ₁ - the height of the riffle stencil; h ₂ - the height of the channel stencil; a - the width of the shelf rifle stencil; in - the width of the flange of the upper stencil.

In FIG. 5. shows an enlarged section of the screen sheet: 90 ^o - the angle of the bevel in the hole; d is the diameter of the hole in the screen sheet; D is the diameter of the chamfer in the hole of the screen sheet; t is the distance between the holes along the length of the stencil component; S is the thickness of the sieve sheet.

Example. After disintegration of the source material on the washing table of the hertter pulp, the pulp enters gateway 1, which has an inclination angle α = 5 ... 7 deg. to accelerate the pulp flow to a speed of V ₁ = 1 ... 3 m / s. The gateway is mounted on adjustable supports 6 and has stencils of the head part 11 with an inclination angle β ₁ = 45 degrees. and sequentially mounted on rubber mats 3. The components of the stencil 2 together are L = 7 ... 10 m in length without taking into account the stencils of the head part of the lock and are designed to more fully capture the small and thin valuable component with particle sizes up to 15 microns. Each component of the stencil begins and ends with the docking plate 5, has side walls 9 with cut corners and corrugations 12, and each component of the stencil has cliches from the sluice of small filling, having corrugations 12 with an angle of inclination of the corrugations β ₂ = 35 degrees. and closed on top with sheets of screen 4 in the form of a sieve, having openings arranged in a checkerboard pattern and fixed on top on each component of the stencil by means of mounting stiffening ribs 8 of the screen 4. With the formation of installation ribs of stiffness of the channels of the screen between the corrugations 12 and the screen 4 a screen with a thickness of S = 5 ... 8 mm has holes along the entire length of the composite section with a diameter of d = 15 ... 20 mm and a bevel in diameter D of at least 30 mm, and the distance along the length of the stencil component between the holes is t = 50. ..60 mm. Small corrugations 7 with a shelf width of = 10 ... 15 mm or a corrugated sheet of iron with an angle of cut along the direction of the pulp are attached directly to the lower part of the screen sheet. The upper arrangement of the grooves under the screen sheet in each component of the stencil improves the washability of the heavy fraction and its suspension in suspension by returning particles with water through the holes to the top of the screen on the last part of each component of the stencil due to the difference in flow rates. The pulp flow on each sheet of the screen covering each component of the stencil is stratified due to pulsation of the stream caused by both partial intake of the pulp through the holes and braking in the coarse fraction stream due to its periodic rolling along the screen, while pulsation of the flow is understood as passing mentally: periodically tapering or expanding parts of the gateway. The separable material in the form of heavier particles is partially captured in the holes of the screen together with particles of a valuable component due to their falling out of the pulp stream on the screen sheet, after which the particles get washed in the stencil component, where they are washed in a slower stream with a pulp flow rate V ₂ = 0.5 ... 1 m / s, created by taking part of the upper pulp flow through the inlet slit K ₁ with a clearance height r ₁ = d and less than the clearance height of the outlet slit K ₁ with r ₂ = 3.. .5d channel, the channel height h of the stencil ₂ and Jun from the opening of the screening sheet, a weighted heavy fraction is formed due to the successive removal of the lower pulp stream to the top of the screening plate of the next component of the stencil, and the washing conditions in each component of the stencil are improved with the subsequent recovery of the fine and thin useful component not captured in the previous component parts, with adjustment of speed V ₂ by adjusting the width of the shelves riffles a, c, the distance c between riffles stencil and the stencil selection channel height h ₂ between the bottom of the stencil and surfer screening and selection riffle height h ₁ part stencil. Separation of the pulp into the upper light part and the lower heavier part is used to separate heavy particles and particles of a valuable, heavier component on the surface of the screen sheet, followed by trapping through the holes of the screen sheet for further washing in the stencil with the pulp through the inlet slot. By extracting part of the upper pulp stream through the inlet slit, a less rapid pulp stream is created inside each stencil component with the output of such a stream to the top of the screening sheet of the next stencil component, while some of the heavier particles together with water are released to the top through the holes of the screening sheet for better stratification of both the under-sieve and over-sieve streams of the pulp into light and heavy fractions. Particles of a valuable heavier component are trapped in the cells of the rubber mats located under each component of the stencil.

Claims (4)

 1. The enrichment method, including trapping the heavy fraction in the screen holes for further washing in the same constituent parts of the airlock, accelerating the pulp stream at the airlock while reducing the total flow rate when passing the constituent collecting parts of the airlock, the impact on the material to be separated in each constituent collecting part of the airlock by flow with obtaining a suspended heavy fraction with a uniformly distributed liquid phase over the entire catching part of the lock in each component catching part of the lock, the allocation of more than yellow fraction, characterized in that the acceleration of the flow is carried out to create a pulsating flow on the inclined surface of the screen with the stratification of the pulp stream into a lighter upper part and a heavier lower part, while the pulp stream is supplied to the gateway, the composite catching parts of which are made in the form of parts of the stencil, while each component of the stencil has a roar along the entire length and begins and ends with the connecting plates installed with the formation of inlet and outlet slots under By screening, the heaviest fraction of the material to be separated is extracted from the heavy lower part of the pulp stream, the separated heavy fraction is collected for further washing in each component of the stencil, the material to be separated in each component of the stencil, closed on top of the screen, is carried out by the pulp stream through the inlet slit, having a clearance less than the clearance of the outlet slit, and through the outlet slot on the top of the screen sheet of the next component of the stencil serves the flow of pulp after washing, while be less heavy particles with the water discharged through the top opening of the sheet bundle to better screening both undersize and oversize pulp streams into light and heavy fractions, wherein the selection of the heavier fraction is carried out in cells mats each component of the stencil.  2. An enrichment device comprising a lock in the form of an inclined gutter, a screen, a catching device located under the screen, characterized in that the catching device is made in the form of identical parts of a stencil with rugs that are installed in series on the bottom of the lock channel, each component the stencil has on top, along the entire length, a screen sheet with drilled holes, each component of the screen has an inlet slot under the screen sheet to create a pulp stream and an outlet slot to withdraw the spent pulp to the top of the screen sheet of the next component of the stencil, and the lumen of the inlet slit is already the lumen of the outlet slit.  3. The device according to claim 2, characterized in that the screening sheet has small corrugations attached to it or a sheet of corrugated iron with cutouts directed along the processed pulp.  4. The device according to p. 2 or 3, characterized in that the gateway in the head part has additional stencils.

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