RU2130807C1 - Sluice box for enrichment of placers - Google Patents

Abstract

FIELD: enrichment of mineral resources. SUBSTANCE: sluice box has loading device and flow guides positioned in upper part of body, body with bottom consisting of two planes arranged at an angle relative to each other which decreases gradually from sluice box loading to unloading. Sluice box also includes damping plates spaced from each other and from sluice box bottom, flow splitter designed to discharge surplus water, and concentrate cut-off device. Vertical sides of sluice box narrow down towards unloading and approach central longitudinal axis in plan. In this case, body of sluice box is inclined to horizon. Sluice box extraction of small and fine-dispersed particles of valuable component. EFFECT: higher efficiency. 4 dwg

Description

 The invention relates to the field of mineral processing, in particular to gravitational enrichment of gold placers.

 A known gateway for the enrichment of placers, taken as a prototype, including a loading device located in the upper part of the body, a body with an inclined bottom made of two planes installed at an angle to each other, flow guides placed under the loading device, two plates installed with a gap relative to each other and the bottom and parallel to the sides of the airlock, a slurry flow divider for discharging excess water, installed in the rear of the airlock, a concentrate cutter installed in the tail torus e of the bottom and provided with a mechanism for adjusting displacement along mutually perpendicular axes (1, 2).

 A known gateway operates as follows. The pulp through the loading device is fed into the upper part of the body, normally the bottom in its axial part. Slurry flow guides are introduced at the bottom between the vertical plates. The formed flow partially passes under the lower edges of the longitudinal plates, forming a transverse wave. The central axial flow significantly disrupts the lateral movement of the pulp, and after the formation of a second transverse wave of smaller amplitude in the plate region, the flow on the bottom acquires a rectilinear motion close to the laminar one. In the rectified flow zone, heavy grains are deposited in the lower layers of the moving pulp and at the end of the airlock the heavy mineral fraction is separated by a cutter from the entire mass of the flow. The concentration of valuable components in the rectified flow region occurs in the axial part of the bottom along its contour, and the upper boundary of the weighing zone of valuable components (in the cross section of the flow at the outlet from the bottom) is within a curve close to a parabola.

 The disadvantage of this lock is the relatively weak segregation of minerals in the longitudinal and transverse directions and the rate of diffusion of small and finely divided heavy minerals into the bottom moving mineral bed, which leads to dilution of the concentrate with gangue grains and the removal of small heavy minerals into the tail product.

 The objective of the invention is to increase the extraction of fine and fine particles of valuable components.

The task is achieved in that the gateway for the enrichment of placers, including a loading device and flow guides located in the upper part of the body, a body with a bottom made of two planes located at an angle to one another, two plates installed with a gap relative to each other and according to the invention, the bottom surfaces of the lock, the cut-off of the concentrate and the splitter of the flow for discharging excess water according to the invention have planes of the bottom of the body located at an angle relative to each other, gradually decreasing from loading towards unloading from 140 to 100 ^o, and the bead lock towards unloading disposed in the plane at an angle to the central geometric axis equal to 0-6 ^o, wherein the housing lock is tilted to the horizontal in the direction of the unloading angle of 5-8 ^o.

 Introduction to the process of sand enrichment at the sluice for the enrichment of placers by narrowing the flow enhances the segregation of minerals in density in the vertical direction. Segregation is supplemented by the process of directed stirring and washing of the mineral moving layers with turbulent vortices that lift large light particles located in the upper part of the bottom layer and remove particles of small hydraulic size from the attached layer. As a result of the interaction of these phenomena at the end of the trench, the concentration of particles of high density in the bottom layers increases, and in the upper layers of low density. The difference in the velocities of the upper and bottom layers of the flow accelerates the removal of waste rock minerals into the tail product. The above allows you to capture and recover heavy minerals and gold with a particle size of up to 30 microns and even smaller.

The narrowing together with the V-shaped profile of the bottom with a smooth change in the angle between the bottom plates from 140 to 100 ^o is fundamentally necessary for the process of separation of mineral particles on the claimed device. The above serves as the main means of allowing, without additional energy costs, to expand the fan of minerals in a vertical plane, to concentrate heavy minerals in a separately moving part of the stream and to conveniently cut off the heavy fraction of processed sands into a concentrate. A significant advantage of the inventive gateway for the enrichment of placers is a high specific productivity, low capital costs and the absence of moving parts. The absence of dependence on pulsations of the liquid phase and the automatic regulation of the water regime of the enrichment process enhances the positive aspects of the inventive gateway for enrichment of placers.

 A comparative analysis of the proposed technical solution with the prototype shows the presence in it of significant features that distinguish it from the prototype, which allows us to conclude that the claimed technical solution meets the criterion of "novelty."

 The conformity of the claimed device to the requirement of an inventive step is due to the fact that the construction using the distinctive features of the combination with known elements virtually eliminates the entrainment of fine and finely dispersed useful component, reduces dilution of the screened concentrate with gangue minerals, increases the enrichment depth of processed sands by maintaining the structure of the formed stream, increasing the concentration of the foam components of the heavy fraction, increasing the extraction of bright and finely divided particles of valuable minerals with continuous withdrawal of the concentrate, which obviously does not follow from the known. The invention is illustrated by drawings.

 In FIG. 1 shows a gateway for placer enrichment.

 In FIG. 2 shows the gateway in plan.

 In FIG. 3 shows a concentrate cutter.

 In FIG. 4 shows a flow divider for discharging excess water.

The gateway for the enrichment of placers (Fig. 1 and 2) consists of a loading device 1, flow guides 2 located in the head (upper) part of the gateway, the bottom 3, made of two plates mounted at an angle to each other, gradually varying from 140 ^o in the upper part in the loading area up to 100 ^o in the end unloading part. The sides 4 are vertically installed along the longitudinal edges of the bottom 3, the height of which in the receiving (upper) part of the lock exceeds the upper edges of the flow guides 2 by 2/3 of the height of the faces of the flow guides 2 closest to the axial vertical section of the lock from the loading (receiving) end the bottom 3 is bounded by a vertical transom plate 5. Along the longitudinal axis of the airlock are installed vertically located and parallel to each other plates 6 with a gap between their lower edges and the bottom 3. Plates 6 are installed at a distance of 1/3 - 1/2 of the length of the bottom from the tail end and are fixed on the flow guides 2 and on the axis 7. The vertically installed sides 4 of the airlock in the unloading direction are close to the longitudinal axis of the device at an angle of 0-6 ^o , providing a narrowing of the airlock in plan. In the tail section of the airlock to ensure the discharge of excess water, a flow divider 8 is mounted, freely fixed on the axis 9. From the end of the central tail section, a concentrate cut-off device 10 is installed coaxially with the bottom 3 of the gateway, consisting of an upper cut-off part 11 (Fig. 3) ending with an end plate 12, a pipe 13, a plate 14 having a cut-out of the contour of the bottom of the airlock 3 and with which a cutter 10 is bolted to the tail end plate 15 of the airlock. In the plate 14, grooves are made to adjust the position of the cutter in the plane of contact of the plates 14 and 15.

The lower part of the bottom of the airlock 3 is connected to the supporting frame 16 by means of plates 17, rigidly attached to the bottom 3 and having arc slots for adjusting the angle of the transverse roll, and corner brackets 18, rigidly attached to the frame 16. This connection is carried out using bolts, nuts and washers . The longitudinal angle of inclination of the lock to the horizon in the direction of unloading when the value of this angle is 5-8 ^{o is} provided when mounted by tilting the support frame 16.

 The divider 8 (Fig. 4) consists of horizontally mounted plates 19, guiding zigzag plates 20 mounted perpendicular to the horizontal plates and symmetrically with respect to the longitudinal axis of the sluice, the wedge-shaped bent plate of the cowling 21 connecting the zigzag plates 20, is equipped with a set of plates 22 connecting the zigzag plates 20 with a fairing 21. The divider 8 is installed with limited movement along the height of the lock section.

 The gateway for the enrichment of placers works as follows.

Gold-containing sands with water (pulp) are fed through the feed device 1 to the upper receiving part of the gateway normally bottom 3 in its axial part. At the same time, the speed of the pulp is extinguished. The guides 2 form a flow and direct its movement between the plates 6. To avoid overflow of the pulp, the height of the sides 4 in the upper part of the airlock is increased and exceeds the height of the edges of the guides of the stream 2, but a small amount of pulp can be poured through the upper edges of the guides of the stream 2, after which the pulp falls onto bottom 3 gateways. The concentrated flow partially passes under the lower edges of the plates 6, forming a transverse wave, which is reflected and quenched by the narrowing sides 4 and the bottom plates 3. The central axial flow significantly weakens the lateral movement of the pulp. The horizontally spreading flow in the receiving part of the gateway, where the plates of the bottom 3 are located relative to each other at an angle of 140 ^o , the guides of the flow 2 is calmed down, while most of the turbulent vortices are extinguished. Further, the flow movement is formed and directed straight along the lock between the plates 6. With a further narrowing of the flow by the sides and the V-shaped bottom, with a smooth decrease in the angle between the plates of the bottom 3, the flow cross section changes its spatial arrangement from horizontally stretched to vertically directed. Soothing plates 6 form the flow of the pulp, providing its rectilinear movement, the plates of the bottom 3 provide a concentration of heavy minerals near the axial part of the bottom 3, the narrowing provides some washing of the bottom part of the stream and spreads the fan of minerals in the vertical direction. Due to the high solid content in food, the main process that determines the separation of particles during narrowing of the lock is segregation. The latter is supplemented by the process of flushing (stirring) the entire mineral mass with ascending flows of turbulent vortices, lifting large light particles located in the upper part of the bottom layer and removing particles of small hydraulic size from the bottom layer. As a result, particles of high density are located in the discharge end of the lock in the lower layers, and lower particles in the upper layers. Therefore, the average velocity of heavy particles is less than the average velocity of the lungs.

Small light particles (finer than 0.050 mm with a density of 2.6 - 2.7 g / cm ³ ) are agitated by turbulent vortices and distributed evenly along the height of the flow. Small heavy particles with a density of more than 3 g / cm ³ , passing along the bottom of the sluice together with the liquid phase, gradually descend to the bottom of the sluice 3 and diffuse into the separately moving stream of the heavy sand fraction, increasing the concentration of heavy minerals in the bottom layer.

The bottom 3 of the lock from the loading part to the unloading is characterized by a smooth decrease in the angle between the bottom plates. The optimal range of the angle between the bottom plates from 140 ^o to 100 ^o determined experimentally.

The lower bottom layers of the stream, having a low speed of movement, are pressed against the V-shaped surface of the bottom 3. The upper layers of the stream, having a high speed of movement, by inertia rush forward with parallel sides, and in the presence of narrowing (the location of the sides at an angle of 6 ^o and the longitudinal axis of the lock) rise sharply towards the free surface of the stream. As a result, on the one hand, the fan of minerals is extremely extensible in density in the vertical plane, on the other hand, due to the stretching of the stream, tapering in plan, it provides an increase in the concentration of heavy minerals of all particle sizes in the central bottom part of the stream and the possibility of a more clear separation of the heavy fraction sand (black concentrates or concentrate) and extraction with cutter 10 from the stream.

In this case, the narrowing of the lock at the V-shape of the bottom 3 with a smooth change in the angle between the plates of the bottom from 140 ^o to 100 ^o is fundamentally necessary for the process of separation of particles by density in the inventive device and serves as a means of increasing the thickness of the stream with the aim of more convenient cutting the maximum possible concentration of heavy valuable minerals of all classes, size in the bottom zone (or part) of the flow.

An excessively large narrowing of the flow reduces the described effect due to an excessive increase in turbulence, especially in the bottom part. The narrowing of the flow within the specified limits in the presence of a V-shaped bottom and a smooth change in the angle between the plates of the bottom 3 from 140 ^o to 100 ^o in the direction of unloading is especially favorable when enriching the sands of metal-bearing placers, in which useful minerals are represented by small free particles, significantly differing in density from waste rock particles.

 But it must be borne in mind that the claimed gateway for the enrichment of placers allows, with a sufficiently high degree of extraction of valuable minerals, to obtain rough collective concentrates of processed sands, requiring subsequent treatment, refinement and separation into monomineral concentrates. Extraction of particles of heavy minerals with a particle size of up to 0.5 mm is 100%, particle size 0.2 - 0.5 mm - 96-98%, particle size 0.1 - 0.2 mm - 94-96%, particle size 0.05 - 0 , 1 mm - 90-92% and fineness of 0.03 - 0.05 mm - up to 80-85%.

 Additional advantages of the inventive gateways for the enrichment of placers over other devices for gravitational enrichment are high specific productivity, low capital and operating costs, the absence of moving parts and energy consumption.

 The enriched part of the flow is cut off at the end of the lock by the cutting part 11 of the cutter 10, and then the concentrate is supplied for further processing. The tailings of the lock are dumped into the dump. The plate 12 prevents the concentrate grains from leaving the tail product.

 The cutter 10 is installed coaxially with the bottom 3 by moving it along the horizontal grooves on the plate 14. In this case, depending on the required quality and volume of continuously flowing concentrate, the cutting part 11 of the cutter 10 is regulated by moving it along the vertical grooves on the plate 15. Correspondence of the cutter profile to the profile the cross-section of the concentrated flow on the bottom of the gateway 3 simplifies the design of the cutter and increases the extraction of valuable components of all size classes.

 When applying sand for processing with a hydraulic elevator, washing sand with irrigation water or using a lock in a drag, it is almost impossible to maintain a constant dilution in a narrow range. At the same time, large pulsations of the flow of process water are observed. The watering of the pulp supplied to the sluice causes an increase in the flow rate in the rectified flow zone on the bottom 3. This pulsation of the liquid phase also increases the weighing of the heavy fraction in the axial part of the bottom 3. The flow divider 8 with the help of the cowling 21 and horizontally mounted plates 19 cuts the upper layer the liquid phase and zigzag guide plates 20 guides it along the longitudinal sides 4, separately from the main pulp stream.

 The depth of cut of the liquid phase is controlled by symmetric rearrangement of the plates 22 behind the guide plates 20 inside the fairing 21. In this case, the horizontally mounted plates 19 are shifted to the airlock axis by the thickness of the rearranged plates 22. The presence of vertical grooves in the plates 20 allows limited movement of horizontally mounted plates 19 relative to the axis 9.

 The use of a gateway for enriching placers will increase the extraction of fine and fine particles of a valuable component.

Sources of information
1. RF patent N 1019716 B 03 B 5/70.

 2. RF patent N 1094183 B 03 B 5/70.

Claims (1)

A gateway for placer enrichment, including a loading device and flow guides located in the upper part of the body, a body with a bottom made of two cavities located at an angle to one another, two plates installed with a gap relative to one another and the bottom and parallel to each other, a flow divider and a concentrate cutoff, characterized in that the planes of the bottom of the body are located relative to each other at an angle that gradually decreases from loading the airlock to unloading from 140 to 100 ^o , and the sides of the airlock in the direction of unloading the hands approach in plan to the central longitudinal geometric axis at an angle of 0-6 ^o , while the body is inclined to the horizon at an angle of 5-8 ^o .

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