RU2179889C1 - Sluice box - Google Patents

Abstract

FIELD: concentration of minerals; concentration of ores and placers; extraction of fine-grained and scaly materials. SUBSTANCE: sluice box includes chute with intake chamber provided with catching coat; bottom of chute under this coat is perforated for washing settling fraction by pressure water; intake chamber is provided with device for pulse delivery of pulp to catching coat of chute; this device is mounted in way of motion of pulp. EFFECT: increased degree of extraction of useful component due to entrapping fine and scaly particles of mineral. 9 cl, 8 dwg

Description

 The invention relates to the field of mineral processing and can be used to enrich ores and placers, in particular for the extraction of fine-grained and scaly materials.

 A gateway is known that includes a trench with a catching coating, drums with rippers installed above the bottom of the trough, which allow capturing small particles of a valuable component that float along the surface of the stream and immerse them in the area of the concentration chamber (1).

 A disadvantage of the known gateway is the incomplete extraction of small and scaly particles of a valuable component.

 Closest to the proposed one is a gateway, including a gutter with a receiving chamber and a catching coating (2).

 The disadvantage of this gateway is the incomplete extraction of a valuable component due to the inability to capture small and scaly particles.

 The objective of the invention is to increase the degree of extraction of the useful component due to the capture of small and scaly particles of a valuable mineral.

 The technical result of the invention is the creation of conditions for the penetration of fine-grained and scaly particles of a valuable mineral into the trap coating of the gutter.

 The technical result is achieved by the fact that the gateway, comprising a chute with a receiving chamber and a catching coating, according to the invention, is equipped with a device for impulse feeding the pulp to the catching coating of the gutter installed in the receiving chamber along the pulp.

A device for pulsed pulp feeding to the catching coating of the trough can be made in the form of:
- rotating around the horizontal axis of the impeller, installed with the possibility of touching the lower edges of the blades of the bottom of the receiving chamber, while the length of the blades is equal to the width of the receiving chamber;
- overlapping the entire width of the receiving chamber of the partition, making a reciprocating motion in a direction perpendicular to the bottom of the receiving chamber;
- tanks mounted on an endless belt or chain of a moving conveyor;
- storage tanks installed with the possibility of rotation around a horizontal axis;
- storage tank with a discharge valve that provides portioned discharge of the tank.

 The bottom of the gutter can be perforated, top-coated with a water-permeable, finely porous capture coating to ensure washing of the precipitating fraction with pressure water and to prevent siltation of the capture coating.

 The airlock can be equipped with additional gutters installed cascade behind the main gutter and having permeable, finely porous trapping coatings and perforated bottoms.

 The lock can be equipped with a device for supplying pressure water under each gutter separately.

 Providing the gateway with a device for pulp feeding to the permeable, finely porous trap coating of the gutter installed in the receiving chamber along the pulp movement allows the creation of portions of the pulp, their unloading and the accumulation of the next portion. As a result, the pulp enters the gutter not in a continuous stream, as in the closest analogue, but in portions, which creates the conditions for the complete deposition of hard-to-catch particles of a valuable mineral, including small and scaly particles, and ensures the removal of particles of gangue by a stream of water.

 The supply of pulp in pulses in batches allows you to create "traveling waves" over a permeable, finely porous capture coating, in this case, the thickness and flow rate of the pulp in the gutter periodically decreases to zero, which leads to mineral particles having a greater inertia than turbulent microflows of the liquid, lag behind and fall out of the front (front) part of the "traveling wave", fall into the region of minimum velocities and thicknesses of the flow, where the probability of particle deposition is maximum, while the smallest and scaly heavy mineral particles according to the law of segregation and multimineral polydisperse systems are concentrated in the lower layer and the sedimented particles are kept permeable, fine-pored coating scavenging and large particles with lower density minerals located in an upper layer of the particles and are removed from the trench next "traveling wave".

 The execution of the bottom of the gutter with a perforated, water-permeable, finely porous trapping coating, rinses the precipitating fraction with pressure water, which makes it possible to remove the smallest and silt particles of gangue from the trapping coating and to capture small particles of a valuable mineral.

 The supply of additional gutters installed in cascade behind the main gutter and having permeable, finely porous trapping coatings and perforated bottoms allows changing the direction of the pulp flow at the beginning of each cascade, directing it perpendicular to the trapping coating, which makes it possible to deliver the smallest and scaly particles of a valuable component to capture coating and thus retrieve valuable components not trapped on previous troughs.

 A device for supplying pressure water under each gutter separately allows you to adjust the flow rate of water under each gutter and create optimal conditions for the extraction of a valuable component, including fine-grained and scaly material.

 The invention is illustrated by drawings, where in FIG. 1 shows a lock in section with the implementation of the device for pulsed pulp feeding in the form of a blade wheel, in FIG. 2 - gateway, top view, in FIG. 3-8 section of the receiving chamber with a device for pulsed pulp feeding in the form of a partition, in the form of containers mounted on an endless belt, in the form of a storage tank installed with the possibility of rotation around the horizontal axis (two options), in the form of a storage tank with an unloading valve ( two options) respectively.

 The airlock includes a chute 1 with a permeable, finely porous catching coating 2. The airlock has a receiving chamber 3, in which, in the direction of the pulp, a device is installed for impulse pulp feeding onto the catching coating 2 of the chute 1, made in the form of a paddle wheel 4 rotating around a horizontal axis and installed with the possibility of touching the lower edges 5 of the blades of the bottom 6 of the receiving chamber 3. The length of the blades is equal to the width of the receiving chamber 3. The wheel is made with the ability to control the speed of rotation. The bottom of the chute 1 under the catching cover 2 is perforated 7. Underneath it are chambers 8 for pressure water communicated through nozzles 9 with a device 10 for supplying pressure water for each chute separately. The nozzles 9 have valves 11 for regulating the flow rate of the supplied water. Behind the main groove 1, additional grooves 12 and 13 can be installed, having permeable, finely porous capture coatings 14 and 15, respectively, and perforated bottoms 16 and 17, respectively. The device for pulp pulp feeding can be made in the form of a partition 18 (Fig. 3) or in the form of containers 19 mounted on an endless belt or chain 20 of a moving conveyor (Fig. 4), or in the form of storage tanks 21 mounted for rotation around horizontal axis 22 (Figs. 5 and 6), or in the form of a storage tank 23 with an unloading valve 24 (Figs. 7 and 8).

 The gateway operates as follows.

 Through the device 10 for supplying pressure water, water is separately supplied for each trough. An initial pulp is fed into the receiving chamber 3. One of the blades of the impeller 4 with the lower edge 5 touches the bottom 6 of the receiving chamber 3, blocking the passage of the pulp. The pulp accumulates in the gap between the blades and the walls of the receiving chamber. After the accumulation of a portion of the pulp, the rotating blade throws it onto a permeable, finely porous capture coating 2 of the gutter 1, the next blade in the direction of rotation blocks the flow of pulp and accumulates the next portion. During this time, within 10-30 seconds, the first portion, falling onto the gutter, is delaminated by hydraulic coarseness and heavy particles, including small and scaly ones, settle in a permeable, finely porous capture coating 2. The next “traveling wave” carries away particles of gangue, which represents the top layer of settled particles. The pressurized water from the chambers 8 through the perforated bottom 7 and the permeable, finely porous capture coating 2 rinses the settled fraction, removing fine and silty particles of gangue from the deposition zone and pores of the capture coating. The stream with particles of light minerals and particles of heavy minerals (valuable component) not accidentally caught enters the additional trough 12 and then to the additional trough 13, where the process of extracting the valuable component is repeated. The cascade arrangement of the additional troughs contributes to the re-precipitation of a valuable component at the height difference of the troughs due to the loss of a stream of heavy small and scaly particles from the falling from the higher trough.

 When performing the device for pulsed pulp feeding in the form of a partition 18 (Fig. 3), a portion of the pulp is formed in front of the partition. The partition of the reciprocating movement perpendicular to the bottom 6 of the receiving chamber 3, allows you to accumulate and load portions of material on the gutter 1.

 When performing the device for pulsed pulp feeding in the form of containers 19 mounted on an endless belt or chain 20 (Fig. 4), pulp portions are accumulated in the containers 19 and are fed into the groove 1 as the conveyor moves.

 When performing the device for pulsed pulp feeding in the form of storage tanks 21 rotating around the horizontal axis 22 (Figs. 5 and 6), the portions accumulate in the containers 21 and, as they rotate around the horizontal axis 22, are discharged into the groove 1, creating a pulsed feed.

 When making the device for pulsed pulp feeding in the form of a storage tank 23 with an unloading valve 24 (Figs. 7 and 8, the pulp portions are accumulated in the tank 23 and, through the valve 24, are unloaded onto the gutter 1 at the signal of a command-execution device (not shown).

 The gateway allows you to increase the degree of extraction of the useful component due to the capture of fine-grained and scaly material easy to manufacture, reliable in operation and highly cost-effective means.

Sources of information
1. RF patent 1422455, cl. 03 V 5/70, publ. 09/30/94

 2. RF patent 2038158, cl. 03 V 5/70, publ. 06/27/95

Claims (9)

 1. The gateway, including a chute with a receiving chamber and with a catching coating, characterized in that it is equipped with a device for pulse feeding of pulp to the catching coating of the gutter installed in the receiving chamber along the pulp.  2. The gateway according to claim 1, characterized in that the device for pulsed pulp feeding onto the catching cover of the gutter is made in the form of a blade wheel rotating around the horizontal axis, mounted with the possibility of touching the lower edges of the blades of the bottom of the receiving chamber, while the length of the blades is equal to the width of the receiving chamber .  3. The gateway according to claim 1, characterized in that the device for pulsed pulp feeding to the trap cover of the trough is made in the form of a partition covering the entire width of the receiving chamber of the partition, making a reciprocating movement in the direction perpendicular to the bottom of the receiving chamber.  4. The gateway according to claim 1, characterized in that the device for pulsed pulp feeding to the catching cover of the gateway is made in the form of containers mounted on an endless belt or chain of a moving conveyor.  5. The gateway according to claim 1, characterized in that the device for pulsed pulp feeding to the trap cover of the trough is made in the form of storage tanks installed with the possibility of rotation around a horizontal axis.  6. The gateway according to claim 1, characterized in that the device for pulsed pulp feeding to the trap cover of the trough is made in the form of a storage tank with a discharge valve that provides portioned discharge of the tank.  7. The gateway according to any one of paragraphs. 1-6, characterized in that the bottom of the gutter under the capture coating is perforated to ensure washing of the precipitating fraction with pressure water.  8. The gateway according to any one of paragraphs. 1-7, characterized in that it is equipped with additional gutters installed in cascade behind the main gutter and having a trap cover and perforated bottoms.  9. The gateway according to claim 1 or 8, characterized in that it is equipped with a device for supplying pressure water under each gutter separately.

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