RU2106912C1 - Sluice for concentration of placer minerals - Google Patents

Abstract

FIELD: mineral concentration, in particular, devices for concentration of sands of placer deposits; applicable in exploration tests and in mining industry. SUBSTANCE: the offered sluice has inclined bottom made of two side members arranged at some angle to each other with riffles, loading device and concentrate shutoff device. Riffles are installed at some angle to longitudinal walls of side members. Located between side members is trough for collection of concentrate. Longitudinal partitions are installed from periphery of side members to trough above bottom to form zones of successive concentration in lateral direction. Lower edges of partitions touch riffles to form screening zones. Sluice is also provided with device for loosening and supply of concentrate and features orbital motion of bottom, and loading device in form of distributing bin to form flows of pulp and to direct these flows to side member sections remote from trough. A version of the device for loosening and supply of concentrate is offered in form of a system of sprayers whose outlets are directed at angle to sluice axis towards shutoff device. EFFECT: higher efficiency. 2 cl, 6 dwg

Description

 The invention relates to the enrichment of minerals, in particular to devices for enriching the sands of placer deposits, and can be used both in exploratory testing of low-volume geological samples and in the mining industry as sub-gates to washing devices for the enrichment of "tailings" containing small and thin fractions of heavy minerals, or as an independent washing device for the enrichment of placers with a predominance of fine and thin metal.

 Widely known locks for gravitational enrichment of granular materials, made in the form of inclined fixed gutters of various profiles, equipped with large and small filling drag mats and stencils with thresholds for attaching mats to the bottom of the gutter [1]. Such locks have been widely used because of the simplicity of design and maintenance both on gold recovery dredges and as independent washing devices (devices). However, these gateways have two significant drawbacks. The first is the frequency of work, due to the power cycle (enrichment) and the cleaning cycle. The power cycle is to keep the pulp “running” through the gateway until the floor mats are full of concentrate. The duration of this cycle depends on the content of heavy minerals in the placer and on the length of the lock. The more heavy minerals in the placer, the more often the mats are filled and there is a need to stop the power and clean the mats. The cleaning cycle consists in the sequential removal of concentrate along the entire length of the lock. In this case, the stencils are removed, a small amount of water is used to rinse the light fraction, and the concentrate is manually selected from the corrugations in special containers. The length of the treatment cycle depends on the skill of the workers and, as a rule, ranges from 1 to 2 hours. The second drawback of the known batch locks is their low efficiency in the enrichment of placers with a predominance of fine and thin metal, for example gold with a grain size of less than 0.2 mm, especially in the form of plates or flakes. As the long experience of operating such locks shows, the losses in the “tails” of such metal are from 50 to 80%.

 One of the known solutions aimed at eliminating this drawback is the installation in the bottom of the gutter of movable panels, driven by individual drives, on which dragee mats and stencils are laid [2]. Movements in the vertical plane of the panels create vibrations in the lower part of the pulp stream, maintaining fluidized material filling the stencils. At the same time, the possibility of thin gold demolition is sharply reduced, siltation of stencils is reduced, and the overall extraction of valuable components (CC) is increased. Since the specified gateway with vibro-movable panels operates in periodic mode, its performance is sharply reduced due to frequent stops for concentrate removal.

 Also known are technical solutions aimed at increasing the productivity of the gateway by continuously unloading the concentrate during the enrichment process. Thus, the implementation of a lock with a gutter having a smooth bottom with thresholds and discharge windows installed at an acute angle to the board of the lock at an acute angle to the gateway board, although it creates conditions for continuous withdrawal of the concentrate, but due to weak gravity of the particles of the enriched material (1 g) has a low extraction , especially small and thin classes [3].

 Somewhat better indicators for the extraction of the CC during continuous unloading of the concentrate were obtained at the gateway, which is the closest to the proposed technical solution [4].

 A well-known gateway for the enrichment of placers includes an inclined bottom made of two sidewalls placed at an angle to each other with flutes mounted at an angle to the axis of the gateway, and a trough located between the sidewalls, a loading device and a concentrate cutter.

 A disadvantage of the known gateway is the low degree of CC extraction due to the fact that its design does not provide sufficient hydrodynamic effects on the pulp, which causes intensive sand disintegration and maximum deposition of heavy minerals with the simultaneous removal of gangue particles.

 The consequence of this is the entrainment of a fine fraction of the Central Committee and the low quality of the resulting concentrate.

 Although there are solutions aimed at improving the efficiency of gateways, determined by the extraction of the Central Committee and performance, this task continues to be relevant. It is the task of increasing the extraction of small and thin classes of CC from the sands of placers with high enrichment process productivity is the main one for the invention.

 This problem is solved in the present invention by achieving a technical result, which consists in enhancing gravity in the current pulp layer, the complete withdrawal of small classes from the general stream into the zones of sequential enrichment, the formation of concentrate and its continuous removal.

 The specified technical result in the implementation of the invention is achieved by the fact that there is a known gateway for the enrichment of placers containing an inclined bottom made of two sidewalls placed at an angle to each other with flutes mounted at an angle to the longitudinal sides of the sidewalls, and a trough located between the sidewalls, a loading device and a concentrate cutter, provided with at least two longitudinal partitions for forming zones of sequential enrichment in the transverse direction from the periphery of the sidewalls to the gutter. These partitions are installed with their lower edges on the flutes for the formation of screening zones. The lock is also equipped with a device for loosening and supplying concentrate to the cutter. The bottom of the gateway is installed with the possibility of orbital movement, and the loading device is made in the form of a distribution hopper for forming pulp flows and directing these flows to sections of the sidewalls farthest from the gutter.

 The specified technical result is also achieved by the fact that the device for loosening and feeding the concentrate is made in the form of a spray system installed above the chute, the outlet openings of which are directed at an angle to the axis of the lock towards the cutter.

 According to the results of the analysis of the prior art, no analogue has been identified, characterized by characteristics identical to all the essential features of the invention, and the determination from the list of identified analogues of the prototype as the closest in terms of the totality of features of the analogue made it possible to identify the totality of distinctive features in relation to the seen technical result in the claimed object, set forth in the claims.

 Therefore, the invention meets the requirement of "novelty" under applicable law.

 The presence in the declared object of longitudinal partitions installed on the site from the loading device to the concentrate cutter with its lower edges directly on the flutes allows you to divide the working space above the bottom into zones of sequential enrichment and screening of the material. The alternation of these zones in the technological sequence begins from the sections of the sidewalls farthest from the trench (primary enrichment zone), and continues towards the trough, that is, in the transverse direction of the lock. This design feature of the claimed object organizes a differentiated enrichment process and provides a gradual and more complete separation of material by size and specific gravity, creates favorable conditions for the advancement of small classes along the corrugation channels to the lock axis, increasing the CC extraction rate.

 The presence of devices for loosening and supplying the concentrate to the cutter provides the possibility of imparting the heavy fraction located in the flutes of the central part of the bottom and in the trench to the "flow" properties and continuous advancement of the concentrate to the discharge slit of the cutter with a minimum amount of water.

 The installation of the bottom of the gateway with the possibility of orbital movement provides increased gravity in the current layer of the pulp due to orbital shifts generated on the corrugated surface of the sidewalls by the controlled rotation of the external balanced masses in the plane of the bottom, which makes it possible to intensify the process of sand disintegration, deposition of small classes of heavy fractions with simultaneous removal of clay inclusions and gangue particles, preventing "cementation" of the grooves and preventing large particles from clogging holes formed to riffles in the screening zones, which, in turn, increases the enrichment productivity and the degree of extraction of the Central Committee, especially small classes.

 The implementation of the loading device in the form of a distribution hopper allows the most efficient processing of the pulp coming to the gateway due to the rapid formation of at least two pulp flows from the total pulp mass and directing them directly to the primary enrichment zones, that is, it allows to subject all the material to sequential enrichment and screening.

 The implementation of the device for loosening and feeding the concentrate in the form of a spray system installed above the chute, the outlet openings of which are directed at an angle to the axis of the airlock and towards the cutter, is only one of the simple and reliable options for its execution, which allows to increase the enrichment efficiency by enhancing the process hydrodynamics in the central part of the bottom and in the gutter and the improvement as a result of this quality concentrate.

 Thus, all of these signs contribute to a significant intensification of the enrichment process, not only in the longitudinal, but primarily in the transverse direction to the axis of the lock, which provides a solution to the problem - an increase in the degree of extraction due to the capture of small classes of valuable components with high efficiency of the washing process of placer sands .

 To verify compliance of the invention with the criterion of "inventive step", a comparison was made with other technical solutions known both from special technical literature, catalogs and scientific publications, and from sources included in the "prior art".

 The gateway for the enrichment of placers meets the requirement of an inventive step, since the combination of its essential features provides the gateway with a new quality, expressed in increasing the efficiency of the beneficiation process (increasing extraction and productivity), which does not follow explicitly from the prior art.

 In FIG. 1 shows a gateway, a general view; in FIG. 2 - the same in plan; in FIG. 3 is a section AA in FIG. one; in FIG. 4 is a section BB in FIG. one; in FIG. 5 is a section BB of FIG. 4; in FIG. 6 is a section GG in FIG. one.

 The gateway consists of a skeleton 1, on which, with the help of flexible elements 2, is installed with the possibility of orbital oscillations in the horizontal plane from the drive 3 of the frame 4 with the dispenser 5 fixed to it and inclined to the receiving hopper of the distributor 5 and adjacent to the last bottom 6. The distribution hopper 5 at the bottom has a wedge-shaped protrusion 7, forming two pockets 8 with windows 9 for pulp exit. The bottom 6 is made of two sidewalls 10 placed at an angle to each other and lined with flutes 11, for example, of rubber, with channels 12 forming, with the longitudinal sides of the sidewalls, an acute angle alpha facing the tilt of the bottom. Along the entire length of the bottom 6 is provided with a longitudinal recess 13 in the form of a groove located at the base of the bottom between its sides 10. Over the bottom 6 along the entire length of the fixed longitudinal partitions 14 and 15 are installed with their lower edges 16 on the flutes 11, dividing the space above the bottom by zones of sequential enrichment 17 and 18 and screening 19 and 20 of material in the direction from the periphery of the sidewalls to the groove. A concentrate cutter 21 is located in the center at the end of the groove 13 of the rear part of the bottom 6, including the upper cut-off part 22 and the pipe 23. A device 24 for loosening and supplying concentrate to the cutter is installed over the enrichment zones 18 and also over the groove 13 in the center along the entire length of the bottom 21, made in the form of a spray system 25, the outlet openings 26 of which are directed at an angle to the axis of the gateway towards the cutter 21.

 The work of the gateway is as follows.

 The initial pulp containing sands with valuable heavy minerals, for example small grains of native gold, comes from the pulp line to the receiving hopper-distributor 5, which forms two streams with the help of the wedge-shaped protrusion 7 and pockets 8, which are sent through the windows 9 to the peripheral zones 17 of the bottom 6. As a result of the operation of the drive 3 due to the controlled rotation of the balanced external masses and the suspension on the flexible elements 2, the bottom 6 performs orbital movements, thereby providing through the sides of the sidewalls 10 and longitudinal partitions 14 sufficient hydrodynamic effects on pulp running downhill. This makes it possible to intensify the process of sand disintegration, deposition of a heavy fraction and removal of clay inclusions and gangue particles into the “tails”. Due to the slope of the sidewalls 10 in the direction to the central axis of the lock, the sand part of the pulp along the channels 12 of the corrugations 11 slides to the partitions 14 to the screening zones 19, where, using the holes formed by the shape of the channels and the lower edges 16 of the partitions, sand grains are separated by size. If the holes are clogged with larger grains by vigorous orbital vibrations, the holes for the passage of small grains are cleaned. The fine heavy fraction through channels 12 enters from the primary enrichment zone 17 to the secondary enrichment zone 18. The enrichment process in zone 18 is similar to that described above, but in a different class of fineness, with the only difference being that the ratio of solid to liquid in zone 18 is higher than in zone 17. To maintain the “running” of the pulp in zone 18, it was sprayed through the system 25 fixtures 24 is supplied with additional water, the amount of which is regulated by valves. After cleaning in the screening zone of 20 partitions 15, the obtained concentrate is fed through channels 12 through a channel 12 into the chute 13, where it is loosened by intensive jets of water directed towards the cutter 21 and moves to the discharge gap of the cutting part 22. Thus, the concentrate is withdrawn from the airlock continuously pipe 23, providing high performance flushing process.

 Based on the above description, an experimental gateway model was created for technological testing of bulk samples of placers containing fine and fine fractions of precious metals. The gateway had the following specifications.

The area of the working (covered with flutes) surface of the bottom, m - 0.18
Amplitude of orbital oscillations, mm - Up to 6
The number of bottom vibrations per minute - From 200 to 350
Overall dimensions, mm - 850 x 600 x 1200
Installed power, kW - 0.26
Weight, kg - 88
Gold sands minus 5 mm in size containing more than 0.5% heavy minerals (magnetite, ilmenite, zircon, as well as fine and fine native gold rounded to 25-75%) were mined. The material was supplied in the form of pulp with a ratio of t: w from 1: 8 to 1:15 with a capacity of 200 to 300 l / h. The extraction of gold in concentrate ranged from 64 to 82% depending on the feed rate and the degree of pulp liquefaction, which is significantly higher than the indicators for the enrichment of such material on known washing hydraulic elevator devices of the PGSh type (no more than 25%).

Gateways of various sizes made according to the proposed technical solution can find wide application:
- in the laboratory practice of exploration in the mineralogical and technological research of mineral raw materials containing heavy minerals and precious metals;
- during the development of technologies for the extraction of precious metals from placers and crushed ores, as well as from unconventional raw materials (waste from metallurgical production at enterprises processing precious metal concentrates);
- during the primary enrichment of sands of placers of precious metals as sub-gateways to known industrial devices such as PGSh;
- with the associated extraction of gold from the products of sand and gravel mines.

 For specialists in the art it is obvious that the design of the above devices can be made changes and additions that do not go beyond the essence of the invention, the scope of which is defined in the claims.

Claims (2)

 1. Gateway for enrichment of placers, including an inclined bottom made of two sidewalls placed at an angle to each other with flutes mounted at an angle to the longitudinal sides of the sidewalls, and a trough located between the sidewalls, a loading device and a concentrate cutter, characterized in that the gateway equipped with at least two longitudinal partitions for the formation of zones of sequential enrichment in the transverse direction from the periphery of the sidewalls to the gutter, mounted with their lower edges on the grooves to form the screening zones, and with the device for loosening and supplying the concentrate to the cutter, the bottom is installed with the possibility of orbital movement, and the loading device is made in the form of a distribution hopper to form pulp flows and direct these flows to the side sections farthest from the gutter.  2. The gateway according to claim 1, characterized in that the device for loosening and feeding the concentrate is made in the form of a spray system installed above the gutter, the outlet openings of which are directed at an angle to the axis of the gateway and towards the cutter.

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