RU2170619C1 - Device for mineral concentration - Google Patents

Abstract

FIELD: gold mining industry, particularly, equipment for mineral concentration by gravity method. SUBSTANCE: device has sluice box with parallel sides and bottom in which sections of riffles inclined relative to bottom are installed in direction of pulp flow. Riffles are located between sides to form fanshaped zones. Middle zone is made in form of full fan with opening angle of 80-90 deg, and extreme zones are made in form of counter semifans. Riffle ends are secured in sides at different angles of inclination to bottom. Ratio of distances between riffle ends on the side of wide and narrow parts of fan is 1.33-1.62. EFFECT: optimized process of materials separation on sluice boxes. 3 dwg

Description

 The invention relates to the gold mining industry, in particular to equipment for mineral processing by the gravitational method.

 Known gateway for mineral processing, including a gutter with parallel sides and a smooth bottom and installed in it stencils of the ladder type [1]. To create additional turbulent zones that increase the concentration of useful components in the pulp stream and prevent the compaction of the mineralogical bed, which is typical when using these stencils along the length of the gutter, stencil-shaped arches with alternating right-and-left curvature radii are installed in staggered order.

 A disadvantage of the known device is that the introduction of arched planks into the design of the stencils, in addition to the positive effect, leads to the formation of inoperative zones on the back of the planks and, as a result, to the compaction of the bed with its subsequent “cementation” between the transverse planks, as in these areas, so at the bottom of the whole bed. All this increases the labor costs for cleaning, and also leads to additional losses of a valuable component during long-term continuous operation of the gateway, which ultimately indicates an imperfect design.

 The closest in technical essence and the achieved result to the invention is a device for mineral processing used in the known method [2]. The known device contains an input and additional sections installed with a slope to the horizontal plane in the direction of the pulp flow, moreover, the additional sections are zigzagged in relation to the inlet section, each of the sections has parallel side walls and a bottom on which stencils are removably mounted, with flutes located with an inclination to the corresponding bottom, while the flutes of the inlet section are installed perpendicular to its side walls and parallel to each other (staircase type). The location of the riffles in the additional sections is different from the input, with the riffles of each subsequent section deployed in the opposite direction to the turn of this section and set at an acute angle to the side walls of its section and the riffles of the inlet section.

 In order to accelerate the flow of pulp, the location of the stencils in one of the additional sections is intermittent. The greatest degree of flow turbulence is possible in versions with a curved bottom, corrugations and walls of an additional section.

 Despite the multivariance of execution, its known device is perfect. Among the shortcomings include: firstly, the well-known drawback of stencil-type stencils is the quick compaction of the bed (entrance section); secondly, in a variant with a zigzag arrangement of additional sections and corrugations of stencils, wall seals in sharp corners are inevitable, requiring private cleaning, as well as the large length of the working zone, due to the need to introduce sections of the flow acceleration to maintain its speed and; thirdly, the high complexity of manufacturing additional sections and corrugations in options with a curved design.

 The objective of the invention is to improve the design of the device in order to simplify the creation of optimal conditions for the extraction of valuable components and to ensure universality of application on various types of gateways.

To achieve a technical result in a device for mineral processing, including a gateway, stencils with riffles, sectionally mounted with the possibility of removal in the bottom of the gateway, made with parallel sides, moreover, the rifle stencils are inclined to the bottom in the direction of flow of the pulp, according to the invention, the rifle in the stencil is installed with the formation of three fan-shaped zones, of which the middle zone is made in the form of a complete fan with an opening angle of 80-90 ^o , and the extreme - in the form of oncoming half-fans, with the riffles placed between the side fan-shaped, their ends are fixed in the sides and have an inclination angle to the bottom from the side of the wide part of the fan 70-75 ^o and from the narrow part - 60-65 ^o , and the ratio of the distances between the ends of the corrugations from the wide and narrow part of the fan is 1, 33-1.62.

 In FIG. 1 shows a fragment of a stencil in plan; in FIG. 2 is a view A in FIG. 1 and in FIG. 3 is a diagram of the reinforcement of a direct-flow lock with fan cliches

The device for mineral processing contains a gateway with parallel sides 1 and a bottom 2, in which a stencil 3 is installed, formed by flutes 4 placed fan-shaped between the sides 5 and 6 with the formation of three fan-shaped zones. The middle zone is made in the form of a complete fan with an opening angle of 80-90 ^o , and the extreme - in the form of oncoming half-fans, with an angle of inclination of the boundary riffle to the side of the lock 45-50 ^o . All riffles of the stencil 3 are inclined in the direction of the pulp flow, while their ends are fixed in the sides 5 and 6 in the wide part of the fan at an angle to the bottom of 70-75 ^o , and in the narrow part - at an angle of 60-65 ^o .

 The ratio of the distances between the ends of the corrugations from the wide and narrow part of the fan is 1.33-1.62.

 The device operates as follows. In preparation for work, any type of locks with parallel sides can be used, for example, a direct-flow lock, as well as with an angular arrangement of sections (GUK). Stencil 3 for ease of maintenance is completed from sections formed from a certain number of corrugations, for example, 10-12 pcs. A fragment of one of these sections is shown in FIG. 1. As the bottom space of the gateway is filled with sections, a three-zone fan-shaped stencil is formed that provides optimal conditions for the extraction of useful components by the gravitational method.

 The enrichment process is optimized by creating different hydrodynamic conditions between each pair of riffles due to the unique configuration of the inter-flute space and, as a result, the formation of many hydrodynamic barriers that change the speed and direction of movement of the pulp.

 A variety of hydrodynamic conditions is created by the formation of multidirectional vortices both in the vertical and horizontal planes and determines the movement of clastic material along the corrugations in the horizontal plane. This creates the conditions for the constant flushing of coarse material, light small fragments and minerals, as well as silt of the pelite fraction, preventing bed compaction during the entire enrichment process. In addition, the orientation of the riffles of each subsequent section of the stencil, as it were, takes the baton from the previous one, and the whole set knocks the bed to the left or to the right side of the gateway throughout its length.

 With this stencil operation, stagnation is avoided, leading to excessive bed compaction and, as a result, loss of even large metal.

 The ability to effectively use a three-zone fan-shaped stencil in locks of various configurations indicates its versatility in choosing the optimal technology for mineral processing and allows you to use it as a module for reinforcing locks of various modifications for their entire length.

Sources of information taken into account:
1. A.S. USSR N 1440545, class B 03 B 5/70.

 2. Patent N 2034662, cl. B 03 B 5/70 (prototype).

Claims (1)

A device for mineral processing, including a gateway, stencils with flutes, sectionally mounted with the possibility of removal in the bottom of the gateway, made with parallel sides, and the flutes of the stencils are inclined to the bottom in the direction of the pulp flow, characterized in that the flutes in the stencil are installed with the formation of three fan-shaped zones, of which the middle zone is made in the form of a complete fan with an opening angle of 80 - 90 ^o , and the extreme ones are in the form of oncoming half-fans, while the riffles are fan-shaped between the sides, their ends are fixed in sides and have an inclination angle to the bottom from the side of the wide part of the fan 70 - 75 ^o and from the side of the narrow part 60 - 65 ^o C, and the ratio of the distances between the ends of the corrugations from the side of the wide and narrow part of the fan is 1.33 - 1.62.

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