RU2138336C1 - Spiral plate concentrator - Google Patents

Abstract

FIELD: concentration of minerals; extraction of gold fines in handling technological placers. SUBSTANCE: concentrator has bath widening upward, chambers-accumulators of heavy concentrate, transporting spirals equipped with agitating pins above heavy concentrate accumulating chamber, drive, loading device, drain sills set by level and unloading device. Bath is provided with inclined settling plates mounted above transporting spiral. EFFECT: increased degree of extraction of gold fines; improved ecological situation in performing mining jobs. 3 dwg

Description

 The invention relates to the field of mineral processing equipment, specifically to the enrichment of precious metals, including the extraction of fine and fine gold, mainly in the processing of man-made placers.

 After analyzing the known devices operating on the principle of gravitational deposition, performing the functions of concentrating a valuable component, including gateways, hubs of all types, we found that there are no analogues to a spiral-plate concentrator.

 The aim of the invention is to increase the degree of extraction of fine and fine gold.

 This goal is achieved by the fact that the spiral plate concentrator contains a bath expanding upward, chimney storage chambers, conveying spirals equipped with agitator pins above the chimney chambers, a drive, a loading device, drain thresholds set horizontally, a discharge device, and the bath expanding upward equipped with inclined precipitating plates mounted above the conveying spirals.

A more efficient extraction of fine and fine gold in the proposed spiral-plate concentrator is based on providing the most favorable conditions for gravitational particle deposition:
1) laminarity and low flow rate, comparable to the rate of deposition of particles in stagnant water;
2) the small length of the "deposition path" of the particle in a thin layer of hydroflow.

 In the proposed spiral-plate concentrator, these conditions are achieved by the fact that a hydroflow containing grains of a valuable component rises from bottom to top in an upwardly expanding bath filled with inclined precipitation plates with a significant total precipitation area, which divide the hydroflow into thin laminar layers. As it rises, the hydroflow constantly decreases its speed, creating favorable conditions for the deposition of particles of gold of a certain size at various levels along the height of the bath expanding upward. The heaviest particles are deposited in the lower part of the inclined precipitating plates, and small and thin ones in the upper.

 The process of extracting particles of a valuable component (gold) in a spiral-plate concentrator consists of three stages.

 1. Deposition of a particle of a valuable component on an inclined precipitation plate (the lower the flow rate and the thinner its layer, the more intense the deposition).

 2. Rolling a particle of a valuable component along an inclined precipitating plate into chamber-sludge collectors, where the concentrate is collected, forming a natural mineral bed. Rolling of a particle occurs in the boundary layer of the laminar flow; therefore, it is more efficient than deposition of a particle in the oncoming flow.

 3. The penetration of particles deep into the bed. High trapping properties of the bed (roughness, loosening) are supported by constant tedding of the bed.

 Such a deposition process in the proposed spiral-plate concentrator can significantly increase the degree of extraction of gold, including fine and fine.

 The invention is illustrated by drawings.

 In FIG. 1 shows a longitudinal section through a spiral-plate concentrator; FIG. 2 is a view along arrow A, in FIG. 3 is a view along arrow B.

 The spiral plate concentrator contains a bath extending upwardly 1, with inclined settling plates 2 mounted above the transporting spirals 3. In the lower part of the bathing chamber 1 expanding upward, there are sump chambers 4 with unloading hatches 5. A drive 6 is installed in the upper part from the bathtub 1 expanding upwardly The transporting spirals 3, above the size chambers 4, are equipped with agitator pins 7. The loading device 8 is configured to supply power (pulp) to the bottom, expanding upwards Anne 1. The perimeter upwardly divergent bath drain 1 located thresholds 9 arranged to align them along the horizon, and the water inlet trough 10 to the drain pipe 11. In the upper part upwardly divergent bath 1 is disposed a discharge device 12.

 Spiral plate hub works as follows.

 The drive 6 is turned on. The pulp containing particles of a valuable component enters the lower part of the upwardly expanding bath 1 through the loading device 8 and rises between the inclined precipitation plates 2 up to the drain thresholds 9. Due to the upwardly expanding bath 1, the rate of water rise between the inclined precipitation plates 2 is gradually decreases to the surface of the water, creating favorable conditions (laminar motion of the hydroflow with a decreasing rate of rise and a thin layer of liquid) for the deposition of particles of a valuable component that one. The field of hydraulic flow rise velocities in the upwardly expanding bath 1 distributes particles of a valuable component according to their deposition heights (depending on their shape and mass) on inclined deposited plates 2. The heaviest particles fall out at the bottom of inclined deposited plates 2, and small and thin - at the top. Then, particles of a valuable component roll down the inclined settling plates 2 into the sizing chambers 4, where the concentrate is collected, forming a natural mineral bed with high trapping properties (roughness, loosening) supported by agitating pins 7, which are equipped with conveying spirals 3 above the sizing chambers 4 The concentrate is brought to a predetermined content of a valuable component and is periodically discharged through discharge hatches 5. Efels are continuously discharged by conveying spirals 3 through the discharge device 12 in the blade. Clarified water rising upward, pouring over the drainage thresholds 9, set strictly horizontally, enters the water inlet 10 and then through the drain pipe 11 into the water cycle.

 Thus, the spiral-plate concentrator can significantly increase the degree of extraction of gold, including fine and thin, reducing the process to deposition in a thin layer of laminar hydroflow on a significant total area of inclined precipitation plates.

 As a secondary, but important function of the technological cycle of the spiral-plate concentrator, is the collection of clarified water, which can be used in the water cycle, which improves the environmental situation during mining operations.

Claims (1)

 A spiral-plate concentrator, characterized in that it contains a bath expanding upward, sump chambers, conveying spirals equipped with agitator pins above sump chambers, a drive, a loading device, drain thresholds set horizontally, an unloading device, with the bath extending upward equipped with inclined precipitating plates mounted above the conveying spirals.

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