RU2132235C1 - Three-phase sluice box - Google Patents

Abstract

FIELD: mining; gravity concentration of ores and sands containing flaked gold. SUBSTANCE: sluice box has straight-line inclined chute with templates, flat-bottom chute with slots installed at angle to inclined chute, with walls decreasing in height, and symmetrically installed first level compartments and second level compartments. Auger actuator with drive is installed in underbottom compartment of flat-bottom chute. Flat-bottom chute has divider with radius guides coupled with walls decreasing in height. First level compartments have guide one end of which is connected with walls decreasing in height, and the other, with wall of second level compartment. Guides are made with clearance relative to bottom of flat-bottom chute. Slots of chute are made perpendicular to direction of main flow. Auger actuator is made with variable radius of screw surface. EFFECT: enhanced efficiency of gravity concentration of sands, provision of there fractions of material. 5 dwg

Description

 The invention relates to the field of gravitational mineral processing and can be used for refractory sands and ores containing lamellar gold.

 Known pistonless jigging machine containing a housing, a sieve, an under-sieve and an over-sieve compartment, a drive, a conveying mechanism in the form of screws, RF patent N 2047375, published. 10/10/95].

 This machine does not capture plate gold.

 The closest in technical essence and the achieved result is a three-time gateway containing a straight inclined trough with stencils, a flat-bottomed trough with slots mounted at an angle to it, filed compartment [RF patent 2089295, published. 09/10/97].

 The lock does not provide the efficiency of the allocation of three mineral fractions: large (medium), small, lamellar type.

 The aim of the invention is to increase efficiency by expanding the functionality of the installation at the stage of primary enrichment in the extraction of minerals from refractory raw materials, reducing technological impact on the environment.

 This goal is achieved by the fact that in a three-phase gateway containing a straight inclined trough with stencils, a flat-bottom gutter with slots mounted at an angle to it, a pallet compartment, an auger actuator with a drive is installed in the pallet compartment, a flat-bottom gutter with lowering walls, symmetrically installed compartments the first level and compartments of the second level, and is equipped with a divider dividing it into two parts with radial guides associated with the lowering walls, and compartments of the first the level are equipped with guides connected at one end to the lowering walls and the other end to the wall of the second-level compartment, while the radial guides and the guides of the first-level compartments are made with a gap relative to the bottom of the flat-bottomed trough, the slots of which are perpendicular to the main flow direction, and the screw actuator made with a variable radius of the helical surface.

The structural elements of the technical solution expand the functionality of particle capture, separating high-density minerals (Au), starting with large, medium, small, and ending with plate-shaped minerals. Reduce the yield of medium density minerals (Ce, La, Th) PO ₄ , ZrSiO ₄ (monazite, zircon) into the tails, thereby reducing environmental pollution.

 The three-phase gateway is shown in the drawings: in FIG. 1 - general view of the gateway; in FIG. 2 is a view A in FIG. 1; in FIG. 3 is a view B in FIG. 1; in FIG. 4 is a view B in FIG. 2, lowering walls, radius guides and guides of the first level compartment; in FIG. 5 is a view of a screw executive body.

The three-phase lock 1 includes a straight inclined chute 2 with stencils 3, made one third wider than conventional locks, a flat-bottomed chute 5 with slots 6 and lowering walls installed at an angle 4 to it. The angle 4 is 3-5 ^o less than the inclination of the straight inclined chute 2 relative to the horizontal.

 The compartments of the first level 8, 9 and the compartments of the second level 10, 11 are symmetrically installed on both sides of the flat-bottom gutter 5. Under the flat-bottom gutter 5 there is a pallet compartment 12, a rotary drive 13 of the screw actuator 14.

 Along the central part of the flat-bottom gutter 5, dividing it into two parts, a divider 15 is installed in the form of a wall on which radial guides 16 are pivotally mounted, which can rotate around the axis 17. The other end 18 of the radial guides 16 is supported on the lowering wall 7 with the possibility of movement and fixation.

 The compartments of the first level 8, 9 have guides 19 connected by one end 20 with the lowering walls 7, and the other end 21 are connected with the wall 22 of the compartments of the second level 10, 11.

 Radius guides 16 and guides 19 of the compartments of the first level 8, 9 are made with a gap 23 relative to the bottom 24 of the flat-bottomed trough 5. The bottom 24 is made in one plane, excluding the compartment of the second level 10, 11.

 The slots 6 of the flat-bottomed trough 5 are perpendicular to the direction of the main stream 25 of the processed material.

 To create pulsating vibrations in the bottom layer of the pulp, loosening and opening clay inclusions, the screw actuator 14 is made with a variable radius 26 of the screw surface 27 both in length — alternating with a large radius and a small one, and with a change in the radius of the outer generatrix.

 The three-phase gateway operates as follows.

 Pre-prepared enrichment material (crushing, grinding, screening, disintegration) is fed to a straight inclined trough 2 of a three-phase 1 gateway in the form of pulp. Most of the particles of medium size and large particles of heavy minerals are deposited in the area of the stencils 3. Part of the particles of medium size and high density, most of the small particles and plate gold enter the flat-bottomed trough 5 with slots 6 and lowering walls 7.

 Due to a change in angle 4 in the direction of its decrease, the enriched material begins to be affected by the forces of the dynamic pressure of the jet of a smaller range, the flow rate changes, and the vertical component of the velocity increases. Most of the lamellar particles of gold are concentrated in the upper layer of the stream. Radius guides 16 on the axes 17, connected by the other end 18 with the lowering wall 7, capture the upper layer of the main stream 25 and direct it through the lowering walls 7 on both sides relative to the divider 15.

 Part of the stream entering the compartments of the first level 8, 9 has a height less than the main stream 25.

 The upper part of this flow is carried out to the compartments of the second level 10, 11 using guides 19 connected by one end 20 with the lowering walls 7, and the other end 21 - with the wall 22. And the lower part of the flow continues to move along the compartments of the first level 8, 9 through the gaps 23.

 Once in the compartments of the second level 10, 11, plate gold is accumulated and then sent for further processing.

 The low-density material located in the area between the lowering walls 7 is weighed periodically by the screw actuator 14 having a helical surface 27 of variable radius 26, allowing small particles of high density to penetrate into the pallet compartment 12 through slots 6 of the bottom 24.

 The airlock increases the efficiency of enrichment of difficultly refractory sands at the primary stages of processing by gravitational methods, and makes it possible to increase the extraction of large, medium, small fractions, including lamellar ones. It reduces technogenic pollution of the environment due to the release of monazite and zircon.

Claims (1)

 A three-phase lock containing a straight inclined chute with stencils, a flat-bottom chute with slots mounted at an angle to it, a pallet compartment, characterized in that a screw actuator with a drive is installed in the pallet compartment, a flat-bottom chute with lowering walls, symmetrically mounted first-level compartments and compartments of the second level and is equipped with a divider dividing it into two parts with radial guides associated with the lowering walls, and compartments of the first level are equipped with They are connected by one end with decreasing walls and the other end with the wall of the second-level compartment, while the radial guides and guides of the first-level compartments are made with a gap relative to the bottom of the flat-bottomed trough, the slits of which are made perpendicular to the main flow direction, and the screw actuator is made with variable radius of the helical surface.

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