RU2702777C2 - Concentration chute - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to enrichment of minerals and can be used for separation of solid particles by density in liquid medium, mainly at extraction of relatively light solid particles, for example, amber. Concentration chute includes loading part connected with inclined tray, free end of which represents its unloading part and receivers of valuable concentrate and rock. Bottom of the inclined tray is equipped with transverse catching curvilinear pockets arranged with concavity along the flow and made in lower ends with devices of rock release and its direction into receivers.

EFFECT: higher extraction of valuable component.

1 cl, 2 dwg

Description

The invention relates to mineral processing and can be used to separate solid particles by density in a liquid medium, mainly when extracting relatively light solid particles, for example, amber.

Known enrichment taper tapering towards the discharge of material, including a bottom with transverse adjustable slots in the discharge zone, side walls, a movable cutter located in front of the discharge end of the trough, receiving trays for the concentrate of valuable component and rock, loading tray. The side walls of the enrichment trough are made with a two-part connector. Moreover, the side walls on the discharge side are pivotally mounted on the bottom with the possibility of deflection to the outside, and the trough is equipped with a device for returning the moving parts of the side walls to their original position. In addition, the width of the bottom of the gutter in the place of the connector is 3-4 times greater than the width of the bottom of the gutter at the place of unloading. To protect the articulation of the movable parts of the side walls with the bottom of the gutter from clogging with the pulp, the gutter is provided with an elastic coating mounted on the bottom of the gutter between the side wall connector and the discharge end. [one]

The disadvantages of this technical solution are the incomplete process of dividing the pulp into a stream containing rock and a stream containing a valuable component, which is carried out in the discharge zone of the pulp using a movable cutter, into a stream containing rock and a stream containing a valuable component. The impossibility of controlling the quality of separation and, accordingly, making adjustments to the separation process. Which in turn leads either to the loss of a valuable component or to a deterioration in the quality of extraction of a valuable component. The limited range of regulation of the width of the gap, causing the discharge of pieces of rock that do not pass through the gap in the discharge zone.

A dressing chute is known, comprising an inclined bottom with side walls communicated with an upper end with a loading tray, receiving trays of a valuable component (e.g., amber) and heavier rock and a movable cut-off separating the flow into the valuable component and the rock flow. The bottom of the dressing trough is made stepwise and expanding downward. In this case, the receiving tray of heavy fractions is made with an adjustable discharge opening. The outlet can be adjusted by changing the nozzle, using a valve, shutter, etc. The dressing trench is provided with a lid connected flexibly to the loading chute and to the side walls [2]

The disadvantages of this technical solution are the incomplete process of dividing the pulp into a stream containing rock and a stream containing a valuable component, which is carried out in the discharge zone of the pulp using a movable cutter, into a stream containing rock and a stream containing a valuable component. The impossibility of controlling the quality of separation and, accordingly, making adjustments to the separation process. Which in turn leads either to the loss of a valuable component or to a deterioration in the quality of extraction of a valuable component.

The closest technical solution is an enrichment trough, including an inclined bottom with side walls, a lattice threshold deflecting the rock installed on the bottom at an acute angle to the side wall, an unloading window with a shutter made in the side wall at the bottom at the top of the acute angle, which is formed by the lattice threshold and side wall. A deflecting plate is installed above the discharge window, and the trough itself is made tapering. The flap of the discharge window is pivotally fixed on the outside of the side wall and is equipped with a return mechanism. In this case, the concentration chute is equipped with a movable cut-off separating the stream exiting from the concentration chute into a stream with a valuable component and a stream with rock [3].

The disadvantages of this technical solution are the incomplete process of separation of the pulp into a stream containing rock and a stream containing a valuable component, which is carried out in the discharge zone of the pulp using a movable cutter, into a stream containing rock and a stream containing a valuable component. The impossibility of controlling the quality of separation and, accordingly, making adjustments to the separation process. Which in turn leads either to the loss of a valuable component or to a deterioration in the quality of extraction of a valuable component. Discharge of the rock through the discharge window in the side wall, into which it is possible to capture the valuable component located below the damper, leading to the loss of the valuable component. The placement of a lattice deflecting rock at the bottom of the enrichment trough leads to a deterioration in the process of moving high-density solid particles to the lower layers and the lungs to the upper due to their impact on the lattice threshold, respectively, the probability of capture of a valuable component by the discharge window increases, which ultimately reduces the yield of valuable product.

The objective of the invention is to increase the extraction of valuable components, expanding the range of dressing channels.

The problem is solved in that the enrichment trough has a loading part, an inclined tray with side walls and a bottom, and receivers for valuable concentrate and for the rock. At the same time, the bottom of the dressing trench is equipped with transverse hunting curvilinear pockets with a concavity in the flow, rock discharge devices are installed at the ends of the transverse hunting curved pockets located downstream.

In FIG. 1 schematically shows a top view of the enrichment trough, in FIG. 2 schematic section AA of the enrichment trough

The beneficiation chute includes a loading part 1, and an inclined tray with side walls 2 and a bottom 3, the free end of which is the unloading part 4 of the beneficiation chute for delivering valuable concentrate to the receiver 5. The bottom 3 of the inclined chute is equipped with transverse fishing curved pockets 6 with concavity in the flow and the maximum slope of their bottom, which is achieved by the fact that one end of the transverse dexterous curved pocket 6 is located upstream of the other - lower. At the ends located downstream, a discharge device 7 is installed in the receiver 8 for the rock.

Concentration trough works as follows.

The separated material in the form of pulp is fed into the loading part 1, from where the pulp flows by gravity into the inclined tray and flows down between the side walls 2. Under the action of gravity in an aqueous medium, high-density solid particles move to the lower layers, light particles to the upper layers. The heavy particles and aggregates drawn along the bottom 3 are captured by the curved pockets 6. The inertial movement of heavy particles and aggregates in the pulp stream leads to their collision with the wall of the curved pockets 6, leading to their bounce down in the curved pocket 6, facilitating their transport way down. Spreading of the pulp itself along the wall of the curved pocket 6 leads to an increase in flow turbulence in the trapped curved pocket 6, also facilitating the transport of heavy particles and aggregates down to the dump in the rock receiver 8, carried out by the dumping device 7. The dumping device can operate from the filling sensors of the curvilinear pockets 6 breed or discretely by the time sensor.

The required number of hunting curved pockets 6 in the dressing trench is determined by the volume of rock contained in the shared pulp and the required probability of purity of separation of the rock from a valuable product.

After releasing the pulp from the rock and reaching the discharge part 4 of the end of the inclined tray, valuable valuable concentrate is delivered to the receiver 5.

Information sources

1. USSR Copyright Certificate No. 1560325, cl. B03B 5/26, 5/40, 1990.

2. Copyright certificate of the USSR No. 17797961, class. B03B 5/26, 5/40, 1992.

3. Copyright certificate of the USSR No. 1808382, B03B 5/70, 1993.

Claims (1)

Concentrating trough, including the loading part associated with the inclined tray, the free end of which represents its unloading part and receivers of valuable concentrate and rock, characterized in that the bottom of the inclined tray is equipped with transverse hunting curved pockets placed concave downstream and made at the lower ends with devices dumping the rock and directing it to the receivers.

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