RU2234983C2 - Pendulum type sluice for concentration of heavy minerals - Google Patents

Abstract

FIELD: systems for concentrating useful minerals, possibly for concentrating auriferous gravels, bedrock ores during cycle of disintegration and gold concentration.

SUBSTANCE: sluice includes chute with patterns. Relation of curvature radius of chute bottom in cross direction to chute width is in range 1.5 : 1. Chute is provided with flaps and it is mounted with possibility of rocking relative to its lengthwise axis. Sluice includes fastening means that allow to shift rocking axis of chute lower than its mass center by distance proportional to density of concentrated mineral.

EFFECT: enhanced efficiency of extracting desired ingredients of large and small fraction size independently upon fraction size and density of particles of initially supplied material.

2 cl, 5 dwg

Description

The invention relates to the field of mineral processing and can be used to enrich gold-bearing placers, primary ores in the grinding cycle and the concentration of gold.

Known gateway for mineral processing, including a chute, stencils laid on a perforated bottom, and the chute is installed with the possibility of vibrations using a vibrator. Under the bottom of the gutter there is a chamber communicating with a water source under pressure (a.c.SSSR No. 1596546, IPC 30 V 5/70, priority 1989).

However, the use of this gateway does not allow to efficiently extract the smallest classes of gold, because loosening the bed with an ascending stream of water inevitably leads to leaching of fine gold from it.

A well-known gateway for enrichment of minerals, including a loading device, a chute with a catching coating, the head part of the gateway is made to rotate around the longitudinal axis of the chute, while on the lower side of the head part of the gateway there is a similar catching cover with sides in the form of a chute, and the ratio of the length of the head part of the lock to the length of the entire lock is 0.1: 0.5 and a pan with an irrigation pipe is installed under the head of the lock. In addition, the tail of the airlock is made to rotate around the longitudinal axis of the gutter, while on the lower side of the tail of the airlock there is a similar catching cover with sides in the form of a gutter, the head and tail of which are mounted to rotate both separately and together, and a pan with an irrigation pipe is installed under the tail of the lock, and the head of the lock is mounted to rotate around the transverse axis (see patent RU No. 2077950, IPC 6 V 03 V 5/70, 04/26/94, “Gateway for enriching useful and Copa ").

However, this gateway is intended for the concentration of narrowly classified material with a particle size of 0.074-3 mm, because with a wider range of coarseness of the initial feed, loss of small classes of gold is inevitable due to the fact that the transporting ability of the lock is mainly determined by its hydrodynamic regime. The flow rate is set from the conditions of flushing (transport) of the maximum pieces of the rock, and therefore, a certain ratio between the maximum size of the initial feed and the size of the effectively captured gold grains is kept at 100: 1. Therefore, with an average particle size of 50 mm, gold is effectively enriched with a grain size of up to 0.5 mm.

The closest set of essential features is a gateway for mineral processing, including a chute and stencils, moreover, the chute is made in cross section with variable curvature and is equipped with flaps that are rigidly fixed on its sides and form an inverted capacity with them, and the chute is installed with the possibility of oscillations relative to its longitudinal axis. The cross-sectional groove is made in the form of a semi-ellipse in the loading part, smoothly turning into a semicircle in the loading part, and the oscillation axis passes through the center of mass of the groove under its load (see patent RU No. 2147466, IPC 7 V 03 V 5/70, priority 15.01 .98, “Gateway to Mineral Processing”).

However, this gateway has a number of design flaws, primarily the fixed position of the oscillation axis passing through the center of mass of the trench under load. This design feature allows you to efficiently process only material containing a minimum amount of heavy fractions. With an increase in the average density of the source material, for example, in the processing of draft gravity concentrates, the mineral bed is excessively compacted under the influence of gravity and the centrifugal forces arising during oscillations, which leads to a sharp decrease in the trapping capacity of the bed and, consequently, large losses of the valuable component.

The curvature of the bottom of the gutter, varying in length, leads to the fact that the height of the layer of the mineral bed formed during operation is also unstable, due to which the particles of the valuable component either do not have time to concentrate in the lower layers of the high bed, or are easily washed out by the stream of water from the areas of the trap coverings where the height of the bed is too low. In addition, when rubber stencils having a high coefficient of friction are used as a trapping coating, a decrease in the material stability occurs only in the upper layer of the mineral bed, the lower layers are motionless and highly compacted, which substantially hinders the effective concentration of the valuable component.

The main objective of the invention is to create a reliable design of the gateway, which allows equally efficiently extract the valuable component of large and small size classes regardless of the particle size and density of the particles of the source power.

The essence of the invention is the shift of the axis of oscillation of the center of mass of the trough under load creates centrifugal acceleration directed in the opposite gravitational direction, and thus additionally loosens the material, especially with increased density, without increasing its hydrodynamic loosening, which contributes to the removal of the smallest classes of metal, such as gold.

To solve the problem in the gateway for mineral processing, including a gutter made in cross section with variable curvature and equipped with flaps mounted on its sides, it is installed with the possibility of oscillations about its longitudinal axis. The gateway is equipped with fasteners that allow you to shift the axis of oscillation below the center of mass of the gutter under load at a distance directly proportional to the specific gravity of the processed material. The bottom of the gutter in cross section has a curvature whose radius refers to the width of the gutter as 1.5: 1. The gutter has a catching surface made of a material with a minimum coefficient of friction (polyethylene) and equipped with partitions.

The ratio of the radius of the bottom of the gutter to its width of 1.5: 1, established experimentally, ensures uniform distribution of the material along the trapping surface with a layer of the required height.

The combination of the minimum coefficient of friction with transverse vibrations of the substrate helps to reduce the stability of the material not only in the upper but also in the lower layers of the bed, which significantly increases the loosening of the latter, its fluidity and, accordingly, increases the rate of concentration of the valuable component in the bottom layer. The transverse partitions, in turn, impede the movement of the bed itself in the longitudinal direction, divide the trapping surface into peculiar compartments, providing a concentration of heavy minerals, mainly gold, inside the lock. The gateway for the concentration of heavy minerals consists of a trench with a catching coating, mounted on the frame by means of bearing bearings. The gutter is installed with the ability to perform lateral vibrations, thus reducing the stability of the particles, which allows the material to be transported regardless of its size with a minimum water flow rate, and therefore, with a minimum longitudinal velocity and depth of flow. Under these conditions, losses of small classes of valuable component with flushing water are reduced.

Flaps mounted on the sides of the gutter prevent the slurry from splashing out at a large vibration amplitude. For additional loosening of the overly densified bed resulting from the enrichment of material with a high specific gravity, such as rough gravity concentrate, the design of the airlock allows you to shift the axis of oscillation of the trench below its center of mass under load by a distance directly proportional to the density of the processed material. In this case, centrifugal forces arising from transverse vibrations of the trough take the opposite direction to gravity and contribute to loosening the bed, which increases the trapping capacity of the bed, leads to a noticeable decrease in water consumption and, accordingly, increases the recovery of a valuable component, especially its small classes.

The bottom of the gutter in cross section has a curvature whose radius refers to the width of the gutter as 1.5: 1. This ratio, established experimentally, ensures uniform distribution of the material over the capture surface with a layer of the required height, so that the valuable component is effectively concentrated over the entire area of the capture surface.

The gutter has a catching surface made of a material with a minimum coefficient of friction, such as polyethylene, and equipped with partitions. The combination of the minimum coefficient of friction with transverse vibrations of the substrate helps to reduce the stability of the material not only in the upper but also in the lower layers of the bed, which significantly increases the loosening of the latter, its fluidity and, accordingly, increases the rate of concentration of the valuable component in the bottom layer. The transverse partitions, in turn, impede the movement of the bed itself in the longitudinal direction, divide the trapping surface into peculiar compartments, providing a concentration of heavy minerals, mainly gold, inside the lock.

Figure 1 shows a General view of the gateway of the pendulum type; figure 2 is a view of B - the end of the gateway; figure 3 is a section aa - the groove of the gateway; figure 4 - view In the end part of the gutter, figure 5 is a detailed image of the mounting of the gutter.

The pendulum-type gateway according to the first claim of the invention for the concentration of heavy minerals comprises a feed hopper 1, a chute 2 with an end cover 3, the inner surface of the bottom 4 of the chute 2 is covered with a special material (polyethylene) 5 having a minimum coefficient of friction, in addition, the bottom 4 is provided flaps 6, and flaps 7 are bent into the groove 2. The groove 2 is mounted on the frame 8 with the possibility of transverse vibrations with adjustable frequency and amplitude. In the head and tail of the chute 2 there are fasteners, consisting of plates 9, bolts 10, holders 11, washers 12 and the retaining ring 13, allowing to move the chute 2 in a vertical plane, changing the axis of oscillation of the latter. The gateway electric drive consists of an electric motor 14, a gearbox 15, a crank 16, a rod 17 and a connecting rod 18.

In the process of operation of the airlock, the chute 2 performs transverse vibrations using an electric motor 14, a gearbox 15, a crank 16, a rod 17 and a connecting rod 18. The amplitude and frequency of oscillations of the chute 2, as well as the longitudinal angle of inclination of the airlock are set depending on the properties of the processed material.

The distance between the axis of oscillation and the center of mass of the groove is determined experimentally and is established by rotating the bolts 10, as a result of which the holders 11 move vertically along the thread together with the groove up or down depending on the direction of rotation of the screw. The amplitude and frequency of oscillations of the gutter, as well as the longitudinal angle of inclination of the lock, are set depending on the properties of the processed material.

The source material in the form of pulp is fed into the loading hopper 1. Further, the material moves along the channel 2, which is facilitated by the longitudinal inclination of the lock, the hydrodynamic effect of the water flow and the transverse vibrations of the channel 2. During the movement, the material fills the space between the partitions 6, forming a mineral bed. Particles of a valuable component with a high specific gravity penetrate the bed and concentrate in its lower layers, and light waste rock moves along the bed surface and is dumped through the hole in the rear end cover 3 of the chute 2. The concentrate is discharged from the chute 2 at the required intervals after stopping the operation of the gateway and supplying power by turning the trough 2 and flushing the accumulated heavy fraction with clean water into a special container.

Efficient extraction of gold and other heavy minerals is provided due to the combination of distinctive features of the invention. The execution of the gutter with the ability to perform transverse vibrations thus reduces the stability of the particles, which allows the material to be transported regardless of its size with a minimum water flow rate, and therefore, with a minimum longitudinal velocity and depth of flow. Under these conditions, losses of small classes of valuable component with flushing water are reduced. For additional loosening of the overly densified bed resulting from the enrichment of material with a high specific gravity, such as a draft gravity concentrate, the design of the airlock allows you to shift the axis of oscillation of the groove below its center of mass under load by a distance determined experimentally. In this case, centrifugal forces arising from transverse vibrations of the trough take the opposite direction to gravity and contribute to loosening the bed, which increases the trapping capacity of the bed, leads to a noticeable decrease in water consumption and, accordingly, increases the recovery of a valuable component, especially its small classes.

The problem of extracting thin gold is solved regardless of the size of the source material, since pieces of waste rock are transported along the lock channel through an unstable state on the substrate, which continuously changes the angle of inclination, due to which the valuable component is effectively concentrated on the entire catching surface area.

Claims (2)

1. Gateway for mineral processing, including a gutter of a certain curvature in cross section and stencils equipped with flaps, installed with the possibility of oscillations relative to its longitudinal axis, characterized in that the gateway is equipped with fasteners that allow you to shift the axis of oscillations below the center of mass of the gutter under load distance directly proportional to the specific gravity of the processed material. 2. The gateway according to claim 1, characterized in that the bottom of the gutter in cross section has a curvature whose radius refers to the width of the gutter as 1.5: 1.

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