RU2632789C1 - "gran-m" planetary classification enrichment device - Google Patents

Abstract

FIELD: mining engineering.

SUBSTANCE: planetary classification device for enrichment and transportation of minerals due to the action of centrifugal force fields includes a body, consisting of a unitary hopper, a flattened cone scrubber, overlapped by an conical collecting pipe, ejected snails for the removal of small and coarse fractions, mounted on one side on the frame by Hooke's joint bearings, and on the other side to the drive shaft with a flywheel that informs the body the planetary-translational motion on the circular cone. The device is equipped with a separator in the form of a flattened cone with crimps, a snail for the withdrawal of the separator concentrate and sprinklers. The body is hingedly connected to the pin, which is rigidly fixed in the groove on the spoke of the flywheel, with the possibility of moving the pin attachment point in the groove, made in the form of an arc, each point of which is equidistant from the point of intersection of the device axes.

EFFECT: increasing the extraction efficiency of fine fraction minerals into the concentrate.

2 dwg

Description

The invention relates to the mining industry, namely to the enrichment of minerals, mainly ores and sands of noble and precious metals.

Known scrubber washing devices, technologically consisting of apparatus for disintegration, screening, enrichment of gold sands and transportation of washing tailings to pebble and epoxy dumps. These flushing devices use a drum-type scrubber to disintegrate and screen the sands, and for transporting the gali to the dump, sometimes together with efels, a support link tape dump is used. In the technological scheme of these devices, selective screening is used, which is one of the methods of mineral processing and allows using these devices to output up to 50% of the starting material into the dump product. The main disadvantages of scrubber washing devices are their high specific metal consumption per 1 m ^{3 of} sand washing, low specific productivity of screening and sand enrichment per unit of the working surface of the screen and processing unit (sluices, jigging machines), as well as high labor intensity and low mechanization of the rinse process during removal sluice concentrate (Enrichment of gold-bearing sands and conglomerates. M., Nedra, 1975, 264 pp. Auth .: O.V. Zamyatin, A.G. Lopatin, N.P. Sannikova, A.D. Chugunov. 198. Lopatin A.G. Cent Robotic enrichment of ores and sand. - M .: Nedra, 1987 .-- 224 p., pp. 193-196).

Closest to the invention, the technical essence is a planetary classification apparatus for selective screening and mineral transport due to the action of a centrifugal force field, including a housing consisting of a loading funnel connected to a whole, a scrubber in the form of a truncated cone, blocked by an external conical collecting pipe, exhaust snails for the withdrawal of small and large fractions, mounted on one side on the bed by bearings of the Hook joint, and on the other hand on a drive shaft with a flywheel, which informs the body of the planetary translational motion along a circular cone (AS USSR No. 114025, class 1a, 25; 1a, 27, announced October 26, 1957).

The disadvantages of the known device are:

- low efficiency of using a centrifugal force field that occurs during planetary-translational motion of the apparatus, due to the fact that the centrifugal field is not provided for the separation of minerals by density;

- a limited control range of the parameters of the centrifugal force field, which is due to the establishment in the prototype of a fixed angle of inclination of the longitudinal axis of the apparatus body to the axis of the flywheel shaft.

The problem to be solved:

- increasing the efficiency of using a centrifugal force field that occurs during planetary-translational motion of the apparatus, through the use of centrifugal forces to separate minerals by density and to remove mineral concentrate;

- expanding the control range of the parameters of the centrifugal force field that occurs during planetary-translational motion of the apparatus, by providing the possibility of adjusting the angle of inclination of the longitudinal axis of the apparatus body to the axis of the flywheel shaft, which allows optimizing the separation of minerals and also mechanizing the process of rinsing the mineral concentrate.

The problem is achieved by the fact that the known planetary classification apparatus for the enrichment and transportation of minerals due to the action of a centrifugal force field, including a housing consisting of a loading funnel connected in a single unit, a truncated cone shaped scrubber covered by an external conical collection pipe, exhaust snails for output of small and large fractions, mounted on one side on the bed with bearings of the Hook joint, and on the other hand on the drive shaft with a flywheel, which protects the body with planetary translational movement along a circular cone, is equipped with a separator in the form of a truncated cone with flutes, a snail for withdrawing the separator concentrate and sprinklers, and the body is pivotally connected to a pin rigidly fixed in the groove on the flywheel spoke, with the possibility of moving the pin attachment point along a groove made in the form of an arc, each point of which is equidistant from the point of intersection of the axes of the apparatus.

From the sources that have become publicly available, no technical solutions have been identified with placement on a well-known planetary classification apparatus for the enrichment and transportation of minerals due to the action of the centrifugal force field of the separator in the form of a truncated cone with flutes, a snail for the output of the separator concentrate and sprinklers, where the body is pivotally connected a pin rigidly fixed in the groove on the flywheel spoke, with the possibility of moving the pin mounting location along the groove made in the form of an arc, each point of which equidistant from the intersection of the unit.

Thus, the claimed technical solution meets the criterion of "novelty."

An analysis of the known technical solutions in the studied area allows us to conclude that they lack features similar to the essential distinguishing features of the inventive apparatus for enriching and transporting minerals due to the action of a centrifugal force field, and recognize the claimed solution to meet the criterion of "inventive step".

The claimed invention meets the criterion of "industrial applicability", as it can be used in mining for mineral processing, including for separating mineral particles by density in variable centrifugal fields when processing gold-containing lock concentrates of washing devices and dredges, as well as when washing man-made placers.

In FIG. 1 shows a planetary classification apparatus for the enrichment and transportation of minerals, side view, in FIG. 2 is a plan view.

The planetary classification apparatus for the enrichment and transportation of minerals consists of a bed 1, a flywheel 2, a flywheel drive 3 with a shaft 4, a Hook hinge 5, a loading funnel 6, a scrubber 7 made in the form of a conical pipe covered by an external conical continuous collecting pipe 8 , a separator 9 in the form of a truncated cone, an exhaust snail 10 for outputting a large fraction, an exhaust snail 11 for outputting a small fraction, snail 12 for outputting a concentrator of the separator.

The flywheel with its hub is mounted on the flywheel drive shaft and secured by turning with a key. The flywheel drive shaft is mounted on a ball-bearing support 13 mounted on a bed.

A loading funnel, a scrubber, a collection pipe, a separator, exhaust snails for withdrawing large and small fractions, a snail for removing the separator concentrate are rigidly interconnected into a single unit 14 of the apparatus.

To the end of the wide base of the conical tube of the scrubber along the O-O ₂ axis, a horizontal shaft 15 of the Hook joint with a protrusion 16 in its center along the O-O ₂ axis is rigidly attached. On two sides of the horizontal shaft along the axis O ₄ -O ₅ , trunnions 17 are made with bearings 18. The vertical shaft 19 of the Hooke joint is pivotally connected to the trunnions. The vertical shaft is mounted in bearings 20 on the bed.

This design of attaching the housing to the frame (by the principle of the Hook hinge) allows oscillatory motion of the housing with a small amplitude relative to the horizontal O ₄ -O ₅ and vertical O-O ₃ axes of the Hook hinge. However, it completely eliminates the possibility of rotation of the housing around its longitudinal axis O-O ₂ .

A ferrule 21 with a bearing 22 is rigidly fixed to the end of the exhaust cochlea to output a coarse fraction along the O-O ₂ axis. The pin 23 is tightly inserted into the bearing, which can move along the flywheel spokes 24 into the groove 25 to adjust the angle of inclination of the O-O longitudinal axis ₂ cases to the axis O- ₁ of the flywheel drive shaft. After setting the optimum angle, the pin is firmly fixed to the flywheel spoke. The groove on the spoke is made in the form of an arc relative to point O with the same distance to it from all points of the arc. Point O is the intersection of the axes O-O ₁ , O-O ₂ , vertical O-O ₃ and horizontal O ₄ -O ₅ axes of the Hook joint.

The casing of the apparatus, through a pin pivotally connected to the flywheel, receives planetary-linear motion from the flywheel along a circular cone with a vertex at point O. In this case, the O-O ₂ axis will be the generatrix of the circular cone, and the O-O ₁ axis will be the axis of the circular cone.

The narrow part of the conical scrubber pipe is rigidly connected to the inner pipe 26, through which a large (oversize) fraction enters the exhaust cochlea to output a large fraction, where it is discharged through a window 27 in a given direction. In this case, the inner pipe and the exhaust snail for outputting a large fraction are rigidly connected. The perforated section (screen) 28 of the scrubber is blocked by an external conical continuous collecting pipe, which serves to collect and transport the fine (sublattice) fraction into a separator located behind the scrubber. The inner surface of the separator has a groove 29. The small base of the truncated cone of the separator is rigidly connected to the exhaust snail to withdraw the fine fraction after separation through window 30 into a special tray. The large base of the truncated cone of the separator is rigidly connected to the cochlea to discharge the separator concentrate during its rinsing through the window 31.

A water conduit 32 and an irrigation pipe 33 are fixed to the protrusion of the horizontal shaft of the Hook joint to ensure the processes of disintegration and screening of the source material with process water. Process water for enrichment of the material in the separator is supplied in the required ratio together with the fine (sublattice) fraction of the enriched material.

For the separator rinse, the process water flows through a pipe 34 fixed to the apparatus body, and then enters the perforated pipe 35, which overlaps the entire circumference of the inner pipe section by a length equal to the length of the caged part of the separator. Holes 36 are located around the entire perimeter and the entire surface of the perforated pipe.

Planetary classification apparatus for the enrichment and transportation of minerals works as follows.

From the drive 3, the flywheel 2 is informed of the rotation around the axis OO ₁ of the drive shaft 4. During rotation, the flywheel carries with it the body 14 of the apparatus and gives it a planetary-translational motion. Due to the connection of the device’s casing with one end with the bed 1 according to the Hook principle, and with the other end with the flywheel 2 by means of a pin 23 and bearing 22, the casing moves in such a way that the O-O ₂ axis describes in space a circular rotation cone with a vertex at point O and with the axis of the circular cone O- ₁ . Moreover, the connection of the housing with the frame by means of the Hook joint prevents it from rotating around its own axis O-O ₂ . Therefore, when the body moves along the trajectory of the circular cone, the throat of the loading funnel 6 is always directed upward, having only slight fluctuations with respect to the horizontal O ₄ -O ₅ and vertical O-O ₃ axes of the Hook joint. In this case, the windows 27, 30 and 31, respectively, of the exhaust snail 10 for outputting a large fraction, the exhaust snail 11 for outputting a fine fraction, the snail 12 for outputting the separator concentrate will be directed in one direction set in advance, which makes it possible to remove materials and concentrate from the housing devices with their transportation in a given direction, for example, in special trays.

The source material, for example, sludge concentrates of a gold deposit or gold-bearing sands, enters the scrubber 7 through a feed funnel 6. At the same time, process water is supplied through a water conduit 32 and an irrigation pipe 33 to disintegrate and screen the source material.

In the scrubber, the source material is influenced by complex force fields formed as a result of planetary-translational motion of the apparatus body.

Under the influence of a centrifugal force field, the source material moves around the circumference of the inner surface of the scrubber. At the same time, due to the precession movement of the O-O ₂ axis of the apparatus body along a circular cone and the associated changes in the directions of the force fields, the movement of the source material around the circumference of the inner surface of the scrubber takes place in the form of a roll by rolling, which contributes to the efficiency of disintegration and screening.

Under the action of the longitudinal component of the centrifugal force, the material moves along the entire inner surface of the scrubber along its axis, which increases the productivity of the scrubber and the quality of screening.

The design of fastening the casing 14 to the bed by means of the Hook hinge creates, along with the planetary-translational movement of the apparatus along a circular cone, also longitudinal reciprocating oscillatory movements of the hull, and hence the scrubber and separator, with a small amplitude of oscillation relative to the horizontal and vertical axes of the Hook hinge. The mobility factor of the sowing surface and the deaf scrubber head and the effect of these reciprocating vibrational movements on the source material intensifies its disintegration and screening processes.

The complex effect on the source material in the scrubber of process water under pressure and the above complex force fields allows to ensure the efficiency and high performance of the processes of disintegration and screening of the source material in the proposed device.

The fine fraction with minerals and process water in the required ratio through the perforation of the screen 28 enters the continuous collection tube 8 and from it moves under the action of the longitudinal component of the centrifugal force into the separator 9. The planetary-translational movement of the separator, which creates alternating loads on the pulp, contributes to better separation minerals and the concentration of heavy minerals. The precession movement of the O-O axis ₂ of the apparatus body, acting on the pulp entering the separator, creates a wave inside the separator that moves in a circle in the form of a flattened suspension shaft, which improves the efficiency of extraction of mineral fines into the concentrate. The grains of minerals sag into the bed of the riffles 29 of the separator 9 and are concentrated in them. The reciprocating oscillatory movements of the separator along its axis with insignificant amplitude impede the insertion of the riffle bed, which favorably affects the separation of grains by density. After separation, the tailings of the material enter the exhaust snail 11 to withdraw the fine fraction and are discharged through window 30 into a special tray.

It should be noted that when the invention is operating in the enrichment mode, the longitudinal component of the centrifugal force arising from the planetary-translational movement of the apparatus body is directed from the loading funnel towards the discharge snails to withdraw coarse and fine fractions, provided that the angle β (the angle between the pin axis O-O ₂ , which is the generatrix of the circular cone, and the axis of the drive shaft O-O ₁ , which is the axis of the circular cone with the vertex at the point O), are larger than the taper angles α (slope of the cones) of the scrubber 7 and the collection pipe 8, and the same angle of taper γ (slope of the cone) of the separator 9.

In this invention, when the apparatus is in enrichment mode, the angle β is set with a value greater than the angles α and γ.

In FIG. 1 arrows indicate the direction of movement of the source material when the apparatus is in enrichment mode.

To flush the separator, the rotation of the flywheel is stopped, and the pin 23 is moved to the groove 25 along the spoke 24 and set to the position when the angle β becomes less than the taper angle of the separator 9. After fixing the pin, turn on the flywheel drive, which gives the casing with the separator a planetary translational traffic. When the value of the angle β is less than the angle γ, the vector of the longitudinal component of the centrifugal force arising from the planetary-translational motion of the housing will be directed toward the larger base of the truncated separator cone to the cochlea 12 to withdraw the separator concentrate. Water is supplied into the pipe 34 under pressure, which, through the openings 36 in the perforated pipe 35, washes the entire collecting surface of the separator, where the riffles are located. The mineral concentrate is washed out of the separator riffles with water and, under the action of the longitudinal component of centrifugal force, enters the cochlea 12 to discharge the separator concentrate, where through the window 31 it enters the tray and through it into a special container for collecting the mineral concentrate.

In FIG. 2 arrows indicate the direction of movement of the mineral concentrate trapped by the separator when the apparatus is in rinse mode.

After completion of the rinse, the rotation of the flywheel and the flow of water into the perforated pipe are stopped. By moving the pin along the flywheel spokes, the angle β is set to the enrichment mode, that is, the angle β is set with a value greater than the angles α and γ. Then fix the pin, through the conduit 32 and the irrigation pipe 33 serves the process water for disintegration and screening of the source material, from the drive 3 tell the flywheel 2 to rotate around the axis OO ₁ of the drive shaft 4. The device is ready for operation in enrichment mode.

The present invention allows:

- to increase the efficiency of using the centrifugal force field that occurs during planetary-translational motion of the apparatus, by ensuring the use of the centrifugal field to separate minerals by density in the planetary separator, as well as by using the longitudinal component of the centrifugal force to remove the mineral concentrate;

- expand the control range of the parameters of the centrifugal force field that occurs during planetary-translational motion of the apparatus body, by making it possible to adjust the angle of inclination of the longitudinal axis of the apparatus body to the axis of the flywheel shaft, increase the efficiency of separation and concentration of granular materials by their density in centrifugal fields.

The process of rinsing the separator when removing the mineral concentrate is simplified and is done automatically with minimal time, which makes it possible to increase the frequency of the rinse and improves the efficiency of operation of the proposed device. Separation tails (fine fraction) can be sent to an additional enrichment stage and the separator can be controlled by the efficiency of mineral extraction.

Claims (1)

A planetary classification apparatus for the enrichment and transportation of minerals due to the action of centrifugal force fields, including a housing consisting of a unified loading funnel, a scrubber in the form of a truncated cone, blocked by an external conical collecting pipe, exhaust snails for the removal of small and large fractions, installed on the one hand on the bed with bearings of the Hook joint, and on the other hand on the drive shaft with a flywheel, which tells the body planetary translational motion circular cone, characterized in that it is equipped with a separator in the form of a truncated cone with flutes, a cochlea for withdrawing the concentrator of the separator and sprinklers, and the housing is pivotally connected to a pin rigidly mounted in a groove on the flywheel spoke, with the possibility of moving the place of attachment of the pin along the groove, made in the form of an arc, each point of which is equidistant from the point of intersection of the axes of the apparatus.

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