RU2645021C2 - "sphere-m" centrifugal concentrator - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: centrifugal concentrator for concentration of mineral resources includes a frame, feeding and unloading devices, a bowl in the form of truncated cone rigidly mounted on the shaft, one end of which is mounted on the frame to exclude rotation of the bowl about its axis, a bearing mounted on the other end of the shaft, and a pin which is rigidly connected through a carrier having a groove for adjusting the angle of inclination, and provided with a drive shaft imparting a movement along the bowl circle cone. The concentrator is provided with scrolls for discharging concentrate and tailings, a funnel rigidly connected to a distributor in the form of a cylinder. A hinge is configured on the universal coupling principle, where the bowl shaft is rigidly fixed on the hinge and made in the form of water conduit with openings for supplying water to the bowl grooves. The larger base of the bowl is located on the side of the hinge. The carrier groove is made in the form of an arc, each point of which is equidistant from the intersection point of the hinge axes.

EFFECT: increased concentrator efficiency.

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.

A centrifugal concentrator is known, including a cone-shaped bowl mounted on an inclined shaft with the possibility of rotation around a vertical axis, feeding and unloading devices, a stopper that does not allow the cone-shaped bowl to rotate around its own axis, but not obstructing movement around the vertical axis (SU 899125A, 23.01. 82, B03B 5/32 - analogue).

The disadvantages of the apparatus are its lack of reliability in the work and the inability to obtain a given degree of reduction of the source material, which does not allow to allocate concentrates with a high content of useful components.

The closest to the invention in technical essence is a centrifugal concentrator, including a cone-shaped bowl mounted on an inclined shaft with the possibility of rotation around the vertical axis, feeding and unloading devices, a stopper that does not allow the cone-shaped bowl to rotate around its own axis, but not preventing movement around the vertical axis, the inclined shaft in the lower part is pivotally mounted, and in the upper part of the inclined shaft there is a bearing and a pin entering it, rigidly with connected with the drive shaft through a connecting device fixed to it with a groove for adjusting the angle of inclination, the stopper being fixed at the bottom of the inclined shaft, the hub is equipped with a discharge device for a heavy fraction (RF Patent No. 2136373, 05/27/1998, B03B 5/32 - prototype) .

The disadvantages of the known device are:

- insufficient reliability of the design of the drive to give the bowl planetary translational motion along a circular cone;

- low productivity and, therefore, limited scope;

- manual rinsing of the concentrator bowl.

The problem to be solved:

- improving the reliability of the hub drive;

- increasing the performance of the hub and expanding the scope;

- mechanization of the process of rinsing the concentrator bowl.

This object is achieved in that the known centrifugal concentrator for mineral processing, including a frame, feeding and unloading devices, a bowl in the form of a truncated cone, is rigidly mounted on a shaft, which at one end is mounted on the frame articulated with the exception of rotation of the bowl around its own axis, and on at the other end of the shaft there is a bearing and a pin entering it, rigidly connected through a carrier, having a groove for adjusting the angle of inclination, with a drive shaft that gives the bowl movement in a circular cone, with According to the invention, it is additionally equipped with snails for withdrawing the concentrate and enrichment tailings, a funnel rigidly connected to the distributor in the form of a cylinder, and the hinge is made according to the Hook principle, where the bowl shaft is rigidly fixed directly to the hinge and is made as a conduit with holes for supplying water to the bowl riffles, moreover, the larger base of the bowl is located on the side of the hinge, and the groove is made in the form of an arc, each point of which is equidistant from the point of intersection of the hinge axes.

From the sources that have become publicly available, no technical solutions have been identified with placement on a well-known centrifugal concentrator for mineral processing of a cochlea for mechanized withdrawal of a concentrate of a bowl, a cochlea for permanent withdrawal of enrichment tails, a funnel rigidly connected to a distributor in the form of a cylinder, where the hinge is made according to the Hook principle and the bowl shaft is rigidly fixed directly on the hinge and is designed as a water conduit with holes for supplying water to the bowl riffles over its entire surface, where you find the larger base of the bowl extend from the hinge side, and the groove is made in the form of an arc, each point of which is equidistant from the point of intersection of the hinge axes.

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

Analysis of the known technical solutions in the study area allows us to conclude that they lack features similar to the essential distinguishing features of the inventive centrifugal concentrator for mineral processing, and to recognize the claimed solution meets 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-bearing gravity concentrates of ore and placer deposits in gold-extracting and dressing plants .

In FIG. 1 shows a centrifugal concentrator for mineral processing, side view, in FIG. 2 is a plan view.

The centrifugal concentrator for mineral processing consists of a frame 1, a carrier 2, a drive shaft 3 of a carrier with an engine 4, a Hook hinge 5, a loading funnel 6, a distributor 7 made in the form of a cylindrical pipe, a bowl 8 in the form of a truncated cone mounted on the shaft 9 bowls, snails 10 for the withdrawal of concentrate bowls, snails 11 for the conclusion of tailings.

Drove its hub mounted on the drive shaft drive. The drive shaft of the carrier is mounted on a ball-bearing support 12 mounted on the frame.

A loading funnel, a distributor, a bowl, a bowl shaft, a snail for withdrawing concentrate, a snail for removing enrichment tails are rigidly interconnected into a single hub 13 of the concentrator.

The bowl shaft at the end of the distributor along the OO ₂ axis is rigidly connected to the horizontal shaft 14 of the Hook joint. On two sides of the horizontal shaft of the Hooke joint along the O ₄ -O ₅ axis, pins 15 with bearings 16 are made. The vertical shaft 17 of the Hooke hinge is pivotally connected to the pins. The vertical shaft is mounted in bearings 18 on the frame.

This design of hinging the hub housing to the frame (according to the Hook principle) allows oscillatory motion of the housing with a small amplitude relative to the horizontal O ₄ -O ₅ and vertical OO ₃ axes of the Hook hinge, but completely excludes the possibility of rotation of the housing and, accordingly, the bowl around its longitudinal axis OO ₂ .

A sleeve 19 with a bearing 20 is rigidly fixed to the shaft of the bowl at the end of the cochlea to output enrichment tailings along the OO ₂ axis. A pin 21 is tightly inserted into the bearing, which can be moved along the carrier into the groove 22 to adjust the angle of inclination of the longitudinal axis OO _{2 of the} bowl to the O axis -O About ₁ drive shaft carrier. After setting the optimum angle, the pin is firmly fixed in the carrier groove. The groove 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 OO ₁ and OO ₂ , vertical OO ₃ and horizontal O ₄ -O ₅ axes of the Hook joint.

Thus, the hub housing by means of the bowl shaft, to which the cage is rigidly connected to the bearing and the pin that fits tightly into the bearing, is pivotally connected to the carrier and receives planetary-linear motion from it along a circular cone with a vertex at point O. In this case, the OO ₂ axis will be the generatrix of the circular cone, and the axis OO ₁ is the axis of the circular cone.

The larger base of the truncated cone of the bowl, located on the side of the Hook hinge, is rigidly connected to the cochlea to withdraw the concentrate of the cup during its rinsing through the window 23 on the cochlea and then through a special tray to the container for concentrate.

The smaller base of the truncated cone of the bowl is rigidly connected to the cochlea for a constant output of tailings through the window 24 during the operation of the concentrator.

The process water for rinsing the bowl enters through the hose 25 into the hollow shaft of the bowl at the point of attachment of the bowl shaft to the horizontal shaft of the Hook joint. On the bowl shaft, made in the form of a pipe, the process water enters the perforated section 26 of the bowl shaft, equal to the length of the bowl part with the flutes 27. Water holes 28 are located around the entire perimeter and the entire surface of the perforated section of the bowl shaft.

A centrifugal concentrator for mineral processing works as follows.

From the drive shaft 3, the carrier 2 is notified of rotation about the axis O-O _{1 of the} drive shaft. During rotation, the carrier carries with it the shaft of the bowl 9 with the body 13 of the hub and gives it a planetary-translational motion. Due to the rigid connection of the hub housing 13 via the bowl shaft 9, one end with the Hook 5 hinge mounted on the frame 1, and the other end with the carrier 2 through the cage 19 with the bearing 20 and the housing 21 tightly inserted into the bearing moves the body so that the axis OO ₂ describes in space a circular cone of rotation with a vertex at point O and with the axis of the circular cone O-O ₁ . At the same time, the rigid connection of the shaft of the bowl 9 and, accordingly, of the housing 13 with the Hook hinge 5 mounted on the frame 1, prevents the housing 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 23 and 24, respectively, of the cochlea 10 for outputting the concentrate of the bowl and the cochlea 11 for outputting the tailings of enrichment will be directed in one direction set in advance, which makes it possible to withdraw the concentrate and tailings of enrichment from the housing with their transportation in a given direction, for example, in special trays.

The source material, for example, gravity concentrates of a gold ore or gold placer deposit, in the form of pulp through a feed funnel 6 enters the distributor 7 of a cylindrical form, where under the action of the longitudinal component of the centrifugal force, the material moves along the entire inner surface of the distributor to the bowl 8 and is discarded on its side surface.

In the bowl 8, the source material is affected by complex force fields formed as a result of planetary-translational motion of the apparatus body.

Under the action of a centrifugal force field, the source material moves around the circumference of the inner surface of the bowl. In this case, due to the precessional movement of the axis O-O _{2 of the} shaft 9 of the bowl in a circular cone and the associated changes in the directions of the force fields, alternating loads are affected on the source material, which contribute to the effective disintegration and separation of mineral grains in density. The movement of the source material around the circumference of the inner surface of the bowl occurs in the form of a flattened shaft of the suspension by rolling. Under the action of the longitudinal component of the centrifugal force, the material moves along the entire inner surface of the bowl 8 to the cochlea 11 to output the tailings.

The design of fastening the hub housing to the frame by means of the Hook hinge also creates longitudinal reciprocating oscillatory movements of the housing during planetary-linear motion of the housing along a circular cone, and also, with a small amplitude of oscillation relative to the horizontal O ₄ -O ₅ and vertical OO ₃ axes Hook joint.

The influence factor of these longitudinal reciprocating oscillatory movements of the bowl on the source material intensifies the processes of its separation according to density, prevents, together with alternating loads of centrifugal forces, pressing the bed in the interfree space and promotes the concentration of mineral grains in the constantly loosened bed.

The complex effect on the source material in a bowl of alternating centrifugal loads on the pulp and longitudinal reciprocating oscillatory movements, contributes to a better separation and concentration of heavy minerals.

The tails of the material after separation in the bowl enter the cochlea 11 and are discharged through the window 24 into a special tray.

It should be noted that in this invention, the larger base of the bowl 8, made in the form of a truncated cone, is located on the side of the Hook hinge and the input of the source material into the hub also occurs on the side of the Hook hinge. In this case, when the invention is operating in enrichment mode, the vector of the longitudinal component of the centrifugal force arising from the planetary-translational movement of the hub body will be directed from the larger base of the bowl towards the cochlea to output enrichment tails, provided that the angle β (the angle between the axis the shaft of the bowl OO 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 point O), is greater than the taper angle (slope of the cone) γ of the bowl 8.

In the present invention, when the concentrator is in the enrichment mode, the angle β is set to a value greater than the angle γ.

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

The mechanized rinsing of the bowl in this invention is realized by arranging the larger base of the cone-shaped bowl from the side of the Hook joint, based on the condition that the direction of the vector of the longitudinal component of the centrifugal force in the bowl, and hence the direction of movement of the material in it, is determined by the ratio of angles β and γ.

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 movement of the body will be directed towards the larger base of the truncated cone of the bowl to the cochlea 10 to withdraw the concentrate of the bowl.

For rinsing the bowl, the rotation of the carrier is stopped, and the pin 21 is moved to the groove 22 along the carrier 2 and set to the position when the angle β becomes less than the taper angle γ of the bowl 8. After fixing the pin, the motor 4 is turned on, the drive shaft of the carrier gives the planetary-translational casing with the bowl traffic. Water is supplied to the shaft 9 of the bowl, made in the form of a pipe, through a hose 25, which flows through the holes 28 of the perforated section 26 and wash the entire catching surface of the bowl, where the flutes 27 are located. The mineral concentrate is washed out of the flanges of the bowl with water and under the action of the longitudinal component of the centrifugal force enters the cochlea 10 to withdraw the cup concentrate, where through the window 23 it enters the tray and through it into a special container for collecting concentrate with minerals.

In FIG. 2 arrows indicate the direction of movement of the mineral concentrate caught by the bowl when the concentrator is in the rinse mode.

After the rinsing of the bowl is completed, the carrier and the water supply to the perforated section of the shaft 9 are stopped. By moving the pin along the carrier, the angle β is set to enrichment mode, that is, the angle β is set with a value greater than the angle γ.

Then fix the pin 21, from the drive shaft 3 inform the carrier 2 rotation about the axis O-O _{1 of the} drive shaft. The concentrator is ready for operation in enrichment mode.

The present invention allows:

- to provide a centrifugal concentrator of segregation type with a simple, reliable and time-tested drive, which makes it possible to create models of concentrators of segregation type with a high unit productivity, which can find a wide range of applications for the enrichment of mineral raw materials of ore and placer gold mining (at gold processing plants, SCO, sand washing) and really compete with the hubs of firms "Knelson" and "Falcon";

- to mechanize and simplify the process of rinsing the concentrator when removing the mineral concentrate, to minimize the time spent on rinsing, which makes it possible to increase the frequency of the rinsing and helps to increase the operational efficiency of the proposed centrifugal segregation concentrator type.

Claims (1)

A centrifugal concentrator for mineral processing, including a frame, feeding and unloading devices, a truncated cone bowl rigidly mounted on a shaft, which is pivotally mounted on one frame with the exception of rotation of the bowl around its own axis, and a bearing and an input shaft mounted on the other end of the shaft into it a pin rigidly connected through a carrier having a groove for adjusting the angle of inclination, with a drive shaft giving the bowl movement in a circular cone, characterized in that it is equipped with snails for output concentrate and tailings of enrichment, with a funnel rigidly connected to the distributor in the form of a cylinder, and the hinge is made according to the Hook principle, where the bowl shaft is rigidly fixed to the hinge and is made as a water conduit with holes for supplying water to the flutes of the bowl, with the larger base of the bowl located on the side of the hinge , and the groove is made in the form of an arc, each point of which is equidistant from the point of intersection of the hinge axes.

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