RU2195369C1 - Centrifugal vibratory concentrator - Google Patents

Abstract

FIELD: mineral concentration from sands of placer deposits and ground ores, and in processing of sand-clay refuse former mining. SUBSTANCE: centrifugal vibratory concentrator has working member in the form of bowl rotated with deviation of rotation axis from vertical by means of driven part of drive mechanism, flexible member displacing in horizontal plane, and limiter of bowl inclination angle. Mutually contacting surfaces of bowl and its limiter are made for self-installation of bowl for working regime of planetary vertical or close to vertical rotation with maximum displacement of driven part of flexible member equalling the difference between diameters of mutually contacting surface. Concentrator has pivot for bowl. Connection of bowl with pivot ensures forced touch of mutually contacting surfaces. Flexible member is located for taking up without vertical load. EFFECT: higher reliability and efficiency of concentrator due to increased recovery of minerals by intensified material segregation in bowl interrifle grooves. 2 dwg

Description

 The invention relates to the field of mineral processing, in particular to devices for the separation of free noble metals and other heavy useful components in a centrifugal-vibration field during their industrial extraction from the sands of placer deposits, crushed ores, as well as in the processing of epoxy dumps of past workings.

 Concentrators are known in which the separation of materials by density occurs in a liquid medium (pulp) in a field of centrifugal (centrifugal-vibrational) forces acting on the mass of the starting material placed in a rotating working body made in the form of a conical bowl with annular ringings. At the same time, to ensure loosening of materials and thereby increasing the separation efficiency, the planetary motion is also reported to the bowl [1], [2].

 A disadvantage of the known concentrators is the low efficiency of the separation of materials, due to the fact that the shaking effects on the bowl are carried out at the time of the greatest compaction of the materials in the bowl, as a result of which they are weakly mixed and inactive replacement of light particles with heavier ones. The consequence of this is clogging of the inter-groove grooves of the bowl with the starting material.

 Also known is a hub [3] with a working body in the form of a conical bowl with arifances, driven into rotation by the drive mechanism through a flexible element, which allows the axis of rotation of the bowl to deviate from the vertical. The concentrator is equipped with a bowl angle limiter, the inner contacting surface of which provides frictional planetary movement of the bowl.

 The movement of the working body and the hydrodynamics of the enrichment process in this concentrator favor the high recovery of the useful component, but due to significant losses of the heavy useful component in the middle and large classes, as well as part of the small class (mainly lamellar and scaly form), the efficiency of the enrichment process is significantly reduced. The reason for the indicated loss of the useful component lies in a sharp increase in the radius of the planetary rotation of the bowl (an increase in the amplitude of its oscillation) in the direction from the top of its cone to its base due to the deviation of the axis of rotation of the bowl from the vertical, as well as due to the additional acceleration directed across the grooves , and the effect of "opening" the grooves when the grooves are slightly upward (extreme deflected position of the bowl).

 The closest to the invention in terms of technical essence and the achieved effect is a centrifugal concentrator [4], which includes a working body in the form of a bowl, driven into rotation with the possibility of deviating the axis of rotation from the vertical through the driven part of the flexible element of the drive mechanism, and a limiter of the angle of inclination of the bowl. The flexible element is made with the possibility of displacement of its driven part simultaneously in horizontal and vertical planes. The maximum displacement of the driven part in the horizontal plane is equal to the difference between the diameters of the intercontacting surfaces, the profiles of which are made with the possibility of ensuring self-installation of the bowl from the initial rotation mode at an angle to the vertical to the planetary vertical or close to vertical rotation mode.

 The main disadvantage of this hub is the slow and unstable launch of the bowl into operation. This is predetermined by the design of the bowl installation: fixing it in unstable equilibrium with support on a flexible element and placing it in the limiter in a free (floating) position. The resulting buildup of the bowl and collisions of intercontacting surfaces, as well as vertical ones with a high frequency of movement of the bowl, cause them to slip, interfere with the quick and smooth entry of the bowl into the operating mode, lead to a failure of the launch and increased wear of the intercontacting surfaces. A significant vertical component of the dynamic load does not allow the flexible element to fully support the operating mode of high-frequency elastic vibrations that occur in the contact zone of the bowl and the limiter, leads to the failure of this mode, as well as to the rapid destruction of the flexible element. This design scheme is not acceptable for concentrators with high productivity (more than 10 t / h solid) with a long operating mode for industrial development of deposits.

 The objective of the present invention is to provide a centrifugal vibration concentrator that reliably and efficiently works in the industrial development of deposits.

 The problem in the claimed invention is solved by achieving a technical result, which consists in creating optimal conditions for the friction centrifugal planetary drive of the bowl and the intensification of the process of segregation of the material in the grooves of the bowl.

 The specified technical result in the implementation of the invention is achieved due to the following technical solutions. A centrifugal-vibration concentrator, including a working body in the form of a bowl, driven into rotation with the possibility of deflecting the axis of rotation by means of the driven part of the flexible element of the drive mechanism, which can be displaced in the horizontal plane, and a limiter of the angle of inclination of the bowl, the contacting surfaces of which are made with the possibility of self-installation of the bowl in the operating mode of the planetary vertical or close to vertical rotation within the maximum displacement of the driven part of the flexible element to the horizon Flax plane, equal to the difference between the diameters vzaimokontaktiruyuschih surfaces provided for the fifth cup. The connection of the bowl with the fifth is carried out in such a way that provides constant forced contact of the mutually contacting surfaces to obtain a stable launch of the bowl into operation and its stable planetary rotation. The flexible element is placed without perceiving the vertical load to form the optimal resulting movement of the driven part, providing a stable operating mode of high-frequency elastic vibrations of the bowl.

 According to the results of the analysis of the prior art by the applicant, no analogue has been identified, characterized by features identical to all the essential features of the claimed invention. The definition from the list of identified analogues of the prototype allowed us to identify a set of essential distinguishing features in relation to the applicant’s perceived technical result in the claimed object set forth in the claims.

 Therefore, the claimed invention meets the requirement of "novelty."

 Introduction to the claimed hub of the support (heel) for the bowl, allows you to transfer to the heel the vertical component of the dynamic load from the rotating parts and significantly relieve the flexible element. This contributes to a fuller use of the elastic characteristics of the flexible element and, consequently, to increased extraction due to the intensification of the process of segregation of the material in the inter-groove grooves of the bowl, and also improves the reliability of the flexible element and the concentrator as a whole.

 The connection of the bowl with the fifth, in the particular case, through a freely contacting rod installed at one end in the nest of the heel with a certain degree of freedom in unstable equilibrium and freely contacting the other end with the bowl, allows for constant forced contact (contact) of the mutually contacting surfaces of the bowl and the limiter , eliminate their slippage and, as a result, increased wear, get a quick and stable launch of the bowl into operation and its stable planetary rotation for frictional interaction account with a limiter.

 Placing a flexible element in conditions of more favorable kinematics (without perceiving the disturbing force - the vertical component of the dynamic load) allows the flexible element to form the optimal resulting movement of the driven part, to provide a stable operating mode of high-frequency elastic oscillations of the bowl that occur in the contact zone of the intercontacting surfaces, and thereby increase extraction of a heavy useful component due to the intensification of the process of material segregation in the inter-groove groove bowls.

 The stable launch of the bowl and its stable operating mode make it possible to automate the operation of the concentrator in the technological enrichment schemes for the industrial processing of mineral raw materials.

 Thus, all of the above features provide a solution to the problem.

 To verify the conformity of the claimed invention with the criterion of "inventive step", it was compared with other technical solutions known both from special technical literature, catalogs and scientific publications, and from sources included in the "prior art".

 The inventive centrifugal vibration concentrator meets the requirements of an inventive step, since the combination of its essential features provides the concentrator with a new quality, expressed in the intensification of the enrichment process (increased extraction and productivity) and increased reliability of the design, which does not follow explicitly from the prior art.

The invention is illustrated by the example of a centrifugal vibration concentrator, illustrated by the drawings, which depict:
in FIG. 1 is a general view of a centrifugal vibration concentrator in its initial position;
in FIG. 2 - the same in operating mode.

 A hub made in accordance with the invention includes a working element 1 made in the form of a conical bowl with annular arrivals, driven by a drive mechanism 2 by means of a flexible element 3, which is capable of displacing its driven part 4 in a horizontal plane and transmitting this displacement through direct connection to the bowl . The flexible element 3, in the particular case, is made in the form of a multi-element elastic coupling. The bowl due to the displacement of the driven part 4 has the ability to deviate its axis of rotation from the vertical. The maximum deviation of the axis (angle α) is set by the limiter 5 of the angle of inclination of the bowl mounted on vibration mounts 6. The maximum displacement of the driven part 4 in the horizontal plane is equal to the difference between the diameters of the mutually contacting surfaces 7 of the limiter and 8 of the bowl. The profiles of the intercontacting surfaces are made with the possibility of self-installation of the bowl in the operating mode of planetary rotation of the bowl both at an angle α to the vertical and vertical or close to vertical rotation. The bowl from the side of the contacting surface 8 is supported on the heel 9, placed coaxially with it, in the particular case, in the limiter 5. The bowl is connected to the fifth, in the particular case, by means of the rod 10, freely and in an unstable equilibrium established by one end in the heel socket and freely contacting its other end with the supporting end of the bowl. Under the action of the vertical component of the load, the rod occupies an extreme deflected position (at an angle β to the vertical) and “locks” the bowl in the extreme deflected position. This ensures constant forced contact of the mutually contacting surfaces of the bowl and the limiter to obtain a stable launch of the bowl into operation and its stable planetary rotation. The heel has the ability to adjust its position relative to the supporting end of the bowl in the axial direction to adjust it to the full perception of the vertical component of the load. This allows you to unload the flexible element and create favorable conditions for the formation of the optimal resulting movement of its driven part 4, providing a stable operating mode of high-frequency elastic vibrations of the bowl.

 The bowl is loaded through the funnel 11. A collector 12 is provided for outputting the light fraction (“tailings” of enrichment). For the withdrawal of a heavy useful component (concentrate) from the annular inter-groove grooves 13, the bowl has channels 14, and this component is collected by the collector 15.

 The hub works as follows. Before the start of the enrichment process, the drive mechanism 2 is put into operation. When it is turned on, the bowl 1 through the flexible element 3 and its driven part 4 receives rotation around its axis. As a result of constant forced contact of the mutually contacting surfaces 8 of the bowl and 7 of the limiter 5 due to the connection of the bowl with the fifth 9 by means of the rod 10 freely in contact with them in the unstable equilibrium position, the bowl begins to roll with its contacting surface 8 along the internal contacting surface 7 of the limiter, making a stable planetary rotation both at an angle α to the vertical (in the initial phase of rotation), and vertical or close to vertical (during operation). The bowl enters the planetary rotation operating mode (commissioning) without slipping and is characterized by high stability. The selection of a specific profile of at least one of the contacting surfaces 7 and / or 8 provides the operating mode of planetary vertical or close to vertical rotation. A flexible element placed without perception of vertical load forms the optimal resulting movement of the driven part, which ensures a stable operating mode of high-frequency elastic vibrations of the bowl. The maximum displacement of the driven part 4 of the flexible element 3 in this case in the horizontal plane is equal to the difference between the diameters of the mutually contacting surfaces 7 and 8. The vibration mounts 6 perform the function of an anti-resonance system of oscillations of the concentrator. After the bowl enters the steady-state mode of centrifugal-planetary rotation, a pulp (source material together with water) is fed into the receiving funnel 11 in a ratio of 1: 4 to 1: 8, from which it flows by gravity into the rotating bowl 1. Under the action of centrifugal forces, the material moves from the center to the periphery of the bowl and is delayed in the inter-ring annular grooves 13, where due to intense gyrations (circular vibrations) made by the bowl as a result of its planetary movement, the material loosens, heavy particles segregate into the layer and fast enno concentrated at the inner walls of the grooves, and the lighter fractions were washed with water in the upper part of the bowl and then carried into the collector 12 for subsequent discharge. After the enrichment cycle, the drive is stopped, the receiving funnel is removed and a stream of useful component is washed from the grooves to the bottom of the bowl with a stream of water, from where it enters the collection 15 through channels 14 and then into a special container.

 Thus, the distinguishing features of the invention in comparison with the prototype can ensure the reliability and stability of the centrifugal vibration concentrator, to increase its productivity and the extraction of the useful component.

According to the above description, an experimental sample of an industrial concentrator with the following technical characteristics was created:
The largest inner diameter of the bowl, mm - 480
Depth of a bowl, mm - 240
Depth of inter-groove grooves, mm - 12
The amplitude of planetary vibrations, mm - 5
Bowl rotation frequency, rpm - 250
The number of planetary oscillations of the bowl in min - 3000
Installed power, kW - 1,5
Overall dimensions, mm - 1285х1230х1860
Weight, kg - 325
Technological testing was carried out at this concentrator.

 Gold-containing sands with a grain size of less than 5 mm containing 1.5% and 3.0% heavy minerals (magnetite, ilmenite, zircon, as well as native rounded and flattened gold of various particle sizes: from 0.5 mm to 0.05 mm) were processed. . The gold content in the samples, respectively, was 0.5 g and 1.5 g per ton of sand. The material was supplied in the form of pulp with a ratio of solid to liquid 1: 6 with a capacity of 15,000 kg / h on solid. Extraction of gold in concentrate amounted to: in the first case - 96%, in the second case - 94%, which is significantly higher than the figures for the enrichment of such material in the well-known domestic (SC-0.6; TulNIGP) and foreign ("Knelson", KC-nom ), domestic (SC-0.6; TulNIGP) and foreign (Knelson, KTs-MD20; Canada) centrifugal concentrators.

Concentrators of various sizes, manufactured according to the proposed technical solution, can find wide application:
- in the direct mining of precious metals from placers and crushed ores, as well as in the processing of epoxy dumps of past workings;
- with the associated extraction of gold from the products of sand and gravel mines;
- during the development of technologies for the extraction of precious metals from placers and crushed ores, as well as from unconventional technogenic raw materials (waste from metallurgical production at enterprises processing precious metal concentrates).

 For specialists in the art it is obvious that the design of the above hub can be amended and supplemented without departing from the scope of the invention, the scope of which is defined in the claims.

Sources of information
1. USSR copyright certificate 1651955, cl. B 03 B 5/32, 1991

 2. RF patent 2133645, cl. B 03 B 5/32, 1999

 3. RF patent 2109570, cl. B 03 B 5/32, 1995

 4. RF patent 2129047, cl. B 03 B 5/32, 1998

Claims (1)

 A centrifugal-vibration concentrator, including a working body in the form of a bowl, driven into rotation with the possibility of deviating the axis of rotation from the vertical by means of the driven part of the flexible element of the drive mechanism, which can be displaced in the horizontal plane, and a limiter of the angle of inclination of the bowl, the mutually contacting surfaces of which are self-adjusting bowl into the operating mode of planetary vertical or close to vertical rotation within the maximum displacement of the driven part of the flexible element and in a horizontal plane equal to the difference between the diameters of the intercontacting surfaces, characterized in that it is provided with a fifth for the bowl, while the connection of the bowl with the fifth is made in such a way that it provides for the forced contact of the mutually contacting surfaces to obtain a stable launch of the bowl into operation and its stable planetary rotation and the flexible element is placed without perceiving the vertical load to form the resulting movement of the driven part, providing a stable mode of high the frequency of elastic vibrations bowl.

Images