RU2109570C1 - Centrifugal concentrator - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: loose material concentrator has operating member in the form of rotation bowl coupled to drive by flexible element. Concentrator is provided with bowl inclination angle limiter with hole over the edge of which bowl rolls with part of its surface in rotation. Bowl inclination angle may be changed constantly during bowl rotation by selection of surface configuration. Inclination angle limiter is made in the form of curvilinear surface encircling the bowl over which bowl rolls during rotation Curvilinear surface of bowl inclination angle limiter and part of bowl external surface contacting it are made of friction material. At least one of contacting surface is made to curve different from circle. Bowl contact surface is made according to circumference positioned with eccentricity relative to bowl axis of rotation. Contact surface of bowl inclination angle limiter is made according to circumference arranged with eccentricity relative to drive mechanism output shaft axis. EFFECT: more efficient construction. 9 cl, 6 dwg

Description

 The invention relates to the enrichment of minerals, in particular to devices for the enrichment of exploration samples, sludges, sands, tailings containing free heavy metals. More specifically, the invention relates to the design of devices that carry out the concentration in the total mass of the material of particles with increased density and are called "concentrators". Even more precisely, the invention relates to concentrators using centrifugal forces to increase the proportion of particles of increased density in a sample.

 Concentrators are widely known in which the separation of material (sample) by density occurs due to centrifugal forces acting on the mass of material placed in a rotating working body. In this case, usually to ensure loosening of the material and thereby increase the separation efficiency, the planetary motion, in addition to rotation around its axis, is also reported to the working body, that is, rotation around another axis that does not coincide with the axis of the working body. Thus, for example, a hub according to ed. testimonial. USSR N 1651955, 1991 [1]. The specified hub has a working body, made in the form of a bowl, and a mechanism for driving the bowl into rotation around its axis and the axis of planetary motion.

 However, the separation efficiency of the material in the said concentrator is low, since the axis of the bowl and the axis of planetary rotation are parallel to each other, as a result of which both accelerations (centrifugal from rotation of the bowl around its axis and planetary) act on the particles of the material in the same plane. As a result of this, there is no effective loosening of the material, which complicates the passage of heavy particles through the mass of lighter particles.

 One of the known solutions aimed at eliminating this drawback is to install a working body with an inclination with respect to the vertical. So the concentrator according to US patent N 4267036, class. B 03 B 5/74, 1981 [2]. Since the axis of the bowl (working body) of the indicated concentrator is inclined, during its rotation there is additional acceleration directed at an angle to the centrifugal one, as a result of which the material loosens more intensively.

 Although there are solutions aimed at improving the efficiency of concentrators, determined by the quality of the resulting concentrate and productivity, this task continues to be relevant. It is she who is the main one for the present invention. Another task is to simplify the drive mechanism, the complexity of which is due to the complex nature of the movement of the working body.

 These problems are solved in the invention by replacing the rigid connection between the drive mechanism and the working body with a flexible one through a flexible element that allows not only the desired, as indicated above, deviation of the axis of rotation of the working body from the vertical, but also a possible change in this angle of inclination. Due to this, the additional acceleration arising due to the inclination of the bowl becomes, in contrast to [2], variable in magnitude and direction, which sharply increases the quality of the resulting concentrate.

 The possibility of angular displacements of the working body in this invention is limited by using a new element - the limiter of the angle of inclination of the bowl. The implementation of this limiter in the form of a cup encircling the cup in some part of its curved surface, the perimeter of which exceeds the cup’s perimeter in this place, allows it to transfer the cup drive function to planetary rotation, since when the cup reaches its contact with the specified surface at certain revolutions the bowl also begins to roll along this surface. To ensure the reliability of the specified contact, the curved surface surrounding the bowl and the surface of the bowl itself at the point of contact with the specified surface can be made of materials having frictional properties. The configuration of the curved surface of the bowl tilt limiter may be in the form of a circle or differ from it. Being made in a circle, it can at the same time be offset relative to the axis of the shaft of the bowl drive mechanism in rotation. In turn, the contact surface of the bowl may also be eccentric with respect to the axis of the bowl.

 A flexible element connecting the working body with the drive mechanism can be made in a variety of ways. So, it can be made in the form of a sleeve made of an elastic material, which in turn can be a pipe segment of an elastically deformable material, for example rubber, connected at one end to the shaft of the bowl mechanism and the other to the bowl. The flexible element can also be made in the form of a helical spring.

 In FIG. 1 shows a concentrator, general view; in FIG. 2 one of the options for performing the concentrator (with a flexible element in the form of a helical spring); in FIG. 3 - another embodiment of a concentrator (with a flexible element in the form of a coupling); in FIG. 4 is the same as in FIG. 3, with a different configuration of the contact surface of the bowl angle limiter; in FIG. 5 is a diagram of the movement of the bowl when performing the hub according to the embodiment shown in FIG. 4; in FIG. 6 is a diagram of the effect of forces on the material during the rotation of the bowl.

 The hub made in accordance with the invention includes a working member 3 made in the form of a bowl rotatable by the drive mechanism 2. The bowl is connected to the drive mechanism through a flexible element 4. The concentrator is equipped with a limiter 1 of the angle of inclination, made in the particular case in the form of a casing with an opening 5, in which the bowl 3 is partly located. Inside the bowl 3, a removable insert 7 is made of elastic material, for example soft rubber, and held in the bowl by a collar 9. The insert has a ring core grooves 8. The loading of the bowl is carried out by the feeder 10, the light fraction is discharged into the collector 11.

 The connecting mechanism of the drive and the working body (bowl) of the flexible element can be made in various ways. In the embodiment of the concentrator shown in FIG. 1, the flexible member 4 is a pipe segment of an elastically deformable material, for example rubber.

 In another embodiment shown in FIG. 2, the flexible element is made in the form of a coil spring connected at one end to the shaft of the drive mechanism, and the other to the bowl.

 In the embodiments of the hub depicted in FIG. 3 and 4, the flexible element is made in the form of a coupling 4 of an elastic material, allowing the possibility of a constant change in the spatial position of the shaft 13 of the working body 3 during its rotation. In this embodiment, said shaft 13 may have a ball bearing 12.

 The hub works as follows. When you turn on the drive mechanism 2, the bowl 3 through the flexible element 4 receives rotation around its axis. Moreover, due to the flexible connection provided by the element 4, the bowl deviates from the vertical during rotation. This initial deviation can occur in the static state of the bowl, before its rotation. Centrifugal forces increase the angle of inclination of the bowl to the maximum possible value "alpha", defined by the ratio of the dimensions of the curved surface 5 of the limiter of the angle of rotation of 1 bowl and the outer surface of the bowl 6, at the place of its passage through the limiter of the angle of rotation of the bowl. Upon reaching the angle of inclination of the bowl of the specified value "alpha", the surfaces 5 and 6 come into contact, and due to friction between them, the rotating bowl receives additional rolling motion (planetary motion) along the fixed surface of the limiter of the angle of inclination of the bowl. Centrifugal forces press the bowl against the surface 5, providing a reliable grip. Nevertheless, to reduce the possibility of slipping of the bowl, said surfaces 5 and 6 can be made of materials with enhanced frictional properties. When the bowl reaches the established mode, an enriched material, for example, sand, is fed along with water through the feeder into the bowl 3. Under the action of centrifugal forces, the material enters the annular grooves 8, while heavy particles are gradually concentrated at the walls of the groove, and lighter fractions are washed with water in the upper part of the bowl and are thrown into the collection 11. After a cycle of work, the liner 7 is removed from the bowl and turned inside out, the concentrate is unloaded from the grooves 8.

 Distinctive features of the invention provide the following specific features of the functioning of the hub.

As shown in FIG. 6, in addition to the usual centrifugal acceleration a _c and planetary acceleration a _p , additional acceleration a _d created by the inclination of the bowl and directed across the annular grooves acts on the particles of the material. Due to the flexible connection of the bowl with the drive mechanism through the flexible element 4, as well as a specific configuration of the bowl rolling surface 5, the angle of inclination of the bowl can vary in magnitude during rotation, which is equivalent to the rotation and displacement of the annular grooves 8 relative to the material being enriched. In this constantly changing direction of acceleration acting on the material as well as _y and _n relative to the walls, the acceleration a _q, directed transversely of the grooves and varies largest. This provides a very effective loosening of the material and, as a result, an increase in the degree of concentration of the final product. In addition, flexible coupling with the drive and frictional engagement of the bowl with the contact surface of the limiter of the angle of its inclination reports additional impulse effects on the material. This is due to the fact that the flexible element is twisted around the axis by the forces of inertia of the bowl and the forces of friction arising on the contact surfaces 5 and 6, and when these forces decrease, it restores its position, giving the bowl movements against its rotation. At the same time, the centrifugal and planetary accelerations acting on the material change in size, which further enhances the efficiency of the hub.

 The possibility of changing the angle of inclination of the bowl during operation can be provided by selecting the configuration of the curved contact surfaces 5 and 6. For example, the contact surface 5 of the limiter of the angle of inclination of the bowl in the form of an ellipse is already, as shown in FIG. 5 will provide a change in the angle of inclination.

 In FIG. 3 shows another variant when both contact surfaces 5 and 6 are made around the circumference, but the surface of the bowl 6 in the contact zone is located with an eccentricity "e" relative to its axis. In FIG. 4 shows another embodiment in which both contact surfaces 5 and 6 are again circumferentially made, but the contact surface 5 of the tilt limiter is eccentric "A" with respect to the axis of the output shaft of the drive mechanism.

According to the above description, an experimental sample of the concentrator was created, which had the following technical characteristics:
The largest internal diameter of a bowl is 100 mm
Bowl Depth 60 mm
The length of the flexible part of the shaft (rubber tube) 25 mm
Diameter of flexible shaft part 18 mm
The total swing of the bowl with an average diameter of 3 mm
Bowl rotation frequency 700 and 950 rpm
The oscillation frequency during planetary rolling of the bowl is 7400 and 10000 1 / min, respectively.

Bowl deviation angle from vertical 3-4
The recycled material included approximately 70 vol.% Water, 25 vol.% Sand and 5 vol.% Magnetite. The gold content ranged from 2 to 670 g per 1 ton of material. The material was supplied with a capacity of 160 and 600 l / h. The extraction of gold in concentrate was in the first case 90%, in the second 95%.

 It was found that the extraction of gold with a particle size of less than 0.05 mm was 97-98%, and gold with a particle size of 0.5 to 1 mm was 80-85%, and an increase in the rotational speed to 950 rpm leads to an increase in the yield of thin gold and some losses (approximately 5%) of large gold.

 For specialists in the art it is obvious that the design of the above devices can be made changes and additions that do not go beyond the essence of the invention, the scope of which is defined in the claims.

Claims (9)

 1. A centrifugal concentrator with a working body made in the form of a bowl, driven by a drive mechanism, characterized in that the bowl is connected to the drive mechanism through a flexible element that allows the axis of rotation of the bowl to deviate from the vertical, and the hub is equipped with a limiter for the angle of inclination of the bowl.  2. The hub according to claim 1, characterized in that the limiter of the angle of inclination of the bowl is made in the form of a curved surface surrounding the bowl, on which the bowl rolls when it is rotated by the drive mechanism.  3. The hub according to claim 2, characterized in that the curved surface of the limiter of the angle of inclination of the bowl and the part of the outer surface of the bowl in contact with it are made of materials with frictional properties.  4. The hub according to claim 2 or 3, characterized in that at least one of the contacting surfaces is made along a curve that is different in circumference.  5. The hub according to claim 2 or 3, characterized in that the contact surface of the bowl is made in a circle located with an eccentricity with respect to the axis of rotation of the bowl.  6. The hub according to claim 2 or 3, characterized in that the contact surface of the limiter of the angle of inclination of the bowl is made in a circle located with an eccentricity with respect to the axis of the output shaft of the drive mechanism.  7. The concentrator according to any one of claims 1 to 6, characterized in that the flexible element is made in the form of a pipe segment of elastically deformable material connected at one end to the shaft of the bowl drive mechanism and the other to the bowl.  8. The hub according to any one of claims 1 to 6, characterized in that the flexible element is made in the form of a helical spring connected at one end to the shaft of the bowl drive mechanism and the other to the bowl.  9. The hub according to any one of claims 1 to 6, characterized in that the flexible element is made in the form of a sleeve of elastic material mounted between the shaft of the bowl drive mechanism and the bowl.

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