RU114878U1 - CONCENTRATION DEVICE - Google Patents

Abstract

An enrichment device containing a slurry supply means, a means for imparting a rotational motion to it, at least two coaxial cylindrical shells, one of which is partially located in the cavity of the other with a gap, the lower section of which is open in an annular chute equipped with discharge nozzles, characterized in that the means the pulp supply is made in the form of a receiving conical funnel, coaxial with the shells, the outlet diameter of which corresponds to the diameter of the shell section of the largest cross-section and communicates with it, and the means for imparting rotational motion to the pulp is made in the form of branch pipes tangential relative to the body of the receiving conical funnel oriented in the direction of action on the pulp, the forces of rotation of the earth and a vane swirler, made in the form of blades fixed motionlessly on the inner surface of the shells, with the possibility of twisting the pulp in the direction of the action of the earth's rotation force on the pulp, while one of the walls to The annular groove is formed by a corresponding section of the shell wall of a smaller size fixed in the cavity of the overlying shell, in addition, each of the annular grooves is communicated with a separate vibrating concentrator through a separate distribution hopper.

Description

The utility model relates to the field of enrichment of dispersed material and can be used in the processing of epic heaps of processing plants, with a particle size of less than 2 mm.

Known enrichment device containing a cylindrical tank with a vertical longitudinal axis, a means of imparting rotational movement of the pulp around the longitudinal axis of the tank (see RU No. 2039607, B03B 5/32, 1995). The device is intended for separation in the pulp of solid particles with different hydraulic fineness. However, it does not provide a sufficient quality of separation of particles of solid material, especially when the densities of the tails and the useful component are not much different.

An enrichment device is also known that contains pulp supply means, means for imparting rotational movement to it, at least two coaxial cylindrical shells, one of which is partially placed in the cavity of the other with a gap, the lower section of which is open in an annular groove provided with discharge nozzles (see RU No. 2320418, B03B 5/32, 2008).

The disadvantage of this device is the complexity of manufacture and operation, high material consumption, large dimensions.

The task to which the utility model is directed is to simplify the design of the device, its manufacture and operation.

The technical result achieved by solving the problem is expressed in improving the quality of enrichment. In addition, the design of the device is simplified and the energy consumption of the process of separation of the material by hydraulic size is reduced.

The problem is solved in that the enrichment device containing means for supplying pulp, means for imparting rotational movement to it, at least two coaxial cylindrical shells, one of which is partially placed in the cavity of the other with a gap, the lower section of which is open in an annular groove equipped with discharge nozzles , characterized in that the pulp supply means is made in the form of a receiving conical funnel, coaxial with the shells, the diameter of the outlet of which corresponds to the diameter of the cross section of the shell the largest cross section and communicated with it, and the means of imparting rotational movement to the pulp is made in the form of tangential, with respect to the receiving conical funnel casing nozzles oriented in the direction of action on the pulp rotational forces of the earth and a blade swirl made in the form of blades fixed motionless on the inner surface shells, with the possibility of twisting the pulp in the direction of action on the pulp of the force of rotation of the earth, while one of the walls of the annular groove is formed correspondingly The lower part of the wall of the shell of a smaller size is fixed in the cavity of the overlying shell, in addition, each of the annular grooves is in communication with a separate vibration concentrator through a separate distribution hopper.

A comparative analysis of the features of the claimed solution with the features of the prototype and analogues indicates the conformity of the claimed solution to the criterion of "novelty."

The combination of features of the utility model formula provides a solution to the problem, namely, simplification of the design of the device, its manufacture and operation.

The claimed utility model is illustrated by drawings, in which are shown: in Fig. 1 - a general diagram of a concentration plant; figure 2 - shows a top view of a longitudinal enrichment device; figure 3 shows a longitudinal section thereof.

The drawings show a receiving conical funnel 1, with an outlet 2, shells 3-5, tangential nozzles 6 oriented in direction 7, the direction of action of the earth's rotational force 8 on the pulp, a blade swirl made in the form of blades 9, wall 10, an annular groove 11, discharge pipes 12, vibration concentrators 13, distribution hopper 14. In addition, mounting plates 15 are shown for the pulp preparation unit 16, the intermediate product 17, tails 18.

The device is intended for the processing of sand and ephemeral fraction of waste dumps of dressing plants, with a particle size of less than 2 mm, a density of more than 3 g / cm ³ . Acceptance conical funnel 1, shells 3-5, tangential nozzles 6, annular groove 11, discharge nozzles 12 and the distribution hopper are made of metal, and the shells are made of pipe sections, They (except the lowest) are not structurally different from each other, except diameter. The lower shell does not have swirl blades 9 that are rigidly attached to the inner surface of the remaining shells, preferably in their upper sections (so as not to interfere with the installation of the following shells). The tangential nozzles 6 are oriented in the direction of action 8 on the pulp of the force of rotation of the earth (the blades 9 are made with the possibility of twisting the pulp in the direction of action on the pulp of the force of rotation of the earth). The longitudinal axis of the nozzles 6 in the horizontal plane can be made curved, which provides additional "twist" pulp jets when they are introduced into the cavity of the receiving conical funnel 1.

The outer diameter of the shell 3 may vary between 160-300 mm, depending on the number of stages of separation (for their manufacture using pipe rolling). The shells 3-5 are rigidly fastened to each other by fixing plates 15 placed in the gaps between the shells, preferably at the lower edges of the upstream shells of the pair being fastened.

Pulp preparation unit 16 is made in a known manner, in the form of a tank equipped with pipelines for supplying water, means of loading solid material, such as a sand pump, and mixers of known design (not shown). Node 16 provides pulp preparation with a ratio of Solid: Liquid (T: G) 20:80 or 30:70. It is advisable to move it 25-40 m above the receiving conical funnel 1, depending on the required performance of the concentration device. The supply pipelines (providing pulp supply to the receiving conical funnel 1 — shown in the drawings as dashes) are made of pipes with a diameter of about 100 mm and the pulp preparation unit 16 is connected to the tangential nozzles 6. It is advisable that a sieve of known construction be installed between the pulp preparation node 16 and the tangential nozzles 6. or screen 19 with a mesh of 0.5 × 0.5 mm, which ensures the removal of debris and poor large class (+0.5 mm), which will reduce the number of separation stages (the number of shells)

As part of the enrichment device, depending on its performance, vibration concentrators 13 of known design are used, made of metal or wood, with tin plating. It is advisable that there is the possibility of regulating the longitudinal inclination of the bottom of the gutter in the range from 0.5 to 9 degrees, with the ratio of the length of the gutter to its width from 3: 1 to 4: 1. As a vibrator, you can use the known mechanism with an operating frequency of 300-500 Hz.

The distribution hopper 14 is made in a known manner, with the possibility of uniform distribution of the incoming product 17 from it on the surface of the vibroconcentrator 13. Moreover, each individual vibroconcentrator 13 is served by its (separate) distribution hopper 14, in communication with one of the annular grooves 11.

The drawings do not show the control valves used on the installation elements.

The claimed device operates as follows.

The pulp with a ratio of T: L = 20: 80 flows by gravity from the pulp preparation unit 16 to the nozzles 6 of the receiving conical funnel 1. The tangential pulp input is consistent along all nozzles (directed along the perimeter of its cavity in the direction of the earth’s rotation force acting on the pulp 8) and spinning the earth spinning the pulp), ensure the pulp volume is twisting (give it a rotational-translational downward movement). An additional twisting effect is given by the blades 9 of the swirler, oriented according to the direction of rotation of the pulp.

Rotational movement of the flow provides the application of centrifugal force to the particles of solid material, leading to their radial movement to the walls of the shells. When hitting the latter, the particles lose their speed and "flow" along the walls of the shells, falling into the corresponding gaps between them. Since only gravitational forces act on the particles in the gaps between the shells, they fall into the corresponding annular groove 11, “flowing out” through the gap outside the shell. Then they by gravity or force, through the nozzles 12 of the corresponding annular grooves 11 are discharged to the corresponding vibroconcentrator 13. The enrichment tailings 18 are discharged through the lower opening of the shell 5 (the lowest in the drawing) and are collected in a tail catcher 20.

The distribution hopper ensures uniform distribution of the loaded material with a layer oriented across the groove of the vibroconcentrator 13 (the edges of its outlet are located at a small distance from the bottom of the groove of the vibroconcentrator, but not less than three maximum sizes of the fraction coming from the annular groove 11.

When the vibrator is on (not shown in the drawings), the material (pulp) is fed under its own weight to the bottom of the gutter of the vibroconcentrator and, as it moves down the gutter (due to vibrations), the material that has left the gutter is filled up by flowing out of the hopper and flows to the discharge opening (not shown in the drawings) shown) vibroconcentrator. In this case, under the influence of vibrations, a suspension containing tails is collected in the upper layer of the stream, while valuable minerals with a high density (for example, gold or tungsten trioxide) are localized in its lower layer. In the discharge opening of the chute of the vibroconcentrator, a guide plate (not shown in the drawings) cuts off the lower part of the pulp stream, which is discharged into a concentrate collector (not shown in the drawings), the upper part of the pulp stream containing tails is discharged into the tail catcher (not shown in the drawings).

Claims (1)

An enrichment device containing pulp supply means, means for imparting rotational movement to it, at least two coaxial cylindrical shells, one of which is partially placed in the cavity of the other with a gap, the lower section of which is open in an annular groove provided with discharge nozzles, characterized in that the means pulp supply is made in the form of a receiving conical funnel, coaxial with the shells, the diameter of the outlet opening of which corresponds to the diameter of the cross section of the shell of the largest cross section and generalized with it, and the means of imparting rotational motion to the pulp is made in the form of nozzles tangential to the body of the receiving conical funnel, oriented in the direction of action of the ground rotation force and the blade swirler, made in the form of blades fixed motionless on the inner surface of the shells, with the possibility of twisting pulp in the direction of action of the earth's rotation force on the pulp, while one of the walls of the annular groove is formed by the corresponding section of the wall of the shell of fixed size in the cavity, overlying the sleeve, in addition, each of the annular troughs in communication with separate vibratory concentrator through a separate distribution bin.