RU236919U1 - UPPER MODULAR CONE FOR CENTRIFUGAL CONCENTRATOR - Google Patents

Abstract

The utility model relates to the main units for a centrifugal concentrator used, in particular, for extracting gold from gold-bearing rock. The upper modular cone, intended for installation in a centrifugal concentrator, is characterized by a parabolic shape of the surface profile and a quasi-parabolic shape of the riffles, consists of a frame having stiffening ribs made in the form of rings, as well as a profile made in a parabolic shape, having two different riffling zones located at different, but not less than 30°, angles so that the lower riffles are made located at gradually changing angles, starting from an angle equal to 30°, and up to the vertical position of the riffles, made with two flanges: upper and lower with holes for installation in a centrifugal concentrator and fastening of equipment. Fluidization holes for water supply are made along the entire surface of the upper modular cone. The frame is made of steel, and the stiffening ribs are made in the form of steel rings. The ribs are made of wear-resistant polymer material, including wear-resistant polyurethane, using casting, and can also be attached using adhesive, with the possibility of installing additional wear-resistant pads. The flanges are made with threaded holes for the possibility of bolting. Technical result: ensuring the possibility of extracting both large and small gold particles from gold-bearing rock in one cycle of the concentrator, thereby increasing the percentage of gold extraction. 6 fig., 5 ex.

Description

APPLICATION SCOPE

The utility model relates to the field of mining and processing equipment, namely, to the main units for a centrifugal concentrator used, in particular, for extracting gold from gold-bearing rock.

LEVEL OF TECHNOLOGY

As a rule, in the known designs of a centrifugal concentrator used, in particular, for extracting gold from gold-bearing rock, either more large parts of gold are extracted from the gold-bearing rock, or more small particles of gold are extracted, while some of the gold is not extracted from the rock in each of the mentioned cases, in connection with which there is a need to create such a device, the design of which would provide the ability to extract both large and small particles of gold from the gold-bearing rock in one cycle of the centrifugal concentrator, thereby increasing the percentage of gold extraction.

For example, a centrifugal concentrator is known, in which the main unit for processing pulp is the upper modular cone, which has the shape of a truncated cone, while the inner surface of the concentration cone is equipped with annular protrusions (riffles) (see, for example, https://addrecovery.ru/centrobezhnyj-koncentrator-prok-sg-20/) [1].

Also known are designs of modular elements for centrifugal concentrators, namely, such utility models and inventions as, for example, Russian Federation Patent No. 207391 [2], Russian Federation Patent No. 2758961 [3], Russian Federation Patent No. 2775528 [4], Russian Federation Patent No. 2806272 [5], however, various types of designs of the presented inventions only partially solve the problems of ensuring the possibility of extracting both large and small particles of gold from gold-bearing rock in one cycle of operation of the centrifugal concentrator, increasing the percentage of gold extraction, and the currently existing designs of upper cones or modular elements have a narrowly focused classification of the extracted material.

Thus, the technical result, which the utility model is aimed at achieving, is the creation of such an upper modular cone for a centrifugal concentrator, the design of which would provide the ability to extract both large and small particles of gold from gold-bearing rock in one cycle of the concentrator’s operation, thereby increasing the percentage of gold extraction.

DISCLOSURE OF UTILITY MODEL

The technical result is achieved by the proposed:

an upper modular cone designed for installation in a centrifugal concentrator, characterized by a parabolic surface profile shape and a quasi-parabalic riffle shape, ensuring the extraction of both large and small gold particles from gold-bearing rock in one cycle of concentrator operation, thereby increasing the percentage of gold extraction by a structure consisting of a frame having stiffening ribs made in the form of rings, as well as a profile made of a parabolic shape, having two different riffle zones located at different, but not less than 30°, angles so that the lower riffles are made located at gradually changing angles, starting from an angle equal to 30°, and up to the vertical position of the riffles, made with two flanges: upper and lower, with holes for installation in a centrifugal concentrator and fastening equipment in its composition, fluidization holes for water supply are made over the entire surface of the upper modular cone, the frame is made of steel, and the stiffening ribs are made in the form of steel rings, the riffles are made made of wear-resistant polymer material, including wear-resistant polyurethane, the riffles of the upper modular cone are made of both wear-resistant polyurethane and wear-resistant polymer material, including using casting, and can also be attached using adhesive, with the possibility of installing additional wear-resistant pads, the upper and lower flanges are made with threaded holes for the possibility of bolt fastening.

Fig. 1 shows a general view of the utility model - the upper modular cone for a centrifugal concentrator,

where 1 is the stiffening ribs,

2 - upper flange, with threaded holes,

3 - lower flange, with threaded holes,

4 - holes for mounting to the centrifugal concentrator.

Fig. 2 shows the assembly diagram of the concentration bowl with a vertical section,

where 5 is the upper modular cone,

6 - main equipment.

Fig. 3 shows the parabolic profile of the upper modular cone.

Fig. 4 shows the lower corrugation zone.

Fig. 5 shows the upper corrugation zone.

Fig. 6 shows:

7 - frame,

8 - riffles,

9 - fluidization holes.

An upper modular cone 5, intended for installation in a centrifugal concentrator, characterized by a parabolic shape of the surface profile and a quasi-parabalic shape of the riffles 8, ensuring the extraction of both large and small gold particles from gold-bearing rock in one cycle of the concentrator operation, thereby increasing the percentage of gold extraction by the structure, consisting of a frame 7 having stiffening ribs made in the form of rings 1, wherein the profile made in a parabolic shape has two different riffle zones located at different, but not less than 30°, angles, wherein the lower riffles 8 are made located at gradually changing angles, starting from an angle equal to 30°, and up to the vertical position of the riffles 8, so that between the upper and lower riffles a transition zone is formed in which the angle of inclination of the upper modular cone is equal to the angle of inclination of the surface intended for placing the dynamic suspension, made with two flanges: upper 2 and lower 3, with openings 4 for installation in a centrifugal concentrator and fastening of equipment 6 in its composition, fluidization openings 9 for water supply are made over the entire surface of the upper modular cone 5, the frame is made of steel, and the stiffening ribs are made in the form of steel rings, the riffles are made of wear-resistant polymer material, including wear-resistant polyurethane, the riffles of the upper modular cone are made of both wear-resistant polyurethane and wear-resistant polymer material, including using casting, and can also be attached using adhesive, with the possibility of installing additional wear-resistant linings, the upper and lower flanges are made with threaded openings for the possibility of bolted fastening.

Examples of implementation of the utility model.

Example 1. An upper modular cone that ensures the extraction of both large and small gold particles from gold-bearing rock in one cycle of the concentrator operation, thereby increasing the percentage of gold extraction by the structure consisting of a frame made of steel, having stiffening ribs in the form of steel rings, having a parabolic profile shape with two different corrugation zones located at different angles of at least 30°, with the lower corrugations being made located at gradually changing angles, from an angle equal to 30°, to a vertical position of the corrugations, with the corrugations being made of wear-resistant polyurethane and having a quasi-parabolic shape, the corrugations being made, including from a wear-resistant polymer material, including from a wear-resistant polyurethane, the riffles of the upper modular cone are made of both wear-resistant polyurethane and wear-resistant polymer material, including using casting, and can also be attached using adhesive, with the possibility of installing additional wear-resistant pads, the upper and lower flanges are made with holes for fastening to the centrifugal concentrator and equipment in its composition; fluidization holes for water supply are made over the entire surface of the upper modular cone.

Example 2. An upper modular cone that ensures the extraction of both large and small gold particles from gold-bearing rock in one cycle of the concentrator operation, thereby increasing the percentage of gold extraction by the structure, consisting of a frame made of steel, having stiffening ribs in the form of steel rings, having a parabolic profile shape with two different corrugation zones located at different angles of at least 30°, wherein the lower corrugations are made located at gradually changing angles, starting from an angle equal to 30°, up to the vertical position of the corrugations, the corrugations are made of wear-resistant polymer polyurethane and have a quasi-parabolic shape, the upper module is made with two flanges (upper and lower) with holes for fastening to a centrifugal concentrator and associated equipment in its composition; fluidization holes for water supply are made over the entire surface of the upper modular cone.

Example 3. An upper modular cone according to any of examples 1 or 2, in which the upper and lower flanges are provided with threaded holes to enable bolt fastening.

Example 4. An upper modular cone for a centrifugal concentrator according to any of examples 1, 2, 3, characterized by a quasi-parabolic shape of the riffles.

Example 5. An upper modular cone for a centrifugal concentrator according to any of examples 1, 2, 3, 4, in which the upper and lower flanges are made with threaded holes for the possibility of bolted fastening

When modeling the process of using the proposed utility model of any of the options, a higher extraction of high-grade ore with particles of accompanying gold in such rock was achieved, namely, 65% was extracted using the proposed utility model versus 55% of the analogue, and almost 50% higher extraction of low-grade ore with smaller gold particles, namely, 65% versus 45%.

Size-specific gold recovery analysis revealed improved recovery across the gold particle size range, with a sharp and consistent improvement in recovery in the sub-100 µm particle size range.

For example, with the installation of an analog cone in a gravity circuit, the average gold extraction from gold-bearing rock was, for example, about 18%, and with the installation of the proposed utility model in a gravity circuit, the average gold extraction was about 54%, which represents an increase of 300%.

In the proposed utility model, the profile of the upper modular cone is made in the form of a parabola, thereby forming two corrugation zones located at different angles. Such a design of the upper modular cone provides a smooth path for the movement of the suspension up the wall of the cone. In the proposed utility model, the corrugation profiles have a quasi-parabolic shape. The forms of execution of the corrugation profiles provide additional advantages in the extraction process.

Thus, on the upper modular cone there are fluidization holes for washing away gravity concentrate with a high gold content.

In the proposed embodiment, the riffles of the upper modular cone are made, for example, from wear-resistant polyurethane or, for example, from a wear-resistant polymer material using casting or secured using an adhesive method, and also have the ability to install additional wear-resistant pads.

In one of the proposed embodiments, the base of the upper modular cone is, for example, a steel frame. The steel frame of the upper modular cone has two flanges - upper and lower - with threaded holes for fastening equipment, which allows installing the upper modular cone in existing models of centrifugal concentrators. The upper modular cone has stiffening ribs, for example, in the form of steel rings. Such a design allows avoiding deformation of the upper modular cone during operation.

The design of the proposed device is clearly illustrated by the above-described Figs. 1-6.

All the above examples of the proposed utility model do not exhaust all possible options for the implementation of its design.

Thus, a technical result was achieved by creating such an upper modular cone for a centrifugal concentrator, the design of which provided the ability to extract both large and small particles of gold from gold-bearing rock in one cycle of the concentrator, thereby increasing the percentage of gold extraction.

INDUSTRIAL APPLICABILITY

An upper modular cone for a centrifugal concentrator is proposed, the design of which provides the ability to extract both large and small gold particles from gold-bearing rock in one cycle of the concentrator, thereby increasing the percentage of gold extraction.

The base of the upper modular cone is, for example, a steel frame. The steel frame of the upper modular cone has two flanges - upper and lower - with threaded holes for mounting equipment, which allows the upper modular cone to be installed in existing models of centrifugal concentrators. The upper modular cone has stiffening ribs, for example, in the form of steel rings. This design allows avoiding deformation of the upper modular cone during operation.

The utility model relates to the main units for a centrifugal concentrator used, in particular, for extracting gold from gold-bearing rock, which can be used in all proposed variants at specialized enterprises of the mining industry.

SOURCES OF INFORMATION:

1. https://addrecovery.ru/centrobezhnyj-koncentrator-prok-sg-20/.

2. Patent of the Russian Federation No. 207391.

3. Patent of the Russian Federation No. 2758961.

4. Patent of the Russian Federation No. 2775528.

5. Patent of the Russian Federation No. 2806272.

Claims (1)

An upper modular cone designed for installation in a centrifugal concentrator, characterized by a parabolic surface profile shape and a quasi-parabolic riffle shape, ensuring the extraction of both large and small gold particles from gold-bearing rock in one concentrator operating cycle, thereby increasing the percentage of gold extraction by a structure consisting of a frame having stiffening ribs made in the form of rings, as well as a profile made in a parabolic shape, having two different riffle zones located at different, but not less than 30°, angles so that the lower riffles are made located at gradually changing angles, starting from an angle equal to 30° and up to the vertical position of the riffles, made with two flanges: upper and lower, with openings for installation in a centrifugal concentrator and fastening equipment in its composition, fluidization openings for water supply are made over the entire surface of the upper modular cone, the frame is made of steel, and the stiffening ribs are made in the form of steel rings, riffles made of wear-resistant polymer material, including wear-resistant polyurethane, using casting, and can also be attached using adhesive, with the possibility of installing additional wear-resistant pads, the upper and lower flanges are made with threaded holes for the possibility of bolt fastening.