RU2005549C1 - Table - Google Patents

Abstract

FIELD: mining industry. SUBSTANCE: table decks are formed as double-sectioned blades with longitudinal corrugations. Table desks are conjugated with drive through shaft. EFFECT: simplified construction and enhanced reliability in operation. 2 dwg, 1 tbl

Description

 The invention relates to techniques for mineral processing and can be used in the mining industry.

 A known concentration table for separating granular materials by density, containing a deck with flats, a drive, devices for supplying raw material, flushing water and receiving separation products [1].

 Separation on this table occurs due to selective flushing with water flowing along an inclined plane of granular materials of different density and size and moving at different speeds in a direction perpendicular to the direction of the water flow.

 However, this concentration table is ineffective in the separation of minerals of similar density.

A known concentration table including symmetrically located on both sides of the drive units of decks of equal mass, resting on a fixed frame connected to the drive, a device for changing the angle of the decks, a device for supplying drain water and power to the decks, receivers of separation products, while the frame is stationary made with horizontal guides, the drive is made of two-eccentric, with the phase shift of the eccentrics 180 ^o , the connection of the movable frame with the drive is flexible, the decks are made in the form of a rhombus with convex a flat surface with an area of at least 2.5 m ² , while the maximum convexity of the decks is located on a line parallel to the lateral edge of the deck passing through the intersection of the diagonals of the deck [2].

 Enrichment occurs due to gravitational separation of fine-grained and sludge ores in the pulp stream.

 The disadvantage of this table is the inability to separate minerals that are close in density and class larger than 0.25 mm.

 The invention, when used, ensures the achievement of the following technical result: it increases the efficiency of separation of minerals of similar density, increases the degree of extraction of the useful component and extends the size class of the material being enriched.

 This is achieved by the fact that in a concentration table for mineral processing, including a drive, balanced decks arranged diametrically opposite to the drive with devices for receiving separation products, devices for supplying source material and wash water, each deck is made in the form of two-section blades with longitudinal arrays and is coupled to the drive by means of a shaft, and devices for receiving separation products are made in the form of removable shutter boxes.

 The proposed table differs from the known one in that each deck is made in the form of a two-section blade with longitudinal arches and is coupled to the drive via a shaft. This design of the deck and the longitudinal arrangement of the grooves, repeating the shape of the blades, prevents mixing of the separated fractions, ensuring the separation of minerals of similar density and an increase in the degree of extraction of the useful component. In addition, the class of processed material is expanding from 0.04 to 4.0 mm.

 In FIG. 1 shows the proposed table; in FIG. 2 is a view along arrow A in FIG. 1.

 The concentration table contains a pulp supply unit 1, two blades, each consisting of two sections 2 and 3, attached to them cutoff boxes 4 - 6 for collecting separation products, a drive 7, a bed 8, a table 9, a fence 10. The blades are attached diametrically opposite to the vertical shaft 11, which is connected to the DC motor 12.

 The concentration table works as follows.

 The blades using the electric motor 12 tell rotation around a vertical axis with a given number of revolutions, which is selected empirically for each ore separately. The initial product with a stream of water is fed through the feed unit 1 along two branches to the surface of the blades. The separation occurs in two stages: first, when the blades rotate at low speeds, the minerals are separated by size, larger and more mobile are separated and separated by density, cut off into the storage ring, small ones due to greater adhesion to the surface of the blades due to friction remain on their surface and are distributed along the plane in the pulp stream depending on the density due to the addition of two types of motion (translational and rotational). Then, the number of revolutions is increased and the second stage of density separation takes place within the classes of the fine fraction, the particles of which, due to the creation of the total effect of centrifugal and gravitational forces on them during rotation of the blades, are distributed on the plane of the blades in the pulp stream depending on their density and are cut fractionally into boxes - cut-offs 4 and 5. Flutes prevent mixing of the separated fractions.

 To confirm the effectiveness of the proposed table, laboratory tests were conducted to enrich various ores - polymetallic, barite and manganese. The table shows the test results. Example 5 provides reference data for the extraction of a useful component for existing plants used in the processing of fine-grained and sludge ores.

 As can be seen from the table, as a result of using the proposed table, 76-87% recovery of the useful component is achieved, which is 10-20% more compared to the plants used in the processing of fine-grained and sludge ores. The samples are divided into several fractions, and the claimed device allows you to separate minerals of similar density, such as quartz and muscovite in polymetallic ores, celestine and barite in barite-carbonate ores, etc.

 Thus, the invention improves the efficiency of separation of minerals of similar density and increases the degree of extraction of the useful component by 10-20% with an increase in the specific productivity of the installation from 1.6 to 2.8 times depending on the type of ore being processed. (56) Laboratory concentration table, SKL-2. Technical description and instruction manual. Experienced plant "Geopribor", 1986.

 USSR author's certificate N 1577834, cl. B 03 B 5/04, 1990.

Claims (1)

 CONCENTRATION TABLE including a drive, balanced decks arranged diametrically opposite to the drive with devices for receiving separation products, devices for supplying source material and flushing water, characterized in that each deck is made in the form of two-section vanes with longitudinal arteries and is coupled to the drive by means of a shaft, and devices for receiving separation products are made in the form of removable shutter boxes.

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