RU2104791C1 - Device for gravity separation of fine-grained materials - Google Patents

Abstract

FIELD: devices for gravity concentration of ground mineral raw materials; may be used in concentration of ores or noble, rare and nonferrous metals. SUBSTANCE: device includes conical bowl installed for rotation round vertical axis and having circular grooves on internal surface and false bottom, and appliance for supply into bowl of treated materials. Appliance for supply of water for loosening up of material is made in the form of perforated tubes from elastoplastic located in recesses between grooves. Appliance for unloading of light fraction is made in the form of circular trough. Appliance for unloading of heavy fraction is made in the form of a row of holes in bottom of conical bowl. EFFECT: higher efficiency. 2 dwg, 1 tbl

Description

 The invention relates to the field of ore concentration by gravitational methods, in particular ores of noble, rare and non-ferrous metals.

 There are various devices for gravitational enrichment of materials, such as jigging machines, screw separators, locks, concentration tables. In these devices, the separation of materials is based on the difference in the densities of the minerals contained in the ores. The disadvantage of these designs is the low efficiency when working on fine-grained materials (less than 50 microns), on materials with a high degree of orientation [1].

 The closest known device to the proposed one is a device for the gravitational separation of fine-grained materials, including a conical bowl mounted with the possibility of rotation around a vertical axis with annular ripples on the inner surface and a false bottom, devices for supplying food and loosening water to the bowl, and devices for unloading light and heavy fractions [2].

 The device allows to enrich finely ground materials with high efficiency and a high degree of concentration. However, in this apparatus, the device for supplying loosening water through the holes in the bowl is made in the form of a water cushion around the conical bowl, the holes are easily clogged with solid particles present in the water and due to the "liming" of the hole with salts, which requires water purification, as well as with solid particles of the separated material , which greatly complicates the operation of the separator, especially in the conditions of mining. In addition, the apparatus does not have an automatic unloading system for heavy fractions and power supply, which reduces the performance of the apparatus.

 The inventive device eliminates the clogging of holes through which loosening and flushing water is supplied into the grooves of the arrays, introduce water evenly over the entire circumference of the arrays, and thereby increase the efficiency of separation of the polymineral mixture, and also increase the productivity of the apparatus due to the automated discharge of the heavy fraction and power supply.

 The specified technical result is achieved by the fact that in the known device for gravitational separation of fine-grained materials, including a conical bowl mounted with the possibility of rotation around a vertical axis with ring rafts on the inner surface and a false bottom, devices for feeding into the food bowl and loosening water, devices for unloading light and heavy fractions, according to the claimed solution, the device for supplying loosening water is made in the form of perforated tubes made of elastic materials placed in the grooves between the rafts, and the device for unloading the heavy fraction is made in the form of a series of holes in the bottom of the conical bowl.

 The essence of the invention lies in the fact that the loosening and flushing water is fed into perforated elastic tubes placed in grooves of grooves and rotating together with the bowl, ensures the maintenance of the fluidized bed over the entire surface of the bowl and constantly (throughout the entire time). The heavy fraction is discharged through the false bottom and holes in the bottom of the conical bowl with flushing water when the power supply is cut off and the bowl speed is reduced according to the given mode.

 In FIG. 1 is a general view of the device, FIG. 2 is a view along AA, FIG. 3 is a view along arrow B. It includes a conical bowl (1) with annular flanges (2) on the inner surface, a device for supplying power 93) , an unloading device for unloading a light fraction (4), made in the form of an annular groove, a device for unloading a heavy fraction, made in the form of a false bottom (5) and holes (6) in the bottom of the conical bowl, a valve (7) for supplying power, a device for supplying loosening and flushing water, made in the form of perforated tubes of e astomeres (8) and placed in the grooves between the arrays, a support cup (9) providing rotation of the bowl (1) from the electric motor (10) and supply of loosening and flushing water to the perforated tubes of elastomers (8), an automatic device (11) providing preset operation mode of the electric motor (10) and the power supply valve (7).

 The device operates as follows.

 The material to be enriched containing heavy and light mineral fractions is fed through a loading device (3) into a cone bowl (1) rotating from an electric motor (10). Under the action of centrifugal forces arising from rotation, heavy particles are discarded to the periphery of the bowl, where they are captured by rifles (2). Light particles are carried out by a stream of pulp through the side of the bowl and enter the discharge device for light fraction, made in the form of an annular groove (4). The false bottom (5) during rotation of the bowl prevents the ingress of power into the holes (6) in the bottom of the conical bowl and, accordingly, in the concentrate. The water supplied to the perforated elastic tubes (8) creates a fluidized bed in the grooves of the arrays from the particles trapped in the arrays, which makes it possible to displace light particles with heavier particles, thereby improving the quality of the concentrate. After a predetermined period of time, the automatic device (11) closes the power supply valve (7) and after a certain predetermined time necessary to remove a light fraction from the bowl, the electric motor (10) switches to a predetermined mode. With a decrease in the number of revolutions of the bowl (1) or its complete stop, the accumulated heavy fraction is washed out from the grooves of the annular arches (2) and it is unloaded through the holes (6) in the bottom of the conical bowl. Then the automatic device (11) turns on the engine (10) in the accumulation mode, after a specified time opens the power supply valve (7) and the accumulation cycle is repeated. For the continuity of the process, it is possible to install a number of similarly arranged rotating conical bowls.

 The use of perforated tubes made of elastic materials eliminates the clogging of holes through which loosening water is supplied, more evenly feed water according to the arrivals, and eliminate dead zones that occur in the closest analogue.

 Example. Studies were conducted on a gold-containing finely divided product containing 3.2 g / t of gold. The size of the crushed product 82% CL. - 0.071 mm. The solid content in food is 1: 3.

 As can be seen from the data given in the table, the use of the proposed device can increase gold recovery, compared with the closest analogue, by 3.2% while improving the quality of the concentrate and facilitating the maintenance of the separator.

Claims (1)

 A device for the gravitational separation of fine-grained materials, including a conical bowl mounted with the possibility of rotation around a vertical axis with annular ribs on the inner surface and a false bottom, devices for unloading light and heavy fractions, characterized in that the device for supplying loosening water is made in the form of perforated tubes, made of elastic materials placed in the grooves between the rafts, and the device for unloading the heavy fraction is made in the form of a series of holes TIFA in the bottom of the tapered bowl.

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