RU2059447C1 - Centrifugal separator for separation of large-grain suspensions by density - Google Patents

Abstract

FIELD: equipment for separation of large-grain suspensions used to enrich gold-bearing sands during development of loosen gold deposits. SUBSTANCE: centrifugal separator for large-grain suspensions separation by density has on shaft mounted bowl provided with drive of rotation, loading branch pipe and ring-type chute. Drive of rotation is made of curvilinear blades rigidly fixed to outer surface of bowl to form ring and at least of two water barrels mounted diametrically opposite to the ring. EFFECT: increased quality of benefication. 2 dwg

Description

 The invention relates to equipment for density separation of coarse suspensions and can be used to enrich gold-containing sands in the development of placer gold deposits.

 Known centrifugal separator for separating the density of coarse suspensions, namely gold placers, including mounted on the shaft of the bowl, equipped with an electric drive of rotation, a loading pipe and an annular drain chute; the initial suspension of gold-containing sands and water is fed into the rotating bowl through a coaxially installed loading pipe that does not reach the bottom of the bowl and, under the influence of centrifugal force, is drawn into the rotational movement, forming a spiral flow on the side surface of the bowl, going from the bottom up.

 As the pulp stream moves up the inner surface of the bowl, the gold-containing sands are separated by density. At the same time, the waste rock particles are carried away by the stream of water and, overflowing over the side of the bowl, are discharged from the separator along the annular groove, and gold concentrates are deposited from the stream onto the collecting surface of the bowl and are periodically unloaded as they accumulate in the riffles.

 In the known separator, the enrichment bowl is rotationally driven by an electric drive that receives energy during the development of gold deposits, for example, from a mobile diesel power station.

 The disadvantages of the centrifuge include the fact that to ensure the separation of gold sludge and waste rock, a significant part of the electricity generated by the electric current generator of a diesel power plant is expended, which, in turn, reduces the proportion of electricity supplied to wash the placer with water through hydromonitors and to enrich the resulting pulp in hydraulic locks of the processing plant and, as a result, leads to an increase in fuel consumption for electricity generation by a diesel power station.

 The technical result achieved by the invention is to increase the efficiency of the development of gold placer deposits by reducing energy consumption for the separation of gold concentrates and waste rock in the aquatic environment by increasing the torque of the separator bowl and driving it into rotational motion with process water, separated from its flow supplied for scattering of placers.

 The specified technical result is achieved by the fact that in the proposed centrifugal separator for separating the density of coarse suspensions, mainly gold placers, containing a bowl mounted on the shaft, equipped with a rotation drive, a loading nozzle, and an annular drain trough, according to the invention, the rotation drive consists of curved blades, rigidly attached to the outer surface of the bowl with the formation of a ring, and at least two water trunks installed diametrically and opposite to the relative But this ring.

 In FIG. 1 shows the proposed centrifugal separator in longitudinal section; in FIG. 2 is a top view of FIG. 1.

 The centrifugal separator contains an enrichment bowl 1 mounted on the shaft 2 rotatably around a vertical axis, a loading nozzle 3 placed along the axis of the bowl, an annular drain trough 4 and a bowl rotation drive in the form of a ring 5 of curved blades 6, rigidly fixed to the outer surface of the bowl 1, and at least two water shafts 7 installed diametrically opposite to the ring 5. At the bottom of the bowl 1 behind the projection of the loading pipe 3 to accelerate the involvement of the initial separator suspension in the rotator th movement radially fins 8 are fixed.

 Centrifugal separator operates as follows.

 From the water trunks 7, the process water, separated from its flow pumped by the pump to wash the placer with a hydraulic monitor (not shown), is supplied tangentially to the curved blades 6 of the ring 5. The torque arising from the blades of the ring 5 affects the enrichment bowl 1, drawing it into rotational movement around the shaft 2 with a speed proportional to the radius of the ring 5.

 Under the influence of centrifugal acceleration, the pulp supplied to the enrichment bowl 1 through the loading pipe 3 moves upward along the catching surface of the bowl in an upward flow. Moreover, as it moves through the bowl, gold concentrates settle in the flutes of the bowl, and particles of waste rock are carried out by a stream of de-gritted pulp through its board into the annular drain trough 4.

 From the drain chute, the tail pulp, together with the water draining from the blades of the ring 5, is discharged into the dump.

 The removal of gold concentrates from the bowl is carried out periodically.

 Thus, the proposed centrifugal separator for separating the density of coarse suspensions has a hydraulic drive of the separator bowl with the supply of a working agent to its outer surface and thereby reduces the energy cost of extracting gold from sands during the development of gold placers, which in turn increases the development efficiency.

 In addition, the proposed centrifugal separator reduces the consumption of process water for the hydraulic drive of the separator bowl by increasing the torque on the shaft of the bowl, which also helps to reduce operating costs for the development of placers.

Claims (1)

 CENTRIFUGAL SEPARATOR FOR SEPARATION BY DENSITY OF LARGE-GRAIN SUSPENSIONS, mainly gold placers, containing a bowl mounted on the shaft, equipped with a rotation drive, a loading nozzle and an annular drain trough, characterized in that the rotation drive consists of curved blades rigidly attached to the ring surface , and at least two water trunks installed diametrically opposite to this ring.

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