RU2104790C1 - Centrifugal separator - Google Patents

Abstract

FIELD: mineral concentration, in particular, equipment for mineral concentration; may be used in concentration of ores and sands containing fine gold at concentrating mills, dredges and washing devices. SUBSTANCE: separator includes rotating cone bowl which consists of external and internal bodies and has cover, devices for loading of material to be concentrated, supply of water and unloading of concentrated products, mechanism for moving in axial direction of internal cone rigidly connected with device for loading of material to be concentrated. Internal cone is made of rigidly interconnected rings and tightly adjoined with its external surface to internal surface of external cone. Water supply device is made in the form of tubes with nozzles and located inside the internal cone along generator and secured in cover. EFFECT: improved design. 1 dwg

Description

 The invention relates to the field of mineral processing, in particular to mineral processing equipment, and can be used for the processing of ores and sands containing fine gold in processing plants, dredges and flushing devices.

 The closest to this technical solution is a centrifugal separator, including a rotating conical bowl, consisting of external and internal cones, annular yarns and narrow annular slots on the internal cone, a supply pipe and a pipe for supplying water, a device for unloading enrichment products, the separator is equipped with a mechanism for movement of the inner cone in the axial (vertical) direction, the inner cone is rigidly connected to the supply pipe, and the pipe for water supply is connected to the inter space and is rigidly installed inside the supply pipe [1].

 The disadvantage of this separator is the low efficiency of the separation of mineral particles by density on the entire capture surface of the inner rotating cone and the low productivity of the apparatus. This is because the water supplied from the inter-cone space for loosening the wall layer of material (mineral particles) formed both on the inner surface of the outer rotating cone and on the entire trapping surface of the inner rotating cone does not provide uniform and intense loosening of the specified layer, which in turn, leads to embossing of the flutes and cracks of the inner cone.

 The objective of the invention is to increase the productivity and efficiency of enrichment by creating effective loosening and preventing pressing.

 This is achieved by the fact that in a centrifugal separator, including a rotating conical bowl, consisting of external and internal cones and equipped with a lid, devices for loading the enriched material, water supply and unloading of enrichment products, a mechanism for axially moving the inner cone, rigidly connected to the device for loading the enrichable material, according to the invention, the inner cone is made of a set of rings rigidly interconnected and its outer surface is tightly attached It extends to the inner surface of the outer cone, the device for supplying water is made in the form of tubes with nozzles, is located inside the inner cone along the generatrix of the conical surface of the cone and is fixed in the lid.

 A comparative analysis of the proposed technical solution with the prototype shows the presence in it of significant features that distinguish it from the prototype, which allows us to conclude that the claimed technical solution meets the criterion of "novelty."

 Due to the fact that the inner cone is made in the form of a set of rings and fits snugly with its outer surface to the inner surface of the outer cone, forming trapping inter-ring gaps, and water for loosening the wall layer of material is supplied from the inside of the inner cone evenly into each inter-ring gap, as it is supplied from the tubes with nozzles located inside the inner cone along the generatrix of the conical surface of the cone, effective loosening is created and the pressing of inter-ring gaps is prevented horov.

 Thus, the set of essential features ensures the implementation of the objectives of the invention, while the possibility of achieving a technical result does not follow from the prior art, which allows us to conclude that the claimed technical solution meets the criterion of "inventive step".

 The device is illustrated in the drawing.

 The centrifugal separator consists of external 1 and internal 2 cones. The outer cone 1 through the pulley 3 is connected to an electric motor. The inner cone 2 with its outer surface fits snugly against the inner surface of the outer cone 1, and its apex is connected to the tip 4, which can be vertically moved into the groove 5 of the pulley 3 and rigidly connected to the device 6 for loading the enrichment material, which has outlet openings 7 in the lower part and associated with the mechanism for moving in the axial direction of the inner cone 2, consisting of a rod 8 and a spring 9. The inner cone 2 is made of a set of rigidly interconnected rings 10, which are The surface of the outer cone 1 forms inter-ring gaps 11. Inside the inner cone 2 along the generatrix of the conical surface of the cone, there are tubes 12 for supplying water, for example, four with nozzles 13 for supplying water to each inter-ring gap 11. With the upper position of the inner cone 2 between the inner the surface of the outer cone 1 and the outer surface of the inner cone 2 and between the bases of the cone, gaps are formed for unloading the concentrate. In the upper part of the separator mounted devices in the form of grooves for the concentrate 14 and the tailings 15. The groove for the tailings 15 is connected to the lid of the separator 16, in which the tubes 12 are installed.

 Centrifugal separator operates as follows.

 Through the pulley 3, the outer 1 and inner 2 of the separator cone are rotated. When the enriched material is fed to the top of the rotating inner cone 2 through the device 6 and the outlet openings 7, it is discarded by the action of centrifugal force to the periphery and moves up and across the rings 10 and the catching inter-ring gaps 11 in which heavy valuable particles are concentrated (heavy fraction).

 Water entering each trapping inter-ring gap 11 through tubes 12 and nozzles 13 contributes to loosening of the material in the trapping inter-ring gaps 11, as a result of which light particles that have fallen into these gaps are carried by a stream of water into the tail groove 15, and small heavy valuable minerals of the material to be enriched penetrate between large particles into the near-wall zone of the outer cone 1 and into the trapping inter-ring gaps 11, from where, as they accumulate, they are discharged into the receiving chute of the concentrate 14. For unloading the concentrate during work melting separator rod 8 is lowered down, compressing spring 9, thus rotating the inner cone 2 is lifted up, whereby between the inner surface of the outer cone 1 and the outer surface of the inner cone 2, and between the bases of the cones are formed gaps through which the concentrate is discharged. Unloading time does not exceed 1-2 s. After unloading, the rod 10 is released, the spring 9 expands and presses the base of the inner cone 2 to the edge of the base of the outer cone 1. The discharge gaps overlap and the process of separation of minerals by density (enrichment process) is resumed.

 The output of the concentrate and its quality is regulated by the flow of loosening water and the frequency of unloading.

 Creating an effective controlled loosening of the wall layer of the material and preventing the pressing of gaps ensures high efficiency of separation of mineral particles by density and increase the productivity of the apparatus.

 The claimed separator is planned for testing and implementation at Aldanzoloto JSC in 1996-97, as well as at Zabaikalsoloto JSC, Lenzoloto and other gold mining enterprises.

Sources of information
1. RF patent N 878339, cl. B 03 B 5/32, 1981.

Claims (1)

 A centrifugal separator, including a conical bowl, consisting of external and internal cones and equipped with a lid, devices for loading enriched material, water supply and unloading of enrichment products, a mechanism for axially moving an inner cone rigidly connected to a device for loading enriched material, characterized in that the inner cone is made of a set of rings rigidly interconnected and its outer surface fits snugly to the inner surface of the outer cone, a device for supplying water is made in the form of tubes with nozzles, is located inside the inner cone along the generatrix of the conical surface of the cone and is fixed in the lid.