RU2066565C1 - Centrifugal-vibrating separator - Google Patents

Abstract

FIELD: mineral resources benefication, production of apparatuses for separation of noble metals and other weighty useful component out of sands and concentrates. SUBSTANCE: separator has conical bowl 1, on inner surface of which there is system of ring-type riffles 2 used for trapping and holding heavy useful components, with two enlarged in height rifles 3 and 4. Bowl 1 using conical transmission with vibration exciter 6 is brought into rotation by electric motor 5. Riffle 3, that is protruding behind cone generatrix by value, that by 1.1 - 1.25 times exceeds height of the rest riffles 2 and is located first from bowl bottom, significantly increases loosening of compacted grain mass and facilitates extraction of middle and big classes of рnoble metals. Riffle 4, that is protruding behind cone generatrix by value, that exceeds by 1.35 - 1.45 times height of the rest rifles and that is located at space of 0.52 - 0.62 from bowl bottom. is locally loosening grain mass and facilitates extraction of small and fine classes. EFFECT: increased extraction of noble metals and other heavy useful components from sands and concentrates. 1 dwg

Description

 The invention relates to the field of mineral processing, and more specifically to devices for the separation of precious metals and other heavy useful components from sands and concentrates.

 Known enrichment device, comprising a housing in the form of a conical bowl with arrays, decreasing in height in the direction of movement of the material, made on a multi-winding line with loading and unloading devices, rotation drives with superposition of bigarman oscillations (AS USSR 1304879, class B 03 B 5/32).

 A disadvantage of the known device is the inability to extract medium and large classes of heavy useful components due to the low height of the corrugations, which entails a decrease in performance due to the need to install an additional apparatus for catching unrecovered useful components.

 The closest to the invention in terms of technical essence and the achieved effect is a centrifugal separator for fine-tuning exploration samples, consisting of a conical-shaped bowl mounted on the frame with ring rafts having a variable pitch and a variable depth, and an electric motor rotating the bowl (A.S. USSR 208597, C. B 03 B 3/44).

 The disadvantage of this separator is the reduced degree of extraction due to the demolition of useful components by a steady laminar fluid flow formed by a paraboloid of revolution, because although the riffles have different depths and steps, they are made along the height of the bowl along one generatrix of the cone (along one line). This embodiment of the bowl riffles allows the separator to operate in a narrow region of optimal modes with an increased ratio of T: W (solid to liquid ratio), which in turn reduces productivity and increases losses during malfunctions in the T: G content.

 The goal is to increase the efficiency of the separator.

 This goal is achieved by the fact that in the proposed separator, which includes a conical bowl with ring flutes mounted on the frame, an electric motor and a vibration exciter, the first from the bottom of the flute is made increased in height, with the cone forming over the tops of the flutes, exceeding 1.1-1 , 25 times, and one of the riffles, located at a distance of 0.52-0.62 from the total height of the bowl from the bottom, is also increased in height, with the exit beyond the generatrix of the cone, with an excess of 1.35-1.45 times .

 The invention is illustrated in the drawing, which shows a separator in section.

 The separator includes a conical bowl 1 with a height H, on the inner surface of which a system of ring flutes 2 is made, which serve to capture and hold heavy useful components, with two flutes 3 and 4 increased in height, which serve to disrupt the formed pulp flows, loosening them due to creating local turbulence, which makes it possible to retrieve a part of the useful component and increase the stability of the separator when refining the concentrate, as well as increase the time of the separator before removing the concentrate.

 The separator works as follows.

 The rotation from the electric motor 5 through the kinematic transmission with the vibration exciter 6 is transmitted to the bowl 1. The pulp entering the lower part of the rotating bowl is drawn into the rotation and forms a paraboloid of rotation “a”. Part of it is for some time located in zone "b" of the downward flow and gradually passes into zone "c" and into zone "g", that is, closer to the bottom and side wall of the bowl.

 In zone "b" begins the separation of the granular material in density. As the pulp is drawn into the rotating stream, the stratification intensifies and the bulk of the solid granular material, due to centrifugal force, moves to the periphery, where it is concentrated in a relatively dense mass.

 As the flow moves away from the bottom of the bowl, the axial velocity of the pulp increases with increasing density of the granular mass in contact with the wall of the bowl (corrugations).

 The process of formation of pulp flows, the separation of the granular mass in space and time determines the conditions for the extraction of gold of various sizes. For larger gold grains (for example, +1 mm), which, due to their increased mass, begin to move to the bottom of the bowl from zone "b", a necessary condition for trapping is the degree of loosening of the granular material in the zone of the lower grooves of the bowl. Loosening should be such that large gold can pass through the granular mass and take a "vacant" place in the riffle. For such zolotins (for example 0.15 mm), having a small mass but increased penetrating ability, their shape and, in this regard, the high-speed pulp flow have a significant effect.

 The paraboloid of rotation "a" of the pulp, formed by the bowl with the help of riffles 3 and 4 protruding beyond the generatrix of the cone "d", is divided into two zones "e" and "g". In the zone "e", due to the increased flute 3, there is an improved loosening of the compacted granular mass, a decrease in the flow rate, as well as an increase in the "vacant" places under the flute 3 for gold grains of various sizes.

 Gold, for whatever reason, did not fall into zone “e” or did not linger in it, falls into zone “g”, where an increased flute 4 locally reduces the upward flow velocity and also significantly loosens the pulp, which allows for the recovery of gold left from zone "e".

 This embodiment of the vibration-centrifugal separator allows you to successfully, at a high level (up to 100%), remove precious metals with a wide range of T: W ratios in the pulp, including those with significant density pulps, fine-tune the concentrates, and also significantly increase the amount of the initial material i.e. the time of the separator without removing the concentrate, which significantly increases its efficiency.

Claims (1)

 The centrifugal-vibration separator, including a conical bowl with ring riffles mounted on the frame, an electric motor and a vibration exciter, characterized in that the first one from the bottom of the riffle is 1.1-1.25 times higher than the others and one of the riffles is located at a distance 0.52 0.62 the height of the bowl from its bottom, made a height exceeding the height of the rest by 1.35 1.45 times.