RU2127634C1 - Trap "oleta" for fine fractions of minerals - Google Patents

Abstract

FIELD: concentration of placer and ore gold, silver, platinum and other minerals of platinum group. SUBSTANCE: trap has a body, screen, vibration drive, screw actuator of the vibration drive with a member transporting the concentrate. The trap is furnished with a helical distributor installed under the screen in such a manner that the ascending part of the helical distributor is shifted relative to the original edge of the screw actuator from the top, and the descending part of the helical distributor is shifted under the original edge of the screw actuator, which is furnished with a flexible flap and vertically matched with the member transporting the concentrate. The screen is fixed between two sections of the sluice box. EFFECT: enhanced efficiency of concentration by gravitation in primary stages of treatment, reduced loss of gold of grain size within 1.2 to 0.5 mm in sluice boxes of deep filling by 10%, and grain size of 0.2 mm in sluice boxes of shallow filling within 40 to 10%. 4 dwg

Description

 The invention relates to the field of enrichment of placer and ore gold, silver, platinum and other platinum group minerals.

 With gravitational enrichment under conditions of a decrease in the average content of a valuable component by 2–3 times, average size by 2.5–3 times in industrially developed zones, now, in comparison with 1980, the need arose to use additional installations at locks, in between sections .

 Known spiral separators brand "MDL-REICHERT [1] performing the separation into fractions due to 1-2-3-row screw surfaces mounted vertically without rotation around the axis.

 This design does not allow to use it quite effectively on poor placers and ores, in the primary stages of enrichment.

 Known jigging machines of various types manufactured by AOOT "Trud", Novosibirsk, Models "Trud-3", "Trud-6PR", "Trud-12", Jigging machines Goldfield Duplex, OMT and other piston-type and diaphragm [2] .

 These designs are bulky type with a complicated design of transmission systems that create oscillatory movements using a piston or diaphragm.

 The closest in technical function and the achieved result is a non-reciprocating jigging machine, comprising a housing, a sieve, an under-sieve and over-sieve compartments for jigging and separation, a drive of pulsating vibrations of the medium and a transport mechanism, actuators of the drive of pulsating vibrations of the medium are made in the form of screws installed in the under-sieve and over-sieve compartments with the possibility of alternating rotation clockwise and counterclockwise, while the V-shaped slit-like sieve is installed with a gap relative to lateral surfaces of the casing and a slope in the direction of the longitudinal axis from the outlet side of the enriched fraction of the oversize compartment and is equipped with a visor located on the unloading side of the waste rock and installed with an angle less than the sieve, and the front wall of the casing above the sieve from the unloading side of the enriched fraction is made with ribs and installed at an obtuse angle to the sieve [3]. The disadvantage of the prototype is the low efficiency of the extraction of small fractions of a valuable component.

 The aim of the invention is to increase the efficiency of enrichment in the process of gravity in the primary stages of processing, creating the ability to preserve mineral resources, improve environmental safety and efficient extraction of valuable components.

 This goal is achieved in that the trap for small fractions of minerals, including a housing, sieve, vibration drive, screw actuator of the vibration drive with the concentrate conveying organ, is equipped with a screw-shaped distributor installed coaxially with the screw executive body of the vibration drive under the sieve so that the ascending part of the screw-like the distributor is offset relative to the starting edge of the screw actuator from above, and the downstream part of the screw-shaped distributor is offset battening edge of the screw drive actuator body oscillations, the screw actuator body vibrations and is provided with a flexible flap is formed vertically aligned with the conveying concentrate body and aligned with the sieve bottoms formed sections gateway and fixedly provided with slits.

 The inventive trap constructively and technologically allows you to create, with the help of the initial edge of the helical executive body, a counter-upward flow to the main flow moving along the left part of the sieve (Fig. 4.1). Particles of waste rock and low density are directed upwards, and heavy particles fall down, penetrate through the slots on the organ transporting the concentrate down. The screw-shaped distributor prevents the penetration of excess waste rock onto a more distant part of the organ transporting the concentrate, with which it would be difficult to direct it again to the sieve (Fig. 4, I, II, III, IV). The screw-shaped distributor picks up the next portion of particles, directing light particles of waste rock to the right side of the sieve (see Fig. 4, phase III, IV), and heavy particles moving downward fall onto the transporting organ.

 The drawings show a trap for small fractions of minerals "OLETA".

 In FIG. 1 is a general view of a trap installation between gateway sections; in FIG. 2 is a section AA in FIG. 1; FIG. 3 is a view B of FIG. 1, a top view of a sieve; in FIG. 4 is a diagram of the phase displacement of the initial edge of the screw actuator.

 The trap for small fractions of minerals "OLETA" consists of a building 1, installed between sections 2,3 locks. Sieve 4 is installed and fixed in the grooves of the bottom of the 5 sections of the gateways 2,3 motionless. The axis 6 is fixed in the support 7 of the sieve 4 vertically. The screw actuator 8 of the oscillation drive 9 (creating a pulsation of the medium) is mounted on the axis 6 and combined with the organ 10 transporting the concentrate. Under the sieve 4, a screw-shaped distributor 11 is mounted on the axis 6 so that the ascending part 12 of the screw-shaped distributor is offset relative to the starting edge 13 of the screw actuator 8 from above, and the downward part 14 of the screw-shaped distributor 11 is displaced under the initial edge 13 of the screw actuator 8. A flexible sash 15 is installed on the initial edge 13, forming Periodically, the gap 16 with the downward part 14 of the screw distributor 11.

 The sieve 4 is made with slots 17 (for deep filling locks) and with round holes (for small filling locks).

 The operation of the trap for small fractions "OLET" is as follows.

 Sieve 4 is installed in the grooves of the bottom 5 at an angle corresponding to the slope of the sections 2,3 gateways. Case 1 is installed perpendicular to the horizontal soil level. When the gravitational flow of the enriched source material passes through the gateway section 2 and enters the sieve 4, the oscillation drive 9 is turned on, which transmits variable speed rotation to the screw actuator 8 through the axis 6, fixed in the support 7. The starting edge 13 of the screw actuator 8 starts pumping flow from the upper left quarter of the sieve 4, Fig.4. I, lifting and weighing in the water stream dense particles of various sizes, which contributes to the segregation and gravitational separation of the medium. Moving counterclockwise, the initial edge 13, raised up, acts on the lower left quarter of the under-sieve water, FIG. 4. II, which rises through the slots 17 and enters the oversize part of the trap, a splash occurs, water rises, as during deposition, small particles of heavy elements enter the moving surface of the screw actuator 8, which performs the functions of pulsation and transportation of deposited heavy small particles. At the moment when the starting edge 13 of the screw actuator 8 has passed one quarter, FIG. 4. I, the ascending part 12 of the screw distributor 11 enters the zone passed by the screw actuator 8, cutting off the penetration of a large mass of small light particles through the slots 17 onto the screw actuator 8. On the screw surface of the screw distributor 11, the penetrating part of the heavy particles as it rotates moves to the descending part 14, and then to the more distant part of the organ transporting the concentrate 10 through the gap 16 formed by the flexible sash 15.

 Moving further, the initial edge 13 acts on the lower right quarter of the under-sieve flow, FIG. 4. III. Particles of solids of different densities and sizes of this sieve zone 4 are weighed. Light and less dense particles from the screw actuator penetrate the oversize part, and heavy particles move down the screw actuator 8, which passes into the organ 10 transporting the concentrate.

 Flexible sash 15 prevents the penetration of small light particles on the screw actuator 8.

 The deposition cycle ends when the initial edge 13 of the screw actuator 8 moves to the upper right zone of the sieve 4, the waste material is ejected into the oversize space, FIG. 4, IV.

 The trap will reduce the loss of gold with a fineness of 1.2 - 0.5 mm at deep filling gateways by 10%, and with a fineness of 0.5 - 0.2 to 50%. On fine-filling gateways, losses of gold fineness - 0.2 will decrease from 40% to 10%.

The trap solves a complex environmental problem, since together with a valuable component, particles of minerals containing thorium and uranium are deposited. For example, in monazite contains from 5% to 30% ThO ₂ , in zircon - up to 1% of uranium and thorium.

Sources of information
1. Prospect "Spiral separators of the MDL-REICHERT brand".

 2. Handbook of ore dressing. Basic Processes, ed. O.S. Bogdanova, Moscow "Nedra", 1983, p. 53-70.

 3. RF patent N 2047375, 10.11.95.

Claims (1)

 Trap for small fractions of minerals, including a housing, a sieve, an oscillation drive, a screw actuator of an oscillation drive with a concentrate conveying organ, characterized in that it is provided with a screw-shaped distributor mounted coaxially with the screw actuator of the vibration drive under the sieve so that the ascending part of the screw-shaped distributor is displaced relative to the starting edge of the screw actuator from above, and the descending part of the helical distributor is displaced under the starting edge a screw executive body of the drive of oscillations, while the screw executive body of the drive of vibrations is equipped with a flexible sash and is made vertically aligned with the body transporting the concentrate, and the sieve is made fixed with the bottom of the gateway motionless, and with slots.

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