RU2183999C2 - Screen-concentrator - Google Patents

Abstract

FIELD: concentration of minerals; gravity concentration apparatus; extraction of diamonds from diamond-containing materials. SUBSTANCE: screen-concentrator includes box mounted on bearing frame and secured by means of shock absorbers having sieving surface; unloading side of this surface is provided with concentrating member made in form of finned coat with transversal fins; it is wear- resistant and is provided with at least one longitudinal groove whose interior is conjugated at low level with inter-fin recesses by means of lateral holes; groove and section of recesses are shielded at the top by longitudinal gable shiel; intake chute is fitted at outlet end of longitudinal groove; fins have slope towards longitudinal groove and are inclined to loading side; apparatus is provided with vibration exciter. EFFECT: enhanced efficiency of classification. 2 cl, 2 dwg

Description

 The invention relates to the field of mineral processing, and in particular to apparatus for gravity processing, and can be used to extract diamonds from diamond-containing materials.

 Known vibration concentrator, including a frame, a concentration element, springs, vibrator, thresholds, gratings, pockets with holes for the output of gravity concentrate (see Klebanov OB and other Handbook technologist for the enrichment of non-ferrous metal ores, M., Nedra, 1974 , p.203, 204).

 The disadvantage of the vibration concentrator is the lack of structural elements in it, which allow concentrating and removing mineral grains of increased density evenly over its entire working area, and not only discretely through pockets with holes.

 The closest analogue is a screening hub, including a box mounted on a support frame with a sowing surface, on the discharge side of which there is a concentration element in the form of a ribbed coating with transverse ribs, a vibration exciter (see RU 2138337 C1, 09.27.1999, B 03 V 5 / 72).

 The disadvantage of this device is the lack of the necessary structural elements in it, which allow continuous concentration and removal of high-density mineral grains into a separate product.

 The aim of the invention is to increase the efficiency of classification and gravitational enrichment of minerals by improving the conditions for the separation of mineral mixtures and continuous vibrodynamic removal of fractions of high density in a separate product.

 This goal is achieved by the fact that in the screening hub, including a box mounted on a support frame with a sowing surface, on the discharge side of which there is a concentration element in the form of a ribbed coating with transverse ribs, the exciter is mounted, the box is fixed by means of shock absorbers, the ribbed coating is wear-resistant and has, at least one longitudinal groove, the inner cavity of which at the lower level is interfaced with intercostal cavities through lateral openings, moreover, the groove and The webs of depressions at the interface are shielded from above by a longitudinal gable screen, a receiving estrus is installed at the output end of the longitudinal groove, and the ribs have a slope in the direction of the longitudinal groove and are inclined towards the loading side. Intercostal cavities are made with perforation.

 During vibrations of a layer of diamond-containing material, diamond crystals having a high density and at the same time a significantly lower coefficient of friction with respect to gangue minerals tend to occupy the lowest level in this layer. Such vibration conditions of the material layer are created in screening operations. Therefore, it is advisable to additionally create conditions for the concentration and output of diamonds into a separate product on the sowing surface of the vibrating screen. This can be achieved if structural elements are introduced on the sowing surface of the screen that will provide such conditions. In particular, a rationally sowing surface from the discharge discharge side of the screen is partially performed with a concentration element made in the form of a wear-resistant ribbed coating with transverse ribs having at least one longitudinal groove shielded from above and from the loading side, the inner cavity of which at the lower level is conjugated with intercostal hollows through the side openings. The conjugation of the longitudinal groove with intercostal cavities, including their end sections, it is advisable to screen from above the same longitudinal screen as the longitudinal groove. The screen is expediently made gable with a ridge extending along the axis of the longitudinal groove. For the transverse ribs of the wear-resistant coating, it is advisable to create a slope in the direction of the longitudinal groove, and also tilt them to the loading side. At the output end of the longitudinal groove, it is advisable to install a intake chute.

 The above concentration conditions are acceptable not only in relation to diamond-containing materials, but also to many other types of mineral raw materials. Especially when the grain density of the useful component is much higher than the density of the grains of waste rock, for example, in the enrichment of gold-bearing ores and sands, in the enrichment of rare-metal raw materials, tin ores and many other types of raw materials.

 The invention is illustrated in the drawing, where Fig. 1 shows a general view of a screening hub, and Fig. 2 is a top view of a screening hub with a showing of its working ribbed coating.

 The screening hub includes a box 1 with a sowing surface 2, movably fixed by means of shock absorbers 3 on a supporting frame 4 and designed to create the necessary vibrations of the working body, namely, box L1 with a sowing surface 2 and vibration exciter 5. In order to increase the efficiency of classification and gravitational enrichment of the processed material, the sowing surface 2 from the discharge discharge side of the screen is partially replaced by a concentration element 6, made in the form of a wear-resistant ribbed coating 7 with a transverse 8 ribs having a longitudinal groove 9, a longitudinal top shielded screen 10, and with the feed end - a protective casing 11. Depending on the sowing area surface 2 and the width of the screening of the longitudinal grooves 9 ribbed coating 7 can be more. The inner cavity of the longitudinal groove 9 at the lower level is interfaced with the intercostal cavities 12 by means of side holes 13. The joints of the longitudinal groove 9 with the intercostal cavities 12, including their end sections, are shielded from above by the same longitudinal screen 10 as the longitudinal groove 9. For better removing finely grained fractions from the oversize product, the intercostal cavities 12 can be perforated. To return the material located during the operation of the screen on the surface of the longitudinal screen 10 to the working area of the concentration element 6, the longitudinal screen 10 is gable with a ridge 14 extending along the axis of the longitudinal groove 9. To improve the transportation of high-density mineral grains to the longitudinal groove 9, transverse ribs 8 wear-resistant ribbed cover 7 have a slope in the direction of the longitudinal groove 9, and for better retention of these mineral grains in the intercostal depressions 12, the transverse ribs 8 are inclined to the loading side screen Hub. At the output end of the longitudinal groove 9, a receiving chute 15 is mounted on the support frame 4 and is designed to remove high-density fractions from the apparatus into a separate product.

 The roar hub works as follows.

 The pulp or dehydrated material containing solid particles of various sizes and densities is fed to the sowing surface 2 of the working screen concentrator, moving along which the material is distributed evenly over the entire width due to screen and screen vibrations and fine particles are screened out from it. The material on the sieve can be irrigated with water for better sieving. Next, the vibrating layer of material enters the concentration element 6, where it is separated by density. Heavier mineral grains occupy the lowest position in the vibrating layer and along the intercostal cavities 12, sliding along the ribs 8, move to the longitudinal groove 9, enter it through the side holes 13 and then through the groove 9 due to the vibrations of the concentration element 6 are directed to the intake chute 15. The movement of heavy mineral grains to the longitudinal groove 9 is facilitated by the slope of the transverse ribs 8 towards the groove 9, and their retention in the intercostal cavities 12 is facilitated by the inclination of the ribs 8 to the loading side of the screening hub. The perforation of the intercostal cavities 12 contributes to the additional removal of fine fractions from the oversize product. The longitudinal screen 10 and the protective casing 11 protect the concentrate from being diluted with mineral grains of gangue, which is also ensured because the longitudinal screen 10 overlaps not only the longitudinal groove 9, but also the mouths and the end sections of the intercostal cavities 12. And since the screen 10 is made gable, mineral grains do not linger on its surface, but immediately return to the working area of the concentration element 6.

 The concentration process is adjusted and regulated by changing the frequency and amplitude of vibration of the duct L1 with the sowing surface 2 and the concentration element 6, changing the size, number and inclination angles of the transverse ribs 8, the number and depth of the longitudinal groove 9 and intercostal cavities 12, the size and number of perforations in intercostal cavities 12, the width and angle of the slope of the longitudinal screen 10, the technological load of the enriched material, as well as the amount of water supplied for irrigation.

 Concentration elements 6 can be installed both on single- and double-screen screens, and on multi-screen. For each concentrate product, a separate intake chute 15 can be installed.

 Thus, the proposed technical solution in comparison with the prototype will allow, due to improved conditions for the separation of mineral mixtures and continuous vibrodynamic removal of fractions of high density in a separate product, to increase the efficiency of classification and gravitational enrichment of minerals.

Claims (2)

 1. A rumble concentrator, including a box mounted on a support frame with a sowing surface, on the discharge side of which there is a concentration element in the form of a ribbed coating with transverse ribs, a vibration exciter, characterized in that the box is fixed by means of shock absorbers, the ribbed coating is wear-resistant and has, according to at least one longitudinal groove, the inner cavity of which at the lower level is interfaced with intercostal depressions by means of side holes, the groove and sections of depressions in place with the strains are shielded from above by a longitudinal gable screen, a receiving heat is installed at the output end of the longitudinal groove, and the ribs have a slope in the direction of the longitudinal groove and are inclined to the loading side.  2. The rumble concentrator according to claim 1, characterized in that the intercostal cavities are made with perforation.

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