RU2207909C1 - Spiral classifier - Google Patents

Abstract

FIELD: classification of materials; concentration of minerals. SUBSTANCE: proposed spiral classifier includes receiving unit made in form of inclined chute with gap screen in bottom portion and funnel with tube for evacuation of the minus material; housing is made in form of inclined trough with overflow lip; housing is provided with sand transportation unit; receiving unit is connected with unloading neck of mill and classifier trough. EFFECT: increased extraction of tantalum. 2 dwg, 1 tbl

Description

 The invention relates to the classification of materials and can be used in mineral processing.

 The spiral classifier is known and has wide application, which is an inclined trough with a drain threshold and a spiral rotating inside for transporting sand (USSR Author's Certificate N 1102627, class B 03 B 5/52, 1982). The process of hydraulic classification in a spiral classifier is based on the phenomenon of equidistant mineral grains in a liquid (Stokes law).

 A disadvantage of the conventional spiral classifier is that when classifying pulp consisting of particles of minerals of various specific densities, for example, columbite, tantalite and grains of quartz, in the discharge of the classifier, the content of a valuable component in thin classes increases with decreasing particle size.

 In the spiral classifier, due to the effect of equidistribution, the revealed particles of heavy (valuable) minerals of the required size, in contrast to the quartz grains, are deposited on the bottom of the classifier trough, returned to the mill with sands and subjected to regrinding (sludging), which ultimately leads to a decrease in extraction under gravity enrichment.

 It is also known a device (RU 5934 U1, B 03 B 5/68, 02.16.1998), made in the form of a pipe with a tongue-and-groove grate installed in the bottom and a funnel in the form of an inverted beveled pyramid with a pipe for removing heavy minerals that have fallen into the underlayer product. This device is made in the form of a closed pipe, which does not exclude the possibility of its overflow at peak loads, in addition, it does not allow to visually control the operation process and, if necessary, clean the surface of the splint grid.

 As a prototype, a mechanical spiral classifier is proposed (RF Patent 2021027 C1, B 03 B 5/52, 10/15/1994.), Including a receiving device with a grate in the bottom for removal of the heavy fraction, a body in the form of an inclined trough with a drain threshold and located in housing device for transporting sand.

 The disadvantage of this classifier is the imperfect design of the gate and the outlet with the bottom valve, leading to uneven output of the product and clogging of the outlet when the apparatus stops working.

 The technical result of the proposed classifier is to increase the extraction of tantalum by reducing the overgrinding (slamming) of large open grains of a valuable mineral with their subsequent extraction during gravitational enrichment. In addition, the proposed design of the classifier ensures its reliable operation after stops.

 The proposed spiral classifier includes a receiving device with a grate in the bottom, a body in the form of an inclined trough with a drain threshold and a device for transporting sand. The receiving device is made in the form of an inclined gutter with a grating in the bottom, made of spalt, and equipped with a funnel with a pipe for removing the under-sieve product from the classifier mill cycle. The receiving device is connected to the discharge neck of the mill and the trough of the classifier.

 The invention is illustrated in FIG. 1 and 2.

 The mechanical classifier consists of an inclined trough 1, a rotating spiral 2, a drain threshold 3, a receiving device 4 with a groove grid 5 and a funnel 6.

 The work of the mechanical classifier is as follows. The initial pulp (discharge of the mill) through the receiving device 4 by gravity enters the trough of classifier 1, where the hydraulic classification by equidistance occurs. Classifier’s conditional discharge of classifier, flowing through drain threshold 3, enters gravitational enrichment. In the receiving device 4 of the proposed classifier is the separation of the pulp particles in density. In this case, particles of heavy minerals, which, if they get into the trough of classifier 1, due to their increased density, would not be able to get into the drain and would be returned to the mill with sands, where they would be regrind, enter the funnel 6 through the openings of the spalt grate 5, cycle "mill-classifier" and together with the discharge of the classifier go to gravity enrichment.

 Tests carried out at the Etykinsk enrichment plant of ZabGOK OJSC established that when the spiral classifier of the proposed design is in operation, material that is more granular and enriched in tantalum content gets into the sublattice product of the splint grating of the receiving device than into the discharge of the classifier. At the same time, the grinding of the crushed product is reduced - the yield of thin classes of fineness in the discharge of the proposed classifier is less than in the discharge of the prototype classifier, and the content of tantalum in large classes is higher (see table). As a result, the “opened” particles of heavy minerals are removed with the sublattice product of the splitting grate from the classifier-mill cycle and, together with the discharge of the classifier, are sent to gravity enrichment.

 The table shows a comparison of the particle size distribution of the crushed product (classifier drain) obtained on the prototype classifiers, and the proposed design with the distribution of tantalum by size class.

 As follows from the table, the distribution of tantalum by size classes in the plum of the classifier of the proposed design is more uniform, which indicates a decrease in the sludging of valuable minerals.

 The proposed classifier allows you to get a more “granular”, less slurry discharge, the gravitational enrichment of which is more effective - the extraction of tantalum in the rough concentrate increased by 4.7% relative.

Claims (1)

 A spiral classifier, including a receiving device with a grate in the bottom, a case in the form of an inclined trough with a drain threshold and a device for transporting sand located in the case, characterized in that the receiving device is made in the form of an inclined gutter, and the grate in its bottom part is made of shalt, and equipped with a funnel with a pipe for removing the under-sieve product, while the receiving device is connected to the discharge neck of the mill and the trough of the classifier.

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