RU2149690C1 - Concentration table - Google Patents

Abstract

FIELD: gravity concentration of mineral materials; applicable in recovery of noble metals from materials containing these metals, for instance, from dump gold-containing mixtures. SUBSTANCE: deck units are fastened to table movable frame symmetrically to its vertical axs. Decks are made in the form of closed box with cover having hole for supply of initial material. Deck inside has part of preliminary screening and part of fractions collection attached to which in longitudinal direction is solid partition with height equalling 0.5-0.9 of height deck side members. Deck cross-sectional area from one side of partition is reducing geometrical progression law, and from the other side, deck bottom has row of holes separated from one another by additional partitions. EFFECT: higher productivity of concentration table and efficiency of initial material separation due to possibility of multistage concentration of separation products on one deck by installation of table movable frame executing circular motions. 4 cl, 5 dwg, 1 ex

Description

 The invention relates to the field of gravitational enrichment of mineral raw materials and can be used in the processing industry, in particular, in the extraction of precious metals from materials containing them.

 Known concentration table, including a movable frame and mounted on it with the ability to change the angle of the deck (I.N. Isaev. Concentration tables. M .: 1962 - P.31).

 However, the use of this device does not allow to obtain multifractional separation of the starting material in the dry state or under a layer of non-flowing liquid. The result is a low efficiency separation process. In addition, the complexity of the design and operating conditions of this device lead to rapid wear of individual components and mechanisms of the concentration table and, therefore, to reduce its service life.

 The closest set of essential features is a concentration table, which includes blocks of equal weight mass mounted on a movable frame with the ability to change the angle of inclination, resting on a fixed frame connected to the drive, a device for supplying power decks and receivers of separation products (A.SS.SSSR N 1577834, BI N 26.06.06.90).

 However, on this device it is impossible to carry out multi-stage separation of the starting material into fractions in a dry state or under a layer of a non-flowing liquid with obtaining at the final stage a high percentage of a valuable product and, as a result, low efficiency of the separation process. In addition, the destructive effect of inertial forces on individual nodes and mechanisms of the concentration table leads to a decrease in its service life.

 The main objective of the invention is to create a device that allows to increase its productivity and efficiency of the process of separation of the source material into fractions due to the possibility of multi-stage enrichment of separation products on one deck, as well as to increase the service life of the concentration table by reducing the destructive effect of inertial forces on its components and mechanisms .

 To solve the problem, a concentration table containing blocks of equal mass mounted on a movable frame with the possibility of changing the angle of inclination, resting on a fixed frame connected to the drive, a device for supplying power decks and receivers of separation products, the movable frame being installed with the possibility of circular movements , deck blocks are mounted on it symmetrically with respect to its vertical axis, decks are made in the form of a closed box with a lid and a hole in it for power supply, inside the deck contains a preliminary screening section and a fraction collection section, on which a solid partition 0.5 to 0.9 times the height of the deck sides is rigidly fixed in the longitudinal direction so that the cross-sectional area of the deck on one side of the partition decreases according to the law of geometric progression, and on the other side of the partition, in the bottom of the deck, a series of holes are made, separated from each other by additional partitions.

The combination of these common essential features is complemented, developed and refined by the following partial distinguishing features that are aimed at solving the same problem: the angle between the longitudinal axis of the lower deck and the generatrix of the side walls at the fraction collection site is 0-85 ^o ; in the upper part of the side wall, at the fraction collection site, in front of the additional partitions separating the holes from each other, drain pipes are rigidly fixed: on the lid in the direction of the additional partitions, shearing knives with scarves resting on a solid partition are rigidly fixed in height until they touch them in height.

 In relation to the prototype, the proposed device has the following distinctive features: a movable frame is mounted with the possibility of circular movements, which ensures a constant movement of each particle due to the smoothly decreasing direction of centrifugal force. Addition to the component of the gravitational force creates a trajectory for a particle with greater ductility or smaller size, close to a spiral with a decreasing radius. Thus, an increase in the speed of separation of the starting material into fractions during circular movements with a number of revolutions per minute, several times less than the number of strokes per minute, characteristic of the reciprocating movement of the prototype frame, is achieved. This leads to a significant increase in the productivity and efficiency of the process of separation into fractions of the source material.

 Blocks of decks are mounted on a moving frame symmetrically relative to its vertical axis to reduce the destructive effect of inertial forces and, consequently, increase the service life of individual components and mechanisms of the concentration table. The decks are made in the form of a closed box with a lid and an opening in it for supplying power, inside the deck contains a preliminary screening section and a fraction collection section, on which a solid partition 0.5 - 0.9 from the height of the sides is rigidly fixed in the longitudinal direction, thus that the cross-sectional area of the deck on one side of the partition decreases according to the law of geometric progression, which provides constant lateral support of the material to be separated and pouring of the upper light fraction through the partition. The height of the solid partition is determined taking into account the required number of fractions that must be selected from the source material, as well as the size of the maximum fraction. However, the use of a deck with a solid partition, the height of which is less than 0.5 of the height of the sides, leads to a significant reduction in the percentage of valuable product at the final stage of separation. An increase in the height of the continuous partition of more than 0.9 from the height of the sides creates an obstacle to the free pouring of the upper fraction at various stages of separation. On the other side of the partition, in the bottom of the deck, a series of holes are made, separated from each other by additional partitions to remove the corresponding fraction from the deck. On top of the deck there is a lid with holes for feeding the shared material. The lid is necessary to create the upper backwater of the material to be shared.

The angle between the longitudinal axis and the generatrix of the side walls at the fraction collection site is 0-85 ^o . In this case, a side support is created from the sides and a continuous partition can be made rectilinear. The increase in the angle of more than 85 ^o leads to the formation of "dead" zones and violate the stability of the separation process.

 In the upper part of the side wall, at the fraction collection site, in front of the additional partitions separating the holes from each other, drain pipes are rigidly fixed, which serve to remove the lightest, pop-up fraction during suspension enrichment, i.e. separation of the source material under a layer of stagnant fluid.

 On the lid, in the direction of the additional partitions, until they touch them in height, shifting knives with scarves resting on a solid partition are rigidly fixed, which allows you to completely remove the upper fraction in the corresponding section.

 The invention is illustrated graphically by materials on which is shown: in FIG. 1 and 2 — concentration table in two projections: in FIG. 3 is a top view of the deck with the cover removed: in FIG. 4 - section along aa; in FIG. 5 is a top view of the deck with the cover removed in the case when the side walls at the fraction collection site form an angle with the longitudinal axis of the deck.

 The concentration table contains a fixed frame 1, mounted on it with the possibility of circular motions, a movable frame 2, on which blocks of deck 3 of equal mass are fixed with the possibility of changing the angle of inclination. Drive 4 is mounted on the fixed frame 1, deck 3 units are equipped with a device for changing the angle of inclination 5, each deck 3 is connected to the sleeves for supplying power 6 and the sleeves for removing separation products 7 in the receivers 8.

 Each deck 3 contains a cover 9 with an opening for supplying power 10, a preliminary screening section 11 and a fraction collecting section 12, on which a solid partition 13 is rigidly fixed in the longitudinal direction. A number of holes 15 are made in the bottom 14 of deck 3, which are separated by additional partitions 16. In front of the additional partitions 16, drain pipes 17 are fixed. On the lid 9, shifting knives 18 with kerchiefs 19 are fixed.

 During the operation of the concentration table, the raw material in dry form or in the form of pulp is fed along the sleeves to supply power 6 through the hole 10 in the cover 9 of each deck 3 to the preliminary screening section 11.

 The drive 4, mounted on a fixed frame 1 with an eccentricity relative to the axis of the movable frame 2, tells it circular motion. Blocks decks 3 installed by means of a device for changing the angle of inclination 5 at the required angle alpha, receive the same circular motion. Due to this, the source material is divided into fractions and moved along the fraction collection site 12. The upper, lightest (or largest) fraction is poured through a solid partition 13, which provides constant lateral support for the material to be separated. The collection of fractions is carried out through holes 15, made in the bottom 14 of the deck 3. The holes 15 are separated from each other by additional partitions 16, so that there is no mixing of various fractions. The number of holes 15 and additional partitions 16 is determined by the number of fractions that must be selected from the source material. If pulp is used as the starting material, then the floating fraction water is removed through the drain pipes 17. For a clearer separation of the upper fraction from the rest of the material, shift knives 18 with kerchiefs 19 are used. 13.

 Example. A concentration table was made with four blocks of decks, four decks in each block. Each deck had 10 stages of enrichment at the fraction collection site (i.e. 10 holes in the bottom of the deck) with a reduction in the volume of the starting material by 20 times at the last hole.

 On the proposed device and the prototype device, enrichment of the waste gold-containing mixture with 0.2% gold content was carried out. On the prototype device, it was not possible to enrich this mixture in dry form or under a layer of stagnant liquid.

 The proposed device, when separated in dry form, made it possible to obtain enriched gold-containing material with 4% gold per enrichment cycle at the final stage of each deck.

 Thus, in comparison with the prototype, the proposed concentration table makes it possible to increase the productivity and efficiency of enrichment of various materials in dry form or under a layer of non-flowing liquid. In addition, the service life of the concentration table is increased by reducing the destructive effect of inertial forces on its components and mechanisms, because with circular movements of the movable frame, the number of revolutions per minute is significantly less than the number of reciprocating motion of the prototype frame.

Claims (4)

 1. Concentration table, including units of equal mass mounted on a movable frame with the possibility of changing the angle of inclination, resting on a fixed frame connected to the drive, a device for supplying to the power decks and receivers of separation products, characterized in that the movable frame is mounted with the possibility of circular movements, the deck blocks are mounted on it symmetrically with respect to its vertical axis, the decks are made in the form of a closed box with a lid and a hole in it for power supply, inside the deck contains a pre-section solid sieving and fraction collection site, on which a solid partition 0.5 to 0.9 times the height of the deck sides is rigidly fixed in the longitudinal direction so that the cross-sectional area of the deck on one side of the partition decreases according to the law of geometric progression, and on the other hand partitions in the bottom of the deck is made a series of holes separated from each other by additional partitions. 2. The device according to claim 1, characterized in that the angle between the longitudinal axis of the deck and the generatrix of the side walls at the fraction collection site is 0 - 85 ^o .  3. The device according to claim 1 or 2, characterized in that in the upper part of the side wall, in the fraction collection section, in front of additional partitions separating the holes from each other, drain pipes are rigidly fixed.  4. The device according to any one of paragraphs.1 to 3, characterized in that on the lid in the direction of the additional partitions until contact with them in height shift knives are rigidly fixed with scarves resting on a solid partition.

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