RU2103071C1 - Concentration table for gravity concentration - Google Patents

Abstract

FIELD: gravity concentration of mineral raw materials used in mineral concentration, in particular, in recovery of noble metals from noble metal-containing materials. SUBSTANCE: installed on frame for circular movement are two decks. Upper one has device for unloading, while lower deck has solid vertical side members from three sides, and from side of inclination, fraction troughs, where gates are installed. Decks are installed for possible change of an angle of inclination. EFFECT: higher efficiency. 1 dwg, 1 tbl

Description

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

 Known concentration table, including a movable frame mounted with the possibility of reciprocating movement and mounted on it with the ability to change the angle of inclination of the deck [1].

 However, the use of this device does not allow to separate the source material in a dry state or under a layer of stagnant liquid into fractions having several classes of fineness. In addition, the use in the known device of the reciprocating movements of the deck to ensure sufficient separation efficiency requires a large number of strokes per minute (220 - 380). This leads to rapid wear of individual nodes and mechanisms of the concentration table and their frequent failure.

 The closest set of essential features is a three-tier concentration table, including a movable frame and mounted on it with the ability to change the tilt angle of the deck [2].

 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 and, as a result, the low efficiency of the separation process. In addition, the complexity of the design and working conditions of the prototype leads to rapid wear of individual components and mechanisms of the concentration table, which leads to a reduction in their service life.

 The main objective of the invention is the ability to obtain multifractional separation of the starting material in the dry state or under a layer of stagnant liquid and increasing the efficiency of the separation process.

 Another objective of the invention is to simplify the design of the concentration table and increase the life of individual components and mechanisms.

 To do this, the proposed device - a concentration table for gravitational enrichment - contains a frame mounted with the possibility of circular movements, the upper deck with the unloading device and the lower deck, closed on three sides by solid vertical sides, and on the tilt side having fractional gutters, the number of which corresponds to the number separated fractions (2 and whiter), blocked by a valve fixed with the possibility of vertical movement.

 In relation to the prototype, the proposed device has the following distinctive features: the frame is mounted with the possibility of circular motions, which ensures constant movement of each particle due to the smoothly changing direction of centrifugal force; addition to the component of the gravitational force creates a trajectory for a particle with a high density or smaller, close to a spiral with a decreasing radius, which results in an increase in the rate of separation of the source material into fractions during circular movements with a number of revolutions per minute several times less than the number of strokes per minute that is typical for the reciprocating motion of the frame in the prototype. This, in turn, leads to an increase in the service life of individual nodes and mechanisms of the concentration table.

 The upper deck further comprises a device for loading a sieve blocked in the upper part. Here a preliminary screening of a large fraction takes place, for which classification of waste rock is not required, which makes it possible to increase the efficiency of the subsequent separation of the starting material into fractions.

 The lower deck, on three sides closed by continuous vertical sides, on the slope side contains fractional troughs for the constant collection of particles of a certain size, covered by a shutter fixed with the possibility of vertical movement. This is necessary to ensure complete separation of the initial material initially fed to the lower deck. Next, the flap is lifted and the separation process is conducted with free access of particles to the fractional troughs.

 The invention is illustrated in the drawing, which shows a General view of the device.

 The concentration table for gravitational enrichment contains a frame 1, mounted with the possibility of circular movements, mounted on it the upper deck 2 with the moving mechanism 3 and the device for unloading 4, in the upper part covered by a sieve 5, the lower deck 6, mounted on the frame 1 with the possibility of changing the angle tilt α due to the movement mechanism 7, fractional grooves 8, blocked by a shutter 9, mounted with the possibility of vertical movement. The drive 11 is used to transfer circular motions to the frame 1 through the springs 10. The fractional grooves 8 are connected by flexible sleeves 12 to the intermediate tanks 13. During the operation of this device, the source material enters the upper deck 2, where under the action of circular motions transmitted through the frame 1, the largest fraction is preliminarily separated (for example, all particles> 3 mm) and the feed material is fed through a sieve 5 and an unloading device 4 to the lower deck 6, to which circular movements are also transmitted through frame 1. At the initial moment of the separation process, the fractional grooves 8 are closed by the shutter 9. After the installation is set to a steady state, the shutter 9 is opened and the separation process is carried out with a continuous supply of source material, which, being divided into fractions, is continuously poured through the fractional grooves 8 and through the flexible sleeves 12 into the intermediate containers 13, of which are continuously or periodically transported for further processing. Using the movement mechanisms 3 for the upper deck 2 and 7 for the lower deck 6, the necessary inclination angle β, α, which depends on the size of the starting material and its specific gravity, is set.

 Example. On the proposed device and the prototype device, fine gold was extracted from the starting material with a particle size of 0.02-3 mm. The results are shown in the table.

 Thus, on this device, it is possible to carry out effective fractional separation of the starting material both in a dry state and under a layer of a non-flowing liquid.

 In addition, it is possible to carry out the separation of the starting material with particles of the same size by specific gravity, which allows to obtain almost complete extraction, for example, of precious metal particles from dumps or small classes of ore and non-metallic minerals.

 The service life of this device is 1.5 -2 times higher compared to the prototype, due to a significant decrease in the action of inertial forces due to the use of a circular motion drive of the frame with a radius of 3 - 15 mm and a speed of 60 -2 00 rpm (respectively, the prototype - 220-280 moves per minute).

Claims (1)

 A concentration table for gravitational enrichment, including a movable frame, mounted on it with the possibility of changing the angle of inclination of the deck, characterized in that the frame is mounted with the possibility of circular movements, the upper deck further comprises an unloading device, the lower deck is provided with continuous vertical sides on three sides, and on the slope side contains fractional gutters on which the shutter is installed.

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