RU2077389C1 - Jigging machine - Google Patents

Abstract

FIELD: mineral concentration. SUBSTANCE: jigging machine has cylindro-conical body with screen, pulsator jig, devices for producing centrifugal field, made in form of cylindrical chambers with feed tangential and draining branch pipes and unloading devices for the oversize and the undersize. Jigging machine is provided with horizontal ring with round holes and an additional device for producing centrifugal field made in form of hollow cylinder installed coaxially with gap above screen in cylindrical part of the body with collector of overflow in its upper part. Upper edges of the body are connected with additional device for producing centrifugal field. The main devices for producing centrifugal field are installed on the horizontal ring for communication through round holes with the body. Drain branch pipes of the main devices for producing centrifugal field are tangentially connected with hollow cylinder. EFFECT: higher efficiency. 1 dwg, 1 tbl

Description

 The invention relates to the enrichment of minerals and can be used in gold mining and other industries betting enrichment of products containing free particles of precious metals.

Known jigging machine, including a round casing with a sieve, a pulsator, unloading devices for sieve and sieve products [1]
The closest technical solution to the claimed is a jigging machine, including a cylindrical-conical body with a sieve, a pulsator, devices for creating a centrifugal field, made in the form of cylindrical chambers with feeding tangential and drain pipes, and unloading devices for over-the-bottom and under-sizing products [2]
The disadvantage of these jigging machines is the low efficiency of enrichment of fine particles of noble metals.

 The present invention is aimed at improving the efficiency of enrichment of fine particles of noble metals.

 To accomplish this task, the jigging machine, including a cylindrical-conical housing with a sieve, a pulsator, a device for creating a centrifugal field, made in the form of cylindrical chambers with feeding tangential and drain pipes, and unloading devices for over-the-wire and under-sizing products, is equipped with a horizontal ring with round holes and an additional device for creating a centrifugal field, which is made in the form of a hollow cylinder mounted coaxially with a gap above sieve in the cylindrical part of the casing with a drain collector in its upper part, the upper edges of the casing are connected to the hollow cylinder by a horizontal ring, the device for creating a centrifugal field is mounted on the horizontal ring with the possibility of communication through round holes with the casing, and the drain pipes of devices for creating a centrifugal field are connected tangentially with a hollow cylinder.

 Installing the hollow cylinder coaxially in the cylindrical part of the housing with a clearance above the sieve and installing a horizontal ring with round holes connecting the upper edges of the housing with the hollow cylinder, installing devices to create a centrifugal field on the horizontal ring with the possibility of communication through round holes with the housing and connecting the drain nozzles of the device to create a centrifugal field tangentially with a hollow cylinder provide separation of the source material in centrifugal size and density, the supply of fractions in different zones of the separation process, increasing the extraction of fine particles of noble metals in the sublattice product.

 The drawing shows a General view of the jigging machine.

 The jigging machine consists of a cylinder-conical housing 1, inside which a sieve 2 is installed. In the center of the housing 1, a receiving funnel 3 of the unloading device 4 for the over-sieve product is installed. An unloading device 5 for the under-sieve product is connected to the bottom of the housing 1. In the conical part of the housing 1, a pulsator is installed 6. In the cylindrical part of the housing 1, a hollow cylinder 7 of smaller diameter with a drain collector 8 is coaxially installed. The upper edge of the housing 1 is connected to the hollow cylinder 7 by a horizontal ring 9 with round holes 10. On the ring 9 there are devices for creating a centrifugal field 11 with tangential supply pipes 12 and vertical drain pipes 13. Devices 11 with lower ends are connected to the holes 10 in the horizontal ring 9, and the drain pipes 13 are connected Nena tangentially to the hollow cylinder 7.

 Jigging machine operates as follows.

 The initial power in the form of pulp is fed through the tangential feed pipes 12 to the device to create a centrifugal field 11.

 Large and heavy particles due to centrifugal force in devices 11 are pressed against the inner walls and descend in a spiral, through holes 10 in the ring 9 fall into the space between the cylindrical part of the housing 1 and the lower part of the cylinder 7, where they settle on the sieve 2 and form a layer of material for depositing, and when the formed layer reaches the lower edge of the cylinder 7, the gap between the cylinder 7 and the sieve 2 is closed, forming a closed space under the ring, thereby eliminating turbulent mixing of the material on the sieve 2.

 Small particles in devices 11 with flows of the liquid phase form a drain, rise upward, through the drain pipes 13 are directed tangentially into the hollow cylinder 7, where due to the centrifugal force during the rotational movement of the flows, solid particles are divided into fractions. Heavier fractions, including particles of precious metals move to the inner surface of the hollow cylinder 7 and spiral down to the sieve 2.

 The lighter fractions with the liquid phase rise upward inside the cylinder 7 and by gravity go to the discharge tank 8.

 When you turn on the pulsator 8, the material that has fallen onto the sieve 2 is separated by the deposit method. The material settled on the sieve 2 during pulsations passes from the space between the cylindrical part of the housing 1 and the lower part of the cylinder 7 under its edge into the inner space of the cylinder 7, where it moves along the surface of the sieve 2 to the center of the housing 1. Heavy particles of precious metals pass through the settled material and the sieve 2 are lowered down in the conical part of the housing 1 and unloaded with the help of the device 5 into the concentrate.

 The rocks on the sieve 2 move towards the center of the housing 1 and are removed through the receiving funnel 3 of the device 4 into the tails.

 The presence of a hollow cylinder 7 and a horizontal ring 9, installed in accordance with the claimed solution, allows the devices 11 to capture large and finely divided particles of precious metals and send them to the material layer on the sieve 2, to capture the particles of precious metals that have gone through the drain pipes 13 inside the cylinder 7 and send them to the material layer on sieve 2, thereby increasing the extraction of noble metal particles into the sublattice product and the efficiency of enrichment of gold-bearing ores.

 As shown by experiments conducted at the tails of the Kirovograd concentration plant (table), the proposed depositing machine allows, in comparison with known solutions, to increase the extraction of gold in the concentrate of gold in the size class minus 0.1 plus 0.025 mm from 5% to 52%

Claims (1)

1 Sedimentary machine, including a cylindrical-conical housing with a sieve, a pulsator, devices for creating a centrifugal field made in the form of cylindrical chambers with tangential and drain pipes, and discharge devices for over- and under-sieve products, characterized in that it is equipped with a horizontal ring with round holes and an additional device for creating a centrifugal field, which is made in the form of a hollow cylinder, mounted coaxially with a clearance above the sieve in the cylinder part of the casing with a drain collector in its upper part, the upper edges of the casing are connected to the hollow cylinder by a horizontal ring, devices for creating a centrifugal field are mounted on the horizontal ring with the possibility of communication through round holes with the casing, and the drain pipes of devices for creating a centrifugal field are tangentially connected to hollow cylinder.

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