RU74832U1 - FLOW LINE FOR PROCESSING GOLD-ANTIMONY ORE - Google Patents

Abstract

The invention relates to mineral processing and can be used at mining enterprises in the processing of gold-antimony ores. The aim of the invention is to increase the efficiency of enrichment of gold-antimony ores and improve the quality of the processed ore. The goal is achieved through the additional introduction of radiometric separation devices to separate the ore stream according to the content of a valuable component into three products: rich, ordinary, and poor, which allows you to remove diluting rock mass before the crushing stage and increase the concentration of valuable components.

Description

The invention relates to mineral processing and can be used at mining enterprises in the processing of gold-antimony ores.

A known production line for the enrichment of gold-antimony ores, consisting of large and medium-sized crushers, a mill and a classifier, flotation machines, a thickener and a filter, (Solozhenkin P.M., Enrichment of antimony and mercury ores - Moscow, 1969, p.26).

Processing includes staged crushing, grinding, classification and subsequent separation of mineral grains by flotation.

The disadvantage of this production line is the low efficiency of processing these ores.

The closest technical solution is a production line for the processing of gold-antimony ores, consisting of a crusher, screen, jigging machine, hydraulic classifier, concentration table, mill and classifier, flotation machines and vat for leaching (V. Lodeishchikov, Extraction of gold from refractory ores and concentrates. - Moscow: Nedra, 1968, p. 156).

The technology includes staged ore preparation, depositing, concentration on the tables, flotation and leaching.

The disadvantage of the production line is the low efficiency of processing these ores, the inability to improve the quality of antimony concentrate.

The technical result of the invention is to increase the efficiency of processing these ores, improving the quality of gold-antimony concentrates.

The result is achieved by the fact that the production line for processing gold-antimony ores, containing serially connected feeder, crushing and screening devices, jigging machine, mill, hydraulic classifier, concentration table, grinding mill, hydrocyclone, grinding and size classification devices, thickener, flotation machines, leach vat, is additionally equipped with two radiometric separation devices installed in front of the feeder and after the device for roaring.

The introduction of radiometric separation devices for the processing of gold - antimony ores provides the highest technological enrichment indicators.

Unlike the well-known, this production line allows you to divide lump ore into three grades according to the content of a valuable component: rich, ordinary, poor. The main separation factor is the high energy of the characteristic radiation (27 keV) of antimony as an element and its main antimonite mineral when irradiated with X-rays. The presence of radiometric separation devices allows you to increase the concentration of valuable components and adjust their content, as a result, it becomes possible to separately enrich each grade or type of ore in narrow classes (for a given content), which improves the quality of concentrates. Preliminary separation of ore into grades ensures the removal of rock and diluting rock mass before the crushing stage, which greatly facilitates the further enrichment process and improves the efficiency of processing these ores.

The production line has several advantages compared to the prototype:

- the proposed line allows you to reduce the mass of raw materials entering the crushing and further enrichment;

- allows you to process not only poor ores, but also overburden.

Figure 1 shows a diagram of a production line.

The production line consists of a radiometric separator 1, conveyors 2 and 3, a feeder 4, a device for crushing 5 and screening 6, a radiometric separator 7, conveyors 8 and 9, jigging machine 10, mill 11, hydraulic classifier 12, concentration table 13, mills for regrinding 14, hydrocyclone 15, devices: for grinding 16 and size classification 17, thickener 18, flotation machine 19 and vat for leaching 20.

The production line works as follows. Ore mass with the help of mining technology is supplied for uniform feeding into conveyor tanks, it is separated using a radiometric separator 1 into products with different contents of a valuable component (rich, ordinary and poor ore). Ordinary ore is fed for crushing and subsequent screening to devices for crushing 5 and screening 6. The under-sieve product of the screening device is sent to the jigging machine 10, the tails of which are subjected to regrinding in a mill 11 operating in a closed cycle with the screening device 6. Oversize product of the device for screening is fed to the radiometric separator 7. The rich ore mass stream of the radiometric separator 1 and the radiometric separator 7 after combining using conveyors 2 and 8 is directed to cial hydrometallurgical processing in a vat leach 20. The mass flow poor products radiometric separator 1 is combined with a stream of lean ore radiometric separator 7 and then forwarded via conveyors 3 and 9 blades or storage for subsequent leaching. Ordinary ore and under-sizing product of jigging machine 10 enter the hydraulic classifier 12, where enrichment by size classes takes place. The products of the hydraulic classifier 12 are sent to the concentration table 13. Concentrates jigging and concentration

the tables are combined and represent a rough antimony concentrate, which is then subjected to regrinding in a mill 14 and further hydrometallurgical processing. Concentration table middlings are classified in hydrocyclone 15, where the pulp is separated into sands and sinks. The discharge of the hydrocyclone and the discharge of the hydraulic classifier are sent to the thickener 18 for thickening. The sands of the hydrocyclone enter the grinding cycle into the grinding devices 16 and classification 17 by size. In the classification device 17, the pulp is separated into sands returned to the grinding device 16 for regrinding, and the discharge entering the flotation machine 19, where a collective antimony-gold-containing concentrate is obtained, which is sent for further leaching into the tank 20.

The proposed production line allows you to increase the efficiency of enrichment of this type of ores and to obtain antimony concentrate containing 38-41% antimony, with the extraction of 82-87%.

Claims (1)

A production line for processing gold-antimony ores containing a series-connected feeder, crushing and screening devices, a jigging machine, a mill, a hydraulic classifier, a concentration table, a grinding mill, a hydrocyclone, grinding and size classification devices, a thickener, flotation machines, leach tank, characterized in that it is equipped with two radiometric separation devices installed in front of the feeder and after the screening device.