RU2097561C1 - Method for mining steeply-dipping elongated deposits - Google Patents

Abstract

FIELD: mining industry; may be used in mineral opencast mining. SUBSTANCE: method involves formation of technogenic deposit from substandard ores and wastes of ore concentration in working out space of open cast alongside with deposition of overburden rocks. Technogenic deposit is laid on preliminarily placed impermeable layer of sandy-argillaceous sediments and protective layer from rock fine fraction. In so doing, formation of technogenic deposit, protective and impermeable layers, filling internal and external dumps, working of the next stage of open cast field are carried out simultaneously and after completion of formation of technogenic deposit, it is treated by leaching; mining of the main deposit is continued. EFFECT: more complete recovery of useful component and reduced labor input in opencast mining of steeply-dipping elongated deposits. 3 dwg

Description

 The invention relates to the mining industry and can be used in open-cast mining.

 A known method of developing steeply declining deposits (ed. St. N 1155755), including the allocation of the horizon for the transition to internal heap formation on the condition of equality of the reduced costs of internal and external heap formation, maintaining long-range dumping of internal dumps.

 The disadvantage of this method is the low degree of utilization of the worked out space, the large over-lifting of the rock mass when laying the rock in an internal dump. The method does not provide for the formation of substandard ores and wastes of the beneficiation of a technogenic deposit and its subsequent development.

 The closest to the proposed technical essence and the achieved result is a method of developing steeply declining deposits (patent N 2013550), which includes mining the quarry field in stages, transporting and laying rocks into the external and internal dumps, erecting a pioneer embankment on the horizon, fixing the end of deep work in the contours of the stage dividing the worked-out space into a zone with repaid and a zone with outstanding mining, after which the dumping of the internal dump is continued in a closed circuit py from the periphery to the center, cyclically increasing the stacking zone height.

 And this method does not provide for the formation of substandard ores and wastes from the enrichment of a technogenic deposit in the developed quarry space and its subsequent development.

 The aim of the invention is to increase the completeness of the extraction of the useful component, environmental friendliness of the production and reduce the complexity of the work in the open development of steeply declining extended deposits.

 This goal is achieved in that, in contrast to the known method, which includes mining the quarry in stages, preparing the rock mass for excavation using a blasting method, transporting rock and ore with dump trucks, dumping the external and internal dumps, in the claimed method, in the quarry mined out space, in addition to placing overburden rocks, forms a technogenic deposit from substandard ores and waste from the processing stage, for which an antifiltration layer of sand and clay deposits and protective deposits is laid a fine layer of rocks, while the formation of a technogenic deposit, the laying of antifiltration and protective layers, dumping of the external and internal dumps, the development of the next stage of the quarry field are carried out simultaneously, and after completion of the formation of the technogenic deposit, they begin to be mined by leaching, continuing to develop the main deposit .

 In FIG. 1 shows a plan for the development of indigenous and man-made deposits; in FIG. 2, section AA in FIG. one; in FIG. 3 section BB in FIG. one.

 The drawings indicate: 1 technogenic deposit; 2 - an antifiltration layer; 3 protective layer; 4 sprinkler; 5 pipeline for working solution; 6 pipeline for productive solution (assembly); 8 lifting pipeline productive solution; 10 trunk pipeline of productive solution; 11 dam; 12 internal overburden dump; 13 indigenous deposit; 14 intermediate circuit; 15 - contour of the ore body.

 The method is as follows. The career field is practiced in stages. The preparation of the rock mass for excavation is carried out by a blasting method, transportation of rock and ore by dump trucks. Until the completion of the first stage of the quarry field, the rock is placed in an external dump. After practicing the first stage in the external and internal dumps. In this case, immediately after completion of mining of the first stage in the mined-out space of the quarry of the first stage, at the bottom of the quarry, in the contour of the technogenic deposit, an anti-filtration layer 2 is made from sandy-clay deposits, a pipeline 6 is installed. Then, lateral thicknesses of the anti-filtration layer 2 are erected from the sand- clay deposits and a protective layer 3 from a fine rock fraction, form a technogenic deposit 1 from substandard ores and concentration processing waste, dump a dam 11 and an internal dump 12 s overburden. Upon completion of the formation of the technogenic deposit and dam 11, they begin to install sprinkler 4, pipelines 5, 8, and 10, pump 9. In parallel, build a spout 7. At the end of installation of sprinkler 4, pipelines 5, 8, 10 and pump 9, build a spout 7 operation of a technogenic deposit 1 by leaching, while continuing to develop the main deposit.

Claims (1)

 A method of developing steeply dipping elongated deposits, including mining the quarry field in bursts, preparing the rock mass using a blasting method, transporting rock and ore by road, dumping the external and internal dumps, characterized in that, in addition to placing overburden, an open-cast mine is formed from substandard ores and enrichment waste, for which an anti-filtration layer of sand and clay deposits and a protective layer of small fr ktsii rocks, thus forming technogenic deposit, and impervious protective layers dumping inner and outer piles, followed by testing of the queue career fields are simultaneously, and after the formation of deposits in the space technogenic career proceed to its working out the leaching process, continuing the testing of the primary field.

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