RU2208221C2 - Method for selective mining extraction of qualitative mineral resource in open pit - Google Patents

Abstract

FIELD: mining industry, applicable in open mining operations at mining of ore blocks, whose sections essentially differ in the ore quality. SUBSTANCE: the method consists in drilling of holes in compliance with the design of the mass explosion, making of the mine survey, testing of deep-holes by the geology- geophysical methods, investigation of natural block structure of the rock mass, mapping of the qualitative ore, charging and blasting of deep-hole charges according to the rated parameters of drilling and blasting operations and wiring diagram of the deep-hole charges, excavation of the blasted rock mass according to the worked out planogram of mining of the mineral resource, the strike of the edge of the block bench is positioned at an angle of 90 deg. to the bisector of the angle between the two determined main systems of cracks, an additional compensation hole that is not charged with explosive is drilled at a distance of 4 to 6 diameters of the hole from the hole to be blasted first of all, as a result, a cut compensation cavity is formed. Then, successively with a retardation for the formed compensation cavity holes drilled in the qualitative ore are blasted. After that the rest mass piled up by the run-of-the-pit ore is blasted with a short retardation between the groups of the switched deep-hole charges. Thus, a local section of lump qualitative ore not dispaced by the blast on the bench and in the height of disintegration of broken rock comparable with the height of the mining bench is formed, and the mining of this ore is carried out selectively in the second turn after mining of the run-of-the-pit ore. EFFECT: provided crushing of qualitative ore in a grip, breaking of the run-of-the-pit ore to a free surface in the direction of the exhausted space, from the local section of qualitative ore. 3 dwg

Description

 The invention relates to the mining industry and can be used in open cast mining in the development of ore blocks, sections of which differ significantly in the quality of ore raw materials.

 The known method of short-delayed multi-row blasting of ledges provides various options for crushing the rock mass by an explosion, accompanied by the movement of the blasted rock mass on the ledge, and the width and direction of the excavator's approach ensures the sequence of excavation of the mineral (V.V. Rzhevsky, Processes of open cast mining, M .: Nedra, 1974, p. 129).

 The disadvantage of this method is the impossibility of mining a mineral forming local areas of the required quality inside the block, since in the explosion high-quality ore is mixed with ordinary ore.

 The known method of separate blasting and separate excavation in the development of steep fall ore bodies involves combined separate blasting, when vertical or deviated wells are located only along the contour, creating a screen, and inside the plot, blasting is carried out by vertical borehole charges with separate blasting into a split trench (V.N. Mosinets, A.D. Pashkov, V.A. Latyshev, Rock destruction, M .: Nedra, 1975).

 The disadvantage of this method is that it is impossible to apply multi-row blasting and create a shielding gap for a local area with a limited number of blast holes.

 Closest to the proposed technical solution is a method for the selective extraction of high-quality minerals, including drilling wells in accordance with the project of a mass explosion, testing wells using geological and geophysical methods, loading and blasting wells according to the selected parameters of drilling and blasting operations and the switching circuit of borehole charges, excavating blasted rock mass according to the selected planogram of mining (V. V. Rzhevsky, Processes of open cast mining. M: Nedra, 1974, p. 469).

 The disadvantages of this method is that it does not provide the formation of a local site of high-quality ore in the block without moving on a ledge, it does not provide for the extraction of high-quality mineral without constant testing of the collapse of the rock mass.

 The only technical result of the proposed technical solution is the provision of crushing of high-quality ore in the clamp, breaking of ordinary ore onto a free surface in the direction of the worked out space from the local site of high-quality ore.

The indicated unified technical result is achieved by the fact that in the method of selective extraction of minerals, including drilling wells in accordance with a mass explosion project, testing wells by geological and geophysical methods, studying the natural blockiness of the rock mass, loading and blasting well charges according to the design parameters of drilling and blasting operations and the scheme commutation of borehole charges, excavation of blasted rock mass according to the worked out planogram of mining of minerals, extension of the side the block blunts are positioned at an angle of 90 ^° to the bisector of the angle between the two main fracture systems defined, they outline the local section of high-quality ore, drill an additional compensation well that is not charged with explosive at a distance of 4-6 borehole diameters from the borehole that is exploded in the first place, as a result they form a hole compensation cavity.

 Then, sequentially with deceleration, wells drilled in high-quality ore explode into the formed compensation cavity, after which the rest of the massif, composed of ordinary ore, explodes with a short deceleration between groups of switched borehole charges: between the local section of high-quality ore and the generated space, borehole charges are switched along the side strike ledge and blasting is carried out in the direction of the worked out space, inside the block, the borehole charges are switched along the strike of two the main systems of steeply declining cracks, forming the natural blockiness of the massif, and breaking is carried out away from the local section of high-quality ore, between the local section of high-quality ore and the non-blasted part of the rock mass, the borehole charges are switched across the side of the shoulder, and the breaking is carried out along the side of the ledge towards the blasted side rock mass charges of wells of the previous stages of deceleration. The local sections of quality ore formed by the explosion, which differ from the main part of the blasted rock mass by the height of the collapse and the size of the pieces, are mined during the excavation of minerals, first the raw ore is mined before contact with the quality ore, then the quality ore.

 The formation of local sections of high-quality ore raw materials in the collapse by an explosion reduces the clogging of high-quality ore by ordinary ore due to the fact that the local section of high-quality ore does not move on the ledge during blasting and during excavation, the extraction of ordinary ore is carried out until it comes into contact with high-quality ore, which visually differs in height of collapse and Lump blasted rock mass.

бурят скважины 4, проводят геолого-геофизическое опробование скважин 4, оконтуривают участок локализации качественной руды 5, залегающей в рядовой руде 6, бурят дополнительную компенсационную скважину 7 на расстоянии 4-6 диаметров скважин 4, скважины 4 заряжают взрывчатым веществом, коммутируют скважинные заряды 8, изображенные на разрезе А-А (фиг.3), и короткозамедленно взрывают: сначала взрывают заряд скважины 9, после взрыва образуется компенсационное пространство 10, затем взрывается заряд скважины 11 и образуется компенсационное пространство 12, затем взрывается заряд скважины 13 и образуется компенсационное пространство 14, взрывается заряд скважины 15 и образуется компенсационное пространство 16, после взрыва зарядов скважин 9, 11, 13, 15 в зажиме взрываются заряды скважин 4, пробуренных в рядовой руде 6 по схеме коммутации групп зарядов скважин 17, взрываемых одновременно, по ступеням замедления 18, заряды скважин 4, пробуренных в рядовой руде 6 ступеней замедления 4-10 (18), коммутируют таким образом, чтобы в зоне между выработанным пространством 19 и локальным участком качественной руды 5 коммутация зарядов производилась по простиранию борта уступа 20, а отбойка направлена вкрест простирания борта уступа 20, в основной части блока 1 заряды скважин коммутируются по простиранию систем трещин I или II (3), а направление отбойки - в сторону от локального участка качественной руды 5, между локальным участком качественной руды 5 и не взрываемой частью горного массива 21 заряды скважин коммутируются вкрест простирания борта уступа 20, а отбойка производится на уже взорванную горную массу рядовой руды 6.The proposed method is illustrated by drawings, in which Fig. 1 shows a survey map of block 1, Fig. 2 shows the strike of two steeply falling systems of cracks I and II, the side of the mining ledge is perpendicular to the bisector of angle α (2), angle α is formed by the strike of systems I and II (3), then the location of the side of the ledge mining (angle β) relative to the strike systems of cracks

wells 4 are drilled, geological and geophysical testing of wells 4 is carried out, a localization section of high-quality ore 5 located in the ordinary ore 6 is delineated, an additional compensation well 7 is drilled at a distance of 4-6 well diameters 4, wells 4 are charged with explosive, well charges are switched 8, depicted in section AA (Fig. 3), they explode briefly: first, the charge of the well 9 is blown up, after the explosion a compensation space 10 is formed, then the charge of the well 11 explodes and a compensation space is formed 12, then the charge of the well 13 explodes and a compensation space 14 is formed, the charge of the well 15 explodes and a compensation space 16 is formed, after the explosion of the charges of the wells 9, 11, 13, 15, the charges of the wells 4 drilled in the ordinary ore 6 according to the switching scheme explode groups of charges of wells 17, exploded simultaneously, by stages of deceleration 18, the charges of wells 4, drilled in an ordinary ore 6 stages of deceleration 4-10 (18), commute so that in the zone between the mined space 19 and the local site of high-quality ore 5, the charges were switched along the strike of the ledge 20, and the blasting was directed across the strike of the ledge 20, in the main part of block 1, the charges of the wells are switched along the strike of crack systems I or II (3), and the direction of the blasting is away from the local site of high-grade ore 5 , between the local site of high-quality ore 5 and the non-blasting part of the rock mass 21, the charges of the wells are switched across along the strike of the ledge 20, and the blasting is carried out on the already blown rock mass of ordinary ore 6.

Blasting the charges of wells 9, 11, 13, 15 of block 1 provides:
1. breaking the quality ore 5 in the clamp with the formation of an array of blasted rock mass contoured by the compensation space 16, and breaking the remaining wells 4 without moving the quality ore 5 on the ledge and the formation of the collapse of the blasted rock mass within the compensation space 16, in which the array of quality ore 5 significantly larger block and higher than the rest of the blasted rock mass;
2. the possibility of selective extraction of high-quality mineral 5, localized inside block 1, by developing and applying a plan for ore mining, in which ordinary ore 6 is first mined, then high-quality ore 5.

 The proposed method for the selective extraction of minerals allows you to produce high-quality ore localized inside the block, separately from ordinary ore.

Claims (1)

A method for selectively extracting high-quality minerals in a quarry, including drilling in accordance with a mass explosion project, surveying a block, studying natural blocking of rocks, contouring high-quality ore, loading wells with explosives, exploding wells and excavating minerals from an ore mining planogram, characterized in that in terms of the strike of the side of the ledge of the mining block is set across the strike of the bisector of the angle α at an angle

where β is the angle between the strike of the side of the ledge and the system of cracks, deg .;
α is the angle between the strike of the systems of cracks, deg.,
an additional non-explosive borehole is drilled in the high-quality ore circuit at a distance of 4-6 borehole diameters from the blasting hole, primarily a blasting hole for the formation of a cut-in compensation cavity, into which wells drilled in high-quality ore explode with deceleration, wells drilled in ordinary ore, explode in groups with deceleration according to the scheme of switching wells, providing directional breakdown of ordinary ore: in the zone between the worked out space and high-quality ore, localized inside the block, - towards the mined space, in the zone located on both sides of the local section of high-quality ore, the wells are switched along the strike of the main steeply falling fracture systems, breaking is carried out in the direction from the local section of high-quality ore, in the zone located between the local section of high-quality ore and unexploded massif, the wells are switched across the strike of the ledge, the blasting is directed to the blasted rock mass of ordinary ore, thus forming the bulk section of high-quality lump ore not blown up on the ledge and at a camber height comparable to the height of the mining ledge, and this ore is mined selectively secondarily after the extraction of ordinary ore.

Images