RU2258811C1 - Open-cut mineral deposit mining method - Google Patents

Abstract

FIELD: mining industry, particularly for open-cut steeply dipping or inclined deposit development.

SUBSTANCE: method involves excavating pit up to design depth reaching by sliced benches; moving the benches as ore deposit is developed; cutting ore and debris; loading thereof on conveyance means to move ore to ground surface, wherein as pit is deepened conveyer systems are used; on reaching the design pit depth deposit is divided into slices and the slices are developed with minimal ore losses in triangular zones with negligible interaction in peripheral face by developed slot raise technology usage; reinforcing slopes with anchors and metal mesh at deep horizons where berm cleaning is difficult; performing slice cutting though the full ore body thickness at design pit bottom and conveying the cut ore to surface by steeply inclined conveyers and combined transportation means. In the case of ore development in slices having lesser thickness below pit bottom steeply dipping and vertical side part are built, concrete wall and metal mesh adapted to hold wedge-like lumps in the presence of potential caving, wherein in this case mining equipment is used and ore cut from underground layer is crushed in crushing mills located on main loading and transportation horizons and delivered to ground surface by conveyer or skip shaft. Mined-out space is filled with rock refuse at terminal stage.

EFFECT: increased efficiency of mineral extraction, reduced cost of deposit development.

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Description

The invention relates to the mining industry to methods of open cast mining with open mined space and mining of ore bodies in layers with the fastening of the slopes of the ledges. The method of open-cast mining of steeply dipping and inclined deposits involves mining the quarry to the design depth using step ledges and moving the steps as the ore reserves of the ore crushing and overburden horizon are mined and loading into ore delivery vehicles to the surface, and with the deepening of the quarry and the use of conveyor systems, working out the quarry to the design depth, dividing the useful stratum into layers and working them out with the least ore loss in triangles and a slight violation of the contour the bead array using the developed technologies of cutting slots, at deep horizons where it is difficult to clean the berms, the slopes are strengthened with anchors and a metal mesh, at the level of the bottom of the quarry according to the project, the layers are mined at the full capacity of the ore body, and mined ore is crushed to the surface by steeply inclined conveyors and combined transport, when mining ore with layers of smaller thickness below the bottom of the quarry with the detuning of steeply inclined and vertical sections of the side in conditions of decreasing fracture and rocks, with a concrete wall and a metal mesh designed to hold wedge-shaped oversized materials with potential dumps, switch to the use of mining equipment and mine workings of underground ore delivery with its crushing in crushers at concentration horizons and delivery to the surface by a conveyor or skip shaft, and on the latter stage, filling of the worked-out space by dump rocks is carried out.

The method allows to increase the efficiency of mining of minerals by reducing losses and dilution of ore during mining layers in the circuit and below the bottom of the quarry. The use of cutting slots along the contour with an ore body and selective excavation of gangue blocks compared to sub-floor and floor caving with a simultaneous decrease in the destruction of the surrounding rock mass. As a result, caving and rock outfalls and the manifestation of man-made shocks are reduced, and a decrease in the volume of rifled workings increases the productivity of work, which generally contributes to the expansion of the scope of the open-cut technology in the development of mineral deposits.

The invention relates to the mining industry and can be used in the open development of steeply declining and inclined deposits.

A known method of developing an inclined deposit, in which the mining of the ore body at the upper horizons with ledges, led to the achievement of loss and ore quality indicators of 3-4% and 5-7%, respectively, and when using sub-floor and floor caving, these indicators increased respectively to 10-15 % and 15-20% or more [Adigomov Y.M., Ovodenko B.K. Fundamentals of the economic assessment of ore losses in the open pit mining method. L .: Ed. Nauka, 1971, p.120-136.] [Development of apatite deposits Khibin. M .: Nedra, - 232 p.].

The disadvantage of this method is that during the transition to the mining of an ore body using the release of ore from large blasted blocks in the triangles of both the lying and hanging sides of the deposit, large ore losses are formed and large volumes of gangue are mixed in excess of the mining of the ore body by horizontal layers (ledges ) 3-5 times. In addition, there is an increase in the volume of rifled and preparatory workings, and the use of a large number of explosives (HE) in the block (up to 100-150 tons) leads to the dismemberment of the overlying mass of overlying rocks and their gradual displacement into dynamic loads (man-made impacts).

There is a method of mining a steeply inclined ore body using the combined method, in which the upper part is mined by the open pit method, and the lower part by underground mining [Geological and industrial assessment of apatite deposits. M .: Nedra, - 1985. - 196 p., S.144-147].

The disadvantage of this method is that when switching to the underground method using a ceiling, losses and dilution of ore increase not only in the sides, but also in the exhaust blocks at an open pit angle, and it is difficult to maintain a constant amount of ore supplied to the factory compared to mining - stupas. And the use of systems with collapse will cause deformation of the instrument array of rocks and possibly capital and preparatory workings.

The closest in technical essence and the achieved results is a method of mining minerals, including the use of integrated mining schemes of inclined ore body in the form of intermediate blocks, providing a relative reduction in losses and dilution of ore compared to conventional technologies [Korozh V.A., Kudryavtsev M.I. . Combined mining of iron ore in Kryvbas with minimal quantitative and qualitative losses. M .: Gorn.inform. - analytic bull. - 2003. - No. 12. S.60-63].

The disadvantage of this method is that despite a slight decrease in losses and dilution of ore, their values are quite high and exceed similar indicators with the layered method of mining ore bodies several times. In addition, violation of lateral and in particular an array of overlying rocks is allowed, as a result of which the surface drops over the worked-out space, which negatively affects the maintenance of the workings in a stable state.

The aim of the invention is to increase the efficiency of mineral extraction in an open way by reducing losses and dilution of ore, with the exception of the collapse of the sides and roof of the worked out space, as well as reducing the cost of developing a mineral deposit.

This goal is achieved by the fact that in the method of open-cast mining of steeply declining and inclined deposits, which includes mining the quarry to the design depth using layers of steps and moving the steps as the ore reserves of the ore crushing and overburden horizon are mined and loading into ore delivery vehicles to the surface, and with deepening the quarry and the use of conveyor systems, when mining the quarry to the design depth, divide the useful thickness into layers and work them out with the least ore loss in the triangle x and a slight violation of the near-edge array of the bead using the developed technologies of cutting slots, at deep horizons where it is difficult to clean the berms, the slopes are strengthened with anchors and a metal mesh, at the bottom of the quarry, the layers are mined at full capacity, and the mined ore is crushed by steeply inclined conveyors and combined transport, when mining ore with layers of smaller thickness below the bottom of the quarry with the detuning of steeply inclined and vertical sections of the side in conditions of decreasing crack The rocks with a concrete wall and a metal mesh designed to hold wedge-shaped oversized materials with potential outfalls are switching to the use of mining equipment and mine workings of underground ore delivery with its crushing in crushers at concentration horizons and delivery to the surface by a conveyor or skip shaft, and at the last stage filling of the worked-out space by dump rocks is carried out.

Improving the efficiency of work to reduce losses and dilution of ore during mining of ore contacts from both the lying and hanging side of the deposit and inside the ore body of found gangue blocks is achieved by mining the ore body in layers, the required capacity for the pit productivity using cut-offs conducted close to the contact of the ore body, and the area of the triangles in the ore when mining in layers of 3-5 times or more, is less than when the formation of release blocks during floor and sub-floor collapse.

High rates of ore losses when using mining systems with collapse indicate that, for example, in the underground mines of Apatit JSC for a 65-70-year period of their operation, the total ore losses amounted to about 1,000 million tons. These indicators are characteristic of the development of reservoir mineral deposits, and when developing complex structural deposits with an uneven distribution of components and the inclusion of rock blocks, the loss and dilution rates increase even more by a factor of 2-3, as shown by mining Koashvinsko go and Nyorkpakhsky deposits of apatite ores of Apatit JSC.

When using development systems with collapse and with blocks 60-80 m high, the weight of explosive charges can be hundreds of tons. And with the explosion of this amount of explosives, the near-edge rock mass is destroyed and the overlying rock mass is divided into “shavings” - blocks that displace and collapse sequentially one after another, and cause impulse loads close to man-made impacts that violate rock stability.

An increase in the efficiency of mining ore bodies is achieved when the ore body is mined in layers even smaller than in the open method, which does not cause destruction of the mowing massif, and the strengthening of the escarpment of ledges and bead prevents the stones from falling into the worked out space and increases the safety of work. The reduction in rifled and preparatory workings when using blocks increases the economic efficiency of the work.

When determining the parameters of the method of developing mineral deposits in layers at deep horizons, it is necessary to take into account the decrease in fracturing of rocks with the depth of the field. According to exploration data at the Kovdorsky deposits of complex iron ore deposits, at apatite deposits in the Khibiny, fracturing at deep horizons decreases to 1-2 fractures per 1 m core, which indicates their practical solidity, and the cohesion of the rocks can reach 8-10 MPa, which provides stability and inclined surfaces in massifs of rocks.

The drawings show a section of a field with a quarry with a lay-out excavation of reserves, and a mined open space with fastening of the slopes of the ledges and roof, and at the final stage - filling the mined-out space with dump rocks (Fig. 1, Fig. 2, Fig. 3), Fig. 4 , 5 - The consequences of the traditional method (technology) with the collapse of the overlying strata.

Figure 1 - Mining of the ore body quarry and the transition to mining reserves below the bottom of the quarry: 1 - ore body; 2 - layers (ledges); 3 - board quarry; 4 - cleaning berm; 5 - mount slope; 6 - delivery of ore and stripping to the surface; 7 - an inclined trunk; 8 - dump.

Figure 2 - Element of mining the ore body below the bottom of the quarry with the fastening of the slopes and the roof of the workings: 1 - the worked out layer; 2 - mount in the lying side; 3 - mount in the hanging side; 4 - crusher; 5, 6 - assembly (ore passing) and transport development; 7 - dispensing barrel.

Figure 3 - Backfilling of the worked-out space during the completion of the field: 1 - rock slope.

Figure 4 - Collapse of the slope of the mountain above the worked-out space during systems with collapse (Kirov mine of Apatit JSC).

Figure 5 - Scheme of the collapse of the "shavings" of blocks over the mined-out space at the Yuksporsky mine of AO Apatit with a system with collapse: a, b, c, d - sections.

Concrete example

For the apatite ore deposits "Koashva", "Nyorkpakhskoye", "Oleniy Ruchey", represented by inclined and flat bodies on the basis of a feasibility study, it was found that in the area of underground work, instead of systems with collapse, it is advisable to use a layer excavation of ore with a layer thickness of t = 5 -10 m. This will allow 2-3 times to reduce ore losses in triangles and 3-5 times dilution. It should be borne in mind that these deposits are complex-structured with a change in the distribution of P ₂ O ₆ not only horizontally, but also vertically with the inclusion of blocks of gangue, and the mining of ore bodies by systems with caving or chambers with a bookmark will lead to a significant dilution of the ores, which sharply will reduce the yield of concentrate and increase the cost of obtaining a concentrate of a given amount. The use of a layer thickness of 5-10 m will also make it possible to increase the completeness of mining of ore bodies, since, for example, in the Nyorkpakhskoye deposit, the thickness of ore bodies with depth decreases to 5-10 m and less.

In mining operations, mining transportation equipment can be used both in partly open works (loaders with a bucket capacity of 3-4 m ³ , machine tools with a bore diameter of 110-120 m), and underground work (underground excavation). For ore crushing, it is advisable to use shchKD type crushers. The escarpment of the escarpments of the ledges in the deep part of the quarry must be carried out using nets, anchors and shotcrete, and in the hanging side create a concrete pillow 30–50 mm thick, a metal mesh with a wire thickness of 10–15 mm and anchor support, which will ensure the safety of work in the roof area of the massif .

Calculations show that when using the method, losses and dilution can be lower than with the open method, where the height of the steps reaches 12-15 m. In this way, more ore with higher quality can be mined.

The economic effect of the application of the method is 5-10 million rubles.

Sources of information

1. Adigomov Ya.M., Ovodenko B.K. Fundamentals of the economic assessment of ore losses in the open pit mining method. L .: Ed. Science, 1971, pp. 120-136.

2. Development of apatite deposits Khibin. M .: Nedra, - 232 p.

3. Geological and industrial assessment of apatite deposits. M .: Nedra, - 1985. - 196 p., S.144-147.

4. Korozh V.A., Kudryavtsev M.I. Combined mining of iron ore in Kryvbas with minimal quantitative and qualitative losses. M .: Gorn.inform. - analytic bull. - 2003. - No. 12. P.60-63.

Claims (1)

The method of open development of steeply dipping and inclined deposits involves mining the quarry to the design depth using step ledges and moving the ledges as the ore reserves of the horizon are mined, crushing the ore and overburden and loading into ore delivery vehicles to the surface, and using conveyor systems with deepening the quarry, when mining the quarry to the design depth, the useful thickness is divided into layers and they are mined with the least ore loss in triangles and with a slight disruption of the contour the bead array using the developed technologies of cutting slots, at deep horizons where it is difficult to clean the berms, the slopes are strengthened with anchors and a metal mesh, at the level of the bottom of the pit, the layers are mined at full capacity of the ore body, and mined ore is crushed to the surface by steeply inclined conveyors and combined transport, when mining ore with layers of smaller thickness below the bottom of the quarry with the detuning of steeply inclined and vertical sections of the side in conditions of decreasing fracture and rocks, with a concrete wall and a metal mesh designed to hold wedge-shaped oversized materials with potential dumps, switch to the use of mining equipment and mine workings of underground ore delivery with its crushing in crushers at concentration horizons and delivery to the surface by a conveyor or skip shaft, and on the latter stage, filling of the worked-out space by dump rocks is carried out.

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