RU2574749C1 - Method of open mining of steeply pitching fields of areal form using hydraulic backhoe excavators - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: in the method of open mining of deep-laying fields comprising the formation of a working zone, technology of mining of overburden ledges and providing of cargo transport communication of working horizons with the surface, the overburden ledges of the working zone are accepted with an increased height (to 25-30 m), the ledges are combined in groups by three. For the upper and lower ledges in the groups the minimum working sites with the sizes equal to the width of transport platforms are provisioned that support the bilateral movement of process motor transport and its manoeuvring, for the middle ledges the width of the platforms is accepted equal to the sum of the width of the minimum working site and the width of an extraction split with the volumes of overburden rocks, ready for dredging, providing the necessary speed of the decrease of mining operations in each group of the overburden ledges of the working zone. When forming broken-rock disintegration the condition is used which consists in its placement on the middle and lower ledges, and the broken rock, remaining on the middle ledges, is divided into two layers, the upper ones of which are excavated by hydraulic backhoe excavators, located on sites of the upper ledges of the groups, with loading into vehicles, located at the same sites, the volumes of the lower layers and volumes of the rocks dumped by explosion on the lower ledges are excavated by separate mine excavators with extended working equipment with loading into vehicles which are located at the same levels after the excavation of volumes of overburden rocks, ready for dredging, in all the groups of ledges and formations of the respective volumes on adjacent underlying ledges and shift of boundaries of the groups which happened meanwhile downwards to one ledge, their excavation is repeated in the named order, opening of overburden ledges of the working zone is performed using steep sliding runaways with a longitudinal slope of 5-15° and the width providing the placement of rocks dumped by explosion at their expansion and simultaneous through passage of the process transport. Expansion of the slope runaways is performed using hydraulic backhoe excavators by the separation of rocks dumped by explosion into horizontally wedge-shaped layers and their consecutive excavation.

EFFECT: decrease of the current overburden coefficient within the initial period of the field development.

4 dwg

Description

There is a method of increasing the slope angles of the working boards, based on the phased development of deposits [1]. The essence of the method is the temporary preservation of individual ledges, in which the board is temporarily inoperative. Preservation is carried out at an angle close to the angle of repayment of the marginal side of the quarry. When the temporarily idle side reaches the estimated height, the spacing of its upper horizons begins, but at the same time, the height of the temporarily idle side from the bottom continues to grow due to the ongoing deepening of the quarry. Thus, the temporarily idle side section “slides” along the contour of the stage. Similarly, areas of temporarily idle side formed on the contour of the subsequent stages of development are worked out. The economic efficiency of the method is achieved by reducing the current stripping ratio by increasing the resulting slope angle of the working side. At the same time, efficiency increases with an increase in the angle of inclination of temporarily idle sides. In large quarries, the volumes of preserved overburden can reach several tens of millions of cubic meters with a conservation period of 10 years or more.

However, this method of increasing the slope angles of the working sides has a significant drawback, namely, that the spacing of the upper horizons of the temporarily idle side is accompanied by the ejection of rock mass during blasting. As a result, with a sufficiently steep angle of slope of the temporarily idle side, all of it can be completely covered with blasted rock mass. This excludes the possibility of placing cutting openings on sections of the temporarily idle side and does not provide the conditions for safe mining operations when lowering the working horizons to the temporarily inoperative position. Such negative phenomena are avoided by the fact that a temporarily idle side is formed with sufficiently wide berms, which make it possible to place an ejection of blasted rock mass at one or two horizons. But this leads to a flattening of the resulting slope angle of the working side of the quarry and to an increase in the current stripping ratio in the initial period of the quarry.

Of the known methods of open pit mining of mineral deposits, including the formation in the working area of a quarry of ledges of a temporarily idle side, the separation of the upper horizons of a temporarily idle side simultaneously with its formation by bringing into a temporarily inoperative position the lower working horizons, is a method in which the horizons of a temporarily idle side barrage shafts are poured to catch rockfall at intervals of height equal to the height of the sections of the temporarily idle side a, and in a permanent or temporarily idle side of the quarry, transport bermas are arranged at the horizons of the barrier walls, from which there are exits to lower working horizons within a depth interval equal to the height of the temporarily idle side section [2].

The disadvantage of this method is the need to flatten out a temporarily idle side for the device of transport berms and platforms, platforms with barrage shafts and interrupt the cargo transportation between sections of the temporarily idle side when it is re-mothballed, and the device of the barrage shafts does not ensure the safety of work when re-conservation of pillars and work on working horizons due to the expansion of stones. Interruption of cargo transportation links between sections in depth during re-conservation of the side leads to the need for the construction of additional exits on the working board and its flattening. At the same time, solving the problem of opening through the removal of opening workings to the neighboring part of the working area with normal working sites and the construction of connecting transport sites leads to an increase in current overburden ratios and additional costs for developing the field.

There is also known a method of open-pit mining of steeply dipping deposits of an areal form [3], in which the overburden steps of the working area are of increased height based on the conditions of their development using excavators with elongated working equipment, the steps are combined into groups of three in each, for the upper and lower ledges in the groups provide for minimum working platforms with dimensions equal to the width of the transport platforms, providing two-way movement of technological vehicles and its maneuvering, for the width of the platforms is taken to be equal to the sum of the width of the minimum working platform and the width of the excavation approach with the volumes of overburden ready to be excavated, providing the necessary rate of decrease in mining in each group of overburden steps of the working area, when forming the collapse of the blasted rock mass proceed from the condition of its placement on medium and lower ledges, while the collapse of the rock remaining on the middle ledges is divided into two layers, the upper of which is mined by mining excavators with top loading in t the export means located on the sites of the upper ledges, the volumes of the lower layers and the volumes of overburden dumped by the explosion on the lower ledges, are worked out by individual excavators loaded into vehicles at the same level as them after mining the volumes of overburden ready for excavation in all groups ledges and the formation of appropriate volumes on adjacent underlying ledges and the resulting shift of the boundaries of the groups down by one ledge, their mining is repeated in the above order, opening the overburden ledges of the working area are made using steep sliding ramps with a longitudinal slope of 5-15 ° and a width that ensures the collapse of the blasted rock mass when they expand and at the same time through the passage of technological transport, the expansion of steep ramps is carried out using caterpillar and wheel loaders by dividing the collapse of the blasted mountain masses on horizontal and inclined layers with a height determined taking into account the trajectory of the loader bucket.

The main disadvantage of this method is that the upper layer of the collapse of the overburden overburden is mined by a mining excavator with top loading into vehicles, which is a limiting factor for increasing the height of the ledges and, accordingly, the slope angles of the working sides and further reducing the current volume of overburden operations. A rather important drawback of this method can be considered the use of front loaders for steeply inclined opening workings, which, by virtue of their characteristics, inhibit the speed of preparing new horizons, that is, they are a factor limiting the productivity of quarries.

The aim of the present invention is to reduce the current stripping ratio in the initial period of development of steeply dipping deposits of areal form by increasing the resulting slope angle of the working side. This goal is achieved by the fact that when developing steeply dipping deposits of an areal form, including the formation of a working zone, the technology of working overburden steps and the provision of cargo transportation of working horizons with the surface, the overburden steps of the working area take an increased height (up to 25-30 m), based on their condition mining using excavators with elongated working equipment and hydraulic excavators of the "backhoe" type, the ledges are combined into groups of three in each, while for the upper and lower stupas in groups provide for minimum working platforms with dimensions equal to the width of transport platforms, providing two-way movement of technological vehicles and its maneuvering; for medium benches, the width of platforms is taken to be equal to the sum of the width of the minimum working platform and the width of the excavation approach with volumes of overburden ready for excavation, providing the necessary the rate of decrease in mining in each group of overburden ledges of the working area, with the formation of the collapse of the blasted rock mass The conditions for placing it on the middle and lower ledges, while the collapse of the rock remaining on the middle ledges, is divided into two layers, the upper of which is worked out by hydraulic excavators of the "backhoe" type, located on the sites of the upper ledges of the groups, with the loading of blasted rocks in vehicles located at the same sites, volumes of the lower layers and volumes of overburden dumped by the explosion on the lower ledges are worked out by individual excavators with loading into vehicles located on the same level and level, after working off the volumes of overburden ready for excavation in all groups of ledges and forming the corresponding volumes on adjacent underlying ledges and the resulting shift of the boundaries of the groups down by one ledge, their mining is repeated in the above order, opening the overburden ledges of the working area is performed using steep sliding exits with a longitudinal slope of 5-15 ° and a width that ensures the collapse of the blasted rock mass during their expansion and at the same time through passage of technological transport, expansion of steep ramps is carried out using hydraulic excavators of the "backhoe" type by dividing the collapse of the blasted rock mass into horizontally wedge-shaped layers with a height determined by taking into account the depth of digging of these excavators.

The inventive method provides, compared with the prototype, an increase in the angle of inclination of the working quarry by 4-5 ° and a significant decrease in the current overburden ratios in the initial period of development of steeply dipping deposits of areal form.

The method is illustrated by drawings, where in FIG. 1 shows a plan for developing a steeply dipping field-shaped field in the inventive method at the time of approaching the working side of the quarry to the limiting contour on the surface (9) with the location of overburden volumes and openings that are ready for excavation, ensuring cargo transportation of working horizons with the surface during the development of mining operations; in FIG. 2-section of the field, reflecting the location of ready-to-excavate volumes of overburden in the working area of the quarry; in FIG. 3 is a section through the field, reflecting the technology for mining the collapse of blasted overburden, including the procedure for loading individual parts of the collapse with different excavators into vehicles at different levels; figure 4 shows the beginning of a steep trench, which consists in mining the upper horizontal layer using a hydraulic excavator of the type "backhoe" and road transport that can overcome steep slopes.

The inventive method is as follows. When forming the working zone of the developed areal form deposit (Figs. 1 and 2), overburden ledges 1, 2, 3, 4, 5, 6 take an increased height (up to 25-30 m) from the condition of their joint development using mining excavators with an extended working equipment and hydraulic excavators of the type "backhoe", the height of the mining ledges 7, 8 in the ore zone 10 is taken based on the possibility of selective excavation. Overburden ledges are combined into groups of three in each group. The first group includes ledges 1, 2, 3, the second - 4, 5, 6. Moreover, for the upper 1, 4 and lower 3, 6 ledges in the groups provide minimum working platforms with dimensions equal to the width of the transport platforms, providing two-way movement of technological vehicles and its maneuvering. For medium benches 2, 5, the width of the platforms is taken to be equal to the sum of the width of the minimum working platform and the width of the excavation run 11 with the volumes of overburden ready to be excavated, providing the necessary speed for lowering mining operations in each group of benches of the working area. The formation of the collapse of the blasted rock mass (Fig. 3) provide for the calculation of its placement on the middle 2, 5 and lower 3, 6 ledges of the groups. At the same time, the collapse of the rock remaining on the middle ledges is divided into two layers, the upper 12 of which are worked out by hydraulic excavators of the type “backhoe” with loading into vehicles located on the upper ledges of the groups. Volumes of the lower layers 13 and volumes 14 of the lower ledges 3, 6 are worked out by separate mining excavators with elongated working equipment, loaded into vehicles at the same level as them. After mining of overburden volumes ready for excavation, in all groups corresponding volumes ready for excavation are formed on adjacent underlying ledges. As a result, the boundaries of the overburden ledge groups are shifted down one ledge. Their development in new boundaries is repeated in the above order.

The opening of the overhanging ledges of the working area (Fig. 1) is performed using steep sliding ramps 15 with a longitudinal slope of 5-15 ° and a width that provides for the simultaneous placement of the collapse of the blasted rock mass during their expansion and through passage of the technological transport. The expansion of the ramps begins with the explosion of the rock mass within their borders (Fig. 4). Then they are expanded using hydraulic backhoe loaders and dump trucks capable of overcoming steep slopes. Expansion of exits at the final borders of 18 is carried out by dividing them into horizontally wedge-shaped layers 19, with a height in their horizontal part equal to the possible digging depth of the excavator. Accordingly, mining of layers is carried out by excavators with lower digging. When working out the top layer, the excavator and the dump truck work completely being on horizontal platforms. When mining the second layer, the excavator operates on a horizontal platform, and the dump truck moves partially horizontally, partially as the face moves, along an inclined surface, and so on as all possible subsequent layers are worked out.

Information sources

1. Khokhryakov B.C. Open pit mining in stages. Izv. universities. Mountain Journal, No. 10, 1965.

2. Linev V.P., Rubinstein S.B. Ensuring the safety of mining when using temporarily idle sides. Mountain Journal, 2001, No. 5, p. 20-23.

3. Pat. 2528704. Russian Federation, IPC E21C 41/26 (2006.01). The method of open-pit mining of steeply dipping deposits of areal form [Text] / Yakovlev VL, Kornilkov SV, Sakantsev GG, Sakantsev MG; Applicant and patent holder Federal State Budgetary Institution of Science Institute of Mining, Ural Branch of the Russian Academy of Sciences (IGD UB RAS). - No. 20133120812/03; declared 05/06/2013; 09/20/2014, Bull. 26, - 8 p.: 3 ill.

4. Pat. 2534297, Russian Federation IPC E21C 41/26 (2006.01), Method for conducting a steep trench [Text] / Sakantsev G.G., Yakovlev A.V., Zyryanova T.M .; Applicant and patent holder Federal State Budgetary Institution of Science Institute of Mining, Ural Branch of the Russian Academy of Sciences (IGD UB RAS). - No. 2013116307/03; declared 04/09/2013; 11/27/2014, Bull. No. 33, - 4 p.: 2 ill.

Claims (1)

The method of open development of steeply dipping deposits, including their opening and formation of a working area with overburden ledges of increased height, which are combined into groups of three in each, while for the upper and lower ledges in the groups provide minimum working platforms with dimensions equal to the width of the transport platforms, providing two-way movement of technological vehicles and its maneuvering, for medium benches, the width of the platforms is taken equal to the sum of the width of the minimum working platform and the width of excavation approach with overburden volumes ready for excavation, providing the necessary rate of reduction of mining operations in each group of overburden ledges of the working area, after mining the volumes of overburden ready for excavation in all groups of ledges and the formation of corresponding volumes on adjacent underlying ledges and the resulting shift of boundaries groups down one ledge, their mining is repeated in the above order, characterized in that the formation of the collapse of the overburden overburden, prepared for excavation in each a group of ledges, based on its placement on the sites of the middle and lower ledges of the groups, the blasted rock located on the sites of the middle ledges is divided into two layers, the upper of which is worked out by hydraulic excavators of the type “backhoe” located on the sites of the upper ledges of the groups, with loading into vehicles located at the same sites, the volumes of the lower layers and the volumes of rocks dumped by the explosion on the lower ledges are worked out by separate mining excavators with an elongated worker loading into vehicles at the same level as them, opening the overburden steps of the working area is carried out using steep sliding ramps with a longitudinal slope of 5-15 ° and a width that ensures the collapse of the blasted rock mass when expanding and at the same time through the passage of technological transport Expansion of steep ramps is carried out using hydraulic excavators of the "backhoe" type by dividing the collapse of the rock mass into horizontally wedge-shaped layers and after them ovatelnoy mining.

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