RU2685583C1 - Method for open development of steep deposits with application of multistage temporarily non-working sides - Google Patents

Abstract

FIELD: mining.SUBSTANCE: invention relates to mining industry, namely, to method of open development of steep deposits with application of multistage temporary non-working sides. Method includes formation of working zone, development of overburden rocks and provision of freight communication of working horizons with surface. In process of development of open-pit space its working side from side of lying side of deposit at approach to final outline of pit is converted into limit board and on it opening works are arranged, which serve for cargo communication of working horizons with surface. On the side of the hanging wall, simultaneously with the development of mining operations, a multi-step temporary non-working board is started, consisting of a series of one-on-one slope-pitch steps, on which the opening openings are arranged, and in their base there are arranged stone protection platforms for placement of stones falling on them when uninviting steps. Width of steeply inclined steps is taken to accommodate stones falling on top of them, rock-protective embankments with backhoe hydraulic excavators installed on them and road. After completion of all planned steeply inclined steps of the temporarily non-working side, they are deactivated and tested, including the volumes of rock mass, which are enclosed between the temporary non-working side and the maximum contour of the pit. Pillar is developed by horizontal layers with the help of hydraulic excavators "reverse shovel", as it is being developed, the limit board is formed with the device on it of the opening mine work, on which the spent volumes of the rock mass are removed to the surface, stones falling on stone protection platforms are loaded into vehicles and by opening workings of the limit board on the side of the recumbent side are removed to the surface.EFFECT: reduction of current overburden ratio during initial period of deposit development.1 cl, 2 dwg

Description

The invention relates to the mining industry, namely to the phased development of mineral deposits and can be used in the formation of temporarily non-working boards and their subsequent re-preservation.

There is a method of forming and testing of temporarily non-working boards during the phased development of deposits.

The essence of the method lies in the temporary conservation of individual ledges, in which the board is temporarily inoperative. Preservation is carried out at an angle close to the redemption angle of the margin of the pit. When the temporarily non-working side reaches the rated height, the spacing of its upper horizons begins, but at the same time the height of the temporarily non-working side continues to increase due to the continuing dredging of the quarry. Thus, the site temporarily non-working board "slides" along the contour of the stage. Similarly, the sections of the temporarily non-working side formed on the contour of the subsequent stages of development are tested. The economic efficiency of the method is achieved by reducing the current stripping ratio by increasing the resulting slope angle of the working side. In this case, the efficiency increases with an increase in the angle of inclination of temporarily non-working boards. At large quarries, the volume of mothballed stripping can reach several tens of millions of cubic meters with a conservation period of ten or more years (Khokhryakov, VS, Open stage mining, Mining Journal No. 10, pp. 15-26, 1965).

The disadvantage of this method is that the spacing of the upper horizons of the temporarily non-working side is accompanied by the release of rock mass during blasting operations. As a result, with a sufficiently steep angle of the slope of the temporarily non-working side, the entire side can be completely covered with the blasted rock mass. This eliminates the possibility of placing on the sections of the temporarily non-working side of the opening workings and does not provide the conditions for safe mining when lowering the working horizons into the temporary non-working position.

The closest analogue of the claimed invention is described in the patent for the invention of the Russian Federation No. 2064582 method of opencast mining, including the formation in the working area of the quarry ledges temporarily non-working side, the spacing of the upper horizons of the temporarily non-working side with its formation by temporarily non-working position located below working horizons, on the horizons of the temporarily non-working side pour protective ramparts to catch rockfall through the Internet heaps in height equal to the height of the temporarily non-working board sections, and in the permanent or temporary non-working board of the quarry, transport berms are arranged on the horizons of the barrier walls, from which congresses to the lower working horizons take place within an interval in depth equal to the height of the temporarily non-working board side.

The disadvantage of this method is the need to flatten temporarily non-working side for the device of transport berms and platforms, sites with barrier shafts and interruption of freight transport communication between areas of temporary non-working side when it is deconditioned, and the device of the barrier shafts does not provide safety of work during deconservation of pillars and work on working horizons due to the scattering of stones. Interrupting the freight transport link between the sections in depth during the re-entry of the side leads to the need to build additional congresses on the working board and to flatten it. At the same time, solving the problem of opening due to removal of the opening workings to the adjacent part of the working area with normal work sites and construction of connecting transport sites leads to additional costs for the development of the field and to an increase in the current coefficients of overburden.

The aim of the present invention is to reduce the current stripping ratio in the initial period of development of deep-lying steeply dipping deposits of rounded and elongated shape due to the temporary preservation of the sides and the technologically determined priority of mining the quarry space.

This goal is achieved by the fact that in the method of opencast development of steeply dipping fields using multi-stage temporarily non-working boards, including the formation of a working area, overburden mining and ensuring the cargo transport communication of working horizons with the surface according to the invention, the pit side is placed on the side of the lying side it is placed opening the workings, and from the side of the hanging side begin to form a multi-stage temporarily non-working board, consisting of a number aspolagaemyh steeply inclined one to the other stages, which satisfied the base stone-protective platform, wherein the width of the stone-protective pads take rate of placement falling from above stones installing the special application phase type hydraulic excavator "backhoe", and road; after the completion of the formation of all the planned steeply inclined steps, they start their re-activation and the development of the rear sight pillar between the temporarily non-working board and the marginal contour of the quarry; working out the rear sight are horizontal layers using a hydraulic excavator of the type "backhoe"; as the pillar is mined down, the marginal edge of the quarry is formed with a device on it revealing the output necessary for transporting the volumes being worked to the surface.

The inventive method of open development of steeply dipping deposits with the use of multi-stage temporarily non-working boards is illustrated by drawings, where:

FIG. 1 reflects the order of development of the career space with an indication in Roman numerals of the sequence of excavation of rock volumes.

FIG. 2 shows the design of the stone-protective platform, which protects the temporarily non-working side from the blasted rock, falling from the upper ledges during the development of border strips.

The method of opencast development of steeply dipping deposits with the use of multi-stage temporarily non-working sides is as follows.

 FIG. 1 reflects the division of the quarry on the development queue with Roman numbers (I, II, III, IV, V) indicating the sequence of operations. In the process of developing the career space, its working side 1 from the side of the lying side 2 of the field at the approach to the final contour of the quarry is transformed into the limit side 3 and on it are placed the opening workings used for the cargo transport communication of the working horizons with the surface, and from the side of the hanging side 4 the development of mining work is beginning to form a multi-stage temporarily non-working board, consisting of a series of steeply inclined steps 5 arranged one upon another (Fig. 1). On steeply inclined steps 5, the opening workings are placed, and at their base they arrange stone-protective platforms 6, the width of which is taken from the calculation of placing rock mass 7 on top of them, stone-protecting embankments 8 with hydraulic backhoe excavators 9 and highway 10 installed on them. the completion of the formation of all the planned steeply inclined steps 5 of the temporary non-working side proceed to their re-activation and the development of the rear sight 11, which includes the volume of rock mass concluded between the temporary non-working board ohm and limit board 3 career 12 (Fig. 1). The testing of the rear sight 11 is carried out in horizontal layers with the use of hydraulic excavators of the type “reverse shovel” 9. As it is worked out, a border board 3 is formed with a device on it that opens the excavation along which the waste volumes are taken to the surface. The mountain mass 7, which supplies to the stone protection platforms 6, is loaded into vehicles 13 and through the opening workings of the limit side 3 from the side of the recumbent side 2 is taken to the surface (Fig. 1, 2).

Using the proposed method will reduce the current stripping ratios in the initial period of development of deep-lying steeply dipping deposits of rounded and elongated shape.

Claims (1)

The method of open development of deep-lying steeply dipping fields, including the formation of a working zone, mining of overburden rocks and provision of cargo transport communication of working horizons with the surface, is different in that during the development of the quarry space, the working side of the recumbent side of the field is transformed into the marginal the side and on it are placed the revealing workings, which serve for the cargo transport connection of the working horizons with the surface, and from the side of the hanging Simultaneously with the development of mining, they begin to form a multi-stage temporarily non-working board, consisting of a series of steeply inclined steps arranged one on another, on which the opening workings are placed, and stone-protective platforms are arranged at their base to accommodate the stones falling from above, when In this way, the width of steeply inclined steps is taken from the calculation of the placement of stones falling on top of them, stone protective embankments with hydraulic excavators mounted on them. After the completion of the formation of all planned steeply inclined steps of the non-working side, they begin their re-activation and development of the rear pillar, including the rock mass between the temporary non-working board and the marginal contour of the quarry, the rear pillar development is carried out in horizontal layers using hydraulic reverse excavators shovel ", as it is being worked out, a marginal board is formed with a device on it that opens the mine, according to which the spent volumes of mining the masses are taken to the surface, the stones falling on the stone-shielding platforms are loaded into vehicles and, on the revealing workings of the limit side from the side of the lying side, are taken to the surface.

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