RU2750009C1 - Method for developing thawed placers - Google Patents

Abstract

FIELD: mining industry.SUBSTANCE: invention relates to the mining industry, it is created primarily for the development of placer deposits or their sections located in thawed zones. A method for developing thawed placer deposits includes opening with inclined shafts, breaking sand with well fans into the clamping medium, end release of broken sand and delivery of broken rock mass to the surface. The method is characterized in that along border 5 of placer deposits, along the strike, below the deposit soil, field pumping drift 6 is laid, located in stable rocks, from which, transversely to the placer strike along native rocks of raft 3, drill haulage drifts 10 are laid to the opposite edge of the placer, placing their roof below the deposit soil by the value m, equal to the depth of the metal subsidence in the placer raft. At the end of each drill haulage drift 6, a cut-off riser is passed to the roof of productive reservoir 1, after which a cut-off gap is formed by blasting wells on the cut-off riser, on which the sand is broken in the conditions of the clamping medium in the retreating order by blasting 2-5 fans of boreholes drilled from drill haulage drifts 6 to the roof of the reservoir. The angle of inclination of the extreme boreholes in the fan is 45-50°, while the distance between the sides of adjacent drill haulage drifts 6 are defined as 2m.EFFECT: use of the present invention will increase the extraction of metal from the subsoil due to the sub-working of the raft and ensure high labor productivity during the development of thawed placer deposits by improving the level of work mechanization in the result of the location of underground mine workings in the stable rocks of the raft and the possibility of using high-performance self-propelled equipment.1 cl, 3 dwg

Description

The invention relates to the mining industry and was created primarily for the development of placer deposits or their sections located in talik zones.

Known systems for the development of thawed placers with long and short runs, both with the collapse of the enclosing rocks, and with fastening or backfilling of the worked-out space (see Shorokhov SM Technology and complex mechanization of the development of alluvial deposits. M .: "Nedra", 1973, - 766 p.), Which are characterized by high labor intensity, relatively low labor productivity, low level of mechanization of work and labor safety of miners.

It is known that in the development of placer deposits, the extraction of sands is carried out with the addition of a raft to the depth of its metal content. In a fractured raft, it is additionally mined by 1-2 m. In a number of mines, the volume of a metal-bearing raft reaches 50% of the sand produced (see Shorokhov S.M. Technology and complex mechanization of the development of placer deposits. M .: "Nedra", 1973, 766s.) ...

A known method for the development of ore deposits by sublevel caving with end discharge of ore (see Imenitov V.R., Processes of underground mining in the development of ore deposits, 3rd ed., Revised and supplemented. M .: Nedra, 1984, p. 419-427, Fig. XIII.25), which includes carrying out sublevel drilling orts, delivery drifts, ore passes, layer-by-layer breaking of diamond-shaped ore panels in a sandwiched environment by vertical fans of boreholes and layer-by-layer end discharge of ore to the soil of drilling orts under collapsed rocks.

The disadvantages of the known method in the case of end tapping are relatively low rates of completeness and quality of extraction of ore from the bowels during the development of steeply dipping deposits, while losses are about 10-15%, dilution - 22-30%. In addition, when this method is applied in conditions of horizontal and shallow ore bodies of medium thickness, losses increase to 20-25% due to the technical impossibility of extracting ores on the soil of the deposit, in the intervals between the panels.

There is also known a method for the development of horizontal and shallow ore bodies of medium power (see RU No. 2642193, class E21C 41/22, publ. 01.24.2018), including carrying out a delivery port, drilling drifts dividing the ore body into panels, loading races dividing panels on the section, ventilation riser, as well as breaking of ore layers by fans of wells drilled from the drilling drifts, onto the clamping medium, and the release of the broken ore according to the area-end scheme simultaneously through the drilling drifts and loading ramps, while the horizon drifts are used as drilling workings extraction, they carry out the breaking of ore sections, having the shape of a parallelepiped, ahead of the development of the sections in the central panel, providing a wedge-like shape of the front of mining operations, which determines the temporary stability of the overlying rocks above the extracted sections and an increase in the points of discharge of the broken ore for the central panel to three, for the rest panels - up to two.

The disadvantages of this method are a large volume of preparatory grooved workings, the loss of chipped ore between loading runs, as well as the inefficiency of application in conditions of thin deposits, in particular, when mining placer deposits.

The objective of the present invention is to increase the rates of extraction of valuable minerals and labor productivity during the development of thawed alluvial deposits, mainly in those conditions when the overburden (the top of the reservoir) is represented by unstable, loose sedimentary rocks.

The technical effect obtained when solving the problem is expressed:

- in improving the level of mechanization of work and labor safety of miners, due to the location of underground mine workings in stable rock formations of the raft and the possibility of using high-performance self-propelled equipment;

- in the growth of indicators of extraction of valuable minerals, as a result of the underworking of the placer raft by the amount of metal subsidence and the exclusion of the abandonment of pillars.

To solve this problem, the method of developing thawed alluvial deposits, including opening with inclined shafts, breaking sand with fans of wells into a clamping medium, end discharge of broken sand and delivery of the broken rock mass to the surface, differs in that along the border of alluvial deposits, along strike, below the soil of the deposit , carry out a field haulage drift located in stable rock formations, from which transversely (crosswise) the strike of the placer along the bedrock of the raft, carry out the boring drifts to the opposite edge of the placer, placing their roof below the soil of the deposit by an amount m equal to the depth of metal subsidence into the placer raft, at the end of each boring drift, a cut-off rising to the top of the productive formation passes, after which, by blasting the wells onto the cut-off rising, a cutting slot is formed, on which sand is blasted under the conditions of a clamping environment in a retreating order by blasting 2-5 fans of small-diameter wells in one cycle ( boreholes), drilled from the drilling drifts to the top of the formation, and the angle of inclination of the extreme wells (holes) in the fan is 45-50 °, while the distance between the sides of adjacent drilling drifts is determined as 2m.

A method for the development of thawed alluvial deposits, including opening inclined shafts, breaking sand with fans of wells into a clamping medium, end discharge of broken sand and delivery of the broken rock mass to the surface, characterized in that a field haulage is carried out along the boundary of the alluvial deposit, along the strike, below the soil of the deposit. a drift located in stable rocks, from which transversely to the strike of the placer along the bedrock of the raft, bore-back drifts are carried out to the opposite edge of the placer, placing their roof below the deposit soil by an amount m equal to the depth of metal subsidence into the placer raft, at the end of each bore-back drift there is a cut-off rising to the top of the productive formation, after which by blasting the wells onto the cutting rising, they form a cutting slot, on which the sand is blasted under the conditions of the clamping medium in a retreating order by blasting in one cycle 2-5 fans of small-diameter wells (boreholes) drilled from the borehole x drifts to the top of the formation, and the angle of inclination of the extreme boreholes (holes) in the fan is 45-50 °, while the distance between the sides of adjacent drilling drifts is determined as 2m.

Comparative analysis of the features of the claimed solution with the features of analogs indicates the compliance of the declared solution with the "novelty" criterion.

The set of features of the invention provides a solution to the stated technical problem, namely, minimizing the cost of securing and maintaining workings due to the location of drilling and haulage workings in stable rock formations of the raft. In addition, the location of the workings below the level of the seam soil by the amount of metal subsidence makes it possible to increase the recovery of the valuable useful component. At the same time, the possibility of using self-propelled equipment on the main technological processes makes it possible to increase labor productivity and the intensity of deposit development.

The claimed technical solution is illustrated by drawings, figure 1 shows a diagram of the preparation of a site of an alluvial deposit, where A is a section along the line A-A, B is a section along the line B-B, B is a section along the line C-C; figure 2 is a diagram of the breaking of a mineral, where A is a section along the line A-A, B is a section along the line B-B; figure 3 is a diagram of the end release and delivery of the broken rock mass.

The essence of the proposed method is as follows (see figure 1).

The thawed placer, represented by a productive layer of sands 1 with an unstable roof 2, including loose sediments, and a raft 3, including stable rocks, is opened with inclined shafts 4 with inclination angles sufficient for the movement of self-propelled vehicles. Along the boundary 5 of the placer, along the strike, a field haulage drift 6 is carried out, located below the soil level of the deposit, in the stable rock of the raft. On the flanks of the placer, from the field haulage drift 6, cuts (passages) 7 are made outside the boundaries of the zone of displacement of overlying rocks 8, of which ventilation-running rising (pits) 9 pass to the surface, which also serve as emergency exits from the mine. From the field haulage drift 6, across (transversely) the strike of the placer, along the bedrock of the raft, drill-back drifts (run-in) 10 are carried out to the opposite edge of the placer. In this case, the roof of the drilling drifts 10 is located below the soil of the deposit by the value m equal to the depth of metal subsidence into the placer raft. At the end of each boring drift 10, there is a cutting rising 11 to the top of the productive formation, after which a cutting gap is formed by blasting the wells 12 onto the cutting rising 11.

Sands are broken off by blasting the fans of small-diameter wells (boreholes) 12 drilled from the boring drift 10 to the top of layer 1 (see figure 2). A set of 2-5 fans explodes in one cycle. The angle of inclination of the extreme boreholes (holes) in the fan is at least 45 °. The drilling of the fans is carried out with portable or self-propelled drilling rigs 13. After the explosion of the first sets of fans, the roof of layer 2 collapses and, further, the chipping is carried out in a "clamp", in a retreating order.

After each explosion, the end release and delivery of the broken rock mass 13 is carried out by means of bucket loaders 14 (see figure 3). Delivery of the broken rock mass can be carried out to the near-shaft yard, and with small volumes (sizes) of the placer, with shallow bedding, directly to the surface to the sand warehouse.

Thus, the distance between the insertions along the strike of the placer is determined by the value of m, which depends on its metal content. The distance between the sides of adjacent drilling drifts at an angle of inclination of the extreme wells in the fan of 45-50 ° will be 2m.

The use of the present invention will increase the extraction of metal from the subsoil due to the additional working of the raft and ensure high labor productivity in the development of thawed alluvial deposits by improving the level of mechanization of work as a result of the location of underground mine workings in the stable rock of the raft and the possibility of using high-performance self-propelled equipment.

Claims (1)

A method for the development of thawed alluvial deposits, including opening inclined shafts, breaking sand with fans of wells into a clamping medium, end discharge of broken sand and delivery of the broken rock mass to the surface, characterized in that a field haulage is carried out along the boundary of the alluvial deposit, along the strike, below the soil of the deposit. a drift located in stable rocks, from which, across the strike of the placer along the bedrock of the raft, they carry out drilling drifts to the opposite edge of the placer, placing their roof below the deposit soil by an amount m equal to the depth of metal subsidence into the placer raft, at the end of each drilling drift there are cut-off drifts rising to the top of the productive formation, after which, by blasting the wells onto the cutting rising, they form a cutting gap, on which sand is broken off in a clamping environment in a retreating order by blasting in one cycle 2-5 fans of boreholes drilled from the drilling drifts to the top of the formation, p moreover, the angle of inclination of the extreme holes in the fan is 45-50 °, while the distance between the sides of adjacent drilling drifts is determined as 2m.

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