RU2255304C2 - Method for slanting of high benches on outline of open pit - Google Patents

Abstract

FIELD: mining industry, applicable for slanting of high benches at development of magmatic deposits of mineral resources by open pit.

SUBSTANCE: the method includes drilling of contour holes for formation of a screening peephole, buffer and breaking holes to a depth corresponding to the height of one working subbench with a redrill, the middle row of breaking holes is made with an incomplete drill, charging of the openings and their blasting, dispatch of the rock, after blasting first of outline openings, for formation of the screening peephole, and then of breaking holes and mucking of the rock, similar operations are performed on the underlying subbench of the lower high bench, at the development of the lower high bench, the development of the upper and lower benches is conducted by doubling of the working subbenches, at the development of the lower subbench of the upper high bench the outline openings are drilled to the whole height of the doubled bench, the buffer openings are drilled at a distance of 12 to 13 diameters of the charge from the outline openings and to a depth at least corresponding to the height of one working subbench with a redrill equal to 6-8 diameters of the charge, the first and last rows of the breaking holes are drilled with a redrill, equal to 4-5 diameters of the charge, and the incomplete drill of the middle row of the breaking holes makes up 7-8 diameters of the charge, after blasting of the buffer and breaking opening and mucking of the rock a crest is formed, from whose surface on the side of the slope outline and buffer openings are drilled, the first ones - to the height of doubled subbenches, and the second ones - to the height at least of one lower working subbench, then the breaking openings to the same height as in the above - and underlying subbenches and for production of a natural protective bank on the upper section of the lower high bench in the section of the berm the formed ridge is liquidated by drilling, charging and blasting of the openings of small diameter and depth.

EFFECT: enhanced stability of high benches on the outline of the open pit.

2 cl, 3 dwg, 1 ex

Description

The invention relates to the mining industry and can be used in open pit mining with ejection of high ledges on the limiting contour of the quarry.

A known method of mining the contour zone of the quarry, including the simultaneous testing of the contour strip with blasting the contour wells (AS USSR No. 102881 E 21 C 21/00) [1]. This order of work leads to a violation of the marginal massif, especially in its upper part in the area of the Berm detuning (formation of a broken “peak”). In the future, with a long period of operation, this area, where the berm is dumped, will be intensively destroyed, and the berm will “work out”.

There is a method of mining the contour zone of the quarry, including first blasting the contour line wells to the entire height, and then working out the contour strip with 2-3 layers of drilling and blasting working wells with a diameter of 250 mm and at the final stage shipment of rock (A.S. No. 20178079 E 21 C 41/26) [2].

This method also has drawbacks, as discussed above, since the upper layer is destroyed at a depth of up to 20 charge diameters (up to 4-5 m) on the Berm horizon due to the overburden of working wells. Especially significant is the violation of the massif in the region of the Berm platform of the horizon due to the appearance of steep and inclined spall cracks. Partially broken ledge during a long period of standing under the influence of precipitation and weathering will quickly collapse especially in the area of the "peak" of the slope.

There is a method of working off the edge strip and ejection of ledges, which provides for the formation of a detachable gap within the design contour of the quarry and subsequent ejection of the ledge by blasting charges in shortened wells, with a gradual decrease in their length in the direction of slope of the lower Berm horizon. The result is an inclined berm [3]. The specified order of work will lead to the fact that the rebuilt surface of the berm will not meet the design parameters, and the violation of the near-surface array to the depth of the blast holes will be 10-20 diameters of the charge, and the “peak” of the lower ledge will also be violated with the formation of spall cracks. With a long standing time of the ledge under the influence of atmospheric precipitation, seismic action of mass explosions in the quarry and weathering of rocks, the “peak” of the ledge will collapse, reducing the width of the safety berm.

The closest to the proposed technical essence and the achieved result is a method of working out the near-edge zone and overhanging the ledges, providing for a gap on the limiting contour of the quarry, and drilling and blasting charges in the boreholes, resulting in a high ledge after rock harvesting [4]. The specified order of work leads to a violation of the marginal mass on the Berm horizon in the “peak” section of the lower high ledge during the explosion of charges in the boreholes, which are drilled with a significant excess. The “peak” of the high ledge weakened by cracks gradually collapses under the influence of weathering and water (freezing - thawing of rocks) and poses a threat to workers cleaning berm from embankments and stones, as well as for work on underlying horizons.

The aim of the present invention is to increase the stability of high ledges by reducing the formation of cracks and irregularities in the peak of the ledge of the Berm horizon.

This goal is achieved by the fact that in the known method for ejection of ledges, including the drilling of contour wells for the formation of a screening gap, buffer and boreholes to a depth corresponding to the height of one working subsurface with an excess, while the middle row of boreholes are performed with a hole, the wells are charged and blasting, shipment of rock, and after blasting first contour wells to form a gap and buffer wells, and then break-away wells and cleaning rocks, similar operations are performed below By working the lower and lower ledges, mining the upper and lower ledges is done by doubling the working steps, while while working the lower steps of the upper high ledge, contour wells are drilled to the full height of the double ledge, buffer wells are drilled at a distance of 12-13 charge diameters from the contour wells and depth at least corresponding to the height of the working approach with an excess of 6-8 charge diameters from the Berm horizon, then a number of jack-holes are drilled at a distance of 16-17 charge diameters from buffer wells, etc. than the first and last rows to regale 4-5 charge diameter, and the average number of wells drilled near the bottom of the slope geminate at a distance from 4-5 charge diameters with nedoburom 7-8 charge diameters.

After loading and blasting the wells, first the buffer, then the jackholes, the rock is cleaned to the height of the ridge array, and in the berm section, after drilling the rock, wells of small diameter and depth are drilled to form the necessary parameters for the shaft slope from the rock (natural shaft): height, width on top B ₁ , lower B ₂ , shaft slope angles α ₁ from the high ledge and α ₂ from the berm, the carriageway of the berm with a width of 25-30 charge diameters. Then they start drilling contour wells to the full height of the doubled sub-steps from the site of the formed ridge. At a distance from the contour row of wells of 12-13 diameters of the charge, a number of buffer wells are drilled to the height of the upper working sub-step of the lower high ledge with an excess of 4-5 diameters of the charge. The first and subsequent rows of boreholes after cleaning the rock from the previous explosion are drilled at a distance of 16-17 charge diameters from the buffer wells with an excess of 7-8 charge diameters.

The contour wells corresponding to the height of the lower ledge are charged with charges, which ensure the formation of a screening gap in the considered part. For its formation, charges with an annular gap and a charge density of 3.0 kg / linear m are used.

After loading and blasting the contour series of wells, then buffer wells, blast holes are blasted. At the end of the rock harvesting, operations to develop the lower marginal tape of the double ledge continue. As a result, a slope is formed with minimal disturbance of both the slope and its upper part, the “peak,” protected by a shaft of natural rock massif of minimum width and greater height.

To increase the stability of the slope in the upper part and reduce its shedding in fractured rocks, it is possible to arrange it in the form of a monolith, for which, after drilling a contour series of wells, they are cut between them using special mechanisms (saws) to the height of the cutting tool.

The method of ejection of high ledges on the contour of the quarry is illustrated by the schemes shown in figures 1-3. In Fig.1 - a General view, Fig.2 - working out the lower working sub-step of the upper 30-meter ledge with the formation of a natural monolithic shaft (protection "peak"); figure 3 - diagram of the formation of the shaft (monolith) in fractured rocks with a cut of the gap between the contour wells.

1 - upper slope of a double ledge; 2 - lower slope of a double ledge; 3 - berm; 4, 5, 6, 7 - 15-meter working noses; 8 - gap; 9 - buffer wells; 10 - boreholes; 11 - wells of small diameter; 12 - slope of the shaft; 13 - cut between contour wells.

Execution example

The method is as follows. On the limiting contour of the quarry, it is necessary to detune the lower part of the upper double ledge 1 with a height of 30 m and the lower double ledge 2 with a height of 30 m with a berma between them with a width of 10 m. Formation of 30-meter ledges is done by doubling 15-meter working sub-steps 4, 5, 6, 7. When mining is approaching the upper working approach, a gap 8 will be created over the entire height of the doubled ledge, then buffer 9 and boreholes will be drilled 10. After loading, blasting the boreholes first, the boreholes explode. Following the cleaning of the rock, they begin to work out the lower sub-step of the upper 30-meter ledge. In the near-edge zone of the built-up ledge 1 at a distance equal to 12 charge diameters (with a charge diameter of 0.25 m this distance will be 3.0 m) a number of buffer wells 9 are drilled to the height of the lower working step of the upper 30-meter ledge with the following parameters: well diameter 250 mm, depth drilling with a borehole borehole - 17 m, the distance between wells in a row - 3.5 m.

The depth of the boreholes 10 is variable: the first row of boreholes 10 from the buffer wells 9 and the last row of the boreholes 10 in the lower near-edge tape of the upper 30-meter ledge 1 are drilled to a depth of 16 m, and the middle row of boreholes 10 are drilled to a depth of 13-13, 5 m to protect the massif above the slope of the lower 30-meter ledge 2 from destruction during explosion of the drill holes 10. After blasting the buffer wells 9, the drill holes 10 explode. As a result, an array (ridge) of height 1.5 is formed over the slope 2 of the lower 30-meter ledge. -1.8 m. Then begins rock orc to the height of the ridge, and in the berm section the cleaning is accompanied by drilling shallow wells 11 of small diameter to form a slope 12. From the side of the slope, a number of contour wells are drilled from the ridge 8 along slope 2 in the limiting position to the entire height of the 30-meter ledge plus the height of the ridge ( 1.5-2 m) - 31.5-32 m.

Thus, the necessary structural parameters of the protective shaft are maintained: height - 1.5-1.8 m, shaft width on top of B ₁ = 1.4-1.5 m, lower B ₂ = 2-2.2 m, slope angles with sides of the carriageway of the berm α ₂ = 60-65 °, from the side of a high slope α ₁ = 70-75 °.

Then, the buffer wells 9 are drilled to the height of the working approach 6, taking into account the height of the ridge and the borehole - 18 m, and the boreholes 10 to a depth of 17 m. The distance between the buffer and contour wells in the row is 3-3.5 m, between the bore and buffer - 4 m, between fenders in a row - 4-5 m.

After loading the wells carry out their blasting. Initially, a shielding gap 8 is formed by blasting the contour wells 8, then blasting the buffer wells 9 and then the blast holes 10. The type of charge when blasting the contour wells 8 is with an annular gap, the charge density is 3.0 kg / linear meter. m. The charge weight is 87 kg, the type of charge in the buffer well is with an annular gap, the density at the top of the charge is 11.0 kg / m, the charge weight is 119 kg with an air gap. The distance between the buffer wells is 3 m.

The following drilling and blasting parameters are used to practice working sub-steps 5, 6: diameter of wells 250 mm, drilling depth 17-17.5 m, distance from a number of buffer wells - 4 m, between rows - 4 m. Charge weight in the well 460-480 kg.

The blasted rock of the upper working step 6 is removed and then the lower working step 7 of the 30-meter ledge 2 is worked out similarly to the higher working step 6 by drilling, loading and blasting first buffer and then bump holes using standard parameters of drilling and blasting operations.

The blasted rock of the lower working approach is removed and the detuning of the upper high ledge 1 of the lower high ledge 2 and the berm 3 with a monolithic shaft 12 is completed.

In fractured rocks, when creating a monolith shaft and reducing the destruction of its slope, they cut 13 between contour wells 8 to the height of the cutting tool (2-3 m).

The application of the proposed sequence and parameters of the detuning of high ledges ensures the complete safety of the marginal massif, especially in the upper part of the ledges and for the first time on the Berm site by creating a protective shaft that protects the “visor” from the effects of precipitation and weathering. The formation of a stable shaft not only makes it possible to secure the cleaning of the berms, but also prevents the pieces from flying to the underlying horizons.

Sources of information

1. A.S. USSR No. 102886, E 21 C 41/00. The method of mining the contour zone of the quarry.

2. A.S. Russia No. 2178079, E 21 C 41/26. A way to overhang high ledges on the ultimate contour of a quarry.

3. Galustyan E.L. Improving the design of non-working sides of quarries // Horn. magazine number 1-2. 1998, p. 92-96.

4. RF patent No. 2004805, cl. E 21 C 41/26, 1993 (prototype).

Claims (2)

1. The method of ejection of high ledges on the limiting contour of the quarry, including the drilling of contour wells to form a shielding gap, buffer and boreholes to a depth corresponding to the height of one working approach with an overshot, while the middle row of boreholes are performed with a hole, charging the wells and blasting them , shipment of rock, and after blasting first the contour wells to form a gap and buffer wells, and then the boreholes and cleaning the rock, similar operations are performed on the underlying ledge of the lower high ledge, characterized in that the mining of the upper and lower high ledges is done by doubling the working steps, while when working out the lower step of the upper high ledge, contour wells are drilled to the full height of the double ledge, buffer wells are drilled at a distance of 12-13 charge diameters from the contour wells and a depth at least corresponding to the height of one working subsurface with an excess of 6-8 diameters of charge; the first and last rows of jack wells are drilled with an excess of 4-5 diameters of 3 row, and the gap in the middle row of the boreholes is 7-8 diameters of the charge, and after blasting the boreholes and boreholes and cleaning the rock, a ridge is formed, from the surface of which contour and buffer wells are drilled from the side of the slope, with the first being doubled to the height of the doubled steps, and the second - to the height of at least one lower working approach, then the boreholes to the same height as in the higher and lower access steps, and for the formation of a natural protective shaft in the upper section of the lower high ledge at ASTK eliminate berm comb formed by drilling, loading and blasting boreholes of small diameter and depth. 2. The method according to p. 1, characterized in that when the protective monolithic shaft is formed and its stability is increased, a cut is made between the contour wells to the height of the cutting tool.

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