RU2232892C2 - Method for cutting minerals at subterranean conditions - Google Patents

Abstract

FIELD: mining industry.

SUBSTANCE: method includes drilling around block between environment and compensating chamber of parallel rows of ascending and descending wells directed towards each other, with non-drilled space left in central portion of block in vertical plane, loading of said wells with explosive charges and row-wise detonation. The new in the method is that ascending and descending wells are drilled with non-drilled space W_t matching dimensions of bottom portions of explosive charges in descending wells, and ascending wells in each following row from first rows on the side of environment and compensating chamber are drilled at length lessened for value l, determined on basis of formula: 1=W_p·tg(α-90°), where l is value by which length of ascending wells is lessened in meters; W_p is dimension of charges of explosives row in meters; α is angle of explosion crater mouth in vertical plane in degrees; while explosive charges in ascending wells in each row are detonated prior to explosive charges in adjacent descending rows of wells, and descending wells are loaded with combined explosive charges with placement in bottom portions of wells for explosive charges having directed effect.

EFFECT: lower costs of explosive and drilling operations, lower seismic and dynamic effect on mines at block bottom due to rational use of energy of explosion of end portions of explosive charges in descending and ascending wells and to step by step cutting along block height.

2 cl, 3 dwg

Description

The invention relates to mining and can be used in the development of mineral deposits underground method for floor and sub-floor collapse of mineral blocks.

A known method of breaking minerals during the extraction of pillars (see AS No. 870718), including drilling in the pillar of a series of wells parallel to two outcrop surfaces and oriented from one pillar of the pillar adjacent to the rock mass to another, placing charges in the wells Explosive and sequential destruction of the pillar by the explosion of explosive charges on parallel exposed surfaces.

The disadvantage of this method is that with a high floor height of the block to be beaten with modern drilling equipment, there is a deviation of vertical wells in a row from a given direction. At the same time, vertical wells of one row at a depth intersect with wells of another row and when they are blown up, reliability decreases and the required sequence of explosive charge detonation is violated, which can lead to poor-quality crushing of minerals.

Closest to the proposed technical solution is a method of breaking minerals under underground conditions (see Efremovtsev N.S., Mashukov V.I., Kononov, Pokrovsky B.V., Sanko A.T., Zakharyuta G.V., Babko IP Improving the technology of drilling and blasting operations taking into account the geological and structural features of the massif. - Gorny Zhurnal, No. 5, 1981, pp. 42-42), including drilling the block between the clamping medium and the compensation chamber in parallel rows of counter-directed downward and upward wells with unkind in the central part of the block along ricals, charging them with explosive charges and orderly blasting.

The disadvantage of this method is the high cost of drilling and blasting (a large amount of drilling and explosive consumption for blasting) due to the irrational use of the energy of the explosion of the bottom parts of explosive charges in downstream and upstream wells, since when they are simultaneously blown up, the array of overcrowding is greatly crushed. At the same time, significant seismic and dynamic loads occur on the workings of the bottom of the block, which leads to their premature destruction and loss of ore in the block.

A single technical result of the present invention is the reduction in the cost of drilling and blasting and the reduction of seismic and dynamic effects on the development of the bottom of the block due to the rational use of the energy of the explosion of the end parts of explosive charges in downstream and upstream wells and phased breaking along the height of the block.

The specified single technical result is achieved by the fact that in the known method, comprising drilling the block between the clamping medium and the compensation chamber in parallel rows of counter-directed descending and ascending wells with a hole in the central part of the block in the vertical plane, charging them with explosive charges and orderly explosion, ascending and descending wells in the central part of the block are drilled in a vertical plane with a hole equal to l.s. the bottom parts of the explosive charges of downstream wells, and the ascending wells in each subsequent row from the first from the side of the clamping medium and the compensation chamber of the rows are drilled with a length decreasing by l, determined by the formula:

l = W _p · tq (α-90 °),

where l is the value of reducing the length of the ascending wells, m;

Wp - bhp explosive charges of a number, mm;

α is the angle of the explosive funnel in the vertical plane, deg.,

the explosive charges in the ascending wells in each row are blown ahead of the explosive charges in adjacent descending rows of the wells; in addition, downhole wells are charged with combined explosive charges with placement of directed explosive charges in the bottom of the wells.

When forming a hole according to the technical solution indicated in the prototype, the value of the hole is 1 m, and with the simultaneous explosion of the ascending and descending wells of a number, the array of the hole is crushed, up to the point that plastic deformations occur in it. This indicates the irrational use of the energy of the explosion of the end parts of the wells.

Drilling of ascending and descending wells in the central part of the block in a vertical plane with an aperture equal to l.s. the bottom parts of the explosive charges of the downstream wells W _t , are carried out for the efficient blasting of the downhole wells (their bottom parts) and high-quality crushing of minerals in the field of underperformance.

Experimental studies found that the value of W _t has a larger value than the value of the gaps in the technical solution of the prototype. By increasing the value of W _t (undercuts), the cost of drilling and blasting (drilling volume, explosives) is reduced.

Drilling of ascending wells in each subsequent row from the first from the side of the occupying medium and the compensation chamber of the rows is shorter by the value l = W _p · tq (α-90 °), where W _p - l.s. explosive charges of a number, m; α is the angle of the alignment of the explosive funnel of the ascending wells, deg .; produced to increase the efficiency of the explosion of explosive charges in the ascending wells with the formation of a funnel of normal crushing in a vertical plane ≈135 °. The value of l is determined from trigonometric dependencies.

During the explosion of explosive charges in upstream wells in each row ahead of the explosive charges in adjacent downward rows of wells, an additional exposure plane is formed at an angle α, which prepares effective fragmentation of sections of a hole by the explosion of explosive charges in downhole wells (their bottom parts).

At the same time, stage-by-stage blasting along the height of the block is designed to reduce the seismic and dynamic impact on the development of the bottom of the block, because the number of explosives exploded in one stage of deceleration, compared with the prototype is reduced by almost half, which reduces the intensity of seismic waves. Dynamic impacts are similarly reduced due to a decrease in the volume of ore being mined in one deceleration stage. Moreover, the breaking of the upper part of the block occurs on the ore cushion from the broken ore by the previous stages of deceleration.

When loading downhole wells with combined explosive charges with the placement of directional explosive charges in the bottom of the wells, the reliability of the development of the bottom of the explosive charges of downward wells along the HP line is ensured. W _t , as well as the possibility of increasing the value of W _t .

The proposed method of breaking minerals in underground conditions with the specified set of features ensures the achievement of a reduction in the cost of drilling and blasting operations and a decrease in seismic and dynamic effects on the development of the bottom of the block due to the rational use of the energy of the explosion of the end parts of explosive charges in downstream and upstream wells and implementation of stage-by-stage blasting along the block height and has a significant novelty.

The essence of the proposed technical solution is illustrated by the drawing, where Fig. 1 shows a vertical section of the block along the strike of the ore body, and Fig. 2 is a horizontal section along the block at the level of the upper drilling horizon. Figure 3 shows, as an example, the design of the combined explosive charges of downhole wells.

The proposed method is as follows.

In advance known methods determine the value of HP the bottom parts of explosive charges (W _t ) in downstream wells 2 of the first row from the side of the clamping medium (3C) 3 and in downstream wells 4 from the side of the compensation chamber (CC) 5. The determination of the value of W _{t is} necessary for the formation of gaps in the Central part of block 1 vertically. The value of W _{t is} determined either by a calculation method or by experimental explosions (see E.O.Mindel. Rock destruction. - M., 1974, p. 318, Fig. 150; Dubynin N.G., Trufakin N.E. Research destruction of ore by an explosion. - Novosibirsk: Institute of Geodesics SB RAS, 1970, p. 19).

Before the block designing stage, the angle of the alignment of the explosive funnel α is determined (by calculation, experimentally) during the explosion of explosive charges in the ascending wells 6, 7 in the vertical plane, in the front rows from the 3С3 and КК5 sides. However, studies show that the funnel of the explosive charge of normal crushing in the vertical plane is 135 ° (see U. Langefors, B. Kilstrem. Modern technology for explosive rock breaking. - M .: Nedra, 1968, p. 16, Fig. 5a) .

After determining the values of W _t and α, they start drilling the block, with the first row of counter directional descending 2 and ascending 7 wells from the 3C3 side and the first row of counter directional descending 4 and ascending 6 from the KK4 side are drilling the same length with a predetermined value of W _t LHP value of the bottom parts of explosive charges in downhole wells). In each subsequent row from the first from the side of 3C3 and KK5 to the central row, the ascending wells 9 are drilled with a length decreasing by l = W _p · sin (α-90 °), where W _p is bp explosive charges of a number; α is the angle of the alignment of the explosive funnel of the ascending wells 6, 7 of the first rows from the side of 3C and KK in a vertical plane perpendicular to the line of location of explosive charges in rows. This ratio is determined from the geometric diagram in figure 1 from the condition of the full opening of the alignment of the explosive funnel in the vertical plane during the explosion of explosive charges in the subsequent to the central row of ascending wells 9 and trigonometric dependencies. Downstream wells under the condition of a constant value of undercuts W _t in each subsequent row to the central 10 are drilled respectively l = W _p · sin (α-90 °) deeper. In this case, sections of gaps in the vertical plane are formed of a V-shaped. After completing the drilling of the block, the wells are charged with explosive 11, and the downhole wells 2, 4, 10 are charged with combined explosive charges with the placement of directed explosive charges 12 in the bottom parts of the wells (see Fig. 3).

As an example of the use of explosive charges of directional action in the bottom of the well, the use of cumulative charges according to patent No. 2103642, RU is possible.

After loading the explosive wells, the electric blast network is mounted in such a way that in the process of a mass explosion using short-delayed blasting, the explosive charges in the ascending wells 6, 7, 9 in each row explode ahead of the explosive charges in the adjacent descending rows of the wells 2, 4, 10.

For example, first of all, explosive charges in the ascending wells 6 of the first row from the KK5 side and explosive charges in the ascending wells 7 of the first row from the side 3C-3 are primarily exploded. In this case, explosive funnels 8 are formed in a vertical plane with a target angle α = 135 °. In the second place, explosive charges are blown up in the first rows of downstream wells 2 and 4 from KK5 and 3C3. BB 2 charges work on 3С3 on hp a series of W _t , as well as its bottom (end) part along the HPL W _t on the underlying exposure plane at an angle α, formed from the previous explosion of explosive charges 7. And explosive charges 4 work (crush the mineral mass) at KK5 in hp a series of W _p and its bottom part according to l.s. W _t on the underlying exposure plane 8, obtained from the previous explosion of explosive charges 6. In the third place, explosive charges of the central ascending row 9, which works according to l.s. series W _p , on two opposite surfaces, obtained from the explosion of explosive charges 6 and 7. In the fourth, last, explosive charges of the central descending row 10, which operate on l.s. W _p on two opposing outcrop surfaces obtained from the explosion of charges 2, 4, and the bottom of the explosive charges 10 work according to ln.s. W _t on the V-shaped pillar remaining after the explosion of explosive charges 2, 4, 6, 7, 9.

This example shows a kind of concessive blasting of the block, where the lower ledge is blown ahead of the upper ledge.

In various mining and geological and mining conditions, the method can also be carried out according to a different order of blasting. First of all, the explosive charges 6, 7; in the second, explosive charges 9, in the third - 2, 4, and lastly explode explosive charges 10. With this sequence of blasting, an identical technical result of the present invention is achieved, and the sequence of blasting does not contradict the claims.

It is possible to break off a block both by explosive charges of single wells of various diameters and by explosive beam charges of parallel-parallel wells.

The proposed method for breaking minerals under underground conditions was tested at the mine of the Sheregesh mine during blasting of block No. 5 of the Bolotny section of the +255 m horizon. At the same time, the breaking was carried out by beams of parallel-parallel wells with the following parameters: W _t = 4 m, W _p = 5 m, α = 135 °, l = 5 · tg (135 ° -90 °) = 5 m. Subject to the blasting sequence specified in the description, high-quality mineral crushing was achieved with minimal seismic and dynamic effects on the bottom of the block. Using the proposed method allowed to reduce the volume of drilling by 8%, to reduce the consumption of explosives to 10%.

Claims (2)

1. A method of breaking minerals under underground conditions, including drilling a block between the clamping medium and the compensation chamber in parallel rows of counter-directed descending and ascending wells in the vertical plane, charging them with explosive charges and orderly blasting, characterized in that the ascending and descending wells in the central part blocks in a vertical plane are drilled with a hole equal to ln.s. bottom parts of explosive charges of downstream wells, and ascending wells, in each subsequent row from the first, from the side of the clamping medium and the compensation chamber, the rows are drilled with a length decreasing by a value of l, determined by the formula l = W _p · tg (α-90 °), where l is the value of reducing the length of the ascending wells, m; W _p - l.s. explosive charges of a number, m; α is the angle of the alignment of the explosive funnel in the vertical plane, deg, the explosive charges in the ascending wells in each row are blown ahead of the explosive charges in the adjacent descending rows of the wells. 2. The method according to claim 1, characterized in that the downhole wells are charged with combined explosive charges with placement of directed explosive charges in the bottom parts of the wells.

Images