RU2644185C1 - Method of under-level plasts' development processing with the binding of the established space - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: way to include the preparation of the extraction site to simulate the extraction fail plot of under-level short treatment sides, ventilated due to the general mine depression. The working out of the formation begins under the protection of the previously erected inter-horizon insulating strip, and in the presence of intercalation pillars also the insulating strips that were previously erected simultaneously with the flank slopes from the hardening tab with the advance of the cleaning work moving in the direction from the inter-horizon strip to the main drift. The working out of the excavating section is carried out in one wing - from the spent section towards the central slope, and in the other - from the central ramp to the target in the direction of the untreated excavation site, at a given value of the step of laying the worked-out space, no more than the allowable span of exposure of the roof of the formation along the line of incidence and strike.

EFFECT: reducing labour intensity and ensuring the safety of mining operations.

2 dwg

Description

The invention relates to the mining industry, to methods of sub-floor development of steep formations with the laying of the developed space.

A known method of developing a powerful steep layer of minerals with the laying of the mined-out space (RF patent for the invention No. 2283431, IPC E21C 41/18, published on 09/10/2006, bull. No. 25), including the development of a horizontal layer in strips along the strike by mechanical-hydraulic breaking and mountain transportation masses with filling the castings with a cast hardening bookmark and leaving workings in them for subsequent feeding into the worked out space of the combined bookmark. The development of the formation is carried out in stripes in a descending order, leaving the drift and furnaces in the underlying stripes, and the mining of the next strip is carried out by a hydraulic monitor, and for flexible overlap, a rock is fed into the worked out space from the hopper using a conveyor, which is impregnated with a cast hardening tab when filling the preparatory workings.

The disadvantages of this method are the complex ventilation of the faces; a large amount of preparatory work; low concentration of mining in the prepared excavation site.

Closest to the proposed technical solution is a method of sub-floor development of steep formations with laying of mined-out space (RF patent for the invention No. 2467169, IPC E21C 41/16, E21F 15/00, published on November 20, 2012, bull. No. 32), including the preparation of excavation site for mining, mining excavation site subfloors short stope, aired due to mine depression. The development of the formation is carried out by oncoming short working faces from the flank slopes to the central slope with airing according to the direct-flow scheme and ahead of the preparation. The worked out space of the worked odd subfloors is filled with a hardening bookmark, and in the left even floors between the worked odd subfloors, the worked out space is filled with a regular bookmark, and when they are worked out, the former ventilation drift of the odd subfloor is used as a conveyor.

The disadvantages of the known technical solutions are:

- lack of isolation of the worked horizon from aerodynamic permeability, with increasing probability of coal spontaneous combustion;

- the imposition of reference pressure when meeting the faces at the central slope, the possible deformation of the central slope;

- exposure of the face of the working face of a more permissible span;

- limited length of the excavation section along strike;

- the presence of coal losses in the horizontal, inter-section pillars and guard pillars of the central slope.

All of the above factors increase the complexity and risk of mining.

The technical result is the reduction of labor and ensuring the safety of mining.

The specified technical result is achieved by the fact that in the method of subsurface development of steep formations with laying of the mined-out space, including the preparation of the excavation section for mining, the mining of the excavation section by sub-floors with short working faces aired by the shaft depression, according to the claimed technical solution, the development of the formation begins under the protection of a pre-erected horizontal horizon insulation strip and in the presence of inter-section pillars also previously erected simultaneously with the flank slopes of the insulating strip from the hardening tabs with the front moving in front of the horizontal strip to the main drift, while mining the excavation section lead in one wing - from the worked out area towards the central ramp, and in the other - from the central ramp to the rear towards neotrabot of a given excavation section, for a given step size of laying the mined-out space of not more than the permissible span of exposure of the roof of the formation along the line of fall and strike.

The claimed technical solution is illustrated by drawings, where in FIG. 1 is a diagram along the strike line of the formation, in FIG. Figure 2 shows a fragment of a section of the formation across the strike (section AA).

The preparation of the excavation site for mining is that:

- preliminarily limit the field of the excavation site on the worked-out floor: from above, from the worked-out excavation sites 1 of the overlying worked-out floor, to the interfloor fractured coal whole 2 and the interfloor coal whole without cracks 3; to the left, also from the worked-out excavation section 1, by the inter-section coal whole 4 (Figs. 1, 2);

- carry out the central 5 and flank 6, 7 crosshairs on the ventilation horizon, the central 8 and flank 9, 10 crosshairs on the return horizon, the ventilation 11 and main 12 drifts, subfloor drifts 13, 14, 15 and the central 16 and flank 17, 18 slopes ( Fig. 1).

The mining of the excavation site is carried out by subfloors with short working faces ventilated due to mine depression.

According to the claimed technical solution, the development of the formation begins under the protection of a pre-erected horizontal horizon insulation strip 19 and in the presence of inter-section pillars also pre-erected simultaneously with flank slopes 17 and 18 of insulating strip 20 and 21 from the hardening tabs with the front of the treatment works moving away from the horizontal strip 19 to the main drift 12, while the mining of the excavation section is carried out in one wing - from the worked out section 1 towards the central ramp 16, and in the other - from the central ramp 1 6 to the side towards the untreated excavation site, for a given step of laying the mined-out space not more than the permissible span of exposure of the roof of the formation along the line of fall and strike to maintain the massif in a state close to natural.

The preliminary construction of the horizontal horizon insulation strip 19, the construction of insulation strip 20 and 21 simultaneously with the flank slopes 17 and 18 provide isolation of the spent horizon from aerodynamic permeability, reduce the likelihood of spontaneous combustion of coal, and therefore ensure the safety of mining operations, i.e. the claimed technical result.

The roof appears to be constantly supported on four sides by a plate, the span between the supports of which is constant over the dip of the formation, and increases along the strike as it is worked by short working faces, and under the condition of maintaining the massif in a state close to natural, the length of the spans should not exceed the allowable exposure ; compliance with this condition also provide the claimed technical result.

The mining procedure is predetermined by the condition that there is no imposition of reference pressures, as well as the absence of a possible deformation of the central slope 16, which ensures the claimed technical result. In the wing on the left, where mining starts from the worked-out excavation section 1, the roof is initially supported by the fall: from above - onto the horizontal horizon insulation strip 19, from below - the unworked pillar of the lower sub-floor; along strike: on the left - on the insulating strip 20, on the right - on the bottomhole pillar, which is receding as it is worked out. In the wing on the right, where mining starts from the central slope 16, the roof initially rests in the fall: from above - on the horizontal horizon insulation strip 19, from below - the unworked pillar of the lower sub-floor; along strike: on the left - on the unworked pillar of the left wing, on the right - on the bottomhole pillar, which is receding as it is worked out.

Work on the laying of the worked-out space as the short treatment faces are moved gradually produce a hardening bookmark. In this case, the developed space is laid in increments of no more than the permissible span of exposure of the formation roof along the strike line, which can be determined from the well-known formula

;where k is a coefficient taking into account the ratio of the lengths of the sides of the exposure of the roof

;

);( k = 2.0 for

);

σp is the tensile strength of the immediate roof, tf / m ² ;

hkr - thickness close the roof, m;

μ is the Poisson's ratio;

q is the bulk density of the immediate roof, t / m ^3.

So, according to the Kiselevskaya mine of the Prokopyevsk-Kiselevsky coal-bearing region, the desired values will be:

1) for reservoir IV Internal, direct roofing is coarse and medium grained sandstone, σp = 8.0 MPa = 8.0 × 10 ⁶ N / m ² , hcr = 13.5 m, q = 33.345 × 10 ⁶ N / m ² , μ = 0.33

составит h=2,5lпр=2,5⋅9,91=24,8≈25 м;the height of the sub-floor along the line of incidence from the accepted ratio

will be h = 2.5 lpr = 2.5⋅9.91 = 24.8≈25 m;

2) for reservoir III Internal, direct roofing is mudstone, σр = 4.0 MPa = 4.0 × 10 ⁶ N / m ² , hcr = 7.0 m, q = 13.725 × 10 ⁶ N / m ² , μ = 0.22

составит h=13,7≈14 м;the height of the sub-floor along the line of incidence from the accepted ratio

will be h = 13.7≈14 m;

3) for formation II Internal, direct roofing is coarse and medium grained siltstone, σр = 4.7 MPa = 4.7 × 10 ⁶ N / m ² , hcr = 9.0 m, q = 15.75 × 10 ⁶ N / m ² , μ = 0.27

составит h=18,1≈18 м.and the sub-floor height along the falling line from the accepted ratio

will be h = 18.1≈18 m.

Coal mining in the face, depending on the seam capacity, can be carried out by combines (Temp type), a blasting method (with drilling holes along strike, or long holes to the sub-floor height), hydraulic softening of the array, plow installations.

When practicing the next substage, the role of the horizontal horizon insulation strip 19, as the roof support, is played by the filling array of the upper substage formed above. Thus, they also provide the claimed technical result.

Chipped coal is transported down the slopes 16, 17, 18 and further through the main drift 12 of the haul-off horizon to the loading complex of the mine.

The ventilation of the faces is carried out due to the mine shaft depression through the central cross-hatch 8 and flank cross-hoses 9 and 10, the central slope 16 and flank slopes 17 and 18, sub-floor drifts 13, 14, 15, according to FIG. one.

The principle of maintaining the roof adopted in the proposed technical solution allows you to completely avoid the need to leave the interfloor fractured coal pillar 2 and the interfloor coal pillar without cracks 3 when preparing the site for development; to the left, as well as the inter-section of the coal pillar 4, which can significantly reduce coal losses during mining, increase the length of the excavation section along the strike (the distance between the flank cross-sections 6 and 7), which also provides the claimed technical result.

Thus, the claimed technical result is provided due to the fact that:

1) the development of the formation begins under the protection of a pre-erected horizontal horizon insulation strip and in the presence of inter-section pillars also pre-erected simultaneously with flank slopes of insulating strip from a hardening tab with moving the front of the treatment work in the direction from the horizontal horizon to the main drift,

2) mining of the excavation site is carried out in one wing - from the worked-out area towards the central ramp, and in the other - from the central ramp to the rear towards the untreated mining section;

3) the step size of laying the mined-out space is set to not more than the permissible span of exposure of the roof of the formation along the line of fall and strike to maintain the massif in a state close to natural.

Claims (1)

A method of sub-floor development of steep seams with laying of the mined-out space, including preparing the excavation section for mining, mining the excavation section by sub-floors with short working faces ventilated due to the mine depression, characterized in that the mining of the formation begins under the protection of a pre-erected horizontal horizon insulation strip and in the presence of inter-section pillars also pre-erected simultaneously with the flank slopes of insulating strips from the hardening tabs with the front movement of the eyes works in the direction from the horizontal horizon to the main drift, while mining the excavation section is carried out in one wing - from the worked section towards the central ramp, and in the other - from the central ramp to the rear towards the unworked mining section, for a given value for laying the worked out spaces of no more than the permissible span of exposure of the roof of the formation along the line of fall and strike.

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