SU1701911A1 - Method of pillar reclamation - Google Patents

Abstract

The invention relates to the mining industry and m. used in the development of gently dipping ore bodies chamber-and-pillar system with the collapse of the roof rocks. The goal is to increase the safety of work in conditions of uneven distribution of rock pressure on the pillars. Before partial working out and subsequent repayment of the pillars (C) in each of them in the plane perpendicular to the front of the collapse of the roof rocks, at least one through hole is drilled. The distribution of the intensity of the acoustic emission pulses is recorded along the length of the NW, for example, using the AER 1 device, and the position of the maxima of the reference pressure (OD) is determined over the cross section C. In this case, the Cs having one maximum OD are left intact, reinforced by their installation NL anchor bolts. The cross section of U, having more than one maximum OD, is reduced. A decrease in Q is made on the side of the minimum depth of one of the maxima of the OD to the point of its decline. The remaining part C is reinforced with anchor bolts installed in the school. With the approach to the row of partially spent TS of the zone of collapse of the roof rocks, all TS is completely repaid. 1 hp f-ly, 1 ill. (Ls

Description

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The invention relates to the mining industry and can be used to partially re-develop gently dipping ore bodies that have been previously developed, leaving the pillars designed for the long-term maintenance of overburden.

There is a known method of laying pillars, including reducing their cross-section and destroying reduced pillars at the border with the overburden zone.

There is also known a method of excavation of the pillars, including the excavation of the approaches, leaving the pillars, reducing their cross-section and the destruction of the reduced pillars on the border with the overburden zone.

The disadvantage of these methods is that when excavating the pillars, the uneven distribution of rock pressure on the pillars and the quality state of the pillar are not taken into account, which leads to deterioration of safety conditions during partial pitting of the pillars, increasing the loss of mineral resources as when leaving the pillars with a depressed carrying capacity and with the sudden collapse of the roof with the massive destruction of the pillars. In addition, the excavation of the pillars is carried out at the boundary with the massif, which takes up the bulk of the load from the overlying strata of rocks and partially unloads the nearby pillars.

The purpose of the invention is to expand the scope and improve the safety of work in conditions of uneven distribution of rock pressure on the pillars.

This goal is achieved by that according to the method of excavation of the pillars, including: reducing their cross section and destroying the reduced pillars at the border with the overburden zone, overloading at least one hole in each pillar is drill-through and registering the intensity distribution of the pulses acoustic emission during drilling along the length of the hole, determine the position of the maxima of the reference pressure over the cross section and produce a selective reduction of the pillars, with the location of the maxima of the reference pressure in the edge In this case, a reduction in the helix is done with a ci.pole of the minimum depth of the maximum of the reference pressure, while detecting one maximum of the reference pressure in the central part of the rear plenum, an anchor bolt is installed in the through hole, and the rear pillar is left intact.

The proposed technical solution allows, based on the distribution of the intensity of acoustic pulses during the drilling of a through hole, to determine the position of the maximum of the reference pressure over the cross-section of the rear sight and, taking this into account, choose to reduce the rear sight, if it is in the limiting state, and strengthen it.

The drawing shows a diagram explaining the choice of the pillars in a partial excavation.

The method is carried out as follows.

In pillars 1 and 2, at least one through hole 3 is drilled and the distribution of the intensity of acoustic emission pulses 4 is recorded when drilling along the hole 3, the position of the maxima 6 of the reference pressure is determined over the cross section of the target axis and the selective reduction is made.

pillar 1 on side 7 of the minimum depth of distribution of the reference pressure, and Li L2, where Li and L.2 are the distances from the edge of the pillar to the maximum of the reference pressure. With one

maximum 6 of the reference pressure in the central part of the rear pillar 2, the rear pillar is untouched and is fixed with an anchor bolt 5.

Using the proposed method

partial refinement of the pillars makes it possible, compared to the known ones, to ensure safe working conditions and to find pillars under conditions of uneven distribution of rock pressure

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Invention Formula

Claims (2)

1.Spoo repayment of the entire scope, which switches the preliminary reduction of their cross section and destruction reduction / pillars at the border with the overflow zone. In order to increase the safety of work in conditions of odd-dimensional distributions on the pillars of mountain pressure, the overrun by working out the pillars in each of them in a plane perpendicular to the front of the roof collapse, at least at least one through shp p, along the length of the hole, the production of the measurement of the intensity of the pulses of acoustic emission is determined, the position of the maxima of the reference pressure is determined over the cross section of the rear sight, after which the production is selectively reduced more than one maximum of the reference pressure, from the side of the minimum head / point of the location of one of these maxids to the point of its complete decline. 2. The method according to claim 1, subtracting heme, which in the through hole of pillars having one maximum of the reference pressure in its central part, or after decreasing their cross sections, anchor bolt is set. /// /// /// /// / // /// /// /// /// /// ///, f / /// /// /// //// /// /// /// /// ///  // /// ///