SU1129354A1 - Method of underground working of mineral deposits - Google Patents

Abstract

1. METHOD OF UNDERGROUND DEVELOPMENT OF PLACES, which includes mining the deposit with excavation chambers and setting the chambers with hardening mixtures, which alternate with mining of excavation sites with collapse in overburden chambers, characterized in that, in order to increase the safety of work during the development of steeply dipping deposits, it is necessary to ensure that the development of steeply falling and inclined deposits hardens. friable rocks, overlapping of overburden rocks is limited to running across the strike of adjacent excavation sites with a bookmark, the number of which is determined from the expression, (l-Ho6p / H) / L , 6p -Jcospll cosoi n 1 + en-t 6oJ / TH where m arr (oC + dcos / i / L) is the estimated height of the breaking of rocks from the roof of the working horizon; m is the thickness of the reservoir at the normal to the fall; Кр is the coefficient of loosening of the rock formation about (, - the angle of fall of the reservoir, of - the size of the bottom of the chamber; - the angle of inclination of the bottom to the horizon; L, - the length of the excavation section (floor) by the fall; dj-j - strength of the rock mass of the temple in compression, V is the volume weight of rocks in the massif; H is the depth from the day surface to the roof of the working horizon; g5-p LgNcosot o / cos / i is the width of the zone of collapse; N is the number of runs in ore ike worked with collapse; with the collapse, they roll the panels along the strike, than between the panels before they work They dig out the chambers and lay their developed space with mixtures 2. POP method 1, characterized in that the collapse of deposits on rocks is limited by fixing the crushed rocks by hardening them.

Description

11129354 The invention relates to the mining industry and can be used for underground mining of steep and inclined deposits using hard bookmarks under 5 watered rocks. The known method of underground mining of ore deposits, including the mining of a floor with a laying of the worked-out space hardening 10 remaining between parts of an artificial ore array, is conducted under collapsing overburden l. However, this method provides for localization measures for the zones of collapse, and therefore its use is limited if there are watered horizons over the field. The closest to the proposed 20 technical essence and the achieved result is a method of underground mining, which includes mining the excavation areas with a bookmark ka: measures of hardening mixtures that alternate with mining excavation areas with collapse in the cells of lightweight rocks 2, The disadvantage of this method is the unregulated development of zones of the collapse of overburden rocks, which is associated with the danger of breakthrough of the covering watered rocks into working horizons. The purpose of the invention is to increase the safety of work in the development of steeply dipping and sloping deposits under watered loose rocks. The goal is achieved by those. according to the method including. processing of the deposit by excavation plots with the laying of chambers with hardening mixtures that alternate with mining you plots with the collapse of overburden rocks in the chambers, the collapse of the overburden rocks is limited by treating across the stretch of adjacent excavation plots with a bookmark, the number of which is determined from the expression: I.gr /) / 1-about ,, L cosoiS - + dlcosp nf -entL L | T? O5p (Kp-1) (co5d + cJcos / U,) - the calculated height of the collapse of the rocks from the roof of the Horizon; n p in t with p about nn n m - the thickness of the deposit along the normal to the fall i kp - the coefficient of loosening of the collapsed rocks; ol is the dip angle, d is the size of the chamber bottom; / i - the angle of the bottom to the horizon LJ - the length of the floor in the fall; - durability of the massif of breeds of vis of which side on compression; y is the bulk weight of rocks in the massif, H is the depth from the surface to the roof of the developed horizon, L.g L Nco5ot- cJoos / 5 - is the width of the zone of collapse; N is the number of floors in the ore pillar, which are worked out with the collapse, and the excavation areas with the collapse work by pa- raering, and between them ate ksh before they are worked out, weave chambers of chambers and put their vigorous space with hard-hardened mixtures. In addition, the overlap of the overlying odes is limited by fixing the weathered rocks with hardening mixtures. Figure 1 shows across the stretch of the place, leaving the mines between floors with a bookmark, the moment of working it with the collapse of curbed rocks, vertical section, figure 2 - across the strike at the time of working with the collapse of the second ore pillar, vertical section, in Fig. 3 - strike the deposit is at the stage of dividing into panels and counter working in a floor with a collapse, starting from the flanks of the panel, section AA in FIG. The method of underground mining of steeply dipping and sloping deposits is carried out as follows. Steeplead ore body 1 is located under the horizon of water-cut rocks 2. Ore body 1 is worked out by excavation areas (floors) with setting hardened mixture of floors 3 is shown in Fig.1 Letters a, b, c, d, etc. The excavation of the floors with a bookmark is, for example, downward along the fall consistently and form an interfloor rear pillar 4, in this case, the same height of the floor with the bookmark. Next, under the ore entirely S.1 4, the next floor is processed with filling the developed space with a hardening mixture. After solidification of the artificial massif, they proceed to the processing of the overlying ore pillar 4 using the system with the overburden of the overburden 5. At the same time, the mining of the underlying horizons is continued using the bookmark. Working off the floor with a collapse is performed in the following way. Along the strike, the floor is divided into panels 6. At the borders of the panels, single chambers 7 are processed and filled with hardening mixture. After the required strength of artificial arrays in single chambers, panels 6 are worked out with overlapping rocks breaking 8. If the collapse zone of the permeable rocks reaches a height that exceeds the calculated, the processing of such a panel is suspended for the period of placement of the hardening mixture into the rock formation and its hardening. The hardening mixture is transported to the collapsed rocks through the emergency-laying drift 9, passed in the hanging side of the ore body, and filling holes 10. The hardening mixture, filling in the voids and 54 solidifying, stops the development of the collapse of the rocks. Single chambers at the borders of panels laid with a hardening tab play the role of emergency jumpers, in case water-flooded rocks penetrate into the zone of collapse (fracture zones, voids, karst, etc.) and eliminate the likelihood of flooding of the mine. In addition, single artificial arrays limit the zone of collapse along the strike, which slows down or eliminates the development of these zones in height. Testing with the collapse of the next floor drop is possible after successive completion of floors with a bookmark in an amount determined by the formula (1). The initial working depth with a collapse is determined by formula (2). With the development of sewage treatment works on deeper horizons, the rear pillar 4 is formed with a height of several floors, which are worked out sequentially. The use of the invention makes it possible to significantly increase the efficiency of development in complex hydrological conditions with sufficient safety of cleaning operations.

Fich.Z

Claims (2)

1. METHOD OF UNDERGROUND DEPOSIT DEVELOPMENT, including mining of deposits by excavation sites with laying chambers with hardening mixtures, which alternate with mining of excavation areas with collapse in overburden chambers, characterized in that, in order to increase the safety of work when developing steeply dipping and inclined deposits under flooded pits rocks, collapse of the overlying rocks is limited by working out across the strike of adjacent excavation sites with a tab, the number of which η is determined from the expression, K ¹ - ^N 0 br / ^N ) / 1 _o6 r 1 PcJ / th- ¹ n = 1 + en + where - the estimated height of the collapse of the overlying rocks from the roof of the worked horizon; w - power deposits normal to the fall; Кр - coefficient of loosening of collapsed rocks; ot - angle of incidence of the deposit ·, d - size of the bottom of the chamber; β> is the angle of inclination of the bottom to the horizon; L ₃ - the length of the excavation site (floor) in the fall; - compressive rock mass of the hanging side rock, _ ⁹ s; γ — bulk rock weight in mass of 9 ve; N - depth from the day surface to the roof of the worked horizon; ^ 'o8'p ⁼ ^ e Ncosol + cicos / i - width of the caving zone; N is the number of floors in the ore pillar, worked out with collapse, and excavation areas with collapse are worked out by panels along strike, with chambers being excavated between panels and their worked out space laid with hardening mixtures. 2. The method of pop. 1, characterized in that the collapse of the overlying rocks is limited by fixing the collapsed rocks with hardening mixtures. SU ,,, 1129354> 1 129354