SU1051295A1 - Method of protecting mine workings - Google Patents

Abstract

THE METHOD OF PROTECTION OF MINING DEVELOPMENTS, including the drilling of parapleptic discharge wells in the sides of the mine, along the surface of the mineral fossil with interwell drilling, with the chain of increasing the stability of mine development and extending the period of its maintenance-free development. cargo wells drilled with parappie rows and arranged in pairs in the upper and lower rows, and in pairs. the wells of the upper and lower rows are positioned relative to each other in a staggered order, and the wells in the intermediate rows are positioned along the line leading to the opposite well pairs (L of the upper and lower rows.

Description

The invention relates to ixjpnoA schzh myshennosgi and can be used to support mine workings, mainly pasture (including worked and worked) in difficult conditions of support, especially in pulling rocks. There is a method of increasing the stability of mine workings by drilling paisk load wells in the sides of the mine with the remaining bore rear sight 1. The most important to the proposed technical essence is the method of protecting the mine workings, including the drilling of discharge wells parallel to each other in the sides of the mine working in the reservoir, leaving the interwell wells 2 J. The general lack of these methods is the location of the wells in one row parallel to the production soil, what gives effect only in the case of the direction of the unloading plane perpendicular to the direction of the greatest displacements, and this condition is not always feasible in specific conditions that the mineral, especially when changing the direction of extraction works. The purpose of the invention is to increase the sustainability of production and increase the duration of its maintenance-free maintenance. The goal is achieved by the fact that according to the method of protecting mine workings, including drilling parallel discharge wells in the sides of the mine, the discharge wells are drilled in parallel rows and in pairs in the upper and lower rows at the same time, the pairwise wells of the upper and lower rows are positioned relative to each other in a staggered order, and intermediate wells are positioned along the line connecting the opposite wells to p of the upper and lower rows. The drawing shows a longitudinal section of a mine, in the sides of which there is a mineral reservoir unloaded by wells. The drawing denotes a section 1 of production with relief wells, a reservoir 2 minerals, relief wells 3, an upper row of 4 wells, a lower row of 5 wells, intermediate rows of wells, conditional lines 7 connecting the right (according to the drawing) wells HI .I pairs of the upper row with the left wells of the lower row pairs, the same conditional lines 8, connecting the left wells of the upper row pairs with the right wells of the lower row pairs, the upper 9 wells, the lower pairs of 1O wells. The method is implemented as follows. When the mineral layer 2 is bare in the side of the mine, 2 marks the rows of future wells and boreholes 3-6. The distance between the rows is chosen equal to the limiting value of the interwell pillar. The limit value of the interwell pillar corresponds to such dimensions at which the stresses acting in the rear pillar exceed critical and the chain begins to collapse earlier than the array on the production contour. In the upper row 4 and the lower row 5, the upper 9 and lower 1O pairs of wells are drilled, respectively, with the same distance between the wells in the pair as between the rows of wells. The pair wells 10 of the lower row are shifted relative to the pair of wells 9 of the upper row in a shakhmatny order. The wells in the intermediate rows are arranged along lines 7 and 8, conventionally connecting the mouth of opposite pairs of wells of the upper and lower rows. All wells 3-6 are drilled perpendicular to the wall of the mine and parallel to each other. With the approach of the cleaning works, the section 1 of the protected excavation, falling into the zone of the reference pressure, begins to experience the effect of increased stresses. . How much is the magnitude and direction of the maximum stresses outside the zone and in the zone of the reference pressure? varies, the mode of operation of the discharge cavities will be the following: outside the zone of attaining the magnitude of stresses equal to the values that corresponds to the limiting (critical), fracture will begin in the interwell wells of the paired wells. When the clearing face approaches, the interwell wells of pillars along line 7, which are inclined in the opposite direction from the bottom, will be consistently destroyed (it is conditionally accepted that the bottomhole moves along the right-to-left hand drawing). pairs of pairs 9 and 1O. The lines on line 7 are subject to stresses directed close to the normal of the oblique line under consideration. Pillars on line 8, inclined to the side, because

This almost coincides with the direction of the MBKCHNianbiibix stresses, will be slightly destroyed. With a steady swing, pav: the direction of the maximum stresses of 1С to the considered section of the working goes to vertical and changes to the opposite direction, therefore, the intercapital chains on pine 8 will be destroyed, the plane of which is now perpendicular to maximum max. I

Thus, at any period of maintaining the excavation outside the zone and in the zone of influence of the reference pressure, the effective voltages will be close to normal with respect to the unloading planes (interwell points). Thus, unloading cavities in the sides are gradually formed.

the workings that relieve the increased stresses near it, not allowing radar rocks on the contour. A fractured hole in the minerals5 layer during fracture of the interwell wells becomes compliant due to the formation of cavities and prevents swelling of rocks in the soil of development, since the maximum of the existing stresses

10 output is moved beyond the relief area. At the same time, the process of destruction of downhole chains in time is very long, hence the discharge of the array takes a longer time.

15 time, almost the entire period of exposure to increased stresses, in the support pressure zone, therefore, the process of lowering the roof rocks occurs less intensively, which contributes to

20 stability lining.

Claims (1)

METHOD FOR PROTECTING MINING PRODUCTION, including drilling parallel to each other unloading wells in the sides of the development of the mineral layer with the leaving of "cross-hole pillars, characterized in that, in order to increase the stability of the development and increase the period of its maintenance-free maintenance, times—. load wells are drilled in parallel rows and placed in pairs in the upper and lower rows, while paired. the wells of the upper and lower rows are staggered relative to each other, and the wells in the intermediate rows are arranged along a line connecting the opposite wells of the pairs of the upper and lower rows. SU <. " 1051295 1 1051295