SU1680982A1 - Method for controlling hydromechanical processes in a body of rocks - Google Patents

Abstract

The invention relates to mining and is intended to control the stress-strain state of a rock mass. The goal is to reduce the complexity of the measurements. According to surveying measurements, the boundaries of the calculated displacement array (MS) of the array are determined. Along the perimeter of the MS place measuring profiles (PI). The profiles are located perpendicular to the MS boundary, symmetrically with respect to it. The length of the PI is chosen equal to the depth of mining. At points along the PI, the magnitude of the natural electric potential of the rocks is measured using non-polarizing electrodes installed along the PI. By measuring the potentials, portions of the array are identified, at which compressive stresses are replaced by tensile stresses, and regions with elevated stresses. The method allows to eliminate drilling and thereby reduce the laboriousness of measurements. 1 il. with s

Description

The invention relates to mining and is intended to control the stress-strain state of a rock mass in the vicinity of displacement molds.

The purpose of the invention is to reduce the complexity of the measurements.

The drawing shows the boundary of 1 displacement trough, graphs 2 and 3 of measuring the natural electric potential of rocks along measuring profiles A-A1 and B-B1, the position of the zero electrode N.

The method is eaten in an eating manner.

According to surveying measurements, the boundaries 1 of the calculated displacement frame of the rock massif are preliminarily determined and the contour of the boundary of the boundary 1 of the displacement contour to the reference points on the surface is carried out.

Along the perimeter of the contour of the boundary 1 of the displacement trough, an area is selected in which the measuring profiles A-A1, B-sJ, etc. are placed, along which the non-polarizing electrodes are installed. The length of the profiles is chosen equal to the depth of mining, which corresponds to the condition of a possible subsidence of the surface. The measuring profiles are placed perpendicular to the boundary of the displacement trough 1 and symmetrically to the latter. The distance between the profiles is 10-20 m. Part ON 00 O O 00

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The operating electrodes are placed along the profiles in 10 m increments, while the zero electrode N is set outside the influence of the displacement trough.

At each point in the profile, the magnitude of the natural electrical potential of the rocks is measured, and graphs 2 and 3 of potential measurements along the profiles are plotted. In these graphs, areas with high potential gradients are well distinguished, corresponding to high gradients of mechanical stresses localized at the boundary of the calculated displacement mold. In addition, the transition from low to high values of the potential makes it possible to isolate portions of the array at which compressive stresses are replaced by tensile stresses, and thereby determine the places of the dangerous state of the earth's surface before it begins to subside or shift.

This method allows to control geomechanical processes in the rock mass without drilling wells and thereby reduce the labor intensity of the control.

Claims (1)

Invention Formula A method for monitoring geomechanical processes in an array of rocks, including measuring the natural electrical potential of rocks with non-polarizing electrodes, installed along the measuring profiles, determining the potential changes by profiles and determining the position of the boundaries of the danger zone, characterized in that, in order to reduce the laboriousness of the measurements, the boundaries of the calculated displacement rock shear are predetermined, and the measurements are performed on the ground surface along the perimeter of the calculated displacement In this case, the measuring profiles are positioned perpendicularly to the boundary of the displacement trough and symmetrically relative to it, and the length of the profiles is chosen equal to the depth of mining.