RU2624746C1 - Method of determining the dynamics of the processes of the deformation of the rocks of the mountain massif and the device for its realisation - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: method involves drilling wells and holes in underground mines. A measuring set with a video endoscope fixed at its end and a perspective ruler fixed at a distance of the wide-angle visual angle of the video vision of the video endoscope is inserted into the well. The exact position of the cracks is determined by the depth of the well and its approximate width, the location of the cracks found in the well is fixed along the length of the rod, and the video endoscope and the prospective ruler determine their approximate width, fix them in the observation log, cracks are classified by width. For each class, a measuring cone-probe with a certain step of the measuring rifled steps and their diameter is selected. Cone-probe, anchored on the rod, is injected into the mouth of the measured crack and on the diameter of the steps and their number, depth move hidden areas in rift, define the breadth and depth of its disclosure. Repeated cycles of measurements are carried out according to the classification of previously measured cracks and from the changes in crack opening width determine the dynamics of rock mass deformation processes. The device contains a measuring probe, made in the form of a removable cone-probe, in which completed mounting hole for fastening to the typesetting of the measuring rod, and by forming a cone cut measuring steps, the rod is a rod set with elements of articulation with each other. Measuring steps threaded cone-probe performed with step on its axis in ascending order from h=0.5 mm, with diameters from stages d=1 mm in width measured cracks. At the end of the set of rods, a video endoscope is installed, and a perspective ruler is attached at a distance of the wide-angle visual angle of the video endoscope capture.

EFFECT: increasing the accuracy of measurements.

3 cl, 5 dwg

Description

The invention relates to mining and can be used to measure crack opening during geomechanical monitoring in order to assess the stress-strain state of a rock mass, determine the width of crack opening and the dynamics of their development.

A known method of measuring the gaping of cracks, including selecting a portion of the exposed surface of a fractured soil mass, the directions of the lines of measurement and measurement of the gaping (opening) of cracks perpendicular to the walls of cracks by the identified crack systems by various measuring devices [Neystadt L.I. Methods of engineering and geological study of rock fracturing. M .: "Energy", 1969, p. 151-153].

This method allows you to explore the massif only on the surfaces of the outcrops. The disadvantage is the low accuracy and limited measurement area.

A known method of measuring the width of the opening of cracks in the array, based on a comparison of the electrical parameters of the fractured and non-fractured sections of the rock mass, the dielectric constant of the rock mass is measured by passing an alternating electric current between the electrodes placed in the wells drilled at equal distances from one another, and the phase difference during the passage of electric current through the fractured and non-fractured parts of the array, by which judge the width of the opening of cracks in the array [Av Orsk certificate of the USSR №1102948, M.Kl. E21C 39/00, dated 12.21.1982].

The disadvantages of this method are the complexity of its implementation, lack of accuracy and difficulty in interpreting the measurement results.

The closest in technical essence and the achieved result is a method of measuring the gaping of cracks, which consists in choosing a section of the exposed surface of the fractured soil mass, the direction of the lines of measurement and measuring the gaping (opening) of cracks perpendicular to the walls of cracks on the identified crack systems using various measuring devices. At the same time, when choosing the site for measuring the gaping of cracks in the soil mass, its structural position in the general hierarchical system of fragmentation of the earth's crust is determined and the area over which the obtained measurement results are distributed, immediately before measurements, the natural exposure surface is subjected to mechanical cleaning with frill, water or air treatment, cleaning cracks from contaminating aggregate, select several parallel lines of measurement across the extension of cracks in the identified systems, taking into account their variability, and measurements of yawning are performed with removable wedge-shaped probes, including truncated, with an angle of 5 °, a width of 2 cm and a spike, one beveled plane of the wedge, on which there is a scale with a division price of 1 mm, corresponding to 0.1 mm gaping cracks, and a magnet and another plane perpendicular to the side end of the housing, equipped with a handle and a groove under the spike of a removable probe [RF Patent No. 21655592, M.Kl. G01B 3/30, E02D 1/00, dated 02.07.1998 (prototype)].

The disadvantage of this method is the limited application and the inability to measure crack opening directly in the rock mass.

An object of the invention is to increase the accuracy and efficiency of regional and local prediction of fracturing of a rock mass when assessing the stress-strain state of a rock mass.

This goal is achieved by drilling wells and holes in underground mine workings, examining the well using a video endoscope mounted on a guide rod with a perspective ruler and a removable measuring probe made in the form of probes with various steps and diameters of the measuring steps, fixing the location of cracks in the well and introducing the selected probe with the selected step and the diameter of the measuring steps at the mouth of the measured cracks and the number of probe steps included in the track the width and depth of its opening, determine the width of the opening of cracks during the following measurement cycles, which indicates the dynamics of the deformation of the rock mass.

An apparatus that implements this method additionally includes a composing rod made with the possibility of increasing along the length of the well, a video endoscope attached to the rod, and a metal removable measuring probe made in the form of a removable cone with a mounting hole for attaching to the guide rod, while measuring steps the probes are made threaded with a step along the axis of the probe from h = 0.5 mm or more, and the diameter of the probe steps in increasing from d = 1 mm to the size of the measured crack. In this case, for measuring cracks of different widths and depths, the measuring probes are made in the form of removable cones with an aperture and measuring threaded steps with different pitch h and diameter d and place them in a separate cassette.

The invention is illustrated by drawings, where in FIG. 1 and FIG. 2 shows a probe device for measuring crack opening widths; FIG. 3 shows a photograph of the device in working condition, FIG. 4 is a photograph of a downhole measurement with a metal removable measuring probe, made by a video endoscope attached to a rod; FIG. 5 shows a video endoscope with a perspective ruler mounted at the end of a measuring dial.

The device contains a metal measuring probe, made in the form of a cone -1 (cone-probe), in the cone-probe - 1 there is a mounting hole - 2 for attachment to a dial gauge rod and measuring threaded steps - 3 (steps). Measuring stacking rod - 4 (rod) is made in the form of a set of rods - 4 with elements of articulation with each other. Measuring threaded steps - 3 cone probes - 1 are made with increments along its axis in increasing order from h = 0.5 mm and with step diameters - 3 from d = 1 mm across the width of the measured cracks. The number of measuring cone probes - 1 depends on the fracturing of the studied rock mass and the variety of cracks in width and depth, while the probes themselves are placed in a cassette (not shown in the drawings). A video endoscope - 5 is installed at the end of the dial gauge - 4, and a perspective ruler - 6 is attached at a distance of the wide-angle visual angle of capture (video vision) of the video endoscope - 5.

The method is implemented as follows.

When conducting mining operations in massifs with signs of high tectonic stresses to assess the stress-strain state in the mine workings, boreholes or wells are drilled deep into the massif. A dial gauge bar 4 is inserted into the well with a video endoscope fixed at its end — 5 and a perspective ruler — 6, mounted at a distance of the wide-angle visual angle of the video vision of the video endoscope — 5, which allows for accurate photo or video recording of the position of the cracks along the depth of the well and its approximate width . The location of cracks detected in the well is fixed along the length of the rod - 4, and the video endoscope - 5 and the perspective ruler - 6 determine their approximate width, which is recorded in the observation log. Cracks are classified according to their width and for each class a measuring cone probe is selected from the cassette - 1 with a certain step of measuring threaded steps - 3 and their diameter. The measuring cone-probe - 1, mounted on the rod - 4, is installed at the mouth of the measured crack (Fig. 3, 4) and the diameter of the steps - 3 and their number, which are located in the crack by depth (for control), determine its width and depth disclosures.

Thus, by drilling boreholes and holes in underground mine workings, wells are examined using 4 video endoscopes, 5 with a promising ruler, attached to the rod, 6, the locations of cracks in the well are recorded and classified, and by introducing a probe cone, 1 at the mouth of these cracks, by the number of probe steps introduced into the crack, determine the width and depth of its opening. Next, repeated cycles of measurements are carried out for previously measured cracks and the dynamics of deformation of the rock mass is determined by changes in the width of their disclosure.

Since tensile cracks form in the planes in the direction of the maximum principal stresses, according to the measurement results, plans are made for mapping the measured cracks in the massif, and crack opening processes (increase in gaping) are recorded.

Each subsequent measurement cycle allows us to evaluate the change in the width of the crack opening, which indicates the dynamics of the deformation of the rock mass during mining and allows you to predict geomechanical processes for these conditions.

The device operates as follows.

To assess the stress-strain state in the mine workings, wells (or holes) are drilled deep into the massif. A stacking rod is introduced into the well - 4, made with the possibility of extension along the length, with a video endoscope attached at the end - 5 and a perspective ruler - 6, mounted at a distance of the wide-angle visual angle of the video vision of the video endoscope - 5. Photo or video fixation of the position of the cracks along the depth of the well is carried out by the number and length of the set of rods. The approximate width of the cracks is determined by video fixation according to the promising ruler - 6. The results are recorded in the observation log. Cracks are classified according to their width and for each class a measuring cone probe is selected from the cassette - 1 with a certain step of measuring threaded steps - 3 and their diameter. The probe cone - 1 is fixed at the end of the rod - 4, installed at the mouth of the measured cracks and the diameter of the steps - 3 and the number that fit in the crack in depth (for control), determine the width and depth of its opening. When choosing the probe cone - 1, the step of steps - 3 along its axis in ascending order from h = 0.5 mm and with step diameters - 3 from d = 1 mm taking into account the width of the measured cracks is taken into account, determining the width of the crack opening and the dynamics of their development.

To measure cracks with different widths and depths, the measuring cones - 1 are made in the form of a set of removable cones (cones - 1) with steps of 3 with different pitch h and diameter d and placed in a separate cassette.

Thus, the method and device that implements it allows one to quickly evaluate the stress-strain state inside the rock mass in areas of long length and volume, to predict and control the development of geomechanical processes during the development of mineral resources by determining the width of the opening of cracks and the dynamics of their development.

Claims (3)

1. A method for determining the dynamics of the processes of deformation of rock of a rock mass, including measuring the width of the crack opening, which consists in choosing the exposed surface of the fractured soil mass, the direction of the measurement lines and measuring the gap (opening) of the cracks perpendicular to the walls of the cracks, characterized in that the holes are drilled or bore holes deep array, a measuring rod is inserted into the well with a video endoscope fixed at its end and a long-range ruler mounted at a wide-angle distance the visual capture angle of the video endoscope’s video vision, the exact position of the cracks along the depth of the borehole and its approximate width is recorded, the location of the cracks found in the borehole is fixed along the length of the rod, and the approximate width is determined by a video endoscope and perspective ruler, recorded in the observation log, the cracks are classified by width and for each class, a measuring cone probe is selected from the cartridge with a certain step of the measuring threaded steps and their diameter, a cone probe fixed to Ange is introduced at the mouth of the measured crack and by the diameter of the steps and, for control, their number, by the depth of the crack, the width and depth of its opening are determined, repeated cycles of measurements are carried out according to the classification of previously measured cracks and the dynamics of the processes is determined by the changes in the width of the crack opening deformations of the rock mass, according to the results of measurements, make plans for mapping the measured cracks in the mass, and the processes of crack opening (increased gaping) are recorded, and according to the dynamics of the processes Ania rock mass during mining predict geomechanical processes for these conditions. 2. A device for determining the dynamics of deformation of rock massif containing a removable wedge-shaped measuring probe with a truncated angle of 5 °, a width of 2 cm with a spike and one beveled plane of the wedge with a scale with a division price of 1 mm, characterized in that it contains a measuring probe made in the form of a removable cone probe, in which a mounting hole is made for fastening to a dial gauge rod, and measuring steps are cut along the generatrix of the cone, the rod is made in the form of a set of rods with elements articulations with each other, and the measuring threaded steps of the cone probe are made with increments along its axis in increasing order from h = 0.5 mm and with step diameters from d = 1 mm along the width of the measured cracks, a video endoscope is installed at the end of the dial rod, and at a wide-angle distance the visual angle of capture (video vision) of the video endoscope is attached to a promising ruler. 3. A device for determining the dynamics of rock deformation processes of a rock mass according to claim 2, characterized in that for measuring cracks with different widths and depths, the measuring cones are made in the form of several removable cones with measuring steps with different pitch h and diameter d and placed in a separate cassette.

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