UA18507U - Method for determination of possible spatial displacements of earth surface of coal mines in time - Google Patents

Abstract

Method for determination of possible spatial displacements of earth surface of coal mines in time includes arrangement of line of ground reference points, analysis of initial data of the conditions of coal bed working-out and date of previous studies of surface subsidence for the mine under study and the neighboring mines, with preparation of the reference-point base of plans of mining works according to the steps: the first step - scanning of separate fragments, with bringing those to one image, its orientation and following calibration, second step - setting coordinate system and calculation grid for calculation of subsidence at each mine, third step- vectorization and filling the table of attributive data for each breakage working and approximation of contours of those, fourth step - calculation of subsidence for separate workings with account of separate effects, with presentation of results of calculations as graphs of iso-lines, mathematical processing and classification of the objects obtained with use of plans of mine workings, archive data, geo-information system ôGeoMarkö, with affixment of the calculation net in the center of the main stem, with vectorization of raster images by polygons and with calculation of subsidence with use of the program WinMulda. One chooses specific point of observations at day surface in the zone of bed series working-out. One determines coordinates before implementation of mining works at that section. One determines time having passed from the beginning of soil motion to the instate when the mine working intersects the projection of the point of observation, time having passed from the instant of the mine working intersection of the projection of the point of observation and till the time of the motion time end. One enters the parameters obtained to the formula of subsidence calculation.

Description

Description of the invention

The proposed useful model applies to the mining industry, in particular, the methods of protection of counterfeit 2 buildings and structures located in the zone of influence of mining operations, and can be used in solving issues of environmental safety of the surface of mines that are being liquidated.

A known method of deformation of the earth's surface during the fabrication of structural weakening |1), which includes the laying of a line of soil benchmarks across the extent of the disturbance and their frequent leveling, the consequences of which determine the acceleration of the subsidence of the lying and hanging wings of the disturbance, and the nature of the displacement process at the exit of the structural weakening is determined by the ratio acceleration of the subsidence of the lying and hanging wings of the disturbance.

The disadvantage of this method is the need to perform a large amount of repeated observations, which are required to determine the acceleration of the wing subsidence of the disturbance with sufficient accuracy. The forecast of displacements of the earth's surface is not carried out over the entire fake area, but only along the line of established soil benchmarks. There is a low informativeness of the method, while the nature of the development of the soil displacement of the earth's surface 12 (settlement) in time is not taken into account when developing the world of coal seams.

The method of determining the possible spatial displacements of the earth’s surface of coal mines |2) is the closest to the expected useful model in terms of technical essence and the result that is achieved, which consists in the fact that a line of pound benchmarks is laid on the earth’s surface, the raw data of the conditions of working out of a coal deposit are analyzed and based on the data of previously conducted observations, the raster bases of plans for mining operations are prepared according to the stages: the first stage - scanning of individual fragments, their merging into a single image and orientation; the second stage - setting the coordinate system and settlement calculation grid; the third stage - vectorization and filling of the attribute data table; the fourth stage - calculation of subsidence from individual products taking into account individual influences, presentation of results in the form of isoline graphs, mathematical processing and classification of the obtained objects. The received information for one mine is processed and used in the classification and calculation of subsidence in operating mines with similar mining technical conditions. -at

The disadvantage of this method is that the determination of possible spatial displacements of the earth's surface is carried out without taking into account the nature of the development of earth's surface displacements (sediments) over time during the development of coal seams. As a result, the accuracy of determining possible spatial displacements of the Earth's surface is insufficiently high.

The proposed useful model is based on the task of creating a method of determining possible - 30 spatial displacements of the earth's surface of coal mines in time, in which, due to the selection of a specific point and observations on the surface in the zone of working out the strata, its coordinates are determined before the start of mining operations in this area , determining the time y elapsed from the beginning of the rock shift to the moment of crossing o lava projection of the observation point, the time Uy elapsed from the moment the lava projection intersects the observation point o and to the moment of the end of the displacement process and entering the obtained parameters into the settlement calculation formula, 35 is achieved the technical result is an increase in the accuracy of determining possible spatial displacements of the earth's surface.

The task is solved by the fact that in the method of determining the possible spatial displacements of the earth's surface of coal mines in time, which includes the laying of lines of soil benchmarks, the analysis of the initial data of the conditions of "working out the coal deposit and the data of previously conducted observations of the subsidence of the earth's surface From 50 studied and neighboring mines and the preparation of the raster basis of mining plans according to the stages: the first c stage - scanning with the help of a scanning device of individual fragments, merging them into a single image,

From" its orientation and subsequent calibration; the second stage - setting the coordinate system and calculation grid for calculating subsidence for each mine; the third stage - vectorization and filling of the attribute data table for each treatment plant and approximation of their contours; the fourth stage - calculation of subsidence from individual 45 workings taking into account individual influences, presentation of calculation results in the form of isoline graphs, - mathematical processing and classification of the obtained objects using plans of mining operations, archival

Ge | data, geoinformation system "GeoMark, by binding the calculation grid in the center of the main shaft, vectorization of raster images with polygons and calculation of subsidence using the i-th MuipMiida program, according to a useful model, a specific point of observation on the earth's surface in the zone of av! 20 of practice is selected worlds of layers, determine its coordinates before the start of mining operations in this area, determine the time (f) that elapsed from the beginning of the rock shift to the moment when the lava projection of the observation point t crossed, the time U that elapsed from the moment of the lava projection of the observation point to the moment of its end displacement process, and enter the obtained parameters into the settlement calculation formula.

In the prototype, determination of possible spatial displacements of the earth's surface of coal mines is carried out on the basis of calculation of subsidence from individual workings according to statistical parameters, without taking into account the temporal factor. c According to the proposed method, in order to reflect the nature of the development of subsidence over time and to determine possible spatial displacements of the surface of coal mines, the parameters of the time io, determined from the moment of the beginning of rock displacement to the moment of lava crossing the projection of the observation point, are entered into the formula for calculating subsidence, time

It passed from the moment the lava crossed the projection of the observation point to the moment the displacement process ended, 60 | and the correction factor is still. The accuracy of determining possible spatial displacements of the earth's surface is increasing.

A comparative analysis of the proposed solution with the prototype allows us to conclude that the proposed 65th method differs from the known one by the following operations: the selection of a specific observation point on the earth's surface in the zone of working out the layers, determination of its coordinates at the beginning of mining operations in this area,

determination of the time 0 that passed from the beginning of the rock shift to the moment when the lava projection of the observation point crossed, the time U that passed from the moment of the lava projection of the observation point to the moment of the end of the displacement process, and the introduction of the obtained parameters, taking into account the correction factor ве 2 that characterizes the strength rocks, the depth of development and the rate of advance of the lava, into the formula for calculating subsidence.

Thus, the claimed method meets the "novelty" criterion.

The method of determining possible spatial displacements of the earth's surface of coal mines in time is carried out as follows. On the earth's surface, a line of soil benchmarks is laid and their coordinates are determined before the start of mining operations in this area. They carry out the selection of plans for mining operations, the collection of archival data on the operation of 10 mines, geological and technological features of working out individual layers. The received plans are scanned, stitched into a single image, oriented and calibrated. As a result, a block of information is formed on the location of the inter-working space on all layers in the territory of the mines, on the location of all cleaning workings on the coal seams of each mine and their mining technical characteristics; about the power of coal seams, the depth of their occurrence and their mining and geological characteristics; on the location of mining workings that have access to the 19-day surface, and mining works at a depth of less than 100 m. This part of the works is implemented with the help of the geoinformation system "GeoMark". Then, for the calculation of subsidence at each mine, a calculation grid oriented along the axes of local coordinate systems is adopted, with the origin of the coordinates in the center of the main shaft, and to take into account the influence of mining operations of neighboring mines, their calculation grids overlap. Next, vectorization of cleaning products and input of this information is performed. And since the existing methods of calculating the displacements of 20 deformations of the earth's surface assume that the treatment works have the shape of a rectangle, the contours of the works are approximated by rectangles. Determine the time yd) that elapsed from the beginning of rock displacement in the zone of working out the strata to the moment when the projection of the observation point was crossed by the lava, and the time Й that elapsed from the moment when the projection of the observation point was crossed by the lava and until the end of the displacement process. The obtained time parameters, taking into account the correction coefficient, are still used to calculate subsidence over time:

Oh, yes. BE

I pe he and. ze brremh glya - і- ч- ; | | o de shcha - the relative value of subsidence over time; that the calculated value of subsidence; yuyu pc normalized maximum subsidence; so e - exponent; o g correction factor that takes into account the strength of the rocks, the depth of development and the speed of lava movements;

Y - the time that has passed from the beginning of rock movement in the zone of working out the world of layers, to the moment when the projection of the observation point is crossed by the lava; "

CG - the time elapsed from the moment the observation point was crossed by the lava projection and until the end of the process of pl») with displacement.

The received volume of data is combined, formed, and graphs of isolines using the software module;" subsidence taking into account the temporary characteristics that correspond to the working conditions of all layers during the entire period of mining operations.

The proposed method of determining the possible spatial displacements of the earth's surface of coal mines in time - provides an increase in the accuracy and informativeness of the forecast due to the fact that: 1. The subsidence of the earth's surface is calculated on the basis of taking into account the interaction of the maximum possible number of natural, man-made and temporary factors. c 2. It is based on modern methods of data processing.

Sources of information: about 1. A.s. 1790645 AZ USSR, MKIZ EO2031/08. The method of forecasting the deformations of the earth's surface in case of "I partial structural weakening / L.P. Chepenko. - 4880187/33; declared 23.01.93., Byul. Mo3. - P.31. 2. Declaratory patent of Ukraine 115370, MKI" EO2031/08 . The method of determining the possible spatial displacement of the ground surface of coal mines / A.V. Antsiferov, N.N. Kiselev, Yu.M.

Gavrylenko, V.F. Filatov. - 200509588; declared on 12.10.2005, Bull. Mo12. - P.28. with

Claims (1)

The formula of the invention 60 The method of determining possible spatial displacements of the earth's surface of coal mines over time, which includes the laying of lines of soil benchmarks, the analysis of the initial data of the working conditions of the coal deposit and the data of previously conducted observations of the subsidence of the earth's surface of the studied and neighboring mines and the preparation of the raster basis of the plans of mining works according to the stages : the first stage - scanning with a scanning device of individual fragments, merging them into a single image, its orientation and further calibration, the second 65th stage - setting the coordinate system and the calculation grid for calculating subsidence for each mine, the third stage - vectorization and filling in the table of attribute data for each treatment working and approximation of their contours, the fourth stage - calculating the subsidence from individual workings taking into account individual influences, presenting the results of calculations in the form of isoline graphs, mathematical processing and classification of the obtained objects using mining plans, archival data, geo-information system "GeoMark", binding of the calculation grid in the center of the main shaft, vectorization of raster images with polygons and calculation of subsidence using the program M/ ipMiida, which differs in that it includes the selection of a specific point of observation on the earth's surface in the zone of working out the world of layers, determination of its coordinates before the start of mining operations in this area, determination of the time (b) that passed from the beginning of rock movement to the moment when the projection was crossed by lava observation points ence, the time elapsed from the moment of crossing the lava projection of point 7/0 of observations and the moment of the end of the displacement process, entering the obtained parameters into the settlement calculation formula. Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2006, M 11, 15.11.2006. State Department of Intellectual Property of the Ministry of Education and/5 Science of Ukraine. that 2 in "c) iv) (ee) є - and? - (ee) 1 («c) that 60 b5