CN109855699B - Mine residual water level contour line drawing method beneficial to unifying standard formats - Google Patents
Mine residual water level contour line drawing method beneficial to unifying standard formats Download PDFInfo
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Abstract
The invention is suitable for the technical field of geological water control of coal mines, and provides a method for drawing the contour line of the residual water level of a mine, which is favorable for unifying standard formats; collecting a large amount of original data of the water and geophysical prospecting for prevention and control, wherein the hydrogeological conditions of the mine working face can be analyzed in the previous period, and the water-rich abnormal area of the working face is judged; the technology can be used for analyzing and verifying the treatment condition of the water-rich area of the working face in the later stage by combining drilling data to judge the treatment effect, and aiming at the data processing application aspect of the water prevention and control work in the later stage, a large amount of water prevention and control geophysical prospecting original data are collected, the original data can be used for analyzing the hydrogeological conditions of the working face of the mine in the earlier stage, and the water-rich abnormal area of the working face is judged; in the later stage, the treatment condition of the water-rich area of the working face can be analyzed and verified by combining drilling data so as to judge the treatment effect.
Description
Technical Field
The invention belongs to the technical field of geological water prevention and control of coal mines, and particularly relates to a mine residual water level contour line drawing method beneficial to unifying standard formats.
Background
Mine flood is a common main disaster in coal mining, and once the mine flood occurs, normal production of the mine is influenced, and more seriously, crowd death and crowd damage are caused, so that great loss is caused. The deep water damage of the Huaibei mine area threatens, and multiple water damage accidents occur, so that great attention is paid to water prevention and control work, technical research on water prevention and control is continuously carried out, and flood prevention is strengthened.
At present, a professional drawing method of a residual water level contour line on a working surface is not available on the level of a group company, software used by each mine is various, standards and formats are different, unified specifications are not available, most mines are drawn manually, errors are prone to occurring, modification is inconvenient, accuracy of an interpolated contour line cannot be guaranteed, the residual water level contour line needs to refer to nearby drilling hole data, adjacent drilling holes cannot be effectively utilized through manual drawing, subjectivity is strong, and distortion of drawing results is prone to being caused.
SUMMERY OF THE UTILITY MODEL
The invention provides a method for drawing a mine residual water level contour line beneficial to unifying standard formats, and aims to solve the problems that a professional drawing method of a working surface residual water level contour line is not available in the level of a group company at present, software used by each mine is various, standards and formats are different, unified specifications are not available, most mines are drawn manually, errors are prone to occurring, modification is inconvenient, accuracy of an interpolated contour line cannot be guaranteed, adjacent drilling hole data are required to be referenced in drawing of the residual water level contour line, manual drawing cannot effectively utilize adjacent drilling holes, subjectivity is strong, and distortion of drawing results is easily caused.
The invention is realized in such a way that the method for drawing the contour line of the residual water level of the mine, which is beneficial to unifying the standard format, comprises the following steps:
the first step is as follows: collecting data in a downhole field; collecting related data information for mine field experiments;
the second step is that: analyzing and judging the data; carrying out theoretical analysis and judgment on relevant data acquired by an on-site mine on-site experiment;
the third step: computer programming; the relevant data collected by the on-site mine experiment are recorded by software by using a computer programming technology;
the fourth step: comparing multiple schemes; generating a data model scheme through collected original data through software, and comparing the data model scheme with related data collected in a mine experiment;
the fifth step: processing the internal service; performing joint debugging test on the collected related data;
and a sixth step: drawing by a computer; the joint debugging test is successfully mapped by computer software.
The original data collection step in the multi-scheme comparison is as follows;
developing near-limestone water advanced exploration and working face sandstone water advanced treatment projects in a plurality of mines, collecting original data, and analyzing a water-rich abnormal area;
b, determining the arrangement of drilling verification holes by applying theoretical analysis aiming at abnormal areas, and collecting verification data;
c, tracking the treatment condition of the water-rich abnormal area and collecting data;
and d, collecting the residual water level value after treatment is finished, and realizing the target function by using a computer programming technology and through module design and programming.
Preferably, the multiple schemes compare multiple schemes formed by the collected raw data, and the established model forms a scheme comparison with the mine experiment collected data.
The invention also provides the optimization, wherein the internal business processing comprises theoretical analysis, module design and programming debugging, and joint debugging test is carried out on the acquired data.
The invention also provides a preferable mode, and the computer drawing software is professional drawing software established by using the original data.
Compared with the prior art, the invention has the beneficial effects that: according to the mine residual water level contour line drawing method beneficial to unifying standard formats, a large amount of original data of the water-proof geophysical prospecting are collected, the hydrogeological conditions of the mine working face can be analyzed in the early stage, and the water-rich abnormal area of the working face is judged; in the later stage, the drilling data can be combined, the treatment condition of the water-rich area of the working face is analyzed and verified, the treatment effect is judged, and the technology can be applied to the data processing in the later stage for water prevention and treatment work and can achieve the following effects:
(1) the phenomenon that the utilization depth of original data of the water and object detection is insufficient is changed, the original data is extended and utilized, and the whole process of water and object detection is run through;
(2) the phenomena of drawing standards and disordered formats of residual water level contour lines of the working surface are changed, and the uniform drawing achievement standards and universal versions are realized;
(3) the phenomena of low drawing precision, unreliable data and high drawing subjectivity of the residual water level contour line of the working surface are changed, the fact that the original data is used as the basis and adjacent regions participate in calculation is achieved, and high-precision drawing results are achieved;
(4) the phenomena of scattered data results, difficult comprehensive utilization and integral analysis of all mines and all working surfaces are changed, and the residual water level isoline drawing results of the group company can be integrated, separated, deleted, supplemented and used for reference in any mine and any drawing system.
Drawings
FIG. 1 is a schematic diagram of the process configuration of the present invention;
FIG. 2 is a schematic structural diagram of the technical means of the present invention;
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
Referring to fig. 1-2, the present invention provides a technical solution for drawing contour lines of mine residual water levels in favor of a unified standard format:
the first embodiment is as follows: when generating data model matches;
the first step is as follows: collecting data in a downhole field; collecting related data information for mine field experiments;
the second step is that: analyzing and judging the data; carrying out theoretical analysis and judgment on relevant data acquired by an on-site mine on-site experiment;
the third step: computer programming; by using a computer programming technology, inputting relevant data acquired by an on-site mine experiment through software, and determining a data model and a software basic platform;
the fourth step: comparing multiple schemes; generating a data model scheme through collected original data through software, and comparing the data model scheme with related data collected in a mine experiment;
the original data collection step is as follows;
a, developing near limestone water advanced exploration and working face sandstone water advanced treatment projects in mines such as Yuan II, Zhuxianzhuang, poplar and the like by utilizing a chance of developing geological control water geophysical exploration research in a mining area, acquiring original data, and analyzing a water-rich abnormal area;
b, determining the arrangement of drilling verification holes by applying theoretical analysis aiming at abnormal areas, and collecting verification data;
c, tracking the treatment condition of the water-rich abnormal area and collecting data;
and d, collecting the residual water level value after treatment is finished, and realizing the target function by using a computer programming technology and through module design and programming.
The fifth step: processing the internal service; performing joint debugging test on the collected related data, performing theoretical analysis on the collected data by using the original data as basic data professional software, performing module design, performing programming debugging, performing joint debugging test, and after the test is successful;
and a sixth step: drawing by a computer; the joint debugging test was successfully mapped by computer software based on raw data.
The special software drawing method is oriented to the data processing application of water control work in the later period, has the characteristics of high efficiency, accuracy and standard, forms a universal format and a unified standard format on the level of a group company by popularizing the special software drawing method to a mine area, and improves resource sharing and data fusion because drawings of different working faces of different mines can be used for reference, modified, deleted and supplemented in any mine;
(1) the researched and developed specialized drawing software solves the subjective randomness of people in drawing, and ensures that drawing formats of residual water level isoline drawings in a mining area are consistent and standard;
(2) starting from the advanced exploration project under the coal mine, the whole process of water prevention and control work is run through, and the level of geophysical prospecting research work is improved.
(3) Water level data such as drilling holes and the like related to the adjacent area are manually selected, and the accuracy of drawing is improved through comprehensive operation of a software background and overall consideration.
(4) The large fusion, sharing and development of geological control water data of the whole mining area are realized.
Example two; when the generated data models are not matched;
the first step is as follows: collecting data in a downhole field; collecting related data information for mine field experiments;
the second step is that: analyzing and judging the data; carrying out theoretical analysis and judgment on relevant data acquired by an on-site mine on-site experiment;
the third step: computer programming; by using a computer programming technology, inputting relevant data acquired by an on-site mine experiment through software, and determining a data model and a software basic platform;
the fourth step: comparing multiple schemes; generating a data model scheme through collected original data through software, and comparing the data model scheme with related data collected in a mine experiment;
the original data collection step is as follows;
a, developing near limestone water advanced exploration and working face sandstone water advanced treatment projects in mines such as Yuan II, Zhuxianzhuang, poplar and the like by utilizing a chance of developing geological control water geophysical exploration research in a mining area, acquiring original data, and analyzing a water-rich abnormal area;
b, determining the arrangement of drilling verification holes by applying theoretical analysis aiming at abnormal areas, and collecting verification data;
c, tracking the treatment condition of the water-rich abnormal area and collecting data;
and d, collecting the residual water level value after treatment is finished, and realizing the target function by using a computer programming technology and through module design and programming.
The fifth step: processing the internal service; performing joint debugging test on the collected related data, performing theoretical analysis on the collected data by using the original data as basic data professional software, performing module design, performing programming debugging and joint debugging test, and re-determining a data model after the test joint debugging fails;
and a sixth step: comparing multiple schemes; generating a data model scheme through collected original data through software, and comparing the data model scheme with a new model scheme produced by related data collected in a mine experiment;
the seventh step: processing the internal service; performing joint debugging test on the collected related data, performing theoretical analysis on the collected data by using the original data as basic data professional software, performing module design, programming debugging, performing joint debugging test, and testing the joint debugging successfully;
eighth step: drawing by a computer; the joint debugging test was successfully mapped by computer software based on raw data.
Collecting a large amount of original data of the water and geophysical prospecting for prevention and control, wherein the hydrogeological conditions of the mine working face can be analyzed in the previous period, and the water-rich abnormal area of the working face is judged; in the later stage, the treatment condition of the water-rich area of the working face can be analyzed and verified by combining drilling data so as to judge the treatment effect, and the technology is oriented to the aspect of data processing application of water prevention and control work in the later stage;
(1) the researched and developed specialized drawing software solves the subjective randomness of people in drawing, and ensures that drawing formats of residual water level isoline drawings in a mining area are consistent and standard;
(2) starting from the advanced exploration project under the coal mine, the whole process of water prevention and control work is run through, and the level of geophysical prospecting research work is improved.
(3) Water level data such as drilling holes and the like related to the adjacent area are manually selected, and the accuracy of drawing is improved through comprehensive operation of a software background and overall consideration.
(4) The large fusion, sharing and development of geological control water data of the whole mining area are realized.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.
Claims (4)
1. A mine residual water level contour line drawing method beneficial to unifying standard formats comprises the following steps:
the first step is as follows: collecting data in a downhole field; collecting related data information for mine field experiments;
the second step is that: analyzing and judging the data; carrying out theoretical analysis and judgment on relevant data acquired by an on-site mine on-site experiment;
the third step: computer programming; the relevant data collected by the on-site mine experiment are recorded by software by using a computer programming technology;
the fourth step: comparing multiple schemes; generating a data model scheme through collected original data through software, and comparing the data model scheme with related data collected in a mine experiment;
the fifth step: processing the internal service; performing joint debugging test on the collected related data;
and a sixth step: drawing by a computer; drawing by computer software successfully in the joint debugging test;
the original data collection step in the multi-scheme comparison is as follows;
developing near-limestone water advanced exploration and working face sandstone water advanced treatment projects in a plurality of mines, collecting original data, and analyzing a water-rich abnormal area;
b, determining the arrangement of drilling verification holes by applying theoretical analysis aiming at abnormal areas, and collecting verification data;
c, tracking the treatment condition of the water-rich abnormal area and collecting data;
and d, collecting the residual water level value after treatment is finished, and realizing the target function by using a computer programming technology and through module design and programming.
2. The method for drawing the contour line of the mine residual water level beneficial to the unified standard format according to claim 1, wherein the method comprises the following steps: and the multi-scheme comparison is realized by establishing a model and comparing the model with the mine experiment collected data through a plurality of schemes formed in the collected original data.
3. The method for drawing the contour line of the mine residual water level beneficial to the unified standard format according to claim 2, wherein: the internal business processing comprises theoretical analysis, module design and programming debugging, and joint debugging testing is carried out on the acquired data.
4. A method for facilitating the drawing of a mine residual water level contour line in a unified standard format as claimed in claim 3, wherein: the computer drawing software is professional drawing software established by using original data.
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