CN111832096A - System for coal mine drilling design and inversion - Google Patents

Abstract

The utility model belongs to colliery drilling field discloses a system of colliery drilling design and inversion, and wherein the system of colliery drilling design includes: the device comprises an input module, a position map processing module or a side sectional view processing module, a plane map processing module, a (side or front) sectional view processing module, a parameter table processing module and a plotting module; the system for coal mine drilling design comprises an intelligent inversion module and a manual inversion module which are used for reading an inversion Excel file; in the drawing process, the system can automatically calculate the end point of the drilling path according to the parameters, so that the manual calculation is reduced, and the working time is greatly shortened; in the drawing process, the system automatically calculates parameters including azimuth angles, inclination angles, coal-to-end and the like, so that calculation errors are reduced, workload of designers is reduced, and design efficiency is improved.

Description

System for coal mine drilling design and inversion

Technical Field

The disclosure belongs to the field of coal mine drilling, and particularly relates to a system for coal mine drilling design and inversion.

Background

The existing coal mine drilling design and inversion are mainly realized by a CAD (computer-aided design) hand-drawing method, so that a great deal of time and energy are usually spent by designers for manually drawing;

the calculation process of the design parameters adopts a mode of manual measurement plus calculator calculation. During inversion, data in an Excel table are manually read, and the data are realized in a hand-drawing CAD mode;

therefore, in the existing design, the design precision cannot be guaranteed by manually drawing the drilling path, and the calculation parameters are inaccurate due to the manual parameter calculation mode; reading the construction parameters by naked eyes can cause that inversion data can not be accurately reflected on a drawing.

BRIEF SUMMARY OF THE PRESENT DISCLOSURE

Aiming at the defects of the prior art, the invention aims to provide a coal mine drilling design and inversion system, and solves the technical problems in the prior art.

The purpose of the disclosure can be realized by the following technical scheme:

a system for coal mine drilling design, comprising:

the input module is used for writing input parameters of the drilling;

the position map processing module extracts the relevant input parameters from the input module, and draws the hole opening position of the drilled hole in the target area according to the relevant input parameters to form a position map;

the plan processing module extracts the relevant input parameters from the input module, and draws a drilling path in the target area according to the relevant input parameters to form a plan;

the profile processing module extracts the related input parameters from the input module, and draws a drilling path in the target area according to the plan information and the related input parameters to form a profile;

the parameter table processing module is used for calculating according to the input parameters written into the drill holes by the input module, generating design parameters, automatically generating a parameter table according to the design parameters and attaching the generated parameter table to the target area;

and a map drawing module for outputting the target area with the position map, the plan view and the parameter table.

Further, the input parameters include: the width and height of the coal roadway, the number of rows and columns, the line spacing and the column spacing of the drill holes, the distance of the left side of the roadway and the distance of the right side of the roadway.

Furthermore, the output mode of the graph plotting module is a CAD file mode or an Excel file mode.

Further, the drill holes of the drill hole design system comprise a coal roadway front probe hole, a geological front probe hole and a top plate strike hole.

A system for coal mine drilling design, comprising:

the input module is used for writing input parameters of the drilling;

the side-view profile processing module extracts the related input parameters from the input module, automatically prompts the input of the starting points of the drilling paths one by one according to the related input parameters, and finally draws the drilling paths according to the terminal distance to form a side-view profile;

the front-view profile processing module extracts relevant input parameters from the input module, automatically prompts the input of the starting points of the drilling paths one by one according to the relevant input parameters, and finally draws the drilling paths according to the terminal distance to form a front-view profile;

the plan processing module is used for automatically calculating the end point position of the plan path according to the front-view sectional profile path and/or the drilling side-view sectional profile path information, prompting the input of the starting points of the drilling path one by one, and finally drawing the drilling path to form a plan;

the parameter table processing module is used for calculating according to the input parameters written into the drill holes by the input module, generating design parameters and automatically generating a parameter table according to the design parameters;

and the drawing module outputs the side section, the front section, the plan and the parameter table.

Further, the end-point distances in the side-view section processing module and the front-view section processing module are obtained by writing through an input module or by automatically calculating the end-point distances according to the starting points.

Further, the input parameters include: terminal point distance, control range, extraction radius and selection of a coal seam sideline.

Furthermore, the output mode of the graph plotting module is a CAD file mode or an Excel file mode.

Further, the drilling holes of the drilling hole design system comprise a rock cross-cut coal uncovering drilling hole constructed at the head, a rock cross-cut coal uncovering drilling hole close to a roadway and a coal roadway strip pre-pumping hole.

A coal mine borehole inversion system comprises an intelligent inversion module and a manual inversion module which are used for reading an inversion Excel file, if the user selects intelligent inversion, the user is prompted to select a borehole design path, the system is matched according to the selected path and the Excel file, if the matching is successful, an inversion path is drawn, and if the matching is failed, the user is prompted;

if the user selects manual inversion, the user is prompted to select inversion insertion points one by one, and the system draws an inversion path.

The beneficial effect of this disclosure:

in the drawing process, the system can automatically calculate the end point of the drilling path according to the parameters, so that the manual calculation is reduced, and the working time is greatly shortened; in the drawing process, the system automatically calculates parameters including azimuth angles, inclination angles, coal-to-end and the like, so that calculation errors are reduced, workload of designers is reduced, and design efficiency is improved.

Drawings

In order to more clearly illustrate the disclosure or prior art solutions, the drawings that are needed in the disclosure or prior art description will be briefly described below, and it will be apparent to those skilled in the art that other drawings can be obtained from these drawings without inventive effort.

FIG. 1 is a system flow diagram of a coal mine drilling design of the present disclosure;

FIG. 2 is a system flow diagram of coal mine borehole inversion as disclosed in the present disclosure.

Detailed Description

The technical solutions in the present disclosure will be described clearly and completely with reference to the accompanying drawings in the present disclosure, and it is to be understood that the described disclosure is only a part of the disclosure, not all of the disclosure. All other disclosures made by those skilled in the art without any inventive step based on the disclosure in the present disclosure are within the scope of protection of the present disclosure.

The method comprises the following steps:

a system for coal mine drilling design, comprising:

the input module is used for writing input parameters of the drilling;

the position map processing module extracts the associated input parameters from the input module, and draws the hole opening position of the drilled hole in the target area according to the associated input parameters to form a position map;

the plan processing module extracts the associated input parameters from the input module, and draws a drilling path in the target area according to the associated input parameters to form a plan;

the profile processing module extracts the relevant input parameters from the input module, and draws a drilling path in the target area according to the plan information and the relevant input parameters to form a profile;

the parameter table processing module calculates according to the input parameters written into the drill hole by the input module, generates design parameters, automatically generates a parameter table from the design parameters and attaches the generated parameter table to the target area;

and a map drawing module for outputting the target area with the position map, the plan view and the parameter table.

As shown in fig. 1, in some disclosures, such as: the drilling hole is a front exploring hole of a coal roadway

At this time: the input module is used for writing input parameters of the drilling; wherein, the input parameters include: the width and height of the coal roadway, the number of drilling lines, the number of columns, the line spacing and the column spacing, the distance of the left side of the roadway and the distance of the right side of the roadway;

the position map processing module extracts the associated input parameters from the input module, and draws the hole opening position of the drilled hole in the target area according to the associated input parameters to form a position map; wherein, the associated input parameters are the width and height of the coal road, and the number of drilling arrangement rows, columns, row spacing and column spacing can be understood as follows: according to the width and height of the coal road, drilling holes and arranging line number, column number, line spacing and column spacing, drawing a drilling path in a target area to form a position diagram;

the plan processing module extracts the associated input parameters from the input module, and draws a drilling path in the target area according to the associated input parameters to form a plan; wherein, the associated input parameters are the distance of the left side of the roadway and the distance of the right side of the roadway, and can be understood as follows: drawing a drilling path in the target area according to the distance of the left upper of the roadway and the distance of the right upper of the roadway to form a plan view;

the profile processing module extracts the relevant input parameters from the input module, and draws a drilling path in the target area according to the plan information and the relevant input parameters to form a profile; wherein, the related input parameter is the number of the drilling arrangement rows, which can be understood as: drawing a drilling path in the target area according to the arrangement line number of the drilling holes in the plan view and the plan view information to form a cross-sectional view;

the parameter table processing module calculates according to the input parameters written into the drill hole by the input module, generates design parameters, automatically generates a parameter table from the design parameters and attaches the generated parameter table to the target area; wherein design parameters include, but are not limited to, azimuth, inclination;

a map drawing module for outputting the target area with the position map, the plan map and the parameter table; the output mode may be, for example, a CAD file, an Excel file, or the like.

As shown in fig. 1, in some disclosures, such as: the drill hole is a geological front exploration hole

At this time: the input module is used for writing input parameters of the drilling; wherein, the input parameters include: the width and height of the coal roadway, the number of drilling lines, the number of columns, the line spacing and the column spacing, the distance of the left side of the roadway and the distance of the right side of the roadway;

the position map processing module extracts the associated input parameters from the input module, and draws the hole opening position of the drilled hole in the target area according to the associated input parameters to form a position map; wherein, the associated input parameters are the width and height of the coal road, and the number of drilling arrangement rows, columns, row spacing and column spacing can be understood as follows: drawing a drilling path in a target area according to the width and height of the coal roadway, the number of rows and columns, the line spacing and the column spacing of drilling arrangement to form a position diagram;

the plan processing module extracts the associated input parameters from the input module, and draws a drilling path in the target area according to the associated input parameters to form a plan; wherein, the associated input parameters are the distance of the left side of the roadway and the distance of the right side of the roadway, and can be understood as follows: drawing a drilling path in the target area according to the distance of the left upper of the roadway and the distance of the right upper of the roadway to form a plan view;

the profile processing module extracts the relevant input parameters from the input module, and draws a drilling path in the target area according to the plan information and the relevant input parameters to form a profile; wherein, the related input parameter is the number of the drilling arrangement rows, which can be understood as: drawing a drilling path in the target area according to the arrangement line number of the drilling holes in the plan view and the plan view information to form a cross-sectional view;

in the profile processing module, the coal seam sideline of the profile is manually selected by a user;

the parameter table processing module calculates according to the input parameters written into the drill hole by the input module, generates design parameters, automatically generates a parameter table from the design parameters and attaches the generated parameter table to the target area; wherein design parameters include, but are not limited to, azimuth, inclination;

a map drawing module for outputting the target area with the position map, the plan map and the parameter table; the output mode may be, for example, a CAD file, an Excel file, or the like.

As shown in fig. 1, in some disclosures, such as: the drilling holes are top plate strike holes

At this time: the input module is used for writing input parameters of the drilling; wherein, the input parameters include: the width and height of the coal roadway, the number of drilling arrangement rows, columns, row spacing, column spacing, downward control range and forward control range;

the position map processing module extracts the associated input parameters from the input module, and draws the hole opening position of the drilled hole in the target area according to the associated input parameters to form a position map; wherein, the associated input parameters are the width and height of the coal road, and the number of drilling arrangement rows, columns, row spacing and column spacing can be understood as follows: drawing a drilling path in a target area according to the width and height of the coal roadway, the number of rows and columns, the line spacing and the column spacing of drilling arrangement to form a position diagram;

the plan processing module extracts the associated input parameters from the input module, and draws a drilling path in the target area according to the associated input parameters to form a plan; wherein, the associated input parameters are a downward control range and a forward control range, which can be understood as follows: drawing a drilling path in the target area according to the downward control range and the forward control range to form a plan;

the profile processing module extracts the relevant input parameters from the input module, and draws a drilling path in the target area according to the plan information and the relevant input parameters to form a profile; wherein, the related input parameter is the number of the drilling arrangement rows, which can be understood as: drawing a drilling path in the target area according to the arrangement line number of the drilling holes in the plan view and the plan view information to form a cross-sectional view;

the parameter table processing module calculates according to the input parameters written into the drill hole by the input module, generates design parameters, automatically generates a parameter table from the design parameters and attaches the generated parameter table to the target area; wherein design parameters include, but are not limited to, azimuth, inclination;

a map drawing module for outputting the target area with the position map, the plan map and the parameter table; the output mode may be, for example, a CAD file, an Excel file, or the like.

And (2) disclosing a second:

a system for coal mine drilling design, comprising:

the input module is used for writing input parameters of the drilling;

the side-view profile processing module extracts the related input parameters from the input module, automatically prompts the input of the starting points of the drilling paths one by one according to the related input parameters, and finally draws the drilling paths according to the terminal distance to form a side-view profile;

the front-view profile processing module extracts the related input parameters from the input module, automatically prompts the input of the starting points of the drilling paths one by one according to the related input parameters, and finally draws the drilling paths according to the terminal distance to form a front-view profile;

the end point distance in the side view section processing module and the front view section processing module can be obtained by writing through the input module or automatically calculating the end point distance according to the starting point.

The plan processing module automatically calculates the end point position of the plan path according to the front-view sectional profile path and/or the drilling side-view sectional profile path information, prompts the drilling path starting points one by one, and finally draws the drilling path to form a plan;

the parameter table processing module is used for calculating according to the input parameters written into the drill holes by the input module, generating design parameters and automatically generating a parameter table according to the design parameters;

and the drawing module outputs the side view section, the front view section, the plan view and the parameter table.

As shown in fig. 1, in some disclosures, such as: the drill hole is a rock cross-cut coal uncovering drill hole (head-on construction)

At the moment, the input module is used for writing the input parameters of the drilling; wherein, the input parameters include: controlling the range, extracting the radius and selecting a side line of the coal bed;

the side-view profile processing module extracts the related input parameters from the input module, automatically prompts the input of the starting points of the drilling paths one by one according to the related input parameters, and finally draws the drilling paths according to the terminal distance to form a side-view profile; the associated input parameters are a control range, an extraction radius and a coal seam edge, and can be understood as follows: automatically prompting to input the starting points of the drilling paths one by one according to the control range, the extraction radius and the coal seam sideline, automatically calculating the end point according to the starting points, and finally drawing the drilling paths to form a side sectional view;

the front-view profile processing module extracts the related input parameters from the input module, automatically prompts the input of the starting points of the drilling paths one by one according to the related input parameters, and finally draws the drilling paths according to the terminal distance to form a front-view profile; the relevant input parameters are a control range, an extraction radius and a selected coal seam edge line, and can be understood as follows: according to the control range, the extraction radius and the selected coal seam sideline, automatically prompting to input the starting points of the drilling paths one by one, automatically calculating the end point according to the starting points, and finally drawing the drilling paths to form a front view section;

the plan processing module automatically calculates the end point position of the plan path according to the front-view sectional profile path and/or the drilling side-view sectional profile path information, prompts the drilling path starting points one by one, and finally draws the drilling path to form a plan; it can be understood that: automatically calculating the end point position of the plan view path according to the front view sectional view path, prompting to input the starting points of the drilling paths one by one, and finally drawing the drilling paths to form a plan view;

the parameter table processing module is used for calculating according to the input parameters written into the drill holes by the input module, generating design parameters and automatically generating a parameter table according to the design parameters; wherein the design parameters include, but are not limited to, azimuth, inclination, and cut-to-end;

the drawing module outputs the side view section, the front view section, the plan view and the parameter table; the output mode may be, for example, a CAD file, an Excel file, or the like.

As shown in fig. 1, in some disclosures, such as: the drill hole is a rock cross-cut coal-uncovering drill hole (near roadway)

At the moment, the input module is used for writing the input parameters of the drilling; wherein, the input parameters include: the method comprises the following steps of (1) selecting a terminal point distance, a control range, an extraction radius and a coal seam sideline;

the side-view profile processing module extracts the related input parameters from the input module, automatically prompts the input of the starting points of the drilling paths one by one according to the related input parameters, and finally draws the drilling paths according to the terminal distance to form a side-view profile; the associated input parameters are a control range, an extraction radius and a coal seam edge, and can be understood as follows: automatically prompting to input the starting points of the drilling paths one by one according to the control range, the extraction radius and the coal seam sideline, automatically calculating the end point according to the starting points, and finally drawing the drilling paths to form a side sectional view;

the front-view profile processing module extracts the related input parameters from the input module, automatically prompts the input of the starting points of the drilling paths one by one according to the related input parameters, and finally draws the drilling paths according to the terminal distance to form a front-view profile; wherein, the associated input parameter is the terminal distance, which can be understood as: automatically prompting and inputting the starting points of the drilling paths one by one according to the distance between the end points, and finally drawing the drilling paths to form a front-view sectional view;

the plan processing module automatically calculates the end point position of the plan path according to the front-view sectional profile path and/or the drilling side-view sectional profile path information, prompts the drilling path starting points one by one, and finally draws the drilling path to form a plan; it can be understood that: automatically calculating the end point position of the plan view path according to the front-view sectional view path and the drilling side-view sectional view path information, prompting to input the starting point of the drilling path one by one, and finally drawing the drilling path to form a plan view;

the parameter table processing module is used for calculating according to the input parameters written into the drill holes by the input module, generating design parameters and automatically generating a parameter table according to the design parameters; wherein the design parameters include, but are not limited to, azimuth, inclination, and cut-to-end;

the drawing module outputs the side view section, the front view section, the plan view and the parameter table; the output mode may be, for example, a CAD file, an Excel file, or the like.

As shown in fig. 1, in some disclosures, such as: the drilling hole is a pre-drawing hole of a coal roadway strip

At the moment, the input module is used for writing the input parameters of the drilling; wherein, the input parameters include: the method comprises the following steps of (1) selecting a terminal point distance, a control range, an extraction radius and a coal seam sideline;

the side-view profile processing module extracts the related input parameters from the input module, automatically prompts the input of the starting points of the drilling paths one by one according to the related input parameters, and finally draws the drilling paths according to the terminal distance to form a side-view profile; the associated input parameters are a control range, an extraction radius and a coal seam edge, and can be understood as follows: automatically prompting to input the starting points of the drilling paths one by one according to the control range, the extraction radius and the coal seam sideline, automatically calculating the end point according to the starting points, and finally drawing the drilling paths to form a side sectional view;

the front-view profile processing module extracts the related input parameters from the input module, automatically prompts the input of the starting points of the drilling paths one by one according to the related input parameters, and finally draws the drilling paths according to the terminal distance to form a front-view profile; wherein, the associated input parameter is the terminal distance, which can be understood as: automatically prompting and inputting the starting points of the drilling paths one by one according to the distance between the end points, and finally drawing the drilling paths to form a front-view sectional view;

the plan processing module automatically calculates the end point position of the plan path according to the front-view sectional profile path and/or the drilling side-view sectional profile path information, prompts the drilling path starting points one by one, and finally draws the drilling path to form a plan; it can be understood that: automatically calculating the end point position of the plan view path according to the front-view sectional view path and the drilling side-view sectional view path information, prompting to input the starting point of the drilling path one by one, and finally drawing the drilling path to form a plan view;

the parameter table processing module is used for calculating according to the input parameters written into the drill holes by the input module, generating design parameters and automatically generating a parameter table according to the design parameters; wherein the design parameters include, but are not limited to, azimuth, inclination, and cut-to-end;

the drawing module outputs the side view section, the front view section, the plan view and the parameter table; the output mode may be, for example, a CAD file, an Excel file, or the like.

As shown in fig. 2, three are disclosed: a coal mine borehole inversion system comprises an intelligent inversion module and a manual inversion module which are used for reading an inversion Excel file, if a user selects the intelligent inversion module, the user is prompted to select a borehole design path, the system is matched according to the selected path and the Excel file, if matching is successful, an inversion path is drawn, and if matching is failed, the user is prompted;

if the user selects the manual inversion module, the user is prompted to select inversion insertion points one by one, and the system draws an inversion path.

In the description of the present specification, reference to the description of the terms "a disclosure," "an example," "a specific example," etc., means that a particular feature, structure, material, or characteristic described in connection with the disclosure or example is included in at least one disclosure or example of the disclosure. In this specification, schematic representations of the above terms do not necessarily refer to the same disclosure or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more of the disclosures or examples.

The foregoing illustrates and describes the general principles, principal features, and advantages of the present disclosure. It will be understood by those skilled in the art that the present disclosure is not limited by the foregoing disclosure, which is set forth in the foregoing disclosure and description as merely illustrative of the principles of the disclosure, but rather that various changes and modifications can be made therein without departing from the spirit and scope of the disclosure, which is to be protected thereby.

Claims (10)

1. A system for coal mine drilling design, comprising:

the input module is used for writing input parameters of the drilling;

the position map processing module extracts the relevant input parameters from the input module, and draws the hole opening position of the drilled hole in the target area according to the relevant input parameters to form a position map;

the plan processing module extracts the relevant input parameters from the input module, and draws a drilling path in the target area according to the relevant input parameters to form a plan;

the profile processing module extracts the related input parameters from the input module, and draws a drilling path in the target area according to the plan information and the related input parameters to form a profile;

the parameter table processing module is used for calculating according to the input parameters written into the drill holes by the input module, generating design parameters, automatically generating a parameter table according to the design parameters and attaching the generated parameter table to the target area;

and a map drawing module for outputting the target area with the position map, the plan view and the parameter table.

2. A system for coal mine drilling design according to claim 1 wherein the input parameters include: the width and height of the coal roadway, the number of rows and columns, the line spacing and the column spacing of the drill holes, the distance of the left side of the roadway and the distance of the right side of the roadway.

3. The system for coal mine drilling design according to claim 1, wherein the output mode of the graph plotting module is a CAD file or an Excel file.

4. A coal mine drilling design system according to any one of claims 1 to 3 wherein the boreholes of the drilling design system include a coal roadway approach, a geological approach and a roof strike.

5. A system for coal mine drilling design, comprising:

the input module is used for writing input parameters of the drilling;

the side-view profile processing module extracts the related input parameters from the input module, automatically prompts the input of the starting points of the drilling paths one by one according to the related input parameters, and finally draws the drilling paths according to the terminal distance to form a side-view profile;

the front-view profile processing module extracts relevant input parameters from the input module, automatically prompts the input of the starting points of the drilling paths one by one according to the relevant input parameters, and finally draws the drilling paths according to the terminal distance to form a front-view profile;

the plan processing module is used for automatically calculating the end point position of the plan path according to the front-view sectional profile path and/or the drilling side-view sectional profile path information, prompting the input of the starting points of the drilling path one by one, and finally drawing the drilling path to form a plan;

the parameter table processing module is used for calculating according to the input parameters written into the drill holes by the input module, generating design parameters and automatically generating a parameter table according to the design parameters;

and the drawing module outputs the side section, the front section, the plan and the parameter table.

6. A coal mine drilling design system as claimed in claim 5 wherein the end-point spacing in the side view profile processing module and the front view profile processing module is derived by means of an input module, by means of writing, or by means of automatic calculation of the end-point spacing from a starting point.

7. The system of claim 5, wherein the input parameters include: terminal point distance, control range, extraction radius and selection of a coal seam sideline.

8. The system for coal mine drilling design according to claim 5, wherein the output mode of the graph plotting module is a CAD file or an Excel file.

9. A coal mine drilling design system according to any one of claims 5 to 8 wherein the boreholes of the drilling design system include an open cut coal borehole constructed head-on, an open cut coal borehole adjacent a roadway and a coal roadway strip pre-extraction borehole.

10. A coal mine borehole inversion system is characterized by comprising an intelligent inversion module and a manual inversion module which are used for reading an inversion Excel file, if a user selects the intelligent inversion module, the user is prompted to select a borehole design path, the system is matched according to the selected path and the Excel file, if the matching is successful, the inversion path is drawn, and if the matching is failed, the user is prompted;

if the user selects the manual inversion module, the user is prompted to select inversion insertion points one by one, and the system draws an inversion path.

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