CN112580118A - Method for batch bushing drawing to measure multiple section terrains - Google Patents

Abstract

The invention discloses a method for batch bushing painting to measure a plurality of section terrains for a plurality of times, which comprises the following steps in sequence: the first step is as follows: arranging the topographic data of a plurality of sections for a plurality of times and checking the reasonability; the second step is that: drawing horizontal and vertical coordinate system drawings and picture frames of all cross sections in batch; the third step: programming a program to generate SCR files of all sections in batch; the fourth step: and (5) rapidly drawing the cross sections in batches. The invention overcomes the defects that the prior method only draws the section of one measurement time, can not realize the nested drawing of a plurality of sections of multiple measurements times and can not form images in batches. The method has the advantages of rapidness, convenience, difficult error, easy modification and batch drawing.

Description

Method for batch bushing drawing to measure multiple section terrains

Technical Field

The invention belongs to the technical field of hydraulic engineering, and particularly relates to a method for batch drawing of multiple-survey multiple-section terrains.

Background

Since ancient times, humans grew their own water plants. In order to benefit and remove harm, human beings continuously renovate the river channel, and the history of river channel treatment is the history of the development of human society. In the river course treatment process, no matter flood control, river situation control and channel regulation are carried out, river course evolution rules need to be analyzed, and river course evolution trends need to be predicted, so that river course treatment engineering schemes are formulated according to the trends. The river course evolution analysis is based on actual measurement topography data, and the laws of river course erosion and deposition, mainstream swing, river bed deformation and the like are analyzed from the aspects of river course sections, planes, sections and the like, and the river course evolution analysis is a key foundation for river course treatment. The river channel section analysis is to draw the terrains of the same section for multiple times, so that the section form change, erosion and deposition change and the like can be visually and vividly analyzed.

At present, a commonly used method for drawing a section in an sleeving manner is to place all measured section topography of the same section in the same skin of EXCEL, add a plurality of data series (one measured section is a series) to perform section drawing in an sleeving manner, copy the section drawing out and paste the section drawing in word or AutoCAD, thereby completing drawing and plotting in an sleeving manner of one section, and then continuously repeating the above operations until drawing work of all sections is completed. This method is feasible if the number of measurements and sections is small. However, in practical engineering, the number of cross sections to be drawn in a sleeving manner is often large, for example, in the process of bank collapse treatment, in order to analyze the near-shore riverbed erosion and deposition and determine the bank protection range, generally, a near-shore cross section changes from year to year every 100 + 200m along the water flow direction, an analysis river section as long as about 20km is drawn in a sleeving manner for 100 + 200 cross sections, and assuming that each cross section is calculated according to six times, 600 + 1200 cross sections are drawn in a sleeving manner, if the EXCEL is used for manually drawing in a sleeving manner one by one, the workload is very large, the working efficiency is very low, errors are easy to occur, and if the cross section needs to be modified, for example, a measurement time terrain is added, a data series needs to be added to all the cross sections in the EXCEL, and then the cross section diagrams are copied one by one and pasted to word or AutoCAD, and the workload for modification is also very large.

Therefore, a plurality of professional workers such as water conservancy and traffic develop exploratory work. The measuring section is automatically drawn in CAD based on language programming programs such as VBA, C # and the like in the places of Buxuan, Buyan army, Chenbang, Wangjiang and the like, the program for automatically drawing the section is developed based on neta in Tangxinzhuang, Lidengfu and the like, the MATLAB software is used for drawing the section of a river channel in Sunxiaohui and the like, and the EXCEL is used for drawing the section in AutoCAD based on Denghu and the like. The methods greatly improve the working efficiency, but the methods only draw the section for one measurement, cannot realize the nested drawing of multiple sections for multiple measurements, and cannot form images in batches. Therefore, a method which can batch-draw a plurality of section terrains for a plurality of times and is easy to modify and batch-draw is urgently needed to be found so as to improve the working efficiency.

Cited documents include: [1] the cattle is firstly brown; application of AUTOCAD VBA in river section drawing [ J ], Chinese municipal engineering, 2015, (5): 82-88;

[2] subsidiary navy, Liu hong Zhi, subsidiary sea bream; AUTOCAD secondary development and cross-sectional drawing [ J ], mapping and spatial geographic information, 2010, 33 (3): 120-123;

[3] chen m bang, the army; application of EXCEL AUTOCAD VBA in drawing of embankment section diagram and calculating of engineering quantity [ J ], water conservancy in Henan and south-to-north water transfer, 2010 (11): 68-70;

[4] wangjiang, slowly brilliant and plum bright; application [ J ] of automatic river channel cross-sectional drawing software based on AUTOCAD and VBA, scientific and technological popularization and application, 2013: 31-33;

[5] tangxinzhuang, Zhuhongbo, Haodan; net-based method [ J ] for drawing a section diagram by using AutoCAD secondary development, and mapping technical equipment, 2018 and 20 (2): 78-80;

[6] li is rich, Zhang Yong Jun; designing and realizing a program for drawing horizontal and vertical section diagrams in batch [ J ], scientific and technical information, 2010, (11): 88-89;

[7] sundawn, xuhongxia; MATLAB-based watercourse cross-sectional drawing [ J ], chinese water transport, 2018 (2): 73-76;

[8] denghua fiddle, a method [ J ] for batch drawing of cross-sectional diagrams in AutoCAD by using EXCEL, and research on urban construction theory, 2013, (36).

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a method for batch drawing of multiple-section terrains.

The object of the invention is achieved by the following measures: a method for batch bushing painting to measure multiple section terrains is characterized by comprising the following steps in sequence:

the first step is as follows: arranging the topographic data of a plurality of sections for a plurality of times and checking the reasonability;

the second step is that: drawing horizontal and vertical coordinate system drawings and picture frames of all cross sections in batch;

the third step: programming a program to generate SCR files of all sections in batch;

the fourth step: and (5) rapidly drawing the cross sections in batches.

In the above technical solution, the first step includes: according to the actual measurement landform, all section landform data of the same measurement time are sorted into a document, and the data formats of the same year are consistent; and a rationality check is performed on the data.

In the technical scheme, the data are subjected to reasonableness check, whether the starting point distances are increased progressively is mainly checked, the maximum value and the minimum value of the terrain elevations of each section are counted, and the maximum value and the minimum value of the starting point distances are counted to provide data support for drawing a horizontal and vertical coordinate system diagram of the section in the next step.

In the above technical solution, the second step includes:

1) determining the size of the chart frame of the chart;

2) drawing a horizontal and vertical coordinate system diagram of a section;

3) drawing a picture frame containing a horizontal and vertical coordinate system picture;

converting one horizontal and vertical coordinate system diagram into four horizontal and vertical coordinate system diagrams with reasonable intervals by using an AuotoCAD self-contained array command, and supplementing diagram names, diagrams, descriptions and sign columns;

4) drawing other picture frames containing other sections and horizontal and vertical coordinate system pictures in batch;

5) and extracting the origin coordinates of the horizontal and vertical coordinate systems of the sections, namely connecting the origins of the horizontal and vertical coordinate systems of the sections into a multi-segment line, and extracting the endpoint coordinates of the multi-segment line, namely the origins of the horizontal and vertical coordinate systems of the sections.

In the above technical solution, the drawing of the abscissa and ordinate system diagram of a cross section should satisfy the following conditions: firstly, the maximum value of the vertical coordinate is slightly larger than the maximum value of the actually measured terrain elevation, and the minimum value of the vertical coordinate is slightly lower than the minimum value of the actually measured terrain elevation; secondly, the maximum value of the horizontal coordinate is slightly larger than the maximum value of the starting distance, and the minimum value is slightly smaller than the minimum value of the starting distance; and thirdly, determining the proportion of the ordinate and the abscissa.

In the above technical solution, the batch generation of the SCR files of each section by the programming procedure means that a Fortran language programming procedure is used to convert the starting point distances and elevations of all sections measured at one time into point coordinates in AutoCAD, and the point coordinates are stored as SCR files.

In the technical scheme, the step of batch rapid cross section sleeving drawing refers to that all cross section terrains of all measured times are automatically sleeved and drawn in batches when an SCR file is dragged into an AuotoCAD containing all picture frames, all the cross section terrains of the same measured time are drawn on the same picture layer, and the name of the picture layer is the name of the cross section file of the measured time; and modifying the line type, color and line width of the section lines of the uniform layer by adopting a quick selection command according to the requirement; the section name of each section will be automatically filled in.

The invention aims at the situation that a plurality of methods are used for drawing a single measured-time section, and the section is drawn by using the EXCEL, so that the method is suitable for the situation that the measured time is less and the number of the sections is less, and the situation that the method is drawn by a plurality of measured times and a plurality of sections in a sleeving way, and the method has the current situations of large workload, low working efficiency, easy error, batch drawing failure and troublesome modification, and provides a technology for batch drawing of a multi-measured-time multi-section terrain, and the method has the following advantages:

(1) and is quick and convenient. The method only needs four steps, multiple cross-section terrains can be rapidly and collectively drawn for multiple times by combining the Fortran program with the AutoCAD software, wherein the cross-section terrains are drawn by the SCR file based on the Fortran program at a high speed in seconds.

(2) And the error is not easy to occur. The method checks the reasonability of the topographic data of the cross section before the cross section is drawn in a sleeving way, and the whole process of drawing the cross section in the sleeving way is based on the topographic data processed by a computer and the cross section is drawn in the sleeving way, so that the possibility of errors caused by manually drawing the cross section one by one is avoided.

(3) And is easy to modify. The method puts the same measured terrain section on the same layer in the AutoCAD, can delete the measured terrain section in the aspect, and can generate the SCR file of the measured terrain section, drag the SCR file into the AutoCAD which is completely drawn, and add the measured terrain section.

(4) And batch drawing can be realized. The method can be used for setting the size of the map sheet and then rapidly drawing the map in batches.

Drawings

FIG. 1 is a schematic view of the arrangement of cross-sectional topographic data in the present invention;

FIG. 2 is a block diagram of the cross-sectional terrain data plausibility check of the present invention;

FIG. 3 is a schematic diagram of a cross-section of the present invention in a horizontal and vertical coordinate system; in the figure, 0+000 indicates the section number (pile number)

FIG. 4 is a drawing diagram of a frame according to the present invention; in the figure, 0+000 indicates the section number (pile number)

FIG. 5 is a schematic diagram of CAD array menu filling according to the present invention;

FIG. 6 is a drawing frame (only 5 sections in a row) containing all sections in the present invention;

FIG. 7 is a schematic diagram of the storage format of the origin of the horizontal and vertical coordinate systems of each cross section in the present invention;

fig. 8 is a block diagram of a process of converting all the measured terrain sections into SCR files at one time according to the present invention.

Detailed Description

The embodiments of the present invention will be described in detail with reference to the accompanying drawings, which are not intended to limit the present invention, but are merely exemplary. While the advantages of the invention will be apparent and readily appreciated by the description.

FIG. 1 illustrates the following: the data in the first row is the total number of the measured sub-sections, the second row is the section number, the starting point distance and the number of the elevation points of the first section in sequence, the third row is the starting point distance and the elevation of the first measuring point of the first section respectively, and the like. In the actual arrangement process, different data formats can be flexibly adopted according to the existing section data condition.

Referring to fig. 2, it can be seen that: because the data measuring points are often massive and errors may occur, the drawing result and the judgment of the river course evolution rule and trend are directly influenced, and therefore the data rationality check is very necessary. If the formats of the section data after sorting are different, the source code should be adjusted correspondingly.

Referring to fig. 3, it can be seen that: the horizontal and vertical coordinates are all in meters, the size of the chart is determined, and the size of the chart can be A4, A3, even A2, and is generally more than A3. According to the size of the drawing sheet, the height and width of characters in the drawing are determined, and the principle that the characters printed on the drawing sheet are clear and visible is taken as the principle.

Referring to fig. 4, it can be seen that: according to the size of the drawing sheet, a plurality of (if the size of the drawing sheet is A3, generally four) horizontal and vertical coordinate system drawings are arranged in a frame, and the name, the legend, the description, the sign column and the like of the drawings are supplemented, so that 1 horizontal and vertical coordinate system drawing can be converted into 4 horizontal and vertical coordinate system drawings with reasonable spacing by using an AuotoCAD self-contained 'array' command. The sizes, styles and label formats of characters of pictures made by different units are not completely the same, and can be modified according to the unit requirements.

Referring to fig. 5 and 6, it can be seen that: and (3) utilizing an AuotoCAD self-contained 'array' command to generate a frame (containing an abscissa and an ordinate) containing other sections in batches. For the convenience of the following, in the "array" menu, 1 is filled in the column "row", 0 is filled in the column "row", and data in the column "row" is filled in according to the number of cross sections (if there are 4 cross sections in one frame, there are 800 cross sections, then there should be 200 filled in), and "row offset" is filled in according to the size of the frame, and the principle that two frames are not overlapped and have a proper margin is left, preferably an integer. The "array" menu is filled out as shown in fig. 5, and the batch generated frames containing other sections are shown in fig. 6.

Referring to fig. 7, it can be seen that: connecting the origin of the horizontal and vertical coordinate systems of each section into a multi-segment line, then extracting the endpoint coordinates of the multi-segment line by using an AutoCAD self-contained 'Li' command, namely the origin of the horizontal and vertical coordinate systems of each section, and storing the origin as XOY. For convenience, the origins of the horizontal and vertical coordinate systems of the four sections in the first frame can be extracted, and then the coordinates of the origin of each horizontal and vertical coordinate system of each section in the audiocad can be quickly calculated by using EXCEL according to the line offset distance.

Referring to fig. 8, it can be seen that: after the preparation work is finished, the Fortran language is used for programming, the starting point distances and the elevations (X, Z) of all the measured sections are converted into point coordinates in the AutoCAD at one time, and the point coordinates are stored as an SCR file.

The invention relates to a method for batch bushing painting to measure a plurality of section terrains for a plurality of times, which comprises the following steps in sequence:

(1) arranging the topographic data of a plurality of sections for a plurality of times and checking the reasonability;

all the section terrain of the same measurement is sorted into a document (e.g., 2016. txt) based on the measured terrain, and the section terrain data format is as shown in fig. 1. Besides txt, other document formats may be used, such as dat. After finishing the data arrangement, a programming program (a flow chart is shown in fig. 2) performs rationality check on the data, mainly checks whether the starting point distance is increased progressively, and also counts the maximum value, the minimum value, the maximum value and the minimum value of the starting point distance of the terrain of each section, so as to provide data support for drawing a horizontal and vertical coordinate system diagram of the section in the next step.

(2) Drawing horizontal and vertical coordinate system drawings and picture frames of all cross sections in batch;

2.1) determining the size of the chart,

the map sheet size of the map is determined, and may be A4, A3, or even A2, more commonly referred to as A3. According to the size of the drawing sheet, the height and width of characters in the drawing are determined, and the principle that the characters printed on the drawing sheet are clear and visible is taken as the principle.

2.2) making a horizontal and vertical coordinate system diagram of a cross section,

the abscissa and ordinate system of a cross-sectional view is plotted in AutoCAD (as shown in fig. 3). When drawing the figure, the following points should be noted: firstly, the maximum value of the ordinate is slightly larger than the maximum value of the actually measured terrain elevation, and the minimum value of the ordinate is slightly lower than the minimum value of the actually measured terrain elevation; secondly, the maximum value of the abscissa should be slightly larger than the maximum value of the starting distance, and the minimum value should be slightly smaller than the minimum value of the starting distance; and determining the ordinate and the abscissa proportion (BY and BX).

2.3) making a picture frame (containing a horizontal and vertical coordinate system picture),

depending on the size of the drawing sheet, a number (typically four if the size of the drawing sheet is a 3) of abscissa and ordinate system drawings (as shown in fig. 4) are placed in the frame, and supplemented with the names, illustrations, descriptions, sign columns, etc., the aotococad with its own "array" command can be used to convert 1 of the abscissa and ordinate system drawings into 4 of the abscissa and ordinate system drawings at a reasonable interval.

2.4) batch-making picture frames (including horizontal and vertical coordinate system pictures) containing other cross sections,

and (3) utilizing an AuotoCAD self-contained 'array' command to generate a frame (containing an abscissa and an ordinate) containing other sections in batches. For the convenience of the following, in the "array" menu, 1 is filled in the column "row", 0 is filled in the column "row", and data in the column "row" is filled in according to the number of cross sections (if there are 4 cross sections in one frame, there are 800 cross sections, then there should be 200 filled in), and "row offset" is filled in according to the size of the frame, and the principle that two frames are not overlapped and have a proper margin is left, preferably an integer. The "array" menu is filled out as shown in fig. 5, and the batch generated frame containing other cross sections is shown in fig. 6.

2.5) extracting the origin coordinates of the horizontal and vertical coordinate systems of each section,

connecting the origins of the horizontal and vertical coordinate systems of all the sections into a multi-segment line, extracting the end point coordinates of the multi-segment line by using an AutoCAD self-carried 'Li' command, namely the origin of the horizontal and vertical coordinate system of each section, and storing the origin as XOY.

For convenience, the origins of the horizontal and vertical coordinate systems of the four sections in the first frame can be extracted, and then the coordinates of the origin of each horizontal and vertical coordinate system of each section in the audiocad can be quickly calculated by using EXCEL according to the line offset distance.

(3) Programming procedure for generating SCR files of various sections in batches

After the preparation work of (1) and (2) is finished, starting point distances and elevations (X, Z) of all measured sections are converted into point coordinates in AutoCAD at one time by using a Fortran language programming program, and the point coordinates are stored as an SCR file. The program flow chart is shown in fig. 8. (4) Batch quick sleeve-drawing section

Dragging the SCR file into the audiocad containing all frames (as shown in fig. 6) will automatically overlay all the cross-sectional features of all measurements in batches quickly (in seconds), and all the cross-sectional features of the same measurement are overlaid on the same layer, with the name of the profile file (typically the measurement time). In the AuotoCAD, a quick selection command (qselect) can be adopted to modify the line type, the color, the line width and the like of the section lines of the uniform layer according to the requirement. In addition, the section name of each section is automatically filled in.

Other details not described are prior art.

Claims (7)

1. The method for batch bushing painting to measure the terrain with multiple sections for multiple times is characterized by comprising the following steps in sequence:

the first step is as follows: arranging the topographic data of a plurality of sections for a plurality of times and checking the reasonability;

the second step is that: drawing horizontal and vertical coordinate system drawings and picture frames of all cross sections in batch;

the third step: programming a program to generate SCR files of all sections in batch;

the fourth step: and (5) rapidly drawing the cross sections in batches.

2. The method of batch casing drawing a plurality of surveys of a plurality of cross-sectional topographies of claim 1, characterized in that said first step comprises: according to the actual measurement landform, all section landform data of the same measurement time are sorted into a document, and the data formats of the same year are consistent; and a rationality check is performed on the data.

3. The method for batch overdrawing of multiple survey multiple section terrains according to claim 2, characterized in that the data are subjected to reasonableness check, and whether the starting point distances are increased progressively is mainly checked, and the maximum value and the minimum value of the elevation of each section terrain and the maximum value and the minimum value of the starting point distances are counted, so that data support is provided for drawing a horizontal and vertical coordinate system diagram of the section in the next step.

4. The method of batch casing drawing a plurality of surveys of a plurality of cross-sectional topographies of claim 1, wherein the second step comprises:

1) determining the size of the chart frame of the chart;

2) drawing a horizontal and vertical coordinate system diagram of a section;

3) drawing a picture frame containing a horizontal and vertical coordinate system picture;

converting one horizontal and vertical coordinate system diagram into four horizontal and vertical coordinate system diagrams with reasonable intervals by using an AuotoCAD self-contained array command, and supplementing diagram names, diagrams, descriptions and sign columns;

4) drawing other picture frames containing other sections and horizontal and vertical coordinate system pictures in batch;

5) extracting the origin coordinates of the horizontal and vertical coordinate systems of each section

The origin of the horizontal and vertical coordinate system of each section is connected into a multi-segment line, and the endpoint coordinates of the multi-segment line are extracted, namely the origin of the horizontal and vertical coordinate system of each section.

5. The method for batch drawing of multiple survey multiple section terrains according to claim 4, wherein the drawing of the abscissa and ordinate system diagram of one section satisfies the following condition: firstly, the maximum value of the vertical coordinate is slightly larger than the maximum value of the actually measured terrain elevation, and the minimum value of the vertical coordinate is slightly lower than the minimum value of the actually measured terrain elevation; secondly, the maximum value of the horizontal coordinate is slightly larger than the maximum value of the starting distance, and the minimum value is slightly smaller than the minimum value of the starting distance; and thirdly, determining the proportion of the ordinate and the abscissa.

6. The method for batch overdrawing of a plurality of sections of a terrain according to claim 1, wherein the programming procedure for batch generation of the SCR files of each section means that a Fortran language is used for programming, starting point distances and elevations of all sections of all the survey times are converted into point coordinates in AutoCAD at one time, and are stored as SCR files.

7. The method according to claim 1, wherein said batch fast batch drawing of the cross-section means that all the cross-section terrains for all the measurements are automatically batch drawn by dragging the SCR file into the AuotoCAD containing all the frames, and all the cross-section terrains for the same measurement are drawn on the same layer with the name of the cross-section file for the measurement; and modifying the line type, color and line width of the section lines of the uniform layer by adopting a quick selection command according to the requirement; the section name of each section will be automatically filled in.

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