CN106528943B - A kind of cable shaft data drawing methods - Google Patents
A kind of cable shaft data drawing methods Download PDFInfo
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- CN106528943B CN106528943B CN201610897863.2A CN201610897863A CN106528943B CN 106528943 B CN106528943 B CN 106528943B CN 201610897863 A CN201610897863 A CN 201610897863A CN 106528943 B CN106528943 B CN 106528943B
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Abstract
The present invention relates to a kind of cable shaft data drawing methods, comprising the following steps: S01: carrying out field surveys, acquires cable shaft data;S02: handheld device load figure output profiles, according to images outputting configuration file by cable shaft data inputting into handheld device;S03: after the completion of cable shaft data inputting, by handheld device according to the cable shaft data edition cable shaft figure;S04: cable shaft data are saved in XML file or cable shaft data are uploaded to database server by handheld device;S05: the corresponding XML file of cable shaft data of preservation is exported and is imported into computer terminal or computer terminal, cable shaft data are obtained by database server;S06: computer terminal draws metope figure according to cable shaft data automatically;S07: computer terminal automatic marking cable on corresponding metope figure according to cable shaft data.Present invention ensures that the accuracy of surveying and mapping data, and high degree of automation, it reduces the workload of staff, greatly improve working efficiency.
Description
Technical field
The present invention relates to a kind of cable shaft data drawing methods.
Background technique
As the construction of the continuous improvement and digitalized city of GIS-Geographic Information System (GIS) level of application is goed deep into,
Increase in GIS and digitalized city system electric network information for power grid make overall planning with build and power grid disaster management become must
So.Since in past developing stage, power grid can not carry out DIGITAL PLANNING and management using information-based means, at present power grid tissue
Manpower and material resources survey and draw existing power grid, and by forming pattern number required for GIS and digitalized city after data processing
Work according to (including power grid path model and threedimensional model) starts iterative method.In current power grid mapping process, ground
Mapping operations, which are carried out smoothly and also use some information-based means, carries out mapping and data processing;But the mapping work of underground pipe network
Make still to be handled by the way of artificial mapping, Man Graphics.
In the mapping method of current underground pipe network and means, mainly by outdoor workers (operating personnel is surveyed and drawn in field) existing
Cable shaft is opened in field, measures and simultaneously records cable shaft data and cable data therein, outdoor workers by the way of cartographical sketching
After the completion of mapping, papery sketch and relative recording are consigned into surveyor and carry out data processing, the data processing of surveyor
Comprising Hand drawing (result is CAD engineering drawing), data transcription is report required for GIS by statistics surveying and mapping data one by one.
Under this work pattern, have the following problems and defect:
(1) it is recorded when field surveys using manual cartographic sketching mode, whether mapping worker can not confirm recorded data
It needs to survey and draw again if data are imperfect comprising total data needed for CAD drawing;A large amount of manpower can be wasted, is extended outer
Industry activity duration and frequency;
(2) for surveyor in transcript data, skilled drawing engineer can about draw 10-20 cable shaft figures daily
Paper, but under conditions of in surveying and mapping data comprising several hundred or even thousands of a cable shafts, the drawing work of surveyor
Measure huge, mapping operation consumes a large amount of human resources, and the period is long, causes later period operating cost high;
(3) field surveys and data processing are completed in different places by different personnel, not can avoid in treatment process
Artificial error in data occurs, therefore mapping needs to be arranged special check personnel and surveys and draws the special check stream except process
Journey further increases mapping cost and later data processing difficulty and complexity;
(4) in transcript data report, since logical relation complexity of the data volume greatly and between data causes report data
Error rate is high.
Summary of the invention
The purpose of the present invention is to provide a kind of cable shaft data drawing methods, pass through handheld device typing surveying and mapping data
And cable shaft figure is generated, it realizes that mapping synchronous can be carried out with work is checked, reduces field process amount, improve working efficiency,
Ensure the accuracy of data, and Two-dimensional Engineering is automatically generated by computer terminal, reduces the workload of interior work personnel, greatly
Ground improves interior industry operating efficiency, reduces mapping operating cost.
To achieve the goals above, the technical solution adopted by the present invention are as follows:
A kind of cable shaft data drawing methods, comprising the following steps:
S01: carrying out field surveys, acquires cable shaft data;
S02: handheld device loads figure output profiles, is recorded cable shaft data according to images outputting configuration file
Enter into handheld device;
S03: after the completion of cable shaft data inputting, by handheld device according to the cable shaft data edition cable shaft figure,
And whether the cable shaft data that verify mapping are wrong or omit;
S04: cable shaft data are saved in XML file or cable shaft data are uploaded to database clothes by handheld device
Business device;
S05: the corresponding XML file of cable shaft data of preservation is exported and is imported into computer terminal or computer terminal passes through
Database server obtains cable shaft data;
S06: computer terminal draws metope figure according to cable shaft data automatically;
S07: computer terminal automatic marking cable on corresponding metope figure according to cable shaft data.
Cable shaft data include cable shaft information and pipeline information in the step S01, and cable shaft information includes orientation ginseng
Number, shape, the wall size parameter of graph topology data and the borehole wall, pipeline information includes cable position information, cable dimension
And its number.
In the step S02 according to images outputting configuration file by cable shaft data inputting into handheld device, into one
Step the following steps are included:
S021: user selects metope title;
S022: judging whether metope title is exportable figure according to images outputting configuration file, if metope is exportable
Figure, then the corresponding cable well information of typing and pipeline information, if metope be cannot output pattern, typing failure.
Computer terminal draws metope figure according to cable shaft data automatically in the step S06, further comprises following step
It is rapid:
S061: computer terminal loads figure output profiles;
S062: computer terminal read cable shaft data, and according to images outputting configuration file successively judge metope whether need
It exports, if metope needs to export, metope images outputting region is judged according to images outputting configuration file;
S063: reading cable coordinate in every face wall respectively, and X-coordinate array of respectively every face wall building without repetition values and
Y-coordinate array without repetition values;
S064: metope figure origin coordinates is calculated;
S065: metope figure is drawn according to metope figure origin coordinates.
In the step S07 computer terminal according to cable shaft data the automatic marking cable on corresponding metope figure, into
One step the following steps are included:
S071: initialization has occupied labeling position array;
S072: reading the X-coordinate array without repetition values in every face wall, by the X-coordinate in the X-coordinate array of no repetition values
Value sorts from large to small;
S073: the X-coordinate value being successively read in X-coordinate array, and obtain the corresponding all Y of each X-coordinate value and sit
Scale value, and utilize the Y-coordinate value building mark cable Y-coordinate array obtained;
S074: according to first number quantity of mark cable Y-coordinate array, word is high and row interval setting rower infuses height, at once
Mark first number quantity * (word height+row interval) of height=Y-coordinate array;
S075: initialization labeling position;
S076: with occupied labeling position array comparison judge whether labeling position occupied, if labeling position by
It occupies, thens follow the steps S077, if labeling position is unoccupied, then follow the steps S0711;
S077: forward direction, which calculates, obtains labeling position, i.e. labeling position=labeling position-rower note height;
S078: with occupied labeling position array comparison judge whether labeling position occupied, if labeling position not by
It occupies, thens follow the steps S0711, if labeling position is occupied, whether judge labeling position < labeling position lower limit+word height
It sets up, wherein labeling position lower limit is position corresponding to the lower edge of metope figure, if so, then retrospectively calculate obtains mark
Height can not be marked by infusing position, i.e. labeling position=initialization labeling position+, wherein can not be marked height and be sat for mark cable Y
The difference in array between maximum Y-coordinate value and the smallest Y-coordinate value is marked, if not, then return step S077;
S079: with occupied labeling position array comparison judge whether labeling position occupied, if labeling position not by
It occupies, thens follow the steps S0711, if labeling position is occupied, then follow the steps S0710;
S0710: retrospectively calculate obtains labeling position, i.e. labeling position=labeling position+rower note height, and returns to execution
Step S079;
S0711: mark lines and mark text are drawn and is inserted into the labeling position in labeling position array to having occupied;
S0712: judging whether the X-coordinate value in X-coordinate array has all read, if X-coordinate value is all read, phase
The cable automatic marking on metope figure is answered to complete, if X-coordinate value is not read all, return step S073.
Beneficial effects of the present invention are as follows:
One, when field operation is surveyed and drawn, after cable shaft data inputting, cable shaft figure is drawn out at handheld device end immediately, is passed through
Whether cable shaft figure can proofread immediately surveying and mapping data correct, if having omission, allow and survey and draw and check the same stepping of work
Row simplifies work flow to reduce outgoing operation frequency, improves operating efficiency;
Two, when the cable shaft data surveyed and drawn are converted to two-dimensional engineering graphic, drawing work is automated by computer terminal
It completes, reduces the workload of interior work personnel, greatly improve interior industry operating efficiency, reduce mapping operating cost;
Three, two-dimensional engineering graphic can be drawn by standard, after program test is qualified, it is impossible to quality problems occurred, be improved
The accuracy drawn.
Detailed description of the invention
The drawings described herein are used to provide a further understanding of the present invention, constitutes a part of the invention, this hair
Bright illustrative embodiments and their description are used to explain the present invention, and are not constituted improper limitations of the present invention.In the accompanying drawings:
Fig. 1 is flow diagram of the invention;
Fig. 2 is the flow diagram by cable shaft data inputting into handheld device;
Fig. 3 is the flow diagram that computer terminal draws metope figure automatically;
Fig. 4 is metope images outputting area schematic;
Fig. 5 is the schematic diagram in metope images outputting area marking cable;
Fig. 6 is the flow diagram of computer terminal automatic marking cable.
Specific embodiment
In order to be clearer and more clear technical problems, technical solutions and advantages to be solved, tie below
Drawings and examples are closed, the present invention will be described in further detail.It should be appreciated that specific embodiment described herein is only used
To explain the present invention, it is not intended to limit the present invention.
As shown in Figures 1 to 6, the present invention provides a kind of cable shaft data drawing methods, comprising the following steps:
S01: carrying out field surveys, acquires cable shaft data, it should be noted that the location information acquisition of cable is will be every
The lower left corner of face wall is set as the origin of reference axis to be acquired;
S02: handheld device loads figure output profiles, is recorded cable shaft data according to images outputting configuration file
Enter into handheld device;
S03: after the completion of cable shaft data inputting, by handheld device according to the cable shaft data edition cable shaft figure,
And whether the cable shaft data that verify mapping are wrong or omit, wherein the handheld device includes data inputting module, figure
Editor module, image capture module and data server, data inputting module is for mapping worker typing cable shaft data;Figure is compiled
Module is collected for mapping worker interactive drawing cable shaft figure, whether just surveying and mapping data can be proofreaded by cable shaft figure immediately
Really, if having omission, allow mapping is synchronous with work is checked to carry out, to reduce outgoing operation frequency;Image Acquisition mould
Block is cable shaft photo archive for mapping worker;Data server is to pass through a degree of statistical for saving data
Analysis provides graphics template for mapping worker to improve graphics edition speed;
S04: cable shaft data are saved in XML file or cable shaft data are uploaded to database clothes by handheld device
Business device;
S05: the corresponding XML file of cable shaft data of preservation is exported and is imported into computer terminal or computer terminal passes through
Database server obtains cable shaft data;
S06: computer terminal draws metope figure according to cable shaft data automatically;
S07: computer terminal automatic marking cable on corresponding metope figure according to cable shaft data.
Cable shaft data include cable shaft information and pipeline information in the step S01, and cable shaft information includes orientation ginseng
Number, shape, the wall size parameter of graph topology data and the borehole wall, pipeline information includes cable position information, cable dimension
And its number.
In the step S02 according to images outputting configuration file by cable shaft data inputting into handheld device, into one
Step the following steps are included:
S021: user selects metope title;
S022: judging whether metope title is exportable figure according to images outputting configuration file, if metope is exportable
Figure, then the corresponding cable well information of typing and pipeline information, if metope be cannot output pattern, typing failure.
Computer terminal draws metope figure according to cable shaft data automatically in the step S06, further comprises following step
It is rapid:
S061: computer terminal loads figure output profiles;
S062: computer terminal read cable shaft data, and according to images outputting configuration file successively judge metope whether need
It exports, if metope needs to export, metope images outputting region, images outputting configuration is judged according to images outputting configuration file
The configuration information of file includes the name list of metope, and metope images outputting region includes that nine regions are respectively as follows: Nan Qiang, the southeast
Wall, Dong Qiang, northeast wall, north wall, northwest wall, Xi Qiang, southwestern wall and main view graph region, it should be noted that Nan Qiang, southeast wall,
Dong Qiang, northeast wall, north wall, northwest wall, Xi Qiang, southwestern wall be human body station in cable shaft when corresponding wall close to human body side
Metope, main view graph region be cable shaft top view corresponding to region;
S063: reading cable coordinate in every face wall respectively, and X-coordinate array of respectively every face wall building without repetition values and
Y-coordinate array without repetition values;
S064: calculating metope figure origin coordinates, and preferred formula is as follows, wherein mark text height is constant;
Dong Qiang:
The member of Y-coordinate array of the origin coordinates X=well maximum length/2+ mark text height * 6+ Dong Qiang without repetition values
Number quantity * marks text height * 1.5;
Origin coordinates Y=- (eastern wall metope height/2);
Nan Qiang:
Origin coordinates X=- (southern wall metope width/2);
Origin coordinates Y=- (well maximum width/2+ marks text height * 6+ Nan Qiang height);
Xi Qiang:
Origin coordinates X=- (well maximum length/2+ marks the western wall length of text height * 6+);
Origin coordinates Y=- (western wall metope height/2);
North wall:
Origin coordinates X=- (north wall metope width/2);
The member of X-coordinate array of the origin coordinates Y=well maximum width/2+ mark text height * 6+ north wall without repetition values
Number quantity * marks text height * 1.5;
Southeast wall:
Y-coordinate array of the origin coordinates X=well maximum length/2+ mark southeast the text height * 6+ wall without repetition values
First number quantity * marks text height * 1.5;
Origin coordinates Y=- (well maximum width/2+ marks the southeast text height * 6+ wall height);
Southwestern wall:
Origin coordinates X=- (well maximum length/2+ marks the southwest text height * 6+ wall length);
Origin coordinates Y=- (well maximum width/2+ marks the southwest text height * 6+ wall height);
Northwest wall:
Origin coordinates X=- (well maximum length/2+ marks the northwest text height * 6+ wall length);
X-coordinate array of the origin coordinates Y=well maximum width/2+ mark northwest the text height * 6+ wall without repetition values
First number quantity * marks text height * 1.5;
Northeast wall:
Y-coordinate array of the origin coordinates X=well maximum length/2+ mark text height * 6+ northeast wall without repetition values
First number quantity * marks text height * 1.5;
X-coordinate array of the origin coordinates Y=well maximum width/2+ mark text height * 6+ northeast wall without repetition values
First number quantity * marks text height * 1.5;
S065: metope figure is drawn according to metope figure origin coordinates.
Computer terminal is according to the cable shaft data successively automatic marking on above-mentioned corresponding metope figure in the step S07
Cable (i.e. successively in above-mentioned eight regions: Nan Qiang, southeast wall, Dong Qiang, northeast wall, north wall, northwest wall, Xi Qiang, southwestern wall wall
Automatic marking cable on the figure of face), it further includes steps of
S071: initialization has occupied labeling position array;
S072: reading the X-coordinate array without repetition values in every face wall, by the X-coordinate in the X-coordinate array of no repetition values
Value sorts from large to small;
S073: the X-coordinate value being successively read in above-mentioned X-coordinate array, and it is corresponding all to obtain each X-coordinate value
Y-coordinate value, and utilize the Y-coordinate value building mark cable Y-coordinate array obtained;
S074: according to first number quantity of mark cable Y-coordinate array, word is high and row interval setting rower infuses height, at once
Mark height=Y-coordinate array first number quantity * (word height+row interval), such as Nan Qiang whole cables location information for (5,
6), (5,8), (5,9), (7,3), (7,6) and (9,4), then the X-coordinate array without repetition values={ 9,7,5 }, when the X of reading is sat
Scale value be 9 when, since the corresponding all Y-coordinate value of X-coordinate value 9 only have 4, then first number quantity of Y-coordinate array only one,
Rower note height=1* (word height+row interval) at this time;When the X-coordinate value of reading is 7, since X-coordinate value 7 is corresponding all
Y-coordinate value has 3 and 6, then there are two first number quantity of Y-coordinate array, rower infuses height=2* (word height+row interval) at this time;Together
Sample, it can get when the X-coordinate value of reading is 5, there are three first number quantity of Y-coordinate array, and rower infuses height=3* at this time
(word height+row interval), it should be noted that word is high and row interval can carry out assignment according to actual needs.
S075: initialization labeling position, if the coordinate of initial labeling position is (X0, Y0), then X0By being retouched in step S072
The minimum value in X-coordinate array stated, Y0For X described in step S0730In the corresponding all Y-coordinate value of coordinate value
Minimum value;
S076: with occupied labeling position array comparison judge whether labeling position occupied, if labeling position by
It occupies, thens follow the steps S077, if labeling position is unoccupied, then follow the steps S0711;
S077: forward direction, which calculates, obtains labeling position, i.e. labeling position=labeling position-rower note height;
S078: with occupied labeling position array comparison judge whether labeling position occupied, if labeling position not by
It occupies, thens follow the steps S0711, if labeling position is occupied, whether judge labeling position < labeling position lower limit+word height
It sets up, wherein labeling position lower limit is position corresponding to the lower edge of metope figure, if so, then retrospectively calculate obtains mark
Position, i.e. labeling position=initialization labeling position+can not mark height, wherein can not mark height as mark cable Y-coordinate
Difference in array between maximum Y-coordinate value and the smallest Y-coordinate value, if not, then return step S077, referring herein to
Can not mark height, the example that continuous above-mentioned steps S074 mentions the location information of whole cables of Nan Qiang is illustrated, and works as reading
When the X-coordinate value taken is 5, then cable Y-coordinate array={ 6,8,9 } are marked, marks maximum Y in cable Y-coordinate array at this time
Coordinate value and the smallest Y-coordinate value are respectively 9,6, then at this time can not mark height=9-6=3;
S079: with occupied labeling position array comparison judge whether labeling position occupied, if labeling position not by
It occupies, thens follow the steps S0711, if labeling position is occupied, then follow the steps S0710;
S010: retrospectively calculate obtains labeling position, i.e. labeling position=labeling position+rower note height, and returns to execution
Step S079;
S0711: mark lines and mark text are drawn and is inserted into the labeling position in labeling position array to having occupied;
S0712: judging whether the X-coordinate value in X-coordinate array has all read, if X-coordinate value is all read, phase
The cable automatic marking on metope figure is answered to complete, mark terminates, if X-coordinate value is not read all, return step S073.
In addition, by CAD secondary development, three-dimensional CAD or three-dimension GIS secondary development, reading can be direct after surveying and mapping data
Threedimensional model is drawn out, and in output report, cable trace is gone out by data statistics and path analysis and calculating, programming count
And its position, rapid modeling after being imported for GIS.
Computer terminal of the invention, which obtains cable shaft data, following two mode:
The remote districts of not mobile communications network or due to management rule do not allow surveying and mapping data network in the environment of,
Computer terminal, which obtains cable shaft data, can be used first way, i.e., cable shaft data is saved in XML by handheld device
File, then the corresponding XML file of cable shaft data of preservation is exported and is imported into computer terminal, it is opened again by interior member personnel later
Cable shaft data (XML) is automatically converted to two-dimensional engineering graphic and threedimensional model by dynamic automation modeling module, program;It reads simultaneously
Whole XML files simultaneously complete cable trace calculating and statistical report form, the engineering drawing and three-dimensional that surveyor converts system
Model copy consigns to mapping management unit;
In the environment of 4G network can be used and data allow to network and have surveying project management demand, computer terminal
Obtaining cable shaft data can be used the second way, i.e. cable shaft data are uploaded to database server, and computer terminal passes through number
Cable shaft data are obtained according to library server, after the completion of mapping, surveyor submits audit after system is to look at result confirmation
Process;File server starts automation modeling module to data automatically after the approval, and cable shaft data are converted to two dimension
Engineering drawing and threedimensional model, the administrative engineer for surveying and drawing management unit can be directly viewable progress in systems, and can check,
The two-dimensional engineering graphic and threedimensional model of completion have been audited in downloading, and simultaneity factor provides cable trace statistics report in web interface
Table, the high-level leader for surveying and drawing management unit can check real-time project process and mapping by project management function in systems
As a result.
The preferred embodiment of the present invention has shown and described in above description, as previously described, it should be understood that the present invention is not office
Be limited to form disclosed herein, should not be regarded as an exclusion of other examples, and can be used for various other combinations, modification and
Environment, and can be changed within that scope of the inventive concept describe herein by the above teachings or related fields of technology or knowledge
It is dynamic.And changes and modifications made by those skilled in the art do not depart from the spirit and scope of the present invention, then it all should be appended by the present invention
In scope of protection of the claims.
Claims (2)
1. a kind of cable shaft data drawing methods, which comprises the following steps:
S01: carrying out field surveys, acquires cable shaft data;
S02: handheld device loads figure output profiles, is arrived cable shaft data inputting according to images outputting configuration file
In handheld device;
S03: after the completion of cable shaft data inputting, by handheld device according to the cable shaft data edition cable shaft figure, and school
Whether the cable shaft data that test is drawn are wrong or omit;
S04: cable shaft data are saved in XML file or cable shaft data are uploaded to database service by handheld device
Device;
S05: the corresponding XML file of cable shaft data of preservation is exported and is imported into computer terminal or computer terminal passes through data
Library server obtains cable shaft data;
S06: computer terminal draws metope figure according to cable shaft data automatically;
S07: computer terminal automatic marking cable on corresponding metope figure according to cable shaft data;Wherein, the step S01
Middle cable shaft data include cable shaft information and pipeline information, and cable shaft information includes direction parameter, shape, graph topology data
And the wall size parameter of the borehole wall, pipeline information include cable position information, cable dimension and its number;
In the step S02 according to images outputting configuration file by cable shaft data inputting into handheld device, further wrap
Include following steps:
S021: user selects metope title;
S022: judging whether metope title is exportable figure according to images outputting configuration file, if metope is exportable figure,
The then corresponding cable well information of typing and pipeline information, if metope be cannot output pattern, typing failure;
Computer terminal draws metope figure according to cable shaft data automatically in the step S06, further includes steps of
S061: computer terminal loads figure output profiles;
S062: computer terminal reads cable shaft data, and it is defeated according to images outputting configuration file successively to judge whether metope needs
Out, if metope needs to export, metope images outputting region is judged according to images outputting configuration file;
S063: reading cable coordinate in every face wall respectively, and X-coordinate array of respectively every face wall building without repetition values and without weight
The Y-coordinate array of complex value;
S064: metope figure origin coordinates is calculated;
S065: metope figure is drawn according to metope figure origin coordinates.
2. a kind of cable shaft data drawing methods according to claim 1, it is characterised in that: calculated in the step S07
Generator terminal automatic marking cable on corresponding metope figure according to cable shaft data, further includes steps of
S071: initialization has occupied labeling position array;
S072: reading the X-coordinate array without repetition values in every face wall, by the X-coordinate value in the X-coordinate array of no repetition values from
Small sequence is arrived greatly;
S073: the X-coordinate value being successively read in the X-coordinate array, and obtain the corresponding all Y of each X-coordinate value and sit
Scale value, and utilize the Y-coordinate value building mark cable Y-coordinate array obtained;
S074: according to first number quantity of mark cable Y-coordinate array, word is high and row interval setting rower infuses height, marks at once
The first number quantity * of highly=Y-coordinate array (word height+row interval);
S075: initialization labeling position;
S076: comparing judge whether labeling position is occupied with labeling position array has been occupied, if labeling position is occupied,
S077 is thened follow the steps, if labeling position is unoccupied, thens follow the steps S0711;
S077: forward direction, which calculates, obtains labeling position, i.e. labeling position=labeling position-rower note height;
S078: comparing judge whether labeling position is occupied with labeling position array has been occupied, if labeling position is unoccupied,
S0711 is thened follow the steps, if labeling position is occupied, judges whether labeling position < labeling position lower limit+word height is true,
Wherein, labeling position lower limit is position corresponding to the lower edge of metope figure, if so, then retrospectively calculate obtains mark position
Height can not be marked by setting, i.e. labeling position=initialization labeling position+, wherein can not mark height as mark cable Y-coordinate number
Difference in group between maximum Y-coordinate value and the smallest Y-coordinate value, if not, then return step S077;
S079: comparing judge whether labeling position is occupied with labeling position array has been occupied, if labeling position is unoccupied,
S0711 is thened follow the steps, if labeling position is occupied, thens follow the steps S0710;
S0710: retrospectively calculate obtains labeling position, i.e. labeling position=labeling position+rower note height, and returns to step
S079;
S0711: mark lines and mark text are drawn and is inserted into the labeling position in labeling position array to having occupied;
S0712: judging whether the X-coordinate value in X-coordinate array has all read, if X-coordinate value is all read, corresponding wall
Cable automatic marking on the figure of face is completed, if X-coordinate value is not read all, return step S073.
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CN107818535A (en) * | 2017-11-17 | 2018-03-20 | 湖南优图信息技术有限公司 | A kind of Underground Pipeline Data management method, apparatus and system |
CN108614939B (en) * | 2018-05-02 | 2022-03-29 | 北京建筑大学 | Underground working well facility modeling method considering three-dimensional topology |
CN110750818B (en) * | 2019-09-06 | 2023-08-22 | 景森设计股份有限公司 | Height marking method, system and storage medium for drainage well design |
CN112149204B (en) * | 2020-09-22 | 2022-07-26 | 安徽泓燊科技有限公司 | Method for automatically searching position pointed by annotation instruction in CAD file |
CN112507262B (en) * | 2020-12-30 | 2024-03-12 | 苏州光格科技股份有限公司 | Method for collecting and automatically generating section of cable channel based on handheld terminal |
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CN101930470A (en) * | 2010-09-07 | 2010-12-29 | 上海盈隽实业有限公司 | Urban power network geographic information system and urban pipeline geographic information system |
CN102930376A (en) * | 2012-09-29 | 2013-02-13 | 广东电网公司电力科学研究院 | Method and system for identifying/positioning/displaying/managing urban underground pipe network |
CN105488862A (en) * | 2015-11-20 | 2016-04-13 | 国网山东青州市供电公司 | Inspection system for cable pit |
CN105894209A (en) * | 2016-04-21 | 2016-08-24 | 安徽意力电缆有限公司 | RFID-based cable management system |
-
2016
- 2016-10-14 CN CN201610897863.2A patent/CN106528943B/en not_active Expired - Fee Related
Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101930470A (en) * | 2010-09-07 | 2010-12-29 | 上海盈隽实业有限公司 | Urban power network geographic information system and urban pipeline geographic information system |
CN102930376A (en) * | 2012-09-29 | 2013-02-13 | 广东电网公司电力科学研究院 | Method and system for identifying/positioning/displaying/managing urban underground pipe network |
CN105488862A (en) * | 2015-11-20 | 2016-04-13 | 国网山东青州市供电公司 | Inspection system for cable pit |
CN105894209A (en) * | 2016-04-21 | 2016-08-24 | 安徽意力电缆有限公司 | RFID-based cable management system |
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