CN111428308A - Municipal water supply and drainage aided design drawing method and system - Google Patents
Municipal water supply and drainage aided design drawing method and system Download PDFInfo
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- CN111428308A CN111428308A CN202010366478.1A CN202010366478A CN111428308A CN 111428308 A CN111428308 A CN 111428308A CN 202010366478 A CN202010366478 A CN 202010366478A CN 111428308 A CN111428308 A CN 111428308A
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- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 title claims abstract description 52
- 238000000034 method Methods 0.000 title claims abstract description 26
- 238000007689 inspection Methods 0.000 claims description 12
- 238000013507 mapping Methods 0.000 claims description 7
- 238000003780 insertion Methods 0.000 claims 2
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- 238000005516 engineering process Methods 0.000 description 1
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Abstract
The invention discloses a municipal water supply and drainage aided design drawing method and system. The drawing method comprises the following steps: s100, designing and drawing a water supply plane; s200, designing and drawing a water supply longitudinal section; s300, designing and drawing a drainage plane; s400, designing and drawing a drainage longitudinal section. The drawing system comprises a water supply plane design module, a water supply longitudinal section design module, a drainage plane design module and a drainage longitudinal section design module. The drawing method overcomes the defects that other software parameters are set complicatedly and the drawing process is disjointed with the actual drawing, and ensures that the municipal water supply and drainage design drawing work is simple, quick and efficient. The drawing system has simple menu, and the intelligent drawing mode is consistent with the manual drawing sequence and is simple and easy to understand.
Description
Technical Field
The invention belongs to the technical field of AutoCAD secondary development, and relates to a municipal water supply and drainage aided design drawing method and system.
Background
At present, the software for drawing municipal water supply and drainage design in the building industry is developed by professional computer technicians mostly. Due to professional differences, developers do not understand water supply and drainage professional knowledge and the drawing process comprehensively, the parameters of developed software are set more frequently, the phenomenon of disjunction with the actual drawing process is serious, and the use effect is not ideal. Therefore, the improvement is carried out by relying on the professional technical advantages of water supply and drainage and combining with the AutoCAD secondary development technology.
Disclosure of Invention
The invention aims to provide a drawing method and a drawing system for municipal water supply and drainage auxiliary design.
In order to achieve the purpose, the technical scheme of the invention is as follows:
a municipal water supply and drainage aided design drawing method comprises the following steps:
s100, designing and drawing a water supply plane;
s200, designing and drawing a water supply longitudinal section;
s300, designing and drawing a drainage plane;
s400, designing and drawing a drainage longitudinal section.
The invention also provides a municipal water supply and drainage auxiliary design drawing system which comprises a water supply plane design module, a water supply longitudinal section design module, a drainage plane design module and a drainage longitudinal section design module.
Furthermore, the water supply plane design module comprises drawing tools such as a main pipe defining unit, a plane drawing unit, a pile number marking unit, a pipeline crossing unit, a fire hydrant setting unit, an exhaust valve setting unit, a baseline coordinate unit, a coordinate table unit, a pipe inserting unit, a pipe statistical unit and the like.
Furthermore, the water supply longitudinal section design module comprises drawing tools such as a parameter setting unit, a longitudinal section bottom drawing unit, a plane cross pipeline extracting unit, a slope point picking unit, a slope point adding unit, a slope point deleting unit, a slope point moving < pile number > unit, a slope point moving < elbow > unit, a slope point moving < free > unit, a slope point moving < gradient > unit, a design road surface elevation marking unit, a current condition ground elevation marking unit, a water supply design pipe bottom elevation marking unit, a specified point elevation inquiring unit, a slope point outer angle inquiring unit, a point height difference inquiring unit, a longitudinal section sub-drawing unit and the like.
Furthermore, the drainage plane design module comprises drawing tools such as a parameter setting unit, a defined drainage outlet unit, a main pipeline arranging unit, a movable inspection well unit, an inserting inspection well unit, an inspection well deleting unit, a main pipeline editing information unit, a branch pipe editing information unit, a main pipeline deleting information unit, a main pipeline converting unit, a cross pipeline marking unit, an output well coordinate table unit, a rainwater inlet setting unit and a plane mapping unit.
Furthermore, the drainage longitudinal section design module comprises drawing tools such as a drainage longitudinal section drawing unit, a longitudinal section elevation drawing unit, a main pipeline editing unit, a trench pipe marking information unit, a branch pipeline editing unit, a hydraulic element calculating unit, a cross pipeline drawing unit and a longitudinal section automatic mapping unit.
Has the advantages that: the drawing method overcomes the defects that other software parameters are set complicatedly and the drawing process is disjointed with the actual drawing, and ensures that the municipal water supply and drainage design drawing work is simple, quick and efficient. The drawing system has simple menu, and the intelligent drawing mode is consistent with the manual drawing sequence and is simple and easy to understand.
Drawings
FIG. 1 is a flow chart of a municipal water supply level design drawing of the present invention;
FIG. 2 is a flow chart of the municipal water supply profile design of the present invention;
FIG. 3 is a flow chart of the municipal drainage level design of the invention;
FIG. 4 is a flow chart of the municipal drainage profile design of the present invention.
Detailed Description
The invention is illustrated below with reference to specific examples. It will be understood by those skilled in the art that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention in any way.
FIG. 1 is a flow chart of a municipal water supply level design. Taking municipal water supply plane design drawing as an example, the drawing method comprises the following steps:
s110, defining a main water supply pipeline;
s120, marking the pile number of the pipeline;
s130, automatically dividing the plane;
s140, marking a cross pipeline;
s150, inserting a fire hydrant and an exhaust valve;
s160, coordinate marking and a coordinate table;
s170, inserting the pipe fittings and counting the pipe fittings.
FIG. 2 is a flow chart of a municipal water supply profile design. Taking municipal water supply longitudinal section design drawing as an example, the drawing method comprises the following steps:
s210, defining a main water supply pipeline;
s220 setting longitudinal section parameters
S230, drawing a bottom view of the vertical section;
s240, data query: the height difference between the two points, the external angle of the variable slope point and the designated point elevation;
wherein step S230 of drawing a vertical section base map includes:
s231, extracting a plane crossed pipeline;
s232, slope drawing on the longitudinal section;
s233, marking the elevation of the bottom of the water supply design pipe, the elevation of the design road surface and the elevation of the ground under the current condition;
s234, dividing the longitudinal section into pictures;
the step S232 of slope pulling on the longitudinal section specifically comprises the steps of picking up a variable slope point, adding the variable slope point, deleting the variable slope point, inputting a pile number and elevation movement variable slope point, inputting an elbow angle and flat distance movement variable slope point, inputting a slope movement variable slope point and freely moving the variable slope point.
A flow chart of a municipal drainage level design shown in figure 3. Taking municipal drainage plane design drawing as an example, the drawing method comprises the following steps:
s310, setting parameters;
s320, laying a main pipeline;
s330, defining a drainage outlet;
step S320 is to lay a main pipeline, including:
s331, editing a main pipeline;
s332, editing the supervisor information;
s333 marking a cross pipeline;
s334, outputting a well coordinate table;
s335, arranging a rainwater port;
s336 plane automatic drawing division;
the step S331 of editing the main pipeline specifically includes moving the inspection well, deleting the inspection well and inserting the inspection well;
in step S332, editing the master information specifically includes marking the master information, deleting the master information, converting the master information, and marking the branch information.
FIG. 4 is a flow chart of a municipal drainage profile design. Taking municipal drainage vertical section design drawing as an example, the drawing method comprises the following steps:
s410, setting plane parameters;
s420, defining a drainage outlet;
s430, drawing a longitudinal section view;
s440, editing the main pipeline;
s450, marking the information of the ditch pipe;
s460, calculating hydraulic elements;
s470, editing the branch pipeline;
s480, drawing a cross pipeline;
s490 longitudinally and automatically divides the image.
Claims (10)
1. A municipal water supply and drainage auxiliary design drawing method is characterized in that a municipal water supply plane design drawing is taken as an example, and the drawing method comprises the following steps:
s110, defining a main water supply pipeline;
s120, marking the pile number of the pipeline;
s130, automatically dividing the plane;
s140, marking a cross pipeline;
s150, inserting a fire hydrant and an exhaust valve;
s160, coordinate marking and a coordinate table;
s170, inserting the pipe fittings and counting the pipe fittings.
2. A municipal water supply and drainage aided design drawing method is characterized in that the drawing method takes municipal water supply longitudinal section design drawing as an example and comprises the following steps:
s210, defining a main water supply pipeline;
s220 setting longitudinal section parameters
S230, drawing a bottom view of the vertical section;
s240, data query: the height difference between the two points, the external angle of the variable slope point and the designated point elevation;
wherein step S230 of drawing a vertical section base map includes:
s231, extracting a plane crossed pipeline;
s232, slope drawing on the longitudinal section;
s233, marking the elevation of the bottom of the water supply design pipe, the elevation of the design road surface and the elevation of the ground under the current condition;
s234, dividing the longitudinal section into pictures;
the step S232 of slope pulling on the longitudinal section specifically comprises the steps of picking up a variable slope point, adding the variable slope point, deleting the variable slope point, inputting a pile number and elevation movement variable slope point, inputting an elbow angle and flat distance movement variable slope point, inputting a slope movement variable slope point and freely moving the variable slope point.
3. A municipal water supply and drainage auxiliary design drawing method is characterized in that a municipal drainage plane design drawing is taken as an example, and the drawing method comprises the following steps:
s310, setting parameters;
s320, laying a main pipeline;
s330, defining a drainage outlet;
step S320 is to lay a main pipeline, including:
s331, editing a main pipeline;
s332, editing the supervisor information;
s333 marking a cross pipeline;
s334, outputting a well coordinate table;
s335, arranging a rainwater port;
and S336 plane automatic mapping.
4. The drawing method for municipal water supply and drainage auxiliary design according to claim 3, wherein step S331 is to edit the main pipeline, specifically, to move the inspection well, delete the inspection well, insert the inspection well; step S332 of editing the master information specifically includes marking the master information, deleting the master information, converting the master information, and marking the branch information.
5. A municipal water supply and drainage auxiliary design drawing method is characterized in that the drawing method takes municipal drainage vertical section design drawing as an example and comprises the following steps:
s410, setting plane parameters;
s420, defining a drainage outlet;
s430, drawing a longitudinal section view;
s440, editing the main pipeline;
s450, marking the information of the ditch pipe;
s460, calculating hydraulic elements;
s470, editing the branch pipeline;
s480, drawing a cross pipeline;
s490 longitudinally and automatically divides the image.
6. The utility model provides a municipal administration water supply and drainage aided design drawing system which characterized in that, includes water supply level design module, water supply vertical section design module, drainage level design module and drainage vertical section design module.
7. The municipal water supply and drainage aid design drawing system of claim 6, wherein the water supply level design module comprises a main pipe defining unit, a level mapping unit, a pile number marking unit, a pipeline crossing unit, a hydrant setting unit, an exhaust valve setting unit, a baseline coordinate unit, a coordinate table unit, a pipe insertion unit and a pipe statistics unit.
8. The municipal water supply and drainage aided design drawing system according to claim 6, wherein the water supply vertical section design module comprises a parameter setting unit, a vertical section base drawing unit, a plane crossing pipeline extracting unit, a slope point picking unit, a slope point adding unit, a slope point deleting unit, a movable slope point (pile number) unit, a movable slope point (elbow) unit, a movable slope point (free) unit, a movable slope point (gradient) unit, a mark design road surface elevation unit, a mark existing condition ground elevation unit, a mark water supply design pipe base elevation unit, a designated point elevation inquiring unit, a slope point outer angle inquiring unit, a two-point height difference inquiring unit and a vertical section mapping unit.
9. The municipal water supply and drainage auxiliary design drawing system according to claim 6, wherein the drainage plane design module comprises a parameter setting unit, a defined drainage outlet unit, a main pipeline arranging unit, a movable inspection well unit, an insertion inspection well unit, an inspection well deleting unit, a main pipe editing information unit, a branch pipe editing information unit, a main pipe deleting information unit, a main pipe information converting unit, a marking cross pipeline unit, an output well coordinate table unit, a rainwater inlet setting unit and a plane mapping unit.
10. The municipal water supply and drainage aided design drawing system according to claim 6, wherein the drainage longitudinal section design module comprises a drainage longitudinal section drawing unit, a longitudinal section elevation drawing unit, a main pipeline editing unit, a trench pipe marking information unit, a branch pipeline editing unit, a hydraulic element calculating unit, a cross pipeline drawing unit and a longitudinal section automatic mapping unit.
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CN116992536A (en) * | 2023-07-31 | 2023-11-03 | 北京梦诚科技有限公司 | Rain sewage graph calculation method and system |
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2020
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JP2014092981A (en) * | 2012-11-05 | 2014-05-19 | Tomo Data Service Co Ltd | Drawing display device, drawing display method, drawing display program, position display device, position display method and position display program |
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Application publication date: 20200717 |