CN112241807A - Intelligent mapping system and method for capital construction - Google Patents

Abstract

The invention discloses a capital construction intelligent mapping system, which comprises a satellite positioning module, a mapping module and a computing module, wherein: the satellite positioning module is used for acquiring a satellite map and taking the satellite map as a design base map; the drawing module is used for acquiring project requirements, selecting equipment drop point positions on the design base map according to the project requirements and generating an initial design drawing; and the computing module is used for inputting the initial design drawing and the project information, and computing and generating a project design result by adopting an intelligent computing mode. The invention also discloses a capital construction intelligent drawing method. The invention can intelligently and efficiently finish the visual drawing of each stage of the project, reduce human errors, ensure the design quality and provide a foundation for subsequent construction.

Description

Intelligent mapping system and method for capital construction

Technical Field

The invention relates to the technical field of capital construction, in particular to an intelligent mapping system and method for the capital construction.

Background

Under the background of the progressive informatization, datamation and intellectualization, the data value and artificial intelligence continuously release energy, the problems that in the past, investigation and design are disjointed, project management is difficult to advance, a single communication mode is not clear, project data are slow to circulate and are easy to lose are solved under the added support of modern technologies such as big data, cloud computing, the Internet of things, 5G, AI + and the like in the field of infrastructure, and the economic intelligence, the efficient processing of information data, the simple and easy control of project management and the convenient and flexible communication and communication of a design scheme are created. In the prior art, the problems of long time consumption of manual translation of field draft, large field measurement personal error, non-uniform design standard, variable style of design drawing, uneven design quality, large design result submission difference and high design review difficulty often occur in the design of capital construction projects.

Disclosure of Invention

In order to overcome the above problems or at least partially solve the above problems, embodiments of the present invention provide a system and a method for intelligently and efficiently drawing a visualization drawing at each stage of a project, so as to reduce human errors, ensure design quality, and provide a foundation for subsequent construction.

The embodiment of the invention is realized by the following steps:

in a first aspect, an embodiment of the present invention provides an intelligent mapping system for capital construction, including a satellite positioning module, a mapping module, and a computing module, where:

the satellite positioning module is used for acquiring a satellite map and taking the satellite map as a design base map;

the drawing module is used for acquiring project requirements, drawing a project design scheme on the design base map according to the project requirements and generating an initial design drawing;

and the computing module is used for inputting the initial design drawing and the project information, and computing and generating a project design result by adopting an intelligent computing mode.

The satellite positioning module adopts GPS positioning through a mobile terminal of a mobile phone, takes a satellite map as a design base map, quickly positions the geographic position of a project and draws a drawing when surveying on site, and each participating unit can open the drawn data of the project intelligent map and check the geographic positions of the project, a pipeline, equipment, a structure, a tower and the like, so that the accurate positioning, the accurate design, the accurate construction and the accurate management of a capital construction project are realized; after a satellite map is used as a design base map, a drawing module draws a project design scheme on the design base map according to actual project requirements to further obtain an initial design drawing, technicians design, check, optimize and lock the scheme according to power grid standard and material requirements, an application system automatically calculates and generates a complete set of design data such as a material table, a budget book and relevant attached table accessories required by the power grid after locking, and after the initial design drawing is generated, the initial design drawing and project information are input through a calculation module, the project information comprises information such as various pipelines, equipment, structures, tower foundation models and the like, a project design result is calculated and generated by adopting an intelligent calculation mode, different results are generated according to different projects, and the project design result comprises a project two-dimensional and three-dimensional plane map, an installation map, a refined construction map, a tower detail table, a project amount and a material inventory, Coordinate lists, project cost (estimation, approximation, budget, settlement), etc.

In the stage of issuing a capital construction project, the system can be used for carrying out calculation and analysis on project basic data according to the requirements of a research report, early warning is carried out on projects which do not need to build necessary necessities, useless investigation is avoided, and navigation positioning and field mapping functions are realized through the system in the project investigation stage. The participating units use project addresses sent by the power grid operation and maintenance department in a packaging mode to position, navigate to the site, draw paths on the geographic information background through the mobile phone end of the system, select the positions of the towers and the equipment, and also carry out distance measurement and reconnaissance information (such as pictures, paths and the like) storage through the system. The system can intelligently and efficiently finish the visual drawing of each stage of the project, reduce human errors, ensure the design quality and provide a foundation for subsequent construction.

Based on the first aspect, in some embodiments of the present invention, a system for building an intelligent drawing is provided, where the drawing module includes a design module database building sub-module, a module selecting sub-module, and a drawing sub-module, where:

the design module database establishing sub-module is used for inputting the data of the design module so as to establish a design module database;

the module selection submodule is used for selecting a corresponding design module according to project requirements;

and the drawing submodule is used for drawing a project design scheme on the design base map through the selected design module to generate an initial design drawing.

Based on the first aspect, in some embodiments of the present invention, a capital construction intelligent mapping system, the design module database establishing sub-module includes a design module unit, a first entry unit, a second entry unit and an association unit, wherein:

the design module unit is used for inputting various design modules;

the first input unit is used for inputting various pipeline, equipment, structure and tower foundation models into corresponding design modules;

the second input unit is used for inputting two-dimensional legends, three-dimensional legends, installation drawings, refined construction drawings, engineering quantities and material information corresponding to various design modules;

and the association unit is used for setting the design legend, the primitives, the primitive block attributes and the input and output link relations of the modules corresponding to the design modules.

Based on the first aspect, in some embodiments of the present invention, the infrastructure intelligent mapping system further includes a modification module, configured to obtain a modification instruction, and modify the initial design drawing according to the modification instruction, so as to obtain a modified design drawing.

Based on the first aspect, in some embodiments of the present invention, a capital construction intelligent mapping system, the computing module includes a design module cost sub-module, a project engineering quantum module, a project cost sub-module, a design change budget sub-module, and a project change budget sub-module, wherein:

the design module cost submodule is used for automatically matching the materials and the quota corresponding to the design module by inputting corresponding standard design and engineering quantity and adopting an intelligent calculation mode of data matching and logical operation to generate the design module cost;

the project engineering quantum module is used for calculating design image blocks, graphic elements and graphic information in an intelligent calculation mode of data matching and logical operation after the mobile terminal finishes a plane scheme design drawing, and generating a project engineering quantity list;

the project cost submodule is used for matching and calculating the quantity of project materials, the transport distance, the terrain and the quota set through an intelligent calculation mode of data matching and logic operation and generating project cost;

the design change budget submodule is used for acquiring the construction drawing and the change range of the design change drawing and generating design change budget;

and the project change budget submodule is used for importing the change ranges of the construction drawing and the design change drawing, automatically generating a project engineering quantity change list, and then carrying out next-step cost comparison and intelligent calculation to generate project change budget.

In a second aspect, an embodiment of the present invention further provides a method for making an intelligent map of a capital construction, including the following steps:

acquiring a satellite map, and taking the satellite map as a design base map;

acquiring project requirements, drawing a project design scheme on a design base map according to the project requirements and generating an initial design drawing;

inputting an initial design drawing and project information, and calculating to generate a project design result by adopting an intelligent calculation mode.

By adopting GPS positioning at a mobile terminal of a mobile phone and taking a satellite map as a design base map, quickly positioning the geographic position of a project and drawing a drawing during on-site survey, opening the drawn data of the project intelligent map by each participating unit, checking the geographic positions of the project, a pipeline, equipment, a structure, a tower and the like, and realizing accurate positioning, accurate design, accurate construction and accurate management of a capital construction project; after a satellite map is used as a design base map, a project design scheme is drawn on the design base map according to actual project requirements, an initial design drawing is further obtained, technicians design the design according to power grid standards and material requirements, check, optimize and lock the scheme, an application system automatically calculates and generates a complete set of design data such as a material table, a budget book and relevant attached table accessories required by the power grid after locking, the initial design drawing is generated, and the initial design drawing and project information are input, wherein the project information comprises information such as various pipelines, equipment, structures, tower foundation models and the like, an intelligent calculation mode is adopted to calculate and generate project design results, different results are generated according to different projects, and the project design results comprise a project two-dimensional and three-dimensional plane map, an installation map and a refined construction map, a tower detailed table, a project amount and material inventory, a coordinate detailed table and project cost (estimation of construction cost), Approximate, budget, settlement), etc. In the stage of issuing a capital construction project, the project basic data can be calculated and analyzed according to the requirements of the research reports by the method, and the project which does not need to be built necessarily is early warned, so that unnecessary investigation is avoided. The method can intelligently and efficiently finish the visual drawing of each stage of the project, reduce human errors, ensure the design quality and provide a foundation for subsequent construction.

Based on the second aspect, in some embodiments of the present invention, a method for building an intelligent drawing, acquiring a project requirement, drawing a project design scheme on a design base map according to the project requirement, and generating an initial design drawing includes the following steps:

inputting design module data to establish a design module database;

selecting a corresponding design module according to project requirements;

and drawing a project design scheme on the design base map through the selected design module to generate an initial design drawing.

Based on the second aspect, in some embodiments of the present invention, a method for establishing an intelligent drawing is provided, and the method for inputting design module data to establish a design module database includes the following steps:

inputting various design modules;

inputting various pipeline, equipment, structures and tower foundation models into corresponding design modules;

inputting two-dimensional legends, three-dimensional legends, installation drawings, refined construction drawings, engineering quantities and material information corresponding to various design modules;

and setting a design legend, a primitive and a primitive block attribute corresponding to each design module and the input and output link relation of each module.

Based on the second aspect, in some embodiments of the present invention, a method for making a capital construction intelligent drawing further includes the following steps:

and acquiring a modification instruction, and modifying the initial design drawing according to the modification instruction.

Based on the second aspect, in some embodiments of the present invention, an intelligent mapping method for capital construction is provided, where an initial design drawing and project information are entered, and an intelligent calculation method is adopted, and a method for calculating and generating a project design result includes the following steps:

automatically matching materials and quota corresponding to the design module by inputting corresponding standard design and engineering quantity and adopting an intelligent calculation mode of data matching and logical operation to generate the manufacturing cost of the design module;

after the mobile terminal finishes a plane scheme design drawing, calculating design image blocks, graphic elements and graphic information in an intelligent calculation mode of data matching and logical operation to generate a project engineering quantity list;

matching operation is carried out on the quantity of project materials, the distance, the terrain and the quota by an intelligent calculation mode of data matching and logic operation, and project cost is generated;

acquiring a construction drawing and a change range of a design change drawing, and generating a design change budget;

and importing the change range of the construction drawing and the design change drawing, automatically generating a project engineering quantity change list, and then performing next cost comparison and intelligent calculation to generate a project change budget.

The embodiment of the invention at least has the following advantages or beneficial effects:

the embodiment of the invention provides a capital construction intelligent mapping system.A satellite positioning module adopts a GPS (global positioning system) for positioning through a mobile terminal of a mobile phone, takes a satellite map as a design base map, quickly positions the geographical position of a project and draws a drawing in on-site survey, and each participating unit can open the drawn data of the project intelligent map and check the geographical positions of the project, a pipeline, equipment, a structure, a tower and the like so as to realize accurate positioning, accurate design, accurate construction and accurate management of a capital construction project; after a satellite map is used as a design base map, a drawing module draws a project design scheme on the design base map according to actual project requirements, and further obtains an initial design drawing, technicians design, check, optimize and lock the scheme according to power grid standard and material requirements, an application system automatically calculates and generates a complete set of design data such as a material sheet, a budget book and relevant attached sheet accessories required by a power grid after locking, the initial design drawing and project information are input through a calculation module after generating the initial design drawing, a project design result is calculated and generated by adopting an intelligent calculation mode, and different results are generated according to different projects, wherein the results comprise project two-dimensional and three-dimensional plane maps, installation drawings, refined construction drawings, tower detailed tables, project quantity and material books, coordinate detailed tables, project cost and the like. In the stage of issuing a capital construction project, the system can be used for carrying out calculation and analysis on project basic data according to the requirements of a research report, early warning is carried out on projects which do not need to build necessary necessities, useless investigation is avoided, and navigation positioning and field mapping functions are realized through the system in the project investigation stage. The participating units use project addresses sent by the power grid operation and maintenance department in a packaging mode to position, navigate to the site, draw paths on the geographic information background through the mobile phone end of the system, select the positions of the towers and the equipment, and also carry out distance measurement and reconnaissance information storage through the system. The system can intelligently and efficiently finish the visual drawing of each stage of the project, reduce human errors, ensure the design quality and provide a foundation for subsequent construction.

The embodiment of the invention also provides a capital construction intelligent drawing method, GPS positioning is adopted at a mobile terminal of a mobile phone, a satellite map is taken as a design base map, project geographic positions are quickly positioned and drawings are drawn during on-site survey, drawn project intelligent map data can be opened by each building participating unit, geographic positions of projects, pipelines, equipment, structures, towers and the like are checked, and accurate positioning, accurate design, accurate construction and accurate management of capital construction projects are realized; after a satellite map is used as a design base map, a project design scheme is drawn on the design base map according to actual project requirements, an initial design drawing is further obtained, technicians design, check, optimize and lock the project according to power grid standard and material requirements, an application system automatically calculates and generates a complete set of design data such as a material sheet, a budget book and relevant attached sheet accessories required by a power grid after locking, the initial design drawing and project information are input after the initial design drawing is generated, an intelligent calculation mode is adopted, project design results are calculated and generated, different results are generated according to different projects, and the project design results comprise project two-dimensional and three-dimensional plane maps, installation maps, refined construction maps, tower detailed tables, project quantity and material clearing books, coordinate detailed tables, project cost and the like. In the stage of issuing a capital construction project, the project basic data can be calculated and analyzed according to the requirements of the research reports by the method, and the project which does not need to be built necessarily is early warned, so that unnecessary investigation is avoided. The method can intelligently and efficiently finish the visual drawing of each stage of the project, reduce human errors, ensure the design quality and provide a foundation for subsequent construction.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a first schematic block diagram of a capital construction intelligent mapping system according to an embodiment of the present invention;

FIG. 2 is a schematic block diagram II of a capital construction intelligent mapping system according to an embodiment of the present invention;

fig. 3 is a flowchart of a capital construction intelligent mapping method according to an embodiment of the present invention.

Icon: 100. a satellite positioning module; 200. a drawing module; 201. a design module database establishing submodule; 2011. designing a module unit; 2012. a first recording unit; 2013. a second recording unit; 2014. an association unit; 202. the module selects a submodule; 203. drawing a submodule; 300. a calculation module; 301. designing a module cost submodule; 302. a project engineering quantum module; 303. a project cost submodule; 304. a design change budget submodule; 305. a project change budget submodule; 400. and modifying the module.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

In the description of the embodiments of the present invention, it should be noted that the terms "first", "second", and the like are used for distinguishing between descriptions and not for indicating or implying relative importance.

Examples

As shown in fig. 1, the present embodiment provides a capital construction intelligent mapping system, which includes a satellite positioning module 100, a mapping module 200, and a calculating module 300, wherein:

the satellite positioning module 100 is configured to obtain a satellite map, and use the satellite map as a design base map;

the drawing module 200 is used for acquiring project requirements, drawing a project design scheme on the design base map according to the project requirements and generating an initial design drawing;

and the calculation module 300 is used for inputting the initial design drawing and the project information, and calculating to generate a project design result by adopting an intelligent calculation mode.

The satellite positioning module 100 adopts GPS positioning through a mobile terminal of a mobile phone, takes a satellite map as a design base map, quickly positions project geographic positions and draws a drawing in site survey, and each participating unit can open drawn project intelligent map data and check the geographic positions of projects, pipelines, equipment, structures, towers and the like, so that accurate positioning, accurate design, accurate construction and accurate management of a capital construction project are realized; after a satellite map is used as a design base map, a drawing module 200 draws a project design scheme on the design base map according to actual project requirements, and further obtains an initial design drawing, technicians design, check, optimize and lock the scheme according to power grid standard design and material requirements, an application system automatically calculates and generates a complete set of design data such as a material sheet, a budget book and relevant attached sheet accessories required by a power grid after locking, and after the initial design drawing is generated, the initial design drawing and project information are input through a calculation module 300, the project information comprises information such as various pipelines, equipment, structures and tower foundation models, the project design result is calculated and generated by adopting an intelligent calculation mode, and different results are generated according to different projects, wherein the different results comprise project two-dimensional and three-dimensional plane maps, installation maps and refined construction maps, tower detailed tables, project quantity and material inventory, Coordinate lists, project cost (estimation, approximation, budget, settlement), etc.

In the stage of issuing a capital construction project, the system can be used for carrying out calculation and analysis on project basic data according to the requirements of a research report, early warning is carried out on projects which do not need to build necessary necessities, useless investigation is avoided, and navigation positioning and field mapping functions are realized through the system in the project investigation stage. The participating units use project addresses sent by the power grid operation and maintenance department in a packaging mode to position, navigate to the site, draw paths on the geographic information background through the mobile phone end of the system, select the positions of the towers and the equipment, and also carry out distance measurement and reconnaissance information (such as pictures, paths and the like) storage through the system. The system can intelligently and efficiently finish the visual drawing of each stage of the project, reduce human errors, ensure the design quality and provide a foundation for subsequent construction.

In one embodiment, as shown in fig. 1, the drawing module 200 includes a design module database creating sub-module 201, a module selecting sub-module 202, and a drawing sub-module 203, wherein:

a design module database establishing sub-module 201 for inputting design module data to establish a design module database;

the module selection sub-module 202 is used for selecting a corresponding design module according to project requirements;

and the drawing submodule 203 is used for drawing a project design scheme on the design base map through the selected design module to generate an initial design drawing.

Establishing a sub-module 201 through a design module database, inputting design module data, wherein the design module data is various design modules designed according to industry standards to establish a design module database, a standardized design module can be directly selected in a platform, a registered user can establish a non-standardized design module database according to project conditions, a standard design module can be set according to the requirements of a construction owner and preferentially selects the standard design module, an application platform can also update the standard design module through professional calculation and analysis according to the requirements of the construction owner, and a plurality of standard design type selection schemes are set to meet the standardized requirements of project construction; the design scheme can be drawn on a satellite map (design base map) by selecting the submodule 203 after the required design module is selected, and generating an initial design drawing. If the mobile phone clicks the starting point and the ending point of the path after the pipeline model is spoken by voice, the pipeline plane path and the measurement label length are displayed (the label length can be modified by voice); if the model of the equipment or the tower is spoken by voice, the position of the equipment or the tower is output at the mobile terminal of the mobile phone, namely a standard legend of the selected equipment or the tower is displayed on a satellite plan; and the corresponding installation drawing, the fine construction drawing and the unit cost can be selected to be checked according to the graphic legend. During drawing, the system can also be used for positioning and shooting, can record shooting direction and positioning, is convenient for settling and storing field investigation data, and can be used as an image basis for project new construction and modification.

In one embodiment, as shown in fig. 1, the design module database building sub-module 201 includes a design module unit 2011, a first entry unit 2012, a second entry unit 2013 and an association unit 2014, wherein:

a design module unit 2011 for inputting various design modules;

the first recording unit 2012 is used for recording various pipeline, equipment, structure and tower foundation models into the corresponding design modules;

the second entry unit 2013 is used for entering two-dimensional legends, three-dimensional legends, installation drawings, refined construction drawings, engineering quantities and material information corresponding to various design modules;

and the association unit 2014 is used for setting the design legend, the primitives, the primitive block attributes and the input and output link relations of the modules corresponding to the design modules.

The design module data is various design modules designed according to industry standards, standardized design modules are recorded through a design module unit 2011, various pipelines, equipment, structures, towers, foundation models and the like are recorded into the design modules through a first recording unit 2012, two-dimensional and three-dimensional legends, installation drawings, fine construction drawings, engineering quantities, material information and the like corresponding to various modules are recorded through a second recording unit 2013, the design legends, primitives, primitive block attributes and the input and output link relations of the modules are set through a correlation unit 2014, and a complete design module database is further established for subsequent calling.

In one embodiment, as shown in fig. 2, the method further includes a modification module 400, configured to obtain a modification instruction, and modify the initial design drawing according to the modification instruction to obtain a modified design drawing.

The user can manually select or AI intelligent voice control the deleting function, the modification instruction of the user is obtained through the modification module 400, and the initial design drawing is modified according to the modification instruction to obtain the modified design drawing. If AI intelligent voice is adopted, the graph needing to be modified is selected after clicking, full selection or frame selection is spoken, and the graph is deleted or changed into the XX model by speaking voice after selection, so that the modification is completed. AI intelligence voice is controlled, can accurate discernment user's voice command to select corresponding design module rapidly, make the design work more simple and convenient, interesting, very big improvement the efficiency of on-the-spot investigation and drawing. The manual selection can set up the tool bar for the quick selection of intelligent drawing home interface, inserts common design module into the tool bar, makes to seek and select for use more convenient nimble.

In one embodiment, as shown in FIG. 1, the calculation module 300 includes a design module cost sub-module 301, a project engineering sub-module 302, a project cost sub-module 303, a design change budget sub-module 304, and a project change budget sub-module 305, wherein:

the design module cost sub-module 301 is configured to automatically match the material and the quota (multiple quota applying templates can be set and selected) corresponding to the design module by inputting corresponding standard design and engineering quantity and adopting an intelligent calculation mode of data matching and logical operation to generate the design module cost; the design module cost refers to the engineering cost corresponding to the design module database.

And the project engineering quantum module 302 is used for calculating design blocks, primitives and graphic information in an intelligent calculation mode of data matching and logical operation after the mobile terminal finishes the plan scheme design drawing, and generating a project engineering quantity list.

The project cost submodule 303 is used for matching and calculating the quantity, the distance, the terrain and the quota of project materials in an intelligent calculation mode of data matching and logic operation and generating project cost (estimation, approximate calculation, budget and settlement); the module supports functions of quota collection management setting, dictionary database creation addition, deletion, viewing and the like.

The design change budget submodule 304 is used for acquiring the construction drawing and the change range of the design change drawing and generating a design change budget; when the design of the project is changed, the registered user can select the construction drawing and the change range of the design change drawing and click to generate the design change budget.

And the project change budget submodule 305 is used for importing the change ranges of the construction drawing and the design change drawing, automatically generating a project engineering quantity change list, and then performing next cost comparison and intelligent calculation to generate project change budget.

Through intelligent calculation, the designer can quickly finish cost comparison while continuously optimizing the design scheme, and the technical economy reasonability, advancement and practicability of the design scheme are ensured. And the module can be applied to survey design and completion settlement of projects, so that the settlement progress and accuracy of the projects are greatly improved.

As shown in fig. 3, an embodiment of the present invention further provides a method for making an intelligent map of a capital construction, including the following steps:

acquiring a satellite map, and taking the satellite map as a design base map;

acquiring project requirements, drawing a project design scheme on a design base map according to the project requirements and generating an initial design drawing;

inputting an initial design drawing and project information, and calculating to generate a project design result by adopting an intelligent calculation mode.

By adopting GPS positioning at a mobile terminal of a mobile phone and taking a satellite map as a design base map, quickly positioning the geographic position of a project and drawing a drawing during on-site survey, opening the drawn data of the project intelligent map by each participating unit, checking the geographic positions of the project, a pipeline, equipment, a structure, a tower and the like, and realizing accurate positioning, accurate design, accurate construction and accurate management of a capital construction project; after a satellite map is used as a design base map, a project design scheme is drawn on the design base map according to actual project requirements, an initial design drawing is further obtained, technicians design the design according to power grid standards and material requirements, check, optimize and lock the scheme, an application system automatically calculates and generates a complete set of design data such as a material table, a budget book and relevant attached table accessories required by the power grid after locking, the initial design drawing is generated, and the initial design drawing and project information are input, wherein the project information comprises information such as various pipelines, equipment, structures, tower foundation models and the like, an intelligent calculation mode is adopted to calculate and generate project design results, different results are generated according to different projects, and the project design results comprise a project two-dimensional and three-dimensional plane map, an installation map and a refined construction map, a tower detailed table, a project amount and material inventory, a coordinate detailed table and project cost (estimation of construction cost), Approximate, budget, settlement), etc. In the stage of issuing a capital construction project, the project basic data can be calculated and analyzed according to the requirements of the research reports by the method, and the project which does not need to be built necessarily is early warned, so that unnecessary investigation is avoided. The method can intelligently and efficiently finish the visual drawing of each stage of the project, reduce human errors, ensure the design quality and provide a foundation for subsequent construction.

In one embodiment, the method for acquiring project requirements, drawing a project design scheme on a design base drawing according to the project requirements and generating an initial design drawing comprises the following steps:

inputting design module data to establish a design module database;

selecting a corresponding design module according to project requirements;

and drawing a project design scheme on the design base map through the selected design module to generate an initial design drawing.

In one embodiment, the method of entering design module data to build a database of design modules comprises the steps of:

inputting various design modules;

inputting various pipeline, equipment, structures and tower foundation models into corresponding design modules;

inputting two-dimensional legends, three-dimensional legends, installation drawings, refined construction drawings, engineering quantities and material information corresponding to various design modules;

and setting a design legend, a primitive and a primitive block attribute corresponding to each design module and the input and output link relation of each module.

Inputting design module data, wherein the design module data are various design modules designed according to an industry standard to establish a design module database, a standardized design module can be directly selected in a platform, a registered user can also establish a non-standardized design module database according to project conditions, a standard design module can be set according to the requirements of a construction owner and can be preferentially selected, an application platform can also update the standard design module through professional calculation and analysis according to the requirements of the construction owner and set a plurality of standard design selection schemes to meet the standardized requirements of project construction; according to different requirements, the corresponding design modules are selected, manual selection or AI intelligent voice control can be adopted when the modules are selected, and a design scheme can be drawn on a satellite map (design base map) after the required design modules are selected to generate an initial design drawing. If the mobile phone clicks the starting point and the ending point of the path after the pipeline model is spoken by voice, the pipeline plane path and the measurement label length are displayed (the label length can be modified by voice); if the model of the equipment or the tower is spoken by voice, the position of the equipment or the tower is output at the mobile terminal of the mobile phone, namely a standard legend of the selected equipment or the tower is displayed on a satellite plan; and the corresponding installation drawing, the fine construction drawing and the unit cost can be selected to be checked according to the graphic legend. During drawing, the system can also be used for positioning and shooting, can record shooting direction and positioning, is convenient for settling and storing field investigation data, and can be used as an image basis for project new construction and modification.

In one embodiment, the infrastructure intelligent mapping method further comprises the following steps:

and acquiring a modification instruction, and modifying the initial design drawing according to the modification instruction.

The user can manually select or control the deleting function by the AI intelligent voice, if the AI intelligent voice is adopted, the graph needing to be modified is selected after clicking, full selecting or frame selecting is spoken, and the graph is deleted or changed into the XX model by speaking the voice after the graph is selected, so that the modification is completed. AI intelligence voice is controlled, can accurate discernment user's voice command to select corresponding design module rapidly, make the design work more simple and convenient, interesting, very big improvement the efficiency of on-the-spot investigation and drawing. The manual selection can set up the tool bar for the quick selection of intelligent drawing home interface, inserts common design module into the tool bar, makes to seek and select for use more convenient nimble.

In one embodiment, an initial design drawing and project information are input, an intelligent calculation mode is adopted, and a method for calculating and generating a project design result comprises the following steps:

automatically matching materials and quota corresponding to the design module by inputting corresponding standard design and engineering quantity and adopting an intelligent calculation mode of data matching and logical operation to generate the manufacturing cost of the design module;

after the mobile terminal finishes a plane scheme design drawing, calculating design image blocks, graphic elements and graphic information in an intelligent calculation mode of data matching and logical operation to generate a project engineering quantity list;

matching operation is carried out on the quantity of project materials, the distance, the terrain and the quota by an intelligent calculation mode of data matching and logic operation, and project cost is generated;

acquiring a construction drawing and a change range of a design change drawing, and generating a design change budget;

and importing the change range of the construction drawing and the design change drawing, automatically generating a project engineering quantity change list, and then performing next cost comparison and intelligent calculation to generate a project change budget.

Through intelligent calculation, the designer can quickly finish cost comparison while continuously optimizing the design scheme, and the technical economy reasonability, advancement and practicability of the design scheme are ensured. And the module can be applied to survey design and completion settlement of projects, so that the settlement progress and accuracy of the projects are greatly improved.

In summary, the embodiments of the present invention provide an intelligent mapping system and method for capital construction, which use a mobile terminal of a mobile phone to perform GPS positioning, use a satellite map as a design base map, quickly position the geographic location of a project and draw a drawing during on-site survey, and each participating unit can open the drawn data of the project intelligence map and check the geographic locations of the project, pipeline, equipment, structures, towers, etc., so as to implement accurate positioning, accurate design, accurate construction and accurate management of the capital construction project; after a satellite map is used as a design base map, a project design scheme is drawn on the design base map according to actual project requirements, an initial design drawing is further obtained, technicians design, check, optimize and lock the project according to power grid standard and material requirements, an application system automatically calculates and generates a complete set of design data such as a material sheet, a budget book and relevant attached sheet accessories required by a power grid after locking, the initial design drawing and project information are input after the initial design drawing is generated, an intelligent calculation mode is adopted, project design results are calculated and generated, different results are generated according to different projects, and the project design results comprise project two-dimensional and three-dimensional plane maps, installation maps, refined construction maps, tower detailed tables, project quantity and material clearing books, coordinate detailed tables, project cost and the like. In the stage of issuing a capital construction project, the project basic data can be calculated and analyzed according to the requirements of the research reports by the method, and the project which does not need to be built necessarily is early warned, so that unnecessary investigation is avoided. The method can intelligently and efficiently finish the visual drawing of each stage of the project, reduce human errors, ensure the design quality and provide a foundation for subsequent construction.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

It will be evident to those skilled in the art that the present application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a capital construction intelligence drawing system, its characterized in that includes satellite positioning module, drawing module, calculation module and intelligent analysis module, wherein:

the satellite positioning module is used for acquiring a satellite map and taking the satellite map as a design base map;

the drawing module is used for acquiring project requirements, drawing a project design scheme on the design base map according to the project requirements and generating an initial design drawing;

and the computing module is used for inputting the initial design drawing and the project information, and computing and generating a project design result by adopting an intelligent computing mode.

2. The capital construction intelligent mapping system according to claim 1, wherein the mapping module comprises a design module database building submodule, a module selection submodule, and a mapping submodule, wherein:

the design module database establishing sub-module is used for inputting the data of the design module so as to establish a design module database;

the module selection submodule is used for selecting a corresponding design module according to project requirements;

and the drawing submodule is used for drawing a project design scheme on the design base map through the selected design module to generate an initial design drawing.

3. A capital construction intelligent mapping system according to claim 2, wherein said design module database building submodule comprises a design module unit, a first entry unit, a second entry unit and an association unit, wherein:

the design module unit is used for inputting various design modules;

the first input unit is used for inputting various pipeline, equipment, structure and tower foundation models into corresponding design modules;

the second input unit is used for inputting two-dimensional legends, three-dimensional legends, installation drawings, refined construction drawings, engineering quantities and material information corresponding to various design modules;

and the association unit is used for setting the design legend, the primitives, the primitive block attributes and the input and output link relations of the modules corresponding to the design modules.

4. The infrastructure intelligent mapping system of claim 1, further comprising a modification module configured to obtain a modification instruction, and modify the initial design drawing according to the modification instruction to obtain a modified design drawing.

5. A capital construction intelligent mapping system according to claim 1, wherein said computation module comprises a design module cost sub-module, a project engineering quantum module, a project cost sub-module, a design change budget sub-module and a project change budget sub-module, wherein:

the design module cost submodule is used for automatically matching the materials and the quota corresponding to the design module by inputting corresponding standard design and engineering quantity and adopting an intelligent calculation mode of data matching and logical operation to generate the design module cost;

the project engineering quantum module is used for calculating design image blocks, graphic elements and graphic information in an intelligent calculation mode of data matching and logical operation after the mobile terminal finishes a plane scheme design drawing, and generating a project engineering quantity list;

the project cost submodule is used for matching and calculating the quantity of project materials, the transport distance, the terrain and the quota set through an intelligent calculation mode of data matching and logic operation and generating project cost;

the design change budget submodule is used for acquiring the construction drawing and the change range of the design change drawing and generating design change budget;

and the project change budget submodule is used for importing the change ranges of the construction drawing and the design change drawing, automatically generating a project engineering quantity change list, and then carrying out next-step cost comparison and intelligent calculation to generate project change budget.

6. A capital construction intelligent drawing method is characterized by comprising the following steps:

acquiring a satellite map, and taking the satellite map as a design base map;

acquiring project requirements, drawing a project design scheme on a design base map according to the project requirements and generating an initial design drawing;

inputting an initial design drawing and project information, and calculating to generate a project design result by adopting an intelligent calculation mode.

7. The capital construction intelligent drawing method according to claim 6, wherein the method for acquiring project requirements, drawing project design schemes on the design base drawings according to the project requirements and generating initial design drawings comprises the following steps:

inputting design module data to establish a design module database;

selecting a corresponding design module according to project requirements;

and drawing a project design scheme on the design base map through the selected design module to generate an initial design drawing.

8. A method for making a building intelligent drawing according to claim 7, wherein said method of entering design module data to create a design module database comprises the steps of:

inputting various design modules;

inputting various pipeline, equipment, structures and tower foundation models into corresponding design modules;

inputting two-dimensional legends, three-dimensional legends, installation drawings, refined construction drawings, engineering quantities and material information corresponding to various design modules;

and setting a design legend, a primitive and a primitive block attribute corresponding to each design module and the input and output link relation of each module.

9. The capital construction intelligent drawing method according to claim 6, further comprising the steps of:

and acquiring a modification instruction, and modifying the initial design drawing according to the modification instruction to obtain a modified design drawing.

10. The capital construction intelligent mapping method according to claim 6, wherein an initial design drawing and project information are entered, an intelligent calculation method is adopted, and the method for calculating and generating project design results comprises the following steps:

automatically matching materials and quota corresponding to the design module by inputting corresponding standard design and engineering quantity and adopting an intelligent calculation mode of data matching and logical operation to generate the manufacturing cost of the design module;

after the mobile terminal finishes a plane scheme design drawing, calculating design image blocks, graphic elements and graphic information in an intelligent calculation mode of data matching and logical operation to generate a project engineering quantity list;

matching operation is carried out on the quantity of project materials, the distance, the terrain and the quota by an intelligent calculation mode of data matching and logic operation, and project cost is generated;

acquiring a construction drawing and a change range of a design change drawing, and generating a design change budget;

and importing the change range of the construction drawing and the design change drawing, automatically generating a project engineering quantity change list, and then performing next cost comparison and intelligent calculation to generate a project change budget.

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