CN112232761A

CN112232761A - Infrastructure application system and method

Info

Publication number: CN112232761A
Application number: CN202011054851.6A
Authority: CN
Inventors: 宋前雨; 韦娜; 黎亚娟; 刘波; 王�锋
Original assignee: Guangxi Lvneng Electric Power Investigation Design Co ltd
Current assignee: Guangxi Lvneng Electric Power Investigation Design Co ltd
Priority date: 2020-09-27
Filing date: 2020-09-27
Publication date: 2021-01-15
Anticipated expiration: 2040-09-27
Also published as: CN112232761B

Abstract

The invention discloses a infrastructure application system and a method, which relate to the technical field of infrastructure, wherein the system comprises an intelligent graph module, a comet-linkage module and a cloud pipe module; through the intelligent image module, the intelligent connection module and the cloud pipe module, the whole process of project construction is mastered by one mobile phone and one screen, the survey design is intelligently linked with the site construction, the quality inspection is completed on a metering line, the construction data is collected in real time, and the online and offline cooperative management is realized, so that all participating units are jointly built and shared in the project implementation process, the interconnection and the intercommunication are mutually beneficial, and the intelligent construction is realized. The method solves the problems that the capital construction project investigation design efficiency is low, the design quality is uneven, the calculation error rate of the project amount and the construction cost is high, the design drawing and the construction can not be fused, the project progress is in a text form, the project quality and the change are difficult to control, the project information is difficult to store and search data, the project communication is not clear and convenient, and each participating unit does not have a special cooperative management platform in the project implementation process.

Description

Infrastructure application system and method

Technical Field

The invention relates to the technical field of infrastructure construction, in particular to a infrastructure construction application system.

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 infrastructure application system and method, which integrate the functions of exploration, design, calculation, communication and storage, and the results can be mutually invoked to serve the whole process of project construction.

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

in a first aspect, the present invention provides a infrastructure application system, including: the intelligent image module, the intelligent connection module and the cloud pipe module;

the intelligent graph module comprises:

the intelligent analysis module is used for calculating and analyzing project basic data according to the requirements of the research reports in the project issuing stage and carrying out early warning prompt on the infrastructure design schemes which do not meet the conditions;

the satellite positioning module is used for showing the project address on a virtual map of the mobile terminal after the participating unit obtains the project address positioning sent by the construction unit, the virtual map also shows a navigation path from the current position to the basic construction address, the mobile terminal can position at regular time, draw a path and select the equipment drop point position by taking the virtual map as the background, and carry out distance measurement and record on-site investigation information through the virtual map;

the intelligent calculation and drawing module is used for calling a path and selecting a device placement position to generate a primary design drawing, checking, optimizing and locking the primary design drawing according to the standard design of the power grid and material requirements, and automatically calculating and generating a complete set of design data of a material table, a budget book and the power grid requirements after locking;

the comet linkage module includes:

the intelligent sharing module is used for registering a user to send project sharing files and geographic information and sharing project design and construction progress in real time at the mobile terminal;

the image-text information interconnection module is used for registering a user to upload and send positioning information, drawing information and transmission files, and storing the positioning information, the drawing information and the transmission files in the cloud management module in a classified manner;

the barrier-free communication module is used for performing text, voice communication, video conference, screen sharing and remote cooperation between registered users and between the registered users and construction site personnel;

the cloud pipe module comprises:

the design and review management module is used for designing and managing the progress quality, selecting a standard review template to review and check the design result during review, and automatically generating review opinions;

the project construction management module is used for sharing the completed construction drawing to a construction unit and a supervision unit; wherein:

the construction unit can draw a project progress diagram and a completion sketch by using a design diagram as a base diagram according to project management requirements and project completion conditions, insert field positioning photos of completed engineering quantities in the drawing process and share the field positioning photos to a construction owner and a supervision unit;

a supervision unit records the project field management condition in real time;

and the cloud storage management module is used for storing the data of the whole process of the project.

In some embodiments of the invention, further comprising:

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

and a design drawing importing and engineering quantity list generating module: after the mobile terminal finishes a plane scheme design drawing, importing design picture blocks, graphic elements and graphic information into an intelligent analysis module to generate a project engineering quantity list;

selecting a construction drawing and a design change drawing change range module: 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 the design change budget is regenerated;

generating a project change material and budget module: and importing the change range of the construction drawing and the design change drawing, automatically generating a project engineering quantity change list, and then carrying out next cost comparison and intelligent calculation to generate project change materials and budget.

In some embodiments of the invention, the cloud storage management module comprises a project public storage module and a personal private storage module;

an item common storage module: the method comprises the steps of storing project data of each stage of project management circulation by adopting a network hard disk, establishing the project management network hard disk according to the requirements of registered users, setting the authority, and establishing file sharing with other people or sharing files in an organization;

a personal private storage module: the method comprises the step of storing shared folder data by adopting a private cloud disk.

In some embodiments of the invention, the survey information includes equipment placement locations.

In some embodiments of the present invention, the mobile terminal includes a mobile terminal of a mobile phone and a PC terminal.

In a second aspect, the present invention provides a method for infrastructure application, which is characterized by comprising the following steps:

s1, calculating and analyzing project basic data according to the requirements of the research report in the project issuing stage, and carrying out early warning prompt on the infrastructure design scheme which does not meet the conditions;

s2, after the participating unit obtains the project address location sent by the construction unit, the project address is displayed on the virtual map of the mobile terminal, the virtual map also displays the navigation path from the current position to the basic construction address, the mobile terminal can locate at regular time, draw the path and select the equipment drop point position by taking the virtual map as the background, and carry out distance measurement and record the site investigation information through the virtual map;

s3, obtaining a path and selecting a device placement position to generate a preliminary design drawing, checking, optimizing and locking the preliminary design drawing according to the standard design of the power grid and the material requirements, and automatically calculating to generate a complete set of design data of a material sheet, a budget book and the power grid requirements after locking;

s4, the registered user sends the project sharing file information and shares the project construction progress in real time at the mobile terminal;

s5, the registered user uploads and sends positioning information, drawing information and transmission files, and the positioning information, the drawing information and the transmission files are classified and stored in the cloud management module;

s6, carrying out text, voice communication, video conference, screen sharing and remote cooperation among registered users and between the registered users and the construction site personnel;

s7, a design and review management module for design and progress quality control, selecting a standard review template to check the design result during review and automatically generating review opinions;

s8, sharing the completed construction drawing to a construction unit and a supervision unit; the construction unit can draw a project progress diagram and a completion draft diagram on time by using an intelligent diagram module according to project management requirements and project completion conditions and insert field positioning photos of completed engineering quantities in the drawing process and share the field positioning photos to a construction owner and a supervision unit; a supervision unit records the project field management condition in real time;

and S9, storing the project overall process data.

In some embodiments of the present invention, step S3 further includes the following steps:

s31: inputting corresponding standard design and engineering quantity, automatically matching materials and quota corresponding to the design module by adopting data matching, logical operation and intelligent calculation modes, and generating the manufacturing cost of the design module;

s32: and a design drawing importing and engineering quantity list generating module: after the mobile terminal finishes a plane scheme design drawing, importing design picture blocks, graphic elements and graphic information into an intelligent analysis module to generate a project engineering quantity list;

s33: selecting a construction drawing and a design change drawing change range module: 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 the design change budget is regenerated;

s34: generating a project change material and budget module: and importing the change range of the construction drawing and the design change drawing, automatically generating a project engineering quantity change list, and then carrying out next cost comparison and intelligent calculation to generate project change materials and budget.

In some embodiments of the present invention, the method for storing project complete process data in step S9 includes:

s91: the network hard disk is adopted to store project data of each stage of project management circulation, and the project management network hard disk is established and set with authority according to the requirements of registered users, so that file sharing can be established with others or files can be shared in an organization;

s92: and storing the shared folder data by adopting a private cloud disk.

In some embodiments of the present invention, the survey information in step S2 includes a device landing location.

In some embodiments of the present invention, the mobile terminals in steps S2 and S4 include a handset mobile terminal and a PC terminal.

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

by establishing a set of complete infrastructure project overall process service system, the problems of low unit flow speed and poor communication effect of each link of traditional project construction are solved. The whole process of project construction controlled by one mobile phone and one screen is realized, the intelligent linkage of reconnaissance and design is realized, the quality inspection is completed on line, the construction data is collected in real time, the online and offline cooperative management is realized, all the participating units are interconnected and intercommunicated, the co-construction coexists and shares, and the construction process operates efficiently.

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 block diagram of a structural framework of an embodiment of a infrastructure application system of the present invention;

FIG. 2 is a block diagram of a structural framework of another embodiment of a infrastructure application system of the present invention;

FIG. 3 is a flow chart of an embodiment of a method of infrastructure application of the present invention;

FIG. 4 is a flow chart of another embodiment of a method for infrastructure applications of the present invention;

fig. 5 is a flowchart of a method for infrastructure application according to another embodiment of the present invention.

Icon: 1. a smart graph module; 11. an intelligent analysis module; 12. a satellite positioning module; 13. an intelligent calculation and drawing module; 14. a modular cost module; 15. importing a design drawing to generate an engineering quantity list module; 16. selecting a construction drawing and a design change drawing change range module; 17. generating a project change material and a budget module; 2. a comet-joining module; 21. an intelligent sharing module; 22. the image-text information interconnection module; 23. a barrier-free communication module; 3. a cloud pipe module; 31. a design and review management module; 32. a project construction management module; 33. cloud storage management 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.

In the embodiments provided in the present application, it should be understood that the disclosed system may be implemented in other ways. The system embodiments are merely illustrative, and for example, the block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of systems and computer program products according to various embodiments of the present application. In this regard, each block in the block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that, in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

In addition, functional modules in the embodiments of the present application may be integrated together to form an independent part, or each module may exist separately, or two or more modules may be integrated to form an independent part.

The functions, if implemented in the form of software functional modules and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present application or portions thereof that substantially contribute to the prior art may be embodied in the form of a software product stored in a storage medium and including instructions for causing a computer device, which may be a personal computer, a server, or a network device, to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

Examples

Referring to fig. 1, the present embodiment provides a infrastructure application system, which integrates the functions of investigation, design, calculation, communication and storage, and the results can be mutually invoked to serve the whole process of project construction.

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

in a first aspect, the present invention provides a infrastructure application system, including: the intelligent map module 1, the intelligent connection module 2 and the cloud pipe module 3;

each participating unit can intelligently and efficiently complete the visual drawing (design construction drawing, construction progress drawing, design change drawing, completion drawing and the like) of each stage of the project through the intelligent drawing module 1, and automatically generate a project amount list, project cost and the like. Meanwhile, the system has an accurate positioning function, visual drawings can be opened by each building unit in the application platform, the geographical positions of pipelines, equipment, structures, towers and the like of a project and corresponding construction installation drawings and refined construction drawings can be checked, and a project progress drawing, a completion draft and the like can be drawn on schedule by taking the design drawing as a base drawing according to the completion condition of the project. Design and construction are perfectly fused, project accurate positioning, accurate design and accurate construction are guided, meanwhile, construction standards are standardized, and project design and construction quantity errors are reduced. After the project intelligence diagram is finished, project estimation, approximate calculation, budget, settlement and the like can be rapidly output, the working efficiency of each stage of the project is greatly improved, and standardization, visualization and intellectualization of the overall process management of the capital construction project are realized.

Each participating unit can establish a comet-joining friend or a project communication group through the comet-joining module 2, information interconnection, video conference, drawing sharing, screen sharing, positioning sharing, remote cooperation and the like are realized, and project communication is simpler, clearer and more efficient in a diversified, visualized and intelligent communication mode. Drawing files transmitted in the communication group are classified and stored in the cloud management module 3, and project data can be looked up and project problems can be solved at any time and any place.

The cloud management module 3 integrates project management and cloud storage functions, and each participating unit can establish a project management mechanism on the application platform according to the management modes of each party, so that the collection, summarization, sharing, management, uploading and storage of project information by each unit and related personnel are completed. And the module can be in seamless joint with other software platforms, and can acquire or import project planning data, operation and maintenance data, geographic information data, equipment state parameters, net rack parameters and the like of a construction owner, thereby providing support for project early-stage, investment necessity, feasibility of design scheme and rationality argumentation. After completion of the project is checked, information such as project-related drawings, geographic information and project construction ledgers can be imported into the operation and maintenance management platform according to requirements of a construction owner, and the information can be used as future operation and maintenance data and provide electronic basic data for future upgrading and reconstruction of the project.

Specifically, the smart graph module 1 includes:

the intelligent analysis module 11 is used for calculating and analyzing project basic data according to requirements of a research report in a project issuing stage and carrying out early warning prompt on infrastructure design schemes which do not meet conditions;

the satellite positioning module 12 is used for the participating unit to obtain the project address location sent by the construction unit, the project address is displayed on the virtual map of the mobile terminal, the virtual map also displays the navigation path from the current position to the basic construction address, the mobile terminal can perform timing location, draw the path and select the equipment drop point position by taking the virtual map as the background, and perform distance measurement and record the site investigation information through the virtual map;

specifically, the participating units use the mobile terminals of the mobile phones to adopt the GPS positioning function, use satellite maps as design base maps, quickly position project geographic positions and draw drawings during on-site survey, and all participating units 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 capital construction projects are realized;

the scheme supports the setting and conversion of various coordinates, and coordinate points can be led in and out of the platform; the scheme not only greatly improves the accuracy of reconnaissance design and project construction, but also improves the convenience and accuracy of project management and acceptance inspection;

the intelligent calculation and drawing module 13 is used for calling a path and selecting a device placement position to generate a primary design drawing, checking, optimizing and locking the primary design drawing according to the standard design of the power grid and the material requirements, and automatically calculating and generating a complete set of design data of a material table, a budget book and the power grid requirements after locking;

the coma module 2 includes:

the intelligent sharing module 21 is used for registering a user to send project sharing files and geographic information and sharing project design and construction progress in real time at the mobile terminal;

in this way, registered users can send project sharing file information by establishing a comet-tie friend or project communication group, and after file sharing is completed, the registered users can click to enter the corresponding cloud pipe module 3 to check shared files (such as an intelligent map design module, typical data, quota collection templates, design progress, construction progress, management files, graphic files and the like); the communication management of timely, efficient, orderly, controllable and whole-course sharing is carried out among each participating unit, group and individual;

the image-text information interconnection module 22 is used for registering a user to upload and send positioning information, drawing information and transmission files, and storing the positioning information, the drawing information and the transmission files in the cloud pipe module 3 in a classified manner;

therefore, the registered user can send positioning information, drawing information, transmission files and the like through a comet-joining friend or a project communication group, and before transmission, the user can set a classification folder for storing the data and the files in a classification mode. The drawing files transmitted in the comet-linkage module 2 are stored in the cloud pipe module 3, so that the safety and the searching flexibility of the data can be effectively guaranteed, and a user can search the project data and solve the project problem conveniently at any time and any place.

The barrier-free communication module 23 is used for performing text, voice communication, video conference, screen sharing and remote cooperation among registered users and between the registered users and construction site personnel;

in this way, besides conventional text and voice communication, the registered user can also carry out video conference, screen sharing, remote collaboration and the like in the cometlike module 2. For example, the sharing screen can be clicked during video conference or voice communication, and graphical explanation or on-site explanation can be performed on the comedy friend and the project management group. When remote collaboration is employed, users participating in the interconnection may interoperate with the shared screen. The project evaluation and project communication are more flexible, clearer and more efficient.

The intelligent connection module 2 realizes the construction resource integration and the construction information sharing of the infrastructure project through intelligent sharing, information interconnection and barrier-free communication, and provides a flexible and efficient communication scheme for the construction and the cooperative management of the infrastructure project in a diversified, visualized and intelligent communication mode.

The cloud pipe module 3 includes:

the design and review management module 31 is used for design and progress quality control, selects a standard review template to review and check the design result during review, and automatically generates review opinions;

in this way, the registered user can issue a sharing management file invitation (can set the sharing permission of a related inviter) to other users through the cometlike module 2, for example, a designer submits a sharing application after establishing a project folder, and the issuing sharing management user can check the drawing information of the engineering project from 0 to 1 in the whole design process in real time through the sharing management file and know the investigation design progress of an individual project or a total project through a visual application platform. Design management responsible personnel can set up the project and summarize the folder, and after each designer finishes the project design, through the project and communicate the design that the crowd uploaded to the cloud management and summarize the folder, the cloud management platform can automatic summarize the relevant data of this batch of project to form the project summary table. The efficiency and the accuracy of data summarization of designers are greatly improved. Design responsible persons can review each project design scheme on the platform, and can submit review units or construction owners to review after completing the internal review of the project design.

The design and review management module 31 may set a design review template, which includes settings such as integrity of design results, rationality of the design scheme network frame and path, application of standard materials, rationality of construction costs, etc. And selecting a review template to review and verify the design result during review, and automatically generating a review suggestion. Design units, evaluation units and construction owners can adopt the module to review and verify the design results, and the evaluation templates can be mutually sent and shared through the comet-joining module 2. The evaluation work can reach the data accuracy, the problem accuracy, the scheme accuracy and the evaluation accuracy.

After project design and in-design examination are completed, the intelligent image data can be converted into a file format required by a construction owner and imported into a specified software platform.

According to the module scheme, the progress and the quality of project design are visually, intelligently and integrally managed through the cloud management technology, and the working efficiency and the design quality of design and review management are greatly improved.

The project construction management module 32 is used for sharing the completed construction drawing to a construction unit and a supervision unit; wherein:

the construction unit can draw a project progress diagram and a completion sketch by using a design diagram as a base diagram according to project management requirements and project completion conditions by using the intelligent drawing module 1, insert field positioning photos of completed engineering quantities in the drawing process, and share the field positioning photos to a construction owner and a supervision unit;

a supervision unit records the project field management condition in real time;

thus, the following advantages are provided:

1. the construction owner shares the completed construction drawing (which can be set as forbidden modification) to a construction unit and a supervision unit through the cloud management platform, and the construction unit clicks to open the drawing in the platform and enters the intelligent drawing module 1, so that project design schemes and related design data, such as the geographical positions of pipelines, equipment, structures, towers and the like, construction installation drawings, refined construction drawings, project budget books and the like can be checked.

2. The construction unit can draw a project progress chart, a completion draft and the like on schedule by using the intelligent drawing module 1 according to project management requirements and project completion conditions by taking a design drawing as a base drawing, insert field positioning photos of completed engineering quantities in the drawing process and share the field positioning photos to a construction owner and a supervision unit. The application platform automatically generates project progress data through set logical operation and compares the difference between the finished engineering quantity and the design engineering quantity.

3. The supervision unit can record project supervision data, picture data and the like on the platform and record the project field management condition in real time. The application platform can customize a management mode and a data format according to the use requirements of a construction owner and a supervision unit, and can generate characters or management files by adopting an AI intelligent voice recognition function when information is input.

4. When the project is completed and checked, all the participating and building units can be positioned and accurately checked and accepted in real time through the intelligent drawing module 1 and the completed as-built sketch.

5. After the design change and completion drawing are finished, the design units can be uploaded to the application platform, and the electronic audit and confirmation of each participant unit is finished.

6. The construction unit can adopt the intelligent analysis module 11 to complete the construction settlement compilation work of the project and upload the work to the construction owner for examination and verification. The construction owner can set a settlement auditing template (a plurality of templates can be set), and intelligent auditing is carried out on construction settlement of the project.

7. After completion of the project is checked, information such as project-related drawings, geographic information and project construction ledgers can be imported into the operation and maintenance management platform according to requirements of a construction owner, and the information can be used as future operation and maintenance data and provide electronic basic data for future upgrading and reconstruction of the project.

The scheme breaks through the management bottleneck of the infrastructure project, realizes visualization, informatization and intellectualization of the progress, quality, change and settlement management of the infrastructure project, greatly improves the management efficiency of each participating unit, takes intelligent intelligence as a main attack direction, and promotes the high-quality development of the infrastructure project.

And the cloud storage management module 33 is used for storing the data of the whole project process.

The cloud storage management is divided into project public storage and individual private storage;

public storage: the public storage has the function of a network hard disk, is used for storing project data of each stage of related management circulation, can establish a project management network hard disk and set authority according to the requirements of registered users, and can establish file sharing with other people or share files in an organization. Compared with the traditional method of opening up the shared directory, the method is safer and more convenient. Has complete document management function. Including centralized storage and sharing of documents, rights control, modification control, version management, document logging, baseline management, etc. Additionally, an association may be established between the file and the data.

Private storage: the registered user can own a private cloud disk on the application platform, can transfer project management group or shared folder data into the private cloud disk after inputting a user cloud storage password, is convenient for the user to arrange, store and call the project files and the data, can upload various format files, drawings and graphic files to the private project management cloud disk for classified storage, can download the files to a PC (personal computer) end through the private cloud storage, and sends the files to friends or groups of a smart phone or other communication software, so that the registered user can master project information anytime and anywhere, complete project work and solve project problems.

Referring to fig. 2, in some embodiments of the present invention, the smart card module 1 further includes:

modular cost module 14: automatically matching materials and quota corresponding to the design module by inputting corresponding standard design and engineering quantity and adopting data matching, logical operation and intelligent calculation modes to generate the manufacturing cost of the design module;

the import design drawing generation engineering quantity list module 15: after the mobile terminal finishes the plan scheme design drawing, importing design picture blocks, graphic elements and graphic information into an intelligent analysis module 11 to generate a project engineering quantity list;

a construction drawing and design change drawing change range selection module 16: 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 the design change budget is regenerated;

the generate project change materials and budget module 17: and importing the change range of the construction drawing and the design change drawing, automatically generating a project engineering quantity change list, and then carrying out next cost comparison and intelligent calculation to generate project change materials and budget.

In some embodiments of the present invention, cloud storage management module 33 includes a project public storage module and a personal private storage module;

Referring to fig. 3, in a second aspect, the present invention provides a method for infrastructure application, which is characterized by comprising the following steps:

s5, the registered user uploads and sends positioning information, drawing information and transmission files, and the positioning information, the drawing information and the transmission files are classified and stored in the cloud pipe module 3;

s7, a design and review management module 31 for design and progress quality control, selecting a standard review template to check the design result during review and automatically generating review opinions;

s8, sharing the completed construction drawing to a construction unit and a supervision unit; the construction unit can draw a project progress diagram and a completion draft diagram on time by using the intelligent drawing module 1 according to project management requirements and project completion conditions and insert field positioning photos of completed engineering quantities in the drawing process and share the field positioning photos to a construction owner and a supervision unit by taking a design diagram as a base diagram; a supervision unit records the project field management condition in real time;

and S9, storing the project overall process data.

Referring to fig. 4, in some embodiments of the present invention, step S3 further includes the following steps:

s32: the import design drawing generation engineering quantity list module 15: after the mobile terminal finishes the plan scheme design drawing, importing design picture blocks, graphic elements and graphic information into an intelligent analysis module 11 to generate a project engineering quantity list;

s33: a construction drawing and design change drawing change range selection module 16: 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 the design change budget is regenerated;

s34: the generate project change materials and budget module 17: and importing the change range of the construction drawing and the design change drawing, automatically generating a project engineering quantity change list, and then carrying out next cost comparison and intelligent calculation to generate project change materials and budget.

In some embodiments of the invention, the smart mapping further comprises the following method:

s301: and inputting a standardized design module, inputting various pipelines, equipment, structures, towers, foundation models and the like into the design module, inputting two-dimensional and three-dimensional legends, installation drawings, refined construction drawings, engineering quantity, material information and the like corresponding to various modules, and setting the design legends, the primitives, the primitive block attributes and the input and output link relations of the modules corresponding to the modules. The 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, the input non-standardized design modules can be mutually sent through the cometlike module 2, and can also be shared with other users or project communication groups through a shared folder of the cloud storage module.

According to the scheme, the standard design module can be set according to the requirements of a construction owner and is preferentially selected, the application platform can 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. When the project is submitted to project review, the construction owner and the auditor are prompted about the application condition of the project standard design module and the non-standard design module. Therefore, the design standard is unified and standardized, and the quality of the design result is improved. The standard design module also comprises standard materials and modular typical construction cost, so that the selection, purchase and management of project materials and the overall construction cost control of the project are more conveniently controlled. The standardization, informatization, datamation and intellectualization of the capital construction project management are realized.

S302: newly building a project folder, and inputting project information: a user newly builds a project folder in the cloud management module 3 in the design and review management, inputs design information such as project batch, project name, project property, construction necessity and the like, and can set cloud storage sharing (a construction owner or a design management responsible person can conveniently know the project design progress in real time); after the relevant information is input, a user can enter the intelligent drawing module 1 to draw a drawing; the construction owner or the design management responsible person can check the project design completion condition in real time through the cloud management shared file.

S303: the design module recorded in S11 is selected before drawing, manual selection or AI intelligent voice control can be adopted when the module is selected, and the design scheme can be drawn on the satellite map after the required design module is selected. 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.

S304: intelligent selection and modification: and (3) manually selecting or controlling the deleting function by AI intelligent voice, if AI intelligent voice is adopted, selecting the graph to be modified after clicking, full selecting or frame selecting is spoken, and deleting or changing the graph to a specific model by speaking voice after selecting, thus finishing modification.

The AI intelligent voice control of the schemes of the steps S303 and S304 can accurately identify the voice command of the user and quickly select the corresponding design module, so that the design work is simpler, more convenient and interesting, and the efficiency of on-site investigation and drawing is greatly improved. 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.

S305: after the mobile terminal or the PC terminal of the mobile phone finishes the plan design drawing, click to import calculation, select all the generated or click to select the corresponding data to be generated, and then generate a project two-dimensional and three-dimensional plan drawing, an installation drawing and a refined construction drawing, a tower detail table, a project amount and material inventory, a coordinate detail table, project cost (estimation, approximate calculation, budget, settlement) and the like. The module can be in seamless butt joint with an AutoCAD (computer aided design), so that the drawing can be guided in and out, the drawing can be guided out and the drawing can be selected in a frame during the guiding out, the satellite map and the design scheme can be guided out and typeset simultaneously, and the daily publishing and printing work of the drawing is facilitated.

According to the scheme, a standardized and intelligent design mode is adopted, project design work can be efficiently completed only by moving the mobile terminal through the mobile phone, and the efficiency, flexibility and accuracy of project drawing are remarkably improved. The design achievement template can also customize a file format according to the requirements of the registered user so as to meet the requirements of the registered user.

Referring to fig. 5, in some embodiments of the invention, the intelligent computation comprises the following steps:

s311: by inputting corresponding standard design and engineering quantity, and adopting intelligent calculation modes such as data matching, logical operation and the like, the materials and the quota corresponding to the design module are automatically matched (a plurality of quota applying templates can be set and selected), and the manufacturing cost of the design module is generated.

S312: importing a design drawing to generate a project amount list: after the mobile terminal or the PC terminal of the mobile phone completes the design drawing of the planar scheme, the design drawing blocks, the graphic elements, the graphic information and the like are automatically imported into the intelligent analysis module 11 by clicking the import calculation, and then the project engineering quantity list is generated.

S313: and (4) performing matching operation on the calculated data such as the quantity of project materials, the distance, the terrain, the quota set acquisition and the like through intelligent calculation modes such as data matching, logic operation and the like, 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.

S314: selecting a construction drawing and a design change drawing change range: 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.

S315: generating project change materials and budgets: and (4) automatically generating a project engineering quantity change list by introducing the change range of the construction drawing and the design change drawing, and then carrying out next cost comparison and intelligent calculation to generate project change materials and budget.

The scheme of the steps S313 and S315 solves the contradiction between design and repeated butt joint and modification of technology, and through intelligent calculation, a designer can quickly complete cost comparison while continuously optimizing the design scheme, so that the technical and economic rationality, 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.

s92: and storing the shared folder data by adopting a private cloud disk.

In the embodiment, the problems of low unit flow speed and poor communication effect of each link of the traditional project construction are solved by establishing a set of complete infrastructure project overall process service system. The whole process of project construction controlled by one mobile phone and one screen is realized, the intelligent linkage of reconnaissance and design is realized, the quality inspection is completed on line, the construction data is collected in real time, the online and offline cooperative management is realized, all the participating units are interconnected and intercommunicated, the co-construction coexists and shares, and the construction process operates efficiently. The infrastructure application system provided by the invention can expand cloud management computing service according to the requirements of registered users, such as: and summarizing, calculating and analyzing contract management, technical transformation, investment benefit, material use, project return, settlement cost and the like of the whole batch or single project, and forming a visual scene, a project management report form and the like. And the application platform can be accessed with other software platforms according to the requirements of registered users, so that the sharing, conversion, acquisition, import, export and the like of data are realized.

In conclusion, the infrastructure application system provided by the invention centralizes the organizations of dispersed design, construction, change, acceptance, settlement, management and the like on a standardized, visualized, informationized, digitalized, intelligentized and integrated infrastructure application platform to realize cooperative management, and adopts the technical scheme of data synchronization of the mobile phone terminal and the PC terminal, so that the working efficiency and the management quality of each participating unit of a project can be obviously improved, and each participating unit can be shared together in the process of project implementation, and is mutually beneficial in interconnection and intercommunication and intelligent in intelligent 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

1. A infrastructure application system, comprising: the intelligent image module, the intelligent connection module and the cloud pipe module;

the smart graph module comprises:

the satellite positioning module is used for showing the project address on a virtual map of the mobile terminal after the project address sent by the construction unit is positioned by the participating unit, the virtual map also shows a navigation path from the current position to the basic construction address, and the mobile terminal can position at regular time, draw a path and select the equipment drop point position by taking the virtual map as the background, and carry out distance measurement and record on-site investigation information through the virtual map;

the comet linkage module includes:

the cloud pipe module comprises:

the project construction management module is used for sharing the completed construction drawing to a construction unit and a supervision unit; the construction unit can draw a project progress diagram and a completion draft diagram on time by using an intelligent diagram module according to project management requirements and project completion conditions and insert field positioning photos of completed engineering quantities in the drawing process and share the field positioning photos to a construction owner and a supervision unit; a supervision unit records the project field management condition in real time;

2. A infrastructure application according to claim 1, wherein the smart graph module further comprises:

3. The infrastructure application system of claim 1, wherein the cloud storage management module comprises a project public storage module and a personal private storage module;

4. A infrastructure application according to claim 1, wherein the survey information includes equipment placement locations.

5. A infrastructure application according to claim 1, wherein the mobile terminal comprises a mobile terminal of a mobile phone and a PC terminal.

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

and S9, storing the project overall process data.

7. A method for infrastructure applications according to claim 6, wherein step S3 further comprises the steps of:

8. A method as claimed in claim 6, wherein the step S9 of storing the project complete process data includes:

s92: and storing the shared folder data by adopting a private cloud disk.

9. A method for infrastructure applications according to claim 6, wherein said survey information in step S2 includes equipment placement locations.

10. The infrastructure application method of claim 6, wherein the mobile terminals in the steps S2 and S4 include a mobile terminal and a PC terminal.