CN108876287A - data management system based on BIM - Google Patents
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- CN108876287A CN108876287A CN201810533918.0A CN201810533918A CN108876287A CN 108876287 A CN108876287 A CN 108876287A CN 201810533918 A CN201810533918 A CN 201810533918A CN 108876287 A CN108876287 A CN 108876287A
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Abstract
The present invention relates to a kind of data management systems based on BIM, including:Model end, management end, buying end, multiple eye ends and Cloud Server;Above-mentioned modeling end, management end, buying end, item eye end all have input module, processing module and output module, and each terminal is communicatively coupled with Cloud Server respectively;The Cloud Server has memory, and unified storage carrys out the data that self-modeling end, management end, buying end and multiple eye ends upload.Wherein, the input module, for generating structural data, semi-structured data;The processing module, analysis, processing and early warning for various data;The output module is used for human-computer interaction, and data is carried out visualization display.
Description
Technical field
The present invention relates to the fields BIM (architecture information modeling, Building Information Model), and in particular to one
Data processing and management system of the kind based on BIM.
Background technique
BIM (Building Information Modeling), also known as Building Information Model are a kind of novel works
The Computer Applied Technology of journey construction industry, by designing, using every relevant information data of construction-engineering project as mould
The basis of type, it is based on three-dimensional digital information technology, the data information in each stage such as planning, design, construction, operation is whole
Among 3D model, due to BIM technology can integration engineering project various information (planning, design, construction, building equipment,
Operation management etc.) it is modeled, it has the function of three-dimensional artificial, simulation test, information integration, shared collaboration etc., can have effect
For the project planning of construction project life cycle management, collaborative design, collision detection, performance evaluation, construction simulation, cost and into
Degree control etc. can be changed effectively control design case, reduce rejection and waste and duration loss, and complete building of retaining is set
Standby material pipeline information, to the specific aim etc. for improving project fine-grained management level and enhancing later period estate management maintenance, all
It is of great significance.
The final form of expression of BIM is visual various dimensions, multi-functional, multiduty computer graphics model.So
Model is showed on the display device in the form of various dimensions, multi-functional, multiduty normatron figure.This will be right
Computer graphical processing ability proposes acid test.Reviewing architectural engineering of today again, often the scale of construction is huge, Super High, super large
Foundation pit, long-span bridge beam tunnel etc. can be found everywhere.The magnanimity architecture information of huge redundancy makes BIM plus the huge building scale of construction
Model is very huge, even if behaving in the civilian computer equipment of most significant end is also to seem awkward rather.
BIM is the model of a big data set, and BIM data volume is very huge, data multiplicity, structuring and non-structural
Change data and deposit, information redundancy is complicated, and system use cost and threshold are also very high.How the mass data in BIM is carried out high
The problem of effect utilizes, and is current BIM management domain urgent need to resolve.
Summary of the invention
In order to overcome drawbacks described above, the present invention is adopted the following technical scheme that:
A kind of data management system based on BIM, including:Model end, management end, buying end, multiple eye ends and cloud clothes
Business device;Above-mentioned modeling end, management end, buying end, item eye end all have input module, processing module and output module, and every
A terminal is communicatively coupled with Cloud Server respectively;The Cloud Server has memory, and unified storage comes self-modeling end, pipe
Manage the data that end, buying end and multiple eye ends upload.
Wherein, the input module, for generating structural data, semi-structured data;The processing module, for each
Analysis, processing and the early warning of kind data;The output module is used for human-computer interaction, and data is carried out visualization display.
Wherein, modeling end group is in the BIM model of building forms the structure composition of building, material, equipment uses, schedule is closed
Coefficient generates corresponding database according to being modeled, and uploads to Cloud Server and stored, for management end, buying end and
Item eye end is transferred and is used;
In one embodiment, management end is based on structure composition, the material composition, equipment use, schedule for modeling end upload
Relation data, and the Project decomposition data based on above-mentioned data carry out allocation of items, and root according to structure, material, device data
Generate the project schedule plannings for all decomposing projects according to schedule relationship, and upload to Cloud Server and stored, for buying end with
And item eye end is transferred and is used;
In one embodiment, the Project decomposition and schedule of buying end group is uploaded in modeling end model data and management end
Plan, obtains the material, equipment purchase amount data and schedule relation data of projects, and purchased according to schedule sequence, so
Real-time procurement data is entered into system afterwards, procurement process data are generated, and upload to Cloud Server and stored, for pipe
Reason end and item eye end are transferred and are used;
In one embodiment, each project end group in modeling end upload model data and management end Project decomposition and
Project schedule planning is equipped with corresponding staff, and using the material being sent to and equipment is purchased, carries out project construction, then
By the project process data, staffing data and expected completion date data, upload to Cloud Server, transferred for management end and
It uses.
In one embodiment, the project-based material composition in the buying end, equipment use, schedule relation data, it is raw
Procurement process data are generated at the procurement budget data of each project, and according to actual purchase data.
In one embodiment, the management end is based on project process data, procurement process data and schedule planning comparison,
It can obtain the project factor for restricting overall project progress, and then resource can be deployed by management, when eliminating restriction buying and construction
Between factor be conducive to efficient, quick, controllably finished item to be precisely controlled project's finish time.
In one embodiment, the material that the management end provides modeling end forms, equipment uses, schedule relation data
Library can carry out dynamic adjustment, and upload to Cloud Server, be adjusted to realize to the schedule planning of project.
Main advantage of the invention is:
1) it is directed to the structural data and unstructured data of BIM, with structure type and structural relation, parameter of materials, is set
Standby relationship, schedule planning establish the data system of a set of efficient BIM management;
2) convenient, the efficient transmitting and management of interdepartmental BIM data are realized;
3) dynamic Decomposition and schedule planning for realizing project ensure interdepartmental division of labor collaboration;
4) dynamic corrections and feedback of BIM core data are realized, it is ensured that the accurate implementation of engineering project.
Detailed description of the invention
In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below
There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this
Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with
It obtains other drawings based on these drawings.
Fig. 1 is BIM data management system architecture diagram of the invention.
Fig. 2 is BIM data modeling flow chart of the invention.
Fig. 3 is the application scheme of BIM data management system of the invention.
Specific embodiment
Hereinafter reference will be made to the drawings, describes system and its working method provided by the invention in detail by way of example.
It should be noted that the descriptions of the manners of these embodiments are used to facilitate the understanding of the present invention, but do not constitute to this hair
Bright restriction.
The terms "and/or", only a kind of incidence relation for describing affiliated partner, indicates that there may be three kinds of passes
System, for example, A and/or B, can indicate:Individualism A, individualism B exist simultaneously tri- kinds of situations of A and B, the terms
"/and " it is to describe another affiliated partner relationship, indicate may exist two kinds of relationships, for example, A/ and B, can indicate:Individually deposit
In A, two kinds of situations of individualism A and B, in addition, character "/" herein, typicallying represent forward-backward correlation object is a kind of "or" pass
System.
As shown in Figure 1, BIM management system of the invention, including:Model end, management end, buying end, multiple eye ends and
Cloud server;Above-mentioned terminal all has input module, processing module and output module, and each terminal respectively with cloud service
Device is communicatively coupled;The Cloud Server has a memory, and unified storage comes self-modeling end, management end, buying end and multiple
The data that item eye end uploads.
The input module, for generating structural data, semi-structured data;The processing module is used for various numbers
According to analysis, processing and early warning;The output module is used for human-computer interaction, and data is carried out visualization display.
Wherein, modeling end group is in the BIM model of building forms the structure composition of building, material, equipment uses, schedule is closed
Coefficient generates corresponding database according to being modeled, and uploads to Cloud Server and stored, for management end, buying end and
Item eye end is transferred and is used;
Structure composition that management end is uploaded based on modeling end, material composition, equipment uses, schedule relation data, and is based on
The Project decomposition data of above-mentioned data carry out allocation of items according to structure, material, device data, and are generated according to schedule relationship
The project schedule plannings for all decomposing projects, and upload to Cloud Server and are stored, transferred for buying end and item eye end and
It uses;
The Project decomposition and schedule planning for purchasing model data and management end that end group is uploaded in modeling end, obtain projects
Material, equipment purchase amount data and schedule relation data, and purchased according to schedule sequence, then will purchase number in real time
According to being entered into system, procurement process data are generated, and upload to Cloud Server and stored, for management end and item eye end tune
It takes and uses;
The Project decomposition and project schedule planning of model data and management end that each project end group is uploaded in modeling end, match
Standby corresponding staff, and using the material being sent to and equipment is purchased, project construction is carried out, then by the project process number
According to, staffing data and expected completion date data, Cloud Server is uploaded to, transfers and uses for management end.
In one embodiment, the project-based material composition in the buying end, equipment use, schedule relation data, it is raw
Procurement process data are generated at the procurement budget data of each project, and according to actual purchase data.
In one embodiment, the management end is based on project process data, procurement process data and schedule planning comparison,
It can obtain the project factor for restricting overall project progress, and then resource can be deployed by management, when eliminating restriction buying and construction
Between factor be conducive to efficient, quick, controllably finished item to be precisely controlled project's finish time.
In one embodiment, the material that the management end provides modeling end forms, equipment uses, schedule relation data
Library can carry out dynamic adjustment, and upload to Cloud Server, be adjusted to realize to the schedule planning of project.
As shown in Fig. 2, the modeling process of BIM management system of the invention includes the following steps:
(1) modeling end group establishes model structural data in the BIM model of building to the structure composition of building, including:It is various
Structure I D name, structure type, size, the subordinate relation between different structure, the subordinate relation refer to parallel construction, attached
Belong to structure, minor structure, convenient for decomposing to model structure composition;
(2) structured data that modeling end group is established in step (1) builds the material composition of each structure type
Mould generates the component material type and quantity data of each structural unit;
(3) modeling end group forms the equipment of each structure type in step (1), the structure and material data of (2) generation
It is modeled, generates the device category and incremental data of each composed structure;
(4) modeling end group in design a model structure, material, device data, further establish above structure, material, set
The time sequencing relationship of standby data, thus generate entire infrastructure, material, equipment schedule relation data, and by step (1),
(2), (3), (4) middle data generated upload to cloud server;
(5) management end based on design a model structure, material, the component relationship between equipment, according to different structure, object
Material, device parameter carry out Project decomposition;
(6) management end is based on the project decomposed in step (5) and generates the schedule planning of each project, and by step (4)
(5) the Project decomposition data and project schedule planning data generated in upload to cloud server.
As shown in figure 3, BIM system terminal data of the invention include modeling end, buying end, item eye end, management end four
Part forms.
The BIM model data at the modeling end includes the overall structure data of buildings model, overall material data, totally sets
The schedule relation data of standby data and above-mentioned data is produced based on above structure, material, equipment and schedule relation data
Various Project decomposition data.
The data that the buying end is shown include the overall structure data for modeling end offer, overall material data, totally set
The minor structure data for each project that standby data and management end are distributed, sub- material data, sub- device data, and it is corresponding
Schedule model data, the buying end, which is also based on above-mentioned data, to be established project budget data and the project budget and uses data.
The item eye end shows the every model data and buying material and device data of the sub-project, and can be periodically defeated
Enter personnel and uses data, project process data, expected completion date.
The management end is shown including total model data, including structure, material, equipment, schedule relation data and project
Decomposition data carries out allocation of items and schedule planning;The Gantt chart of project schedule planning described in the display exhibits of management end, and
Procurement process data, the budget use ratio data, PROJECT TIME progress data of projects are marked, convenient for carrying out to multiple projects
Management coordination.
In one embodiment, management end can decompose again existing project or merging treatment.It specifically, can be with
One biggish project or the project that may influence overall progress are decomposed again, configure different project personnel, is accelerated
Project construction.In the time there is no in the case where conflict, project that is multiple related or there is overlapping can be merged, be improved
Material, equipment, the utilization efficiency of personnel.
As described above, the present invention can be realized preferably.For a person skilled in the art, do not depart from it is of the invention
These embodiments are changed in the case where principle and spirit, modifies, replace, integrating and modification still falls within protection of the invention
In range.The part for not carrying out specified otherwise or restriction in the present invention is all made of prior art implementation.
Claims (9)
1. a kind of data management system based on BIM, which is characterized in that including:Model end, management end, buying end, multiple projects
End and Cloud Server;Above-mentioned modeling end, management end, buying end, item eye end all have input module, processing module and output mould
Block, and each terminal is communicatively coupled with Cloud Server respectively;The Cloud Server has memory, and unified storage comes from
Model the data that end, management end, buying end and multiple eye ends upload.
2. the data management system according to claim 1 based on BIM, it is characterised in that:The input module, for giving birth to
At structural data, semi-structured data;The processing module, analysis, processing and early warning for various data;The output
Module is used for human-computer interaction, and data is carried out visualization display.
3. the data management system according to claim 2 based on BIM, it is characterised in that:End group is modeled in the BIM of building
Model forms the structure composition of building, material, equipment uses, schedule relation data models, and generates corresponding database,
And upload to Cloud Server and stored, it transfers and uses for management end, buying end and item eye end.
4. the data management system according to claim 3 based on BIM, it is characterised in that:Management end is based on modeling end
The structure composition of biography, material composition, equipment use, schedule relation data, and the Project decomposition data based on above-mentioned data, according to
Structure, material, device data carry out allocation of items, and the project schedule planning for all decomposing project is generated according to schedule relationship,
And upload to Cloud Server and stored, it transfers and uses for buying end and item eye end.
5. the data management system according to claim 4 based on BIM, it is characterised in that:End group is purchased on modeling end
The model data of biography and the Project decomposition of management end and schedule planning obtain the material, equipment purchase amount data and day of projects
Real-time procurement data, is then entered into system by journey relation data, and being purchased according to schedule sequence, generation purchase into
Degree evidence, and upload to Cloud Server and stored, it transfers and uses for management end and item eye end.
6. the data management system according to claim 5 based on BIM, it is characterised in that:Each project end group is in modeling
The Project decomposition and project schedule planning for holding the model data and management end that upload, are equipped with corresponding staff, and use is adopted
The material that is sent to and equipment are purchased, project construction is carried out, then by the project process data, staffing data and has been expected working hour
Between data, upload to Cloud Server, transfer and use for management end.
7. the data management system according to claim 5 based on BIM, it is characterised in that:The buying end group is in project
Material composition, equipment use, schedule relation data, generate the procurement budget data of each project, and according to actual purchase number
According to generation procurement process data.
8. the data management system according to claim 4 based on BIM, it is characterised in that:The management end is based on project
Progress data, procurement process data and schedule planning comparison, can obtain the project factor for restricting overall project progress, and then can lead to
Management allotment resource is crossed, restriction buying is eliminated and the factor of construction time is conducive to height to be precisely controlled project's finish time
Effect, quick, controllably finished item.
9. the data management system according to claim 8 based on BIM, it is characterised in that:The management end is to modeling end
The material composition of offer, equipment use, schedule relational database, can carry out dynamic adjustment, and upload to Cloud Server, thus real
Now the schedule planning of project is adjusted.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110222310A (en) * | 2019-05-17 | 2019-09-10 | 科迈恩(北京)科技有限公司 | A kind of shared AI scientific instrument Data Analysis Services system and method |
CN112001013A (en) * | 2020-08-17 | 2020-11-27 | 宇构科技(上海)有限公司 | Intelligent management system based on BIM model resources |
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CN106780159A (en) * | 2016-12-08 | 2017-05-31 | 东莞华南设计创新院 | A kind of construction information management system |
CN107423865A (en) * | 2017-03-10 | 2017-12-01 | 中铁四局集团有限公司 | High-speed railway KXG based on BIM |
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2018
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US20070244671A1 (en) * | 2006-04-13 | 2007-10-18 | Drone Iyangar | Systems and methods for storing, retrieving, and sharing design and construction data |
CN106780159A (en) * | 2016-12-08 | 2017-05-31 | 东莞华南设计创新院 | A kind of construction information management system |
CN106600231A (en) * | 2016-12-14 | 2017-04-26 | 国网上海市电力公司 | Dynamic management system for infrastructure projects |
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CN110222310A (en) * | 2019-05-17 | 2019-09-10 | 科迈恩(北京)科技有限公司 | A kind of shared AI scientific instrument Data Analysis Services system and method |
CN112001013A (en) * | 2020-08-17 | 2020-11-27 | 宇构科技(上海)有限公司 | Intelligent management system based on BIM model resources |
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Application publication date: 20181123 |