CN104680321A - BIM technology-based visual material control system and method - Google Patents
BIM technology-based visual material control system and method Download PDFInfo
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Abstract
The invention provides a BIM (Building Information Modeling) technology-based visual material control system and method. The BIM technology-based visual material control system comprises a database for storing a three-dimensional building information model, a creation module for creating a complete three-dimensional building information model containing all material information, a reading and loading module for reading and loading a design data packet into the three-dimensional building information model, a unified input module for inputting the manual input design data and automatically read design data packet into the integral three-dimensional building information model of the project by a computer in a unified way, a building-in module for building material supplying information in the three-dimensional building information model, a positioning and selecting module for positioning and selecting the selection and standard of materials, and a development module for developing reasonable material requirements and factory entering solution. According to the invention, the workflow automation and three-dimensional visualization are implemented, the quality problems of buildings are reduced, and the rework and rectification are reduced.
Description
Technical field
The present invention relates to a kind of control system and method, particularly, relate to a kind of visual material control system based on BIM (Building Information Modeling, BIM) technology and method.
Background technology
The management of architecture engineering material serves decisive role to the progress in construction management, quality, investment, safety, environment.The transport of material and the robotization height low degree of dispensing determine the quality of the progress monitoring of whole projects.Because the dispensing architecture engineering material rationalized also makes unnecessary waste be reduced, thus controls the input of cost of investment, namely whether the quality of progress monitoring or can complete in advance on time and put into effect concerning investment is upper is also serve significance.The materials such as commerical ready-mixed concrete, reinforcing bar, cement have the use term of validity, particularly commerical ready-mixed concrete.General merchandise concrete not under the prerequisite of special processing the presetting period be 45 minutes, even if also only at short several hours when adding the adjuvants such as retardant when proportioning, simultaneously this wherein also will comprise charge time, haulage time, scene wait allotment and build the time etc.Crossed the slump in presetting period, intensity, plasticity etc. and all do not reached requirement, cannot use, this is just present in safety and economic dual hidden danger to owner.If do not have scientific and reasonable preparing to be material cannot be moved to point-of-use in the time that will use to accomplish that not in stock manages.
Patent publication No. is " CN103850438A ", patent name has rationally done preliminary arrangement only to architecture engineering material for the Chinese patent of " a kind of construction work material distribution device based on construction speed monitoring ", be not reached through the arrangement of computer automation, what also do not have three-dimensional visualization represents window, more not to other Variable Factors (surrounding enviroment, weather temperature at that time, material property, match ratio, weather humidity, construction geology reconnoitres condition, safety monitoring information in work progress, material supplier address is to construction site traffic conditions etc.) carry out monitoring and overall arrangement, also cannot be seamless be linked in the existing automated management system of Ge Jia building materials supplier, carry out the automated production by demand.
The Chinese patent that patent publication No. is " CN103853111A ", patent name is " a kind of construction work automatic material distribution system " comprise be laid in the material allocation monitor that need carry out in multiple construction projects of material allocation, the material allocation main frame that is laid in material allocation department and multiple material allocation extension set being laid in material allocation executive arm respectively, multiple described material allocation monitor all carries out two-way communication with material allocation main frame, and multiple material allocation extension set all carries out two-way communication with material allocation main frame; Material allocation main frame comprises wireless data receipt modules and carries out auto-sequencing to all material distribution information received the same day according to reception sequencing and generate the data processor that material allocation task list is issued to material allocation extension set.This patent also only the dispensing of multiple-project material whether rationally give simple solution, be not reached through the arrangement of computer automation, what also do not have three-dimensional visualization represents window, more not to other Variable Factors (surrounding enviroment, weather temperature at that time, material property, match ratio, weather humidity, construction geology reconnoitres condition, safety monitoring information in work progress, material supplier address is to construction site traffic conditions etc.) carry out monitoring and overall arrangement, also cannot be seamless be linked in the existing automated management system of Ge Jia building materials supplier, carry out the automated production by demand.
Patent publication No. is " CN103136626A ", patent name is that the Chinese patent of " the online management method of engineering project " is based on a remote interaction platform, pass budgets end computer installation, multiplely contract enterprises end computer installation, multiple evaluation end computer installation, application end computer installation, multiple end computer installation of submitting to a higher level for approval or revision, multiple examination & verification end computer installation, data between multiple examination & verification end computer installation and server-side computer system are transmitted and data processing, achieve online bidding and the assessment of bids of engineering project, the on-line evaluation contracting enterprise of engineering project, work out an engineering project schedule online, the online tracing of engineering project progress performance, the abnormal response of engineering project progress and process, online generation engineering project quality checks and accepts form, the online application of engineering project progress payment, material and labour cost analysis generates project estimates online.The analysis of calculating and robotization has been done in the management of this patent to projects, from bidding stage to the assessment of bids, again to the opening of bid assessment of bids in later stage, computing machine online management pattern has been carried out in the engineering management (management of engineering construction progress, Engineering Quality Control, engineering contract, the preparing of engineering labor and materials) to the construction stage.This patent has just arrived workflow transplanting model used in everyday on computer program, makes supervisory routine and standardization.But be not deep into each workflow automation and three-dimensional visual, let alone the operation robotization of each service company.
Summary of the invention
For defect of the prior art, the object of this invention is to provide a kind of visual material control system based on BIM technology and method, it realizes workflow automation and three-dimensional visual, reduces construction quality problem, reduces and do over again and rectify and improve.
According to an aspect of the present invention, a kind of visual material control system based on BIM technology is provided, it is characterized in that, comprising:
Database, for storing three-dimensional building information model;
Creation module, for creating the complete three-dimensional building information model comprising all material information;
Reading insmods, for being read by design data bag and being loaded in three-dimensional building information model;
Unified load module, unification is input in the three-dimensional building information model of this overall project by computing machine according to the design data bag of manual input design data and reading automatically;
Be built into module, feed information be built in three-dimensional building information model;
Regioselective module, gives location to the selection of material and standard and selects;
Formulate module, formulate rational material requirements and enter manufacturer's case;
Access module, is linked in three-dimensional building information model by the development interface of the robotization generation system of each material supplier;
Form module, form three-dimensional building information model that is complete, that can regulate according to demand at any time.
Preferably, described creation module, read insmod, unified load module, be built into module, regioselective module, formulate module, access module, formation module all with DataBase combining.
Preferably, described three-dimensional building information model is visual.
The present invention also provides a kind of visual control of material method based on BIM technology, it is characterized in that, comprises the following steps:
Step one: create the complete three-dimensional building information model comprising all material information according to the complete correct design drawing that designing institute provides;
Step 2: according to the sensor pre-set or the design data bag provided by Surveying And Mapping Institute or monitoring unit, automatically read and be loaded in three-dimensional building information model;
Step 3: the design data of manual input material and relevant boundary condition, national standard are in three-dimensional building information model; Design data unification is input in the three-dimensional building information model of this overall project by computing machine according to the design data bag of manual input design data and reading automatically before;
Step 4: unit in charge of construction provides construction scheme, is built in three-dimensional building information model in conjunction with construction work feed information;
Step 5: designing unit to architectual concept and pro forma requirement according to owner unit, gives location to the selection of material and standard and selects under the prerequisite meeting state's laws regulation;
Step 6: according to owner, supervisor requires that laws and regulations corresponding to country are formulated rational material requirements and enter manufacturer's case;
Step 7: each material supplier provides satisfactory material to make, transport provides reasonable plan and plan;
Step 8: the development interface of the robotization generation system of each material supplier is linked in three-dimensional building information model;
Step 9: according to above-mentioned step each side's data message is established in complete comprehensive project BIM and forms three-dimensional building information model that is complete, that can regulate according to demand at any time, and reasonable arrangement planned management of project, the real-time entry and exit factory controlling material on three-dimensional building information model after being combined with real building site situation by the computing data of robotization.
Preferably, the design data of the manual input material of described step 3 comprises: material information, concrete mix, building materials coefficient of heat conductivity, the load-bearing of building materials construction coefficient, rigidity, density, packing and porosity, filling rate and porosity, water wettability and hydrophobic nature, water absorptivity and hydroscopicity, water tolerance, impermeability, frost resistance, thermal conductivity, thermal capacity, intensity, specific strength, elasticity, plasticity, fragility, toughness, permanance.
Preferably, the monitoring vehicle transit information transmission of the omnidistance GPS produced in the transport in described step 7 is shown and management and control on processor finally and on total BIM.
Preferably, the particular content of the establishment in described step one comprises: new project, create axle net, create floor absolute altitude, create civil engineering building enclosure, add structural column, structural beams is arranged, create structure floor, wall paper is put, hole to be provided is arranged, add reinforcing bar.
Preferably, the design data handbag in described step 2 is drawn together: disclosed real-time road and Weather information on the safety monitoring information in the project construction process that the urban architecture model information that Tactics of Urban Surveying institute provides, prospective design provide, internet.
Compared with prior art, the present invention has following beneficial effect: one, the present invention has controlled project progress, to the engineering that will build perfect sand table preview in computer, and solve all problems almost can expected, schedule refine to the moon, week, day, sky, time, strengthen the implementation capacity of plan, strengthen examination excitation, to reach the construction project time management target of " project administrator is planned fast; construction team follows up fast, and vivid progress fast forward ", namely realize operation robotization.Two, the planned management of project of the reasonable science of the present invention makes construction material not in stock, serves good control action to investment cost.Three, the present invention, in conjunction with arrangement and method for construction, construction simulation, will greatly reduce construction quality problem, reduces and does over again and rectify and improve, greatly improve the quality of construction work.Four, the present invention eliminates safe hidden trouble, and ensures safety in production.
Accompanying drawing explanation
By reading the detailed description done non-limiting example with reference to the following drawings, other features, objects and advantages of the present invention will become more obvious:
Fig. 1 is the theory diagram of the visual material control system that the present invention is based on BIM technology.
Embodiment
Below in conjunction with specific embodiment, the present invention is described in detail.Following examples will contribute to those skilled in the art and understand the present invention further, but not limit the present invention in any form.It should be pointed out that to those skilled in the art, without departing from the inventive concept of the premise, some distortion and improvement can also be made.These all belong to protection scope of the present invention.
The visual material control system that the present invention is based on BIM technology comprises:
Database, for storing three-dimensional building information model;
Creation module, for creating the complete three-dimensional building information model comprising all material information;
Reading insmods, for being read by design data bag and being loaded in three-dimensional building information model;
Unified load module, unification is input in the three-dimensional building information model of this overall project by computing machine according to the design data bag of manual input design data and reading automatically;
Be built into module, feed information be built in three-dimensional building information model;
Regioselective module, gives location to the selection of material and standard and selects;
Formulate module, formulate rational material requirements and enter manufacturer's case;
Access module, is linked in three-dimensional building information model by the development interface of the robotization generation system of each material supplier;
Form module, form three-dimensional building information model that is complete, that can regulate according to demand at any time.
Wherein, creation module, read insmod, unified load module, be built into module, regioselective module, formulate module, access module, formation module all with DataBase combining.Three-dimensional building information model is visual.
The visual control of material method that the present invention is based on BIM technology comprises the following steps:
Step one: create the complete three-dimensional building information model comprising all material information according to the complete correct design drawing that designing institute provides; Three-dimensional building information model is visual.
Step 2: according to the sensor pre-set or the design data bag provided by Surveying And Mapping Institute or monitoring unit, automatically read and be loaded in three-dimensional building information model;
Step 3: the design data of manual input material and relevant boundary condition, national standard are in three-dimensional building information model; Design data unification is input in the three-dimensional building information model of this overall project by computing machine according to the design data bag etc. of manual input design data and reading automatically before;
Step 4: unit in charge of construction provides construction scheme, is built in three-dimensional building information model in conjunction with construction work feed information;
Step 5: designing unit to architectual concept and pro forma requirement according to owner unit, gives location to the selection of material and standard and selects under the prerequisite meeting state's laws regulation;
Step 6: according to owner, supervisor requires that laws and regulations corresponding to country are formulated rational material requirements and enter manufacturer's case;
Step 7: each material supplier provides satisfactory material to make, transport provides reasonable plan and plan;
Step 8: the development interface of the robotization generation system of each material supplier is linked in three-dimensional building information model;
Step 9: according to above-mentioned step each side's data message is established in complete comprehensive project BIM and forms three-dimensional building information model that is complete, that can regulate according to demand at any time, and reasonable arrangement planned management of project, the real-time entry and exit factory etc. controlling material on three-dimensional building information model after being combined with real building site situation by the computing data of robotization.
The particular content of the establishment in step one comprises: new project, create axle net, create floor absolute altitude, create civil engineering building enclosure, add structural column, structural beams is arranged, create structure floor, wall paper is put, hole to be provided is arranged, add reinforcing bar.
Design data bag in step 2 mainly comprises: disclosed real-time road and Weather information on the safety monitoring information in the project construction process that the urban architecture model information that Tactics of Urban Surveying institute provides, prospective design provide, internet.
The design drawing provided according to designing institute carries out the foundation of the three-dimensional building information model of construction work, then the design data (i.e. the design data of the manual input material of step 3) required for three-dimensional building information model being added, wherein design data specifically comprises: material information (mechanical information, Detection Information report etc.), concrete mix, building materials coefficient of heat conductivity, the load-bearing of building materials construction coefficient, rigidity, density (density, apparent density, volume density, bulk density), packing and porosity (packing, voidage), filling rate and porosity, water wettability and hydrophobic nature, water absorptivity and hydroscopicity, water tolerance, impervious, frost resistance, thermal conductivity, thermal capacity, intensity, specific strength, elasticity, plasticity, fragility, toughness, the data of the environmental variances such as permanance read the setting with the designing requirement condition of building materials automatically, then carry out the establishment of rational construction scheme by unit in charge of construction to the construction of construction work and determine.According to corresponding requirement, available information is being passed to each material supplier by computing machine according to being stripped out of real time requirements automation from the model that entirety is planned as a whole, each material supplier sets rational work program in conjunction with the actual conditions that oneself is produced and after arranging, is linked into the production material that automatic safe in automated production management process is guaranteed both quality and quantity.In Transportation Engineering, the transmission of the monitoring vehicle transit information of omnidistance GPS is on processor finally and total BIM is shown and management and control, and whole like this workbench is all three-dimensional visualization and scientific and reasonable preview is faultless carries out engineering construction.
Visualization of 3 d BIM technology, engineering management field, computer software technology, technology of Internet of things.The present invention relates to a kind of construction project project management method, store keeping particularly in construction project, wherein contain the cast-in-place concrete of different size, the precast concrete of different size shape or characteristic, the reinforcing bar of different size, template not of uniform size, decorating and renovating material (includes but are not limited to paint, timber, steel, pottery, aluminium alloy etc.), building materials in all construction works is rationalized, robotization, scientific, visually prepare arrangement, consequently when building engineering construction, when the same day needs the material used can send to the required place used on time by feed unit on schedule, thus really accomplish not in stock, without windrow, social resources saving is achieved noticeable achievement.
The present invention is input rational management and control condition by managerial personnel under the prerequisite of three-dimensional visible to the control method of material, and automatically combine environment at that time by computing machine, the real time data such as temperature, road conditions, field staff arrange supplier's vehicle supply to prepare, on-the-spot actual interim stacking condition carries out calculating and generates rational task scheduling book.Simultaneously each side personnel can receive data and the electronic edition task scheduling book of three-dimensional visible automatically, do the propelling movement of data simultaneously thus reach robotization and generate and the object of allotment in original management system of each side.Whether the present invention is reasonable in design, uses easy and simple to handle and intelligence degree is high, and result of use is good, easy, to complete material needed for each construction project in time delivery process, and can provide and deliver to put in place to material needed for each construction project and carry out effective monitoring.When the present invention manages architecture engineering material, directly reflect the three-dimensional visualization technique of actual conditions; The present invention controls the dispatching from the factory of architecture engineering material with the BIM bond networking technology of three-dimensional visualization, enters factory, processing etc., thus the have something to base on such as quality, cost to material.The present invention uses the technological means such as GPS locates control transportation and coordinate, and guidance is prepared in the BIM of three-dimensional visualization, carry out optimal case automatic calculating and work simultaneously.The present invention carries out the data message of automatic capturing surrounding enviroment variable to corresponding monitoring sensor by pre-designed program, and calculate best solution, shows programme of work on the BIM of three-dimensional visualization simultaneously.The present invention will the standard of suing for peace pass to the material supplier of upstream under the prerequisite that building materials overall arrangement is good, and the data layout that the automated production software changing into material supplier can read, then carries out automated production by the equipment of manufacture of materials business.
Material follows the tracks of vehicle GPS locator data and in conjunction with feedback display in the BIM of three-dimensional visualization before marching into the arena, the examining report certificate information etc. done by specialty detection company of material is that automatic input is in material model, examining report can be checked at any time when material enters working-yard, the quality problems of material are controlled at any time.More reasonably the preparing of time sequencing, makes commerical ready-mixed concrete greatly reduce in the time of cast in situs of dispatching from the factory, greatly improves quality and the safety of commerical ready-mixed concrete.Because can the looking in real time of materials'use, arrange in order, three-dimensional controlled, accomplish to have good grounds like this concerning corresponding concealed work, to knocking off in the future, rectification etc. provides strong evidence and choice.
Above specific embodiments of the invention are described.It is to be appreciated that the present invention is not limited to above-mentioned particular implementation, those skilled in the art can make various distortion or amendment within the scope of the claims, and this does not affect flesh and blood of the present invention.
Claims (8)
1., based on a visual material control system for BIM technology, it is characterized in that, comprising:
Database, for storing three-dimensional building information model;
Creation module, for creating the complete three-dimensional building information model comprising all material information;
Reading insmods, for being read by design data bag and being loaded in three-dimensional building information model;
Unified load module, unification is input in the three-dimensional building information model of this overall project by computing machine according to the design data bag of manual input design data and reading automatically;
Be built into module, feed information be built in three-dimensional building information model;
Regioselective module, gives location to the selection of material and standard and selects;
Formulate module, formulate rational material requirements and enter manufacturer's case;
Access module, is linked in three-dimensional building information model by the development interface of the robotization generation system of each material supplier;
Form module, form three-dimensional building information model that is complete, that can regulate according to demand at any time.
2. the visual material control system based on BIM technology according to claim 1, it is characterized in that, described creation module, read insmod, unified load module, be built into module, regioselective module, formulate module, access module, formation module all with DataBase combining.
3. the visual material control system based on BIM technology according to claim 1, is characterized in that, described three-dimensional building information model is visual.
4., based on a visual control of material method for BIM technology, it is characterized in that, comprise the following steps:
Step one: create the complete three-dimensional building information model comprising all material information according to the complete correct design drawing that designing institute provides;
Step 2: according to the sensor pre-set or the design data bag provided by Surveying And Mapping Institute or monitoring unit, automatically read and be loaded in three-dimensional building information model;
Step 3: the design data of manual input material and relevant boundary condition, national standard are in three-dimensional building information model; Design data unification is input in the three-dimensional building information model of this overall project by computing machine according to the design data bag of manual input design data and reading automatically before;
Step 4: unit in charge of construction provides construction scheme, is built in three-dimensional building information model in conjunction with construction work feed information;
Step 5: designing unit to architectual concept and pro forma requirement according to owner unit, gives location to the selection of material and standard and selects under the prerequisite meeting state's laws regulation;
Step 6: according to owner, supervisor requires that laws and regulations corresponding to country are formulated rational material requirements and enter manufacturer's case;
Step 7: each material supplier provides satisfactory material to make, transport provides reasonable plan and plan;
Step 8: the development interface of the robotization generation system of each material supplier is linked in three-dimensional building information model;
Step 9: according to above-mentioned step each side's data message is established in complete comprehensive project BIM and forms three-dimensional building information model that is complete, that can regulate according to demand at any time, and reasonable arrangement planned management of project, the real-time entry and exit factory controlling material on three-dimensional building information model after being combined with real building site situation by the computing data of robotization.
5. the visual control of material method based on BIM technology according to claim 4, it is characterized in that, the design data of the manual input material of described step 3 comprises: material information, concrete mix, building materials coefficient of heat conductivity, the load-bearing of building materials construction coefficient, rigidity, density, packing and porosity, filling rate and porosity, water wettability and hydrophobic nature, water absorptivity and hydroscopicity, water tolerance, impermeability, frost resistance, thermal conductivity, thermal capacity, intensity, specific strength, elasticity, plasticity, fragility, toughness, permanance.
6. the visual control of material method based on BIM technology according to claim 4, it is characterized in that, the transmission of the monitoring vehicle transit information of the omnidistance GPS produced in the transport in described step 7 is on processor finally and total BIM is shown and management and control.
7. the visual control of material method based on BIM technology according to claim 4, it is characterized in that, the particular content of the establishment in described step one comprises: new project, create axle net, create floor absolute altitude, create civil engineering building enclosure, add structural column, structural beams is arranged, create structure floor, wall paper is put, hole to be provided is arranged, add reinforcing bar.
8. the visual control of material method based on BIM technology according to claim 4, it is characterized in that, the design data handbag in described step 2 is drawn together: disclosed real-time road and Weather information on the safety monitoring information in the project construction process that the urban architecture model information that Tactics of Urban Surveying institute provides, prospective design provide, internet.
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CN110619172A (en) * | 2019-09-16 | 2019-12-27 | 中建八局第二建设有限公司 | Just-in-time cooperative construction management method based on BIM technology |
CN111177817A (en) * | 2019-11-22 | 2020-05-19 | 久瓴(上海)智能科技有限公司 | Floor bearing plate generation method and device, computer equipment and storage medium |
CN111177817B (en) * | 2019-11-22 | 2023-02-21 | 久瓴(江苏)数字智能科技有限公司 | Floor bearing plate generation method and device, computer equipment and storage medium |
CN117875790A (en) * | 2024-02-03 | 2024-04-12 | 浙江方大通信有限公司 | Building engineering construction quality supervision and early warning system and method |
CN117875790B (en) * | 2024-02-03 | 2024-08-06 | 浙江方大通信有限公司 | Building engineering construction quality supervision and early warning system and method |
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