CN107832951A - Application processes and system of the BIM in precast concrete supply chain - Google Patents

Abstract

The invention provides application processes and system of a kind of BIM in precast concrete supply chain,The present invention is to adapt to precision construction visual management method and the system that PC is built,The information management decision-making designed exclusively for assembled architecture unit in charge of construction and owner,Component- Based Development supply chain management theory of the present invention," BIM+ Internet of Things " technology is merged,And with reference to RFID REIDs,Component product Logistics intelligent management is realized by RFID,Realize component heavy industrialization building course 4D,5D is managed,Creativeness completes collaborative work and the management platform that prefabrication is built,Complete " using component as guiding,Supply chain management is core,Solve from component to deepen in prefabrication building course,Make,Supervision,Transport scene storage,The quality of the full industrial chain of lifting,Safety,The overall goal of progress control problem ".

Description

Application processes and system of the BIM in precast concrete supply chain

Technical field

The present invention relates to application processes and system of a kind of BIM in precast concrete supply chain.

Background technology

As country and governments at all levels widely popularize PC (precast concrete) technology, the supply of precast concrete Each flow of chain becomes most important, but concrete prefabricated conduct industry still suffers from larger deficiency.

One：Overall production capacity surplus, under-capacity operation.

Two：Low-end product technical merit is low, of poor quality.

Three:Flyash, sand, stone raw material are in short supply.

The generation of this phenomenon and the production model of building trade and economic order are undivided.Although many component factories Possess corresponding technical conditions, but because itself and design, unit in charge of construction contact not enough fully, closely, neither one is excellent Unified information management mode or platform, so causing component factory even each side's unit to participate in new item with being unable to economical and efficient In mesh, PC designs, Systemizing production and construction in concrete project process are constrained.Such as：Existing concrete prefabricated components design system has following two Kind：1. using for the condition of satisfaction is picked out in the prefabricated components that designing unit has produced from component factory.2. designing unit according to Demand customizes concrete component to component factory.But many deficiencies, first component factory and designing unit in both modes all be present It is less in linking up fully, when most domestic designers design take into full account in prefabricated components production process it is difficult because Element, it is impossible to the mould situation (element type produced) and the level of production, technique of component factory are fully taken into account in design, from And the prefabrication works that can meet that each side requires can not be designed, cause that component factory production efficiency is low, product matter Amount is not high.Secondly, vast component factory does not have the ability for possessing Deepen Design, and deepens in the production process of prefabricated components and set Meter is one of emphasis, while most of component factories will not put into substantial contribution in science and technology research and development, and new product development speed is slow, So that they can not meet the customization requirement of designing unit, have impact on economic benefit.On the other hand, prefabricated components production is also to enclose Around a series of process that continuously cooperates of height of project expansion, cooperated jointly completion by multiple departments.Designed entirely Cheng Zhong, each department may design it to make and change for several times with requirement as needed, and these modifications are to other departments Design work often results in very big influence.So designing, will be due to mutual uncoordinated in production and work progress Produce many problems.

In summary, component factory designs and production, production and portion of each side in construction, component production process with designing unit Door, etc. many-sided generation problem the main reason for be that each side's information interchange is insufficient, each side specialized information can not be completed to exchange Collect and carry out unified coordinated management, heavy contradiction will be necessarily produced in the supply chain of prefabricated components, causes component factory production capacity Waste, total lever factor lengthens and directly economic expenditure greatly increases, each side's requirement is not inconsistent with actual result, proprietor is discontented with Meaning etc. it is a series of inevitable and actual the problem of, and problem be at all during building industrialization, the level of IT application compared with Low, production process automatic management deficiency, lack overall comprehensive information system management platform.

The content of the invention

It is an object of the invention to provide application processes and system of a kind of BIM in precast concrete supply chain, During can solve the problem that existing building industrialization, the level of IT application is relatively low, the automatic management of production process deficiency, shortage The problem of comprehensive information system management platform of entirety.

To solve the above problems, the present invention provides a kind of application processes of BIM in precast concrete supply chain, bag Include：

Obtain the precast concrete order of the attribute data comprising BIM model informations, design information and management information；

According to precast concrete corresponding to precast concrete order production；

Obtain the specified pre-buried position of RFID label tag；

The attribute data of the precast concrete is write into RFID label tag；

The RFID label tag is buried and is put into the specified pre-buried position.

Further, in the above-mentioned methods, the RFID label tag is buried and be put into after the specified pre-buried position, also wrapped Include：

When the precast concrete enters stockyard, the RFID label tag acquisition scanned on the precast concrete is corresponding Attribute data；

The attribute data got is compared with precast concrete admission schedule information,

If comparative result lags for current precast concrete admission progress, send precast concrete admission and enter Degree hysteresis warning information.

Further, in the above-mentioned methods, by the attribute data got and precast concrete admission progress After plan information is compared, in addition to：

If comparative result is that current admission progress is normal, the attribute data and precast concrete that will be got Construction program information is compared,

If comparative result is precast concrete production hysteresis, precast concrete production order placement information is sent；

If comparative result is precast concrete, production is normal, generates progress report.

Further, in the above-mentioned methods, after the precast concrete enters stockyard, in addition to：

Scan attribute data corresponding to the RFID label tag acquisition on the precast concrete of stockyard storage；

The installation site of the precast concrete is determined according to the attribute data；

The precast concrete is transported into the installation site with tower crane to be installed.

Further, in the above-mentioned methods, the RFID label tag is buried and be put into after the specified pre-buried position, also wrapped Include：

Scan RFID label tag, the attribute information of precast concrete corresponding to acquisition；

The precast concrete is checked according to the attribute information, generates quality measurements.

According to the another side of the present invention, there is provided a kind of application systems of BIM in precast concrete supply chain, bag Include：

Acquisition module, for obtaining the prefabricated mixed of the attribute data comprising BIM model informations, design information and management information Coagulate native component order；

Generation module, for the precast concrete according to corresponding to precast concrete order production；

Pre-buried module, for obtaining the specified pre-buried position of RFID label tag, by the attribute number of the precast concrete According to write-in RFID label tag, the RFID label tag is buried and is put into the specified pre-buried position.

Further, in said system, in addition to：

Comparing module, when entering stockyard for the precast concrete, scan on the precast concrete Attribute data corresponding to RFID label tag acquisition；By the attribute data got and precast concrete admission schedule Information is compared, if comparative result lags for current precast concrete admission progress, sends precast concrete Admission progress lags warning information.

Further, in said system, the comparing module, if be additionally operable to comparative result for current admission progress just Often, then the attribute data got is compared with precast concrete construction program information, if comparing knot Fruit is precast concrete production hysteresis, then sends precast concrete production order placement information；If comparative result is prefabricated Concrete component production is normal, then generates progress report.

Further, in said system, in addition to construction module, for scanning the precast concrete structure in stockyard storage Attribute data corresponding to RFID label tag acquisition on part；The installation of the precast concrete is determined according to the attribute data Position；The precast concrete is transported into the installation site with tower crane to be installed.

Further, in said system, in addition to quality control module, for scanning RFID label tag, corresponding to acquisition The attribute information of precast concrete；The precast concrete is checked according to the attribute information, generates matter Measure testing result.

Compared with prior art, the present invention is to adapt to precision construction visual management method and the system that PC is built, specially The information management decision-making designed for assembled architecture unit in charge of construction and owner, Component- Based Development supply chain management theory of the present invention, melts " BIM+ Internet of Things " technology has been closed, and has combined RFID REIDs, component product Logistics intelligence is realized by RFID Management, realize that component heavy industrialization building course 4D, 5D are managed, creativeness completes the collaboration that prefabrication is built Work and management platform, " using component to be oriented to, supply chain management is core, solves prefabrication building course for completion In deepen from component, make, supervise, transport to scene storage, lifting full industrial chain quality, safety, progress control problem " Overall goal.

Brief description of the drawings

Fig. 1 is application process flow charts of the BIM of one embodiment of the invention in precast concrete supply chain；

Fig. 2 is application process flow charts of the BIM of another embodiment of the present invention in precast concrete supply chain；

Fig. 3 is application process flow charts of the BIM of yet another embodiment of the invention in precast concrete supply chain.

Embodiment

In order to facilitate the understanding of the purposes, features and advantages of the present invention, it is below in conjunction with the accompanying drawings and specific real Applying mode, the present invention is further detailed explanation.

As shown in figure 1, the present invention provides a kind of application processes of BIM in precast concrete supply chain, including：

Obtain the precast concrete order of the attribute data comprising BIM model informations, design information and management information；

According to precast concrete corresponding to precast concrete order production；

Obtain the specified pre-buried position of RFID label tag；

The attribute data of the precast concrete is write into RFID label tag；

The RFID label tag is buried and is put into the specified pre-buried position.

Here, the present invention can integratedy chain information, improve supply chain efficiency.Information technology is fortune of optimizing supply chain Make, realize the important tool of efficient information intercommunication, the present invention is based on wireless radio-frequency and BIM technology, applies it to and build If in supply chain, help to make in supply chain any Joint Enterprises in time, accurate grasp construction project loss of learning and mistake.This Invention using as design information, BIM model datas, each stage management information carrier, connect each node enterprise, improve information and obtain Information flow, integrated optimization operation flow and quality control on construction link are shared by promptness, the accuracy taken, Shi Ge enterprises, reduce Component production warehouse, job site stock, reduce and stack cost, progress monitoring level are improved, so as to improve supply chain environment.

In addition, design master's homegate need to only do and once change, model information afterwards will change therewith, eliminate and largely reset Parameter and the process computed repeatedly.Its synergy can fast and effeciently transmit data simultaneously, and data are all same Presented in model, this makes the communication of all departments more direct.

The part that concrete prefabricated element factory can directly extract needs from architectural design model is deepened, then is passed through The design and check that structure design teacher completes structure are given in collaboration, and also the analysis of prices can be directly generated by component factory after qualified.By The 3D and 2D combination in BIM systems, the construction drawing that the component after having calculated can directly generate 2D deliver Workshop Production.So As soon as will just be combined together the step of several separation such as modelling, Strength co-mputation, the analysis of prices, Workshop Production, subtract The number of small information transfer, the abundant exchange of both sides is ensure that, not only met the requirement of design side but also facilitated the system of component factory Make, greatly improve efficiency.

In work progress, the mistake that scene occurs is inevitable, if it is possible to mistake is found and rectified and improved as early as possible, to subtracting Do over again less, reduce cost there is very big meaning and value.With BIM professional softwares to complexity during PC factory constructions Situations such as component and for example big difficulty lifting of complex node, concealed work, the simulation of figure and picture is carried out using BIM softwares, is supplied Design in-depth tell somebody what one's real intentions are and construct instruct using with reach increase complex building system can application property；Construction production efficiency is improved, Increase the security of complex building system.

By the BIM models, the labor service corresponding to project each construction stage, material, equipment etc. are calculated, simulate and optimized Expense, so as to establish Workforce Planning, mrp and machinery plan etc., project cost meter is formed on this basis Draw, wherein the accuracy of mrp, promptness for realization become more meticulous cost management and control it is most important, it can lead to Cross 5D models and automatically extract plan of needs, and instruct buying on this basis, avoid material resources from accumulating and overspend.

As shown in Fig. 2 in the embodiments of application process one of the BIM of the present invention in precast concrete supply chain, by institute State RFID label tag bury be put into it is described specify pre-buried position after, in addition to：

When precast concrete enters stockyard, scan the RFID label tag on the precast concrete and obtain corresponding belong to Property data；

The attribute data got is compared with precast concrete admission schedule information,

If comparative result lags for current precast concrete admission progress, send precast concrete admission and enter Degree hysteresis warning information.

Here, the present invention realizes precast concrete fine-grained management level, solve, break through component production management skill Art, moment grasp the information of prefabricated components, especially some key members, it are accurately positioned, and shorten search time, carry High structure manufacture, transport, the visualization and automation of installation quality supervision, predict the accident that may occur in time, and right It is made a response.

As shown in Fig. 2 in the embodiments of application process one of the BIM of the present invention in precast concrete supply chain, will obtain After the attribute data got is compared with precast concrete admission schedule information, in addition to：

If comparative result is that current admission progress is normal, the attribute data and precast concrete that will be got Construction program information is compared,

If comparative result is precast concrete production hysteresis, precast concrete production order placement information is sent；

If comparative result is precast concrete, production is normal, generates progress report.

Here, it can realize by component factory-scene " logistics management " module and placed an order, dispensed according to actual progress, reach The target of live zero inventory, solve the problems, such as production capacity, lack of space after whole city's spread overwide areas assembled architecture.

The present invention can accomplish live component " zero stacks ", reduce construction duration, reduce whole-life cycle fee cost, this Invention emphasis helps prefabrication building course to realize letter using this basic element of component as tracking and managing point of penetration Cease efficient intercommunication, improving the boosting prefabrication construction of the purpose of PC component fine-grained management, really industrialization is built.

, can be with the field operation situation in visual in image simulation each stage so as to realizing by referring to construction program Optimization-execution-in the circulation of optimization；In fact whole design, construction, the process of operation are exactly a process continued to optimize. This optimization is restricted by three sample factors：Information, complexity and time.There is no accurate information can not do rational optimization knot Fruit, BIM models provide the information of the physical presence of building, including geological information, physical message, Rule Information, also provided Building changes later physical presence.

As shown in figure 3, in the embodiments of application process one of the BIM of the present invention in precast concrete supply chain, it is described After precast concrete enters stockyard, in addition to：

Scan attribute data corresponding to the RFID label tag acquisition on the precast concrete of stockyard storage；

The installation site of the precast concrete is determined according to the attribute data；

The precast concrete is transported into the installation site with tower crane to be installed.

Here, assembled in situ jobs node whole process based on mobile interchange technology, can be realized by " construction management " module Tracking, examination responsibility system are implemented, so that it is guaranteed that assembling accuracy.

In the embodiments of application process one of the BIM of the present invention in precast concrete supply chain, by the RFID label tag Bury and be put into after the specified pre-buried position, in addition to：

Scan RFID label tag, the attribute information of precast concrete corresponding to acquisition；

The precast concrete is checked according to the attribute information, generates quality measurements.

Here, based on mobile interchange technology, it can realize that element factory Supervision Quality is examined by " quality control " module Responsibility system, the component quality standardization level wretched insufficiency for solving to currently encounter cause follow-up rework problems.

In a specific embodiment of the invention, the precision construction Visualization Management Platform by certain number building to adaptation PC construction Application, calculated according to current data, the present invention can improve project output and team unity 79%, and visualization, hardware and software platform are more just In communication, enterprise competitiveness 66% is improved, reduces 50%-70% information request, shortens 5%-10% construction period, is reduced 20%-25% each profession coordination time.Project takes part in building all members of each side from progress continuous co-operation is begun in early days, and each side is not It is confined to be concerned about the one's work of oneself, but higher interests can be obtained because of the success of project, creates bigger profit Profit.The Engineering Management Patterns for the precision construction Visualization Management Platform that PC is built are adapted to, are to create information, management information, share The digital form of information, it is the development trend of construction industry digital management, more far-reaching influence will be produced.

According to the another side of the present invention, there is provided a kind of application systems of BIM in precast concrete supply chain, bag Include：

Acquisition module, for obtaining the prefabricated mixed of the attribute data comprising BIM model informations, design information and management information Coagulate native component order；

Generation module, for the precast concrete according to corresponding to precast concrete order production；

Pre-buried module, for obtaining the specified pre-buried position of RFID label tag, by the attribute number of the precast concrete According to write-in RFID label tag, the RFID label tag is buried and is put into the specified pre-buried position.

Here, the present invention can integratedy chain information, improve supply chain efficiency.Information technology is fortune of optimizing supply chain Make, realize the important tool of efficient information intercommunication, the present invention is based on wireless radio-frequency and BIM technology, applies it to and build If in supply chain, help to make in supply chain any Joint Enterprises in time, accurate grasp construction project loss of learning and mistake.This Invention using as design information, BIM model datas, each stage management information carrier, connect each node enterprise, improve information and obtain Information flow, integrated optimization operation flow and quality control on construction link are shared by promptness, the accuracy taken, Shi Ge enterprises, reduce Component production warehouse, job site stock, reduce and stack cost, progress monitoring level are improved, so as to improve supply chain environment.

In addition, design master's homegate need to only do and once change, model information afterwards will change therewith, eliminate and largely reset Parameter and the process computed repeatedly.Its synergy can fast and effeciently transmit data simultaneously, and data are all same Presented in model, this makes the communication of all departments more direct.

The part that concrete prefabricated element factory can directly extract needs from architectural design model is deepened, then is passed through The design and check that structure design teacher completes structure are given in collaboration, and also the analysis of prices can be directly generated by component factory after qualified.By The 3D and 2D combination in BIM systems, the construction drawing that the component after having calculated can directly generate 2D deliver Workshop Production.So As soon as will just be combined together the step of several separation such as modelling, Strength co-mputation, the analysis of prices, Workshop Production, subtract The number of small information transfer, the abundant exchange of both sides is ensure that, not only met the requirement of design side but also facilitated the system of component factory Make, greatly improve efficiency.

In work progress, the mistake that scene occurs is inevitable, if it is possible to mistake is found and rectified and improved as early as possible, to subtracting Do over again less, reduce cost there is very big meaning and value.With BIM professional softwares to complexity during PC factory constructions Situations such as component and for example big difficulty lifting of complex node, concealed work, the simulation of figure and picture is carried out using BIM softwares, is supplied Design in-depth tell somebody what one's real intentions are and construct instruct using with reach increase complex building system can application property；Construction production efficiency is improved, Increase the security of complex building system.

By the BIM models, the labor service corresponding to project each construction stage, material, equipment etc. are calculated, simulate and optimized Expense, so as to establish Workforce Planning, mrp and machinery plan etc., project cost meter is formed on this basis Draw, wherein the accuracy of mrp, promptness for realization become more meticulous cost management and control it is most important, it can lead to Cross 5D models and automatically extract plan of needs, and instruct buying on this basis, avoid material resources from accumulating and overspend.

In the embodiments of application system one of the BIM of the present invention in precast concrete supply chain, in addition to：

Comparing module, when entering stockyard for the precast concrete, scan on the precast concrete Attribute data corresponding to RFID label tag acquisition；By the attribute data got and precast concrete admission schedule Information is compared, if comparative result lags for current precast concrete admission progress, sends precast concrete Admission progress lags warning information.

Here, the present invention realizes precast concrete fine-grained management level, solve, break through component production management skill Art, moment grasp the information of prefabricated components, especially some key members, it are accurately positioned, and shorten search time, carry High structure manufacture, transport, the visualization and automation of installation quality supervision, predict the accident that may occur in time, and right It is made a response.

In the embodiments of application system one of the BIM of the present invention in precast concrete supply chain, the comparing module, If it is normal for current admission progress to be additionally operable to comparative result, by the attribute data got and precast concrete work Journey schedule information is compared, if comparative result is precast concrete production hysteresis, sends precast concrete structure Part produces order placement information；If comparative result is precast concrete, production is normal, generates progress report.

Here, it can realize by component factory-scene " logistics management " module and placed an order, dispensed according to actual progress, reach The target of live zero inventory, solve the problems, such as production capacity, lack of space after whole city's spread overwide areas assembled architecture.

The present invention can accomplish live component " zero stacks ", reduce construction duration, reduce whole-life cycle fee cost, this Invention emphasis helps prefabrication building course to realize letter using this basic element of component as tracking and managing point of penetration Cease efficient intercommunication, improving the boosting prefabrication construction of the purpose of PC component fine-grained management, really industrialization is built.

, can be with the field operation situation in visual in image simulation each stage so as to realizing by referring to construction program Optimization-execution-in the circulation of optimization；In fact whole design, construction, the process of operation are exactly a process continued to optimize. This optimization is restricted by three sample factors：Information, complexity and time.There is no accurate information can not do rational optimization knot Fruit, BIM models provide the information of the physical presence of building, including geological information, physical message, Rule Information, also provided Building changes later physical presence.

In the embodiments of application system one of the BIM of the present invention in precast concrete supply chain, in addition to construction mould Block, for scanning attribute data corresponding to the RFID label tag acquisition on the precast concrete of stockyard storage；According to described Attribute data determines the installation site of the precast concrete；The precast concrete transported with tower crane described Installation site is installed.

Here, assembled in situ jobs node whole process based on mobile interchange technology, can be realized by " construction management " module Tracking, examination responsibility system are implemented, so that it is guaranteed that assembling accuracy.

In the embodiments of application system one of the BIM of the present invention in precast concrete supply chain, in addition to quality control Molding block, for scanning RFID label tag, the attribute information of precast concrete corresponding to acquisition；According to the attribute information pair The precast concrete is checked, generates quality measurements.

Here, based on mobile interchange technology, it can realize that element factory Supervision Quality is examined by " quality control " module Responsibility system, the component quality standardization level wretched insufficiency for solving to currently encounter cause follow-up rework problems.

In summary, the present invention is to adapt to precision construction visual management method and the system that PC is built, exclusively for assembling The information management decision-making of formula building unit and owner's design, Component- Based Development supply chain management theory of the present invention, fusion " BIM+ Internet of Things " technology, and RFID REIDs are combined, component product Logistics intelligent management is realized by RFID, Realize that component heavy industrialization building course 4D, 5D are managed, creativeness completes the collaborative work that prefabrication is built With management platform, complete " using component for be oriented to, supply chain management is core, solution prefabrication building course in from Component deepens, makes, supervising, transports scene storage, quality, safety, the progress control problem of the full industrial chain of lifting " it is total Body target.

Each embodiment is described by the way of progressive in this specification, what each embodiment stressed be and other The difference of embodiment, between each embodiment identical similar portion mutually referring to.

Professional further appreciates that, with reference to the unit of each example of the embodiments described herein description And algorithm steps, can be realized with electronic hardware, computer software or the combination of the two, in order to clearly demonstrate hardware and The interchangeability of software, the composition and step of each example are generally described according to function in the above description.These Function is performed with hardware or software mode actually, application-specific and design constraint depending on technical scheme.Specialty Technical staff can realize described function using distinct methods to each specific application, but this realization should not Think beyond the scope of this invention.

Obviously, those skilled in the art can carry out the spirit of various changes and modification without departing from the present invention to invention And scope.So, if these modifications and variations of the present invention belong to the claims in the present invention and its equivalent technologies scope it Interior, then the present invention is also intended to including these changes and modification.

Claims (10)

1. A kind of 1. application processes of BIM in precast concrete supply chain, it is characterised in that including：

   Obtain the precast concrete order of the attribute data comprising BIM model informations, design information and management information；

   According to precast concrete corresponding to precast concrete order production；

   Obtain the specified pre-buried position of RFID label tag；

   The attribute data of the precast concrete is write into RFID label tag；

   The RFID label tag is buried and is put into the specified pre-buried position.
2. 2. application processes of the BIM as claimed in claim 1 in precast concrete supply chain, it is characterised in that by institute State RFID label tag bury be put into it is described specify pre-buried position after, in addition to：

   When the precast concrete enters stockyard, scan the RFID label tag on the precast concrete and obtain corresponding belong to Property data；

   The attribute data got is compared with precast concrete admission schedule information,

   If comparative result lags for current precast concrete admission progress, it is stagnant to send precast concrete admission progress Warning information afterwards.
3. 3. application processes of the BIM as claimed in claim 2 in precast concrete supply chain, it is characterised in that will obtain After the attribute data got is compared with precast concrete admission schedule information, in addition to：

   If comparative result is that current admission progress is normal, by the attribute data got and precast concrete engineering Schedule information is compared,

   If comparative result is precast concrete production hysteresis, precast concrete production order placement information is sent；

   If comparative result is precast concrete, production is normal, generates progress report.
4. 4. application processes of the BIM as claimed in claim 2 in precast concrete supply chain, it is characterised in that described After precast concrete enters stockyard, in addition to：

   Scan attribute data corresponding to the RFID label tag acquisition on the precast concrete of stockyard storage；

   The installation site of the precast concrete is determined according to the attribute data；

   The precast concrete is transported into the installation site with tower crane to be installed.
5. 5. application processes of the BIM as claimed in claim 1 in precast concrete supply chain, it is characterised in that by institute State RFID label tag bury be put into it is described specify pre-buried position after, in addition to：

   Scan RFID label tag, the attribute information of precast concrete corresponding to acquisition；

   The precast concrete is checked according to the attribute information, generates quality measurements.
6. A kind of 6. application systems of BIM in precast concrete supply chain, it is characterised in that including：

   Acquisition module, for obtaining the precast concrete of the attribute data comprising BIM model informations, design information and management information Component order；

   Generation module, for the precast concrete according to corresponding to precast concrete order production；

   Pre-buried module, for obtaining the specified pre-buried position of RFID label tag, the attribute data of the precast concrete is write Inserting RFID tags, the RFID label tag is buried and is put into the specified pre-buried position.
7. 7. application systems of the BIM as claimed in claim 6 in precast concrete supply chain, it is characterised in that also wrap Include：

   Comparing module, when entering stockyard for the precast concrete, scan the RFID marks on the precast concrete Attribute data corresponding to label acquisition；The attribute data got and precast concrete admission schedule information are entered Row compares, if comparative result lags for current precast concrete admission progress, sends precast concrete admission and enters Degree hysteresis warning information.
8. 8. application systems of the BIM as claimed in claim 7 in precast concrete supply chain, it is characterised in that described Comparing module, if it is that current admission progress is normal to be additionally operable to comparative result, the attribute data got is mixed with prefabricated Coagulate native component construction program information to be compared, if comparative result is precast concrete production hysteresis, send pre- Concrete component processed produces order placement information；If comparative result is precast concrete, production is normal, generates progress report.
9. 9. application systems of the BIM as claimed in claim 7 in precast concrete supply chain, it is characterised in that also wrap Construction module is included, for scanning attribute data corresponding to the RFID label tag acquisition on the precast concrete of stockyard storage； The installation site of the precast concrete is determined according to the attribute data；The precast concrete is transported with tower crane It is defeated to be installed to the installation site.
10. 10. application systems of the BIM as claimed in claim 6 in precast concrete supply chain, it is characterised in that also wrap Quality control module is included, for scanning RFID label tag, the attribute information of precast concrete corresponding to acquisition；According to the category Property information the precast concrete is checked, generate quality measurements.