CN112819427A - Full life cycle intelligent interactive plan management system based on BIM technology - Google Patents

Abstract

The invention relates to a full life cycle intelligent interactive plan management system based on a BIM technology, which belongs to the technical field of building information models and engineering project management application, and comprises information input equipment, label generation equipment, data processing equipment, data storage equipment and label scanning equipment; the data processing equipment comprises a full life cycle plan management and control module, a component plan and building model association module, a project progress plan execution feedback module, a project progress comparison analysis module and a multi-version construction plan and model management module. The invention can realize the management of the building full life cycle plan, associate the plan with the model, simultaneously endow each component with a unique identifier, and realize the combination of online and offline through the comparison and unification of the label acquisition entity and the data, so that the system can obtain the feedback according to the business action to automatically generate the actual execution condition of the plan. The method has the advantages of timely feedback of actual execution of project progress, simpler data statistics, more perfect progress plan sharing and the like.

Description

Full life cycle intelligent interactive plan management system based on BIM technology

Technical Field

The invention relates to a full-life-cycle intelligent interactive plan management system based on a BIM (building information modeling) technology, and belongs to the technical field of building information models and engineering project management application.

Background

BIM is an abbreviation of Building Information Modeling, namely a Building Information model, and is used for fusing geometric Information and non-geometric Information of a Building structure in a three-dimensional digital model for the application of the whole life cycle of a Building.

In the assembly type building project management, the management and control are mainly carried out by manual or local electronic means, and the multi-party information related to the project is not smoothly exchanged, so that the following problems exist:

(1) progress plan sharing is imperfect. The method mainly comprises the steps of compiling under a line, wherein with the progress of a project, a progress plan file with multiple versions exists, the contents of plans of all the versions are incomplete, cannot be run through all the time, and are troublesome and untimely to share;

(2) the pickup plan is ambiguous. The component delivery plan compiled according to the overall schedule of the project is not detailed to components when the project is started, and time nodes are only given according to general construction positions.

(3) The progress data is not fed back in time. Generally, a hand-drawn image progress chart is adopted, so that the situation that updating is not timely and is asynchronous with the actual progress of a field is avoided.

(4) Data statistics are difficult. Usually, a hand-drawn image progress chart is adopted, automatic statistics and analysis of the yield completion rate cannot be carried out, and service data cannot be refined.

(5) And (5) controlling after the fact. The actual field progress can be reflected to the superior level mainly through weekly reports, monthly reports and cases, and the hoisting plan, the pickup plan and the like cannot be pre-warned directly.

In order to solve the above problems, the applicant has conducted a special study on the system and provides an intelligent interactive plan management system based on the BIM technology, and the system and the method are accordingly developed.

Disclosure of Invention

In order to solve the problems of incomplete management of an assembly type building project plan, untimely feedback of progress data, difficult management of a multi-version progress plan and the like in the prior art, the invention provides a full-life-cycle intelligent interactive plan management system based on a BIM technology, and the automation degree of a series of actions such as data sharing, acquisition and analysis is improved.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

a full life cycle intelligent interactive plan management system based on BIM technique comprises

The information input equipment is used for inputting the related data and the assembled building model into the system;

a data processing apparatus comprising

The full-life-cycle plan management and control module is used for compiling and generating a full-life-cycle plan of the assembly type building project;

the system comprises a component, plan and building model association module, a building model association module and a building model association module, wherein the component, plan and building model association module is used for establishing association between each component and the plan of each stage and the assembly building model in the system and endowing each component of the assembly project with a unique identification code;

the project schedule execution feedback module is used for automatically generating the actual execution condition of the schedule according to the feedback of the label scanning equipment;

the project progress comparison and analysis module is used for comparing and analyzing whether the project progress is advanced or delayed according to the fed back plan actual execution condition;

the multi-version construction plan and model management module is used for replacing the content and keeping the historical version of the content when the building design is changed or a new version progress plan is created;

the label generating device is used for generating the unique identification code into an entity label;

a data storage device for storing various data as a database;

a tag scanning device for scanning an entity tag;

furthermore, the fabricated building model is established through modeling software and then is recorded.

Further, the full life cycle plan includes a design plan, a procurement plan, a production plan, a lifting plan, and a pickup plan.

Further, the plans of all phases of the full life cycle plan are correlated; and automatically generating an important goods plan within a specified time range according to the hoisting plan, automatically generating a production plan according to the important goods plan, and automatically generating a purchasing plan according to the production plan by combining material inventory data.

Further, the multi-version construction plan and model management module feeds back a building component or a plan range influenced by a change by performing matching calculation on data carried by the IFC file or the new plan and data of historical versions stored in the document type database.

Further, the data storage device includes a central application server, a graphics engine server, and a database server.

Further, the label scanning device comprises a factory scanning terminal and a field scanning terminal; the factory scanning terminal collects the warehouse-out information of the component, and the field scanning terminal collects the receiving and hoisting information of the component.

Further, the information content of the pickup plan includes a component number, and an arrival time.

Further, in the project progress comparison analysis module, the project delay days are automatically calculated by using a CPM key path method.

Further, in the component, plan and building model association module, the system will distinguish the component status by different colors when the component status is updated.

The invention has the beneficial technical effects that:

compared with the prior art, the system provided by the invention has the following advantages:

the intelligent interactive plan management system can realize the management of the building full life cycle plan, and the plan and the model are mutually associated based on the BIM model, and simultaneously each component of the assembly type project is given a unique identity, and the entity and the data are compared and unified by utilizing the label acquisition technology, so that the combination of online and offline is really realized, the system can obtain feedback according to the business action of the manager, the actual execution condition of the plan is automatically generated, and the system participates in the plan analysis. Therefore, timely feedback of actual execution of project progress can be achieved, and the method has the advantages of clear pickup plans, simpler data statistics, more perfect progress plan sharing and the like.

Compared with the similar technology, the method has the advantages of rigorous plan calculation algorithm, completion condition presenting means taking the BIM as a medium, matching logic considering multi-version replacement and acquisition means for collecting information through a conventional service path. The comprehensive level of project management is improved, and meanwhile, the management burden is prevented from being increased.

Drawings

FIG. 1 is a configuration diagram of the present embodiment;

fig. 2 is a flowchart of the present embodiment.

Detailed Description

In order to make the technical means and technical effects achieved by the technical means of the present invention more clearly and more perfectly disclosed, the following embodiments are provided, and the following detailed description is made with reference to the accompanying drawings:

as shown in FIG. 1, the full-life-cycle intelligent interactive plan management system based on BIM technology of the present embodiment includes

The information input equipment is used for inputting the related data and the assembled building model into the system; the assembly type building model is established through modeling software and then is input;

a data processing apparatus comprising

The full-life-cycle plan management and control module is used for compiling and generating a full-life-cycle plan of the assembly type building project; the plan of the full life cycle comprises a design plan, a purchasing plan, a production plan, a hoisting plan and a pickup plan; the plans of all stages of the full life cycle plan are correlated; and automatically generating an important goods plan within a specified time range according to the hoisting plan, automatically generating a production plan according to the important goods plan, and automatically generating a purchasing plan according to the production plan by combining material inventory data.

A component, plan and building model association module, configured to associate each component, the plan of each stage with an assembly building model in the system, and assign each component of the assembly project with a unique identification code (in this embodiment, a two-dimensional code is used); when the component status is updated, the system will distinguish the component status by different colors;

the project schedule execution feedback module is used for automatically generating the actual execution condition of the schedule according to the feedback of the label scanning equipment;

the project progress comparison and analysis module is used for comparing and analyzing whether the project progress is advanced or delayed according to the fed back actual plan execution condition, and automatically calculating the project delay days by using a CPM (continuous processing method) key path method;

the multi-version construction plan and model management module is used for a plan and model automatic integration algorithm under the condition, when the building design is changed or a new version progress plan is created, matching calculation is carried out on data carried by an IFC file or the new plan and data of a historical version stored in a document type database (MongoDB), a building component or a plan range influenced by change is fed back, and the historical version is reserved while the content is changed;

the label generating device is used for generating the unique identification code into an entity label; this embodiment adopts two-dimensional code printer.

And the data storage device is used for storing various data as a database, and comprises a central application server, a graphic engine server and a database server. The central application server is used for running a client-oriented application layer program; the graphic engine server is used for operating a three-dimensional model rendering engine; the database server is used for operating the database server to store and call various data once. Wherein the database server comprises the document type database and a relational database for storing different types of data.

The intelligent early warning module comprises an important goods early warning, a delivery delay early warning, a milestone early warning and a total progress plan early warning and is used for sending early warning information to data storage equipment (a central application server);

a tag scanning device for scanning an entity tag; the system comprises a factory scanning terminal and a field scanning terminal, wherein the factory scanning terminal acquires the warehouse-out information of the component, and the field scanning terminal acquires the receiving and hoisting information of the component. This embodiment employs a PDA gun sweep.

And the user data terminal and the mobile terminal equipment are used for receiving and checking information of the data storage equipment, such as early warning information.

The invention considers the situation that a progress plan is changed more or less in the actual development process, and the system records plan information of some important versions in the process so as to compare the current progress execution situation with the target plan in progress, or perform induction summary and reference comparison afterwards. When a database table structure is designed, a scene of storing multi-version progress plans and a function of simultaneously displaying two version progress plans are considered, and the function is also the basis for realizing a plan-model interaction management technology. Under the principle of 'one object and one code', a unique identification number for identifying each assembled component exists in the form of a character string, a collection means is provided in the form of a two-dimensional code, and when a plan is associated with a model through the unique code, the code scanning action of each manager is synchronously fed back to a system in the form of the completion percentage of the model state and the plan progress.

FIG. 2 is a flowchart of the full lifecycle intelligent interactive plan management system based on BIM technology according to the present embodiment; in this embodiment, taking "automatically generating a pickup plan within a specified time range according to a hoisting plan" as an example, an execution flow is specifically described:

the first step is as follows: establishing an assembled building model in modeling software;

the second step is that: uploading and publishing the model to the system;

the third step: a hoisting schedule is worked out on line;

the fourth step: associating the hoisting progress plan with the model;

the fifth step: creating and issuing a pickup plan; the information content of the requisition plan comprises a component number, a component number and arrival time;

and a sixth step: printing a two-dimensional code and pasting the two-dimensional code on a component;

the seventh step: scanning two-dimensional code acquisition component warehouse-out information by using APP (PDA gun scanning) in a factory;

eighth step: the APP (PDA (scanning gun) is used for scanning the two-dimensional code on the project site to acquire the receiving and hoisting information of the component;

the ninth step: reviewing a progress plan (viewing a front line, a critical path and the like);

the tenth step: and comparing the multi-version schedule on line.

Compared with the similar technology, the embodiment has a rigorous plan calculation algorithm, a completion condition presenting means taking the BIM as a medium, a matching logic considering multi-version replacement and an acquisition means for collecting information through a conventional service path. The comprehensive level of project management is improved, and meanwhile, the management burden is prevented from being increased.

Compared with the prior art, the system provided by the invention has the following advantages:

(1) a BIM model engine is mounted, the project three-dimensional component is displayed in a light weight mode, and when the component state is updated, the system distinguishes the component state through different colors.

(2) After the hoisting plan is associated with the model, when the model is changed or a new version hoisting plan is created, the system can automatically match according to the historical information without repeated association.

(3) The system automatically generates a detailed delivery plan in a designated time range according to the progress task, and the detailed delivery plan comprises information such as component numbers, arrival time and the like.

(4) The system automatically generates a component list and a two-dimensional code corresponding to each component according to the model, and manages the identity of the components through two-dimensional code labels.

(5) The system can automatically record the process state of the component by simply scanning the code by a PDA (personal digital assistant) gun by a receiver and a lifting worker on the project site.

(6) The system automatically compares and analyzes whether the project progress is advanced or lagged, and the project delay days are automatically calculated by using a CPM (continuous processing method) key path method.

(7) And the intelligent early warning function comprises an important goods early warning, a delivery delay early warning, a milestone early warning, a total progress plan early warning and the like.

(8) The invention manages the whole life cycle plan of the building project, including design plan, purchase plan, production plan, hoisting plan and requisition plan. Therefore, multi-level decomposition is realized, and multi-level plan cooperative management is realized through the authority distribution of each work package in the WBS. Wherein creating a WBS is a process that breaks down project work into smaller, more manageable components per phase deliverable effort.

The above description is provided for the purpose of further elaboration of the technical solutions provided in connection with the preferred embodiments of the present invention, and it should not be understood that the embodiments of the present invention are limited to the above description, and it should be understood that various simple deductions or substitutions can be made by those skilled in the art without departing from the spirit of the present invention, and all such alternatives are included in the scope of the present invention.

Claims (10)

1. A full life cycle intelligent interactive plan management system based on BIM technology is characterized by comprising

The information input equipment is used for inputting the related data and the assembled building model into the system;

a data processing apparatus comprising

The full-life-cycle plan management and control module is used for compiling and generating a full-life-cycle plan of the assembly type building project;

the system comprises a component, plan and building model association module, a building model association module and a building model association module, wherein the component, plan and building model association module is used for establishing association between each component and the plan of each stage and the assembly building model in the system and endowing each component of the assembly project with a unique identification code;

the project schedule execution feedback module is used for automatically generating the actual execution condition of the schedule according to the feedback of the label scanning equipment;

the project progress comparison and analysis module is used for comparing and analyzing whether the project progress is advanced or delayed according to the fed back plan actual execution condition;

the multi-version construction plan and model management module is used for replacing the content and keeping the historical version of the content when the building design is changed or a new version progress plan is created;

the label generating device is used for generating the unique identification code into an entity label;

a data storage device for storing various data as a database;

a label scanning device for scanning an entity label.

2. The BIM technology based full lifecycle intelligent interactive plan management system as defined in claim 1, wherein: and the assembly type building model is established through modeling software and then is input.

3. The BIM technology based full lifecycle intelligent interactive plan management system as defined in claim 1, wherein: the full life cycle plan includes a design plan, a procurement plan, a production plan, a lifting plan, and a pickup plan.

4. The BIM technology based full lifecycle intelligent interactive plan management system as defined in claim 3, wherein: the plans of all stages of the full life cycle plan are correlated; and automatically generating an important goods plan within a specified time range according to the hoisting plan, automatically generating a production plan according to the important goods plan, and automatically generating a purchasing plan according to the production plan by combining material inventory data.

5. The BIM technology based full lifecycle intelligent interactive plan management system as defined in claim 1, wherein: and the multi-version construction plan and model management module feeds back a building component or a plan range influenced by one change by performing matching calculation on data carried by the IFC file or the new plan and data of historical versions stored in a document type database.

6. The BIM technology based full lifecycle intelligent interactive plan management system as defined in claim 1, wherein: the data storage device includes a central application server, a graphics engine server, and a database server.

7. The BIM technology based full lifecycle intelligent interactive plan management system as defined in claim 1, wherein: the label scanning device comprises a factory scanning terminal and a field scanning terminal; the factory scanning terminal collects the warehouse-out information of the component, and the field scanning terminal collects the receiving and hoisting information of the component.

8. The BIM technology based full lifecycle intelligent interactive plan management system as defined in claim 4, wherein: the information content of the delivery plan includes a component number, and an arrival time.

9. The BIM technology based full lifecycle intelligent interactive plan management system as defined in claim 1, wherein: and in the project progress comparison analysis module, the project delay days are automatically calculated by utilizing a CPM (continuous processing method) key path method.

10. The BIM technology based full lifecycle intelligent interactive plan management system as defined in claim 1, wherein: in the component, plan and building model association module, the system will distinguish component states by different colors as the component states are updated.

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