CN113741361A - Prefabricated part asset full-life-cycle management system, method, storage medium and equipment based on building information model technology - Google Patents

Abstract

The invention provides a prefabricated part asset full-life cycle management system, a method, a storage medium and equipment based on a building information model technology. The system comprises: the system comprises a basic management module, a production management module, a transportation positioning module, an assembling management module, an acceptance management module, a delivery management module and an operation and maintenance management module; the assembly management module, the acceptance management module and the operation and maintenance management module all comprise mobile terminal equipment, and the operation and maintenance management module comprises a monitoring terminal in an operation and maintenance period. The invention is mainly applied to engineering components which are prefabricated and processed in the engineering field, comprises various common prefabricated building units such as prefabricated beams, prefabricated plates, prefabricated columns and prefabricated walls, and also comprises various devices, is convenient for a project to reform the difficulty in managing the transportation, stacking, hoisting, operation and maintenance periods and the like of the components in the fabricated building, improves the project quality through fine management, and ensures the project to be delivered according to the schedule.

Description

Prefabricated part asset full-life-cycle management system, method, storage medium and equipment based on building information model technology

Technical Field

The invention belongs to the technical field of fabricated buildings, and particularly relates to a prefabricated member asset full-life cycle management system, method, storage medium and equipment based on a building information model technology.

Background

Assembly type building: with the development of modern industrial technology, the building can be built like machine production, and the assembled type building slowly moves into the building due to times.

Building Information model (Building Information Modeling): the building model is established on the basis of taking various relevant information data of the construction engineering project as a model, and the real information of the building is simulated through digital information. The method has eight characteristics of information completeness, information relevance, information consistency, visualization, coordination, simulation, optimization and graphing.

Disclosure of Invention

The first purpose of the present invention is to provide a prefabricated asset life-cycle management system based on building information model technology, which is aimed at the disadvantages existing in the prior art.

Therefore, the above purpose of the invention is realized by the following technical scheme:

a prefab asset full life cycle management system based on building information model technology is characterized in that: the prefabricated member asset full-life-cycle management system based on the building information model technology comprises:

the basic management module comprises a data input sub-module, a parameter configuration sub-module, a process configuration sub-module and a data mapping sub-module; the data input submodule is used for importing raw material data and a total building information model into a prefabricated member asset full life cycle management system based on a building information model technology by one key, and simultaneously, the parameter configuration submodule, the process configuration submodule and the data mapping submodule are adopted to self-define the full life cycle of the prefabricated member according to the category, so that a full life cycle process template of each type of prefabricated member is formed, and the full life cycle process of the prefabricated member is realized; the process configuration submodule is used for carrying out visual process design and parameter design, and the process nodes, the parameter design and the data mapping relation all support quick combination and split, so that the complete free configuration of the whole life cycle process of the prefabricated part is realized;

the production management module comprises a production acquisition terminal; the production management module is used for carrying out data acquisition and transmission in the prefabrication production process, forming a production data source according to a production batch, and comprises: before the prefabricated member leaves a factory, combining the template type and the production data source of the prefabricated member in a system according to a factory batch to generate a unique two-dimensional code, and physically associating the generated two-dimensional code with the corresponding prefabricated member on line to realize unique tracking of the prefabricated member;

the transportation positioning module comprises a GPS positioning terminal; the transportation positioning module is used for tracking the transportation process of the prefabricated parts and acquiring paths, and the acquired paths are used as one of the full-life-cycle digital assets of the corresponding batches of the prefabricated parts;

the assembly management module is used for acquiring and transmitting data in the assembly process of the prefabricated parts, scanning two-dimensional codes by adopting mobile equipment in the assembly process to open a full-life process form for data input, meanwhile, electronizing offline materials formed in the assembly process to be stored, reading electronic materials into the corresponding full-life process of the prefabricated parts to serve as one of full-life-cycle digital assets, reading a total building information model by adopting the assembly management module after the assembly of the prefabricated parts is finished, retrieving the actual assembly position of the prefabricated parts from the model, associating the full-life-cycle process of the prefabricated parts with model components, and injecting space data into the full-life-cycle digital assets;

the checking and accepting management module is used for performing offline engineering visual checking and accepting based on the overall building information model, inputting checking and accepting results into a prefabricated part asset full-life-cycle management system based on the building information model technology in batches according to checking and accepting batches and in a mode of retrieving and selecting building information model members through mobile equipment, meanwhile, electronizing offline materials formed in the checking and accepting process and then reporting, and reading the electronic materials into a corresponding prefabricated part full-life flow to serve as one of full-life-cycle digital assets;

the delivery management module is used for carrying out construction completion visual delivery based on the overall building information model, delivering the overall system, all prefabricated member full-life cycle processes and the overall building information model to an operation and maintenance unit, and inputting delivery data into a prefabricated member asset full-life cycle management system based on the building information model technology in batches through the delivery management module to serve as one of full-life cycle digital assets;

and

the operation and maintenance management module is used for accessing monitoring data and visually retrieving and maintaining resources in the operation and maintenance process, automatically acquiring and transmitting the operation and maintenance period monitoring data based on the monitoring terminal, and injecting the operation and maintenance period monitoring data into the system to serve as one of full-life-cycle digital assets of the prefabricated member;

the assembly management module, the acceptance management module and the operation and maintenance management module all comprise mobile terminal equipment, and the operation and maintenance management module comprises a monitoring terminal in an operation and maintenance period.

While adopting the technical scheme, the invention can also adopt or combine the following technical scheme:

as a preferred technical scheme of the invention: the data acquisition mode in the production management module comprises a manual acquisition mode and an automatic instrument acquisition mode, and the manual acquisition mode supports direct input in a production field based on mobile equipment and supports one-key uploading to a system after offline acquisition.

As a preferred technical scheme of the invention: the visual resource retrieval and maintenance in the operation and maintenance management module is to visually inspect on site through a visual mobile terminal and based on a general building information model, and historical data of inspection of hidden danger parts can be retrieved for checking; the corresponding full-life-cycle digital assets can be retrieved and called for tracing for the prefabricated member needing to be maintained, and powerful data support is provided for maintenance work.

The second objective of the present invention is to provide a prefabricated asset life-cycle management system based on the building information model technology, aiming at the defects existing in the prior art.

Therefore, the above purpose of the invention is realized by the following technical scheme:

a prefabricated member asset full life cycle management method based on a building information model technology is characterized by comprising the following steps: the prefabricated member asset full-life-cycle management method based on the building information model technology comprises the following steps:

s1, initializing basic data and self-defining a full life cycle process, self-defining the full life cycle of the prefabricated member according to the type, forming a full life cycle process template of each type of prefabricated member, and realizing the full life cycle process of the prefabricated member; visual process design and parameter design are carried out, the process nodes, the parameter design and the data mapping relation all support rapid combination and splitting, and the complete free configuration of the whole life cycle process of the prefabricated part is realized;

s2, performing data acquisition and delivery management in the prefabrication and production process, and forming a production data source according to a production batch, wherein the data acquisition and delivery management comprises the following steps: before the prefabricated member leaves a factory, combining the template type and the production data source of the prefabricated member in a system according to a factory batch to generate a unique two-dimensional code, and physically associating the generated two-dimensional code with the corresponding prefabricated member on line to realize unique tracking of the prefabricated member;

s3, full-automatic tracking and path acquisition in the prefabricated part transportation process, wherein the acquired path is used as one of full-life-cycle digital assets of the prefabricated parts in the corresponding batch;

s4, acquiring assembly data and unloading related materials, scanning a two-dimensional code by adopting mobile equipment in the assembly process to open a full-life process form for data input, meanwhile, electronizing offline materials formed in the assembly process to store the offline materials, reading electronic materials into the corresponding whole-life process of the prefabricated member to be used as one of full-life cycle digital assets, reading a total building information model after the prefabricated member is assembled, retrieving the actual assembly position of the prefabricated member from the model, associating the whole-life cycle process of the prefabricated member with a model component, and injecting space data for the whole-life cycle digital assets;

s5, tracking and submitting the acceptance data and related materials, performing offline engineering visual acceptance based on the overall building information model, inputting the acceptance results into a prefabricated part asset full-life-cycle management system based on the building information model technology in batches according to the acceptance batches and in a mode of retrieving and selecting building information model members through mobile equipment, submitting the offline materials formed in the acceptance process after electronization, and reading the electronic materials into the corresponding prefabricated part full-life flow to serve as one of full-life-cycle digital assets;

s6, acquiring and managing completion delivery data, visually delivering construction completion based on the overall building information model, delivering the overall system, all prefabricated member full-life-cycle processes and the overall building information model to an operation and maintenance unit, and inputting the delivery data into a prefabricated member asset full-life-cycle management system based on the building information model technology in batches to serve as one of full-life-cycle digital assets; and

s7, acquiring monitoring data and visually retrieving and maintaining resources in the operation and maintenance process, accessing the monitoring data and visually retrieving and maintaining the resources in the operation and maintenance process, automatically acquiring and transmitting the monitoring data in the operation and maintenance period based on the monitoring terminal, and injecting the monitoring data in the operation and maintenance period into a system to serve as one of the full-life-cycle digital assets of the prefabricated member.

While adopting the technical scheme, the invention can also adopt or combine the following technical scheme:

as a preferred technical scheme of the invention: in step S2, the data collection mode includes two modes, namely manual collection and automatic collection, and the manual collection mode supports both direct input in the production field based on the mobile device and one-key uploading to the system after offline collection.

As a preferred technical scheme of the invention: in the step S7, the visual resource retrieval and maintenance is to visually inspect the site through the visual mobile terminal and based on the general building information model, and the inspection of the hidden danger part can retrieve the historical data for checking; the corresponding full-life-cycle digital assets can be retrieved and called for tracing for the prefabricated member needing to be maintained, and powerful data support is provided for maintenance work.

A third object of the present invention is to provide a storage medium for overcoming the disadvantages of the prior art.

Therefore, the above purpose of the invention is realized by the following technical scheme:

a storage medium, characterized by: the storage medium has stored thereon a computer program that is executed by a processor to implement the method for full lifecycle management of pre-fabricated assets based on building information modeling techniques as described above.

It is a further object of the present invention to provide an apparatus that addresses the deficiencies in the prior art.

Therefore, the above purpose of the invention is realized by the following technical scheme:

an apparatus, characterized in that the apparatus comprises:

a memory for storing a computer program;

a processor for executing a computer program;

and a computer program executed by a processor to implement the method for full lifecycle management of pre-fabricated assets based on building information modeling techniques as described above.

The invention provides a prefabricated member asset full life cycle management system, a method, a storage medium and equipment based on a building information model technology, which are mainly applied to engineering members which are prefabricated and processed in the engineering field, wherein the engineering members comprise various common prefabricated building units such as prefabricated beams, prefabricated plates, prefabricated columns and prefabricated walls, and various equipment, so that items are convenient to reform the difficulty in managing the difficult-to-collect data of transportation, stacking, hoisting, operation and maintenance periods and the like of the members in an assembly type building, the quality of the items is improved through refined management, and the delivery of the project engineering according to the period is ensured.

Drawings

Fig. 1 is a flow chart of a method for managing the whole life cycle of the prefabricated member assets based on the building information model technology provided by the invention.

Detailed Description

The invention is described in further detail with reference to the figures and specific embodiments.

A system for full lifecycle management of pre-fabricated assets based on building information modeling techniques, comprising:

the basic management module comprises a data input sub-module, a parameter configuration sub-module, a process configuration sub-module and a data mapping sub-module; the data input submodule is used for importing raw material data and the overall building information model into a prefabricated member asset full life cycle management system based on a building information model technology in a one-key mode, and meanwhile, the parameter configuration submodule, the process configuration submodule and the data mapping submodule are adopted for customizing the full life cycle of the prefabricated member according to the type, so that a full life cycle process template of each type of prefabricated member is formed, and the full life cycle process of the prefabricated member is realized; the flow configuration submodule is used for carrying out visual flow design and parameter design, flow nodes, parameter design and data mapping relations support rapid combination and split, and complete free configuration of the whole life cycle flow of the prefabricated part is realized;

the production management module comprises a production acquisition terminal; the production management module is used for carrying out data acquisition and transmission in the prefabrication production process, forming a production data source according to a production batch, and comprises: before the prefabricated member leaves a factory, combining the template type and the production data source of the prefabricated member in a system according to a factory batch to generate a unique two-dimensional code, and physically associating the generated two-dimensional code with the corresponding prefabricated member on line to realize unique tracking of the prefabricated member;

the data acquisition mode in the production management module comprises a manual acquisition mode and an automatic instrument acquisition mode, wherein the manual acquisition mode supports direct input in a production field based on mobile equipment and supports one-key uploading after offline acquisition to a system;

the transportation positioning module comprises a GPS positioning terminal; the transportation positioning module is used for tracking the transportation process of the prefabricated parts and acquiring paths, and the acquired paths are used as one of the full-life-cycle digital assets of the prefabricated parts in the corresponding batches;

the assembly management module is used for acquiring and transmitting data in the assembly process of the prefabricated parts, scanning two-dimensional codes by adopting mobile equipment in the assembly process to open a full-life process form for data input, meanwhile, electronizing offline materials formed in the assembly process to be stored, reading electronic materials into the corresponding full-life process of the prefabricated parts to serve as one of full-life-cycle digital assets, reading a total building information model by adopting the assembly management module after the assembly of the prefabricated parts is finished, retrieving the actual assembly positions of the prefabricated parts from the model, associating the full-life-cycle process of the prefabricated parts with model components, and injecting space data into the full-life-cycle digital assets;

the checking and accepting management module is used for visually checking and accepting the off-line engineering based on the overall building information model, inputting checking and accepting results into a prefabricated part asset full-life-cycle management system based on the building information model technology in batches according to checking and accepting batches and in a mode of retrieving and selecting building information model members through mobile equipment, and meanwhile, electronizing off-line materials formed in the checking and accepting process and then reporting the off-line materials, and reading the electronic materials into the corresponding prefabricated part full-life flow to serve as one of full-life-cycle digital assets;

the delivery management module is used for visually delivering the completion of the project based on the overall building information model, delivering the whole system, all the whole life cycle processes of the prefabricated parts and the overall building information model to an operation and maintenance unit, and inputting delivery data into a prefabricated part asset whole life cycle management system based on the building information model technology in batches through the delivery management module to serve as one of whole life cycle digital assets;

and

the operation and maintenance management module is used for accessing monitoring data and visually retrieving and maintaining resources in the operation and maintenance process, automatically acquiring and transmitting the operation and maintenance period monitoring data based on the monitoring terminal, and injecting the operation and maintenance period monitoring data into the system to serve as one of full-life-cycle digital assets of the prefabricated member;

the visual resource retrieval and maintenance in the operation and maintenance management module is to carry out visual inspection on the site through a visual mobile terminal and based on a general building information model, and historical data of potential hazard parts can be retrieved for checking for inspection; the corresponding full-life-cycle digital assets can be retrieved and called for tracing for the prefabricated parts needing to be maintained, and powerful data support is provided for maintenance work;

the assembly management module, the acceptance management module and the operation and maintenance management module all comprise mobile terminal equipment, and the operation and maintenance management module comprises a monitoring terminal in an operation and maintenance period.

A prefabricated member asset life cycle management method based on a building information model technology comprises the following steps:

s1, initializing basic data and self-defining a full life cycle process, self-defining the full life cycle of the prefabricated member according to the type, forming a full life cycle process template of each type of prefabricated member, and realizing the full life cycle process of the prefabricated member; visual process design and parameter design are carried out, the process nodes, the parameter design and the data mapping relation all support rapid combination and splitting, and the complete free configuration of the whole life cycle process of the prefabricated part is realized;

s2, performing data acquisition and delivery management in the prefabrication and production process, and forming a production data source according to a production batch, wherein the data acquisition and delivery management comprises the following steps: before the prefabricated member leaves a factory, combining the template type and the production data source of the prefabricated member in a system according to a factory batch to generate a unique two-dimensional code, and physically associating the generated two-dimensional code with the corresponding prefabricated member on line to realize unique tracking of the prefabricated member;

in the step S2, the data acquisition mode includes two modes, namely manual acquisition and automatic instrument acquisition, and the manual acquisition mode supports both direct input in the production field based on the mobile device and one-key uploading after offline acquisition to the system;

s3, full-automatic tracking and path acquisition in the prefabricated part transportation process, wherein the acquired path is used as one of full-life-cycle digital assets of the prefabricated parts in the corresponding batch;

s4, acquiring assembly data and unloading related materials, scanning a two-dimensional code by adopting mobile equipment in the assembly process to open a full-life process form for data input, meanwhile, electronizing offline materials formed in the assembly process to store the offline materials, reading electronic materials into the corresponding whole-life process of the prefabricated member to be used as one of full-life cycle digital assets, reading a total building information model after the prefabricated member is assembled, retrieving the actual assembly position of the prefabricated member from the model, associating the whole-life cycle process of the prefabricated member with a model component, and injecting space data for the whole-life cycle digital assets;

s5, tracking and submitting the acceptance data and related materials, performing offline engineering visual acceptance based on the overall building information model, inputting the acceptance results into a prefabricated part asset full-life-cycle management system based on the building information model technology in batches according to the acceptance batches and in a mode of retrieving and selecting building information model members through mobile equipment, submitting the offline materials formed in the acceptance process after electronization, and reading the electronic materials into the corresponding prefabricated part full-life flow to serve as one of full-life-cycle digital assets;

s6, acquiring and managing completion delivery data, visually delivering construction completion based on the overall building information model, delivering the overall system, all prefabricated member full-life-cycle processes and the overall building information model to an operation and maintenance unit, and inputting the delivery data into a prefabricated member asset full-life-cycle management system based on the building information model technology in batches to serve as one of full-life-cycle digital assets; and

s7, acquiring monitoring data and visually retrieving and maintaining resources in the operation and maintenance process, accessing the monitoring data and visually retrieving and maintaining the resources in the operation and maintenance process, automatically acquiring and transmitting the monitoring data in the operation and maintenance period based on the monitoring terminal, and injecting the monitoring data in the operation and maintenance period into a system to be used as one of full-life-cycle digital assets of prefabricated parts;

in the step S7, the visual resource retrieval and maintenance is to visually inspect the site through the visual mobile terminal and based on the general building information model, and the inspection of the hidden danger part can retrieve the historical data for checking; the corresponding full-life-cycle digital assets can be retrieved and called for tracing for the prefabricated member needing to be maintained, and powerful data support is provided for maintenance work.

A storage medium having stored thereon a computer program for execution by a processor to implement the foregoing method for full lifecycle management of pre-fabricated assets based on building information modeling techniques.

An apparatus, comprising:

a memory for storing a computer program;

a processor for executing a computer program;

and a computer program executed by the processor to implement the foregoing method for full lifecycle management of pre-fabricated assets based on building information modeling techniques.

The invention provides a prefabricated member asset full life cycle management system, a method, a storage medium and equipment based on a building information model technology, which are mainly applied to engineering members which are prefabricated and processed in the engineering field, wherein the engineering members comprise various common prefabricated building units such as prefabricated beams, prefabricated plates, prefabricated columns and prefabricated walls, and various equipment, so that items are convenient to reform the difficulty in managing the difficult-to-collect data of transportation, stacking, hoisting, operation and maintenance periods and the like of the members in an assembly type building, the quality of the items is improved through refined management, and the delivery of the project engineering according to the period is ensured.

The above-described embodiments are intended to illustrate the present invention, but not to limit the present invention, and any modifications, equivalents, improvements, etc. made within the spirit of the present invention and the scope of the claims fall within the scope of the present invention.

Claims (8)

1. A prefab asset full life cycle management system based on building information model technology is characterized in that: the prefabricated member asset full-life-cycle management system based on the building information model technology comprises:

the basic management module comprises a data input sub-module, a parameter configuration sub-module, a process configuration sub-module and a data mapping sub-module; the data input submodule is used for importing raw material data and a total building information model into a prefabricated member asset full life cycle management system based on a building information model technology by one key, and simultaneously, the parameter configuration submodule, the process configuration submodule and the data mapping submodule are adopted to self-define the full life cycle of the prefabricated member according to the category, so that a full life cycle process template of each type of prefabricated member is formed, and the full life cycle process of the prefabricated member is realized; the process configuration submodule is used for carrying out visual process design and parameter design, and the process nodes, the parameter design and the data mapping relation all support quick combination and split, so that the complete free configuration of the whole life cycle process of the prefabricated part is realized;

the production management module comprises a production acquisition terminal; the production management module is used for carrying out data acquisition and transmission in the prefabrication production process, forming a production data source according to a production batch, and comprises: before the prefabricated member leaves a factory, combining the template type and the production data source of the prefabricated member in a system according to a factory batch to generate a unique two-dimensional code, and physically associating the generated two-dimensional code with the corresponding prefabricated member on line to realize unique tracking of the prefabricated member;

the transportation positioning module comprises a GPS positioning terminal; the transportation positioning module is used for tracking the transportation process of the prefabricated parts and acquiring paths, and the acquired paths are used as one of the full-life-cycle digital assets of the corresponding batches of the prefabricated parts;

the assembly management module is used for acquiring and transmitting data in the assembly process of the prefabricated parts, scanning two-dimensional codes by adopting mobile equipment in the assembly process to open a full-life process form for data input, meanwhile, electronizing offline materials formed in the assembly process to be stored, reading electronic materials into the corresponding full-life process of the prefabricated parts to serve as one of full-life-cycle digital assets, reading a total building information model by adopting the assembly management module after the assembly of the prefabricated parts is finished, retrieving the actual assembly position of the prefabricated parts from the model, associating the full-life-cycle process of the prefabricated parts with model components, and injecting space data into the full-life-cycle digital assets;

the checking and accepting management module is used for performing offline engineering visual checking and accepting based on the overall building information model, inputting checking and accepting results into a prefabricated part asset full-life-cycle management system based on the building information model technology in batches according to checking and accepting batches and in a mode of retrieving and selecting building information model members through mobile equipment, meanwhile, electronizing offline materials formed in the checking and accepting process and then reporting, and reading the electronic materials into a corresponding prefabricated part full-life flow to serve as one of full-life-cycle digital assets;

the delivery management module is used for carrying out construction completion visual delivery based on the overall building information model, delivering the overall system, all prefabricated member full-life cycle processes and the overall building information model to an operation and maintenance unit, and inputting delivery data into a prefabricated member asset full-life cycle management system based on the building information model technology in batches through the delivery management module to serve as one of full-life cycle digital assets;

and

the operation and maintenance management module is used for accessing monitoring data and visually retrieving and maintaining resources in the operation and maintenance process, automatically acquiring and transmitting the operation and maintenance period monitoring data based on the monitoring terminal, and injecting the operation and maintenance period monitoring data into the system to serve as one of full-life-cycle digital assets of the prefabricated member;

the assembly management module, the acceptance management module and the operation and maintenance management module all comprise mobile terminal equipment, and the operation and maintenance management module comprises a monitoring terminal in an operation and maintenance period.

2. The system of claim 1, wherein the system comprises: the data acquisition mode in the production management module comprises a manual acquisition mode and an automatic instrument acquisition mode, and the manual acquisition mode supports direct input in a production field based on mobile equipment and supports one-key uploading to a system after offline acquisition.

3. The system of claim 1, wherein the system comprises: the visual resource retrieval and maintenance in the operation and maintenance management module is to visually inspect on site through a visual mobile terminal and based on a general building information model, and historical data of inspection of hidden danger parts can be retrieved for checking; the corresponding full-life-cycle digital assets can be retrieved and called for tracing for the prefabricated member needing to be maintained, and powerful data support is provided for maintenance work.

4. A prefabricated member asset full life cycle management method based on a building information model technology is characterized by comprising the following steps: the prefabricated member asset full-life-cycle management method based on the building information model technology comprises the following steps:

s1, initializing basic data and self-defining a full life cycle process, self-defining the full life cycle of the prefabricated member according to the type, forming a full life cycle process template of each type of prefabricated member, and realizing the full life cycle process of the prefabricated member; visual process design and parameter design are carried out, the process nodes, the parameter design and the data mapping relation all support rapid combination and splitting, and the complete free configuration of the whole life cycle process of the prefabricated part is realized;

s2, performing data acquisition and delivery management in the prefabrication and production process, and forming a production data source according to a production batch, wherein the data acquisition and delivery management comprises the following steps: before the prefabricated member leaves a factory, combining the template type and the production data source of the prefabricated member in a system according to a factory batch to generate a unique two-dimensional code, and physically associating the generated two-dimensional code with the corresponding prefabricated member on line to realize unique tracking of the prefabricated member;

s3, full-automatic tracking and path acquisition in the prefabricated part transportation process, wherein the acquired path is used as one of full-life-cycle digital assets of the prefabricated parts in the corresponding batch;

s4, acquiring assembly data and unloading related materials, scanning a two-dimensional code by adopting mobile equipment in the assembly process to open a full-life process form for data input, meanwhile, electronizing offline materials formed in the assembly process to store the offline materials, reading electronic materials into the corresponding whole-life process of the prefabricated member to be used as one of full-life cycle digital assets, reading a total building information model after the prefabricated member is assembled, retrieving the actual assembly position of the prefabricated member from the model, associating the whole-life cycle process of the prefabricated member with a model component, and injecting space data for the whole-life cycle digital assets;

s5, tracking and submitting the acceptance data and related materials, performing offline engineering visual acceptance based on the overall building information model, inputting the acceptance results into a prefabricated part asset full-life-cycle management system based on the building information model technology in batches according to the acceptance batches and in a mode of retrieving and selecting building information model members through mobile equipment, submitting the offline materials formed in the acceptance process after electronization, and reading the electronic materials into the corresponding prefabricated part full-life flow to serve as one of full-life-cycle digital assets;

s6, acquiring and managing completion delivery data, visually delivering construction completion based on the overall building information model, delivering the overall system, all prefabricated member full-life-cycle processes and the overall building information model to an operation and maintenance unit, and inputting the delivery data into a prefabricated member asset full-life-cycle management system based on the building information model technology in batches to serve as one of full-life-cycle digital assets; and

s7, acquiring monitoring data and visually retrieving and maintaining resources in the operation and maintenance process, accessing the monitoring data and visually retrieving and maintaining the resources in the operation and maintenance process, automatically acquiring and transmitting the monitoring data in the operation and maintenance period based on the monitoring terminal, and injecting the monitoring data in the operation and maintenance period into a system to serve as one of the full-life-cycle digital assets of the prefabricated member.

5. The method for full lifecycle management of pre-fabricated assets based on building information modeling technology according to claim 4, wherein: in step S2, the data collection mode includes two modes, namely manual collection and automatic collection, and the manual collection mode supports both direct input in the production field based on the mobile device and one-key uploading to the system after offline collection.

6. The method for full lifecycle management of pre-fabricated assets based on building information modeling technology according to claim 4, wherein: in the step S7, the visual resource retrieval and maintenance is to visually inspect the site through the visual mobile terminal and based on the general building information model, and the inspection of the hidden danger part can retrieve the historical data for checking; the corresponding full-life-cycle digital assets can be retrieved and called for tracing for the prefabricated member needing to be maintained, and powerful data support is provided for maintenance work.

7. A storage medium, characterized by: the storage medium stores thereon a computer program executed by a processor to implement the method for full lifecycle management of pre-fabricated assets based on building information modeling technology according to any of claims 4 to 6.

8. An apparatus, characterized in that the apparatus comprises:

a memory for storing a computer program;

a processor for executing a computer program;

and a computer program executed by a processor to implement the method for full lifecycle management of pre-fabricated assets based on building information modeling technology of any of claims 4 to 6.

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