CN115186346A - Digital delivery method based on factory object - Google Patents
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- CN115186346A CN115186346A CN202210835474.2A CN202210835474A CN115186346A CN 115186346 A CN115186346 A CN 115186346A CN 202210835474 A CN202210835474 A CN 202210835474A CN 115186346 A CN115186346 A CN 115186346A
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Abstract
The invention relates to a factory object-based digital delivery method, which comprises the steps of transferring project design information, procurement information aiming at engineering projects and construction information aiming at the engineering projects generated in a design stage to an engineering data transfer system, respectively establishing the association relation between a factory object and the project design information, the procurement information and the construction information, filling data required by an equipment management system in real time based on factory object attribute parameters derived by the engineering data transfer system, processing the transferred engineering project data comprising an engineering project three-dimensional model and engineering project completion data by the engineering data transfer system to obtain processed data to be delivered, and delivering the data to be delivered to a construction party of the engineering projects as delivered objects by the engineering data transfer system, so that the delivered data received by the construction party cannot have data loss, the digital delivery efficiency is improved, and the problems of labor consumption and artificial errors in manual processing of a large amount of delivered data are avoided.
Description
Technical Field
The invention relates to the field of digital factories, in particular to a digital delivery method based on factory objects.
Background
Digital delivery has become a key technology for digital factory construction. In the current digital delivery process, after the construction of the engineering project is completed, the contractor of the engineering project arranges to manually complete the digital delivery of the engineering project by data entry, and delivers the structured data and the unstructured files of the engineering project required by the digital delivery to the constructor of the engineering project so as to store the digital delivery contents by the constructor.
However, the existing digital delivery method has the following defects: firstly, the supplement and record engineering data during digital delivery mainly come from completion data after acceptance of engineering projects, so that the workload of data supplement and record is huge, and a large amount of engineering data is easy to be lost; secondly, as the three-dimensional model of the engineering project is also one of the key contents of digital delivery, but no three-dimensional model of the engineering project exists in completion data, the delivery content digitally delivered to a construction party is incomplete; in addition, due to differences in delivery data depth, delivery data range, etc. between contractors and constructors of a project for digital delivery, the delivery data of the contractors cannot meet the application requirements of the constructors.
Disclosure of Invention
The technical problem to be solved by the invention is to provide a factory object-based digital delivery method which can improve delivery efficiency and meet application requirements of a construction party aiming at the prior art.
The technical scheme adopted by the invention for solving the technical problems is as follows: the digital delivery method based on the factory object is characterized by comprising the following steps:
step 1, transferring project design information generated by a designer in a design stage to an engineering data transfer system; the engineering data transfer system completely inherits a factory decomposition structure, a factory three-dimensional design model, delivery data, a project document and an incidence relation of a factory object of the project design information;
step 2, transferring the purchase information of the engineering project to an engineering data transfer system, and establishing an association relationship between the purchase information and a corresponding factory object in the engineering project by the engineering data transfer system;
step 3, transferring the construction information aiming at the engineering project to an engineering data transfer system, and establishing the incidence relation between the construction information and the corresponding factory object in the engineering project by the engineering data transfer system;
step 4, the engineering data transfer system exports factory object attribute parameters required by digital delivery, and fills in data required by the equipment management system in real time based on the exported factory object attribute parameters;
step 5, transferring the engineering project data to an engineering data transfer system for processing to obtain processed data to be transferred; the engineering project data comprises an engineering project three-dimensional model and engineering project completion data; the data to be delivered adopts an intra-industry universal format;
and 6, the engineering data transfer system transfers the data to be delivered to the construction party of the engineering project as a delivered object.
In an improvement, in the invention, the digital delivery method based on factory objects further includes steps a1 to a3:
step a1, pre-establishing a digital delivery classification standard aiming at the classification of factory objects in the engineering project;
step a2, standardizing the data to be delivered according to the digital delivery classification standard to obtain the standardized data to be delivered; and the number of the first and second groups,
and a3, delivering the normalized data to be delivered to a constructor of the engineering project.
Further, in the digital delivery method based on factory objects, the digital delivery classification specification is specified by a constructor of an engineering project.
In another improvement, the digital delivery method based on factory objects in the invention further comprises steps b1 to b3:
b1, establishing a navigation tree structure for classifying delivery contents of all factory objects in the engineering project according to the digital delivery classification standard, and displaying the navigation tree structure;
b2, performing attribute filtering setting on the delivered contents in the data to be delivered by using the original attribute filtering setting standard of each delivered content; and the number of the first and second groups,
and b3, storing the content to be delivered after the attribute filtering setting is finished to the engineering data transfer system.
Further, in the digital delivery method based on factory object, the content to be delivered is an associated document reflecting typical characteristics of the factory object.
In order to grasp the data quality situation of the digital delivery, the method for digital delivery based on factory object in the invention further comprises: and carrying out accuracy and integrity check on the engineering data delivered to the engineering data delivery system to form a delivery data quality report.
In order to grasp the progress of the digital delivery, the method for digital delivery based on factory objects in the invention further comprises monitoring the delivery progress of all the factory objects delivered to the engineering data delivery system and the document data of each stage of the engineering project according to the digital delivery classification specification to form a digital delivery progress report.
In order to acquire the latest design file of the engineering project at any time in the construction stage of the engineering project and improve the design file, the digital delivery method based on the factory object in the invention further comprises the following steps: and inquiring the latest design, purchase, construction files, factory object attributes and association relation of the engineering project based on a factory three-dimensional design model in latest delivery data handed over by the engineering data handing over system.
Compared with the prior art, the invention has the advantages that:
firstly, the digital delivery method based on factory objects transfers project design information, procurement information aiming at engineering projects and construction information aiming at the engineering projects generated in a design stage to an engineering data transfer system, establishes the incidence relation between the factory objects and the project design information, the procurement information and the construction information respectively, fills data required by an equipment management system in real time based on factory object attribute parameters derived by the engineering data transfer system, obtains processed data to be delivered after processing the transferred engineering project data comprising an engineering project three-dimensional model and engineering project completion data, and delivers the data to be delivered to a construction party of the engineering projects as delivered objects by the engineering data transfer system, thereby ensuring that the delivered data received by the construction party does not have data loss, improving the digital delivery efficiency, and avoiding the energy consumption and artificial error problems of manually processing a large amount of delivered data;
secondly, the invention also establishes the digital delivery classification standard aiming at the classification of the factory objects in the engineering project in advance to carry out the standardized processing on the data to be delivered, thereby ensuring that the data delivered to the engineering project constructor by different contractors of the engineering project meets the requirement of the digital delivery classification standard, namely, realizing that the data delivered to the engineering project constructor by any contractor aiming at the same engineering project is consistent in the aspects of the classification of the factory objects, the depth of the three-dimensional model, the delivery data range and the relevance of the delivery document.
Drawings
FIG. 1 is a flow chart illustrating a digital delivery method based on plant objects according to an embodiment of the present invention.
Detailed Description
The invention is described in further detail below with reference to the following examples of the drawings.
The embodiment provides a digital delivery method based on factory objects. Specifically, referring to fig. 1, the digital delivery method based on factory objects of the embodiment includes the following steps 1 to 6:
step 1, transferring project design information generated by a designer in a design stage to an engineering data transfer system; the engineering data transfer system is an EDHS system, and completely inherits a factory decomposition structure, a factory three-dimensional design model, delivery data, a project document of a factory object and an incidence relation of the project design information; the project design information here includes a process flow diagram P & ID, a factory three-dimensional design model, and a design finished product file; the design finished product file comprises a design finished product file of a construction plate and a design finished product file of a completion plate;
step 2, transferring the purchase information of the engineering project to an engineering data transfer system, and establishing an association relationship between the purchase information and a corresponding factory object in the engineering project by the engineering data transfer system; wherein, the purchasing information comprises documents and engineering data of a purchasing stage in the project construction process;
step 3, transferring the construction information aiming at the engineering project to an engineering data transfer system, and establishing the incidence relation between the construction information and the corresponding factory object in the engineering project by the engineering data transfer system; the construction information comprises documents and engineering data of a construction stage in the project construction process;
step 4, the engineering data transfer system exports factory object attribute parameters needed by digital delivery, and fills in data needed by the equipment management system in real time based on the exported factory object attribute parameters; wherein, the attribute parameters of the plant object comprise attribute parameters under the corresponding plant object classification, and the attribute parameters of different classifications are different; for example, the attribute parameters corresponding to the installation location being indoors are different from the attribute parameters corresponding to the installation location being outdoors;
step 5, transferring the engineering project data to an engineering data transfer system for processing to obtain processed data to be transferred; the engineering project data comprises an engineering project three-dimensional model and engineering project completion data; the data to be delivered adopts an intra-industry universal format; the engineering data transfer system corrects, integrates and organizes the transferred engineering project data to ensure that the processed data to be transferred is consistent with the physical factory;
and 6, the engineering data transfer system transfers the data to be delivered to a construction party of the engineering project as a deliverable.
In order to make a standardized delivery of the data to be delivered, the plant object-based digital delivery method of the embodiment is further improved as follows:
step a1, pre-establishing a digital delivery classification standard aiming at factory object classification in an engineering project; the digital delivery classification standard designates or refers to national standards and industry standards for constructors of engineering projects (namely owners of the engineering projects);
step a2, carrying out standardized processing on the data to be delivered according to the digital delivery classification standard to obtain the standardized data to be delivered; the digital delivery classification specification comprises a normalized factory object classification, a three-dimensional model depth, a delivery data range and delivery document relevance; and the number of the first and second groups,
and a3, delivering the normalized data to be delivered to a constructor of the engineering project.
Of course, the delivery standard commonly used in the industry can be used as the digital delivery classification standard according to actual needs, so that the consistency of the delivery contents delivered to the engineering project constructor by different participants (such as contractors) can be ensured.
In order to facilitate browsing of the delivered content and referring to the content, the factory object-based digital delivery method of this embodiment further includes: step b1, establishing a navigation tree structure for classifying delivery contents of all factory objects in an engineering project according to a digital delivery classification standard, wherein the content to be delivered is a relevant document reflecting typical characteristics of the factory objects, and displaying the navigation tree structure; b2, performing attribute filtering setting on the delivery contents in the data to be delivered by using the original attribute filtering setting standard of each delivery content; and; and b3, storing the content to be delivered after the attribute filtering setting is finished to the engineering data transfer system.
The factory object based digital delivery method of this embodiment also checks the accuracy and integrity of the engineering data that has been delivered to the engineering data delivery system to form a delivery data quality report. In this way, the formed delivery data quality report can be used for facilitating the relevant party to master the quality condition of the delivered data.
In order to grasp the progress of the delivered content, the digital delivery method based on factory objects according to this embodiment monitors the progress of the delivery of all factory objects delivered to the engineering data delivery system and the document data of each stage of the engineering project according to the established digital delivery classification specification to form a digital delivery progress report.
In order to obtain the latest design files of the engineering project at any time during the construction stage of the engineering project, the digital delivery method based on the factory object according to the embodiment further queries the latest design, purchase, construction files, attributes of the factory object and the association relationship of the engineering project based on the three-dimensional design model of the factory handed over from the engineering data handing over system to the latest delivery data.
Although preferred embodiments of the present invention have been described in detail hereinabove, it should be clearly understood that modifications and variations of the present invention are possible to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (8)
1. The digital delivery method based on the factory object is characterized by comprising the following steps:
step 1, transferring project design information generated by a designer in a design stage to an engineering data transfer system; the engineering data transfer system completely inherits a factory decomposition structure, a factory three-dimensional design model, delivery data, a project document and an incidence relation of a factory object of the project design information;
step 2, transferring the purchasing information aiming at the engineering project to an engineering data transfer system, and establishing the incidence relation between the purchasing information and the corresponding factory object in the engineering project by the engineering data transfer system;
step 3, transferring the construction information aiming at the engineering project to an engineering data transfer system, and establishing the incidence relation between the construction information and a corresponding factory object in the engineering project by the engineering data transfer system;
step 4, the engineering data transfer system exports factory object attribute parameters needed by digital delivery, and fills in data needed by the equipment management system in real time based on the exported factory object attribute parameters;
step 5, transferring the engineering project data to an engineering data transfer system for processing to obtain processed data to be transferred; the engineering project data comprises an engineering project three-dimensional model and engineering project completion data; the data to be delivered adopts an intra-industry universal format;
and 6, the engineering data transfer system transfers the data to be delivered to a construction party of the engineering project as a deliverable.
2. The factory object-based digital delivery method according to claim 1, further comprising steps a 1-a 3:
step a1, pre-establishing a digital delivery classification standard aiming at the classification of factory objects in the engineering project;
step a2, standardizing the data to be delivered according to the digital delivery classification standard to obtain the standardized data to be delivered; and the number of the first and second groups,
and a3, delivering the normalized data to be delivered to a constructor of the engineering project.
3. The factory object-based digital delivery method according to claim 2, wherein the digital delivery classification specification specifies or refers to national standards and industry standards for construction parties of engineering projects.
4. The factory object-based digital delivery method according to claim 2, further comprising steps b 1-b 3:
b1, establishing a navigation tree structure for classifying delivery contents of all factory objects in the engineering project according to the digital delivery classification standard, and displaying the navigation tree structure;
b2, performing attribute filtering setting on the delivered contents in the data to be delivered by using the original attribute filtering setting standard of each delivered content; and the number of the first and second groups,
and b3, storing the content to be delivered after the attribute filtering setting is finished to the engineering data transfer system.
5. The digital factory object-based delivery method as claimed in claim 4, wherein said content to be delivered is an associated document reflecting typical characteristics of the factory object.
6. The factory object-based digital delivery method of claim 4, further comprising: the engineering data that has been delivered to the engineering data handover system is checked for accuracy and integrity to form a delivery data quality report.
7. The factory object-based digital delivery method of claim 2, further comprising: and monitoring the transfer progress of all the factory objects transferred to the engineering data transfer system and the document data of each stage of the engineering project according to the digital delivery classification standard so as to form a digital delivery progress report.
8. The digital factory object-based delivery method according to any one of claims 2 to 7, further comprising: and inquiring the latest design, purchase, construction files, factory object attributes and association relation of the engineering project based on the three-dimensional design model of the factory in the latest delivery data delivered by the engineering data delivery system.
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CN116108475A (en) * | 2023-04-13 | 2023-05-12 | 北京互时科技股份有限公司 | Collaborative management system for digital delivery |
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CN116108475A (en) * | 2023-04-13 | 2023-05-12 | 北京互时科技股份有限公司 | Collaborative management system for digital delivery |
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