CN110599124A - Integration-oriented engineering data center - Google Patents

Abstract

The invention discloses an integration-oriented engineering data center, which comprises a data integration layer, a data storage layer, a data service layer, a model conversion system and a data management platform, wherein the data integration layer is used for integrating the data integration layer with the data storage layer; the data integration layer comprises interfaces in various forms and is used for realizing data acquisition; the data storage layer comprises different types of databases with mixed architectures and is used for storing structured data and unstructured data; the model conversion system uniformly converts the models of various engineering design platforms into an electricity building standard BIM model; the data management platform is used for uniformly managing the stored data; the data application layer comprises service invocation in various forms and is used for providing access to various shared network services for terminal users, the whole data center has the functions of data acquisition, data exchange, data conversion, data storage and data management, and efficient integrated cooperation of surveying, designing and constructing of the hydropower engineering can be realized.

Description

Integration-oriented engineering data center

Technical Field

The invention relates to the technical field of engineering collaboration, in particular to an integration-oriented engineering data center.

Background

In the large-scale group company of construction field, will realize that efficient water and electricity engineering surveys design construction integration and cooperates, there is the cooperation mode of in-project design, construction and does not take place fundamental change, and the value community's the difficult weight of structure, the core advantage of group industrial chain integration is not given full play, and efficiency, core competitiveness and sustainable development scheduling problem need be solved, and the concrete expression is:

(1) the information is not smooth, the design result cannot effectively help the on-site production and management requirements of the project, good value is exerted, the repeated drawing analysis and calculation of a construction enterprise, the deviation between the schedule planning of the construction stage and the total schedule of the project is large, and the schedule cannot really guide the on-site construction work; under the traditional working mode, the design can transmit information to the construction enterprises in a one-way mode, the actual information of the project site can not be transmitted back to the design enterprises, and the design caused by the design can not fully meet the requirement of construction and production and can not be designed and changed in time.

(2) Scheme design and project implementation management based on the BIM technology are gradually becoming necessary conditions for winning bid and performing contract, but the application situation of group design and construction integration is not formed at present.

(3) The integrated cooperation is lacked in the operation and production processes of project marketing, project planning, project management and control and the like, a matched management and control mechanism, a standard system and a cooperative support platform are lacked, the information sharing and communication efficiency among enterprises is low, and the project cost control, the work efficiency, the project operation and management capability are to be improved.

(4) Enterprise data and experience of design and construction in a group cannot be shared and utilized; the advantages of all the resources can not be combined efficiently, the project resource allocation is not reasonable, and the optimization can not be realized.

(5) Several large hydropower design houses in a group have formed three different three-dimensional design application platforms, the three design platforms are split, and how a construction unit receives data in three different platform formats cannot work cooperatively under unified data and unified platforms.

The integrated engineering data center (hereinafter referred to as engineering data center) refers to an online data exchange and sharing service system formed by connecting an enterprise service bus and a public service framework in series with an engineering main database and a design and construction multi-service database, and is used for carrying unified storage, transmission, release and sharing of engineering structured data (codes and attributes) and unstructured data (models, reports, drawings, videos, photos and the like), and can be flexibly deployed to groups, enterprises or project sites according to service needs.

The data center has the main functions of an engineering data center with data acquisition, data exchange, data conversion, data storage and data management, the current situation that design results cannot be shared among different design software is solved by establishing interface specifications and interface research and development of the data center and a data source, a standard model is formed in the center, and each construction unit can acquire model data in a unified format through the data center. Through the formulation of the specifications of all interfaces, the data of all design systems and production management systems are managed and converted uniformly, and a data storage and service basis is provided for the integrated application of the exploration design and construction of the hydropower engineering.

The existing research mainly aims at the realization of software framework theory and software system in the aspects of design, project management, facility management, life cycle management, data exchange sharing and the like. These studies cover various stages of the life cycle of a construction project, but many studies only develop a software prototype system, and implement local functions in some aspects of a certain stage, and the implemented functions are only limited to the case of simple processing. The Chinese invention patent CN201810600035.7 discloses a device and a method for interacting operation and maintenance information based on a BIM (building information model) in intelligent building management, which comprises a source data layer, a data processing layer and a data processing layer, wherein the source data layer is used for extracting information such as the BIM, the GIS, equipment ledgers and equipment dynamic data; the data storage layer is used for storing and matching models, information and data; the external access layer is used for extracting and accessing the information of the intelligent subsystem; the platform application layer is used for BIM model data interaction management and is used for receiving and issuing instructions; and the mobile and WeChat terminal is used for the mobile office of field management personnel. The invention realizes the 'intensive construction, resource sharing and standard management' of the whole BIM operation and maintenance platform, combines the actual situation of a project, utilizes big data, cloud computing, the BIM technology and the IOT technology, and comprehensively integrates each subsystem, data information and service resources based on a unified platform on the premise of not repeating the construction, thereby improving the operation and maintenance management level and the comprehensive service capability of the building.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an integrated engineering data center, which has the functions of data acquisition, data exchange, data conversion, data storage and data management and can realize efficient integrated cooperation of surveying, designing and constructing of hydropower engineering.

In order to achieve the purpose, the invention provides the following technical scheme:

an integration-oriented engineering data center comprises a data integration layer, a data storage layer, a data service layer, a model conversion system and a data management platform;

the data integration layer comprises interfaces in various forms, and the acquisition of structured data, unstructured data and real-time data is realized through interface tables, interface files, data receiving service, data message receiving and the like;

the data storage layer comprises different types of databases with mixed architectures and is used for storing structured data and unstructured data;

the model conversion system uniformly converts the models of various engineering design platforms into an electricity building standard BIM model;

the data management platform is used for uniformly managing, analyzing, monitoring and sorting the stored data;

the data application layer includes service calls in various forms for providing end users with access to various shared network services, and can interact with users through application programs.

Preferably, the data management platform comprises a metadata management module, a master data management module, a model data management module, a data quality management module and a data standard management module;

the metadata management module is used for quickly searching, acquiring, using and sharing the metadata of the engineering data center and providing metadata support for applications such as data sharing exchange, multidimensional analysis, assistant decision, data mining and the like of the engineering data center;

the main data management is used for unified management, application and maintenance of project quality, safety, material and contract main data;

the model data management module is used for uniformly auditing, storing and managing the electric construction standard engineering information model and the Bentley, Catia and Autodesk platform native BIM model, and supporting the online browsing of the electric construction standard BIM model;

the data quality management is used for checking the normalized quality of the data stored in the engineering data center and ensuring the timeliness, integrity and compliance of data access of each service system;

the data standard management is used for the unified maintenance management of the engineering data center standard document system.

Preferably, the data storage layer comprises an SQL storage cluster for storing structured data, a distributed file storage cluster for storing unstructured data, and a real-time database for storing real-time data.

Preferably, the model conversion system comprises a Bentley model conversion module, an Autodesk model conversion module and a Catia model conversion module which are respectively used for converting the BIM models of the Bentley platform, the Autodesk platform and the Catia platform into the electric construction standard BIM model.

Preferably, the data integration layer comprises a survey interface group, a design interface group, a purchase interface group and a digital hand-over interface group;

the survey interface group comprises a BIM model access interface, an engineering result data access structure, a project basic data access interface, an address object access interface, a surveying object access interface and an exploration data access interface;

the design interface group comprises a BIM model access interface, a design result data access interface, a dam industry professional attribute access interface, a factory building professional attribute access interface, a diversion professional attribute access interface, a water machine professional attribute access interface, an electrical professional attribute access interface, a heating and ventilation professional attribute access interface and a water supply and drainage professional attribute access interface;

the purchasing system and interface group comprises a BIM model access interface, a manual price access interface, a material price access interface, an equipment price access interface, a project information access interface, a contract information access interface and a construction package access interface;

the digital transfer interface group comprises a BIM model access interface, a survey data transfer interface, a design data transfer interface, a purchase data transfer interface, a project information transfer interface, a contract information transfer interface and a personnel information transfer interface.

An integrated engineering data center-oriented client program comprises a system management module, a survey design management module, a general packet project management module, a virtual construction module, an intelligent construction module, a purchase management module and a digital transfer module,

the system management module is used for managing and carrying out relevant statistics on items, units and users in the system and comprises an enumeration management unit, a system management unit and an item management unit;

the survey design management module is used for managing survey design and hydraulic monitoring data and comprises a project overview unit, an exploration workload unit, a construction geological unit, a field test unit, an indoor test unit, a geophysical prospecting test unit, a monitoring instrument unit, a design result unit and a hydraulic measurement unit;

the general packet project management module is used for managing data such as flow, contract, progress, quality safety and the like, and comprises a design management unit, a comprehensive office unit, a flow management unit, a contract and cost management unit, a progress management unit, a BIM management unit, a technology management unit, a scientific research project management unit, a construction packet management unit, a quality management unit, an HSE management unit, a geological forecast management unit and a document management unit;

the virtual building module is used for managing building progress information related to the model and comprises a building progress management unit;

the intelligent building module is used for managing personnel vehicles, machines and monitoring data on site and comprises a dam rolling unit, an intelligent grouting unit, an intelligent temperature control unit, an intelligent mixing building unit, an intelligent camera unit, an on-site personnel unit, an on-site vehicle unit, an on-site mechanical unit and early warning and monitoring information.

The purchasing management module is used for managing purchasing related data and butting a group collection platform and comprises a purchasing planning unit, a purchasing scheme unit, a purchasing contract unit and a purchasing execution unit.

The digital handover module is used for managing the digitalized handover result and comprises a handover management unit.

Preferably, the system management unit further comprises system unit management and system user management, and the project management unit further comprises project management, project unit management and project user management.

Compared with the prior art, the invention has the beneficial effects that:

(1) the method comprises the steps of innovatively establishing an engineering data center capable of bearing an electricity construction standard engineering information model and business data such as surveying, designing, purchasing, digital transfer and the like, providing data service to the outside uniformly through a cross-platform universal interface, and achieving efficient sharing and reasonable configuration of design and construction enterprise data;

(2) various standard interfaces are innovatively designed, so that data sharing and linkage of a design institute, a construction unit, a group purchasing party, an administrative party and the like are facilitated, the use efficiency of data is improved, repeated work is avoided, the labor, management and communication costs of the construction field are reduced, and meanwhile, the safety monitoring performance is improved;

(3) the method is characterized in that an IFC-based electric construction standard engineering information model and an IFC-based engineering information model conversion system are creatively established, and based on research results, Autodesk, Bentley and CATIA in a group, and before BIM results of three design platforms are handed over to a construction unit, the results are converted into the electric construction standard engineering information model through the engineering information model conversion system in a unified mode, so that the unification of data formats is realized, and the construction unit can realize the integrated application of design and construction only based on the electric construction standard engineering information model.

Drawings

FIG. 1 is a schematic structural diagram of an engineering data center according to the present invention;

FIG. 2 is a diagram of a service architecture of a client in accordance with the present invention;

FIG. 3 is a diagram of the relationship between the units, users and items of the present invention;

FIG. 4 is a top level data flow diagram of the digital hub of the present invention;

FIG. 5 is a one-level data flow diagram of the system management of the present invention;

FIG. 6 is a first level data flow graph of an exploration build of the present invention;

FIG. 7 is a one-level data flow diagram of the total package project management of the present invention;

FIG. 8 is a one-level dataflow graph of the virtual build of the present invention;

FIG. 10 is a diagram of a first level data flow of the present invention as intelligently built;

FIG. 9 is a one-level data flow diagram of the procurement management of the invention;

FIG. 11 is a first level data flow diagram of the digital handoff of the present invention;

fig. 12 is a data flow summary table of the engineering data center of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, according to the current situation of a hydropower engineering design and construction integrated management and control mode, a related technical standard system and the investigation and analysis of an EPC project management platform, an integrated-oriented engineering data center overall architecture is designed, and in the development process of the whole platform, the used main technologies include an interface presentation technology (HTML5, JavaScript), a Server development technology (python3.6, django1.11), a data access technology (odbc), a browser support (IE, Chrome, firefox), a development tool (Sublime Text or Pycharm), a middleware (midleware), a database (Server), a basic framework class (django rest framework class 3.8.2) and a data storage class (redis 2.10.6).

The overall architecture of the engineering data center is divided into a data integration layer, a data storage layer, a data service layer, a model conversion system and an overall data management platform according to hierarchical division.

The data integration layer comprises interfaces in various forms, and the acquisition of structured data, unstructured data and real-time data is realized through interface tables, interface files, data receiving service, data message receiving and the like, so that various external systems can be conveniently connected to realize multi-party cooperation and linkage, and the main external systems comprise a design institute design management system, a construction intelligent system, a group collection acquisition platform, a construction unit PRP management system and an EPC management platform; the data integration layer comprises a survey interface group, a design interface group, a purchase interface group and a digital transfer interface group;

the survey interface group comprises a BIM model access interface, an engineering result data access structure, a project basic data access interface, an address object access interface, a surveying object access interface and an exploration data access interface;

the design interface group comprises a BIM model access interface, a design result data access interface, a dam industry professional attribute access interface, a factory building professional attribute access interface, a diversion professional attribute access interface, a water machine professional attribute access interface, an electrical professional attribute access interface, a heating and ventilation professional attribute access interface, a water supply and drainage professional attribute access interface and other interfaces;

the purchasing system and interface group comprises a BIM model access interface, a manual price access interface, a material price access interface, an equipment price access interface, a project information access interface, a contract information access interface and a construction package access interface;

the digital transfer interface group comprises a BIM model access interface, a survey data transfer interface, a design data transfer interface, a purchase data transfer interface, a project information transfer interface, a contract information transferred interface and a personnel information transfer interface;

the data storage layer comprises different types of databases with mixed architectures and is used for storing structured data and unstructured data; the data storage layer comprises an SQL storage cluster used for storing structured data, a distributed file storage cluster used for storing unstructured data and a real-time database used for storing real-time data, wherein the unstructured data are stored in the distributed file storage in different categories according to file types (models, drawings and other files).

The model conversion system uniformly converts the models of various engineering design platforms into an electricity building standard BIM model; the model conversion system comprises a Bentley model conversion module from a Bentley platform BIM model to an electric construction standard BIM model, an Autodesk model conversion module from an Autodesk platform BIM model to an electric construction standard BIM model, and a Catia model conversion module from a Catia platform BIM model to an electric construction standard BIM model;

the data management platform is used for uniformly managing, analyzing, monitoring and sorting the stored data; the data management platform comprises a metadata management module, a main data management module, a model data management module, a data quality management module and a data standard management module;

the metadata management module is used for quickly searching, acquiring, using and sharing the metadata of the engineering data center and providing metadata support for applications such as data sharing exchange, multidimensional analysis, assistant decision, data mining and the like of the engineering data center;

the main data management is used for unified management, application and maintenance of project quality, safety, materials and contract main data, so that unified management, application and maintenance of the project quality, safety, materials and contract main data are realized, and consistency and stability of the main data are guaranteed.

The model data management module is used for uniformly auditing, storing and managing the electric construction standard engineering information model and the Bentley, Catia and Autodesk platform native BIM model, and supporting the online browsing of the electric construction standard BIM model;

the data quality management is used for checking the normalized quality of the data stored in the engineering data center and ensuring the timeliness, integrity and compliance of data access of each service system;

the data standard management is used for the unified maintenance management of the engineering data center standard document system.

The data application layer includes service calls in various forms for providing end users with access to various shared network services, and can interact with users through application programs.

A client program for an integrated engineering data center comprises a system management module, a survey design management module, a general packet project management module, a virtual construction module, an intelligent construction module, a purchase management module and a digital transfer module.

The system management module is used for managing and carrying out relevant statistics on items, units and users in the system, and comprises an enumeration management unit, a system management unit and an item management unit which provide field description information;

the system management unit also comprises system unit management for providing all unit information for the whole hydropower data center and system user management for providing all user information for the whole hydropower data center;

the project management unit also comprises project management for providing all project information for the whole hydropower data center, project unit management formed by the project and system unit information and project user management formed by the project and system user information.

The survey design management module is used for managing survey design and hydraulic monitoring data and comprises a project overview unit, an exploration workload unit, a construction geological unit, a field test unit, an indoor test unit, a geophysical prospecting test unit, a monitoring instrument unit, a design result unit and a hydraulic measurement unit;

the project profile provides engineering project situation, survey phase and project area information,

the exploration workload provides workload information of drilling, underground exploration, pit exploration, exploration groove, exploration well and cavern, the construction geology provides underground cavern information, and the field test provides borehole water-pressing test, heavy dynamic penetration test, standard penetration test and underground water level long-term observation hole information;

the indoor test provides information of geotechnical test, rock physical and mechanical property test and water quality analysis test;

the geophysical prospecting test provides information of seismic exploration, borehole acoustic logging (single point), borehole acoustic logging (subsection), ground stress test, high-pressure water pressing test, borehole television, adit acoustic test, adit elastic wave test, rock mass deformation test, rock-rock shear test and rock-concrete shear test;

the engineering measurement provides actually measured section information;

the design effort provides design stage effort data;

the hydraulic monitoring provides hydraulic monitoring related data.

The general packet project management module is used for managing data such as flow, contract, progress, quality safety and the like, and comprises a design management unit, a comprehensive office unit, a flow management unit, a contract and cost management unit, a progress management unit, a BIM management unit, a technology management unit, a scientific research project management unit, a construction packet management unit, a quality management unit, an HSE management unit, a geological forecast management unit and a document management unit;

the design management comprises a design result and a design intersection submenu, wherein the design result comprises related information such as a design model and a drawing provided according to a project;

the design transaction provides a project transaction scheme and relative information of lower achievements;

the comprehensive office unit also comprises project personnel attendance checking, project attendance monthly newspaper checking and project personnel authorization: project personnel authorization list related information, project personnel logs, project task assignment lists, project daily reports, project weekly reports, project monthly reports, project receipt management, project text sending management, project incoming text providing, text sending related information and project conference summary submenus; the process management comprises process basic information, process historical information and a process record information submenu;

the contract and expense management comprises a project total contract and a project subcontract submenu, wherein price composition, contract collection, contract change, contract settlement and contract termination are respectively recorded under each submenu, and the contract and expense management also comprises project subcontract payment, project subcontract payment application, project fund plan, project single payment list, project single payment, project construction contract income determination detail and project construction contract cost determination detail;

the BIM management comprises model management, reforming task marking, information marking, pile foundation information and stage photos;

the technical management unit comprises a QC total plan, a QC group grade, a QC group activity plan, a WC group activity plan word table, a QC result declaration, a QC prize winning condition, a construction scheme, a construction organization design, a water condition survey report, an annual construction method declaration plan and an engineering method obtaining condition;

the scientific research project management unit comprises scientific research project establishment, scientific research activity plans, scientific research activity plan sub-tables, supplier investigation, selection, contract countersigning, product review, research and development project acceptance and scientific and technological prize declaration;

the construction package management unit comprises unit engineering maintenance, subsection engineering maintenance, construction time sequence maintenance and unit engineering maintenance; the quality management unit comprises an engineering quality inspection sheet, an engineering quality detection sheet and an engineering quality acceptance sheet submenu;

the HSE management comprises danger source management, safety inspection and hidden danger investigation, education training, personnel machine report and check, HSE expense management, operation safety, construction management, emergency management, HSE targets and plans, organizations and responsibilities, occupational health, environment and energy conservation and emission reduction submenus;

the document management comprises a file synchronization configuration table, a file configuration clarity, a file management and a file maintenance submenu.

The virtual building module is used for managing building progress information related to the model and comprises a building progress management unit;

the intelligent building module is used for managing personnel vehicles, machines and monitoring data on site and comprises a dam rolling unit, an intelligent grouting unit, an intelligent temperature control unit, an intelligent mixing building unit, an intelligent camera unit, an on-site personnel unit, an on-site vehicle unit, an on-site mechanical unit and early warning and monitoring information.

The purchasing management module is used for managing purchasing related data and butting a group collection platform and comprises a purchasing planning unit, a purchasing scheme unit, a purchasing contract unit and a purchasing execution unit.

The digital handover module is used for managing the digitalized handover result and comprises a handover management unit.

The data flow structure of the present invention is shown in FIGS. 4-11, which depict data trends and logical connections throughout a data center.

Principle of use

Firstly, users of multiple departments such as a design institute, a construction unit, a group purchasing department, an exploration department and the like can input original data by using client sides, such as exploration field data, a design model, a construction plan, a construction field camera, real-time data transmitted by a measuring instrument and the like, the data enter a data storage layer through different interfaces of a data integration layer and are divided into structured data and unstructured data for storage, simultaneously, uploaded Autodesk, Bentley and CatiaBIM models are automatically converted into a BIM model with unified electricity building standard through a model conversion system for management and storage, and a data management platform is used for carding and managing the data of the data storage layer; when a user or a user with authority in other departments calls through the client, the client accesses the data center through the application layer to call and use the related data.

System testing

The client system of the whole data platform is tested according to table 1, and the system tests including function tests, performance tests, user interface tests, compatibility tests and API interface tests are mainly performed according to the user requirement specification, the software requirement specification and corresponding documents, while the unit tests and the integration tests are performed by developers, and the specific test environment is as follows: intel (R) core (TM) i7-6700CPU @3.40GHz (processor), Win 7 professional edition, 64-bit operating system, IE11 browser.

Test coverage

The account login module comprises the layout of a main interface, login and logout of a user, a password shading function, a remembered password, a retrieved password and some usability tests; a home page module: layout and typesetting of pages, updating of data and correctness of diagrams; the general packet project management module: the realization of the functions of page layout, addition, deletion, editing, map display and connection and the like of modules in each project list, such as comprehensive office, design management, contract and cost management, progress management, quality management, HSE management, document management, construction package management, BIM management, technical management, scientific research project management and the like; survey design data module: the functions of adding, editing and deleting data in each submodule of project overview, exploration workload, construction geology, field test, indoor test, geophysical prospecting test and engineering measurement; a virtual construction, intelligent construction, digital transfer and purchase management module; a system management module: the functions of enumeration management, system unit management, system user management, project unit management, addition, edition, deletion and the like of a project user management module are realized; a personal central module: the layout of the page and the implementation of the function of changing the information.

Test results

The function test result, the API interface test result and the function test result of the test are respectively shown in tables 2-5, and meanwhile, the system performs compatibility test of multiple browsers, and the used browsers comprise: IE 11.0 browser, 360 secure browser V8.5, Chrome browser V51.0, Firefox browser V47.0; in the process of testing multiple browsers, it is found that only the IE11 browser can be normally used, and other browsers have the problem that the model cannot be loaded in a model management module, so that the IE11 is recommended to be used for operating the system.

Conclusion of the test

The system tests sufficiently, the test coverage rate of the main service module reaches 100%, the passing rate of all functions reaches 95.22%, the basic function modules are realized, and the test result basically reaches the expected target of software.

TABLE 1 client System test content

TABLE 2 functional test results

TABLE 3API interface test results

Table 4 results of performance testing one

TABLE 5 Performance test results two

Claims (7)

1. The utility model provides an engineering data center towards integration which characterized in that: the system comprises a data integration layer, a data storage layer, a data service layer, a model conversion system and a data management platform;

the data integration layer comprises interfaces in various forms, and the acquisition of structured data, unstructured data and real-time data is realized in a mode of interface table, interface file, data receiving service and data message receiving;

the data storage layer comprises different types of databases with mixed architectures and is used for storing structured data and unstructured data;

the model conversion system uniformly converts the models of various engineering design platforms into an electricity building standard BIM model;

the data management platform is used for uniformly managing, analyzing, monitoring and sorting the stored data;

the data application layer includes service calls in various forms for providing end users with access to various shared network services, and can interact with users through application programs.

2. The integration-oriented engineering data center of claim 1, wherein: the data management platform comprises a metadata management module, a main data management module, a model data management module, a data quality management module and a data standard management module;

the metadata management module is used for quickly searching, acquiring, using and sharing the metadata of the engineering data center and providing metadata support for data sharing exchange, multidimensional analysis, assistant decision and data mining application of the engineering data center;

the main data management is used for unified management, application and maintenance of project quality, safety, material and contract main data;

the model data management module is used for uniformly auditing, storing and managing the electric construction standard engineering information model and the Bentley, Catia and Autodesk platform native BIM model, and supporting the online browsing of the electric construction standard BIM model;

the data quality management is used for checking the normalized quality of the data stored in the engineering data center and ensuring the timeliness, integrity and compliance of data access of each service system;

the data standard management is used for the unified maintenance management of the engineering data center standard document system.

3. The integration-oriented engineering data center of claim 1, wherein: the data storage layer comprises an SQL storage cluster used for storing structured data, a distributed file storage cluster used for storing unstructured data and a real-time database used for storing real-time data.

4. The integration-oriented engineering data center of claim 1, wherein: the model conversion system comprises a Bentley model conversion module, an Autodesk model conversion module and a Catia model conversion module which are respectively used for converting the BIM models of the Bentley platform, the Autodesk platform and the Catia platform into the electric construction standard BIM model.

5. The integration-oriented engineering data center of claim 1, wherein: the data integration layer comprises a survey interface group, a design interface group, a purchase interface group and a digital transfer interface group;

the survey interface group comprises a BIM model access interface, an engineering result data access structure, a project basic data access interface, an address object access interface, a surveying object access interface and an exploration data access interface;

the design interface group comprises a BIM model access interface, a design result data access interface, a dam industry professional attribute access interface, a factory building professional attribute access interface, a diversion professional attribute access interface, a water machine professional attribute access interface, an electrical professional attribute access interface, a heating and ventilation professional attribute access interface and a water supply and drainage professional attribute access interface;

the purchasing system interface group comprises a BIM model access interface, a manual price access interface, a material price access interface, an equipment price access interface, a project information access interface, a contract information access interface and a construction package access interface;

the digital transfer interface group comprises a BIM model access interface, a survey data transfer interface, a design data transfer interface, a purchase data transfer interface, a project information transfer interface, a contract information transfer interface and a personnel information transfer interface.

6. A client program of an engineering data center according to any one of claims 1 to 5, characterized in that: comprises a system management module, a survey design management module, a general packet project management module, a virtual construction module, an intelligent construction module, a purchase management module and a digital transfer module,

the system management module is used for managing and carrying out relevant statistics on items, units and users in the system and comprises an enumeration management unit, a system management unit and an item management unit;

the survey design management module is used for managing survey design and hydraulic monitoring data and comprises a project overview unit, an exploration workload unit, a construction geological unit, a field test unit, an indoor test unit, a geophysical prospecting test unit, a monitoring instrument unit, a design result unit and a hydraulic measurement unit;

the general packet project management module is used for managing data such as flow, contract, progress, quality safety and the like, and comprises a design management unit, a comprehensive office unit, a flow management unit, a contract and cost management unit, a progress management unit, a BIM management unit, a technology management unit, a scientific research project management unit, a construction packet management unit, a quality management unit, an HSE management unit, a geological forecast management unit and a document management unit;

the virtual building module is used for managing building progress information related to the model and comprises a building progress management unit;

the intelligent building module is used for managing personnel, vehicles, machinery and monitoring data on site, and comprises a dam rolling unit, an intelligent grouting unit, an intelligent temperature control unit, an intelligent mixing building unit, an intelligent camera unit, a site personnel unit, a site vehicle unit, a site machinery unit and early warning and monitoring information;

the purchasing management module is used for managing purchasing related data and butting a group collection platform and comprises a purchasing planning unit, a purchasing scheme unit, a purchasing contract unit and a purchasing execution unit;

the digital handover module is used for managing the digitalized handover result and comprises a handover management unit.

7. The client program of the engineering data center according to claim 6, wherein: the system management unit also comprises system unit management and system user management, and the project management unit also comprises project management, project unit management and project user management.