CN110782198A - Webpage end rail transit equipment monitoring information control platform and implementation method thereof - Google Patents

Abstract

The invention discloses a webpage end rail transit equipment monitoring information control platform and an implementation method thereof, wherein the platform comprises a basic layer, a data layer, a service layer, an application layer, a presentation layer and a user layer, and the method comprises the following steps: acquiring an equipment monitoring and manufacturing control instruction through a webpage end rail transit equipment monitoring and manufacturing information control platform; calling an application service of an application layer according to the equipment monitoring control instruction to perform equipment monitoring transaction processing; and respectively sending the equipment monitoring transaction processing result to the presentation layer and the data layer so as to display and store the equipment monitoring transaction processing result. The invention constructs the webpage end rail transit equipment monitoring information control platform, controls the service flow of the equipment monitoring whole life cycle by calling the application services such as the equipment monitoring whole flow application service of the platform application layer, realizes paperless office work and equipment monitoring whole flow tracking and control, improves the efficiency and facilitates information searching or sharing. The invention can be widely applied to the field of rail transit.

Description

Webpage end rail transit equipment monitoring information control platform and implementation method thereof

Technical Field

The invention relates to the field of rail transit, in particular to a webpage-side rail transit equipment monitoring information control platform and an implementation method thereof.

Background

With the continuous development of informatization technology and computers, the informatization construction of rail transit is set as a necessary trend of industry development, which is beneficial to improving the management efficiency of rail transit, strengthening the cooperative cooperation of all the parts of rail transit construction and realizing the sharing of rail transit information. The equipment monitoring of station equipment and the like is the core and key of rail transit construction, and has very important significance on the development of rail transit.

The equipment monitoring of the rail transit generally comprises a series of complex processes such as equipment bidding, contact design, equipment manufacturing, factory acceptance, equipment transportation, equipment transfer, equipment installation, equipment testing, equipment maintenance and the like, and relates to numerous participants such as a proctoring party, an owner party, a designing party, a construction party, a transportation party, a supply party and the like, the data volume is large, certain logical relation exists among equipment monitoring data, and how to scientifically and effectively control the equipment monitoring information such as the processes, the data and the like becomes a technical problem to be urgently solved in the industry. At present, the equipment supervision in the field of rail transit still continues to use the traditional management mode of matching paper materials with manpower, information is inconvenient to search or share, a large amount of manpower and material resources are required to be input, the efficiency is low, and the tracking and control of the whole flow of the equipment supervision are difficult to realize.

Disclosure of Invention

To solve the above technical problem, an embodiment of the present invention aims to: the webpage end rail transit equipment monitoring information control platform and the implementation method thereof are provided to improve efficiency and realize tracking and control of the whole equipment monitoring process.

In a first aspect, the technical solution adopted in the embodiment of the present invention is:

a webpage end rail transit equipment monitoring information control platform comprises:

the basic layer is used for providing basic support for the webpage end;

the data layer is used for storing and controlling equipment monitoring data information;

the service layer is used for providing data and equipment monitoring business logic services, and the data and equipment monitoring business logic services comprise a building information model visualization service, a workflow engine service and an instant messaging and message reminding service;

the application layer is used for providing application services, and the application services comprise equipment monitoring full-flow application services;

the presentation layer is used for providing a visual interface as the support of the application layer on the client;

and the user layer is used for providing participation objects of equipment monitoring, and the participation objects of the equipment monitoring comprise a supervisor, an owner, a designer, a supplier, a transporter, an integrator, a commodity supplier and a constructor.

Further, the system also comprises a communication interface for internal and external data integration and interaction, and the application layer specifically comprises:

the equipment monitoring and manufacturing process control module is used for controlling the processes of equipment monitoring and manufacturing projects, wherein the processes of the equipment monitoring and manufacturing projects comprise a bidding control process, a contract control process, a design contact process, a prototype manufacturing process, an equipment manufacturing process, a delivery acceptance process, a transportation and storage control process, a box opening and installation process, a debugging acceptance process and a operation and maintenance process;

the project progress control module is used for counting and checking the progress of the equipment monitoring project;

the file data control module is used for controlling equipment monitoring project file data, the control of the equipment monitoring project file data comprises at least one of uploading, downloading, storing, classifying and online displaying, and the classification distinguishes and retrieves the equipment monitoring project files according to at least one of file names, file formats and modification time;

the project equipment control module is used for checking equipment in all contracts of equipment monitoring projects, inquiring the state of the equipment and updating and reminding the state of the equipment;

the process countersigning control module is used for inputting a countersigning table, initiating countersigning processes and automatically warehousing countersigning results according to the countersigning table;

the warehouse control module is used for monitoring equipment on a warehouse site and controlling warehouse access;

and the attendance module is used for checking the attendance of the personnel of the equipment monitoring project.

Further, the service layer specifically includes:

the building information model visualization platform is used for providing a visualization function of the equipment so as to check a three-dimensional image of the equipment on line and find out the collision problem between the pipeline and the equipment;

the workflow engine platform is used for initializing and scheduling the equipment monitoring process described by the workflow model, monitoring the execution of each task in the equipment monitoring process and performing human-computer interaction on occasions needing manual intervention;

and the instant messaging and message reminding module is used for realizing instant messaging of at least two parties and an object and carrying out message reminding.

Further, the webpage end rail transit equipment monitoring information control platform adopts a Net Framework design, and the base layer specifically comprises:

the setting module is used for setting parameters of the server and/or the network;

the server operating system module is used for providing a server operating system;

and the network Framework is used as the software operation environment Framework and provides the Internet information service.

And further, the service layer and the application layer are designed by adopting ASP.

Further, the presentation layer specifically includes:

the webpage end application interface module is used for displaying the webpage end application interface;

and the single sign-on module is used for providing single sign-on service.

Further, the data layer specifically includes:

the building information model base is used for storing the building information of the equipment monitoring project;

the drawing document library is used for storing drawing documents of the equipment monitoring project;

the video database is used for storing video data of the equipment monitoring project;

the business process library is used for storing the business processes of the equipment monitoring project;

the standard specification library is used for storing standard specifications of equipment manufacturing projects;

and the database server is used for managing and controlling the building information, drawing documents, video data, business processes and standard specifications of the equipment monitoring project, wherein the management and control comprises addition, deletion, modification, updating and searching.

In a second aspect, the technical solution adopted in the embodiment of the present invention is:

a method for realizing a webpage end rail transit equipment monitoring information control platform comprises the following steps:

the method comprises the steps that an equipment monitoring control instruction is obtained through a webpage end rail traffic equipment monitoring information control platform, the webpage end rail traffic equipment monitoring information control platform comprises a basic layer, a data layer, a service layer, an application layer, a presentation layer and a user layer, the basic layer provides basic support of a webpage end, the data layer stores and controls equipment monitoring data information, the service layer provides data and equipment monitoring business logic services, the data and equipment monitoring business logic services comprise building information model visualization service, workflow engine service and instant messaging and message reminding service, the application layer provides application services, the application services comprise equipment monitoring full-flow application service, and the presentation layer provides a visualization interface as support of the application layer at a client; the user layer provides participation objects of equipment monitoring, and the participation objects of the equipment monitoring comprise a supervisor, an owner, a designer, a supplier, a transporter, an integrator, a commodity supplier and a constructor;

calling an application service of an application layer according to the equipment monitoring control instruction to perform equipment monitoring transaction processing;

and respectively sending the equipment monitoring transaction processing result to the presentation layer and the data layer so as to display and store the equipment monitoring transaction processing result.

Further, the step of obtaining the device monitoring and manufacturing control instruction by the webpage end rail transit device monitoring and manufacturing information control platform specifically includes:

uploading login information to a presentation layer through a communication interface to perform login identity authentication;

uploading the input or triggered equipment monitoring control instruction to an application layer through a communication interface;

the communication interface is used for integrating and interacting internal and external data of the webpage end rail transit equipment monitoring information control platform.

Further, the step of calling the application service of the application layer to perform the device monitoring transaction according to the device monitoring control instruction specifically includes:

calling the equipment monitoring full-process application service according to the equipment monitoring control instruction so as to control the process of the equipment monitoring project, wherein the process of the equipment monitoring project comprises a bidding control process, a contract control process, a design contact process, a prototype manufacturing process, an equipment manufacturing process, a delivery acceptance check process, a transportation and storage control process, a box opening and installation process, a debugging acceptance check process and a operation and maintenance process;

calling project progress control application service according to the equipment monitoring control instruction so as to count and check the progress of the equipment monitoring project;

calling a file data control application service according to an equipment monitoring control instruction so as to control equipment monitoring project file data, wherein the equipment monitoring project file data control comprises at least one of uploading, downloading, storing, classifying and online displaying, and the classifying distinguishes and retrieves equipment monitoring project files according to at least one of file names, file formats and modification time;

calling project equipment control application service according to the equipment monitoring control instruction so as to check equipment in all contracts of the equipment monitoring project, inquire the state of the equipment and update and remind the state of the equipment;

calling a flow countersigning control application service according to the equipment monitoring control instruction so as to record a countersigning table, and initiating a countersigning flow and automatic warehousing of countersigning results according to the countersigning table;

calling a warehouse control application service according to the equipment monitoring control instruction so as to monitor equipment on a warehouse site and control warehouse entrance and exit;

and calling the attendance application service according to the equipment monitoring control instruction so as to carry out personnel attendance of the equipment monitoring project.

One or more of the above-described embodiments of the present invention have the following advantages: the embodiment of the invention constructs the webpage end rail transit equipment monitoring and manufacturing information control platform comprising six layers of a basic layer, a data layer, a service layer, an application layer, a presentation layer and a user layer, and controls the service process of the equipment monitoring and manufacturing whole life cycle by calling the application services such as the equipment monitoring and manufacturing whole-process application service of the platform application layer, thereby realizing paperless office work and equipment monitoring and manufacturing whole-process tracking and control, reducing manual participation, improving efficiency and facilitating information search or sharing.

Drawings

Fig. 1 is a diagram of a structure of a monitoring information control platform of a web-based rail transit device according to an embodiment of the present invention;

fig. 2 is a flowchart of an implementation method provided in the embodiment of the present invention.

Detailed Description

The invention will be further explained and explained with reference to the drawings and the embodiments in the specification. The step numbers in the following embodiments are provided only for convenience of illustration, the order between the steps is not limited at all, and the execution order of each step in the embodiments can be adapted according to the understanding of those skilled in the art.

The embodiment comprehensively applies the information and building information model BIM technology, designs the webpage-side rail transit equipment monitoring information control platform, controls the business process of the equipment monitoring and manufacturing whole life cycle by calling application services such as the equipment monitoring and manufacturing whole-process application service of the platform application layer, realizes paperless office work and equipment monitoring and manufacturing whole-process tracking and control, reduces manual participation, improves efficiency, and facilitates information searching or sharing. As shown in FIG. 1, the platform can be designed by adopting a Net Framework, and the safe operation of the platform is guaranteed through a safety guarantee system. The security guarantee system ensures the information security of the platform through means such as a firewall, antivirus software, access log retention, disaster recovery backup, identity identification authentication, authority management, UPS uninterrupted power supply and the like. As shown in fig. 1, the platform sequentially comprises a base layer, a data layer, a service layer, an application layer, a presentation layer and a user layer from a bottom layer to a top layer, and the layers are communicated and interacted with each other through a communication interface for data integration and interaction. The user layer or the presentation layer can also exchange data with the outside of the platform through the communication interface (for example, export the device monitoring processing result data generated by the platform, etc.). The communication interface may be a local area network interface, an ethernet communication interface, or the like.

The basic layer is used for providing basic support for the webpage end.

Preferably, as shown in fig. 1, the base layer specifically includes:

the setting module is used for setting parameters of the server and/or the network;

a server operating system module windows server 2008/2012 for providing a server operating system;

the network Framework + IIS is used for providing the network Framework which is used as the software operation environment Framework and provides the Internet information service IIS.

And the data layer is used for storing and controlling the equipment monitoring data information.

Preferably, as shown in fig. 1, the data layer specifically includes:

a building information model (i.e., BIM model) library for storing building information of the equipment manufacturing project;

the drawing document library is used for storing drawing documents of the equipment monitoring project;

a video database for storing video data of the equipment manufacturing project (the video data can be video data of an equipment manufacturing site, or test result data of an equipment testing site, etc.);

the business process library is used for storing the business processes of the equipment monitoring project;

the standard specification library is used for storing standard specifications of equipment manufacturing projects;

and the database Server Windows SOL Server 2008/2012 is used for managing and controlling the building information, drawing documents, video data, business processes and standard specifications of the equipment monitoring project, wherein the management and control comprises addition, deletion, modification, updating and searching.

NET MVC + Entity Framework can be adopted to construct the service layer and the application layer, and the service layer and the application layer belong to an intermediate layer between the data layer and the user layer.

And the service layer is used for providing data and equipment monitoring business logic services, and the data and equipment monitoring business logic services comprise a building information model visualization service, a workflow engine service and an instant messaging and message reminding service.

Preferably, the service layer specifically includes:

the building information model (namely BIM model) visualization platform is used for providing a visualization function of the equipment so as to check a three-dimensional image of the equipment on line and find out the collision problem between a pipeline and the equipment in time;

the workflow engine platform is used for initializing and scheduling the equipment monitoring process described by the workflow model, monitoring the execution of each task in the equipment monitoring process and performing human-computer interaction on occasions needing manual intervention; the workflow engine includes important functions of node management, flow direction management, process sample management and the like of the process.

And the instant messaging and message reminding module is used for realizing instant messaging of at least two parties and an object and carrying out message reminding. The instant messaging and message alert module provides a real-time communication system that allows two or more people to communicate text messages, files, voice and video in real time using a network.

And the application layer is used for providing application services, and the application services comprise equipment monitoring full-flow application services. The application services also comprise project progress control, file data control, equipment control, process countersign control, warehouse control attendance and other application services.

Preferably, the application layer specifically includes, corresponding to the application service:

the equipment monitoring and manufacturing flow control module is used for calling the flow of the equipment monitoring and manufacturing full-flow application service control equipment monitoring and manufacturing project, and the flow of the equipment monitoring and manufacturing project comprises a bidding control flow, a contract control flow, a design contact flow, a prototype manufacturing flow, an equipment manufacturing flow, a delivery acceptance check flow, a transportation and storage control flow, a box opening and installation flow, a debugging acceptance check flow and a operation and maintenance flow;

specifically, the bid control process is used for bid and bid management of the device monitoring project, including device bid file storage query, bid information query, electronic contract bid, bid result query, and the like.

The contract control flow is used for managing various contracts of the equipment monitoring project, including the management of contracts such as equipment contracts, design contracts, construction contracts and the like.

The design contact process is used for controlling the design contact stage of the equipment monitoring project, and comprises the steps of inquiring, storing and approving design files, checking and storing related design unit technical files (such as drawings, documents and tables) on line, and inquiring and storing design contact result files (such as meeting summary, parameter tables, point class tables, interface files, protocol files and engineering BIM models).

The model machine manufacturing process is used for controlling the model machine manufacturing stage of the equipment monitoring and manufacturing project and comprises the operations of inquiring, uploading, recording, storing and the like of data of a model machine scheme, a model machine production process, production equipment, a model machine acceptance process and the like.

The equipment manufacturing process is used for controlling the equipment manufacturing stage of the equipment monitoring project, and comprises operations such as production instruction below, production personnel qualification storage and query, production data storage and query, production progress monitoring and the like.

The factory acceptance process is used for controlling the acceptance stage of the equipment manufacturing project, and comprises the operations of inquiring and approving the acceptance scheme, uploading the acceptance result and related data and the like.

The transportation and storage control process is used for controlling the transportation and storage stages of the equipment monitoring project, and comprises operations of transportation process, transportation data inquiry, transportation process positioning and the like of the transportation stage, transportation equipment and the like, and operations of storage location inquiry, arrival inspection, equipment warehouse-in and warehouse-out inquiry, storage and the like of the storage stage.

And the unpacking and installing process is used for controlling the equipment unpacking stage and the equipment unpacking stage of the equipment monitoring and manufacturing project, and comprises the operations of equipment unpacking inspection and verification, equipment installation and recording and the like.

And the debugging and acceptance flow is used for controlling the equipment debugging stage and the equipment acceptance stage of the equipment monitoring project, and comprises equipment debugging record, uploading, storage and query, equipment acceptance record and acceptance data uploading, storage and query and the like.

And the operation and maintenance process is used for inquiring the equipment state, the equipment quality problem processing condition and the like.

The project progress control module is used for calling the project progress control application service to count and check the progress of the equipment monitoring project;

specifically, the progress of the equipment monitoring project comprises the progress of production, transportation, installation, debugging and the like of the equipment, the income and expenditure progress of the project money, the change progress and the like.

The file data control module is used for calling a file data control application service to control equipment monitoring project file data, the control of the equipment monitoring project file data comprises at least one of uploading, downloading, storing, classifying and online displaying, and the classifying distinguishes and retrieves the uploaded various files according to at least one of file name, file format and modification time;

the project equipment control module is used for calling project equipment control application service to check equipment to monitor equipment in all contracts of a project, inquire the state of the equipment and update and remind the state of the equipment;

specifically, the status of the querying device includes detailed information of the querying device such as production, transportation, installation, debugging, alteration, and the like.

The process countersigning control module is used for calling the process countersigning control application service to enter a countersigning table, and initiating a countersigning process and automatic warehousing of countersigning results according to the countersigning table;

specifically, the process countersigning control application service enables a user to actively initiate various countersigning processes through the platform: the equipment for logging in the platform monitors the countersigning table of the main work content, a user actively initiates countersigning after selecting according to needs, and the platform sends the countersigning table to each manager and continues countersigning processes. And after the flow is finished, automatically filing and warehousing the platform according to the countersign content or the name.

The warehouse control module is used for calling a warehouse control application service to monitor equipment of a warehouse site and control warehouse entry and exit;

specifically, the platform passes through communication interface with the camera of arranging at the warehouse scene and connects, and the real time monitoring equipment condition ensures equipment safety, and the platform can realize face identification function through the camera in addition, carries out automatic identification, all-round management warehouse to warehouse business turn over personnel.

And the attendance module is used for calling the attendance application service to check the attendance of the personnel of the equipment manufacturing project.

Specifically, the platform can carry out attendance setting of different stages to different users by calling the attendance application service, and attendance time and place can be freely set by a manager with management authority, so that the manager can conveniently manage executors.

And the presentation layer is used for providing a visual interface as a support of the application layer on the client, presenting the visual interface as a webpage end interface (accessible by a browser and the like), and interacting with the user layer through the webpage end.

Preferably, the presentation layer specifically comprises:

the webpage end application interface module is used for displaying the webpage end application interface, so that the interaction between a user layer and a presentation layer is facilitated;

and the single sign-on module is used for providing single sign-on service.

Specifically, the single sign-on module provides a unified sign-on service for the platform, so that the user only needs to log on once, and the method is more convenient.

And the user layer is used for providing participation objects of equipment monitoring, and the participation objects of the equipment monitoring comprise a supervisor, an owner, a designer, a supplier, a transporter, an integrator, a commodity supplier and a constructor.

Specifically, the user layer integrates each participating object of the equipment monitoring project for the platform, and can adapt to the requirements of different objects on each stage of the equipment monitoring project.

As can be seen from the above, the information and building information model BIM technology is comprehensively applied in this embodiment, a web-based traffic equipment monitoring information control platform including six layers, namely a base layer, a data layer, a service layer, an application layer, a presentation layer and a user layer, is designed, and the business process of the equipment monitoring whole life cycle can be controlled through application services such as an equipment monitoring whole-process application service provided by the application layer, so that paperless office work and equipment monitoring whole-process tracking and control are realized, manual participation is reduced, the work efficiency is improved, the operation is simple, convenient and intuitive, related information can be looked up at any time, and information sharing is facilitated.

Referring to fig. 2, an embodiment of the present invention further provides an implementation method for a webpage-side rail transit device monitoring information control platform, including the following steps:

s201, acquiring an equipment monitoring and manufacturing control instruction through a webpage end rail traffic equipment monitoring and manufacturing information control platform, wherein the webpage end rail traffic equipment monitoring and manufacturing information control platform comprises a base layer, a data layer, a service layer, an application layer, a presentation layer and a user layer, the base layer provides a base support of a webpage end, the data layer stores and controls equipment monitoring and manufacturing data information, the service layer provides data and equipment monitoring and manufacturing business logic services, the data and equipment monitoring and manufacturing business logic services comprise a building information model visualization service, a workflow engine service and an instant messaging and message reminding service, the application layer provides application services, the application services comprise an equipment monitoring and manufacturing full-flow application service, and the presentation layer provides a visualization interface as a support of the application layer at a client; the user layer provides participation objects of equipment monitoring, and the participation objects of the equipment monitoring comprise a supervisor, an owner, a designer, a supplier, a transporter, an integrator, a commodity supplier and a constructor;

preferably, step S201 may be specifically subdivided into the following steps:

s2011, uploading login information to a presentation layer through a communication interface to perform login identity authentication;

specifically, the login information may be a platform account and a password of the participating object, and after the login information is uploaded to the presentation layer, the single sign-on module acquires pre-stored registered login information from the data layer through the communication interface, and finally compares whether the uploaded login information is consistent with the pre-stored login information, thereby completing identity login authentication.

S2012, uploading the input or triggered equipment monitoring control instruction to an application layer through a communication interface;

specifically, the device monitoring control instruction may be input or triggered by a user of the user layer after login identity authentication according to a prompt of the presentation layer, and the instruction may be sent to the application layer through the communication interface.

The communication interface is used for integrating and interacting internal and external data of the webpage end rail transit equipment monitoring information control platform.

S202, calling an application service of an application layer to perform equipment monitoring transaction processing according to an equipment monitoring control instruction;

preferably, step S202 may be specifically subdivided into the following steps:

s2021, calling an equipment monitoring and manufacturing full-process application service according to an equipment monitoring and manufacturing control instruction equipment monitoring and manufacturing process control module to control the process of an equipment monitoring and manufacturing project, wherein the process of the equipment monitoring and manufacturing project comprises a bid calling and bidding control process, a contract control process, a design contact process, a prototype manufacturing process, an equipment manufacturing process, a delivery acceptance check process, a transportation and storage control process, a box opening and installation process, a debugging acceptance check process and a operation and maintenance process;

s2022, calling project progress control application services of the project progress control module according to the equipment monitoring control instruction so as to count and check the progress of the equipment monitoring project;

s2023, calling a file data control application service of the file data control module according to the equipment monitoring control instruction to control the equipment monitoring project file data, wherein the control of the equipment monitoring project file data comprises at least one of uploading, downloading, storing, classifying and online displaying, and the classification distinguishes and retrieves the equipment monitoring project files according to at least one of file names, file formats and modification time;

s2024, calling an equipment control application service of the project equipment control module according to the equipment monitoring control instruction so as to check the equipment in all contracts of the equipment monitoring project, inquire the state of the equipment and update and remind the state of the equipment;

s2025, calling a process countersigning control application service of the process countersigning control module according to the equipment monitoring control instruction so as to record a countersigning table, initiate a countersigning process according to the countersigning table and automatically store countersigning results;

s2026, calling a warehouse control application service of the warehouse control module according to the equipment monitoring control instruction so as to monitor equipment of a warehouse field and control warehouse entrance and exit;

and S2027, calling the attendance application service of the attendance module according to the equipment monitoring control instruction so as to check the attendance of the personnel of the equipment monitoring project.

And S203, respectively sending the device monitoring transaction processing result to the presentation layer and the data layer so as to display and store the device monitoring transaction processing result. Specifically, the embodiment can display and store the device monitoring transaction processing result to the data layer through the presentation layer, so that the participating object on the user layer can view and call the participating object at any time.

As can be seen from the above, after the device monitoring and manufacturing control instruction is obtained, the device monitoring and manufacturing full-flow application service and other application services of the web-end rail transit device monitoring and manufacturing information control platform application layer can be called to control the service flow of the device monitoring and manufacturing full life cycle, so that paperless office work and device monitoring and manufacturing full-flow tracking and control are realized, manual participation is reduced, the work efficiency is improved, the operation is simple, convenient and visual, relevant information can be looked up at any time, and information sharing is facilitated.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a webpage end rail transit equipment prison information control platform which characterized in that: the method comprises the following steps:

the basic layer is used for providing basic support for the webpage end;

the data layer is used for storing and controlling equipment monitoring data information;

the service layer is used for providing data and equipment monitoring business logic services, and the data and equipment monitoring business logic services comprise a building information model visualization service, a workflow engine service and an instant messaging and message reminding service;

the application layer is used for providing application services, and the application services comprise equipment monitoring full-flow application services;

the presentation layer is used for providing a visual interface as the support of the application layer on the client;

and the user layer is used for providing participation objects of equipment monitoring, and the participation objects of the equipment monitoring comprise a supervisor, an owner, a designer, a supplier, a transporter, an integrator, a commodity supplier and a constructor.

2. The platform for controlling the monitoring information of the webpage-side rail transit equipment according to claim 1, wherein: the system further comprises a communication interface for integrating and interacting internal and external data, and the application layer specifically comprises:

the equipment monitoring and manufacturing process control module is used for controlling the processes of equipment monitoring and manufacturing projects, wherein the processes of the equipment monitoring and manufacturing projects comprise a bidding control process, a contract control process, a design contact process, a prototype manufacturing process, an equipment manufacturing process, a delivery acceptance process, a transportation and storage control process, a box opening and installation process, a debugging acceptance process and a operation and maintenance process;

the project progress control module is used for counting and checking the progress of the equipment monitoring project;

the file data control module is used for controlling equipment monitoring project file data, the control of the equipment monitoring project file data comprises at least one of uploading, downloading, storing, classifying and online displaying, and the classification distinguishes and retrieves the equipment monitoring project files according to at least one of file names, file formats and modification time;

the project equipment control module is used for checking equipment in all contracts of equipment monitoring projects, inquiring the state of the equipment and updating and reminding the state of the equipment;

the process countersigning control module is used for inputting a countersigning table, initiating countersigning processes and automatically warehousing countersigning results according to the countersigning table;

the warehouse control module is used for monitoring equipment on a warehouse site and controlling warehouse access;

and the attendance module is used for checking the attendance of the personnel of the equipment monitoring project.

3. The platform for controlling the monitoring information of the webpage-side rail transit equipment according to claim 1, wherein: the service layer specifically includes:

the building information model visualization platform is used for providing a visualization function of the equipment so as to check a three-dimensional image of the equipment on line and find out the collision problem between the pipeline and the equipment;

the workflow engine platform is used for initializing and scheduling the equipment monitoring process described by the workflow model, monitoring the execution of each task in the equipment monitoring process and performing human-computer interaction on occasions needing manual intervention;

and the instant messaging and message reminding module is used for realizing instant messaging of at least two parties and an object and carrying out message reminding.

4. The platform for controlling the monitoring information of the webpage-side rail transit equipment according to claim 1, wherein: the webpage end rail transit equipment monitoring information control platform adopts a Net Framework architecture design, and the basic layer specifically comprises: the setting module is used for setting parameters of the server and/or the network;

the server operating system module is used for providing a server operating system;

and the network Framework is used as the software operation environment Framework and provides the Internet information service.

5. The platform of claim 4, wherein the platform comprises: NET MVC and Entity Framework design is adopted in the service layer and the application layer.

6. The web-page end rail transit equipment monitoring information control platform according to any one of claims 1 to 5, characterized in that: the presentation layer specifically includes:

the webpage end application interface module is used for displaying the webpage end application interface;

and the single sign-on module is used for providing single sign-on service.

7. The web-page end rail transit equipment monitoring information control platform according to any one of claims 1 to 5, characterized in that: the data layer specifically includes:

the building information model base is used for storing the building information of the equipment monitoring project;

the drawing document library is used for storing drawing documents of the equipment monitoring project;

the video database is used for storing video data of the equipment monitoring project;

the business process library is used for storing the business processes of the equipment monitoring project;

the standard specification library is used for storing standard specifications of equipment manufacturing projects;

and the database server is used for managing and controlling the building information, drawing documents, video data, business processes and standard specifications of the equipment monitoring project, wherein the management and control comprises addition, deletion, modification, updating and searching.

8. A method for realizing a webpage end rail transit equipment monitoring information control platform is characterized by comprising the following steps: the method comprises the following steps:

the method comprises the steps that an equipment monitoring control instruction is obtained through a webpage end rail traffic equipment monitoring information control platform, the webpage end rail traffic equipment monitoring information control platform comprises a basic layer, a data layer, a service layer, an application layer, a presentation layer and a user layer, the basic layer provides basic support of a webpage end, the data layer stores and controls equipment monitoring data information, the service layer provides data and equipment monitoring business logic services, the data and equipment monitoring business logic services comprise building information model visualization service, workflow engine service and instant messaging and message reminding service, the application layer provides application services, the application services comprise equipment monitoring full-flow application service, and the presentation layer provides a visualization interface as support of the application layer at a client; the user layer provides participation objects of equipment monitoring, and the participation objects of the equipment monitoring comprise a supervisor, an owner, a designer, a supplier, a transporter, an integrator, a commodity supplier and a constructor;

calling an application service of an application layer according to the equipment monitoring control instruction to perform equipment monitoring transaction processing;

and respectively sending the equipment monitoring transaction processing result to the presentation layer and the data layer so as to display and store the equipment monitoring transaction processing result.

9. The implementation method of the website-side rail transit equipment monitoring information control platform according to claim 8, characterized in that: the step of acquiring the equipment monitoring control instruction through the webpage end rail transit equipment monitoring information control platform specifically comprises the following steps:

uploading login information to a presentation layer through a communication interface to perform login identity authentication;

uploading the input or triggered equipment monitoring control instruction to an application layer through a communication interface;

the communication interface is used for integrating and interacting internal and external data of the webpage end rail transit equipment monitoring information control platform.

10. The implementation method of the website-side rail transit equipment monitoring information control platform according to claim 8, characterized in that: the step of calling the application service of the application layer to perform the device monitoring transaction according to the device monitoring control instruction specifically includes:

calling the equipment monitoring full-process application service according to the equipment monitoring control instruction so as to control the process of the equipment monitoring project, wherein the process of the equipment monitoring project comprises a bidding control process, a contract control process, a design contact process, a prototype manufacturing process, an equipment manufacturing process, a delivery acceptance check process, a transportation and storage control process, a box opening and installation process, a debugging acceptance check process and a operation and maintenance process;

calling project progress control application service according to the equipment monitoring control instruction so as to count and check the progress of the equipment monitoring project;

calling a file data control application service according to an equipment monitoring control instruction so as to control equipment monitoring project file data, wherein the equipment monitoring project file data control comprises at least one of uploading, downloading, storing, classifying and online displaying, and the classifying distinguishes and retrieves equipment monitoring project files according to at least one of file names, file formats and modification time;

calling project equipment control application service according to the equipment monitoring control instruction so as to check equipment in all contracts of the equipment monitoring project, inquire the state of the equipment and update and remind the state of the equipment;

calling a flow countersigning control application service according to the equipment monitoring control instruction so as to record a countersigning table, and initiating a countersigning flow and automatic warehousing of countersigning results according to the countersigning table;

calling a warehouse control application service according to the equipment monitoring control instruction so as to monitor equipment on a warehouse site and control warehouse entrance and exit;

and calling the attendance application service according to the equipment monitoring control instruction so as to carry out personnel attendance of the equipment monitoring project.

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