CN108664370B - Distributed industrial on-line configuration monitoring system and method - Google Patents

Abstract

The invention relates to the technical field of industrial automation software, and discloses a distributed industrial online configuration monitoring system and method. The system comprises: the system comprises a configuration server, a configuration client, a monitoring client and a database, wherein the configuration server is used for providing WEB service and configuration file management for the configuration client and the monitoring client; the configuration client is used for providing a configuration development environment, carrying out picture configuration according to the measuring point data of the database and/or the configuration file of the configuration server to generate a corresponding first configuration file, and storing the first configuration file to the configuration server; the monitoring client is used for providing a configuration operation environment, analyzing the first configuration file in the configuration server according to the measuring point list of the database, and displaying a corresponding configuration result. The invention can realize the on-line monitoring and analysis of the configuration result of each industrial field through the configuration client and the browser of the monitoring client.

Description

Distributed industrial on-line configuration monitoring system and method

Technical Field

The invention relates to the technical field of industrial automation software, in particular to a distributed industrial online configuration monitoring system and a distributed industrial online configuration monitoring method.

Background

Industrial configuration software products appeared in the early 80 s and entered our country in the late 80 s. With the deep application of industrial control systems, people gradually realize that the original development mode of upper computer programming is time-consuming, labor-consuming and unreliable for projects when facing control systems with larger scales and more complex control. Meanwhile, with the large application of Management Information systems (Management Information systems) and Computer Integrated Manufacturing systems (Computer Integrated Manufacturing systems), the industrial site is required to provide more detailed and deep data for the production, operation and decision of enterprises so as to optimize each link in the production and operation of the enterprises. Therefore, after 1995, the use of configuration software has gradually gained popularity in domestic applications.

The configuration software refers to special software for data acquisition and process control, and is a software platform and a development environment at the level of a monitoring layer of an automatic control system, and a flexible configuration mode is used to provide a software tool for quickly constructing a monitoring function and a general level of an industrial automatic control system for a user. An automatic engineering designer builds a configuration model according to the field equipment condition or a design drawing, visually draws the controlled equipment and the related equipment to the appointed position in the configuration drawing in the form of a two-dimensional or three-dimensional flow chart and the like, and simultaneously associates a large number of data measuring points of an industrial field to the corresponding positions in the drawing through measuring point names, thereby realizing the logical connection of the attribute of the controlled object and the real-time data acquisition.

At present, dozens of industrial configuration software appear at home and abroad, the international famous applications include Fix and iFix of American intelligention company, InTouch of Wonderware company, WinCC of Simens company, RSView32 of Rock-well company, and the domestic applications include configuration king, three-dimensional force control and the like. With the continuous expansion of the scale of production enterprises and the rapid development of configuration software, people do not meet the application of the configuration software in the aspect of rapid construction of a traditional human-computer interface HMI (human machine interface), but are expected to expand the application of the configuration software to the aspects of enterprise information management and control integration, remote diagnosis and maintenance, distributed configuration and the like.

Disclosure of Invention

The invention aims to provide a distributed industrial on-line configuration monitoring system and a distributed industrial on-line configuration monitoring method, wherein the system can monitor and analyze configuration pictures, real-time animations and data of each industrial site on line only through a configuration client and a browser of a monitoring client.

In order to achieve the above object, the present invention provides a distributed industrial online configuration monitoring system, which includes: the system comprises a configuration server, a configuration client, a monitoring client and a database, wherein the database is used for providing measuring point data and a measuring point list; the configuration server is used for providing WEB service and configuration file management for the configuration client and the monitoring client; the configuration client is used for providing a configuration development environment, carrying out picture configuration according to the measuring point data provided by the database and/or the configuration file provided by the configuration server to generate a corresponding first configuration file, and storing the first configuration file to the configuration server; the monitoring client is used for providing a configuration operation environment, analyzing the first configuration file in the configuration server according to the measuring point list provided by the database, and displaying a corresponding configuration result.

Optionally, the configuration server is further configured to provide management for the component library, and the configuration client is further configured to call the primitives in the component library in the process of performing screen configuration.

Optionally, the configuration file and the first configuration file include a shared file and a personal file.

Optionally, the configuration client edits the shared file by controlling through a locking technology.

Optionally, the configuration result includes a configuration picture, a real-time variation trend of the measurement point data, and a historical variation trend of the measurement point data.

Optionally, the monitoring client is further configured to alarm in real time when the measurement point data exceeds a preset range.

Correspondingly, the invention also provides a distributed industrial online configuration monitoring method, which comprises the following steps: providing a configuration development environment at a configuration client, carrying out picture configuration according to measuring point data provided by a database and/or a configuration file provided by a configuration server to generate a corresponding first configuration file, and storing the first configuration file to the configuration server; and providing a configuration operation environment at the monitoring client, analyzing the first configuration file in the configuration server according to the measuring point list provided by the database, and displaying a corresponding configuration result.

Optionally, the performing the screen configuration according to the measurement point data provided by the database and/or the configuration file provided by the configuration server includes: providing component library management at the configuration server; and calling the graphics primitives in the component library in the process of carrying out picture configuration by the configuration client.

Optionally, the configuration file and the first configuration file include a shared file and a personal file.

Optionally, the method further includes: and editing the shared file by locking technology control.

Optionally, the configuration result includes a configuration picture, a real-time variation trend of the measurement point data, and a historical variation trend of the measurement point data.

Optionally, the method further includes: and under the condition that the measuring point data exceeds a preset range, giving an alarm in real time.

Through the technical scheme, the method creatively generates the corresponding first configuration file by carrying out the picture configuration through the configuration client, analyzes the first configuration file and displays the corresponding configuration result through the monitoring client, namely, the configuration pictures, real-time animations and data of each industrial field can be monitored and analyzed on line only through the configuration client and the browser of the monitoring client, and further the production condition of the industrial field is remotely monitored.

Drawings

FIG. 1 is a flow chart of a distributed industrial on-line configuration monitoring system according to an embodiment of the present invention;

FIG. 2 is a block diagram of a distributed industrial on-line configuration monitoring system according to an embodiment of the present invention; and

fig. 3 is a flowchart of a distributed industrial online configuration monitoring method according to an embodiment of the present invention.

Description of the reference numerals

1 configuration server and 2 configuration client

3 monitoring client 4 database

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

Fig. 1 is a diagram illustrating a distributed industrial on-line configuration monitoring system according to an embodiment of the present invention. As shown in fig. 1, the distributed industrial online configuration monitoring system provided by the present invention may include: the system comprises a configuration server 1, a configuration client 2, a monitoring client 3 and a database 4, wherein the database 4 is used for providing measuring point data and a measuring point list; the configuration server 1 is used for providing WEB service and configuration file management for the configuration client 2 and the monitoring client 3; the configuration client 2 is configured to provide a configuration development environment, perform screen configuration according to the measurement point data provided by the database 4 and/or the configuration file provided by the configuration server 1 to generate a corresponding first configuration file, and store the first configuration file to the configuration server 1; the monitoring client 3 is configured to provide a configuration operating environment, analyze the first configuration file in the configuration server 1 according to the measurement point list provided by the database 4, and display a corresponding configuration result. Wherein the configuration file and the first configuration file comprise a shared file and a personal file. The system can monitor and analyze the configuration pictures, real-time animations and data of each industrial site on line only through the configuration client and the browser of the monitoring client.

Fig. 2 is a structural diagram of a distributed industrial on-line configuration monitoring system according to the present invention. As shown in FIG. 2, the station data provided by the database 4 can include real-time data and historical data, and the station data is stored in the database 4 in the form of station IDs and corresponding station values. In addition, the database 4 can also provide station management, mainly including management of station lists (including correspondence between station names and station IDs). The database 4 may include a Redis database, which is a journal-type and Key-Value database that may also be persistent based on memory, and supports storage of multiple Value types including character type, chain phenotype, aggregate type, and ordered aggregate, and thus is suitable for storing data with large data volume, high real-time requirement, and frequent update. To reduce the storage space, Value in the Redis database 30 stores binary data in Protocol Buffer format of Google corporation. The Protocol Buffer is a lightweight and efficient structured data storage format, and compared with a traditional character format, the Protocol Buffer is small in size, small in occupied space and high in data exchange efficiency. The binary data stored in the Redis database 30 has good encryption, so that the Redis database is more suitable for storing data with higher security and confidentiality requirements. The database of the invention is not limited to the Redis database, and other databases with large data storage amount, high real-time performance and frequent updating are also feasible.

The configuration server 1 can provide WEB services, user right management, component library management, configuration file management, and configuration file distribution to the configuration client 2 and the monitoring client 3, as shown in fig. 2. The WEB service may include access services of the configuration client 2 and the monitoring client 3. The user right management may include controlling access rights of the login user of the configuration client 2 to the configuration file and controlling access rights of the login user of the monitoring client 3 to the monitoring screen, for example, it may be set that a group level user has access rights to the configuration file and the monitoring screen of the group, a company level user has access rights to the configuration file and the monitoring screen of the company, and a power plant level user has access rights to the configuration file and the monitoring screen of the power plant. In this case, only group-level users can access the configuration files and monitoring screens of any company and/or any power plant in the group, and users below the group level, such as company-level users, can only access the configuration files and monitoring screens of any power plant in the company, but cannot access the configuration files and monitoring screens of other companies in the group. By the user authority management, the hierarchical management of the configuration files can be realized. The component library management method comprises the steps of presetting component libraries such as a general component, an arrow component, a pipeline component, a thermal power equipment component, a chemical processing component and the like, and performing personalized maintenance on the component libraries. The configuration file management can include storing configuration files of users (group, company, power plant and other users) at all levels in a configuration project format, and distributing the configuration project compiled by the configuration client 2 to corresponding directories in the configuration server 1 according to the authority of the users at all levels; at this time, the configuration client 2 and the browser of the monitoring client 3 (which may include common browsers such as internet explorer (r) from microsoft corporation and Chrome from Google corporation) are added with corresponding menus. The configuration file issuing may include issuing a new configuration file parsed by the monitoring client 3 to the configuration server 1, so as to update the configuration information. The browser of the present invention is not limited to the above listed common browsers such as the IE from Microsoft corporation and the Chrome from Google corporation, but other browsers such as Firefox, Baidu and 360 are also feasible.

The user authority management provided by the configuration server 1 to the configuration client 2 can realize the access authority control of the login user of the configuration client 2 on the configuration file. When the configuration server 1 sets the user permissions at different levels, for example, a group user may access a configuration file from a local group in the configuration server 1 at the configuration client 2. As shown in fig. 2, when accessing configuration files in the group, users in the group have authority to manage the configuration files, that is, authority to manage personal files and shared files is included. First, for the personal file of the configuration file, it is only visible to a certain group level user a itself, and only allows the group level user a to edit (including create and/or modify). Only when the group level user a changes the personal file into a shared file, the other group level users B can see the shared file, and if the group level user B wants to edit the shared file, the shared file needs to be reset and stored as a corresponding personal file, and then the editing is performed. Secondly, for the shared file, the configuration client 2 can control the user to edit the shared file through the locking technology. For example, only a certain group level user a may be allowed to edit the shared file in the configuration files from the local group in the configuration server 1 through a locking technique, and other group level users except the group level user a cannot edit the shared file and can only view the shared file. Therefore, the read-write control management of the shared file of multiple users can be realized by the locking technology

The configuration client 2 can provide a configuration development environment, and can perform screen configuration according to the measurement point data provided by the database 4 to generate a corresponding first configuration file, and/or only group-level users can perform screen configuration according to the configuration file of any company or any power plant in the group provided by the configuration server 1 to generate a corresponding first configuration file under the condition that the configuration server 1 sets the user permissions at all levels. As shown in fig. 2, the screen configuration process includes the following steps: designing a configuration picture; flow animation drawing; setting attributes of each drawn component, including connecting measuring points, constructing variables, defining events, writing Javascript (JS) scripts, defining component appearance and the like; and file compilation. The file compiling is to perform preprocessing on the configuration client to generate a format file, such as a file in SVG format, which can be parsed and accessed by the monitoring client 3. The file in the SVG format has the characteristics of small storage space, no distortion in the network transmission process, no distortion in amplification, good real-time property, capability of being used under the general network condition and the like. Then, the first configuration file in the SVG format is stored in the configuration server 1, and after the configuration server 1 manages the configuration file, the configuration client 2 and the monitoring client 3 both generate corresponding menus on their browsers.

In the process of performing screen configuration, the configuration client 2 may also call the graphics primitives of various components in the component library in the configuration server 1 to perform screen configuration. The process of directly calling the graphics primitives in the assembly library to carry out the picture configuration can save the time of configuration workers and greatly improve the working timeliness. If the shared file needs to be edited, a certain user with the authority set through the locking technology can edit the shared file in an exclusive mode.

The monitoring client 3 can provide a configuration running environment, for example, when the configuration server 1 sets the user permissions at each level and the configuration client 2 generates the first configuration file in the SVG format and stores the first configuration file in the configuration server 1, only a group-level user can replace the corresponding measurement point ID in the first configuration file with the measurement point name according to the measurement point list (the corresponding relationship between the measurement point name and the measurement point ID) provided by the database 4 under a menu corresponding to a browser, and display a corresponding configuration result. The configuration result includes a configuration picture, a real-time change trend of the measured point data, a historical change trend of the measured point data, and real-time alarming and processing, as shown in fig. 2. If the configuration client 2 adopts real-time data in the database 4, the configuration result analyzed and displayed by the monitoring client 3 is the real-time change trend of the measuring point data; if the historical data in the database 4 is adopted by the configuration client 2, the configuration result analyzed and displayed by the monitoring client 3 is the historical change trend of the measuring point data. In addition, when the measurement point data exceeds the preset range, the monitoring client 3 can also give an alarm in real time to prompt configuration staff to process in time.

In addition, the configuration staff can modify the generated configuration screen online through the browser of the configuration client 2, and then automatically update and generate a new configuration result at the monitoring client 3. The operation process of modifying the configuration picture is simple and convenient, and the time efficiency is saved.

The system realizes the hierarchical management of the configuration files by setting the access rights of different users to the configuration client and the monitoring client, can be used for large-scale and multistage-management industrial configuration users, is suitable for centralized deployment, and is distributed for use by all levels of management users, so that all levels of management personnel can monitor the production condition of a remote industrial field in an office.

In summary, the present invention creatively performs the screen configuration through the configuration client and analyzes and displays the corresponding configuration result through the monitoring client, and the configuration screen, the real-time animation and the data of each industrial site can be monitored and analyzed on line only through the configuration client and the browser of the monitoring client without setting the configuration software, thereby realizing the remote monitoring of the production condition of the industrial site.

Accordingly, as shown in fig. 3, the present invention further provides a distributed industrial online configuration monitoring method, which includes: providing a configuration development environment at a configuration client, carrying out picture configuration according to measuring point data provided by a database and/or a configuration file provided by a configuration server to generate a corresponding first configuration file, and storing the first configuration file to the configuration server; and providing a configuration operation environment at the monitoring client, analyzing the first configuration file in the configuration server according to the measuring point list provided by the database, and displaying a corresponding configuration result.

Optionally, the performing the screen configuration according to the measurement point data provided by the database and/or the configuration file provided by the configuration server includes: providing component library management at the configuration server; and calling the graphics primitives in the component library in the process of carrying out picture configuration by the configuration client.

Optionally, the configuration file and the first configuration file include a shared file and a personal file.

Optionally, the method further includes: and editing the shared file by locking technology control.

Optionally, the configuration result includes a configuration picture, a real-time variation trend of the measurement point data, and a historical variation trend of the measurement point data.

Optionally, the method further includes: and under the condition that the measuring point data exceeds a preset range, giving an alarm in real time.

For specific details and benefits of the distributed industrial online configuration monitoring method provided by the present invention, reference may be made to the above description of the distributed industrial online configuration monitoring system, which is not described herein again.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the specific details of the above embodiments, and various simple modifications can be made to the technical solution of the present invention within the technical idea of the present invention, and these simple modifications are within the protective scope of the present invention.

It should be noted that the various features described in the above embodiments may be combined in any suitable manner without departing from the scope of the invention. The invention is not described in detail in order to avoid unnecessary repetition.

In addition, any combination of the various embodiments of the present invention is also possible, and the same should be considered as the disclosure of the present invention as long as it does not depart from the spirit of the present invention.

Claims (12)

1. A distributed industrial on-line configuration monitoring system is characterized in that the system comprises a configuration server, a configuration client, a monitoring client and a database,

the database is used for providing measuring point data and a measuring point list, wherein the measuring point list comprises a corresponding relation between a measuring point name and a measuring point ID;

the configuration server is used for providing WEB service and configuration file management for the configuration client and the monitoring client;

the configuration client is used for providing a configuration development environment, carrying out picture configuration according to the measuring point data provided by the database and/or the configuration file provided by the configuration server to generate a corresponding first configuration file, and storing the first configuration file to the configuration server;

the monitoring client is used for providing a configuration operation environment, analyzing the first configuration file in the configuration server according to the measuring point list provided by the database, and displaying a corresponding configuration result.

2. The distributed industrial online configuration monitoring system according to claim 1, wherein the configuration server is further configured to provide component library management, and the configuration client is further configured to call up the graphics primitives in the component library during screen configuration.

3. The distributed industrial on-line configuration monitoring system according to claim 1, wherein the configuration file and the first configuration file comprise a shared file and a personal file.

4. The distributed industrial on-line configuration monitoring system according to claim 3, wherein the configuration client controls editing of the shared file through a locking technique.

5. The distributed industrial online configuration monitoring system according to claim 1, wherein the configuration result comprises a configuration picture, a real-time variation trend of the measured point data and a historical variation trend of the measured point data.

6. The distributed industrial online configuration monitoring system according to claim 1, wherein the monitoring client is further configured to alarm in real time when the measurement point data exceeds a preset range.

7. A distributed industrial on-line configuration monitoring method is characterized by comprising the following steps:

providing a configuration development environment at a configuration client, carrying out picture configuration according to measuring point data provided by a database and/or a configuration file provided by a configuration server to generate a corresponding first configuration file, and storing the first configuration file to the configuration server; and

providing a configuration operation environment at a monitoring client, analyzing the first configuration file in the configuration server according to a measuring point list provided by the database, and displaying a corresponding configuration result, wherein the measuring point list comprises a corresponding relation between a measuring point name and a measuring point ID.

8. The distributed industrial online configuration monitoring method according to claim 7, wherein the performing screen configuration according to the measurement point data provided by the database and/or the configuration file provided by the configuration server includes:

providing component library management at the configuration server; and

and calling the graphics primitives in the component library in the process of carrying out picture configuration by the configuration client.

9. The distributed industrial online configuration monitoring method according to claim 7, wherein the configuration file and the first configuration file comprise a shared file and a personal file.

10. The distributed industrial on-line configuration monitoring method according to claim 9, further comprising: and editing the shared file by locking technology control.

11. The distributed industrial online configuration monitoring method according to claim 7, wherein the configuration result includes a configuration picture, a real-time variation trend of the measured point data, and a historical variation trend of the measured point data.

12. The distributed industrial online configuration monitoring method of claim 7, further comprising: and under the condition that the measuring point data exceeds a preset range, giving an alarm in real time.

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