WO2022156316A1 - 支持异构环境的组态方法及系统 - Google Patents
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Definitions
- the embodiments of the present application relate to the technical field of device configuration, and in particular, to a configuration method and system for supporting heterogeneous environments.
- the traditional configuration (including PC and IE) basically collects data according to OPC standard specifications, and OPC is a standard data access mechanism based on Microsoft platform technology, so OPC technology is used on Microsoft Windows platform.
- the OPC specification can establish a complete "rule" between hardware suppliers and software developers. As long as this set of rules is followed, data interaction is transparent to both, and hardware suppliers do not need to consider the variety of applications. requirements and transmission protocols; at the same time, software developers do not need to understand the essence and operation process of hardware; the task of interface is completed by hardware manufacturers or third-party manufacturers and provided to users in the form of OPC, which solves the contradiction between software and hardware manufacturers and completes the system. Integration improves the openness and interoperability of the system.
- OPC defines an open interface over which PC-based software components can exchange data. It is based on OLE (Object Linking and Embedding), COM (Component Object Model, Component Object Model) and DCOM (Distributed COM, Distributed COM) technology based on Windows system; OPC standard is actually based on Microsoft platform technology: OLE ( ActiveX now)
- OPC client uses the OPC technology, it must rely on the Microsoft Windows platform and run on the Windows platform, but cannot run on the Linux platform, or even on the popular mobile Android and iOS systems. .
- the embodiments of the present application provide a configuration method and system for supporting heterogeneous environments, so as to solve the problem that configuration programs in the prior art all need to rely on the Microsoft Windows platform and cannot run on other platforms.
- an embodiment of the present application provides a configuration system supporting a heterogeneous environment, including: a configuration monitoring platform and a configuration configuration platform; the configuration monitoring platform includes heterogeneous equipment, a data acquisition system, and a multi- a heterogeneous platform, the heterogeneous platform includes a display platform;
- the configuration configuration platform is used to configure the device configuration page
- the data acquisition system is used to establish a Websocket connection with the display platform
- the data acquisition system is used to collect the device data of the heterogeneous devices, process them, and send them to the display platform through the Websocket connection;
- the display platform is used to receive the device data, call the rule file preset by the configuration configuration platform, display the device data on the configuration page, obtain a configuration monitoring page and display it on the display platform .
- heterogeneous platforms include: one or more of a Windows platform, a Linux platform, an Android platform, and an iOS platform;
- heterogeneous devices include: one or more of power devices, environmental control devices, and electromechanical devices .
- an embodiment of the present application provides a configuration method for supporting a heterogeneous environment, including:
- the configuration configuration platform configures the device configuration page
- the data acquisition system establishes a Websocket connection with the display platform
- the data acquisition system collects and processes the device data of the heterogeneous devices and sends it to the display platform through the Websocket connection;
- the display platform receives the device data, invokes a rule file preset by the configuration configuration platform, displays the device data on the configuration page, obtains a configuration monitoring page, and displays it on the display platform.
- configuration configuration platform configuration device configuration page includes:
- the configuration configuration platform receives the set icon, and forms a device icon corresponding to the icon by editing; wherein, each of the device icons corresponds to a device type;
- the device icons are configured on the same page by means of setting, and a configuration page is formed; wherein, the configured device icons form a configuration icon, and each of the configuration icons corresponds to a type of device category;
- the configuration page is edited and run on multiple display platforms.
- configuration page is edited and run on multiple display platforms, it also includes:
- the configuration configuration platform uses the 2D and 3D graphics characteristics of HTML5 technology to process the configuration page through the B/S structure, and obtains a configuration page supporting 2D and 3D effects.
- the described configuration configuration platform uses the 2D and 3D graphics features of HTML5 technology to process the configuration page through the B/S architecture to obtain a configuration page that supports 2D and 3D effects, including:
- the configuration configuration platform loads the configuration page containing the configuration icon through the B/S architecture
- the API interface is called to complete the drawing of the configuration icon, and the configuration page that supports 2D and 3D effects is obtained, and the configuration page module is loaded to complete the display of the configuration page.
- the display platform receives the device data, calls the rule file preset by the configuration configuration platform, displays the device data on the configuration page, obtains a configuration monitoring page, and displays it on the display.
- platform including:
- the display platform receives the device data, calls the preset rule file of the configuration configuration platform, and performs operations according to the rules of the configuration icons, and displays the operation results on the configuration interface in a graphical manner, so that the group The icon color and shape of the status interface changes in real time, and the obtained configuration monitoring page is displayed on the display platform;
- the changed data is pushed to the display platform; the display platform receives the changed data, processes it according to the rules of the configuration icon, and obtains a corresponding configuration monitoring page, The effect display of the configuration monitoring page is completed.
- the data collection system collects and processes the device data of the heterogeneous devices and sends it to the display platform through the Websocket connection, including:
- the data acquisition system collects the data of heterogeneous devices through the bus, and then performs cleaning, correlation, real-time statistics and conversion processing to obtain unified structured data, which is sent to the display platform.
- the data acquisition system establishes a Websocket connection with the display platform, including:
- the display platform sends a request for establishing a Websocket connection to the data acquisition system, and the data acquisition system receives and agrees to the request, and the connection is successful;
- the display platform subscribes the device data in the configuration page to the data acquisition system, and the subscription is successful when the data acquisition system receives the subscription information.
- the data collection system collects the equipment data of the heterogeneous equipment, including:
- the status information and alarm data of heterogeneous devices are collected through the data collection system.
- connection between the data acquisition system and the display platform is established by using the Websocket communication protocol independent of the network and the operating system, and the device data collected by the data acquisition system is sent to the display platform for configuration and display.
- the Websocket communication protocol has nothing to do with the platform type.
- Fig. 2 is a configuration system architecture diagram provided by an embodiment of the present application.
- Fig. 3 is the architecture diagram of the data acquisition system acquisition device data provided by the embodiment of the present application.
- FIG. 4 is a flowchart of a configuration method for supporting a heterogeneous environment provided by an embodiment of the present application
- FIG. 5 is a flowchart of another configuration method for supporting a heterogeneous environment provided by an embodiment of the present application.
- FIG. 6 is a schematic diagram of a device icon provided by an embodiment of the present application.
- Fig. 7 is the running effect diagram of the display platform configuration page provided by the embodiment of the present application.
- FIG. 8 is a flowchart of another configuration method for supporting a heterogeneous environment provided by an embodiment of the present application.
- Heterogeneous environment refers to an environment composed of computers and systems produced by different manufacturers. These computer systems run different operating systems and communication protocols.
- Configuration is the process of using the tools and methods provided in the application software to complete a specific task in the project.
- Configuration software refers to some special software for data acquisition and process control. It is a software platform and development environment at the monitoring level of the automatic control system for supervisory control and data acquisition (SCADA).
- SCADA supervisory control and data acquisition
- the state mode (instead of the programming mode) provides a good user development interface and a simple method of use, and its preset various software modules can easily realize and complete the functions of the monitoring layer, and can support various hardware manufacturers at the same time. Combined with highly reliable industrial computer and network system, it can provide all interfaces of software and hardware to the control layer and management layer for system integration.
- OPC Object Linking and Embedding
- OPC Object Linking and Embedding
- the OPC specification is developed from OLE (now ActiveX)/COM/DCOM technology, and establishes a unified standard for the development of object-oriented industrial automation software with C/S mode. A method for automated real-time exchange of data between clients. After adopting the OPC standard, the driver is no longer developed by the software developer, but the hardware developer encapsulates each hardware device driver and communication program into a data server that can run independently or embedded according to the characteristics of the hardware.
- OLE is Microsoft's object-oriented mechanism for application integration. OLE introduced the concept of compound document, the so-called compound document refers to the object that contains another application program in one document.
- COM is the abbreviation of Component Object Model. It is a new software development technology developed by Microsoft for software production in the computer industry that is more in line with human behavior. It is about how to build components and how to build them through components. A specification for an application that describes how components can be dynamically and alternately updated.
- DCOM Distributed Component Object Model
- COM Component Object Model
- ActiveX controls are part of Microsoft's ActiveX technology. ActiveX controls are program objects that can be reused on computers in applications and networks. The main technology behind its creation is Microsoft's ActiveX technology, chief among which is the Component Object Model (COM). ActiveX controls can be downloaded and loaded into web pages as applets, and can also be used in a general Windows application environment.
- COM Component Object Model
- WebSocket is a protocol for full-duplex communication over a single TCP connection. WebSocket makes data exchange between client and server easier, allowing the server to actively push data to the client. In the WebSocket API, the browser and the server only need to complete a handshake, and a persistent connection can be created directly between the two, and two-way data transmission can be performed.
- HTML5 It is a language description method for constructing Web content; HTML5 is the next-generation standard of the Internet, a language method for constructing and presenting Internet content; it is considered to be one of the core technologies of the Internet.
- the system supporting the configuration of the heterogeneous environment establishes the connection between the data acquisition system and the display platform by using the Websocket communication protocol independent of the network and the operating system, and sends the device data collected by the data acquisition system to the display platform for configuration.
- the Websocket communication protocol has nothing to do with the platform type, realizes the cross-platform configuration, solves the problem that the traditional configuration can only run on the Windows platform, displays the same configuration on different platforms, realizes page unity and reduces development. workload and improve development efficiency.
- the traditional configuration (including PC and IE) basically collects data according to OPC standard specifications, and OPC is a standard data access mechanism based on Microsoft platform technology, so OPC technology is used in Microsoft Windows platform. superior.
- the OPC specification can establish a complete "rule" between hardware suppliers and software developers. As long as this set of rules is followed, data interaction is transparent to both, and hardware suppliers do not need to consider the variety of applications. requirements and transmission protocols; at the same time, software developers do not need to understand the essence and operation process of hardware; the task of interface is completed by hardware manufacturers or third-party manufacturers and provided to users in the form of OPC, which solves the contradiction between software and hardware manufacturers and completes the system. Integration improves the openness and interoperability of the system.
- the implementation of the OPC technology includes two parts: an OPC server and an OPC client.
- the OPC server is a field data source program, which collects field device data information and transmits it to the OPC client through the standard OPC interface.
- OPC client is a data receiving program, such as OPC configuration (Human Machine Interface HMI).
- OPC client communicates with the OPC server through the OPC standard interface, and obtains various information of the OPC server.
- OPC defines an open interface over which PC-based software components can exchange data. It is based on OLE (Object Linking and Embedding), COM (Component Object Model, Component Object Model) and DCOM (Distributed COM, Distributed COM) technology based on Windows system; OPC standard is actually based on Microsoft platform technology: OLE ( Now it is ActiveX)/COM/DCOM technology, and these technologies are only used in Microsoft Windows operating system; even ActiveX plug-in programs that support running on the network are essentially based on COM/DCOM technology; and COM technology is actually It is an interface technology based on Microsoft Windows API and provides an object communication technology on the Windows platform.
- OLE Object Linking and Embedding
- COM Component Object Model, Component Object Model
- DCOM Distributed COM
- OPC standard is actually based on Microsoft platform technology: OLE ( Now it is ActiveX)/COM/DCOM technology, and these technologies are only used in Microsoft Windows operating system; even ActiveX plug-in programs that support running
- OPC client uses the OPC technology, it must rely on the Microsoft Windows platform and run on the Windows platform, but cannot run on the Linux platform, or even on the popular mobile Android and iOS systems. .
- a configuration system supporting a heterogeneous environment is provided, so as to avoid repetitive and complicated problems in the configuration and configuration of the environmental control and energy-saving control system.
- FIG. 2 is a flowchart of a configuration system supporting a heterogeneous environment provided by an embodiment of the present application.
- the configuration system supporting a heterogeneous environment specifically includes: a configuration monitoring platform and a configuration configuration platform; the configuration monitoring platform includes heterogeneous equipment, a data acquisition system and a plurality of heterogeneous platforms.
- the structure platform includes a display platform; the heterogeneous platform includes: one or more of Windows platform, Linux platform, Android platform and iOS platform; the heterogeneous equipment includes: one of power equipment, environmental control equipment and electromechanical equipment or more.
- the configuration configuration platform is used to configure the device configuration page
- the data acquisition system is used to establish a Websocket connection with the display platform
- the data acquisition system is used to collect the device data of the heterogeneous devices, process them, and send them to the display platform through the Websocket connection;
- the display platform is used to receive the device data, call the rule file preset by the configuration configuration platform, display the device data on the configuration page, obtain a configuration monitoring page and display it on the display platform .
- configuring the device configuration page of the configuration configuration platform includes: the configuration configuration platform receives a set icon, and forms a device icon corresponding to the icon by editing; wherein each of the device diagrams The symbol corresponds to a device type, that is, a specific device name; configure the changes in the color and shape of the device icon as a rule, and save it as a rule file; use the setting method to configure the device icon on the same page, And form a configuration page; wherein, the configured device icons form configuration icons, and each of the configuration icons corresponds to a type of device category, that is, the same type of equipment; based on the simulated device data, preview the configuration The real-time change effect of the page or the device icon; the configuration page is edited and run on multiple display platforms.
- the configuration configuration platform uses the 2D and 3D graphics characteristics of HTML5 technology to process the configuration page through the B/S structure, and obtains a configuration page supporting 2D and 3D effects.
- the configuration configuration platform After the configuration configuration platform completes the configuration of the configuration page, it further configures the configuration page to achieve a configuration page that supports 2D and 3D effects; specifically, through the B/S architecture, HTML5 graphics technology is used. 2D and 3D graphics features, the configuration page can be processed based on the 3D function of Canvas format, optionally, the configuration page can also be processed based on the 3D function of various image conversion formats; the configuration supports 2D and 3D effect, showing 2D and 3D visual effects.
- the specific 3D configuration interface drawing process includes: the configuration configuration platform loads the configuration page containing the configuration icon through the B/S structure; reads the definition file of the configuration icon, and parses the Define the data in the file; call the API interface to complete the configuration icon drawing according to the parsed data, obtain a configuration page that supports 2D and 3D effects, load the configuration page module, and complete the display of the configuration page.
- the various image conversion formats include Canvas, SVG, WebGL, CSS3 and other image conversion formats, and the configuration page is processed based on the 3D function of the Canvas, SVG, WebGL or CSS3 format.
- the embodiment of the present application takes the processing of the configuration page based on the 3D function of the Canvas format as an example, the configuration configuration platform first initializes the Canvas canvas, loads the configuration page containing the configuration icon; reads the Configure the definition file of the icon, parse the point, line and surface data in the definition file; call the API interface of the Canvas canvas to complete the drawing of the configuration icon, and obtain a configuration page that supports 2D and 3D effects; provide multiple The native app Shell, a runnable program that displays the configuration and operation of the platform, loads the configuration page module, and completes the display of the configuration page; among them, the Native app Shell is a runnable program that adapts to each platform.
- the data of heterogeneous devices is collected by the data collection system through the bus, and then cleaned, correlated, real-time counted, and converted to obtain unified structured data and sent to the display platform; status information and alarm data of the device.
- the display platform receives the device data, and calls the preset rule file of the configuration configuration platform, that is, the device configuration model and the rules of the preset device data and the configuration model, and displays the device data to the configuration model through the configuration model. Configure the interface and display the configuration page on the display platform.
- FIG. 3 is a configuration system monitoring architecture diagram.
- the equipment layer includes power equipment, environmental control equipment, and electromechanical equipment, etc.
- the data acquisition layer includes a data acquisition system
- the display layer includes multiple heterogeneous platforms.
- the platform includes a display platform; among them, the data acquisition system and the heterogeneous devices at the device layer are connected through a bus, and the data acquisition system and the display platform are connected based on the Websocket communication protocol; optional, the data acquisition system provides a variety of device access functions, integrating multiple It is a communication protocol in the industrial control industry; the data acquisition system provides real-time data acquisition, integration and processing capabilities.
- Source service which pushes the real-time status and alarm data of the device to the display platform for processing and displays it on the configuration page.
- FIG. 4 is a flowchart of a configuration method for supporting a heterogeneous environment provided by the embodiment of the present application.
- the configuration method for supporting heterogeneous environments specifically includes:
- Step 110 the configuration configuration platform configures a device configuration page.
- the device configuration model is configured through the configuration configuration platform, including the device configuration types between heterogeneous devices of different categories, different types and different protocols; wherein, the device configuration model includes the relationship between the device data and the configuration model. corresponding rules.
- Step 120 The data collection system establishes a Websocket connection with the display platform.
- a Websocket connection between the data acquisition system and the display platform is established, and the data collected by the data acquisition system is sent to the display platform.
- the Websocket communication protocol has nothing to do with the type of the operating system of the display platform, that is, the Websocket communication protocol can be established with different systems. Display platform connection, so that different platforms can receive the same device data.
- the display platform sends a request for establishing a Websocket connection to the data collection system, and the data collection system receives and agrees to the request, and the connection is successful, and data transmission between the two can be realized;
- the display The platform subscribes the device data in the configuration page to the data acquisition system, and the data acquisition system receives the subscription information, if the subscription is successful, it means that the platform successfully subscribes the device data to the data acquisition system.
- the data acquisition system collects the device data Or when the device data is changed and updated, the corresponding device data is sent to the display platform.
- Step 130 The data collection system collects the device data of the heterogeneous devices, processes them, and sends them to the display platform through the Websocket connection.
- the data acquisition system collects device data of different heterogeneous devices, processes the device data through a Websocket connection, and sends the device data to the display platform, so as to collect the device data for configuration and display.
- the data acquisition system collects the data of heterogeneous devices through the bus, and then performs cleaning, correlation, real-time statistics and conversion processing to obtain unified structured data, which is sent to the display platform;
- the filtering of real-time data mainly includes anomaly detection, duplicate data and malicious data filtering based on the legal range of data values; for example, associating device data is to associate device data with cached data (that is, historically collected data) to achieve Simple link and combination; then perform real-time statistical calculation on the cleaned and correlated data, and then convert it into a unified data format and send it to the display platform.
- the unified data format may include the attribute name of the device, the attribute data type, attribute description, and remarks corresponding to the device attribute name, and the like.
- Step 140 The display platform receives the device data, invokes the rule file preset by the configuration configuration platform, displays the device data on the configuration page, obtains a configuration monitoring page, and displays it on the display. platform.
- the display platform receives the device data, and calls the preset rule file of the configuration configuration platform, that is, the device configuration model and the rules of the preset device data and the configuration model, and displays the device data to the configuration model through the configuration model. Configure the interface and display the configuration page on the display platform.
- FIG. 2 is a configuration system monitoring architecture diagram.
- the equipment layer includes power equipment, environmental control equipment, and electromechanical equipment, etc.
- the data acquisition layer includes a data acquisition system
- the display layer includes multiple heterogeneous platforms.
- the platform includes a display platform; in which, the data acquisition system and the heterogeneous devices at the device layer are connected through a bus, and the data acquisition system and the display platform are connected based on the Websocket communication protocol; optional, the data acquisition system provides a variety of device access functions, integrating multiple It is a communication protocol in the industrial control industry; the data acquisition system provides real-time data acquisition, integration and processing capabilities.
- Source service which pushes the real-time status and alarm data of the device to the display platform for processing and displays it on the configuration page.
- FIG. 5 shows a flowchart of another configuration method for supporting a heterogeneous environment provided by an embodiment of the present application.
- the configuration method for supporting a heterogeneous environment is an embodiment of the above-mentioned configuration method for supporting a heterogeneous environment.
- the configuration method for supporting heterogeneous environments includes:
- Step 210 The configuration configuration platform receives the set icon, and forms a device icon corresponding to the icon by editing; wherein each of the device icons corresponds to a device type.
- the configuration configuration platform includes the functions of uploading and editing equipment icons, uploading the set icons to the system, and editing the equipment icons corresponding to the icons; wherein, the set icons can be of various types
- the setting method optional, can be uploaded by the user, can be obtained by linking to a relevant website, or can be uploaded by an artist to obtain the set icon; among which, edit the set icon into
- the related device icons optionally, can be edited into related device icons according to the conventional corresponding relationship between devices and icons.
- Step 220 Configure the change of the color and shape of the device icon into a rule, and save it as a rule file.
- the configuration configuration module includes a device icon rule configuration function, which configures the color and shape of the device icon into a rule and saves it as a rule file; optionally, a device diagram obtained by correspondingly editing the device and the icon Symbol, set to a device type according to the shape, that is, the specific device name; optional, after setting to the device type, set the device icon according to the corresponding table of the set data value and color of the device type, and get the rule file .
- a device icon rule configuration function which configures the color and shape of the device icon into a rule and saves it as a rule file
- a device diagram obtained by correspondingly editing the device and the icon Symbol
- FIG. 6 is an equipment icon of an air-conditioning unit, configure the shape and color of the air-conditioning unit into a rule, and save the rule file; wherein, after the configuration of the equipment icon of the air-conditioning unit is completed, it can be set to make the air-conditioning unit.
- Step 230 configure the device icons on the same page by setting, and form a configuration page; wherein, the configured device icons form a configuration icon, and each of the configuration icons corresponds to a type of device category .
- the configuration configuration platform includes a configuration page editing function, which uses the setting method to combine device icons to obtain configuration icons.
- a configuration page editing function uses the setting method to combine device icons to obtain configuration icons.
- drag and drop and other convenient methods are used to combine multiple device icons to
- the configuration icon is obtained by configuring the configuration icon in the way of , and the combination method can be similar to the way of stacking wood; wherein, a plurality of configuration icons are configured to form a configuration page, and the configuration icon configuration method is optional. It can be conveniently done by dragging and dropping.
- Step 240 Based on the simulated device data, preview the real-time change effect of the configuration page or the device icon.
- the configuration configuration platform includes configuration page preview and operation functions.
- a temporary preview function can be provided, and the real-time change effect of the configuration page or device icon can be seen through simulated data.
- Step 250 The configuration page is edited and executed on multiple display platforms.
- the configuration page after the configuration page is edited, it provides the function of configuration operation, supports the configuration page to run on multiple heterogeneous platforms, and realizes the display of the same configuration monitoring page on Windows, Linux, Android and iOS platforms;
- FIG. 7 in order to show the operation effect diagram of the configuration page of the platform, the operation effect diagram of the configuration page on different platforms is the same, wherein FIG. 7 only shows a part of the configuration page operation effect diagram, wherein, 11 represents the remote control test object , that is, the monitored device object; 12 represents the monitoring system; 13 represents the background operation.
- FIG. 8 shows a flowchart of another configuration method for supporting a heterogeneous environment provided by an embodiment of the present application.
- the configuration method for supporting a heterogeneous environment is an embodiment of the above-mentioned configuration method for supporting a heterogeneous environment.
- the configuration method for supporting heterogeneous environments includes:
- Step 310 the configuration configuration platform uses the 2D and 3D graphics features of the HTML5 technology to process the configuration page through the B/S architecture to obtain a configuration page that supports 2D and 3D effects.
- the configuration configuration platform After the configuration configuration platform completes the configuration of the configuration page, it further configures the configuration page to achieve a configuration page that supports 2D and 3D effects; specifically, through the B/S architecture, HTML5 graphics technology is used.
- the 2D and 3D graphics features of the APP can be used to process the configuration page based on the 3D functions of various image conversion formats, so that the configuration supports 2D and 3D effects and presents 2D and 3D visual effects.
- the specific 3D configuration interface drawing process includes: the configuration configuration platform loads the configuration page containing the configuration icon through the B/S structure; reads the definition file of the configuration icon, and parses the Define the data in the file; call the API interface to complete the configuration icon drawing according to the parsed data, obtain a configuration page that supports 2D and 3D effects, load the configuration page module, and complete the display of the configuration page.
- the various image conversion formats include Canvas, SVG, WebGL, CSS3 and other image conversion formats, and the configuration page is processed based on the 3D function of the Canvas, SVG, WebGL or CSS3 format.
- the embodiment of the present application takes the processing of the configuration page based on the 3D function of the Canvas format as an example, the configuration configuration platform first initializes the Canvas canvas, loads the configuration page containing the configuration icon; reads the Configure the definition file of the icon, parse the point, line and surface data in the definition file; call the API interface of the Canvas canvas to complete the drawing of the configuration icon, and obtain a configuration page that supports 2D and 3D effects; provide multiple The native app Shell, a runnable program that displays the configuration and operation of the platform, loads the configuration page module, and completes the display of the configuration page; among them, the Native app Shell is a runnable program that adapts to each platform.
- Step 320 The display platform receives the device data, invokes the preset rule file of the configuration configuration platform, performs operations according to the rules of the configuration icons, and graphically displays the operation results on the configuration interface. , so that the icon color and shape of the configuration interface changes in real time, and the configuration page is displayed on the display platform.
- the display platform After the display platform receives the device data, it calls the rule file preset by the configuration and configuration platform, and after performing operations according to the rules of the configuration icon, according to the above rule file, that is, the rules of the device icon, the corresponding
- the rules of configuration icons are optional, that is, the device icon rules of the same type of equipment are counted to obtain the configuration icon rules; Match the shape of the status icon rule, match the data point of the device data with the color of the configuration icon rule, that is, obtain the corresponding color when the data point corresponds to the set data value of the rule, and obtain the corresponding color of the device data. Shape and color, and display the operation result to the configuration interface in a graphical way.
- Step 330 If the device data collected by the data collection system changes, push the changed data to the display platform; the display platform receives the changed data, processes it according to the rules of configuration icons, and obtains the corresponding configuration
- the monitoring page is completed, and the effect display of the configuration monitoring page is completed.
- the device data is collected through the data acquisition system.
- the collected device data changes, the changed data is pushed to the display platform, and the display platform receives the change data of the device.
- the display platform receives the change data of the device.
- the data points of the device change data change, according to the rules of the configuration icon, the set data values of the rules corresponding to the data points change, and the corresponding colors also change, and the data points are re-corresponding
- the table of set data values and colors of the rules obtain new colors, update the configuration icons, get the updated configuration monitoring page, and complete the display of the relevant effects of the changed device data.
- the configuration system for supporting a heterogeneous environment provided by the above embodiments can be used to execute the configuration method for supporting a heterogeneous environment provided by the embodiments of the present application, and has corresponding functions and beneficial effects.
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Abstract
Description
Claims (10)
- 一种支持异构环境的组态系统,其特征在于,包括:组态监控平台和组态配置平台;所述组态监控平台包括异构设备、数据采集系统和多个异构平台,所述异构平台包括展示平台;所述组态配置平台用于配置设备组态页面;所述数据采集系统用于建立与所述展示平台的Websocket连接;所述数据采集系统用于采集所述异构设备的设备数据进行处理后通过所述Websocket连接发送到所述展示平台;所述展示平台用于接收所述设备数据,调用所述组态配置平台预设的规则文件,将所述设备数据展示到所述组态页面,得到组态监控页面并展示在所述展示平台。
- 根据权利要求1所述的支持异构环境的组态系统,其特征在于,所述异构平台包括:Windows平台、Linux平台、Android平台和iOS平台的一种或多种;所述异构设备包括:电力设备、环控设备和机电设备的一种或多种。
- 一种支持异构环境的组态方法,基于权利要求1或2所述的一种支持异构环境的组态系统实现,其特征在于,所述方法包括以下步骤:所述组态配置平台配置设备组态页面;所述数据采集系统建立与所述展示平台的Websocket连接;所述数据采集系统采集所述异构设备的设备数据进行处理后通过所述Websocket连接发送到所述展示平台;所述展示平台接收所述设备数据,调用所述组态配置平台预设的规则文件,将所述设备数据展示到所述组态页面,得到组态监控页面并展示在所述展示平台。
- 根据权利要求3所述的支持异构环境的组态方法,其特征在于,所述组态配置平台配置设备组态页面,包括:所述组态配置平台接收设置的图符,通过编辑形成所述图符对应的设备图符;其中,每一个所述设备图符对应一种设备类型;将所述设备图符的颜色和形状的变化配置成规则,并保存成规则文件;使用设置的方式将所述设备图符配置在同一页面,并形成组态页面;其中,配置的设备图符组成组态图符,每一个所述组态图符对应一类设备类别;基于模拟的设备数据,预览所述组态页面或所述设备图符的实时变化效果;所述组态页面编辑完成并在多个展示平台上运行。
- 根据权利要求4所述的支持异构环境的组态方法,其特征在于,所述组态页面编辑完成并在多个展示平台上运行之后,还包括:所述组态配置平台通过B/S架构,采用HTML5技术的2D和3D图形特性,对组态页面进行处理,得到支持2D和3D效果的组态页面。
- 根据权利要求5所述的支持异构环境的组态方法,其特征在于,所述组态配置平台通过B/S架构,采用HTML5技术的2D和3D图形特性,对组态页面进行处理,得到支持2D和3D效果的组态页面,包括:所述组态配置平台通过B/S架构,加载包含组态图符的组态页面;读取所述组态图符的定义文件,解析所述定义文件中的数据;根据解析后的数据调用API接口完成组态图符绘制,得到支持2D和3D效果的组态页面,加载组态页面模块,完成组态页面的展示。
- 根据权利要求4所述的支持异构环境的组态方法,其特征在于,所述展示平台接收所述设备数据,调用所述组态配置平台预设的规则文件,将所述设备数据展示到所述组态页面,得到组态监控页面并展示在所述展示平台,包括:所述展示平台接收所述设备数据,调用所述组态配置平台预设的规则文件,按照组态图符的规则进行运算后,将运算结果以图形化的方式展示到组态界面,使得组态界面的图符颜色形状实时变化,并将得到的组态监控页面展示在所述展示平台;所述数据采集系统采集的设备数据发生变化,则推送变化数据到所述展示平台;所述展示平台接收所述变化数据,按照组态图符的规则进行处理,得到对应的组态监控页面,完成所述组态监控页面的效果展示。
- 根据权利要求1所述的支持异构环境的组态方法,其特征在于,所述数据采集系统采集所述异构设备的设备数据进行处理后通过所述Websocket连接发送到所述展示平台,包括:数据采集系统通过总线采集异构设备的数据后进行清洗、关联、实时统计和转换处理,得到统一的结构化数据,发送到所述展示平台。
- 根据权利要求1所述的支持异构环境的组态方法,其特征在于,所述数据采集系统建立与所述展示平台的Websocket连接,包括:所述展示平台向所述数据采集系统发送建立Websocket连接的请求,所述数据采集系统接收并同意所述请求,则连接成功;所述展示平台向所述数据采集系统订阅组态页内设备数据,所述数据采集 系统接收订阅信息,则订阅成功。
- 根据权利要求1所述的支持异构环境的组态方法,其特征在于,所述数据采集系统采集所述异构设备的设备数据,包括:通过数据采集系统采集异构设备的状态信息和告警数据。
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