WO2014201853A1 - Display operating method and configuration system for human-machine interface of plant control system - Google Patents

Abstract

In the field of automatic control, the present invention relates to a plant control system, and in particular, to a display operating method for a human-machine interface of the plant control system. The human-machine interface comprises an overall control system diagram, and the overall control system diagram comprises a location indication of each monitored device monitored by a monitoring system; the human-machine interface further comprises an enlarged diagram of a real-world scene picture of the location where each monitored device is located and display of monitoring data of the monitored devices. The display operating method for the human-machine interface comprises: a step of displaying an overall control system diagram; a step of selecting a monitored device; a step of linking from a location indication of each monitored device on the overall control system diagram to a scene detail enlarged diagram of the location where the selected monitored device is located and display of monitoring data of the monitored device; a step of determining the status of the selected monitored device; a step of displaying a corresponding fault removal method if the status indicates a fault; and a step of selecting to display a specification related to the monitored device.

Description

 Man-machine interface display operation method and configuration system of factory control system

 The present invention relates to a factory control system, and more particularly to a human-machine interface display operation method for a wood-based panel factory control system. Background technique

 The existing industrial control system, especially the overall control system of the factory, will be equipped with an industrial human-machine interface.

(HMI), a medium for transferring and exchanging information between users and machines. Users can process or monitor the work of machines according to the needs of control and different objects.

 For the wood-based panel production plant, the human-machine interface in the current production control system mainly displays the data related to the operation of the equipment on the production line. The human-machine interface is mainly based on animation, text and data, although in the specific production. The process is very clear, but in the human-machine interface of the control system of the whole factory, the data of all production processes and control equipment objects appear, the types and points are very large, especially in the key equipment of the factory, the sensors and actuators are dense. Once one of the monitoring devices issues an alarm, because there are more data returned and corresponding monitoring devices (on-site and no faulty devices are displayed), the maintenance personnel must first retrieve the sensors and actuator positions that determine the specific alarms in order to determine the damage point ( Must be familiar with the sensor, actuator device number, name, location) before subsequent repairs and inspections can be performed. It wastes time and delays maintenance. If the equipment is shut down, it will cause more damage. Summary of the invention

The technical problem to be solved by the present invention is to provide a human-machine interface display operation method of a factory control system, and the human-machine interface of the existing control system is not displayed because the specific position of the monitored device is not displayed. It is not suitable for the maintenance personnel to determine the specific alarm sensor or actuator after the alarm is issued, thereby delaying the repair time and causing the loss of the equipment caused by long-term shutdown.

Technical solutions

 The human-machine interface includes an overall view of the control system, and includes an indication of the position of each monitored device of the monitoring system on the overall view of the control system, and the human-machine interface further includes a live-action picture corresponding to the location of each monitored device. The enlarged view and the monitoring data of the monitored device show that the display method of the human-machine interface includes the steps of displaying the overall map of the control system, the step of selecting the monitored device, and the link indicating the position of each monitored device on the overall map of the control system. The step of selecting the zoomed-in detail of the site where the monitoring device is located and the monitoring data display of the monitored device, determining the state of selecting the state of the monitoring device, and if the state alerting is faulty, displaying the step of the fault corresponding to the troubleshooting method, Select the steps to display the relevant instructions for the monitoring device.

 Each of the monitoring device position indications is in the form of an indication button, and the indication buttons are displayed in different colors according to the state of each monitoring device transmitted back by the field bus.

 The step of selecting the monitoring device is to manually select the state of each monitoring device displayed according to the overall map of the control system.

 Alternatively, the step of selecting the monitoring device is to determine the real-time status of each monitoring device, and automatically select the fault monitoring device according to the status.

A human-machine interface configuration system of a factory control system applying the above method, comprising: a configuration picture module, wherein the configuration picture module comprises an overall picture unit of the control system, and an enlarged view corresponding to the position of each monitoring device; And a monitoring data display unit of the monitoring device, a fault corresponding troubleshooting method map unit, a unit for selecting a related manual for displaying the monitoring device, and a parameter obtaining module for acquiring the monitoring device corresponding to the currently configured screen object displayed The parameter determining and processing module is configured to determine the real-time status of the monitoring device obtained from the parameter obtaining module and display the status display or the data display or the fault corresponding elimination method corresponding to the current configuration screen. Beneficial effect

 The system of the invention inserts the scene picture, and links the state of the electrical appliance to the scene picture, so that the personnel can recognize the position of each controller, sensor and equipment, and facilitate the training, operation and fault finding; insert the fault detection step, which is convenient for the engineering personnel to solve according to the steps. Fault; Insert the operation manual (including the whole system, sensor, motor, inverter, electronic control components, etc.), which is convenient for personnel to quickly maintain and reduce the equipment failure rate; the invention can not only reduce the reaction time of maintenance, but also speed up the maintenance. Reduce maintenance error rates and reduce training time for maintenance personnel, especially for new plants or for installation of new control systems. DRAWINGS

1 is a schematic structural view of a configuration system of the present invention;

2 is a schematic flow chart of the method of the present invention;

3 is a schematic diagram of an overall view of a control system according to an embodiment of the present invention, where each white dot corresponds to one sensor, and white dots may be displayed in yellow or red depending on the state;

Fig. 4 is a schematic enlarged view of the field in the embodiment of the present invention. The white dots in the figure are sensors, and M represents the motor. According to the state and parameters, the troubleshooting step is displayed next to it.

detailed description

 The invention will now be further elucidated with reference to specific embodiments and the accompanying drawings.

The industrial human-machine interface is generally connected to at least one industrial controller PLC and other industrial devices with fieldbus interfaces via a fieldbus, as shown in Figure 3, which is a schematic diagram of an embodiment of the overall system control of the wood-based panel factory, in order to solve The current human-machine interface display is not clear, the location definition is not The problem of clearing, the present invention proposes to use it as the entrance of the man-machine interface of the overall control system of the factory. As can be seen from the figure, as the entrance of the industrial human-machine interface, at least three to four large-scale equipments, related pipelines and monitoring are connected. Equipment, etc. The industrial man-machine interface shown in the figure is realized by the configuration software to realize the functions of the control system. The configuration system of the 匪1 configuration system can generate a lot of configuration pictures, that is, the on-site magnified view of each sub-section or each monitoring device is taken as The generated configuration screens have a single or multiple screen objects on each configuration screen. Each screen object corresponds to an external variable that is communicated by a device such as a monitoring device or sensor. The HMI configuration system will monitor the device or sensor. The latest variable values obtained on the device are displayed.

 The invention provides a man-machine interface configuration system of a wood-based panel factory control system, comprising a configuration picture module, wherein the configuration picture module comprises an overall picture unit of the control system, an enlarged picture of the live scene picture corresponding to the position of each sensor, and the The monitoring data display unit of the sensor and the fault corresponding troubleshooting method map unit; and a parameter obtaining module, configured to acquire parameters of the sensor corresponding to the currently configured screen object; the determining and processing module is configured to determine the obtained from the parameter obtaining module The real-time status of the sensor is displayed corresponding to the current configuration screen for status display or data display or fault corresponding exclusion method. The system domain relationship is shown in Figure 1.

 Figure 3 is a schematic view of an embodiment of the overall system control of the wood-based panel factory. Each white dot in the figure corresponds to a sensor, and the white dots may be displayed in yellow or red depending on the state, such as Figure 4 shows an enlarged view of the field of one of the sensors. The white dot is the sensor and the M is the motor. According to the returned status and parameters, the corresponding troubleshooting step screen is displayed next to it.

According to the human-machine interface display operation method of the system, the human-machine interface includes an overall view of the control system, and the overall control map includes the sensor position indication of the monitoring system and the monitoring data display of the main device, and the human-machine The interface further includes an enlarged view of the live scene image corresponding to the location of each sensor and a monitoring data display of the sensor, the method including displaying the overall map of the control system Step of selecting a sensor, indicating, from each sensor position on the overall map of the control system, a step of zooming in on the live view image linked to the location of the selected sensor and displaying the monitoring data of the sensor, determining the state of the selected sensor Step, if the status warning is faulty, the steps corresponding to the troubleshooting method are displayed.

 The step of selecting the sensor is to manually select the state of each sensor displayed according to the overall map of the control system. Alternatively, the step of selecting a sensor may also determine the real-time status of each sensor, and then automatically select a fault sensor according to the state. To facilitate the determination of the cause of the fault, a manual for displaying the related device may also be selected.

 The specific process of manual selection and automatic selection is combined with the flow diagram shown in Figure 2. On the basis of the overall control system display, the return status of each sensor is automatically patrolled, and when the fault status is detected, a warning is issued, and the scene is displayed. Enlarge the picture of the real scene, or manually select the sensor you want to view, display the magnified view of the live position picture of the scene, view the parameters of the live view picture, call the parameter judgment, determine the fault type, call the relevant troubleshooting method map, and The troubleshooting steps are displayed.

 Each sensor position indication is in the form of an indication button. According to the state of each sensor transmitted back on the field bus, the indication button is displayed in different colors, such as white indicating no operation, yellow indicating normal operation, red indicating abnormal state, etc. .

Claims

Claim

 A human-machine interface display operation method for a factory control system, characterized in that: the human-machine interface includes an overall view of a control system, and includes an indication of the position of each monitored device of the monitoring system on the overall map of the control system. The human-machine interface further includes an enlarged view of the live scene image corresponding to the location of each monitored device and a monitoring data display of the monitored device, and the human-machine interface display operation method includes the steps of displaying the overall map of the control system, and selecting the monitored device The step of determining the status of the selected monitoring device from the position of each monitored device on the overall map of the control system indicating the site detail enlarged view linked to the location of the selected monitoring device and the monitoring data display of the monitored device The steps, if the status warning is faulty, the steps corresponding to the troubleshooting method are displayed, and the steps of displaying the relevant instructions of the monitoring device may be selected.

 2. The man-machine interface display operation method of the plant control system according to claim 1, wherein: the monitoring device position indication is in the form of an indication button, and the state of each monitoring device transmitted back according to the field bus is The indicator buttons are displayed in different colors.

 3. The human-machine interface display operation method of the plant control system according to claim 1 or 2, wherein: the step of selecting the monitoring device is to manually perform the state of each monitoring device displayed according to the overall map of the control system. select.

 The man-machine interface display operation method of the plant control system according to claim 1 or 2, wherein the step of selecting the monitoring device is to determine the real-time status of each monitoring device, and automatically select the fault monitoring device according to the state.

A man-machine interface configuration system for a plant control system using the method of claim 1, comprising: a configuration picture module, wherein the configuration picture module comprises a control system overall picture unit, corresponding to each An enlarged view of the location of the monitoring device, a monitoring data display unit of the monitoring device, a fault corresponding troubleshooting method map unit, and a related specification unit for displaying the monitoring device; and a parameter acquisition module for acquiring the displayed current configuration screen object The parameter of the corresponding monitoring device; the determining and processing module, for determining the actual monitoring device obtained from the parameter obtaining module The status status is displayed corresponding to the current configuration screen for status display or data display or fault corresponding exclusion method.