CN114995313A - Digital-image linkage display method, device, equipment and medium based on industrial internet - Google Patents

Abstract

The invention discloses a digital-image linkage display method, a device, equipment and a medium based on an industrial internet, wherein the method comprises the following steps: acquiring at least one production step, acquiring operation parameter values associated with the generation step from a database to generate a first display view, acquiring continuous change information of each parameter to generate a second display view, and combining the first display view and the second display view into a linkage view for display; and if the operation information of the user is monitored to be that any display view in the linkage views is clicked, acquiring corresponding time characteristic information and performing conversion display on display information corresponding to the time characteristic information in the other display view. According to the digital-image linkage display method based on the industrial Internet, the linkage view is generated, and then the display information of the other display view which is not operated is displayed in a conversion mode according to the operation information input by the user, so that the efficiency of displaying the data associated with the equipment is improved.

Description

Digital-image linkage display method, device, equipment and medium based on industrial Internet

Technical Field

The invention relates to the technical field of data display, in particular to a digital and graphic linkage display method, a device, equipment and a medium based on an industrial internet.

Background

At present, industrial production can not acquire data without equipment, in order to more intuitively and more conveniently see various data indexes of equipment in the production process, production equipment needs to be monitored to obtain corresponding parameter information, the function of monitoring the equipment in the traditional technology is single, only equipment data obtained through monitoring can be obtained for observation, when the production process data needs to be observed, production process data independently stored in other equipment needs to be called, and due to the fact that the production process data and the equipment data are separated from each other, the display of related data lacks relevance and intuition, and the data display efficiency is low. Therefore, the display efficiency is low when the data related to the equipment is displayed in the prior art.

Disclosure of Invention

The embodiment of the invention provides a method, a device, equipment and a medium for linkage display of a number graph based on an industrial internet, and aims to solve the problem of low display efficiency in the prior art when data associated with the equipment is displayed.

In a first aspect, an embodiment of the present invention provides a method for linkage display of a number map based on an industrial internet, where the method is applied to a terminal device, and the method includes:

acquiring at least one production step;

obtaining an operation parameter value associated with each production step from a database and generating a first display view, wherein the operation parameter value comprises a numerical value corresponding to at least one parameter collected by a sensor from industrial production equipment and/or state information of the industrial production equipment;

acquiring continuous change information of each parameter and generating a second display view; the continuous change information is information that the numerical value of the parameter continuously changes along with time;

combining the first display view and the second display view to obtain a linkage view and displaying the linkage view;

if the operation information of the user is monitored to be that any display view in the linkage views is clicked, time characteristic information corresponding to the operation information is obtained;

and according to the time characteristic information, performing conversion display on display information corresponding to the time characteristic information in another display view of the linkage view.

In a second aspect, an embodiment of the present invention provides an apparatus for displaying a linked number map based on an industrial internet, where the apparatus is configured in a terminal device, and the apparatus includes:

a production step acquisition unit for acquiring at least one production step;

a first display view generating unit, configured to obtain an operation parameter value associated with each of the production steps from a database and generate a first display view, where the operation parameter value includes a value corresponding to at least one parameter collected by a sensor from an industrial production device and/or status information of the industrial production device;

the second display view generating unit is used for acquiring continuous change information of each parameter and generating a second display view; the continuous change information is information of continuous change of the numerical value of the parameter along with time;

the view display unit is used for combining the first display view and the second display view to obtain a linkage view and displaying the linkage view;

the time characteristic information acquisition unit is used for acquiring time characteristic information corresponding to the operation information if the operation information of the user is monitored to be that any display view in the linkage views is clicked;

and the conversion display unit is used for performing conversion display on the display information corresponding to the time characteristic information in the other display view of the linkage view according to the time characteristic information.

In a third aspect, an embodiment of the present invention further provides a computer device, which includes a memory, a processor, and a computer program stored on the memory and executable on the processor, where the processor executes the computer program to implement the method for displaying the data and the diagram based on the industrial internet in a linkage manner according to the first aspect.

In a fourth aspect, an embodiment of the present invention further provides a computer-readable storage medium, where the computer-readable storage medium stores a computer program, and when the computer program is executed by a processor, the processor executes the method for displaying the graph and the number based on the industrial internet according to the first aspect.

The embodiment of the invention provides a method, a device, equipment and a medium for linkage display of a digital map based on an industrial internet. Acquiring at least one production step, acquiring operation parameter values associated with the generation step from a database to generate a first display view, acquiring continuous change information of each parameter to generate a second display view, and combining the first display view and the second display view into a linkage view for display; and if the monitored operation information of the user is any display view in the clicking linkage view, acquiring corresponding time characteristic information and performing conversion display on the display information corresponding to the time characteristic information in the other display view. According to the method, the linkage view formed by combining the first display view and the second display view can be generated and displayed, the display information of the other display view which is not operated is converted and displayed according to the operation information input by the user, the production data and the equipment data can be associated and the display information can be converted and displayed in the same display view in a linkage mode, and the efficiency of displaying the data associated with the equipment is greatly improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic flow chart diagram of a linked display method for data and graphic based on industrial Internet according to an embodiment of the present invention;

fig. 2 is a schematic view of an application scenario of the digital map linkage display method based on the industrial internet according to the embodiment of the present invention;

FIG. 3 is a schematic diagram illustrating an effect of the method for displaying the data and graphic linkage based on the industrial Internet according to the embodiment of the present invention;

FIG. 4 is a sub-flow diagram of a method for displaying data and graphic linkage based on industrial Internet according to an embodiment of the present invention;

FIG. 5 is a schematic view of another sub-flow of a linked display method for data and graphic based on industrial Internet according to an embodiment of the present invention;

FIG. 6 is a schematic view of another sub-flow of a linked display method for data and graphic based on industrial Internet according to an embodiment of the present invention;

FIG. 7 is a schematic view of another sub-process of the method for linkage display of data and graphics based on the industrial Internet according to the embodiment of the present invention;

FIG. 8 is a schematic view of a later sub-process of the method for linkage display of data and graphics based on the industrial Internet according to the embodiment of the present invention;

FIG. 9 is a schematic view of a subsequent sub-flow of the method for linkage display of data and graphics based on the industrial Internet according to the embodiment of the present invention;

FIG. 10 is a schematic block diagram of an industrial Internet-based linked display device according to an embodiment of the present invention;

FIG. 11 is a schematic block diagram of a computer device provided by an embodiment of the present invention.

Detailed Description

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

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting. As used in the specification of the present invention and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to and includes any and all possible combinations of one or more of the associated listed items.

Referring to fig. 1 and 2, fig. 1 is a schematic flow chart illustrating a linked display method for data graphs based on the industrial internet according to an embodiment of the present invention; fig. 2 is a schematic view of an application scenario of the digital map linkage display method based on the industrial internet according to the embodiment of the present invention; the digital-image linkage display method based on the industrial internet is applied to the terminal device 2000 of the digital-image linkage display system 100 based on the industrial internet, the digital-image linkage display method based on the industrial internet is executed through application software installed in the terminal device 2000, in the process that the terminal device 2000 executes the method, network connection is established between the terminal device 2000 and the server 1000 to achieve transmission of data information, data of a database stored in the server 1000 is obtained, the data in the database is sourced from the Controller 3000 of the industrial production device 4000, and a sensor collects the data of the industrial production device 4000 and outputs the data to the Controller through a PLC3000 (Programmable Logic Controller). The terminal device 2000 is a terminal device for executing a digital-graphic linkage display method based on an industrial internet to display various information associated with industrial production equipment, the terminal device 2000 may be a desktop computer, a notebook computer, a tablet computer or a mobile phone and the like which can perform data processing and display, the server 1000 is a server end for establishing network connection with the terminal device 2000 to perform data transmission, specifically, a server group 1001, the sensor 4001 is an induction device for transmitting initial parameter information collected from the industrial production equipment to a PLC and further to a controller, such as temperature sensors, water level sensors, flow rate sensors, etc., the controller may establish a network connection with the server 1000 based on wireless network technologies such as ethernet, 4G or 5G, etc., to wirelessly transmit data information, so that the data acquired by the controller is transmitted to the database of the server 1000 for storage. As shown in fig. 1, the method includes steps S110 to S160.

S110, obtaining at least one production step.

The sensor configured on the industrial production equipment can acquire numerical values corresponding to various parameters of the industrial production equipment, the acquired numerical values are used as initial parameter information and sent to the controller, the server acquires the numerical values in the controller and stores the numerical values in the database configured in the server, and the terminal equipment can acquire the data in the database and perform subsequent processing. Specifically, the database further stores one or more preset production steps, and the terminal device may obtain at least one production step from the database configured in the server.

For example, the industrial production equipment in the example of the present application is a dyeing machine for printing and dyeing production, the server may establish network connection with one or more dyeing machines, a database of the server stores values corresponding to one or more dyeing machines, and the server may perform dyeing process control on each dyeing machine sequentially through control information of the production step, or issue control information of the production step to an intelligent controller, and perform dyeing process control on each dyeing machine through the intelligent controller; a sensor in the dyeing machine may monitor the dyeing machine to obtain initial parameter information and transmit the obtained initial parameter information to the server.

In the actual application process, the initial parameter information corresponding to the industrial production equipment in the complete process flow can be received, and the terminal equipment carries out subsequent display on the initial parameter information after the process flow is finished. The server can also receive the initial parameter information of the sensor in the industrial production equipment in real time, and the terminal equipment combines each production step to display the initial parameter information received in real time.

Each sensor can independently send the acquired parameter values serving as initial parameter information to the server, and at the moment, one piece of initial parameter information only contains the value corresponding to one parameter. Or each sensor integrates the acquired initial parameter information to form initial parameter information of a plurality of values corresponding to the parameters and sends the initial parameter information to the server; then, one piece of initial parameter information includes values corresponding to multiple parameters at the same acquisition time.

For example, in the process of producing equipment, each production step records various operating parameter values in the production process, such as temperature, water level and the like, during execution, and a user can visually see the currently executed step. The acquired initial parameters can be correspondingly displayed in a right area in a curve graph form, and data can be added in the curve graph in real time according to the acquired initial parameters to embody real-time performance.

And S120, acquiring the operation parameter value associated with each production step from the database and generating a first display view.

And acquiring an operation parameter value associated with each production step from a database, wherein the operation parameter value comprises a numerical value corresponding to at least one parameter collected by a sensor from industrial production equipment and/or state information of the industrial production equipment, and generating a first display view.

A database is configured in the server, a production step list consisting of a plurality of production steps and initial parameter information are stored in the database, the production step list comprises a plurality of production steps, the production steps comprise set control information, and the whole production process of the industrial production equipment can be controlled through the control information in each production step; the initial parameter information comprises values corresponding to a plurality of parameters, and the initial parameter information can visually represent the working state of the industrial production equipment at each time point.

The operation parameter values associated with each production step in the database may be obtained, and the operation parameter values may include at least the parameter values set by the control information, and may also include some of the values in the initial parameter information. As shown in fig. 3, the resulting first display view is the left side view in fig. 3.

In an embodiment, as shown in fig. 4, step S120 includes sub-steps S121, S122 and S123.

S121, determining operation parameters respectively corresponding to the main function step and the parallel function step in each production step; and S122, acquiring an operation parameter value corresponding to the operation parameter of each production step from the database.

Specifically, the production steps include a main function step and a parallel function step executed in parallel with the main function step, and the operation parameters corresponding to the production steps can be determined according to the main function step and the parallel function step included in the production steps.

For example, as shown in fig. 3, the main function step in step 10 is to call an assistant, the operation parameter of the main function step is "assistant", the parallel function step is to enter water into the charging basket 1, and the operation parameters of the parallel function step include "water source of the charging basket 1", "water level of the charging basket 1", "stirring time of the charging basket 1", and "temperature of the charging basket 1".

The database comprises numerical values corresponding to various parameters, namely, the operation parameter values corresponding to the operation parameters of the production steps can be obtained from the database.

In one embodiment, as shown in fig. 5, the step of obtaining the operation parameter value corresponding to the operation parameter of each of the production steps from the database in step S120 includes sub-steps S1221, S1222 and S1223.

S1221, determining a step time zone corresponding to each production step.

The step time zone corresponding to each production step can be determined. In the actual application process, only when the industrial production equipment starts to be controlled by the production steps, the effective parameter information can be acquired from the sensor, and after the process flow of the industrial production equipment is finished (for example, all the production steps in the production step list are executed completely), the corresponding step time zone can be determined according to the actual execution time of each production step, and the step time zone includes the start execution time and the end execution time of the production step. When the process flow of the industrial production equipment is started (for example, the first production step in the production step list at least starts to be executed), the step time zone corresponding to each production step can be determined according to the preset execution duration of each production step and the start execution time of the first production step, and at this moment, when the production steps are executed completely, the step time zones comprise the start execution time and the end execution time of the production steps; when the production step starts to be executed but is not finished, the step time zone comprises the starting execution time and the predicted ending execution time of the production step; when the production step is not started, the step time zone includes a predicted start execution time and a predicted end execution time of the production step.

S1222, determining a step time zone corresponding to each value according to the collection time of each value in the database, and obtaining the value corresponding to the step time zone of each production step as a target value.

Each value in the initial parameter information correspondingly comprises an acquisition time, and the step time zone to which the value correspondingly belongs can be determined according to the acquisition time, that is, whether the acquisition time of the value is located in the step time zone of a certain production step is judged, so that the step time zone to which the value belongs is determined, and the value contained in the step time zone of each production step is obtained as a target value.

S1223, obtaining a value corresponding to the operation parameter of the production step in the target values of each production step as a relevant operation parameter value.

According to the target values of the production steps, the value corresponding to the operation parameter of the production step can be obtained from the target value of each production step and is used as the operation parameter value to be displayed.

S123, generating a first display view containing the operation parameter value corresponding to each production step according to the sequence of the production steps and the operation parameter value of each production step.

The operation parameter values corresponding to each production step can be sorted and sorted according to the sorting of the production steps in the database and the operation parameter values of each production step, and a corresponding first display view is generated. Specifically, the first display view can be generated by adopting a DIV label rendering mode, the v-for instruction of vue is used for rendering and generating based on an array, meanwhile, the main function step and the parallel function step of the production step are circularly rendered by adopting the v-for instruction, and identification association is carried out by combining icon pairs, so that the recognition degree is improved. The operation parameter values in the first display view may record detailed operation information of each step in the production step, including an execution step name, a start execution time (or an expected start execution time), an end execution time (or an expected end execution time), a duration, a main function step, a parallel function step, and operation parameter values corresponding to the operation parameters.

And S130, acquiring continuous change information of each parameter and generating a second display view.

Acquiring continuous change information of each parameter and generating a second display view; the continuous change information is information in which the value of the parameter changes continuously with time. The database also comprises parameters with continuous changes, continuous change information of each parameter can be obtained from the database, and a corresponding second display view is generated according to the continuous change information.

As shown in fig. 3, a second display view is generated as a right side view in fig. 3, and the second display view includes the main figure, the attached figure, and the stack figure. The upper half part of the second display view comprises a parameter curve graph which can be realized by adopting a canvas drawing label, the second display view can be visually rendered by using an echarts chart, and the continuously changing information of each parameter is displayed in a line graph mode, so that the real-time monitoring effect and the data analysis and comparison effect are achieved. For example, the parameter curves in the main graph and the drawings can be displayed on the basis of the same time axis, and the main graph, the sub-graph and the stack graph can also be displayed on the basis of the same time axis; the three equipment states are displayed in a stacking diagram mode and respectively correspond to an equipment running state, equipment alarm data and an equipment operation mode.

In an embodiment, as shown in fig. 6, step S130 includes sub-steps S131, S132, S133 and S134.

S131, obtaining the numerical value of each parameter to obtain the continuous change information of each parameter.

Specifically, it may be determined whether the values of the parameters in the database continuously change over time, and if the values of the parameters continuously change over time, all the values corresponding to the parameters are obtained as the corresponding continuous change information. If the value of the parameter does not change continuously with time, the parameter does not have corresponding continuous change information, that is, the continuous change information of the parameter does not need to be acquired.

And S132, generating a parameter curve corresponding to each parameter according to the continuous change information of each parameter.

The parameter curves corresponding to the parameters can be generated according to the continuous change information of the parameters, specifically, the continuous change information of the parameters is sorted on a plane coordinate system by a time axis, and values in the continuous change information are connected to obtain the corresponding parameter curves, so that each parameter with continuous change can correspondingly generate one parameter curve, the horizontal axis (x axis) of the parameter curve corresponds to time, and the vertical axis (y axis) of the parameter curve corresponds to the corresponding value.

And S133, generating a corresponding stack diagram according to the equipment state parameter values prestored in the database.

The corresponding equipment state parameter values can be obtained from the database, and can be used for recording the state of the industrial production equipment at each moment, wherein the equipment state parameter values comprise the equipment running state, the equipment alarm data and the parameter values corresponding to the equipment operation mode, and the three equipment states are displayed in a stacked graph mode.

For example, in a specific embodiment of the present application, a device status color and an alarm color of each segment are configured to be displayed in a stacked graph (device operation status part: operation or alarm) in a segmented color change manner.

S134, selecting at least one parameter curve to be combined with the stacked graph to generate a second display view.

In the practical application process, at least one parameter curve can be selected and a corresponding second display view is generated, and the second display view can visually display the continuous change of the parameters. For example, one parametric curve may be added to the main graph, or four parametric curves may be selected and two of them added to the main graph and two to the sub graph, and the parametric curves combined with the stack graph to generate the second display view. The colors of the parameter curves and the line segments in the stacked graph in the generated second display view are different. The generated second display view uses the design idea of componentization embedded page, realizes the attributes of independent introduction of regions and mutual linkage among components, and further can be linked with the generated first display view so as to realize the purpose of linkage display of production and equipment number diagrams.

For example, as shown in fig. 3, in an embodiment of the present application, the second display view includes four parameter curves, two parameter curves correspond to generate a main graph, and the other two parameter curves correspond to generate a drawing, and both the main graph and the sub-graph are implemented using a graph configuration and include a legend, a prompt box, an x-axis and a y-axis, where an x-axis coordinate value of the sub-graph may inherit a coordinate value of the x-axis of the main graph, that is, a lateral dimension of the main graph and the drawing in the x-axis dimension is the same. The coordinate value of the x axis of the sub map and the abscissa of the stack map may be respectively inherited from the coordinate value of the x axis of the main map.

In an embodiment, as shown in fig. 7, the step S130 is followed by sub-steps S1301, S1302, S1303 and S1304.

And S1301, if the first operation information of the user is monitored to be that a cursor falls into the area where the parameter curve of the second display view is located, generating a prompt box and adding the prompt box to the second display view for displaying.

The terminal equipment can monitor the operation information of the user, and if the first operation information of the user is monitored to be the area where the cursor falls into the parameter curve of the second display view, a corresponding prompt box can be generated and added to the second display view for display. Wherein the cursor may be a cursor of a mouse. Specifically, in an initial state, a first group of numerical values of the corresponding parameters displayed in the second display view in the database can be acquired as the device prompt parameter values, and a prompt box is generated according to the acquired device prompt parameter values and added to the second display view.

For example, the main graph in the second display view includes a parameter curve corresponding to a parameter of "nozzle temperature" and a parameter curve corresponding to a parameter of "proportional valve for increasing and decreasing temperature", the sub-graph includes a parameter curve corresponding to a parameter of "master cylinder water level" and a parameter curve corresponding to a parameter of "bucket 1 water level", and the stack graph includes line segments corresponding to two parameters of "state" and "alarm". The first group of values (values corresponding to the first acquisition time) corresponding to the six parameters, namely the nozzle temperature, the temperature-increasing proportional valve, the master cylinder water level, the bucket 1 water level, the state and the alarm, can be respectively obtained from the database and used as the prompting parameter values of the equipment, and a corresponding prompt frame is generated according to the prompting parameter values of the equipment and displayed in the second display view, for example, the finally displayed prompt frame is shown as the direction frame at the upper right side in fig. 3.

And S1302, if the second operation information of the user is monitored to be that the cursor slides in the area where the parameter curve is located, generating a time marking line corresponding to the second operation information.

In a specific embodiment, the information displayed in the prompt box can be adjusted along with the operation of the user. Specifically, the corresponding time mark line may be further generated according to the second operation information of the user to obtain information corresponding to the second operation information of the user for corresponding display, the time mark line corresponding to the second operation information may be generated in the parameter curve for sliding according to the second operation information of the user, and a coordinate of the time mark line on the horizontal axis is time information of the parameter curve.

In one embodiment, as shown in fig. 8, step S1302 includes substeps S1321, S1322, S1323 and S1324.

S1321, acquiring a coordinate position of a cursor position in the second operation information relative to a pixel at the upper left corner of the second display view;

s1322, calculating a transverse distance between the coordinate position and the x-axis initial position;

s1323, determining a logic coordinate value corresponding to the coordinate position on the x axis relative to the x axis starting position according to the transverse distance and the time value of the x axis starting position;

and S1324, drawing a perpendicular line perpendicular to the x axis by using the logical coordinate value to obtain a time marking line corresponding to the second operation information.

For example, in a specific embodiment, a mouse click event may be configured and monitored in a graph (the graph includes a main graph, an attached graph, and a stack graph) of the second display view, when a user clicks any position in the graph, the mouse click event may be monitored, a coordinate position of a pixel at the top left corner of the graph corresponding to the current mouse position may be obtained, a specific time value corresponding to the x-axis start position on the x-axis of the current mouse position may be determined by calculating a distance between the coordinate position corresponding to the current mouse position and the x-axis start position, and a time value of the x-axis start position is known, that is, a pixel coordinate of the current mouse position may be converted into a logical coordinate value on the x-axis, and a time mark line may be obtained by making a perpendicular line perpendicular to the x-axis with the specific time value of the current mouse position. The specific time value corresponding to the current mouse position can be stored in the public state information pool so as to be used when values of other parameters are acquired in the following process.

Meanwhile, the left and right movement of the time mark line can be controlled through the keyboard, a monitoring event can be globally defined, and the keyboard is allowed to control only after a user clicks the curve graph to generate the time mark line. If moving to the left, the index of the current time marking line is reduced by one (moving to the left to the previous time point along the x axis); if the motion is moved to the right, adding one (moving to the right along the x axis to a later time point); while setting the boundary values, no data range beyond the x-axis is allowed.

And S1303, obtaining the numerical values of the parameter curves which are contained in the second display view and correspond to the time mark lines from the database as prompting parameter values of the target equipment.

Values of the parameter curve included in the second display view and corresponding to the time point and the time mark line may be obtained from the database as values of the target device prompt parameter corresponding to the second display view and the time mark line.

And S1304, updating and displaying information contained in the prompt box of the second display view according to the prompt parameter value of the target device.

Because the prompt box is generated in the second display view, the information contained in the prompt box can be updated and displayed according to the prompt parameter value of the target device, that is, the prompt parameter value of the target device replaces the original numerical value in the prompt box and is displayed.

In one embodiment, as shown in fig. 9, after the step S1302, steps S1311 and S1312 are further included.

S1311, if it is monitored that the third operation information of the user is clicking a parameter curve in the second display view, acquiring a numerical value corresponding to the acquisition time and the time mark line from the database as a target parameter value; s1312, filling the target parameter values into a parameter display panel in the second display view for display.

In order to show more complete numerical information in the second display view, a parameter display panel can be configured in the second display view; according to the clicking operation of the user, the numerical value with the same collection time point as the specific time value corresponding to the time marking line is obtained from the database and serves as the target parameter value, the target parameter value comprises the numerical values corresponding to a plurality of parameters, and the obtained target parameter value can be filled into the parameter display panel, so that the target parameter value is displayed in the second display view. When the third operation information of the user is click operation, the numerical value corresponding to the time mark line of the click position of the user can be obtained and used as the target parameter value.

For example, the lower right side of fig. 3 is the configured parameter display panel, the parameter display panel can be divided into a plurality of display areas, fig. 3 includes three display areas of "analog", digital input "and" digital output ", and each display area can display the corresponding value of the corresponding type of parameter.

And S140, combining the first display view and the second display view to obtain a linkage view and displaying the linkage view.

The first display view and the second display view can be combined to obtain the linkage view and display the linkage view. For example, in one embodiment of the present application, placing the first display view to the left and the second display view to the right combine to provide a linkage view.

S150, if the operation information of the user is monitored to be that any display view in the linkage views is clicked, and time characteristic information corresponding to the operation information is obtained.

The method and the device can monitor the operation information of the user, and if the operation information of the user is monitored to be the first display view or the second display view in the clicking linkage view, the time characteristic information corresponding to the operation information can be obtained.

Specifically, when the operation information of the user is the graph of the second display view, a time mark line corresponding to the operation information of the user can be obtained, and the time mark line can be obtained; and monitoring the change of the time marking line through the step recording component, and acquiring a specific time value corresponding to the time marking line as time characteristic information.

And when the operation information of the user is that the first display view is clicked, the production step corresponding to the area clicked by the user in the first display view can be acquired as a target production step, the starting execution time and the ending execution time of the target production step can be acquired as time characteristic information, and the acquired time characteristic information can be stored in a public state information pool.

And S160, according to the time characteristic information, carrying out conversion display on the display information corresponding to the time characteristic information in the other display view of the linkage view.

The display information corresponding to the time characteristic information can be displayed in another display view of the linkage view according to the time characteristic information in a transformation manner, so that the effect of bidirectional linkage of the numerical diagrams in the linkage view is realized.

If the time characteristic information is acquired from the second display view, judging whether each production step in the database contains a specific time value corresponding to a time mark line through cyclic judgment, so as to determine that the production step of which the step time zone contains the specific time point is a target production step, namely the display information corresponding to the time characteristic information, performing conversion display, namely, highlighting the information mark of the target production step in the first display view, for example, adding a frame at the periphery of the step 12 in fig. 3, thereby marking the step 12 as highlighting. Further, since the scrollbar in the first display view is at the top-most by default, the highlighted production step for the current mark may not be visible to the user within the viewable area after the mark is highlighted, and thus the production steps displayed in the first display view may be scrolled to scroll the highlighted production step for the current mark into the viewable area for display. In the specific implementation process, a native JS method can be used to obtain the corresponding occupancy height of each production step in the first display view, trigger the built-in API function scrollintroview of the tag object, and transfer the corresponding dom object and occupancy height, so that the scroll distance of the scroll bar can be obtained and the scroll bar can be scrolled to the visible range of the currently marked highlight production step.

If the time characteristic information is acquired from the first display view, determining a start time value closest to a start execution time in the time characteristic information and a finish time value closest to a finish execution time in the x-axis through cyclic judgment, and determining a highlight display area according to the start time value and the finish time value, where the highlight display area is also display information corresponding to the time characteristic information, where performing transform display on the display information corresponding to the time characteristic information may include: and adding a background display color in the highlight display area. And highlighting the color of the parameter curve located within the highlighted area.

For example, when the user clicks on the production step 12 of the first display view in the left area in fig. 3, this production step 12 being used to control the temperature of the dying machine, such as the master cylinder temperature 40, the terminal device determines the production step 12 clicked by the user, since the production step 12 is in the form of a time period (9:24:56-9:45:38) in the time dimension, the computer determines the time period of this production step 12 and matches this time period with the time of the graph of the second display view in the upper right area in fig. 3, to determine the target time period (9:24:56-9:45:38) in the second display view in the upper right area in fig. 3 matching this time period as time characteristic information, and marks the display area in the graph falling within this target time period (9:24:56-9:45:38), such as highlighting or gray scale display (e.g., gray scale portion in the second display view of fig. 3), the user can quickly and accurately find the equipment data of the time period corresponding to the production step, i.e., the gray scale displayed equipment data in the graph of the second display view, including the nozzle temperature, the temperature raising and lowering proportional valve, the master cylinder water level and the bucket 1 water level; in addition, when the user clicks any one of the positions of the gray scale display in the graph of the second display view, specific numerical values of the equipment data can be displayed in the form of a prompt box, so that the production step 12 and the visual linkage of the production data are realized.

When a user clicks any position of the graph of the second display view in the upper right area in fig. 3, the terminal device determines the coordinate of the position clicked by the user, determines a time node clicked by the user on the graph as time characteristic information according to the coordinate, matches the time node with the time period of each production step in the first display view in fig. 3 to determine a step time zone containing the time node in the first display view in fig. 3 as a target time period, and jumps to the production step corresponding to the target time period in the current display area or displays the production step corresponding to the target time period in a mark (as the box displayed in the first display view in fig. 3) to realize reverse linkage of the production data and the production steps. Meanwhile, when the user clicks any position of the graph of the second display view in the upper right area in fig. 3, the terminal device determines the coordinates of the position clicked by the user, determines the time node of the graph according to the coordinates, acquires the value corresponding to the time node from the database as the target parameter value, and updates the target parameter value to the parameter display panel in the lower right area in fig. 3 for display, so as to realize linkage of the production data and the detailed numerical value information.

According to the technical scheme, through the bidirectional linkage of the data graphs, the production data and the equipment data at the same time are accurately associated, a user can more visually and conveniently check the data states of production and equipment in real time, data analysis and summarization are displayed in real time, the fault frequency is reduced, the product quality and the equipment operation and maintenance efficiency are further improved, the labor and equipment cost of enterprises is reduced, and the data interconnection and intercommunication of the production and the equipment is realized in a real sense.

In addition, according to the technical scheme, a time marking line is generated based on the position clicked by a user, a specific numerical value of the time marking line is requested to a background, on one hand, information such as analog quantity input and output and digital quantity input and output can be clearly known, on the other hand, step records of a left area are judged in a circulating mode, when the time point of the current time marking line is judged to be located in a step time zone of a certain production step, a corresponding scroll bar index is found, a display area is automatically displayed in a rolling mode to the corresponding production step for displaying, meanwhile, a highlight display effect is given to an operation parameter value and a parameter curve area corresponding to the production step, the user can visually and clearly check the specific production step corresponding to the current time point, the production information and equipment information of the production step are in a list, and the connectivity of the information is improved; and the safety and the rationality of production are ensured by monitoring the equipment information (such as loss and temperature) of the equipment in real time and displaying the equipment information in real time.

The technical method can be applied to a scene of linkage display of the data associated with the printing and dyeing production equipment, and can also be applied to a scene of linkage display of the data associated with other similar production equipment.

In the method for linkage display of the number and the image based on the industrial internet, provided by the embodiment of the invention, at least one production step is obtained, the operation parameter value associated with the generation step is obtained from a database to generate a first display view, the continuous change information of each parameter is obtained to generate a second display view, and the first display view and the second display view are combined into a linkage view to be displayed; and if the monitored operation information of the user is any display view in the clicking linkage view, acquiring corresponding time characteristic information and performing conversion display on the display information corresponding to the time characteristic information in the other display view. According to the method, the linkage view formed by combining the first display view and the second display view can be generated and displayed, the display information of the other display view which is not operated is converted and displayed according to the operation information input by the user, the production data and the equipment data can be associated and the display information can be converted and displayed in the same display view in a linkage mode, and the efficiency of displaying the data associated with the equipment is greatly improved.

The embodiment of the invention also provides a digital-image linkage display device based on the industrial internet, which can be configured in the terminal device 2000 and is used for executing any embodiment of the digital-image linkage display method based on the industrial internet. Specifically, referring to fig. 10, fig. 10 is a schematic block diagram of an industrial internet-based data and graphic linkage display device according to an embodiment of the present invention.

As shown in fig. 10, the industrial internet-based map linked display device 100 includes a production step acquiring unit 110, a first display view generating unit 120, a second display view generating unit 130, a view displaying unit 140, a time characteristic information acquiring unit 150, and a conversion displaying unit 160.

A production step acquisition unit 110 for acquiring at least one production step.

The first display view generating unit 120 is configured to obtain an operation parameter value associated with each of the production steps from a database, and generate a first display view, where the operation parameter value includes a value corresponding to at least one parameter collected by a sensor from an industrial production device and/or status information of the industrial production device.

In a specific embodiment, the first display view generating unit 120 includes sub-units: the operation parameter determining unit is used for determining operation parameters respectively corresponding to the main function step and the parallel function step in each production step; the operation parameter value acquisition unit is used for acquiring an operation parameter value corresponding to the operation parameter of each production step from the database; and the display view generating unit is used for generating a first display view containing the corresponding operation parameter value of each production step according to the sequence of the production steps and the operation parameter value of each production step.

In a specific embodiment, the first display view generating unit 120 further includes sub-units: a step time zone determining unit configured to determine a step time zone corresponding to each of the production steps; a target value obtaining unit, configured to determine, according to the acquisition time of each value in the database, a step time zone corresponding to the value, and obtain, as a target value, a value corresponding to the step time zone of each production step; and the acquisition unit is used for acquiring a value corresponding to the operating parameter of the production step in the target values of each production step as a relevant operating parameter value.

A second display view generating unit 130 for acquiring continuous variation information of each parameter and generating a second display view; the continuous change information is information in which the value of the parameter changes continuously with time.

In a specific embodiment, the second display view generating unit 130 includes sub-units: the continuous change information acquisition unit is used for acquiring the numerical value of each parameter to obtain the continuous change information of each parameter; a parameter curve generating unit for generating a parameter curve corresponding to each parameter according to the continuous change information of each parameter; the stacking diagram generating unit is used for generating a corresponding stacking diagram according to the equipment state parameter values prestored in the database; and the view generating unit is used for selecting at least one parameter curve to be combined with the stacked graph so as to generate a second display view.

In a specific embodiment, the second display view generating unit 130 further includes sub-units: a prompt box generating unit, configured to generate a prompt box and add the prompt box to the second display view for display if it is monitored that the first operation information of the user is that the cursor falls into the area where the parameter curve of the second display view is located; the time marking line generating unit is used for generating a time marking line corresponding to second operation information if the second operation information of the user is monitored that the cursor slides in the area where the parameter curve is located; a target device prompt parameter value acquisition unit, configured to acquire, from the database, a value of a parameter curve included in the second display view and corresponding to the time point and the time mark line as a target device prompt parameter value; and the updating display unit is used for updating and displaying the information contained in the prompt box of the second display view according to the prompt parameter value of the target equipment.

In a specific embodiment, the time-stamp line generating unit further includes a subunit: a coordinate position acquiring unit, configured to acquire a coordinate position of a cursor position in the second operation information relative to an upper left corner pixel of the second display view; the computing unit is used for computing the transverse distance between the coordinate position and the x-axis starting position; the logic coordinate value determining unit is used for determining a logic coordinate value corresponding to the coordinate position on the x axis relative to the x axis initial position according to the transverse distance and the time value of the x axis initial position; and the time marking line acquisition unit is used for making a perpendicular line perpendicular to the x axis by using the logic coordinate value to obtain a time marking line corresponding to the second operation information.

In a specific embodiment, the second display view generating unit 130 further includes sub-units: the target parameter value acquisition unit is used for acquiring a numerical value corresponding to the acquisition time and the time marking line from the database as a target parameter value if the monitored third operation information of the user is that a parameter curve in the second display view is clicked; and the target parameter value display unit is used for filling the target parameter value into the parameter display panel in the second display view for display.

And a view display unit 140, configured to combine the first display view and the second display view to obtain an interlocking view and display the interlocking view.

And a time characteristic information obtaining unit 150, configured to obtain time characteristic information corresponding to the operation information if it is monitored that the operation information of the user is that any display view in the linkage views is clicked.

And a conversion display unit 160, configured to perform conversion display on the display information corresponding to the time characteristic information in another display view of the linkage view according to the time characteristic information.

The method comprises the steps of obtaining at least one production step, obtaining operation parameter values relevant to the generation step from a database to generate a first display view, obtaining continuous change information of each parameter to generate a second display view, and combining the first display view and the second display view into a linkage view for displaying; and if the operation information of the user is monitored to be that any display view in the linkage views is clicked, acquiring corresponding time characteristic information and performing conversion display on display information corresponding to the time characteristic information in the other display view. According to the method, the linkage view formed by combining the first display view and the second display view can be generated and displayed, the display information of the other display view which is not operated is converted and displayed according to the operation information input by the user, the production data and the equipment data can be associated and the display information can be converted and displayed in the same display view in a linkage mode, and the efficiency of displaying the data associated with the equipment is greatly improved.

The above-described digital map linkage display device based on the industrial internet may be implemented in the form of a computer program that can be run on a computer apparatus as shown in fig. 11.

Referring to fig. 11, fig. 11 is a schematic block diagram of a computer device according to an embodiment of the present invention. The computer device may be a terminal device 2000 for performing an industrial internet-based number map linkage display method to display various items of information associated with industrial production equipment.

Referring to fig. 11, the computer device 500 includes a processor 502, memory, and a network interface 505 connected by a system bus 501, where the memory may include a storage medium 503 and an internal memory 504.

The storage medium 503 may store an operating system 5031 and a computer program 5032. The computer program 5032, when executed, causes the processor 502 to execute a method for linked display of a number map based on the industrial internet, wherein the storage medium 503 may be a volatile storage medium or a non-volatile storage medium.

The processor 502 is used to provide computing and control capabilities that support the operation of the overall computer device 500.

The internal memory 504 provides an environment for the operation of the computer program 5032 in the storage medium 503, and when the computer program 5032 is executed by the processor 502, the processor 502 can execute the linked display method of the data and the diagram based on the industrial internet.

The network interface 505 is used for network communication, such as providing transmission of data information. Those skilled in the art will appreciate that the configuration shown in fig. 11 is a block diagram of only a portion of the configuration associated with aspects of the present invention and is not intended to limit the computing device 500 to which aspects of the present invention may be applied, and that a particular computing device 500 may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

The processor 502 is configured to run the computer program 5032 stored in the memory to implement the corresponding functions in the above-mentioned linked display method based on the number and the diagram of the industrial internet.

Those skilled in the art will appreciate that the embodiment of a computer device illustrated in fig. 11 does not constitute a limitation on the particular configuration of the computer device, and in other embodiments, the computer device may include more or fewer components than those illustrated, or some components may be combined, or a different arrangement of components. For example, in some embodiments, the computer device may only include a memory and a processor, and in such embodiments, the structures and functions of the memory and the processor are consistent with those of the embodiment shown in fig. 11, and are not described herein again.

It should be understood that, in the embodiment of the present invention, the Processor 502 may be a Central Processing Unit (CPU), and the Processor 502 may also be other general-purpose processors, Digital Signal Processors (DSPs), Application Specific Integrated Circuits (ASICs), Field Programmable Gate Arrays (FPGAs) or other Programmable logic devices, discrete Gate or transistor logic devices, discrete hardware components, and the like. Wherein a general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

In another embodiment of the present invention, a computer-readable storage medium is provided. The computer readable storage medium may be a volatile or non-volatile computer readable storage medium. The computer readable storage medium stores a computer program, wherein the computer program, when executed by the processor, implements the steps included in the above-mentioned method for displaying the number and the figure linkage based on the industrial internet.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described apparatuses, devices and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again. Those of ordinary skill in the art will appreciate that the elements and algorithm steps of the examples described in connection with the embodiments disclosed herein may be embodied in electronic hardware, computer software, or combinations of both, and that the components and steps of the examples have been described in a functional general in the foregoing description for the purpose of illustrating clearly the interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

In the several embodiments provided in the present invention, it should be understood that the disclosed apparatus, device and method may be implemented in other manners. For example, the above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units is only a logical division, and there may be other divisions when the actual implementation is performed, or units having the same function may be grouped into one unit, for example, a plurality of units or components may be combined or may be integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may also be an electric, mechanical or other form of connection.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment of the present invention.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention essentially or partly contributes to the prior art, or all or part of the technical solution can be embodied in the form of a software product, which is stored in a computer readable storage medium and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute all or part of the steps of the method described in the embodiments of the present invention. And the aforementioned computer-readable storage media comprise: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a magnetic disk, or an optical disk.

While the invention has been described with reference to specific embodiments, the invention is not limited thereto, and various equivalent modifications and substitutions can be easily made by those skilled in the art within the technical scope of the invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A digital graph linkage display method based on industrial Internet is characterized in that the method is applied to terminal equipment and comprises the following steps:

acquiring at least one production step;

obtaining an operation parameter value associated with each production step from a database and generating a first display view, wherein the operation parameter value comprises a numerical value corresponding to at least one parameter collected by a sensor from industrial production equipment and/or state information of the industrial production equipment;

acquiring continuous change information of each parameter and generating a second display view; the continuous change information is information of continuous change of the numerical value of the parameter along with time;

combining the first display view and the second display view to obtain a linkage view and displaying the linkage view;

if the monitored operation information of the user is that any display view in the linkage views is clicked, acquiring time characteristic information corresponding to the operation information;

and according to the time characteristic information, carrying out conversion display on display information corresponding to the time characteristic information in another display view of the linkage view.

2. The method for linkage display of industrial internet-based data and maps according to claim 1, wherein the step of obtaining the operation parameter value associated with each production step from the database and generating the first display view comprises:

determining operation parameters respectively corresponding to the main function step and the parallel function step in each production step;

acquiring an operation parameter value corresponding to the operation parameter of each production step from the database;

and generating a first display view comprising the operation parameter value corresponding to each production step according to the sequence of the production steps and the operation parameter value of each production step.

3. The method for linkage display of data and graphs based on industrial internet as claimed in claim 1, wherein the obtaining of the operation parameter value corresponding to the operation parameter of each of the production steps from the database comprises: determining a step time zone corresponding to each production step;

determining a step time zone corresponding to each numerical value according to the acquisition time of each numerical value in the database, and acquiring the numerical value corresponding to the step time zone of each production step as a target numerical value;

and acquiring a value corresponding to the operating parameter of the production step in the target values of each production step as a relevant operating parameter value.

4. The linkage display method for the number and the figure based on the industrial internet as claimed in claim 1, wherein the obtaining of the continuous variation information of each parameter and the generation of the second display view comprises:

acquiring the numerical value of each parameter to obtain continuous change information of each parameter;

generating a parameter curve corresponding to each parameter according to the continuous change information of each parameter;

generating a corresponding stack diagram according to the equipment state parameter values prestored in the database;

selecting at least one of the parametric curves to combine with the stack map to generate a second display view.

5. The method for linkage display of the number and the figure based on the industrial internet as claimed in claim 4, wherein after the step of obtaining the continuous variation information of each parameter and generating the second display view, the method further comprises the steps of:

if the monitored first operation information of the user is that the cursor falls into the area of the parameter curve of the second display view, generating a prompt box and adding the prompt box to the second display view for displaying;

if second operation information of the user is monitored, the cursor slides in the area where the parameter curve is located, and a time marking line corresponding to the second operation information is generated;

acquiring a numerical value of a parameter curve which is contained in a second display view and corresponds to a time point and the time marking line from the database as a target equipment prompting parameter value;

and updating and displaying the information contained in the prompt box of the second display view according to the prompt parameter value of the target equipment.

6. The method for linkage display of the number and the figure based on the industrial internet as claimed in claim 5, wherein the generating of the time mark line corresponding to the second operation information comprises:

acquiring the coordinate position of the cursor position in the second operation information relative to the pixel at the upper left corner of the second display view;

calculating the transverse distance between the coordinate position and the x-axis starting position;

determining a logic coordinate value corresponding to the coordinate position on the x axis relative to the x axis initial position according to the transverse distance and the time value of the x axis initial position;

and taking the logic coordinate value as a vertical line perpendicular to the x axis to obtain a time marking line corresponding to the second operation information.

7. The method for linkage display of numerical maps based on industrial internet as claimed in claim 5, further comprising, after the generating of the time mark line corresponding to the second operation information:

if the third operation information of the user is monitored to be clicking a parameter curve in the second display view, acquiring a numerical value corresponding to the acquisition time and the time mark line from the database as a target parameter value;

and filling the target parameter value into a parameter display panel in the second display view for display.

8. A digital and graphic linkage display device based on industrial Internet, which is characterized in that the device is configured in a terminal device, and the device comprises:

a production step acquisition unit for acquiring at least one production step;

the first display view generating unit is used for acquiring an operation parameter value associated with each production step from a database and generating a first display view, wherein the operation parameter value comprises a numerical value corresponding to at least one parameter acquired by a sensor from industrial production equipment and/or state information of the industrial production equipment;

the second display view generating unit is used for acquiring continuous change information of each parameter and generating a second display view; the continuous change information is information of continuous change of the numerical value of the parameter along with time;

the view display unit is used for combining the first display view and the second display view to obtain a linkage view and displaying the linkage view;

the time characteristic information acquisition unit is used for acquiring time characteristic information corresponding to the operation information if the operation information of the user is monitored to be that any display view in the linkage views is clicked;

and the conversion display unit is used for performing conversion display on the display information corresponding to the time characteristic information in the other display view of the linkage view according to the time characteristic information.

9. A computer device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, wherein the processor implements the method for linked display of the figures based on the industrial internet according to any one of claims 1 to 7 when executing the computer program.

10. A computer-readable storage medium storing a computer program which, when executed by a processor, implements the industrial internet-based map linkage display method according to any one of claims 1 to 7.

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