CN110531693B

CN110531693B - Graphical editing interface design method of numerical control system of wire saw

Info

Publication number: CN110531693B
Application number: CN201910796435.4A
Authority: CN
Inventors: 傅师铭; 吴白纯; 许金灿
Original assignee: Quanzhou Dashayu Machinery Technology Co ltd
Current assignee: Quanzhou Dashayu Machinery Technology Co ltd
Priority date: 2019-08-27
Filing date: 2019-08-27
Publication date: 2022-05-24
Anticipated expiration: 2039-08-27
Also published as: CN110531693A

Abstract

The invention relates to the technical field of numerical control of rope saws, and provides a graphic editing interface design method of a numerical control system of a rope saw, which combines a program language and a graphic for display, can effectively provide editing prompt for operators, has high interface interactivity, diversified editing input methods, simplified editing operation, convenient operation, and capability of performing simulation processing, performing pre-estimation, eliminating unexpected situations, improving the effective correctness of editing execution, avoiding misoperation, and realizing simple, visual, easy-to-learn, easy-to-use, flexible, convenient and rapid interface distribution configuration.

Description

Graphical editing interface design method of numerical control system of wire saw

Technical Field

The invention relates to the technical field of numerical control of wire saw machines, in particular to a graphical editing interface design method of a numerical control system of a wire saw machine.

Background

The existing rope saw control system comprises a controller with an interactive interface, a PLC control center, a bead string rope driving system, a walking control system, a machine head overturning system, a hydraulic system, a machine head transverse moving system, a guide wheel telescopic system and a bead string rope tension detection regulation and control system; the interactive interface communicates various control instructions to a PLC control center through RS485 communication, the PLC control center analyzes and processes and then controls a walking control system (controlling the lifting displacement of a left guide wheel box and a right guide wheel box of the rope saw and controlling the front and back displacement and rotation of a trolley of the rope saw), a beaded rope driving system, a machine head turning system (controlling the rotation of a left guide wheel and a right guide wheel of the rope saw) and a hydraulic system, controls a machine head transverse moving system and a guide wheel telescopic system (controlling the left and right displacement of the left guide wheel and the right guide wheel of the rope saw) through the hydraulic system, and detects and adjusts the tension of the diamond beaded rope through a tension detection and adjustment system; the interactive interface realizes data exchange with the PLC control center and is used for controlling operation and displaying data, states and various fault alarm signals.

An operator can edit a processing graph on an interactive interface of the rope saw control system to drive the rope saw to process a workpiece into various needed graphs, however, the problems of poor human-computer interaction experience, single program input method, complex program language, no programming prompt or remark, complex operation and the like exist on the editing interface of the processing graph on the interactive interface of the existing rope saw control system, so that the requirement degree of the editing interface on the basic knowledge of a user is high, workers with professional backgrounds often need to recite professional codes first and master the programming ability skillfully, which causes difficulty in entry of novices and limits wider use of the rope saw; meanwhile, the system code modification editing interface cannot well visually reflect the change before and after modification on the change of the legend, and the existing editing interface lacks a simulation processing function, cannot carry out execution prediction of an input program, is easy to have misoperation and has low practicability.

Disclosure of Invention

Therefore, aiming at the problems, the invention provides a graphic editing interface design method of a numerical control system of a rope saw, which combines a program language and a graphic for display, can effectively provide editing prompts for operators, has high interface interactivity, diversified editing input methods, simplified editing operation, convenient operation, and can also perform simulation processing, perform pre-estimation, eliminate unexpected situations, improve the effective correctness of editing execution, avoid the situation of misoperation, and realize simple, visual, easy-to-learn, easy-to-use, flexible, convenient and rapid interface distribution configuration.

In order to realize the technical problem, the solution scheme adopted by the invention is as follows: a design method of a graphic editing interface of a numerical control system of a wire saw is applied to an editing interface of the numerical control system of the wire saw and comprises an editing main interface, wherein the editing main interface is divided into a first functional area and a second functional area from left to right; the first functional area is divided into a graphic display area and a conventional command operation area from top to bottom; the second functional area is divided into a program code presentation area, a code annotation area and a soft keyboard for editing from top to bottom;

the graphic display area comprises a graphic area for graphic presentation, and the name and the graphic proportion of a graphic used by the current workpiece are marked in the graphic area; the graph display area is also provided with keys for reading graphs, saving graphs, newly building graphs, deleting graphs, reading a USB flash disk, writing the USB flash disk, a standard drawing library, simulation processing, a previous track and a next track; the reading graph is clicked to read and generate the program code of the graph presented in the graph area, and the read and generated program code is presented in the program code presenting area; the data of the graph presented in the graph area can be saved by clicking the saved graph; the new graph can be edited and established by clicking the new graph; the graph displayed in the graph area can be deleted by clicking the deletion graph; when the system is provided with an external USB flash disk, the graphic file in the USB flash disk can be read by clicking the read USB flash disk, and a program code is directly generated and is presented in a program code presentation area; clicking the write-in U disk, and writing the graph presented in the graph area into the U disk for storage; clicking a standard gallery to enter a gallery sub-interface, wherein a plurality of graphs are stored in the gallery sub-interface, the graphs can be selected in the gallery sub-interface, and the selected graphs are presented in a graph area; clicking simulation processing can enter a simulation processing sub-interface, and dynamic simulation of the graph track can be performed step by step in the simulation processing sub-interface according to the program code setting; confirming that the wire saw performs workpiece processing execution according to the graph presented in the graph area if the clicking confirmation processing is performed; clicking the previous track or the next track can display the previous track or the next track of the currently selected graph track on the graph displayed in the graph area;

the conventional command operation area is divided into a command selection area and a parameter input area from left to right, a plurality of conventional action commands are arranged in the command selection area from top to bottom, an input frame of an X-axis increment U, an input frame of a Y-axis increment V and an input frame of an operating speed F are sequentially arranged in the parameter input area from top to bottom, a left key and a right key are further arranged on the input frame of the X-axis increment U, specific numerical values can be input in the input frame of the X-axis increment U, and numerical value adjustment can be carried out by clicking the left key and the right key; an upward key and a downward key are further arranged on the input frame of the Y-axis increment V, so that specific numerical values can be input in the input frame of the Y-axis increment V, and numerical values can be adjusted by clicking the upward key and the downward key; when one of the conventional action commands is selected, the system can automatically generate a corresponding program code, and simultaneously, parameter input can be carried out in the parameter input area to generate a corresponding command; the lower part of the parameter input area is also provided with a key application and a new line, and the click application can add the selected and generated conventional action command to the position of the cursor in the program code presentation area to realize application; clicking the newly added line can newly add a blank line below the position of the cursor in the program code presentation area;

the program code presentation area is used for presenting and editing program codes, the program codes in the program code presentation area are presented in the form of single-row commands, namely, each row of program codes corresponds to one command, meanwhile, a graphic line segment designed corresponding to each single-row command is in one-to-one correspondence with each line segment of the graphic in the graphic display area, and when one single-row command in the program code presentation area is clicked, the graphic line segment corresponding to the single-row command is displayed in the red form on the graphic in the graphic display area; when a single-line command is edited and adjusted in the program code presentation area, the adjustment change of the graphic line segment corresponding to the single-line command is directly simulated and presented on the graphic in the graphic display area for production; in addition, when a single-line command in the program code presentation area is clicked, a code annotation can be given to the single-line command in the code annotation area; and editing the program codes in the program code presentation area through the clicking operation of the editing soft keyboard.

Further, the portion of the pattern defining the green mark in the pattern area represents that the portion of the pattern performs the idle running, and the portion of the pattern defining the dotted mark in the pattern area represents that the portion of the pattern performs the straight running.

Furthermore, the simulation processing sub-interface is divided into a simulation function area and an operation area from top to bottom, the simulation function area is divided into a graph track simulation area and a code indication area from left to right, and the operation area is internally provided with a key start, pause, return, start return and exit; the graph track simulation area is used for presenting a graph generated by simulating an overall program code command, the program code in the code indication area is presented in the form of a single-row command, and a graph line segment designed corresponding to each single-row command is in one-to-one correspondence with each line segment of the graph in the graph display area; when the click is started, single-line commands are automatically selected in a code indicating area in a rolling mode in sequence, and red display simulation of corresponding line segments is performed in sequence along with the selection of the single-line commands in the corresponding graph track simulation area, so that graph track dynamic simulation is realized, and a walking track is displayed; when the pause is clicked, the dynamic simulation of the graph track realizes the pause; clicking to retreat, and then carrying out one-line command and one-step graphic track retreat operations; if the starting point is clicked, directly returning to the first single-line command and the figure track to return to the starting point position; and if the user clicks to quit, directly quitting the simulation processing sub-interface.

Furthermore, the simulation processing sub-interface appears on the editing main interface when appearing.

By adopting the technical scheme, the invention has the beneficial effects that: according to the design method for the graphic editing interface of the rope saw numerical control system, a single-line command presentation form is adopted in the editing interface, the single-line command and the graphic are in one-to-one correspondence, the graphic section corresponding to the selected single-line command can be highlighted in red on the graphic, and the change simulation of the corresponding graphic section can be directly given according to the adjustment and editing of the single-line command during the graphic presentation, the adjustment result simulation display is given, the graphic result edited by program codes is visually embodied, the judgment of an operator on the editing result is facilitated, the understanding of the operator on the command codes is facilitated, the editing difficulty is further reduced by combining code annotation, and the interface interactivity is improved; moreover, the execution of idle walking, linear walking and the like can be represented in the graph in the forms of green, dotted lines and the like, so that the graph displays more processing process information, and the accuracy of editing effectiveness is improved; moreover, the editing interface can not only directly input commands to be executed, but also can intuitively select conventional action commands, the system automatically generates corresponding codes, and then generates corresponding commands in a parameter input mode, so that the complexity of code identification is avoided, the input mode is diversified and simplified, and the system is convenient for a novice to quickly master; in addition, the simulation processing interface can carry out dynamic track test on the graph, can detect some unexpected errors during programming such as collision between different mechanisms and exceeding a processing limit value, and eliminates unexpected situations.

Drawings

FIG. 1 is a schematic diagram of a layout structure of an editing main interface according to an embodiment of the present invention.

FIG. 2 is a schematic diagram of a layout structure of a simulation processing sub-interface according to an embodiment of the present invention.

Detailed Description

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

Referring to fig. 1 to 2, an embodiment of the present invention discloses a method for designing a graphical editing interface of a numerical control system of a wire saw, which is applied to an editing interface of the numerical control system of the wire saw, and includes an editing main interface, wherein the editing main interface is divided into a first functional area and a second functional area from left to right; the first functional area is divided into a graphic display area and a conventional command operation area from top to bottom; the second functional area is divided into a program code presentation area, a code annotation area and a soft keyboard for editing from top to bottom;

the pattern display area comprises a pattern area used for pattern presentation, the name and the pattern proportion of a pattern used by a current workpiece are marked in the pattern area, a pattern part with a specified green mark in the pattern area represents that the pattern part of the wire saw performs idle walking, and a pattern part with a specified dotted mark in the pattern area represents that the pattern part of the wire saw performs straight walking. (ii) a The graph display area is also provided with keys for reading graphs, saving graphs, newly building graphs, deleting graphs, reading a USB flash disk, writing the USB flash disk, a standard drawing library, simulation processing, a previous track and a next track; the reading graph is clicked, so that the program code can be read and generated from the graph presented in the graph area, and the read and generated program code is presented in the program code presentation area; the data of the graph presented in the graph area can be saved by clicking the saved graph; the new graph can be edited and established by clicking the new graph; the graph displayed in the graph area can be deleted by clicking the deletion graph; when the system is provided with an external USB flash disk, the graphic file in the USB flash disk can be read by clicking the read USB flash disk, and a program code is directly generated and is presented in a program code presentation area; clicking the write-in U disk, and writing the graph presented in the graph area into the U disk for storage; clicking a standard gallery to enter a gallery sub-interface, wherein a plurality of graphs are stored in the gallery sub-interface, the graphs can be selected in the gallery sub-interface, and the selected graphs are presented in a graph area; clicking simulation machining to enter a simulation machining sub-interface, wherein the simulation machining sub-interface floats on the editing main interface, and the dynamic simulation of the graph track can be performed step by step in the simulation machining sub-interface according to the program code setting; confirming that the wire saw performs workpiece processing execution according to the graph presented in the graph area if the clicking confirmation processing is performed; clicking the previous track or the next track can display the previous track or the next track of the currently selected graph track on the graph displayed in the graph area;

the simulation processing sub-interface is divided into a simulation function area and an operation area from top to bottom, the simulation function area is divided into a graph track simulation area and a code indication area from left to right, and the operation area is internally provided with a key start, pause, return, start return and exit; the graph track simulation area is used for presenting a graph generated by simulating an overall program code command, the program code in the code indication area is presented in the form of a single-row command, and a graph line segment designed corresponding to each single-row command is in one-to-one correspondence with each line segment of the graph in the graph display area; when clicking and starting, automatically carrying out single-line command sequential rolling selection in the code indication area, and sequentially carrying out red display simulation of corresponding line segments along with the selection of the single-line command in the corresponding graph track simulation area so as to realize graph track dynamic simulation; when the pause is clicked, the dynamic simulation of the graph track realizes the pause; clicking to retreat, and then carrying out one-line command and one-step graphic track retreat operations; clicking to return to the starting point, and directly returning to the first single-line command and the figure track to return to the starting point position; if the click quitting is carried out, directly quitting the simulation processing sub-interface;

the program code presentation area is used for presenting and editing program codes, the program codes in the program code presentation area are presented in the form of single-line commands, namely, each line of program codes corresponds to one command, simultaneously, a graphic line segment designed corresponding to each single-line command is in one-to-one correspondence with each line segment of the graphics in the graphic display area, and when a single-line command in the program code presentation area is clicked, the graphic line segment corresponding to the single-line command is displayed in a red form on the graphics in the graphic display area; when a single-line command is edited and adjusted in the program code presentation area, the adjustment change of the graphic line segment corresponding to the single-line command is directly simulated and presented on the graphic in the graphic display area for production; in addition, when a single-line command in the program code presentation area is clicked, a code annotation can be given to the single-line command in the code annotation area; and editing the program codes in the program code presentation area through the clicking operation of the editing soft keyboard.

In conclusion, the design method for the graphic editing interface of the numerical control system of the rope sawing machine has the advantages that various input modes are developed through more graphic display, humanized means such as easily understood annotations are added, the interactive interface is more friendly, novices can quickly master the method, the popularization rate of the numerical control machine is improved, enterprises are helped to reduce labor cost, and the novices replace professionals.

The above description is only an embodiment utilizing the technical content of the present disclosure, and any modification and variation made by those skilled in the art can be covered by the claims of the present disclosure, and not limited to the embodiments disclosed.

Claims

1. A design method of a graphic editing interface of a numerical control system of a wire saw is applied to an editing interface of the numerical control system of the wire saw and is characterized in that: the method comprises the steps that an editing main interface is divided into a first functional area and a second functional area from left to right; the first functional area is divided into a graphic display area and a conventional command operation area from top to bottom; the second functional area is divided into a program code presentation area, a code annotation area and a soft keyboard for editing from top to bottom;

the graphic display area comprises a graphic area for graphic presentation, and the name and the graphic proportion of the graphic used by the current workpiece are marked in the graphic area; the graphic display area is also provided with a key for reading a graphic, a key for storing the graphic, a key for newly building the graphic, a key for deleting the graphic, a key for reading a USB flash disk, a key for writing in the USB flash disk, a key for a standard drawing library, a key for simulating processing, a key for a previous track and a key for a next track; the reading graph is clicked to read and generate the program code of the graph presented in the graph area, and the read and generated program code is presented in the program code presenting area; the data of the graph presented in the graph area can be saved by clicking the saved graph; the new graph can be edited and established by clicking the new graph; the graph displayed in the graph area can be deleted by clicking the deletion graph; when the system is provided with an external USB flash disk, the graphic file in the USB flash disk can be read by clicking the read USB flash disk, and a program code is directly generated and is presented in a program code presentation area; clicking the write-in U disk, and writing the graph presented in the graph area into the U disk for storage; clicking a standard gallery to enter a gallery sub-interface, wherein a plurality of graphs are stored in the gallery sub-interface, the graphs can be selected in the gallery sub-interface, and the selected graphs are presented in a graph area; clicking simulation processing can enter a simulation processing sub-interface, and dynamic simulation of the graph track can be performed step by step in the simulation processing sub-interface according to the program code setting; confirming that the wire saw performs workpiece processing execution according to the graph presented in the graph area if the clicking confirmation processing is performed; clicking the previous track or the next track can display the previous track or the next track of the currently selected graph track on the graph displayed in the graph area;

the program code presentation area is used for presenting and editing program codes, the program codes in the program code presentation area are presented in the form of single-line commands, namely, each line of program codes corresponds to one command, simultaneously, a graphic line segment designed corresponding to each single-line command is in one-to-one correspondence with each line segment of the graphics in the graphic display area, and when a single-line command in the program code presentation area is clicked, the graphic line segment corresponding to the single-line command is displayed in a red form on the graphics in the graphic display area; when a single-line command is edited and adjusted in the program code presentation area, the adjustment change of the graphic line segment corresponding to the single-line command is directly simulated and presented on the graphic in the graphic display area for production; in addition, when a single-line command in the program code presentation area is clicked, a code annotation can be given in the code annotation area corresponding to the single-line command; and editing the program codes in the program code presentation area through the clicking operation of the editing soft keyboard.

2. The method for designing a graphic editing interface of a rope saw numerical control system according to claim 1, characterized in that: the graph part of the graph area, which is marked by the green line, represents that the graph part of the rope saw performs the idle walking, and the graph part of the graph area, which is marked by the dotted line, represents that the graph part of the rope saw performs the straight walking.

3. The method for designing a graphic editing interface of a rope saw numerical control system according to claim 1 or 2, characterized in that: the simulation processing sub-interface is divided into a simulation function area and an operation area from top to bottom, the simulation function area is divided into a graph track simulation area and a code indication area from left to right, and the operation area is internally provided with a key start, pause, return, start return and exit; the graph track simulation area is used for presenting a graph generated by simulating an overall program code command, the program code in the code indication area is presented in the form of a single-row command, and a graph line segment designed corresponding to each single-row command is in one-to-one correspondence with each line segment of the graph in the graph display area; when the click is started, single-line commands are automatically selected in a code indicating area in a rolling mode in sequence, and red display simulation of corresponding line segments is performed in sequence along with the selection of the single-line commands in the corresponding graph track simulation area, so that graph track dynamic simulation is realized, and a walking track is displayed; when the pause is clicked, the dynamic simulation of the graph track realizes the pause; clicking to retreat, and then carrying out one-line command and one-step graphic track retreat operations; clicking to return to the starting point, and directly returning to the first single-line command and the figure track to return to the starting point position; and if the user clicks to quit, directly quitting the simulation processing sub-interface.

4. The method for designing a graphic editing interface of a rope saw numerical control system according to claim 3, characterized in that: and the simulation processing sub-interface appears on the editing main interface when appearing.