JP2000003384A5 - - Google Patents

Description

[Claims]
1. A system for generating a bending plan using a graphical user interface, the bending plan being configured to be used for manufacturing parts in a facility.
A bending order display system for generating and displaying a bending order input window on a display device, wherein the bending order input window includes a two-dimensional plane image of the part;
A tool display device for generating and displaying tool information on the display device, and the tool information is related to a plurality of tools;
With an input device for inputting a bending order based on the two-dimensional plane image of the part and selecting a tool based on the tool information displayed on the display device;
With the bending order input and selected by the input device and a bending plan storage system for storing the bending plan for the part based on the tool;
Including
The bending order display system is configured to generate and display a plurality of stereoscopic images of the parts on the display device based on the bending order input by the input device.
2. In the system according to claim 1, the two-dimensional plan image of the part includes the representation of each bending line of the part, and the input device is the bending each displayed in the two-dimensional plan view of the part. The system is configured to enter the bending order by selecting a line, and the system further inserts to determine and display insertion direction information for each of the bending lines of the component on the display device. It has a direction determination system.
3. The system according to claim 2, which further displays a bending order number for displaying the bending order number for each bending line on the display device based on the bending order input by the input device. Including the system.
4. In the system according to claim 3, each of the bend lines separates the part into two surfaces, and the insertion direction determination system is based on each of the surfaces of the part having a shorter predetermined dimension. It is configured to determine the insertion direction for the bend line.
5. In the system according to claim 1, the plurality of stereoscopic images are displayed by the display system in the order corresponding to the bending order.
6. The system according to claim 5, which further comprises a drag-drop editing system for modifying the bending order based on the modification of the display order of the plurality of stereoscopic images on the display device. Have.
7. In the system according to claim 6, when one of the plurality of stereoscopic images is selected by the input device and moved to a different position in the displayed sequence, the drag / drop editing system is used. It is configured to modify the displayed sequence.
8. In the system according to claim 6, the bending order display system is configured to regenerate and display the plurality of stereoscopic images and the representations of the parts based on the modified bending order. ing.
9. In the system according to claim 1, the two-dimensional plane image of the component and the plurality of stereoscopic images of the component are simultaneously displayed on the display device.
10. A storage medium that stores a program for generating a bending plan using a graphical user interface, and the bending plan is configured to be used for manufacturing parts in a facility. ,
The program is a computer
Bending order display system for generating a bending order input window with a two-dimensional plane image of a part on the display device; and a tool display system for generating tool information related to a plurality of tools on the display device; and as appropriate. Bending plan storage system for storing bending plans for said parts based on the bending order and tools input and selected by the input device;
To function as
The bending order display system further generates a plurality of stereoscopic images of the parts related to the representation of the parts at each stage of the bending order on the display device based on the bending order input by the input device. A storage medium that stores a program characterized in that it is configured to be displayed.
11. A method for generating a bending plan using a graphical user interface, wherein the bending plan is configured to be used in the manufacture of parts in equipment.
In the process of generating and displaying the bending order input window on the display device, the bending order input window has a two-dimensional plane image of the part;
A process of inputting a bending order based on a two-dimensional plane image of the part using an input device;
In the process of generating and displaying tool information on the display device, the tool information is related to a plurality of tools;
The process of selecting a tool by the input device based on the tool information displayed on the display device;

The step of storing the bending plan for the part in the storage device based on the input bending order and the selected tool;
Including
The method further includes a step of generating and displaying a plurality of stereoscopic images of the component on the display device based on the input bending order, and the plurality of stereoscopic images of the component are in each stage of the bending order. It relates to the representation of the part.
12. A storage medium that stores a program for generating a bending plan using a graphical user interface, the bending plan being configured to be used for manufacturing parts in a given facility. ,
The program is on the computer
A step of generating and displaying a bending order input window including a two-dimensional plane image of the part on the display device; and a step of generating and displaying tool information related to a plurality of tools on the display device; and appropriate input. The step of storing the bending plan for the part in the storage device based on the bending order input based on the means and the selected tool; and the bending order of the part on the display device based on the input bending order. In the process of generating and displaying a plurality of stereoscopic images, the plurality of stereoscopic images of the component are related to the representation of the component at each stage of the bending order;
A storage medium that stores a program that executes a program.
13. With the storage medium according to claim 12, the program further displays a bending order number on the display device with respect to the bending line based on the bending order input by the input device. Including.
14. As a storage medium according to claim 12, the two-dimensional plane image of the part includes a representation of each bending line of the part, and the program is displayed in the two-dimensional plane image of the part. When the bending order is input by selecting each bending line, this bending order is displayed on the display device, and when the insertion direction information for each of the bending lines of the part is input, this is displayed. Includes displaying the insertion direction of the on the display device.
15. Using the storage medium according to claim 14, the program further displays a plurality of stereoscopic images of the parts in an order corresponding to the bending order, and the plurality of stereoscopic images on the display device. In the case of drag-drop editing for changing the bending order based on the change of the displayed order of the above, the operation of changing the bending order data according to the editing is included.
16. The storage medium according to claim 15, the program modifies the displayed order when at least one of the plurality of stereoscopic images is moved to a different position in the displayed order. Including operations to do.
17. With the storage medium according to claim 15, the program further includes an operation of regenerating and displaying a display of each of the plurality of stereoscopic images and the parts based on the modified bending order.
18. The storage medium according to claim 12, including displaying the tool information via a series of continuously displayed screen displays, at least one of the continuously displayed screen displays. Is displayed based on the previous stage selection by the input device.
19. With the storage medium according to claim 18, the program further includes the step of displaying a first screen display including a plurality of tool type icons on the display device, and each of the tool type icons is a tool. Represents a type.
20. The storage medium according to claim 19, when the program further selects one of the tool type icons by the input device, a second program is displayed on the display device according to the selection of one of the tool type icons. The second screen display includes a plurality of tool shape icons, each of which is associated with a tool type icon selected by the input device.
21. The storage medium according to claim 20, when the program further selects one of the tool shape icons by the input device, the program is displayed on the display device according to the selection of one of the tool shape icons. The tool dimension data includes displaying a table of tool dimension data, the tool dimension data being associated with a plurality of tools, and each of the plurality of tools being associated with a tool shape icon selected by the input device.
22. With the storage medium according to claim 12, the tool stand information includes tool assembly information related to the tool position in the bending machine for each tool used in the bending plan, and the program includes. Further, it includes an operation of generating and displaying a tool assembly window on the display device and storing the selection information when the tool assembly information is selected by the input device based on the tool assembly window.
23. The two-dimensional plane image of the component and the plurality of stereoscopic images of the component are simultaneously displayed on the display device as the storage medium according to claim 12.
24. A system that generates a bending order by using a graphical user interface, the bending order being designed to be used in the manufacture of parts in a given facility.
A bending order display system for generating and displaying a bending order input window on a display device, and the bending order input window has a two-dimensional plane image of the part;
With an input device for inputting the bending order based on the two-dimensional plane image of the part;
Including
The bending order display system is further configured to generate and display a plurality of stereoscopic images of the component based on the bending order input by the input device, and each of the plurality of stereoscopic images of the component. Corresponds to the representation of the part at a certain stage in the bending order.
25. The system according to claim 24 further includes a bending order storage system for storing the bending order of the parts based on the bending order input by the input device.
26. In the system according to claim 24, the two-dimensional plane image of the part includes the representation of each bend line of the part, and selects the bend line displayed in the two-dimensional plane image of the part. This is input by the input device.
27. According to the method of claim 24, a plurality of stereoscopic images of the parts are displayed in an order corresponding to the bending order.
28. The system according to claim 27, which further comprises a drag-drop editing system for modifying the bending order based on the modification of the display order of the plurality of stereoscopic images on the display device. Have.
29. In the system according to claim 28, the drag / drop editing system is described when one of the plurality of stereoscopic images is selected by the input device and moved to different positions in the displayed order. It has a means to correct the displayed order.
30. In the system according to claim 28, the bending order display system has means for regenerating and displaying each representation of the plurality of stereoscopic images and the parts based on the modified bending order. ..
31. In the system according to claim 24, the two-dimensional plane image of the component and the plurality of stereoscopic images of the component are simultaneously displayed on the display device.
32. A storage medium that stores a program for generating a bending order by using a graphical user interface, the bending order being designed to be used in the manufacture of parts in a given facility. The program is a computer
A bending order display system for generating and displaying a bending order input window including a two-dimensional plane image of the part on a display device is used.
It is configured to generate and display a plurality of stereoscopic images of the component based on a bending order input and selected by an appropriate input device, and each of the plurality of stereoscopic images of the component is within the bending order. Corresponding to the representation of the part at a certain stage,
A storage medium that stores a program that functions as.
33. A method of generating a bending order by using a graphical user interface, the bending order being configured to be used in the manufacture of parts in a given facility.
In the process of generating and displaying the bending order input window on the display device, the bending order input window has a two-dimensional plane image of the part;
A step of inputting a bending order by an input device based on the two-dimensional plane image of the part;
In a step of generating and displaying a plurality of stereoscopic images of the component based on the bending order input by the input device, each of the plurality of stereoscopic images of the component is a step of the component in the bending order. Things related to expression;
including.
34. A storage medium that stores a program for generating a bending order by using a graphic user interface, and the bending order is configured to be used for manufacturing parts in a bending facility. ,
The program is on the computer
In the step of generating and displaying a bending order input window including a two-dimensional plane image of the part on the display device, it is related to the representation of the part at a certain stage in the bending order based on the bending order input by the input device. A storage medium that stores a program, which comprises executing a step of generating and displaying a plurality of stereoscopic images of parts to be used.
35. With the storage medium according to claim 34, the program further displays a plurality of stereoscopic images of the parts in order according to the bending order, and the plurality of stereoscopic images on the display device. In the case of drag-drop editing for changing the bending order based on the change of the displayed order of the above, the operation of changing the bending order data according to the editing is included.
36. In the storage medium according to claim 35, when at least one of the plurality of stereoscopic images is moved to a different position in the displayed order, the displayed order is used. Including modifying.
37. With the storage medium according to claim 35, the program further comprises regenerating and displaying the plurality of stereoscopic images and each representation of the component based on the modified bending order.
38. With the storage medium according to claim 34, the two-dimensional planar image of the component includes representation of each bend line of the component, and the program is further displayed in the two-dimensional planar image of the component. The operation of inputting the bending order by selecting each bending line by the input device is included.
39. The two-dimensional plane image of the component and the plurality of stereoscopic images of the component are simultaneously displayed on the display device as the storage medium according to claim 34.