CAD/CAM apparatus and method providing improved display of machined workpiece
First Claim
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1. A CAD/CAM apparatus for generating a machining path in accordance with a defined machining position and a defined machining process in die sinking electrospark machining, comprising:
- die sinking electrospark machining path generation means for generating a machining path for said die sinking electrospark machining;
Z height generating means for converting defined shapes of a workpiece and an electrode to data in terms of Z height and updating said Z height data in response to a virtual operation of the electrode while the machining path is being generated;
brightness data generating means for generating brightness data of said shapes of the workpiece and electrode from said Z height data and updating said brightness data in response to virtual operation of said electrode while said machining in path is being generated; and
display means for displaying shaded shapes of at least one of the electrode and the workpiece in virtual operation, in accordance with said brightness data, and for displaying a shade of a finished profile of at least one of the workpiece and the electrode in accordance with said brightness data.
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Abstract
A machining path in die sinking electrospark machining is more precisely checked before actual machining by displaying shaded images of a machined surface of a workpiece during and after die sinking electrospark machining, whereby and faulty machining operation in die sinking electrospark machining is minimized. A CAD/CAM apparatus for continuously generating a machining path in accordance with a defined machining profile and a defined machining process in machining by a machining center and die sinking electrospark machining is provided having Z height generating means for converting defined shapes of a workpiece, a cutting tool and an electrode to pixel data in terms of Z height and updating the Z height pixel data in response to an operation of the cutting tool while the machining path is being generated, and a brightness data generating unit for generating brightness data of the shapes of the workpiece and electrode from the Z height pixel data and updating the brightness data in response to the operation of the cutting tool while the machining path is being generated. In accordance with the invention, machined surfaces of the electrode and of the workpiece during and after machining are displayed in shaded patterns.
34 Citations
13 Claims
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1. A CAD/CAM apparatus for generating a machining path in accordance with a defined machining position and a defined machining process in die sinking electrospark machining, comprising:
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die sinking electrospark machining path generation means for generating a machining path for said die sinking electrospark machining; Z height generating means for converting defined shapes of a workpiece and an electrode to data in terms of Z height and updating said Z height data in response to a virtual operation of the electrode while the machining path is being generated; brightness data generating means for generating brightness data of said shapes of the workpiece and electrode from said Z height data and updating said brightness data in response to virtual operation of said electrode while said machining in path is being generated; and display means for displaying shaded shapes of at least one of the electrode and the workpiece in virtual operation, in accordance with said brightness data, and for displaying a shade of a finished profile of at least one of the workpiece and the electrode in accordance with said brightness data. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A machining simulation method for continuously generating a machining path in accordance with a defined machining shape and machining process in machining center machining and die sinking electrospark machining, said method comprising the steps of:
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generating a machining path for said machining center; converting defined shapes of a workpiece and a tool into pixel data in terms of Z height and updating said Z height pixel data in response to operation of the tool while the machining path is being generated; generating brightness data of said shapes of the workpiece and the tool from said Z height pixel data and updating said brightness data in response to the operation of the tool while said machining path is being generated; inverting said Z height pixel data of the workpiece generated by said Z height generating step and generating Z height pixel data of an electrode for die sinking electrospark machining; generating a machining path for said die sinking electrospark machining; converting defined shapes of a workpiece and electrode into pixel data in terms of Z height and updating said Z height pixel data in response to the operation of the electrode while the machining path is being generated; and generating brightness data of said shapes of the workpiece, tool and electrode from said Z height pixel data and updating said brightness data in response to the operation of the electrode while said machining path is being generated.
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9. A machining simulation method for continuously generating a machining path in accordance with a defined machining shape and machining process in wire electrospark machining and die sinking electrospark machining, said method comprising the steps of:
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generating a machining path for said wire electrospark machining; converting defined shapes of a workpiece and a tool into pixel data in terms of Z height and updating said Z height pixel data in response to operation of the tool while the machining path is being generated; generating brightness data of said shapes of the workpiece and the tool from said Z height pixel data and updating said brightness data in response to the operation of the tool while said machining path is being generated; inverting said Z height pixel data of the workpiece generated by said Z height generating step and generating Z height pixel data of an electrode for die sinking electrospark machining; generating a machining path in said die sinking electrospark machining; converting defined shapes of the workpiece and the electrode into pixel data in terms of Z height and updating said Z height pixel data in response to the operation of the electrode while the machining path is being generated; and generating brightness data of said shapes of the workpiece, the tool and the electrode from said Z height pixel data and updating said brightness data in response to the operation of the electrode while said machining path is being generated.
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10. A machining simulation method for continuously displaying the shape of removal and an electrode in accordance with defined shapes of a workpiece and the electrode by reading machine path data which has been generated, said method comprising the steps of:
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converting the defined shapes of a workpiece and the electrode into pixel data in terms of Z height and updating said Z height pixel data in response to operation of the electrode while the machining path is being read; and generating brightness data of said shapes of the workpiece and the electrode from said Z height pixel data and updating said brightness data in response to the operation of the electrode while said machining path is being read.
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11. A machining simulation method for continuously generating a machining path in accordance with a defined machining shape and machining process in die sinking electrospark machining, said method comprising the steps of:
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specifying the shape of an electrode; converting the shape of the electrode into pixel data in terms of Z height; and registering said Z height pixel data which has been generated.
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12. A machining simulation method for continuously generating a machining path in accordance with a defined machining shape and machining process in machining center machining, said method comprising the steps of:
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generating a machining path for said machining center; converting defined shapes of a workpiece and a tool into pixel data in terms of Z height and updating said Z height pixel data in response to the operation of the tool while the machining path is being generated; calculating a volume of removal of material removed from the workpiece by the tool in response to the operation of the tool; calculating a tool feed speed in accordance with said volume of removal; and dividing one block into a plurality of blocks and determining a speed of each divided block when the speed in one block in said machining path is changed.
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13. A machining simulation method for continuously generating a machining path in accordance with a defined machining shape and machining process in die sinking electrospark machining, said method comprising the steps of:
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generating a machining path for said die sinking electrospark machining; converting defined shapes of a workpiece and an electrode into pixel data in terms of Z height and updating said Z height pixel data in response to the operation of the electrode while the machining path is being generated; calculating a volume of removal which is removed from the workpiece by the electrode in response to the operation of the electrode; and calculating an electric condition in accordance with said volume of removal.
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Current AssigneeMitsubishi Denki Kabushiki Kaisha (Mitsubishi Electric Corporation)
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Original AssigneeMitsubishi Denki Kabushiki Kaisha (Mitsubishi Electric Corporation)
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InventorsNakata, Masafumi
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Primary Examiner(s)Elmore, Reba I.
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Assistant Examiner(s)Rao, Sheela S.
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Application NumberUS08/609,917Time in Patent Office824 DaysField of Search364/474.24, 364/191, 364/474.26, 364/474.31, 364/474.04, 219/69.15, 219/69.13, 318/569, 318/600, 382/8US Class Current700/182CPC Class CodesG05B 19/4069 Simulating machining proces...G05B 2219/35349 Display part, programmed lo...G05B 2219/35489 Discriminate, different col...G05B 2219/45221 Edm, electrical discharge m...Y02P 90/02 Total factory control, e.g....
