Wire-cut electrical discharge machine and method which automatically calculates the shape, number and arrangement of bridging members
First Claim
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1. A wire-cut electrical discharge machining method wherein bridging members are disposed by a bridging device across a workpiece and a core formed by cutting said workpiece into a contour shape using a wire electrode passed between an upper wire guide and a lower wire guide, said core being held by said bridging members, and subsequently a portion left for cutting is machined, said method comprising the steps of:
- calculating the weight of said core;
calculating values defining the shape of said core;
selecting from the results of said calculations at least one of the shape, number and arrangement positions of said bridging members required to machine the left-for-cutting portion of said core and required to hold said core to substantially maintain an original positional relationship when the left-for-cutting portion of said core is machined;
placing said selected bridging members across said core and said workpiece and clear of said left-for-cutting portion before said left-for-cutting portion is machined;
machining the left-for-cutting portion of said core;
judging interference between the bridging member and the upper nozzle; and
moving the upper nozzle to a non-interference position if it has been determined in said judgment that interference will occur.
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Abstract
A method and apparatus for wire-cut electrical discharge machining which allows bridging members for securing a core to a workpiece after cutting to be fitted, without interference with adjacent cores, to ensure efficient machining when multiple cores are to be removed from a single workpiece. The disclosed procedure permits machining which can automatically avoid interference of bridging members with an upper nozzle and can automatically perform efficient machining up to finishing.
24 Citations
20 Claims
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1. A wire-cut electrical discharge machining method wherein bridging members are disposed by a bridging device across a workpiece and a core formed by cutting said workpiece into a contour shape using a wire electrode passed between an upper wire guide and a lower wire guide, said core being held by said bridging members, and subsequently a portion left for cutting is machined, said method comprising the steps of:
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calculating the weight of said core; calculating values defining the shape of said core; selecting from the results of said calculations at least one of the shape, number and arrangement positions of said bridging members required to machine the left-for-cutting portion of said core and required to hold said core to substantially maintain an original positional relationship when the left-for-cutting portion of said core is machined; placing said selected bridging members across said core and said workpiece and clear of said left-for-cutting portion before said left-for-cutting portion is machined; machining the left-for-cutting portion of said core; judging interference between the bridging member and the upper nozzle; and moving the upper nozzle to a non-interference position if it has been determined in said judgment that interference will occur. - View Dependent Claims (2, 3)
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4. A wire-cut electrical discharge machining method wherein a bridging member is disposed by a bridging device on a core formed by cutting said workpiece into a contour shape using a wire electrode passed between an upper wire guide and a lower wire guide, said core being held by said bridging device via said bridging member, and subsequently a portion left for cutting is machined, said method comprising the steps of:
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calculating the weight of said core; calculating values defining the shape of said core; selecting from the results of said calculations at least one of the shape, number and arrangement positions of the bridging members required to hold said core to substantially maintain an original positional relationship when said left-for-cutting portion is machined; placing said selected bridging member on said core by said bridging device before said left-for-cutting portion is machined; holding said core by means of said bridging device via said bridging member and subsequently machining said left-for-cutting portion; judging interference between the bridging member and the upper nozzle; and moving the upper nozzle to a non-interference position if it has been determined in said judgment that interference will occur. - View Dependent Claims (5)
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6. A wire-cut electrical discharge machining method wherein a bridging member is disposed by a bridging device across one workpiece and a plurality of cores formed by cutting said workpiece into a contour shape using a wire electrode passed between an upper wire guide and a lower wire guide, said cores are held by said bridging member, and subsequently portions left for cutting are machined, said method comprising the steps of:
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machining said workpiece to form a plurality of cores in said workpiece until respective left-for-cutting portions left; calculating the weight of each of said cores; calculating values defining the shape of each of said cores; selecting from the results of said calculations at least the shape and arrangement position of said bridging member required to machine said left-for-cutting portion of each core and required to hold said cores to substantially maintain an original positional relationship when the left-for-cutting portion of each core is machined; placing said selected bridging member across said one workpiece and each core machined with the left-for-cutting portion left and clear of the left-for-cutting portions; subsequently machining the left-for cutting portion of each core; judging interference between the bridging member and the upper nozzle; and moving the upper nozzle to a non-interference position if it has been determined in said judgment that interference will occur. - View Dependent Claims (7)
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8. A wire-cut electrical discharge machining method wherein a bridging member is disposed by a bridging device across one workpiece and a plurality of cores formed by cutting said workpiece into a contour shape using a wire electrode passed between an upper wire guide and a lower wire guide, said cores being held by said bridging member, and subsequently portions left for cutting are machined, said method comprising the steps of:
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calculating the weight of each of said cores; calculating values defining the shape of each of said cores; selecting from the results of said calculations at least the shape and arrangement position of said bridging member required to machine the left-for-cutting portion of each core and required to hold said cores to substantially maintain an original positional relationship when the left-for-cutting portion of each core is machined; judging whether or not said selected bridging member interferes with the machined groove of the adjacent core when said bridging member is fitted across said core and said workpiece; repeating said selecting step and judging step until it is judged that no interference will occur if it has been determined in said judgment that interference will occur; machining said workpiece to form the cores for which machined grooves adjacent said bridging member do not interfere with said bridging member, until their left-for-cutting portions remain; placing said selected bridging member across said cores and said workpiece and clear of said left-for-cutting portions; and machining said left-for-cutting portion of each core. - View Dependent Claims (9, 10)
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11. A wire-cut electrical discharge machining apparatus wherein bridging members are disposed by a bridging device across a workpiece and a core formed by a cutting said workpiece into a contour shape using a wire electrode passed between an upper wire guide and a lower wire guide, said core is held by said bridging members, and subsequently a portion left for cutting a machined, said apparatus comprising:
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first means for calculating the weight of the core to be cut off; second means for calculating values of parameters defining the shape of said core; means for selecting from the calculation results of said first and second calculating means at least one of the shape, number and arrangement positions of the bridging members required to machine the left-for-cutting portion of the core and required to hold said core to practically keep an original positional relationship when the left-for-cutting portion of the core is machined; means for controlling said bridging device so that said bridging members selected by said selecting means are disposed across said core and said workpiece and clear of said left-for-cutting portion before said left-for-cutting portion is machined; means for judging interference between said bridging member and said upper nozzle; and means for moving the upper nozzle to a non-interference position if it has been determined in said judgment that interference will occur. - View Dependent Claims (12, 13)
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14. A wire-cut electrical discharge machining apparatus wherein a bridging member is disposed by a bridging device on a core formed by cutting said workpiece into a contour shape using a wire electrode passed between an upper wire guide and a lower wire guide, said core being held by said bridging device via said bridging member, and subsequently a portion left for cutting is machined, said apparatus comprising:
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first means for calculating the weight of a core to be cut; second means for calculating parameters related to the shape of said core; means for selecting from said calculation results of said first and second calculating means at least one of the shape, number and arrangement positions of the bridging members required to hold said core to substantially maintain an original positional relationship when said left-for-cutting portion of said core is machined; means for controlling said selected bridging device so that said bridging member selected by said selecting means is disposed on said core before said left-for-cutting portion is machined; means for judging interference between said bridging member and said upper nozzle; and means for moving the upper nozzle to a non-interference position if it has been determined in said judgment that interference will occur. - View Dependent Claims (15)
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16. A wire-cut electrical discharge machining apparatus wherein a bridging member is disposed by a bridging device across one workpiece and a plurality of cores formed by cutting said workpiece into a contour shape using a wire electrode passed between an upper wire guide and a lower wire guide, said cores being held by said bridging member, and subsequently portions left for cutting are machined, said apparatus comprising:
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first means for calculating the weight of each of said cores; second means for calculating the values of parameters defining the shape of each of said cores; means for selecting from the results of said calculations by said first and second calculating means at least the shape and arrangement position of the bridging member required to machine said left-for-cutting portion of each core and required to hold said cores to substantially maintain an original positional relationship when said left-for-cutting portion of each core is machined; means for controlling said bridging device so that said bridging member selected by said selecting means is disposed across said workpiece and each core machined with said left-for-cutting portion left and clear of said left-for-cutting portions; means for judging interference between said bridging member and said upper nozzle; and means for moving the upper nozzle to a non-interference position if it has been determined in said judgment that interference will occur. - View Dependent Claims (17)
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18. A wire-cut electrical discharge machining apparatus wherein a bridging member is disposed by a bridging device across one workpiece and a plurality of cores formed by cutting said workpiece into a contour shape using a wire electrode passed between an upper wire guide and a lower wire guide, said cores being held by said bridging member, and subsequently portions left for cutting are machined, said apparatus comprising:
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first means for calculating the weight of each of said cores; second means for calculating specifications related to the shape of each of said cores; means for selecting from the results of said calculations by said first and second means at least the shape and arrangement position of the bridging member required to machine said left-for-cutting portion of each core and required to hold said cores to practically keep an original positional relationship when said left-for-cutting portion of each core is machined; means for judging whether or not said selected bridging member interferes with the machined groove of the adjacent core when said bridging member is fitted across said core and said workpiece; means for repeating said selecting step and judging step until it is judged that no interference will occur if it has been determined in said judgment that interference will occur; and means for controlling said bridging device so that after the cores of which machined grooves adjacent the bridging member do not interfere with the bridging member have been machined with their left-for-cutting portions left, said selected bridging member is disposed across said cores and the workpiece and clear of the left-for-cutting portions. - View Dependent Claims (19, 20)
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Specification
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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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InventorsMorishita, Hiroaki
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Primary Examiner(s)Evans, Geoffrey S.
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Application NumberUS08/377,091Time in Patent Office603 DaysField of Search219/69.12, 219/69.17, 83/167, 83/651.1, 83/375, 83/380, 204/206, 204/224 M, 364/474.04US Class Current219/69.12CPC Class CodesB23H 7/02 Wire-cutting
