Wire Electric Discharge Machining Apparatus And Wire Electric Discharge Machining Method
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Abstract
A discharge-generation control unit applies at least a preliminary-discharge voltage pulse and a main-discharge voltage pulse between a wire electrode and a work. A discharge-position determining unit determines a discharge position from results of measurement by a plurality of current measuring units. A machining-energy adjusting unit adjusts machining energy generated by the main-discharge voltage pulse based on a discharge position determined before applying the main-discharge voltage pulse, and reflects a result of the adjustment on the generation of an electric discharge by feeding the result to the discharge-generation control unit.
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Citations
28 Claims
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1-14. -14. (canceled)
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15. A wire electric discharge machining apparatus comprising:
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a discharge-generation control unit that applies at least a preliminary-discharge voltage pulse and a main-discharge voltage pulse between a wire electrode and a work in sequence to generate a pulse-like electric discharge;
a plurality of current measuring units that measure discharge currents flowing between the electrodes in a plurality of current-carrying paths;
a discharge-position determining unit that determines, when calculating discharge positions from results of measurement by the current measuring units, a discharge position at the time of at least second application of the preliminary-discharge voltage pulse; and
a machining-energy adjusting unit that sets one of the discharge position calculated by the discharge-position determining unit at the time of the application of the preliminary-discharge voltage pulse, a discharge position predicted from a discharge position, where an electric discharge occurred in the past, calculated from the main-discharge voltage pulse immediately preceding the preliminary-discharge voltage pulse or the like, and a discharge position calculated by the discharge-position determining unit at the time of application of a voltage pulse generated before the application of the preliminary-discharge voltage pulse as a discharge position determined before the application of the main-discharge voltage pulse, compares, as required, the discharge position determined before the application of the main-discharge voltage pulse and the discharge position calculated by the discharge-position determining unit at the time of the application of the main-discharge voltage pulse and reflects a result of the comparison on determination of a discharge position performed before application of the main-discharge voltage pulse performed next time, adjusts a pulse width or a voltage of the main-discharge voltage pulse, and feeds a result of the adjustment to the discharge-generation control unit to cause the discharge-generation control unit to reflect the result on the generation of an electric discharge. - View Dependent Claims (16, 17, 18, 19, 20, 21)
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22. A wire electric discharge machining apparatus comprising:
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a discharge-generation control unit that applies at least a preliminary-discharge voltage pulse and a main-discharge voltage pulse between a wire electrode and a work in sequence to generate a pulse-like electric discharge;
a plurality of current measuring units that measure discharge currents flowing between the electrodes in a plurality of current-carrying paths;
a discharge-position determining unit that calculates a discharge position from results of measurement by the current measuring units;
a shape predicting unit that accumulates, at the time of at least first cut of the first cut and second cut, for each discharge position on a Z coordinate calculated by the discharge-position determining unit at the time of one or both of the preliminary-discharge voltage pulse and the main-discharge voltage pulse, machining energy on X and Y coordinates generated by the main-discharge voltage pulse applied to the discharge position and predicts a present machining shape based on the accumulated machining energy in the X and Y coordinates; and
a machining-energy adjusting unit that adjusts, at the time of the second and subsequent cuts or, when the second cut time is included in objects of the shape predicting unit, at the time of third and subsequent cuts, machining energy generated by the preliminary-discharge voltage pulse input according to the machining shape predicted by the shape predicting unit and feeds a result of the adjustment to the discharge-generation control unit and causes the discharge-generation control unit to reflect the result on the generation of an electric discharge. - View Dependent Claims (23, 24)
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25. A wire electric discharge machining method for a wire electric discharge machining apparatus including a discharge-generation control unit that applies at least a preliminary-discharge voltage pulse and a main-discharge voltage pulse between a wire electrode and a work in sequence to generate a pulse-like electric discharge, a plurality of current measuring units that measure discharge currents flowing between the electrodes in a plurality of current-carrying paths, and a discharge-position determining unit that calculates a discharge position from results of measurement by the current measuring units, the wire electric discharge machining method comprising:
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setting, when the work is formed by stacking a plurality of materials of different qualities, boundary position coordinates of the respective materials and current waveforms applied to the materials in a storing unit;
determining a discharge position before the application of the main-discharge voltage pulse; and
reflecting including determining, with reference to the storing unit, a waveform of the main-discharge voltage pulse applied to the discharge position determined for each of the materials of the work; and
reflecting a result of determination on the generation of an electric discharge by feeding the result to the discharge-generation control unit. - View Dependent Claims (26, 27, 28)
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Specification