WIRE ELECTRIC-DISCHARGE MACHINING APPARATUS

1. A wire electric-discharge machining apparatus comprising:

• a pulse-voltage generation unit that has a plurality of power supplies and generates a DC pulse voltage to be applied across an electrode gap between a wire electrode and a workpiece;
  
  a switching unit that selects a power supply from the plurality of power supplies to adjust impedance of the pulse-voltage generation unit and turns on/off application of voltage from the selected power supply to the electrode gap;
  
  a detection unit that detects an electric discharge state in the electrode gap; and
  
  a control unit that controls an on/off operation of the switching unit such that a first DC pulse voltage is applied across the electrode gap from the pulse-voltage generation unit adjusted to a first impedance, and after the first DC pulse voltage is applied across the electrode gap, when the detection unit detects a preliminary discharge, a second DC pulse voltage is applied across the electrode gap from the pulse-voltage generation unit adjusted to a second impedance, which is lower than the first impedance, so as to generate a main discharge in the electrode gap, and during an idle time since application of the second DC pulse voltage is completed until application of the next first DC pulse voltage is started, a third DC pulse voltage that is equal to or higher than a discharge arc voltage is applied across the electrode gap from the pulse-voltage generation unit adjusted to a third impedance, which is higher than the first impedance, whereinthe first DC pulse voltage has an amplitude and a time width for generating the preliminary discharge, andthe control unit applies the third DC pulse voltage across the electrode gap in a group-pulse form and controls the on/off operation of the switching unit such that the polarity of the third DC pulse voltage in the group-pulse form is inverted so as to have polarity that is opposite to that of the first DC pulse voltage and that of the second DC pulse voltage, and an absolute value of a time-averaged effective amplitude of the group pulse of the third DC pulse voltage becomes smaller than the absolute value of an amplitude of the first DC pulse voltage and smaller than the absolute value of the amplitude of the second DC pulse voltage.