Wire electric discharge machine

1 . A wire electric discharge machine which comprises an auxiliary discharge circuit, configured to apply a voltage to an inter-electrode gap between an electrode and a workpiece, thereby inducing electric discharge, and a main discharge circuit configured to supply a machining current, and machines the workpiece by repeating a cycle in which the main discharge circuit is activated and stopped after the auxiliary discharge circuit is activated, the wire electric discharge machine comprising: discharge delay time measuring unit configured to measure a discharge delay time, which is a duration without electric discharge such that the machining voltage is applied from the auxiliary discharge circuit to the inter-electrode gap, wherein a short-circuit machining current is supplied from the main discharge circuit to the inter-electrode gap if the result of measurement by the discharge delay time measuring unit is zero after the lapse of a predetermined short-circuit determination period since the start of the application of the machining voltage to the inter-electrode gap by the auxiliary discharge circuit, no machining current is supplied from the main discharge circuit to the inter-electrode gap or a machining current lower than or equal to the short-circuit machining current is supplied when electric discharge is generated and if the discharge delay time is less than a reference value, despite the short-circuit determination period, and a normal machining current equal to or higher than the short-circuit machining current is supplied from the main discharge circuit to the inter-electrode gap when electric discharge is generated and if the discharge delay time is not less than the reference value, despite the short-circuit determination period. 2 . The wire electric discharge machine according to claim 1 , wherein the discharge delay time measuring unit measures a duration in which the absolute value of an inter-electrode machining voltage waveform is not lower than a threshold. 3 . The wire electric discharge machine according to claim 1 , wherein the discharge delay time measuring unit measures a duration in which the absolute value of an inter-electrode machining voltage waveform having exceeded a first threshold falls below a second threshold. 4 . The wire electric discharge machine according to claim 1 , wherein unit for detecting generation of the electric discharge detects the electric discharge when the absolute value of the inter-electrode machining voltage waveform having exceeded a threshold falls below the threshold. 5 . The wire electric discharge machine according to claim 1 , wherein unit for detecting generation of the electric discharge detects the electric discharge when the absolute value of the inter-electrode machining voltage waveform having exceeded a first threshold falls below a second threshold. 6 . The wire electric discharge machine according to claim 1 , wherein unit for detecting generation of the electric discharge detects the electric discharge if the discharge delay time output from the discharge delay time measuring unit is more than zero and does not change for a predetermined time or if the amount of change during the predetermined time is not higher than a tolerance. 7 . A wire electric discharge machine which comprises an auxiliary discharge circuit, configured to apply a voltage to an inter-electrode gap between an electrode and a workpiece, thereby inducing electric discharge, and a main discharge circuit configured to supply a machining current, and machines the workpiece by repeating a cycle in which the main discharge circuit is activated and stopped after the auxiliary discharge circuit is activated, the wire electric discharge machine comprising: inter-electrode state determination unit configured to output an open, discharge, or short-circuit signal, depending on an inter-electrode state during a predetermined inter-electrode state determination period, after the application of the machining voltage from the auxiliary discharge circuit to the inter-electrode gap is started, wherein a short-circuit machining current is supplied from the main discharge circuit to the inter-electrode gap if the short-circuit signal is output from the inter-electrode state determination unit, no machining current is supplied from the main discharge circuit to the inter-electrode gap or a machining current lower than or equal to the short-circuit machining current is supplied if the discharge signal is output from the inter-electrode state determination unit, the application of the machining voltage from the auxiliary discharge circuit to the inter-electrode gap is continued if the open signal is output from the inter-electrode state determination unit, and a normal machining current equal to or higher than the short-circuit machining current is supplied from the main discharge circuit to the inter-electrode gap if electric discharge is generated after the inter-electrode state determination period. 8 . The wire electric discharge machine according to claim 7 , wherein the inter-electrode state determination unit determines the inter-electrode state in such a method that the absolute value of an inter-electrode machining voltage waveform and a threshold are compared during the inter-electrode state determination period, a short-circuit mode is identified if the waveform is always less than the threshold, a discharge mode is identified when the waveform having exceeded the threshold falls below the threshold thereafter, and an open mode is identified when the waveform having exceeded the threshold does not fall below the threshold thereafter. 9 . The wire electric discharge machine according to claim 7 , wherein the inter-electrode state determination unit determines the inter-electrode state in such a method that the absolute value of an inter-electrode machining voltage waveform and first and second thresholds are compared during the inter-electrode state determination period, a short-circuit mode is identified if the waveform is always less than the first or second threshold, a discharge mode is identified when the waveform having exceeded the first threshold falls below the second threshold thereafter, and an open mode is identified when the waveform having exceeded the first threshold does not fall below the first or second threshold thereafter. 10 . The wire electric discharge machine according to claim 7 , wherein the inter-electrode state determination unit determines the inter-electrode state in such a method that no inter-electrode state determination signals are output during the inter-electrode state determination period, the absolute value of an inter-electrode machining voltage waveform and a threshold are compared at the end of the inter-electrode state determination period, a short-circuit mode is identified if the waveform is less than the threshold, an open mode is identified if the waveform is not less than the threshold, the application of the machining voltage from the auxiliary discharge circuit to the inter-electrode gap is continued in the open mode, and a discharge mode is identified and a normal machining current equal to or higher than the short-circuit machining current is supplied from the main discharge circuit to the inter-electrode gap when the waveform falls below the threshold. 11 . The wire electric discharge machine according to claim 7 , wherein the inter-electrode state determination unit determines the inter-electrode state in such a method that no inter-electrode state determination signals are output during the inter-electrode state determination period, the absolute value of an inter-electrode machining voltage waveform and first and second threshol