SU372049A1 - DEVICE FOR ELECTROIROSION TREATMENT - Google Patents

Description

one

The invention relates to the electrical discharge machining of metals and can be used in power supplies for electrical discharge machines.

Devices for electroerosive processing with igniting pulses are known on an interelectrode gap, connected via a separation diode to a power pulse generator, with a transformer, the secondary winding of which is connected via a diode to the gap.

However, these devices consume a lot of power due to the fact that the ignition current does not stop immediately after the gap is broken.

The aim of the invention is to reduce power consumption.

The goal is achieved by automatically interrupting the ignition current after a gap breakdown. To the output of the generator of power pulses are connected in series the source of the counter e. d. s., the primary winding of the transformer and the diode connected in coordination with respect to the voltage of the power pulse generator.

A device for EDM processing is shown in the drawing.

The generator / power pulses, as in the case of its joint operation with other known ignition devices connected in parallel to the erosion gap, is connected to the interelectrode gap 2 via separation diode 3. The ignition device 4 contains a step-up transformer 5 with primary 6 and secondary 7 windings.

The primary winding of the transformer with a series-connected low-power source 8 of counter e. d. connected through

diode 9 to the output of the generator /, and its secondary winding through the separating diode 10 - to the interelectrode gap 2.

Electromotive force source 8 counter e. d. somewhat higher

voltage f / bit on the chalk electrode gap 2 in the presence of a formed discharge through it, but well below the amplitude of the voltage across the gap at idle. Voltage f / sn. at the output of the power pulse generator has a pulsed character. As long as the instantaneous values of this voltage are relatively small, diode 3 is in the conducting state, and the voltage is. directly attached to the erosion gap. When this diode 10 is shifted in the opposite direction. After the voltage f / eil. so increases that the condition starts

si

where k is the transformation ratio of the step-up transformer 5, diode 5 becomes locked, and diode 10 becomes conductive. In this mode, the instantaneous value of the voltage f / e.p. on the erosion gap is determined by the approximate dependence of / 7a.p. /С(.r)/c. Current ifa.n. In the interelectrode gap (the gap is considered together with shunting circuits — the gap controller, voltmeter, etc.) is relatively small, as it is limited by the gap resistance, internal resistance and internal inductance of the strong impulse generator, and the transformer inductance. When the tension reaches a sufficiently high value, the erosion gap breaks down, and the voltage decreases to f / g.n. f / bit After a short transient, the diode 3 goes into the conducting state, and the diode / O goes into the locked state, i.e., the erosion gap receives power directly from the generator /. In this case, the current of the erosion gap increases many times. Source 8 counter e. d. disconnects the primary circuit of the transformer after an erosion gap is broken, and also provides accelerated demagnetization of the transformer during the pause between the ignition voltage pulses. The subject of the invention A device for electrical erosion treatment of metals using igniting pulses on an interelectrode gap, connected via a separating diode to a power pulse generator, with a transformer, the secondary winding of which is connected through a diode to the gap, characterized in that interrupting the ignition current after the inter-electrode gap breakdown, serially connected sources are connected to the output of the power pulse generator counter e. d. s., the primary winding of the transformer and the diode connected in coordination with respect to the voltage of the power pulse generator.