SU1593873A1 - High-frequency thyristor pulse generator for electric discharge machining - Google Patents

Abstract

The invention relates to EDM processing and can be used for EDM precision machines, including cutting machines. The aim of the invention is to increase the productivity of the process and improve the quality of surface treatment. The high-frequency thyristor pulse generator for EDM contains a power supply 1, a diode 2, a choke 3 with a tap, a bridge thyristor inverter 4 on thyristors 5-8 with a storage capacitor 9, N circuits consisting of diodes 10 and storage capacitors 11, a common connection point through thyristors 12 which are connected to an erosion gap 13, which is connected to the first power supply bus. The pulse frequency of the generator is determined by the product of the doubled frequency of one of the thyristor pairs and the number of circuits consisting of diode 10, capacitor 11 and thyristor 12. 1 sludge.

Description

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The invention relates to EDM and can be used for EDM precision, including cutting machines.

The purpose of the invention is to increase the productivity of the process and improve the quality of surface treatment.

The drawing shows a diagram of a high-frequency thyristor pulse generator.

The generator contains a power supply 1, a diode 2, a choke 3 with a tap, a bridge thyristor inverter 4 on thyristors 5-8 with storage capacitor 9, n circuits consisting of diodes 10 and storage capacitors II, the common connection point of which is connected to erosion gap 13, which is connected to the first bus of power supply 1.

The generator works as follows.

The thyristor control pulses of the bridge thyristor inverter 4 are fed at a frequency that is maximally acceptable to ensure its normal operation. The control pulses are fed alternately to thyristor pairs 5 and 7 or 6 and 8. Suppose that, before the control pulses are supplied, the storage capacitor 9 is charged to the voltage (indicated in the drawing) of the supply of the thyristor control pulses 5 and 7. The latter are also unlocked The storage capacitor 9 is supplied to the circuits consisting of the diode 10 of the circuit and the storage capacitor 11 through the winding part of the chokes 3, creating a current for its charging. In this case, the sum of the voltages of the droplets 3 and the storage capacitor 9 exceeds the voltage of the power supply source 1 and the diode 2 is blocked by a negative voltage. The charging current of the storage capacitors 11 flows until the voltage is equal to the voltage on the storage capacitor 9. The current through the storage capacitor 9 continues to flow as the voltage on the choke 3 decreases and the diode 2 opens.

The storage capacitor 9 is discharged to zero and begins to recharge due to the energy accumulated by the choke 3.

The voltage on the capacitor changes sign, at which point the current reaches a maximum, and the voltage on the capacitor 9 reaches the voltage of the power source.

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As energy returns, the voltage on choke 3 increases and the sum of the voltages on the part of the turns of the windings of the chokes 3 and the capacitor 9 may exceed the voltage on the capacitors 11, and a charge current reappears. After the end of the return of the energy of the droplets 3, the current in the circuit is stopped, the capacitor 9 is thus charged to the amplitude of the reverse voltage polarity. In such a state, it is before the supply of control pulses from the control system to thyristors 6 and 8.

The capacitors of the 11n circuits are also charged to the highest voltage (they can stay in such a state for an arbitrarily long time). Then alternately control pulses are applied to the thyristors 12.

In the case of the idle run of the erosion gap 13, the thyristors are not unlocked, the voltage on the storage capacitors 11 is retained.

In the operating mode and the short circuit mode of the erosion gap 13, the capacitors 11 are charged, the current does not flow through them, only the inverter 4 is working. In the case of a short circuit or the operating state 5, when the control pulses are re-applied, the circuit works similarly.

The pulse frequency of the generator is determined by multiplying the doubled frequency of one of the thyristor pairs by the number of circuits consisting of diode 10, capacitor 11 and thyristor 12.

Claims (1)

Invention Formula High frequency thyristor pulse generator for EDM, 5 containing a bridge thyristor inverter, the first pole of which is connected to the first power bus, and the second to the first output of the throttle, characterized in that, in order to increase the productivity of the process and improve the quality of surface treatment, a diode and p circuits connected between the outlet of the throttle are introduced and the first power bus, each of the circuits contains a series-connected diode circuit and a storage capacitor, a common point 5 of which, via a thyristor, is connected to an erosion gap, which is connected to the first power rail, the second output of the throttles is connected via a diode in the forward direction, to the second power rail, while the diodes of the circuits and the thyristors are turned on 0 is counter to the power source.