SU367994A1 - THYRISTOR PULS GENERATOR FOR ELECTROEROSION TREATMENT - Google Patents

Description

one

The invention relates to the field of electrical erosion treatment of metals.

Known thyristor generators, which are used to power electric pulse machines, are made according to two principles: controlled rectifier; DC interrupter with a series connection of a thyristor key and an erosion key.

Known thyristor generators, made on the basis of controlled rectifiers, have a low operating frequency. Thyristor generators, made according to the principle of interruption, do not have a sufficiently high KPD, since they use active current-limiting resistances. To eliminate intermittent current consumption from the network and reduce radio interference, thyristor interrupters are equipped with bulky Z.C-filters. With a low duty cycle of working pulses g 1,1-g 1,5 sequentially connected thyristor switch passes a load current pulse, having a short pause time to restore controllability, which limits the frequency limit.

The aim of the invention is to improve the efficiency. and simplify the device.

The goal is achieved by the fact that the controllable key is 1 parallel to the erosion gap and a current source with a series-connected inductive storage device is used; 1 energy, as well as the fact that the generator is commuting,

device, allowing you to increase the frequency limit of the generator.

To protect the working thyristor from overvoltages and limiting the voltage applied to the erosion gap, a zener diode and a diode are included in the control circuit of the working thyristor, and a separation diode on the output side of the control circuit. The invention is illustrated in a drawing.

The power supply / is made according to the parametric current stabilizer or controlled rectifier circuit with current-stabilizing feedback. Inductance 2 serves to energize. The thyristor 3 is used to shunt the erosion gap 4. Diode 5 protects the erosion gap from the effects of reverse voltage. A condenser is used to form a firing pulse on an erosive burning process. The thyristor 7 connects the switching capacitor 8 to the thyristor 5. A voltage source 9 serves to charge the capacitor. The thyristor 10 blocks the voltage on the capacitor, and the inductance 11

limits charge rate. The control unit 12 controls the switching times of the thyristors 3, 7 and 10. The Zener diode 13 protects against overvoltages. Diodes 14 and / 5 separation. To accelerate the recharge time of the co-switching capacitor, a diode 16 and an inductance 17 are turned on. To pass through the second half-wave of the capacitor 8 current, a diode 18 is turned on.