SU740465A1 - Power source for electroerosion-chemical working - Google Patents

Description

The invention relates to the field of electrophysical and electrochemical processing methods.

A known power source for electro * erosion-chemical processing, based on a DC chopper, in which the primary windings of a three-phase transformer through a three-phase rectification bridge circuit are connected in parallel with a switching thyristor with a switching circuit consisting of inductors and a capacitor connected in series, and the secondary windings of the transformer through the rectifier is connected to the interelectrode gap [1].

A disadvantage of the known device is that it does not allow to obtain high-frequency pulses and large dimensions of the switching devices.

The purpose of the invention is to expand the technological capabilities of the power source.

The goal is achieved in that the switching circuit is connected between the cathodes of the decoupling diodes connecting the positive poles of the three-phase bridge rectification circuits and the anodes of the switching thyristors connecting the negative poles of the rectification circuits.

In FIG. 1 is a schematic diagram of a power source; in FIG. 2 time diagrams of the state change of the main elements of the circuit.

The power source for electro-electro-ion-chemical treatment contains a power multiphase matching transformer 1, the secondary windings of which are connected to the interelectrode gap '4 through a multiphase rectifier 2 and a current-limiting resistance 3; a control device in the primary circuit of a multiphase matching transformer, consisting of two multiphase bridge rectifiers 5 and 6 with thyristors 7 and 8 switched at the output, respectively, shorting ^{1 the} corresponding groups of extreme outputs of the primary windings of the matching transformer, the middle outputs of which are connected to the network, and switching L-C-circuit, shunted by a rechargeable thyristor 9 and connected between the cathodes of diodes 10 and 11, connecting the positive poles of multiphase rectifiers 5 and 6 and the anode and thyristors' 12 and 13 connecting the negative pole of the mentioned bridges.

thyristor 8, and then recharged with mains voltage to the original polarity).

Further, the indicated switching sequence of thyristors 7 and 8 is repeated (see Fig. 2).

If necessary, the switching sequence of thyristors 7 · and 8 can be selected arbitrarily depending on which part of the primary 10 windings of the matching transformer must be connected to the network in order to fulfill the requirement, namely:

The device operates as follows.

In the initial state, the switching capacitor ¹ is charged with the polarity indicated in FIG. 1. When applying enable pulses ⁴ to the switched thyristor 7, the corresponding group of extreme terminals of the primary windings of the matching * transformer through the rectifier 5 and thyristor 7 is shorted and the interelectrode gap 4 is under the rectified voltage of the matching transformer 1. ¹

At the same time, or with a certain delay less than the duration of the generated unipolar pulse, an enable pulse is applied to the thyristor 9, with the opening of which a preparatory recharge of the capacitor C is carried out to the polarity opposite to that indicated in FIG. 1.

By opening the thyristor 12, the switched thyristor * 7 is locked, and, consequently, the formation of the trailing edge of the unipolar pulse is formed. In this case, the switching capacitor is recharged in the circuit: capacitor C thyristor 12 - thyristor 7 - diode 10 - ⁴ switching L-C circuit, closing the thyristor 7, and then recharged through the network to the polarity indicated in FIG. 1 along the circuit: capacitor C - thyristor 12 rectifier 5, transformer 1, mains, transformer 1, rectifier 5, diode 10 switching L-C circuit.

Next for- unipolar pulse, miruetsya dial opening 8 while thyristor or a 'delay preparatory overcharge commutating capacitor through the thyristor 9. The formation of the trailing edge is carried out by opening the switching thyristor 13 (the capacitor C is charging by the ^charge-5 Chains capacitor C - thyristor 13 - thyristor 8 - diode 11 switching L-C circuit, closing to connect the matching transformer with magnetizing flux in the rods, directed opposite to the residual.

Thus, by switching on the switching L-C circuit between the cathodes of the decoupling diodes and the anodes of the switching thyristors connecting the corresponding poles of the multiphase rectifier bridges, it is possible to switch the thyristors shorting the outputs of the multiphase rectifier bridges from one switching capacitor.

As a result, the capacitance of the switching capacitor is selected from the condition of switching off the switched thyristor when the capacitor is connected to a parallel switched off thyristor, and it turns out to be 4 times less than that used in similar solutions, which leads to a significant decrease in the weight and size characteristics of the power source while expanding the operating frequency range of the generated unipolar pulses.

Claims (1)

1. USSR author's certificate in application number 2490423 / 25-08 $ sl. B 23 P 1/02, 01.06.77. i ,9 06 / 2.2