DE1615385C3 - Device for the voltage supply of electrolytic processing machines - Google Patents

Description

The invention relates to a device for supplying voltage to electrolytic processing machines, in which the anodic workpiece and the cathodic tool from a three-phase network are fed via a three-phase current controller, a transformer and a rectifier arrangement and the Three-phase current controller from a variable transformer for coarse adjustment and from one with phase control working actuator for fine adjustment of the machining voltage.

In a known arrangement of this type (DT-AS 10 01 004), a transducer is provided as the actuator, alternatively, the use of thyratrons is also proposed. Because by the then required Phase control significant ripples in the supply voltage can occur also proposed to replace the thyratrons with piasmatron tubes.

Since it is known that thyratrons and thyristors work in the same way, the difficulties are too Large ripple of the DC supply voltage is also present when thyristors are used as actuators. Since it is also known that the ripple of the DC voltage depends essentially on the ignition angle depends on the thyristors, one will try to reduce the ripple with one possible large firing angle to work.

The object of the present invention is to provide a device of the type mentioned at the beginning to ensure that although the reaction speed of the actuator working with phase control is fully exploited, its unfavorable influence on the voltage ripple, however, is reduced as possible.

According to the invention, this object is achieved by antiparallel as an actuator in a manner known per se switched thyristors are provided and that the setting of the variable transformer depends on the measured voltage on the thyristors can be changed automatically in such a way that the thyristors are in the vicinity their full scale work.

In this way, the operating voltage can be regulated quickly with sufficient smoothing connected. In this context it should be mentioned that

<° it for the power supply of electrolysis systems using the common variable transformer and transducers is known, a transformer switching to be carried out when the transducers have reached their final modulation (AEG-Mittelihingen 56 [1966] 1, p. 14.15).

The invention is explained in more detail with the aid of a drawing:

In the arrangement shown, the primary winding of a transformer 3 is connected via a main contactor 12, a variable transformer 1 and thyristors connected in anti-parallel for each phase from a 50 Hz three-phase network RST fed by 380 V. The secondary winding of the transformer 3 is via a rectifier arrangement 4 and a smoothing choke 13 to the workpiece 5 serving as the anode and the workpiece 5 serving as the cathode Tool 6 connected. A voltage monitoring element 7 is arranged parallel to these electrodes, which responds to a slight drop in the electrode voltage as a result of a short circuit, the thyristors 2 extinguishes and the thyristor 8 ignites.

The electrodes 5, 6 are short-circuited as a result. The considerable stored in the smoothing throttle 13 magnetic energy and that still supplied by the network until the thyristors 2 are completely extinguished Energy is destroyed without damage to the tool or workpiece.

The three-phase current controller consisting of variable transformer 1 and thyristors 2 is designed so that the Rough adjustment of the operating voltage, e.g. B. 20 V, is made with the variable transformer 1 while for fine control, e.g. B. ± 1 volt, the thyristors 2 (phase control) are provided in their control range Voltage fluctuations regulated by load changes and mains voltage fluctuations can be.

In the event of a desired change in the operating voltage, a command from the programmer 10 here, both the variable transformer 1 by the servomotor 11 and the one on the thyristor control device 9 specified voltage setpoint can be changed; likewise, of course, the response threshold of the Voltage monitoring element 7.

To automatically adjust the variable transformer to a value that is optimal for the ripple, the Voltage measured across the thyristors 2 and used as a control variable for the variable transformer 1 (indicated by arrow 14).

1 sheet of drawings

Claims (1)

Claim: Device for the voltage supply of electrolytic processing machines, in which the anodic workpiece and the cathodic tool from a three-phase network via a three-phase current controller, a transformer and a rectifier arrangement are fed and the three-phase current controller from a variable transformer for coarse adjustment and consists of an actuator operating with phase control for fine adjustment of the machining voltage, characterized in that that as an actuator in a known manner anti-parallel connected thyristors (2) are provided and that the setting of the variable transformer (1) depends on the measured The voltage on the thyristors (2) can be changed automatically in such a way that the thyristors in the Work close to their full scale.