SU848242A1 - Working medium for electroerosion treatment - Google Patents

Description

The invention relates to dimensional electrophysical and electrochemical machining and can be applied in electrochemical machining machines for protection against short circuits. A device is known in which the short circuit sensor consists of a straight channel connected to the interelectrode gap, and a blocking channel connected through diodes to control electrodes of the regulating thyristors, the channel outputs are connected to actuator ll. However, this sensor has poor noise immunity due to the appearance on the control electrodes of the thyristors of extraneous high-frequency pulses associated with the interference of the power supply network of the source, due to the high current rise rate and voltage during the pulse mode of the source. This interference easily passes through the so-called decoupling diodes and causes frequent false alarms of the one-shot trigger of the blocking channel, thereby increasing the duration of the inhibition period of the sensor operation. This, in turn, during the operation of the machine leads to an increase in the flow time of the short-circuit fault current. and damage to the electrode and parts. Besides,. connecting the direct and blocking channels directly to the executive leads to frequent false alarms of the entire system1 due to the occurrence of short-term or single high-frequency bursts, such as: in the power supply network — work of unauthorized machines, welding machines or in the control system of the system itself equipment switching account. The purpose of the invention is to improve the processing performance and noise immunity of the device. To achieve this goal, the input of the blocking channel is connected via a pulse transformer to the output of the thyristor control system of the power source, and the outputs of the direct and blocking channels are connected to a pulse analyzer whose input is the output of the sensor. Fig. 1 shows a block diagram of the device; in fig. 2 - graphs illustrating the pro work.

The sensor contains a direct channel with an amplifier 1 (Fig. 1) and differentiator units 2 and 3, a blocking channel with a trigger one-vibrator 4 and a prohibition key 5 and a pulse analyzer b. The input of the direct channel is connected to the interelectrode gap 7, and the input of the blocking channel by means of a pulse transformer 8 to the control system 9 of the thyristor power supply 10. The output of the direct channel is connected to the input of the analyzer b pulses, in parallel to the input of which the prohibition key 5 is connected. The output of the pulse analyzer is connected to the executive body 11.

The device works as follows.

The steep leading edge of the pulses, corresponding to the moment of switching of the thyristors of the power supply source 10, generates at the input of the differential link 2 of the forward channel the pulses that follow the pulsation frequency of the rectified voltage. This pulse is amplified by amplifier 1 and through differentiating element 3 is fed to the input of analyzer b pulses.

The thyristor control pulses with a switching frequency from the control system 9 through the pulse transformer 8 are fed to the input of the blocking channel and through the 4-to-off inhibit switch 5 one-way bypassing the pulse analyzer input b.

Thus, high-frequency pulses due to the switching process of the thyristors at the analyzer input are prevented and a stable blocking channel with a minimum pulse duration of 40-80 ISS is provided.

When the interelectrode gap falls below a certain value, local termination of the treatment, increasing the gas filling of the electrolyte above a certain value, partial breakdowns of the interelectrode gap occur, accompanied by high-frequency pulses 12 (Fig. 2). These pulses travel through the forward channel and enter the input. pulse analyzer. The operation time (read time) 13 is set by the leading edge of the pulse 14 for controlling the thyristorgy source of the power supply from the control system and has a value equal to the time difference between the development of the short circuit and the power supply off time. Thereby, by adjusting the time of recalculation of high-frequency pulses at a given frequency of their following, the total number of them falling into the input of the pulse analyzer is regulated.

With the prolonged action of the aforementioned adverse factors, high-frequency pulses become stable and long-lasting, they are recalculated in the pulse analyzer at a specified time, and when a set of specified numbers of high-frequency pulses is given, a command 15 is issued to the actuator to disconnect the source and remove the electrode.

With the passage of random noise 16 in the form of individual high-frequency bursts or pulses of small duration that do not characterize the pre-breakdown state, the pulse analyzer does not issue a command to the executive body, and with the arrival of the next switching pulse, the accumulated pulses are reset. pulse analyzer, thus the system is protected from false alarms.

The advantage of the proposed device is that the command from the sensor to the executive unit is analyzed by the number of high-frequency signals over a period of time, i.e. noise immunity of the device is increased, and this, in turn, allows to significantly increase its sensitivity, as well as improve performance, reduce the time spent on the supply and removal of the electrodes and the switching-on / switching on of the source of the pit. neither

In the proposed device, the blocking channel is connected by means of a pulse transformer directly to the thyristor control system of the power supply, which protects the input of the blocking channel from hitting high-frequency interference pulses and allows significantly reducing the duration of the alarm blocking pulse.

The introduction of the proposed device into production will reduce the scrap in parts and the failure of expensive electrodes due to burning them during a short circuit, as well as improve the processing quality and performance of electrochemical machines.

Claims (1)

Invention Formula A device for protection against short circuits of electrodes of an electrochemical machine with a thyristor power source, in which the short circuit sensor contains a straight channel connected to the interelectrode gap, blocking the channel and pulse analyzer, in order to improve processing performance and noise immunity, the input a blocking cable through a pulse transformer is connected to the output of the thyristor control system of the power source, and the outputs of the direct and blocking channels are connected Dinene to the pulse analyzer whose input is the output of the sensor. Sources of information taken into account in the examination 1. USSR author's certificate, №528165, cl. 23 P 1/02, 1970., at L-o Fiá.1 b / L JT J