SU1315184A2 - Method and apparatus for controlling inter-electrode gap in dimensional electrochemical working - Google Patents

Abstract

The invention relates to a method for adjusting the interelectrode gap in a dimensional electrochemical processing and device for its implementation. In order to increase the control accuracy, the ratio of the optical resistance of the electrolyte column in the initial period of the working impulse and polarization resistance in the pause period is determined and this ratio is used as the control parameter. To implement the method, a separating device and an analog delay line are additionally introduced into the known device. A dividing device is connected to the sensor unit, the first input is directly connected, and the second is connected via an analog delay line, the output of the dividing device is connected via a duration modulator, a memory unit and an amplifier to an actuator. The control input of the modulator of duration is connected to the standby multivibrator, and the control input of the memory unit is connected via a trigger to the output of the auxiliary multivibrator, and the input of the latter for synchronization is connected to a switching power source. 2 sec. f-ly, 1 ill. (L ZfS l 00 4 K)

Description

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The invention relates to the field of electrophysical and electrochemical processing methods, can be used to control the interelectrode gap during dimensional electrochemical processing, and is an improvement of the invention according to the author. No. 738815.

The aim of the invention is to improve the accuracy of the adjustment of the interelectrode gap in the process of electrochemical processing due to the fact that the resistance of the electrolyte column in the gap before the start of the working pulse is additionally measured, the ratio of resistances measured during the initial period of the working pulse and during the pause period is determined, and the ratio as a control parameter.

To implement the proposed method, a separating device and an analog delay line are additionally introduced into the device. A dividing device is connected to the sensor unit, the first input is directly connected, and the second one via an analog delay line, the output of the dividing device is connected via a duration modulator, a memory unit and an amplifier to an actuator. The control input of the modulator is connected to the standby multivibrator and the control input of the memory unit is connected via a trigger to the output of the standby multivibrator, and the last input for synchronization is connected to a switching power source.

The electrical resistance of the electrolyte column in the interelectrode gap consists of two components, the ohmic resistance and the polarization resistance. With a working voltage}, due to the nonlinear dependence of the polarization component of the resistance on the voltage across the electrodes, the ohmic component prevails in the resistance of the interelectrode gap. The polarization component can be neglected.

The ohmic resistance component of the electrode gap is a function of the size of the gap and the area of the workpiece. During a pause, when the voltage is close to the value of the equilibrium potential (30–50 mV more than this voltage), the polarization component prevails.

conductive resistance. The polarization component of the interelectrode gap resistance is mainly a function of the machined area.

The ratio of the resistance of the electrolyte column, measured in the initial period of action of the working impulse, to the resistance measured: at the end of the pause, is a function only of the interelectrode gap. Using this ratio as a control parameter will improve the accuracy of the adjustment. Measurement of polarization and ohmic

The components of the resistance before the beginning and in the initial period of the working impulse, respectively, also help to increase the control accuracy, since during this period the properties of the electrolyte layer in the gap are almost the same.

The drawing shows a block diagram of the device for implementing the method of controlling the interelectrode

the gap in the electrochemical process

processing.

The device contains a block of 1 sensors connected to the interelectrode gap and two separator inputs

30 devices 2: to one directly, and to another through an analog line 3 delays. The separating device 2 through a serially connected modulator 4 duration,

35, the memory block 5, the amplifier 6 is connected to the actuator 7. The control input of the modulator 4 is connected to the waiting multivibrator 8. The control input of the block 5

The memory 40 is connected to the trigger 9, the input of which is connected to the waiting multivibrator 8 connected to the switching power supply 10.

The proposed method isolates

45 as follows.

A pulsed operating voltage is applied to the interelectrode gap from the power source 10. To measure the polarization component of the resistance to the interelectrode gap, an additional voltage of about 30-50 mV is applied. The voltage from the electrodes enters the sensor unit 1, which in this case performs the function of measuring resistance. The interelectrode gap electrical resistance received in the form of an electrical signal is transferred from the sensor unit I to the separating device 2

313

directly and via analog line 3 delays. Line 3 of the delay shifts the signal of the magnitude of the electrical resistance by the duration of the period determined from the beginning of the control in the polarization component of the resistance until the beginning of the monitoring of the ohmic resistance component. This value is less than or equal to 10 s, i.e. the duration of the period during which the ohmic component of the resistance of the electrode gap is monitored.

From the dividing device, the signal is fed to a modulator 4 of duration, which is controlled by a signal from a standby multivibrator 8. The operation of the standby multivibrator 8 is synchronized with the operation of the pulse source 10 of the circuits. The modulator 4 of duration only passes the signal from the dividing device 2 if there is a signal from the standby multivibrator 8, the duration of which is determined by the time for monitoring the ohmic resistance component. In the absence of a signal from the standby multivibrator 8, the modulator 4 of duration shunts the signal from the output of the dividing device 2. A trigger 9 is triggered on the falling edge of the pulse from the standby multivibrator. Two outputs of the trigger 9 control two cells of the memory block 5 so that the output of the block 5 Memory signals from both memory cells are received. An almost constant signal is sent to amplifier 6, which is fed to actuator 7 to control the supply of the electrode tool (part).

Compared with the known accuracy of the adjustment of the interelectrode gap

844

in the proposed device, it will increase by no less than 30% due to the elimination of the influence of the working area on the control parameter.

Claims (2)

1. Method of adjusting the interelectrode gap with dimensional electrochemical processing according to ed. St. No. 738815, characterized in that, in order to increase the control accuracy, the resistance of the electrolyte column is measured in the pauses between pulses and the ratio of the resistances measured in the initial period of the working pulse and in the pause period is determined, and this ratio is used as a control parameter. 2. A device for adjusting the interelectrode gap during dimensional electrochemical machining according to Aut. No. 738815, characterized in that, in order to improve the control accuracy, a dividing device and an analog delay line are additionally introduced, the dividing device being connected to the sensor block by the first input the second is via an analog delay line, the output is connected via a duration modulator, a memory unit and an amplifier with an actuator that controls the duration modulator input n dsoedinen monostable multivibrator and to the control input of the memory is coupled through the trigger with the monostable multivibrator output and input of the latter is connected for synchronization with the pulsed power source. L priadi f70ffai / K Editor V.Danko Compiled by R.Nikmatulin Tehred A. Kravchuk Proofreader L.Patai Order 2242/11 Circulation 975 Subscription VNIIGSh of the USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4