SU1046056A1 - Method of regulating electric erosion machining - Google Patents

Abstract

A METHOD FOR REGULATING THE PROCESS OF ELECTRO-EROSION TREATMENT, according to which the average values of the signals of the idling voltage and the discharge voltage are measured, their conversion and comparison with the reference voltage, characterized in that, in order to improve the performance of the continuous, these signals are measured separately, determine their difference and transform it in such a way that this difference decreases.

Description

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0.3 The invention relates to electrophysical processing methods, and in particular to methods for regulating the process of electroerosive processing (39O). The known method is regulated: the process of EEE with measuring the average values of the signals of the pulses of the no-load voltage and the voltage on the electrical erosion gap (EF) lr "discharge them by conversion and comparison with the driving voltage in the output driver G: The disadvantage of the known method is that it does not provide for the stabilization of the process under varying processing conditions, which does not allow for processing with maximum productivity. The purpose of the invention is to improve the efficiency of the process by increasing the degree of stabilization of the process under varying processing conditions. The goal is achieved by the fact that, when controlling the process with measuring the average values of the signals of the no-load voltage and the voltage of the EA, the discharge makes separate measurements and transformations of these signals, so that their difference decreases compared to the difference before conversion, for which the conversion of the idle and voltage signals in the discharge of the discharge with different gain factors, after which the transformed signals are compared with the reference voltage. According to the proposed method, the stabilization of the process is achieved automatically by increasing the change in the processing mode when the signal level on the EA changes during discharge. At the same time, the degree of change in the processing mode (and, therefore, ensuring the stabilization of the processing process) depends on the magnitude of the difference of the converted signals, H # Fig. 1 shows the dependences on the relative change in the modes on the magnitude of the relative change in the signal at the EA; in fig. 2 is a diagram for implementing the method; in FIG. 3 - voltage curves. FIG. Figure 1 shows the dependences of the relative change in the processing modes (the coefficient Γ | I MO) on the magnitude of the relative change in the signal at the EA with a discharge (± R-) -. This is true of the proposed regulation method (curves 1, 2) and according to limestone methods (curve 3). Here, Is, Ilvelichinas of the utilization factors of the pulses produced by the generators, respectively, up to k after the voltage change on the EPC is the voltage change on the EF during the discharge, the value of the voltage on the EF before the voltage change on the EF; the coefficients K and K are, respectively, the conversion coefficients of the voltage pulses at the EC and the idling. From the curves 1, 2, it can be seen that with a decrease in the difference of the converted signals (Kf, Vy-K9 iV9n) with the stump of mode changes (), and hence the degree of stabilization increases. The magnitude of the difference of the converted signals set the outcome of the specific. technological conditions of processing and the type of equipment used. A device for implementing the method (FIG. 2) contains a measuring chain 1 connected in parallel to EP 2 and consisting of a resistor 3, a zener diode 4, a diode 5, 6, a switch 7, a common amplifier 8 in the form of a transformer, connected in parallel to the primary winding the diode 9, and the secondary winding is connected to the input of the output driver 10, the feed motor 11 connected to the output of the driver 10. The voltage limiter acting as a passive counter-EMF acts as a voltage limiter for 4 seconds. Switched diodes 5, 6, which are connected with the help of switch 7, the device of the output signal generator 1O serves to separate the polarity of the signal and amplify it before it is fed to the feed motor 11. The driver contains a driver, an output amplifier, which form the circuits. The proposed device provides for the amplification and conversion of the pulses V) k and Chdi with different gain factors so that the condition KxNT (.- K9v, (V 9I) is fulfilled, so that the difference in the level of the converted signals is less than the difference between the signals before their conversion The peculiarity of the device is that in it the idle signal and voltage pulse are applied to the electronic current during the discharge using the same measuring circuit 1 in the same way,

as the amplification of the selected signals using a single amplifier 8.

In this case, the voltage value of the limiter is chosen slightly higher than the average value of the voltage across the EA when surfing (Fig. 3). In this case, the idle voltage Vx is converted to the limiter voltage during the entire pulse voltage of the generator (signal KX UX) and the voltage V m,. It is limited by a voltage limiter only at the initial part of the working impulse, after which practically the actual current value of the voltage at the RF is measured. When voltage is applied to the EP 2, the applied voltage is divided into the elements of the measuring chain 1.

From the voltage limiter a signal proportional to the idling voltage () and voltage across the voltage when Vg (3) is discharged, the output signal shaper 10 is fed through the intermediate amplifier, where by comparison (by known methods) with the reference setting voltage of the driver the polarity of the signal is extracted, its subsequent amplification with the help of the output amplifier, after which the signal is fed from the driver to the executive motor 11. Due to the approach of the signals K) C YX and V 9i, it is presented in Possible automatically changed processing mode 1 by varying the ratio of using impulsyuv re ieratora with little change in voltage at VC (Vgn). resulting from a change in conditions in the treatment area, and as a result, the processing automatically stabilizes.

Thanks to the application of this method of regulating the pressure of the EEO and the device, the regulator operates in different modes of processing. At 20% of its performance, in a wide range of modes, slagging is excluded. The processing is carried out without changing the setpoint of the master parameter and without adjusting the controller under changing conditions in the treatment area.

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Claims (1)

METHOD FOR REGULATING THE PROCESS OF ELECTROEROSION ABOUT WORKS, according to which the average values of the signals of the open circuit voltage and the discharge voltage are measured, they are converted and compared with the reference voltage, characterized in that, in order to improve the process performance, these signals are measured separately, their difference is determined and converted so that this difference has decreased. 1 1046056 ι