SU1710238A1 - Device for automatic control of the feed drive of electrode- tool in electroerosion machines - Google Patents

Abstract

This invention relates to electrophysical electrochemical processing methods. The purpose of the invention is to increase processing performance by adjusting the controller to. maximum possible processing speed. At idle, the gain of the amplifier 9 with an adjustable gain is zero, the drive moves according to the signal from the second comparison device 6, the inputs of which are connected to the output of the voltage extraction device proportional to the voltage, vi to the unit 4 for setting the reference signal. When the working bits appear, the signal from the processing start sensor 10 through the second integrator L 1 causes an increase in the gain of the amplifier 9 with an adjustable gain factor. The controller is gradually put into operation by the sum of two signals of the adder 7, i.e. by voltage and resistance. 1 il. 00 00 > &

Description

The invention relates to the field of electrophysical and electrochemical methods of processing, in particular, to devices for the automatic control of the drive for the preparation of an electrode tool during electro-erosion treatment.

The purpose of the invention is to improve processing performance by adjusting the controller to the maximum possible processing speed.

The drawing shows the block diagram of the device.

The device for automatic control of the drive, the supply of the electrode tool contains a signal extraction device proportional to the voltage on the erosion gap 1, a signal extraction device proportional to the resistance of the erosion gap 2, the inputs of which are connected to the erosion gap 3, as well as a block, 4 reference signals. The output of the signal extraction device proportional to the resistance of the erosion gap 1 is connected to the first input of the first comparison device 5, and the output of the signal extraction device proportional to the voltage on the erosion gap 2 is connected to the first input of the second comparison device 6. The second inputs of the first and second devices 5 and b of the comparison are connected to the outputs of the unit 4 for setting reference signals.

The output of the second comparison device 6 is connected to the first input of the adder 7. The output of the first comparison device 5 is connected to the first integrator 8, which is connected to the first input of the amplifier 9 with a control gain, the output of which is connected to the second input of the adder 7.

The sensor 10 of the beginning of the processing, g, is processed through the second integrator 11 to the second input of the amplifier 9 with adjustable gain. The output of the adder 7 is connected to a power tool feed drive (not shown).

The device works as follows

At idle, the voltage on the erosion gap and the resistance of the erosion gap are greater than the unit-specified reference signals, and the first and second comparison devices 5 and 6 provide signals for the supply of electrodes. Tag as there is no processing (no working pulses), the sensor It) starts processing via the second integrator 11 sets the gain of the amplifier 9 with an adjustable gain factor equal to

zero and the signal from the first comparison device 5 does not flow to the adder 7. The drive moves according to the signal from the second comparison device 6,

When the working bits appear, the start processing sensor 10 via the second integrator 11 generates a signal to increase the transmission coefficient of amplifier 9 with an adjustable gain factor. So

as the time constant of the second integrator 11 is set for an order of magnitude longer than the time constant of the first integrator 8, the regulator is gradually commissioned by the sum of two adder signals

7. There is no overshoot of the drive, the motor moves smoothly in the working area and quickly outside the working area.

If during processing occurred

accidental short circuit, the voltage regulator gives a signal to the outlet, and the resistance controller, due to its inertia, continues to give a command to approach. Resultant signal

removes the tool electrode to a small height, reducing the idle run of the electrode, and then, after the disappearance of the short circuit, smoothly fails it, as the resistance regulator extinguishes the supply speed and eliminates drive overshoot.,

In the process of processing, the drive is controlled by two signals, which allows to maintain optimal

processing conditions, i.e. to conduct the process with the maximum removal rate for a given wear of the electrode tool.

Claims (1)

Invention Formula An automatic control device for the drive of the supply of the electrode tool in EDM machines, comprising a signal extraction device proportional to the resistance of the erosion gap, a reference signal setting unit connected to the comparison device, an amplifier, a feed drive, characterized in that introduced a signal extraction device proportional to the voltage across the erosion gap, a second comparator, two integrators, an adder Sensor The processing unit, the amplifier is made with adjustable gain, and the reference signal setting unit is made with two outputs, while the output of the signal extraction device proportional to the discharge at the erosion gap is connected to the first input of the second comparator, the first input of which is connected to the second output the reference signal setting unit, and the output of the second comparator is connected to the first input of the adder, the output of the signal extraction device proportional to the resistance is connected to the second input ohm the first comparator device, the output of which is the first integrator is connected to the first input of the amplifier with adjustable gain, the start of processing sensor through the second integrator is connected to the second input of the amplifier with adjustable gain, the output of which is connected to the second input of the adder, and the output of the adder engaged with the drive | filing.