SU451230A3 - Electric pulse generator for wiring - Google Patents

Description

(54) ELECTRIC PULSE GENERATOR FOR ELECTRO-EROSIS TREATMENT

The invention relates to electrophysical methods for metal processing.

A generator of electrical pulses for electroerosion processing is known, in which a constant voltage source is connected to the interelectrode gap through a switching device.

However, depending on the size of the interelectrode gap and the state of the working medium, the current pulses passing through

the gap, have a different duration, and, consequently, energy, and their frequency can be much lower than the frequency of voltage impulses, due to the fact that part of the voltage pulses are idle pulses, i.e. cause a break in. gap.

The proposed 1 generator is distinguished by the fact that a resistor is connected between the source of direct voltage and product B1, and a circuit from a Schmitt trigger, differentiating a circuit waiting for a multivibrator, a second distance and a single path, and a second circuit and a circuit are connected to the input of the switching device.

multivibrator; The Schmitt trigger input is connected to a current pulse passing circuit between a constant voltage source and a resistor. This gives current pulses a constant duration and energy and increases the average frequency of the impedance of the current.

FIG. 1 shows a block diagram of the proposed generator; . FIG. 2 shows the current and voltage pulse forms, where a is the generator voltage pulse form, b the current pulse current through the interelectrode gap, c are the signals at the output of the differentiating circuit, d is the current form at the output} of the walking multivibrator, d - signals on B1 of the output of a differential circuit 4), e is the form of the current at the output of the waiting multivibrator; in fig. 3 is a circuit diagram of an electrical pulse generator for EDM processing.

The generator consists of a source of direct voltage 1, connected through a switching device - 4 reverse e 2 reverse current to the tool electrode. 3 and through resistor R to product 4. PeR

connected to trigger input

zistor

Schmitt 5, the output of which is connected through the differentiating circuit b to the input of the standby multivibrator 7, and the latter through the second differentiating circuit 8 is connected to the input of the second multivibrator 9 that controls the work of the author 2. The circuit has a current source 10 for feeding the Schmitt trigger 5 and waiting multivibrators 7 and 9, At time i. . Aux relay 2 is turned on (see Figs. -1 and 2a, b) so that the voltage of source 1 is applied to the interelectrode gap. At time i, a gap is broken, a current flows through the gap, and a voltage drop appears on the resistor R. The difference between the source voltage 1 and the voltage drop across the resistor R; | is applied

to the input of the Schmitt trigger 5. The latter is in the open state when the signal at its input is higher than a certain value, and returns to its original position when the signal at the input decreases to a value lower than the value of the unlocking signal. Schmitt trigger 5 returns to its original position at time i "after passing through it

pulse current of a given duration i,

Under the influence of positive impulses {see FIG. 2c) from the differential circuit 6 code, the standby multivibrator 7 changes from a stable state I to an unstable state II (see Fig. 2c). After a constant time Hz, it returns to a stable state. This bromine is equal to the pulse duration and is selected depending on the required processing mode. Regulation of the pulse duration is made, for example, by changing the resistance of the multivibrator 7. On the output of the differentiating circuit 8, signals are formed (see Fig. 2d) differently; 1 rn compared to the signals on the output of the differentiating circuit 6. These 1101 pulses arrive at the input of the second waiting of that multivibrator 9, which is similar to the first when entering the positive pulse iioio transits from stable position I to HecTa6HjH) Hoe position D (see Fig. 2e), and its time in state P is constant and equal

T, 0 is selected by obtaining a predetermined pause length by terminating the current pulse through the gap and applying a subsequent voltage pulse. Moment M 1meni corresponds to the return

 standby multivibrator 9 to its original state. In this case, the voltage is again applied to the interelectrode gap

due to the inclusion of the author 2. The resistor 5 Rj is connected between the electrode tool 3 and the author 2. The latter consists of a parallel semiconductor battery, of which two triodes P and P are shown in the diagram. Their collector circuits include resistors R о R. equalizing

currents. The discharge circuit also includes a RA resistor limiting the discharge current. This resistor can be adjustable. Padayuli-5 voltage across the resistor R, is applied to

Schmitt trigger 5 input, assembled on semiconductor triodes П „and ПД type

NPN. Their emitters are connected to the source 1О via a resistor R, and in the collector circuits are included resistors R. and K ".

B

The collector of the triode P is connected to the base of tr oo

5 yes P. through a resistor K with a capacitor C connected in parallel with it. The signal from resistor R is applied to

the base of the triode P „through the resistor K p. If a

triode P „is locked, then triode P. open to o4

as long as the signal applied to the triode base P „is below a certain value,

about

5 for example + 5b - When the signal is more than 5b

the triode Pootkryt, and the potential of his collective

the torus locks the triode front. This state

is preserved until the moment when the input signal is reduced to a level less than Sv. TaKUjM, the fluctuation of the discharge current due to the measurement of the interelectrode gap, but affects the operation of the trigger. To the collector of the triode P, a differential is connected | differentiating

  a circuit consisting of capacitor C, -, and a resistor The signal from this circuit passes through diode D, which cuts off a negative .0 pulse, passing only a positive input to the waiting multivibrator 7 assembled on P. and Phyp triodes NpN,

Ooh

the emitters of which are connected with the octate, the polar ohm of the power source J O. Colo ,,, -,

triode lecturers. and P. .. are connected to the source source 10 through a resistor R fj and K 2 Trio collector / ha G1, connect jjo0 with a resistor R..J and parallel to B) uiHi4i; Hiibii-i

a capacitor C with a triode base, and a colo

the triode lecturer Pn - with the base of the triode P ,, chain R .d-C. In the absence of a signal based on the triode P is locked. When

the positive impulse comes in the base of the triode II,. then he unlocks and locks

ABOUT

triode G1 by a negative impulse through capacitor C. The triode fig remains locked until capacitor C is.

is not discharged to the resistor K (- A positive pulse outputs the multivibrator from its stable state for a certain time. The second differentiating circuit is composed of capacitor C and

resistor R, - and connected through a diode

D to multivibrator 9, collected anaD to multivibrator 9, assembled;

Ь 8 llokichno first on the triode P. and the collector of the triode P is connected to

the base of the triode P chain C „-, and

triode collector П „- with the base of triode о

11 resistor R 47 with capacitor C „connected in parallel with it. The collector circuits of the triodes P and P "include resistors) R a and Multivibrator 9

works in the same way as described above and controls the operation of the author 2 using an amplifier consisting of a n-type triode

PNP, powered by a separate source .1 1. (1О1 (} nitsial collector triode P "is applied to the base of the triode P" through the |

tel voltage on the resistors npp and

П-, and the collector potential of the triode П, Ь1к to the bases of triodes П and П „- through a voltage divider on resistors Rp /, and

- .., ...

C .. In the collector circuit of the triode P "turn on the resistor. Code - This includes} 1e ensures the synchronous operation of the triodes P and P with the triode P

eight

Subject invention

An electric pulse generator for electroerosion processing, in which a constant voltage source is connected to the interelectrode gap through a switching device, is caused by the fact that, with imparting current pulses through the interelectrode gap, it is constant duration and energy and increase in the average frequency of current current pulses, mо)) single source. NO.} Voltage is connected and the resistor is connected, and a circuit of series-connected trigger is connected to the input of the switching device. Shmi-ha, di (| x {) ere1 tsopi, aduisgo m.-1'-1i and vibrator, second differential 4) of the reciprocal value and the second waiting multivibrator, and the input of the Schmitt trigger is connected to the circuit of the passage of current pulses between the constant voltage source and a resistor.

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