DE2320702A1 - CIRCUIT FOR GENERATING CONTROLLED PULSES FOR PROCESSING WITH ELECTRIC INTERMITTING DISCHARGES - Google Patents

Description

Patenian \ vä! T8
Dr.-Ing. HWlS RUSCHKE

DipL-fng. HEINZ AGUUR _. _nn " _no

Munich 80, Pienzenaueretr. | 2 ο 2 U / U I

a 1556 2Λ.

AiDEIIERS DES CHARMILLES S.A., Geneva / Switzerland

"Circuit for generating controlled pulses for machining with electrical intermittent

Discharges "

Me invention relates to a circuit for generating pulses for machining with electrical discharge machining, the enables controlled voltage or current pulses with steep planks in an extended range between a tool electrode and a workpiece electrode to be machined To create frequency area and with maximum energetic efficiency.

In one type of known circuit, the amplitude of the current pulses is limited by a resistor, the connected in series with the electrodes, an automatic on and off switch without a direct current source is. In this pail is the energetic efficiency

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low, because a large part of the power supplied by the current source is uselessly converted in the resistor. Another type of known circuit enables "better energetic efficiency to be achieved; it uses an energy store, ζ.Β _β a self-induction coil, which is discharged in a breakover circuit containing the electrodes. The presence of self-induction prevents a very rapid current change and leads to pulses with triangular 3-shape.Steeper pulse edges can be obtained if a pre-saturated self-induction coil is used as the energy storage device, which is connected in series with the electrodes and the automatic on / off switch, so that a rapid change in current is caused when the coil goes from saturated to unsaturated and vice versa, the current limitation being ensured while it is in the unsaturated state »Of the in and out switch is given "until this energy is restored. This peculiarity of the mode of operation prevents the use of this type of circuit for generating pulses

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very high frequency for finishing and allows precise control of the individual duration of these pulses no longer to.

The invention relates to a circuit that enables the simultaneity between the command to interrupt a current pulse and the actual interruption of the current to ensure current pulses with steep edges in one of the operating states of the Pre- and final processing to receive comprehensive frequency range and the possibility of precise control of the To give the duration of the voltage or current pulses. This circuit allows the output of the power source to be changed to reduce a factor three times that of a known series resistor circuit is superior.

Another advantage of this circuit is that you can continuously adjust the level of the current pulses and can, for example, keep constant even if the voltage of the power source changes as a result of Network fluctuations changes. This continuous adjustment of the level of the current impulses enables to subject this level to a control signal which, as a function of the physical characteristics of the machining

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space can be processed automatically.

The subject of the invention is a circuit for generating of controlled pulses for machining with electrical intermittent discharges. The circuit comprises a tool electrode, a workpiece electrode to be machined, a direct current source, a magnetic one Energy storage, a first automatic on and off switch, which is between one of the terminals of the direct current source and one of the terminals of the energy store is connected, and a first one that is conductive in one direction Element that is between the named terminal of the energy store and the other terminal of the DC power source is connected so that current passage in a first Tilting circle is made possible when said first on and off switch is open. This circuit is thereby characterized in that it comprises a second unidirectional conductive element interposed between one of the terminals the direct current source and one of the electrodes is connected, and a second automatic on and off On-off switch, the arrangement being such that current passage when the second on-off switch is open is made possible in a second tilting circle or in a third tilting circle if the two and off switches are open, the first on and

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Off switch is operated so that it the current flowing in the energy store with a predetermined Maintains value, and the second on and off switch is operated in such a manner in a manner known per se is that he the duration of each voltage or current pulse and / or the duration of the time interval between two controls successive voltage pulses.

The drawing shows schematically and as examples four embodiments of the circuit according to the invention as well Variants of these embodiments.

Figo 1 illustrates the first embodiment,

2a to 2c show electrical quantities which illustrate the operation of the circuit of Fig. 1 in the case of finishing,

FIGS. 3a to 3c correspond to FIGS. 2a to 2c, refer to FIG however, in the case of fast processing, i.e. the operating status of the preprocessing,

4, 5, and 6 show three other embodiments,

Fig. 7 illustrates a modified embodiment of the circuit of Fig. 1,
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FIG. 8 shows a circuit which corresponds to the circuit according to FIG. 1 for the case of a processing machine, in which the circuit for generating pulses is controlled by the effective occurrence of any electrical discharge in the machining zone.

The one in Pig. The circuit shown in FIG. 1 contains a direct current _{source B 1} which is intended to supply the machining current which is required for drawing the sparks between an electrode 1 and a workpiece 2 to be machined.

The positive terminal of the current source B .. is connected to the electrode 1 by a branch which has in series an auxiliary current source Bp, an automatic on and off switch S ₁ , a resistor R ₁ and a self-induction coil I ₁ forming a magnetic energy storage device. This branch is bridged by a diode Dp, which connects a terminal of the current source B ₁ to the terminal of the coil L ^ connected to the electrode 1.

The resistance R ₁ is very small and allows in a simple manner the from the current source B ^ to the coil L ^

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to measure flowing current. This measured value is applied to the input of a _{device 3 which controls the operation of the on and off switch S 1} , in order to regulate it to the desired mean value by chopping it.

Due to its very low value, the resistance R ₁ does not play a noticeable role in limiting the current running between the electrode 1 and the workpiece 2 to be machined. This resistance R ₁ is therefore not comparable with the resistances for limiting the discharge current in the above mentioned known circuits.

The negative terminal of the power source B ₁ is connected to the workpiece 2 by an automatic on and off switch Sg which is actuated by a pulse generator A-. A diode D ₁ connects the negative pole of the power source. B .. with the connection point 5 of the on / off switch S ₁ and the resistor R ₁ ·

Finally, a capacitor G _{1 is provided in} parallel with the current source B ₁ to allow the passage of the current components at high frequencies.

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The auxiliary power source B ₂ is not indispensable, but allows energy in the self-induction coil Ir ,. to store during the periods during which the electrode is removed from the workpiece to be machined and thus does not generate any current discharges. The voltage of the current source Bp is of the order of 4 volts, while the main current source S ^ has, for example, a voltage of the order of 8 © volts »

The operation of the circuit according to FIG. 1 is explained below in two different cases, of which the first a finishing mode and the second a preprocessing mode is equivalent to.

When finishing, the current is relatively weak, while the frequency of the discharges is high * This discharge frequency is determined by the pulse generator 4, which acts on the on and off switch Sg « These pulses are illustrated in Fig. 2a, the conductive state of S. · with I and the non-conductive State is shown with O.

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The conductive state I and the non-conductive state O of the on and off switch S .. are caused by the device 3 in accordance with the current flowing through the resistor R ... If this current is higher than a setpoint, SJ becomes non-conductive, and if it becomes smaller than another setpoint that is below the first setpoint, S ₁ becomes conductive. As a result, the opening and closing times of the on and off switch S _{1 can be} considered as Vary the puncture of the desired mean current, which is fixed by the specified setpoints.

Before machining, the electrode 1 is removed from the workpiece 2, so that the circuit does not represent a path for the passage of current from the current source IL. On the other hand, the current source B «allows a current to flow into the coil Iu, which increases until it reaches a desired value achieved. At this point in time the device 3 acts on S .. in such a way that it switches off the current source Bp. The current in the coil L-decreases as it passes through the diode D2, the current source B ₁ , the diode D ₁ and the resistor ] L ·. As soon as it falls below a second setpoint value, which is below the first setpoint value, the device 3 makes the on and off switch S ^ conductive, and the current source B ^ supplies new energy to the magnetic memory formed by the coil L .. to increase the current in this coil until it reaches the first setpoint,

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At the point in time at which the electrode 1 is sufficiently close to the workpiece 2 that the point voltage in the processing zone is below the voltage of the power source B., discharges are caused by pulses in the processing zone generated every time the on / off switch Sp is conductive. In the processing state every time the on and off switches S ^ and S « are simultaneously conductive, machining current from the current source B. through the current source Bp, the input and Off switch S ^ and the self-induction coil L ^ through delivered so that the latter stores a certain energy at the same time.

During the time intervals in which the on and off switch Sp open, but the on / off switch S " is closed, the power source B .. is switched off, and the current flowing in the coil L> increases when passing through the diode D «, the current source Bp, the on / off switch S .. and the resistor R ^ · If on the other hand, the on and off switch S ^ is open, but Sp is closed, the power source B .. can no longer deliver, and the current of the coil Iu decreases siah at Passage through the processing zone, the on / off switch Sp, the diode D ^ and the resistor R .. · During this phase becomes part of the coil L ^ stored energy is transferred to the processing zone

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wear.

^mm \ ι ··

When the "two on and off switches S ^ and Sp open the current of the coil L ^ decreases when the diode Dp, the current source IL, is passed through the diode D ^ and the resistor R ^. In this latter one EaIl is a part of the stored in the coil L ^ Replaced energy from the power source IL.

Pig «2c is a diagram showing the changes in current in the coil 1 .. as a puncture of time and the open and closed positions of the on and off switch S ^ and Sp shown in Figures 2b and 2a, respectively. It can be seen that while the On and off switch S .. the current in the coil L .. during each closing of the on and off switch S2 noticeably increased, whereas during the non-conductive periods of the last-mentioned switch it is essentially ^ remains constant. During the periods in which the j £ Ln and off switch S ^ is open, the current decreases of the coil L .. in a certain way, but more strongly during the periods in which it is caused by the current source B .. flows because the voltage of this power source is higher than the arc voltage between the electrode 1 and the Workpiece 2 is.

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The Pig. 3a, Jb and 3c correspond to FIGS. 2a, 2b and 2c, but relate to the case of the operating state of preprocessing in which the closing periods of the on and off switch S _{2 are} relatively long. During each such period is to keep the on-off switch S ^ repeatedly conductive and non-conductive by the value of the machining current between the two set points "of each conductive period of the on-off switch S ₁ corresponds to a magnification flowing of through the coil L ₁ Current, during each period of the on and off switch S .. a reduction of the current in the coil L ^ corresponds, since this current through the voltage source B ₄ . flows.

At the point in time at which the on and off switch S «opens, ie becomes non-conductive, the current in the coil L ₁ continues to flow through the processing zone, the on and off switch Sp and mode D ...

When the on / off switch S ₂ becomes non-conductive, the current of the coil L .. decreases and flows through the diode D ₂ , the current source B ^ and the diode D ... As soon as this current falls below one of the setpoints, it closes the on and off switch S .. again, and at this point in time the current of the coil Lj flows through the diode D ₂ , the current source B ₂ and the on and off switch S ₁ ^ 3 0 9881/0761

In summary, the generator circuit shown in Fig. 1 contains a main circuit which is formed by the on and off switch S ^, the coil L ^, the processing zone and the on and off switch Sp, and three breakover circuits which are formed by the loops which enable the maintenance of the current in the self-induction coil LJ when one or the other on and off switch or both on and off switches S ₁ and Sp is or are open.

The circuit according to Pig. 4 differ from the circuit shown in FIG. 1 only in that the auxiliary power source Bo is omitted and the on / off switch Sp is not arranged in parallel but in series with the machining zone. In this circuit, the discharge current is supplied to the machining zone by the power source B. when S .. is closed and S2 is openv If both on and off switches S .. and Sp are closed, the current source B .. feeds the coil L .. further via a breakover circuit that controls the on and off switch S ^, the resistor R ^ and the on - and off switch S ^ contains.

If the on / off switch S ^ is open, the current of the coil L ^ remains, although it decreases, and flows through the processing zone, the diode D .. and the resistor R ^, if S _{2 is} open, or through

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-14- 232Q702

the on / off switch So, if it is conductive, then through the mode D., and the resistance R .. In this the latter lall the decrease in the current is very small, since the circuit has a very low impedance,

The diode Dp is required in the Pail of the Pig «4 in order to avoid overvoltages when the electrode 1 is withdrawn from the workpiece 2 to be machined and the on / off switch Sp is in the open position. The current caused in the coil Li can then flow through the diode Dp and the on / off switch S ^, if this is conductive, and in the opposite way through the diode Ti ^ i the current source B ^ and the diode D ₁ .

The circuit according to S ¹ Ig ₀ 5 in turn comprises a holding circuit which is formed by the on and off switch S *, the resistor R .., the self-induction coil I ^ and the processing zone between the electrode 1 and the workpiece 2. One also finds the diode Dp of FIGS. 1 and 4, i ^ which connects the electrode to the positive terminal of the power source B ^, as well as the diode D .. again, which to the resistor R ^, the coil L .. and the whole comprising the processing area is parallel

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In this embodiment, the control of the discharges is done by in the processing zone, an automatic on-off switch S ,, the parallel to the inductor L ₁ and in series with a diode D arranged ist.Sine auxiliary power source Bp is located between the coil L ₁ and of the electrode 1 ö

If the electrode 1 is not yet in the vicinity of the workpiece 2 to be machined and the two on and off switches Sι and S are closed, the current source B ₂ causes a current to flow in the coil L ₁ «This current flows through two parallel branches , one of which contains the diode D and the on / off switch S, and the other contains the diode D ₂ and the on / off switch S ₁ . When one or the other of these two on and off switches is open, the current from the current source B ₂ obviously only flows through one of the aforementioned branches. If both on and off switches are open at the same time, _{the current produced in the coil L 1} by the current source B ₂ decreases when passing through the diode D ₂ , the current source B ₁ and the diode D ₁ ,

If the distance between the electrode 1 and the workpiece 2 is small enough to zm the machining

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enable, and when the on and off switch S _{1 is} closed, the current source B. supplies the machining current through the coil L ₁ and the current source Bp regardless of the position of the on and off switch S ^, which is from the diode D In fact, the voltage of the current source B ₁ is much higher than the voltage of the current source Bp and occurs mostly at the ends of the coil L ₁ , so that the on / off switch S, is at a positive potential with respect to the Anode of the diode D ^ is held. This on and off switch and this diode could possibly be replaced by a thyristor. Circuit is made impossible to open the on and off switch S 1, ie to make it non-conductive, when the on and off _{switch S 1 is closed, ie.} is leading »

When the on and off switches S ₁ and S, are open, the current of the coil L ₁ feeds the processing zone by flowing successively through the power source Bp, the diode D .. and the resistor R ₁ . The interruption of each processing pulse is obtained by closing the on and off switch S ^, that of the

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Opening the on and off switch S .. is accompanied. In this Pail the current of the coil Lj remains at Continuity through the current source Bp, the diode D ^, the on / off switch S, and the resistance R ^ maintained.

In the circuit according to Pig. 6, the power source B ^ can be connected to the processing room by means of two automatic on and off switches S, and S, - in series with the respective terminal of this power source. Two diodes D. and D ₂ connect the negative pole of the current source B .. or the electrode 1 to one or the other terminal of the on and off switch S [-e

In this circuit, the magnetic energy storage of a self-induction coil L ₂ is formed, to the treatment zone with the interposition of a diode D connected in parallel ist.Wie previously, the measurement of the coil L ₂ by flowing current by reading the voltage at the ends of a resistor R ^ with a very small value, which lies in series with the coil L "" As in the palle of the pig. 5, the device 3 for controlling the current acts on the on and off switch S.

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by means of an AND circuit 7, one input terminal of which is connected to the pulse generator 4. In this way, the on and off switch S. must follow the opening commands given to the on and off switch S ₁ , ie the pulse commands.

In the Pail the Pig. 6, if the electrode is too far from the workpiece 2 to allow machining _{discharges to be produced, the on / off switch S 1} becomes conductive at the same time as S 1 until the rated current is obtained in the coil Lp. During the periods in. Where p and SJ are open at the same time, the current produced in the coil I ^ "Once maintained, but it decreases during the passage through the diode Dp, the current source and the diode D ₁ as the Rated current is reached, the on and off switch S. is non-conductive and the current source B ^ can no longer be connected to the coil Lp.

If the distance between the electrode and the workpiece allows the production of discharges, the current flowing in the coil Lp runs through the processing zone every time the on and off switches S. and S ₁ - are non-conductive at the same time. If only the on and off switch S _{5 is} conductive, the current of the coil L _{2 remains}

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when passing through mode Dp and through S, - exist, If, on the other hand, the on / off switch S, - is open and S, is closed, the current in the coil Lp remains exist in the same way, but this time it flows through S. and D ^.

When the two on and off switches S. and S ₁ - are closed, the current in the coil Lp increases under the effect of the current source B. «

3? Ig »7 illustrates a circuit of the type shown in FIG. 1, but with two current sources being provided. These current sources labeled B .. and B ^ have different voltages and can be connected individually or together by means of automatic on and off switches Sp or S * ρ. In this way it is possible to apply the high voltage to the machining current by means of the power source B., as is known per se «

The circuit according to 3fig. 7 comprises two circuits, each of which corresponds to ^{the circuit according to I 1 Xg.} 1 corresponds, with each of these circuits containing one or the other of the current sources mentioned. Each circuit has an on and off switch S ^ or an on and off switch Sp. The on and off switch Sg is double

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poled and shown in the form of two breakers S ₂ and SA «. These interrupters are each connected between the coil L ₁ or LJ and the electrode 1, instead of between the negative terminal of the corresponding power source and the workpiece. A diode D ^ - is intended to prevent the current source B ~ with high voltage from _{loading the current source B 1} with low voltage when the two on and off switches are closed and the current discharge between the electrode 1 and the workpiece 2 has not yet started. When using two separate current sources B ₁ and B ~ and actuation independent of the on and off switches Sp and SA, it would be possible to use current pulses of different levels, as is known per se, or to use separate supplies from at least two tool electrodes.

A variant of this circuit could be implemented by replacing the two current sources B ₁ and B ^ with a single current source, which would consequently _{feed the two coils L 1} and LJ. The two on and off switches S ₂ and SA would then be synchronized as shown in FIG.

One could also use as many parallel circles and consequently as many self-induction coils as there are

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and provide switch-off S ^ and S ₂ transistors connected in parallel. Such an arrangement would have the advantage that the currents flowing through each transistor can be kept in equilibrium.

Pig. 8, the application 1 illustrates the circuit of "ig. To a machine in which the pulse generator of the current discharge is controlled as a puncture of the preparation. In a circuit of this type which is known per se, the discharge current flows through a resistance R ₂ ¹ ^ ä-ie ³ ^ ^{1 s} Enäen this resistance occurring voltage is applied to a trigger circuit 8, a very pure pulse at each preparation to provide a discharge. this pulse is applied to the input of a monostable multivibrator 9, which determines the duration The trigger circuit 9 is followed by a monostable trigger circuit 10, which determines the duration that separates the end of a pulse from the beginning of the application of the voltage to the processing zone for the next pulse a polarity switch 11, a transistor T ₂ , which plays the role of the on and off switch S _{2 of} the Pig.

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It is particularly pointed out that numerous variants of these circuits can be designed, and in particular the auxiliary power source _{B 2 could be omitted in the Pail of FIG} To see "before the electrode 1 is in the machining position with respect to the workpiece 2, and the machining would be started by a series of pulses, the intensity of which would progressively increase until the nominal intensity is reached.

In the case of FIG. 1 could also the auxiliary power source Bp switch to a anderenKippkreis, such as _e in series with the coil L .. or in series with the diode _D2.

In a modified embodiment, the self-induction coil L .. in the circuit by means of a current transformer works. One could also consider putting this transformer through the second circuit close one of the on and off switches that are in. Row with the coil L ^ is so that the in this Coil current flowing when the two on and off switches are open, through the power source Βγ

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can flow through it in the opposite sense to the current it can deliver. The primary winding of this transformer would then be connected in parallel to the second element D _{2, which is} conductive in one direction, between one of the terminals of the current source B. and one of the electrodes. The operation of such a circuit would be similar to that of the circuits which form the subject of the previous examples. The addition of this transformer could have the advantage that the voltage and current for use by one of the on-off switches and the self-induction coil can be selected as a function of the transformation ratio of that transformer.

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Claims (1)

Claims Circuit for generating controlled pulses for machining with electrical intermittent discharges, comprising a tool electrode, a workpiece electrode to be machined, a direct current source, a magnetic energy store, a first automatic on and off switch which is connected between one of the terminals of the direct current source and one of the terminals of the Energy storage device is connected, and a first element which is conductive in one direction and which is connected between said terminal of the energy storage device and the other terminal of the direct current source, so that current passage in a first breakover circuit is enabled when said first on and off switch is open, characterized by a second unidirectional conductive element (Dp) which is connected between one of the terminals of the direct current source (B.) and one of said electrodes (1 or 2), and a second automatic on and off switch (Sp), the Arrangement is made so that Stromdu when the second on / off switch (Sp) is open, in a second tilting circle (L. ,, D ₂ , S ^ or L ₂ , 1, 2, 3 Λ or in a third tilting circle (L ^, D ₂ , B ^, D .. or 309881/0761 Lp, Do »B ^> D ₁ ) is made possible when the two on and off switches (S ₁ and Sp) are open, the first on and off switch (S ₁ ) being actuated in such a way that it has the in the energy store (L ,.) maintains flowing current with a predetermined value, and the second on and off switch (Sp) is operated in a manner known per se in such a way that it determines the duration of each voltage or current pulse and / or the duration of the time interval between two controls successive voltage pulses. . 2.) Circuit according to claim 1, characterized in that the magnetic energy store (L ..). is a self-induction coil and that the automatic on and off switches (S ₁ and S ₂ X each by at least one transistor and each in one direction conductive element (D ₁ and H ^) are formed by at least one diode. 3.) A circuit according to claim 1, characterized in that the second in one direction conductive element (Dp) between said terminal of the power source (B ..) and the other terminal of the energy store (L ₁ ) is connected and that the second one - and off switch (Sp) is connected in series with the electrodes in the first breakover circuit (L, 1, 2, D ₁ , Fig. 1), 3G9881 / 0761 4.) Circuit after. Claim. 1, characterized in that the second one-way conductive element (D ₂ ) is connected between said terminal of the power source (B ₁ ) and the other terminal of the energy store (L ..) and that the second on and off switch ( S ₂ ) is connected in parallel to the electrodes (1 and 2), so that, when it is closed, during the time interval between two successive voltage pulses, and when the first on and off switch (S ₁ ) is open, the current passage in one fourth breakover circuit is ensured, which has the energy store (L ₁ ) and the first element (D ₁ ) which is conductive in one direction. (Fig. 3). . 5.) Circuit according to claim 1, characterized in that the second in one direction conductive element (DpX ¹ between said terminal of the power source (B ₁ ) and the other terminal of the energy store (L ₁ ) is connected and that the second input and off switch (S ^) is connected in series with a third unidirectional conductive element (D ~), so that the passage of current when the first on and off switch (S ₁ ) is open and the second on and off switch (S ~ ) is closed, during the time interval between two successive voltage pulses in a fourth breakover circuit 309881/0761 ensures that the energy storage device (Iu) and the third element (D ,, which is conductive in one direction) ig. 5) contains « 6.) Circuit according to · Claim 1, characterized in that the second element (Dp) which is conductive in one direction is connected between said terminal of the power source (B ..) and the other terminal of the energy store (L ..), each the terminals of the direct current source (B ..) is connected to the corresponding terminal of the energy store (L ₂ ) by means of an automatic on and off switch (S, "or Sc), and that a third element (D ^) which is conductive in one direction is arranged in series with the electrodes (1 and 2), so that the passage of current when the two on and off switches (S., Sc) are open, during the voltage pulse it is ensured in the second breakover circuit, which the energy storage ( Lp) and the third unidirectional conductive element (D., Fig. 6) and the electrodes (1 and 2). 7e) circuit according to claim 1, characterized by at least two energy stores (L .. and LJ), whose one terminal each with one of the terminals of at least one power source (B .., B ~) by means of a first 309881/0761 automatic on and off switch (S ₁ or SJ) is connected and the other terminal is connected to one of the electrodes by means of a second automatic on and off switch (S ₂ or SA)), at least two in one direction conductive elements (D ₁ and DJ), each of which is arranged between said terminal of the energy store (L ₁ or LJ) and the other terminal of the power source (B ₁ or B ^, so that current in a first breakover circuit (L ₁ , S ₂ , 1, 2, D ₁ or LJ, SJ, 1, 2, DJ) can flow when the first on / off switch (S ₁ or SJ) is open, and at least two other unidirectional elements (D ₂ and DA) of which each between said terminal of the power source (B ₁ or B ^) and the other terminal of the energy store (L ₁ or LJ) is arranged, so that current in a second breakover circuit (L ₁ , D ₂ , S ₁ or LJ, DA, SJ) can flow when the first on and off switch (S ₁ or SJ) is closed and the second on or off switch (S ₂ or SA) is open, or in a third toggle circuit (Lp D ₂₁ B ₁ , D ₁ or Lj ', D ₂ , - B-, Jöjj) can' flow * 'when the first and second on and off switches are open are", 8 ") Circuit according to claim 1, characterized in that at least one of the breakover circuits has an auxiliary direct current source (B ₂ ) which is connected in series with the energy store (L.,)", ¹ 309881/0761 9) Circuit according to Claim 1, characterized in that that the first on and off switch (S ..) is operated in such a way that it receives an opening command when the value of the current flowing in the energy store (L ..) has reached the first predetermined level, or receives a closing command when the value of said Stromes has reached a second predetermined level which is below the first level. 1o.) Circuit according to claim 1, characterized in that the first on and off switch (S.) is actuated by a time base in such a way that it receives an opening command during a predetermined time interval when the current in the energy store (L ₁ ) or in the first on and off switch (S ..) or in the electrodes (1 and 2) has reached a predetermined value. 11.) Circuit according to claim 1, characterized in that the first on and off switch (S ₁ ) is operated such that the cyclic ratio of the duration of its conductive state and the duration of its non-conductive state is a function of the deviation between the mean value of the current flowing in the energy store (L ₁ ) and a predetermined reference variable changes. 309881/0761 12.) Circuit according to claims 1 and 1o, characterized in that the opening duration of the first on and off switch (S ..) decreases _{as a function of the voltage at the terminals of the energy store (L 1).} 13.) Circuit according to claim 1, characterized in that a predetermined line state of one of the inputs and off switch corresponds to a predetermined line state of the other on and off switch, 14o) Circuit according to claim 1, characterized in that the energy store (L ₁ ) is a self-induction coil, the inductance of which decreases as a puncture of the current flowing through it. 309881/0761