BE402461A - - Google Patents

Description

       

   <Desc / Clms Page number 1>
 
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 pic'¯; C't'LOtrL 3 ... 7a "i'S e1ï'1'URT èLa J? RúC-1D:: 1 DI", 'Ü; 3ITI.c' j, 'WhereR j, .. 1 \ , ± ..... L .. '; lÙ, 'Oi.l, ..



  1IQLß: I3E CQUFÀITS iflL 121tL4U &. -
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 The present performance relates to methods and tppgroils for controlling circuits employing an overcurrent or periodic BU0ces'lon of eurlintansity provided by an electrical source to a user device. the passage of the current and to cut this urajit at destroyed moments of the period of the current of supply. and the regulation can provide the means to ensure the BahroniMna in the cut of the current
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 got.
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 , although the irnrmzlion is applicable in a very general way, ---- LJ

 <Desc / Clms Page number 2>

 
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 one ei, will describe here the fl1.01iCfltion, i, title of example, das devices and sppa- t "" - ¯.¯ .¯ .. ¯! Ir t ...- - '"- reils de soadure rr 1 "6 if stance.

   application for which it inverts interesting and new solutions.



   In many resistance ligx welding stations, we
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 periodically interrupts the current in the head of the welding t rans; l, t e <,; r. Thus, as the metal to be welded passes between the electrode-bed rollers, the resulting inline weld is, in reflected, a series of overlapping spot welds.

   The interruption of the current is usually caused by a cam control contact. as this contactor must carry and cut currents rather
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 intense, it is l1 & Cessllireo, has! t also: lbrallt and the inertia of its molded parts fleheuselnent the speed 4 which it is likely to operate 'moreover, the cutting of intense currents causing arcs, the contactor wears quickly This resulted in a change in the relationship established between the duration of current flow in the contactor and the duration of no current in a vacuum such that a reduction in the heat supplied to the support results.
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 tough.

   It was a very happy person who left behind. very sensitive when carrying out long welds, because if the heat must be calculated to provide an excellent seal before burning the metal first, it is, on the contrary, very low owing to the reduction of the ratio between the periods of the p ssage of current and periods without current '
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 In addition, it is desirable in c rtaia18 Cis s to 8UOrCEIr and interrupt01tlprEi the foreshadowing of the welding current at the marl instants of the period of the power source.

   If the result is not ensured, there may be a difference in the duration of the current flow which can reach a period
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 Integer- At low interrupt speeds, the difference by a period is such that the difference is not very sensitive to me in the amount of total heat at the joint; But. at high speeds, when the current is supplied only
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 Also for some tuuneuelves periods, the deletion of a period is sufficient to adversely affect the quality and especially the gejguiaritj of the weld.



  The invertioc bits the only rdk; l1mt equipment usable for in-line resistance welding, for the purpose of neutralizing and periodically reducing the amount of current supplied to the electrodes. OR- lasts at do $ Predetermined times of the current period of the source of all-

 <Desc / Clms Page number 3>

 
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 mentati, under conditions which ensure a perfect uniformity of the current periods and of the heat supply at high operating speeds; the speed of action is not affected or limited by the inertia of parts mC8.I1iq '1.1 "; the welding current is interrupted in pEJ J" fai s; nchroniame; the current applied to the electrode this for period one: rrultipla of the period of the power source.
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  The invention also applies to spot welding when it is desired to apply the welding current to the parts to be joined together for a period of time at the Fvmce. 1.'t.l, p: reilage object of invarttiott can be used with spot welding machines, to connect the current for periods representing only a part of the period of the power source.
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 mentation. If so applying the invention, current surges will be produced which are initiated and terminated at predetermined times in the period of the power source.
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  The inv8lltlon also allows the establishment of control equipment for resistance welding devices allowing an application of the welding current to the electrodes from a power source whose flow is initiated at a determined time of the period. source current,
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 and interrupted after a determined duration of application.



  New features and advancements will be better understood.
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 stages of the invention not 24fering to the following description and the accompanying drawings given simply by way of non-limiting example and in which 1 r3.1 represents the application of 19invaition éi of niawiinei welding in lil: , '1J by resistance.



  The ri; .2 reproduces a graph of the realization voltages in 1. the case of Fig.l.



   Fig.3 shows the application of the invention to resistance spot welding machines.
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  Fin'4 provides the crapnic representation of the tensions of r6,, Jaga acting in the case of Fiç.3.



  Fig. 5 shows, as a dtaxuwples, the arrangement of the circuits of a welding quill making it possible to obtain welding points by pulses whose duration is equal to one half-wave.

 <Desc / Clms Page number 4>

 
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 The Fi-.6 rep1'é68f: you are a variant of the Previous action equipment, allowing to obtain the sound re-, ltbt with more expensive pulses than an alternation.



   The passage of the commet, in the soldering circuit shown in Fig.l, is adjusted by modifying the impedance of this circuit using val-
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 Electric ves regulated by angended periodic voltages in an ir.vertar or alternating circuit associated with the system and with the welding current source * In device 1 ekrés té,, the iupedance of the sustaining circuit duration is adjusted by means of a reactance arranged in series with the priusire of the transtozuatour of safety. In this case, the reactance is that of a transfort, the series 1 tower whose primary impedance is regulated by las vs. students 2.



  The welding circuit carries a transformer vs whose secondary t is connected to the electrodes 5 between which the pieces to be welded 6 pass, and whose primary 7 is connected to an alternating current source 10 through the in-
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 switch 8 and the primary 9 of the series 1 tranofonator.



   In inline welding, the weld circuit is usually closed after applying pressure to the electrodes, and the circuit is opened before removing this pressure to prevent the foundation from arcing between.
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 electrodes and parts to be welded.



   This result is obtained by switch a in the figure.
The secondary 11 of the serial 1 transformer is connected to the valves
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 has asym6triquunsat arranged and comprising anode 12, cathode 13 and grid read.



  These valves can be of any suitable type, but particular advantages are gained from the use of gas valves. 211 ex 80X1t mounted so as to short-circuit the secondary 11 of the series transformer, when allas devia: ont o = dvotricest Short-circuiting the 80aonàaira of the trrJ.s: f'o11JItor - for the effect of reducing the 'iMpedance of the primary to a very low value and to allow the passage of a large current in the primary of the transformer.
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 The conductivity of the valves g is regulated by the grill transformer 15, the secondaries 16 of which lead to the grids and the heaters.
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 valve methods 2, and the primary 17 of which is connected to the uapi terminals

 <Desc / Clms Page number 5>

 
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 dance HERE 1 linked 1. the source of alinantatiùn 10, pcr conductors 1 <and 20.



  One of the terminals 21 of the primary of the trar, sfo!: 'Gate r08tor is connected to a terminal 22 of impedance 18. The other terminal 2 ;, is connected, either through impedance 24 to terminal 25 of impedance 18. either at the primary of a transformer 87 & terminal 29 of impedance 18. 3n short-circuiting the secondary 30 of transformer 27, we x considerably weaken the i;:, pedance of transformer 26, this which has the effect of t1 ": J151 '': re1 'the connection in premire 17 of gate transfer 15, from terminals 22-25 to the correct 22-29 of 19viril- pedpnce 18. This results in a deflection. around 180 for the grill voltage of the valves 2.

   So. when the secondary of t1 aùsfo; ator 27 is not short-circuited, the voltage of the gates 1a of the valves 2 is roughly taken out of 1800 compared to the anode voltages, and the tubes are not conducting.



  When the secondary 26 of the transformer 27 is shorted, the phase shift which results makes the valves conductive.



  The short-circuit of the primary OJ of transformer 27 is placed under the control of the valves it arranged in the circuit of a rectifier invomi or "alterneul4". This circuit comprises a capacitance o, i (or another dis- positive energy store) which charges and discharges T-4riodiquur. ^. ezt
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 under the and a valve inserted in one of its circuits. In the device
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 Special shown, the capacitor is Charged from a source 34-; 5, through an impedance; 56 shown is the form of a resistor, and it is discharged through a circuit comprising the valve 32 and a valve 67.



  The capt-city 53 and the resistance 3e can (either one of them, or the soft ones) be adjustable to allow the adjustment of the period of the angended voltage by the circuit, The grid 38 of the valve o2 is connected, at tmvùr8 the threshold 39 of a transformer 0, at the cursor 41 of a pùtentioenét1 e 4g, besides the spéol-1 device shown, this potentio1Jètra is connected to a 4S-w to lr. sOt <ro.; t of power supply 34-65, in pl \ 1'lllHa with the load circuit of capacity 6.



  The primary 45 of the triwofonnatour -t0 is connected to the power source, by the conductors <t6-49 and ay.0, through a phase shifter device comprising a capacitor 46 and a resistor 47.



  The gates of the valves it feels connected, by the intermediary of a switch 50, to the "eltarneur" circuit thus defined, by the conductors 51, 52, 5S and 54 and the secondary 66 of the transformer 5o. In the device --4-

 <Desc / Clms Page number 6>

 
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 special repainted, the link is made at cursor 57 of potentiometer 42 at point 58, at rEÍsist8tlC9 36 and at capacitor 30, but it is possible to call input connections allowing to draw from the alternator circuit a periodic voltage of amplitude more glr8zJde than that of the bias voltage of the valves 31.

   The primary 59 of the t1 "8nsfClft1l.Qteur 56 is connected to the source of lift; - main 10 by the conductors 48-49 and 49-LG- The circuit of heating, cul1e of the electric valves 2, 31 and 32 may include the rotection resistors 60, and vulvar osteoarthritis cathodes can be protected by the delayed action switch 61, which does not close until after the appropriate pre-release of the various tubes.



   We understand better the system if we give of its work-
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 ment 1 'poa' according to 1 The switches 61 will be closed, and the coullliutateur 50 is in its lower position at the instant cry, the power source 34-35 is connected to the circuit "altemeue la te :: Zion to the borms (3s of the condenser 33, is then zero, since it is still sMia charged and the full voltage of the source appears at the terminals of resistor s6.



   The potential of terminal 58 of the capacitor is thus the same as that of terminal 34 of the power source and, given the position of the cursor on potential 49, the gate 38 of the vulva 32 is negative with respect to at its cathode 62 which is connected to terminal 58, the alternating voltage
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 tive applied to the grid, through transformer 40, in addition to the voltage obtained from potentiometer 42, through cursor 41, being lower than the voltage at the bounded of resistor 36 When the capacitor 33 changes, point 58 becomes Furthermore
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 in addition negative JU8 until the grid 38 possibly takes a positive polarity with respect to the cathode n2,

   so that the valve 32 delivers passage through the discharge of the conden8Jteur 33. ùrtee to the presemoa of the reaction 37 or to the action of the reaction innérmta to the discharge circuit, the voltage of the valve 32 is mutquntbladlnant reversed and the current which crossed it is interrupted, until the 8th repeats the phase of fiOuOti01, neutellt described above.



   The periodic voltage appearing at the terminals of the resistor 36, in the oberated circuit of the capacitor 33, is applied to the gates of the valves 31, in opposition to a polarization comprising the tendon of the trans

 <Desc / Clms Page number 7>

 
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 fORaattur 56 and a voltage determined by the position of cursor 57 on potentiometer 42. The periodic voltage obtained from the "altemeue" circuit, at the balts of resistor 36, is of greater amplitude than that of the combined voltage of the transformer. 56 and the voltage supplied by the potentiometer 42.



   When switch 50 is in the lower position and
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 that the capacitor 33 is not charged, the cithodes of the vF: pupils; they are positive in relation to their grids and the non-conductive valves 31. When Capacitance 33 charges, there is a falling out where the bias voltage comprising the voltage drawn from potentiometer 42 and the voltage from transformer 56, exceeds the voltage across resistor 36 (in other words, the voltage of terminal 58), so that the valves are made conductive.



   When the valves 31 are thus conductive, the valves 2 of-
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 also come conductive and run through the a'agnitélte soldering circuit, as a result of the lowering of the impedance of the soldering circuit by the passage of the current in the valves 2.after the valve 32 has discharged the cond6r.ste 'l 33, the valves 31 are again polarized and the current passing through them is interrupted, so that there is no more current in the circuit of the valves 2, and the result is a strong increase in l impedance of the solder circuit and a decrease in solder current.



   The values of the adjustment voltages considered above are
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 shown graphically in Fig. 2. 1 ± bias voltage of the -; rt the 38 of the valve I is represented by comprising the voltage at current 6.itematif of the tranafonoateur 40, and the voltage "b" drawn from the potentiometer 48 through the cursor 41- The voltage at the cradles of resistor 56 is represented by the curve "o" from the moment when the source 34-35 is connected to the alternator circuit, until the valve 62 becomes conductive at the point 'The source 34- 35 this here a source at 250 volts for example, and the voltage ma. The maximum of terminal 58 is therefore 250 volta, obtained at the instant when the power source is connected to the alternator circuit.



   When the potential of the terminal 58 and of the cathode 62 deviating lower than that of the grid 38 which has an "a" bias, the valve,
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 starts at "d", and He! tasi #. of horn 58 increases JU8qu'i. a certain "e" value exceeding 250 volts, owing to the presence of the impêdaice dane

 <Desc / Clms Page number 8>

 
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 the vulva discharge circuit 2. 1 tensicw. of the 5P terminal or the 6T method therefore decreases along a curve "f which intersects, the curve" "er" h "and the curve z" at "i".



  The bare curve represents the poliriaxtion voltage of the grills of the vslves 31 and ciJpor1; and the alternating current voltage of the ... nsfon: eteur 5 <,, and the bias voltage "j" squarespmdiitt at the position of the circuit of the cursor 57 on the potelitioe ± tre 2 * When the voltage at the ends of the resistor 5b becomes lower than the polarization voltage 10: - <1, liquid at the vrives 31, these tubes become conductive, and the c01. , rar..t continues to pass until point "k" (although with high vacuum tubes the flow of current is practically interrupted at 1.). The passage of the current in the tubes: it begins again at "h '" and the fCl: JCti01.nement above is related.



  Note that the voltage as obtained from the alternator circuit has a period equal to a multiple of the period of the power source. In the particular example chosen, the carry-over is 5. It should also be noted that the current is started and flowing at times of the period of the power source 10 determined in advance. phase shifted there, -Iit the gate potential of the valves Il and ôz by the action of the tru, s! 'onnt.te "rs 40 and 56, we can adjust the instant at which the current goes up and down, since performing this rule, the co ,,, rbes "a" and "g" are moved with respect to 1;
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 the other.

   It is not necessary to use a transformer 56, but it is
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 advantageous to do this, since the periodic voltage applied to the grills of the .51 tubes ensures the operation of the apparatus in a more positive way, it because of the sharp shape of the bias voltage which makes .. \\; 1i ... ble the light values of t61161011 daua the adjustment circuit, if the valves. used .. omitted non-identical C8r11oUriBt1que8. Las cl1rt.ctârlstiq ..... 8 diffireutes of vtàlv.8 can come from certain Qéfauta of fabricutioli or silupl #: \ (; lut of a vlolllli'80munt of the valves> near a lClngu6 service life.



  The period of the tarta10 engoJ11dNe in the hitamaur circuit is determined by the relative r6; la; e of illlpédl1J100 Ju and do la ul, kr.it6 .5.;. The plituda of this voltage is detaninated by the voltage of the source of u1i :: 1611t & - tion and the value of the i> xpéàuinca 57 in the discharge circuit; a.

   In the igirti4juliar device under consideration, with the switch in the lower position, the 81 8teia is accommodated for short periods of cut-off and for long periods.

 <Desc / Clms Page number 9>

 
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 de co: arant If or put the ut [-tour 5c hard. his positi01. s;.;. p "; rie1.Jra, an oDti 1t the inverse resvltlt, that is -;> - to say of the periods of C01J.} Jur" and èe.: o - .; rtes i, érioites For exif "eaat installations of small CO'vN> 11tS, can 158 Igsser relay valves:

   the eé; lage ae tro-uve air.si si çlifi6, :::. s the f #: C- tiomer; 8! 1t is that of the device of the Fit; .l to lb difr'éré'ne taken qu 'we use ol valves instead of $ valves 2, the sa ..: onde.ire 11 du tr; # sfor., ate'Ur 94rie 1 being directly connected to the valves 316 It is obvious that the Failure of the alternator can also be used when a single impulse is desired. ptr weld joint ;, but that, dW1s this case, it is preferable to shorten the represeiltée variant Fi ';. ". According to this figure, the adjustment of a 1-resistance welding dir-POsitive is done by setting the period of i.1, I) IIeFtion of a weld short for durations reduced to a fraction of a period of the source of li- ment.

   In pO: 11 ts resistance welding machines, a small co: unutaaar OO! J! Uanded by a cam mounted on the shaft and closing the welding circuit is generally used. The device is such that the interrupter closes and applies the welding current: .after applying pressure to the welding electrodes *, and 19interruptair on the other hand opens and cuts the current, before this pressure is released. The "o ut5teur is Gnrlemen
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 controlled by a cam, and the rotational speed of that cam, as well as
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 the transfer of the tr6misformutour welding, are studied in order to adjust the heat supplied to the joint.

   In the device described below is used ..u18nClt a switch of the kind of the one o0l11lnaalé by oaIlle so far, to MDorcer an adjustment alroult oawvortant valves whose lti-otion is used to a1> plj quer the current of avadurs to the elu0trod ..; the duration of the> issffl of the welding current am dl 4e * d is 8OUaise at the con1Orle of the circuit, all monenta, .'lII1orqf \ ge .e doing only when the oOHIQuh.t.eU1 "has been opened and rafean.



  The rti adjustment circuit ul'460ut is a form of realization of the precaution for spot welding is in principle the same as that in Fig.l. with the difference that the generator circuit has undergone a slight modification to allow the production of single voltage and current pulses. , or 8ui1f..of the similarity of the two sutùiuse we have, dane ¯¯a

 <Desc / Clms Page number 10>

 
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 the corresponding firms, designated the organic marls for the nature of reference.



  In Fig., The connection 44 of the alternator load circuit has been made at an intermediate point of the SII tllraet re -> 2 pot connected to the power source 34-35 A negative potential source. for the Crille 3e of the 3P valve, is thus supplied by the cursor 41, the res; 8tlÀ2iî> 70 and the conductor 71. A more negative source of gate potential can be taken 1. connection 72, through the conductors 73 and 74, the valve 75, the conductors 76 and 77, when the vrlve 75 is conductive. Catte valve is of the discharge type mentioned above. Its gate 78 is connected to the negative terminal db of the power supply connected to the potentiometer 42, i .. tr4v3rs the following elements: protection r4sistimea 60, conductor 79, secondary of the
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 gate transformer 80 and conductor 81.

   As a result of this connection,
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 when no voltage is induced in transformer 00, the gate of valve 75 is negative with respect to its cathode and the valve does not loll.
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 Gate transformer 80 is in the capacitor discharge circuit
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 33, and as a result of the overvoltage induced in the grid transformer at the
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 current flow through the waste circuit, the valvo 75 is made conduc-
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 trics. This valve can only, because of its characteristics, be 1 "81-
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 due non-conductive by removing its anodic talion. It happens
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 by the action of the comr.1-otnteur 82 and a capacitor 85, the COl: lIl1.ltateur 88 corresponding to the generalizing switch associated with the electrodes of the machines to
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 spot weld.
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  When we hold the c # .nutf.tor 82, the capacitor 8à is put to the terminals, of the valve 70- This condaisateur 85 was, by lr. source of magnetization 3s.-35. loaded through the circuit comprising the following 61ei:> ert8 1 conductor 84, resistance ab, conductors 77 and 71, resistance 70 and connection wl of the potentiometer, ", 2. A smoking the switch 82 one connects the positively charged bonje of the condenal1tar 63 to the cathode of the valve 75, and the anar- géa aégati VllmEll1t terminal of the capacitor brings the anodo of the valve 75 to a ne + tiva title
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 prr compared to the cathode, until the capacitor breaks down in the
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 resistor 70. The discharge tape is long enough to tap the valve 75 of ae d41oni..r and reset the gate setting.



  When the valve 75 8t ho n in service, the anode becomes o8i-

 <Desc / Clms Page number 11>

 
 EMI11.1
 tive, "usu'â that the capacitor 83 is charged through the resistor 70, in the opposite direction to a voltage determined by the position of the cursor 41. The valve 75 is thus in the desired position to become conductive in the vicinity. from the point or near the point mimics the following positive alternation.



   As indicated above, when valve 70 is non-conductive, the bias on valve 32 is determined by the cursor position e1.



  When the valve 75 is conductive, the polarization is increased by the value of the voltage drop in the resistor 70 under the effect of the passage of the current
 EMI11.2
 in valve 75; in other words, the polarization is alf; entered dumoMtaKt of the voltage between terminal 72 and the potentiometer 41 of the potentiometer '<, 2 (if we neglect the voltage drop in the circuit between this terminal and the gate) .

   The position of slider 41 is adjusted such that, with no current flowing through valve 75, the AC voltage applied to gate 38 of
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 The 32 hour valve through transformer 40 is just enough to make 1 valve conductive near the tip of the voltage wave. ]., 13.i8, when the valve 7 is conductive, the bias of the gate 38 of the ZE valve is strongly negative to keep this valve non-conductive. thus, the nor-
 EMI11.4
 The circuit cut-off maio corresponds to the conductive valve 7p Evec cursor 57 in a position such that the valve grids are sufficiently negative to keep them inoperative.



  Switch 82 is fetted after application of the 1-ression to the solder points of electrodes 5-5. The finnuture of this switch has for ei 'fat of eoraautar ta valve 75 under the action of the capacitor 8J em3ne indicates high fold. This oemot the polarization of the valve 2 to drop to the re,; lage slider 41 low enough for the alternating voltage induced in the circui of the transformer da grllle 40 makes the tuba conductive.

   The OOllducti 0111 U d (the valve Ut has the effect of permitting the deutiargo of the oondansatour j.) Which causes the conductivity of the valves 31. thus reversing the polarity of the gate voltages of the valves 2 and allowing them to deliver 1 * 8 * age aware who not
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 is then in the grill tran8fon @ tor, following the process indicate prop <of the Freeze the Capacitor 33 recharges through resistor 36, and the: valves 31 are again made inoperative, so that valves 2 are n conductive and there is reduction of current in the solder circuit.

 <Desc / Clms Page number 12>

 
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  The gate transformer 80 is in the decnarge circuit
 EMI12.2
 of the capacitor 33 and it introduces a transient voltage si = IV gate 76 of the valve 75, which has the effect of making this valve conductive and again making a stronger negative polarization of the gate they valve .52, at the same time. so this valve to be conductive, while me that the cozr mtatezr 82 would remain closed.

   After the opening of this switch-ar, 48, ÙH "ge, on the capacitor ü6, resumes its initial polarity and the circuit is put back in position.
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 operating mode *
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 One can easily understand: .snt the 'function' of the device referring to the Fi5 '. "Which provides the jrhphic representation of the adjustment points in this figure, the voltage zero is the voltage at point 3 the voltage of the cursor 41 is represented in "m", and the voltage of cozmaxion 72 in "n" * On these voltages is superimposed the voltage of gate transformer 406 From point "o" the gate voltage of valve at 2 follows the solid line up to "p", point at which, due to the closing of the switch 82 and the switching on of the capacitor 8;), the voltage momentarily drops to the value "q".

   As a result of the xtii.etion of valve 75, the bias voltage decreases, and at "r", valve 32 eventually becomes:
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 conductor. The valve 75 being again conductive under the effect of the voltage applied to its gate by the gate transformer 80, transfers the
 EMI12.6
 connecting the slider 41 to the goodness 72 and applies to the gate of the valve à2 a voltage "s" analogous to the initial voltage applied, c, t¯ ,, ¯ài, as strongly net to make this valve non-conductive.

   Learned the discharge of the pump 33 in the valve J2, this cal * city is recharged by producing a transient voltage at the terminals of the res lstl'.l10e t ;, t6J1sion which is ill'fied to the elll1enta of frozen valves 31 which have an opposite polhfization "g" rc presented by a continuous current voltage "j" and a teusion in the native alt current induced in the circuit passing through the gate transformer:> 6. LI valves 31 are rundutis conductive in "h" and non-conductive in "i".



  If the circuit PbBO4, nt by vtilve 75 is passed to 76, by axis, pole, the elevator circuit of Fig. 3 will be used by the rut.f1ù will handle that it of 1'ig. 1, and the oy3tlWe described on 1: 1 "1g. is only used for soldering 81 11b" l18, QQr! J11o where the> 'ii i> ammexion of the coils ô2 and M to the grids and cathodes of the valves 31 can be set by a gr

 <Desc / Clms Page number 13>

 
 EMI13.1
 ra of the comnutvtau1 "50 of Fig.l. 3a in addition, the phase shift of the voltages induced in the gate circuits of the val.os 31 and o2, with the cnoyen of the tmrsfonaaite-ar 56,, can be adjusted by a suitable phase shifter circuit for connecting the fand2tioemement of the avstema Such a device has been described above in relation to Fig.l.

   A cond81 ... tor 86, connected to the terminals of the secondary of the gate transformer 80, serves to flatten the voltage peak produced by the discharge of the cCII1d818steur 33, thus facilitating the operation of the valve 'T5.



  DF-1IS in Fig. 5, the welding electrodes 1 and 2 are supplied by the source 6, through the trM! 8 welding transformer 3 and the electric valve 4, the circuit being known by the switch 5. One terminal of the primary 8 of the welding transformer is connected to the pble 6 of the source by the wire 9 and the switch 51 the other exte3r., Ity of the primary 8 is connected through the conductor 10, the valve 4, conductor 11 and switch 5 L: the other p81e
 EMI13.2
 7 from the source. The secondary 12 of the welding transformer is connected to
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 electrodes 1 and 2.

   It is preferable to use alternating current, but it is also possible to use any current whose voltage passes through E1riOdi, v.Elu61.t by
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 zero *
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 According to Fig. 5, the electric valve 4 with gas filling preferably comprises an anode 15, a cathode 14 and a grid 15. The potential of co,., Mand, derived from the soldering circuit, is applied. . the grid 15 through the transformer Ij. The secondary 17 of the latter is connected 1, the gate 15 through a resistor iiiiiitatrice. The primary 19 of the transformer is connected to the winding il of a transformer through the conductors Ilµ, 21, 22, e4 2s and 24, the contacts 25 of the relay 2ô, the conductors 27, 28 and Z9 and the conductor 11, when the contr.cts 25 are 1'ù1 '! lIt1S.



  When the cnntacts 25 are open, the primary 19 of the tN> 1Jsf'01'lnate'Jr 16 is connected, by the conductors 20, 21, 22, 2 to a point on the conductor; 4 which is part of the circuit of déytrsae constituted by the capacitor 33 and the réxixtana J4. This aepha8> .jre circuit is connected between conductors 9 and 11 by wires 35, Us x7, x8 and 29.



  L01'8q..e the relay 26 is de-energized and that its contacts 25 Ban10 iennés, the voltage applied to the grid 15 by the trausfonnateur 16 is shifted back by 1800 compared to that of the anode; the valve is off -.

 <Desc / Clms Page number 14>

 
 EMI14.1
 



  C1.e if its grid has not been polarized negstivament by the continuous coirmiù supplied by a rectifier which will be described later. Qwmd the r31, is 26 is aliuiented, its contacts k5 open and the primary 19 of the tl "6IlSfor: 1iSte", r control 16 is connected to the phase shift circuit indicates more havt, so that the voltage applied to the grid 15 of the valve 4 is offset forward with respect to
 EMI14.2
 at Modic voltage, from an angle of el'1ilH to avfr, which is less than L 180.



   A DC bias potential is also provided to the
 EMI14.3
 grid 15 of 1t. valve 4 through the eye S6 This potential is formed by an electric valve 37 which is preferably of the same type as valve 4 and has an anode 38, a cathode 39 and a grid 40. Its anode 38 is connected, to
 EMI14.4
 through wire 41 and resistor 42, to terminal 43 of pote1Jtiometer 44-45, and its cathode 39 is connected, through conductors 46 and 47 to point 48 of the same potentiometer *
 EMI14.5
 Its gate y0 is connected through a limiting resistor 49, the conductor 50, the sec # Jdnire 51 of the transformer 52 and the conductors 53 and 54, to the boe 55 of the potentiometer 44-45 'The primary 46 of the transformer 52 is connected to wires 9 and 10 of the soldering circuit,

     by wires 57 and 58
Direct current is supplied to potentiometer 44-45, by the tubes
 EMI14.6
 low rectifiers 59 through a 0-ùl filter, the direction of this state oonratit such that the terminals 43 and 55 respectively constituting the positive and negative poles of the potentiometer- Under these conditions, it is conceivable that a negative continuous potential is supplied to the gate 40 of the valve 37, this potential being equal to the
 EMI14.7
 voltage drop in part 45 of the meter.



  The valve 37 is curranuted by the capacitor à2 and the interruptom vos with the help of which and condemektour à ± can 8tra brmiched between the anode and the cathode of the valvei the resistances of the uhejre and deharue this and duo are in $ 4rit with the ce capacitor.



  The tranafonuateur u6, whose primary jl is dislocated between the conductors 9 and 11, had four Reuondai re8. Two of these bags (G7 and 68) are connected to the rectifier circuit. The secondary 68 supplies the rectifier cathode *, while the secondary 67 supplies, in the usual way, the anode circuits of the rectifiers. The other two secondary $ 69 and 80 blimdntott the cathodes 39 and 1% of the valves U7 and 4.

 <Desc / Clms Page number 15>

 
 EMI15.1
 



  The protection of the methods of valves 4 & 37 is ensured by a time delay relay 71 functioning under the effect of relfis 21 'which has at @' 5X; them of contacts 25 e 72, not fired - When the contacts 72 are fenaés, they short-circuit the valve 37 by the conductors 41, 7>, 4? and rut the other,; had contacts 25 short-circuited, when it. are closed, the resistor 34 of the above mentioned dephRS & 94 circuit to complete the circuit of the primary 19 of the horn transformer, mar of 16 going to the s0 terminal of the traz.sfor.uator u6 and to the conductor 11, cotane described above. above.



  The te: s: cn provided by the transanoanator read at the gate 1 of the valve 4 4 thus renders this valve nom-co-nduutrice and aapâuhe its alluriaL; e, ritme before the negative polarization of the latter by the DC potential came from the rectifier circuit comprising the otentiOJ, ltter r45 and contacts 72 of relay% 6. After a certain set time after closing switch 5, relay 71 ends its contacts S2 and alunits pull coil 26 'of relay 26 through conductors 20, 80 and 0. .. the eontse% s 32 and the conductors 3 ', 73 ", 77 and be which connect this coil to the conductor 9 and to the terminal 30 of the tranefonnateur 66.



  When feline switch 5, electro-ailoliJt 7a is flashed through leads 20, 75, 76, 7? and 58, at p, rt i of terminal 30 of the transformer bu and of the conductor 9 of the soldering circuit. The motor 78 is over time supplied through the contacts 79, from It. terminal 30, and
 EMI15.2
 conductor 9, by the circuit following wires 20, 80, 81, 77 and 58.

   When the elec-
 EMI15.3
 tro-airaant 74 of relay 71 is supplied. contacts ..i2 tend to become famar and contact them. 79 to open, but these movements are blocked until. that the latch 82 is released by the adjti = of the engine 78 and will read. 8S- Quai; at this latch 82 worked, the oontuots 79 being able to open and cut the e1r- cuit of the motor 78, and the oontaots 2 and fenamt sn ,,: olllpltitl11t the circuit of the coil 26, of the relay zut When 'we open the switch 5, all the moving parts of the relay 71 return to their rest position (représmltées on the fiimro) doms which contât them. 32 are open, and the. contat. 79 terminated The primary 8 of the trt, solder generator may have terminals. of set 84 to modify at will the welding current supplied to electrodes 1 and 2.

   It is also desirable to protect 1..roulât prima) N a against overvoltages using a surge arrester or aDhlote device.

 <Desc / Clms Page number 16>

 gue 85.



   The operation of the described assembly can be explained from the
 EMI16.1
 next ft-can! the switch 5 being formed, the primary 6 of the solder transformer 3 is connected to the source 6-7 through the electric valve 4 which is made non-conductive by the potential applied to its grid 15 by means of the
 EMI16.2
 transformatour 16 as long as relay R6 is de-energized. This potential is detected 180 ° behind the anode potential of valve 4; it is provided by the conductors 20, 21, 22, 23,24, the contacts 25 and the conductors.



  27, 28, 29 which connect the primary 19 of the transformer 16 to the terminal 30 of the transformer 60 and to the conductor 11. The valve 37-is short-circuited by the following circuit: conductors 41 and? 3, contacts 72 and conductors 47 and 46.



  This short circuit also supplies a negative bias potential to gate 15 of valve 4.



   Closing switch 5 also powers the control relay.
 EMI16.3
 timer 71, the electro-magnet 74 of which is connected to terminal 0 of transformer 66 and to conductor 9 of the soldering circuit, through the following circuit; conductors 20,75, 76, 77 and 58 - The electric motor 78 of the relay 71
 EMI16.4
 is also connected to terminal 30 and to conductor 9 through the following circuit: conductors 20 and 80, contacts 79, conductors 81, 77, 74 and 3c.

   With the electromagnet 74 energized, the contacts: 52 tend to close and the contacts 79 to open; these movements are etnpêcné by the latch 82 which, at the pobt of a determined time is released by the motor 78 acting by the interior = ire of the gear 83. The latch 82 having operated, the contacts 32 are floured and the cant; cts 79 open, the opening of the latter deactivates the mote1. <r 78 of the relay 71, and the closing of the contct8 32 supplies the coil 26 'of the relay 26 through the following circuit: terminal 30 of the transformer te, conductors 20, 80, and 80 ', contact 32, conductors 73', 73 ", 77 and 58, conductor 9 of the soldering circuit.



   Being thus supplied, relay 26 opens its Contacts 25 and 72,
 EMI16.5
 V opening of * contacta 7 to 8 removes the CC \ .rt -.....: ..: + \; ü da the valve j7, and the opening of the oontaota 25 ûhmgo the greater of the potential applied to the gate 15 of the valve 4 by the transformer 1.); the 11 () Uvelle value of the phase shift is such that this potential is dec.l8 in advance of a & n6h less than 1E30.

   The opening of the contacts made 71 8ui> ri1n. also the DC polarization potential

 <Desc / Clms Page number 17>

 
 EMI17.1
 supplied to the gate 15 of the valve through the caadate4 ^ s o6 and 7 .. the contacts 72 and the ccmd ;;. cte ;;. r 47 which connects the grid 15 to the? Ol1.t 'sÇ d- .: ; l "Gtd.¯t 10- meter 44-45 * The offset potential a vent and 8f-1> liqué i" la; ri 11e 15 of valve 4, is obtained by connecting the primary 19 of the COl trmaforator. - Mode 16 to the phase shift circuit ... Carries the condensate .. and 1. ÙS LbtàllG8 z which are connected to conductors 9 and 11 through this 8ui'l; JJt: conductors 35, capacitor 33, conductor 2 *, resistance, co:. gears 7, X8 and 29.

   The application of this conunf1Jd9 potential of the valve 4 by the transfonaataur the pen: i and the ignition of the valve 4, given that, e0Î.N8 indicated above, the continuous potential al) plique L, Il ..; ril1a has been 1 -) realiaula.te., t removed by the opening of contact 74 bypassing the live 37- The ignition of the valve 4 applies the voltage, through6 the control transformer 52, at the gate circuit of the valve where this voltage exceeds the polarization of the latter, and it turns on by connecting resistor 42 to the circuit which leaves from terminal g3 of 1, otent10wétre 4 ++ 5 through resistor 1 , conductor 41, valve J7, las co2d, ctors 46 and 47, to end at terminal 48 of the potentiometer.

   The taxing uauta in resistor 48 is thus applied soas f0mae of a potential of
 EMI17.2
 negative polarization at gate 15 of valve 4, and this polarization is
 EMI17.3
 sufficient to exceed the eoe1ulauàe voltage applied to the transformer 16
 EMI17.4
 and to make valve 4 non-conductive when its anodic potential passes
 EMI17.5
 by zero. The circuit is then prat i, operate.
 EMI17.6
 From the foregoing it follows that, in the position which can be
 EMI17.7
 designated by "arrflt", the valve 67 is aligned and the grill lo of the valve 4
 EMI17.8
 receives a negative Polarization potential equal to the voltage drop in the
 EMI17.9
 resistance 41.

   The grill, 10 of the valve 4 also receives a native alter potential shifted forward with respect to the anode potential, of an anal iur'6rieur le0e The valve 37 being conductive and the coi.laande switch 6z being open, the capacity The is charged, at tl "! Lvars riaistanges b4r and 65 e the valve 37, a voltage approximativamamt equal to the voltage drop in the resistor 481 the polarity of the capacitor is such that the conductor 41, connected to the anode of If valve 37 through resistor ô5, is negative.



  When we fUl1! A 19interruptor of oOlrJI1and 6: i, we connect the annature

 <Desc / Clms Page number 18>

 
 EMI18.1
 positive of this capacitor. at eithoàe 39 of the valve 5 ?, and 1Fanode 58 of this valve is made reluctant for a time l <ffisln1t to perform the emulation. The presence of the resistor 65 starts the circuit in :: Ôeha the inductance of the latter to reject the valve 37 when the latter is again activated during the closing of 66. The capacitance is torn, then rge i, through resistors 65 and 42 and is recharged through these resistors at lu-e
 EMI18.2
 reverse polarity.
 EMI18.3
 



  When CLpacity 62 is roughly charged to this 5Qoavella polarity, the voltage drop across resistor 42 is small and therefore valve 4 has virtually no DC bias. When this continuous bias of the valve 4 approaches zero, it finally attains a state such that it can be turned on but given that the potential
 EMI18.4
 AC control is shifted forward with respect to the anode potential,
 EMI18.5
 from an angle less than 1800 (eg 1500), the swelling can only occur during the first electrical 30 "of positive half-wave.

   As a result, with the phase shift ahead of 150 ', the valve 4 turns on practically for
 EMI18.6
 all alternation or not light up at all. it is desirable to have a forward shift of the potential of
 EMI18.7
 control provided by the transformer 16 such that its maximum value 'Ul! 1 is compatible with economic considerations, so that the valve 4 sibiluae as soon as possible in the positive half-wave and that it operates prattquauent during all this half-wave , or that it doesn't star at all; the alunage of the valve 4 supplies the supply voltage to the primary 8 of the transformer! lat8 \ U
 EMI18.8
 3 through conductors 9. 10 and 11, and solder current is applied
 EMI18.9
 between electrodes 1 and 2 via secondary 12 of transformer 3.



  The allwntge of the valve 4 reitllune the valve; i7 by the tension ai> - PliqUé. to ea gate 0 through the trsnsfonnatour of oniiiaande 02, and a high negative polarization is again applied to gate 15 to turn off the valve before the next period of the te begins:

  air conditioning When opening the owcunanda 65 switch, the cr pa, cited 62 is charged again in the correct one, necessary to switch off the S7 valve in the event of the switch 63 being closed again. weld must be established so that its
 EMI18.10
 o excitation current is not too high when all the alternation
 EMI18.11
 --- 4-

 <Desc / Clms Page number 19>

 
 EMI19.1
 tive is 1 "OU1" l118 and that its leakage reaction has a value which depends, to a certain extent, on the operating cycle of the primary tt'lUlsf'ozme.teuJ'8 l.'8r.rou.l.ent must preferably be protected against overvoltages by means of appropriate devices. Cie Fiv-5 is made regulated, If the phase shift circuit of Fig .:

  > is made- .. rule.ole, if the trun% formtrir of the grid proàlà # e1o on sharp and if resistor 4 is
 EMI19.2
 connected to a point of resistance 44 in such a way that it produces the
 EMI19.3
 minimum negative potential supplied to the rill of the pupil, it is possible to adapt the circuits of Fig.q6 in such a way that the operating times are less than one half-wave. The potential of the sharp wave must be less than the maximum continuous potential of polarization. and it must be greater than the infinite continuous potential of applied polarization. the valve of the welding circuit, so that this valve can be erroneous by the welding cO rsnt which crosses it according to the indications above.

   By adjusting the phase shift of the control potential supplied to the gate of the welding valve, it is possible to start the current of 800 durations in D'i!: 1 at any time of the period. In Fig. 6, 86 represents a transformer capable of producing the potential of pointed shape according to the indications oédante8 'The coils, primary and secondary 87 and 88 are arranged on a circuit t I: ll'6Dét iq ... e 89 having a reduced section at point 90, and a leakage circuit at 91 between primary and secondary - The reduced section is preferably made of high permeability and offered a rapidly increasing saturation curve, as for example the alloy known under the name of "petmal103" - llw- these conditions, one obtains in the winding 88 a wave of pointed form q ,. provides the desirable properties for the control of this circuit.



  In the c # ruwande circuit of the 1igb, the primary e7 of the trainer 8b is brought together, through the conductors 92, 9s and 94, to a terminal. the primary 95 of the transformer 9ti, and a derhf1Se circuit which co, .por1 an adjustable resistor 97 and a capacitor 98. This depha.sr circuit, ba es; connected by the conductors 100 and 101 to the conductors 99 and 102 between the 4uel is arranged the primary 9b of the transformer 90. The power supply is made by the circuit lOLS with alternating current L through the switch 104 The prlamire 105 of the welding transformer lOb is connected to n

 <Desc / Clms Page number 20>

 
 EMI20.1
 Switch 10 .. "switches 99 and 107, switch 108, switch 102 and source 10 .. The secondary 109 of the welding transformer is connected to the welding electrodes 110.

   A negative voltage of polrisE> ti0J1 is supplied. to the gate of the valve 108 by the secondary 113 of the tmmsf r "8t" 112 This secondary is connected to the conductor lOk through the conductor 11 .. ilement 115 of the t1'lD1sfonnateur and the resistor 116 a parallel as well as q '.: e the resistance l1mitatrtce 117,. the gate of the valve 106. EnI'ouls; J811t 11.:; and the limiting resistor 117 are provided with cond # sateUrtl in bypass 118 and 119 The primary 120 of the transformer 112 is connected to the aandactors 9E3 and loe of the
 EMI20.2
 soldering circuit.
 EMI20.3
 a Capacitor 1.1 is connected to the se00l: daira 1 of trmsi'on.vataur 123, the primary 12 of which is connected to the phase-phase circuit compot't; 11t the cor.- densator 125 and the resistor 126.

   The dzchf, rge of the capacitor 121 is COHI- mandated by the electric valve 127 which is connected to the bornab of the capacitor 121 through the praire lees of the transformer 12. and Inductors 1.0 and 151 The valve 127 receives a continuous potential of polarization reflected its grill . through a circuit consisting of the limiting resistor 1 = 3, the conductor 134, the secondary 88 of the transformer 8b and the conductor 1b. The value of this polarization potential is determined by the electric valve 1; i6, this valve is 118'80 connected to a circuit tc 01: 1 carrying the reslst1ces 157 1; ti and 1.9 which are connected by the conductors 140 and ll to the positive terminals and native to a direct current source 162-1J.

   When the electric valve 156 is coti. ductress, a circuit is established at trFVars resistor 144 and valve l6 in parallel with resistor 1. and u1; Potantiel legatif polrition, corresponding to the voltage drop in resistors 167 and 144, is applied to the gate of valve 130. When the latter is coeùntuté3 when connecting capacitor 145 1, its terminals. through the connection switch 146, the circuit through resistor 144 and valve ls6 is interrupted and the DC bias, applied to gate 1 of valve 127, is reduced to the value of the voltage drop in resistor 157. This reduced polarisi.-tion is not sufficient for 8J: pu! ler the peak wave produced in the winding 8f3 of transformer 86, to toremate valve 127.



  The gate of the valve 1, i6 is connected., Through If resisted. limiter 1 and the secondary snroalauent 147 of transformer 129, at the -

 <Desc / Clms Page number 21>

 
 EMI21.1
 negative terminal of the source 143 to cut continuously. The candansl tor 1.5 is chsr ;; é and discharges through resistances 14E and 149- It is necessary to make e7el to suitable protection devices of C-t10d of the pre-designed valves Fig.bt this protection can% be provided by a relay ± M; 106ue to that of Fig. 5.

   The operation of the circuit shown in fig. 6 can be explained in the following way s the valve 1t> is normally controlled as long as q - ,, the gate of the valve 127 is supplied with a polarization p0% eo% 101 equal to the drop in resistors 137 and 1. is linked when feir. :: 1 interrupt on 1 + w, 1 vi-1- ve 136 is co "mutated by oondensator 145 and it interrupts the current flowing through resistor 1+, an thus reducing the polarization potential
 EMI21.2
 supplies to the gate of the valve 127; its new value corresponds to the fall
 EMI21.3
 in resistor 137. The peak voltage supplied Pf.1 "the secondary 68 of the trati8fornsteoJr 8b is greater than this bias potential and Melle occurs at a point of lys period which <place 1allu ^: ae of the valve 127.



  This al1ulàja discharges the condensate tower 121 through the primary 12G of the transfoner 129. The sharp wave, thus led into the.secondary 115 of the tmànsfimeter 1R9, turns on the valve 108 which then lets the current flow - oe; detained
 EMI21.4
 the remaining part of the pericode of the applied voltage.

   The sharp wave induced in the secondary 147 of the transformer 129 ignited the valve again.
 EMI21.5
 136 by exceeding its polarization potential and a negative pilarization voltage having a high value, a-G greater than the maximum value of the poim wave supplied by the truls'OrynatOur 86, is again applied to the grid 1 of the valve 127, stopping the latter, so that alla no longer leads until the valve 13t is again switched by the opening and the nerve of the switch 146 00 :: hne Already, indicates above, the degnasi, ga of the control potential of the sharp wave transformer 8b can% be shifted by acting on the value of resistor 87 introduced into the phase shift circuit 150g1. It goes without saying that the setting can also be obtained by a; lsaa.nt on the value of the aYpr.citd of the circuit.



  The circuit of Îié1h86u * Ù trr. to which the transformer is connected 1, the supply vouroo, is used with a view to shifting the anode tan-% ion of the valve 121 forward: -. Nt with respect to the voltage of the valve 108, and in order to thus obtain an appropriate control voltage at the desired range for allw: .or the valve 106. if one applies to the grid of the

 <Desc / Clms Page number 22>

 valve 108 a DC bias potential as in Fig. 5. the wave
 EMI22.1
 pointed produced df> 1J.s the coil Es of the transformer 6u, can be applied directly to the grid of 1.valve for the cO: '1: 1 \,; ter, and the sstÈ1! 1le of IF .

   Fig.6 works in the same way as that of the Fi; 1 It goes without saying that the valve M7 can be incorporated in the circuit of th e dj capacitor ll and that the sharp wave obtained during the charging of the condS1sateÙ.r , can be taken in place of the sharp wave ootS1'Ue during the decnarge thereof, as indicated above.



   When welding is carried out with pulses which during a
 EMI22.2
 alternation or less than an alternation, it is necessary to adjust the pressure of the welding electrodes to a considerable extent. The welding is carried out so quickly that the melting of the metal reduces the effective pressure and that stretches may occur at the electrodes, the resulting pressure then being insufficient *
When the welding time is reduced to below half a
 EMI22.3
 alternation, ori can obtain good welds even with stainless steel, since its color change being reduced to a minimum, the surface of the metal does not have time to reach a high enough taiiperatura to act on the qv lities of the metal obtained by treated him theaniqua prealrole of metal.

   Any such device has been known to reduce the anti-corrosive properties of the flood-prone steel, and the circuits described above are able to avoid this drawback. The high welding speed also offers the invention of reducing the oxidation of the metal, the chipping function and the distortion or deformation of the metal. It goes without saying that it is not possible to achieve, using mechanical devices such short durations and that only devices with
 EMI22.4
 valve allow to perform the welds as quickly. k1 will further note that the duration of electric valves is much greater than that of any electric contact operating under these conditions and that the re-
 EMI22.5
 glagex are very repetitive.



  By explaining the operation of the above device, it has been assumed that the valves were of sheet metal, discharge with zero gate characteristic, which means that, for this type of valve, the conductivity is established when the grid is at zero potential with respect to the cathode. However, tubes with positive or negative grid characteristics can be used.

 <Desc / Clms Page number 23>

 even use valves other than arc-shaped relief valves.



   From the point of view of their particular characteristics, and in particular of the possible flow rates, it is preferable to use valves of the discharge type to switch the secondary of the series 1 transformer and to regulate the alternator circuit.
 EMI23.1
 Link that to me 81 planent describes the application of the system to soldering circuits, one must not lose sight of the multiple applications can result from the mimes means and the same operating mechanism the devices described being able to be applied to all circuits in which it is desired to determine with precision the periods of passage of the current in relation to the periods of extinction.



   The above description has moreover been limited to two examples, but it goes without saying that all variants having the same principle and the same object as the arrangements indicated above, would come within the scope of the invention as they do *
We can, for example, use other forms of alternator circuits supplying an asymmetrical potential, the alternations of which determine the relative durations of the conductivity and the stoppage of the valves 2: we can eliminate the intermediate valves, etc ...



   -; - R E SDL E -: -
 EMI23.2
 ljârfûctiG = * nO "ts auc'conjoote.rs-electric circuit breakers intended to close circuits of consumption of electric energy for adjustable times, greater than, equal to or less than one alternation of
 EMI23.3
 raat altematit for example.



  .JquipewC'1te oomportant several discharge devices, including a main for example and one or more auxiliaries, acting on the potential
 EMI23.4
 Grill tiel * of the early Cornnands of III grid by compound potential C, comprising a continuous omnposant and an alternate coapostate, both being adjustable and the alternating UOlUpOSltUte being shifted forward one aagle Less than 0.



  Application of additional "qulpam8l1t8 operating in alternlus" and # glusaràt on the * 00- grids: vàomdo of the above discharge devices,

 <Desc / Clms Page number 24>

 
 EMI24.1
 in tut and 46nftllb182 'the frequency 4 pulses will leave you, their durttt and those ofi il1'1 "I'aI * 1.¯' 4u C8UNl1.



  Beyttït psnuettant non 8¯-811 'and pass, in the course of a blll * bl811 ae bomnm m nomDrs detemisi d'tIttmmcM du courmt dealimimta- tim -1a te toooee9 nt ie supper the C8Uft8' of 8ouA ... * the mlmh instant * by 1% Yw * #% am l8Iub't ... te 0 "'" aitemattü.



  Hoylos pomb% imi perform 1 "allocation of the main de-luxus device at any time of 19% positive, by the e <6npow <m- te aU.m8U" "and then reduce the continuous polarization in order to maintain the discharge at the end of this alternation-
Application of the provisions of the invention to resistance welding equipment