CH282770A - Accounting machine. - Google Patents

Description

  

  Accounting machine. The present invention relates to an accounting machine.



  In many companies, it is desirable that each transaction or transaction be printed on each of several detachable portions of a record sheet, so that each of the parties interested in the transaction has an original and authentic document. identical of said transaction, and the general aim of the present invention is to obtain an accounting machine allowing the production of such identical documents, and which requires only a minimum number of movements of various mechanisms, so as to avoid unnecessary wear of these.



  In this. Indeed, the accounting machine which is the subject of the invention comprises a movable carriage intended to carry a recording medium, tabulation members of the carriage in various column positions, a certain number of totalisers, drivers for the totalisers , selective clutching devices for the totalizers, printing units, recording units and automatic repeating devices, this machine being characterized in that the automatic repeating devices include organs specific to .

   cause one of the totalisers to remain in constant engagement with the trainers, after an impression is made in a first column, during each of a number of successive impressions included in a complete series of impressions, by members such as said totalizer control the draggers and the hanging printing members. these successive impressions, so as to carry out repeated impressions in each of a certain number of different columns, and by disengaging devices for the totalizer, acting, when the last impression of a series has been recorded in a last column, to disengage the totalizer.



  The accompanying drawing shows, by way of example, an embodiment of the ma eliine subject. of the invention.



       Fig. 1 is a cross section, on the right side of the machine, just to the right of one of the rows of upright keys, with the assembly of this row and the corresponding mechanism.



       Fig. 2 is a side elevation, as seen on the left side of the machine, with a row of control keys and associated operating mechanisms.



       Fig. 3 is a detailed view of a mechanism for transferring totals between a balance key N 1 and a totalizer N 3.



       Fig. 4 is. a detailed view of part of a mechanism for controlling zero stop pawls in repeating operations.



       Fig. 5 is a right-hand elevation showing in particular a mechanism intended to give the primary impetus to the operations of the machine, and part of the main motor mechanism of said machine.



       Fig. 6 is. a detailed view of part of the trigger mechanism shown in FIG. 5.



       Fig. 7 is a detailed view of one of the release members of the machine and said release lever associated with it to trigger the automatic operation of the machine on movement of the mobile carriage in one of the predetermined columns.



       Fig. 8 is a left elevation, in enlargement, of a portion of the control mechanism of the functions of the totalizer N 3.



       Fig. 9 is a detailed view of a symbol printing sector and part of a link system for positioning it.



       Fig. 10 is a facsimile of a coin account bearing several detachable or separable portions each containing identical impressions for each transaction or business operation. Built <I> and </I> mobile cart.



  The frame of the machine shown comprises a right main flange 20 (fig. 5) and a left main flange 21 (fig. 1 and 2) held fixed and parallel to each other by means of a base (not shown) and various frames, bars and transverse rods.



  Attached to the rear ends of the main flanges 20 and 21 is a totalizer frame 22 which supports totalizers Nos. 1 and 2, and an analog totalizer frame 24 normally supporting totalizers N 5 3 and 4; however, in the present embodiment, the totalizer N 4 is not used.



  The machine frame and the mechanism supported by it are enclosed in a box 25 (Fig. 1) which in turn supports horizontal rails 26 and 27 spaced apart and supporting a movable carriage 28. The front rail 26 has a horizontal groove for receiving rollers mounted on the front portion of the carriage frame. movable 28, while the rear rail 27 has an angular-shaped rolling groove cut in its upper part and intended to receive bearings. balls that cooperate.

    with a similar running groove cut into an accompanying rail 30, fixed to the rear part of the carriage frame. movable 28. The movable carriage 28 is maintained in the correct position with respect to the rails 26, '7 and 30 by means of a shoulder oriented downwards and formed on the rail 27 (FIG. 1)., via d'er, - ots 31 Only one \ of them is represented here)

   attached to an angular bar 32 which is, in turn, attached to a polished surface of the. lower part of the carriage frame 28.



  Rotating in the biti of the mobile cart 28 is a paper holder roll 33 intended to present the writing material such as, for example, the account shown in FIG. 10, in front of it a number of printing sectors 34 (fi $ '. 1) which, through the intermediary of a two-color ink ribbon of the conventional type (not shown). print an entry corresponding to each transaction on said entry material.



  The movable carriage 28 is drawn to the left, or in the tab direction, by means of a conventional type drive tape (not shown) operating. in conjunction with a spring-actuated coil (not shown). Devices actuated by motor and operating automatically when the carriage. comes to the end of its movement in the tab direction are, intended to return the carriage to. its starting position or at. another intermediate position, if desired.



  Removably mounted to the front of the carriage frame 28 (Fig. 1) is a bar 35 which adjustably supports a number of tabs 36 placed on the. bar 35 based on the column spacing of the type of marking material used in the proposed commercial system.

    When changing documents, bar 35 and any tabs 36 placed on it can all be removed from the machine together, and a similar bar including the necessary number of tabs 36, suitably spaced, can. be quickly put in its place, so as to determine the new setting of columns on said; document.



  Tabulators 36 are. provided with stops (him, in conjunction with usual tabulation stop bars (not shown), clamp the columnar positions of the movable carriage both in the tabulation direction and in the tabulation direction. direction of return.

   Likewise, tabulators 36 are provided with spaced control bosses which, in conjunction with corresponding levers, control. the functions of addition of the totalizers N 5 1 and the function of subtraction of the totalizer N "1 and, in the present embodiment of the machine, a specially concise tabulator is provided for causing the operation. automatic machine, as will be explained later.



       JIe-cavisme cl'cratrcaîrzerüerrt <I> of the, </I> machine. The machine is driven by an electric motor of the conventional start-stop type (not shown) which is connected to the main shaft of the machine by a clutch mechanism, the motor being started and the mechanism shifting. Clutch made effective in ordinary operations, by means of a main starting bar 37 (fig. 5) or by means of a driving bar t: uxiliary vertical feed 38.

   The starter bar 37 includes two downwardly oriented arms which pass through. through openings made in a top plate 39 of the keyboard, fixed to the main flanges '0 and' 1, and the rod of the vertical feed bar 38 passes, in a similar manner, through a hole made in said plate 39. The lower end of the bar 37 has two aligned notches which act in relation with rollers mounted on lugs -10 and 41 carried by the right flange 20, in order to allow the start bar 37 can be pressed.

      The rear arm of the bar 37 carries a lug q'qui cooperates with a finger. -13 of a free bracket 44 on a pin 45 fixed to the right flange '30. A spring 46, stretched between a finger turned towards the bottom of the caliper .14 and the lug 40, acts on said caliper and. on the finger -13, so as to. turn them in the senestrorsum direction, as seen in fig. 5, key to keep the bar 37 in its upper position shown.

   The bracket 4-1 has an arm extending forward and to which is pivotally connected a hook -17 comprising two stepped shoulders 48 and -19 which cooperate with a curved lug 50 of a mounted bolt 51. crazy on a pin 52 secured to the right flange 20.



  A spring 53 (fig. 5), stretched between the latch 51 and the hook -17, forces these parts to turn in the dextrorsum direction, so that, normally, the hook is held in a removable manner in relation to the ear 50 and that the latch 51 is. engaged with a bent lug 5-l of a lever 55 (see also fig. 6) freely mounted on a hub 56 of a control plate 57, said hub being able to turn on a shaft 58 which itself rotates in the general frame of the machine.

   A spring 59, stretched between the lever 55 and the plate 57, brings these two parts towards each other, so that, normally, the on opposite faces of an extension of said plate and of an extension 60 of the lever are kept engaged with corresponding extensions of a lug 61 which is fixed to a downward extension of an angled lever 62 mounted loosely on the lug 40.



  When pushing in the drive bar 37 (fig. 5 and 6), the lug 42 swings the bracket -11 in the dextrorsum direction, which raises the hook. 47 and thereby forces the stepped shoulder 48, in cooperation with the lug 50, to tilt the latch 51 in the senestrorsum direction against the action of the spring 53, which releases the tooth of the latch from the latch. ear 54 and releases lever 55.

   A rod 65 connects the lever 55 to a return 63 mounted idle on a main shaft 64 which is journaled in the frame of the machine; the release of the lever 55 then allows the spring 84 to tilt the return 63 and said lever in the dextrorsum direction. This movement of the lever 55 causes the extension 60, via the lug 61, to tilt the angled lever 62 in the senestorsum direction. Therefore, a lug 66, carried by this lever, in cooperation with.

   an upward extension of a three-arm lever 67, mounted idle on a lug 68 secured to the right-hand flange 20, causes said lever to switch in the dextrorsal direction, which brings about a lug. 69 of a downward extension of the latter to be released from a shoulder 70 carried by a jam release arm 71 mounted crazy on a lug 72 carried by the flange 20. The arm 71, under the 'action of a mobile device (not shown), tilts in the senestorsum direction, which, through the intermediary of a connecting rod 73, acts on the clutch (not shown) and simultaneously on a contact which controls the electric motor.



  The drive motor is connected by a connecting rod 74 (fig. 5) to an arm 75 attached to the main shaft 64 which, by these parts, first oscillates in the senestrorsum direction, then the ra leads to its normal position. , at an angle of about 60, thus performing a cycle of operations. The arm 75 carries a roller 76 which co-operates with a slot 77 of an arm 78 attached to the right end of a shaft 79 rotating in the main flanges 20 and 21.

   The oscillation of the arm 75 first in the senestrorsum direction, then back to. its normal position (fig. 5), forces the roller 76, in cooperation with the slot 77, to tilt the arm 78 and the shaft 79 first in the senestorsuin direction, then return to their normal position, as it can be seen in fig. 5.



  Towards the end of the initial movement in the senestorsum direction of the main shaft 64 (fig. 5 and 6), a pin 80, of an elbow lever 81 attached to said shaft, comes into contact with a finger 82 and returns the lever 55 in the senestrorsum direction against the action of the spring 84, so as to bring the lug 54 under the tooth of the latch 51 which, under the influence of the spring 53, returns said lug and the parts to the original position. Towards the end of the return movement in the dextrol direction: shaft 64 suln.

    a cam of the clutch mechanism (not shown) brings the connecting rod 73 and the arm 71 rearward, which brings the shoulder 70 beyond the lug 69; then, a spring 83 tensioned between the levers 55 and 62 returns the lever 67 in the senestrorsum direction and the lug 69 on the path of said shoulder 70, thus holding the arm 71 and the related parts in the initial position. The depression of the vertical drive bar 38 (flg. 5) acts on the starting bar 37, which starts the machine, in exactly the same way as has been explained above.

           Mechanism <I> of </I> raon-repetitiora. A mechanism has been provided to prevent the machine from repeating operations in the event that the urn of bars 37 or 38 is still inserted at the end of the operating cycle. The control plate 57 (FIG. 5) has a curved portion 86 which surrounds a beak 87 of the hook. 47, and since the plate 57 is movably connected to the lever 5: 5 by the spring 59, the parts move. in appearance when the lever 55 is released under the influence of the spring 84, after the driving bar 37 has been pushed in, as explained above.

    The initial movement, in the dextror- sum direction, of the plate 57 forces the recurved portion 86, in cooperation with the spout <B> 8î, </B> moving hook 47 rearward after latch 51 has been released from lug 54, thereby removing step shoulder # 48 from lug 50.

   This allows the spring 53 to drive immediately. the latch 51 in the dextrorsum direction, until the lug 50 comes into contact with the shoulder 49 and forces the tooth of the latch to come into the path of the lug 54 of the lever 55, so that the bar 37 or 38 depressed or not, the latch 51 will always act so as to engage with the lug 54 and to maintain the lever 55 in the original position to prevent the repetition of the operation of the machine.

        When you let go of the driving bar 37 or 38, the spring -16 (fig. 5) returns the caliper 44 in the senestroi direction: 5um and, in <i> same </I> time, ra leads the drive bar 37 or 38 towards the binder s and moves the hook 4-7 down,

   so that the shoulder 49 disengages from the ear 50 and (read the ellatllelllellt 48 engages the ear for a new movement of (l ('1 (' tl ('heiTl vint. <I>: Setting r </I> rt rltarche antontatic <I> of the </I> machine by <I> the </I> mobile cart.



       A mechanism allows the mobile trolley, when it moves from one column position to another, (to start automatically the machine, which makes it possible to speed up the operation in commercial enterprises oit each transaction requires a series of operations.



  1: n plus the normal tabs 36 (fi <,. 1) mounted on the bar 3: 5, the machine is. provided with a series of machine release tabs 88 (Figs. 5 and 7) adjustably mounted on bar 35 with respect to predetermined column positions where it is desired that the machine works automatically.

   Each cleat (the eoininande 88 carries a flexible tongue S!) (Tlli agil. <'1T bond with a must 90 pro-lawi ", eaTit towards the binder of a lever <B> 91 </B> supported <B> (the </B> so as to turn on Him lug 92 a.5 subject to. a spacer 367. The lever 91 is connected by a connecting rod 93 to a lever 94 (fig. 5) mounted idle at 95 on the flange 20.

   Mobile on the lever 9-1 is Lin finger 96 presenting (the elongated slots which come to engage siir the lug 95 and ml lug 9 7 secured to Lin extended forwardly of said lever 94.

   A spring 85 actuates the lever 91- in the dextrorsum direction, so as to maintain a movable gear with a stop disc. 121 rotating on a fixed lug of the flange '0, so that, normally, the finger 90 is maintained in the path of the tongue 89.

    the anterior end of (law -,), t <B> 96 </B> is located <B>; </B> above a lug 98 (fi g. 5 and 6) of a lever 99 mounted loosely on lug -15 and. comprising, connected (the pivoting manner at its anterior end, a hook 100 similar in all points to hook 47 (fig. 5). Hook 100 has two shoulders, similar to shoulders 48 and 49, which are normally maintained in cooperation with the lug 50 of the latch 51 by a spring 101 stretched between said latch and the hook 100.



  The tabulation movement of the movable carriage to the left, as seen in fig. 7, forces a ramp from the. tongue 89, in cooperation with the finger 90, to rock the lever 91 in the senestrorsum direction, so as to lift the connecting rod 93, which in turn also causes the lever 94 to swing in the senestrorsum direction (fig. 5).

   The lever 94 drives the finger 96 in the same direction by the same movement, which causes the anterior extension of the finger, in cooperation with the lug 98 (fig. 5 and 6), to tilt the lever 99 in the direction. dextrorsum, so as to raise the hook 100. The lifting of the hook 100 brings up its shoulder. on the right, in cooperation with the lug 50, to silence the lock 51 and release it from the lug 54, which starts the machine, exactly the same way as with the start bars 37 and 38 (fis. 5).

   The hook 100 has an extension 102 directed downwards, which cooperates with the curved portion 86 of the plate 57, exactly in the same way as for the hook 47, in order to prevent any repeated operation of the machine inadvertently, at the same time. case where one of the bars 37 or 38 would be kept pressed at the end. of a machine operation.



  A 1-1-1 extension of finger 96 (fig. 5 <B>) </B> emerges through an opening in keyboard plate 39, which provides a means of moving finger 96 rearwardly from the position shown, so that the anterior end of the finger is out of the way. of the lug 98, with a view to rendering inoperative the mechanism for starting the machine whenever desired.

   When the mobile cart returns to its starting position, or to the right, as seen in fig. 7, the flexible tongue 89 passes the finger 90 without tilting the lever 91, which prevents the automatic operation of the machine in these circumstances. As explained above, as many tabs 88 can be placed on the bar 35 as desired with respect to positions of the columns of the movable carriage determined in advance, so that the tabulation movement of the movable carriage towards said positions puts starts the machine automatically.

           Trigger <I> of </I> the machine by <I> the </I> keys <I> of </I> command.



  In addition to the drive bars 37 and 38 and the automatic means of starting the machine controlled by the moving trolley, this starting can also be controlled by certain control or command keys placed at the left end of the keyboard. , keys which are motor.



  The control keys include a Recall 103 key (fig. 2), Soot Subtotal Balance 101 key, a Balance 105 key, a Credit Balance 106 key, a Total N 2 key 107, a Subtract N 3 key 108, a Subtract key N 1 109, a Subtotal key 110 and a Non-add key 111. The control keys are mounted on the left flange 21, so that they can be depressed.

   With the exception of the key 108, the reduced upper ends of all the control keys pass through corresponding slots in an upper plate 112 fixed to the left flange 21. and the lower ends of said keys pass through corresponding slots in a fixed angle 113. to the left flange 21, so that said keys are mounted in a push-fit manner. Each of the control keys, except key 108, includes a corresponding compressible spring 114 which surrounds the lower end of its shank; these springs have the task of pushing said keys upwards, so as to maintain them normally. in a non-depressed position, as seen here.



  The Subtraction key N 3 108 (fig. 2 and 8) is mounted in a press-fit manner on a plate 115 secured to the left flange 21 by means of a slot in its upper end, in cooperation with a lug 116 fixed to the plate and. by means of a lug 117 fixed to the lower end of the key 108, in cooperation with a corresponding slot of the plate 11.5. 1? N spring 118, stretched between the lug 117 and a latch 119 for the key 108, actuates the key upwards, so as to. keep it normally in the non-depressed position, as seen here. The latch 119 pivots on a lug 120 of the plate <B> 115. </B>



  The depression of the. Balance key 105 (fig. 2) brings a notch 122, made in its front edge, in front of a bracket made on the upper end of a lock 123 pivoting on a lug with nut 121 of the flange 21. This delivers the latch 123 to the action of a spring 125 which immediately drives the latch in the dextrorsal direction, which forces the square of its upper end, in cooperation with an extension 1.26 of a bar 127, to, move this forward.

   The bar 127 is mobile thanks to an arm <B> 11228 </B> (fig. 2) pivoting on the flange 21 and. by means of a slot made in its front end in cooperation with a lug 129 of an arm (not shown), said. arm being in turn pivotally connected to the flange 21.



  The forward movement of the bar <B> 127 </B> (Fig. 2) brings a lug 130 of its anterior end, in cooperation with]. 'Slotted upper end of a lever 131 mounted idly on a lug 132, to tilt said lever in the direction dext. rorsum. This movement of the lever 131, thanks to a slot made in its lower end and cooperating with a lug 1.33 of a left arm 131 of a bracket 135 mounted crazy .sur a shaft 136 which rotates in the flanges 20 and.

   21, switches said caliper in the senestrorsum direction. This movement of the stirrup <B> 135 </B> (fig. 5 and 6 <B>) </B>, thanks to a lug 137 of his right arm 138, in cooperation with a slot made in the lower end of a lever 139 mounted loose on lug 52, switches the lever in the senestror direction:

  sanr, which causes an extension towards the rear thereof, in cooperation with a lug 140 of the lower end of the lever 99, to tilt the said lever and to raise the hook 100, which disengages the latch 51 from the ear 54 and sets the riiarliin in niarclie when the balance valve 105 is pushed in (fig. '?).



       Enroneent (the Creator Balance key 106 or Total key # 107 causes bar 127 to move forward in exactly the same way as the Balance 105 key, which triggers the machine. The addition of the Subtotal Balance 1.04 key, thanks to the software links, simultaneously presses the Balance key 105, which puts the machine in May # - che as explained above.



       Locking mechanism <I> (the </I> clechiicheiitrict. A mechanism controlled by the carriage is provided. mobile and intended to block the trigger nié- canisnia when the mobile carriage is. outside of a tabulator, that is, outside of one of its column positions.

   This is intended to prevent machine mishandling which could easily occur when the carriage is not in one of its column positions, since many of the important functions of the machine are controlled by the carriage. when the latter is precisely in one of its column positions.



  Figs. 1, 5 and 6 show, that the tabulators (command 36, which are placed with respect to. Ii, avarice determined column positions, have a boss 36-1 which acts as a link with an extension towards the binder of a lever 365 freely mounted on a screw lug 366 secured to the spacer 367. A leftward extension of the lever 365 is.

    connected by a piano edge 368 to a rod 369 mounted on a shaft 370 which turns the frame of the machine. On this same shaft 370 is also wedged a finger 371, the front point of which cooperates with a lug 373 of a rearward extension of a locking lever <B> 273 </B> trigger mechanism, mounted on the lug 95.

   A torsion spring (not shown) normally turns the lever 373 in the seriestrorsuin direction, so that a roller 374 carried by this lever is normally held above and in the path of a square pin 375, carried by tin control arm 376 mounted loosely on the lug 40. A spring 377 (fi-. <B> 5 </B> and <B> 6) </B> rotates the arm 376 in the dextror- sum direction, so that a portion offset from the lower edge of this lever is maintained in engagement with the upper edge of a rearward extension of the elbow lever 62 .

      When the movable carriage \ 38 is in a column position (Fig. 5), the boss 364, in cooperation with. lever 365, lift it. piano wire 368, so as to tilt the rod 369, the shaft 370 and the finger <B> 371 </B> Clans senestrorsum direction, the locking lever 373 then rotating in the opposite direction, which frees the roller 37.1 sufficiently from the path of the square pin 375 so that, when the lever 55 (fig. 6).

   is left free to the action of the spring 84 as a result of the depression of the drive bars 37 or 38 or any drive control key, the crank lever 62 and the arm 376 are. free (move it so as to start the machine, as explained above. The movement of the arm 376 causes the square pin 375, in cooperation with the roller 374 (fig. 5), to complete the pivoting of the lever locking 373 until it is in an inoperative position without, however, blocking the release movement, in the senestorsum direction, of the arm 376.



  When the movable carriage 28 is not in a column position, the boss 364 is not in a position of cooperation with the upper extension of the lever 365, which releases the locking lever 373 to the action of its res comes out of torsion which immediately makes this arm ba.s- euler in the senestrorsuni direction, so as to bring the roller 374 directly. cry opposite the square lug 375 and block any movement of the arm 376 and the crank lever 62, which prevents the operation of the machine when the mobile carriage is out of column.



  The release tabs 89 (fig. 5 and 7) are located between the positions of the columns of the carriage and act on the lever 91 and the associated mechanisms, so as to release the lever 55 when the mobile carriage moves from one side to the other. column to the next. This release of the lever 55 (FIG. 6) brings the ear 51 beyond the tooth made on the latch 51 which does not re-engage with said ear when it is. released by the movement of the tongue 89 beyond the finger 90 of the lever 91.

   In this case, the lever 55 acts on the angled lever 62 and on the arm 376 in the senestrorsum direction, so as to force the er got square 375 to come into engagement with the roller. <171, and this has the effect of restricting the unlocking movement of the locking lever 373. However, due to the anti-friction nature of the roller 37-1, the movement of the movable carriage to the next column position allows the boss 361 and the associated mechanisms of rocking lever 373 in the dextrorsal direction despite the retaining action exerted therein, thereby allowing release movement of arm 376 and crank lever 62.



  In a variant of the machine shown, the locking lever 373 (fig. 5 and 6) is provided with a square shoulder intended to co-operate with the square lug 375 instead of the roller 371 and, in this case, the friction between the shoulder and the lug is sufficient to prevent the unlocking movement of the lever 373 when the mobile carriage comes to take up a column position. Under these conditions, the release of the lock 51, whether manual or automatic, allows the lug 51 to come under the teeth of the lock, so as to oppose the re-engagement and thus put the mechanism. release in the blocked position.

   A manual device is provided to prevent this position, and this device comprises a return lever 378 (fig. 5 and 6) mounted loosely on the lug 10 and connected by a stud 379 to the angled lever 62. The end lower lever <B> 378 </B> wears a finger. 380 which extends through an opening made in the box 25 of the machine.



  To unlock the release mechanism, the operator grabs. the finger 380 and returns the angled lever 62 in the dextrorsum direction. This movement, by the intermediary of the ergot. 61 (fig. 5 and 6), simultaneously put lever 55 back in place, bringing. thus the ear 51 engages with the. tooth dLi lock 53, the trigger mechanism being alois able to operate.

   Likewise, the movement in the dextrorsum direction of the condé lever 62 and of the arm 376 moves the square lug 377 away from the shoulder of the locking lever 373, which releases this lever, so that it can immediately come into place. in inoperative position.

    After that, the operation of the machine can be triggered in the usual way by etifoneement of one of the driving bars 37 or 38 or of one of the keys (the coniinande. Tovches <I> (the </I> nion.tants <I> and </I> iécanz, # l.es dif <I> f é </I> reit.tiels.



  The machine shown is provided with a certain number of rows of upright keys 112 corresponding to the various decimal orders (FIG. 1), and associated differential mechanisms; since the methods of the different rows are similar in all respects, the description of one of the rows shown here and of its differential mechanism will be sufficient.



  The upright keys 112 of the row chosen as an example (fig. 1) are. movably mounted on a separation plate. corres pondante 113 which, at the same time as the similar separating plates of the other rows of upright keys, that the upper plate 39 and. that the various bars and transverse rods, constitute Him frame of studs of uprights which can be removed from the machine in a single block. A coil spring (not shown) is provided to hold the upright keys 112 in their upper position.

   Each of the upright keys 112 carries a square lug 11-1 at the lower end of its rod, and each of said lugs, with the exception of the lug of the 9 key, cooperates with a corresponding graved ramp 115 of a rack. of uprights 116 movable on a rod 147 in cooperation with a part set back from the front end of the rack 146 and by means of a bar 148 in cooperation with a horizontal slot made in the rear end of the rack, the bar and the rod being, supported by the flanges 20 and 21 of the machine.



  The rack 146 (FIG. 1) has near its center a vertical slot which cooperates with a pin 149 of a segment of reduction arm 150 mounted idly on the main shaft 79. A posterior arm 1.51 of the segment 150 East. connected by a rod 152 to the corresponding printing sector 34, which can rock on the upper end of a corresponding arm 153 mounted idle on a pressure shaft 154 which journals in the flanges 20 and 21.



  Each row of upright keys 1.12 comprises a trigger 155 and a control plate 156 mounted so as to be able to perform horizontal movements between rollers which can turn on journals 1F> 7 fixed on the separation plate 143. The trigger and the plate control are spaced relative to each other and relative to the separation plate 142 by means of washers provided on the journals 1.57. The trigger 155 carries a tooth 158 formed in an opening corresponding to each of the upright keys 142 of the row, each tooth. being arranged so as to co-operate with a lug 159 fixed on the rod 1r ,. corresponding amounts key 142.



  The control plate 156 has a ramp 160 formed in a corresponding opening; with each of the buttons of amounts 1-12 and arranged to cooperate with the corresponding lug 159. A spring 161 stretched between the trigger 155 and the control plate 156 actuates these parts respectively forward and backward, so to maintain the teeth 158 in cooperative relation with the lugs 159 and to maintain the ramps 160 in elastic contact with the lugs.

      The front end of the control plate 156 (fig. 1) cooperates with a curved upward protrusion 162, of a pawl, stop at zero 163, mounted idle on a shaft 16-1 supported by the frame on the keypad. A spring 165, stretched between the pro longement 162 and a lug. of control plate 156, normally maintains these parts in engagement and normally maintains tooth soot formed on an extension. towards the rear of the pawl 163 on the path of a zero stop block 166 carried by the rack 146.



  The depression of any one of the upright keys 142 (fig. 1) forces its lug. 159, in cooperation with an angular ramp formed on the upper rim of the tooth, corresponding 158, to move the thimble 155 backwards, against the action of the spring 161 until the lug 159 has crossed tooth 158, after which the spring 161 returns the trigger forward, thus locking the tooth above the lug and. holding down the key.

   The depression of an upright key 1.12 also forces its lug 159, in cooperation with the corresponding ramp 160, to move the control plate 156 forward, against the action of the spring 161, which causes the switch to tilt. the zero stop ratchet 163 in the senestrorsal direction, so as to disengage its tooth from the block 166 and to release the differential for its positioning movement. Control plate 156 is held in its forward position and, pawl 163 inoperative as long as the upright key is held down by the trigger. <B> 155. </B>



  If we refer to. fig. 1, we see that the rear end of the segment. 150 est. normally held in engagement with the anterior end of a caliper 168 by means of a spring 167. The caliper 168 extends between a left arm 169 and a similar right arm (not shown), which are attached on tree 79.

   The initial movement in the senestrorsum direction of the shaft 79 (fig. 1) and of the caliper 168 activates, by means of the spring 1.67, the segment 150 and the rack of the uprights 146 towards the rear. 'the same movement, until this movement is stopped by the contact of the square pin 144 of the. upright button 14 \ 3 pressed with the corresponding ramp 145 on the rack 146.

   This fixes the rack 146, the segment 150 and, through the link 152, the printing sector 34 depending on the value of the depressed amount key; after which, the arm 153 and the sector 34 are free to carry out the printing movement, in order to record the value of the key pressed on the document carried by the paper holder roll 33. Once the crane 146 and related parts have been brought into position by the depression of the upright keys 142, the main stirrup 168 continues its movement in the senestrorsum direction without interruption, thus tensioning the spring 167.

   The return movement of shaft 79 and caliper 168, near the end of machine operation, forces the caliper to pick up rack 146 and return it forward to its original position. represented.



  According to fig. 1, we notice that there is no corresponding graduated ramp 145 for the square pin 144 at the lower end of the far right upright key or the 9s, and therefore this key has the effect of releasing the stop pawl at zero 163, whereupon the rack 146 is free to move over its full amplitude, that is to say nine notches rearward, to the 9 position, which position is determined. undermined by the engagement of the front wall of the part cut out from below near its front edge with the rod 147.

    In addition and subtraction operations, when no upright key 142 is depressed in the intended row, the zero stop pawl 163 remains in engagement with block 166 and maintains rack 146 in the zero position. . <I> Mechanism of </I> reminder <I> keys. </I>



  The machine shown is provided with a conventional key return mechanism, which always operates at the end of the addition and subtraction operations, in order to move the trigger 155 (fig. 1) backwards, which frees the tooth. 1:58 from the ergot. 159, delivers the pressed key 142 to. the aetion of its spring which immediately brings it back to. its superior position. This releases the control plate 156 to the action of the spring 161 which immediately returns the plate rearward, so as to reset the zero stop pawl 163 in the active position.

   The callback mechanism works at the beginning. total and subtotal operations, so as to release any amount keys inadvertently pressed before the start of such an operation. Likewise, the key return mechanism moves the control plate 156 forward at the same time as the trigger 155 is moved rearward, so as to swing the zero stop pawl 163, in the direction. senestrorsum, up to. its non-operating position, at the start of total operations, so that the rack 146 can freely take its position under the influence of the. corresponding wheel of the selected totalizer.



  The trigger 155 (fig. <B> 1) </B> and control plate 156 include. respectively. ramps 170 and 172 which cooperate with a lug 173 of a return arm 174 fixed to the right end of a shaft 175 which pivots in the frame of the keyboard. Attached to the left end of the shaft 177 (fig. 4) is an arm 176 which has a slot intended to receive a lug. <B> 177 </B> an extension oriented towards the top of a slide <B> 178 </B> key recall, mounted so that it can move horizontally thanks to. slots which are made therein, in cooperation with journals fixed to the left flange 21.

   The slide 178 supports, in a pivoting manner, a key return pawl 179, actuated in the senestorsuin direction by a torsion spring 207, so as to remain in engagement with a roller 180 carried by a disc 181, secured to. left end of main shaft 64.



  The initial movement in the dextror- suine direction of the shaft 64 and the disc 181 (fig. 4) forces the roller 180, first to. cross a cro chet. formed on the rear end of the pawl 179.

   The return movement in the opposite direction of the shaft 61 and the disc 181 causes the roller 180 to engage the hook of the pawl 179 and to move the pawl and the slide 178 rearwards so as to tilt. the arm 176 and the shaft 175 in the dextrorsum direction. This movement of the shaft 175 and of the arm 171 (FIG. 1) forces the lug 173, in cooperation with the ramp 170, to move the trigger 155 rearward, against the action of the spring 161, and to . clear the tooth. 158 of the ergot. 159 of the depressed upright key 112, thus leaving the key free to undergo the action of its spring, which immediately returns it upwards to its normal position.



  The senestrorsuni movement of the arm 171 (Fig. 1) forces the lug 173, in cooperation with the ramp 172 of the control plate 156, to move the. plate forward, against the action of spring 161, which causes the zero stop pawl 163 to swing to its inactive position. This movement. from the pawl to. zero 163 is, in the operations of addition and subtraction, unimportant, given that it occurs at. the end of such operations, but it is necessary in the operations of total, when it operates at a different rate, as we will see.



  When the slide 178 (Fig. 1) reaches the end of its rearward movement, an upward extension 182 of the pawl 179 comes. meshed with a fixed lug 183 and. rocks the pawl until it disengages from the roller 180, thus allowing the slide to be returned forward to its normal position under the influence of the spring. The slider 178 is operatively linked with the Recall key 103 (Fig. 2), so that pressing down on said key moves the slider backwards and releases the pressed my key, exactly. of the. same way as previously explained.



  In non-addition operations, the amount keys are used to dial numbers to be printed on the document, and in such operations the key recall mechanism operates exactly as explained in connection with the amount operations. addition and subtraction and frees the pressed amount keys.



  As indicated previously, it is necessary that the mechanism for recalling the amount keys and stop at zero operate at the start of total operations, so that the dark amount keys are inadvertently released and that they are switched off. stop pawls at zero.

   The Sub-total Balance key 10.1 (fig. 2) includes a lock 181, similar to the lock 12 3 of the Balance key 105, and pivoting on a screw lug 185 of the left flange 21;

    pivotally connected to the lower end of latch 181 is the front end of a bar 186 (fig. \ and, 1) carrying a lug 187 which sits below a shank 188 of a return pawl 189, pivoting on a downward extension of the slideway 178, the pawl being actuated by the torsion spring 207 which tends to cause the engagement of a notch 190 thereof with a fixed roller 191 at the lower end of a lever 192 pivoting on a lug 193 of the flange 21. A spring 191 actuates the lever 192 in the senestrorsuni direction, so as to normally maintain a ramp 195 thereof in engagement with a roller 196 carried by the disc 181.

   A spring 197 (Fig. 1), which is strong enough to overcome the action of the torsion spring 207, actuates the bar 186 in the dextrorsal direction, so as to normally maintain a lug 198 carried by the latter in contact with a total control lever <B> 199 </B> (fig. 2) of the totalizer N 1.



  While the bar 186 is maintained in its high position, as seen in the thread. 1, the lug 187, in cooperation with the tail 188, maintains. the notch 190 released in relation. to the roller 191, so that under normal conditions, the pawl 189 has no effect on the return movement of the slide 178.

   As explained above, pressing the Balance key 105 (fig. 2) brings the notch 122 opposite the square of the lock 123, on which the spring 125 causes the latter to tilt in the dextrorsum direction, causing a lug 200 of its lower end, in cooperation with an edge of the lever 199, to cause the lever to tilt in the dextrorsum direction. This movement, thanks to the lug 198, causes the bar 186 to swing in the senestorsum direction, removing the lug 187 from the tail 188, in order to allow the torsion spring 207 to rotate the pawl 189 in the dextrorsum direction and d 'bring the notch 190 into engagement with the roller 19l ..



       Immediately after notch 190 engages the roller <B> 191, </B> the shaft 64 and the disc 181 begin their initial movement in the dextrorsuin direction (fig. 4). This movement forces the roller 196, in cooperation with the.

   ramp 195, also to tilt lever 192 in the same direction, which in turn moves eliquet 189 and slide 178 backwards, thus tilting shaft 175 and arm 174 in the senestrorsum direction (fig. 1), so as to move the detents 155 rearward and release all the pressed upright keys, while simultaneously moving the control plates 156 forward, so as to swing the pawls d. 'stop at zero 163, so that they disengage from the blocks 166, thus freeing the racks 146 which can then be put into position under the influence of the wheels of the selected talisator. <I> Key lock </I> amounts.



  Towards the start of machine operation, a key lock trigger .201 (fig. 1), which is located next to thimble 155 and which is mounted so that it can move horizontally between rollers carried by the lugs 157, is moved rearward, of. so as to bring teeth 202, which are formed in openings of this trigger, under the lugs 159 of the upright keys 142 not depressed, so that these said keys are locked and cannot be depressed during that the machine is running.

   The trigger 201 has an upward extension? 03, of which a nose, oriented towards the barrier, is. normally held in engagement with a finger 204 spun in a groove of a rusting worm shaft 205 which journals in the frame of the keyboard, under the action of a spring 206 stretched between the extension 203 and the finger. 204.

      A mechanism, which works at the same time as the triggering mechanism of the machine, communicates a movement in the dextrorsum direction. the shaft 205 (fig. 1), this yes forces the spring 206 to pull the trigger 201 backwards and out. bring the teeth 202 below the lugs 159 of the keys of the uprights 142 not depressed, so that these keys are locked against any depression. during operation. (the machine.

   Towards the end of an operation, the shaft 205 is brought back in the opposite direction, in order to return the trigger 201 towards F forward, to its inoperative position shown in FIG. 1. In total and subtotal operations, the trigger 201 is moved rearward, that is, put into the operating position before the key recall mechanism has been able to operate and leave a key. of any amount be inadvertently pressed before the start. of such an operation.

    In such cases, the spring that recalls any of the keys pressed to. the non-depressed position is strong enough to overcome the action of spring '.306; consequently, the lugs 159 cross the corresponding teeth 202, and these teeth immediately return to their active position under the lugs 159, so as to. oppose the depression of the upright keys. 1lceaitisnte totalizer. As explained previously., The machine shown is provided with three totalizers, two of which are arranged in the form of a vertical pair (fig. 1) located at the rear of the machine. The totalizer N 1 is.

    an addition-subtraction totalizer; the totalizer N 2 is an addition totalizer, while the totalizer N 3 is an addition-subtraction totalizer. The rack 116 of the considered decimal order has, at its rear end, two series of teeth, the upper series cooperating with a corresponding totalizer wheel 209, located on the axis of the totalizer N 1, while the lower series cooperates with a corresponding wheel 210 on the axis of the totalizer N 2.

   Fixed to the rear end of rack 116 is an extension 211, the rear end of which is forked, so as to frame a support bar 212 secured to the totalizer frame 21. The extension 211 has at its upper part a series of teeth which cooperate with a corresponding totalizer wheel? 13 on the axis of the totalizer N 3.

      The totalizer N 3, the clutch mechanism and the associated control mechanisms will be explained generally as being representative of all totalizers, since the mechanisms are similar.



  The wheels 213 (fig. 1) of the totalizer N 3 can. turn on a shaft 211 of the totalizer N 3, supported in a tiltable frame, itself supported by the frame of the totalizers' 2-1. The shaft 211 carries, at its opposite end, rollers (not shown) which <B> g </B> gent in corresponding slots s <B>, </B> #enoa made in cam tracks (not shown) integral with a clutch shaft 215 (fig. 2), journaling in the frame 21.

    Attached to the left end of the shaft 215 is an arm 216 connected by a link 217 to the upper end of a flying lever 218 (see also fig. 8) pivoting on a lug 219 carried by a clutch plate 220 fixed to the main shaft 64.



  The flywheel lever 218 carries a pawl 221 biased in the senestorsum direction by a torsion spring (not shown), so as to be in movable engagement with a stop pin 222 of the lever 218. An extension towards the rear of the pawl. 221 is intended to cooperate with a lug 223 fixed to the plate 220, so as to produce the clutch of the totalizer N 3 at the time of the addition.

   A finger \? 21 extended upwards from the pawl 221 cooperates with a lug 225 of a non-addition control arm 226, mounted loosely on a fixed lug <B> 227. </B> A downward extension of the arm 226 (FIG. 2) has a shoulder 228 which normally is in contact with a latch 229 pivoting at 230 and, connected via a bar 231 to a lever which has a square cooperating with a wise bos tabulators 36 (FIG. 1) which are. placed according to the columns of the mobile cart for which it is desired that the totalizer N 3 be selected for addition operations.



  The lug 225 (fig. 2) of the arm 226 is engaged in a slot made in the upper end of a resetting rod 23 <B> 2 </B>, the lower end of which is articulated to a lever 233 mounted idle on a lug. 231 flanged chi 21. A downward extension of the lever 233 carries a lug 235 which is placed under a bracket of a lever (not shown) similar to the lever 233 and mounted idle on a lug 231, this lever comprising a heel (not shown) which cooperates with an edge 236 of a clutch plate 237, similar to the plate 220, this plate 23 7 being associated with the clutch mechanism provided for the totalizers N s 1 and 2.

      The initial movement in the direction dext.ror- sum of the plates 220 and 237 (fig. 2) causes the ridge 236 to disengage from the heel, so as to. release the lever 233, the connecting rod 232 and the arm 226 to]. The action of a spring 238 which immediately actuates the arm 226 in the se nestrorsum direction until the shoulder 228 comes into contact with the The rear end of the latch 229 when the latter is in the active position and, in this case, the latch would retain the arm 226 in the active position, as shown here.

   When the arm 226 is active, the lug 225 remains in the path of the finger 221 which drags it, when the plate 220 moves, so that the pawl 221 pivots in the dextror- sum direction and moves the extension away. the pawl of the path of the lug 223 and no clutch movement is communicated to the shaft 215 and to the totalizer N 3.

        A non-addition lock (not shown), similar to a non-addition lock 239 (fig. 2) for the totalizer N 2, is provided for the totalizer N 3 and cooperates with a square 240 made on the extension. lower of the arm 226, when the non-addition key 111 is pressed, so as to oppose the movement of the arm 226 in the senestrorsum direction, bringing. thus the totalizer N 3 does not work on addition, as explained above on the subject of lock 229.



       When the carriage 28 (fig. 1) is. in a column position for which it is desired that the totalizer N 3 be selected with a view to an addition operation (first position), the boss of a tabulator, in cooperation with the lever N 3 and the bar 231 (fig. 2), swings the latch 229 in the senestrorsum direction, moving it away from the path of the shoulder 228, which frees the arm 226 and allows it to pivot under the influence of the spring 238, when the lever 233 and the connecting rod \ 332 are released by the initial movement of the plates 220 and 237, as explained above.

    This movement of the arm 226 moves the lug 225 away from the finger 224 and, therefore, the rear extension of the pawl 221 remains in the path of the lug 223. Toward the end of the initial change in the plate 220, the lug 223 engages pawl 221, thereby moving flywheel lever 218 and rod 217 in unison with plate 220, which in turn causes arm 216 and clutch shaft 215 to tilt (fig. 2) in the senestror- sum direction. This movement of the shaft 215 brings the cams attached to it,

   in cooperation with rollers fixed to the shaft of the totalizer N 3, 214 (fig. 1), to tilt it with the frame supporting the totalizer N 3 downwards, so that the wheel 213 is engaged with the teeth of the rack 211, once the rack has completed its initial rearward movement and has been brought into position under the influence of the upright key. 142 depressed. The forward backward movement of rack 146 and extension 211 rotates totalizer wheel 213 in an additive direction, so that the value of the depressed amount key 142 is entered into the totalizer.



  The usual construction of the totalizer clutch mechanism is such that a square stud (not shown) carried by the plate 220 comes into contact with the flywheel lever 218 towards the end of the movement, (the turn of the plate 220 (fig. . 2) and forces the flywheel and rod 217 to move in the same movement, tilting the arm 216 and the shaft. \ 315 in the dextror- sum direction, until they return to their normal position. male and disengaging the wheel 213 from the teeth of the rack 211, after due the rack 146 has completed its return movement forward.

   However, the square nipple has been omitted on the machine control plate 220 shown and, therefore, once the totalizer N 3 is. in engagement with the starters, during the addition, it remains so until it is cleared by a subsequent balance or total transaction, as will be explained later.

   Towards the end of the return movement, in the senestorsum direction, of the plates 220 and 237 (fig. 2), the ridge 236 causes the heel (not shown) to tilt the lever 233 in the dextrorsum direction, which, by means of the connecting rod 232, returns the arm 226 in the same direction against the action of the spring 238, to the position of lion-addition shown here, a position in which the shoulder ment 228 is slightly beyond the rear end of the lock 229, so that the latter can move freely and, come on the path of the shoulders, when the mobile elia- riot surrenders.

   to another column position.



  The totalizers N s 1 and 2 are provided with a rebray mechanism similar in all points of view to that which has just been described for the totalizer N 3, with a view to controlling the addition operations and non-addition which are made there.



  As explained above, the registration document used in the machine comprises three identical portions (FIG. 10) corresponding to at least three positions of the columns of the mobile carriage. In the first of three consecutive operations of each transaction, the transaction is processed in the ordinary way, in other words an amount.

    is composed on the amount keys according to the usual procedure and, if this amount is that of a debit which must be added, the insertion of a driving bar brings up the corresponding addition boss, placed on the tabula;

            teur (the, the first column, and the corre sponding lever activates the addition lock N 1 which selects the totalizer N 1 for the addition, If the amount is a credit which must be subtracted, the Subtraction key N 1 <B> 109 </B> is depressed before the drive bar is depressed and, since a subtraction operation overrides an addition operation initiated by the moving cart, the N 1 totalizer or balance totalizer is , stopped for subtraction.

   In either case, during the first operation, the totalizer N 3 which was previously reset to zero is selected for an addition operation, thanks to the addition boss, to the bar lever. and the corresponding lock 229. (fig. 2), and when the positive or negative amount is entered into totalizer N 1, this amount is simultaneously added additively to totalizer N 3.



  The forward movement of the link <B> 217 </B> (fig. 2), to engage the totalizer N 3 during the addition period, requires a lug 243 which is attached to it, in cooperation with a tent made in the upper end of an arm 2 -14, mounted idle on lug 234, to tilt this arm in the dextror- sum direction. The arm 24-1 carries a lug. 2.15 which itself is. articulated to a connecting rod 246 which presents, near (its front end, a slot freely engaging on a collar, made in a lug.

   247, carried by the left flange 21. The movement of the arm 244 pushes the connecting rod 246 forward, thus forcing a ridge 248, in cooperation with the lug 198, to push in the bar 186 (FIG. 4), making . thus the pawl 189 operating for the following operation. In the first operation, the pawl. 179 (fig. 4) works as usual to release the upright keys pressed at the end of the machine operation.



  At the end of the first operation, the mobile cart passes automatically, by tabulation, to the second column, and as it goes, it triggers the automatic operation of the machine, by means of the mechanism shown in fig. 5 and 7 and e @ folded above. In the second of the three successive operations, the totalizers NI '1 and 2 are automatically selected for the. non-addition, and given that the totalizer N 3 remains engaged at the end of the first operation, it is still engaged during the second operation.

   As a result, the ratchet <B> 189 </B> (fig. 4) remains operative and that, at the beginning of the second operation of the machine, it moves the slide 178 backwards, in order to release all the upright keys pressed inadvertently and. at the same time releases the pawls 163 for stopper backwards (fig. 1), so that the racks 146 are free to move backwards at the moment of the initial movement of the caliper <B> 168. </B> The rearward movement of the racks 146 (fig. 1), during the second operation causes the wheels 213 of the totalizer N 3 to turn in the opposite direction, until the wheels are stopped at.

   zero position by the cents of the trigger cams which are fixed therein, when they engage with the corresponding addition transfer triggering pawls, thus putting the racks 1.16 in a position corresponding to the upright. carried in the wheels of the totalizer N 3, amount. which, we will remember, is the one that was originally composed on the upright keys during the first operation.

   The operation of the printing mechanism produces the printing of the exact amount of the first transaction, by repetition on the second portion of the entry document. Totalizer N 3 remains in engagement with the pendant uprights racks. their return movement and, consequently, the amount s 1v is reintroduced, thus ensuring what, in fact, constitutes an automatic subtotal operation.



  It is obvious that the totalizer N 3 can be sub-totalized automatically, as many times as desired, in operations similar to the second operation, so as to obtain as many impressions by repeating the transaction as the desire.



  At the end of the second operation, the mobile elia- riot automatically passes, by tabulation, from the second column position to the third and during. This tabulation, the machine is again triggered for a third automatic operation in which the totalizer N 3 is reset to zero, and the amount which was there is printed in the third part of the accounting document.



  In the third and last operation of the series of three, totalizers Nos. 1 and 2 remain in non-addition, as in the second operation, and totalizer N 3 is selected and put in position for a reset operation, in order to that the amount entered therein be lifted and that it be printed by repetition on the third part of the document.



  The tabulator 36 (fig. 1) for the third column has a boss which cooperates with an upwardly facing portion of a total control lever 2-1.9 (fig. 8) mounted loosely on the lug 366 (fig. 5). , The rear end of lever 2-19 engages in a slot made in the upper part of a bar 250 articulated to a lever 251 mounted idly on a lug 252 fixed to the left flange 21.



  Pivoting on an extension of the lever 251 is a connecting rod 253 having at its front end a lug engaged in a slot 25-1 formed in a clutch control lever 255, which can turn 256 on the flange 21. Un. spring 257 provides a flexible connection between lever 255 and the lug fixed to the front end of link 253, whereby slot 251 allows independent movement of the. rod and parts connected to it, in case for some reason the movement of the lever, \ 355 is prevented.

   A spring 258, attached between the rod '253 and a fixed lug (not shown), pulls the levers 251 and 255 in the senestrorsum direction, so as to bring them normally to the inoperative position, as seen here, which in turn in turn, through the intermediary of the bar 250, normally maintains the lever 219 in the non-depressed position.



  Movement of the movable carriage to its third position lowers lever 219 (fig. 8), which raises bar 250 and causes levers 251 and 255 to tilt dextrorsum against the action of spring 258. The movement <B> says </B> lever 255 forces a lug 259, at its lower end, in cooperation with an edge 260 of a lever 261. mounted idle on the er got 217, to tilt said lever in the same direction.

   Lever 261 carries a spring-actuated release pawl 262 263, so that normally a lug 261 is held in engagement, with a polished surface provided on the lower edge of the lever, '361. The movement of the latter in the senestrorsum direction, during the third operation, brings the upper end of the pawl 263 on the path of the lower end of the flywheel lever 218.



       Since the wheels of the totalizer N 3 are in mesh with the teeth of the upright racks, at the start of the third operation, the initial backward movement of the racks is made. turn these wheels in reverse, until they are. stopped in the zero position, which puts the racks and the corresponding printing sectors in a position corresponding to the value of the amount introduced into the wheels of the totalizer N 3. The subsequent operation of the printing mechanism causes the amount to be. printed again on the third portion of the registration document. During the movement. initial of main shaft 6.1 and.

    of the clutch plate '-120 in the dextrorsum direction (fig. 8), the lower end of the flywheel lever 218 passes through the pawl 962 and, when the shaft and the plate return in the opposite direction, and while the wheels of the totalizer N 3 are at. zero, the lower end of the handwheel lever <B> 218 </B> engages the ratchet. 262, which causes the lever to move in the senestorsum direction with the plate 220, thus moving the link 217 (fig. 2) backwards.

    This causes the shaft 215 to tilt in the dextrorsum direction, so as to disengage the wheels of the totalizer N 3 before the forward return movement of the racks takes place and, consequently, the totalizer wheels N 3. remain at zero at the end of the third operation, ready for a new round of operations.



  The other debits from the same account are added up in the totalizer N 1 and printed by repetition on the three portions of the registration document, as explained above., While the credits are treated in a way which, on the whole , is the same except that they are subtracted from the totalizer N 1 during the first operation.



  After all debits and credits have been entered in the private account, the current procedure is to obtain a new balance by pressing the Balance key 105 (fig. 2), which triggers a series of three operations in the first of which the totalizer N 1 is reset to zero, while the amount which was there is introduced additively and simultaneously into the totalizer Nos 2 and 3.



  Pressing the Balance key 105 (fig. 2) brings its notch 122 in front of the lock. <B> 123, </B> whereupon the spring 125 swings the lock in the dextrorsum direction, so as to move the bar 127 forward, in view of said triggering of the operation of the machine, as explained in FIGS. 2, 5 and 6. The movement of the latch 123 forces the lug 200, in cooperation with an edge formed on the total control lever 199, to tilt this lever so as to cause the clutch to engage or disengage the total. sator N 1 in total operations, as it is. well known.

   The depression of the Balance key 105 (FIGS. 2 and 3) also requires a lug 241, in cooperation with a slot made in the front end of a lever 242 pivoting on a lug. 1261 of the flange 21, to tilt the lever in the dextrorsum direction. This movement forces a rearward extension thereof to lift a bar 266 connected to the front end. an addition control lock N 2, 267, mounted idle on a pin secured to the left flange 21.

   Consequently, when the bar is raised, the latch is tilted in the senestorsuin direction, which moves its extension towards the rear of the path, from a shoulder made on an addition control arm N 2, 268, similar in all respects and operating exactly like the addition control arm 226 (fig. \?) of the totalizer N 3, explained above. This prepares the totalizer N 2 in position for the next addition operation, so that the amount read on the balance totalizer in the first operation is transported to the INT 2 totalizer which is used in the machine shown to accumulate. the net total of balances.



  The Balance key 105 and the other control keys position a sector printing symbols, intended to print at. next to the amount, a character identifying the type of transaction. Usually, recall of the command key at the end of an operation; allows the printing sector to return to its neutral position. In the machine shown, it is preferable that the sector dies in position, so that the character is reprinted on the second and third portion of the document, and a mechanism controlled by the totalizer N 3 is provided at. this effect.



  The depression of the Balance key 105 causes its lower end (fig. 2) to co-operate with an edge 269 made on a sliding part 270 mounted so as to be able to move horizontally through slots which are cut out, and cooperating with lugs 271 of the flange 21, said sliding part moving forward.



  The sliding part 270 is connected by a link 272 (fig. 2 and 9) to a lever 273 wedged on a shaft 274 which journals in the flanges 20 and 21. The shaft 274 also carries an arm 275 connected by a link 276 to an arm 277 pivoting on a fixed lug 278. The arm 277 is connected by a link 279 to a symbol printing sector 280, itself connected to an arm 281, similar to the arm 153 of the printing sector 34 (fig. 1) , and who climbed mad on tree 154.



  The forward movement of the sliding part 270 (Fig. 2 and 9) and of the rod 272 forces the latter to tilt the lever 273, the shaft 274 and the arm 275 in the senestrorsum direction, and. this movement, through the intermediary of the connecting rod 276, the arm 277 and the connecting rod 279, places the printing sector of the symbols 280 in its second position, whereupon subsequent operation of the printing arm 281 brings about sector 280 to be cooperated with the ink ribbon and with the inscription support carried by the paper holder roll. Thus, a symbol is printed (in this case an asterisk),

   symbol characteristic of a balance transaction.



  At the end of the first in a series of three operations, the Balance key 105 is brought back up to its normal position and, under normal conditions, the slider 270 would, at the same time, be returned to its normal position. normal rearward position, as seen in fig. 2; accordingly, the printing sector 280 would also be returned to its normal non-printing position (Fig. 9), but in the machine shown it is desirable that the sector 280 remain in position, so that the printing of the symbol Balance is repeated in the second and third operations; this is obtained by the forward movement of the rod 217 (fig. 2), during the first operation;

   this movement puts the totalizer N 3 in mesh with the mesh sizes for the addition, as explained above.



  Next to the arm 244 (fig. 2), and mounted loose on the lug 234, is a pawl 28, \ '. symbol retainer, which is actuated in the dextrorsal direction by a spring 283, so as to remain in movable engagement with a lug 284, carried by the arm 244. The pawl 282 has, at its lower end, teeth of retainer which cooperate with analogous teeth placed at the periphery of a segment 285 fixed on the symbol tree 274 (see also fig. 9).

   Once the symbol shaft 274 and segment 285 have been brought into position by depressing the Balance key 105 (fig. 2), as explained above, the initial forward movement of the link rod 217 in order to engage the totalizer N 3 with the racks for addition in the first operation, swings the arm 244 in the dextrorsal direction, thus removing the lug 284 chi ratchet 282 and allowing the spring 283 to put the teeth of the pawl .

   meshed with the corresponding teeth of the segment <B> 285, </B> so that the latter, the shaft 274 and the sector printing the symbols are held resiliently in the position chosen at. the end of the first machine operation, and after the Balance key 105 has been released and pulled back up.

   We have seen that the totalizer NO 3 remains in gear during the second and third operation and that in consequence the rod 217 maintains its forward position, which forces the printing sector 280 (fig. 9). to remain in position during the second and third operation and to reprint the symbol during these two operations.

   The rearward release movement of the link 217 (fig. 2) rocks the pawl 282 until it is. disengaged from the teeth of segment 285, allowing segment, symbol tree 274,. sliding part 270 and the other parts connected to it, including the symbol sector 280 (Fig. 9), to be immediately returned to their normal non-printing position.



  The Subtotal Balance 104 key (fig. 2), the Credit Balance key 106, the Total N 2 key 107, the 109 Subtotal key 1 and the 111 key. Non-addition cooperate with the sliding part 270 in exactly the same way as for the. Balance key 105, with a view to positioning the symbol printing sector 280 (fig. 9) with respect to each of them, so that a symbol identifying the type of operation in progress will be found on the registration document.

   In each case, the pawl 282 (fig. 2), in cooperation with the segment 285, retains the symbol sector in the position chosen during the second and. the third operation, and the identification symbol is reprinted on the second and the third part of the registration medium for all the operations in which the totalizer N 3 is engaged with the cranks.

           Operations <I> credit balance. </I> A typical example of an application of the machine shown is that of a wholesaler who sells goods to retailers, said goods being charged to the account of the retailer and appearing as debit items on the statement of payment. account. Likewise, receivables in favor of the retail merchant, eg consisting of account payments, credit for returned goods, etc., appear as credit items on this statement.

   When the claims in favor of the retailer pass. his debts, the result is a credit balance in his favor and, consequently, an overrun in the totalizer N 1, which overrun is signaled to the attention of the operator by the automatic blocking of the Balance key 105 which can no longer be pressed. The usual process, in this case, is to perform a credit balance transaction, whereby the additional, or negative, amount of the credit balance is translated into a positive amount which is recorded on the document in a different color, as will be shown. see.

      When an overrun occurs in the totalizer N 1 or balance totalizer, an overrun axis (not shown), according to a known mechanism, tilts, so that a link 288 (fig. 8) is displaced towards the back.



  The front end of the link 288 (FIG. 8) is articulated to another link 289, the rear end of which is supported by a slot which is made there and which engages on a lug. fixed 290. The front end of the rod 289 is connected to a lock 291 balance key 105 mounted crazy on the lug 12-1 and having, to. its end facing downwards, a square 292 which co-operates with a slot 293 made in the stem of the balance key 105.



  The movement of the link 288 backwards, when an overshoot occurs, moves the link 289 backwards in the same movement, which causes the latch 291 to tilt in the senestrorsum direction. The bracket 292 then engages in the slot 293, as seen in FIG. 8, blocking the balance key 105 against any depression when an overrun occurs.



  The operator then realizes the existence of an overrun when he tries to press the Balance key 105 in order to trigger a balance operation and, in the machine shown, a procedure that is. recommended to follow when discovering an override consists of. manually move the mobile cart to the right to a position outside the colony, a position which is determined by a feeder and in which the totalizer N 3 is not automatically selected for an addition operation, as is the case when the movable carriage is in the first column position.

   While maintaining the mobile carriage in the extreme right position, the operator presses the Subtraction key N 3 108 (fig. 2 and 8), which forces the lug 117 at its lower end, in cooperation with a slot 291 of a lever 295 mounted loosely on the lug 120 to tilt the lever in the dextror- suin direction, this dextrorsum movement of the lever 295 forcing a finger 296 oriented towards the binder, in cooperation with a lug 297 of the connecting rod - letter 289, to move the.

   rod forward, so as to. tilt the lock 291 in the dextrorsnm direction, releasing the bracket 292 from the slot 293 of the key 105, which results in releasing this key.



  The depression of the subtraction key N 3 108 (fig. 8) brings a shoulder 298 of the latter beyond a bracket 299 of the latch 119, thus releasing the latter to the action of a spring. 118 which immediately swings the lock in the dextrorsum direction. It follows that a finger 300 thereof, in cooperation with a lug 301 of the control lever 255, rocks the lever against the action of the springs 257 and 258. The movement of the lever 255 also forces the lug 259. , in cooperation with the edge 260, to tilt the lever 261 in the same direction, bringing the pawl 262 on the path of the lower end of the flywheel lever 218.

   The lever 261 carries a downward extension 302, which cooperates with the upper rim of an engagement lever 303 N 3, mounted loosely on the lug 247. The lever 303 is flexibly connected by a spring 304. , to a clutch pawl 305 N 3, mounted idle on the lug 2-17, said spring normally maintaining a rearward projection of the lever 303 in movable contact with a lug 306 carried by the pawl 305.

   Movement. in the dextrorsum direction of the lever 261 causes, through the intermediary of the extension 302, the lever 303 and the pawl 305 to move together in the dextrorsum direction, which causes the pawl on the path of the lower extension of the lever. steering wheel 218.



  After depressing the key 108 of Subtraction N 3, and while maintaining the movable carriage in its extreme right position, the operator presses the key 105 of Balance, in order to trigger a preliminary operation of the machine, in order to trigger and to prepare the totalizer N 1 for a total operation and, simultaneously, in order to select the totalizer N 2 for an addition operation, by means of the mechanism shown in FIG. 3 and explained above.

   During this time of preliminary machine operation, the initial dextrorsal movement of the main shaft 64 and the clutch plate 220 (fig. 8) forces the lower end of the flywheel lever 218 to come forward. in touch. with the pawl 305, so as to engage the totalizer N 3 previously reset to zero with the upright racks, before. any initial movement of these, this movement bringing them into a position proportional to the amount. the negative balance of totalizer N 1. The amount is entered subtractively into totalizer N 3.

   Prior to the forward return movement of the upright racks, the pawl 262, in cooperation with the lower end of the flying lever 218 (fig. 8), releases the totalizer N 3, so that the effective amount of the negative balance remains in the totalizer N 3.



  From the foregoing explanations, it follows that in the preliminary operation, which is necessary to obtain an effective recording of a credit balance, the balance totalizer is reset to zero and the negative amount which was therein is subtracted from the totalizer N 3 previously reset to zero and added to totalizer N 2; but, being. Since the printing mechanism is rendered inoperative, the result of this preliminary operation is not recorded on the document. This addition of the complementary number in the totalizer N 2 has the effect of subtracting the true negative figure, so as to maintain an exact recording of the new balances.



  At the end of the operation, the operator lets go of the mobile carriage which then goes automatically, fabulating up to the first column position, and the first in the series of three joint operations of a Credit balance trans action, with a view to recording the credit balance amount on the three similar portions of the writing medium, can then be triggered by pressing the Credit balance key 106 (fig. 2).



  The Credit Balance key 106 is. a so-called motor key and, when it is pressed, it brings a notch made in the upper part of its rod on the path of a bracket of a lock 307 which can turn on a journal 308 of the flange 21. The lock 307 is then delivered to the action of a spring 309 which immediately rocks the latch in the dextrorsal direction, which moves the bar 127 forward, thus starting the machine in the manner which has been explained above. of the Balance key 105.

   The movement of the latch 307 in the dextrorsuin direction also requires a lug. 310 (Fig. 2 and 8) carried by him, in cooperation with a ramp 311 of the lever 303, to tilt this lever in the same direction. This lever, in turn, by means of the spring. \ 304, drives the ratchet 305, in the same movement, until the pawl is in the path of the lower end of the flywheel lever 218. The ratchet 305 engages with a lug 312 fixed to the lever 261 and moves the lever and the ratchet 262 in the dextror: sum direction.



  The initial movement in the dext.ror- sUrn (fi-. 8) direction of the main shaft 64 and the clutch plate 220 forces the lower end of the flywheel lever 218 to cooperate with the pawl 305 in order to put the totalizer N 3 in mesh with the racks att start (the first operation and prior to the initial backward movement of the rods. The forward movement of the rod 217 (fig.? ) swings the arm 2-1-1 in the direction dextrorsunr,

      so as to move the connecting rod 246 forwards, as explained previously., which causes the bar 186 (fig. 4) to tilt in the senestroinn direction or downwards, so as to make the cliqijet 189 operating in sight (the movement of the slide 178 rearward at the start of machine operation, thus releasing the stop pawls at zero. The racks 146 are therefore free to move rearward and to be put in place by the wheels of the tota lizer N 3.

   The initial backward movement of the racks 146 causes the wheels of totalizer N 3 to turn in the opposite direction to the zero position, so that the corresponding printing sectors -, are put in position in proportion to the actual amount of the credit balance. , after which the printing mechanism records this actual amount, on the first portion of the document.



  The lug 312 of the lever 261 (fig. 8) also has the role of maintaining a suitable relation between the pawl 305 and the lower end of the flywheel lever 218. This is obtained by means of a ridge 313 made at the part. upper part of lever 261 and which is in contact with a collar 311 of shaft 64, and in this case spring 304 allows lever 303 to move independently or relatively to said lever 261 in the event that it is moved by the lock 307.



  The return movement, in the seirestror: sum direction, of the plate 220 would, under normal conditions, force the lower end of the flywheel lever 218 to engage with the pawl 262 and, as this eliquet is in its usual rigid position, this would bring. the totalizer N 3 to be disengaged prior to the forward return movement, from the racks 1-16; consequently, the wheels of the totalizer N 3 would remain in the zero position, which is not desirable in the particular case envisaged.

   However, in the machine shown, the spring 304, by means of the pawl 305 and the er got 312, constitutes a flexible connection, so that the lower end of the flywheel lever 218 can pass the pawl 262, by it. tilting with the lever 261 and the pawl 305 in the senestrorsuin direction, against the action of the spring 304. This allows. to the wheels of the totalizer N 3 to remain in engagement with the crisscrossers 146 during their return movement, in such a way that said wheels are returned to their initial position, whereby the effective amount of the creditor balance remains on these wheels.



  Towards the end of the first operation, the mobile cart moves automatically by tabulation to the second column position and in doing so triggers an automatic machine operation, similar in all respects to the second operations explained in connection with transactions. debit or credit, causing the subtotal on the totalizer N 3, the reprint of the effective credit balance on the second portion of the registration document.

   At the end of the second operation, the movable carriage moves by tabulation automatically to its third position and, in a third machine operation, which is likewise analogous to. the third operation explained on the occasion of debit and credit transactions, the totalizer N 3 is totaled or reset to zero and the effective negative balance is again printed on the third portion of the document.



  It is desirable that a credit balance transaction identifier symbol be printed next to the inscriptions made on the three portions and this is achieved in the usual manner by the fact that the lower end of the rod of the Credit Balance key 106 (fig. 2 and 9), in cooperation with the corresponding ramp made on the sliding part 270, moves the smoothing part forward by a sufficient amount to bring the sector printing the symbols. boles in a position where the symbol corresponds to a credit balance (CR) transaction

   is written next to the amount. interested on each of the three portions of the document.



  It will be remembered that, in the first of a series of debit registration operations, the totalizer N 1 is selected by the carriage. mobile for an addition operation, so that the amount of the item is accumulated therein. However, in the first of a series of credit balance operations, it is desirable that the balance totalizer does not add, so that the amount of the credit balance is not entered.



  This is obtained by the fact that the movement of the lock 30'7 in the dextrorsal direction, when the Credit Balance key 106 (fig. 2) is pressed, forces the lock, in cooperation with a pin 315 of a connecting rod <B> 316, </B> to move the link towards the rear. The front end of the link 316 has a slot intended to overlap a lug 317 of the lower end of the subtotal latch 181, while the rear end of the. rod 316 is articulated to a lock 318 for non-addition of the totalizer N 1 pivoting on a fixed lug of the flange 21.

   A spring. 319, stretched between a lug of the rod 316 and the lug <B> 31.7 </B> (fig. 2), actuates the link forwards, so as to normally maintain the left part of the slot in flexible engagement with the lug 317, thus ensuring a flexible connection which allows the link 316 to move rearwardly, independently of latch 181. The backward movement of link 316 causes non-addition latch 318 to tilt in the dextrorsuin direction, thus causing a stop shoulder thereof on the path of an addition control arm (not shown) for the totalizer.

   N 1, control arm which is similar in all points to the addition control arm 226 (fig. '?) Provided for the totalizer N 3, so as to oppose the movement in the senestorsum direction of the control arm and not to add in the totalizer N 1 in the operations for which the Credit balance key 106 is. pressed.

           JZecanisine <I> of </I> command of the rtcbait. In the series of three transactions included in a credit balance transaction, it is desirable that all the entries on the three parts of the accounting document be entered in red, so that the credit balance items can be easily distinguished from others. articles.

   This result is obtained by pressing down the Credit balance key 106 (fig.?) Which moves the control axis of a ribbon from its normal position, that is to say from its position of black print at. its printing position in red and, being. given that the control valve is automatically returned from the wheel position to the black position at the end of each machine operation, it is.

   provided for a mechanism which works in conjunction with the clutch mechanism of the totalizer N 3, so as to return the control axis in question from its normal or black position to its red printing position as long as the totalizer N 3 remains in engagement with the racks, so that the three entries of the credit balance are made in a different color.



  The lock 307 (fig. 2) of the Credit balance key.> 106 comprises, fixed at its upper end, a plate 321 presenting a bracket 322 which cooperates with a downwardly oriented projection of a connecting rod 323 guided at using slots formed at each of its ends, in cooperation, respectively, with a lug 324 of the flange 21 and a lug. 325 secured to a curved portion of the top plate 112.

   The connecting rod 323 is articulated at the anterior end of a connecting rod 3 :). 6 whose rear end has a slot which engages with a lug 327 fixed to a downward extension of a reference 328 subject to. the left end of a ribbon control shaft 329, which pivots in a transverse frame 330 fixed between the flanges 20 and 21.



  When the Creator Balance key 106 (fig. 2) is pressed, a movement of the latch 307 and of the plate 321, under the influence of the spring 309, in the direction (lextrorsum, is made possible, as explained previously. ; this movement forces the square 322, in cooperation with the downward extension of the connecting rod 323, to move said connecting rod and the connecting rod 326 forward, which causes the return 328 and the control shaft 329 to tilt in the senestrorsum direction, from its printing position in black, normal position, to its printing position in red.



  An arm 331. is fixed on the clutch shaft 215 of the totalizer N 3 (FIG. 2), an arm on which a finger 332 can move by means of pins 333 and 335 in cooperation with a slot in the arm. rear end of the finger and an L-shaped slit 331 near the anterior end.

   A spring. <B> 336, </B> stretched between the finger. 332 and the arm 331, actuates the finger forwards and in the senestorsum direction, so as to normally maintain the finger in the position shown, in which the upper branch of the L-shaped slot 331 is in alignment with the 'lug 335.



  The initial movement in the senestrorsum direction of shaft 215 (fig. 2) and arm 331, when sub-totaling in the first set of three operations of a credit balance transaction, brings up a tab 337 of the credit balance. finger 332 on the path of the lug 327 of the return 3 <B> 2 </B> 3, et., Since the shaft 215 and the arm 331 remain in the engaged position at the end of the first machine operation, it is obvious that the tongue 337 remains in the path of the lug 327. A well-known mechanism is provided for returning the ringer shaft from the red position to the black position towards the end of each operation.

   This movement. return of the ribbon control shaft 329 (fig. 2) and of the return 328 obliges the lug 327, in cooperation with the tongue 337, to move the finger 332 backwards, against the action of the spring 336 , after which, immediately after the disengagement said mechanism for returning the ribbon shaft 329, the finger 332, under the influence of the spring 336, drives the return 328 and the shaft 329 in the senestrorsum direction (fig. 2) from black position to. the red position, so that in the second transaction of a credit balance transaction, the repeat printing of the credit balance is also done in red.



  Given that the totalizer N 3 dies engaged at. at the end of the second operation, the ribbon is kept in the red printing position and, consequently, the third entry of the credit balance on the third part of the document is made in red. In the third operation, the totalizer N 3 is. disengaged at the time of the total and, consequently, the shaft <B> 2 </B> 15 and the arm 33l are brought back in the dextr orsum direction in the position of FIG. 2, so as to remove the finger 332 said path of the lug 327, so that the ribbon control shaft 329, when returned to position, remains in this normal black printing position. the end of the said operation.

    



  It will be remembered that the writings of creation are also printed in red and that, in such operations, the finger 332 (fig. 2) functions exactly as we have just said above, in order to maintain the tree 329 ribbon control in the red printing position, so that the three credit entries are red. In some cases, it is possible that the clutch shaft 215 of the N 3 totalizer, the arm 331 and the finger 332 are tilted in the senestorsum direction before the lug 327, the return 328 and the shaft 329 of ribbon control have made their movement from the black position to the red position.

   When this occurs, the upper end of the slit in <B> L </B> 334 allows relative movement between the finger 332 and the arm 331, when the tongue <B> 337 </B> comes into contact with the lug 327, and when the latter and the shaft 329 are set to the red position, the spring 336 brings the tongue 337 back into the path of the lug 327, so that the shaft 329 is kept in red print position.

   Likewise, in operations where the ribbon wedge shaft 329 (fig. 2) remains in the black position, the upper branch of the slit 334 in <B> L </B> allows. the finger 332 to pivot relative to the arm 331, and this despite the action of the spring 336, so that the movement is not thwarted. clutch of arm and shaft 215. Example <I> of </I> operation.



  Although the operation of the machine shown emerges from the foregoing description, it will nevertheless be given a brief description of the operation, using as an example the document in three parts, shown in FIG. 10.



  The typical example of use of the machine shown is that of a meat wholesaler who sells meat to a number of retail merchants in a certain locality. The most commonly used method of establishment. account by the majority of meat wholesalers is analogous to that used by department stores for keeping current accounts, except that in the case of wholesalers, account statements are. given every week instead of every month, as is common practice in large stores.



  The daily purchases of meat by each retailer are credited to his account daily in the form of debit items, and credits, in the form of payments and accounts or returns, are credited to his account in the form of credit items. .

   At the end of the weekly period, the count is used to prepare the three-part statement (Fig. 10), and the machine shown can be used to take these triplicate statements. The account statement shown in fig. 10 has three similar parts, detachable or separable, comprising a portion 310 intended for the customer, a portion 3.11 intended for. the collector and a portion 312 intended for the accounting department. These three similar portions bear the customer's name in the head, in our example carried by hand on a line provided for this purpose.



  When he wishes to establish the count of retailer A, the operator properly introduces the three-part sheet (fig. 10) onto the paper roll of the mobile carriage, so that when the mobile carriage is in its' first column position, la. far left portion 310 is located in the alignment of the printing mechanism. Piiis, with the retailer's account <1 and containing the various transactions in.

   during the week, placed within easy reach, the operator enters the date, May 10, on the date keys, the symbol YB corresponding to the category of goods purchased, with the symbol key, and the amount of the purchase, 20 francs, on the amount keys. Since this is a debit transaction, all that is needed to initiate the series of three machine operations is to depress the normal start bar 37 (fig. 5).

    In the first transaction, the date, May 10, the symbol YB and the amount of the purchase, 20 francs, are printed in the first portion 340 of the statement and simultaneously the amount is added in the totalizer N 1 and in the totalizer N 3.



  At the end of the first operation, the elia- riot mobile automatically switches by tabulation to the second column position, in which the central part 341 of the account statement is in line with the printing mechanism and, before the carriage arrives in its position, the mechanism shown at. fig. 7 triggers an automatic operation of the machine, in which the totalizer N 3 is sub-totaled and the amount of the first debit item, 20 francs, is printed by repetition on the central part 341 of the statement.

   At the same time, the date, May 10, and the symbol <I> YB </I> are also registered. The repetition of the printing of the date in this case is effected by keeping the date keys pressed all the time, and the repetition of the printing of the YB symbol is effected by a special wheel located in the the totalizer N 3 for the row of symbol keys, which wheel is positioned during the first operation, in a position corresponding to the symbol key which has been pressed.



  After the second entry (duplicate cata) has been made on the central part 3-11, the mobile cart automatically tabs to the third column position, in which the right-hand portion 342 of the statement is located. alignment of the printing mechanism and during, this tabulation triggers another automatic operation during which the totalizer N 3 is reset to zero and the amount of the debit item, 20 francs, is printed by repetition on the third portion 342 (triplicate).

    As before, the symbol YB and the date, May 10, are printed repeatedly on the triplicate portion 342, so that one obtains. three identical printed records of the transaction carried out on May 10.



  The registration of a debit of 30 francs for May 11 is. recorded on all three parts (read account slip, exactly the same way. In each case, once the third entry has been printed on the triplicate portion 342, the mobile cart will automatically revert to column position N 1 and at the same time as it turns over, the paper roll advances one line for the next entry.



  For the third entry of this particular account, the operator dials the date, May 12, the appropriate symbol <I> CD, </I> intended to identify this credit item, and. the amount of the article, 40 francs. Since this is a credit transaction, the operator presses the N 1 Subtraction key <B> 109 </B> (fig. 2) so as to make the totalizer N 1 suitable for a subtraction operation, then 11 pushes in the starter bar, in order to start the machine. Depression of the Subtraction key No. 1109 places the mechanism in a position such that the ink ribbon slides from black to red and the credit item is inscribed in a distinctive color.

   Likewise, pressing the Subtraction key N 1 triggers the printing sector with symbol 280 (fig. 9) which prints the minus sign to the right of the amount, so as to indicate that it is a transaction. credit.



  In the. first transaction of a credit transaction, the date, May 12, the symbol <I> CD, </I> the credit amount, 40 francs, and the minus sign are printed in red on the first portion of the statement, and the amount is simultaneously subtracted from totalizer N 1 and added to totalizer N 3. At the same time end of the first operation, the mobile eliariot switches automatically. by tabulation to its second column position, in which the central portion 341 of the statement is in line with the printing mechanisms, and in an automatic machine operation, the same data is printed on duplicate 341.



  At the end of the second operation, the string automatically goes by tabulation to the third column position, in which it is. right-hand portion 342 of the bulletin which is located at the alignment of the printing mechanisms, and in an automatic operation of the machine, the data relating to the credit transaction is reprinted on the third part of the bulletin or triplicate. The May 13 debit item is posted exactly as explained for other debit items, and the May 14 credit item is posted exactly as explained for the previous May 12 credit item.

        When all debit and credit entries have been made for the planned weekly period, the operator presses the Balance key 105, in order to trigger the first of the three balance operations, in which the totalizer N 1 is reset, while the balance contained therein, 50 francs, is printed on the first portion 340 of the statement, while the identification symbol (an asterisk), which is selected by pressing the Balance key, is printed immediately at. right of the sum.

   In this first balance operation, as in all debit and credit operations, the totalizer N 3 is automatically selected and put in the addition position, so that the amount of the balance, 50 francs, is added to it and at the same time the mechanism shown in fig. 3 selects and positions the iNT 2 totalizer, with a view to an addition operation, so that the total of the net balances is accumulated there.



  After the first transaction is completed, the moving cart tabs to the second column position and, in an automatic transaction, the balance and the identification symbol are reprinted on the second portion of the statement. When the second operation is completed, the movable cart moves to the third column position and, through another automatic operation, the balance and the ID symbol are reprinted on the third portion 342.



  Note that the date is not printed in the balance transactions. This is desired and is obtained by providing totalizer N 1 with the non-totalization device in the three corresponding positions. with the three date hoops. The device retains the date crimps and their corresponding printing sectors in the zero or non-printing position during the first operation, in order to prevent printing. of the date on the first portion of the account, even if the date keys are pressed.



  The totalizer N 1 is not engaged with the racks in the second and third operations and, consequently, it does not intervene to prevent the printing of the date in such operations. To overcome this difficulty, the totalizer N 3 is. fitted with normal wheels in the positions corresponding to the date racks and, in the first operation, these keep wheels N 3 at zero.

   It is. obvious that the wheels, of date N 3 will start at. zero in the second and third operation and, in turn, will keep the date racks at zero, which will prevent the star date from being printed on the second and third portion of the statement.

   We can see that at the end of the week, retailer A owes. a wholesaler the sum of 50 francs, and when the latter comes to collect this sum, he gives the first portion 340 (fig. 10) to the customer, at. receipt title and for its documentation, and keep the. second portion 341 for his own back to his collector, while third portion 342 is kept by the Company for the records of transactions for the current week.



  * The second registration group, focused on the three parts of the bulletin, illustrates by way of example how to handle an account involving a credit balance in which the difference is. in favor of the customer.



  In this second example, the debit and credit items are. introduced exactly as explained for the first example, and once the last 10-franc debit item has been recorded, the operator, not knowing that the totalizer N 1 is being exceeded, attempts to push it in. Balance key, to trigger a balance transaction. This is of course impossible, given that the mechanism shown in FIG. 8 locks it. balance key against any depression as soon as the balance totalizer changes from a positive to a negative situation.

   When he discovers this situation, the operator moves the mobile trolley one step towards the. right until moving it to a non-tabulator position, which is determined by the left feeder, and while holding the carriage in this position, it presses the key <B> 108 </B> or Subtraction N 3 (fig.?) And then initiates a preliminary operation by pressing the Balance key 105. The movement of the carriage towards the position in question causes the locking of all the printing sectors against printing movements , so that no recording of this operation can be made on paper. When the machine is operated, the balance totalizer is reset to.

    zero and the complementary or negative balance therein is simultaneously subtracted from totalizer N 3 and added to totalizer N 2. This results in the introduction of the effective negative balance into totalizer N 3 and. its subtraction from the totalizer N 2, which, as explained previously, accumulates the net total. of all sales. At the end of the preliminary operation, the moving carriage is left free to return by tabulation to the first column position, in which the left part 340 of the statement (FIG. 10) is in alignment with the printing mechanism.



  The first credit balance operation is triggered by pressing the Credit balance key 106 (fig. 2) which forces the totalizer N 3 to engage for a sub-total at the same time as the totalizers N '1 and 2 are not added. , so clne the amount. effective credit balance, 30 francs, is printed on the. first portion of the statement. Likewise, pressing the Credit Balance key causes the symbol printing sector to be placed in position, so as to print an identification symbol. <I> CR </I> immediately to the right of the credit balance entry.



  To the. At the end of the first credit balance transaction, the mobile cart automatically moves to the second column position and, in doing so, triggers automatic operation of the machine during. which the actual amount of the credit balance, 30 francs, and the corresponding symbol. <I> CR </I> are reprinted on the second part of the statement. At the end of the second operation, the moving trolley automatically moves to the third column position and, in doing so, triggers another automatic operation of the machine, in which the positive amount of the credit balance and the corresponding symbol are reset. printed on the third portion of the statement.



  It is desirable that the data relating to. a credit balance transaction are printed in red, and this results from the depressing of the credit balance key 106 which brings the ribbon control shaft 329 (fig. 2) to the red printing position; the shaft is held in position by finger 332, as explained above, so that the three credit balance entries are made. in a distinctive color. Note that in credit balance transactions as in regular balance transactions, the date is not printed on any of the three portions, for the same reason as explained above. high.



  If, at the end of any commercial period, such as a day for example, the operator wishes to know that the net total balance is duel, he can obtain it by taking the total or the sub-total from the totalizer N 2 which accumulates the total net balances. Usually, the total net balance is not printed on the statement shown in fig. 10, but it is printed on another document. accountant which is kept in the archives.

   In the machine shown, the net balance is entered. only on the accounting band, which is obtained by pressing the non-addition key 111 at the same time as the key 107 of Total N? . This last key triggers a series of machine operations in the first of which the totalizer N 2 is totaled and the amount printed thereon on the document. Since totalizers Nos 1 and. 3 are on no addition during the first operation, they remain at. zero during the. second and third operation and therefore nothing is printed on the document.



  In net balance operations, it is desirable that the date also not be printed, and this is achieved by providing the totalizer N 2 with appropriate wheels in the positions corresponding to the racks of the date, so as to maintain the racks in the zero position, so that even if the date keys are pressed, the date is not printed. The Non-Addition Key 111 positions the symbol printing area, so as to print a non-addition symbol immediately to the right of the total net balance.

 

Claims (1)

CLAIM Accounting machine, comprising a movable carriage intended to carry a recording medium, tabulation members of the carriage in various column positions, a number of totalisers, coaches for the totalisers, selective clutch devices for the totalizers, printing devices, recording devices and automatic repeating devices, characterized in that the automatic repeating devices include devices suitable for causing one of the totalizers to die constantly in engagement with the coaches, after an impression is made in a first column, during each of a number of successive impressions included in a complete series of impressions, by members such as said. totalizer controls the drivers and printers during these successive prints, so as to perform repeated prints in each of a number of different columns, and by disengaging devices for the totalizer, acting, when the last printing of a series has been recorded in a last column, to disengage the totalizer. SUB-CLAIMS 1. Machine according to claim, comprising. a Balance totalizer arranged to accumulate a grand total of all the first impressions included in each series, characterized in that the automatic repeating devices are arranged in such a way that when a total is extracted from the balance totalizer, it is transmitted to the repeater timer, said devices then bringing the total transmitted to. be printed repeatedly during the other consecutive printing included in a complete series. 2. Machine according to claim and sub-claim 1, and comprising a total mechanism for the balance totalizer and locking members for locking this total mechanism when a rollover occurs therein, characterized by devices. suitable for making the repeating totalizer suitable for. subtraction and arranged to ensure the unlocking of the total mechanism, thanks to which a total operation enters subtractiv had the reversal in the repeating totalizer, so as to @ # constitute the effective total, the repeater mechanism then controlling the totalizer repeater so that repeated impressions of the actual total are made during subsequent operations of the. machine. 3. Machine according to claim and sub-claims 1 and 2, characterized by a non-addition mechanism arranged to disengage the balance totalizer when the first of a series of actual totals is printed. 4. Machine according to claim and sub-claims 1 to 3, characterized by zero stops for the trainers, by devices making these stops inoperative when the first of a series of articles is introduced into the writing device. articles, and by automatic release devices of the stops during each of a series of operations controlled by the repeater totalizer. 5. Machine according to claim and. sub-claims 1 to -1, characterized by a clutch device for the repeating totalizer and by members connected to this device and operable during an initial clutch movement, so as to make the stops of zero during subsequent machine operations. 6. Machine according to claim and sub-claims 1 to 5, characterized by a movable connecting rod adapted to engage and disengage the repeater totalizer, by a device suitable for moving the connecting rod when said totalizer is engaged during the first operation of the machine. 'a series and by a coupling member which, when the connecting rod is actuated, renders the zero stops inoperative. 7. Machine according to claim and sub-claims 1 to 6, characterized by a symbol printing member, by means for its adjustment, so that an identification symbol is printed next to the first impression of a series , and by members controlled by the clutch device of the repeater totalizer, with a view to printing the same symbol next to each of the remaining impressions included in the series. 8. Machine according to claim and sub-claims 1 to 7, characterized by a printing sector, by a shaft with differential position to adjust the printing sector, by a segment mounted on the shaft, by a movable part moved, ( jable when the repeater totalizer is engaged and by a member carried by said part and engaging with teeth of the segment., when the part is moved, so that the printing sector remains in the adjusted position during. each of the machine operations for which the repeater totalizer is engaged. 9. Maehirre according to claim and sub-claims 1 to 8, characterized by a two-color tape, by moving members adapted to move the tape so that the suitable color cooperates with the printing members for printing. (read the first article in a series, and by devices controlled by the clutch mechanism of the repeater totalizer, so that the moving device places the ribbon in a position such that each of the remaining prints in a series is in the same color as the first print. 10. A machine according to claim and subclaims 1 to 9, characterized by a device normally having the effect of moving one or other of the zones of the ribbon into a position of cooperation with the printing device and arranged to, normally, return one of the zones to the operating position at the end of each of the machine's operations, and by a device connected to the clutch mechanism of the repeating totalizer, operating in conjunction with it and having the purpose of returning the other zone of the Cree ribbon to the printing position as long as the repeater totalizer remains engaged. 11. Machine according to claim and sub-claims 1 to 10, characterized in that the ribbon has a black area and a red area, by a device comprising a shaft intended to selectively put the ribbon in a position of cooperation with the printing device. , said shaft normally having the role of putting the black area in the printing position, by a suitable control element, during the printing of the first article of a series, to force the shaft to. bring the ribbon to the printing position in red, and by a flexible finger connected to the clutch mechanism of the repeater totalizer and adapted to return the shaft to the red position, --race to which the articles will be printed més in red during. the initial operation and repeat operations of the machine. 12. Machine according to claim and sub-claims 1 to 11, and. comprising a mechanism intended to automatically engage a drive device and a main operating device, so as to release the machine for operations in which the repeater totalizer controls repetitive printing, characterized in that the triggering devices comprise a device which now standardizes a clutch of the driving device and the main operating device in, disengaged position, a mechanical linkage of the tines to render the holding device inoperative, a device normally locking said linkage against any movement, and a device controlled by the carriage, and by manual members intended to render the locking inoperative, to release the machine in view of its operation. 13. Machine according to claim and sub-claims 1 to 12, characterized by a pawl cooperating with the locking, by a pivoting lever adapted to lift the pawl and to make the locking inoperative, and by connections between control elements. and the lever, so that it is lowered by the carriage, in column positions determined in advance, in order to automatically trigger the machine in v; ie operations. 14. Machine according to claim and sub-claims 1 to 13, characterized by a manual device adapted to render the devices controlled by the carriage inoperative, whereby the machine is only released by manual action. 15. Machine according to claim and sub-claims 1 to, <B> 1.4, </B> characterized in that the connections with the carriage com take a lever comprising two parts movable relative to one another. the other, one of said parts being adapted to come into contact with and tilt said pivoting lever, this part being moved, when the manual device is operated, so as not to be in cooperative relation with the lever swiveling, thanks to which the machine is only triggered on intervention of manual devices. 16. Machine according to claim and sub-claims 1 to 15, characterized by control elements mounted on the carriage, so as to control the tabulation of the latter, and by other elements mounted on the carriage and adapted for make the locking automatically inoperative, said other elements being arranged intermediately with respect to the first elements, and by a device for locking the mechanical link, controlled by these last elements, the arrangement being such that the trigger control elements allow movement. part of the linkage and the blocking device is rendered inoperative when the carriage reaches the next column position, whereby the mechanical linkage device can terminate its movement and the machine is automatically triggered with a view to his. works.