BE387138A - - Google Patents

Description

       

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  'Improvements to accounting machines "
The present invention relates to improvements made to accounting machines of the type organized to record the digital indications carried by cards or recording sheets, to multiply the indications thus recorded and then to record on said cards or sheets the product of the multiplication of the original indications which they bear.

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   So far, as it is said in the US patent application N 558,165 filed on 1st Mare 1928 by Mr. Bryce and in the corresponding Canadian patent application
No. 343,400 of November 14, 1928, the aforementioned operations were carried out by passing registration cards punched through such a machine, so as to obtain from each card a simultaneous reading of the information relating to several columns.

   The indications thus noted controlled the operation of the multiplier devices and the devices / which collected the product from the machine and, finally, a punching machine for several columns was set up, under the control of the devices which collect the product, to per- drill, on each of the same cards, the representation of the product of the above-mentioned multiplication.



   The rapidity of the operation means that the reading of the indications collected on the card is preferably carried out by devices which are capable of simultaneously collecting information in several columns. The operation which consists in representing, on the same card, the products of the above-mentioned multiplication is also carried out with great rapidity, when the products are extremely large, by the use of punches of the multiple type which are jointly prepared for the subsequent perforation of the perforations relating to several columns on the card, said perforations taking place simultaneously However,

   these perforating mechanisms are relative-

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 complicated and expensive and, for certain works, the saving of time realized by the perforation operations relating to the product of the aforementioned multiplication, operations which are carried out by the use of punches of the multiple type, does not justify not the complication and expense that result from using this type of punches.

   This is the case, in particular, when the representations of the product of the multiplication are more or less limited with regard to the number of columns
The object of the present invention is an improved and simplified packaging machine operating by means of punched cards, said machine being organized so as to be able to concurrently collect indications relating to several columns of each of the series of cards which are to be collected. passed through the machine.

   The machine is, moreover, organized to multiply the information collected and then to record, on the same card, each of the products obtained, this recording being carried out by appropriate bodies which operate by repeated and successive actions to successively record the product / several columns on the map in question.



   According to the invention, there is provided a mechanism intended to move the cards and arranged to receive said cards after they have collected the indications which they bear by means of an entry mechanism of the action type. competitors, and to transfer, one by one

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 these indications received illie to a perforating device of the type which pierces several columns successively, the machine in question comprising coordination bodies intended to coordinate the success and (or) the simultaneity of the input, calculation, card handling and registration.



   The accounting machine which is the subject of the present invention has new control elements, in order to allow and ensure the succession of necessary and desirable operations in the accounting machines operating by means of punched cards, machines. in which we perform, in a certain order, perforations corresponding to the product of a multiplication.



   The calculating machine operating by means of perforated cards is further characterized by the fact that perforating devices are used for the product of the multiplication, devices of the type with successive actions on the subject of which measures have been taken to reduce to minimum duration of operation of the machine.



  This reduction to the minimum of the duration of time is effected, on the one hand, by suitable control of a part of the machine relating to the calculations, so as to eliminate unnecessary calculation cycles, and, of on the other hand, by a control of the part of the machine which handles the handling of the card and which controls the perforating members, in order to avoid the continuously interrupted operations of the perforating mechanism.



  In said machine, simple means are provided

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 for the allocation of the fields intended to receive, on the perforated cards, the perforations corresponding to the product of the multiplication, in a perforating mechanism of the type which successively carries out the perforations of a product column by column, under the control of a computer mechanism.



   According to the invention, the machine has been organized so that the card passes through it in two directions. Moving the card in one direction is the most advantageous for collecting the information on the card and moving the card in the other direction is the most advantageous for recording the product on the same card. of multiplication, by means of the simplest mechanism.



   In accordance with the present intention, a new co-ordinated arrangement of the calculating machine and the punching device has been provided which is of the successive punching type.



   In the calculating machine, object of the present invention, provided with a device for perforating cards, there is also provided an organization allowing manual entries on the cards which receive the perforations corresponding to the indications,
Other objects and other objects of the present invention will become apparent from the following description and from an examination of the appended drawing in which there is shown, by way of example.

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 This is what the Applicant considers to be the preferred embodiment of the present invention.



   On this drawing :
Figures 1 and taken together constitute a plan of the machine;
Figures 2 and 2a taken together constitute a cross section of the machine according to 2-2 of Figures 1 and 1a, Figure 2a showing certain parts acting on the cards, parts which are in front of the plane of the section and which are shown in solid lines, to show the arrangement of these parts relative to the rest of the machine;

   
Figures 3 and 3a taken together constitute substantially a side elevation of the part of the machine reserved for punching operations, the view taken substantially along 33 of Figures 1 and 1a and being seen in the direction of the arrows while some parts are torn off in order to show certain details which it is not possible to represent in figures Z and 2a;
La, figure 4 shows the machina at the end ;, from the right of figure la and looking to the left;
Figure 4a shows details of the intermittent: gear drive for the card transfer mechanism;

   
Figure 5 is a cross section through the part of the machine which transfers the cards and reads the recorded indications, the

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 section being taken substantially along 5-5 of Figure 1a and viewed in the direction of the arrows;
FIG. 6 shows the details, in section, of certain control members, the section being taken substantially along 6-6 of FIG. 1a;
FIG. 7 is a section showing certain details taken in part below the base of the machine and taken along 7-7 of FIG. 1a, said section showing the main clutch of the machine) for the control of the power supply in cards through the part of the machine intended to read the indications on the cards, and the control for returning the various parts to their initial position;

   
Figure 8 is a section through one of the counting or receiving devices of the machine, the section being taken substantially along
8-8 of FIG. 1 and transversely through the counter device intended to receive the multiplicand;
Figure Sa shows the details of some used in the counting device assigned to the multipliers.
FIG. 9 is a section showing certain details, section taken along 9-9 of FIG.
4 and seen in the direction of the arrows, some parts being removed;
Fig. 10 is a section showing the details of some parts shown in Fig. 2, the section being taken along line 10-10 of Fig. 2a;

   

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FIG. 11 shows, in detail, some parts shown in FIG. 3a, some of which occupy other positions;
Figures 12 and 12a taken together show in perspective certain parts of the perforating mechanism and certain contact parts relating thereto;
Figure 13 shows in section one of the emitting devices, the section being taken substantially along 13-13 of Figure 1a;
Figure 14 shows, on a larger scale, certain parts shown in Figure 2;

   
FIG. 15 shows, on the one hand, the detail of the device which lifts the displacement pawl and, on the other hand, the parts associated with this device;
FIG. 16 is the diagram of the adjustment over time of the machine which is the subject of the invention;
Figures 17a, 17b 17c, 17d and 17c placed end to end show the circuit diagram of the machine;
FIG. 18, finally, is a diagram showing the kind of calculations which the machine object of the present invention can perform,
The machine is constructed in such a way that it is driven by an uninterrupted motor M (see figure 4). The motor shaft is provided with two pulleys 5o and 51 (see figure 3a).

   The first designated by 50, controls, by means of a belt, a shaft 52 which actuates the perforating device while the pulley 51 controls, by means of a

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   belt;; a shaft 53 controlling the part of the machine reserved for the analysis of the cards and for the calculations relating to the cards (see FIGS. 4 and 7).



  The shaft 53 extends transversely below the base of the machine and on it is fixed a ratchet wheel 54 forming part of a one-turn clutch device (see figure 7), which device comprises a pawl 55 which can be released, so that it comes into engagement with the ratchet wheel 54, as a result of the oscillation of a frame 56. The pawl 55 is carried by a part 57 which, in turn, is fixed on a toothed wheel 58 and on a toothed sector 59.

   When the one-turn clutch is engaged. the toothed wheel 58 actuates, thanks to an idler toothed wheel 60, a toothed wheel 61 and rotates the shaft 62. As can be seen in FIG. 4, a cam 63 has been fixed on the shaft 62 (see also FIG. 9 ), which cooperates with a lever 64 fixed on a shaft 65 which carries arms 66 intended to actuate the card pusher (see FIG. 5). As a result, when the shaft 65 oscillates, a card is withdrawn from the magazine 67 (see Figures 4 and 5), said card being pushed into the entrance of a pair of rollers supplying cards 68. The cards are fed into them. Feed rollers 68 are connected by a gear train to other rollers 69 and rotate in the same manner as these.

   This feed roller train is actuated as follows:
As shown in Figure 4, on the shaft 62 is fixed a toothed wheel 70 which, by means of an idle toothed wheel 71, actuates a toothed wheel 72 shown in dotted lines and mounted on the shaft 73.

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  On this same shaft is mounted a toothed wheel ce 74 fixed to the toothed wheel 72, said toothed wheel 74 controlling the gear train for the feed rollers 68 and 69 already mentioned. On the shaft 30 is mounted a stacking device 75 of any type (see Figure 5) provided with a pair of hooks 76. The stacking device is actuated by the following set of mechanisms (see Figures 4 and 4a).

   On the shaft 62 is mounted a toothed sector wheel 31 of the usual type, this toothed sector wheel being capable of controlling:, during the last third of its revolution, a toothed wheel 32 which, in turn, by means of an idle toothed wheel 33 controls a toothed wheel 34 wedged on the shaft 30 which carries the wheel 75 intended for transferring or stacking the cards. This card transfer mechanism or card feed drum is analogous to the usual stacking device used in tabulating machines.

   The stacking device is adjusted, in time, so that a card leaving the rollers 69 is gripped by one of the hooks 76 and deposited in the receptacle of the part of the machine reserved for punching. This device The stacking device is of a well known form and need not be described in further detail. The parts of the packing device 75 are also shown in Figures 1a, 2a and 3s.



   The shaft 62 makes one revolution for each card introduced into the machine and the toothed wheel

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 31 correspondingly makes a complete turn and, during the last third of this turn, the stacking device 75 makes a deminer to grab a card which has come out of between the feed rollers 69, the stacking device
 EMI11.1
 placing said card in the 1i1a from the part of the machine intended for punching operations,
The mechanism used for the transfer of cards which has just been described is organized in such a way that it passes a card in front of a row of analyzer brushes 77, of any type capable of jointly recording the indications relating to several columns. ; indications that have been punched into the card.



  In addition to the analyzer brushes, this part of the machine intended for reading the indications on the card is provided with a card lever 78 (see figure 5) which, when the card is in this part of the machine , can close contact 80 of the card lever. Contact 79 for the card lever is always closed when one or more cards remain in the card magazine (see figure 4) The analyzer brushes 77 are connected, by the ordinary connections, to the ordinary plug sockets of a table represented on the connection diagram which will be described in a more complete way in what follows.
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  C01à! 1k3D3 OF THE PART OF i \ fffACHINE DESTI, 4 BORN TO CALCIIL3
Figure 7 shows that the toothed or cross: sector of Malta 59 cooperates with a toothed wheel

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 81 and controls, by means of an idle toothed wheel 82, a toothed wheel 83 wedged on a shaft 84 for resetting. It is understood that -during naked turns the toothed wheel 59 in the direction of the arrow (see Figure 7) the first movement of the toothed wheel 59 has the effect of unlocking the toothed wheel 81. Then the toothed wheel 59 actuates the, toothed wheel 81 and imparts a rotational movement to the shaft 84 for resetting.

   The latter is also shown in plan in Figures 1 and la and, as is customary in tabulating machines, individual reset controls and clutches have been provided for each of the counter devices. These reset devices are of the type shown in US Pat. No. 1,600,414, September 21, 1926 issued by Mr. Lake.



   CONTROL OF COLLECTORS
The shaft 53 passes through the toothed wheels 58 and 59, these wheels being able to rotate with respect to one another on the shaft but each of these wheels being fixed on the other as well as on the wheel 57 of the one-turn clutch. The part of the shafts 53 which is extended beyond the sprockets 58 and 59 (see figures 7 and 6) carries a toothed 85 (see figure 6) fixed to the shaft; this toothed wheel meshes with a toothed wheel 86 which it turns on. The toothed wheel 86 is arranged on the control shaft 87 of the counter device and is fixed to said shaft. One revolution of toothed wheel 85 and shaft 53 causes shaft 87 to perform three digs

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 control of metering devices.

   It is understood that the control shaft 87 of the counting devices extends through the various counting and (or) receiver devices of the machine and controls them all. In summary, we can describe these devices as follows:
The device intended to receive the multiplier is represented by MC in FIG. 1 and the device intended to receive the multiplier by MP. By LH, the counter intended to accumulate the / left components of the partial products has been designated and by RH the counter for the accumulation of the right components of the partial products has been designated, said counter also being intended to receive the figures accumulated from the LH meter to give the final product.



   PULSE TRANSMITTER OR DISTRIBUTOR CONTROL Next to toothed wheel 86 (see figures 1a and 6) is another toothed wheel 88 which meshes with toothed wheel 89 attached to a shaft 90. On this is last is mounted the brush which acts on the pads of the transmitter 91 and this brush rotates each time the toothed wheel 89 turns ,, On the same shaft 90 is fixed an element 92 of a one-turn clutch. This clutch element is of the type which is provided with a single shoulder or tooth and capable of cooperating with a pawl 93 to rotate a sleeve 94 which in turn controls the brush of the transmitter 95. Details of this transmitter are shown on the

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 figure 13.

   In this figure, it can be seen that the rotary ba.lai has been designated by 96 and by 94a the brush holder which is fixed to the sleeve 94.



   It should be noted here that the emitter 91 is constructed in the same way with the only difference that we have separated the emitter pad 97 which is a little apart from the others and which is provided on
1 transmitter'95 and that the transmitter tilair of transmitter 91 is actuated each time the sprocket 89 turns., The one-turn clutch element 92 for the transmitter 95 is of a type and of a shape which allows the release of the pawl 93, at any time during the cycle, before the engagement of said pawl with the shoulder.



   The pawl is released by means of a frame and an arm 98 (see FIG. 6).



   CONTACTING CMLES CONTACTS
The sleeve 94 of the transmitter 95 is further extended to the right of FIG. 1a, and this sleeve carries, at its end, the cam of a cam contactor device T1 which will be described later.



  On the counter device control shaft 87, to the right of the RH counter device (see figure 6), there are also switching contacts designated, generally, by C and described individually in the following:
Other C1 cam contacts are placed on the same shaft 87, to the right of the RH counter (see figure 1a).
If we refer to Figure 9, we see that the shaft 62 is provided with several cams

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 for certain designated cam contacts, generally by F. These contacts operate during the card supply cycle and while the card passes through the exploration station.



   In FIGS. 1, la and 8, multiplicands have been shown for the counter MC, the usual construction employed in ta- bulating machines and provided with electromagnetically controlled clutches, etc. The mechanism which expresses the Numbers, instead of being the ordinary type with a detent cam, however, takes the form of a switch type.

   This MC counter switch is double; it has a pair of rings
100, in insulating material :, provided with a suitable number. nable of conductive segments 101 embedded in the mass. Inside the ring, there has been arranged so that it can rotate, a device with two brushes designated as a whole by 102, this device being controlled by a toothed wheel 103, from the toothed wheel. on the speedometer clutch shaft. The set of brushes 102 receives the current through a common conductive segment 104. The current enters through 104 and passes successively through the two brushes then leaves to return to one of the segments according to the position of the counter. .

   In order to control the brushes of the second switch which are also designated by 102, an intermediate toothed wheel 105 is provided as shown.



   All the different counters, i.e. the MC, xx MP, LH and RH counters are provided with

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 contacts / 106 ordinary BBXK iss anBtaEix without relays, contacts which open when the meter electron-magnets are excited. 0 The MP counter
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 is built the same way cllLC the one we have. described for the counter 1 :: C, except for the. fact that the mechanism of coùi = 1utatew? who expresses the? 110dJY08 is not double, Him only set of segnenbs and a single set of brushes being used.

   Likewise, é.a, n ;, the counter 1.P of the multipliers, in addition to the contacts 10: 6 das: additional switch contacts desired ;, taken together by S ( see figure 8a). One of these contacts is provided for each of the columns These contacts S are organized in such a way that they open together with the opening of the contacts 106 and they have
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 a goal which will be ejlicL? ë later .. The ru and EH accumulators are constructed of the .1gr: 1e way that the counter MO of the multiplicands except that, like the counter of the raultipliateuz they have only one set of coM-metering devices to express the figures. HR systems for cx-
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 first the digits have ten segaents 102 while the others have only nine.



   Before proceeding to the description of the perforating mechanism or of the operation for perforating the products on the card, it will be explained how a certain number is introduced into the machine as well as the calculation operation and its command.



  For this explanation we will refer to the connection diagram.



   If 1 ', refer to the connection diagram
 EMI16.5
 represents on fjg; .res 17 @ to 17 inclusive,

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 it can be seen that the main current is supplied by a conductor marked with a plus sign (+) and denoted by 110. The other terminal of the circuit is set to. land, as conventionally indicated. the motor which actuates the machine is designated by M and this motor is started by closing the switch 111 of the motor. Lice put the. With the machine running, if there are cards in magazine 67 (see figure 5), the start key 112 is lowered. Lowering this start key establishes a circuit passing through 111, through the contacts of the start button, by relay 114 and by earth.

   The contact of relay 114 is then closed and the circuit passes through contact 115, which is closed at this time, through contact 116, also closed at that time, and through the electromagnet 117 of the clutch for a- conducted from the map and reset to finally result in earth. The electromagnet 117 is that which is represented in FIG. 7, that is to say that which controls the one-turn clutch, said clutch activating the supply of cards and resetting to zero. the various counters and the various reception devices of the machine.



   This results in an ali & entation of cards and a card is grasped by the pusher and advanced to the vicinity of the contact 80 of the card lever.



  Contact 79 is closed whenever there are cards in the card magazine o At an approximate time. required of the cycle, current is brought to contact 80,

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 by the cam contact devices 118 which are the usual one used in tabulating machines. The closing of. cam contact 118 and card lever contact 80 bring current to the common bar of the brushes which explore the card and the card is then analyzed by the brushes in the ordinary manner; the indications relating to the multiplicand 'etau multiplier are then introduced into the respective receiving devices é, 1.é and MP.

   At the same time that the contact 80 closes, the contact 79 is also tarnished, on the condition that there is one or more cards in the magazine and this results in a holding circuit passing through the start key 112. which can now be released.



   The circuits for entering the numbers into the MP and MC counters pass, from the socket connections designated as a whole by 119, to the electromagnets of the. counter MPet by the contacts 106 mentioned above to return to earth, Pa, r the input operation of numbers indicated above one or more of the contacts S1, S2 and (or) S3 have been opened at provided that there is a significant digit in the multiplier.

   If the multiplier contains a zero., For example in the middle position ;, S2 does not open. The above-mentioned operation has arranged the balances designated as a whole by 102 and corresponding to the counter MP and a, connected the brush corresponding to a pad chosen on each of the segments which express the figures relating to the different orders of magnitude.

     0 In the example shown as "589" is the multiplier and this number is

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 arranged or "composed" on the three / segments shown. The introduction of the multiplicand is effected by the plug connections 120 and by the ordinary wires of the electromagnets of the counter corresponding to the multiplicand, the current then flowing through the usual contacts 106 to return to earth. The "dialing" of the number representing the multiplicand, in this case "8,493", is performed on the four upper switches shown and on the four lower switches.

   The upper group is indicated by the reference number 121 and the lower group by the reference number 122 (see figure 17c). Immediately before such a figure is entered into the MP counter, the cam switch device 123 (see also Figures 7 and 9) momentarily closes, by a suitable mechanism, the contacts' Ni, N2 and N3. Closing these contacts allows current to flow from conductor 110, through contacts N1, N2 and N3, through relay coils T1'T2 and T3 'and through coils Ul, D2 and U3 to then pass through them. SI, S2 and S3 contacts closed at this time and to return by earth, Immediately after the N1 contacts.

   N2 and N3 open but a maintenance circuit is established from conductor 110, via a bypass 124 and via the various contacts of.! relay T1, T2 and T3 This circuit keeps the relays energized provided that the associated contact S has not been opened by the entry of a significant figure in the receiver device MP for any one ... columns If a significant digit has

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 been introduced, for example in the row of tens, the contact S2 opens and the relay T2 'ceases to be energized while in time the relay U2 ceases to be energized The relays U1 to U3 inclusive have their contacts repectifs designated by U'l,

     U'2 and U'3. If 'any of the relays
U ceases to be energized one of the corresponding contacts opens and the other closes. When the relays
U are excited their contacts are moved and brought to a posa. the opposite of that shown and, when they stop being excited, they are in the position shown in the wiring diagram.

   On the control shaft of the machine's counters, a shaft which makes one revolution per card cycle, a number of switches or devices have been mounted for adjusting the duration of the circuit CC1, CC2 and CC3 and another set of Analogue devices CX1, CX2 and The devices CC1 to, CC3 inclusive are organized so that they close the circuits in a determined order. With respect to cycles, these contact time adjusters are separated from each other by an indicator point but, due to the electrical circuits, they can act to actually close their circuits in the following order: CC1 closes its circuits during the first cycle of calculations, it is followed, one cycle later, by the circuits which go to CC2 and one cycle later still by the circuits relating to CC3.

   The CX1 GX3 regulators inclusive close simultaneously towards the end of each calculation cycle and after the closing of CC1, as can be clearly seen on the diagram.

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 figure 16.



   According to Figures 5 and 10, when a card is fed by the card stacker 75 into the receptacle of the part of the machine reserved for punching operations, the passage of the card and its deposit in the receptacle actuates a card lever 126 (see figure 10) which is then kept lowered by a latch 126a and this action of the card lever serves to open the contact 115 previously closed and to close the contacts 125 and 221 which were open before. The effect of opening contact 115 is to interrupt the circuit passing through the clutch electromagnet 117 and to stop the supply of cards through the part of the machine reserved for the analysis of the menu.



   The contact 125 will be called, in what follows, the starting contact of the computation. When this contact is closed at the appropriate moment of the machine's operating cycle, the cam contact F1 closes, the current flows from the conductor 110 through the contact Fl through the contact 125, closed at this moment through the relay contact. PC2 and, from there, by the contacts of the relay U1 which are in the position shown, At the appropriate moment, a circuit is established by the adjustment device CX1 and by the relay CS1 to return by the earth. Activation of relay CS1 closes relay contacts V1 and establishes a holding circuit passing through conductor 127 to return through cam contact T1 and cam contact C1 to conductor 110.

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   This circuit keeps the relay C2 e 'energized, the latter, when energized, closes the contact 128 belonging to the device MP which is used to express the digits; this excitation also closes a group of contacts 129 and 130 serving for the selection of the columns (see FIG. 17d).



   It will be remembered that the brush 102 of the device expressing the units included in the device which receives the multiplier is stopped on the pad '9'. Consequently, a circuit is established passing through conductor 131 (see figure 17a), through contact 128, through brush 102, through the ninth wire of the group of wires or connections 132 to get to relay X9 (see figure 17b The energization of relay X9 closes two groups of contacts which have the same reference sign in the figure
17b. The emitter 91 then comes into action, the current is brought from the conductor 110, by a branch
133, at the brush of this transmitter 91.

   As a result of the operation of the transmitter, pulses, set at different time intervals, of which are sent to the group of conductors designated, as a whole, by 134. The X9 relays dispose of the pulses sent by the conductors 134, following a progression whose base is "9". and return the pulses thus arranged to a series of conductors 135 and 136. The conductors 135 extend to the MC devices intended to express the digits and designated by 121 while the conductors 136 extend to the other set of MC devices which are used to express numbers and which are designated by 122.

   The balances of the devices used to express the figures

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 and designated by 121 and 122 were (arranged beforehand according to the number which constitutes the multiplicand which is introduced into the machine, 8.493 in the present case; from the common conductor segments of these devices 121 and 122 serving to express numbers, series of conductors
137 and 138 conduct current through the contacts
130 and 129, for the change of column, up to the LE AND RH counters shown in FIG. 17d. After they have passed through the electromagnets of these counters and through the contacts 106 of the ordinary counters, the pulses go to earth as shown.

   As a result of this operation, the components of the partial products of the multiplication of 8,493 by 9 corresponding to the LH counter are introduced into this counter and the components corresponding to the RH counter are introduced into said RH counter. This completes the first multiplication of the multiplicand by 9.



   In this specification, the detailed route of the circuits will not be indicated on the actual diagram from the transmitter 91, to the LH and RH counters, these details being described, in a more complete manner, in the patent application. U.S. No. 375,914 filed July 5, 1929 and the corresponding Canadian patent application No. 365,708 filed June 11, 19300
During the input computation operation which has just been described, switch CC1 closes towards the end of the cycle and interrupts the energization of relays U1 and T1 ', contact Si being closed.

   The energization of the relay U1 moves the contact U'l to the reverse position of that shown.

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 shown on the circuit diagram, which allows current to flow from conductor 110, through cam contact Fl, through contact 125, through the contact of / - PC2 and through contact U'l, for go to contact U'2 which is in the position shown.

     At the last part of the same cycle, the CX2 switch closes, which allows the current to pass through the V2 contact and the CS2 relay to go to earth. The holding circuit for the V2 contact is established. as before, it can however be indicated that, before said holding circuit is established by contact V2, the current passing through conductor 127 has been cut in order to open contact V1;

   this is done by means of the cam contact C1, therefore the relays CS2 operate to close the contact 139 (see figure 17) and the contacts 140 and 141 relating to the change of column, so that the next input is made in the LH and RH counters, in the correct position with regard to the columns, this position being that occupied by the column next to the left of that in which the previous entry was made. The entry into the LH and RP counters is made as indicated above except for the fact that the device MP for the "composition" of the ciphers of the order of tens now operates to energize the relay X8.

   At the end of the last en ';' operation Treated, the switch CC2 (see figure 17a) closes and energizes the relays T'2 and U2, in order to bring the contact U'2 to the reverse position of that which has been shown. This action establishes a circuit through the CX3 switch to get to the

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 relay CS3 and to contact V3 which keeps the relay CS3 energized.



   As in the case explained previously, before the holding circuit is established by contact V3, the circuit passing through conductor 127 and going to contact V2 is interrupted by cam contact C1 to allow 'interruption of excitation of relay CS2 before relay CS3 is energized.
The third cycle of calculation now begins to multiply the multiplicand by 5 which is the hundreds digit of the multipliero Finally, according to the number of digits of the multiplier, a circuit is established from the contact PC2, by the contacts U'1, U'2 and U'3 and by other analogous contacts, if the multiplier comprises a greater number of digits, the circuit going to a clutch electromagnet 145 (see figures 6 and 17a ).

   Energizing the electromagnet 145 operates the clutch 92 in one turn (see Figure 6) and operates the transmitter 95 as well as the cam switch T1 (see Figure 1a). The cam contact T1 now opens (see Figure 17a) and this contact opening cuts the current flowing through the conductor 127 and terminates the operation of the relay relating to the selection of successive columns and to the cycle control.



   Emitter 95 kicks in, with current being supplied to this emitter from conductor 110 through bypass 146 (see Figure 17c). The emitter sends a series of pulses set differently in time. by a group of drivers

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 EMI26.1
 147 which lead to the device expressing the figures and corresponding to the counter Li which has been shown in FIG. 1 'ed. there the other terminal of this device expressaLl t figuresp a series of conductors 148 are connected, zuJn electro-ainv.nts RHQ counters By sending pulses from the transmitter 95, the. way q'-Ü comes from being a.

   indicated, the "coposition" which was first on the counter I, H is transferred and fed into the counter RIa. This completes the calculation of the product "which these transfer circuits cannot interfere with. the addition circuits of the LI-Ip counter during the multiplication operations, Z5l1j touch relay co-/ relays corresponding to decimal orders, multiple touch points which are normally open, are interposed in the conductors 148 ". contacts are [el1J1és by illl relay 252 in pal-allele with the electro-ali- ùlallt 145 (see figure 1-a) and are closed by said relay only during the operation of trans.er ta.:

  0 broom Towards the end of the cycle of the transmitter 95, the broom 96 establishes contact with the blot 97 and causes the establishment of an ali circuit going, by the driver 149p to a group of control relays comprising the relays PU3 PCI and i U2o The Z5 relay PC3 causes the f1tnatioll of a maintenance circuit, by means of the switch to CaLle F2 which is now closed # ep the circuit thus maintained going by the relays pol and PC2: to earth , after the brush has passed beyond the pin 97. The excita- Au l'BIais han "re1a '.. is pez (" see figure 17C) opens contact "u l9 aie ilf relay po ,? (see figure 170)>? Iiii the contact --- '4, PC2-, (see fig2re 171) and interrupts the excitation of the elec troaïma., T 145 in a turn corresponding to the transmitter 95, thanks to this that it does not prevent this

 <Desc / Clms Page number 27>

 transmitter continues to rotate.

   If the transmitter were allowed to continue spinning, there would be a continual and repeated transfer of amounts from RH to LH. The activation of the PC1 relay closes the corresponding contact which (see figure 17e), when it is open, prevents the perforation mechanism of the machine from functioning.,
Before describing the operation of transferring quantities from the counter RH to the punched card, the punching mechanism will be described briefly in what follows.

   Generally speaking, this perforating mechanism takes the form represented by Lee and Phillips in their American patent NI 1,772,186 of June 3, 1925 corresponding to the Canadian patent? 294,354 of October 29, 1929 as well as the form shown in Lee and Daly US patent application No. 391,874 corresponding to the Canadian patent application? 3680143 of October 18, 1930.

   In general, the punching mechanism is organized so that it can receive a recording card in the receptacle shown in FIG. 12a, R designating the card in this position where a pusher 150 mounted on it can be applied to it. a support carried by a rack 151 serving to feed the cards, When said rack moves to the left, from its position shown in FIG. 12a, the card R is transferred by the pusher and by the rack sus.

   referred to at an intermediate position shown in phantom and designated by R1 in said figure 12a, After the card has reached the position indicated by R1, its movement through the mechanism

 <Desc / Clms Page number 28>

 perforator of the machine is effected by a rack 152 of the card conveyor carriage, said rack being provided with a suitable pusher designated by 153 and fixed on its bra, s protected by this rack 152
A linkage mechanism is provided between the rack 151 serving to feed the cards and the rack 152 of the card trolley, another control mechanism being provided to control said rack 151,
Referring to Figure 3a,

   52 was indicated to be an uninterrupted rotating shaft; it keeps running when the motor is running. This shaft 52, by means of a worm transmission 154 (see FIG. 12a, 5 and 2a) is organized in such a way that it can control a shaft 155 at one end of which: is fixed a clutch member 162, a ratchet is formed (see FIG. II). On the shaft 155 is freely mounted a toothed wheel 163 meshing with teeth; arranged on the underside of the rack 151, a disc 164 being fixed on said toothed wheel 163.



   In 165 can pivot, on the disc 164, an arm 166 having a clutch tooth 167.



  The free end of arm 166 is connected to a toggle plate 168 by means of a connecting rod 169.



  The end of the toggle plate 168 is hinged, at 171, at a certain distance from its pivot 170, on a rod 172. The latter is pushed by a spring 173 and fits into an opening presented by a pin 174 , mounted so that it can rotate on the disc 164. Grace

 <Desc / Clms Page number 29>

 to this construction, xx the rod 172 / the plate
168 as a toggle joint, a spring 173 acting to hold the tooth
167 in or out of engagement with the teeth of the ratchet wheel 162.



   To effect the clutch, an electromagnet 175 is provided which, when energized9 attracts its frame 176, so that an arm 177, by engaging a finger 178 of the arm 166, brings the tooth 167 , by oscillation, to engage in the ratchet wheel 162; this movement moves the toggle rods from the position shown in Figure 3a to that shown in Figure 11. The spring 173 acts to keep the clutch tooth in engagement with the ratchet wheel 162. The wheel 163 then turns counterclockwise and makes substantially one revolution, whereby the rack 151 is moved to the left.



   At the end of the rotation of the wheel 163 in the anti-clockwise direction, the end 179 of the plate 166 abuts against the projection 180 of a fixed plate 181 in order to release the tooth 167 and the ratchet wheel 162, by a reverse movement,
The rack 151 (see figure 12a) meshes with a small pinion 182 whose shaft extends into a barrel 183 of ordinary construction o This spring barrel is similar to that shown in Figure 30 of the Lee patent and Phillips mentioned above.

 <Desc / Clms Page number 30>

      



     ; .after the clutch has released a higher turn, the rack 151 returns to the right by the effect of the spring. Movement of the rack 151 to the gaucho brought a registration card from position R to rosin R1, La. Control of rack 152 of the card carriage will now be described. The rack 151 meshes with a toothed wheel 184, supported so that it can rotate and fixed to a clutch organ 185 (see figures 12a and 3a) having a single tooth in the plane of a pawl 186 which pivots on a plate 187 fixed on a shaft 1880 At its other end, the shaft 188 is provided with a toothed wheel 189 meshing with the rack 152 of the card carriage.



   In order to regulate the operation of the clutch device (for example by the action of the pawl 186 on the member 185), a cam 190 is provided which pivots at 191 on the frame of the machine.



  This cam 190 cooperates with a finger carried by the end of the pawl 186. On the rack 151 is fixed, near its left end, a block 192 capable of cooperating with a finger 193 carried by the cam 190. When the, rack 151 is in its extreme right position (see Figures 3a and 1c), the pawl 186 is released from the clutch member 185.

   When the rack 151 moves to the left, the block 192 releases the cam 190 and allows the pawl 186 to engage, under the action of a spring with the member 185; a rotational movement is then imparted to the shaft 188 and. thanks to the toothed wheel 189 the rack 152 of the card trolley is brought towards

 <Desc / Clms Page number 31>

 the right.

   The mechanism which has just been described brings the rack 152 to its extreme right position, which allows the pusher 153 to pass over a surface of the card which is located below it and to apply. finally behind the rear edge of the card, in position Rl (see figure le). With the rack 152 is associated a spring control barrel designated as a whole by 1940 This barrel is fully described in the aforementioned Lee and Phillips patent and is designated in Figure 9 of the drawing accompanying said patent by the reference number 83 .



  With the rack 152 is associated an escape mechanism 195 provided with a pawl 195a (see also FIG. 15). This mechanism is of the type shown in US Pat. No. 1,426,323 issued August 15, 1922 to Schaaff and said escapement mechanism is also described in the Lee and Phillips patent mentioned above. On the rack 152 of the card carriage is fixed, in a removable manner, a bar 196 intended to make the pawl 195a jump above several teeth of the rack.

   This bar 196 is generally constructed like that shown in Figure 8 of the aforementioned Lee and Phillips patent, said bar being described in full detail in that patent, but it differs in that that it has a notch 197 and, depending on the position and the length of this notch, a lever 198 intended to lift the pawl 195a (see FIG. 15) can descend or remain in the raised position. As the lever 198 falls into the notch 197 it allows the pawl 195a of the escape mechanism to cooperate with the upper teeth of the crankcase.

 <Desc / Clms Page number 32>

 mesh 152. This fall of the lever 198 can also close the contact 399.

   Of course, when the lever 198 slides on the upper part of the bar 196, the exhaust is deactivated, so that the rack of the card trolley can move without stopping. for each column of the card, until it meets the notch 197, the card carriage then moving intermittently under the action of a spring and this movement is caused column by column, under the action of the escape mechanism, until the bar 196 is lifted again, due to the fact that at the end of the notch 197 it slides out of said notch.



   It is understood that bars 196 of a different foras and having notches 197 of different lengths can be placed on the rack of the card carriage and, in this way, it is possible to cause intermittent movement and the punching at determined points. of the map according to the conformation of the. bar 196.



   Of course, with the stupid thing. tion described above of the bar 196, after a card is in the position designated by R1 (see Figure 12a) and after it is taken by the pusher 153 of the rack 152 of the card carriage, said card moves immediately thereafter in a continuous movement to the left, until notch 197 engages to stop the card trolley. The card is then in a position where the punching can start,

 <Desc / Clms Page number 33>

 
It is not necessary to fully describe the punch mechanism because it has been fully described in the Lee and Phillips patent referred to above.

     In summary, it comprises a series of punches 200 (see FIG. 2a) which can be lowered to perforate the card, by the action of interposed members 2.01 and of a control bracket 202. The members interposed 201 are pushed / forward as desired to trigger punching, either by means of the keys
203, or by the excitation of electromagnets 204 which choose the punches. The control bracket
202 operates magnetically by an electromagnet 205 which controls the punching. The connections between the control yoke 202 and the armature of the punching electromagnet are shown in Figure 3a and are designated in their together, by 206.

   The excitement of this electromagnet
205 is effected by means of a caliper 207 (see FIG. 3a) capable of oscillating when any .. conque of the interposed parts is pushed forward.



   The oscillation of the caliper 207 can, thanks to a rod 208, close the contact 209 and cause the excitation of the electromagnet 205. As usual in this type of machine, the contact 209 opens. immediately after the electromagnet 205 has attracted its armature and caused the punching.



   Referring to Figure 12, we see that along the rack 152 of the card carriage is a part 210 fixed to the frame of the machine% a plate of insulating material 211. In this plate of insulating material are

 <Desc / Clms Page number 34>

 a certain number of pads 212, of conductive material and, along these pads, there is a common strip 213 of conductive material A contact piece (or brush) 214 is supported by the rack 152 of the card trolley and, when said rack is moves, the part 314 also moves and establishes a connection from the common bar 213 to one of the pads 212,

   according to the column to which the position of the rack 152 of the card trolley corresponds (see also figure 17e),
Referring to the circuit diagram shown in Fig. 17e, it will be seen that the individual pads 212 are connected to sockets, denoted as a whole by 215, and, by means of plug connections 216, to sockets. Specific sockets 215 can be connected to sockets 217. These are in turn connected, by conductors 218, to devices 219 serving to express the numbers and belonging to the counter RH (see FIG. 17d).

   The conductive pads of the devices 219 of the RH counter are all connected, as has been shown, to a series of conductors 220 which lead to the electromagnets 204 intended to select the punches.



   It was explained above how a card is fed into the card receptacle of the punch mechanism. When the card is in the receptacle of the punch mechanism, the card lever 126 (see FIG. 10 and 12a) has closed the contact 125, opened the contact 115 and closed the contact 221. These contacts are maintained in this position; ;,

 <Desc / Clms Page number 35>

    tion by means of uh latch 126a, this latch being connected by - .. shown in FIG.
12a, to a rod 222 which extends to the left end of the rack 152 of the card carriage.



   The rod 222 is connected, at this point, to a branch 223 of an angled lever which extends inwardly to the rear part of the 1st rack 152 of the card carriage. Said bent lever has an extension 224 which cooperates with a closed contact 225 when the rack 152 of the card trolley is in the extreme left position, said contact 225 being open at all other times. It is understood that the latch
126a does not block card lever 126 until rack 152 has moved to the right, so that brand 223 can move to the right and follow the rack.



  As soon as this action takes place, the contacts 115, 125 and 221 are blocked, the contact 125 and the contact 221 being blocked in the closed position and the contact 115 being blocked in the open position, however the presentation of a card in the receptacle of the part of the machine reserved for punching closes the contacts 125 and 221 and opens the contact 115. The cam contact F3 is arranged on the shaft 62 (see figure 9) and it is organized in such a way that it closes immediately after a card is placed in said receptacle.



  When the card is in the receptacle of the part of the machine reserved for punching, the contact 221 is also closed, the closing of this contact (see the circuit diagram of figure 17a) energizes the electromagnet 175 which , we will

 <Desc / Clms Page number 36>

 
 EMI36.1
 remember:; is the one which co.r: uande 1 "clutch a lm turn shown on the fibers s" e 1, 11;

   on the other handp when the excitation of 17 '! lc'c: -oo-, l' 'Il' 1'-1 1 7. e- 'des C0-, J.er <an: E, nt occurs 175, card fine rack 151 is moved to the left and 18. card slide rack 152 is moved to the right
 EMI36.2
 (see figures 12. and 12c ') a In this way the card moves from position R to position; it (see figure 12) and is then entered by the pushbutton 153 which leads it to the position determined by the lower part of the bar 196 The opening of contact 115 (see figure 17a) prevents a new
 EMI36.3
 excitation of the electro "" oim811t 117 of the clutch <1'a, wenée cards and interrupts said:, ;;;

  cn, 1 => cards until the perforations have been completed. The function of contact 125 has been explained above. It is used to force the operation of calculation.



   It is understood that the rack 151 for feeding the cards moves to its position.
 EMI36.4
 tion of the far left when its Ólectro "" [Ümant of the clutch with one turn is excited, When the cr-
 EMI36.5
 mesh 151 of the card feed reaches its. "00 '" extreme left position (see the position of said rack indicated in phantom in figure
 EMI36.6
 bzz cettcr ÉrJailla pushes, to the left, another crÉma.illera designated by 230 by compressing Ul1 spring 231. Against a key shoulder 1. rack 1st :: 00 leans part 232 (lÜ operates a contact. When the rack 230 is moved to the left, contact 116 opens and contact 234 closes.

   The displacement of the rack 230,

 <Desc / Clms Page number 37>

 towards the extreme left, causes, thanks to an intermediate toothed wheel 235, the rotation of a shaft
236 clockwise, to bring an ejector clamp or ejector 237 from the position shown in Figures 12 and 3 to the position shown in Figure 14. When the ejector 237 moves, il / blocked in the position it occupies :, by means of a pawl 238. The ejector 237 being thus blocked, a certain quantity of energy is accumulated in the spring 231 and then the rack 151 for feeding the cards can return to the right-hand position shown in FIG. 12a.



   In the above, it has been explained how the card is lowered to a position where it is ready to receive perforations corresponding to a product.



     At the end of the transfer of the quantities from the LH counter to the RH counter, the brush 96 of the transmitter 95 comes into contact with the pad 97 and energizes the relays PC3, PC1 and PC2. When the PC1 relay is energized, its contact (see figure 17e) is closed and, when the contact 199 of the bar 196 is closed, the current flows from the conductor 110 through the contact 199 now closed, through the closed PCI contact also to be return to the common conductive bar 213. The brush 214 has been brought beforehand from the position shown in FIG. 17e to the extreme right position and then it has been brought back, so as to be placed opposite the suitable pad 212 which is determined by the bar

 <Desc / Clms Page number 38>

 
196.

   The current now flows from the common conductor bar 213, through one of the pads 212 and through the plug connection 216 on the right, to reach the conductor of the group 218 which leads to the device 2.19 intended to express the digits of the highest decimal order. The current then passes through this device and through one of the conductors
220 to energize only one of the electromagnets 204 for the selection of the punch. In this way there is a perforation, with the number representing the highest decimal order of the product.



   Immediately after punching this highest decimal order, the punch exhaust mechanism operates, the brush 214 moves one more stud to the left (see figure 17e) and the excitation occurs the punch selector electromagnet under the control of mechanism 219 which expresses the digits belonging to the immediately lower decimal order of the counter PH, The operation continues until the punching of the complete product is completed ,
After the punching of the quantity corresponding to the order of the number of the product, the lever 198 is raised again, releases the exhaust and allows the rack 153 of the card trolley to pass, thanks to the force of its spring,

   in its extreme left position (see figure 12).



   The card which has just been perforated then enters the jaws of the ejector (see FIG. 14), R2 indicating the card in this position.



  The displacement of the rack 152 towards its extreme left position closed the contact 225 which had been open before, the fact that the contact

 <Desc / Clms Page number 39>

        : 5 se: closes establishes a circuit which starts (see the connection diagram in figure 17a) from conductor 110 and passes successively through contact 234 now closed, through contact 225 also now closed, through electromagnet 240 which orders the rejection of the cards, to end up with the land.



  The electromagnet 240 (see figure 2) has its armature connected to a connecting rod 241 which, when drawn to the right, from the position shown in figure 14, can oscillate the pawl 238 in the direction counterclockwise and release the ejector 237 allowing the shaft 236 to rotate counterclockwise, under the action of the spring 231. The ejector 237 then rocks to come to occupy the position shown in FIG. 2 and, just at the moment when it reaches its extreme position, a stop 242 opens the jaws of the ejector and allows the card which has just been seized by it to fall into the unloading receptacle 243.

   The discharge of the card by the ejector is also facilitated by the action of the fingers 244 (see figure 14) which rotate counterclockwise owing to the suppression of the excitation of the ejector. ejector electromagnet 240 This suppression of the excitation of the ejector electromagnet 240 is brought about by the opening of the contact 234 which, it will be remembered, opens when the creation of the ejector. mesh 230 moves to the right following the oscillation made by the ejector to return to the position shown in Figure 2.

   At the same time as the contact 225 closes, the branch of

 <Desc / Clms Page number 40>

   elbow lever 223 (see figure 12) esg made to oscillate by the rack 152 of the card trolley to release the latch 126a and to allow the contact 125 to reopen, the contact 115 to close and the contact 221 to close. reopen. The fact that the contact 115 closes causes a new energization of the electromagnet 117 of the card feed clutch. This new excitation is prevented, however, until contact 116 has closed again, which ensures that a card is rejected by the ejector and said ejector is returned to the position where it can receive a new card. .



  A new cycle of card handling and calculation follows and the operation continues until the reserve of cards in the magazine is exhausted.



    At this moment the magazine contact 79 opens and interrupts further operation of the machine The suspension of operation at any time
 EMI40.1
 that peat / # zz! X0J \ ÂWA-k, be effected by opening contact 250 of the stop button.



   Usually retort in these machines, opening contact 79 or opening contact 250 of the stop key does not stop the machine until the analysis of the map, the calculation and the punching. swimming have been completed on the card which is currently in the machine.
 EMI40.2
 



  GENERAL INFORMATION AND ADJUSTMENT OF THE IIACHI1IJ "'E
IN TIME.



   If we refer to ligure 16, or see that on the diagram of adjustment in time, we have defined seven cycles of counters. this is

 <Desc / Clms Page number 41>

 the minimum number of counter cycles for a multiplication with three significant digits in the multiplier. During the first counter cycle which is represented by the leftmost counter cycle area on the diagram, the machine counters are reset to zero. During this same cycle, the pusher advances the cards towards the feed rollers and, during the next counter cycle, the card is analyzed by the brushes, the quantities being introduced into the counting or receiving devices MP and MC.

   In the cycle of counters following the card - 4 te is withdrawn from between the rollers and transported to the receptacle of the part of the machine intended for punching. After the card has reached this part of the machine reserved for punching, the contact group 115, 125 and 221 operates. These contacts remain blocked during all subsequent calculation cycles and while the card is punched.



     During the operation of the machine, the feeding of the cards to the punching position can take place while the calculation operations are being carried out. In fact this operation takes place in the first phases of the computation cycle. As shown in the timing diagram, three counter cycles were used for the multiplication and for entering the quantities from the LH counter into the RH counter. The number of such cycles which will be used, however, depends on the size of the multiplier and the number of significant digits in the multiplier.

   If the multiplier was 4.321, we would use four xx xxx xxxxx counter cycles instead of three; if it was about

 <Desc / Clms Page number 42>

 larger multiplier, the organization of the cycle control should be extended in a corresponding way.

   To simplify the connection diagram, three control cycles have been shown. After the calculation cycle, the next counter cycle is used for transferring quantities from the LH counter to the RH counter. .After that the punching takes place in the lukewarm machine reserved for punching and, after this punching is carried out, the part of the machine which handles the card waits for the completion of the punching operation, when the punching is completed and when the punched card has been rejected into the discharge receptacle 243, a new card handling operation begins.



     It will be noted that bars 196 provided with several notches 197 may be provided. These multi-notch bars are well known in the industry.In these multi-notch bars, one of the notches can be arranged for calculation and the other can be arranged to allow the operator to intervene. the escape to stop the rack of the card trolley and to allow the operator to introduce quantities by acting with the hand on the keys 303. It is understood that this operation can be done without any no product entry confusion, by placing the plug connections 316 in the appropriate columns in which it is desired to make the perforations.

   Consequently, when these plug connections are placed in a suitable way, the closing of the contact 199 of the bar 196 is rendered inoperative to start the punching.

 <Desc / Clms Page number 43>

 of a product. It is clear that in the bars
196 any number of notches can be made, so that the punching can take place in one or more places on the card.



   CLAIMS.



   1.- Accounting machine in which the factors of a calculation are recorded and introduced from a registration card, machine which multiplies the factors introduced and carries out the composition of a product, said machine being characterized in that it comprises organs which express the product, column by column, from the organs which make up the product and that it comprises organs for recording the product column by column. column.


    

Claims (1)

2. - Accounting machine according to claim 1 and characterized in that the recording units record the product, column by column, on the same registration card, the factors of which have been noted. 3. - Accounting machine operating by means of registration cards, according to claim 1 and characterized in that the registration of the product on the registration sheet is effected by means of a per- mechanism. driller who marks products, by punching, as a result of the successive operation of the same set of punches. 4.- Accounting machine operating by means of registration cards, according to claim l, and characterized in that it comprises manual members for recording <Desc / Clms Page number 44> additional information on the registration card that receives the product. 5. - Accounting machine operating by means of registration cards, in accordance with. claim 1 and characterized by the fact that it comprises, on the one hand, a mechanism intended to pass recording cards successively through the machine and, on the other hand, members for raising and inserting into the machine, from each card, by concurrent exploration operations :, the punching units for the products carrying out, column by column, successively and automatically, the perforations corresponding to products comprising several orders of 'units. BRIEF SUMMARY. Accounting machine comprising units which successively pass punched cards under analyzer units, units which multiply the number recorded by an arbitrary multiplier and units which cause holes to be punched corresponding to the product of the multiplication on the same card whose multiplicand was noted by the analysis units.