BE417326A - - Google Patents

Description

       

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  Calculator.



   The present invention relates to machines serving to multiply two factors, one or both of which belong to a non-decimal system, and it aims to provide a mechanism for the accumulation of the different factors. laying down partial products obtained during such a multiplication.



   According to the present invention, a mechanism for the accumulation of partial products resulting from the multiplication of two factors, one or both of which belong to a non-decimal system, comprises a number of series

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 denominations of accumulator cells, each of which comprises an element receiving each of the components of the final product which have the given denomination, the elements of a series being interconnected in such a way that one element receives other elements of the same series the amounts received by them, the mechanism comprising., in addition, a device for the transfer of the required number of units from one denominational series to the next, when the total amount received by the first of these series exceeds the number of units of the denomination considered.



   So that the invention is well understood, we. will hereinafter describe an application to a machine carrying out multiplications of amounts expressed in English currency, as described in English patent no. 440.180, and reference is made to the accompanying drawings in which:
Fig. 1 shows the mechanism in side elevation with one of the side walls of the frame removed;
Figs. 2 and 3 together, represent schematically the arrangement of the plates of the mechanism according to the invention, these plates being intended to receive the various components of partial products;
Fig. 4 is a side elevation with the lower nameplates removed.



   Fig. 5 is a view showing the plate corresponding to the tens of shillings of the final product, as well as the related mechanism for the transfer of one or more units to the denomination "units of pounds".



   Fig. 6 is a plan view of the mechanism according to the invention.



   Figs. 7, 8 and 9 show the mechanism which controls a recording device to which the final products are transferred;

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Fig. 10 shows a mechanism which controls the "units of pounds" plate of the final product.



   In order to facilitate understanding of the invention, the parts of the machine described in British Patent No. 440,180 will be designated, in the present description, by the same reference numerals as in British Patent No. 440,180.



   In the construction shown in the drawing, the denominational pairs of toothed quadrants 150 and 151 described in British Patent No. 440,180 are replaced by denominational pairs of arms 600 which are hinged to the shaft 272 and to which are hinged, at 374, the connecting plates 146 and 147, each of which has a slot 149, 149a in which a lug 152 slides. As described in UK Patent No. 440,180, the lugs also slide in slots 144, 144a in the radial arms 141, 142 of angled levers actuated from the multiplier keys 64.



   When the pins 152 are brought into position or located using the keys 64 as described in UK Patent No. 440,180, the arms 600 of all denominations are released to the action of springs 207 and p. - vote clockwise, until their pins 152 reach the bottom of the slots in the corresponding plates for partial products, 115, 115a, 116, 116a and so on.



   As explained in British Patent No. 440,180, these partial product plates are arranged in pairs, each pair corresponding to one of the denominations of the English currency.



  In each pair, one of the plates, for example 115,

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 gives the component, of the denomination considered, of a multiple of a digit of the multiplicand of the same denomination, while the other plate, for example 115a, gives the component, of higher denomination, of the same multiple .



   Thus, when the lugs 152 have reached the bottom of the slots presented to them by the corresponding partial product plates, the corresponding arms 600 are positioned so as to represent the various components of the final product.



   The object of the present invention is to provide a mechanism capable of adding these components to form the final product.



   In the machine described in British Patent No. 440,180, the pins 152 are normally located just outside the peripheries of the corresponding partial product plates, 115, 115a and so on, so that when one of the product plates partial is made to represent zero, the corresponding lug 152 does not perform any movement.



   When the mechanism according to the present invention is applied to the machine described in UK Patent No. 440,180, each second lug 152, starting with the one which cooperates with the partial product plate 115, is normally located at such a distance of the periphery of the corresponding partial product plate that, when this plate is made to represent zero, the corresponding lug 152 moves by a quantity representing one unit, before being stopped by the meeting with the periphery of the plate.



   The purpose of this additional movement corresponding to a unit will be explained later.



   The mechanism according to the invention comprises a series of sliding plates 601 to 614 mounted in a frame 616

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 attached to the side walls of the machine described in UK Patent No. 440,180.



   A series of vertical slats 618 to 628, including one for each arm 600, are mounted so as to be able to slide vertically in a guide comb whose ends are carried by the side walls of the frame 616.



  Each slat 618 to 628 is pulled down by a spring, and lifted by the action of the corresponding arm 600, by means of the following mechanism (Fig. L):
The upper end of each arm 600 is hinged, at 630, to one of the arms of an elbow lever 631 freely pivoting on a rod 632 which is mounted transversely between the side walls of the frame 616.



   The lower ends of slats 618, 619, 621, 623,626 and 627 (Figs. 2 and 3) rest on the upper ends of rods 635 hinged to the corresponding angled levers, as in Fig. 1 shows this for the slat 618. The slats 620, 622, 624, 625 and 628 are located away from the other slats, and the lower end of each of these slats rests on a lateral extension 637 of the green rod. corresponding tical 635, the lower end of which is articulated to the corresponding elbow lever 631.



   Thus, when an arm 600 moves clockwise and is stopped because its corresponding lug 152 comes to rest on one step of the corresponding partial product plate 115 etc, the corresponding slat 618 at 628, is raised by an amount commensurate with the number represented by the movement of the arm 600.



   The action of slats 618 to 628, which may be called positioning slats, will be best explained by the example of slat 618 and of plate 601 (Fig. 1), which operate

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 for the eighth of a penny (1/8 d) component of any multiple of an eighth of a penny.



   Plate 601 has a series of degrees 638 made in the plate, and slat 618 carries a finger 618a whose normal position is such that it engages the vertical face of lower degree 638, as shown in FIG. . 1.



   When the pin 152 which cooperates with the partial product plate 115 (this being arranged to represent the eighth penny component of the eighth penny multiples), moves by an amount which represents 3 units, the corresponding arm 600 moves by an amount of 4 units, and the finger 618a is positioned so that when the plate 601 moves to the right in the manner explained below, the vertical face of the fourth degree 638, from the bottom, is encountered by the finger 618a and stops the plate 601 after a movement of 4 units.



   In order to explain the mode of operation of all the plates 601 to 614, reference will be made to Figs. 2 and 3 which show schematically, in perspective, the plates and the organs with which they cooperate, and we will describe the operations carried out to accumulate the partial products resulting from the multiplication of ± 24.15.10d by 7. The ma- china being constructed to operate in eighths of a penny, the amount 3 / 4d appearing in the multiplicand ± 24.15.103 / 4d will be treated as 6 / 8d, that is to say as comprising 6 units in the denomination "eighths of a penny ".



   The partial products obtained on the occasion of the aforementioned multiplication are as follows:

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 EMI7.1
 
<tb> hui <SEP> lukewarm <SEP>
<tb>
<tb> shillings <SEP> shillings <SEP> pence <SEP> mes <SEP> de
<tb>
<tb> 100 <SEP> 10 <SEP> units <SEP> tens <SEP> units <SEP> penny
<tb>
<tb>
<tb>
<tb>
<tb>
<tb>
<tb> 6 / 8d <SEP> x <SEP> 7 <SEP> - <SEP> 5 <SEP> 2 <SEP>
<tb>
<tb>
<tb>
<tb>
<tb> lOd <SEP> x <SEP> 7 <SEP> - <SEP> 5 <SEP> 10
<tb>
<tb>
<tb>
<tb>
<tb> 5shx7 <SEP> - <SEP> 3 <SEP> 5
<tb>
<tb>
<tb>
<tb>
<tb> 10sh <SEP> x <SEP> 7 <SEP> - <SEP> 3 <SEP> 1
<tb>
<tb>
<tb>
<tb>
<tb> f4 <SEP> x <SEP> 7 <SEP> - <SEP> 2 <SEP> 8
<tb>
<tb>
<tb>
<tb>
<tb> ± 20 <SEP> x <SEP> 7 <SEP> - <SEP> 1 <SEP> 4
<tb>
 
All these components must be added in their correct name in order to obtain the final product,

   and it will be noted that in some denominations the sum of two components exceeds the greater number of units of that denomination, so that one unit must be carried over to the higher denomination.



   As will now be explained with reference to Figs. 2 and 3, the mechanism according to the invention comprises a device for carrying out this transfer from one denomination to the higher denomination, if such a transfer is necessary.



   Referring to Figs. 2 and 3, it will be assumed that the partial product plates, 115, 115a and so on, are arranged to represent the partial products of the multiplication ± 24.15.104 x 7; in this case, the various arms 600, which each correspond to a partial product plate, move, in the direction of clockwise, amounts representing the various partial products detailed above, but each second arm 600 , starting with the one corresponding to plate 115, moves one more unit.



   All the arms 600 having been placed in position due to the penetration of their corresponding lugs 152 in the notches of the partial product plates available to them, the arm 600 of the eighths of a penny will have moved in the direction

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 clockwise, by an amount representing 2 + 1 = 3 units, and hence the corresponding positioning slat, 618, lifts an amount equal to the height of three degrees 638 of plate 601.



   The height of the degrees 638 is equal to their width so that when the plate 601 moves rearward under the action of a spring 60 la, as explained below, the vertical face of the third degree from the bottom comes strike the finger 618a of the slat 618 and stops the plate 601.



   The amount of two eighths of a penny must be transferred to a wheel marking the eighths of a penny and belonging to a recorder of the final product and, for this purpose, a control rack 649 is provided for this wheel which is actuated by the plate 601 as follows:
Plate 601 has a second series of degrees 660 with which a finger 649a of rack 649 cooperates. This finger 649a is normally located at the top of a slot 660a made in plate 601 in the vicinity of degrees 660, and having a depth such that its bottom is at the level of the foot of the lower degree 660. The purpose of this slot is to allow the rack 649 to be lowered in order to reset the recording device to zero and this resetting operation will be described. further.



   The highest of the 660 degrees is the N .0 degree, the next is the N .1 degree, the third is the Ne.2 degree and so on.



   As already described the plate 601 has been stopped by the meeting of the third degree 638. from the bottom, with the finger 618a of the positioning slat in position 618, and this position of the plate 601 brings the third right degree 660 directly . below finger 649a of control rack 649.

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   Then, using a mechanism described below, the rack 649 is lowered and it is stopped by the meeting of its finger 649a with the degree 660, the third from the right. This is degree N. 2, and therefore the position of rack 649 represents two units, that is to say 2 hui tths of a penny.



   Note that finger 649a is normally located a degree width to the right of degree N. 0 (which is the highest of degrees 660) and that, therefore, plate 601 must be moved wide. of degree to the right to bring degree 0 under finger 649a. It is for this reason that the corresponding arm 600 can move by an amount which represents the effective number increased by one.



   In the example cited, plate 601 has moved ¯ three degrees. but the rack 649 has been arranged so as to represent 2 eighths of a penny.



   The rack 649 being thus put in position, the corresponding wheel of the recorder is brought into engagement with the teeth of the rack and the latter is brought back to its normal position, which has the effect of transferring an amount of two eighths of a penny on the recorder wheel which corresponds to the denomination "eighths of a penny".



   As already stated, the pence component of the product of multiplying d (i.e. 6 / 8d) by 7 is 5 pence., And therefore the arm 600 for the pence component of multiples of eighths of a penny moves clockwise by five units and thereby the corresponding positioning slat 619 is raised to an extent equal to the five degree height 639 of the corrugated plate. respondent 602.

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   This plate 602 operates only for pence components of multiples of eighths of a penny, not for the number of pence of the final product; the plate 602 therefore does not have degrees analogous to the degrees 660 of the plate 601, nor a control rack for actuating a recording wheel.



   Plate 602 simply serves to carry over to the next plate, 603, the pence component, or 5, of the product of multiplying 3 / 4d or 6 / 8d by 7.



   Plate 603 receives the pence component of the pence number of the multiplicand, multiplied by 7, as well as the pence component of multiples of eighths of a penny, carried by plate 602.



   For this purpose, the positioning slat 620 of the plate 605 is mounted so as to slide vertically along the plate 602, by means of lugs and slots 620b, so that when the plate 602 moves towards the right, the positioning slat 620 of the plate 603 participates in this movement and drives the plate 603 by the same amount.



   Note that, although the slat 620 moves laterally with the plate 602, the corresponding arm 600 can still impart vertical movement to the slat 620 because, as the latter moves with the plate 602, it slides. along the side appendage 637 of the vertical guide 635.



   As already stated, the vertical batten 619 has moved upwards by an amount equivalent to six degrees 639 and, therefore, the plate 602 moves six degrees to the right, before being stopped by the finger 619a of the slat 619, and it drives, in its movement, the slat 620

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 which, by its finger 620a moves the plate 603 by six degrees to the right.



   The pence component, obtained by multiplying the number of pence (lOd) of the multiplicand by 7, is 10d because 10d x 7 = 70d = 5sh.10d.



   Therefore, the arm 600 which corresponds to the partial product plate 116 moves in a clockwise direction by an amount equivalent to 10 + 1 = ll units, and the positioning slat corresponding 620 is raised eleven degrees, before its finger 620a is in front of the eleventh degree, from the bottom, of a series of 640 degrees formed in the plate 603.



   Plate 603 therefore moves to the right by a further amount of eleven degrees but, having already been moved five degrees with plate 602, its total movement is therefore 11 + 5 = 16 degrees.



   This 16 degree movement is, in reality, 15 pence, because the displacement of one degree is necessary to bring the degree 0, of the series of degrees 661, below the finger 650a of the corresponding rack 650. Now, 15d = 1 sh.Zd, and it is therefore necessary to arrange the rack 650 to make it represent 3d, and transfer 1 unit to the units of the denomination "shillings".



   The maximum amount that plate 60d can receive in pence is lld through positioning slat 620, and 7d through plate 602, since 7d is the maximum component: 'in pence d 'any multiple of an eighth of a penny (7 / 8d x 9 = 77 / 8d). Therefore, the maximum movement of plate 603 is equivalent to 11 + 7 + 1 = 19 degrees, which would represent an amount of 18d = lsh.6d.

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   In order to transfer the number of pence of the final product to the corresponding register wheel, there are provided, in the plate 603, two series of degrees designated by 661 and intended to cooperate with the finger 650a of the corresponding rack 650.



   The first series has twelve degrees which represent 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 and 11 pence respectively, and the second series has seven degrees which represent 0 , 1, 2, Z, 4, 5 and 6 pence, respectively.



   In the example described, the plate 603 has moved 16 degrees and therefore the fourth degree of the second series of degrees 661, which represents 3d, is brought under the finger 650a of the rack 650, which is thus brought to the position corresponding to 3d.



   In order to be able to carry out the necessary transfer of a unit to the denomination "shillings", the plate 603 is provided with a slot 667 of the form shown, which cooperates with a finger 668 of an arm 669 fixed on a sleeve 671, which can turn on a shaft 670 carried by the frame 616.



   In the plan view (Fig. 6), the arm 669 is shown to the left of the plate 603, but, in the perspective view (Fig. 2), the arm 669 is drawn, for clarity. - tee, to the right of plate 603.



   Slot 667 has a portion 667a which acts as a cam and is disposed such that when plate 603 moves to the right more than 12 degrees, i.e. when it registers more than lld, the finger 668 climbs on the cam, against the action of a spring 669a, and turns the sleeve 671.



   This rotational movement of the sleeve 671 transfers 1 shilling to units of the denomination "shillings", and this

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 by means of a mechanism which will be described below.



   In the example mentioned of the multiplication of ± 24.15.103 / 4 x 7, the 600 arm of the shilling units component of the multiple of pence, will have moved, clockwise, by one. quantity of 5 + 1 = 6 units; corresponding positioning slat 621 will therefore have risen by six degrees, to place its finger 621a at the level of the sixth degree, from the bottom, of the series of degrees 641 formed in the plate 604, this plate being intended to receive the com - posing, in units of shillings of a multiple of a pence. When this plate 604 moves to the right, it is therefore stopped after moving equal to the width of six degrees 641.



   For operations involving the component in units of shillings of any multiple of a number of units of shillings of a multiplicand, a plate 605 is provided which operates as follows:
The component in units of shillings of the multiple of a pence, and the component in units of shillings of the multiple of units of shillings must be added together to form the number of units of shillings of the final product but, as in the present case the sum of two components in pence exceeded lld, a further 1 shilling should be added to the number of units of shillings.



   As already explained, the plate 604 of the component in units of shillings of the multiple of pence moves, in the example under consideration, six degrees to the right. A positioning slat 622 for the shilling unit component of the shilling unit multiple is disposed so as to slide vertically along the plate 604.



  This slat 622 is assembled to the plate 604 by means of

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 slots 622b in which lugs carried by the plate 604 engage. The slat 622 carries a bar 622a cooperating with a series of degrees 642 formed in the plate 605 already mentioned, so that when the plate 604 moves. this six degrees to the right, the plate 605 also moves six degrees to the right.



   However, the component in units of shillings of the product of multiplying the number of units of shillings by 7 is 5; therefore, the corresponding arm 600 will have advanced 5 degrees and raised the plate positioning slat 605 by a height of five degrees. In this connection it should be observed that the three plates 604, 605 and 606 serve, together, to put in position a single control rack 651 which is moved by the plate 606; therefore, it is only necessary that one of the plates 604,605 or 606 make the additional one-degree width movement in order to bring the plate 606 from the position where the slot 662a is below the finger 651a. , at the position where the 0 degree of the 662 series is below the same finger 651a.

   The plate 604 having made this additional movement of the width of one degree, the plate 605 or the plate 606 no longer needs to perform such a movement.



   For this reason, and as already explained, the positioning slat 622 of the plate 605 only rises by five degrees and, as the plate 605 moves to the right, it continues the movement until the fifth degree 642 meets finger 622a of slat 622, plate 605 having moved, at this time, five degrees to the right, relative to plate 604. Now, plate 604 had already moved six degrees towards to the right, so that the total movement of plate 605 is eleven degrees to the right.

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   A plate 673 is arranged so as to be able to slide vertically along the plate 605. This plate has slots 674 which receive lugs of the plate 605, and in a slot 675 of the plate 673 engages a finger 672a. attached to an arm 672 which the sleeve 671 carries.



   It will be remembered that the pence plate 603 has moved by an amount in excess of lld and therefore the finger 668 of the arm 669 attached to the other end of the sleeve 671 is mounted on the cam 667 a. the slot 667, thus rotating the sleeve 671. This rotational movement of the sleeve 671 lifts the arm 672 integral with the sleeve and, through the intermediary of the finger 672¯a at the end of the arm, also lifts plate 673.



   Plate 673 carries a side rod 673a which normally engages the vertical surface of one degree 655 formed in plate 606 corresponding to products expressed in units of shillings. When the stage 673 is lifted, the rod 673a moves upward by an amount equal to the height of degree 655, and allows the plate 606 to move one degree to the right, as shown. on the drawing.



   As already indicated, the plate 605 has moved to the right by an amount corresponding to eleven degrees and has brought with it the plate 673 as well as the plate 606 connected to the plate 673 by the rod 673a. Further, the plate 673 has been lifted one degree by the rotation of the sleeve 671 and, therefore, the plate 606 has further moved one step to the right, thereby effecting an equivalent movement. , in total, at twelve degrees.



   It should be noted, in this regard, that the slot 675 of the - plate 673 is of sufficient length to allow the finger

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 672a to remain in the slot during the entire maximum displacement of the plate 605.



   The amount represented by the displacement, equivalent to twelve degrees, of plate 606 must be transferred to the "units of shillings" wheel of the final product recorder and, for this purpose, plate 606 shows two sets of ten. degrees 662 with which a finger 651a of a control rack 651 for the shillings unit registering wheel cooperates. Finger 651a normally sits above a deep slit 662a in plate 606 and for this reason in the twelve degree movement the first degree only serves to bring finger 651a above the degree " zero "of plate 606. Therefore, the actual movement of plate 606 is only eleven shillings.

   This amount of eleven shillings consists of one unit in the denomination "shillings" and one unit in the denomination "tens of shillingsn; the twelve degree movement of the plate 606 must therefore bring the rack 651 into a position representing one shilling and must, at the same time, transfer a unit to the denomination “tens of shillings.” Plate 606 having moved twelve degrees, it is the second degree of the second series of degrees 662 which corresponds to 1 shilling , which will be brought below the finger 651a of the rack 651, so that the latter is placed in the "1 shilling" position.



   In order to carry out the necessary transfer of a unit to the denomination tens of shillings ", the plate 606 has a slot 676 similar to the slot 667 of the pence plate 603. In this slot 676 is engaged a finger 677 carried. by an arm 678 which is attached to a sleeve 679 mounted loosely on the shaft 670 (Fig. 6). The slot 676 has a cam-shaped portion 676a, so arranged that when the plate 606 comes together. moves to the right more than ten degrees, that is

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 that is, when it registers more than 9 shillings, the finger 677 moves up on the cam 676a, against the action of a spring 678a, and turns the sleeve 679.

   This rotation of the sleeve 679 transfers one unit to the denomination "tens of shillings", using a mechanism similar to that already described for the transfer of 1 shilling from the denomination "pence" to the denomination "units. of shillings ".



   We will now consider the denomination of tens of shillings. "The number of tens of shillings in the final product is formed by two components, namely the component in tens of shillings of the multiple of units of shillings, and the component in tens of shillings of the mul- tiple of tens of shillings In the example considered, the component in tens of shillings of the multiple of units of shillings is 3 (5sh x 7 = 35 sh), and the component in tens of shillings of the multiple of tens of shillings is 1 (lOsh x 7 = f 3.10.0).



   Accordingly, the arm 600 cooperating with the partial product plate 117a - which has degrees representing the components in tens of shillings of multiples of shillings - moves clockwise. , 3 + 1 degrees. As a result, the corresponding positioning slat 623 rises by an amount equal to the height of four degrees 643 of the corresponding plate 607.

   Neighboring plate 608 receives the component, in tens of shillings, of the number of tens of shillings of the multi- plicand, multiplied by 7, as well as the component, in tens of shillings, of the number of units of shillings of the mul- multiplicand, multiplied by 7. The positioning slat 624 for the plate 608 is mounted so as to slide vertically along the plate 607, by means of pins and slots 624be so that when the plate 607 moves to the

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 Right, the positioning slat 624 of the plate 608 participates in the movement and, with it, the plate 608 moves by the same amount.



   As already stated, the positioning slat 623 has been lifted from the height of four degrees 643 and, therefore, the plate 607 moves four degrees to the right before being stopped by the finger 623a of the slat 623. , the plate 607 driving, in its movement, the position slat 624 which, by its rod 624a, also moves the neighboring plate 608 by four degrees to the right.



   The component, in tens of shillings, of the number 1 of tens of shillings of the multiplicand, multiplied by 7, is 1 (lOsh x 7 = ± 3.10.0). Therefore, the arm 600 corresponding to the partial product plate 118 moves in a clockwise direction shown by an amount corresponding to 1 unit, since the additional displacement of 1 unit. at zero position the final product plate 609, which corresponds to the denomination "tens of shillings", has already been effected by the plate 607. As a result, the corresponding positioning slat 624 is raised one degree to the other. from the foot of a series of degrees 644 of the plate 608, and the plate 608 can therefore move one degree to the right, relative to the plate 607.

   However, since plate 607 has already made a movement of 4 degrees to the right, the total movement of plate 608 is 5 degrees to the right.



   It will be recalled that plate 606, belonging to the units of shillings of the final product, has moved by more than nine units; that, therefore, one unit should be reported under the denomination "tens of shillings" and that this movement of plate 606 for units of shillings caused a rotational movement of sleeve 679.

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   The rotational movement of the sleeve 679 accomplishes the transfer of one unit to the denomination "tens of shillings" by the following means:
To the sleeve 679 is fixed an arm 680 which carries a finger 681 engaged in a slot 682 of a plate 683, the latter being able to slide vertically along the plate 608, by means of lugs and slots 684. The plate 683 carries a rod 683a which engages a degree 656 formed in the plate 609.



   When the plate 608 moves 5 degrees, as described, the plate 609 participates in this movement due to the connection between the plates 608 and 609, constituted by the rod 683a. Rotational movement of sleeve 679 has lifted arm 680 and platen 683 so that rod 683a is lifted to the height of one degree 656, thereby allowing end product plate 609 to move one degree. more degree, bringing the total movement of plate 609 to six degrees.



   In order to transfer the number of tens of shillings of the final product to the corresponding register wheel, a series of teeth 663 is formed in plate 609 which cooperate with a finger 652a of a control rack 652.



   In the denomination "tens of shillings" one can register only 1 or 0; the teeth 663 therefore represent, alternately, 0 or 1 and a slot 663a, in front of which the finger 652a is normally located, is provided next to the tooth representing 0.



   It is clear that the maximum amount that the tens of shillings plate 609 can receive under the denomination "shillings" is 8 units. These 8 units, which represent 80 shillings, are therefore worth ± 4. 0.0 and consequently, it is necessary to

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 If the case arises, the transfer of 4 units to the denomination of units of pounds is possible. "Moreover, when the number of tens of shillings is expressed by an odd number, it is not only necessary to carry over to units of pounds. , but the denomination "tens of shillings" must mark 1, for example, 30 shillings = # 1.10.0, 50 shillings = ± 2.10.0, and so on.

   Therefore, the teeth 663 are arranged as follows: - 0,1,0,1,0,1,0,1,0, and a series of grits 657 are formed in the plate 609, with which comes engages an ear 685 carried by an arm 686 which is fixed to the sleeve 687 loose on the shaft 670. The arm 686 is biased upwards by a spring not shown. As the plate 609 moves until the ear 685 leaves one of the degrees 657 and engages the next degree, the resulting rotational motion for the sleeve 687 has the effect of carrying one unit to the denomination. "units of books".



   Although 657 degrees have the same height as 644 degrees, these 657 degrees, except for the lower one, are twice that of teeth 663, and the lower 657 degree is three degrees wider than 'a tooth 663.



   When the plate 609 is placed so that the finger 652a is above the first or second of the teeth 665, from the right, it means an amount of 0 or 10 shillings, and no carry over is to be performed in units of pounds. It is for this reason that the lower degree 657 should be at least twice that of a tooth 663 in width. However, the plate 609 moving one tooth before the first of the teeth 663 is below the tooth. finger 652a, the lower degree 657 is given a width three times that of a tooth 663.

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   On the other hand, if the plate 609 moves until the finger 652a is above the third or the fourth tooth 663, it means that the product is 20 shillings or 30 shillings, and in both In this case a unit must be referred to the denomination "units of pounds !!; therefore, the second degree 657 is given a width double that of a tooth 663, and it is the same for all the other degrees 657.



   As already explained., The tens-shingle plate 609 has moved, in the example considered, by six degrees, which brings the sixth tooth 663 below the finger 652a of the control rack 652 for the tens of shillings. The rack is therefore placed at 1, that is to say at 10 shillings. At the same time, the six degree movement of the plate 609 has brought the ear 685 of the arm 686 into engagement with the third degree 657 from the bottom, which rotates the sleeve 687 to defer ± 2 to the denomination. tion "units of pounds !!, by means of the mechanism described below.



   In the mentioned example of multiplying # 24.15.103 by 7, the pound unit component of the number
4 of tens of shillings is 3 (lOsh x 7 = ± 3.10.0). Therefore, the arm 600 for the pound unit component of the multiple of tens of shillings has moved clockwise by an amount corresponding to 3 + 1 = 4 units, and the corresponding positioning slat 625 has raised four degrees to bring its shank 625a to face the fourth degree, from below, of a series of degrees 645 formed in the plate 610 which receives the component in units of pounds a multiple of ten shillings.

   When this plate 610 moves to the right, it is therefore stopped

 <Desc / Clms Page number 22>

 after a movement equal to the width of four of 645 degrees.



   For operations involving the book unit component of any multiple of the book unit number of a multiplicand, a plate 611 is used which operates as follows:
In the example considered, the component in pound units of the number 4 of pound units is 8 (± 4 x 7 = ± 28).



   The component in units of pounds of the multiple of tens of shillings, and the component in units of pounds of the multiple of units of pounds must be added together to give the number of units of pounds of the final product but, as in the example considered , the tens of shillings plate of the final product 609, has moved by an amount representing 2.10.0, we must still add ± 2 in the denomination the units of pounds. "As already mentioned, this carry over of ± 2 is effected by means of the sleeve 687, while the pound unit component of the multiple of tens of shillings is received by the plate 610 and the pound unit component of the multiple of pound units is received by the plate 611.



   As already explained, the plate 610 for the pound unit component of the multiple of tens of shillings moves, in the example under consideration, four degrees to the right. A positioning slat 626, for the book unit component of multiple book units, is arranged to slide vertically along the plate 610. The slat 626 is joined to the plate 610 at the bottom. means of slots 626b in which lugs of the plate 610 engage. The slat 626 carries a finger 626a cooperating with a series of degrees 646 formed in the plate 611 already mentioned, so that when the plate 610 moves four degrees to the right, plate 611 moves equally

 <Desc / Clms Page number 23>

 four degrees to the right.



   As already explained, the component in units of pounds of the product resulting from the multiplication of the number of units of pounds, that is, 4, by the multiplier 7, is equal to 8; therefore, the corresponding arm 600 moves eight degrees and lifts the positioning slat 626 of the plate 611 by an eight degree height. Thus, when the plate 611 moves to the right, it continues the movement until it meets the eighth degree 646 with the finger 626a of the slat 626, and by this time the plate 611 will have moved eight degrees. to the right of plate 610. But this has already moved four degrees to the right, so the total displacement of plate 611 is twelve degrees to the right.



   A plate 688 is arranged so as to be able to slide vertically along the plate 611. This plate has slots 689 cooperating with lugs of the plate 611, and a finger 691 carried by an arm 692 fixed to the sleeve 687, is engaged in a slot 690 of the plate 688.



   It will be recalled that the tens of shillings plate 609 has moved by an amount sufficient to allow the ear 685 of the arm 686 to rise to the meeting with the third degree 657 of the plate 609. Rotational movement of sleeve 687 lifts stage 688 through finger 691, to an extent sufficient to transfer ± 2 to plate 612 which corresponds to the units of pounds of the final product.



   In order for the plate 612 to be able to effect this movement relative to the plate 611, the plate 612 has a cam slot 693a cooperating with a rod 695 of the plate 688, such that when the latter is lifted by the plate.

 <Desc / Clms Page number 24>

 rotation of the sleeve 687, the thrust of the rod 693 on the edge of the slot 693a moves the plate 612 to the right relative to the plate 611, and this by a number of degrees which depends on the order of the degree 657 with which ear 685 is engaged.



   As already mentioned, the plate 611 has already shifted to the right by twelve degrees, bringing with it the plate 688 and, therefore, also the plate 612 connected to the plate 688 by the rod 693. In addition, the platen 688 was lifted two degrees by the rotation of sleeve 687 which further shifted plate 612 two degrees to the right, bringing the total movement thereof to fourteen degrees.



   The amount of this fourteen degree movement of plate 612 should now be transferred to the final product recorder pound wheel, and for this purpose plate 612 has degrees 664 arranged in two series, these degrees cooperating with finger 653a of a control rack 653 for the book unit register wheel.



   In the example considered, the plate 612 has moved fourteen degrees and therefore the fourth degree of the second series of degrees 664, which represents ± 3 is brought below the finger 653a of the rack 655 which is thus placed so as to mark ± 3.



   In order to transfer the required number of units to the denomination "tens of pounds", the plate 612 comprises a slot 694 similar to the slot 667 of the pence plate 603, this slot 694 cooperating with a finger 695 and a sleeve 697 for transfer a unit to the denomination "tens of pounds, which is done in the same way as the transfer of a shilling, from pence, to the denomination Units of shillings".

 <Desc / Clms Page number 25>

 



   The plates which receive the components in tens of pounds of multiples of units of pounds and of multiples of tens of pounds are shown at 613 and 614 respectively, in FIG. 3, and the position slats for these plates are designated 627 and 628; in this same Figure, the mechanism for transferring a unit from units of pounds to tens of pounds is designated by the numbers 697 to 702.

   Plate 615 for the tens of pounds of the final product (Fig. 6) is not shown in Fig. 3, but the description of the operation of the mechanism for other denominations makes it possible to understand the operations carried out in the denomination "tens of pounds", as well as those in the higher denominations; for each of the denominations, there are three plates, two of which are analogous to plates 613 and 614, while the third is analogous to plate 615, itself similar to plate 612.



   Regarding the exact number of degrees in the different series of degrees of the plates which have just been described, it should be noted that, for the simplification of the manufacture, the greatest possible number of identical plates is made and there, or there is not possible to arrive at the complete identity of the plates, we make, as far as possible, series of identical degrees. Therefore, the number of degrees in the 638, 639, 640, 641, 642, 643, 644, 645, 646, 647 and 648 degree series is equal to the maximum number of degrees that may be required in either or the other of the plates.



   Likewise, in Plates 603, 606, 612 and 615, each of the two series of degrees, namely 661, 662, 664 and 665, respectively, consists of ten degrees, although not all of these degrees may be required in the second set of each plate.

 <Desc / Clms Page number 26>

 



   In order to actuate the arms 600, the main shaft 232 carries, for each of these arms, a cam 363 (FIG. 1), the cams being arranged so as to actuate all the arms 600 simultaneously. The cams 362 described in FIG. British Patent 440,180 are omitted in the construction according to the present invention.



   End product plates of various denominations, for example plates 601,603,606,609,612, all have springs 601a, 603a and so on, which tend to pull the plates to the right, which also pulls the other plates to the right. right, due to their connection with the corresponding plates 601, 605 and so on. For example, the spring 609a of the plate 609 also acts on the plates 608 and 607. The movements of the plates are prevented by a reset bar 705 carried between two arms 707, only one of which is shown. These arms can pivot on their axis 125 and are extended below this axis, to be actuated by a cam 708.



   The control racks of the various denominations, 649 to 653, are pulled down by springs and rest on a cross member 709 which normally holds them in the highest position. The cross member 709 is supported between two arms 710 articulated at 711 to the side walls of the frame and connected by rods 712 to two angled levers 713 pivoting on an axis 714, each of these levers being engaged with a cam 715 (of which only one is shown), attached to the main shaft 232.



   As the mainshaft 232 oscillates, crossmember 709 descends and allows control racks 649 to 653, as well as those of higher denominations, to descend equally under the action of their springs, so that these racks

 <Desc / Clms Page number 27>

 racks take dependent positions, for each rack, of the order of degrees, in the plates 601, 603, 606, 609, 612 etc., with which the corresponding fingers 649a to 653a are engaged.



   After having thus positioned the control racks 649 to 653, the recording wheels are placed in engagement with the racks; as a result of reverse rotation of the main shaft 232, the cam 715 returns the crossmember 709 to the upper position, thereby resetting the racks 649 to 653 to zero. This return movement of the control racks transfers the amount of each of the racks to the register wheels.



   The register wheels shown at 716 in FIG. 7, are carried by a shaft 717 which moves longitudinally between the side walls of the frame of the machine, this shaft being pressed, by a spring not shown, against a cam 718 carried by the upper end of the machine. a vertical rod 719.



   The register wheels 716 are normally located next to the corresponding racks 649 to 653, so that the teeth of the wheels do not mesh with those of the racks. In order to engage the recording wheels with the drive racks, the rod 719 is pulled down, so that the cam 718 moves the recording shaft 717 axially until the recording wheels 716 engage with the control racks.



   The main shaft 232 carries two cams 720, 721 which serve to actuate the rod 719. These cams have the same profile, but are reversed with respect to each other, and the rod 719 is intended to be actuated by the cam 720 when the shaft 232 oscillates in one direction, and by the cam 721 when the shaft

 <Desc / Clms Page number 28>

 232 oscillates in the opposite direction.



   The requirement for the two cams 720, 721 will be understood, taking into account that the machine according to British Patent No. 440,180 to which the present invention is applicable is operated by pulling the control handle towards it. 'forward and allowing it to spring back under the action of a spring, so that the shaft 232 performs an oscillating movement and does not complete a complete revolution.



   In order to actuate the rod 719 using the cams 720, 721, two arms 722, 723 are articulated at the lower end of the rod 719. Each of these arms has at the lower end, a heel 724, 725 , and, in the normal machine position, heel 724 is located below one end of a lever 726 hinged to a shaft 727 supported between the sidewalls of the frame while a lug 728 directed down, is hinged to the other end of lever 726. A similar lever 729 with an ear 730 is also hinged to shaft 727. The normal position of arm 723, directed down, is such that its heel 725 is out of reach of lever 729.



   In order to maintain the two arms 722, 723 in their relative position, each of them is connected by rods 731, 732, respectively to the opposite ends of a lever 733 carried by a shaft 734, which also carries an arm 735 articulated to the rod 384 shown in FIG. 41 of the English patent n. 440.180. As explained in this patent, the rod 384 moves to the right when the reset key 435 is lowered.



   When the reset key is not depressed, the lever 733 and the corresponding parts are in the position shown in FIG. 7, and therefore the arm 722 is vertical, in the extension of the rod 719,

 <Desc / Clms Page number 29>

 so that its heel 724 is below the lever 726. The eye 728 of this lever 726 engages with the cam 720 so that when, with the shown position of the members, the handle is pulled forward. of the machine and oscillates the shaft 232 counterclockwise, the vertical part 720a of the cam 720 hits the lug 728 of the lever 726 and pushes it aside without lifting it; therefore, during the forward travel of the control handle, the wheels 716 remain away from the control racks.



   During the return stroke of the control handle, the shaft 232 oscillates clockwise and, as the cam 720 returns, its inclined face 720b contacts the lug 728 The contact of the cam 720 with the lug 728 tends to cause the latter to pivot, in a clockwise direction, around its pivot, but this movement is prevented by a projection 726a of the lever 726, this projection acts as a stopper for the ear 728, so that the cam 720 lifts the ear 728 and rotates the lever 726 which, acting on the heel 724, pulls the rod 719 downwards, which has the effect of putting the register wheels 716 in mesh with the racks 749 to 753.



   This operation occurs after the racks are in position, and the cam 720 has a profile of sufficient length to keep the wheels 716 in engagement with the racks while the racks are reset by the reset crossmember. 709.



   After resetting the racks 649 to 653 and following, which has the effect of transmitting to the recording wheels 716 the amounts represented by the racks-

 <Desc / Clms Page number 30>

 lères, the cam 720 moves away from the lug 728, after which the spring 719a lifts the rod 719 by pushing the wheels 716 to the side, out of the racks.



   After this operation, the cam 708 returns the degree plates, 601 to 614 and following, to the left, to the normal position. The machine is then at rest, with all its components in the normal position, with the exception of the recording wheels which continue to carry the product of the multiplication carried out. In order to reset the register wheels to zero for further multiplication the key 435 described in British Patent No. 440,180 is depressed, after which the control handle is pulled forward and allowed to move back. under the action of its spring.



   Lowering reset button 435 pushes rod 384 to the right and rotates lever 733 counterclockwise. This movement of the lever 733 rotates the arm 722 counterclockwise, so that its heel 724 is placed out of reach of the lever 726, but at the same time the arm 723 swings clockwise. of a watch, and its heel 725 is placed below the lever 729.



   As the shaft 232 is oscillating at this time, counterclockwise, the inclined portion 721b of the cam 721 hits the downward lug 730, and tends to rotate it counterclockwise. Clockwise. However, this ear 730 has a nose 736 which abuts against a projection 729a of the lever 729 and prevents the movement of this lever relative to the ear 730. Consequently, the cam 721 lifts the ear 730 and, by the Through lever 729 and arm 723, pulls rod 719 down, thereby re-engaging wheels 716 with the control racks.

 <Desc / Clms Page number 31>

 



   The inclined portion 721b of the cam 721 is arranged so as to pull the rod 719 down before the cam 715 releases the cross member 709 to allow the racks to descend, while the degree plates cooperating with these racks are in their position normal, on the left side.



   It will be understood that during the resetting operation, these plates remain in their normal position, although the resetting bar 705 is moved to the right by the cam 708 because, no factor being formed in the machine, degree plates 601 to 614 and following do not receive any amounts from the partial product plates.



   When the crosshead 709 is thus lowered, the control racks move down and in doing so rotate the register wheels backward until the latter reach the zero position.



   Any known recording device suitable for calculating in English currency can be used. It is understood that the backward rotation of the recording wheels is stopped by the usual transfer tooth, which engages with the usual transfer pawl, when zero is reached.



   The reason for the existence of additional deep slots 660a, 661a, 662a etc. will now be understood. in final result plates 601, 603, 606,609 etc. If these slots did not exist, finger 649a, for example, of the eighth-penny rack 649, would normally be above degree zero of the 660 degree series of plate 601 and, therefore, rack 649 would be unable to descend to reset the corresponding recorder wheel. The existence of the additional slot 660a in the plate 601 allows the correct rack

 <Desc / Clms Page number 32>

 responder to go down to reset the corresponding recording wheel.

   However, it is because of this slot 660a that the plate 601 must move one degree, even though the amount to be registered by this plate is zero.



   It will be remembered that the transfer from a tens of shillings plate 609 to the pound unit plate 612 is effected by means of the arm 686, the manchoin 687 and the arm 692 determining the position, in height, of the plate 688 which, by means of a rod 693 and a slot 693a, controls the movement of the plate 612 relative to the plate 611 carrying the plate 688.



   When the ear 685 rises to one of the degrees 657 in order to transfer a unit to the books, and when, on the other hand, the plate 609 is moved to the right by an amount exceeding the displacement of the plate 612, it would be impossible to bring the plates back, because the reset bar 705 would first hit the plate 609 and push the plate 612 further to the left than the plate 612, due to the links 686, 687, 692 , 691, 688, 693 and 693a.



   Then, with plate 612 having reached its extreme left position, the reset bar would be unable to continue its movement, since plate 609 would be retained by lug 685 in engagement with degree 657.



   In order to avoid this possibility, measures are taken to return the arm 686 to its lower position, before the plate 609 begins to return to its normal position.



   For this purpose, a lever 747 (Fig. 10) is used fixed to a shaft 748 journalled between the side walls 616, one end 749 of this lever resting on the top

 <Desc / Clms Page number 33>

 of a plate 688. The same shaft 748 carries a lever 750 articulated to a vertical rod 751, which slides between guides fixed to one of the side walls 616, and carries at its lower end a roller 752 resting on a boss 753 a bar 754, articulated to one of the arms 707 which actuates the reset bar 705.



   When plate 612 is in its normal position, on the left side, roller 752 is at the right end of boss 753. When the reset bar moves, then, to the right, all the plates, to the right. except for plate 612, can also move to the right.



   The horizontal portion of boss 753 is of such length that lever 747 does not allow stage 688 to lift until the reset bar has moved sufficiently to the right to allow all movable plates to move. perform their maximum displacement.



  Then the bar 705 moves further to the right, the roller 752 descends along the inclined portion of the boss 753 and allows the plate 688 to rise to reach the position determined by the degree 657 with which the ear 685 is. in take.



   On the return stroke of reset bar 705, the inclined portion of boss 753 lifts rod 751 and, through levers 750 and 747, pushes stage 688 down, bringing arm 686 back into place. its lower position. At the same time the finger 693 acting on the slot 693a returns the plate 612 to its normal position with respect to the plate 611, after which the reset bars 705, 737 return the two plates 611, 612 to their normal position. in the machine, just like the other plates.



  The invention also provides a mechanism for

 <Desc / Clms Page number 34>

   the accumulation of partial products obtained during the multiplication of two non-decimal factors, such as for example 73/4 hours, to be multiplied by lsh. 51 / 2d.



   In such a case, the multiplication mechanism, comprising partial product plates like those described in Australian Patent No. 15,588 / 33, must be arranged according to the type of calculations to be carried out.



   For example, if the machine is intended to calculate the value (rounded to the eighth of a penny) of working time, at any rate between 1 / 8d and 9.sh.117 / 8d per hour, for durations ranging from 5 minutes (1/12 of an hour) to 9 hours 55 minutes 911/12 hours), one must use twelve plates with 12 partial products, analogous to the plates 115, 115a described in the Australian patent n. 15.588 / 33 as it follows. of the following example:

   
9 hours 45 minutes (99/12 hours) x 4sh.73 / 4d
 EMI34.1
 
<tb> hours <SEP> pounds <SEP> shillings <SEP> shillings <SEP> pence <SEP> 1d
<tb>
<tb>
<tb>
<tb>
<tb>
<tb> units <SEP> tens <SEP> units <SEP> 8
<tb>
 
 EMI34.2
 9 x gd 5 12 x8
 EMI34.3
 
<tb> 9 <SEP> x <SEP> 8 / 8d <SEP> 6 <SEP> 6 <SEP>
<tb>
<tb>
<tb>
<tb>
<tb> 9 / 12x7d <SEP> 5 <SEP> 2
<tb>
<tb>
<tb> 9 <SEP> x <SEP> 7d <SEP> 5 <SEP> 3 <SEP>
<tb>
<tb>
<tb>
<tb>
<tb> 9 / 12x4sh <SEP> 3 <SEP> 0
<tb>
<tb>
<tb>
<tb> 9 <SEP> x <SEP> 4sh <SEP> 1 <SEP> 1 <SEP> 6 <SEP>
<tb>
<tb>
<tb>
<tb> 2 <SEP> 0 <SEP> 5 <SEP> 3 <SEP> 5 <SEP>
<tb>
 
Final product = ± 2.5.3d.



   Therefore, the machine has three partial product plates of the denomination "eighths of a penny", four for pence, and five for units of shillings, the figures in units of pounds and tens of shillings being - components. multiples of shillings.

 <Desc / Clms Page number 35>

 



   Used with a mechanism for the multiplication of non-decimal factors of the above kind, the accumulator mechanism according to the present invention must comprise for each component, an element such as the plates 618 to 628, as well as, for each denomination, the plates carry over required '.



   If desired, a device can be provided for the registration of the products obtained using the mechanism according to the invention. For example, control racks 649 through 653 and following may carry print characters or control a punch to inscribe product by punching on statistical cards or any suitable sheets.



   We will have seen that the preceding description only concerns the multiplication of a multiplicand by a multiplier comprising a single digit, and that the final product obtained is the product of the multiplicand by a single digit of the multiplier .



   To obtain the complete product of a multiplicand and a multiplier each comprising several digits., We multiply the multiplicand, in turn, by each digit. fre of the multiplier, and the product of each separate multiplication is reported to register wheels 716 as described, so that when all of these separate multiplications are performed, the complete product is reported to recorder 716 and can be printed or otherwise transcribed as appropriate.

** ATTENTION ** end of DESC field can contain start of CLMS **.


    

Claims (1)

CLAIMS --------------------------- 1) Mechanism for the accumulation of partial products obtained during the multiplication of two factors one or both of which are non-decimal, having a certain name- <Desc / Clms Page number 36> bre of denominational series of accumulator elements, each of which comprises an element receiving each component of the final product, belonging to the corresponding denomination, the elements of a series being interconnected so that one element receives other elements of the same series the amounts received by these other elements, the mechanism comprising, in addition, a device for the transfer of the required number of units from one denominational series to the next series, when the total amount received by the series in question exceeds the number of 'units included in this denomination. 2) Mechanism according to claim 1, for the accumulation of partial products obtained during the multiplication of two factors, characterized by a device for transferring each final product (obtained by the multiplication of a multiplicand by a single digit multiplier) from the denominational series of accumulator elements to an accumulator of final products, so that after successive multiplications of the multiplicand by all digits of the multiplier, said accumulator of final products carries the complete product of the two factors, the mechanism further comprising a device for transferring the complete product from said accumulator of end products to a series of recording elements for the purpose of registering the complete product. 3) Mechanism according to claim 2, charac- terized in that the recording elements are punches with the aid of which the final product can be inscribed, by perforations, on statistical cards or on a continuous strip of paper. . 4) Mechanism according to one or the other of the preceding claims, characterized in that each series, to <Desc / Clms Page number 37> with the exception of that of the lower denomination, includes an additional accumulator element to receive the unit (s) carried over from a lower denominational series. 5) Mechanism according to one or the other of the preceding claims comprising, in combination: certain number of denominational series of sliding plates, each series comprising a plate intended to receive each component, in the corresponding denomination, partial products resulting from the multiplication of the different digits of the multiplicand by a multiplier digit; a positive connection between adjacent plates of the same series, to transmit the movement of a given plate to the next plate, but not to one of the plates whose movement has been transmitted to said given plate, so that, in each series, a final product plate receives the sum of the components received by all the plates in the series; and a mechanism for carrying forward the required number of units from a lower denominational series of plates to a higher denominational series, when the sum of the components received by all the plates of said lower denominational series exceeds the number of units of the denomination considered. 6) Mechanism according to claim 5, characterized in that the plates are subjected to the action of springs and normally held in the zero position, and are placed in position by means of corresponding positioning members, such member belonging to a plate being brought into position, with respect to a series of number stops presented by the corresponding plate, by means of the corresponding element of a series of denominational elements which represent the products of all the digits of the multiplier multiplied by each digit of the corresponding non-decimal denomination, while each plate from which the mo- <Desc / Clms Page number 38> event is transmitted to an adjacent plate carries the positioning member for said adjacent plate, so that, when the plates are released to the action of the springs, they move to the point where they are stopped by meeting the appropriate stopper with the corresponding positioning member. 7) Mechanism according to claim 6, characterized in that in view of the transfer of the final product to an accumulator device, each of the plates for the final product comprises a second series of number stops which represent all the possible values of the denominational figure corresponding to the final product, the figures for the final product being taken up by a series of corresponding denominational rods each of which moves, from the zero position, to an extent which depends on the order of the stop brought to its path by the movement of the final product plate of the corresponding series. 8) Mechanism according to claim 5, 6 or 7, charac- terized in that the transfer mechanism comprises a plate arranged so as to move transversely with respect to those of the plates of the upper denomination, which receives, in the denomination considered, the sum of the components of the partial products, and that the transfer mechanism also includes an additional plate of the same denomination, movable relative to the plate carrying the plate, under the control of the transverse movement the plate, the latter being movable under the control of the plate of the lower denomination which receives the sum of the components, in this lower denomination, of the partial products, and to an extent which makes possible a movement of this additional plate relative to the plate carrying the plate, when the sum of the components, in the lower denomination, exceeds n <Desc / Clms Page number 39> the number of units of this lower denomination, so that the additional plate receives the sum of the movements of all the plates of the corresponding series and itself constitutes the final product plate of this series. 9) Mechanism according to claim 8 for the accumulation of partial products resulting from the multiplication of amounts expressed in English currency, characterized in that the transverse plate participating in the transfer from tens of shillings to units of pounds, carries a rod engaged in a cam-shaped slot that has the additional plate of the denomination "units of books", the plate being movable under the control of an arm articulated to the frame 'of the mechanism and cooperating with degrees in the tens of shillings plate such that each time the tens of shillings plate moves two uni-. (20 / -), the arm rises by one degree over the next degree, while, in order to prevent the return movement of the tens of shillings plate from being prevented by the meeting of the arm with a degree, a device is provided which returns the pound unit plate of the final product to its normal position before any of the other plates return. 10) Mechanism for the accumulation of partial products, substantially as described above with reference to the accompanying drawings.