CH129734A - Installation for the use of statistical data. - Google Patents

Description

  

  Installation for the use of statistical data. The present invention: relates to an installation for the use of statistical data reported by perforations on cards, paper tapes, etc., or for example for their analysis and for the automatic recording of the results obtained.



  Like other known installations, having the same destination, the -com installation carries a device transmitting data by its organs and collaborating with such a logger device, to several elements, each of these corresponding to the, rank or instead of a number or a writing sign -data and having a receiving organ, a recording organ and an executing organ.



  However, this installation differs from those already known by the following facts: Each of the n-numbers, letters or signs provided is transmitted, recorded or reported by means of a corresponding number of closures of the single electrical circuit of an element. ment, this number varying from zero to n. In addition, the operation of the various organs of the device -consi.gnateur is independent of the momentary movement or position of the elements supplying the data in the transmitting device and does not have <B> to </B> coincide with -this movement or position.



  The accompanying drawing shows schematically an embodiment of the installation,, given ià -d'example.



  Fig. 1 shows a system of perforations allowing the values from 0 to 9 to be represented by a maximum of four perforations; Fig. 2 is a graph of the pulses and excitations to which relays and electromagnets of this embodiment are subjected during a given period; Fig. 3 indicates the parts of this embodiment which function as a totalizing positive data counter and transmitting their total by setting them to zero;

        Fig. 4, shows the parts of the embodiment in question which function as a negative data totalizer counter, the total obtained being transmitted when they are reset; Fig. 5 reproduces those of the parts of said embodiment which function as a totalizing counter for po sitive data and transmit without zeroing their total, represented by a corresponding series of electric pulses;

      Fig. 6 shows the parts of the considered embodiment which function as a totalizing counter .de negative data, the total obtained being transmitted without resetting by a corresponding series of electrical pulses; Fig. 7 shows the parts of this embodiment which function as a totalizer of positive data and transmit their total by a single closing of electrical circuits corresponding to the values to be transmitted;

    Fig. 8 shows the parts of said embodiment which function as a counter for totalizing negative data and transmitting their total by a single closing of the electrical circuits corresponding to the values to be transmitted; Fig. 9 reproduces those of the parts of the embodiment considered which function as repeater ;, FIG. 10 represents all the parts of the mentioned embodiment which are necessary for a good understanding of the invention.



  In the description which follows, the signing apparatus comprises the parts whose reference signs are accompanied by: letters a, b, c. In this apparatus the .receiver organ comprises the organs designated by the letters E, F, G, the recording organ comprises those designated by the letters H, K, <I> Z, N, </I> Q and l The execution organ comprises the organs provided with the reference signs S, T, <I> U.

   '</I> <I> General functioning of a </I> installation <I> serving for the use of statistical data </I>.



  For greater clarity, it is useful to first recall the principle and operation of such an installation.



  By means of a suitable device, the "punch", the original statistical data, represented by serial numbers or by numerical values, are transcribed, by perforations, on detached cards or on paper tapes. On a "line", the perforation represents the unit, the ten or the hundred, and so on. data, so that it can include one or more lines.

   A correlative and independent set of data, ie of corresponding perforated lines, relating to one and the same statistical fact. From a series of similar facts, forms a "file". A line can consist of nine "points", depending on the decimal system, the perforation: none. or one of: these points being one of the values from 0 to 9.

   The line may also include only four points, each of the values being designated by the perforation of no point, or by that of one of the points, by that of a combination of two or three points or, finally, by perforation of the four points. The present invention indiscriminately uses any system -de perforations; by way of example, one of the four point line systems is shown and applied here in the form shown in fig.1.



  In this embodiment, the perforation reading apparatus is a "contactor" of one of the known types, closing the electrical circuits belonging to the contact rods which encounter a perforation. The "punch", the printing mechanisms, as well as the selectors, which only allow the recording of data when they present predetermined characters or correspond to other data in the file, can also be of a known and usual type.

   An appropriate motor mechanism causes, in the various organs, the movements or the triggering of the actions necessary for recording. Its Jna motor shaft (fig. 10) carries cams and switches which, at each turn, ensure the mechanical movements of the components, as well as the necessary closing and breaking of the electrical circuits.



  By way of example, FIG. 2 contains the graph of the intervention of these switches, during one revolution of the motor shaft Jm.



  The switch Ja (fig. 10) provides the short closing @current (impulse) preliminary io (fig. 2, 7 and 8).



  The switch Jb causes the first serial pulse 1i (fig. 2, 5 and 6).



  The <B> I </B> switch supplies the following two pulses 2i as standard (fig. 2, 5, 6). Switch Jd provides the following three pulses 3i as standard (fig. 2, 5, 6). The <I> I </I> switch supplies the following three pulses 3i as standard (fig. 2, 5, 6).



  The switches Jf, Jh each cause one of the following pulses <I> if, </I> ih. (fig. 2).



  The switch <I> Jr </I> provides the prolonged closing r, necessary for transferring the tens in the meters (fig. 2, 3, 4 and 10).



  The switch Jj causes the pulse j (fig. 2, 9 and 10) used in the repeater. The switch Jle causes the pulse (fig. 2, 9 and 10) to activate the repeater at the start of its operation.



  Finally, the switch Jn (fig. 10) ensures momentary breaking. n of: auxiliary circuit Uu relay A (fig. 2, 9 -and 10) and of the common circuit -of transfer relays W (fig. 2, 3, 4 and 10).



  Fig. 2 shows, moreover, the successions of ten pulses 10i, of nine pulses 9i and 9j, obtained by the collaboration of switches Jb, <I> Je, </I> Jd, <I> Je </I> and Jf (fig. 10) and used for resetting the counters to zero, transmitting their indication and replacing a datum of negative value with its .complement. Line 1 of fig. 2 marks the duration of contact on the perforations on the plug, -in the contactor. .

           Operation <I> of certain parts of the installation </I> <I> as a totalizer of </I> <I> positive data with transmission of the total </I> <I> when they are reset </I> (fig. 3). We will call,;

  element "the assembly depending on one of the electros G, that is to say this electro, its step by step rotation mechanism H and K (indicated in fig. 10, had no in fig. 3), its relays E , F -and W, the rotary dial <I> N </I> and the switches <I> Q, </I> R,, S, <I> T, U </I> and V (fig. The diagram in Fig. 3 takes three elements, denoted by a for ones, b for tens and c for hundreds.

   Only the first two are action born from outside, the data here comprising only two lines, that of the units and that of the tens, and the hundreds being intended only for totalization. In the contactor, each perforated point of a line (of four points) gives passage to the corresponding number of pulses, according to fig. <B> 1. </B> The contact of a point is connected , on the one hand, at the -i- terminal, through one of the contacts of the corresponding switch Jb, <B><I>Je,</I> </B> Jd or <I> Je </I> (Fig. 10), on the other hand, to the common wire which transmits the series of pulses dictated by the perforation of the line and supplied by these switches.

   This wire of the unit line and that of the tens line of a datum are connected by the terminals xa and xb to: Metros Ga. And Gb (fig. 3) which advance, according to the number received pulses, their .shaft Z, as well as .the dial and the switches that it carries.



  When one of the switches V goes from position 9 @ to that of zero, that is to say when ten of an element must be brought back to the element of the next higher degree, this switch V closes, in passing, the circuit of its relay W which is momentarily excited. Through its armature 1, the relay W closes: its auxiliary circuit and thus remains armed until the break. Of the switch Jn (fig. 10), which only occurs once the transfers have been made, as will be described below. .



  After recording, by <I> Ga </I> and Gb, -pulses (0 to 9) corresponding to the indication of their line @of the file, the switch <I> Jr </I> ( fig. 10) closes the circuit passing through terminal r (fig. 3), rest contact 7. of relay B and arming transfer relay C.

    By its reinforcements, this: last closes the circuits which, coming to the terminal r; through the closed armatures 2 and 3 of those of the ZT% relays which are armed, and which thus transmit the impulse r. to the following electro G, by which the ten to be transferred from the previous element is recorded . Since one of these postponements can lead to others in the higher elements, the pulse r has an extended duration.



  After adding the same data from a series of cards, the counter is reset by punching an index from the last card in the series, and whose circuit closes: in the contactor, crosses the terminal q (fig. 3) and arms the reset relay B. The armatures B, <I> to </I> B3 close the circuits coming from terminal 10i; crossing the switches Q and joining the: electron G.

         By these circuits, the series of ten impulses, coming from the switches Jb, <I> I, </I> Jd, <I> I </I> and Jf (fig. 10) activate the electrons G, which put their shaft Z rotating until the Q switch returns to its zero position, in which it breaks the circuit and interrupts the pulses.

   During resting, reinforcement B; breaks the @delay of carry-relay C, thus preventing any carry-over tens from occurring. The mature ar B, on the other hand, closes the circuit & terminal 10i and extends it through the armature 3 of the relays W to the terminals <I> ta, </I> tb and te, and from there - to the device (not: shown) (counter or printer), which must record the total of the counter set to zero.

   As long as the relay W is not energized, that is to say for a number of pulses corresponding to the complement of the figure indicated by the counter, these pulses coming from the law terminal do not pass. The relay W being armed - as soon as the switch V passes from position 9 to that of zero, the rest: of the ten pulses, ie the number corresponding to the indication of the counter, is transmitted. Line VII of fig. 2 shows the four suppressed pulses and the six effective pulses, when the counter indication is 6.



  With each revolution of the Jyn motor shaft (fig. 10), the cam J pushes back the rod Y ,. whose rack Y2 brings back the pawl Y #, resting on one of the ten teeth @of the wheel K of the shaft Z. The spring Y5,. thus charged, pushes back the rod Y ,, as and to the extent of the recording <U> -by </U> I'Mectro, <B> G, </B> which activates the escape mechanism H.

           Operation <I> of </I> certain <I> parts of </I> installation <I> count </I> counter <I> totalizer of </I> negative data <I> with transmission of the total </I> <I> when </I> their <I> reset (f </I> ig. <I> 4). </I>



  In principle, the operation remains the same as above, the subtraction of the negative datum being replaced by the addition of its complement.



  In: in the event of data whose negative character is indicated on the card by the perforation of an index, relay A (fig. 4) is armed by closing the circuit of this in dex passing through terminal z . The impulses caused by the perforations of the data are no longer directed, as before, on the G electron, but by the working contact - of the Xa and Xb armatures of A, on the Ea and Eb relays. As shown in fig. 4, the relay Fa receives the ten pulses of the 10i series,

   the relays Fb. <I> Fe </I> and Fd the nine pulses of @the 9i series. -The circuits crossing the rest contact of the armature of the relays E. Are connected to terminal -I- by the armature u (closed in the event of negative data) of A. These circuits are extended by the armature to working contact of the F relays to reach the G electrons. If the data were equal to zero, Ga would receive ten and Gb nine pulses; as a result of the postponement, the ca, - sheets would make a complete turn.

   The data marking for example 6 to the units, and its pulses and those of the series of 10i being synchronous, Ea breaks the circuit six times in a row, - before the corresponding closing of the armature of <I> Fa, </ I> and <I> Ga </I> is only reached by the last four @ pulses of the 10i series, ie by the decimal complement of 6, which is illustrated by line V in fig. 2.



  For tens, hundreds, etc., the complement of a datum is not obtained by its deduction from 10, but from 9. Indeed, for example the complement of the datum - 27 = 73. For a datum of ten "equal to 6 (see line VI of fig. 2), Gb records three pulses. On the other hand, the complement of the -data - 30 will be 70, since <I> Ga </I> will receive ten pulses and will transmit., by its Wa report relay, about ten in Gb.



  The incomplete element d is not used for totalization (in fig. 4, this will not exceed, in positive or negative, 999), but only as an auxiliary, intended to establish the possible negative character of the indication -lu counter. In fact, as soon as this indication is negative, the switches <I> L </I> and 1E1 go from position zero @ to that of 9 and close their circuit. Due to the relay Fe and Fd, the: complement of the indication - 29, for example is 9971; that of the indication - 30 = 9970.

   Usually, a negative indication should be read on the middle number crown of the N dials. But there may be what will be referred to here as "special cases". iIf the counter shows for example - 24, -. 9976 and we add -36, whose complement is 9964, the total of the two complements becomes 9940, that is to say the complement of - 60. If the first indication of the counter had been - 2.3 (complement - 9977) or - 2.5 (complement - 9975), we would have obtained 9941 (complement - 59) or 99.39 (complement - 61).

   In the last two of the three cases, reading the average dozen crown of digits gives the correct digit; but, in the first case, this "reading is ide 5 whereas it: should give 6. It is easy to realize that when Qa is at zero - (special case), the reading must be done on the neck. outer number of digits on the dial <I> Nb. </I> When Qa and Qb are simultaneously at zero, the dial <B> Ne </B> must, for the same reason, be read on the outer numbered crown.

   The unit is read through one of two superimposed windows not shown, that of the ten, hundred, etc., by one of the three superimposed windows not shown. When the auxiliary switch M marks, by its position 9, a negative indication, its contact connects to terminal -I- the circuit of relay D, which is armed and whose rear 4 unites the switches with terminal + Qa, and Qa #,

      and electro Oa. Using the pallet 1 of its frame 2 (fig. 10), the latter obstructs the window of the positive dial -de <I> Na </I> and releases that of the negative dial. : If neither Qa nor Qv are at zero, the working contacts of Qa2 and Qa3 cause the excitation of the Qlectros <I> Ob </I> and <I> Oc. </I> The palette 1 of their armaturc 2 (fig. -10) closes the window of the positive dial "and releases the window of the negative gold dial (medium numbered circle).

   If Qa is at zero, but not Qb, the 'F'b and <I> Oc </I> appliances are excited; N c shows the ordinary negative dial, while paddle 3, of <I> Pb </I> frame 4 (fig. 10) disengages the upper window and pushes the paddle of <I> Ob, </ I> so that <I> Nb </I> shows the negative dial of the special cases (outer numbered crown), while the other two numbered crowns are invisible. The totalizer therefore indicates without equivalence possible the sign and, the value of the total.



  Zeroing takes place here as before, with regard to elements a, b and c. During this reset, i.e. until the end of ten 10i pulses, the counter indication must be transmitted, the negative character of which is designated by D. This relay must therefore not be put to rest and , consequently, L and J1 reset to zero, before the end of the ten pulses of 10i.

   Putting L and M to rest only requires a single pulse (the position of these switches only varying between 9 and zero), supplied later by switch Jh (fig. 10) and passing through the switch. terminal h (fig. 4) contact <I> 6 of B </I> and contact of <I> L </I> for example <I> Gd. </I>



  According to the position of the switches Q and V i of the counter, the negative total is represented by its complement; the transmission of a total unit therefore necessitates the postponement of the complement of the latter. It is, therefore, the rest contacts of the armature 3 of the relays W (and not the working contacts, as previously for the transmission of a positive total), which come into play here.

   The contact Wa., Of the units connects the terminal <I> ta to </I> 10i by the reinforcements B4 and D2; the contacts Wb, and Wc., (tens, hundreds, etc.) connect 93 <I> to </I> tb and te by the reinforcements B5 and D3. It can be seen that here the series of nine pulses must be delayed by one pulse, compared to that of 9i.

   Line VIII of fig. 2 shows the succession of pulses effectively transmitted by Wa when the counter indicates to units - 6, represented by 4; on line IX (fig. 2), the effective pulses correspond to tens, hundreds, etc., to the value - 5, represented by its complement 4. Thus, for example, if the position of the elements of the counter corresponds to 9932 , the actual counter indication and the transmitted value are indeed - 68.



  When transferring, to another device in the installation, for example to a printer, a negative data or total, the negative character of the value transmitted must be so general, so that the receiving device take heed. ; If the latter is, for example, another meter, its relay A must be armed; if it is a printer, an electro must raise its two-color ink ribbon. This effect is provided, for the data, by the circuit of the: terminal u, closed by the armature A, on the terminal -l-; for the totals, by the circuit of the terminal v, closed on the terminal + by the mature ar Dl.

           Operation <I> of certain parts of the installation </I> <I> installation </I> as <I> counter </I> totalizer <I> of </I> <I> positive data without updating zero, and send- </I> <I> mission of </I> their <I> total by </I> serial zone <I> corresponding- </I> <I> dante </I> -d ' electrical pulses (fig. 5).

    As in the previous chapters, the total transmitted is represented by the successions of pulses corresponding to the indications in fig. 1. The value 4, for example, is transmitted by one and three pulses; the value 6 by three plus three pulses.

   So that the meter can transmit, at rest, its momentary indication, -. The four circuits, receiving the one, two, three and three pulses of the switches Jb, <B> <I> I, </I> </ B > Jd and <I> Je </I> (fig. 10), are connected by terminals 1i, <I> 2i, </I> 3i and 3i (fig. 5) to contacts 1 ides Switches B, S, <I> T </I> and U of the counter.

   In each of the positions of the elements of the latter, the breaking or closing of the four contacts 1 corresponds to the data of FIG. 1, so that the pulses transmitted through the terminals sa, sb and result in the positive indications of the counter. The- fig. 5 only indicates schematically that which relates to this transmission.

      <I> Operation of certain parts of the installation </I> <I> installation as counter </I> totalizer <I> of </I> <I> negative data, the total being transmitted without </I> <I> harm to zero </I> by- <I> a corresponding series </I> <I> of electric pulses </I> (fig. 6).



  To replace, by its .complement, the value to be transmitted represented by the position of the elements of the counter, it suffices to shift, as shown in FIG. 6, the contacts of the switches R, S, <I> T </I> and U. Here again we find ourselves in the presence of the "special cases" mentioned above, which require, if necessary, a new offset ides con tacts tens, hundreds, etc.

   We will therefore have, in addition to positive contacts 1 (fig; 5), new contacts 2 for ordinary negative totals, and 3 for negative totals for special cases. .Depending on the case, the four circuits of 1i, <I> 2i, 3i </I> and, 3i will have to borrow, to reach the transmission terminals s, sometimes contacts 1 (fig. 5), sometimes contacts 2 or 3 of B, S, T and U (fig. 6).

       When the total is negative, D is armed and its armatures with alternating contact 6, 7, -8 and 9 (fig. 6 and 10) break the circuits going to contacts 1 of B, S, T and U, and close those. which join the Bat, <B><I>Sa,,</I> </B> Tag and Ua contacts of the units, as well as the Qa4 <I> to </I> Qall switches. By these and by the switches Qbi ,, Qb7, Qbfl <I> and </I> Qbll,

      here we have the same partition, <B> already </B> described with regard to the alternative in the reading of the dials in fig. 4. When Qa is not: at zero, the four. circuits pass to terminals sb and <I> se </I> through con tacts 2 tens and hundreds. If Qa, alone is zero, the situation remains unchanged for the hundreds c; to tens b, the circuits pass through contacts 3 to reach terminal 5b.

   When Qa and Qb are simultaneously at zero, the contacts 3 come into action, both in the tens and in the hundreds.



       Operation <I> of certain parts of the installation as </I> <I> positive data totalizer and transmission of their total </I> <I> by </I> zone <I> only </I> closing <I> of electric circuits </I> <I> ces </I> which <I> correspond </I> to the values <I> to trans- </I> <I> put </I> (fig. 7).



  Certain parts of the installation, for example the selectors or the perforator, can be arranged so as to act, no longer under the influence of series of pulses, but as a result of a single closing of one or more of their four circuits, as shown in fig. 1. The value 7, for example, will be obtained here by closing the circuit of each of the points of value 1, 3 and 3 of the line. We therefore have here the reversal of the problem posed by FIG. 5.

   The working circuit, receiving an impulse through switch Ja (fig. 10) and passing through terminal io (fig. 7), is distributed over contacts 4 of switches R, S, T and U, and from there on the four circuits of terminals v.

   This transmission of the momentary indication of the counter must be able to take place, if necessary, even when the counter is reset to zero during the same revolution. Girl must therefore operate before the start of the. 10i series of ten pulses which ensure zeroing;

   consequently the io impulse precedes the 10i .. <I> Operation of certain parts of the installation </I> <I> installation as </I> totalizer <I> of </I> <I> negative data, with die to- </I> <I> tal transmission by a single closure of </I> four <I> circuits </I> electric <I> which correspond </I> to the <I> perfora- </I> <I> tions of the </I> values <I> to be transmitted </I> (fi-. 8).

    The case here is the same as for fig. 7, but with application of the distribution circuits and negative contacts, as <B> 0, </B> has been indicated for fig. 6. Thanks to the set of contacts Qa, 2, Q'a13 and Qb, 3, an ordinary negative indication: from the meter is transmitted to terminals v by contacts 5 of R, S, <I> T, </I> U, a negative indication of special cases, by contacts 6 tens and hundreds. <I> Operation of the parts of the installation </I> which <I> serve as repeater </I> (fig. 9).

    



  For greater clarity, the description of the arrangement and operation of the device is based here on the following application example: In addition to the repeater, the installation includes, for example, the following parts not shown: a contactor I, used for reading the perforated cards, which contain the data y and w, units y, and wl, and tens of y. and w2; a printer II, entering the data y in the first column of the sheet; a printer III writing the data w in the second column of the sheet;

    a printer IV entering in the third column the product p of the multiplication of w by the y, as well as, in the same column and with an interval of three lines, the total @of these products for a series of records, the last of which bears the end-of-series index perforation: a member V, which, at each pulse received, ensures the advance @de the sheet by one line;

    a counter VI, according to the diagram @ of fig. 3, comprising however at least four elements, the appliances <I> Ga -à Gd </I> being linked to the input terminals xa <I> to </I> xd; this counter records the products p; a counter VII, like the preceding one, but comprising at least five elements, for the recording and the totalization of the products p and the transmission of their total.



  To complete this program, the repeater must have, in addition to relay A, four complete elements, as shown in fig. 9, acting, one after the other in the following sequence: <I> d, c, b </I> and <I> a. </I> As will be described later, the switch, general turned to the left (fig. 10) has transformed the connections, from the previous figures, used for the operation of the device as a meter, and established the connections according to the diagram in fig. 9, for the operation of the repeater.



  In the example given, the role of: the latter, as distribution and control body, is as follows: Relay A causes the following elements to record (fig. 9) the number of the motor shaft,, during which each of these elements must intervene: Element d will then record, by counters VI and VII, y1 times, that is to say during y1 revolutions, the data wl., w2.



  Then the element c will cause the same counters to register y2 times the data w, however shifted by one element to the left, so that the unit w, passes in idi- zains, and the ten w2 in the hundreds of VI and VII counters.



  Then, the element b of the repeater will cause the resetting of VI and the @ transmission of its total, that is to say of the product y times w of the first card, to the printer IV, then the replacement of the card, .in the contactor ,. by the following file. This succession of operations will then begin again for all the following sheets.

   At the end of the series and after element b has completed its function. on the last card, the element a inter will come; during one revolution of the motor shaft, it will cause three feeds of the sheet by the device V, the setting to zero Uu counter VII, the transmission of the general total of the products p to the printer IV and, by the latter, the latter , the printing of this total. Finally, the element a <B>- </B> will trigger an optical or acoustic signal, announcing the end of operations.



  Relay A is actuated by the impulse of switch Jk (fig. 10) and remains energized by its auxiliary circuit which crosses terminal n and armature n1 of A, coming from switch Jn, which at the end of next round; breaks this auxiliary circuit and thus puts A. to rest (see also lines k and, ,, of fig. 2). A must only act during the first turn of the stay of the same plug in contactor I.

   During the following turns of this stay, one or the other of the W relays is in action, as we will see later. Consequently, the circuit actuating <I> A </I> and passing through Jk, crosses terminal k, (fig. 9) and the rest contact. Of armature 4 of each relay TTr. A will only work, therefore, during the first round of the recording of the form, all TT 'still being at rest.

   Via the .xd and xc terminals and with the intervention of the relays Ed, Ed and Ec, Fe the relay <I> A </I> causes <I> Gd </I> and Gc to register the decimal complement of the data y, and y2. By the armature xb of <I> A, </I> an impulse 1o coming from the switch Ja (fig. 10) is launched in the relay Eb, so that Gb registers the number 9.

       The pulse io, coming from the switch Ja (FIG. 10) is transmitted by the frame 1 from A to the member T 'which advances the sheet to be printed by one line. By its closed reinforcements 2, 8, 4 and 5, the relay A also passes through the printers II and III, and through them transfers into the first and the second column of the sheet, the data y and w. Then A is put to rest by the rupture of its auxiliary circuit, caused by the switch Jn (fig. 10). During this rupture, the contact of the. .cin th frame of A is closed on the.

    terminal of pole -f-, which closes, by contact Qdl. ,, (closed, since element <I> d </I> is no longer at zero), the circuit of Wd, which is excited and whose broken contact of its armature 6 prevents the following W relays from being armed and from coming into action prematurely.



  At each subsequent revolution of the motor shaft and, simultaneously, at each contact made on the same plug in the contactor, the latter closes the two circuits of the data wl, w2, the pulses of which pass through the closed contact armatures. 7 and 8 of Wd and actuate the electro G of the units and that of the tens - of the VI and VIT counters. This is done, and towards the end of each turn, the head Jj (fig. 10)

   sends by terminal j a short pulse through the closed contact of the armature 5 of Wd in the <I> Gd </I> electro which is excited and which moves the switch Qd forward one step. After y ,. turns, it has regained its zero position, breaks its contact and puts Wd to rest, the armature G of which closes the circuit which in turn actuates Wc. Thus, by the recording of y1 pulses, the element <I> d </I> and its relay Wd are intervened y, times;

   the data w ,, w2 has been totaled y, times by the counters VI and VII and is there thus multiplied by the unit y ,, @ of the data y.



  In the following turns, frames 7 and 8 of Wc transmit y, times in succession the data w, _ to the element of the tens and the <I> born </I> gift wz to the element of the hundreds of counters VI and VII which thus record the product of W, multiplied by ten times y <B>!, </B>. After these y2 turns, Qc has returned to zero, as a result of the y2 pulses successively sent to Gc by Jj; Wc is put to rest and <I> Wb </I> energized.



  In the next turn, and through the circuit .de its armature 8, this relay Wb connects the relay B of the counter VI to the terminal + and thus sets this counter to zero, which transmits its total to the printer IV. Since the printing occurs after this transmission, IV thus transfers the product y times w of the sheet to the third column of the sheet. By its armature 9, the relay Wb closes the circuit actuating the contactor 1, which consequently replaces, and according to a known method, the record recorded by the following one.



       The <I> Ga </I> electro having had nothing to record and having, therefore, received ten pulses per <I> Fa, </I> Qa returned to zero after a full turn and <I > Go </I> stay at rest. With all the W's thus again at rest, the <B><I>ID</I> </B> and Jk (fig. 10) impulse again arms the <I> A </I> relay after the last pulse ja put Wb to rest, and the operations start again, in the same way and in the same order, on the next file.



  As has been mentioned, the last sheet in the series bears, in addition to its ordinary data, a single perforation of the end of series index. When this plug arrives in the contactor, the circuit belonging to this index is closed and transmits to Ea an impulse coming from Jb and through armature Xa of <I> A. </I> The electro <I> Ga </I> therefore receives nine pulses per <I> Fa; </I> its Wa relay intervenes, therefore, in turn, after Wb has been put to rest and the last record of the series has been recorded.

   During the turn which follows this recording, and by its frame 7, Wa transmits three impulses coming from ide Jd (fig. 10) to the organ V which advances the sheet by as many lines.

   Through the circuit of its armature 8, Wa causes the reset of counter VII, which had totaled the product <I> y </I> times w of all the cards, and transmits, by its reset, this total to the printer IV, who transfers it, when typing, in the third column of the sheet, three lines below the preceding entry. Finally, by its armature 9, Wa closes the circuit of an acoustic or optical signal, which operates until it is put to rest by the operator.



  As emerges from this example, the described repeater comprises the following parts, which operate, in principle, as follows: A pilot relay or distributor A, causing the "elements" to register the complement of the number of revolutions during which each of them will intervene. By .its fittings, A also orders, according to needs, the execution by such and such other bodies of the installation of any predetermined operations for which these bodies are intended :.

   A only intervenes usefully during the first revolution of the motor shaft, accompanying a given series of operations; it is armed at the end of the previous turn, by an impulse k, passing through the idle contact of the transmission relay W of each element, and remains armed, during the useful part of the first turn, by its broken auxiliary circuit , before renewal of the pulse <I> k, </I> by the switch Jn, according to the schematic indications of lines 7o, <I> n </I> and II of FIG. 2.



  (When operating as a repeater, the switches Xeg and Xe ,, (fig. 10) break the circuits providing direct access to the data, from the contacts .xa and xb of A, to the electrons G.

   Switch Xe3 disables the transfer relay C, which is only used during counter operation.) 20 A number, variable as required, of "elements" each of which has two relays -E and I ', transforming the number, transmitted by A, into its decimal complement, which is recorded by the electro G of the element.



  (Here, the complement is always obtained by subtracting -the value 10c is for what, in fig. 10, the switch Xez replaces, for the relays Fb, <I> Fe, </I> etc., the 9i circuit, used for operation, of the device as a counter, by the 10i circuit.) The "step by step" Electro G of each element controls the rotation (ten steps per complete revolution) of the shaft Z carrying the switch Q. Through the contact of, rest of the fifth armature of A and of the armature 6 of the previous relays W, the switch Q connects;

   by its contact 14, at terminal -f- of the current source, the corresponding relay W, which is armed, as soon as A and the preceding elements have returned to: rest, and as long as its own switch Q is not not returned to zero. (To change from counter operation to repeater operation, the X switches are turned from right to left.

   The arm 3 of the switches Xa, Xb, Xc connects the circuit, which has just been discussed, to the contact 14 of the switches Q and thence to the TV relays. The arms 1 and 2 of Xa, Xb, Xc disables the V switches and the armature 1 of the W relays, used during counter operation:

  ) Each element also includes a relay W, put into action and at rest as it has just been; said, and whose function is threefold: to prevent, by its armature 4, the -relay A from being armed after the first round of the series, and, by its frame 6, prevent the following WIs from being armed before their turn; bring back, by the pulse passing through its armature 5 at each turn in order to actuate the electro G, the switch Q of one step-per turn towards the zero position;

    during operation and at each revolution, by closing (or breaking) the circuits passing through the make (or rest) contact of its armatures 7, 8, 9 cause the execution and repetition of determined operations and performed by such or such other components of the installation.



  (For this purpose, and during operation as a repeater, the arm 4 of Xa, Xb, Xc (fig. 10) connects to the electron G, the contact of the mature ar 5 of the W, and, through this contact, the impulse circuit j.

   Xe, connects the common circuit of W to the negative terminal and breaks its connection to the switch Jn which must only intervene when the device is operating as a counter.) General <I> operation of </I> parts <I> of the installation </I> <I> installation </I> represented <I> in the drawing </I> (fig. 10).



  The diagram in fig. 10 combines into one those of FIGS. 3 to 9, the counter being able to record data which is sometimes positive, sometimes negative, and can transmit at will, according to one of the ways described: above, the totals, sometimes positive, sometimes negative.

    
EMI0010.0066
  
    <I> Examples: </I>
<tb> Indication <SEP> of the <SEP> counter: <SEP> New <SEP> data: <SEP> New <SEP> indication <SEP> of the <SEP> counter:
<tb> -f- <SEP> 2i6 <SEP> - <SEP> 14 <SEP> (9986) <SEP> 9986 <SEP> -I- <SEP> 26 <SEP> = <SEP> 12.
<tb> * <SEP> 12 <SEP> - <SEP> 36 <SEP> (9964) <SEP> 99e64 <SEP> -I- <SEP> 12 <SEP> - <SEP> 9976 <SEP> (= < SEP> 24)
<tb> - <SEP> 24 <SEP> (9976) <SEP> = <SEP> 14 <SEP> (9986) <SEP> 9986 <SEP> -I- <SEP> 9976 <SEP> = <SEP> 9962 <SEP> (- <SEP> 38)
<tb> --- <SEP> 38 <SEP> (9962) <SEP> -I- <SEP> 51 <SEP> 9962 <SEP> -f- <SEP> 51 <SEP> = <SEP> 13 <SEP > - On the other hand, we can see from all the above that in the case of operation as a repeater:

    the transfer unit W of each element a, b, c ensures, with the desired number of repetitions, the execution of the operations planned by other parts of the installation subject to its control; the organ: recorder G of each element <I> a, b, </I> c previously records the complement to. 10 the number of successive and repeated interventions that it must impose on the corresponding W reporting body; at the end of each of the interventions @of any one of the elements <I> a, b, c </I> the transfer unit W of this -element causes a unit to be recorded at the corresponding recording unit G ;

    the recording unit G of an element a., b, c, thus brought step by step to the zero position, stops the action of the corresponding transfer unit W, when; this position is reached and puts the organ -de report W of the following element in a position to exert its action in turn. Latitude in <I> the choice of series of operations </I> <I> ensured by </I> of <I> repeater, and in the choice </I> <I> of the applications of the latter. </ I>



  You can modify at will the number of elements of the repeater, the number and the arrangement of the transmission and distribution frames x and 1 to 6 of the pilot relay A.



  The reinforcements of A, which ensure the @ distribution, among the elements,: of the number of turns during which each @ of these must operate, can be connected, as required, to a particular organ of the installation, meter or any lines of the contactor. It is the same for -the reinforcements 1 there, 6! Of A.

    Between the reinforcements of A and the other control or reception organs of the installation, it is possible to insert known sorting devices, selectors controlled by such fixed or variable data or even by the control reinforcements. or transmission 7, $, 9 of one or more re lais W from another repeater.

      Consequently, one is entirely free in the choice of the nature, number, succession and distribution of operations; in that of the sources and bodies determining this choice and the bodies to which these operations are imposed; in the determination of the cases, in which one or the other or more of the operations will be deleted automatically or replaced by others. To switch from one type of work to another, to modify partially or completely, in any sense, the program of operations, it suffices to: change certain variable transmission connections, most of the time, to the using suitable switches and known use.

   The latitude is still greater, the repeater always remaining unchanged, since, the distribution of the task, between the elements and for a series of operations, does not need to be assumed entirely and invariably by the pilot relay. A, at the start of the series. From such and such an element, and when this one comes into operation in its turn, it is he who, by the armatures 7, @ 8, 9 of his relay W, and according to data from the file or d A counter, or according to special cases determined by selectors, can distribute to the following elements of the repeater, a program whose nature, conditions and possible variations can be determined or foreseen at will.

   Optionally, this same element of the repeater can also suspend the. continuation of the repeater program of which it is part, insert the program of a second repeater into it or replace the first program with this second. Each of the elements a., B, c forms in the installation described an independent constructive whole, simply connected to the others by the necessary electrical connections, so that the installation can be completed without difficulty, by the simple addition of one or more elements and by establishing their connections.



  The pilot organ can be constituted by the transfer organ of one of the elements. Installations for the use of statistical data are widely used in industry at the present time, but those which are in use allow only a limited choice of operations, the combinations and successions of which admit of little. va riations. We realize, on the other hand, from the foregoing, that the embodiment described allows a wide variety of operations and combinations, so that it can be used much more generally still, if adapting without difficulty, as and when required, to growing, new or varied needs.



  The installation can of course be used with data based on a system other than the decimal system employed for the sake of simplicity in the execution form described. The letters of reference indicated in the claim and the following subclaims are not to be regarded as having a distinctive character, but they serve only to facilitate the reading of the said claims and subclaims.

 

Claims (1)

CLAIM Installation for the use of statistical data reported by perforations on cards, paper tapes, etc., comprising an apparatus transmitting the data by its organs and collaborating with a recording apparatus with several elements (a, b, c ), each of these corresponding to the rank or in place of a digit or a writing sign of the data and having a receiving organ <I> (E, </I> F, G), a recording body (H, If ". <I> Z, N, </I> Q) and - an executing body (W, V, R, <B><I>8</I></B> <I>, T, </I> L '), installation characterized by the following facts: each of the n-digits, letters or signs provided is transmitted, recorded to the postponed. by means of a corresponding number of closures of the only electrical circuit (Xa, Xb, <I> Xe) </I> of an element, this number ranging from zero to n, the operation various organs: the recording device being independent .du movement or the momentary position of the organs providing the -donated in the transmitter device, and not having to coincide with this movement or this position. SUB-CLAIMS 1 Installation according to claim, charac terized in that the moment of operation of the receiving members (E, F, G), recorders (H, If, <I> Z, N, </I> Q) and -execution (9T, V, R, S, <I> T, </I> U) of the logger device, when it receives data on another receiver device, is independent of the momentary position or movement of the organs of this receiving device. 2 Installation according to claim, charac terized in that each element (a, b, c) recorder constitutes a set which is added without other to the previous ones, as required. 3 Installation according to. claim and sub-claim 2, characterized by the arrangement and construction of the consignee elements <I> (a., b, c), </I> which make it possible to interchange the latter and, to group them as required . 4 Installation according to claim, charac terized by the arrangement of the transmitter and consignee devices (a, b, c), which maintains the state of affairs during the transmission and reception of repeated data. 5 Installation according to claim, charac terized by an arrangement such that the recording or the transfer of data take account of their positive or negative value, the direction of movement of the organs remaining the same. 6 Installation according to claim, charac terized by a multiple switch (X), which operates the transition from the use of the device as a counter to that of a repeater and vice versa. 7 Installation according to claim, the execution organs (TV) of the attendant apparatus being responsible for functioning as a repeater, characterized -in that the receiving member (E, F, G) of each element records the complement of the number of interventions prescribed and repeated by the corresponding executing agency (W). 8 Installation according to claim, and sub-claim 7, characterized by the arrangement according to which after each of these interventions, the executing member (W) transfers a unit into the receiving member (G) corresponding. 9 Installation according to claim and sub-claims 7 and 8, characterized by the. arrangement by which the recording device (Qb) thus brought back step by step to the zero position by the receiving device (Gb), puts the execution device at rest <I> (Wb), </ I> while in the next element, the same organ (Wa) is in a position to operate in turn. 1.0 Installation according to claim and sub-claims 7 to 9, characterized by a pilot member (A) which, in addition to other functions, and at the start of each series of various operations, transmits to the logger device (E, F, G) the prescribed number of interventions of the executing agency (W). Of each element (a, b, c). 11. Installation according to claim and sub-claims 7 to 10, characterized by an arrangement allowing the execution organ (W) of one of the elements (c) to assume at will, vis-à-vis of the following elements <I> (b, a) </I> the role of the pilot body (A). 12 Installation according to claim, the recorder device having to function as a counter, characterized by the re port of a unit in the previous element (b), after completion of the recording of a data and the completion the complete rotation of the encrypted disk (N) of item (a). 13 Installation according to claim and sub-claim 12, characterized by resetting the counter by means of the recording of the complement, established automatically, of its momentary indication. 14 Installation according to claim and sub-claims 12 and 13, characterized by an arrangement according to which the executing member (W) of at least part of the elements <I> (a, b, </I> c ) transmits, when they are reset to zero, the sum of the recorded data, and this by the number of closures corresponding to the digit to be transmitted from the report circuit <I> (ta, </I> tb , <I> te). </I> 1.5 Installation according to claim and sub-claims 12 and 13, characterized by an arrangement according to which, without resetting the counter, the executing device (R, rS , <I> T, U) </I> at least some of the elements <I> (a, b, </I> c) transmit at any time the current amount of totalized indications, in the form of a series of closings of the cir transfer cooked <I> (sa, </I> sb, <I> se). </I> 16 Installation according to claim and sub-claims 12 and 13, characterized by an arrangement according to which, without zeroing , the executing agency (R,, S, <I> T </I> <I> U) </I> of at least some of the elements <I> (a, </I> b, c) transmits at any time the momentary amount of the totalized indications and this by means of a single closing of the. corresponding combination of <I> (va, </I> vb, vc) carry circuits. 17 Installation according to claim and sub-claims 12 and 13, characterized by an arrangement (Qa ,, Qbl, Qc ,, <I> P, 0), </I> whereby the sum of the data recorded " is provided unequivocally, regardless of value and sign.