BE650130A - - Google Patents

Description

  

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  "Apparatus intended for forming or checking parity digits"
The present invention relates to an apparatus intended to form the parity digits corresponding to a number composed on a keyboard of a calculating machine OR an accounting machine with full keyboard and also intended
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 the Jo. ... to check if a digit of by (% #, associated t6, to a. nom3xa dialed on the keyboard 'in ..question, is Ùà @ ÔPWi%, y' '"j -t: i; /'" t .1>:

   t "Ç1 '". : - 'IJ. , salt in technique acto.l't '' - 'We know, in techn1 aC! t', - ::, 'full vier of calculating machine, from' 1n8, 1, a4f # fiiéàner for example, can print ,., r6P0n8.- '3.enfoeaBt JÇ * \ t.,: r ... Y' "f'.h -7" "of a driving bar, d = teo hum6nqu .. oClp480Ô on

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 the keyboard and this on a strip of paper which is part of the read-out equipment of the machine. In many accounting systems which use these machines as the origin of the data, i.e. in which the data supplied by these machines is ultimately sent to high speed electronic processors, it is desirable to associate a number from parity to the number that is dialed on the keyboard.

   By virtue of this feature, the printed number, most often in the form of stylized characters on the tape, can be checked or checked for correctness, as it is read, in any known manner, for example at means of character identification devices, in a memory of a data processing apparatus or subsequently transferred from a memory member to another processor.



   In these systems, the parity digit associated with the number in question and determined according to an arbitrary rule, can be obtained by the operator by means of an @@ reme or of a generator set of parity digits then sent by the operator on the keyboard @@ 2culator, at the same time as she dials the number yern It is desirable, however, to have @ @ ator of parity digits which is simple, inexpensive and can be easily adapted and quickly to the full keyboard of the envisaged machine.

   We can then, at this moment, create and establish a parity digit of a number formed on the keyboard, at the same time as this number is dialed manually, in the same way as when the machine was triggered for an operation, the number and digit of

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 parity is printed simultaneously on the tape. Such a feature is desirable, because it saves the operator the trouble of searching for the digit, and above all, it eliminates errors, since the parity digit, in this case, is not manually dialed. the keyboard.



   It is understood that, sometimes, a part digit of a number is already available to the operator and that, therefore, in these circumstances, it is desired to be able to modify the circuit generating the parity digit, so that it can be used not as a generator of numbers, but as a checker of those numbers. The apparatus according to the present invention is particularly specific to such applications, since it makes it possible, by a very simple modification, to dial on a keyboard the number and the corresponding parity digit and to ensure that, on triggering of the driving bar, the printing device does not work if the parity digit does not correspond to the number envisaged.



   Consequently, one of the objects of the invention is to provide a simple and economical apparatus for forming a parity digit of a number and which is capable of being incorporated quickly and economically into a complete keyboard which it thus becomes a Litigant party.



   According to the present invention, the apparatus for forming parity digits of a number composed on a keyboard of a calculating machine, recording machine or an accounting machine, keyboard comprising several columns or rows of numeric keys and several switches of

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 parity, electromagnetically actuated, is characterized by a group of switches associated with each row of numeric keys; by a dostin6 mechanism to selectively actuate the switches in each group, depending on which key is lowered in a row;

   by individual serial circuits which interconnect the switches in each group and by switching means which operate in response to the output of one of the individual serial circuits; in such a way that one of the switches of the set of electromagnetically controlled parity switches is actuated in order to cause the recording of the parity digit.



   According to the present invention, the apparatus for generating a decimal parity digit is combined with a full keyboard of a calculating machine, so that the machine can, if necessary, still operate according to its original design. The full keyboard of a calculating machine usually has a number key for each digit in a decimal row of denomination given. Each row comprises a group of three double-pole and double-stroke switches as well as a mechanical chain arranged to actuate a different combination of the three electrical switches in the row, depending on which of the keys has been pressed.

   In the following description, the switches which operate when a given key is pressed are represented by a binary "I", while the switches which do not operate under the same conditions are represented by a bi "0". - naire. Each of the three switches represents a binary denominal order of the binary number equivalent to the key

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 particular lowered. For example, when the decimal "2" key is pressed in a row, the three bits 010 indicate that the switch that represents
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 the median binary order is the only one that is enabled.

   In the mode of execution described lot no tench is provided
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 for the decimal zero, because with a keyboard dé almiâ OP, and! the zero is printed automatically when the second key is not lowered in the row considered. Therefore, the three-element linear nonbra "000" (no com # uta tor in action) is reserved to denote decimal zero. A switch from a group of three is connected in series
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 "'.....,.

   If. i fo with a switch from another group sulVQn'u: ne-: r'81. mathematics which, in the particular case, provides that
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 all binary digits in the leading binary row of all three-bit binary numbers are added or compared to determine whether an odd amount of binary 11111 or an even amount of binary "1" s are in order. binary denomination, If the three switch circuits connected in series compare each binary denominal order to determine whether the eraser
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 of "1" is odd or even and find 'that' 4ette;

  so s of "1" is odd, for example, one of the two conductors present at the end of each of the three series switch circuits receives an electrical potential and is represented by a binary "1". If, on the other hand, the
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 me of the "binary 1fut of the given order is paired that it is the other of the two conductors which receives the pooehtiel, and it then represents a binary" 0 ". r - 'The apparatus also comprises seven soleus donated for press a left key = free in uri. ran-) r, r

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 g6th data which is reserved for forming parity digits.

   The current necessary for the excitation of the solenoids associated with the parity keys of this row) is given by means of the switches forming a pari / odd binary element divider and - by the intermediary of a logic circuit .

     Normally, with a standard full keypad, a number is printed when the drive bar is depressed and the apparatus preferably has an additional switch connected in series between the power source and the solenoids, which switch is closed when the drive bar is depressed. drive is pressed. When the switch (normally open) is closed current flows through the logic circuit to only one of the solenoids, following those of the six conductors at the end of the three series switch circuits which receives power. current.

   A given solenoid is therefore energized and has the function of lowering a given number key which. represents the decimal parity digit. ' Since the solenoid action is faster than the printing operation of the machine, it allows the parity digit to be printed as long as the digits of the number dialed on the keypad.



   There is shown in the accompanying drawings an embodiment of the object of the invention and in these drawings:
Fig. 1 is a perspective view of the keypad of a full keypad printing machine, with partial cut away allowing certain parts of the device generating the parity digit to be seen;
Fig. 2 is a partial section showing part of the number keys in a row;
Fig. 3 is a vertical section showing in par-

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 '' t1qulier, a row of touched keys by: iOiÀnài40a
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 - and the printing mechanism, which is repeated in all
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 the other rows; <''. ;> ",,.



  Fig, 4 is a wiring diagram of the solenoids and switches; .. "", =; io .. ", ..,
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 Fig. 5 is a partial view showing in detail
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 a numeric key operated by so2ezoido; Fig. 6 is an array of corresvond..nce7, oina-ire
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 giving the code for three perforations performed? in the
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 key stem and corresponding to how the three cormutatmws in a row are operated when a key is down. -. "; The apparatus according to the invention can be
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 incorporated in a known calculating machine with a keyboard
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 plet. 'y. ,; In a general way. and with reference to .a. 1a, FIG.

   It is the calculating machine that leads to numbers and other operations, such as M & chine is an a03anic [ue or electric device capable of printing earaotcres oti cimal digits on , - a,.> .., .. '"" strip of paper. The maciï: a - *, ox4cutes other functions-which! It is not 9as related to $ eneion.,
 EMI7.10
 have nothing to do with
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 A casing 20 has (> i $ ôép ', è' 'g'MÈ38 and has a top plate 28 =, a4ub e- the e3. & Nen'ts 4th invention are mounted.

   The plate 2o and the keyboard "Plot7- eto'n preferably of the removable type, which we poe,: t ais4mantritirer Gt put back in a ype crc machine, u ... Àéq iaaa of the calculating machine are included dar .d menu'?" at we will only describe those of interplies which have = 0 rie-
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 any relation with the object of the invention.

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   The machine as represented comprises a complete keyboard consisting of nine rows of keys a, b, c, d, e, f, g, h, corresponding for example to nine decimal digits. Each row has in turn nine keys corresponding to the numbers 1 to 9 and whose head 22 shows a rod passing through a plate 48 arranged on the plate.
28.

   For reasons indicated below, keys 1 to 9 of row i can be covered with a cover 29 indicates with partial tear off * Once a number to be printed has been dialed on the keyboard, the machine's pleces to be calculated are put into action in order to carry out - a printing operation triggered using a motor bar 21. A set of printing bars 88 (preferably bearing stylized characters) prints the number thus corposed on a strip of paper 25 carried by a cart 89.



   The known machine, when converted with a view to receiving the object of the invention, furthermore preferably comprises a bar 8 y referred to as a check bar. This bar 87 operates a single row of single pole, single stroke switches enclosed in a box 91 attached to the exterior of the machine.

   The machine can also include a parity bar 95 which actuates another switch (explained in more detail below) which isolates the elements of the invention from those of the calculating machine, when the latter must operate in cp- rations for which it was originally designed.



  Printing Mechanism.- When the drive bar 21 is depressed, a switch 82 (shown schematically in Fig. 4) is actuated. And starts an electric motor.

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 92 (Fig. 3) for the execution of a cycle 4 "impPëX8i6n on
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 strip 25 of the number dialed on the keyboard using the 22 keys.
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  Rig, 3 shows the âtitrCess.ü c mechanism
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 particular row and a brief description =, is given in the following. ¯
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 In general, the number is og / flfl1é ¯ by lowering the numeric keys in the or 0 2y: e desired on the keyboard ot Fig. 3 shows, title dfdoiid, the "8" key in its lowered position. , When one al.se the drive bar 21, a switch 82 is turned off 3. tF2 motor 92 starts to turn, which, through the appropriate gears (not shown) drives the pr4Cob pal shaft 107 which turns in the meaning eerestrorstn 'saris d' floche).

   As a result, an arm 111 fixes a dea'ext @ m- * ',;.>,,., # ¯ tees of the shaft 107, as well as an idezlt3tué arm iCé' 'at the other end, are drawn into a rotation â, ag, toa 2 ^ T A 6tricr 110 carried by the extracts of the arms .. 'tz moved forward and downward by the arms 11I ",,' yC, and caliper 110 normally retains a lever Ci1 '% kings,., Tan. ches in the position shown, but liragt.! ti3, er 110 is moved by the arms 111, .le levi * î, 106' pt "îzt freely rotate in the direction 8- enesteorsum around its axis 10? e under the action of a spring '108 stretched between stud <"¯ ,, aa. <109 carried by a strip 104 and a comb 103' - The action of the spring 108 is transmitted to the lever . 10S because xe5ttt.of the strip pivots on a pin 2Q 'ac ph tz rt che of lever 106.

   Under the action of the rassort 108, â r௠gletto 1C4 moves towards the juice, tEa qt = * "of which 10 'touches the rod 23 of a button pressed. (The button." 10t touches the rod of a pressed button . (Ia- r

 <Desc / Clms Page number 10>

 
 EMI10.1
 in the example). The lever-106 prég - '80brM3' \ -...



  "'.' '' ..% - ', backwards hinged to a connecting rod 116 1 <a print bar 1.18 by -an stud 1? <.' 'bar.



  ; ,. =. .., y, <, <'' 4. \ '' ', 118 is raised in guîcwges appeqpv4 #' lM "l2l .K '-' '1'. .. <to bring the character voe # u; 4 years >, µ ,, du 5 <;, "" 4f, y sion, The distance on J.aqusL.ē3.a rêtt lWâlaoè-- \. determines the degree of movement from 1 & ¯¯, ¯ to 6gSTmipe that of the bars -carrier 123 which dot-a! aenµe / ''.



  ..u,, ^, ', .-. : '<., - ¯ - ":?'. ' in the printing position at the honeiit or a ¯ d3mrre sion 125 is released. i i ... ¯ 'j) 1% 1. /, /] ¯, lo ° c; t'uzz-. -' '-t- '"-. ', ..



  The hammer 125 is lib4r & la% ± n'vn, # j $$. QÇ (cam / ;; 132 mounted on a shaft 133 9iVo # s âazz; ea * io JQe # Ôy) # OT =, ', ^ 7 if one. In this movement a gqùà 134 he 'has, tanf s finger 135 of an arm 130 which Macule al ZIV 44XÔ) 1' $ 1 trorsun on its axis 131. T7n '"strler' ih8" laughs ± Ô? À ', f; '"1,.., ri" 3' '' 2 ^ âfi of arm 130 and to that of an identical arm <pxe ,, = i, 3r, sc ^ lifan'f'r "- '.. -: '' '. "; oNS.,. , ç, k - ',, ç "N-' Ç, the front with the arm 130., '" À, 1s'on to'tepiciecâ-' la3re 12 '(qu. turn., f .. a. . "'' A" '' '*' '.' '' 'Lutz;

     '.. Ù, laire 127 (which turned into "the without 0-elït'it * ..; i; t>;,,., -' '" \' '..' ',. spring 129 moved the barr; of impy66ionS3aeut; remove cheerfully forward, where a lock 126 11iiitisndàè 'màrteaa, <): - ..r 1' "..i>, = ,: z 125 in the armed position. -The piece .xtt, a.eJ, l7 onant in contact with latch 1 # x4a .: sure that this' <last releases the mrteau.l.2 lackeys Emptiije le'-ifye forced at the end of the bar, considered 123 , '$ Én: The 5a- pier 25 which is held by a turntable at 2E. #F;

   # èrq la.in "'! of the printing cycle Itarbre'107t the arm 111 and liar bre 133 return in the direction dextror.u' and Çé sari.sse of impression is brought back to its position dx'o.gn t .. 13
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 ,he
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 Device senator do digits da ar3.t., 'Fige ly bzz shows the keyboard elements that are used to form-the-number-

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 parity fre. The key head 22 and the rods are repeated in all rows from a to i. However, row i has an additional device which is not included in rows a to h. We will therefore only describe row a which is identical to all rows a to h.



   The keys of row a have a head 22 fixed to the end of a rod 23 which can slide in slots made in the plate 28. The wide side of the rods is perpendicular to the direction of the rows and each rod comprises, in the part which: e is located above the plate 28, three openings 34a, 35a and 36a placed side by side. The openings 34a are disposed towards the driving bar 21 and a coding member, similar to a wire, is passed through the openings 34a of all the rods 23.



  An encoder wire 32a is passed through all of the openings 35a and an encoder wire is passed through all of the openings 36a.



  These threads are for example made of nylon of good strength and low friction. The encoder members 31a, 32a and 33a bear on bridges 38 mounted on the plate 28, in front and behind each touch rod 23. The rear end of the encoder members 31a, 32a and 33a is fixed to the plate. 28 by means of a fastening bar 39; while the other ends are attached separately to 1 of the levers 41 of switches 42a ', 43a and 44a respectively. The switches 42a, and 44a, are also mounted on the plate 28 with their actuating levers 41 pointed upward.

   As the free end of each lever 41, above the plate 28 is at a greater distance than that which separates the latter from the upper face of the bridges 38, a metal bar has been placed.

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 rounded 46 whose purpose is to deflect the code = $ wires upwards. Bar 46 is attached to plate 28 using blocks 47.

   In this way) the encoder wires are placed parallel to the plates 28, between the bridges 38 towards the back of the button "9" and around the rounded bar 46 which deflects the wires upwards, ensures their engagement.
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 ge-: with the actuating levers 4l * 2Jmme seen in Fig. The openings 3-a and 36a made in the rods 23 have two different terminals, one being circular and the other
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 . <. v. J elongated. These forms correspond to the view table-> ". 2µ1; binary uttJn of Fig. 6. When binary ui''r1 is in the binary coded number, the table indicates that the corresponding opening (see top of table) 'of the rod (on the left of the table) has a circular shape.



  For a binary "o", the table indicates THAT the formed of, the opening is elongated. By way of example, the code of the
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 key "2" is $ 010 that is to say that the rod 23 of this key has a circular opening 35a disposed between dMûc elongated openings 34a and 36a. button nmé iquw '1 J "7" is coded 111, that is to say that its t.e has three circular openings 3ta 35a and 36a. , R Since a three-bit binary number only gives eight combinations
 EMI12.4
 different borns, we arrange, in this particular case to use for keys "6" and "9", 'the n8me code as. #:

   for the "1" and "6" keys, as explained below,
The table in Fig. 6 shows that each rod 23
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 has at least one circular opening so that a lever 4l of at least one of the three commue.rs + 2.a 43a or

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 44a is operated when a key is depressed.

   For example, if the "1" key is lowered to the position shown in Fig. 2, the horizontal part of the wire 31a ae
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 tends and becomes a little shorter due to circular 3.tctttt3rtur3 34a which tends to lower the thread 31a, On the other hand the threads 32a and 33a remain uncut, in their position
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 normal, because the elongated openings 35a ′ and to 6a do not already come into contact with the respective wires 1, in Wns6qu acet only the lever 4l of the coimutator -2a is actuated) then., ';, *., that the levers of the switches 43a and ewa remain luct4tu.



   When forming a deci- parity digit. badly, the full keyboard of Freeze 1 -treats only numbers of eight decimal digits, because) as will be better understood by the following description, row i is used here to form the parity digit of the number placed in the eight other rows a through h. He goes. however, that the invention is not limited to the case of eight
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 rows of digits ..- '4 <s ¯ ^;' ¯, rt. ' / 2 '' \ '""> .. s
Referring again to F'ig. 3t the additional provisions incorporated in the row are
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 the following.

   The number keys 11111 to "7" of the row i differ from others in that the heads 22 are fixed to sylindrical iron rods 26 (see also Fig. 5) * These rods have a part oylinàliip #; 5Ùpon-masnétiquo , for example in p7.aiq material, ue. .ét arie '' 'plastic bzz 50 is fixed, by a set' "extc end9, to ..ti-
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 26th iron while its other end is 16, $ 4 a flat rod 23 ', similar to the rod 23 of the others affected,' except that this rod 23 'is shorter in order to accommodate,. ,, sufficient space for full solmvidoa at 87 which are

 <Desc / Clms Page number 14>

 
 EMI14.1
 placed under the, p $ # quo supr1e 48.

   The flat rod 23 of row a can be easily transformed into the rod 23 'by removing the part where the openings 34a, 35a and 36a are. An iron rod 26 and a plastic rod-50
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 are provided for each key do "1" to "7" and are arranged in eolenoids 81 82, 83, 84, 85, S6, and S7 respact3.verent. The iron rod 26 extends slightly inside each solenoid coil, in order to enhance the action of the latter.

   Most calculating machines have horn touching rods, so that the plastic part 50 acts as a magnetic screen and extends to the lower part of the tubes.
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 sol6noldes, Thanks to this arrangement, the key is pressed when the corresponding so16noide is excited. However, if the rod 23 'were of a non-magnetic material, for example non-magnetic stainless steel, the key rods could be placed closer to the windings.
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 without affecting the operation of the solfuloids # 'The seven solfuloids 81 to S7 are suitably supported below the plate 48, by means of a frame 93.

   The ran-, 11; \ j Í,) "1'ond also son 3lis 32i ot 33i which pass- 9> .ins openings 3 + iy 35i and 361 connected to the commu-> '>; = .1} 1 ] 1 and + .i although their presence is not essential for the formation of a parity digit; these elements, as indicated below, are provided when the device is used as a parity check system.



   The parts which perform similar functions are designated here by the same references. However, to distinguish rows, some parts (such as

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 openings in the rods 23, the encoder wires, the switches) are designated by numbers followed by the lowercase letter identifying the row.

   For example, the part numbers of row a, are followed by this letter a, those of row b, followed by the letter b, etc. - Wiring diagram.- If we refer to Fig. 4 there is a diagram of the connections relating to the switches Since a group has three switches and a group is provided for each row, there are a total of twenty-seven switches 42a to 42i and 44a to 44i which are preferably double blade and double stroke; the two poles 52a 53a belong for example to the switch 42a. The two poles can occupy two positions thanks to the levers 41 (see dotted lines in the drawing).

   When an encoder wire is loose in a given row, the corresponding double pole switch mechanically connected to the wire is held by a spring (not shown) in the position shown in the drawing, the blades 52a and 53a being in contact with terminals 54a and 55a of switch 42a. When the wire is stretched, the switch mechanically connected to this wire, is moved to its other position where the blades 52a and 53a are in contact with the terminals 56a and 57a respectively, of the switch 42a.



   The double pole, double stroke switches are connected so as to constitute a binary even / un-even comparator in which the nine switches 42a to 42 1 which ', represent a binary row, are connected: in series so that the potential applied to payroll 521 of switch 42I, by a normally closed switch 58 (one pole and one stroke), or coupled to a conductor 96 connected to the two terminals 54a and 57a of switch 42a when a number

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 pair of series switches are actuated. On the other hand, the potential is applied to another conductor 97 which is connected to the two terminals 55a and 56a of the switch 42a when
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 that an odd number of comiutataims are operated.

   This result is obtained by connecting pole 52a of switch 42a 1r ': .e1J1 {. terminals 51tb and 57b of the switch 42b and in con- ;;: ant -.e p81e 53a to the two terminals 55b and 56b of the horn- .. "1.v2ti. etc ... where indicated by the drawing.



   The nine switches 43a to 43i representing another binary column perform the led function,
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 -. =, There in case the potential applied to p81 52i of con-> .l8ieur 431 by a noraalenient switch formed 59, is '' .1 '&.,' Uri or the other of two conductors 98 or 99, suât van't <ill an even or odd number of actuated qout switches in the series.

   *
The nine switches 44a to 44i represent another binary column and achieve the same goal, except that in this series, the potential of the source 60, applied to the pale 52i of the switch 44i, through three normally closed switches 72, 73 and 95 'and a normally open switch 62, is coupled to either of the conductors 100 or 101 depending on a name.
 EMI16.3
 pair or 1pair of switches are operated in the s \ '1e.



  Although Fig. represents only twelve switches 42a, 42b, 42h,) + 2ire 43a, 43but 43h, 43i, 44a, 44b, 44.h ei 3, the fifteen other switches are naturally c <1 ,, taken schematicallyemont.



  Other connections are provided for the twenty-seven coianutators 42 to 1 + 2, 3a 3i and 44a to 44i as can be understood from the following. These connections

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 are as follows: In the first series circuit comprising nine switches 42a to 42i, pole 52i of switch 42i is connected, not only to a suitable source, but also to the other terminal of this source (the one which is not to earth), in series by means of two switches 61 and 62, normally open and a switch 95 'normally closed, which are at one pole and one stroke. At the other end of this first series circuit, the terminals 55a and 56a of the switch 42a are connected, by a conductor 97, to a terminal of a solenoid 63 of a switch-relay 64 which is also double-pole and to double stroke.

   The other end of solenoid 63 is connected to the ungrounded terminal 60 of a power source, by normally dull switches 73 and 95 'and by switch 62 normally open.



   In the second series circuit which includes can commt @ baurs 43a to 43i, the blade 52i of the switch 34 is not only connected to the earth, but also to the conducte 96, then to the terminals 54a and 57a of the switch 42a (of the series circuit mentioned in the first place), and this by a switch 66 normally open. At the other end of the second circuit, terminals 55e and 56a of switch 43a are connected by a conductor 99 to a first pole 67 of relay switch 64, while terminals 54a and 57a of switch 43a are connected by a switch. 98 to the second pole 68 of relay 64.



   In the third series circuit comprising nine switches 44a to 44i, pole 52i of switch 44i is not only connected to terminal (ungrounded) 60 of the source, but also to conductor 98 (of the second circuit).

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 cured above) via a switch 71 normally open.

   At the other end of this third series circuit, terminals 55a and 56a of switch 44a are both connected by a conductor 101 and a switch 74 normally closed, to one conductor of each of four solenoid windings S4, S5, S6 and S7, The terminals 54a and 57a of the switch 44a are both connected by the conductor 100 and by a switch 75 normally closed, to a conductor of each of the three windings S1, S2 and S3. The conductor 100 is also connected by two switches 81 and 82 normally open to a conductor 92 'of an electric motor 92 (Fig. 3) which drives the mechanism of the calculating machine.

   The conductor 92 'is also connected in series to the terminal (not connected to the ground) of the source 60, through a switch 83 normally closed and a switch 82 normally open. The other terminal of the motor is connected to earth.



   Relay switch 64 forms part of a logic circuit which determines which of the seven windings S1 to S7 is to be energized. Relay 64 has three terminals. 77, 78, 79 and 80. The terminals 77 and 79 form contact with the poles 67 and 68 respectively, when the winding 63 is not energized. When this solenoid winding 63 is energized, the poles 67 and 68 make contact with the terminals 78 and 80, respectively. The other terminal of solenoid S4 is connected to terminal 79. A solenoid winding SO (indicated in dotted lines and whose function is specified below) could connect, if necessary, conductor 100 to terminal 79.

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   It should be noted that the circuit represented in the diagram of FIG. 4 allows the calculating machine to operate according to three different kinds of operations,! namely: the kind for which it was originally designed, the kind according to which a parity number can be formed and finally the kind allowing to check the parity of
 EMI19.1
 any number dialed on the keyboard. P, :: ru ,: In the first operating mode, the parity bar 95 is in its raised position (as is the check bar 87, this
 EMI19.2
 which closes switch '83), and in turn switch 95 'is opened, which isolates the circuit from that of the calculating machine.

   The current source supplies the motor 92
 EMI19.3
 by cocButateurs 83 and 82.



   When the machine operates according to the second type of operation, that is to say retort generating parity cipher, the bar 95 must be depressed and locked by a suitable latch placed on the housing 91 (Fig. 1, which maintains the switch 95 'closed. The check bar 87 remains in its raised position and the eleven known
 EMI19.4
 tators 72, 7, 81, 75, 71, 59, 66, 58, 61, 73 and 83 (contained in housing 91) are in the positions shown.
 EMI19.5
 shown in FIG. , pet-àd1re That the cçmmutatemts,? 8, $ 9, 72, 73 7 79 e '8 sot iron a.or ° that the switches 61, 66, 71' 8l sot or eafts.



  When barro r; ata, ise When the ds bar, part 95, t. f and there! .'- check bar 87 eevée le) p3rcuj! t.t which serves' len-
 EMI19.6
 to generate a parity digit is the rivant: the first series-circuit of switches 2a to 4? i selects that of the groups of 'four sol6no.dcs which must "be c: ewtés because this circuit' .excites or- no 1 'winding 63 of

 <Desc / Clms Page number 20>

 relay 64 depending on whether the number of energized switches activated in the series is odd or even. If the number is odd, the selected group includes the four solenoids S1, S3, S5 and S7. If the number is even, the group includes the four solenoids S0, S2, S4 'and S6.

   The second switch series 43a through 43i reduces the numerical choice of solenoids made by the first circuit from four to two solencides. because this second circuit determines that of two groups of solenoids (SO, 81, S4, S5 or S2, S3, S6, S7) to which the ground potential is applied.



  This potential is applied to the first group (S0, si, S $ and S5) when the number of action6s switches is even, while it is applied to the other when the number is odd. The third series switch circuit 44a through 44i further reduces the numerical choice of solenoids from two to one of the eight solenoids, since this circuit determines that of the other two solenoids groups (80, S1, S2, 83 or S4, S5, S6, 87) to which the ungrounded potential is to be applied.

   This potential not connected to the mass is applied to the first of these last groups (SO, S1, S2 and 83) when the number of actuated switches is even, while it is applied to the other (S4, S5, S6 and S7) when. that 'the number is odd,
When the machine is to operate in the third mode of operation, that is to say as a parity checker, the parity bar 95 is again lowered and locked in this position, as is the bar 87. When the last side is lowered, switches 61, 66, 7 and 81 are closed and switches 58, 59, 72, 73, 74, 75 and 83 are open (the opposite of what is indicated in

 <Desc / Clms Page number 21>

 essin).

   The eight solenoids SO through S7 and relay 64, with winding 63, are then electrically isolated from the circuit. Current is applied to motor 92 through the depression! of the driving bar 21 and this by means of switches 62, 95 'and 61 and by the first series circuit. If the number of switches operated in:

  The first series circuit is even, current flows further to conductor 96 and switch 66 of the second series circuit. If this number of switches operated in this second circuit is also even, current still flows to conductor 98 and switch 71 of the third series circuit. If the number of switches operated in the third circuit is also even, the current is further coupled to conductor 100 and switches 81 and 82, terminating at motor 92.



  Of course, if any of the numbers of switch turns operated in the three circuits mentioned is odd, the circuit to motor 92 cannot be completed.
To simplify the embodiment described, the three switches 421, 43i, and 44i are identical to the other switches 42a to 42h, 43a to 43h and 44a to 44h, even if the poles 53i of each of the switches 42i, 43i and 44i do not are not connected in the particular case.



  Formation of a nombro of decimal .parity. - The operation of the mechanism which adapts to the clavisr will be described in what follows, as well as the circuit of FIG. 4. First, the parity bar 95 which is locked in this position is pushed in, while the check bar 87 remains in its raised position, by way of example, when a number. as 542.361 must be dialed on the keyboard, we press the key "5" in row f, the key "4" das

 <Desc / Clms Page number 22>

 
 EMI22.1
 ".1, '' <row ,,. Key" 21 'in row 6,; ,, key "3 in row c, 1 & s, tcha" 6 "in row Jb at touax" 1 "in the rlaÊg4d .;

   The Fjtg concordance table. ë indicates 4that 'a linked "to the key" 1 "pCBpo? t & -three, otveassrs3.rl.a: ,, ta and that with 1 tsic% e i' ag" a '...



  '' t '"<: <: /; =,' ¯;.;. adep only to thread vod '.3xa of this row, sf1 1' / fµùdù, j¯, of 'scrt'e that the coinmutateùr 42a is actuated a ï ",, 'y, I.es 52a and s3a da commutnt; Ur 42a 2nÔduce the' 8itat" a.veo ''. the terminals, 56a and 57'al respectively., I4 ', $ me, V4 always referring to the Fini table 6t when the key '6 "of row b is pressed, the threads 32b, and' 33b have strained (considering that row a astraprsent" ēdas au-., ", g, : t;. very rows and that, consequently, the toucioX6 '-a of 4. ¯;.%., openings 3? b and 36b which are circular). Ç; i f: as Pd- the 52b and 53b of the two switches 43b and t + 41sci ', "con .5 .i, ..., tact with the poles 56b and 5? B.

   If we insert Q 1 key "3" in row e, the wires 3le and 3Pe "are held and the polos 52c and 53o of the coopinutateurs 42o st t3c .t, in close contact with the, De ri8me, by pressing the remaining keys "2" 1 "4" and "5" - in rows d> e and f respectively, civors, -. I, s oor-. rasuondanta are mowed and the two poles' of / each of canTutataurs 43d, 44e, 42f and 44f are actuated to ensure contact with terminals 56 and? 7 (assigned the appropriate suffix of the alphabet). As no all nrcs ez. Inserted in rows g h and lp the commutateuce -g t '3g: 44gi 42h, T3hy 44he 42i, 431, and 44i remain in the position ryepresented eh' 3.g. 4.

   Since the cta'Gaür '62 is open when the number 51 + 2 * 361 is dialed on the keyboard, the circuit has this advantage known, 14mé # tairé

 <Desc / Clms Page number 23>

 
 EMI23.1
 .. ':; ..,> .. .r '",: 1 \;?,: + () ({..:' ç'r;" that no current flows in leit 'v1ttgt ".se: wt., 'e' ':,' - '', ":" ,, ..:,.



  '"' '' '' fl, ....; 1;" .. ".



  42a to 2i 43ra '43i and 44% Ôi µgRnd i..a Tw'i $ t,', L '!' Vt.!, <",, '! ..., .. \ i; ,, \ JJ1I -tt.,.,. f .--, .....- ,, .. \ "j. ,,,;, which avoids the formation, t, ',:! t.r''3; ., -j {, e: it, and.



  As a result, the parity digit xl at 'p pr, f',: 1; j, '/ if: "', '.] Has ..' i.: <; '' VA.:'41. J5: -. Composed in 1p. Row i 'b1oel "qok;' leiàkPcv $ fx sietn, .. composed in row well '\ fr, O1; S! T:., ::, -in condition to do so, .de quo c'our'àRt paara 'lÓ ".d $ .en-: depression of the bar natrjcT" 21. ¯, i ll f¯ '..,. "",. "": The number is at emaî, 8J) Jnkriife;> o:, "'\ v' '' '.............: ...-: - a' is at the nornent where this iaprgasittz. a .3, eu.vqûè: ux "â '',. .t.,> 1 :, ". - <. is supplied to circuits. The parity bar; 95 'Being lowered" and the' check bar 87 "l", ea.eYé ('l <; 1' qpltrat; i9r1 "ēt, r 6 T" t '-r¯ wi i <' W .. "6x '-' '^ Cé,, w,' ry ^ ¯ of pressure is generally due:, bd - c rÓ! 1 $ '',:!. ", ('.. drive bar 21 (Fig. 1).

   A cé nczxrn "b .8s tsrrupa 'v' '* = 3 .iy 62 and 82 are closed, because they are re116s' to 'ia bam' -. 2 & y '' .., 't' '\", "' } 1- 11: ".. an appropriate bi611age 84 (Tepresent ('sh poi.nt1. (T'F! .F. ::: - ..'; .. # '' ''; \. R. ' '' '' '' ''; '' \ J. ('' '' '.: r ;;' '' '' '4' '' '' 4). So that the switch É2 =, s6 ' term aw, - Y tenps to press a numeric key ccc ,, r. v Ë- lenoid, that is to say to establish the cipher of 1t4: 'e' '. <, 0;.' .. . '<*) ,:; so that it can be printed in n # ne time q't; #' 9tb ¯ '. r F linkage 84 can close, inW! -ru, Pteur 6l tvant 3 < tey- '"' '.: \," "ii .. breaker 82.

   However, in general the soe% ÔnoidÔQi àài1-> hold up much more quickly than -. 'The {a.ea'.mêc <! S6' i this characteristic ù'eµt .. pÉJ ';; 'te,,; . , <. :?: j and this characteristic is not $ t}? a, 'nJ14t, e1; J.a; trtnn. "" 1 in some dt applicatic5n. , r- '' '' <: '.:' :).! 4-: '1 turns 42a, 42c and 42f (1e rtt.j7le.i, Y' çt, l8 {J! t 1t. even d ' elements' "1" binai $ ex; are '' nà éfJ "born in the first eircuit-, ri vs, uf '',.;.



  42i) so that the circuit of. 1 '3' ': 1' 421, so that (', ¯.,,. 63 -' piety when the switch ô2 and fr &. ". QnPC '.% 3. P16té law SqUG illteTTUptaUn eàt <jj # jrùô" ., -v '"...' ..... '*'". '# $. excited attracts kernel 85 which operated at sc., tu..',;: es "',; ,,: .: .., "." ¯ ..;. Î ÎF4> # 1 <, = ',,

 <Desc / Clms Page number 24>

 67 and 68 of the rail switch 64. Three switches 43b,
 EMI24.1
 43 c and 43d are actuated in the second crcuité3.a of nine switches 43a to +, 3i of aorta that the conductor 99 and p81o 67 of the connector 64 are both at ground.

   Finally, three switches 44b, 44e and 44f dutioisiarae circuit-series of nine comutatours 44a to 441 are actuated, so that the potential (not connected to ground)
 EMI24.2
 of the source is applied to the driver! '?., <? which, completes the circuit of the solenoid S7, The excitation of the latter has the effect of drawing down the iron rod 26 (Fig. 3)
 EMI24.3
 of key 11711 in row: te When l9 mo:

  er ", 9. performs its printing cycle, the number is i! 3prlM6 at m88 time that the number 5'42.361> so that the set of digits z 5Y2361" appears on the strip of paper 25y with a double spacing between 11711 and "5" 'When dialing other numbers on the keypad, different parity digits are calculated by the nt6 "canis when the drive bar '21 is set for number printing. indicates above, according to those of the twenty-seven switches which are actuated, the circuit
 EMI24.4
 of Fig. 4 determines which parity digit is printed with the number.

   Another example: if the number 7'542.361 is COE! - placed on the keyboard, the three additional switches
 EMI24.5
 t2g 43g and zig in row g of keys are also active Dné3 with the co-routers of the other rows corresponding to the number 5'2.3 & 3 ,. When the number bar 21 is pressed, to trigger the printing of the number, a dif-
 EMI24.6
 pater el ference appears at conductor 100 and at terminal 79 of relay 64.

   As the calculating machine is preferably of the type that prints a. zero means tif when

 <Desc / Clms Page number 25>

 
 EMI25.1
 no key is pressed in the row consideredfo and it is coded to prevent a significant zero from being printed in row i, it goes without saying that in the particular case, we can dispense with the use of the solenoid
 EMI25.2
 SO. If, on the other hand, the machine required that a key be used to print the zero, it would suffice to add the solenoid SO in the circuit described above.

   The winder-
 EMI25.3
 ment SO can gtrg conformed of naniere to fire another iron torch which, in turn, actuates the key of the u8mo so that the sol6r.oidas Sl to S7 wiggle towards the corresponding keys. Since, in the example, none of the keys 1 ± t 7 are pressed by the solenoids, the number 11 0 7542361 "is printed on the paper 25 with a single space between 11011 and" 7 ",
 EMI25.4
 The removable cover 29 (ig. 1) orp8che a. press: c¯ + acc "1eY.tcl of a different key in row 1, while the parity digit is being formed, so that
 EMI25.5
 has the certainty of a correct formulation of this figure.

   To summarize the process described above, if the sonrze of-.A elements 11111 of a binary d6notlinale row represented by switches Ir2a to 421 is of even order, the circuit passing through the relay 63 is not co ::! plft6. On the other hand, if the ringing of binary "1" elements is of odd order, this circuit is closed. Then, if the sound of the binary if 1 "elements in the denoninal binary row represented by the cooiTutatours'43a to 43i is even, the ground potential is brought by the circuit-
 EMI25.6
 series to conductor 98 coupled to pole 68 of r61iB 64 On the other hand, if the sum in question is 4 'order' 1np1r, the current is supplied to conductor 99 coupled to pole 67 of relay

 <Desc / Clms Page number 26>

 64.

   In the remaining binairo denominal order, if the sum of
 EMI26.1
 ôlénents if 1 "binary is even, the series-circuit of the switches 44a at si embno the current of the terminal not connected b .a ground of the source 60 to the pclo 2a of the cosm: user 44a up to the conductor 100. If, on the contrary, this 501 $ 16 is odd, the current is atnpne to the conductor 1¯01 ..



  Vorification of a copy number.- It often happens that a number with its parity digit must be copied or transferred from one document to another. We can very simply codify the circuit of FIG. 4 to transform it into a parity digit verification circuit. A verification circuit is implemented by pushing in the bar 87 ot while keeping the parity bar 95 depressed. The bar 87 is locked in its lowered position here by any latch placed on the trunk 91 (FIG. 4) and it
 EMI26.2
 is linked mechanically: cnt by a biolla; 3 (represented by a line poiiitill6o)> - row 60 of eleven col-iruutatours 72, 74, 81, 75, 71, 59, 66, 58, 61, 73 and 83 so that these are activated? together.

   Seven of these connutants
 EMI26.3
 (3, 9 72, 73, 74, 75 and 83) are done and four (61, 71 and 81) are opened when the check bar is in the raised position. When the latter is on-
 EMI26.4
 ion6c, all the poles of the eleven connections are in question tilting downwards thanks to the nentiorné bicllage 94, so that the seven which were closed open, and the four which were open are formed. Simultaneously, the removable cover 29 Gst removed in any suitable manner, to uncover the keys of row i.



   If, for example, we have to copy the number '"2 654.621" which already includes the parity figure "2",

 <Desc / Clms Page number 27>

 you dial the number starting by pressing the number "2" in row i, then the "6" key in row f, the "5" key in row e, etc ... In this case again, some of the twenty-seven commtatcurs 42a to 42i, 43a, 43i, 44a to 44i are actuated when the number is dialed on the keypad; these are in particular: 42a, 1 + 2-and 43b, 43a, 43f, 43i, 44c, 44d, 44e and 44f.

   With this position of the switches (the bar 87 being lowered), the motor circuit 92 is closed when the actuator bar 21 closes the two switches 62 and 82; then the number is printed. None of the eight solenoids SO through S7 can be energized during a test operation, as the windings are disconnected from the circuit by the down position of baris 87.



   However, if one of the digits has been entered incorrectly, for example, the digit "1" (from the number 2,654,621) is errour replaced by a "7" in row a, at that time instead of of the single switch 42a in row a, all switches 42a, 43a and 44a in that row are in action (including switches 42e, 43b, 43c, 43f, 43i, 44c, 44d, 44e and 44f), thus leaving the motor circuit open, even when drive bar 21 is used. As a result, the motor circuit did not complete due to the error of the parity digit "2" for the number 654.627 and at least one of the three series circuits has an odd number of switches in action. so that the Tie printing operation can take place, which therefore prevents the recording of an erroneous digit.



   Given that, in the example described, three encoder wires are chosen in each row, we only have eight

 <Desc / Clms Page number 28>

 different digits of parity o to 7. As indicated above, the openings 34a, 35a and 36a of the keys "8" and "9" of the row, a for example, are identical to the corresponding openings of the keys "1" and "6 "from the same range This repetition was chosen in the particular case.
 EMI28.1
 . ar the gerre of stylized characters used in this ..0. $: 5 have such as confusion between the digits "8" and r, p & Tt ct "9" ct "6" on the other hand (and vice versa maturally) is practically non-existent.



   In some applications, however, where the possibility of confusion between given digits could
 EMI28.2
 - -, 'p; in can then provide more than three encoder son 4' se.t aàjnsx ùne absolute security in the verification. @@@ amample, if we use four threads instead of three,
 EMI28.3
 ,,:; - '"each row, there must be four comautateurs in each row. In this case, it is necessary to provide two rows of parity digits, thus giving sixteen combinations of digits.

   Independently of this difference, of the presence of four series circuits instead of three, to constitute the comparison of the binary code, it goes without saying that these series circuits operate in the same way as in the case of three circuits, according to whether the nonbrc of switches in action is odd or even when the number is dialed on the claviar.

 

Claims (1)

EMI29.1 DREAM! PI CATIONS 1. Apparatus intended for forming and verifying parity digits corresponding to a number dialed on a full keyboard of a recording, calculating or accounting machine, keyboard comprising several rows of numeric keys as well as several parity switches electromagnetically actuated, characterized by a group of EMI29.2 switches associated with each row of numeric keys; by a mechanism for the selective actuation of the switches in each group according to the key which is lowered in a row; by series circuits interconnecting the switches in each group; and by switching means which operate in response to the output of one of the individual series circuits, so that a EMI29.3 CO:! "11t'ttC" of all the co; -1 = the parity switch cor '<i. "I <. Blectro - e.ntiquar.7ent be activated in order to cause the recording of the digit of parity. 2. Apparatus according to claim 1, characterized in that the parity switches comprise a row of electromagnetically actuated printing keys and in that this row comprises a corresponding group of EMI29.4 horn, 1nJUta turns. 3. Apparatus according to claim 2, characterized in that the mechanism selectively actuating the switches of each group, comprises a set of coded wires passing through code openings made in the key stems in each row, coding wires fitted with a tap that 'to lowering <Desc / Clms Page number 30> of a key in a row, some or some of the switches of the group associated with this row either or are actuated. 4. Apparatus according to claim 3, characterized in that the openings of the key stems have a shape and an arrangement corresponding to a binary code. Apparatus according to Claim 3, characterized in that the switches of each group are of the double-blade and double-stroke type. 6. Apparatus according to claim 1, characterized in that 'each' series circuit generates an output which depends on the number - even or odd - of switches actuated in the group, output which selectively conditions one of several solenoids actuating a switch. corresponding parity. 7. Apparatus according to claim 2, comprising an electric motor and a commando keys capable of disengaging the switching members of the series circuits @,. duels, characterized in that by the actuation of a control @ the individual series circuits are included in a circuit of the electric motor so that the motor is energized only when a parity digit registered on the keyboard by Manual lowering of a parity numeric key corresponds to the number recorded by pressing numeric keys in rows.