BE748108A

BE748108A - CALCULATOR,

Info

Publication number: BE748108A
Authority: BE
Original assignee: Heiremans Jean A E
Priority date: 1970-03-27
Filing date: 1970-03-27
Publication date: 1970-08-31

Description

       

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avant dans laquelle les part[pound]** opérantes des crémaillères sont 

  
 <EMI ID=7.1>  de ses déplacements, faire coopérer les dents des crémaillères et celles des roues dentées et les dégager les unes des autres, les criailleras entraînant les roues dentées, suivant la position de l'arbre susdit; soit en passant de la position arrière à la

  
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Suivant une forme de réalisation de l'invention, l'arbre précité est .fixé dans un bâti guide, dans le boîtier" de

  
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dix dents et leur pourtour étant divisé en dix parties égales numérotées de 0 à 9 en sens inverse de celui des roues du totalisateur, les roues dentées de cette seconde série étant montées

  
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deux arbres étant situés dans un plan parallèle à celui dans lequel se déplacent les crémaillères coopérant avec les roues dentées du totalisateur, les dents des roues du compteur étant

  
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en élévation soufrant la crémaillère de compteur, celle-ci étant représentée à la figure 12. en position arrière, la glissière

  
 <EMI ID=29.1>  figure 13, en position arrière avec la glissière en position <EMI ID=30.1>   <EMI ID=31.1> 

  
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tions: addition. soustraction, multiplication et division. Elle 

  
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dix dents et ayant leur pourtour divisé en dix parties égales 

  
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totalisateur 1 tandis que l'autre série constitue le compteur 2 

  
de la machine. Les roues du totalisateur et du compteur sont numérotées en sens inverse et sont montées folles sur deux arbres '.

  
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direction perpendiculaire à ces derniers, entre deux positions 

  
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est monté et guidé dans le boîtier 6 de la machine afin de pouvoir, 

  
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arbres 3 et 4 se déplacent dans des plans parallèles et perpendi-

  
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et 9** entre deux positions extrêmes, une position haute dans la-  quelle les roues dentées du totalisateur ne sont pas en contact

  
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crémaillères. Le bâti 5 supportant les arbres 3 et 4 est égale-  ment guidé dans le berceau 7 de manière à pouvoir se déplacer, par rapport à ce dernier, afin que les arbres 3 et 4 puissent  être animés d'un mouvement suivant une direction parallèle aux 

  
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leur 2 de la machine, alignées avec les roues du totalisateur, 

  
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geusement à deux dents afin de permettre la réduction du déplace- <EMI ID=59.1> 

  
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et 9". ' Un ressort 22 est prévu pour coopérer avec chacune des

  
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d'addition et de multiplication. La gaine 18, dans laquelle est agencée la crémaillère 9, coopère avec une butée fixe 100 solidai-

  
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13 est entraînée en position extrême avant pour effectuer les éventuels reports dans les opérations d'addition et de multipli-  cation et ce de manière à ne pas entraîner la roue 8 du totalisateur qui correspond aux unités. La butée 100 a une longueur telle que la gaine 18 peut effectuer un déplacement moindre que le dé-

  
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placement étant égale à la distance séparant les faces actives

  
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ce cas, la crémaillère 9 devrait comporter une dent en moins que, les crémaillères 9' et 9". La glissière 13 est guidée lors de ses déplacements dans le boîtier 6 de la machine grâce à des rails
26, de section en L, solidaires de la glissière "logés entre des

  
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pour chacun des rails 26, un couloir de glissement de section

  
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rapport la glissière de la distance susdit* correspondant 1 la 

  
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glissière pour occuper une de ses deux positions extrêmes susdites"

  
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déplacer le bâti 5, par rapport au berceau 7, successivement d'une !

  
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roues immédiatement voisines et dans le sens unités-dizaines" 

  
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à boudin 36 et 37 s'étendant sensiblement parallèlement aux axes  des arbres 3 et 4 sur toute la longueur du bâti, chacun de ces

  
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son autre extrémité est fixée au berceau de manière à ce que les

  
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égale à la moitié de la distante séparant les onglet* d'une série.

  
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est déplacé dans un sens ou dans l'autre, fait tourner simultané- '

  
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d'une des tiges d'un onglet d'une des séries d'onglets et de 

  
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ce correspondant à la distance séparant la denture de deux roues

  
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res, sébiles suivant 'Leur axe longitudinal, disposées parallèle..;

  
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du totalisateur pour effectuer les reports' dans le cas d'opéra-

  
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dépendantes par rapport à celles-ci. La crémaillère 50 est logée

  
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dizaines tandis que la crémaillère 50* est logée entre 

  
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le berceau 7 occupe sa position basse. Chacune des crémaillères

  
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lère et s'étendant parallèlement à celle-ci. Chacune des tiges

  
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sente, à son extrémité 53, une butée fixe 54, un ressort 55 étant prévu entre cette dernière et le palier 52 de la glissière. les'  crémaillères 50, 50' et 50" sont guidées dans le boîtier de manière à éviter tout pivotement de la tige 51 autour de son axe...

  
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glissière 13 se trouve dans sa position où lesdites crémaillères

  
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50, 50' et 50" agencées pour que leurs dents puissent venir en'  contact avec la denture des roues du totalisateur 1, peut coulis- 

  
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 <EMI ID=163.1>  ment sur un arbre SI, fixe des pièces solidaires du bottier *de'

  
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dentée du totalisateur et un profil ayant sensiblement la fora* d'un trapèze base 63 opposé* 1 1" saillie

  
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totalisateur 1 sont agencé" de maniera à ce que la dent de report de la roue 8 du totalisateur correspondant aux unités libère la

  
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dentées du totalisateur 1 pour effectuer le report en faisant tourner ces roues d'une distance équivalente à l'espace compris entre les faces actives de deux de leurs dents immédiatement

  
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le report a été effectué, en position bloquée et inopérante par le déplacement de la glissière et soit, après les additions et

  
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sort 55, soit après les soustractions et divisions, par l'inter-

  
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Les moyens de contrôle 16 susdits comprennent deux tubes 66 montés le long des bords latéraux de la glissière 13 et logés dans des parties arrondies 67 s'étendant sur toute la longueur du boîtier 6 de la machine. Les tubes 66 sont montés sur la glissière 13 de manière à se déplacer avec elle et de manière

  
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la glissière 13, de déplacement longitudinal suivant leur axe.

  
Les moyens 16 comprennent également une tige 68 logée dans chacune

  
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tiges 68 sont montées dans le boîtier 6 de manière à pouvoir tourner autour de leur axe sans subir de déplacement longitudinal suivant ce dernier. Chacune des tiges 68 présente six éléments
69 s'étendant radialement par rapport à la tige et régulièrement répartis sur le pourtour de cette dernière. Chacun des éléments

  
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inclinés 70 terminés chacun par une paroi 71 située dans un plan 

  
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tement voisins ont leurs pans 70 Inclinés inversés. Chacun des 

  
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a empêcher le coulissement des tubes sur les tiges lorsque ce

  
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la glissière 13 est en fin de course dans un sent ou dans l'autre, en regard de l'autre série de trois éléments 69 que celle qui a perais d'effectuer le trajet de la glissière et ce pour autant .

  
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décrites ci-après, soient placées dans leur position correcte

  
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de manière à ce que celle-ci puisse entraîner le disque, autour

  
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tés de deux bielles 79, les autres extrémités de ces dernières 

  
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traîner en rotation, autour de leur axe et dans le même sens, pour qu'ils décrivent un angle de-60.111. La manette 75 peut occuper  deux positions, une position correspondant aux opérations d'addi- '

  
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rations de soustraction .et de division. Des moyens non représentés, tels qu'une bielle, logée dans la glissière et poussée vers

  
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part, à la position haute du berceau ? -dans laquelle les roues

  
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tiges étant agencées par -rapport au-berceau de façon ce que . les bielles 83 coopérant avec les pattes d'une tige restent paral.laies aux bielles coopérant avec les pattes de l'autre tige de

  
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axe lorsque le berceau passe de sa position haute sa position 

  
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haute vers sa position basse afin que les dents des roues du  totalisateur 1 et les dents des roues du compteur 2 puissent 

  
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La machine est utilisée de la manière suivante;

  
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Les roues du compteur 2,et du totalisateur 1 sont 

  
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les dentures des roues du totalisateur 1 sont alignées sur les

  
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basse du berceau 7. Lorsque ces manipulations sont effectuées,  la glissière 13 étant en position arrière, le premier nombre à additionner est fermé en positionnant les crémaillères 9, 9* et  9[deg.] dans leurs gaines 18, le* et 18" et la glissière 13 est dépla-

  
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qui est ramené dans cette dernière position par les ressorts 10 

  
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bilisés par la manette 75 bloquée, ont tourné pour permettre le déplacement de la glissière 13 vers sa position extrême arrière et libère le berceau 7. La glissière 13 est ramenée en position 

  
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à additionner au premier. Le berceau 7 est ramené en position

  
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vers sa position extrême avant, les chiffres s'additionnent dans chaque ligne au cours de ce mouvement arrière avant de la glissiè.re 13. Si dans une ou plusieurs lignes la somme du nombre inscrit sur le totalisateur et du nombre de la gaine en face duquel se  trouve la saillie de commande 20 de la crémaillère 9 correspondait- . te est supérieure à 9, la dent de report 48 agit sur le dispositif  de blocage 57 de la crémaillère de report de la ligne suivante pour libérer celle-ci afin de permettre à la gaine correspondante  de se déplacer sous l'action de son ressort 22 pour qu'une dent

  
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correspondante du totalisateur d'une dent supplémentaire pour que le report soit effectué. Lorsque.dans une ligne la crémaillère

  
de report n'est pas décalée, la gaine de la crémaillère 9 ou- 91!1  <EMI ID=255.1>  .Crémaillère de report, à ce moment la crémaillère 9<1> ou <EMI ID=256.1>  <EMI ID=257.1> 

  
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glissière vers 1* avant autant de fois que cela est nécessaire pour  du compteur

  
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re 13, les crémaillères du totalisateur agissent sur les roue" 

  
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de report lors de leur passage de 0 à 9, chacune des crémaillères de report débloquées pouvant alors être déplacées vers l'arrière

  
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haute et le mouvement de la glissière vers l'avant est autorisé. 

  
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crémaillère% de report et repoussent celles-ci vers l'avant pour qu'elles reprennent automatiquement leur position inopérante et bloquée. Les reports successifs s'effectuent de la même manière <EMI ID=290.1> 

  
Le dividende est inscrit sur le totalisateur soit en agissant directement sur les roues de celui-ci, soit en procédant comme pour inscrire le premier nombre d'une addition, ou encore

  
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tuellement débloques, puis on ramène la 'glissière en position extrême arrière, le berceau étant en position haute. Le diviseur 

  
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déplace, le berceau étant toujours en position haute, le bâti de 

  
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le poussoir pour obtenir ce nombre, le chiffre de rang supérieur 

  
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teur. Il résulte de ce qui précède que l'on ne peut pas effectuer 

  
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du totalisateur lorsque le berceau est en position basse et quand  la glissière 13 est poussée de l'arrière vers l'avant, pour les   <EMI ID=320.1> 

  
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effectués de façon certaine et que les mécanismes de reports qui

  
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d'abord jusqu'à sa position extrême avant ou extrême arrière.

  
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des tiges, le changement de position du berceau 7 entraînant les tiges qui placent les éléments 69 de manière à permettre le de- 

  
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ment qu'elle vient d'accomplir* 

  
Les remises en place des mécanismes de report pour bloquer et rendre inopérantes les crémaillères de report s'effectuent entre les positions arrière et extrême arrière de la glissière 13 pour les additions et le.* multiplications, et entre

  
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La canette 7S est changée de position lorsque la glissière 13. est en position extrême arrière pour passer de la

  
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sion et lorsque la glissière 13 est en position extrême avant

  
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addition-multiplication. Dans les deux cas on arrive dans ces positions de la glissière 13 avec le berceau 7 en position haute  et on la ramène dans la glissière en position inverse, le berceau  restant en position haute. Ce retour de la glissière est possible 

  
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 <EMI ID=343.1> 

  
 <EMI ID=344.1> 

  
Le coulissement du bâti dans le berceau 7 s'effectue, - <EMI ID=345.1> 

  
La manette 76 actionnant le berceau ne présente pas 

  
 <EMI ID=346.1> 

  
 <EMI ID=347.1> 

  
 <EMI ID=348.1> 

  
 <EMI ID=349.1> 

  
sent le déplacement du berceau. 7 vers le haut.

  
Le coulissement du bâti dans le berceau sous l'action  des ressorts 36 et 37 s'effectue également lorsque la glissière <EMI ID=350.1> 

  
te, le boîtier étant agencé de manière à interdire le déplacement  du bâti lorsque le berceau est en position basse.

  
 <EMI ID=351.1> 

  
 <EMI ID=352.1> 

  
 <EMI ID=353.1> 

  
soustractions et divisions, le totalisateur et le compteur étant !

  
 <EMI ID=354.1> 

  
 <EMI ID=355.1> 

  
 <EMI ID=356.1> 

  
 <EMI ID=357.1> 

  
ne comporter qu'un nombre très réduit de pièces de construction -  simple, la machine susdite présente l'avantage d'être de fonction- *.

  
 <EMI ID=358.1>  

  
 <EMI ID=359.1> 

  
 <EMI ID=360.1> 

  
 <EMI ID=361.1> 

  
 <EMI ID=362.1> 



   <EMI ID = 1.1>

  
 <EMI ID = 2.1>

  
 <EMI ID = 3.1>

  
 <EMI ID = 4.1>

  
 <EMI ID = 5.1>

  
 <EMI ID = 6.1>

  
front in which the operating part [pound] ** of the racks are

  
 <EMI ID = 7.1> of its movements, make the teeth of the racks and those of the toothed wheels cooperate and release them from each other, the screeches driving the toothed wheels, depending on the position of the aforesaid shaft; either by switching from the rear position to the

  
 <EMI ID = 8.1>

  
 <EMI ID = 9.1>

  
 <EMI ID = 10.1>

  
 <EMI ID = 11.1>

  
According to one embodiment of the invention, the aforementioned shaft is fixed in a guide frame, in the housing "of

  
 <EMI ID = 12.1>

  
 <EMI ID = 13.1>

  
 <EMI ID = 14.1>

  
 <EMI ID = 15.1>

  
 <EMI ID = 16.1> <EMI ID = 17.1>

  
 <EMI ID = 18.1>

  
 <EMI ID = 19.1>

  
 <EMI ID = 20.1>

  
ten teeth and their circumference being divided into ten equal parts numbered from 0 to 9 in the opposite direction to that of the totalizer wheels, the toothed wheels of this second series being fitted

  
 <EMI ID = 21.1>

  
 <EMI ID = 22.1>

  
two shafts being located in a plane parallel to that in which move the racks cooperating with the toothed wheels of the counter, the teeth of the counter wheels being

  
 <EMI ID = 23.1>

  
 <EMI ID = 24.1> <EMI ID = 25.1>

  
 <EMI ID = 26.1>

  
 <EMI ID = 27.1>

  
 <EMI ID = 28.1>

  
in elevation sulfurizing the counter rack, the latter being shown in FIG. 12. in the rear position, the slide

  
 <EMI ID = 29.1> figure 13, in rear position with the slider in position <EMI ID = 30.1> <EMI ID = 31.1>

  
 <EMI ID = 32.1>

  
 <EMI ID = 33.1>

  
 <EMI ID = 34.1>

  
 <EMI ID = 35.1>

  
 <EMI ID = 36.1>

  
 <EMI ID = 37.1>

  
 <EMI ID = 38.1>

  
 <EMI ID = 39.1>

  
tions: addition. subtraction, multiplication and division. She

  
 <EMI ID = 40.1>

  
ten teeth and having their circumference divided into ten equal parts

  
 <EMI ID = 41.1>

  
totalizer 1 while the other series constitutes counter 2

  
of the machine. The wheels of the totalizer and the counter are numbered in reverse order and are mounted idle on two shafts.

  
 <EMI ID = 42.1> <EMI ID = 43.1>

  
 <EMI ID = 44.1>

  
direction perpendicular to the latter, between two positions

  
 <EMI ID = 45.1>

  
 <EMI ID = 46.1>

  
 <EMI ID = 47.1>

  
 <EMI ID = 48.1>

  
 <EMI ID = 49.1>

  
 <EMI ID = 50.1>

  
 <EMI ID = 51.1>

  
is mounted and guided in the box 6 of the machine in order to be able,

  
 <EMI ID = 52.1>

  
shafts 3 and 4 move in parallel and perpendicular planes

  
 <EMI ID = 53.1>

  
and 9 ** between two extreme positions, a high position in which the toothed wheels of the totalizer are not in contact

  
 <EMI ID = 54.1>

  
 <EMI ID = 55.1>

  
racks. The frame 5 supporting the shafts 3 and 4 is also guided in the cradle 7 so as to be able to move, with respect to the latter, so that the shafts 3 and 4 can be moved in a direction parallel to the cradle.

  
 <EMI ID = 56.1>

  
their 2 of the machine, aligned with the wheels of the totalizer,

  
 <EMI ID = 57.1>

  
 <EMI ID = 58.1>

  
carefully with two teeth in order to allow the reduction of the displacement - <EMI ID = 59.1>

  
 <EMI ID = 60.1>

  
 <EMI ID = 61.1>

  
 <EMI ID = 62.1>

  
 <EMI ID = 63.1> <EMI ID = 64.1> <EMI ID = 65.1>

  
 <EMI ID = 66.1>

  
 <EMI ID = 67.1>

  
and 9 ". A spring 22 is provided to cooperate with each of the

  
 <EMI ID = 68.1>

  
 <EMI ID = 69.1>

  
 <EMI ID = 70.1>

  
 <EMI ID = 71.1>

  
addition and multiplication. The sheath 18, in which the rack 9 is arranged, cooperates with a fixed stop 100 integral with

  
 <EMI ID = 72.1>

  
 <EMI ID = 73.1>

  
13 is driven in the extreme forward position to carry out any transfers in the addition and multiplication operations, so as not to drive the wheel 8 of the totalizer which corresponds to the units. The stopper 100 has a length such that the sheath 18 can move less than the start.

  
 <EMI ID = 74.1>

  
placement being equal to the distance between the active faces

  
 <EMI ID = 75.1>

  
 <EMI ID = 76.1>

  
 <EMI ID = 77.1>

  
in this case, the rack 9 should have one tooth less than the racks 9 'and 9 ". The slide 13 is guided during its movements in the housing 6 of the machine by means of rails
26, of L-section, integral with the slide "housed between

  
 <EMI ID = 78.1>

  
for each of the rails 26, a section sliding corridor

  
 <EMI ID = 79.1>

  
 <EMI ID = 80.1>

  
 <EMI ID = 81.1>

  
 <EMI ID = 82.1>

  
 <EMI ID = 83.1>

  
 <EMI ID = 84.1>

  
 <EMI ID = 85.1>

  
ratio the slide of the aforesaid distance * corresponding to 1 the

  
 <EMI ID = 86.1>

  
 <EMI ID = 87.1>

  
slide to occupy one of its two extreme positions aforesaid "

  
 <EMI ID = 88.1>

  
 <EMI ID = 89.1>

  
 <EMI ID = 90.1>

  
 <EMI ID = 91.1>

  
 <EMI ID = 92.1>

  
 <EMI ID = 93.1>

  
 <EMI ID = 94.1>

  
 <EMI ID = 95.1>

  
 <EMI ID = 96.1>

  
 <EMI ID = 97.1>

  
move the frame 5, relative to the cradle 7, successively by one!

  
 <EMI ID = 98.1>

  
immediately adjacent wheels and in the tens units direction "

  
 <EMI ID = 99.1>

  
coil 36 and 37 extending substantially parallel to the axes of shafts 3 and 4 over the entire length of the frame, each of these

  
 <EMI ID = 100.1>

  
its other end is fixed to the cradle so that the

  
 <EMI ID = 101.1>

  
 <EMI ID = 102.1>

  
 <EMI ID = 103.1>

  
 <EMI ID = 104.1>

  
 <EMI ID = 105.1>

  
 <EMI ID = 106.1>

  
 <EMI ID = 107.1>

  
 <EMI ID = 108.1>

  
 <EMI ID = 109.1>

  
equal to half of the distance separating the tabs * of a series.

  
 <EMI ID = 110.1>

  
 <EMI ID = 111.1>

  
 <EMI ID = 112.1>

  
 <EMI ID = 113.1>

  
 <EMI ID = 114.1>

  
 <EMI ID = 115.1>

  
 <EMI ID = 116.1>

  
 <EMI ID = 117.1>

  
 <EMI ID = 118.1>

  
is moved one way or the other, rotates simultaneously- '

  
 <EMI ID = 119.1>

  
one of the stems of a tab of one of the series of tabs and

  
 <EMI ID = 120.1>

  
 <EMI ID = 121.1> <EMI ID = 122.1>

  
 <EMI ID = 123.1>

  
 <EMI ID = 124.1>

  
 <EMI ID = 125.1>

  
 <EMI ID = 126.1>

  
this corresponding to the distance separating the teeth of two wheels

  
 <EMI ID = 127.1>

  
 <EMI ID = 128.1>

  
 <EMI ID = 129.1>

  
 <EMI ID = 130.1>

  
 <EMI ID = 131.1>

  
 <EMI ID = 132.1>

  
 <EMI ID = 133.1>

  
 <EMI ID = 134.1>

  
 <EMI ID = 135.1>

  
 <EMI ID = 136.1>

  
 <EMI ID = 137.1>

  
res, sebiles following 'Their longitudinal axis, arranged parallel ..;

  
 <EMI ID = 138.1>

  
of the totalizer to carry out the reports' in the case of

  
 <EMI ID = 139.1>

  
 <EMI ID = 140.1>

  
 <EMI ID = 141.1>

  
 <EMI ID = 142.1> <EMI ID = 143.1>

  
dependent on them. Rack 50 is housed

  
 <EMI ID = 144.1>

  
 <EMI ID = 145.1>

  
tens while the 50 * rack is housed between

  
 <EMI ID = 146.1>

  
 <EMI ID = 147.1>

  
 <EMI ID = 148.1>

  
the cradle 7 occupies its low position. Each of the racks

  
 <EMI ID = 149.1>

  
1st and extending parallel to it. Each of the rods

  
 <EMI ID = 150.1>

  
feels, at its end 53, a fixed stop 54, a spring 55 being provided between the latter and the bearing 52 of the slide. the 'racks 50, 50' and 50 "are guided in the housing so as to avoid any pivoting of the rod 51 around its axis ...

  
 <EMI ID = 151.1>

  
 <EMI ID = 152.1>

  
 <EMI ID = 153.1>

  
 <EMI ID = 154.1>

  
slide 13 is in its position where said racks

  
 <EMI ID = 155.1>

  
50, 50 'and 50 "arranged so that their teeth can come into contact with the teeth of the wheels of the totalizer 1, can slide.

  
 <EMI ID = 156.1>

  
 <EMI ID = 157.1>

  
 <EMI ID = 158.1>

  
 <EMI ID = 159.1>

  
 <EMI ID = 160.1>

  
 <EMI ID = 161.1>

  
 <EMI ID = 162.1>

  
 <EMI ID = 163.1> lying on an SI tree, fixed parts integral with the casing * of '

  
 <EMI ID = 164.1>

  
 <EMI ID = 165.1>

  
gear of the totalizer and a profile having substantially the fora * of an opposite base 63 trapezoid * 1 1 "protrusion

  
 <EMI ID = 166.1>

  
 <EMI ID = 167.1>

  
 <EMI ID = 168.1> <EMI ID = 169.1>

  
totalizer 1 are arranged "so that the transfer tooth of the wheel 8 of the totalizer corresponding to the units releases the

  
 <EMI ID = 170.1>

  
 <EMI ID = 171.1>

  
 <EMI ID = 172.1>

  
 <EMI ID = 173.1>

  
 <EMI ID = 174.1>

  
teeth of the totalizer 1 to carry out the transfer by rotating these wheels by a distance equivalent to the space between the active faces of two of their teeth immediately

  
 <EMI ID = 175.1>

  
the transfer has been carried out, in the blocked and inoperative position by the displacement of the slide and either, after the additions and

  
 <EMI ID = 176.1>

  
fate 55, either after subtractions and divisions, by the inter-

  
 <EMI ID = 177.1>

  
 <EMI ID = 178.1>

  
The aforementioned control means 16 comprise two tubes 66 mounted along the lateral edges of the slide 13 and housed in rounded parts 67 extending over the entire length of the housing 6 of the machine. The tubes 66 are mounted on the slide 13 so as to move with it and so

  
 <EMI ID = 179.1>

  
the slide 13, of longitudinal displacement along their axis.

  
The means 16 also include a rod 68 housed in each

  
 <EMI ID = 180.1>

  
rods 68 are mounted in the housing 6 so as to be able to rotate about their axis without undergoing longitudinal displacement along the latter. Each of the rods 68 has six elements
69 extending radially relative to the rod and regularly distributed around the periphery of the latter. Each of the elements

  
 <EMI ID = 181.1>

  
inclined 70 each terminated by a wall 71 situated in a plane

  
 <EMI ID = 182.1>

  
all neighbors have their sides 70 Inclines reversed. Each of the

  
 <EMI ID = 183.1> <EMI ID = 184.1>

  
 <EMI ID = 185.1>

  
 <EMI ID = 186.1>

  
 <EMI ID = 187.1>

  
 <EMI ID = 188.1>

  
 <EMI ID = 189.1>

  
 <EMI ID = 190.1>

  
 <EMI ID = 191.1>

  
 <EMI ID = 192.1>

  
a prevent the tubes from sliding on the rods when this

  
 <EMI ID = 193.1>

  
 <EMI ID = 194.1>

  
 <EMI ID = 195.1>

  
the slide 13 is at the end of its travel in one way or the other, facing the other series of three elements 69 than that which has been able to perform the path of the slide and this for all that.

  
 <EMI ID = 196.1>

  
described below, are placed in their correct position

  
 <EMI ID = 197.1>

  
 <EMI ID = 198.1>

  
 <EMI ID = 199.1>

  
so that it can pull the disc around

  
 <EMI ID = 200.1>

  
tees of two connecting rods 79, the other ends of the latter

  
 <EMI ID = 201.1>

  
drag in rotation, around their axis and in the same direction, so that they describe an angle of -60.111. The handle 75 can occupy two positions, a position corresponding to the operations of addition.

  
 <EMI ID = 202.1>

  
subtraction and division rations. Means not shown, such as a connecting rod, housed in the slide and pushed towards

  
 <EMI ID = 203.1>

  
 <EMI ID = 204.1>

  
 <EMI ID = 205.1>

  
 <EMI ID = 206.1>

  
 <EMI ID = 207.1>

  
 <EMI ID = 208.1>

  
 <EMI ID = 209.1>

  
 <EMI ID = 210.1>

  
 <EMI ID = 211.1>

  
hand, to the high position of the cradle? -in which the wheels

  
 <EMI ID = 212.1>

  
 <EMI ID = 213.1>

  
 <EMI ID = 214.1>

  
 <EMI ID = 215.1>

  
 <EMI ID = 216.1>

  
 <EMI ID = 217.1>

  
rods being arranged by -rapport au-cradle so that. the connecting rods 83 cooperating with the legs of a rod remain paral.laies to the connecting rods cooperating with the legs of the other rod of

  
 <EMI ID = 218.1>

  
 <EMI ID = 219.1>

  
axis when the cradle moves from its high position to its position

  
 <EMI ID = 220.1>

  
 <EMI ID = 221.1>

  
up to its low position so that the teeth of the wheels of counter 1 and the teeth of the wheels of counter 2 can

  
 <EMI ID = 222.1>

  
 <EMI ID = 223.1>

  
 <EMI ID = 224.1>

  
 <EMI ID = 225.1> <EMI ID = 226.1>

  
 <EMI ID = 227.1>

  
 <EMI ID = 228.1>

  
 <EMI ID = 229.1>

  
 <EMI ID = 230.1>

  
 <EMI ID = 231.1>

  
 <EMI ID = 232.1>

  
 <EMI ID = 233.1> <EMI ID = 234.1> <EMI ID = 235.1>

  
 <EMI ID = 236.1>

  
 <EMI ID = 237.1>

  
The machine is used as follows;

  
 <EMI ID = 238.1>

  
The wheels of counter 2, and of totalizer 1 are

  
 <EMI ID = 239.1>

  
 <EMI ID = 240.1>

  
the teeth of the totalizer 1 wheels are aligned with the

  
 <EMI ID = 241.1>

  
 <EMI ID = 242.1>

  
 <EMI ID = 243.1>

  
bottom of the cradle 7. When these operations are carried out, the slide 13 being in the rear position, the first number to be added is closed by positioning the racks 9, 9 * and 9 [deg.] in their sheaths 18, the * and 18 " and the slide 13 is displaced

  
 <EMI ID = 244.1>

  
 <EMI ID = 245.1>

  
 <EMI ID = 246.1> <EMI ID = 247.1>

  
 <EMI ID = 248.1>

  
which is returned to this last position by the springs 10

  
 <EMI ID = 249.1>

  
bilised by the locked lever 75, have turned to allow the slide 13 to move towards its extreme rear position and frees the cradle 7. The slide 13 is returned to position

  
 <EMI ID = 250.1>

  
 <EMI ID = 251.1>

  
to be added to the first. The cradle 7 is brought back into position

  
 <EMI ID = 252.1>

  
towards its extreme forward position, the digits are added in each row during this forward backward movement of the slide 13. If in one or more rows the sum of the number inscribed on the totalizer and the number of the sheath opposite of which is the control projection 20 of the rack 9 corresponded-. te is greater than 9, the transfer tooth 48 acts on the locking device 57 of the transfer rack of the following line to release the latter in order to allow the corresponding sheath to move under the action of its spring 22 so that a tooth

  
 <EMI ID = 253.1>

  
 <EMI ID = 254.1>

  
corresponding value of the totalizer of an additional tooth for the transfer to take place. When. In a line the rack

  
gear is not shifted, the housing of rack 9 or- 91! 1 <EMI ID = 255.1>. Transfer gear, at this time rack 9 <1> or <EMI ID = 256.1> <EMI ID = 257.1>

  
 <EMI ID = 258.1> <EMI ID = 259.1> <EMI ID = 260.1>

  
 <EMI ID = 261.1>

  
 <EMI ID = 262.1>

  
 <EMI ID = 263.1>

  
 <EMI ID = 264.1>

  
 <EMI ID = 265.1>

  
 <EMI ID = 266.1>

  
 <EMI ID = 267.1>

  
 <EMI ID = 268.1> <EMI ID = 269.1> <EMI ID = 270.1>

  
slide to 1 * forward as many times as necessary for the counter

  
 <EMI ID = 271.1>

  
 <EMI ID = 272.1>

  
 <EMI ID = 273.1>

  
 <EMI ID = 274.1>

  
 <EMI ID = 275.1>

  
 <EMI ID = 276.1>

  
 <EMI ID = 277.1>

  
 <EMI ID = 278.1>

  
 <EMI ID = 279.1> <EMI ID = 280.1>

  
 <EMI ID = 281.1>

  
 <EMI ID = 282.1>

  
re 13, the racks of the totalizer act on the wheels "

  
 <EMI ID = 283.1>

  
transfer when passing from 0 to 9, each of the released transfer racks can then be moved backwards

  
 <EMI ID = 284.1>

  
 <EMI ID = 285.1>

  
 <EMI ID = 286.1>

  
 <EMI ID = 287.1>

  
high and forward movement of the slide is permitted.

  
 <EMI ID = 288.1>

  
 <EMI ID = 289.1>

  
% transfer rack and push them forward so that they automatically return to their inoperative and blocked position. Successive reports are carried out in the same way <EMI ID = 290.1>

  
The dividend is entered on the totalizer either by acting directly on the latter's wheels, or by proceeding as to enter the first number of an addition, or even

  
 <EMI ID = 291.1>

  
 <EMI ID = 292.1>

  
 <EMI ID = 293.1>

  
 <EMI ID = 294.1>

  
 <EMI ID = 295.1>

  
tally unblocked, then the slide is brought to the extreme rear position, the cradle being in the high position. The divider

  
 <EMI ID = 296.1>

  
moves, with the cradle still in the high position, the

  
 <EMI ID = 297.1> <EMI ID = 298.1>

  
 <EMI ID = 299.1>

  
 <EMI ID = 300.1>

  
 <EMI ID = 301.1>

  
 <EMI ID = 302.1>

  
 <EMI ID = 303.1>

  
 <EMI ID = 304.1>

  
 <EMI ID = 305.1>

  
 <EMI ID = 306.1>

  
 <EMI ID = 307.1>

  
 <EMI ID = 308.1>

  
the pusher to obtain this number, the digit of higher rank

  
 <EMI ID = 309.1>

  
 <EMI ID = 310.1>

  
 <EMI ID = 311.1>

  
 <EMI ID = 312.1>

  
 <EMI ID = 313.1>

  
 <EMI ID = 314.1>

  
 <EMI ID = 315.1>

  
tor. It follows from the foregoing that one cannot perform

  
 <EMI ID = 316.1>

  
 <EMI ID = 317.1>

  
 <EMI ID = 318.1>

  
 <EMI ID = 319.1>

  
of the totalizer when the cradle is in the low position and when the slide 13 is pushed from the back to the front, for <EMI ID = 320.1>

  
 <EMI ID = 321.1>

  
 <EMI ID = 322.1>

  
 <EMI ID = 323.1>

  
 <EMI ID = 324.1>

  
 <EMI ID = 325.1>

  
 <EMI ID = 326.1>

  
 <EMI ID = 327.1>

  
 <EMI ID = 328.1>

  
carried out with certainty and that the reporting mechanisms

  
 <EMI ID = 329.1> <EMI ID = 330.1>

  
 <EMI ID = 331.1>

  
 <EMI ID = 332.1>

  
 <EMI ID = 333.1>

  
first to its extreme front or extreme rear position.

  
 <EMI ID = 334.1>

  
 <EMI ID = 335.1>

  
rods, the change of position of the cradle 7 causing the rods which place the elements 69 so as to allow the de-

  
 <EMI ID = 336.1>

  
ment she has just accomplished *

  
The transfer mechanisms are put back in place to block and make the transfer racks inoperative between the rear and rear positions of the slide 13 for the additions and the. * Multiplications, and between

  
 <EMI ID = 337.1>

  
 <EMI ID = 338.1>

  
The bobbin 7S is changed position when the slide 13. is in the extreme rear position to pass from the

  
 <EMI ID = 339.1>

  
tion and when the slide 13 is in the extreme forward position

  
 <EMI ID = 340.1>

  
addition-multiplication. In both cases, the slide 13 is in these positions with the cradle 7 in the high position and it is brought back into the slide in the reverse position, the cradle remaining in the high position. This return of the slide is possible

  
 <EMI ID = 341.1>

  
 <EMI ID = 342.1>

  
 <EMI ID = 343.1>

  
 <EMI ID = 344.1>

  
The frame slides in the cradle 7, - <EMI ID = 345.1>

  
The lever 76 operating the cradle does not have

  
 <EMI ID = 346.1>

  
 <EMI ID = 347.1>

  
 <EMI ID = 348.1>

  
 <EMI ID = 349.1>

  
feels the displacement of the cradle. 7 up.

  
The frame sliding in the cradle under the action of springs 36 and 37 also takes place when the slide <EMI ID = 350.1>

  
te, the housing being arranged so as to prevent the movement of the frame when the cradle is in the low position.

  
 <EMI ID = 351.1>

  
 <EMI ID = 352.1>

  
 <EMI ID = 353.1>

  
subtractions and divisions, the totalizer and the counter being!

  
 <EMI ID = 354.1>

  
 <EMI ID = 355.1>

  
 <EMI ID = 356.1>

  
 <EMI ID = 357.1>

  
have only a very small number of construction parts - simple, the aforementioned machine has the advantage of being functional - *.

  
 <EMI ID = 358.1>

  
 <EMI ID = 359.1>

  
 <EMI ID = 360.1>

  
 <EMI ID = 361.1>

  
 <EMI ID = 362.1>

Claims

position hereinafter referred to as the front position in which the

arranged between the racks "of the totalizer corresponding to

characterized in that the two aforesaid shafts are fixed in

mobilize the frame relative to the cradle of the machine in a position where the toothing of one of the wheels of the totalizer is opposite one of the racks cooperating with the last wheels

toothing of a corresponding counter wheel, said means being arranged so as to be able to move the frame, relative to

born in the sense of units-tens, tens-hundreds, etc.

is arranged so that it can be moved along its axis

cations and divisions ...

totalizer corresponding to tens and higher units

cune in a sheath arranged in a slide rail in

aforesaid bearing the cogwheels of the counter and the totalizer,

the space between these digits being equal to the space between

the end of a rack opposite the teeth facing a number carried by the corresponding sheath ..._

smooth with respect to the latter, along the longitudinal axis of the racks of the totalizer, by a distance corresponding: substantially to the distance separating the active faces of two teeth immediately adjacent to the racks.

characterized in that a spring is provided to cooperate with

allowing carry-overs.

slide and guided in it so that it can slide

fixed <EMI ID = 429.1>

rack corresponding to the units so that the displacement:

laughing "to the tens, this displacement difference being equal

having at the end a tooth, movable along their longitudinal axis,

bearing the digits furthest from the, wheel bearing the

transfer being arranged so as to be able to cooperate with the teeth

carry out the reports include a rack, presenting to. '

toothed bearing the figures of the units, this rack being fixed in a sheath similar to the sheaths carrying the racks of the totalizer and aligned parallel with the latter, this sheath being arranged on the slide and guided in the latter by

extend parallel this' last this sliding rod in a bearing provided on the aforementioned slide and present

born to act on one of the wheels of the totalizer, a fixed stop, a spring being provided between this fixed stop and the bearing of the

16. Machine according to either of claims 14 and 15, characterized in that the transfer racks

tees greater than tens as well as the sheath to which is-

to perform the transfers can come into contact with said transfer racks when the racks of the totalizer and the rack fixed to the sheath being in the front position.

transfer, which can slide in the machine housing, '. is normally locked in inoperative position relative to

transfer and allowing it to slide relative to the housing

18. Machine according to the preceding claim, <EMI ID = 470.1>

the aforesaid. to healthy wearing the "rack of

their position before .....: '. '

feeling a protrusion cooperating with the transfer tooth of a * roua

hiles.

23. Machine according to any one of the preceding claims, characterized in that means are provided

the toothed wheels of the totalizer, these means being arranged in a manner �, depending on the type of operation to be performed, keep the teeth of the totalizer racks in contact with the teeth of the wheels of said totalizer, either during the movement of

extreme rear for subtractions and divisions, the aforesaid

that the toothed wheels of the totalizer and the racks of the latter no longer engage in the reverse movements of the slide.

24. Machine according to the preceding claim, characterized in that the control means of the aforesaid shaft

25. Machine according to one or other of the claims

aforesaid feels constituted, on the one hand, by at least one tube mounted along one of the lateral edges of the aforesaid slide and guided therein so as to be able to rotate about its axis without undergoing longitudinal displacement along the latter and, on the other hand, by a rod housed in the aforesaid tube and coaxial with the latter, this rod being mounted in the housing of the machine so as to be able to rotate about its axis without undergoing longitudinal displacement along the latter.

26. Machine according to the preceding claim, characterized in that the control means comprise two <EMI ID = 489.1>

on the rod when it is the element which has its vertical walls turned towards which is opposite the latter * the displa-

adjusted so that, at the end of the run of the slide in one direction or the other, the stop comes to be placed opposite

slide as long as the machine mechanism is adjusted

cord to perform this operation.

28, Machine according to the preceding claim, characterized in that the rod has six elements said re-

neighbors having their inclined sides reversed, the tube cooperating <EMI ID = 502.1> <EMI ID = 503.1>

slide, in its two extreme positions.

30. Machine according to the preceding claim,

this lever led, by means of a disc and a

tions, a position corresponding to one of the extreme positions of the shaft carrying the toothed wheels of the totalizer shaft and a position corresponding to the other extreme position of said

tree. Machine according to the preceding claim,

characterized in that along the vertical of the cradle supporting the shaft on which the gear wheels of the totalizer are mounted

aforementioned, the rotation of the rods around their driving axis,

the rotation of the rods in the other direction bringing the cradle under

liser with the digits of units, tens, cents

deny, this tube "'extending substantially over the entire width of the frame and having two series of tabs aligned on either side ;.

<EMI ID = 524.1> be of the tube and regularly spaced, the distance separating the tabs of a series being equal to twice the distance between the teeth of two immediately neighboring totalizer wheels and of two immediately neighboring counter wheels, the tabs of one series being offset with respect to those of the other series by a distance equal to half the aforesaid distance, two flexible rods, supported in the housing of the machine and in the cradle, each being provided to cooperate with a series of tabs of the tube, each of these flexible rods carrying at their free end a projection intended to cooperate with the tabs

tier, with two parallel bars articulated on a pusher intended to rotate the rods about their axis to release the projection of one of the rods from a tab of a series of tabs and

of the other series of tabs, the elasticity of the rods is such that their protrusion rests permanently on the tube and that it is thus introduced into each tab which presents itself so that the tube and from there the frame can only move relative to the cradle and each time the pusher is pressed by a corresponding distance.

adjacent to the totalizer or counter.

33. Machine according to the preceding claim,

a reset system, this system being constituted, for example, by a knurled crown provided on each of the wheels of the totalizer and of the counter.

counter and totalizer are fitted with means, such as retaining pawls immobilizing the wheels when they are not <EMI ID = 532.1>