EP0013219A1 - Day-mileage recorder - Google Patents

Day-mileage recorder Download PDF

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Publication number
EP0013219A1
EP0013219A1 EP79401026A EP79401026A EP0013219A1 EP 0013219 A1 EP0013219 A1 EP 0013219A1 EP 79401026 A EP79401026 A EP 79401026A EP 79401026 A EP79401026 A EP 79401026A EP 0013219 A1 EP0013219 A1 EP 0013219A1
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EP
European Patent Office
Prior art keywords
rocker
frame
drum
pinions
integral
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP79401026A
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German (de)
French (fr)
Inventor
Michel Gomez
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
E D VEGLIA
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E D VEGLIA
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Publication date
Application filed by E D VEGLIA filed Critical E D VEGLIA
Publication of EP0013219A1 publication Critical patent/EP0013219A1/en
Withdrawn legal-status Critical Current

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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06MCOUNTING MECHANISMS; COUNTING OF OBJECTS NOT OTHERWISE PROVIDED FOR
    • G06M1/00Design features of general application
    • G06M1/28Design features of general application for zeroising or setting to a particular value
    • G06M1/30Design features of general application for zeroising or setting to a particular value using heart-shaped or similar cams; using levers
    • G06M1/303Design features of general application for zeroising or setting to a particular value using heart-shaped or similar cams; using levers with drums

Definitions

  • the present invention relates to a daily totalizer intended to be incorporated into a tachometer with vehicle totalizers.
  • a daily totalizer of known type comprises a plurality of drums arranged side by side on the same axis and supported in rotation by a frame, a rocker pivotally mounted relative to the frame, a series of pinions integral with the rocker, each arranged between two drums for move a drum of a graduation when the previous drum has completed a full revolution, a cam integral with each drum and an actuating finger associated with each cam and integral with the rocker to cause the reset of the corresponding drum during the pivoting of the rocker .
  • a totalizer of this type is known for example from French patent 1,358,949.
  • the pivoting of the rocker controlled by the operator through an appropriate mechanism has the effect not only of turning the cams, but also of rotating the pinions so as to cease their engagement with the drums and to allow thus resetting to zero. It is important that during this pivoting, the angular position of the pinions does not change so that, on return, the engagement with the drums is correct.
  • the present invention aims to maintain the angular position of the pinions during reset by a very simple means, acting only during reset.
  • the subject of the invention is a totalizer of the type described above, characterized in that it comprises a square secured to each pinion and a ramp secured to the frame which cooperates with said square during the pivoting of the pinions, the contact surface of the ramp being a circular sector centered on the pivot axis.
  • the pinions are thus prevented from rotating on their axis during pivoting.
  • the ramps only act during the reset, which eliminates the aforementioned drawback.
  • their realization is very simple since they came from molding with the frame.
  • the daily totalizer for the vehicle shown in the drawing comprises a series of drums 1 graduated from 0 to 9, mounted idly side by side on a common shaft 2.
  • the ends 3 of the shaft 2 carrying the drums are mounted in recesses formed in a frame 4.
  • a screw 5 connected to a power take-off drives a pinion 6 called a false drum, coaxial with the drums 1, which false drum is connected to the first drum 1a during counting by an external pinion 7 in engagement both with the false drum 6 and with the first drum 1a.
  • Outer gears 8 with eight teeth are further mounted on the same shaft 9 as the aforementioned pinion 7, each being mounted between two consecutive drums to rotate a drum by a graduation when the previous drum has completed one revolution.
  • each drum to each drum are fixed a toothed crown 10 comprising two teeth 11 by means of which the pinion 8 rotates 1/4 of a turn when the drum which drives it rotates by a scale, and a crown 12 having twenty teeth similar to the teeth 11 distributed over its periphery.
  • the drums situated at the ends need only comprise one of these crowns, the drum adjacent to the false drum comprising a crown with two teeth and the drum situated at the opposite end being able to wear only one crown with twenty teeth.
  • the shaft 9 of the pinions 8 is secured to a rocker 13 mounted to pivot relative to the frame 4 by means of a pivot 14.
  • a finger 15 secured to the rocker is engaged in the groove 16 of a slide 17 guided in translation in a housing 18 of the frame.
  • a pusher 19 is fixed to the slide 17 to actuate the latter and a spring 20 is mounted at the bottom of the housing 18 around a stud 21 to recall the slide in the extended position.
  • Each drum 1 is associated with a finger 22 integral with the rocker 13, all of the fingers forming a structure similar to a comb.
  • These fingers have an inclined end so as to be able to act on respective cams 23 in the shape of a heart, each cam being integral with a drum.
  • Figure 1 shows the device in the counting position.
  • the pinions 8 are engaged with the respective drums 1, the input drum 1a is driven by the false drum 6.
  • Figure 2 illustrates the position during reset.
  • the user has depressed the plunger 19, which causes the rocker 13 to pivot by means of the finger 15.
  • the fingers 22 of the comb penetrate between the drums and rotate the respective cams 23 until the desired position by aligning the "zero" graduations of the drums facing the user.
  • the pivoting of the rocker 13 separates the pinions 8 from the crowns 10 and 12, which is necessary to allow the rotation of the drums.
  • the shaft 9 carries squares 24, each of which is secured to a pinion 8, and to each square 24 is associated a ramp 25 secured to the frame 4.
  • the ramps 25 have an external contact surface 26, in the form of a circular sector centered on the pivot axis of the rocker 13, so that during the pivoting of the rocker 13 this contact surface 26 guides the squares 24 preventing the sprockets 8 to rotate on their axis.
  • the ramps 25 have, in the position of FIG. 1, their point placed very slightly outside the circle described by the vertices of the squares 24, so as not to hinder the rotation of the pinions 8, and at the same time to create a guide for the squares 24 during reset. zero, from the start of the pinion pivoting movement 8.
  • the frame 4 is made of plastic and the ramps 25 are formed during molding and are in one piece with the frame 4.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Engineering & Computer Science (AREA)
  • Theoretical Computer Science (AREA)
  • Measurement Of Distances Traversed On The Ground (AREA)
  • Preliminary Treatment Of Fibers (AREA)
  • Transmission Devices (AREA)

Abstract

Totalisateur journalier comprenant une pluralité de tambours supportés en rotation par un bâti (4) un basculeur (13) monté pivotant par rapport au bâti, une série de pignons (8) solidaires du basculeur pour l'entraînement des tambours (1) une came (23) solidaire de chaque tambour et un doigt de manoeuvre (22) associé à chaque came et solidaire du basculeur pour provoquer la remise à zéro du tambour correspondant lors du pivotement du basculeur. Il est prévu un carré (24, solidaire de chaque pignon (8) et une rampe (25) solidaire du bâti qui coopère avec le dit carré (24) pendant le pivotement des pignons, la surface de contact de la rampe étant un secteur circulaire centré sur l'axe de pivotement.Daily totalizer comprising a plurality of drums supported in rotation by a frame (4) a rocker (13) pivotally mounted relative to the frame, a series of pinions (8) integral with the rocker for driving the drums (1) a cam ( 23) secured to each drum and an operating finger (22) associated with each cam and secured to the rocker to cause the corresponding drum to reset when the rocker is pivoted. There is provided a square (24, integral with each pinion (8) and a ramp (25) integral with the frame which cooperates with said square (24) during the pivoting of the pinions, the contact surface of the ramp being a circular sector. centered on the pivot axis.

Description

La présente invention concerne un totalisateur journalier destiné à être incorporé à un tachymètre à totalisateurs de véhicule.The present invention relates to a daily totalizer intended to be incorporated into a tachometer with vehicle totalizers.

Un totalisateur journalier de type connu comprend une pluralité de tambours disposés côte à côte sur le même axe et supportés en rotation par un bâti, un basculeur monté pivotant par rapport au bati, une série de pignons solidaires du basculeur, disposés chacun entre deux tambours pour déplacer un tambour d'une graduation lorsque le tambour précédent a parcouru un tour complet, une came solidaire de chaque tambour et un doigt de manoeuvre associé à chaque came et solidaire du basculeur pour provoquer la remise à zéro du tambour correspondant lors du pivotement du basculeur.A daily totalizer of known type comprises a plurality of drums arranged side by side on the same axis and supported in rotation by a frame, a rocker pivotally mounted relative to the frame, a series of pinions integral with the rocker, each arranged between two drums for move a drum of a graduation when the previous drum has completed a full revolution, a cam integral with each drum and an actuating finger associated with each cam and integral with the rocker to cause the reset of the corresponding drum during the pivoting of the rocker .

Un totalisateur de ce type est connu par exemple par le brevet français 1 358 949.A totalizer of this type is known for example from French patent 1,358,949.

Le pivotement du basculeur commandé par l'opérateur par l'intermédiaire d'un mécanisme approprié, a pour effet non seulement de faire tourner les cames, mais aussi de faire pivoter les pignons de manière à faire cesser leur engrènement avec les tambours et à permettre ainsi la remise à zéro. Il est important qu'au cours de ce pivotement, la position angulaire des pignons ne change pas pour, qu'au retour, l'engrènement avec les tambours soit correct.The pivoting of the rocker controlled by the operator through an appropriate mechanism has the effect not only of turning the cams, but also of rotating the pinions so as to cease their engagement with the drums and to allow thus resetting to zero. It is important that during this pivoting, the angular position of the pinions does not change so that, on return, the engagement with the drums is correct.

Il est connu, pour maintenir une position correcte des pignons, de prévoir une lame de ressort en appui sur des carrés solidaires des pignons. Cette solution présente toutefois l'inconvénient de créer un couple résistant étant donné que la lame de ressort est constamment en appui.It is known, in order to maintain a correct position of the pinions, to provide a leaf spring bearing on squares secured to the pinions. However, this solution has the drawback of creating a resistant torque since the leaf spring is constantly in support.

La présente invention vise à maintenir la position angulaire des pignons au cours de la remise à zéro par un moyen très simple, n'agissant que pendant la remise au zéro.The present invention aims to maintain the angular position of the pinions during reset by a very simple means, acting only during reset.

L'invention a pour objet un totalisateur du type décrit ci-dessus, caractérisé par le fait qu'il comprend un carré solidaire de chaque pignon et une rampe solidaire du bâti qui coopère avec ledit carré pendant le pivotement des pignons, la surface de contact de la rampe étant un secteur circulaire centré sur l'axe de pivotement.The subject of the invention is a totalizer of the type described above, characterized in that it comprises a square secured to each pinion and a ramp secured to the frame which cooperates with said square during the pivoting of the pinions, the contact surface of the ramp being a circular sector centered on the pivot axis.

Les pignons sont ainsi empêchés de tourner sur leur axe au cours du pivotement. Les rampes n'agissent qu'au cours de la remise à zéro, ce qui élimine l'inconvénient précité. D'autre part, leur réalisation est très simple puisqu'elles sont venues de moulage avec le bati.The pinions are thus prevented from rotating on their axis during pivoting. The ramps only act during the reset, which eliminates the aforementioned drawback. On the other hand, their realization is very simple since they came from molding with the frame.

L'invention sera bien comprise à la lecture de la description suivante, faite en se référant au dessin annexé, dans lequel :

  • - la figure 1 est une vue en coupe transversale d'un totalisateur journalier pour tachymètre selon l'invention, en position de comptage,
  • - la figure 2 représente le totalisateur journalier de la fig. l au cours de la remise à zéro,
  • - la figure 3 est une vue de face du totalisateur journalier de la fig. 1, et
  • - la figure 4 est une vue de dessus illustrant une variante de réalisation.
The invention will be clearly understood on reading the following description, made with reference to the appended drawing, in which:
  • FIG. 1 is a cross-sectional view of a daily totalizer for a tachometer according to the invention, in the counting position,
  • - Figure 2 shows the daily totalizer of fig. l during reset,
  • - Figure 3 is a front view of the daily totalizer of fig. 1, and
  • - Figure 4 is a top view illustrating an alternative embodiment.

Le totalisateur journalier pour véhicule représenté sur le dessin comprend une série de tambours 1 gradués de 0 à 9, montés fous côte à côte sur un arbre commun 2.The daily totalizer for the vehicle shown in the drawing comprises a series of drums 1 graduated from 0 to 9, mounted idly side by side on a common shaft 2.

Les extrémités 3 de l'arbre 2 portant les tambours sont montées dans des évidements formés dans un bâti 4.The ends 3 of the shaft 2 carrying the drums are mounted in recesses formed in a frame 4.

De façon classique dans ce type de dispositif, une vis 5 reliée à une prise de mouvement entraîne un pignon 6 appelé faux tambour, coaxial aux tambours 1, lequel faux tambour est relié au premier tambour la pendant le comptage par un pignon extérieur 7 en prise à la fois avec le faux tambour 6 et avec le premier tambour la. Des pignons extérieurs 8 à huit dents sont en outre montés sur le même arbre 9 que le pignon 7 précité, chacun étant monté entre deux tambours consécutifs pour faire tourner un tambour d'une graduation lorsque le tambour précédent a effectué un tour complet. A cet effet, à chaque tambour sont fixées une couronne dentée 10 comprenant deux dents 11 grâce auxquelles le pignon 8 tourne d'1/4 de tour lorsque le tambour qui l'entraîne tourne d'une graduation, et une couronne 12 présentant vingt dents analogues aux dents 11 réparties sur sa périphérie. Bien entendu, les tambours situés aux extrémités n'ont besoin de comporter qu'une seule de ces couronnes, le tambour adjacent au faux tambour comprenant une couronne à deux dents et le tambour situé à l'extrémité opposée pouvant ne porter qu'une couronne à vingt dents.Conventionally in this type of device, a screw 5 connected to a power take-off drives a pinion 6 called a false drum, coaxial with the drums 1, which false drum is connected to the first drum 1a during counting by an external pinion 7 in engagement both with the false drum 6 and with the first drum 1a. Outer gears 8 with eight teeth are further mounted on the same shaft 9 as the aforementioned pinion 7, each being mounted between two consecutive drums to rotate a drum by a graduation when the previous drum has completed one revolution. To this end, to each drum are fixed a toothed crown 10 comprising two teeth 11 by means of which the pinion 8 rotates 1/4 of a turn when the drum which drives it rotates by a scale, and a crown 12 having twenty teeth similar to the teeth 11 distributed over its periphery. Of course, the drums situated at the ends need only comprise one of these crowns, the drum adjacent to the false drum comprising a crown with two teeth and the drum situated at the opposite end being able to wear only one crown with twenty teeth.

L'arbre 9 des pignons 8 est solidaire d'un basculeur 13 monté pivotant par rapport au bâti 4 par l'intermédiaire d'un pivot 14. Un doigt 15 solidaire du basculeur est engagé dans la rainure 16 d'un coulisseau 17 guidé en translation dans un logement 18 du bâti. Un poussoir 19 est fixé au coulisseau 17 pour actionner ce dernier et un ressort 20 est monté au fond du logement 18 autour d'un téton 21 pour rappeler le coulisseau en position sortie.The shaft 9 of the pinions 8 is secured to a rocker 13 mounted to pivot relative to the frame 4 by means of a pivot 14. A finger 15 secured to the rocker is engaged in the groove 16 of a slide 17 guided in translation in a housing 18 of the frame. A pusher 19 is fixed to the slide 17 to actuate the latter and a spring 20 is mounted at the bottom of the housing 18 around a stud 21 to recall the slide in the extended position.

A chaque tambour 1 est associé un doigt 22 solidaire du basculeur 13, l'ensemble des doigts formant une structure analogue à un peigne.Each drum 1 is associated with a finger 22 integral with the rocker 13, all of the fingers forming a structure similar to a comb.

Ces doigts ont une extrémité inclinée de façon à pouvoir agir sur des cames respectives 23 en forme de coeur, chaque came étant solidaire d'un tambour.These fingers have an inclined end so as to be able to act on respective cams 23 in the shape of a heart, each cam being integral with a drum.

La figure 1 montre le dispositif en position de comptage. Les pignons 8 sont en prise avec les tambours 1 respectifs, le tambour d'entrée la est entraîné par le faux tambour 6.Figure 1 shows the device in the counting position. The pinions 8 are engaged with the respective drums 1, the input drum 1a is driven by the false drum 6.

La figure 2 illustre la position au cours de la remise à zéro. L'usager a enfoncé le poussoir 19, ce qui provoque le pivote- tement du basculeur 13 par l'intermédiaire du doigt 15. Il en résulte que les doigts 22 du peigne pénètrent entre les tambours et font tourner les cames respectives 23 jusqu'à la position voulue en alignant les graduations "zéro" des tambours face à l'usager. Simultanément, le pivotement du basculeur 13 écarte les pignons 8 des couronnes 10 et 12, ce qui est nécessaire pour permettre la rotation des tambours.Figure 2 illustrates the position during reset. The user has depressed the plunger 19, which causes the rocker 13 to pivot by means of the finger 15. As a result, the fingers 22 of the comb penetrate between the drums and rotate the respective cams 23 until the desired position by aligning the "zero" graduations of the drums facing the user. Simultaneously, the pivoting of the rocker 13 separates the pinions 8 from the crowns 10 and 12, which is necessary to allow the rotation of the drums.

Il est important que les pignons 8 ne tournent pas sur leur axe lors de ce pivotement. A cet effet, l'arbre 9 porte des carrés 24, dont chacun est solidaire d'un pignon 8, et à chaque carré 24 est associée une rampe 25 solidaire du bâti 4.It is important that the pinions 8 do not rotate on their axis during this pivoting. To this end, the shaft 9 carries squares 24, each of which is secured to a pinion 8, and to each square 24 is associated a ramp 25 secured to the frame 4.

Les rampes 25 ont une surface de contact extérieure 26, en forme de secteur circulaire centré sur l'axe de pivotement du basculeur 13, de sorte qu'au cours du pivotement du basculeur 13 cette surface de contact 26 guide les carrés 24 en empêchant les pignons 8 de tourner sur leur axe.The ramps 25 have an external contact surface 26, in the form of a circular sector centered on the pivot axis of the rocker 13, so that during the pivoting of the rocker 13 this contact surface 26 guides the squares 24 preventing the sprockets 8 to rotate on their axis.

Les pignons 8, une fois la remise à zéro effectuée, retrouvent donc exactement leur position correcte par rapport aux couronnes dentées 10 et 12.The pinions 8, once the reset has been carried out, therefore find their exact correct position relative to the toothed rings 10 and 12.

On notera que les rampes 25 ont, dans la position de la fig. 1, leur pointe placée très légèrement à l'extérieur du cercle décrit par les sommets des carrés 24, de manière à ne pas gêner la rotation des pignons 8, et en même temps à créer un guidage pour les carrés 24 lors de la remise à zéro, dès le début du mouvement de pivotement des pignons 8.It will be noted that the ramps 25 have, in the position of FIG. 1, their point placed very slightly outside the circle described by the vertices of the squares 24, so as not to hinder the rotation of the pinions 8, and at the same time to create a guide for the squares 24 during reset. zero, from the start of the pinion pivoting movement 8.

De préférence, le bâti 4 est en matière plastique et les rampes 25 sont formées lors du moulage et sont d'une seule pièce avec le bâti 4.Preferably, the frame 4 is made of plastic and the ramps 25 are formed during molding and are in one piece with the frame 4.

On notera sur la figure 3 que des encoches diamétralement opposées 27 sont ménagées dans la partie du bâti 4 qui définit le logement 18 du coulisseau. Cela permet, comme le montre la fig. 4, d'actionner le coulisseau 17 par un poussoir 28 monté à l'extrémité d'une tige coudée 29 dont l'extrémité pénètre dans les encoches 27. On peut donner à la tige coudée 29 toute longueur souhaitée en fonction des besoins, la figure 4 illustrant deux longueurs différentes. Mais le coulisseau 17 comporte toujours un trou axial 30 permettant le montage du poussoir de la façon représentée aux figs. 1 et 2.Note in Figure 3 that diametrically opposite notches 27 are formed in the part of the frame 4 which defines the housing 18 of the slide. This allows, as shown in fig. 4, to actuate the slide 17 by a pusher 28 mounted at the end of a bent rod 29, the end of which penetrates into the notches 27. The bent rod 29 can be given any desired length as required, the Figure 4 illustrating two different lengths. But the slide 17 still has an axial hole 30 allowing the pusher to be mounted in the manner shown in FIGS. 1 and 2.

Claims (3)

1. Totalisateur journalier, du type comprenant une pluralité de tambours disposés côte à côte sur le même axe et supportés en rotation par un bâti, un basculeur monté pivotant par rapport au bâti, une série de pignons solidaires du basculeur, disposés chacun entre deux tambours pour déplacer un tambour d'une graduation lorsque le tambour précédent a parcouru un tour complet, une came solidaire de chaque tambour et un doigt de manoeuvre associé à chaque came et solidaire du basculeur pour provoquer la remise à zéro du tambour correspondant lors du pivotement du basculeur, caractérisé par le fait qu'il comprend un carré solidaire de chaque pignon et une rampe solidaire du bâti qui coopère avec le dit carré pendant le pivotement des pignons, la surface de contact de la rampe étant un secteur circulaire centré sur l'axe de pivotement.1. Daily totalizer, of the type comprising a plurality of drums arranged side by side on the same axis and supported in rotation by a frame, a rocker pivotally mounted relative to the frame, a series of pinions integral with the rocker, each arranged between two drums to move a drum of a graduation when the previous drum has traversed a full revolution, a cam secured to each drum and an actuating finger associated with each cam and secured to the rocker to cause the reset of the corresponding drum during the pivoting of the rocker, characterized in that it comprises a square integral with each pinion and a ramp integral with the frame which cooperates with said square during the pivoting of the pinions, the contact surface of the ramp being a circular sector centered on the axis pivot. 2. Totalisateur selon la revendication 1, caractérisé par le fait que les rampes sont venues de moulage avec le bàti.2. Totalizer according to claim 1, characterized in that the ramps came from molding with the frame. 3. Totalisateur selon l'une des revendications 1 et 2, caractérisé par le fait qu'il comprend un coulisseau guidé en translation dans le bâti et solidaire d'un poussoir pouvant être actionné par l'opérateur, et un mécanisme reliant le coulisseau au basculeur pour faire pivoter ce dernier lorsque le poussoir est déplacé.3. Totalizer according to one of claims 1 and 2, characterized in that it comprises a slide guided in translation in the frame and secured to a pusher which can be actuated by the operator, and a mechanism connecting the slide to the rocker to rotate the latter when the pusher is moved.
EP79401026A 1978-12-20 1979-12-17 Day-mileage recorder Withdrawn EP0013219A1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
FR7835750 1978-12-20
FR7835750A FR2445949A1 (en) 1978-12-20 1978-12-20 DAILY KILOMETER TOTALIZER WITH RESET PUSH-BUTTON

Publications (1)

Publication Number Publication Date
EP0013219A1 true EP0013219A1 (en) 1980-07-09

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ID=9216333

Family Applications (1)

Application Number Title Priority Date Filing Date
EP79401026A Withdrawn EP0013219A1 (en) 1978-12-20 1979-12-17 Day-mileage recorder

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US (1) US4314149A (en)
EP (1) EP0013219A1 (en)
ES (1) ES487544A1 (en)
FR (1) FR2445949A1 (en)

Cited By (3)

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FR2530012A1 (en) * 1982-07-06 1984-01-13 Cgs Istrumenti Misura Spa Mechanical adder, especially for motor vehicle odometers
WO1986002756A1 (en) * 1984-10-25 1986-05-09 Hasler Ag Manually adjustable accounting mechanism for franking machine
EP0430412A2 (en) * 1989-10-30 1991-06-05 Delco Electronics Corporation Gearing for reset trip odometer

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CH661601A5 (en) * 1984-01-31 1987-07-31 Sodeco Compteurs De Geneve ROLL COUNTER WITH ZERO SETUP.
GB2227840B (en) * 1989-02-04 1992-06-17 Delco Electronic Overseas Corp Odometer
US4914278A (en) * 1989-05-22 1990-04-03 Western Pacific Industries Inc. Internally illuminated reset counter
US8628319B2 (en) * 2002-07-29 2014-01-14 Ivma Holdings Company Apparatus for manufacturing thermoformed plastic articles

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FR2289012A1 (en) * 1974-05-22 1976-05-21 Bud Hans IMPROVEMENTS TO METERING SYSTEMS
DE2514166A1 (en) * 1975-03-29 1976-10-14 Werner Ing Grad Pfundstein Resetting mechanism for counter number wheels - has few simple parts but ensures exact positioning with no risk of misalignment
CH585936A5 (en) * 1975-05-21 1977-03-15 Sodeco Compteurs De Geneve Forward drive blocking arrangement for rotary counters - brings forward drive pinions out of engagement with number rolls for resetting to zero

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US2539368A (en) * 1948-12-27 1951-01-23 Veeder Root Inc Adjustable register wheel
US3643072A (en) * 1970-07-22 1972-02-15 Veeder Industries Inc Resettable counter
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Publication number Priority date Publication date Assignee Title
US3053441A (en) * 1958-07-24 1962-09-11 Veeder Root Inc Counter
FR2289012A1 (en) * 1974-05-22 1976-05-21 Bud Hans IMPROVEMENTS TO METERING SYSTEMS
DE2514166A1 (en) * 1975-03-29 1976-10-14 Werner Ing Grad Pfundstein Resetting mechanism for counter number wheels - has few simple parts but ensures exact positioning with no risk of misalignment
CH585936A5 (en) * 1975-05-21 1977-03-15 Sodeco Compteurs De Geneve Forward drive blocking arrangement for rotary counters - brings forward drive pinions out of engagement with number rolls for resetting to zero

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR2530012A1 (en) * 1982-07-06 1984-01-13 Cgs Istrumenti Misura Spa Mechanical adder, especially for motor vehicle odometers
WO1986002756A1 (en) * 1984-10-25 1986-05-09 Hasler Ag Manually adjustable accounting mechanism for franking machine
EP0430412A2 (en) * 1989-10-30 1991-06-05 Delco Electronics Corporation Gearing for reset trip odometer
EP0430412A3 (en) * 1989-10-30 1993-01-27 Delco Electronics Corporation Gearing for reset trip odometer

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Publication number Publication date
FR2445949B1 (en) 1981-10-30
FR2445949A1 (en) 1980-08-01
US4314149A (en) 1982-02-02
ES487544A1 (en) 1980-06-16

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