CH707959A1 - A drive system of a date indicator. - Google Patents

Abstract

The present invention relates to a date indicator drive system comprising an indicator of the date units (10) and an indicator of the tens of the date (12). According to a first aspect of the invention, the drive system comprises: - a month wheel, intended to make one turn per month, - a first driving wheel (16) integral with the wheel months and intended to drive the indicator of the units, - a driven wheel (22) cooperating with said driving wheel (16) and bearing the date units indicator. According to a second aspect of the invention, the drive system comprises: - a month wheel, intended to make one turn per month, - a second driving wheel (40) integral with the month wheel and intended to drive the indicator of the tens. In both cases, the invention proposes gear configurations that promote the safety of the drive.

Description

Technical area

The present invention relates to the field of watchmaking. It relates, more particularly, a drive system of a date indicator. More particularly, the invention applies to a large date type display device, that is to say comprising respective means for displaying units and tens of separate dates.

State of the art

[0002] Large date type mechanisms are well known in the art. It is known in particular, the patent CH 310 559, issued October 31, 1955 in the name of the watchmaking factory Fontainemelon. This document describes a watch movement comprising means for displaying a large head meeting the definition above, for this purpose, the movement comprises in particular three coaxial wheels and fixed in rotation, a first is driven by a finishing gear element of the movement, a second, leading, being arranged to drive a display disk of the date units while the third, also leading, is arranged to drive a display disk dozens of the date.

The first wheel has 31 teeth and is driven at a rate of one tooth per day.

The second wheel comprises 30 people of the same length and having a truncation extending to the bottom of the toothing, that is to say at the level of the base circle, to define the toothless sector, of length corresponding to a tooth. This wheel meshes with a pinion comprising ten teeth and secured to a disc bearing the numbers from zero to nine. These different components of the mechanism are assembled in such a way that, when the displayed date changes from the 31st of a month to the first of the following month, the display disk of the units is not driven, because the undrawn sector of the second wheel moves next to the corresponding gear.

However, this mechanism has a disadvantage in that, in case of violent impact, when the toothed sector faces the pinion, the latter is likely to rotate freely and despite the typical presence of a jumper to define its stable angular positions.

A technical solution to completely eliminate the risk of inadvertent jumps sprocket units is also known in the art. This solution consists in providing a height of the toothed sector, intermediate with reference to the height of the toothing and, sufficient to prevent the rotation of the gear of the units of a complete step, a jumper ensuring the return of the pinion in its stable position after shock. Indeed, at the moment of impact, when the pinion rotates on itself, one of its teeth collides with the toothed sector of the drive wheel by its tip, to limit its rotation.

Such a technical solution, although effective, has a significant disadvantage directly related to the collision mentioned above, which can lead, after successive shocks, to a deformation of the driven wheel, the risk of damaging some in some teeth, making the display mechanism of the big date out of order.

It is also known, for example from EP1 351 104, the possibility of using partially truncated toothings, to improve training or to obtain sequential workouts.

The document EP 1 801 667 proposes meanwhile, a solution to improve the reliability and longevity of the gears of the rear rent, proposing a technical solution to avoid accidental jumps of the display members in case of shock, while improving the mechanical strength of the teeth of the driven wheel involved. In this document, it is proposed to use a gear in which Romania comprises at least first truncated teeth to present a shape substantially complementary to that of a positioning sector when it is arranged opposite the latter, however, a Such construction is extremely accurate to mount, with little tolerance, and offers relatively low security.

The present invention aims to obviate the aforementioned defects.

Disclosure of the invention

More specifically, the invention relates to a drive system of a date indicator as proposed in the claims.

Brief description of the drawings

Other details of the invention will appear more clearly on reading the description which follows, made with reference to the accompanying drawing in which: <tb> fig. 1 <SEP> is a top view of the drive system according to the invention, <tb> figs. 2 and 3 <SEP> are views from above, respectively from below, showing more particularly the elements of the drive system according to the invention.

Embodiment of the invention

The figures show a drive system of a date indicator according to the invention. More particularly, FIG. 1 illustrates the manner in which are arranged, on the one hand, an indicator of the units of the date and on the other hand, an indicator of the tens of the date 12. These two indicators are arranged so as to be driven by a mobile of the months 14 intended to take a ride a month. To do this, the mobile 14 month includes a wheel of 15 months, driven at least once a day by a watch movement. The month wheel may have 31 or 62 teeth, depending on whether it is driven at the rate of one or two teeth per day, respectively. It will be defined in the present application that a step is the advance of a wheel made in a day.

The mobile 14 months comprises, according to the example shown in the drawing, a driving wheel 16 with 62 teeth, a pitch corresponding to two teeth. The driving wheel 16 is integral with the wheel months and intended to drive the indicator units 10, as will be described in detail below.

In this embodiment, the indicator units 10 of the date is a disc bearing the 10 digits of the units. This disc is part of a unit mobile which comprises a positioning board 28, better visible in FIG. 3, with which a jumper 20 cooperates. The positioning plate 28 is advantageously a 10-position star. The mobile unit 10 also comprises a driven wheel 22 arranged to be driven by the driving wheel 16.

According to the invention, the toothing of the driving wheel 16 comprises a toothless zone 24 equivalent to two steps, or four teeth according to the example, whose profile is located at the base circle of the wheel. This zone 24 is surrounded by two safety portions 26 each equivalent to one step, whose profile is located at the top of the teeth.

Furthermore, the driven wheel 22 comprises a finger 18 for cooperating with the toothless zone 24. The finger 18 is surrounded by two sectors with no teeth 30, whose level is located on the base circle of the driven wheel 22. The sectors without toothing 30 are intended to cooperate respectively with the two security portions 26.

The driving wheel 16 also comprises a first 24a and a second 24b areas devoid of teeth, called "small", equivalent to one step and positioned to cooperate with the finger 18.

More particularly, in the proposed example, the toothless zone 24 is separated from the first small toothless zone 24a by the equivalent of 19 teeth, formed by the safety portion 26 which is equivalent to two teeth, and by 17 normal teeth. It is the same for the space separating the second small area without toothing 24b of the area without toothing 24. In addition, the two small areas without toothing are separated by 19 teeth. In correspondence, the two sectors with no teeth 30 of the driven wheel 22 are separated by 16 teeth.

To improve the safety of the meshing between the drive wheel 16 and the driven wheel 22, the flank of the safety portions 26 located on the side of the toothless zone 24, has a concave recess 32 contiguous to the missing zone. teeth. Advantageously, the finger 18 has two concave flanks 34 arranged to cooperate with the recesses 32 of the security portions 26. Preferably, the concavity of these elements is provided for them to marry each other. Thus, they can cooperate in an optimized manner, avoiding any blockage.

Furthermore, the flank of the safety portions 26 located on the opposite side to the toothless zone 24, has the shape of a half-tooth of the "normal" teeth of the driving wheel 16, in order to co-operate optimal with the driven wheel 22.

Still in order to optimize the cooperation between the driving wheel 16 and the driven wheel 22, particularly between the small areas without teeth 24a and 24b of the driving wheel 16, and the finger 18 of the driven wheel 22, these small zones have a downstream flank 36 defining an obtuse angle with the bottom 38 of these zones. The downstream and the upstream are defined with respect to the normal direction of rotation of the mobiles, as represented by the arrows in the drawing. In addition, the bottom 38 of these zones is located at a lower level than the base diameter of the driving wheel 16. With such an asymmetric profile, the driving wheel 22 begins to push the finger 18 earlier. Then, after the driving wheel 22 has finished driving the finger 18, it can clear, also avoiding any risk of blockage or jamming.

According to another aspect of the invention, the driving of the tens indicator 12 is performed by a second driving wheel 40 that includes the mobile 14 months. The second driving wheel 40 is provided with four teeth 42. These are intended to cooperate with a first level 44a of a reference 44, a second level 44b meshes with a drive wheel 46 integral with the indicator of the tens 14. The first level 44a is provided with 6dents, and performs a feed of two pats each time a tooth 42 of the second driving wheel cooperates with the return 44. This gear train is calculated so as to obtain the desired drive. The tens indicator 12 is still integral with a positioning star 48 at four positions, with which a jumper 50 cooperates, in order to obtain jumps of 90 ° each time the reference 44 is actuated by the second driving wheel 40. it is indexed with respect to the first driving wheel 16, so as to cause the tens indicator, on the one hand during the passages from 9 to 0 at the level of the unit indicator, and on the other hand during the passage from 31 to 01, when the finger 18 is engaged in the zone without toothing 24.

Thus, thanks to this configuration, the mobile 44 is driven at a rate of 120 ° each actuation by the second driving wheel 40. Nevertheless, thanks to the gear ratio, the tens indicator performs meanwhile, jumps of 90 °. This configuration also improves safety by increasing the penetration of the teeth between the second drive wheel and the first level 44a. It is thus possible to increase the clearance between these two mobiles, which reduces friction and promotes assembly by a watchmaker.

Naturally, a person skilled in the art could extrapolate the specifically described embodiment, to adapt it to the case of a tens indicator comprising a different series of digits. The principle of this tens indicator drive is to have a drive of the mobile with which cooperate the second driving wheel, greater than the angle traveled at each jump by the tens indicator.

Thus is proposed a drive system of a large date type date indicator, the drive of the units indicator is optimized both in terms of safety and assembly, compared to the devices of the prior art.

Claims (9)

1. A date indicator drive system comprising an indicator of the date units (10) and an indicator of the date tens (12), said drive system comprises: - a wheel of the months, intended to make a turn per month, a driving wheel (16) integral with the wheel of the months and intended to drive the indicator of the units, a driven wheel (22) cooperating with said driving wheel (16) and bearing the indicator of the date units, characterized in that the toothing of the driving wheel (16) comprises a toothless zone (24) equivalent to two steps of the wheel of the months, whose profile is located at the level of the base circle of the driving wheel (16) said zone being surrounded by two safety portions (26) each equivalent to one step of the wheel of the months, whose profile is located at the level of the tops of the teeth of the driving wheel, and in that the driven wheel (22) comprises a finger (18) intended to cooperate with said toothless zone (24), said finger (18) being surrounded by two toothless sectors (30) intended to cooperate respectively with the two security portions (26), said drive wheel (16) further comprising a first (24a) and a second (24b) non-toothing area equivalent to a pitch and positioned to cooperate with the finger (18). 2. Drive system according to claim 1, characterized in that the sidewall of the safety portions (26) located on the side of the toothless area (24), has a recess (32) concave contiguous to the area devoid of toothing. 3. Drive system according to claim 2, characterized in that the flank of the safety portions (26) located on the opposite side to the toothless area (24), has the shape of a half-tooth of the teeth of the driving wheel (16). 4. Drive system according to one of the preceding claims, characterized in that the first (24a) and the second (24b) areas devoid of toothing equivalent to a pitch have a downstream flank (36) defining an obtuse angle with the bottom (38) of said zones. 5. Drive system according to claim 4, characterized in that said bottom (38) of said zones is located at a lower level relative to the base diameter of the driving wheel (16). 6. Drive system according to one of the preceding claims, characterized in that said finger (18) has two concave flanks (34). 7. Drive system according to one of the preceding claims, characterized in that one step equals two teeth. 8. A date indicator drive system comprising an indicator of the date units (10) and a date tens indicator (12), said drive system comprises: - a wheel of the months, intended to make a turn per month, a driving wheel (40) integral with the wheel of the months and intended to drive the indicator of the tens, characterized in that the driving wheel is kinematically connected to the tens indicator by a gear train comprising a first mobile (44) arranged to perform, each actuation of the mobile by the driving wheel, a step greater than 90 °, a drive wheel (46) integral with the tens indicator (14), the gear ratio between the first wheel and the drive wheel being arranged so that the tens indicator makes jumps of the order of 3607N, where N is the number of positions displayed by the tens indicator; . 9. Drive system according to claim 8, characterized in that the tens indicator (14) is associated with a positioning star at N positions, with which cooperates a jumper (50).