Patent Application
20060245302
The present invention relates to timepieces with a date display. It relates more specifically to a mechanism indicating the date and the day of the week intended to equip a watch movement.
It is common practice, in mechanical and electromechanical watches, to display the date (1 to 31) and the day of the week (Monday to Sunday) using hands moving over the dial or using disks rotating under the dial, with their indications showing through windows.
In general, the only things visible each day are the date and the corresponding day. However, it may be advantageous to offer the wearer of the watch more information—the dates and the days over a period of one week such as a calendar offers, for example.
U.S. Pat. No. 3,811,266 proposes a solution that would meet this need. However, the operation of making the day and the date tally, which is an operation that is needed at the end of the months comprising fewer than 31 days, has to be done manually.
It is an object of the present invention to provide a mechanism that makes the operation of making the date and the day tally automatic.
More specifically, according to a first embodiment, the invention relates to a mechanism indicating the date and the day, intended to equip a timepiece movement the dial of which is pierced with a window. It comprises:
In this embodiment, the mechanism further comprises a hand intended to show the date corresponding to the day, said first means being arranged in such a way as to cause this hand to move on by one day each evening at around about midnight.
According to a second embodiment, the invention relates to a mechanism indicating the date and the day, intended to equip a timepiece movement the dial of which is pierced with a window. It comprises:
Other features of the invention will emerge from the description which will follow, given with reference to the attached drawing, in which:
FIGS. 3 to 7 depict this mechanism in various of its most significant states;
The timepiece depicted schematically in
The hours and minutes are displayed at the center of the timepiece by big hands 11 and 12 respectively, while the seconds are displayed, at the 6 o'clock position, by a small hand 13. The month is displayed using a disk visible behind a window 14 in the 3 o'clock position. These functions will not be described because they are provided in a conventional way and are not the subject of the invention.
The description will therefore essentially devote itself to describing the display of the date which, according to a preferred embodiment of the invention, is done through a window 15 in the shape of an arc of a circle concentric with the hands 11 and 12, located at the 9 o'clock position. This window shows seven dates facing which there are inscribed, on the dial, from the bottom up, the indications of the seven days of the week. A hand 16, also concentric with the hands 11 and 12 and pointing toward the window 15 is used to indicate the date of each day of the week.
The peculiar feature of this timepiece lies in the mechanism that allows the correct date to be displayed automatically each day in the window 15 by the hand 16 against the correct day of the week, whether the current month comprises 31, 30, 29 or 28 days.
Reference is now made to FIGS. 3 to 7 which schematically depict, in various configurations, the constituent parts of the mechanism with which the timepiece of
The figures show a date indicator 17 consisting, in the known way, of a disk crown the top face of which bears the thirty-one dates visible in series of seven through the window 15 against the series of the seven days of the week. The internal part of the crown 17 is provided with thirty-one teeth used, on the one hand, for driving it via means which will be described later and, on the other hand, for positioning it using a conventional jumper, not depicted.
The mechanism comprises a twenty-four-hour wheel 18 driven in the counterclockwise direction (hereafter termed CCW direction) at one revolution per day, from the hours wheel of the movement. The wheel 18 bears, on the top, a stud 19 engaging with a thirty-one star 20 positioned at the center of the movement and the pinion 21 of which bears the date-indicating hand 16. The star 20 bears, on its underside, a stud 22, the purpose of which will become apparent later on.
The pinion 21 meshes with a first rack 23 forming the end of an arm 24 which pivots about a pin 25. When the arm pivots in the CCW direction, it loads a spring 26. The other end of this arm is equipped with a second rack 27 which meshes with a clutch runner with pawl 28, of a type well known to those skilled in the art, collaborating with the internal tooth set of the date indicator 17. The rack 27 has no effect on this runner when it pivots in the CCW direction, but when it pivots in the clockwise direction (hereinafter termed the CW direction), it drives the latter in such a way as to cause the indicator 17 to move on in the CCW direction.
A pawl 29, acting under the effect of a spring 30, serves, via one of its ends, to prevent the thirty-one star 20 from rotating in the CCW direction. The other end of this pawl is provided with a slot into which a stud 31 fits. The latter is fixed to one end of a pivoting lever 32 the other end of which is arranged in such a way as to lie in the path of the stud 22 fitted to the thirty-one star 20. The lever 32 is subjected to the action of a spring 33 which tends to return its free end toward the center of the movement.
In operation, the mechanism, during the night from Sunday to Monday, after the jump at midnight, is in the position illustrated by
Throughout the week, the first rack 23 has therefore also progressed in the CCW direction, loading its spring 26 while the stud 22 has moved closer to the end of the lever 32. The second rack 27 has also progressed in the same direction but, as already mentioned, because of the presence of the clutch runner 28, has had no effect on the date indicator 17 which has therefore remained immobile. By way of indication,
Each Sunday evening, at the time when the stud 19 causes the mechanism to progress by one position, the stud 22 lifts the end of the lever 32, the stud 31 of which moves the pawl 29 away from the thirty-one star 20. The latter, actuated by the rack 23 subjected to the effect of the spring 26 quickly returns, in the CW direction, with its hand 16, to the initial Monday-morning position depicted in
At that moment, the hand 16 once again indicates Monday and the first of the new seven visible dates of the week beginning. A further seven-day cycle then begins, identical to the one just described.
The mechanism would be perfect if all the months comprised 31 days. As this is not the case, the date indication designated by the hand 16 will not be correct in months comprising fewer than 31 days. Thus, for example, in a 30-day month ending on a Thursday, the date in the Friday position will be the 31, whereas it should be the 1.
One solution that comes immediately to mind as a way of solving this problem is to act upon the date indicator 17 using a manual correction mechanism well known to those skilled in the art, by virtue of which the indicator is moved on by three, two or one step respectively at the end of 29-day, 28-day or 30-day months. Although this solution does admittedly allow the remaining days of the week to be made to tally with the dates, the same is not true of the days which have passed, which will no longer display the correct date.
The mechanism according to the present invention provides a solution to the problem by making it possible automatically to cause the indication of the day and that of the date to be made to tally perfectly and automatically at the end of months comprising fewer than 31 days.
To do this, the mechanism uses a corrector 34 in the form of a sector of a disk crown 31 centered on the movement, having the same radius as the indicator 17. On its left-hand part it bears the series of dates from 1 to 6 and is dimensioned so that it can be superposed precisely on the indicator 17 so as to hide the incorrect dates and replace them with its own. The sector 34 is provided, toward the inside, with a tooth set used to drive it.
For reasons that will become apparent later on, the corrector 34 is, in its initial state, illustrated by
According to the embodiment described, a first manual setting performed prior to the Sunday evening preceding the end of a month comprising fewer than 31 days allows the corrector 34 to be brought up close to the last of the dates visible in the window 15. This setting is by 1 position in 30-day months, by 2 positions in 29-day months and 3 positions in 28-day months. In other words, the date 1 on the corrector is brought up to 2, 1 and 0 positions respectively at the end of 30-day, 29-day and 28-day months.
A second setting operation needs to be performed, advantageously at the same time as the first, so as to cause the date indicator 17 to advance by 1, 2 or 3 positions respectively for 30-day, 29-day and 28-day months.
In order to allow these movements to be performed, the mechanism has, as its starting point, the internal tooth set of the date indicator 17 which, by means of two runners 35 and 36, meshes with an associated wheel 37, above it, having a thirty-one star 38. The latter has the peculiar feature of having just eight of the thirty-one teeth that it normally should have, these being distributed normally over a sector 39 of about 93° and corresponding to operations to be performed between 23 and 30 of months comprising fewer than 31 days. The rest of the periphery of the star is plane.
The eight-toothed sector 39 meshes with a pinion 40 the circumference of which is equal to the length of the arc of the circle of the sector 39, which is positioned in such a way as to begin to operate the pinion at the start of the 23 of the month. This pinion is associated with an eight-tooth wheel 41 held in place by means of a jumper 42 and meshing with a correcting wheel 43 which has the peculiar feature of having a nine-notch sector 44 with a spacing corresponding to that of the teeth of the wheel 41. Three of these notches, bearing the references n1, n2 and n3, correspond to the corrections to be carried out at the end of the 30-day, 29-day and 28-day months, while the other six, bearing the references n4 to n9, are used to correct the days. The remainder of the periphery of the correcting wheel 43 is free of teeth.
The wheel 43 is associated, underneath it, with a wheel 45 meshing, via two runners 46 and 47, with the internal tooth set of the correction section 34.
The wheel 45 meshes with a rack 48 forming the end of an arm which pivots about a pin 49. When the pivoting is in the CW direction, it loads a spring 50.
A seven-day star 51 is driven, at one revolution per week, by a finger 19′ borne, like the stud 19, by the twenty-four-hour wheel 18. This star is provided with a tooth 52 which acts on a pawl 53 allowing the wheel 45 to rotate, in the CCW direction, under the action of the spring 50, each Sunday at around about midnight.
A barrel 54 is enmeshed with the internal tooth set of the date indicator 17 on which it acts only when it turns in the CCW direction. It is associated with a retaining pawl 55, subjected to the thrust of a spring 56 and actuated by a tooth 57 formed on the inside of the straight part of the corrector 34.
Finally, manual correction means, not depicted on the drawing in order not to clutter this drawing, but which are well known to those skilled in the art, allow the correcting wheel 43 and the barrel 54 to act simultaneously so as to move, in the CCW and the CW directions respectively, though 3, 2 and 1 steps before the end of 28-day, 29-day and 30-day months respectively. These corrections correspond to the respective settings of the corrector 34 and of the indicator 17 which were mentioned earlier.
The way in which the mechanism works which, automatically, ensures that the corrector 34 is correctly positioned, will be described with more especial reference to
When, at the time of moving on from the 22 to 23 of 31-day months, the eight-tooth sector 39 acts on the pinion 40, the eight-tooth wheel 41 associated with it rotates freely because the correcting wheel 43 is not presenting it with its nine-notch sector 44. The corrector 34 therefore remains immobile during the switch from the 31 to the 1 of the month.
This will be the situation as long as no position setting has been performed by the wearer of the watch during the course of the month in order to prepare the corrector 34 and the barrel 54 for a month comprising fewer than 31 days.
If the double position setting operation has been performed, in the case, for example, of a 30-day month, the correcting wheel 43 has advanced by one position in the CCW direction. On the Sunday evening, when the indicator 17 jumps by seven positions, the notch n 2 of the wheel 43 and following notches may thus mesh with the eight-tooth wheel 41. All will then be determined by the date of the following Monday.
According to the arrangements described hereinabove, if the Monday is the 23, 24, 25, 26, 27, 28, 29 or 30, the correcting wheel 43 will advance by 1, 2, 3, 4, 5, 6, 7 or 8 positions respectively, thus causing the corrector 34 to progress by the same number of positions so as to hide the incorrect dates displayed by the indicator 17 and replace them with a correct indication of the date.
The same sequence of movements is performed for 29-day and 28-day months, once the manual setting has caused the correcting wheel 43 to advance by 2 or 3 positions.
Of course, the operations which have just been described need to have been preceded, on the Sunday evening, by return of the corrector 34 to its initial state, offset by 3 positions with respect to the last date visible in the window 15.
This return to the initial state is triggered by the seven-day star 51, the tooth 52 of which lifts the pawl 53, thus releasing the wheel 45. The latter, actuated by the rack 48 subjected to the action of the spring 50 then quickly returns, in the CCW direction, to its starting position. The correcting wheel 43 associated with it, acting via the runners 46 and 47, thus causes the corrector 34 also to return to its initial state.
At the time when the corrector 34 moves aside to return to its initial position, the pawl 55 which, hitherto, had been immobilizing the barrel 54, is raised by the tooth 57. The barrel therefore finds itself released and causes the indicator 17 to advance by 1, 2 or 3 positions depending on whether the month comprises 30, 29 or 28 days.
Thus, a date indicator mechanism that displays together and automatically, from Monday through Sunday, the dates of the seven days of the week against the corresponding days, whether the month comprises 31, 30, 29 or 28 days, has been proposed.
The present description has been given with reference to a fixed indication the days of the week, from Monday through Sunday, and of a date indicator which jumps by seven positions, the date being shown by a hand.
However, it goes without saying that, without departing from the scope of the invention, the mechanism could, as illustrated by
The display could also be done over two weeks or, more generally, over n days. In such a case, the corrector would need to bear dates from 1 to n-1.
The invention has just been described in a mechanical embodiment but it is obvious that the functions of the mechanism could also be performed electronically, as illustrated for example in
In such a case, according to an embodiment corresponding, for example, to that of
| Number | Date | Country | Kind |
|---|---|---|---|
| 03405292.8 | Apr 2003 | EP | regional |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/CH04/00232 | 4/16/2004 | WO | 10/25/2005 |
