This application claims priority from European Patent Application No. 11159240.8 filed Mar. 22, 2011, the entire disclosure of which is incorporated herein by reference.
The present invention concerns a calendar mechanism for a timepiece and more specifically a mechanism of this type including a date display, a month display and a quick month corrector.
Calendar mechanisms for timepieces are common. CH Patent No 697,662, in particular, discloses a calendar mechanism for a timepiece. This mechanism is more specifically a perpetual date mechanism. It comprises in particular a date display and a month display. The mechanism disclosed in this prior art document also comprises a date corrector and a month corrector for manually correcting the indication of the date and the month respectively. These correctors are arranged to be actuated by two respective push-buttons for incrementing by one step the date indication and the month indication respectively. According to the aforementioned prior art document, one of the advantages of the mechanism disclosed is that it can move the month indication forward using the corrector provided for this purpose, without affecting the date indication. In most cases, this arrangement makes setting the date of the calendar more intuitive. However, this is not always the case. For example, if the month corrector is actuated while the calendar indicates 30th January, the calendar changes to the 30th February.
Moreover, as explained in EP Patent No 0 509 959, when the same timepiece combines an equation of time mechanism and a calendar mechanism, it is advantageous to drive the equation of time cam from the 31 wheel set. Indeed, owing to this arrangement, it is theoretically possible to automatically return the equation of time cam to its exact position after an indefinite period where the movement is stopped, simply by resetting the calendar to the date. However, it will be clear that calendar mechanisms which include a corrector for modifying the month indication without affecting the angular position of the 31 wheel set do not have this advantage. Indeed, in this case, the month correction does not affect the angular position of the equation of time cam either.
EP Patent No. 1 004 947 discloses a quick date correction mechanism comprising an operating member which is accessible from the exterior of the watch and arranged for driving the date star wheel in rotation via a gear train. In certain embodiments, the multiplication ratio of the gear train is sufficient for one movement of the operating member to drive the date star wheel by a value of more than one month. However, under these conditions, the high multiplication ratio makes the correction device more imprecise. It thus becomes very difficult for the user to release the operating member in proximity to the desired date without risking going past said date.
It is an object of the present invention to overcome the aforementioned drawbacks. This object is achieved by providing a calendar mechanism in accordance with the annexed claim 1.
According to the present invention, the stop mechanism can either occupy an inactive position, in which it does not intercept the trajectory of the rotating stop member, or an active position in which it locks the 31 wheel set in an angular position corresponding to the indication of the first day of the month. Owing to this feature, the quick corrector device according to the invention does not interfere with the normal operation of the date drive means. It will also be clear that, when the 31 wheel set moves forward to the first day of the next month in one stroke, it actuates, in passing, the monthly drive means, which causes the 12 wheel set and the month indicator to move forward one step. In other words, according to the present invention, quick correction of the month indication is accompanied by a quick advance of the date to the next month. The connection between the date and the month is thus preserved during correction. This feature is particularly advantageous where the calendar mechanism is provided for cooperating with an equation of time mechanism, the 31 wheel set then being arranged to drive the equation of time cam. Indeed, in this case, the month corrector device according to the invention simultaneously corrects the angular position of the equation of time cam.
Other features and advantages of the invention will appear upon reading the following description, given solely by way of non-limiting example, with reference to the annexed drawings, in which:
The watch and the timepiece movement that it contains will not be described hereinafter in their entirety, but only the calendar mechanism. As regards the timepiece movement, it is sufficient to specify that it is arranged to drive, via date drive means forming part of the calendar mechanism, a 31 wheel set at a rate of one revolution per month. The 31 wheel set in turn actuates a date indicator hand.
Referring first of all to
The operation of the elements of the month corrector which have just been listed will now be described. The quick month corrector of the present example is to be actuated manually via a multi-function coaxial corrector device (not shown) which may advantageously be of the same type as that disclosed in EP Patent No 1 939 699 in the name of the Applicant. EP Patent No. 1 939 699 is incorporated herein by reference. It will be clear however that numerous other manual control devices known to those skilled in the art may also be suitable for actuating the quick month corrector of the present invention. In any event, this description does not provide details concerning the manual control device. Indeed, the features thereof do not have any direct bearing on the implementation of the invention.
When the person wearing the watch manually actuates the coaxial multi-function corrector button (not shown), the internal bearing surface of the control mechanism pushes the first control pin 7 in the direction of the arrow (a) (
When wheel set 11 is rotating anti-clockwise, it drives input wheel 15 of the single direction gear train 13 clockwise. Under these conditions, output wheel 17 rotates integrally with the input wheel and also rotates clockwise. When wheel set 11 moves backwards again clockwise, it drives the input wheel anti-clockwise. Under these conditions, the single direction gear train is uncoupled and the output wheel is not driven. Finally, as already stated, the output wheel meshes with the pinion 23 of the 31 wheel set. It is thus clear that the effect of the user actuating the multi-function coaxial corrector button is to drive the 31 wheel set anti-clockwise. The gear ratios are selected as a function of the length of travel of the control mechanism, so that a single application of pressure on the button is sufficient to advance the 31 wheel set through one complete revolution.
The function of the elements of the quick month corrector which have just been described is to stop the quick advance of the date wheel set as soon as the latter reaches the angular position corresponding to the indication of the first day of the month. The operation is as follows. While the quick month corrector is not being activated, rack 3 is in its rest position shown in
When lever 29 is in the active position, hook 35 acts as a stop arranged to intercept the trajectory of pin 27. When the stop mechanism is in the active position and the pin is driven in rotation by the quick month corrector, the latter abuts against the hook 35 which stops the travel thereof. Pin 27 thus plays the part of a rotating stop member which is arranged to cooperate with stop mechanism 25. It will also be clear that, owing to the is presence of bolt 39, it is impossible for the rotating stop member 27 to push stop mechanism 29 back into the inactive position. The collision of the rotating stop member with the stop mechanism thus has the effect of stopping the progress of the 31 wheel set. Lever 29 is also positioned relative to the pin so as to immobilise the 31 wheel set in the angular position corresponding to the indication of the first day of the month. Once the 31 wheel set has moved to the angular position corresponding to the indication of the first day of the month, rack 3 returns to its initial position pushing back lever 29 and bolt 39 which return to the inactive position. Those skilled in the art will understand from the preceding description that according to a variant of this embodiment, it would be possible to omit wheel 25. Pin 27 could in fact be mounted directly on the 31 wheel set. It is considerations of space which make it preferable to use an additional wheel (wheel 25).
In a known manner, the calendar mechanism of the invention includes a monthly drive means activated by the 31 wheel set for incrementing the month indication by one step at the end of every month. Referring now to
The operation of the monthly drive means will now be explained. In this example, the shape of eccentric 43 is such that the start and the peak of the curve of the eccentric are superposed. Moreover, the eccentric is arranged such that the angular position of the 31 wheel set at the moment when beak 47 of the instantaneous lever 45 can fall without transition from the peak to the start of the curve of the eccentric approximately corresponds to the transition between the 31st day of a month and the first day of the next month. On the first day of a month, the beak is at the start of the curve. Next, the beak climbs the curve day after day, gradually lifting the instantaneous lever. The pivoting of the instantaneous lever has the effect of sliding click 51 against the ratchet toothing of the 12 wheel set. At the end of the month, beak 47 reaches the peak of the curve and, pushed by spring 49, suddenly drops to return to the start of the curve. In falling, the beak abruptly pushes the instantaneous lever and click 51 backwards. During its backward movement, click 51 hooks one of the saw teeth of the ratchet toothing and thus advances the 12 wheel set by one step, which has the effect of incrementing the date indication by one month. It will be noted that the monthly drive means that has just been described is arranged to increment the 12 wheel set each time that the 31 wheel set passes from the last day of one month to the first day of the next month. The monthly drive means is activated both when the 31 wheel set passes from one month to another driven by the movement, and when it is driven by the quick month corrector. Moreover, the drive means that has just been described is of the “instantaneous” type. Those skilled in the art will understand however that the monthly drive means of the calendar mechanism according to the invention could also be of the “continuous” or of the “semi-instantaneous” type.
The date corrector device of the calendar mechanism of this example will now be described with reference to
The operation of the elements of the date corrector device which have just been listed will now be explained. The date corrector of this example is to be actuated manually by the same multi-function coaxial corrector device (not shown) that actuates the quick month corrector. It will be clear however that numerous other manual control devices known to those skilled in the art may also be suitable for actuating the date corrector of the present invention. In particular, according to a variant of the present example, the date corrector and the quick month corrector could be actuated respectively by two distinct manual control devices.
When the person wearing the watch selects the “date corrector” function of the multi-function coaxial corrector (not shown) and manually activates the corrector button, the inner bearing surface of the control mechanism pushes the date control pin 63 in the direction of the arrow (a) (
The other components of the quick corrector can be the same as in the first embodiment of the invention can be the same as those that have been described in relation to the first embodiment of the invention.
The operation is as follows. Wheel 125 is kinematically linked to the 31 wheel set (not shown in
As shown in
According to the invention, the angular position of the 31 wheel set at the moment when lug 127 encounters the end of stop lever 143 corresponds to the indication of the first day of the month. Moreover, in the example illustrated, the position at the moment when projecting portion 145 pivots fork 135 corresponds to the indication of the 27th day of the month. The Figures show the 31 wheel set one day later, in the angular position corresponding to the indication of the 28th day of the month. It can be seen that in rotating the projecting portion 145 has now gone past the feeler spindle 149. Lug 127 has not yet reached the level of stop 151. Moreover, a small spring (not shown) is arranged to return fork 135 in the direction of the arrow (d,
The process that has just been described is what happens when the 31 wheel set advances step-by-step, driven by the calendar mechanism. When the 31 wheel set advances in one stroke by the action of the quick corrector device, things happen a little differently. Indeed, the rapidity of the advance of the 31 wheel set is such that the passage of projecting portion 145 causes the cam follower lever 147 to jump. Lever 147 then does not have time to fall again before lug 127 abuts against stop lever 151. It will thus be clear that the small spring arranged to return the cam follower lever against the cylindrical arbour 126 must not be too strong. One advantage of this second embodiment of the invention is that it omits the bolt (referenced 39 in
It will also be clear that various alterations and/or improvements evident to those skilled in the art may be made to the embodiment described herein without departing from the scope of the present invention defined by the annexed claims. In particular, in the first embodiment, the hook 35 forming the end of the pivoting lever 26 could be replaced by a slide that can move axially between the active position and the inactive position.
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11159240 | Mar 2011 | EP | regional |
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Number | Date | Country | |
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20120243381 A1 | Sep 2012 | US |