CH699736B1 - A central calendar. - Google Patents

Abstract

The central date needle device (1) comprises a display provided with a date scale (2) having thirty-one pins distributed over a circumference, the angular distance separating at least two of these marks following a second angle (β) greater than a first angle (α) separating two of the other following marks.

Description

       

  The present invention relates to a central date device for a timepiece, including a pocket watch or a wristwatch. More particularly, this central date device is provided for a timepiece comprising a tourbillon visible through the dial of the timepiece.

  

[0002] Generally, such a timepiece comprises a dial provided with a graduation of concentric dates at the switch and a date hand pivoted concentrically at the time switch. This date hand then scans the space above the vortex, which hinders the visibility of the tourbillon, for several days per month, which is a significant disadvantage for the user.

  

The object of the present invention is to provide a central date device which avoids the aforementioned drawback.

  

The present invention relates to a central date device according to claim 1 and a timepiece provided with such a central date device.

  

The accompanying drawing illustrates schematically and by way of example a particular embodiment of a timepiece provided with an embodiment of the central date device.
<tb> Fig. 1 <sep> is a top view of a watch having a tourbillon and provided with a central date device according to the invention.


  <tb> Fig. 2 <sep> is a top view of the mechanism of the date device in the center driving the date hand in the center.


  <tb> Fig. 3 <sep> is a sectional view of the mechanism of FIG. 2.


  <tb> Fig. 4 <sep> is a top view of the central date device in the position it occupies on the 15th of the month.


  <tb> Fig. <Sep> is a view of the central date device in the position it occupies after the date wheel has been driven a step further in the night of the 15th to the 16th of a month.


  <tb> Fig. 6 <sep> is a top view of the central date device a few hours after the position shown in FIG. 5.


  <tb> Fig. 7 <sep> is a top view of the central date device in the morning of the 16th of the month.


  <tb> Figs. 8 to 11 <sep> illustrate the operation of the central date device in the opposite direction, for example when turning the needles of the time switch upside down for a time setting.

  

The present invention relates to a central needle date for a timepiece in which the needle 1 is driven step by step by a mechanism in its 31 steps per month to display on a date scale 2 concentric to the pivot axis of the needle 1 the day of the day.

  

The peculiarity of this central date is that the graduation 2 is not completely uniform but comprises between two successive days given the month, between 15 and 16 in the example shown, an angular arc greater than between two other successive days of the month.

  

The mechanism of this central date must be designed so that at least one of the 31 that makes the needle 1 in a month is of greater angular amplitude than the others.

  

Thus, in the sector 3 of the dial 4 which is between these two days of the month can be included another display, present a decor or accommodate a visible vortex, without the needle 1 does not disturb the vision of this element. In the example shown, the sector 3 of the dial 4, undisturbed by the presence of the date hand 1, is used to show a vortex 5 that includes the movement of the timepiece.

  

The originality of the invention therefore lies in a central date needle to have a date scale and a date hand that has or performs at least one daily jump of greater angular amplitude than the others in order to to clear a sector of the dial of the timepiece. Of course, it is in the case of the present invention a central calendar with continuous indication and not retrograde type.

  

FIG. 1 illustrates a timepiece provided with a central continuous needle date device according to the invention. The dial 4 of the timepiece comprises a sector 3, here centered on six hours, which does not include a reference mark of the date scale 2 and where the date hand 1 is only one jump. The display of the central needle date device therefore comprises a date scale 2 concentric with the date hand 1. This graduation is continuous over 360 [deg.] And has the digits from 1 to 31 but the space between them numbers indicating the dates is not always the same, at least one of these spaces is larger than the others.

   The date hand 1, it is driven step by step, and jumps from one marker to the next of the date graduation 2, that is to say that for a step at least its angular displacement is greater than for the other.

  

The display of the date device according to the present invention is original in that it comprises a continuous graduation from 1 to 31, at least one interval between two successive digits is larger than the others and a forward needle step by step at a rate of one step per day of which at least one jump has a greater angular extent than the others corresponding to the larger interval of the graduation.

  

The date device according to the present invention further comprises a date mechanism driven by a watch movement and controlling the successive steps of the date hand 1 of which at least one has a greater angular extent than the others.

  

This mechanism is illustrated in FIGS. 2 to 11 of the accompanying drawing and will be described in the following with reference to this drawing.

  

The date mechanism according to the present invention is driven by a power take-off constituted, in this example, by the hour wheel 10 of the watch movement located in the center of the watch. This wheel 10 meshes with a driving wheel of date 11 and drives the latter at the rate of a complete revolution in twenty-four hours. This date driving wheel 11 carries a pin 12 extending perpendicularly to its upper surface. This pin 12 cooperates with the teeth of a date wheel 13 to drive a step per day.

   This date wheel 13 is held in its angular rest positions, between two actuations by the pin 12, by means of a jumper 14 fixed on a plate or a bridge of the clockwork movement comprising two arms 15, 15a whose the ends are engaged with the toothing of the date wheel 13.

  

The date wheel 13 has a toothing of more than thirty-one teeth as is the case of a usual date wheel. In the example shown, the date wheel has forty teeth. The angle between two teeth of this date wheel 13 corresponds to the angle between two nearest successive markers of the date scale 2 is the first angle [alpha]. In the illustrated example, this angle between two successive teeth of the date wheel 13, corresponds to the angle between the numbers 16 and 17, 17 and 18, ... 20 and 21, ... 14 and 15 of the graduation of the dates.

   The angle encompassing the additional portion of the toothing, which is equal to a sector comprising ten teeth (ie forty minus thirty teeth) in the illustrated example, corresponds to a second angle [beta] separating the digits 15 and 16 of the graduation This additional part of the toothing of the wheel 13 thus corresponds to the longest jump of the date hand between the 15th and 16th of each month in the illustrated example.

  

The date mechanism further comprises a first mobile 16 having a toothed sector 17 integral with and concentric with the date wheel 13. This date wheel 13 carries the date hand 1.

  

Finally, this date mechanism also comprises a second mobile 18 having two toothed sectors 19, 20 integral with the date driving wheel 11 and angularly positioned relative thereto so that the two sectors 19, 20 teeth are arranged symmetrically with respect to the pin 12 of the date drive wheel. The first and second mobiles 16, 18 are arranged in such a way that the toothed sector 17 of the first mobile 16 can mesh with the two toothed sectors 19, 20 of the second mobile 18.

  

The operation of this date mechanism will now be described with reference to FIGS. 4-7.

  

FIG. 4 illustrates the relative position of the different mobiles of the date mechanism on the evening of the 15th of a month. The pin 12 of the date driving wheel is ready to push a tooth of the date wheel 13.

  

The drive gear of date 11 of the central date device is continuously driven by the hour wheel 10 of the watch movement at the rate of one complete revolution per day. Thus, from the relative positions illustrated in FIG. 4, when the pin 12 has moved the date wheel 13 one step is found in the position shown in FIG. 5 where the date wheel has advanced a tooth and is again immobilized by the jumper 14, 15. The first mobile 16 and its toothed sector 17, integral with the date wheel, has come to be positioned to be ready to mesh with the toothed sector 20 of the second mobile 18 carried by the date driving wheel 11.

  

The date driving wheel 11 continues to rotate, since it is driven continuously by the hour wheel 10, the second mobile 18 causes, by its sector gear 20 engaged with the toothed sector 17 of the first mobile 16, the date wheel 13 which is integral therewith and the date mechanism is found in the position illustrated in FIG. 6. At this moment, the date wheel advances by half a step under the action of the jumper 14, 15, toothed sectors 17 and 20 separate and the mechanism arrives at the position illustrated in FIG. 7.

  

Between the positions illustrated in FIGS. 4and 7the date wheel has been rotated by the toothed sectors 17, 20 at an angle which corresponds exactly to the desired catch of the second angle [beta], ie ten teeth of the date wheel 13 in the illustrated case, passing the date hand 1 from its position opposite the number 15 of the scale of the date 2 to its position for which it is opposite the digit 16 of this graduation 2.

  

From the position illustrated in FIG. With the toothed sectors 17 and 20 disengaged, the date driving wheel 11 continues to rotate freely until the next passage of its pin 12 in front of a tooth of the date wheel 13. This date wheel 13 is therefore again driven to because of a normal step a day.

  

Note that for this normal operation of the date device a single toothed sector 20 of the second mobile is necessary.

  

The second toothed sector 19 of the second mobile is useful only if the date mechanism must be reversible in particular to operate during a time setting back.

  

During the time setting in the counterclockwise direction the described date mechanism passes through the successive positions illustrated in FIGS. 8 to 11 which allows the training of the date hand 1 over a long distance between the 16th and the 15th of a month.

  

With this central needle date device, the needle 1 of the dates does not remain stationary several days in a row above the vortex 5, or any other display or decor, the timepiece and therefore avoids any aesthetic discomfort.

  

In practice, the jump of a normal tooth lasts less than one hour and the jump from 15 to 16 of the month lasts about three to four hours, but it happens in the middle of the night and the user does not so is not embarrassed.

  

In the illustrated embodiment of the central needle date device, the date graduation 2 is distributed in such a way that a first angle [alpha] separates two successive digits from 16 to 31 and from 31 to 15 and a second angle [beta] much larger separates the numbers 15 and 16 leaving a sector 3 of the dial 4 without date indication.

  

The number of teeth of the date wheel 13 of the date mechanism is equal to 360 [deg.] Divided by the first angle [alpha] and the angular extent of the toothed sectors 17, 19 and 20 is such that the the drive of the date wheel 13 by the sectors 17, 20 or 17, 19 is performed at an angle substantially equal to the second angle [beta].

  

It goes without saying that in variants of the date device there may be two or more sectors 3 of the dial 4 in which the date hand 1 does not stop but is continuously driven on an angle greater than the first angle [alpha] for example in a double tourbillon watch. It suffices to multiply the number of toothed sector 17 of the first mobile 16 of the date mechanism.


    

Claims (9)

1. Device central date needle (1), characterized in that it comprises a display having a date scale (2) having thirty-one pins distributed over a circumference, the angular distance separating at least two of these marks next to a second angle ([beta]) larger than a first angle ([alpha]) separating two of the other following marks. 2. Device according to claim 1, characterized in that the scale (2) of the dates comprises the numbers 1 to 31, the 31 being located at noon on a dial (4); in that the successive digits of 16 to 31 and 31 to 15 are separated by a first angle ([alpha]) while the interval between the digits 15 and 16 corresponds to a second angle ([beta]) greater than the first angle ([alpha]). 3. Device according to claim 1 or 2, characterized in that it comprises a date mechanism driving the date hand (1) in its angular displacements by successive short jumps between the marks of the date scale (2). separated by the first angle ([alpha]) and by a long jump between the markers of the date graduation separated by the second angle ([beta]). 4. Device according to claim 3, characterized in that the date mechanism comprises a date drive wheel (11) for meshing with the hour wheel (10) of a watch movement; in that the date driving wheel (11) comprises a pin (12) co-operating with the toothing of a date wheel (13) comprising more than 31 teeth, driving the date hand (1) in its angular displacements ; a first mobile (16) having at least one toothed sector (17) integral with the date wheel (13) and a second mobile (18) integral with the date driving wheel (11) having a first toothed sector (20) capable of to mesh with the toothed sector (17) of the first mobile (16). 5. Device according to claim 4, characterized in that the second mobile (18) comprises a second toothed sector (19) also capable of meshing with the toothed sector (17) of the first mobile (16). 6. Device according to claim 5, characterized in that the two toothed sectors (19, 20) of the second mobile (18) are arranged symmetrically with respect to the pin (12) of the date driving wheel (11). 7. Device according to one of claims 4 to 6, characterized in that a jumper (15, 15a) maintains the angular position of the date wheel (13) between its movements step by step. 8. Device according to one of claims 4 to 7, characterized in that the date wheel (13) has a number of teeth equal to 360 [deg.] Divided by the first angle ([alpha]). 9. Timepiece, including pocket watch or wristwatch, characterized in that it comprises a central date device according to one of the preceding claims.