CH713284A2 - Timepiece having a day / night display taking into account seasonal variations. - Google Patents

Abstract

The timepiece includes a watch movement, a calendar mechanism (223, 225) and means for indicating sunrise and sunset, taking into account seasonal variations (215). The simple calendar calendar mechanism includes a date display (223) and a month display (225). The means for indicating the sunrise and sunset also include an annual cam (211) having a profile representative of the inclination of the sun with respect to the equatorial plane and arranged to be rotated from the hours motive (207). ) via a kinematic chain (218) passing through the means to display the month and having a transmission ratio of 1/744 th.

Description

Description

FIELD OF THE INVENTION

The present invention relates to a timepiece comprising a watch movement, a calendar mechanism and means for indicating the sunrise and sunset taking into account seasonal variations, the watch movement comprising a mobile minutes, a a timer wheel, an hour indicator member, and a mobile hour integral rotation of the hour indicator member and arranged to be driven by the minute mobile via the clock train is at the speed of a turn in 12 hours, or at the speed of a turn in 24 hours, the calendar mechanism being arranged to be driven via the hours mobile and comprising means for displaying the date and means for displaying the month, the means for indication of sunrise and sunset including a sphere reproducing the globe, a support, and a circle mounted on the support concentrically to the sphere and arranged to indicate the position of the terrestrial terminator, the circle and the sphere being arranged to be driven so as to rotate relative to each other, at the rate of one turn per 24 hours, about a corresponding first axis to the polar axis of the terrestrial globe, and the circle being mounted on the support so as to be able to pivot relative to the sphere along a second axis crossing the first axis perpendicularly to the center of the sphere, the means of indicating the rising and sunset also comprising an annual cam having a profile representative of the inclination of the Sun relative to the equatorial plane and arranged to be rotated at a rate of one revolution per year, a cam follower arranged to cooperate with the cam , and a first kinematic chain arranged to connect the cam follower to the circle so that the plane subtended by the circle makes with the first axis an angle equal to the angle of inclination of the Sun with respect to the equatorial plane. The present invention relates in particular to such a timepiece in which the means of indicating the sunrise and sunset taking into account seasonal variations also indicate what part of the surface of the Earth it is day and on which part of the surface of the Earth it is night.

PRIOR ART

The duration of the day is the time included, every day, between the moment when the upper limb of the Sun appears to the east above the horizon, at sunrise, until its disappearance at the west below the horizon, at sunset. Whatever the time, there is always half of the surface of the globe which is illuminated by the Sun, and another half which is in the shadow. The term terrestrial terminator is the line of demarcation between the part of the Earth which is illuminated and that which is in the shadow. Geometrically speaking, the terrestrial terminator is a large circle that surrounds the globe. This large circle extends in a plane perpendicular to the plane of the earth's orbit around the sun (called the plane of the ecliptic). We can still note that the center of the Earth is on the line of intersection between these two planes.

[0003] In general, the duration of the day varies throughout the year and depends on the latitude. This variation is caused by the inclination of the axis of rotation of the Earth on itself with respect to the plane of the ecliptic. This inclination corresponds by definition to the latitude of the tropics which is ± 23 ° 27. As is well known, the duration of the day is shortest at the December solstice in the northern hemisphere, and June in the Southern hemisphere: During the equinoxes, the duration of the day is equal to that of the night on the whole Earth.

Already known timepieces arranged to indicate the current position of the limit between day and night and which correspond to the definition given in the preamble above. In particular, these are described in patent documents EP 2,911,013, EP 2,977,832 and EP 3,007,012 in the name of the applicant. The use and design of these timepieces, however, present a number of difficulties.

In particular, these timepieces comprise an annual cam which has a profile representative of the inclination of the Sun relative to the equatorial plane and which is intended to be rotated by the movement at the rate of one revolution per year. . A disadvantage of these timepieces is that it can be problematic to return the annual cam to the exact position after an indefinite stop time of the timepiece.

BRIEF SUMMARY OF THE INVENTION

An object of the present invention is to overcome the aforementioned drawbacks of the prior art. The invention achieves this goal by providing a watch movement according to the appended claim 1.

According to the invention, the timepiece comprises a calendar mechanism arranged to be driven via the hours mobile and which comprises means for displaying the date and means for displaying the month. The timepiece also includes a third kinematic chain that connects the hours mobile to the annual cam via means for displaying the month. A first advantage of this feature is that it allows, after an indefinite stoppage time of the timepiece, to automatically reset the annual cam in the exact position without error, simply by the date of the calendar.

According to the invention, the calendar mechanism is driven by the hours mobile. Under these conditions, when the wearer of the timepiece changes the indication of the time, for example to correct it, the correction of the time automatically causes the correction of the calendar mechanism and the annual cam.

On the other hand, according to the invention, the third kinematic chain has either a transmission ratio of 1/744 ° (in the case where the mobile hours is arranged to be driven by the timer at the speed of one revolution in 12 hours), a transmission ratio of 1 / 372nd (in the case where the mobile hours is arranged to be driven by the timer at the speed of one turn in 24 hours).

It can be verified that 372 corresponds to the number of days that would have the year if all the months counted 31 days (and 744 corresponds to twice 372). A simple calendar is a calendar mechanism for which every month has 31 days. In a calendar of this type, it is necessary at the end of months not having 31 days, manually advance the needle or the date disk, to update it. As for the change of the indication of the name of the month, it can be done automatically each time the indication of the date passes from the 31st date to the date 1. The man of the trade will tend to consider that if the annual cam n is not driven through means to display the date, the gap between the real time and the current position of the terrestrial terminator on the globe will gradually increase. However, if, for example, the date is pushed forward at the end of the months that do not have 31 days using the time setting, this date setting operation is not likely to de-synchronize the calendar and the annual cam. .

According to a particular embodiment of the invention, the watch movement comprises a summer / winter correction mechanism manually operable to change from summer time to winter time, or conversely, by making rotate the mobile for hours one step forward or backward regardless of the time train. Those skilled in the art will understand that a first advantage of this characteristic is that it makes it possible to carry out the summer time / winter time correction without the indication of the minutes and the indication of the seconds being affected.

According to an advantageous variant of the aforementioned embodiment, the manually operable mechanism is arranged to rotate the mobile hours without this also affects the indication of the position of the terrestrial terminator on the sphere. Those skilled in the art will understand that an advantage of this feature is that it prevents the position of the circle relative to the earth from changing when it does not correspond to a real movement of the Sun relative to the surface of the globe.

BRIEF DESCRIPTION OF THE FIGURES

Other features and advantages of the present invention will appear on reading the description which follows, given solely by way of non-limiting example, and with reference to the accompanying drawings in which: FIG. 1 is a block diagram illustrating briefly the kinematic links between different mechanisms of a timepiece according to a first particular embodiment of the invention; fig. 2 is a block diagram illustrating briefly the kinematic connections between different mechanisms of a timepiece according to a second particular embodiment of the invention; figs. 3A and 3B are respectively a section and a view of an exemplary mechanism, known as such, which comprises a first and a second hour wheel and a de-brayable coupling device arranged to rotate and index, or alternatively to disengage, the two wheels of the hours.

DETAILED DESCRIPTION OF EMBODIMENTS

Fig. 1 is a block diagram illustrating the kinematic links associating different mechanisms of a timepiece according to a first exemplary embodiment of the invention. This extremely summary block diagram represents the transmission paths of the driving force provided by the movement to the different mechanisms using double-thick arrows, and the kinematic links which are arranged to transmit the manually entered commands by a user to the user. help of arrows of smaller thickness.

In the block diagram of FIG. 1, the arrows appearing kinematic links connect together symbols that represent different mechanisms of the timepiece. The mechanisms represented by the symbols comprise a driving mechanism 103 associating a driving member, a regulating member and an escapement, a minute moving wheel (referenced 105) which is integral with a minute display member and which is arranged to to be driven at the rate of one revolution per hour by the drive mechanism, a motive of the hours 107 integral in rotation with a display member hours, a timer wheel 106 connecting the mobile minutes to the hours of so that the latter is driven at the rate of one revolution every 12 hours, a time zone correction mechanism (referenced 101) interposed between the timer train 106 and the hours mobile 107.

According to the invention, the timepiece illustrated further comprises means for indicating the sunrise and sunset taking into account seasonal variations, these means comprising a sphere reproducing the earth, a support, and a circle mounted on the support concentrically to the sphere and which is arranged to indicate the position of the terrestrial terminator. The circle and the sphere are arranged to be driven so as to rotate relative to each other, at the rate of one revolution per 24 hours, around a first axis corresponding to the polar axis of the terrestrial globe. In addition, the circle is mounted on the support so as to also pivot relative to the sphere along a second axis intersecting the first axis perpendicular to the center of the sphere. The means of indicating the sunrise and sunset also include an annual cam having a profile representative of the inclination of the Sun relative to the equatorial plane and which is arranged to be rotated at the rate of one revolution per year, a cam follower arranged to cooperate with the cam, and a first kinematic chain arranged to connect the cam follower to the circle so that the plane subtended by the circle makes with the first axis an angle equal to the angle of inclination of the Sun with respect to the equatorial plane. Referring again to FIG. 1, it can be seen that, in the embodiment shown, the timepiece comprises a sunrise and / or sunset indicator mechanism 115 which comprises a sphere 117 representing the terrestrial globe and a half-shaped shell 113 -sphere which is arranged concentrically to the sphere 117 so as to darken or to hide half of the surface of the globe on which it is night. The shell 113 has a substantially circular rim 113a which constitutes the circle of means for indicating the sunrise and sunset of the invention.

Referring again to FIG. 1, it can be seen that the illustrated timepiece also includes a calendar mechanism arranged to be driven via the hours mobile 107. The calendar mechanism shown comprises means for displaying the date 123 and means for displaying month 125. In accordance with the invention, the calendar mechanism is of the "simple date" type. As the person skilled in the art knows, in a simple calendar, it is necessary at the end of months not having 31 days, to manually advance the display of the date, in order to update it. As for the change of the indication of the name of the month, it is done automatically each time the indication of the date passes from the date 31 to the date 1.

In the illustrated example, the hours mobile is arranged to cause the means to display the month 125 by means of a gear train 118 which does not go through the means to display the date 123. The gear reducer 118 is as follows: the mobile hours 107 is integral in rotation with a reducing gear (not shown) which comprises a pinion of 18 teeth. The pinion of the reduction gear meshes with a wheel of 36 teeth of a first mobile inter (referenced 119) which is arranged to perform a turn in 24 hours. The first mobile inter 119 also comprises two fingers which are arranged for, once every 24 hours, respectively cooperate with one of the teeth of a date star with 31 teeth, and with one of the teeth of a 40 teeth star which makes part of a second mobile inter (not shown), so as to advance one step each of the two stars. The second mobile inter also comprises a pinion of 10 teeth arranged coaxially with the star of 40 teeth. The pinion of 10 teeth is arranged to mesh with a toothing of 93 teeth that presents an annual mobile means to display the month 125.

Still referring to FIG. 1, it can be seen that the timepiece shown also comprises an inclination control mechanism (referenced 109) which comprises an annual cam 111 and a cam follower (not shown). In accordance with the invention, the hours mobile 107 drives the annual cam via a third kinematic chain 118 which passes through the means to display the month 125. In the illustrated example, the annual cam 111 is carried by the annual mobile means to display the month. The annual mobile is therefore part of both the inclination control mechanism 109 and the means for displaying the month 125. It will thus be understood that, in the illustrated example, the third kinematic chain which, according to the invention, connects the hours mobile 107 and the annual cam 111 is constituted by the reduction gear train 118 which has been described above in connection with the means for displaying the month 125. The ratio of the gear wheel 118 is 1/744. However, it is worth remembering that, in the illustrated example, the hours mobile 107 is arranged to perform a complete revolution every 12 hours. Those skilled in the art will understand that, according to the invention, the hours mobile could alternatively be arranged to rotate at the rate of one turn every 24 hours instead of every 12 hours, and that in this case, the ratio of gear reducer is 1/372, the wheel is then shortened.

According to the embodiment of the invention illustrated in FIG. 1, the movement of the shell 113 relative to the sphere 117 is the result of the composition of distinct rotations along two perpendicular axes intersecting at the center of the sphere. The first of these two rotations is performed by the Earth which is arranged to rotate at the rate of a turn in 24 hours around a first of these two axes, and the other rotation corresponds to the pivoting of the shadow in the form of half-sphere around the second axis and results in a variation of the angle of inclination of the half-sphere relative to the first axis. Since the movements of the shadow 113 and the sphere 117 relative to each other are two functionally independent movements, the sunrise and / or sunset indicator mechanism 115 is shown twice in FIG. 1. Referring to the figure, it will be understood that the mechanism 115 is represented a first time to symbolize the rotation of the sphere 117 at the rate of one turn per 24 hours around the first axis, and a second time to symbolize the pivoting shadow 113 around the second axis.

According to the invention, the pivoting movement about the second axis is controlled from the annual cam 111 whose profile is representative of the relative inclination of the Sun above or below the equatorial plane of the Earth. The cam follower (not shown) is arranged to transmit the variations in the profile of the cam to the hemispherical shell 113 via a first kinematic link 112. According to the first embodiment of the invention, the Shade 113 in the form of a half-sphere is pivotally mounted on a fixed support, and the arrangement of the indicator mechanism 115, like that of the first kinematic link 112, may conform, for example, to what is described in EP patent document 2,911,013. This document is incorporated by reference in this specification.

Still referring to FIG. 1, it can be seen that the timepiece whose operation is shown also comprises a number of correcting mechanisms which are arranged to be actuated manually by the wearer of the timepiece. First, as already mentioned, a time zone correction mechanism (referenced 101) is interposed between the timer train 106 and the hours mobile 107. In accordance with what will now be explained, the mechanism 101 can be controlled in two different ways depending on whether the time change is related to a real change of longitude, following a trip for example, or that it is linked to the transition from winter time to summer time or Conversely. In the illustrated example, when the wearer of the timepiece changes his time zone during a journey, he can correct the indication of the time using the control rod 131 of the workpiece. watchmaking. To do this, he must bring the rod 131 in position T2 before rotating the crown so as to advance or retreat the hour hand by a succession of jumps of one hour. According to what has been seen above, the mobile hours 107 causes the display mechanism of the month 125 and the annual cam 111 via the third kinematic chain 118. The mobile hours 107 also causes the date mechanism 123 and the Earth 117 in its rotation about the first axis. It will therefore be understood that the annual cam 111, the calendar 123125, and the sunrise and / or sunset indicator mechanism 115 are arranged to advance synchronously, not only when they are driven from the mechanism. 103, but also when they are manually driven forward or backward with the control rod 131 in position T2.

In the illustrated example, during the transition from winter time to summer time or summer time to winter time, the wearer of the timepiece can shift the time indication exactly one hour forward or backward by pressing P2. When it is actuated, the pusher P2 acts not only on the correction mechanism of the time zone 101, but also on a disengagement mechanism 133, so as to disengage the second kinematic chain 120 which is arranged to drive the Earth into motion. rotation at the rate of one turn in 24 hours. It will be understood that disengaging the second kinematic chain prevents the relative angular position of the shadow 113 relative to the sphere 117 is affected by the transitions between summer time and winter time.

In addition to the time zone correction mechanism 101 already mentioned, the timepiece of the present example includes a traditional type of time setting. This setting allows the wearer of the timepiece to set it on time using the control rod 131 of the timepiece. To do this, he must bring the rod 131 in position T3 before rotating the crown. As in most common timepieces, the time setting is arranged to drive the timer train 106 which in turn drives the minutes mobile 105 and the hours mobile 107. As with was already the case during the correction of the time zone, the mobile hours 107 causes the display mechanism of the month 125 and the annual cam 111 via the third kinematic chain 118. In addition, the mobile hours 107 also causes the date mechanism 123 and the Earth in its rotation about the first axis. It will thus be understood that the annual cam 111, the calendar 123125 and the sunrise and / or sunset indicator mechanism 115 are arranged to advance synchronously, also when they are manually driven forwards or backwards at using the control rod 131 in position T3.

Finally, the calendar mechanism of the timepiece of the present embodiment also includes a corrective mechanism of the month. When the wearer of the timepiece wishes to correct the indication of the month, for example following an indefinite downtime of the timepiece, it can shift step by step the indication of the month ahead or back by operating the pusher P1. As in the present example, the annual mobile means for displaying the month 125 also carries the annual cam 111, the latter advances synchronously with the indication of the date, even when the indication of the month is changed using the month corrector.

Fig. 3 2 appended is a block diagram quite similar to that of FIG. 1, but illustrating the kinematic connections associating different mechanisms of a timepiece according to a second exemplary embodiment of the invention. As will be seen, the second embodiment is very similar to the first and, in particular, the correction mechanisms arranged for actuated by the wearer of the timepiece are identical to those described in connection with the first embodiment. In fig. 2, there is shown a drive mechanism 203 associating a drive member, a regulating member and an exhaust, a motive minutes (referenced 205) which is integral with a minute display member and which is arranged to be driven at the rate of one revolution per hour by the drive mechanism, an hours mobile 207 rotatably connected to an hour display member, a timer wheel 206 connecting the mobile of the minutes to that of the hours so as to that the latter is driven at the rate of one turn every 12 hours, a time zone correction mechanism (referenced 201) interposed between the timer train 206 and the hours mobile 207, a tilt control mechanism ( referenced 209) which comprises an annual cam 211 and a cam follower (not shown), and finally a sunrise and / or sunset indicator mechanism (referenced 215) comprising a sphere 217 reproducing the g earth lobe and a hull 213, in the shape of a half-sphere, which is arranged concentrically to the sphere.

In the illustrated example, the mobile hours 207 drives the annual cam via a third kinematic chain 218 which may optionally be identical to the kinematic chain 118 described above in connection with the first mode of exemplary achievement.

In the second embodiment, as in the first, the relative movement of the half-sphere 213 and the sphere 217 is the result of the composition of distinct rotations along two perpendicular axes intersecting at the center of the sphere. However, according to the second embodiment, it is the semi-sphere-shaped shadow 213 which performs both rotations simultaneously, the sphere 217 being not driven. This mode of operation is made possible by the fact that the support (not shown) on which the shadow 213 is mounted is a rotary support. Referring always to FIG. 2, it can be understood that in the illustrated embodiment, the hours mobile 207 is connected to the rotary support (not shown) by a kinematic chain 220 (hereinafter "the second kinematic chain 220") which is provided with a declutching mechanism 233 which may be quite similar to the disengagement mechanism 133 described above in connection with the transition from daylight saving time to winter time. Apart from the disengaging mechanism 233, the arrangement of the indicator mechanism 215 and that of the second kinematic link 220 may, for example, be in accordance with what is described in one or the other of the documents EP 2 977 832 and EP These documents are incorporated by reference in the present description.

Referring again to FIG. 2, it can be seen that a referenced mechanism 216 is interposed between the inclination control mechanism 209 and the indicator mechanism 215. It can be seen that the mechanism 216 has an output connected to the indicator mechanism 215 and two inputs. A kinematic link 221 (called the fourth kinematic link 221) connects the hours mobile 207 to a first of the two inputs. The mechanism 216 is driven by the mobile hours through its first input, said drive input. It can also be seen that the cam follower (not shown) is connected to the second input by a kinematic link 212 (called first kinematic link 212) arranged to transmit the variations in the profile of the cam. The mechanism 216 is controlled by the profile of the cam 211 through its second input, called control input. Like the second kinematic link 220, the output of the mechanism 216 is arranged to drive the indicator mechanism 215 at the speed of one revolution in 24 hours. However, the mechanism 216 drives the indicator mechanism with a certain phase shift with respect to the second kinematic link 220. The mechanism 216 can be realized in multiple ways without departing from the scope of the present invention. It may for example be a differential mechanism, including a differential mechanism as described in patent document EP 2 977 832. It may also be a disengaging mechanism, including a mechanism for release as described in EP 3,007,012.

Referring again to FIG. 2, it can be seen that the illustrated timepiece also comprises a calendar mechanism constituted by the combination of the date display mechanism 223 and the display mechanism of the month 225. This calendar mechanism is of the "calendar" type. simple".

Referring now to FIGS. 3A and 3B, the summer / winter correction mechanism, which is generally designated by reference 101, will be described in greater detail. Recall that the mechanism 101 was already represented in FIG. 1, interposed between the clock train 106 and the mobile hours 107. On the other hand, the mechanism 201 shown in FIG. 2 may possibly be identical to the mechanism 101. The mechanism 101 comprises a first barrel 2, said inner barrel, intended to be mounted conventionally to rotate, about an axis of rotation X, on a roadway C driven by the drive mechanism 103 (shown in Fig. 1). The inner barrel 2 carries an indicator needle 4 forming an hour hand, which needle is driven externally on a free end of the barrel 2 projecting from the mechanism 101.

The inner barrel 2 thus forms a gun hours, and it supports a first externally toothed wheel 6, said lower wheel, having a board 7. It will be specified here that advantageously this lower wheel 6 forms a wheel hours, and it meshes with a wheel 8 (partially shown) of the time train 106. In normal operation, this hour wheel 6 receives a time information delivered by the wheel 8 of the timer, information that it transmits, as will be understood ci afterwards, indirectly to the inner barrel of the hours 2 and to the indicator needle 4. In fact, the lower wheel of the hours 6 is mounted freely in rotation on the barrel of the hours 2. For this, the gun of the hours 2 comprises at its end which is opposite its free end carrying the needle 4, a flange 10 forming a shoulder freely supporting a star 12 on which is fixedly held the wheel 6. The star 12 compo Rte a board 13, an external toothing 14 and a circular collar 16 formed edging adjacent to the toothing 14, behind and coaxially with it, under the board 13.

The hour wheel 6 is fixedly held on the star 12 flank against its toothing 14. In fact, the hour wheel 6 through the central portion of its board 7 which has a through bore, is engaged externally on the collar 16, by driving and / or riveting. The star 12 and the hour wheel 6 are therefore directly integral in rotation and, in this example, they form, thanks to their assembly, a single insert on the barrel hours 2. The star 12 and the hour wheel 6 can therefore move together concomitantly under the effect of the wheel 8 of the timer.

The summer / winter correction mechanism further comprises two drive rollers 20 which are stages and which each have a cylindrical base 22 from which normally extends a stud 24. The rollers are engaged both at rest, by their base 22, in the toothing 14 of the star 12 and they rest freely and laterally by this base against the side, not referenced, of the board 7 of the hour wheel 6. This rest position is even shown in plan view in FIG. 3B. The rollers 20 are furthermore maintained in this rest position in the toothing 14, resiliently by elastic return means 26 which are formed here by a closed annular spring, mounted coaxially with the star 12 and acting radially on the outer periphery of the bases 22 of the rollers 20. On

Claims (18)

note here that the spring 26 is mounted freely against the drive rollers 20, without any fixed attachment to the workpiece 101. The spring 26 rests more freely against, and more particularly on the board 7 of the hour wheel 2. Timepiece according to claim 1, characterized in that the timepiece comprises a second kinematic chain (120) connecting the motive hours (107) to the sphere (117) so as to cause the sphere to a rhythm of one revolution per 24 hours, and in that the watch movement comprises firstly a time-zone correction mechanism (101) manually operable and arranged to rotate the hours wheel (107; 2, 30, 32 ) step by step independently of the timer train (106; 8), and secondly, a disengagement mechanism (133) arranged to disengage the second drive train when the time zone correction mechanism (101) rotates the mobile hours to change from summer time to winter time, or vice versa. 3. Timepiece according to claim 2, characterized in that the watch movement comprises a first hour wheel (6) meshing with the timer (8; 106) and said timer hour wheel, and a second wheel of hours (32), said barreled wheel which is integral with said hour wheel (2,30, 32; 107), and in that the time zone correction mechanism (101) comprises a disengageable coupling device (12, 20, 36) arranged to rotate the first (6) and second (32) hour wheels in one or the other of a plurality of predefined relative angular positions, said angular positions being equidistant and spaced apart. one of the other at an angle corresponding to a distance traveled in one hour by the hour indicator member (4). 4. Timepiece according to any one of claims 1, 2 and 3, characterized in that the third kinematic chain (118) comprises a gear reducer with a ratio of 1/744 and comprising a reducing gear which comprises a pinion of 18 teeth and which is integral in rotation with the mobile hours (107), the pinion of the gear reducer meshing with a wheel of 36 teeth of a first mobile inter (119) arranged to complete a turn in 24 hours, the first mobile inter being provided with two fingers arranged to advance step-by-step, once every 24 hours, respectively a date star with 31 teeth, and a 40-tooth star of a second mobile inter, the second mobile inter comprising still a pinion of 10 teeth coaxially secured to the star of 40 teeth, the pinion of 10 teeth being arranged to mesh with a toothing of 93 teeth that has an annual mobile on which the annual cam (111) is mounted. 5. Timepiece according to any one of the preceding claims, characterized in that the watch movement comprises a time setting device (131, T3) manually operable and arranged to act on the mobile minutes (205). ) and the timer train (206), so that the hours motive (207), the hours indicating member, the means for displaying the date (223), the means for displaying the month (225), the cam annual (211) and the angular position of the sphere (217) are also affected. 6. Timepiece according to any one of the preceding claims, characterized in that the means for indicating the sunrise and sunset taking into account seasonal variations (115, 109) comprise a shell (113) arranged concentrically. to the sphere (117) reproducing the terrestrial globe, the hull being arranged to delimit a part of the terrestrial globe where it is night of another part where it is day, and in that the hull has the general shape of a half -sphere and has a rim of generally circular shape, the rim constituting the circle (113a) arranged to indicate the position of the terrestrial terminator. 6. The spring 26 is therefore self-supported and self-centered. The summer / winter correction mechanism further comprises a second barrel 30, said outer barrel, which comprises a guide bore 31 and which is fixed externally by this bore 31 on the first barrel 2. This second barrel 30 supports a second externally toothed wheel 32 disposed above the lower wheel hours 6 and said upper wheel. It will be specified here that the upper and lower positions of the wheels 6 and 32 are taken with reference to the drawing of FIG. 3A which represents the correction mechanism with the hour switch pointing upwards. The upper wheel 32 comprises a board 33 and meshes with its outer teeth with a wheel 34 itself driven by a corrector member manually operable from outside the timepiece. The upper wheel 34 thus forms a correction wheel summer / winter allowing, as will be understood, to directly correct the position of the gun hours 2 and the indicator needle 4, without acting on the timer and therefore without disturbing the other time information, such as the minute and the second, which are normally kinematically linked to the hours 2 canon via said timer. Advantageously, the outer barrel 30 is force-mounted by driving externally on the inner barrel hours 2 and is therefore fixed thereto. These two guns are thus integral in rotation and they can move together. It will be understood that the gun of the hours 2, the outer barrel 30 and the upper wheel 34 together form the mobile of the hours 107. The upper correction wheel 34 can thus act on the inner barrel of the hours 2 by means of the outer barrel 30 It will be noted that the clock of the hours 2 is furthermore driven in normal operation by the timer 106, and in particular by the wheel 8 of the timer. This is why in the plate 33 of the correction wheel 32 are formed radial grooves 36 in which are freely engaged pins 24 which can translate radially therein. The rollers 20 can therefore rotate the correction wheel 32, and the two guns 2 and 30, when the star 12 is itself driven by the hour wheel 6. [0038] For switching to another time zone , the user of the timepiece must rotate the correction wheel 34, the rollers 20 are then angularly displaced and (while the star 12 and the hour wheel 7 remain fixed) jump in the toothing 14 of the star 12 by ovalizing the spring 26. The rollers 20 then return in the toothing 14 of the star 12, in the rest position, but staggered with respect to the position of FIG. 2. Needle 4 then indicates another time zone. It will be specified that although the toothing of the star 12 has 12 teeth in the figures (to indicate the 12 hours), this toothing could include 24 for an application to a timepiece, type 24 h. It will further be understood that various modifications and / or improvements obvious to a person skilled in the art can be made to the embodiments which are the subject of the present description without departing from the scope of the present invention defined by the appended claims. 1. A timepiece comprising a watch movement, a calendar mechanism (123, 125) and means for indicating sunrise and sunset, taking into account seasonal variations (109, 115), the watch movement comprising a movable minute (105), a timer train (106), an hour indicator member, and a hours movable (107) integral in rotation with the hour indicator member and arranged to be driven by the minute hand ( 105) via the clock train (106) either at the speed of a touren 12 hours, or at the speed of a touren 24 hours, the calendar mechanism (123,125) being arranged to be driven via the mobile hours (107) and having means for displaying the date (123) and means for displaying the month (125), the means for indicating the sunrise and sunset (115, 109) including a sphere (117) reproducing the globe, a support and a circle (113a) mounted on the support concentrically to the sphere and arranged to indicate the position of the terrestrial terminator, the sphere (117) being arranged to be rotated at a rate of one revolution per 24 hours, around a first axis corresponding to the polar axis of the terrestrial globe, and the circle (113a) being mounted on the support so as to be pivotable relative to the sphere (117) along a second axis intersecting the first axis perpendicular to the center of the sphere, the means for indicating the sunrise and sunset further comprising an annual cam (111) having a profile representative of the inclination of the Sun relative to the equatorial plane and arranged to be rotated at a rate of a revolution per year, a cam follower arranged to cooperate with the cam, and a first kinematic chain (112) arranged to connect the cam follower to the circle (113a) so that that the plane subtended by the circle makes with the first axis an angle equal to the angle of inclination of the Sun with respect to the equatorial plane; characterized in that the calendar mechanism (123, 125) is a single date mechanism, in that the watch movement comprises a third kinematic chain (118) connecting the annual cam (111) to the hour motive (107) by the intermediate means for displaying the month (125), and in that either the third kinematic chain has a transmission ratio of 1 / 744th in the case where the mobile hours is arranged to be driven by the timer at the speed one revolution in 12 hours, the third kinematic chain has a transmission ratio of 1 / 372eme in the case where the mobile hours is arranged to be driven by the timer at the speed of one turn in 24 hours. 7. Timepiece according to claim 6, characterized in that the second axis is substantially collinear with a diameter of the circle (113a), and in that the shell (113) carries two pivots extending the two ends of the diameter, the two pivots being pivoted on the support. 8. Timepiece according to claim 7, characterized in that the flange constituting the circle (113a) has two notches arranged in diametrically opposite positions at mid-distance between the two pivots. 9. Timepiece comprising a watch movement, a calendar mechanism (223, 225) and means for indicating the sunrise and sunset of the sun taking account of seasonal variations (209, 215), the watch movement comprising a mobile minutes (205), a timer train (206), an hour indicator member, and a clock wheel (207) integral in rotation with the hour indicator member and arranged to be driven by the minute wheel (205). ) via the clock train (206) either at a speed of 12 hours, or at a speed of one revolution in 24 hours, the calendar mechanism (223, 225) being arranged to be driven through the hour motive (207) and having means for displaying the date (223) and means for displaying the month (225), the means for indicating the sunrise and sunset (215, 209) comprising a sphere ( 217) reproducing the globe, a support, and a circle (213a) mounted on the support concentrically to the sphere and arranged to indicate the position of the terrestrial terminator, the circle (213a) being arranged to be driven so as to rotate, at a rate of one turn per 24 hours, around a first axis corresponding to the polar axis of the terrestrial globe, and the circle (213a) being further mounted on the support so as to be able to pivot relative to the sphere (217) along a second axis intersecting the first axis perpendicular to the center of the sphere, the means for indicating the sunrise and sunset further comprising an annual cam (211) having a profile representative of the inclination of the Sun relative to the equatorial plane and arranged to be rotated at a rate of revolution per year, a cam follower arranged to cooperate with the cam, and a first kinematic chain (212) arranged to connect the cam follower to the circle (213a) so as to e that the plane subtended by the circle makes with the first axis an angle equal to the angle of inclination of the Sun with respect to the equatorial plane; characterized in that the calendar mechanism (223, 225) is a single date mechanism, in that the watch movement comprises a third kinematic chain (218) connecting the annual cam (211) to the hours motive (207) by the intermediate means for displaying the month (225), and in that either the third kinematic chain has a transmission ratio of 1 / 744th in the case where the hours mobile (207) is arranged to be driven by the timer (206) at the speed of one revolution in 12 hours, the third kinematic chain has a transmission ratio of 1 / 372eme in the case where the hours mobile (207) is arranged to be driven by the timer (206) at the speed of a turn in 24 hours. 10. Timepiece according to claim 9, characterized in that the timepiece comprises a second kinematic chain (220) connecting the motive hours (207) to the circle (213a) so as to drive the circle to the rhythm one revolution per 24 hours, and in that the watch movement comprises firstly a time zone correction mechanism (201) manually operable and arranged to rotate the hours mobile (207; 2, 30, 32). stepwise independently of the timer train (206; 8), and secondly, a disengaging mechanism (233) arranged to disengage the second drive train when the time zone correction mechanism (201) rotates the drive train. hours to change from summer time to winter time, or vice versa. 11. Timepiece according to claim 10, characterized in that the watch movement comprises a first hour wheel (6) meshing with the timer (8; 206) and said timer hour wheel, and a second wheel of hours (32), said barreled wheel which is secured to said hour wheel (2, 30, 32; 207), and in that the time zone correction mechanism (201) comprises a disengageable coupling device (12, 20, 36) arranged to rotate the first (6) and second (32) hour wheels in one or the other of a plurality of predefined relative angular positions, said angular positions being equidistant and spaced apart. one of the other at an angle corresponding to a distance traveled in one hour by the hour indicator member (4). 12. Timepiece according to any one of claims 9, 10 and 11, characterized in that the third kinematic chain (218) comprises a gear reducer with a ratio of 1/744 and comprising a reducing gear which comprises a pinion of 18 teeth and which is integral in rotation with the mobile hours (207), the pinion of the reduction gear meshing with a wheel of 36 teeth of a first mobile inter (219) arranged to accomplish a turn in 24 hours, the first mobile inter being provided with two fingers arranged to advance step-by-step, once every 24 hours, respectively a date star with 31 teeth, and a 40-tooth star of a second mobile inter, the second mobile inter comprising still a pinion of 10 teeth coaxially secured to the star of 40 teeth, the pinion of 10 teeth being arranged to mesh with a toothing of 93 teeth that has an annual mobile on which the annual cam (211) is mounted. 13. Timepiece according to any one of claims 9 to 12, characterized in that the watch movement comprises a time setting device (231, T3) manually operable and arranged to act on the mobile minutes (205) and the timer train (206), such that the hours motive (207), the hour indicator organ, the date display means (223), the month display means (225), the annual cam (211) and the angular position of the circle (213a) about the first axis are also affected. Timepiece according to any one of Claims 9 to 13, characterized in that the support on which the circle (213a) is mounted is rotatable, and in that the second kinematic chain (220) comprises a gear train. connecting the mobile hours (207) to the rotating support. Timepiece according to any one of claims 9 to 14, characterized in that the seasonal sunrise and sunset indicator means (215, 209) comprise a hull (213). arranged concentrically with the sphere (217) reproducing the terrestrial globe, the hull being arranged to delimit a part of the terrestrial globe where it is night from another part where it is day, and in that the hull has the general shape of a half-sphere and has a rim of generally circular shape, the flange constituting the circle (213a) arranged to indicate the position of the terrestrial terminator. 16. Timepiece according to claim 15, characterized in that the second axis is substantially collinear with a diameter of the circle (213a), and in that the shell (213) carries two pivots extending the two ends of the diameter, the two pivots being pivoted on the support. 17. Timepiece according to claim 16, characterized in that the flange constituting the circle (213a) has two notches arranged in diametrically opposite positions at mid-distance between the two pivots. 18. Timepiece according to any one of the preceding claims, characterized in that the timepiece is a watch.