Classifications

• • G—PHYSICS
  • G04—HOROLOGY
  • G04B—MECHANICALLY-DRIVEN CLOCKS OR WATCHES; MECHANICAL PARTS OF CLOCKS OR WATCHES IN GENERAL; TIME PIECES USING THE POSITION OF THE SUN, MOON OR STARS
  • G04B19/00—Indicating the time by visual means
  • G04B19/26—Clocks or watches with indicators for tides, for the phases of the moon, or the like
  • G04B19/268—Clocks or watches with indicators for tides, for the phases of the moon, or the like with indicators for the phases of the moon

Definitions

• the present invention relates to a horological device for displaying the moon phases in particular, but not exclusively, on the dial of a wristwatch, a pocket watch, a display on the back of the watch , or any other display.
• the shape of the moon displayed by these devices is correct only during the full moon and in the phases close to the new moon, when the star has the shape of a crescent.
• These displays are unable to reproduce the true image of the moon in the quarters, when the dividing line between the light area and the dark area is straight, and between the first and last quarters, when the moon is hunchbacked.
• US5650736 discloses a display with two rotating display members superimposed behind a window, one with light and dark areas, the other with light, dark and transparent areas. This display is relatively bulky.
• An object of the present invention is to provide a moon phase display device free from the limitations of known solutions, which is both realistic and of a reduced space requirement.
• the display mechanism could perform a complete cycle in a lunation of 29.53125 days, 29.5 days, 30 days, or another duration close to the exact value sought.
• a moon phase display device for a timepiece comprising a first display member carrying a plurality of first images at least partially representing the moon, a display area and drive means arranged so as to move by successive jumps, the first display member with reference to the display area in order to display a succession of representations of the moon, the device having this in particular that the durations of display of the first images are not all equal.
• the device makes it possible to obtain high precision in the display of the most recognizable moon phases such as the full moon, the half moon or the new moon, while the intermediate phases, less singular, remain visible for a longer duration. This allows for a more realistic display while using a reduced number of images.
• the invention makes it possible to increase the size of the images without increasing the size of the display disc or altering the realism of the display.
• variable jumps for each image also allows greater freedom to design a mechanism whose duration of lunation of the display which is close to the actual duration of lunation and thus reduce or even eliminate, the need to adjust the display.
• the invention provides a device
• a second display member carrying second images and capable of being moved with reference to the display zone by the drive means for successively displaying the second images in the display zone where a second image forms, in combination with a first image of the first display member, a representation of the moon phase.
• the representation of a moon phase by the combination of two images makes it possible to increase the number of
• program wheels for actuating the first member or the second display member at predetermined times of the moonlight, the program wheels being connectable to a clockwork movement for turning with a period in relation to the duration of the lunation, for example one complete revolution or two complete revolutions per lunation (if we use the symmetry between the increasing phase and the decreasing phase of the moon).
• the program wheels have a profile configured to move the first display member and / or the second display member when said determined instants of the lunation pass.
• the program wheels are superimposed axially, rotate together, and each have an intermittent toothing attacking two driving wheels integral with the first, respectively second display disc.
• the driving wheels can be held in a stable position each by a jumper.
• the rotation by instantaneous jumps or dragging of the program wheels can be obtained by a rocker cooperating with a star secured to said program wheels.
• the star is preferably maintained in a stable position by a jumper.
• there is a daily shift in the jump time so to avoid observing a transition phase of the display when it is observed, a instant jump allows you to observe a realistic representation of the moon phase at all times.
• Figures 1 and 2 illustrate an embodiment of the device of the invention seen from the dial side.
• FIGs 3 and 4 show the opposite side of the device of Figures 1 and 2. In Figure 4 the display discs have been removed.
• Figures 5a to 5g illustrate the different phases of a transition between two images of the moon.
• Figure e illustrates the succession of images of the moon from one new moon to the next.
• the display device of the invention comprises two discs 80, 90 each carrying a series of partial representations of the moon, as it appears at determined times of the lunation.
• the first disc 80 in the form of a crown, encircles the disc 90 which is concentric with it and lies essentially in the same plane.
• the first disc can also be the inner disc.
• each of the two indicator discs 89, 90 carries a series of images of the same part of the moon. Two juxtaposed partial images can give a realistic representation of the moon at predetermined phases of the moon. Thus the representations of the moon phase are combined by the juxtaposition of first and second complementary images occupying fixed and complementary portions of the lunar disc.
• the discs of the example shown each carry six partial images, and are actuated by a drive device which will be described below to give rise to ten different representations of the moon, each corresponding to a phase of the monthly cycle of the lunation.
• Each image of the moon is obtained by the composition of two partial images, a first image of the first disc 80, and a second image of the second disc 90, which are at the same time juxtaposed under a window not shown, or another revealer, for example in the case of a skeleton watch.
• Disc 80 could just as easily carry 6 separate images which would give rise to 12 different representations of the moon.
• the succession of images in a particular order is ensured by drive means 22, 23, 25, 40, 41, 43, 63, 71, 72, 61, 62 arranged so as to move by successive jumps, the first and second display members 80, 90 with reference to the display area in order to display a succession of representations of the moon.
• the wheel 23 is driven by the wheel 24 which makes a complete revolution in one day, through the mobile 22, and its period of rotation is 23,625 hours.
• the wheel 23 carries a finger 25 which acts on the pin 41 to advance the discs 80 and 90.
• the finger 25 is preferably retractable to avoid unexpected corrections when setting the time back.
• the assembly consisting of wheels 22 and 23 and of finger 25 constitutes an actuator capable of delivering a periodic pulse by being kinematically connected to the movement of the timepiece, in this case to the twenty-four hour wheel 24.
• the display period is a multiple of the period
• the display mechanism of the invention has the advantage of making the pulse period independent of the number of images to be displayed, while leaving the freedom to individually choose the duration of display of each image. This offers great freedom to design a mechanism whose display period is as close as possible to the actual duration of the lunation.
• a combination of 30 pulses and a pulse period of 23.625 hours has been chosen which is obtained from the 24h wheel. This corresponds to a duration of the display cycle of 29d 12h and 45min, very close to the actual duration of the lunation.
• the accuracy of such a display is 1 day / 125 years which makes it possible to qualify it as an astronomical moon. Note that you can display the number of moon phases you want up to 30, with such a drive mechanism.
• Figures 3 and 4 show the advancement mechanism of the discs 80 and 90 which first comprises a rocker 40 which is actuated thirty times by lunation by the wheel 23.
• the rocker is held in the rest position by the spring 42 and carries at one end a retractable pawl 43 which with each reciprocating action advances the star 63 one notch.
• the pawl 43 is traced so as to avoid any double jump of the star 63.
• the jumper 65 also contributes to stabilizing the star 63 when the lever 40 is raised and prevents the rotation of the star in the opposite direction.
• the correction lever 48 is held in the rest position by the spring 49. Its function is to manually actuate the moon lever 40 independently of the position of the wheel 23, when a
• coaches 71 and 72 which, in turn, are integral with the first indicator disc 80, respectively with the second indicator disc 90.
• the corresponding indicator disc rotates by 60 °, which corresponds to the passage between an image and the next one.
• the jumpers 76 and 77 provide stability and indexing of the indicator discs and the profile of the intermittent teeth of the program wheels is arranged to block the accidental rotation of the driving wheels and prevent any
• the assembly formed by the lever 40, the pawl 43, the star 63, the program wheels 61,62 and the driving wheels 71, 72 constitutes a first and a second selector, which are capable of moving the first and the second display member with reference to the display area according to a predetermined sequence.
• the function of a selector is to move a display member to pass from one image to the next, in response to n pulses of the actuator, n being an integer proportional to the duration of display of the image considered. .
• the display time is not the same for all images, in other words, the number n varies.
• the teeth of the wheels 61 and 62 can be positioned so as to display the full moon and the new moon for a single period delimited by two successive movements of the lever 40, that is to say 23,625 hours, while that the phases of the increasing and decreasing moon remain visible for three or four periods. This makes it possible to mark the full moon and the new moon exactly in order to make the display more realistic and to facilitate adjustment.
• the invention also relates to a display device which would have only one display member and whose display durations of each image would not be all equal.
• Figures 5a to 5g break down a back-and-forth action of the moon rocker 40.
• Figure 5a is shown the instant of the first contact between the finger 25 and the pin 41.
• the rocker is in position of rest, the pawl positioned between two teeth of the star 63.
• Figures 5b to 5d show three successive phases of the lifting of the moon rocker.
• the pawl 43 pivots counterclockwise and slides on the flank of a tooth without the wheel 63 moving, because it is held by the jumper 65 which blocks rotation in a counterclockwise direction .
• Figure 5d shows the instant of release between the finger 25 and the pin 41.
• the moon rocker 40 is lifted and the spring 42 armed to the maximum.
• the next instant (FIG. 5e) the rocker 40 quickly returns to its rest position under the action of the spring 42 by driving the star 63 in rotation by means of the pawl 43 (FIGS. 5f and 5g).
• the passage from one image to another is instantaneous, which is preferable, because we avoid indications "decomposed” difficult to read, especially since the transitions are carried out without relation to the time it is.
• FIG. E illustrates the images of the moon which can be obtained by juxtaposing partial images 81-86 and 91-96 of the two indicator discs (also visible in FIG. 1).
• the images appearing through the window are drawn in solid, solid lines, those hidden by the dial in dashed and hatched lines.
• a lunation cycle begins with the new moon "ni", top left, and the two partial images 94 and 84 are visible.
• the juxtaposed images give an image of the black moon.
• the external disk performs a jump and shows the successive image 83.
• the two images under the window are composed to show the moon at its first crescent "c1".
• the program wheels are designed to advance, at defined times, once again the external disc to show the partial image 82, then the internal and external discs, to give the image composed of 81 and 93, then once again the internal disk to display the partial image 92. As can be seen in the figure, this gives three images of the progressively increasing moon "c2", “c3”, “c4".
• the image 'pl' is that of the full moon, which is displayed when the internal disk 90 rotates to show the partial image 91.
• the images 'd 1', 'd2', 'd3' , 'd4' show the moon in four aspects
• the sequence of actuations of the disks 80 and 90 is repeated identically twice in a lunation, thanks to the symmetry between the increasing and decreasing phases of the moon.
• the star 63 has fifteen teeth and drives the program wheels due to two turns per month.
• the program wheels perform one revolution per month or several revolutions per month.
• the disc 80 and the disc 90 move by successive jumps, under the action of the drive means comprising the reference 22, wheel 23, finger 25, rocker 40, lug 41, pawl 43, star 63, driving wheels 71 and 72, and program wheels 61, 62, so as to show, in the display area defined by the window,

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• Physics & Mathematics (AREA)
• Astronomy & Astrophysics (AREA)
• General Physics & Mathematics (AREA)
• Electromechanical Clocks (AREA)
• Control Of Indicators Other Than Cathode Ray Tubes (AREA)

Applications Claiming Priority (2)

Publications (1)

Family

ID=62750721

Family Applications (1)

Country Status (6)

Families Citing this family (1)

Family Cites Families (13)

• 2018
  • 2018-06-18 CH CH00767/18A patent/CH715105A1/fr unknown
• 2019
  • 2019-06-18 EP EP19762459.6A patent/EP3807723A1/de active Pending
  • 2019-06-18 CN CN201980036463.4A patent/CN112204475B/zh active Active
  • 2019-06-18 US US17/059,037 patent/US12007719B2/en active Active
  • 2019-06-18 WO PCT/IB2019/055102 patent/WO2019244032A1/fr unknown
  • 2019-06-18 JP JP2020561638A patent/JP7224369B2/ja active Active

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