Patent Application
20240302798
The present invention relates to a mechanical movement comprising an information display device, such as information linked to the time, for example the hour, comprising at least one indicator member for said information, mounted pivoting about a pivot axis A.
The present invention also relates to a timepiece comprising such a mechanical movement.
Devices for displaying information such as information linked to the time, for example the hour and, more particularly, the current hour, can be conventionally of the analog display type. These display devices having a traditional hand-fitting use a hand to display the hours and a hand to display the minutes, these two hands moving, by pivoting about the same axis, with respect to a dial bearing graduations for the hours and the minutes with which they cooperate in order to display the time. A second hand can complete the display. Substantially at one of their ends, the hour hand and the minute hand are pierced by a hole, which makes it possible to fix the hour hand and the minute hand on the pipe of the hour wheel and the cannon-pinion respectively, positioned under the dial. The hour and minute hands are therefore driven in rotation by the hour wheel and by the cannon-pinion respectively via a hand portion which passes through the axis of rotation common to both hands. The distal end of each hand constitutes the indicator part intended to cooperate with the graduations of the dial.
However, the disadvantage of this well-known display device is that it occupies a significant volume, in particular in the direction of the thickness of the movement, due to the stacking of the various components and the necessary number of stages. For this reason, the volume available inside the case in which the movement is positioned must be large enough to accommodate, in addition to the movement, a dial placed above the movement and the hands positioned above the dial. This display device having a traditional hand-fitting cannot therefore be used in an ultra-thin mechanical timepiece.
Ultra-thin display solutions have been proposed, for example, in patent CH 691786, using a display device comprising a central disk for displaying the hours and an outer ring for displaying the minutes, concentric with the hour disk. The disk and the ring carry indexes which move in rotation with respect to a dial carrying graduations, at appropriate speeds, in order to display the time. However, in this device, the minute index necessarily appears as though it is cut in the center, seeming to be hidden by the central disk. It is therefore not possible to use a traditional hand-fitting type display, with the two hour and minute hands appearing pivoted on the same axis in the center of the display.
Another solution involving an ultra-thin device for displaying the current time has been described in patent CH 712411. In this device, it is provided that the hour wheel carries an indication intended to cooperate with a first fixed indication in order to indicate the hours, and that the minute wheel, having an axis of rotation different to that of the hour wheel, carries an indication intended to cooperate with a second fixed indication in order to indicate the minutes, the first and second fixed indications being carried by the frame of the watch-movement. Thanks to these characteristics, the minute and hour wheels directly play the role of display members for the minutes, respectively, for the hours, while the corresponding graduations are carried directly by the frame of the watch-movement, for example by the plate. Thus, this display device makes it possible to reduce both the number of components required and the bulk of the display device with reference to known display devices. However, here again, it does not allow a display of the traditional hand-fitting type, with the two hour and minute hands pivoted on the same axis in the center of the display.
A solution described in patent FR 2 461 292 has been proposed to produce an extra-thin electronic watch. It is proposed that an hour disk and a minute disk be positioned in the bottom of the watch, which is used as a plate, these disks being solid transparent disks on which are provided guide-marks which act as an hour hand and a minute hand. The thick elements of the watch, such as the motor, the quartz and the battery, are located outside the field of the display disks, in housings made between the bottom and the watch case middle-bezel so as to obtain an extra-thin watch. However, the arrangement of the various members of a mechanical watch is more complex than that of an electronic watch. In addition, the use of solid disks has certain drawbacks, in particular a certain inertia. Since the mass of the solid disks is significant, a large amount of energy is necessary to set them in motion. This can cause difficulties in guaranteeing that the very small gap between the solid disks is maintained when the watch experiences, for example, unexpected shocks. Furthermore, there is another disadvantage to using solid disks made of transparent material, namely of creating a parallax problem which occurs when viewed obliquely with respect to the display device. Indeed, the stacking of one or more transparent disks with the glass accentuates the parallax effect, which can thus distort the accuracy of the reading.
The present invention aims to remedy at least some of these drawbacks by proposing a device for displaying information which makes it possible to produce an ultra-thin mechanical watch-movement.
In particular, the invention proposes a device for displaying several pieces of information arranged to indicate the time in the manner of a traditional hand-fitting while being able to be used in an ultra-thin mechanical watch-movement.
To this end, the invention relates to a mechanical movement comprising an indication display device comprising at least one indicator member for said information, mounted pivoting about a pivot axis A, said movement enclosing a cavity receiving at least said first indicator member, said cavity being arranged so that said indicator member is housed entirely inside the movement, said movement comprising at least one mobile arranged pivoting coaxially with the pivot axis A and comprising an outer peripheral toothing, said mobile being housed in the cavity and arranged to carry said indicator member.
According to the invention, said mobile comprises a felloe including said outer peripheral toothing and defining an inner opening, said felloe carrying an arm passing radially through said inner opening in order to be mounted pivoting on said pivot axis A, the indicator member being represented on said arm.
Such a construction makes it possible to advantageously eliminate the conventional drive via the pipe of an associated drive wheel which passes through the pivot axis, and which represents a significant bulk. It advantageously makes possible a gain in height, making it possible to reduce the bulk of the display device.
Thus, the indicator member is entirely integrated inside the mechanical movement, and does not exit the volume occupied by said movement as such and, more particularly, in the direction of the thickness of the movement. With such a movement, it is therefore possible to produce an ultra-thin mechanical timepiece, the available interior volume of the case being barely larger than the volume occupied by the movement integrating the display device.
Moreover, the mobile carrying the indicator member used in the present invention makes it possible to have a perforated mobile which does not require significant energy to be set in motion. It does not cause parallax problems either, even when several mobiles of the same type are superimposed.
Advantageously, the display device can comprise at least one first indicator member for a first piece of information and a second indicator member for a second piece of information mounted pivoting about the pivot axis A and disposed in said cavity, said second indicator member being superimposed on said first indicator member, said cavity being arranged so that said first indicator member and said second indicator member are housed entirely inside the movement, and the movement comprises a first mobile arranged pivoting coaxially with the pivot axis A and comprising a first outer peripheral toothing, said first mobile being housed in the cavity and arranged to carry said first indicator member and a second mobile housed in the cavity, arranged pivoting coaxially with the pivot axis A, and comprising a second felloe including a second outer peripheral toothing and defining a second inner opening, through which the first indicator member can appear, said second felloe carrying a second arm passing radially through said second opening in order to be mounted pivoting on said pivot axis A, the second indicator member being represented on said second arm.
According to a first embodiment, said first mobile is a solid wheel comprising said first outer peripheral toothing, and on which the first indicator member is represented.
According to another embodiment, said first mobile comprises a first felloe including said first outer peripheral toothing and defining a first inner opening, said first felloe carrying a first arm passing radially through said first opening in order to be mounted pivoting on said pivot axis A, the first indicator member being represented on said first arm.
Advantageously, the display device can comprise at least one third indicator member for a third piece of information disposed in the cavity, superimposed on said second indicator member, said third indicator member being mounted pivoting about the pivot axis A, said cavity being arranged so that said third indicator member is housed entirely inside the movement with the first and second indicator members, and the movement comprises a third mobile housed in the cavity, arranged pivoting coaxially with the pivot axis A and comprising a third felloe including a third outer peripheral toothing and defining a third inner opening, through which the first and second indicator members can appear, said third felloe carrying a third arm passing radially through said third opening in order to be mounted pivoting on said pivot axis A, the third indicator member being represented on said third arm.
These embodiments are particularly suitable for displaying the time for example, the first indicator member displaying the hours, the second indicator member, superimposed on said first indicator member, displaying the minutes, any third indicator member, superimposed on said first and second indicator members, displaying the seconds, being mounted pivoting about said pivot axis A, and the cavity is arranged so that said second indicator member and any third indicator member are housed entirely inside the movement, with the first indicator member.
Thus, a device is obtained for displaying the current time of the traditional hand-fitting type, entirely integrated into the movement, which makes it possible to produce an ultra-thin timepiece.
The present invention also relates to a timepiece comprising a mechanical movement as defined below.
Other characteristics and advantages of the present invention will appear on reading the following detailed description of various embodiments of the invention, which are provided by way of non-limiting examples, with reference to the appended drawings in which:
The present invention relates to a mechanical watch-movement comprising a device for displaying information, in particular information linked to the time, such as the seconds, the minutes or the hours, these different pieces of information being able to be used individually or by combining at least the hours and the minutes in order to indicate the current time. According to the definition provided by the Professional Illustrated Dictionary of Watchmaking by G.-A. Berner, a watch-movement is the mechanical part of a timepiece comprising all of the members and the mechanisms which serve to determine the time (the main ones being the motor, the finishing geartrain, the escapement and the regulating organ), carried by a frame. The movement is intended to be disposed in a case, called a watch case, with the display device, to constitute the timepiece. In the present description, it is considered that the movement 1 occupies a volume which is represented symbolically in
Traditionally, and with reference to
Each indicator member 4, 6 is mounted pivoting about the same pivot axis A passing through the center of the display device 2. Each indicator member 4, 6 is represented by a hand having, at one end, a hole 7, through which the pivot axis A passes and, at the other end, a tip directed towards the outside of the movement 1. Thus, the indicator members 4, 6 appear as a set of hands disposed in the center of the display device 2 in order to indicate the current time, in the traditional way.
The movement 1 encloses a cavity 8 which, here, receives the first and second indicator members 4, 6, said cavity being arranged so that said first and second indicator members 4, 6 are housed entirely inside the movement 1. More particularly, the cavity 8 has in particular a depth, that is to say in the direction of the thickness of the movement 1, which is selected so that the first and second indicator members 4, 6 remain inside the volume occupied by the movement 1, whatever their display position.
Said cavity 8 is at least open on the side of the movement on which the display device 2 must be visible to the user. The bottom of the cavity 8 can be closed. In this case, the cavity 8 can be constituted by a recess provided in the plate of the movement, for example. In another variant, the cavity 8 can be passed through, which can allow the movement to appear under the display device, as in the embodiment represented in
The movement 1 can be closed by an open plate at the level of the cavity 8, so as to only leave the indicator members 4, 6 of the display device 2 visible. Fixed time indications can be provided on this plate, in order to cooperate with the indicator members 4, 6, in order to display the hours and the minutes like a dial. In the case of a skeleton watch, the movement is left open.
In order to be able to housed fully inside the movement 1, the display device 2 must have a reduced thickness.
To this end, at least one of the first and second indicator members, and preferably the first and second indicator members 4 and 6, are advantageously arranged to be driven in rotation about the pivot axis A through an outer peripheral zone which does not pass through said pivot axis A. The fact that the indicator members 4, 6 are driven from the outside advantageously makes it possible to eliminate the different stages imposed by the traditional construction of the pipes of the hour wheel and of the cannon-pinion, and to thus reduce the overall thickness.
The movement 1 preferably comprises at least one first lower mobile 10 arranged pivoting coaxially with the pivot axis A and comprising a first outer peripheral toothing 12, said first mobile 10 being housed in the cavity 8 and arranged to carry the first indicator member 4. The movement 1 also comprises a second upper mobile 14 arranged pivoting coaxially with the pivot axis A and comprising a second outer peripheral toothing 16, said second mobile 14 being housed in the cavity 8 and arranged to carry the second indicator member 6.
In the embodiment represented in
The first felloe 10a carries a first arm 10b passing radially through the first opening 18 in the direction of the pivot axis A, and having at its end the hole 7 which makes it possible for said arm 10b to be mounted pivoting on the pivot axis A.
The arm 10b is preferably in one piece with the felloe 10a and in the same plane as said felloe 10a so as to limit the thickness of the first mobile 10.
The first indicator member 4 is represented on the first arm 10b, for example by representing on the arm 10b, at the distal end of the arm 10b, opposite the hole 7, a tip directed towards the outside of the movement 1 to constitute the tip of a hand, the proximal part of the arm 10b constituting the body of the hand, so as to symbolize the hour hand. Advantageously, the first indicator member 4 represented on the first mobile 10 has been obtained by engraving or by transfer on the arm 10b such that the first indicator member 4 is coincident with said arm 10b, so as to have a reduced thickness.
Similarly, the second mobile 14 comprises a second felloe 14a including the second outer peripheral toothing 16 and defining a second inner opening 20 centered about the pivot axis A, through which the first indicator member 4 can appear when it is staggered with respect to the second indicator member 6, as well as the movement, the cavity 8 being passed through. The first and second openings 18, 20 are substantially of the same dimensions.
The second felloe 14a carries a second arm 14b passing radially through said second opening 20 in the direction of the pivot axis A, and having at its end the hole 7, which makes it possible for said arm 14b to be mounted pivoting on said pivot axis A.
The arm 14b is preferably in one piece with the felloe 14a and in the same plane as said felloe 14a so as to limit the thickness of the second mobile 14.
The fact that the mobiles 10 and 14 are perforated means that they are light and do not require a significant amount of energy to be set in motion. Nor do they lead to parallax problems linked to the use of a transparent material, even when several mobiles of the same type are superimposed.
The second indicator member 6 is represented on the second arm 14b, for example by representing on said arm 14b, at the distal end of the arm 14b, opposite the hole 7, a tip directed towards the outside of the movement 1 to constitute the tip of a hand, the proximal part of the arm 14b constituting the body of the hand, so as to symbolize the minute hand. Advantageously, the second indicator member 6 represented on the second mobile 14 has been obtained by engraving or by transfer on the arm 14b, such that the second indicator member 6 coincides with said arm 14b so as to have a reduced thickness.
The second mobile 14 is superimposed on the first mobile 10 so as to leave between them, and more particularly between the felloes 10a, 14a, on the one hand, and between the arms 10b, 14b, on the other hand, the required adequate play to allow them to rotate freely.
Furthermore, the movement 1 comprises a drive mechanism for the first and second mobiles 10, 14 arranged to cooperate with the first and second outer peripheral toothing 12, 16 of said first and second mobiles 10, 14 respectively.
Such a drive mechanism comprises, in particular, geartrains arranged to kinematically connect the outer peripheral toothing 12, 16 to the finishing geartrain in order to drive the first and second mobiles 10, 14 at the appropriate angular speeds for the corresponding indicator member 4, 6 from the outside, the first and second mobiles 10, 14 being moreover guided in the center.
The cavity 8 has a determined depth so that the first and second superimposed indicator members 4, 6 and their respective superimposed mobiles 10, 14 are housed entirely inside the movement 1, whatever their display position.
Another embodiment is represented in
The indicator member 4 is mounted pivoting about the pivot axis A, passing through the center of the display device 2′″. As described above, the indicator member 4 is represented by a hand having, at one end, a hole 7 through which the pivot axis A passes and, at the other end, a tip directed towards the outside of the movement 1′″. Said movement 1′″ encloses the cavity 8 receiving said indicator member 4, said cavity 8 being arranged so that said indicator member 4 is housed entirely inside the movement 1′″.
The movement 1′″ comprises a mobile 10 arranged pivoting coaxially with the pivot axis A and comprising an outer peripheral toothing 12, said mobile 10 being housed in the cavity 8 and arranged to carry said indicator member 4.
In accordance with the invention, the mobile 10 comprises a felloe 10a including said outer peripheral toothing 12 and defining an inner opening 18, said felloe 10a carrying an arm 10b passing radially through said inner opening 18 in order to be mounted pivoting on said pivot axis A, the indicator member 4 being represented on said arm 10b. Advantageously, the indicator member 4 represented on the mobile 10 has been obtained by engraving or by transfer on the arm 10b, such that the indicator member 4 coincides with said arm 10b, so as to have a reduced thickness.
Such a perforated mobile 10 is light and does not require a significant amount of energy to be set in motion. It does not cause parallax problems linked to the use of a transparent material either.
As described above, a drive mechanism is provided for the mobile 10 arranged to cooperate with the outer peripheral toothing 12 of said mobile 10 in order to drive the mobile 10 at an appropriate angular speed for the indicator member 4 from the outside, the mobile 10 being moreover guided in the center.
Another embodiment is represented in
The third indicator member 30 for displaying the seconds, here, is superimposed on the second indicator member for the minutes 6, here, that is to say placed in front of the second indicator member 6 for a user who is looking at the movement 1′. All the indicator members 4′, 6 and 30 are mounted pivoting about the same pivot axis A passing through the center of the display device 2′. Each indicator member 4′, 6 and 30 is represented by a hand having, at one end, a hole 7′, 7 through which the pivot axis A passes and, at the other end, a tip directed towards the outside of the movement 1′. Thus, the indicator members 4′, 6 and 30 appear as a set of hands disposed in the center of the display device 2′ in order to indicate the current time and the second, in the traditional way.
In this embodiment, the first lower mobile 10′ is a solid wheel comprising the first outer peripheral toothing 12 and pierced in its center by the hole 7′ through which the pivot axis A passes. Thus, the solid wheel of the first mobile 10′ constitutes a dial bottom for the display device 2′. The cavity 8 can be closed by the bottom or open out, the bottom of the display device 2′ being constituted by the solid wheel of the first mobile 10′.
As shown more specifically in
The second indicator member 6 for minutes is identical to that of the first embodiment, with its mobile 14, here in the intermediate position, comprising the felloe 14a and the arm 14b, and the outer peripherical toothing 16. The solid wheel of the first mobile 10′ with the first indicator member 4′ appears through the inner opening 20.
The part of the arm 14b, between its junction with the felloe 14a and the tip of the second indicator member 6, can be thinned in order to better highlight said indicator member 6, as shown in
The third indicator member 30 is disposed in the cavity 8, superimposed on the second indicator member 6, mounted pivoting about the pivot axis A. The cavity 8 is arranged so that said third indicator member 30 is housed entirely inside the movement 1′ with the first and second indicator members 4′, 6, as shown in
The third indicator member 30 is arranged to be driven in rotation about the pivot axis A through a peripheral zone which does not pass through said pivot axis A.
To this end, the movement 1′ comprises a third upper mobile 32 arranged to pivot coaxially with the pivot axis A and comprising a third outer peripheral toothing 34, said third mobile 32 being housed in the cavity 8 and arranged to carry the third indicator member 30.
The third mobile 32 comprises a third felloe 32a comprising the third outer peripheral toothing 34 and defining a third inner opening 36 centered about the pivot axis A, and through which the first and second indicator members 4′, 6 can appear when they are staggered with respect to the third indicator member 30, as well as the solid wheel of the first mobile 10′. The second and third openings 20, 36 are substantially of the same dimensions.
The third felloe 32a carries a third arm 32b passing radially through the third opening 36 in the direction of the pivot axis A, and having at its end the hole 7 which makes it possible for said arm 32b to be mounted pivoting on said pivot axis A.
The arm 32b is preferably in one piece with the felloe 32a and in the same plane as said felloe 32a so as to limit the thickness of third mobile 32.
The third indicator member 30 is represented on the third arm 32b, for example by representing on said arm 32b, at the distal end of the arm 32b, opposite the hole 7, a tip directed towards the outside of the movement 1′ to constitute the tip of a hand, the proximal part of the arm 32b constituting the body of the hand, so as to symbolize the second hand. Advantageously, the third indicator member 30 represented on the third mobile 32 has been obtained by engraving or by transfer on the arm 32b, such that the third indicator member 30 is coincident with said arm 32b, so as to have a reduced thickness.
The third mobile 32 is superimposed on the second mobile 14 so as to leave between them, and more particularly between the felloes 14a, 32a, on the one hand, and between the arms 14b, 32b, on the other hand, the required adequate play to allow them to rotate freely. Similarly, the second mobile 14 is superimposed on the first mobile 10′ so as to leave between them, and more particularly between the felloe 14a with the arm 14b and the solid wheel, the required adequate play to allow them to rotate freely.
Furthermore, the movement 1′ comprises a drive mechanism for the third mobile 32 arranged to cooperate with the third outer peripheral toothing 34 of the third mobile 32.
Such a drive mechanism comprises in particular a geartrain arranged to kinematically connect the outer peripheral toothing 34 to the finishing geartrain in order to drive the third mobile 32 at the appropriate angular speed for the indicator member 30 from the outside, the third mobile 32 being moreover guided in the center.
The cavity 8 has a determined depth so that the first, second and third superimposed indicator members 4′, 6 and 30 and their superimposed respective mobiles 10′, 14, 32 are housed entirely inside the movement 1′, whatever their display position.
It is obvious that according to a variant which is not represented of the second embodiment, the first hour indicator member can be carried by the same first mobile as that of the first embodiment, having a felloe, an arm on which said first hour indicator member is represented, and an inner opening through which the movement appears.
The movement of the invention makes it possible, for example, to produce a device for displaying the current time of the ultra-thin traditional hand-fitting type, thanks to the elimination of the different stages imposed by the traditional construction of the pipes of the hour wheel and of the cannon-pinion, the various mobiles carrying the indicator members being driven from the outside while being guided in the center, and the use of at least one or two upper mobiles constituted by open ultra-thin discs in hand form, revealing the lower mobile carrying the first hour indicator member. The use of these two or three ultra-thin mobiles makes it possible to further reduce the thickness of the display device, in order to be able to integrate it entirely into a movement to form an ultra-thin timepiece with a traditional hand-fitting. In addition, the fact that the mobiles used are advantageously perforated means they are light and do not require a significant amount of energy to be set in motion. They do not cause parallax problems linked to the use of a transparent material either, even when several mobiles of the same type are superimposed.
It is obvious that the movement of the invention can comprise other indicator members which are not housed entirely inside said movement.
| Number | Date | Country | Kind |
|---|---|---|---|
| 01612/20 | Dec 2020 | CH | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/EP2021/083680 | 12/1/2021 | WO |
