• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a timepiece movement (1) comprising: at least one driving member (3); four regulating systems (11), each being in kinematic connection with said motor member (3) via a motor kinematic network (5, 7, 9) arranged to transmit energy from the motor member (3) to said regulating systems (11); wherein said motor kinematic network (5, 7, 9) comprises: a first differential gear (5) having an input (5e) in kinematic connection with the motor member (3) and having two outputs (5s); a second and a third differential gear (7, 9) each having an input (7th, 9th) in kinematic connection with a respective output (5s) of the first differential gear (5) and each having two outputs (7s, 9s), each these latter outputs (7s, 9s) being in kinematic connection with a respective regulating system (11); said movement (1) further comprising an hour and minute display device (6) arranged to be driven by the first differential gear (5). The movement (1) comprises at least one seconds display device (12) located in a branch of said motor kinematic network and arranged to take force on the latter, said seconds display device (12) comprising an indication member seconds integral in rotation with a mobile which meshes directly or indirectly with a mobile that comprises said motor kinematic network (5, 7, 9), said mobile being located upstream of at least one of said second and third differential gears (7, 9).
    公开号:CH713757B1
    申请号:CH00601/17
    申请日:2017-05-05
    公开日:2020-12-15
    发明作者:Forsey Stephen;Trifoni François;Corneille Florian;Bernard David
    申请人:Gfpi Sa;Complitime S A;
    IPC主号:
    专利说明:

    Technical area
    The present invention relates to the field of watchmaking. It relates more particularly to a timepiece movement comprising a plurality of regulating systems.
    State of the art
    [0002] Document EP 1 706 796 describes a timepiece movement comprising two tourbillons connected to a common motor member by means of a differential gear. This differential gear allows the tourbillon cages to rotate independently of each other, and serves to average their steps. The moving parts of the finishing gear therefore rotate at angular speeds as a function of the average rate of the two tourbillons, which serves to improve the precision of the rate of the movement.
    [0003] However, the timer is arranged conventionally with respect to the finishing gear, which imposes limitations on the freedom of the watchmaker to optimize the transmission of torque and to choose the speeds of rotation of the mobiles, of the tourbillons, and of all the cogs involved.
    [0004] Document WO 2013/104982 discloses a timepiece comprising four regulating members, driven by a driving member via a motor kinematic network comprising a plurality of differential gears. However, neither this arrangement, nor the piece “Quatuor” by Roger Dubuis which uses it, includes means for indicating the seconds. The obvious solution for indicating the seconds would be to integrate an appropriate display member in the motor network, in particular integral in rotation with one of the four second wheels that the mechanism comprises. However, this solution would be very limited in terms of the possibilities for the spatial arrangement of the seconds display member in the movement. Indeed, there are only four positions which present themselves and which do not require substantial modifications at the level of the construction of the movement.
    [0005] The aim of the invention is therefore to provide a timepiece movement in which the aforementioned drawbacks are at least partially overcome.
    Disclosure of the invention
    [0006] More specifically, the invention relates to a timepiece movement comprising at least one driving member such as a driving spring stored in a barrel, as well as four regulating systems of any type, each being in kinematic connection with said motor unit via a motor kinematic network. This kinematic network is arranged to transmit energy from the motor member to each of the regulating systems, so that a kinematic link can be traced transmitting energy between the motor organ and each of the regulating systems.
    [0007] More precisely, the motor kinematic network comprises:a first differential gear having an input in kinematic connection with the driving member and having two outputs;a second and a third differential gear each having an input in kinematic connection with a respective output of the first differential gear and each having two outputs. Each of these latter outputs is kinematically linked to a respective regulating system.
    [0008] The movement further comprises an hour and minute display device arranged to be driven by the first differential gear, either directly or indirectly.
    [0009] According to the invention, the movement further comprises at least one seconds display device located in a branch of said kinematic network and taking force on the latter, said seconds display device comprising a seconds indication member integral in rotation with a moving body which engages directly or indirectly with a moving body which said motor kinematic network comprises. This mobile is located upstream of at least one of said second and third differential gears.
    Since the seconds display is not part of the kinematic network, the manufacturer gains freedom of construction which allows him to position the display according to his will in the movement, and independently of the hour and minute display device. . Furthermore, and unlike a conventional direct “small seconds” display, the positioning of the seconds display is also decoupled from the position of the regulating systems.
    Advantageously, the hours and minutes display device is arranged to be driven directly by an element of the first differential gear, for example by driving a timer via the mobile acting as input of the first differential gear . Alternatively, a minute display member may be integral in rotation with such a mobile, the hours display member being driven in a conventional manner via a reduction gear.
    Advantageously, the seconds display device comprises a seconds indication member arranged to be driven by an element of the first differential gear via a multiplier gear. Alternatively, the seconds indication member is arranged to be driven by an element of a barrel housing a driving spring acting as said driving member, via a multiplier gear. Still alternatively, the seconds indication member is arranged to be driven by an element located between a barrel and said input of said first differential gear, by means of a multiplier gear.
    Surprisingly, the fact of using four regulating systems makes it possible to use a motor member which is powerful enough to drive a multiplier mobile in this way, without the risk of overloading and thus damaging the regulating members. This is because a mainspring which is powerful to maintain four oscillators can be used without applying excess torque to the regulating systems, since the torque supplied is divided by four by the differential gears of the kinematic network.
    Advantageously, at least one of said differential gears comprises an equality winding system, which limits variations in the torque transmitted to the regulating systems, and therefore serves to improve the isochronism of the movement.
    Brief description of the drawings
    Other details of the invention will emerge more clearly on reading the following description, made with reference to the accompanying drawings in which:Fig. 1 is a schematic representation of a first embodiment of a movement according to the invention; andFig. 2 is a schematic representation of a second embodiment of a movement according to the invention.
    Embodiment of the invention
    [0016] Figure 1 schematically illustrates an embodiment of a timepiece movement 1 according to the invention.
    [0017] The movement 1 comprises a motor member 3, which may for example be one or more motor springs stored in one or more barrels in series and / or in parallel.
    The motor member 3 is in kinematic connection with an input 5th of a first differential gear 5 formed of suitable mobile. This differential gear 5 can be of any type, for example of the spherical, flat type or any other configuration. The differential gear 5 as defined in the present invention comprises an input 5e and two outputs 5s. The mechanical connection between the input 5e and the outputs 5s can be produced in any usual way, for example by means of one or more planet gears, one or more elastic elements or any mechanism allowing a function equivalent to the latter. It can also include at least one differential with an equalizer winding as described in document EP 2 548 084, fully incorporated here by reference. This or these equalizer winders can be found at the level of the differential (s), but also between the differential (s) and the regulating system (s).
    The first differential gear 5 drives directly or indirectly an hours and minutes display device 6, from one of the elements that constitute it. The hour and minute display device 6 may include hour and minute display members, for example one or more hands, discs, rotating scales, ribbons, or the like.
    In order to drive the hours and minutes display device 6, one of the moving parts forming the differential gear, for example the moving part acting as input 5e, can drive a timer, or alternatively the one of the mobiles can be arranged to rotate at a rate of one revolution per hour, the minute display member (a hand, disc, ribbon or the like) being integral in rotation with one of the latter, and the hour display member being driven by means of a reduction gear in a conventional manner.
    The two outputs 5s of the differential gear 5 each provide energy to the respective input 7th, 9th of a second differential gear 7, respectively a third differential gear 9, formed of suitable moving parts. These second and third differential gears each also include two outputs 7s, 9s respectively, each of these outputs 7s, 9s being in direct or indirect kinematic connection with a respective regulating system 11. The same comments with respect to the type of differential gear given in relation to the first differential gear 5 also apply to the second and third differential gears 7, 9.
    The differential gear network 5, 7, 9, and possible intermediate moving parts not shown, forms a motor kinematic network which serves to transmit and distribute energy and torque from the motor member 3 to each of the four regulating systems 11 in such a way that it is possible to trace a kinematic chain transmitting driving force from the motor member 3 to each regulating system 11.
    The regulating systems 11 may be of any type, and may include, for example, Swiss or English lever escapements, mono-, bi- or tri-axial tourbillons, detent escapements, cylinder escapements or any another type known to those skilled in the art. Each regulating system 11 can be the same or different from the others, and can oscillate at the same frequency or at a different frequency from the others. In the case of vortices, the rotational speed of the individual cages may also be the same or different from that of the other cages. This makes it possible to take an average of the rate of several types of regulating systems, and thus to improve the isochronism of the movement.
    In the embodiment illustrated in Figure 1, an element of the first differential gear 5 indirectly drives a seconds display device 12 via a multiplier gear, the latter being shown schematically by the arrow 12a . For example, said seconds display device 12 may comprise a seconds display member such as a hand, a disc or the like integral in rotation with a corresponding mobile unit which forms part of the multiplier gear 12a. The seconds display member can rotate in 30 seconds, one, two, three, four or five minutes, or the like. Alternatively, the seconds display device 12 can include a mobile which meshes directly with a mobile of the kinematic network, in which case the latter rotates at an appropriate angular speed. In any case, the calculation of the angular speeds and of the gear ratios for each desired configuration is within the abilities of those skilled in the art.
    Said seconds display device 12 is therefore driven by a kinematic link 12a branch of the motor kinematic network 5, 7, 9, this kinematic link having a power take-off driven by the differential gear 5 but not part of this network 5, 7, 9. Furthermore, neither the seconds display member, nor a mobile forming part of the multiplier gear 12a, is rotationally fixed to an element forming this network 5, 7, 9. It is therefore clear that no moving body which is located downstream of the differential gear 5 participates in the transmission of torque to the seconds display device 12 in the illustrated embodiment. More generally, the transmission of torque and energy to the seconds display device exclusively involves moving parts of the motor kinematic network 5, 7, 9 which are located upstream of at least one of the second 7 and the third 9. differential gears, as well as said multiplier gear 12a. The transmission of torque and energy to the regulating members as well as to the seconds display device 12 therefore follows paths which branch off at the level of the mobile of the motor kinematic network to which the seconds display device 12 is connected. One of these branches therefore leads to one or more of the regulating members 11, the other to the seconds display device 12. This also applies to the embodiment illustrated in FIG. 2 (see below). below). In the embodiment of FIG. 1, the multiplier gear 12a is therefore connected to the motor kinematic network 5, 7, 9 at the level of a mobile that the first differential gear 5 comprises.
    Consequently, a minimum of torque and energy is transmitted by this kinematic link to the seconds display device 12, because the latter is not located in the motor kinematic network supplying energy to the regulating systems 11 The seconds display member, and the mobile associated therewith, can therefore be constructed relatively thin since the torque to which it is subjected is minimized. The arrangement of the seconds display 12 at the end of a multiplier gear is common. However, given that a conventional movement does not generally provide enough torque to drive the seconds display, a barrel 3 adapted to deliver a sufficiently high torque to a single regulating system 11 risks overloading and thus damaging the latter. . By using four regulating systems 11, it is possible to increase the torque supplied by the barrel 3 by a factor of four, without exposing the regulating systems 11 to torques or excessive forces. In doing so, and surprisingly, there is therefore sufficient torque at the first differential gear 5 to cause a seconds display 12 to be displayed via a multiplier gear.
    In doing so, the manufacturer is no longer limited by the position of the regulating members, nor by the gears forming part of the kinematic network in order to position the display of the seconds. By taking a power take-off from the first differential gear 5, the manufacturer is relatively free to arrange the multiplier gear 12a according to his needs, and thus to position the seconds display at any position in the movement.
    FIG. 2 illustrates a second embodiment of a timepiece movement 1 according to the invention. This variant differs from that of FIG. 1 in that the seconds display device 12 is driven directly, or indirectly through the multiplier gear 12a, by a mobile which is located in the kinematic network between the motor member 3 and the 5th input of the first differential gear 5. Alternatively, in a variant not shown, the power take-off for displaying the seconds 12 can be on an element of the motor member 3, such as for example on the barrel drum or on its shaft in the event that it is the latter which turns when the barrel unwinds. In other words, the multiplier gear 12a is connected to the motor kinematic network 5, 7, 9 upstream of the first differential gear 5. As mentioned above, the rotating part of the barrel 3 is also part of the motor kinematic network, and can provide enough torque to drive a 12 seconds display device through a multiplier gear for the same reasons as discussed above.
    In each of the embodiments described above, the indication of the seconds is determined as a function of the average rate of the four regulating systems 11, which increases the display precision compared to the arrangements of the prior art.
    Furthermore, this configuration presents more possibilities in terms of the possible choices for the speed of rotation of the regulating systems as well as the mobiles of the various differential gears 5, 7, 9, and those skilled in the art know how to adapt the speeds angulars of the various moving parts as well as the gear ratios for any possible construction of a clockwork movement 1 according to the invention.
    权利要求:
    Claims (7)
    [1]
    1. Watch movement (1) comprising:- at least one motor unit (3);- four regulating systems (11), each being in kinematic connection with said motor member (3) via a motor kinematic network (5, 7, 9) arranged to transmit the energy of the motor member (3) ) said regulating systems (11);wherein said motor kinematic network (5, 7, 9) comprises:- a first differential gear (5) having an input (5e) in kinematic connection with the motor member (3) and having two outputs (5s);- a second and a third differential gear (7, 9) each having an input (7th, 9th) in kinematic connection with a respective output (5s) of the first differential gear (5) and each having two outputs (7s, 9s), each of these latter outputs (7s, 9s) being in kinematic connection with a respective regulating system (11);said movement (1) further comprising an hour and minute display device (6) arranged to be driven by the first differential gear (5);characterized in that said movement (1) comprises at least one seconds display device (12) located in a branch of said motor kinematic network and arranged to take force on the latter, said seconds display device (12) comprising a second indication member integral in rotation with a mobile which engages directly or indirectly with a mobile that comprises said motor kinematic network (5, 7, 9), said mobile being located upstream of at least one of said second and third differential gears (7, 9).
    [2]
    2. Movement (1) according to the preceding claim, wherein the hour and minute display device (6) is arranged to be driven directly by an element of the first differential gear (5).
    [3]
    3. Movement (1) according to one of the preceding claims, wherein the seconds display device (12) comprises a seconds indication member arranged to be driven by an element of the first differential gear by means of 'a multiplier gear (12a).
    [4]
    4. Movement (1) according to one of claims 1 and 2, wherein the seconds display device (12) comprises a seconds indication member arranged to be driven by an element of a barrel housing a spring. motor which acts as said motor member (3), via a multiplier gear train (12a).
    [5]
    5. Movement (1) according to one of claims 1 and 2, wherein the seconds display device (12) comprises a seconds indication member arranged to be driven by an element located between a barrel housing a mainspring which acts as said motor member (3) and said input (5e) of said first differential gear (5), via a multiplier gear (12a).
    [6]
    6. Movement (1) according to one of the preceding claims, wherein at least one of said differential gears (5, 7, 9) comprises a winding system of equality.
    [7]
    7. Timepiece comprising a movement (1) according to one of the preceding claims.
    类似技术:
    公开号 | 公开日 | 专利标题
    EP1738230B1|2009-04-08|Watch comprising at least two tourbillons
    EP2376986B1|2013-03-06|Horological movement with automatic winding and moving escapement
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    EP3182217B1|2018-11-14|Mechanism for adjusting the torque ratio between timepiece wheels
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    CH703964B1|2015-07-15|Automatic movement watch with oscillating weight arranged on the side of the plate.
    EP2515185B1|2019-06-12|Engine with constant torque
    EP0082110A1|1983-06-22|Electronic watch with or without a seconds hand
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    EP2869135A1|2015-05-06|Fusee system
    CH714617A2|2019-07-31|Movement and timepiece.
    EP1701226A1|2006-09-13|Clockwork
    WO2018114613A1|2018-06-28|Timepiece movement
    CH698822A2|2009-10-30|Regulator device's rate deviations avoiding mechanism for e.g. pocket watch, has gear-system provided with driveline and corrective line and comprising epicyclic gear-trains, where each gear-train contains mobiles with single straight-tooth
    同族专利:
    公开号 | 公开日
    EP3399374A1|2018-11-07|
    US20200150593A1|2020-05-14|
    CH713757A2|2018-11-15|
    WO2018202746A1|2018-11-08|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    CH1147874A4|1974-08-22|1977-05-13|
    JP2797071B2|1995-08-18|1998-09-17|セイコーインスツルメンツ株式会社|Mechanical clock with tool-by-mechanism|
    CH694833A5|2003-10-31|2005-07-29|Complitime Sa|Timepiece including two balances.|
    DE602005021161D1|2005-03-23|2010-06-17|Bnb Concept Sa|clockwork|
    AT470890T|2005-03-30|2010-06-15|Montres Breguet Sa|CLOCK WITH AT LEAST TWO REGULATORY SYSTEMS|
    CN101855601B|2007-11-09|2012-07-04|绮年华钟表制造股份公司|Mechanical watch having constant spring force|
    EP2124111B1|2008-04-30|2010-11-17|Cartier Création Studio S.A.|Mechanism preventing movement variations due to gravity on a sprung balance and timepiece equipped with such a mechanism|
    EP2233988B1|2009-03-23|2012-02-08|Montres Breguet SA|Clock movement with tourbillon equipped with a shock-protection device|
    CH702843B1|2010-03-17|2014-08-29|Complitime Sa|Movement for timepiece to remontoir.|
    CH705494A2|2011-09-15|2013-03-15|Swatch Group Res & Dev Ltd|Clock element for keyless watch, has wheel connected to another wheel by set of coupling units or rubber band for synchronizing oscillator or another oscillator using energy source|
    EP2615504A1|2012-01-13|2013-07-17|Manufacture Roger Dubuis S.A.|Clock movement with tilted balances|CH711790B1|2015-11-17|2021-03-31|Complitime Sa|Clockwork movement.|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    EP17169650.3A|EP3399374A1|2017-05-05|2017-05-05|Clockwork|
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