Watch movement comprising a countdown chronograph mechanism and a striking mechanism.

专利摘要:
The present invention relates to a mechanical watch movement comprising a chronograph mechanism arranged to be able to perform at least one countdown of a predetermined time interval, comprising display means arranged to display at least the time remaining until the end. the countdown of said predetermined time interval, at least one control member (11) for the start of the countdown, and a striking mechanism. Said ringing mechanism is arranged to start ringing at a determined duration before the end of the countdown and to finish ringing with the end of said countdown of said predetermined time interval.
公开号:CH717358A2
申请号:CH00452/21
申请日:2021-04-27
公开日:2021-10-29
发明作者:Mentzer Cédric；Schlappi Nicolas；Sudan Marc-Antoine
申请人:Patek Philippe Sa Geneve；
IPC主号:

专利说明:

The present invention relates to a mechanical watch movement comprising a chronograph mechanism arranged to be able to perform at least one countdown of a predetermined time interval, comprising display means arranged to display at least the time remaining until at the end of the countdown of said time interval, at least one control member for the start of the countdown, and a striking mechanism.
[0002] Such a movement is for example described in patent CH 704 705. A striking countdown mechanism is provided allowing the countdown of a predetermined and adjustable period of time up to 11:55 in a five-minute jump. . A command that can be actuated by a push-button allows the start of the countdown. The end of the countdown is indicated by a mechanical bell. The remaining time is given by two discs indicating the hours and minutes.
The present invention aims to provide an improved mechanical watch movement compared to the known striking countdown mechanism.
To this end, the present invention relates to a mechanical watch movement comprising a chronograph mechanism arranged to be able to perform at least one countdown of a predetermined time interval, comprising display means arranged to display at least the time remaining until the end of the countdown of said predetermined time interval, at least one control member for the start of the countdown, and a striking mechanism.
According to the invention, said ringing mechanism is arranged to start ringing at a determined duration before the end of the countdown and to finish ringing with the end of said countdown of said predetermined time interval.
[0006] Thus, the invention enables a ringing mechanism to be triggered before the end of the countdown of said predetermined time interval in order to warn a user that the current count of the predetermined time interval will come to an end. Thus, the present invention makes it possible to have a countdown of a predetermined time interval having a pre-alarm using a mechanical bell, and to be able to synchronize the end of the ringing with the end of the countdown of said interval. of predetermined time.
[0007] Advantageously, the chronograph mechanism comprises at least one mobile chronograph driver arranged to be able to perform a countdown, and in particular the countdown of the predetermined time interval and the striking mechanism comprises at least a first cam kinematically linked to said mobile chronograph trainer and on which is programmed said determined duration before the end of the countdown of said predetermined time interval, said first cam being arranged to make one revolution over a duration greater than the determined duration before the end the countdown of said predetermined time interval, a ringing gear, a first ringing rocker comprising a first ringing feeler lever arranged to be able to cooperate with said first cam and said striking gear to trigger the ringing at the start of the determined duration before the end of the countdown of said predetermined time interval and a mechanism for e end of ringing arranged to be able to cooperate with said first ringing latch to control the stopping of the ringing at the end of said determined duration at the same time as the end of the countdown of said predetermined time interval.
[0008] Preferably, the display means of the chronograph mechanism can comprise a first display member associated with the first cam to display a countdown obtained via the mobile chronograph trainer.
According to a first embodiment of the invention, the first display member is arranged to display a countdown of units of minutes.
According to a second particularly preferred embodiment of the invention, the first display member is arranged to display a countdown of seconds.
According to the second embodiment, the display means of the chronograph mechanism may comprise a second display member of the units of minutes arranged to display the countdown of the units of minutes of said predetermined time interval and the mechanism ringing device comprises a second minute units cam associated with said second minute unit display member, and a third minute unit feeler lever arranged to be able to cooperate with said second minute unit cam, said second minute unit cam, said second cam of minute units. minutes being programmed to indicate to the third minute unit feeler lever the end of the minute units countdown, said third minute unit feeler lever being arranged to cooperate with the first strike feeler lever so that said first strike feeler lever comes to cooperate with the first cam at the end of the countdown of the units of minutes.
According to the second embodiment, the display means of the chronograph mechanism may comprise a third display member of tens of minutes arranged to display the countdown of tens of minutes of said predetermined time interval and the mechanism ring tone comprises a third tens of minutes cam associated with said third tens of minutes display member, and a fourth tens of minutes feeler lever arranged to be able to cooperate with said third tens of minutes cam, said third tens of minutes cam minutes being programmed to indicate to the fourth tens-minute feeler lever the end of the tens-minute countdown, said fourth tens-minute feeler lever being arranged to cooperate with the third minute-unit feeler lever so that said third feeler lever units of minutes cooperate with said second cam units of minutes your at the end of the tens of minutes countdown.
According to the first embodiment, the display means of the chronograph mechanism may comprise a third display member of tens of minutes arranged to display the countdown of tens of minutes of said predetermined time interval and the mechanism ring tone comprises a third tens of minutes cam associated with said third tens of minutes display member, and a fourth tens of minutes feeler lever arranged to be able to cooperate with said third tens of minutes cam, said third tens of minutes cam minutes being programmed to indicate to the fourth tens of minutes feeler lever the end of the tens of minutes countdown, said fourth tens of minutes feeler lever being arranged to cooperate with the first strike feeler lever so that said first strike feeler lever comes to cooperate with said first cam at the end of the tens of minute count s.
Regardless of the embodiment, the display means of the chronograph mechanism may comprise a fourth hour display member arranged to display the countdown of the hours of said predetermined time interval and the striking mechanism comprises a fourth hours cam associated with said fourth hour display member, and a fifth hour feeler lever arranged to be able to cooperate with said fourth hour cam, said fourth hour cam being programmed to indicate to the fifth hour feeler lever the end of the countdown hours, said fifth hour feeler lever being arranged to cooperate with the fourth tens-minute feeler lever so that said fourth tens-minute feeler lever cooperates with said third tens-of-minute cam at the end of the hours countdown .
[0015] Advantageously, the third sensor lever for units of minutes, the fourth sensor lever for tens of minutes and the fifth sensor lever for hours can form a single rocker, possibly also with the first ringing sensor lever.
Preferably, the chronograph mechanism is configured to be able to be kinematically connected to a basic movement by a lateral or vertical clutch device.
Advantageously, according to one embodiment, the end of ringing mechanism comprises an end of ringing rocker comprising a second end of ringing feeler lever arranged to be able to cooperate with the first cam to control a disengagement of the clutch device and stopping the bell, at the end of the countdown of said predetermined time interval.
According to this embodiment, the chronograph mechanism, and in particular the chronograph second hand, automatically stops with the end of the countdown of the predetermined time interval.
According to another embodiment, the end of ringing mechanism comprises an end of ringing rocker arranged to cooperate with the first ringing rocker and a ringing stop cam kinematically linked to said mobile chronograph trainer and arranged to control the end of ringing rocker in order to stop the ringing at the end of the countdown of said predetermined time interval without disengaging the clutch device.
[0020] According to this embodiment, the chronograph mechanism, and more particularly its mobile chronograph driver, remains activated after the end of the countdown of the predetermined time interval. Thus, the first display member, and more particularly the chronograph second hand, continues to rotate without triggering a chime. A manual stop by a user will be required to stop the chronograph mechanism.
Other characteristics and advantages of the present invention will become apparent on reading the following detailed description of various embodiments of the invention, given by way of non-limiting examples, and made with reference to the accompanying drawings in which :FIG. 1 is a schematic view of a first variant embodiment of a movement according to the invention, the chronograph mechanism being in the STOP position;Figures 2 to 9 are schematic views of the movement of Figure 1 in different positions between a countdown start and a countdown end, the controller being ready to operate;FIG. 10 is a schematic view of a second variant embodiment of a movement according to the invention;FIG. 11 is a schematic view of the display members for hours, tens of minutes, and units of minutes;FIG. 12 is a schematic view of another variant embodiment of a movement according to the invention, the chronograph mechanism being in the STOP position before the start of a countdown of a predetermined time interval;Figures 13 to 20 are schematic views of the movement of Figure 12 in different positions between a countdown to one minute from the end and the end of the countdown of the predetermined time interval, andFIG. 21 is a view of the movement of the figure in the STOP position during ringing.
Referring to Figure 1, the present invention relates to a mechanical watch movement comprising a chronograph mechanism arranged to be able to perform at least one countdown of a predetermined time interval. In the present description, the term "chronograph mechanism" should be considered in the broad sense of the term, that is to say as comprising all the necessary elements or components arranged to produce at least a count of time and fraction of time for perform at least one countdown.
The chronograph mechanism is shown here schematically by a mobile chronograph driver 1, a drive wheel 2 here making one revolution per minute, corresponding to a second chronograph wheel, said drive wheel 2 being arranged to cooperate with the other components of the chronograph in order to be able to carry out a countdown, and in particular a countdown of a predetermined time interval. The chronograph mechanism, and more particularly the mobile chronograph driver 1, is designed to be able to be kinematically connected to the seconds wheel 4 of a basic watch movement indicating the current time by a vertical clutch device 6. Said device d the vertical clutch 6 comprises a clutch control clamp 8 and a clutch clamp 10 arranged to move apart when the chronograph is activated to start a countdown, so as to engage the second wheel 4 and the mobile chronograph trainer 1 for transmitting the energy of the basic movement to the chronograph mechanism for its operation.
It is obvious that the clutch device could be lateral, the construction of the movement being adapted by those skilled in the art to this type of clutch.
The chronograph mechanism also comprises a control member 11 for the start of the countdown arranged to control at least the triggering of the chronograph mechanism, and in particular the opening of the clamps 8 and 10, by means of a control device 12 comprising a column wheel 14. This control member 11 is for example a pusher. It can be arranged to also control the stopping of the chronograph mechanism, and in particular the closing of the clamps 8 and 10, during the countdown if necessary.
In the first embodiment of the invention according to Figures 1 to 9, the chronograph mechanism is arranged to be stopped automatically at the same time as the striking mechanism.
For this purpose, the control device 12 advantageously comprises a main control 13 operable by the control member 11, and a secondary control 15 pivotally mounted on the main control 13 and to which it is linked by a member elastic (not shown). The main 13 and secondary 15 controls are respectively terminated by a hook 13a, 15a. The column wheel 14 comprises a first drive wheel 14a integral with the columns 14b and arranged to be actuated by the hook 15a of the secondary control 15, and a second drive wheel 14c arranged to be actuated by the hook 13a of the main control 13. The control device 12 also comprises a mechanism for locking in rotation the secondary control 15 on the main control 13 arranged to be able to be controlled manually by the control member 11 as well as internally, automatically, by a internal control unit, here the hook 56 of the end of ringing rocker 50 as will be described below.
The locking mechanism and the secondary control 15 are arranged to occupy a locked state in which the elastic member connecting the main 13 and secondary 15 control is armed and the secondary control 15 is rotatably secured to the main control 13 allowing , during actuation of the main control 13 via the actuator 11, to actuate the column wheel 14 simultaneously by the main 13 and secondary 15 controls, and to be able to switch, in the event of actuation of the mechanism locking by the hook 56, in an unlocked state in which said secondary control 15 is disconnected from the main control 13 and actuates, alone, the column wheel 14, the elastic member disarming, and to pass through a locking position , by an actuation of the main control 13, in which only the main control 13 actuates the column wheel 14, said main control 13 being arranged to reset r the elastic member and cooperate with the locking mechanism of the secondary control 15 to return to the locked state.
The second drive wheel 14c is connected to the first drive wheel 14a by an elastic coupling element (not shown) arranged to securely connect in rotation the second drive wheel 14c to the first drive wheel 14a when only the second drive wheel 14c is actuated by the hook 13a of the main control 13 if the secondary control 15 has passed to the unlocked state and then only the main control 13 is actuated during the next manual actuation via the control member 11, and to separate the second drive wheel 14c from the first drive wheel 14a when only the first drive wheel 14a is actuated, thanks to the energy supplied by the elastic member which is disarms, by the secondary control 15, after having been disconnected from the main control 13.
More particularly, the locking mechanism comprises a control lever 19 arranged to be controlled by the hook 56 to go to the unlocked state and to be able to cooperate with a pin 21 provided on the main control 13 to move into the position lock and then to the locked state. The locking mechanism also comprises a locking hook 22 carried by the main control 15 and arranged to be controlled by said control rocker 19 by means of a pin 23 to pass to the unlocked state and to be able to cooperate with a hook 15b provided on the secondary control 15 to switch to the locked position and then to the locked state.
This control device of the chronograph mechanism makes it possible to be able to be operated by a user, but also by an internal control linked to the striking mechanism, so as to have an automatic control, in addition to a manual control of said chronograph mechanism, to stop the chronograph mechanism at the same time as the striking mechanism.
Such a control device is described in more detail in European application No. EP20171993 of the applicant.
Any other suitable control device known to those skilled in the art can also be used.
In particular, it is possible to use a standard column wheel control device, controlled by a pusher, to perform manually and in a conventional manner the start / stop control of the chronograph mechanism, as will be described below in connection with another embodiment of the invention.
Independently of the embodiments of the invention, the chronograph mechanism also comprises display means arranged to display at least the time remaining until the end of the countdown of the predetermined time interval. In the variant shown in FIG. 1, these display means comprise a first display member for displaying a seconds countdown, and in particular the seconds countdown of the predetermined time interval, a second display member 'display for displaying the countdown of the units of minutes of the predetermined time interval, a third display member for displaying the countdown of tens of minutes of the predetermined time interval and a fourth display member to display the countdown of the hours of the predetermined time interval.
These display means may be disks, hands, rollers or any other display member suitable for displaying the count of hours, tens and units of minutes, as well as seconds.
Preferably, the first seconds display member is a hand (not shown) corresponding to the second hand.
Figure 11 shows a preferred embodiment of display members for displaying the countdown of hours, tens and units of minutes of the predetermined time interval, used in the present invention in the form of discs, the first seconds display member being a hand (not shown), corresponding to the second hand. More specifically, the second display member for counting the units of minutes in the predetermined time interval is a disc 16 bearing the digits 0 to 9 regularly distributed around its periphery, said disc 16 being arranged to make a revolution in ten. minutes. The third display member for counting the tens of minutes of the predetermined time interval is a disc 18 disposed tangentially to the units of minutes disc 16. The tens of minutes disc 18 carries two consecutive series of digits 0 to 5. regularly distributed around its periphery, said disc 18 being arranged to make one revolution in two hours. The fourth display member for counting down the hours of the predetermined time interval is a disc 20, arranged concentrically inside the tens of minutes disc 18. The hours disc 20 carries a series of digits 0 to 6. regularly distributed around its periphery, said disc 20 being arranged to make one revolution in seven hours. The centers of the three disks 16, 18 and 20 are aligned allowing a display of the count of hours, tens of minutes and units of minutes of the predetermined time interval in juxtaposed windows for easy reading of the count.
It is obvious that the display members of the hours, tens and units of minutes of the predetermined time interval can be arranged differently, the striking mechanism being adapted accordingly, as will be described below. after.
The different display members can be arranged to train one after the other from the second to the hour starting for example from the drive wheel 2. In another variant, the first member display for displaying the count of seconds can be kinematically linked to the drive wheel 2 and an auxiliary power source may be provided to supply power to the display unit for counting the units of minutes, which drives the display unit for counting the tens of minutes, itself driving the display unit for counting the hours, for example by means of actuating fingers and stars cooperating to blow up the unit display corresponding to each change of ten minutes or hour.
An adjustment mechanism is provided (not shown) making it possible to position, before the triggering of the countdown of the predetermined time interval, the various display members for the countdown of 20 hours, tens of minutes 18 and units of minutes 16 so as to display the predetermined time interval to be counted down, said time interval to be counted down being adjustable, for example up to 6:59 a.m.
Thus, when the countdown of the predetermined time interval is triggered, the various display members are arranged to display the remaining time which decreases as the countdown progresses, from the value of l 'predetermined time interval up to 0h00min00s, very precisely, down to the second.
Such a construction of a countdown chronograph mechanism cooperating with a base movement via a clutch device is known to those skilled in the art and does not require a more detailed description.
The mechanical movement according to the invention also comprises a striking mechanism consisting of mechanical components, and comprising in particular a striking gear, represented here by an element 30 of the striking gear carrying a stop star 32 of the striking gear . These components of a striking mechanism are known to those skilled in the art and do not require a detailed description.
According to the invention, the ringing mechanism is arranged so that the ringing begins to ring at a determined duration before the end of the countdown of the predetermined time interval, and ends ringing with the end of the count countdown, that is to say at the same time as the countdown of said predetermined time interval arrives at 0h00min00s.
For this purpose, the striking mechanism comprises at least a first cam 34 kinematically linked to the mobile chronograph driver 1 and on which said determined duration is programmed before the end of the countdown of said predetermined time interval, said first cam 34 being arranged to make one revolution over a duration greater than the determined duration before the end of the countdown of said predetermined time interval. The first cam 34 is associated with the first display member to display at least the countdown of said predetermined time interval obtained via the chronograph drive mobile 1. In the present example, the first cam 34 is the second cam, associated with the second cam. first display unit (ie the second hand) to display a seconds countdown. The first cam 34 therefore makes here one revolution per minute.
More particularly, the first cam 34 has an essentially circular profile and comprises a notch 36 whose circular length corresponds to the determined duration of the ringing before the end of the countdown of the predetermined time interval, the start 36a of the notch 36 corresponding to the triggering of the ringing, and the end 36b of the notch 36 corresponding to the stopping of the ringing, at the same time as stopping the countdown of said predetermined time interval, as will be described in detail below. For example, the length of the notch 36, between the start 36a and the end 36b of said notch 36, may correspond to a duration of 20 seconds before the end of the countdown of said predetermined time interval.
The striking mechanism also comprises a first striking latch comprising a first striking feeler lever 38 arranged to be able to cooperate with the first cam 34 and the striking gear to trigger the ringing at the start of the determined period before the end of the countdown of said predetermined time interval.
The ringing mechanism also comprises an end of ringing mechanism arranged to be able to cooperate with said first ringing rocker to control the stopping of the ringing at the end of said determined duration at the same time as the end of the countdown said predetermined time interval.
In the first embodiment of the invention according to Figures 1 to 9, wherein the chronograph mechanism is arranged to be stopped automatically at the same time as the striking mechanism, the first second cam 34 is carried by the drive wheel 2 which meshes with the chronograph drive wheel 1.
The first ringing feeler lever 38 constitutes the first arm of a ringing lever 41 pivotally mounted at A. The first ringing feeler lever 38 has a beak 38a arranged to be able to come into contact with the first second cam 34 then engage in its notch 36 at the time of ringing, as will be described in more detail below.
Said ringing rocker 41 comprises a second arm 42 arranged to control a ringing stop rocker 44 pivotally mounted in D, a pin 43 integral with the second arm 42 ensuring the connection with said rocker 44 by means of an oblong opening 45, said ringing stop latch 44 itself being designed to be able to cooperate with the stop star 32 of the striking gear. The striking lever 41 comprises a third arm 46 comprising a heel 46a arranged to be able to cooperate with a pin 48 carried by the clutch clamp 10.
The operation of the various elements of the ringing latch 41 will be described below.
The end of ringing mechanism comprises an end of ringing rocker 50 pivotally mounted at B and provided with a second end of ringing feeler lever 40 arranged to be able to cooperate with the first cam 34 to control the stopping of the ringing at the end of said determined duration at the same time as the end of the countdown of said predetermined time interval. Thus, in this embodiment of the invention, the first cam 34 provided with its notch 36 is also part of the ringing end mechanism and constitutes both a ringing start cam and a ringing stop cam.
The second end of ringing feeler lever 40 constitutes the first arm of the end of ringing rocker 50.
More specifically, the second end of ringing feeler lever 40 has a beak 40a arranged to be able to come into contact with the first second cam 34 when the first ringing feeler lever 38 falls into the notch 36 of said first cam 34 to trigger the ringing, and to engage in said notch 36 at the end of the countdown and the ringing, as will be described in more detail below.
The end of ringing rocker 50 comprises a second arm 54 carrying at its free end a hook 56 pivotally mounted at C and held in position by a pin 58 carried by the end of said second arm 54. The pivoting hook 56 is arranged to cooperate with the control device 12, as will be described below. In particular, the second end of ringing feeler lever 40 is arranged to control, by means of said hook 56, a disengagement of the clutch device 6 and the stopping of the ringing when said second end of ringing feeler lever 40 falls. in notch 36 at the end of the countdown.
The end of ringing rocker 50 also comprises a third arm 60, in the extension of the second end of ringing feeler lever 40. Said third arm 60 comprises a first spout 60a arranged to be able to cooperate with the foot 46b of the third arm 46 of the striking lever 41 and a second spout 60b arranged to be able to cooperate with the pin 48 of the clutch clamp 10.
The operation of the various elements of the end of ring rocker 50 will be described below.
In the variant shown here, the striking mechanism comprises a second cam of minute units 62 associated with the second display member of minute units 16 for example to make one revolution in ten minutes, and a third feeler lever of the minute units 64 arranged to be able to cooperate with said minute units cam 62, said minute units cam 62 being programmed to indicate to the third minute unit feeler lever 64 the end of the minute units countdown. To this end, the minute units cam 62 has an essentially circular profile and includes a notch 66, said third minute unit feeler lever 64 being arranged to be positioned in said notch 66 when the hour display members, tens of minutes and units of minutes will all display 0, that is to say from the moment when there is less than one minute left to count down.
In addition, the third sensor lever minutes units 64 is arranged to cooperate with the first ringing sensor lever 38 so that said first ringing sensor lever 38 comes into contact with the first second cam 34 at the end counting down units of minutes, when the display units for hours, tens of minutes and units of minutes all display 0.
More particularly, the third sensor lever of the minute units 64 is a first arm of a detection rocker 68 pivotally mounted in A, like the ringing rocker 41. The detection rocker 68 and the ringing rocker 41 are arranged to be able to cooperate with each other. To this end, the detection latch 68 comprises, on said third minute unit feeler lever 64, a pin 70 arranged to be in contact with the striking latch 41, and for example with its third arm 46, so that a pivoting in A of one of the detection 68 and ringing flip-flops 41 causes a pivoting in A of the other of the detection 68 and ringing flip-flops 41. In particular, an A-pivoting of the detection flip-flop 68 in the counterclockwise moves the pin 70 away from the ringing latch 41 so that said released ringing latch 41 can in turn pivot counterclockwise.
The striking mechanism also includes a third tens of minutes cam 72 associated with the third tens of minutes display member 18, and a fourth tens of minutes feeler lever 74 arranged to be able to cooperate with said third tens cam minutes 72, said third tens of minutes cam 72 being programmed to indicate to the fourth tens of minutes feeler lever 74 the end of the tens of minutes countdown. To this end, the tens of minutes cam 72 has an essentially circular profile and may for example include two opposite notches 76, when the third tens of minutes display member 18 is arranged to make one revolution, with the tens cam of 72 minutes, in two hours. The tens of minutes cam 72 may have a single notch 76 if the third tens of minutes display member is arranged to make one revolution per hour. The fourth tens of minutes feeler lever 74 is arranged to be positioned in one of the notches 76 when the display members for hours 20 and tens of minutes 18 both display 0, that is to say at from the moment there will be less than ten minutes to count down.
In addition, the fourth sensor lever of the tens of minutes 74 is arranged to cooperate with the third sensor lever of the units of minutes 64 so that said third sensor lever of the units of minutes 64 cooperates with the second cam of the units of 62 minutes at the end of the tens of minutes countdown, when the display units for hours 20 and tens of minutes 18 both display 0.
More particularly, the fourth feeler lever of the tens of minutes 74 is a second arm of the detection lever 68 opposite to the third feeler lever of the units of minutes 64 with respect to A, so that a pivoting at A in the counterclockwise of the fourth tens of minutes feeler lever 74, falling into one of the notches 76 of the tens of minutes cam 72, causes a pivoting in A, counterclockwise, of the third minute unit feeler lever 64 for come into contact with the minute units cam 62.
The striking mechanism also comprises a fourth hours cam 78 associated with the fourth hour display member 20, superimposed on the third tens of minutes cam 72, and a fifth hour feeler lever 80, superimposed on the fourth lever tens of minutes feeler 74, and arranged to be able to cooperate with said fourth hours cam 78, said fourth hours cam 78 being programmed to indicate to the fifth hour feeler lever 80 the end of the hours count. To this end, the fourth hour cam 78 has an essentially circular profile and includes a notch 82 (see FIGS. 4 and 5), the fifth hour feeler lever 80 being arranged to be positioned in the notch 82 when the member hour display 20 will display 0, that is to say from the moment when there will be less than an hour to count down.
The fourth hour display member 20 can be arranged to rotate with the fourth hour cam 78, so as to allow a count of six hours per revolution. The number of hours counted may be different depending on the arrangement of the hour display unit 20.
In addition, the fifth hour feeler lever 80 is arranged to cooperate with the fourth tens of minutes feeler lever 74 so that said fourth tens of minutes feeler lever 74 cooperates with the third tens of minutes cam 72 at the end of the hour countdown, when the hour display unit 20 displays 0.
More particularly, the fifth hour feeler lever 80 is a third arm of the detection lever 68, so that an A-shaped pivoting in the counterclockwise direction of the fifth hour feeler lever 80, falling into the notch 82 of the hours cam 78, causes a pivoting in A, counterclockwise, of the fourth tens of minutes feeler lever 74 to come into contact with the tens of minutes cam 72.
This means that in this particularly preferred variant of the invention, the third feeler lever for minute units 64, the fourth feeler lever for tens of minutes 74 and the fifth feeler lever for hours 80 form a single rocker, namely the detection rocker 68. It is obvious that other arrangements of these levers are possible, chosen so that said levers pivot in the same direction. In particular, the different feeler levers can be separated, while being arranged so that when one pivots in one direction, the others pivot in the same direction.
All the elements such as rockers, levers, controls, grippers, hooks of the various mechanisms described above are subjected to their own return springs, not shown.
The operation of the movement is as follows; the starting STOP position is shown in FIG. 1, in which the control device 12 is ready to operate. The secondary control 15 and the locking mechanism are in the locked state, the locking hook 22 being coupled to the hook 15b of the secondary control 15. The secondary control 15 is therefore locked in rotation with the main control 13, the member elastic connecting them being cocked. In this STOP position, the countdown chronograph mechanism and the striking mechanism are inactive. It is considered that the different display members for hours 20, tens of minutes 18, units of minutes 16 and seconds have been positioned to display the predetermined time interval for the countdown. Only the second wheel 4 of the basic watch movement turns.
Referring to Figure 2, the control member 11 of the control device 12 is pushed by a user to trigger the START so that the column wheel 14 rotates so as to open the clutch control clamp 8 and the clutch clamp 10 in order to engage the second wheel 4 and the chronograph driving wheel 1. The opening of the clutch clamp 10 releases the striking lever 41 and the end of ringing lever 50, their respective arms 46 and 60 no longer being retained by the pin 48 of the clutch clamp 10. The striking rocker 41 rotates around A in the counterclockwise direction, allowing the detection rocker 68 to pivot in the counterclockwise direction, so that the first ringing feeler lever 38, the third minute unit feeler lever 64, and the fourth tens of minute feeler lever 74, which were remote from their respective cams 34, 62, 72 to allow adjustment of the components display 16, 18 for the comp te backwards, rotate counterclockwise and move slightly closer to their respective cams 34, 62, 72. The fifth hour feeler lever 80, which was also moved away from its hour cam 78 to allow adjustment of the gear member The 20 hours display for the countdown, rotates counterclockwise until it comes into contact with its 78 hours cam.
Likewise, the end of ringing rocker 50 released pivots around B in the counterclockwise direction so that the second end of ringing feeler lever 40 also slightly approaches the second cam 34. The end of rocker rocker ring 50 is held in position by pressing the foot 46b of the third arm 46 of the ring lever 41 on the first spout 60a of its third arm 60.
The mobile chronograph trainer 1, engaged with the second wheel 4, drives the drive wheel 2 and the first second cam 34 in the counterclockwise direction. The display members for hours 20, tens of minutes 18 and units of minutes 16 are also driven with respectively the hours cam 78, the tens of minutes cam 72 and the minutes units cam 62, at each passage to 0 of the second hand carried by the drive wheel 2.
Referring to Figure 3, the START phase ends with the return of the control member 11 to its initial position under the action of its return spring (not shown). The count is in progress. The drive wheel 2 and the seconds cam 34 rotate counterclockwise so that the display members for hours 20, tens of minutes 18 and units of minutes 16 with their respective cams 62, 72, 78 are released and can rotate according to the count to be displayed, each time the second hand goes to 0, as in a standard countdown. The fifth hour feeler lever 80 is in contact with its hour cam 78, the other feeler levers 38, 40, 64 and 74 remaining at a distance from their cam 34, 62, 72.
Referring to Figure 4, when there is less than an hour to count down, the hours display member 20 is positioned to display 0 so that the hour feeler lever 80, being in contact with the hours cam 78 engages in the notch 82 of said hours cam 78 by pivoting at A in the counterclockwise direction. The pivoting of the feeler lever for hours 80 means the pivoting in A counterclockwise of the detection rocker 68, and therefore of the feeler lever for tens of minutes 74 which comes into contact with the tens of minutes cam 72 and the feeler lever units of minutes 64 which approaches its cam 62, as well as the anti-clockwise pivoting in A of the striking rocker 41 and therefore of the strike feeler lever 38 which approaches the seconds cam 34. The countdown is counted. continues via the drive wheel 2 driven by the chronograph drive mobile 1.
Referring to Figure 5, when there are less than ten minutes to count down, the hours display member 20 still displaying 0, the tens of minutes display member 18 is positioned to display 0 so that the tens of minutes feeler lever 74, being in contact with the tens of minutes cam 72, engages in the notch 76 of said tens of minutes cam 72 by pivoting at A in the counterclockwise direction. The pivoting of the tens of minutes feeler lever 74 means the anti-clockwise pivoting in A of the detection rocker 68 and therefore of the minute units feeler lever 64 which comes into contact with the minute units cam 62, as well as the anti-clockwise pivoting at A of the striking rocker 41, and therefore of the striking feeler lever 38 which approaches the seconds cam 34. The hours display member 20 having remained in the display position of the 0, the hours feeler lever 80 remains engaged in the notch 82 of the hours cam 78. The countdown continues via the drive wheel 2 driven by the chronograph drive mobile 1.
With reference to FIG. 6, when there is less than a minute to count down, the display members for hours 20 and tens of minutes 18 still display 0, the display member for units of minutes 16 is positioned to display 0 so that the minute units feeler lever 64, being in contact with the minute units cam 62, engages the notch 66 of said minute units cam 62 by pivoting at A counterclockwise. The pivoting of the minute unit feeler lever 64 signifies the pivoting in A counterclockwise of the detection rocker 68 and therefore the pivoting in A counterclockwise of the strike rocker 41, and therefore of the strike feeler lever 38 which comes into contact with the seconds cam 34 linked to the drive wheel 2. The display members for hours 20 and tens of minutes 18 having remained in the 0 display position, the hour feeler lever 80 remains engaged in the notch 82 of the hours cam 78, and the tens of minutes feeler lever 74 remains engaged in the notch 76 of the tens of minutes cam 72. With the pivoting of the striking lever 41 and its arm 42, the ringing stop lever 44 is arranged to begin to disengage from the stop star 32 by pivoting clockwise around its pivot D, and the foot 46b of the third arm 46 of the lever ringtone 41 is practically released from the first nozzle 60a of the third th arm 60 of the end of ringing rocker 50. The countdown continues via the drive wheel 2 driven by the chronograph driving mobile unit 1 so that the seconds display unit continues to rotate counterclockwise with the second cam 34.
Referring to Figure 7, the display members of hours 20, tens of minutes 18 and units of minutes 16 always displaying 0, when the seconds display member displays the determined time before the end. countdown, for example 20 seconds, the seconds cam 34 is positioned so that the nose 38a of the strike feeler lever 38, being in contact with the seconds cam 34, engages the start 36a of the notch 36 of said second cam 34 by pivoting at A counterclockwise. The pivoting of the ringing feeler lever 38 means the anti-clockwise pivoting in A of the ringing lever 41 and in particular of its arm 42 so that the ringing stop lever 44 is released from the stop star 32 by pivoting clockwise around its pivot D, and releases it. The element 30 of the striking gear being released, the bell begins to ring at the determined duration before the end of the countdown.
Thus, the anti-clockwise pivoting of the hour feeler lever 80, then of the tens of minutes feeler lever 74, then of the minute unit feeler lever 64, when it engages in the notch of its respective cam signifies the pivoting in A of the set of detection 68 and ringing flip-flops 41 in the counterclockwise direction, so that said feeler levers progressively approach their respective cam until they come into contact with their respective cam in order to be able to engage in the associated notch when their respective display member displays zero, and so that the strike feeler lever 38 also gradually approaches the seconds cam 34 until it comes into contact with said seconds cam 34 to be able to fall into the notch 36 when the countdown arrives at the determined time before the end of the countdown in order to trigger the ringing.
In parallel, the third arm 46 of the ringing rocker 41 has also pivoted in A so that its foot 46b is released entirely from the first spout 60a of the third arm 60 of the end of ringing rocker 50. The rocker of ringing end 50 is then released and rotates counterclockwise around B so that the nose 40a of the ringing end feeler lever 40 comes into contact with the second cam 34.
The display members for hours 20, tens of minutes 18 and minute units 16 having remained in the 0 display position, the hours feeler lever 80 remains engaged in the notch 82 of the cam of hours 78, the tens of minutes feeler lever 74 remains engaged in the notch 76 of the tens of minutes cam 72, and the minute units feeler lever 64 remains engaged in the notch 66 of the minute units cam 62. The countdown continues via the drive wheel 2 driven by the chronograph driving mobile unit 1 so that the seconds display member continues to rotate counterclockwise with the seconds cam 34.
Referring to Figure 8, when the count ends and reaches zero, the display members of hours 20, tens of minutes 18 and units of minutes 16 still displaying 0, the display member seconds is positioned with the seconds cam 34 to display 0, the ringing being still in progress. The circular length of the notch 36 of the seconds cam 34 is such that when the 0 is displayed at the end of the countdown, the beak 40a of the ringing end feeler lever 40, being in contact with the ringing cam. second 34, engages the start 36a of notch 36 of said second cam 34 by pivoting at B in the counterclockwise direction. The nose 38a of the ringing feeler lever 38 has reached the end 36b of the notch 36.
The pivoting of the end of ringing feeler lever 40, fallen into the notch 36 of the second cam 34 at the end of the countdown, means the pivoting in B in the counterclockwise direction of the end of ringing rocker 50, and in particular of its arm 54, so that the hook 56 carried by the arm 54 releases the control lever 19 in order to act on the control device 12 to control a rotation of the column wheel 14 in order to disengage the clutch device 6.
Referring to Figure 9, the control lever 19, released, pivots sufficiently so that its pin 23 comes, in its course, to cooperate with the locking hook 22 so as to rotate it in the counterclockwise direction. The locking hook 22 having separated from the hook 15b of the secondary control 15 then goes into the unlocked state. The secondary control 15 is then also in the unlocked state, disconnected from the main control 13, so that, thanks to the energy supplied by the elastic member which disarms, said secondary control 15, released, pivots alone in the clockwise by operating, by its hook 15a, the first drive wheel 14a of the column wheel 14 in the counterclockwise direction. This corresponds to an automatic STOP, during which the column wheel 14 is actuated automatically only by the secondary control 15, the main control 13 and the second drive wheel 14c having remained stationary, and the elastic coupling element. between the two drive wheels 14a, 14c having clicked.
The rotation of the column wheel 14 controls the closing of the clutch clamps 8 and 10, so as to disengage the second wheel 4 and the chronograph drive mobile 1, which causes the stopping of the wheel. drive 2 and the second cam 34. When closing the clutch clamp 10, the pin 48 of said clutch clamp 10 returns to the initial position by pressing on the heel 46a of the arm 46 of the striking lever 41 and on the spout 60b of the arm 60 of the end of ringing rocker 50, so that said ringing 41 and end of ringing 50 rockers, and more particularly the ringing sensor lever 38 and the ringing end sensor lever 40, respectively pivot in A and B in the clockwise direction and disengage from the seconds cam 34. With this pivoting of the striking lever 41, and therefore of its arm 42, at the same time as the disengagement of the chronograph mechanism, bell stop rocker 44 swivels counterclockwise around of its pivot D to again cooperate with the stop star 32 and stop the element 30 of the striking gear. Thus, the ringing is stopped at the same time as the end of the countdown.
For a next countdown, the display members 16, 18, 20 will again be positioned according to the predetermined time interval for the countdown and the control device 12 is arranged to be positioned in a position ready to operate at the time of the next START. More particularly here, the automatic function of the secondary control 15 is made operational again for the next use of the chronograph, thanks to the passage of the locking mechanism in its locked position when the next START is triggered following a further pressure of the. user on the control unit11, before returning to the locked state. Indeed, when a user triggers a new START, the secondary control 15 being in its unlocked state, only the main control 13 switches to actuate the column wheel 14, its hook 13a actuating the second drive wheel 14c, it- same driving the first drive wheel 14a, and therefore the columns 14b, via the coupling produced by the elastic coupling element, as described above, in order to control a new opening of the clamps 8 and 10.
In parallel, the main control 13 by tilting allows the resetting of the elastic member connecting it to the secondary control 15. On the other hand, during the tilting of the main control 13, its pin 21 comes, in its stroke , cooperate with the control lever 19, so as to cause it to pivot into the locking position, by retracting the hook 56. When it is pivoted, the control lever 19 is rearmed. At the same time, the locking hook 22, on board the main control 13, comes into contact with the hook 15b of the secondary control 15, causing its release in the counterclockwise direction to pass into the locking position. At the end of the tilting of the main control 13, the locking hook 22 returns to engage in the hook 15b of the secondary control 15 to return to the locked state. The elastic member between the main control 13 and the secondary control 15 is fully reset.
It is of course possible to make a STOP & START during the count.
It is possible to provide a similar mechanism by removing the display of the hours and the elements linked to the countdown of the hour if it is desired to count only the minutes and seconds.
It is also possible, according to another embodiment, not to count down the seconds and to have a first display member arranged to display a countdown of units of minutes, the first cam 34 linked to the first display member then being arranged to make one turn in ten minutes and the circular length of its notch can be chosen to trigger the ringing a few minutes before the end of the countdown.
In this case, it is considered that the first and second display members are merged, that the first and second cams are merged and that there is provided a third display unit for tens of minutes arranged to display the count countdown for tens of minutes as described above. The striking mechanism then comprises a third cam for tens of minutes associated with said third display member for tens of minutes, and a fourth feeler lever for tens of minutes arranged to be able to cooperate with said third cam for tens of minutes, said third cam tens of minutes being programmed to indicate to the fourth feeler lever tens of minutes the end of the tens of minutes countdown, said fourth feeler lever tens of minutes being arranged to cooperate directly with the first ringing feeler lever, coincident with the lever unit minute probe, so that said first ringing feeler lever cooperates with said first cam at the end of the countdown of tens of minutes. The rest of the mechanism is the same as described above.
FIG. 10 shows a variant of the movement according to the invention, in which the first ringing sensor lever 38, the third sensor lever for units of minutes 64, the fourth sensor lever for tens of minutes 74 and the fifth feeler lever for hours 80 form a single lever.
The first ringing feeler lever 38 is also integral with two other arms, not shown, corresponding to the arms 42 and 46 of the first example, so that the whole assembly can form a single lever.
The functional elements identical to the elements of the movement of FIG. 1 are shown with the same references.
In the variant shown in Figure 10, there is provided the second cam 34 linked to the seconds display member and to the drive wheel 2. The second cam 34 comprises the notch 36 defining the determined ringing time before the end of the countdown. Also provided are the minute units display member 16 associated with the minute units cam 62 comprising its notch 66, the tens of minutes display member 18 associated with the tens of minutes cam 72 comprising its notch. two notches 76, and the hours display member 20 associated with the hours cam 78 including its notch 82.
The hours feeler lever 80 is arranged to be able to cooperate with the hours cam 78 and fall into the notch 82 when the hours display member 20 displays zero. Said hour feeler lever 80 carries on its arm, the tens of minutes feeler lever 74, disposed substantially perpendicular to the hours feeler lever 80. The tens of minutes feeler lever 74 carries at its end a pin 75 arranged to come into contact substantially tangentially the tens of minutes cam 72 and fall into one of the notches 76 when the tens of minutes display member 18 displays zero. The minute units feeler lever 64 is arranged to be able to cooperate with the minute units cam 62 and fall into the notch 66 when the minute units display member 16 displays zero. The ringing feeler lever 38 is arranged to be able to cooperate with the second cam 34 and fall into the notch 36 when the countdown arrives at the determined time before the end of the countdown to trigger the ringing.
The ringing feeler lever 38, the minute unit feeler lever 64 and the hour feeler lever 80 are integral with each other by their end opposite to their feeler so as to form the different arms of a single and single rocker mounted pivoting in A. Thus, as described above, the anti-clockwise pivoting of the hours feeler lever 80, then of the tens of minutes feeler lever 74, then of the minute units 64 feeler lever, when it engages in the notch of its respective cam means the pivoting of the assembly of the rocker in the counterclockwise direction, so that said feeler levers gradually approach their respective cam until they come into contact with their respective cam to be able to engage in the associated notch when their respective display member displays zero, and so that the bell feeler lever 38 also gradually approaches the seconds cam 34 until Friday. ir in contact with said second cam 34 in order to be able to fall into the notch 36 when the countdown arrives at the determined duration before the end of the countdown in order to trigger the ringing.
The end of ringing rocker (not shown) is identical to the rocker 50 of the first example.
In another embodiment of the invention according to Figures 12 to 21, the chronograph mechanism is arranged so that the first seconds display member, that is to say the chronograph second hand, continues to turn after the buzzer automatically stops and after the end of the countdown of the predetermined time interval.
The elements common to the embodiment of Figures 1 to 9 are shown with the same references.
[0103] Said mobile chronograph driver 1 is arranged to be able to be kinematically connected to the second wheel 4 of the basic watch movement indicating the current time by the vertical clutch device 6. Said vertical clutch device 6 comprises a clamp. clutch control 8 and a clutch clamp 10 arranged to move apart when the chronograph is activated in order to start a countdown, so as to engage the second wheel 4 and the chronograph driving wheel 1. clamps 8 and 10 is controlled in the traditional manner by a standard column wheel control device 14, actuated for example by a push-button of the push-button 11, to perform manually and in a conventional manner the start / stop control of the chronograph mechanism.
The display means arranged to display the hour, the tens and the units of minutes remaining until the end of the countdown of the predetermined time interval are similar to those described above.
Only the minutes units cam 62 are shown with its notch 66, associated with the minute units display member, the minute units feeler lever 64 pivotally mounted in G, the tens of minutes cam 72 with its notches 76, associated with the tens of minutes display member, the tens of minutes feeler lever 74, the hours cam 78 with its notch 82, associated with the hours display member, superimposed the tens of minutes cam 72, and the hour feeler lever 80, superimposed on the tens of minutes feeler lever 74.
The tens of minutes feeler lever 74 and the hours feeler lever 80 form the arms of a detection lever 90 pivotally mounted in H, like the detection lever 68 of the first embodiment. In this embodiment, the detection rocker 90 comprises a third arm 92 opposite the feeler lever for tens of minutes 74 with respect to H, so that a clockwise pivoting in H of the feeler lever for tens of minutes 74 , falling into one of the notches 76 of the tens of minutes cam 72, causes an H-shaped pivot, in the clockwise direction, of the third arm 92 of the detection lever 90. At the end of the third arm 92 of the A detection rocker 90 is provided with a pin 94 arranged to cooperate with a nose 96 of the minute unit feeler lever 64. Thus, an H-shaped pivoting in the clockwise direction of the detection rocker 90 and of its arm 92 causes a pivoting in G, counterclockwise, of the third minute units feeler lever 64 to come into contact with the minute units cam 62.
As in the first embodiment above, the minute unit feeler lever 64 is arranged to be positioned in the notch 66 of the minute unit cam 62 when the hour display members, tens of minutes and units of minutes will all display 0, that is to say from the moment when there is less than one minute left to count down.
[0108] The striking mechanism comprises the first second cam 34. In this embodiment, the construction of the mechanism is made so that the first second cam 34 and the first display member to display a count of seconds, that is to say the chronograph second hand, are carried directly by the axis of the chronograph driving wheel 1.
Referring to Figure 12, the second cam 34 comprises the notch 36 whose circular length corresponds to the determined duration of the ringing before the end of the countdown of the predetermined time interval, the start of the notch 36 corresponding to the triggering of the ringing, and the end of the notch 36 corresponding to the stopping of the ringing. For example, the length of the notch 36 may correspond to a duration of 20 seconds before the end of the countdown of said predetermined time interval.
[0110] The striking mechanism also comprises a first striking rocker 100 pivotally mounted at A and comprising a first arm constituted by the first striking feeler lever 38 arranged to be able to cooperate with the first cam 34 and the striking gear to trigger the ringing at the start of the determined time before the end of the countdown of said predetermined time interval.
More specifically, the first ringing feeler lever 38 has a beak 38a arranged to be able to come into contact with the first second cam 34 and then engage in its notch 36 at the time of ringing. The ringing latch 100 is subjected to its spring 101.
As in the first embodiment, said ringing rocker 100 comprises a second arm 42 arranged to control the ringing stop rocker 44 pivotally mounted in D, a pin 43 integral with the second arm 42 ensuring the connection with said flip-flop 44 via an oblong opening 45, said ringing stop flip-flop 44 itself being designed to be able to cooperate with the stopping star 32 of the striking gear.
[0113] The striking rocker 100 comprises a third arm 102 carrying a pin 104 arranged to be able to cooperate with the clutch control clamp 8. More specifically, the clutch control clamp 8 presses on the pin 104 when is in the closed position.
[0114] In addition, the third feeler lever of the minute units 64 is arranged to cooperate with the first strike feeler lever 38, via the third arm 102 of the strike rocker 100, so that the spout 38a of the first strike feeler lever 38 comes into contact with the first seconds cam 34 at the end of the minute units countdown, when the hours, tens of minutes and minute units all display 0.
[0115] More particularly, the minute unit feeler lever 64 comprises a foot 64a arranged to press on a beak 106 of the third arm 102 of the striking rocker 100 so as to retain the first ringing sensor lever 38 away from the cam of second 34 until the end of the countdown of the units of minute.
The ringing rocker 100 comprises a fourth arm 108 arranged to be able to cooperate with the end of ringing mechanism to control the automatic stopping of the ringing at the end of said determined duration at the same time as the end of the countdown said predetermined time interval.
To this end, the ringing end mechanism comprises an ringing end rocker 110 pivotally mounted at E, and arranged to cooperate with the first ringing rocker 100. More specifically, the ringing end rocker 110 comprises a first arm 111 terminated by a spout 112 and carrying a pin 113 arranged to cooperate with the hook-shaped end 114 of the fourth arm 108 of the first ringing rocker 100. The ringing end rocker 110 comprises a second arm 115 arranged to cooperate with a pin 116 carried by the clutch clamp 10. The end of ringing rocker 110 is subjected to its spring 118.
The ringing end mechanism also comprises a ringing stop cam 120 kinematically linked to said mobile chronograph driver 1 and arranged to control the ringing end rocker 110, and therefore the first ringing rocker 100, in order to automatically stop the buzzer at the end of the countdown of said predetermined time interval, and this without disengaging the clutch device 6.
Advantageously, the ringing stop cam 120 is coaxial with the second cam 34 and integral in rotation with the latter. It includes a spout 120a.
[0120] In order to be able to control the end of ringing rocker 110 by means of the ringing stop cam 120 to automatically stop the ringing, the end of ringing mechanism comprises a rocker hook 122 mounted to pivot at F, its pivot axis passing through the striking lever 100 by means of an opening provided for this purpose. Said rocker hook 122 comprises a first arm 124 arranged to be able to cooperate with the beak 120a of the strike stop cam 120 and a pin 126 arranged to cooperate with the fourth arm 108 of the first strike rocker 100 in order to rotate in F the rocker hook 122 so as to position its arm 124 in the radius of gyration of the beak 120a of the striking stop cam 120 when the first striking rocker 100 pivots at A in the counterclockwise direction to bring the beak 38a of the first ringing feeler lever 38 in contact with the first second cam 34.
[0121] The rocker hook 122 comprises a second hook-shaped arm 128 arranged to cooperate with the beak 112 of the end of ringing rocker 110 in order to lock said end of ringing rocker 110 and to be able to release it when said hook rocker 122 is actuated by ringing stop cam 120.
[0122] The rocker hook 122 is subjected to its spring 130.
The operation of the mechanism according to this embodiment is as follows: the starting STOP position is shown in FIG. 12, in which the countdown chronograph mechanism and the striking mechanism are inactive. It is considered that the various display members for the hours, tens of minutes, units of minutes and seconds have been positioned to display the predetermined time interval for the countdown. Only the second wheel 4 of the basic watch movement turns.
[0124] The control member of the control device is pushed by a user to trigger the START so that the column wheel 14 rotates so as to open the clutch control clamp 8 and the clutch clamp 10 in order to to engage the second wheel 4 and the mobile chronograph trainer 1.
[0125] When opening the clutch clamp 10, its pin 116 resting on the second arm 115 of the end of ringing rocker 110 causes said end of ringing rocker 110 to return to its initial position so that 'it is locked in position by the rocker hook 122.
[0126] The opening of the clutch control clamp 8 releases the striking lever 100, its third arm 102 no longer being retained by the clamp 8 until then resting on the pin 104.
[0127] As in the first embodiment, the striking rocker 100 rotates around A in the counterclockwise direction, so that the first strike feeler lever 38, as well as the minute unit feeler lever 64, and the others Tens of minutes and hours feelers, which were moved away from their respective cam to allow the adjustment of the display members for the countdown, pivot to approach slightly their respective cam. However, said striking lever 100 is kept away from the second cam 34 by the foot 64a of the minute units feeler lever 64 resting on the beak 106 of the third arm 102 of the striking lever 100.
[0128] The counting is carried out in the same way as described above for the first embodiment, the chronograph driving wheel set 1, engaged with the second wheel 4, carrying the first second cam 34 and the second cam 34 and the second cam. bell stop 120 to rotate them counterclockwise. The display devices for the hours, tens of minutes and units of minutes are also driven with their respective cam each time the second hand goes to 0 carried by the chronograph driving mobile unit 1. The H-pivoting in the clockwise direction of the Detection rocker 90 and its arm 92 causes pivoting in G, counterclockwise, of the minute units feeler lever 64 which gradually approaches the minute units cam 62 until it comes into contact with the latter when 'There are less than ten minutes left to count.
[0129] With reference to FIG. 13, when there is one minute left to count down, the display members for the hours and tens of minutes display 0, and the display member for the units of minutes does not yet display. 0 so that the minute unit feeler lever 64, in contact with the minute unit cam 62, is not yet engaged in the notch 66 of said minute unit cam 62. In this position, the lever strike sensor 38 is still not in contact with the seconds cam 34, the beak 106 of the third arm 102 of the strike lever 100 still being retained by the foot 64a of the minute unit feeler lever 64. In this position , the ringing latch 100, by its second arm 42, keeps the striking gear stopped, the ringing stop latch 44 being engaged in the stop star 32.
[0130] Furthermore, the rocker hook 122 is remote from the ringing stop cam 120.
[0131] With reference to FIG. 14, when there is less than a minute to count down, the display members for the hours and tens of minutes still displaying 0, the display member for the units of minutes is positioned. to display 0 so that the minute units feeler lever 64, being in contact with the minute units cam 62, engages the notch 66 of said minute units cam 62 by pivoting in G in the direction counterclockwise.
[0132] By pivoting, the foot 64a of the minute unit feeler lever 64 releases the third arm 102 and therefore the striking lever 100 so that said striking lever 100, under the action of its spring 101, pivots at A counterclockwise, the beak 38a of the ringing feeler lever 38 then comes into contact with the maximum radius of the seconds cam 34 carried by the chronograph driving wheel 1.
[0133] During the pivoting of the ringing latch 100 and therefore of its second arm 42, the ringing stop latch 44 is arranged to begin to disengage from the stop star 32 by pivoting clockwise around of its pivot D. The countdown continues via the mobile chronograph trainer 1 so that the seconds display unit continues to rotate counterclockwise with the seconds cam 34.
[0134] With reference to FIG. 15, the display members for hours, tens of minutes and units of minutes always display 0, when the seconds display member displays the determined time before the end of the count at countdown, for example 20 seconds, the seconds cam 34 is positioned so that the nose 38a of the strike feeler lever 38, being in contact with the seconds cam 34, engages in the notch 36 of said seconds cam 34. Dropping into notch 36, bell feeler lever 38 again pivots counterclockwise at A. The pivoting in A of the ringing feeler lever 38 means the pivoting in A in the counterclockwise direction of the ringing lever 100 and in particular of its second arm 42 so that the ringing stop lever 44 is released from the star d 'stop 32 by pivoting clockwise around its pivot D, and releases it. With the chime gear released, the chime begins to chime at the set time before the end of the countdown.
[0135] In parallel, the fourth arm 108 of the striking rocker 100 has also rotated counterclockwise so that it causes the rocking hook 122 to tilt, via its pin 126, clockwise around its pivot. F so that its arm 124 enters the radius of gyration of the beak 120a of the striking stop cam 120 carried by the chronograph driving mobile unit 1.
By pivoting in F in the clockwise direction, the arm 128 of the rocker hook 122 is released slightly from the spout 112 of the end of ringing rocker 110.
[0137] With reference to FIG. 16, when the countdown ends and reaches practically zero, for example 5 seconds before the end of the countdown, the seconds display member is positioned with the seconds cam 34 and the cam ringing stop 120 to display for example 5, the ringing being still in progress. The positioning of the beak 120a of the stop cam 120 is such that said beak 120a comes into contact with the arm 124 of the rocking hook 122 in order to be able to drive it in rotation in F in the clockwise direction.
[0138] The nose 38a of the ringing feeler lever 38 has reached the end of the notch 36.
[0139] With reference to FIG. 17, when the countdown ends and reaches zero, the display units for hours, tens of minutes and units of minutes always display 0, the display unit for seconds is displayed. position with seconds cam 34 and bell stop cam 120 to display 0.
[0140] The rocker hook 122 and the beak 120a of the ringing stop cam 120 are configured so that, when the 0 is displayed at the end of the countdown, the rocker hook 122 controlled by the cam d ring stopper 120 has tilted F clockwise enough for its arm 128 to release spout 112 from ringing stop rocker 110.
[0141] The end of ringing latch 110 is then released and pivots at E in the counterclockwise direction, under the action of its spring 118.
[0142] The pivoting of the end of ringing rocker 110 at the end of the countdown signifies the anti-clockwise pivoting of its first arm 111, so that the pin 113 carried by said arm 111 drives the end in hook shape 114 of the fourth arm 108 of the ringing rocker 100 to rotate said ringing rocker 100 in A clockwise. This clockwise pivoting of the striking rocker 100 in A makes it possible to release the strike feeler lever 38 from the second cam 34. In parallel, during this pivoting in A of the striking rocker 100 in the clockwise direction, and therefore with its arm 42, at the same time as the end of the count, the ringing stop latch 44 is driven by the arm 42 to pivot counterclockwise around its pivot D to come again to cooperate with the star stop 32 and stop the ringing gear. Thus, the ringing is stopped at the same time as the end of the countdown.
[0143] With reference to FIG. 18, once the ringing has stopped, the seconds display member, that is to say the chronograph second hand, continues its course with the seconds cam 34 and the cam d strike stop 120 counterclockwise so that spout 120a of said strike stop cam 120 passes arm 124 of rocker hook 122 and releases it. Once released, the rocker hook 122 pivots in an F counterclockwise direction, under the action of its spring 130, until its second hook-shaped arm 128 comes to rest on the arm 111 of the rocker. end of strike 110. Thus the rocker hook 122 leaves the radius of gyration of the strike stop cam 120, which makes it possible to avoid any unnecessary consumption of energy when the second hand continues its travel while waiting for a manual stop of the ringing. chronograph mechanism.
[0144] With reference to FIGS. 19 and 20, when the user manually stops the chronograph mechanism to stop the second hand, he presses on the control member of the chronograph mechanism to trigger STOP, so that the column wheel 14 rotates so as to close the clutch control clamp 8 and the clutch clamp 10 in order to disengage the clutch device 6 to disengage the second wheel 4 and the chronograph driving wheel 1. As shown in figure 19 , when the clutch clamp 10, which was in the open position, closes, it pivots clockwise so that its pin 116 drives the second arm 115 of the ringing end lever 110 so as to rotate said lever end of ringing 110 in E in the clockwise direction, and also the rocker hook 122 resting on said end of ringing rocker 110.
[0145] When the clamps 8, 10 are closed as shown in Figure 20, the end of ring rocker 110, having finished its stroke, remains held by the pin 116 of the clutch clamp 10. The end of rocker bell 110 will be locked by the arm 128 of the rocker hook 122 returning to its initial position by pivoting in F counterclockwise under the action of its spring 130 when the bell latch 100, released by the opening of the control clamp clutch 8 at the next start of the countdown, will pivot in A counterclockwise under the action of its spring 101.
[0146] It is of course possible to make a STOP for example during the countdown and the ringing, the mechanism then being in a configuration similar to that of FIG. 15 or 16. In this configuration, the clutch control clamp 8 is not in contact with the bell latch 100, since it is in the open position and does not press on the pin 104 of the third arm 102 of the ringer latch 100. Referring to Figure 21, when the user stops the countdown, the clamps 8 and 10 close, controlled by the column wheel 14. The clutch control clamp 8 rotates counterclockwise to press on the pin 104 of the third arm 102 of the striking rocker 100 so that said ringing flip-flop 100 rotates at A in the clockwise direction. This clockwise pivoting of the striking rocker 100 in A makes it possible to release the strike feeler lever 38 from the second cam 34. In parallel, during this pivoting in A of the striking rocker 100 in the clockwise direction, and therefore with its arm 42, the ringing stop lever 44 is driven by said arm 42 to pivot counterclockwise around its pivot D to again cooperate with the stop star 32 and stop the gear train. alarm. Thus, the ringing is stopped. At the next start of the countdown without prior adjustment of the display devices to display a countdown, the various parts will resume their position before the next STOP.
The present invention makes it possible to have a countdown chronograph mechanism provided with a striking mechanism which is triggered before the end of the countdown from a predetermined time interval to a predefined duration before the end of the count. backwards, in order to warn a user that the countdown in progress of said predetermined time interval will come to an end. Thus, the present invention makes it possible to have a countdown having a pre-alarm using a mechanical ringing, the end of the ringing being synchronized with the end of the countdown of said predetermined time interval. According to the variants, the chronograph mechanism can stop at the end of the countdown of said predetermined time interval or remain activated so that the chronograph second hand continues to rotate without triggering a chime.

权利要求:
Claims (14)
[1]
1. Mechanical watch movement comprising a chronograph mechanism arranged to be able to perform at least one countdown of a predetermined time interval, comprising display means arranged to display at least the time remaining until the end of the countdown. countdown of said predetermined time interval, at least one control member (11) for the start of the countdown, and a striking mechanism, characterized in that said striking mechanism is arranged to start ringing at a determined duration before the end countdown and to finish ringing with the end of said countdown of said predetermined time interval.
[2]
2. Movement according to claim 1, characterized in that the chronograph mechanism comprises at least one mobile chronograph driver (1) arranged to be able to perform a countdown, and in that the striking mechanism comprises at least a first cam ( 34) kinematically linked to said mobile chronograph trainer (1) and on which is programmed said determined duration before the end of the countdown of the predetermined time interval, said first cam (34) being arranged to make one revolution over a longer duration at the time determined before the end of the countdown of said predetermined time interval, a striking gear, a first striking latch (41; 100) comprising a first striking feeler lever (38) arranged to be able to cooperate with said first cam (34) and said striking gear for triggering the bell at the start of the determined duration before the end of the countdown of said predetermined time interval and a mechanism for e end of ringing arranged to be able to cooperate with said first ringing latch (41; 100) to order the stopping of the ringing at the end of said determined duration at the same time as the end of the countdown of said predetermined time interval.
[3]
3. Movement according to the preceding claim, characterized in that the display means of the chronograph mechanism comprise a first display member associated with the first cam (34) for displaying a countdown obtained via the mobile chronograph driver (1 ).
[4]
4. Movement according to one of claims 2 and 3, characterized in that the first display member is arranged to display a countdown of units of minutes.
[5]
5. Movement according to one of claims 2 and 3, characterized in that the first display member is arranged to display a countdown of seconds.
[6]
6. Movement according to claim 5, characterized in that the display means of the chronograph mechanism comprise a second display member of the units of minutes (16) arranged to display the countdown of the units of minutes of said time interval. predetermined and in that the striking mechanism comprises a second minute unit cam (62) associated with said second minute unit display member (16), and a third minute unit feeler lever (64) arranged to be able to cooperating with said second minute units cam (62), said second minute units cam (62) being programmed to indicate to the third minute unit feeler lever (64) the end of the minute units countdown, said third lever minute unit feeler (64) being arranged to cooperate with the first strike feeler lever (38) so that said first strike feeler lever (38) cooperates with the first cam (34) to the end of the count of the units of minutes.
[7]
7. Movement according to claim 6, characterized in that the display means of the chronograph mechanism comprise a third display member of tens of minutes (18) arranged to display the countdown of tens of minutes of said time interval. predetermined and in that the striking mechanism comprises a third tens of minutes cam (72) associated with said third tens of minutes display member (18), and a fourth tens of minutes feeler lever (74) arranged to be able to cooperate with said third tens of minutes cam (72), said third tens of minutes cam (72) being programmed to indicate to the fourth tens of minutes feeler lever (74) the end of the tens of minutes countdown, said fourth lever tens of minutes feeler (74) being arranged to cooperate with the third minute unit feeler lever (64) so that said third minute unit feeler lever (64) cooperates with said second minute unit cam (62) at the end of the countdown of tens of minutes.
[8]
8. Movement according to claim 4, characterized in that the display means of the chronograph mechanism comprise a third display member of tens of minutes arranged to display the countdown of tens of minutes of said predetermined time interval and in that the striking mechanism comprises a third tens of minutes cam (72) associated with said third tens of minutes display member, and a fourth tens of minutes feeler lever (74) arranged to be able to cooperate with said third cam of the tens of minutes tens of minutes (72), said third tens of minutes cam (72) being programmed to indicate to the fourth tens of minutes feeler lever (74) the end of the tens of minutes countdown, said fourth tens of minutes feeler lever ( 74) being arranged to cooperate with the first ringing feeler lever (38) so that said first ringing feeler lever (38) cooperates with said p rst cam (34) at the end of the tens of minutes countdown.
[9]
9. Movement according to one of claims 7 and 8, characterized in that the display means of the chronograph mechanism comprise a fourth hour display member (20) arranged to display the countdown of the hours of said interval of predetermined time and in that the striking mechanism comprises a fourth hour cam (78) associated with said fourth hour display member (20), and a fifth hour feeler lever (80) arranged to be able to cooperate with said fourth cam hours (78), said fourth hour cam (78) being programmed to indicate to the fifth hour sensor lever (80) the end of the hour countdown, said fifth hour sensor lever (80) being arranged to cooperate with the fourth tens of minutes feeler lever (74) so that said fourth tens of minutes feeler lever (74) cooperates with said third tens of minutes cam (72) at the end of the hour count.
[10]
10. Movement according to claim 9, characterized in that the third sensor lever of the units of minutes (64), the fourth sensor lever tens of minutes (74) and the fifth sensor lever hours (80) form a single rocker.
[11]
11. Movement according to claim 10, characterized in that the first sensor ringing lever (38), the third sensor lever minutes units (64), the fourth sensor lever tens of minutes (74) and the fifth sensor lever hours (80) form a single flip-flop.
[12]
12. Movement according to one of the preceding claims, characterized in that the chronograph mechanism is configured to be able to be kinematically connected to a basic movement by a clutch device (6) lateral or vertical.
[13]
13. Movement according to claim 12, characterized in that the end of ringing mechanism comprises an end of ringing rocker (50) comprising a second end of ringing feeler lever (40) arranged to be able to cooperate with the first cam (34) ) for controlling a disengagement of the clutch device (6) and the stopping of the buzzer at the end of the countdown of said predetermined time interval.
[14]
14. Movement according to claim 12, characterized in that the ringing end mechanism comprises an ringing end rocker (110) arranged to cooperate with the first ringing rocker (100) and a ringing stop cam (120 ) kinematically linked to the mobile chronograph trainer (1) and arranged to control said end of ringing rocker (110) in order to stop the ringing at the end of the countdown of said predetermined time interval without disengaging the clutch device (6) ).

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同族专利:

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公开号 | 公开日

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WO2021219646A1|2021-11-04|

引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

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US989807A|1909-06-30|1911-04-18|Guy W Robins|Time-indicator.|

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US1153466A|1915-02-11|1915-09-14|Albert Tuerk|Culinary timing apparatus.|

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FR1154660A|1955-12-26|1958-04-15|Time counter for telephone communications|

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CH704732A2|2011-03-22|2012-09-28|Imh Sa Innovation Manufactures Horlogeres Sa|Chronograph countdown to ring.|

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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EP20172014|2020-04-29|

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