CH707635A2 - Striking mechanism for clockwork movement of watch, has striking control cam comprising jumps at angular positions and cooperating with feeler such that each of jumps corresponds to passage of rack tooth by corresponding hammer tooth - Google Patents

Abstract

The mechanism has a drive spring armed to drive a hammer (4) against a gong (100). A striking rack (6) is mounted to move in rotation, and comprises hammer drive teeth to generate a strike of the hammer against the gong. A feeler (18) is mounted with the rack in a coaxial way, and rotates the rack. A striking control cam with an outer profile includes jumps (21-24) provided at successive angular positions of the cam. The cam cooperates with the feeler such that each of the jumps corresponds to a passage of a tooth of the rack by a corresponding tooth of the hammer.

Description

Technical area

The present invention relates to a striking mechanism of a watch, comprising a stamp, connected to a stamp holder, a hammer adapted to hit the stamp at predetermined times, a hammer drive spring, capable of 'to be armed to drive the hammer against the stamp, a ring rake, rotatably mounted and having a hammer drive toothing capable of generating at least one strike of said hammer against the stamp, a feeler rotatably mounted coaxial with the ring rake, and rotating said rake.

State of the art

EP 2 485 097 discloses a striking mechanism of a watch provided with a hammer locking device. The mechanism comprises at least one hammer arranged to strike at least one stamp attached to a stamp holder at specific times. Said hammer is kept away from the stamp by a damper counter-spring in a rest mode while being blocked by the locking device. A hammer driving spring of the mechanism may be configured as a resilient beam or blade. This drive spring may be cocked to drive said hammer against the bell in a bell mode, to acoustically signal for example a programmed time period. The locking device is arranged to lock the hammer after a single hammer strike against the stamp in the ring mode.

[0003] Document EP 2 133 759 describes a striking timepiece, for example a minute repeater watch arranged to prevent an untimely time setting from the control rod during the operation of the ringing device. damage the mechanism. A disengagement device is specifically provided for this purpose.

In all these types of known devices, the ring modes are pre-established during the design of the watch, and can not be modified or adapted in any way. The user can not customize the ringtone according to his wishes or needs.

Brief summary of the invention

An object of the present invention is to provide a striking mechanism free from the limitations of known mechanisms.

Another object of the invention is to provide a striking mechanism providing greater flexibility and opportunities for evolution or adaptation.

Another object of the invention is to provide a modular bell mechanism by means of a simple and quick manipulation of the user.

According to the invention, these objects are achieved in particular by means of a striking mechanism of a watch, comprising: - a stamp, connected to a stamp holder, - a hammer, adapted to hit the timbre at predetermined times; - A hammer drive spring, capable of being armed to drive the hammer against the stamp; - A ring rake, rotatably mounted and having a hammer drive gear capable of generating at least one strike of said hammer against the stamp; A feeler rotatably mounted coaxially with the striking rake and rotating said rake; The mechanism furthermore comprising an external profile striking cam having a plurality of jumps, provided at successive angular positions of the cam, said cam cooperating with the feeler so that each of the cam jumps corresponds to the passage of a tooth of the rake by a corresponding tooth of the hammer.

This solution has the advantage over the prior art to provide a time passage mode (or other period) easily perceptible and well distinct single-key strokes widely received.

According to an advantageous embodiment, the external profile of the ringing control cam comprises a plurality of angular sectors of substantially constant radius cams separated by the jumps and arranged angularly of the first sector, with the largest radius, at the last sector, with the smallest radius, the largest radius corresponding to the first tooth-to-rake, and the last radius corresponding to the last tooth-to-rake.

Such an architecture can provide a precise and reliable control without significant friction and energy loss.

According to another advantageous embodiment, the striking mechanism further comprises a ring number selector, comprising a control lever, extending out of the watch case so as to be accessible to a user, said control lever cooperating by tilting with a rotary selector, allowing, by controlling the user lever, to select the number of rings desired by a user.

This selector allows the user to customize the number of ringtones to his choice. The selection of the ring number is simple and fast.

Advantageously, a ringer indicator, on which indications corresponding to the actual number of ringtones selected, is mounted coaxially with the ring of selection of ringtones. The indications of the ringer indicator are visible by the user by a -temoin »Surle-dial ± 'user makes-thusHaselection-of-the-ringtones with ease, being informed of the number of ringer programmed.

The invention also provides a watch movement comprising a ring mechanism as previously described.

Brief description of the figures

Examples of implementation of the invention are indicated in the description illustrated by the appended figures in which: <tb> fig. 1 <SEP> illustrates a perspective view of an example of a watch striking mechanism according to the invention in which part of the elements of the mechanical chain are visible; <tb> figs. 2a and 2b <SEP> make it possible to highlight the other elements of the striking mechanism of FIG. 1; <tb> fig. 3 <SEP> shows a partial view of the mechanism, in particular of the number of rings; <tb> figs. 4a to 4e <SEP> show the evolution of the respective position of the various elements of the assembly during the execution of a cycle, first of all before the passage of the teeth, then after the passage of a single tooth then after the passage of two teeth, then, finally, after the passage of all the teeth of the rake.

Example (s) of embodiment of the invention

The purpose of the watch and indicate, by means of a ring, the passage of hours. Unlike conventional ringtones, the number of rings does not indicate the number of hours, but the passage of one hour.

Indeed, at each passage of time, the ring will ring between one and four times. The number of rings is preferably adjustable by the user. In the example shown in the figures, the wearer of the watch can either program the watch so that it rings 1, 2, 3, 4 times, or it does not ring at all, thanks to an "off" position. .

At each hour, a set of wheels actuates a hammer, which comes knocking a stamp. A set of regulation of the speed of descent of the hammer is present. An inertial regulator is located at the end of the train, which allows the speed of the hammer to be adjusted. Just like on a traditional ringtone.

The number of rings is set via a push button. It can be in different places on the watch box.

FIG. 1 shows an exemplary striking mechanism of a watch according to the invention, comprising a stamp holder 3 on which is fixed a stamp 18 arranged circumferentially along the periphery of the mechanism.

A hammer 4 is arranged to be able to hit the stamp 18 at predetermined times. The other elements presented below make it possible to obtain a plurality of stamp strokes when a ringing device is engaged. Advantageously, this number can be adjusted or selected by the user as described below in relation to FIG. 3.

The hammer 4 cooperates with on the one hand a drive spring of the hammer 2, capable of being armed to drive the hammer 4 against the stamp 18, and on the other hand with a ring rake 6, mounted movably in rotation and having a hammer drive toothing 102 provided with a plurality of teeth. In a simplified embodiment of the invention, the number of active teeth (that is to say, effectively generating a stamp striking when a ringing is engaged) corresponds to the number of teeth of the rake 6. In the illustrated example, the rake has four teeth. According to various variants not shown, the number of teeth is less than four, for example two or three. According to still other variants, the number of teeth is greater than four, for example five or six or more teeth. The number of teeth is preferably less than ten. As described below, the rake 6 has a number of teeth in correspondence with the number of jumps of the outer profile of a ringer control cam 20 (see Figure 20a). In this example, the rake has four teeth, and the cam has four jumps.

FIG. 2a also illustrates a ringing trip tip 19, mounted on the rake 6, opposite the teeth of the rake, preferably on the opposite side of the pivot axis 101 of the rake. Substantially facing the ringing trip tip 19, a ringing trip cam 7 (shown in Fig. 1) is provided to control the triggering of the ringing mechanism at a predetermined actuation time. In the illustrated example, the moment of actuation is determined by the position of the roadway 13, either by direct connection with the roadway 13, or, as illustrated, by means of one or more road references. 10. Thus, when reaching a ringing position by the minute hand (not shown), the bell is engaged. According to an advantageous embodiment, the bell is provided for engagement at the time of the passage of hours. Other triggering periods may be provided depending on the case and the uses. Unlike known ringtones, the number of rings (or timbre strikes) does not indicate the number of hours but is used to signal the passage of an hour, whatever it may be.

In addition to the elements already mentioned, FIGS. 2a and 2b make it possible to visualize the elements of the mechanical chain making it possible to generate and manage the successive passages of each of the teeth. This mechanical chain comprises a probe 18 mounted co-axially with the ring rake 6, and integral in rotation therewith. The feeler 18 is provided to rotate said rake 6 about the common axis 101. A ringer control cam 20 acts on the probe to push it depending on the progression of the angular displacement of the cam. A return spring 103, in this example, disposed between the end of the hammer 4 and the probe 18, is arranged to exert a force to maintain the tip of the probe in contact with the active surface of the cam 20.

In the illustrated example, the ringer control cam 20 is configured with a plurality of substantially constant radius sectors 31, 32, 33 and 34 distributed angularly along the circumferential profile of the cam. The number of sectors corresponds to the number of teeth of the rake. The radial position of each sector is provided as follows: the first sector 31, corresponding with a first tooth of the rake, occupies the radial position furthest from the axis of the cam. The second sector 32, corresponding with a second tooth of the rake, occupies a radial position closer to the axis of the cam. The third sector 33, corresponding with a third tooth of the rake, occupies a radial position even closer to the axis of the cam. Finally, the last sector 34, corresponding to the last tooth of the rake, occupies the radial position closest to the axis of the cam 20.

The successive passages from one sector to another, from the largest radius to the smallest, cause an angular displacement of the probe-rake assembly, to present to the actuating tooth 104 of the hammer each of teeth of the rake. The surface continuity between the sectors is ensured by a series of jumps 21, 22, 23, 24, ensuring the junction between the end of a sector and the beginning of the next sector. In the illustrated example, the different jumps 21, 22, 23 and 24 are shaped "S" substantially stretched in the direction of the height. Still in this example, it is when the probe 18 reaches a jump that the passage to the next tooth of the rake 6 is carried out. The angular sectors 31, 32, 33 and 34 are provided to create time ranges between each of the ringtones. The settings of the cam 20, the different jumps and sectors is determined in a manner known in accordance with the multiple parameters of the movement of the watch and the size of the case, the number of strikes desired and the duration between each strike.

The assembly formed by the probe 18, the ring rake 6 and the common axis of rotation 101, allows to generate a lever arm. This lever arm is effective for generating an angular displacement of the toothing of the rake by means of the force exerted by the control cam 20 on the probe 18. The force is transmitted to the probe 18 at the active surface of the cam of ringing command.

During this angular displacement, the teeth of the rake 6 cooperate in turn with the actuating tooth of the hammer, which acts on the latter so as, at first, away from the stamp 100, then, subsequently, to release him to allow him to strike the stamp. The spring of the hammer 2, previously described, provides the energy required to quickly push the hammer 4 from the passage of the top of the actuating tooth 104 against the active tooth of the rake.

An example of implementation of the mechanical chain as previously described is shown in Figs. 4a to 4e. This example illustrates some of the positions upon completion of a cycle, showing the effect of the cam 20 on the probe 18 and on the teeth.

In FIG. 4a, the probe 18 is in contact with the first angular sector 31. This sector being farthest from the axis 105 of the cam, the lever arm drives all the teeth of the rake 6 upstream of the tooth of Actuation 104 of the hammer 4. This position is useful when the number dial is off ("OFF") or, in active mode, before a ringing.

In FIG. 4b, the probe has crossed the first jump 21 and the first connection. It is in contact with the second angular sector 32. This sector being a little set back radially from the previous sector, the lever arm has generated an angular displacement of the teeth sufficient to allow the passage of the first tooth, and thus generate Ia. first strike of the stamp 100 by the hammer 4.

In FIG. 4c, the probe has crossed the second jump 22 and the second connection. It is in contact with the third angular sector 33. This sector being also recessed radially with respect to the preceding sector, the lever arm has generated an angular displacement of the teeth sufficient to allow the passage of the second tooth, and thus generate the second striking of the stamp 100 by the hammer 4.

In FIG. 4d, the probe has crossed the third jump 23 and the third connection. It is in contact with the fourth angular sector 34. This sector being also recessed radially with respect to the preceding sector, the lever arm has generated an angular displacement of the teeth sufficient to allow the passage of the third tooth, and thus generate the third striking of the stamp 100 by the hammer 4.

In FIG. 4th, the probe has crossed the fourth jump 24 and the fourth connection. It is in contact with the fourth angular sector 34. This sector being also recessed radially relative to the previous sector, the lever arm has generated an angular displacement of the teeth sufficient to allow the passage of the fourth tooth, and thus generate the fourth striking of the stamp 100 by the hammer 4.

The next phase allows the probe 18 to resume the sequence in the step of FIG. 4a. Crossing the end-of-cycle sector 35 allows the probe 18 to resume a radially remote position, having the effect of repositioning the teeth of the rake 6 upstream relative to the actuating tooth 104 of the hammer.

FIG. 3 illustrates a perspective view of a ring number selector 110. This selector 110 includes a control lever 14, extending out of the watch case so as to be accessible to a user. The selector of the number of rings 110 also comprises a selection cam 12 by the user of the number of rings and a stop cam 11 arranged to stop the stroke of the rake 6.

The control lever 14 cooperates by tilting with the selection cam 12, allowing, by controlling the user lever 14, to select the number of rings desired by a user.

The selection cam of the number of rings 12 and the stop cam 11 each comprise n + 1 teeth, n corresponding to the maximum number of possible ringtones each time the ring is switched on, the additional tooth being provided for a operating mode of the mechanism in which the ringer is disabled.

The selector of the number of rings 110 comprises a selection cam pushbutton 16, disposed on the control lever 14, and allowing, during a pivotal movement of said control lever, to select the number of active ringtones in angularly displacing the selection cam 12.

A ringer indicator 17, comprising on indications corresponding to the actual number of ringtones selected, is mounted coaxially with the ringtones selection cam 12. The indications are visible by the user by a witness on the dial (not shown). ).

With this selector 110, users have the ability to select a number of active teeth less than the total number of teeth on the rake 6, so get a corresponding number of ringtones, regardless of time. In such a case, the stamp striking cycle 100 described in connection with FIGS. 4a to 4e is automatically adapted by angular displacement of the rake 6 so that the right number of teeth is in position upstream of the actuating tooth 104.

Reference numbers used in the figures

[0043] <tb> 2 <SEP> hammer drive spring <Tb> 3 <September> gong carrier <Tb> 4 <September> hammer <tb> 6 <SEP> rake ring <tb> 7 <SEP> Ringer trigger cam <tb> 10 <SEP> road references <tb> 11 <SEP> stop cam <tb> 12 <SEP> selection cam <Tb> 13 <September> floor <tb> 14 <SEP> control lever <tb> 16 <SEP> selection cam pusher <tb> 17 <SEP> ring indicator <Tb> 18 <September> probe <tb> 19 <SEP> ring trigger tip <tb> 20 <SEP> Ringer Control Cam <Tb> 21 <September> jumping <Tb> 22 <September> jumping <Tb> 23 <September> jumping <Tb> 24 <September> jumping <tb> 31 <SEP> first sector <tb> 32 <SEP> second sector <tb> 33 <SEP> third sector <tb> 34 <SEP> last sector <Tb> 100 <September> stamp <tb> 101 <SEP> pivot axis of the rake <tb> 102 <SEP> hammer drive toothing <tb> 103 <SEP> return spring <tb> 104 <SEP> hammer actuating tooth <tb> 105 <SEP> axis of the cam <tb> 110 <SEP> number of rings selector

Claims (15)

1. Clock mechanism of a watch, comprising: - a stamp (100), connected to a stamp holder (3); - A hammer (4), adapted to hit the stamp at predetermined times; - A hammer drive spring (2), capable of being armed to drive the hammer against the stamp; - A ringing rake (6), rotatably mounted and having a hammer drive gear capable of generating at least one strike of said hammer against the stamp; - A probe (18), rotatably mounted coaxially with the striking rake, and rotating said rake; - characterized in that the mechanism further comprises an external profile ring control cam (20) having a plurality of jumps (21, 22, 23, 24) provided at successive angular positions of the cam, said cam cooperating with the feeler (18) so that each of the cam leaps corresponds to the passage of a tooth of the rake (6) by a corresponding tooth of the hammer (4). 2. Ringing mechanism according to claim 1, wherein the rake (6) has a number of teeth in correspondence with the number of jumps (21, 22, 23, 24) of the outer profile of the cam (20). The striking mechanism according to one of the preceding claims, wherein the outer profile of the ringing control cam (20) comprises a plurality of angular sectors of cams (31, 32, 33, 34) with a substantially constant radius by the jumps (21, 22, 23, 24), and arranged angularly from the first sector (31), with the largest radius, to the last sector (34), with the smallest radius, the largest radius corresponding to the first jump (21) tooth of the rake, and the last spoke (24) corresponding to the last tooth break of the rake. 4. Ringing mechanism according to one of claims 1 to 3, wherein the rake (6) has four teeth, and the cam (20) has four jumps (21, 22, 23, 24). 5. Ringing mechanism according to one of claims 3 or 4, wherein the outer profile of the ring control cam (20) comprises a plurality of connectors, ensuring the junction of the cam profile between each of the jumps (21, 22, 23, 24) and each of the successive angular sectors (31, 32, 33, 34). 6. Ringing mechanism according to claim 5, wherein the connections are S-shaped stretched in the direction of the height. 7. striking mechanism according to one of the preceding claims, wherein the ringing rake (6) comprises a ringing trigger tip (19), cooperatively mounted with a ringing trip cam (7) adapted to control triggering the striking mechanism at a predetermined time. 8. Ringing mechanism according to claim 7, wherein the ringer trip tip (19) is disposed substantially opposite the teeth of the rake (6). 9. Ringing mechanism according to one of the preceding claims, further comprising a ring number selector (110), comprising a control lever (14), extending out of the watch case so as to be accessible for a user, said control lever cooperating by tilting with a rotary selector, allowing, by control of the user lever, to select the number of rings desired by a user. The ringing mechanism of claim 9, wherein the ring number selector (110) comprises: A selection cam (12) by the user of the number of rings; - A stop cam (11) arranged to stop the race of the rake. 11. Ringing mechanism according to claim 10, wherein the selection cam (12) of the number of rings and the stop cam (11) each comprise n + 1 teeth, n corresponding to the maximum number of possible rings, the tooth additional provision being provided for a mode of operation of the mechanism in which the ringing is deactivated. 12. Ringing mechanism according to one of claims 10 or 11, wherein the ring number selector (110) comprises a selection cam pusher (16), arranged on the control lever (14), and allowing, during a pivoting movement of said control lever, to select the number of active rings by angularly moving the selection cam (12). 13. Ringing mechanism according to one of claims 11 or 12, wherein a ringer indicator (17), on which indications corresponding to the actual number of ringtones selected, is coaxially mounted with the selection cam (12) ringtones . 14. Ringing mechanism according to claim 13, wherein the indications of the ring indicator (17) are visible by the user by a witness on the dial. 15. Watch movement comprising a ring mechanism according to one of claims 1 to 14.