EP1959318A1 - Surprise mechanism for clock movement chimes - Google Patents

Abstract

The mechanism has a spring (26) exerting a force on a jumper (22) to move from one position to another position, and a blocking unit (30) arranged to maintain the jumper in its initial position, when a striking work does not function and to release the jumper during locking of the striking work. A locking unit (38) is arranged in a manner to maintain the striking work in a position where the striking work is supported on a concentric side (16a) of an extreme portion of a plank (16). The plank is mounted coaxially with snails (10, 12) which are driven by a movement around an axis (AA).

Description

Technical area

The present invention relates to the field of mechanical watchmaking and particularly relates to a timepiece with a striking mechanism capable of providing sound information relative to the current time.

An example of this type of timepiece is known as a minute repeater. It includes a device to indicate, on request, the current time to the minute by means of blows struck by two hammers on two different stamps. The hammers are operated by lifts that are raised by a striking mechanism. This includes a room of hours, a quarter and a minute, with twelve, three and fourteen teeth respectively to ring the hours, quarters and minutes.

In order to regulate the movement of these pieces, a snail of the hours is arranged on a star with twelve teeth, advancing one step per hour, while a quarter snail and another minute are adjusted on the bolster of the roadway . Three flip-flops, each equipped with a probe cooperating with these snails, make it possible to determine the stroke of the parts of the hours, quarters and minutes and to adjust the number of blows sounded.

When a buzzer is engaged a few seconds before the change of a quarter, the minutes feeler is engaged inside the minute snail at the level corresponding to the fourteenth minute of the quarter. However, during the course of the ring, the minute snail continues to turn while the minute probe remains engaged, which would abut the 0 minute step against the probe. To avoid this risk, this step is greatly reduced, leaving enough room to allow the probe to find its rest position.

However, it is understood that, to have accurate information when a ring is engaged at the first minute of a quarter, it is necessary to restore this step from 0 minutes at the time of the jump from quarters to the end of this first minute. This is ensured by a mechanism known to those skilled in the art under the name of surprise.

This mechanism includes a coaxial mounted board with the minute snail intended to be driven by movement about an axis AA. This board comprises at least one end portion whose one flank is concentric with the axis AA and capable of moving relative to the snail between a first position in which it does not intervene in the operation of the ring and a second position in which it extends the end of the snail.

• un sautoir susceptible d'évoluer entre une première position blocable, dans laquelle il ne coupe pas la trajectoire de la portion, et au moins une deuxième position dans laquelle il coupe la trajectoire de la planche; ce sautoir est susceptible, en passant de sa première à sa deuxième position, de coopérer, par une première extrémité, avec la portion extrêmale de la planche pour amener cette dernière de sa première à sa deuxième positions;
• un ressort exerçant une force sur le sautoir, tendant à l'amener de sa première à sa deuxième position;
• des premiers moyens de blocage agencés pour maintenir le sautoir dans sa première position lorsque la sonnerie ne fonctionne pas et pour le libérer lors de l'enclenchement de la sonnerie.

The surprise mechanism still includes the following parts:

• a jumper capable of evolving between a first lockable position, in which it does not cut the trajectory of the portion, and at least a second position in which it intersects the trajectory of the board; this jumper is likely, from its first to its second position, to cooperate, at a first end, with the extreme portion of the board to bring it from its first to its second positions;
• a spring exerting a force on the jumper, tending to bring it from its first to its second position;
• first blocking means arranged to hold the jumper in its first position when the ringing does not work and to release it when the ringing is switched on.

Further details on this kind of complications can be found in the book " Theory of Watchmaking "by Reymondin et al, Federation of Technical Schools, 1998, ISBN 2-940025-10-X, pages 219-224 . Note that the board is usually called surprise, as the whole mechanism. To avoid confusion, in this description, the term of surprise will be reserved for the entire mechanism.

State of the art

In the conventional ringing and particularly repetition mechanisms, all the feelers fall simultaneously on their respective snubber, when switching on. In certain parts, such as that described in the application WO 06130267 on behalf of the plaintiff, the The feelers take their information at different times, and the minute picks up on the snail at the end of the ring, that is, about twenty seconds after the bell rings. However, during this time, the timer continues to rotate, making sure to move the minute snail.

If a bell is triggered at the last minute of a quarter, especially in the last twenty seconds of this minute, the surprise jumper comes to rest on a neutral zone of the board of surprise, as will be explained in detail in the following the request. This support has no effect on the surprise. But if, during the course of the ring, the snail moves forward, the surprise jumper that remains in support on the board, can then push it and advance the board, or even, in some cases, also advance the snail quarters. When, at the end of the ring, the minutes feeler falls on the snail, it leans on the rung formed by the board, corresponding to the first minute of the following quarter, instead of relying on the step of the fourteenth minute. The sounded hour is then false. It is even possible, if the surprise board advances before the quartermaster has taken his information, that the quarter-ring is also false.

The present invention aims to solve this problem.

Disclosure of the invention

To achieve this, the surprise mechanism according to the invention comprises a locking member arranged to maintain the jumper in position when the latter is resting on the concentric side of the portion.

The locking member comprises a rocker on which acts a control member of the ring and moving under the effect of a second spring when engaging a ring. The rocker is provided with a first surface intended to cooperate with the jumper to hold it in position when the latter is resting on the concentric flank of the portion.

Advantageously, the rocker forms a stop defining an extreme position of the jumper.

• un doigt disposé au niveau d'une deuxième extrémité du sautoir,
• un bec formant ladite première surface et disposé sur ladite bascule de l'organe de verrouillage, ledit bec étant destiné à coopérer avec le doigt par ladite première surface, et
• un ressort agencé de manière à appuyer la bascule contre l'organe de commande.

According to a first embodiment, the locking member comprises

• a finger disposed at a second end of the jumper,
• a spout forming said first surface and disposed on said latch of the locking member, said spout being adapted to cooperate with the finger by said first surface, and
• a spring arranged to support the rocker against the control member.

• un flanc disposé au niveau de la première extrémité du sautoir,
• une fourchette montée pivotante et se terminant par un premier doigt définissant ladite première surface, ledit doigt étant destiné à coopérer avec le flanc par ladite première surface, et
• un ressort agencé de manière à appuyer la bascule contre l'organe de commande.

According to a second embodiment, the locking member comprises:

• a flank disposed at the first end of the jumper,
• a fork pivotally mounted and ending with a first finger defining said first surface, said finger being intended to cooperate with the sidewall by said first surface, and
• a spring arranged to support the rocker against the control member.

In this embodiment, the fork comprises a second finger defining a second bearing surface and intended to cooperate with a second side of the jumper, the second finger and the second side form the locking means of the jumper.

Brief description of the drawings

• les figures 1 à 5 illustrent différentes étapes du fonctionnement d'un premier mode de réalisation d'un dispositif de surprise selon l'invention, et
• les figures 6 à 8 montrent le fonctionnement d'un deuxième mode de réalisation d'un tel dispositif.

Other details will appear more clearly on reading the description which follows, with reference to the appended drawing in which:

• the Figures 1 to 5 illustrate different steps in the operation of a first embodiment of a surprise device according to the invention, and
• the Figures 6 to 8 show the operation of a second embodiment of such a device.

Mode (s) of realization of the invention

The figures show the main elements of a surprise mechanism according to the invention. The ringing device in which it can be integrated will not be described in detail and reference may be made to the aforementioned patent application for a detailed description thereof.

A minute snail 10, conventionally equipped with four branches, is pivotally mounted in movement about an axis AA. A quarter snail 12 is also rotated about the AA axis. Both are driven by the movement at a rate of one revolution per hour, in the direction of clockwise, with reference to the figure 1 . A minute probe 14, intended to bear on the snail 10 during operation of the ring, is also shown.

A board 16 is interposed between the two snails 10 and 12 and pivots freely about the axis AA. The board 16 comprises, in a conventional manner, four branches, each being disposed behind one of the branches of the minute snail 10. The latter carries a pin 18 which takes place in a long hole, not visible in the drawing, arranged in the board 16 and through which he pushes it. A return spring 20 is arranged to hold the board 16 behind the minute snail. The arms of the board end in an extremal portion whose flank 16a is concentric with the axis AA. As known to the skilled person, this board 16 is likely to move relative to the snail 10 between a first position in which it does not intervene in the operation of the ring and a second position in which the flank 16a extends the end of the snail, so as to reconstitute the echelon corresponding to the first minute of a quarter, otherwise called the 0 minute rung.

A jumper 22 located at the board 16 is pivotally mounted on a bridge or a plate. It comprises a first end 24 with two inclined planes 24a and 24b joining at an apex 24c and intended to cooperate with the board 16.

A first spring 26 is arranged to exert on the jumper 22 a force tending to bring its first end 24 in abutment against the board 16. For a better readability of the essential elements of the invention, the spring 26 is shown only on the figure 1 . In addition, the jumper 22 cooperates, at a second end 28, with locking means 30 arranged to maintain the first end of the jumper 24 outside the path of the board 16. These locking means 30 can advantageously be a control rocker 32 connected to the device for engaging the buzzer. More particularly, this rocker 32 is provided with a lug 34 intended to cooperate with the jumper 22.

When the buzzer does not work, the control rocker 32 thus exerts pressure on the jumper 22, opposing the spring 26 and moving the first end 24 away from the board 16. When the buzzer is switched on, the flip-flop 32 moves, under the effect of the manual action of the carrier, thus allowing the spring 26 to produce its effect and bring the jumper 22 towards the board 16. Note that a second spring 36 is arranged to bring the flip 32 to its rest position. Like the spring 26, the spring 36 is only shown on the figure 1 .

Thus, the jumper 22 can move between a first lockable position, in which it does not cut the trajectory of the extremal portions of the board 16, and at least a second position in which it intersects the trajectory of the board 16. The jumper 22 is susceptible, passing from its first to its second position, to cooperate, by its first end 24, with one of extremmal portions to bring the board 16 from its first to its second positions.

More particularly, the jumper 22 is arranged to press on one of the extremal portions of the board 16 by its second inclined plane 24b to advance it. This occurs when the buzzer is turned on for the first minute of a quarter. Note that when the jumper 22 is supported by its top 24c on the flank 16a, the force it exerts on the board 16 is directed towards the axis AA and therefore does not advance relative to the minute snail 10. This usually occurs when the bell is engaged at the thirteenth and fourteenth minutes of each quarter.

As explained in the introduction to the present application, when a bell is engaged towards the end of the fourteenth minute of a quarter, it is possible that the minute snail 10 pivots before the minute probe 14 has taken its turn. information. To ensure that the probe 14 will take the right information and prevent, in such a case, the jumper 22 advance the board 16, the surprise mechanism according to the invention comprises a locking member 38 of the position of the jumper.

A first embodiment is illustrated on the Figures 1 to 5 . The locking member 38 comprises a finger 40 disposed at the level of the second end 28 of the jumper. This finger 40 has two bearing zones 42a and 42b as will be understood below. The locking member 38 also comprises a latch 44 provided with a first portion ending, on a first side, by a spout 46 also defining two bearing zones 48a and 48b, intended to cooperate respectively with the first 42a and second 42b areas of the finger 40. On a second side, the rocker 44 is provided with a protrusion 50 intended to rest on the control rocker 32, preferably at its end. A spring 52 is arranged to support the protrusion 50 against the control rocker 32. The end of the control rocker 32 intended to cooperate with the protrusion 50 is shaped so that when the ring is at rest, the locking member 38 does not cooperate with the jumper 22. In contrast, when a bell is engaged, the control rocker 32 leaves the spout 46 to move, under the effect of the spring 52, to cooperate with the finger 40. As will be understood below, either the two zones 42a and 48a abut against each other, or the zones 42b and 48b are freely supported on one another.

To illustrate the description that has just been made, we will now describe the operation of the surprise mechanism according to the invention. In the rest position represented on the figure 1 , the control rocker 32 keeps the jumper 22 in its first position and the spout 46 of the rocker 44 away from the finger 40.

When a ringing device is switched on, the control rocker 32 moves in the direction of the arrow F, visible on the figure 2 . Respectively under the effect of the springs 52 and 26, the rocker 46 pivots, while the first end 24 of the jumper 22 is close to the board 16. According to the position of the snail 10, the jumper 22 falls between two branches, without touching the board 16, as on the figure 2 . The latch 44 remains supported on the lug 34 of the control lever 32, while the finger 40 and the nose 46 come into contact with each other by their respective second bearing zone.

Note that in this position, the latch 44 forms a stop defining the second extreme position that can occupy the jumper.

In the case illustrated on the figure 3 where the engagement occurs around the twelfth and thirteenth minutes of a quarter, the first end 24 of the jumper 22 is supported by its first inclined plane 24a on the board 16 which abuts on the snail minutes 10 The spout 46 of the rocker 44 is then simply supported by its second zone 48b on the second zone 42b of the finger 40. This support constitutes a kind of free locking, allowing to interfere with any movement of the jumper 22 in the case where the snail 10 advance during the ring.

When a ringing is triggered at the fourteenth minute of a quarter, the jumper 22 is supported by the top 24c of its first end on the concentric flank 16a, as shown in FIG. figure 4 . Under the effect of the action of the wearer of the watch on the control lever 32, the latter continues its movement in the direction of the arrow F shown on the figure 2 . The jumper 22 leaves the contact of the control lever 32, while the latch 44 of the locking member 38 remains supported by the protrusion 50 on the rocker 32. The finger 40 and the nose 46 are dimensioned so that that when the jumper 22 bears on the concentric flank 16a, the rocker 44 can pivot so as to bring the first zone 42a of the spout 46 opposite the first zone 48a of the finger 40, as shown in FIG. figure 5 .

Thus, if the minute snail 10 advances during the course of the ring, the jumper 22 remains in position, supported by the first zone 42a of its finger 40 on the first zone 48a of the spout 46. The spring 52 ensures the maintenance of the latch 44 and the locking of the jumper 22.

At the end of the ring, the control rocker 32 returns to its rest position under the effect of the spring 36. It pivots the rocker 44 of the locking member 38 in the counterclockwise direction ( according to the illustrated representation), leaving free the passage for the finger 40. Then, the control rocker 32 presses, by its lug 34, on the second end 28 of the jumper 22 and returns the latter to its rest position. The spring 36 must therefore be stronger than all of the two springs 26 and 52.

According to a second embodiment shown on the Figures 6 to 8 , the mechanism of control of the ring is of conventional type, as described in the aforementioned work. It includes a rack 60 actuated from outside the watch by the wearer. It pivots about a BB axis and directly arms a barrel of unrepresented ring. The elements common to the first embodiment bear the same references.

The first end of the jumper 22 comprises, in addition to the two flanks 24a and 24b, a third flank 24d defining a second vertex 24e. The spring 26 exerts on the jumper a force tending to move it from its first to its second positions.

A fork 62 is pivotally mounted on a plate or a bridge. It ends with two fingers 63a and 63b defining a V groove 66 and which form a first 64a and a second 64b bearing surfaces. The fork 62 participates in the locking member 38 and the locking means 30. The bearing surfaces are intended to cooperate respectively with the flanks 24a and 24d of the first end 24 of the jumper 22 to perform their function.

The fork 62 is also provided with a pin 67 passing through an oblong 68 formed in the plate or in a bridge and limiting the tilting movement of the fork 62. The pin 67 is also intended to cooperate with the edge of the rack 60, especially when the striking mechanism is at rest. A spring 70 is arranged to exert a force tending to bring the pin 67 against the edge of the rack 60. Thus, in this position illustrated in FIG. figure 6 , the jumper 22 is supported by its first side 24a on the second surface 64b of the fork 62. The combined actions of the springs 70 and 26 put the pin 66 bearing on the edge of the rack 60 which holds all the parts in position. The locking means therefore comprise, in this embodiment, the finger 63b, the pin 67, the rack 60 and the springs 70 and 26.

When a buzzer is engaged, the rack 60 pivots. The fork 62, under the effect of its spring 70, also pivots until the pin 67 bears against the wall of the oblong 68. The respective shapes of the V groove 66 and the second top 24 of the 22 are adjusted so that the latter can fall freely, under the effect of its spring 26, on the board 16. The figure 7 shows the position of the device at the ringing the first minute of a quarter. The jumper 22 advances the board 16 by its second flank 24b. In the case where the jumper 22 falls simply between two branches of the board 16, the second finger 63b cooperates with the second top 24e of the jumper 22 to define its extreme position. As in the first embodiment, this support is a kind of free lock, to prevent any movement of the jumper 22 in case the snail 10 advance during the ring.

As shown in figure 8 when a ringing is triggered at the fourteenth minute of a quarter, the jumper 22 falls on a concentric flank 16a of the board 16. The rack 60 moving, the fork 62 pivots under the effect of its spring 70. first finger 63a of the fork 62 and the third flank 24d of the jumper 22 are dimensioned so that, in this position, the fork 62 can perform its complete movement until the pin 67 bears against the wall oblong 68. The finger 63a is then positioned opposite the third portion 24d and locks, by the combination of the forces of the springs 26 and 70 and the support of the pin 67 on the wall of the oblong 67, the position of the jumper.

Thus, if the snail minutes 10 advance during the course of the ring, the jumper 22 remains in position, supported by the third portion 24 of its end 24 on the first finger 63a of the fork 62. The springs 26 and 70 hold the fork and lock the jumper.

At the end of the ring, the rack 60 returns to its rest position under the effect of the ringing barrel. It pushes, by its edge, the pin 67 of the fork 62. By its second finger 64b, it brings the jumper 22 to its rest position illustrated on the figure 6 .

Thus is proposed a surprise mechanism for maintaining the surprise jumper position when a ring is engaged at the fourteenth minute of a quarter and minutes snail is driven by the movement during the course of the ring.

Although particularly suitable for a surprise mechanism for minute snail, the invention could also be adapted to a bell quarter. Those skilled in the art may possibly determine other types of latches or other locking members, without departing from the scope of the invention.

Claims (7)

Surprise mechanism for clock movement ring, comprising a board (16) mounted coaxially with a snail (10, 12) intended to be driven by the movement about an axis AA, said board (16) comprising at least one end portion of which a flank (16a) is concentric to the AA axis and capable of moving relative to said snail between a first position in which it does not intervene in the operation of the bell and a second position in which it extends the end of said snail (10, 12), a jumper (22) capable of changing between a first lockable position, in which it does not cut the trajectory of said portion, and at least a second position in which it intersects the path of the board, said jumper (22) being capable, from its first to its second position, of cooperating, by a first end (24), with said portion to bring this last of his first to his second positions, and a first spring (26) exerting a force on the jumper (22), tending to bring it from its first to its second position, first locking means (30) arranged to hold the jumper (22) in its first position when the buzzer is not operating and to release it when the buzzer is switched on, characterized in that it further comprises a locking member (38) arranged to hold the jumper (22) in position when the latter is resting on the concentric flank (16a) of the portion. Mechanism according to claim 1, characterized in that the locking member (38) comprises a rocker (44, 62) on which a bell control member (32, 60) acts and which moves under the effect of a second spring (52, 70) during the engagement of a ring, said rocker (44, 62) being provided with a first surface (48a, 64a) intended to cooperate with the jumper (22) to maintain it in position when the latter is supported on the concentric flank (16a) of the portion. Mechanism according to one of claims 1 and 2, characterized in that said flip-flop (44, 62) forms a stop defining an end position of the jumper. Mechanism according to one of claims 2 and 3, characterized in that the locking member (38) comprises a finger (40) disposed at a second end (28) of the jumper (22), a spout (46) forming said first surface (48a) and disposed on said latch (44) of the locking member, said spout (46) being adapted to cooperate with the finger (40) by said first surface (48a), and a second spring (52) arranged to press the rocker (44) against the control member (32). Mechanism according to claim 4, wherein the control member (32) occupies a rest position when the ring is not operating, an additional spring (36) being arranged to return said control member to its position. resting at the end of a ring, characterized in that the force of the additional spring (36) is greater than the force of the first (26) and second (52) joined springs. Mechanism according to one of claims 2 and 3, characterized in that the locking member comprises: a flank (24e) disposed at the first end of the jumper, a fork (62) pivotally mounted and terminating in a first finger defining said first surface (64a), said finger being adapted to cooperate with the sidewall by said first surface, and a spring (70) arranged to press the rocker against the control member (60). Mechanism according to claim 6, characterized in that said fork comprises a second finger (64b) defining a second bearing surface and intended to cooperate with a second side of the jumper, said second finger and said second side forming the locking means.

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