CH720023A2 - Actuation mechanism for a flexible display needle - Google Patents

Abstract

The invention relates to an actuation mechanism (12) of a flexible display needle (1) comprising a first (2) and a second (6) drive barrel connected to a first end respectively of a first ( 4) and a second flexible arm (8), the first and second flexible arms (4, 8) being connected together by a point (10) at their second ends, the first barrel (2) being mounted with a first defined preload angle, and the second barrel (6) being mounted with a second defined preload angle in the opposite direction to that of the first barrel (2), so that the flexible display needle (1), elastically preloaded, constantly keeps the entire actuation mechanism (12) under tension in normal operating mode, the actuation mechanism (12) comprising a first roadway (14) on which the first drive barrel (2) is driven, this first roadway (14) being driven by a clockwork movement, this first roadway driving an intermediate mobile (18) which in turn drives a second roadway (22) on which the second drive barrel (6) is driven, the flexible display needle (1) moving between an initial position and a final position in which it jumps to return to its initial position, changing shape and length in a desired manner during this movement, the kinematic connection between the intermediate mobile (18) and the second roadway (22) being interrupted at the moment when the flexible display needle (1) makes its jump, so that the elastic tension induced by the assembly under stress is released , which causes the second roadway (22) to pivot, the first and second roadways (14, 22) then finding themselves in direct engagement, the first roadway (14) driving not only the second roadway (22), but also the intermediate mobile (18) until a moment when the second roadway (22) finds itself again in engagement with the intermediate mobile (18).

Description

Technical field of the invention

[0001] The present invention relates to an actuation mechanism for a flexible display needle.

Technology background

[0002] The present invention concerns flexible display needles. Such needles, already known in the state of the art, comprise a first drive barrel connected to a first end of a first flexible arm, and a second drive barrel connected to a first end of a second arm flexible. At their second end, the first and second flexible arms are connected together by a point. In an unconstrained free state of the flexible display needle, the first and second drive guns are spaced apart. Conversely, a service position in which the flexible display needle has a defined shape and length is a constrained position in which the first drive barrel and the second drive barrel are arranged coaxially around a same axis of rotation. In this constrained position, the first drive barrel is mounted with a first defined preload angle, and the second drive gun is mounted with a second defined preload angle in the opposite direction to that of the first drive gun. The flexible display needle is arranged to change shape and length in a desired manner when the angular position of the second drive barrel varies relative to the angular position of the first drive barrel by pivoting about the axis of rotation. To this end, the first flexible arm of the flexible display needle performs an angular rotation θ1 which is applied by a clockwork movement to the flexible display needle to display the information. For the second flexible arm, the angular rotation θ1 applied by the clockwork movement to the flexible display needle being modulated by an angle of rotation ϕ by an actuation mechanism, this angle of rotation ϕ, applied to the second flexible arms of the flexible display needle, determines the rotation and change of shape and length of the flexible display needle.

[0003] Mechanisms for actuating a flexible display needle of variable length are already known in the state of the art. These different actuation mechanisms are all based on the same operating principle: an angular rotation θ1, applied to an input of the actuation mechanism by the watch movement, is modulated by an angle of rotation ϕ by this actuation mechanism, this angle of rotation ϕ, applied with an opposite direction to the first and second flexible arms of the flexible display needle, determining the rotation and the change in shape and length of the flexible display needle.

[0004] With these prior art drive mechanisms, the flexible display needles describe trajectories of various shapes (circular, oval, triangular, etc.) on a single revolution; that is, from a certain starting point, the flexible display hands make a complete revolution deforming in the desired way, then return to their starting point and the process starts again from the beginning.

Summary of the invention

The present invention aims to provide an actuation mechanism for a flexible display needle making it possible to vary the trajectories described by such a flexible display needle when it is driven by such an actuation mechanism.

[0006] To this end, the present invention relates to a mechanism for actuating a flexible display needle comprising a first drive barrel connected to a first end of a first flexible arm, and a second drive barrel connected to a first end of a second flexible arm, the first and second flexible arms being connected together by a point at their second end, the first barrel being mounted with a first defined preload angle, and the second barrel being mounted with a second preload angle defined in a direction opposite to that of the first barrel, so that the flexible display needle, elastically preloaded, constantly maintains the entire actuation mechanism under tension in normal operating mode of the mechanism actuation, the actuation mechanism comprising a first road on which the first drive barrel of the flexible display needle is driven, this first road being driven by a clockwork movement, this first road driving an intermediate mobile which in turn drives a second roadway onto which the second drive barrel is driven, the flexible display needle moving between an initial position and a final position in which it jumps to return to its initial position, the flexible display needle changing shape and length in a desired manner during this movement, which induces an additional elastic tension induced by the change in angular position of the second driving barrel relative to the first driving barrel which comes be added to the elastic tension induced by the mounting of the first and second drive guns on the respective first and second roads, the kinematic connection between the intermediate mobile and the second road being momentarily interrupted at the moment when the display needle flexible performs its jump, the second roadway then finding itself temporarily free to rotate on itself, disconnected from the rest of the actuation mechanism, so that the additional elastic tension is released, which causes the second roadway to pivot, the first and second roadways then finding themselves in direct engagement via the pin which precisely positions the second roadway relative to the first roadway 14 so that the first roadway drives not only the second roadway, but also the intermediate mobile up to a moment when the second roadway finds itself again in contact with the intermediate mobile. The position of the pin ensures that the resumption of training is done correctly by avoiding tip to tip jamming.

[0007] According to particular embodiments of the invention: – the intermediate wheel comprises a first and a second intermediate wheel, the second intermediate wheel being coupled in rotation with the first intermediate wheel, the first roadway driving the first intermediate wheel , while the second intermediate wheel drives the second roadway; – the second roadway is provided with a pin which projects into a slot cut out in the board of the first roadway, the second intermediate wheel presenting, at one location on its perimeter, a sector devoid of teeth; – the light, in the shape of an arc centered on the center of the first roadway, is delimited at its two ends by a first and a second background; – the light extends over an angular sector determined by the change in shape and length desired for the flexible display needle to which an additional angular sector must be added to take into account the size of the pin; – the angle αAigformed by the bisector of the first and second flexible arms which extends between an axis of rotation of rotation of the first and the second drive barrel and the tip of the flexible display needle, with the direction of the bisector in the initial position of the flexible display needle is given by: with – θ1 the angular rotation applied by the clockwork to the first flexible arm of the flexible display needle from its initial position; – i the gear ratio between the first and second flexible arms of the flexible display needle.

[0008] Thanks to these characteristics, the present invention provides an actuation mechanism arranged so as to drive a flexible display needle for example over two complete revolutions, the second revolution having a geometry different from the first. From a determined initial starting point, the flexible display needle makes a first turn, then a second turn following the first before returning to its initial starting point and repeating the trajectory again. The actuation mechanism according to the invention is also distinguished by its simplicity and its small height.

[0009] According to particular modes of implementation of the invention, the actuation mechanism comprises a friction clutch intended to be arranged between a time setting mechanism capable of being controlled by a crown, and the first ground, the time-setting mechanism and the crown being included by the watch movement, the friction clutch being configured so that, when the crown occupies a time-setting position and is urged so as to move the flexible display needle clockwise, it transmits a torque to the first roadway in order to drive said flexible display needle clockwise.

[0010] According to particular modes of implementation of the invention, the friction clutch is configured so that, when the crown is pressed, when it is in the time setting position, to move the hand flexible counterclockwise display, it slides when subjected to a torque greater than a predefined threshold.

[0011] According to particular modes of implementation, the first and second roadways are in direct engagement via the pin which precisely positions the second roadway relative to the first roadway so that the first roadway not only drives the second roadway roadway, but also the intermediate mobile until a moment when the second roadway finds itself again in engagement with the intermediate mobile, the position of the pin making it possible to ensure that the resumption of the drive is done correctly while avoiding a tip-to-tip locking.

Brief description of the figures

[0012] Other characteristics and advantages of the present invention will emerge more clearly from the detailed description which follows of an embodiment of the actuation device according to the invention, this example being given for purely illustrative and non-limiting purposes only. in connection with the appended drawing in which: – Figure 1 is a plan view of a flexible display needle intended to be driven by an actuation mechanism according to the invention; – Figure 2 is an exploded perspective view of the actuation mechanism according to the invention; – Figure 3 is a partial plan view of the actuation mechanism according to the invention in standard operating mode in which a phase shift is created between the first and second flexible arms of the flexible display needle; – Figure 4 is a partial plan view which illustrates the situation of the actuation mechanism according to the invention just at the moment which precedes the jump of the flexible display needle and where the phase shift between the first and second flexible arms of this flexible display needle is maximum, the second roadway still being engaged with the second intermediate wheel by a last tooth of this second intermediate wheel which precedes the toothless sector; – Figure 5 is a partial plan view which illustrates the situation of the actuation mechanism according to the invention just after the flexible display needle has made its jump and the phase shift between the first and second flexible arms is zero , the second roadway still not being in engagement with the second intermediate wheel, but being in direct engagement with the first roadway via a pin; – Figure 6 is a larger scale detail view of Figure 5; – Figure 7 is a larger scale detail view of Figure 3; – Figures 8, 9 and 10 illustrate different types of possible trajectories for the flexible display needle driven by the actuation mechanism according to the invention; – Figure 11 represents a functional diagram of the actuation mechanism according to the invention, in which a crown is requested to move the flexible display needle clockwise; – Figure 12 is similar to Figure 11 with the difference that the crown is requested to move the flexible display needle counterclockwise.

Detailed description of the invention

[0013] The present invention proceeds from the general inventive idea which consists of providing, in a watch movement, an actuation mechanism for a flexible display needle making it possible to vary the trajectories described by such a display needle flexible. More precisely, the actuation mechanism according to the invention is designed to drive a flexible display needle so that this flexible display needle, starting from an initial starting point, successively makes a first, then a second turn. whose geometry differs from the first lap, before returning to its initial starting point from the end of its second lap and repeating the same trajectory again. One of the advantages of the present invention lies in the fact of being able to display ranges of values different from the quantity displayed on each of the first and second turns. The actuation mechanism according to the invention also turns out to be very simple and takes up little space in height.

[0014] The embodiment of the actuation mechanism according to the invention which will be described below by way of non-limiting example only can allow the display of a 24-hour time indication. A typical example concerns the display of the current time for which we can thus display the midnight-noon time slot on the first turn, and the noon-midnight time slot on the second turn.

[0015] Designated as a whole by the general numerical reference 1, a flexible display needle capable of being driven by an actuation mechanism according to the invention is illustrated in Figure 1. This flexible display needle 1 comprises a first drive barrel 2 connected to a first end of a first flexible arm 4, and a second drive barrel 6 connected to a first end of a second flexible arm 8. At their second end, the first and second flexible arms 4 and 8 are connected together by a tip 10. In a free, unconstrained state of the flexible display needle 1 illustrated in Figure 1, the first and second drive barrels 2, 6 are spaced apart one from the other.

Conversely, a service position in which the flexible display needle 1 has a defined shape and length is a constrained position in which the first drive barrel 2 and the second drive barrel 6 are arranged in coaxially around an axis of rotation D (see figure 2). In this constrained position, the first drive barrel 2 is mounted with a first defined preload angle, and the second drive barrel 6 is mounted with a second defined preload angle in the opposite direction to that of the first drive gun. 2. As will be better understood on reading the following, the flexible display needle 1 is arranged so as to change shape and length in a desired manner when the angular position of the second drive barrel 6 varies relative to the angular position of the first drive barrel 2 by pivoting around the axis of rotation D.

Designated as a whole by the general numerical reference 12, an embodiment of a mechanism for actuating the flexible display needle 1 according to the invention is illustrated in Figure 2. This mechanism of the actuation 12 comprises a first carriageway 14 on an axis 15 from which the first drive barrel 2 of the flexible display needle 1 is driven. This first carriageway 14 is driven by a clockwork movement (not shown), for example clockwise. The driving of the first roadway 14 by the clockwork movement can be done directly or with the interposition of a gear train.

The first roadway 14 therefore plays a driving role in the operation of the actuation mechanism 12. More precisely, this first roadway 14 drives a first intermediate wheel 16 of an intermediate mobile 18 in a counterclockwise direction. This intermediate mobile 18 also includes a second intermediate wheel 20 coupled in rotation with the first intermediate wheel 16 and which therefore also rotates in a counterclockwise direction. Finally, the actuation mechanism 12 comprises a second roadway 22 driven in rotation in the clockwise direction by the second intermediate wheel 20. This second roadway 22, mounted freely in rotation on the axis 15 of the first roadway 14, comprises an axis 24 on which the second drive barrel 6 is driven. It will be understood that the meshing between the first and second carriageways 14, 22 on the one hand, and the intermediate mobile 18 on the other hand, can be done directly or by the through additional pinions and wheels.

[0019] The actuation mechanism 12 is also characterized in that the second roadway 22 is provided with a pin 26 which projects into a slot 28 cut out in the board of the first roadway 14. This slot 28, in the shape of The arc of a circle centered on the center of the first roadway 14, is delimited at its two ends by a first and a second bottom 30 and 32 respectively and extends over an angular sector of 162.5° in the non-limiting example illustrated in drawing. This value of the angular sector is determined by the change in shape and length desired for the flexible display needle 1 to which an additional angular sector must be added to take into account the size of the pin 26, for example 20°, as well as a safety margin, typically 2.5°. We also see in the drawing that the second intermediate wheel 20 has, at one location on its perimeter, a sector 34 devoid of teeth. The role of these different elements will be detailed below.

[0020] As an illustrative example only, let us now assume that the first roadway 14 is driven by the clockwise movement at a rate of one revolution per day. In turn, the first roadway 14, engaged with the first intermediate wheel 16, causes the latter to rotate counterclockwise, which causes the second intermediate wheel 20 to rotate counterclockwise as well. Finally, the second intermediate wheel 20 drives the second roadway 22 clockwise.

[0021] Due to the gear ratios between the first and second carriageways 14, 22 and the first and second intermediate wheels 16, 20 which have been chosen here to illustrate the actuation mechanism 12 according to the invention, the second carriageway 22 completes less than one lap per day (0.799). This has the effect that the first and second flexible arms 4, 8 of the flexible display needle 1 move away from each other, while the pin 26 begins to move into the slot 28. The distance angular ϕ which separates the pin 26 from the first base 30 represents the phase shift applied to the first and second flexible arms 4, 8 of the flexible display needle 1 by the actuation mechanism 12 actuated by the clockwork movement (see figure 3). Care should be taken to note that in normal operating mode of the actuation mechanism 12, that is to say when the toothless sector 34 of the second intermediate wheel 20 is not facing the second roadway 22 , in other words when the second intermediate wheel 20 and the second roadway 22 are engaged, the flexible display needle 1, elastically preloaded, constantly keeps the entire actuation mechanism 12 under tension, whereby the second roadway 22 is held in position. Indeed, the constrained assembly of the flexible display needle 1 induces in it an elastic tension which tends to bring its flexible arms 4, 8 closer to each other. To this elastic tension induced by the constrained assembly of the flexible display needle 1 is added an additional elastic tension induced by the change in shape and length of the flexible display needle 1 under the effect of the variation of the angular position of the second drive barrel 6 relative to the angular position of the first drive barrel 2 by pivoting around the axis of rotation D.

[0022] When, at the end of the second revolution of the flexible display needle 1, the toothless sector 34 of the second intermediate wheel 20 arrives opposite the second roadway 22 as illustrated in Figure 4, this second roadway 22 will find itself temporarily free to rotate on itself, disconnected from the rest of the actuation mechanism 12. Indeed, as visible in Figure 4 which illustrates the situation of the actuation mechanism 12 just before the jump of the flexible display needle 1, the second roadway 22 which tends to want to turn clockwise to compensate for the phase shift ϕ which separates it from the first roadway 14 is still in engagement with the second intermediate wheel 20 by a last tooth A. By thereafter, the second intermediate wheel 20 continues to rotate in the counterclockwise direction until the last tooth A by which the second roadway 22 was still in engagement with the second intermediate wheel 20 disappears and the sector 34 devoid of tooth of this second intermediate wheel 20 is found facing the second roadway 22. This has the immediate consequence that the additional elastic tension induced by the change in angular position of the second drive barrel 6 relative to the first drive barrel 2 relaxes, which causes the second flexible arm 8 to relax and the second carriageway 22 to pivot clockwise. The second roadway 22 thus catches up with the phase shift ϕ which separated it from the first roadway 14 and which had reached 140° at the end of the second revolution of the flexible display needle 1. In fact, the light extends over 162.5° , but the second roadway 22 only turns 140°. During this recovery, the pin 26 abuts against the bottom 30 of the slot 28 and the phase shift ϕ between the first and second roads 14, 22 is canceled (see Figure 5). After this jump, the toothless sector 34 of the second intermediate wheel 20 is still facing the second roadway 22 which is therefore always free. However, the elastic tension to which the flexible display needle 1 is subjected maintains the pin 26 at the bottom 30 of the light 28, so that the first and second roads 14, 22 are coupled in rotation. Always driven by the clockwork movement, the first roadway 14 turns and in turn drives the second roadway 22. Given that these first and second roadways 14, 22 are in direct connection and that there is no relationship gear between them, these two roads 14, 22 rotate at the same speed. Consequently, during this phase of operation of the actuating mechanism 12, the trajectory of the flexible display needle 1 is circular.

Of course, when turning, the first roadway 14 drives not only the second roadway 22, but also the first and second intermediate wheels 16, 20. A moment therefore arrives when the second roadway 22 finds itself in engagement with the second wheel intermediate 20. A change in the drive of the second roadway 22 therefore occurs at this moment: from a direct connection with the first roadway 14, the second roadway 22 finds itself driven again in a standard manner by the second intermediate wheel 20.

[0024] Adjusting the position of the pin 26 is crucial because it ensures that, when driving resumes, the second roadway 22 meshes with the second intermediate wheel 20 without blocking. tip on tip.

It is important to note that it is to the first roadway 14 with which the first flexible arm 4 of the flexible display needle 1 is associated that the motor torque provided by the clock movement is applied. Therefore, considering the bisector of the first and second flexible arms 4, 8 which extends between the axis of rotation D of the first and second drive barrel 2 and 6, when they are in the service position, and the tip 10 of the flexible display needle 1, the angle αAigformed by this bisector with the direction of the bisector in the initial position of the flexible display needle 1 which, in the purely illustrative example and not limiting represented in the drawing, corresponds to the axis 6 o'clock-12 o'clock, does not exactly coincide with the angular rotation θ1 applied by the clockwork movement to the first flexible arm 4 of the flexible display hand 1. other terms, the mathematical relationship linking the angle αAige and the angle θ1 is given by: with – αAigthe angle formed by the bisector of the first and second flexible arms which extends between the axis of rotation D and the tip of the flexible display needle, with the direction of the bisector in the initial position of the flexible display needle; – θ1 the angular rotation applied by the clockwork movement to the first flexible arm of the flexible display needle from its initial position; – i the gear ratio between the first and second flexible arms of the flexible display needle (0.799 in the present case).

[0026] It goes without saying that the present invention is not limited to the embodiment which has just been described and that various simple modifications and variants can be envisaged by those skilled in the art without departing from the scope of the invention. as defined by the appended claims.

[0027] In the example described above, from its starting point until the moment it jumps to return to its initial position, the tip 10 of the flexible display needle 1 describes a spiral trajectory. over two turns (see figure 8). In other words, while the first and second carriageways 14, 22 make two complete revolutions between two consecutive jumps of the flexible display needle 1, the second intermediate wheel 20 makes a complete revolution given that the return of the needle d The flexible display 1 towards its initial position occurs when the toothless sector 34 of the second intermediate wheel 20 finds itself facing the second roadway 22.

Of course, as shown in Figure 9, by adapting the pitch between the turns and the number of turns, other trajectories of the tip 10 of the flexible display needle 1 can be considered. Likewise, see Figure 10, the actuation mechanism 12 according to the invention can be arranged so that the flexible display needle 1 makes several jumps at each turn.

[0029] Due to the elastic tension of the needle, any attempt to move the flexible display hand 1, when setting the time, so that it makes a jump to move from the initial position to the final position, that is to say to make the jump in the counterclockwise direction if we consider Figures 2 and 8, would lead to a blocking of the actuating mechanism 12 or to a deterioration of the latter .

[0030] To protect against such a situation, the actuation mechanism 12 comprises a friction clutch 41 intended to be arranged between the first roadway 14 and a time setting mechanism 42 comprising a setting gear. hour controlled by a winding crown 43. These characteristics are represented schematically in Figures 11 and 12.

The time-setting mechanism 42 and the crown 43 are included in the watch movement in which the actuation mechanism 12 according to the invention is intended to be arranged and are known as such to those skilled in the art. of career.

[0032] In known manner, the crown 43 is able to control the time-setting mechanism 42, that is to say, to act on the latter, when it occupies a time-setting position.

[0033] Following the urging of the crown 43 while it is in the time setting position, in order to move the flexible display hand 1 in the clockwise direction, the friction clutch 41 is configured to so as to transmit, up to the first road 14, all or part of a torque to which it is subjected by the time setting mechanism 42, in order to drive the flexible display hand 1 in the clockwise direction . This scenario is represented in Figure 11, in which the transmission of movement is symbolized by the thick line arrows.

[0034] When the crown 43 is pressed, when it is in the time setting position, so as to move the flexible display hand 1 in the counterclockwise direction, the friction clutch 41 is configured to slide when it is subjected to a torque greater than a predefined threshold, so as to avoid the transmission, to the first roadway 14, of too high a torque. The torque reaches this predefined threshold when the flexible display needle 1 occupies its initial position and the crown 43 is biased so as to drive the needle to make the jump to its final position.

[0035] Thus, the friction clutch 41 makes it possible to transmit a torque from the crown 43 to the first carriageway 14 so as to move the flexible display needle 1, in the counterclockwise direction, from its final position towards its position initial, but interrupts this torque transmission when it occupies its initial position. This arrangement therefore makes it possible to avoid any blocking or breakage of the actuation mechanism 12 which would occur if the flexible display needle 1 attempted to jump from its initial position to its final position. This scenario is shown in Figure 12, in which the thin line arrows represent the non-transmission of movement.

The friction clutch 41 can be formed by any clutch known to those skilled in the art, such as a foil, an arm clutch, a friction drive wheel, etc., and is arranged in the time setting gear. In particular, the friction clutch 41 is located between a sliding pinion and the first carriageway 14 and is therefore not actuated during manual winding of the movement which passes through a winding pinion to a ratchet known as as such from those skilled in the art.

[0037] In a manner well known to those skilled in the art, the watch movement also includes a time-setting clutch, not shown in the figures, intended to be arranged between the first carriageway 14 and a finishing train. . Such a time setting clutch makes it possible, when setting the time, to decouple, beyond a certain torque threshold, the first roadway 14 and the finishing train so as not to damage the train. finishing or an exhaust kinematically linked to the finishing gear.

Nomenclature

[0038] 1 Flexible display needle 2 First drive barrel 4 First flexible arm 6 Second drive barrel 8 Second flexible arm 10 Tip D Rotation axis 12 Actuation mechanism 14 First carriageway 15 Axis 16 First intermediate wheel 18 Intermediate mobile 20 Second intermediate wheel 22 Second carriage 24 Axis 26 Pin 28 Light 30 First bottom 32 Second bottom 34 Sector 41 Friction clutch 42 Time setting mechanism 43 Crown

Claims (9)

1. Actuation mechanism (12) of a flexible display needle (1) comprising a first drive barrel (2) connected to a first end of a first flexible arm (4), and a second barrel drive (6) connected to a first end of a second flexible arm (8), the first and second flexible arms (4, 8) being connected together by a point (10) at their second end, the first barrel ( 2) being mounted with a first preload angle defined, and the second barrel (6) being mounted with a second preload angle defined in the opposite direction to that of the first barrel (2), so that the flexible display needle (1), elastically prestressed, constantly keeps the entire actuation mechanism (12) under tension in normal operating conditions of the actuation mechanism (12), the actuation mechanism (12) comprising a first roadway (14 ) on which the first drive barrel (2) of the flexible display needle (1) is driven, this first roadway (14) being driven by a clockwork movement, this first roadway driving an intermediate mobile (18 ) which in turn drives a second roadway (22) onto which the second drive barrel (6) is driven, the flexible display needle (1) moving between an initial position and a final position in which it performs a jump to return to its initial position, the flexible display needle (1) changing shape and length in a desired manner during this movement, which induces an additional elastic tension induced by the change in angular position of the second drive barrel (6) relative to the first drive barrel (2) which adds to the elastic tension induced by the mounting of the first and second drive barrels (2, 6) on the first and respective second roads (14, 22), the kinematic connection between the intermediate mobile (18) and the second road (22) being momentarily interrupted at the moment when the flexible display needle (1) makes its jump, the second road ( 22) then finding itself temporarily free to rotate on itself, disconnected from the rest of the actuation mechanism (12), so that the additional elastic tension is released, which causes the relaxation of the second flexible arm (8) and the pivoting of the second roadway (22), the first and second roadways (14, 22) then finding themselves in direct engagement via a pin (26) in a slot (28), the first roadway (14) driving not only the second roadway (22), but also the intermediate mobile (18) until a moment when the second roadway (22) finds itself again in engagement with the intermediate mobile (18). 2. Actuation mechanism according to claim 1, characterized in that the intermediate wheel (18) comprises a first and a second intermediate wheel (16, 20), the second intermediate wheel (20) being coupled in rotation with the first wheel intermediate (16), the first roadway (14) driving the first intermediate wheel (16), while the second intermediate wheel (20) drives the second roadway (22). 3. Actuation mechanism according to claim 2, characterized in that the second roadway (22) is provided with the pin (26) which projects into the light (28) cut out in the board of the first roadway (14), the second intermediate wheel (20) having, at one location on its perimeter, a sector (34) devoid of teeth. 4. Actuation mechanism according to claim 3, characterized in that the light (28), in the shape of an arc of a circle centered on the center of the first roadway (14), is delimited at its two ends by a first and a second bottom (30, 32). 5. Actuation mechanism according to claim 4, characterized in that the light (28) extends over an angular sector determined by the change in shape and length desired for the flexible display needle (1) to which it An additional angular sector must be added to take into account the size of the pin (26). 6. Actuation mechanism according to one of claims 3 to 5, characterized in that the angle αAigformed by the bisector of the first and second flexible arms (4, 8) which extends between an axis of rotation of the first and of the second drive barrel (2, 6) and the tip (10) of the flexible display needle (1), with the direction of the bisector in the initial position of the flexible display needle (1) is given by: with – θ1 the angular rotation applied by the clockwork movement to the first flexible arm (4) of the flexible display needle (1) from its initial position; – i the gear ratio between the first and second flexible arms (4, 8) of the flexible display needle (1). 7. Actuation mechanism according to claim 1, characterized in that it comprises a friction clutch (41) intended to be arranged between a time setting mechanism (42) capable of being controlled by a crown (43 ), and the first roadway (14), the time setting mechanism (42) and the crown (43) being included by the watch movement, the friction clutch (41) being configured so that, when the crown (43) occupies a time setting position and is biased so as to move the flexible display hand (1) clockwise, it transmits a torque to the first roadway (14) in order to drive said flexible display needle (1) clockwise. 8. Actuation mechanism according to claim 7, characterized in that the friction clutch (41) is configured so that, when the crown (43) is pressed, when it is in the time setting position, to move the flexible display needle (1) counterclockwise, it slides when subjected to a torque greater than a predefined threshold. 9. Actuation mechanism according to claim 1, characterized in that the first and second roads (14, 22) are in direct engagement via the pin (26) which precisely positions the second road (22) relative to the first roadway (14) so that the first roadway (14) drives not only the second roadway (22), but also the intermediate mobile (18) until a moment when the second roadway (22) finds itself again in taken with the intermediate mobile (18), the position of the pin (26) making it possible to ensure that the resumption of the drive is done correctly while avoiding blocking tip on tip.