阅读说明：本技术 用于钟表机芯的止动爪 (Stop pawl for a timepiece movement ) 是由 J·克里斯坦 于 2021-03-31 设计创作，主要内容包括：用于钟表机芯的止动爪。本发明涉及用于钟表机芯(2)的止动爪(1),包括本体(3),该本体(3)设置有：在周边上的用于与大钢轮(5)的齿(50)闩锁的凸耳(4)；毂(6),该毂(6)旨在根据在活动位置与非活动位置之间经由中间位置的角位移与固定的杆(7)旋转自由地配合,在该活动位置所述凸耳(4)与所述大钢轮(5)的齿(50)啮合；其特征在于,所述止动爪(1)至少包括：用于使所述爪(1)在其角位移期间从非活动位置返回到活动位置的一个装置(9)；并且在于所述返回装置(9)和所述本体(3)制成为一件。本发明还涉及带有这样的爪(1)的钟表机芯(2),以及包括这样的机芯(2)的时计。(A locking pawl for a timepiece movement. The invention relates to a dog (1) for a timepiece movement (2), comprising a body (3), the body (3) being provided with: lugs (4) on the periphery for latching with the teeth (50) of the large steel wheel (5); a hub (6), which hub (6) is intended to cooperate freely in rotation with the fixed stem (7) according to an angular displacement between an active position, in which said lugs (4) engage with the teeth (50) of said large steel wheel (5), and an inactive position, via an intermediate position; characterized in that said dog (1) comprises at least: -a device (9) for returning said jaw (1) from the inactive position to the active position during its angular displacement; and in that said return means (9) and said body (3) are made in one piece. The invention also relates to a timepiece movement (2) with such a claw (1), and to a timepiece comprising such a movement (2).)

1. A dog (1) for a timepiece movement (2), comprising a body (3), said body (3) being provided at least with:

-on the periphery, lugs (4) for latching with the teeth (50) of the large steel wheel (5);

-a hub (6), said hub (6) being intended to cooperate freely in rotation with a fixed stem (7) according to an angular displacement between an active position, in which said lugs (4) mesh with said teeth (50) of said large steel wheel (5), and an inactive position, via an intermediate position;

Characterized in that said dog (1) comprises at least:

-a return device (9) for returning said holding pawl (1) from said inactive position to said active position during its angular displacement;

and lie in

-said return means (9) and said body (3) are made in one piece.

2. A stop pawl (1) according to the preceding claim,

-said return means (9) comprise at least one elastic tab (90), said elastic tab (90) having one end (91) integral with said body (3) and a free opposite end (92).

3. A pawl (1) according to the preceding claim, characterized in that said body (3) comprises

-hooking means (11) protruding at the periphery of the body (3) and located facing the opposite end (92), the hooking means (11) being in abutment with the opposite end (92).

4. A pawl (1) according to any one of claims 2 or 3, characterized in that the body (3) comprises

-a groove (10), said groove (10) extending between the inner face of the elastic tab (90) and the body (3), from said end (91) integral with the body (3) and to said free end (92) of the elastic tab (90).

5. A stop pawl (1) according to the preceding claim,

-the free end (92) of the elastic sheet (90) comprises a projection (12) projecting on the inner face,

-the groove (10) comprises a recess (13) facing the protrusion (12) for receiving the protrusion (12).

6. A latch claw (1) according to any of the preceding claims,

-the hub (6) is closed and in the shape of a circular hole (15).

7. A latch claw (1) according to any one of claims 1 to 5,

-the hub (6) is open, the body (3) having an overall U-shape.

8. A latch claw (1) according to any of the preceding claims,

-said body (3) is made of a metallic material.

9. A latch claw (1) according to any of the preceding claims,

-said body (3) is made of a nickel-phosphorus alloy.

10. A latch claw (1) according to any of the preceding claims,

-said body (3) is made by means of a LIGA type process.

11. Clock movement (2) comprising

-a support structure in the shape of a blank (8);

-a large steel wheel (5) mounted in a rotary motion on the blank (8), the large steel wheel (5) being provided with teeth (50);

-a latching mechanism for latching with the teeth (50) of the large steel wheel (5), which latching mechanism is rotatably mounted inside a housing (14) formed inside the blank (8);

-a rod (7) for free rotation of the latching mechanism within the housing (14) of the blank (8), the rod (7) being fixedly mated with a hole (15) formed within the housing (14) of the blank (8);

it is characterized in that

-said latch mechanism comprises a pawl (1) according to any one of the preceding claims.

12. Timepiece movement (2) according to the preceding claim,

-in the upper part, the stem (7) comprises a head (70) to ensure upper retention of the jaw (1) along the stem (7).

13. A timepiece movement (2) according to any one of claims 11 or 12,

-said hole (15) is tapped;

-the rod (7) is in the shape of a screw.

14. A timepiece movement (2) according to any one of claims 11 or 12,

-the rod (7) is in the shape of a nail driven into the hole (15).

15. A timepiece movement (2) according to any one of claims 11 to 14,

-said housing (14) comprises an inner wall (140) cooperating with the outer face of said elastic tab (90) of said claw (1).

16. Timepiece comprising a timepiece movement (2) according to any one of claims 11 to 15.

Technical Field

The invention relates to a latch pawl for a timepiece movement.

The invention also concerns a timepiece movement including at least one such stop pawl.

The invention also relates to a timepiece comprising at least one such timepiece movement.

The present invention relates to the field of watchmaking, and more particularly to the field of dogs for controlling the transmission of a movement, striking device, or other functions of a timepiece.

Background

In a traditional timepiece movement architecture, the latch comprises a large steel wheel driven in an angular motion by a barrel. A large steel wheel in the shape of a toothed wheel is fitted with the dog. The latch pawl is mounted in a rotationally movable manner and is provided with lugs on the periphery. The lug is engaged by the teeth of the large steel wheel, allowing the large steel wheel to rotate in one direction only. In fact, the mobility of the pawl ensures its rotation according to the angular displacement from an active position, in which the lug is engaged with the teeth of the large steel wheel, to an inactive position, in which the lug is retracted and the large steel wheel is free to rotate.

The return from the inactive position to the active position and the engagement of the holding pawl with the large steel wheel is performed by means of a return device. In short, the return means return the pawl to the active position to prevent rotational movement of the large steel wheel. The displacement of said claw therefore ensures a certain return angle which allows to prevent the balance from shaking and also prevents the barrel from emptying.

The return means is in the form of a separate spring, such as a curved wire or elastic sheet, one end of which is fixed in the blank and the opposite end is attached to the claw.

The return by the spring, in addition to the addition of a separate part, complicates the mounting and dismounting of such a timepiece movement. In fact, during installation, it is necessary to place the spring by stressing it, in particular by fixing one of its ends to the blank and the opposite end to the pawl, while correctly positioning said pawl by engaging with the teeth of the large steel wheel already in place.

Thus, the jaws are mounted on the blank within the housing. The mounting is performed by means of a rod ensuring that the jaws are fixed on the blank. The lever internally cooperates with a hub formed within the pawl to form a pivotal connection allowing free rotation of the pawl relative to the lever. Such a rod is in the form of a screw that is threaded into a complementary tapping formed in the housing. This type of mounting therefore allows the claw to be removed by unscrewing the rod before emptying the barrel, said claw still being able to be stressed by the tensioning of the spring (and in particular by the tensioning of the barrel), which is very disadvantageous in terms of avoiding any deterioration of the parts or even the sudden ejection of the claw.

Disclosure of Invention

The invention aims to simplify a timepiece movement by reducing the number of components and by simplifying the mounting and dismounting operations.

To this end, the invention proposes a holding pawl comprising the return means necessary to keep the holding pawl in engagement with the large steel wheel, in order to form a latch.

To this end, the invention relates to a stop pawl for a timepiece movement, comprising a body provided with at least:

on the periphery, lugs for latching with the teeth of the large steel wheel;

-a hub intended to cooperate freely in rotation with the fixed stem according to an angular displacement between an active position, in which said lugs mesh with the teeth of said large steel wheel, and an inactive position, via an intermediate position;

characterized in that said pawl comprises at least:

-a device for returning said holding pawl from the inactive position to the active position during its angular displacement;

and lie in

-said return means and said body are made in one piece.

According to an additional non-limiting feature, the return means may comprise at least one elastic tab with one end integral with the body and a free opposite end.

The body may comprise hooking means projecting at the periphery and located facing the opposite end, which hooking means abut against said opposite end.

The body may include a groove extending between an inner face of the elastic piece and the body from an end integral with the body and to a free end of the elastic piece;

the free end of the elastic sheet comprises a projection projecting on the inner face.

The slot may include a cavity facing the protrusion for receiving the protrusion.

The hub may be closed and in the shape of a circular hole.

The hub may be open, the body having an overall U-shape.

The body is made of a metal material.

The body is made of a nickel-phosphorus alloy.

The body is manufactured by a LIGA type process.

Such a configuration comprising a return claw allows to reduce the space requirement of the claw and to simplify the manufacture of such a timepiece.

Furthermore, the design of the jaws, in particular the return design, allows such parts to be separated when they are packed in bulk, preventing them from forming clusters.

The invention also proposes a specific mounting of such a jaw with respect to the blank, allowing to simplify the operation, eliminating the tensioning of the independent spring. The claws are free to rotate and the engagement position of the large steel wheels is significantly simplified.

In a related manner, the jaws may be pre-mounted with the large steel wheel and, conversely, removable. In particular, when the jaws have an overall U-shape with an open hub, they can slide under the rod before positioning the large steel wheel. Only the subsequent positioning of the large steel wheel allows to keep the jaws in position. Thus, once the large steel wheel is fitted, the claws are no longer accessible, which provides safety for the removal of the timepiece movement. In fact, the large steel wheel then has to be removed first and the barrel emptied beforehand. Such an installation therefore allows to further simplify the construction by eliminating the precise steps of fixing the screw-shaped rod and tapping in the blank.

To this end, the invention also relates to a timepiece movement, comprising

-a support structure in the shape of a blank;

-a large steel wheel mounted in a rotary motion on the blank, said large steel wheel being provided with teeth;

-a mechanism for latching with the teeth of the large steel wheel, the latching mechanism being rotatably mounted inside a housing formed within the blank;

-a lever for free rotation of the latching mechanism within the housing of the blank, the lever fixedly mating with a hole formed in the housing of the blank; characterized in that said latching mechanism comprises a latch pawl according to the invention.

According to additional non-limiting features, the stem can include a head to ensure upper retention of the jaws along the stem.

The bore may be tapped; the rod is in the shape of a screw.

The rod may be in the shape of a nail driven into the hole.

The housing includes an inner wall that engages an outer face of the resilient tab of the pawl.

The particular configuration of the pawl containing the return means and its mounting in the timepiece movement therefore allows to control the return action at the range of its angular displacement. Indeed, according to the first range, the pawl is free to rotate and, although the lug meshes with the tooth, the pawl does not exert any force on the large steel wheel, thus reducing the wear of the tooth over time. When the return device compresses, it activates return only over a second range of its angular displacement. Along this displacement, which includes both ranges, the friction between the pawl and the large steel wheel is therefore greatly reduced.

Furthermore, depending on the shape of the housing in the blank, the range of angular displacement of the jaws may be varied to control their return action to bring the jaws back to the locked position of the large steel wheel as quickly as possible. This early return allows in particular to limit the emptying of the barrel drum during automatic winding.

Moreover, such a timepiece movement eliminates the need for fixing the individual springs, in particular the precise step of tapping in a blank.

The invention also relates to a timepiece, such as a watch, equipped with such a timepiece movement.

Drawings

The invention will be described in more detail below using the attached drawings given by way of non-limiting example, in which:

FIG. 1 schematically illustrates a front view of a first embodiment of the latch pawl, particularly illustrating a closed circular hub;

fig. 2 schematically shows a front view of a variant of the first embodiment of the jaw, in particular showing an open hub providing said jaw with an overall U-shape;

FIG. 3 schematically shows a front view of the second embodiment, in particular showing a closed circular hub;

fig. 4 schematically shows a front view of a variant of the second embodiment, in particular showing the hub open;

fig. 5 schematically shows a front view of a first configuration of a timepiece movement equipped with a first embodiment of a pawl in an active position in mesh with the teeth of a large steel wheel, in particular showing a closed case;

FIG. 6 schematically shows a view similar to FIG. 5 at the end of a first range of free rotational displacement of the pawl and at the beginning of a second range of compression of the return means against the inner wall of the housing of the blank;

fig. 7 schematically shows a view similar to fig. 6 at the end of the second displacement range, in the inactive position of the pawl and at the end of the compression of the return means against the inner wall;

fig. 8 schematically shows a front view of a second configuration of a timepiece movement equipped with a second embodiment of a pawl in an active position in mesh with the teeth of a large steel wheel, in particular showing an open case;

fig. 9 is a perspective view schematically showing an example of a pawl mounting step according to a second modification of the first embodiment; and

fig. 10 schematically shows a vertical section of the construction of a timepiece movement of the first embodiment equipped with a claw, in particular a lever for fixing the claw to a blank.

Detailed Description

The present invention relates to the field of watchmaking, and more particularly to the field of a dog 1 for controlling the transmission of a timepiece movement 2, striking device, or other function of a timepiece.

First of all, the invention is aimed at a stop pawl 1, hereinafter referred to as "pawl", for a timepiece movement 2.

Such a claw 1 comprises a body 3. The body 3 forms the entire part of the claw 1. Thus, the body 3 of the claw 1 forms a single timepiece. The body 3 has an overall flat shape. The body 3 comprises a polygonal outer periphery, preferably with rounded peripheral edges, when turned around the centre of rotation. The peripheral edge extends orthogonally or substantially orthogonally with respect to the upper and lower faces which are arranged parallel to each other.

The body 3 of the claw 1 is provided with at least several elements. These elements are thus made up of one or more parts of said body 3.

First, the body 3 comprises on the periphery lugs 4. The lugs 4 protrude from the periphery, i.e. the lugs 4 protrude outwards. The lugs 4 extend radially or substantially radially, wherein the axis passes through the centre of rotation of the body 3.

The lugs 4 act as latches with the teeth 50 of the large steel wheel 5. Thus, the lug 4 is shaped and dimensioned complementary to said tooth 50 so as to cooperate by engaging at least partially with the tooth 50, as can be seen in particular in fig. 5 and 6.

Furthermore, the body 3 comprises a hub 6. The hub 6 is intended to be freely rotatably engaged with the fixed rod 7.

The hub 6 is centered or substantially centered on the center of rotation of the body 3. The hub 6 is made in the shape of a through hole going from one to the other of the upper and lower faces of said body 3.

According to one embodiment, the hub 6 is closed and in the shape of a circular hole. The body 3 has the shape of a drilled disk which overall resembles a washer. Such a circular hub 6 is visible in particular in fig. 1 and 3.

According to a variant embodiment, the hub 6 is open, the body having an overall U-shape. The body 3 has an overall horseshoe shape. The opening of the hub 6 is sized to allow the passage of the rod 7, once said rod 7 is correctly positioned at the centre of said hub 6, except so as to allow clearance for the rotation of one with respect to the other.

Furthermore, the hub 6 has an inner wall orthogonal to the upper and lower faces. The inner wall has a circular portion corresponding to the circumference of a circle centred on the axis of rotation of said body 3. Such an open hub 6 is visible in particular in fig. 2 and 4.

Furthermore, lever 7 is an insert, forming part of timepiece movement 2. The rod 7 ensures the fixing and the holding of the body 3 with respect to a support, such as a blank 8, which may preferably be a clockwork bridge. The inner face of the hub 6 then contacts the outer face of the lever 7, forming a pivotal connection. Such contact may be direct and provided as a rotational sliding, or indirect via a rotating ring with which the bar 7 is equipped.

The rotation of the hub 6 is according to an angular displacement between an active position, in which the lugs 4 engage the teeth 50 of the large steel wheel 5, and an inactive position, via an intermediate position. In particular, in the active position, the mechanical assembly of the lugs 4 with the teeth 50 prevents the rotary movement of the large steel wheel 5, while in the inactive position, the lugs 4 are retracted, freeing the rotary movement of the large steel wheel 5.

Under the action of the large steel wheel 5, the lug 4, which remains at least partially engaged with the tooth 50, rotates the jaw 1 from the active position according to the first angular displacement portion until the inactive position is reached, in which the lug 4 is no longer in contact with the tooth 50, and then releases the large steel wheel 5. The return of the pawl 1 into engagement with the large steel wheel 5 is carried out by an adaptive movement according to a counter-displacement, allowing only a rotary movement of the pawl 5 according to one or more of its teeth 50.

For this purpose, said holding pawl 1 comprises means 8 for returning the pawl 1 from the inactive position to the active position during the angular displacement of the pawl 1.

Advantageously, said return means 8 and said body 3 are made in one piece. The claw 1, which integrates the return means 8, thus eliminates external and separate parts. Thus comprising the return means 8.

As mentioned above, such a configuration of the claw 1 incorporating the return means 8 allows to reduce its space requirement and simplifies the manufacture of such a timepiece.

According to a preferred embodiment, said return means 8 comprise at least one tab 90 with one end 91 integral with said body 3 and a free opposite end 92. Such a tab 90 extends substantially along the periphery of the body 3. The tabs 90 extend equidistantly or substantially equidistantly from the periphery of said body 3 or by widening the distance from the end 91 towards the opposite end 92. The sheet 90 thus forms a continuation of the body 3 from its end 91. Furthermore, a groove 10 is formed in the space between the inner face of the sheet 90 and the rest of the body 3. The slot 10 is closed at the end 91 where the tab 90 joins the body 3.

Such a plate 90 is provided elastically, that is to say it has a reversible deformation about the inertial position. In short, if the sheet 90 is stressed, it returns to its shape and its original position. This resilience of the flap 90 gives the return means 9 elasticity and its spring effect.

The sheet 90 has a rounded or arcuate shape. This curved shape improves the flexibility and elastic properties of the sheet 90. The elastic properties of said sheet 90 are thus substantially provided by the material constituting the body 3 of the claw 1, the sheet 90 forming an integral part of the body 3 of the claw 1.

According to one embodiment, the body is made of a metallic material. Preferably, the body of the claw 1 is made of a nickel-phosphorus alloy (NI-P).

The claw 1 may be obtained in any type of way. Preferably, the body is manufactured in a LIGA type process (LIGA stands for "lantogenital graphic, Galvanoformung, abormung", i.e. "X-ray lithography, electroforming, casting", the name of which represents the main successive steps of such a process).

In particular, the cantilever between the end 91 joined to the body 3 and the opposite end 92, and the material constituting the body 3 and the flap 90, ensure that the flap 90 elastically returns to its inertial position when the flap 90 is compressed and pushed towards the body 3, and also when the flap 90 is possibly pulled outwards. In particular, under stress, the sheet 90 is subjected to bending stresses substantially along the first portion located at the end 91 from which it is joined to the body 3. The opposite end 92 is in turn displaced along an arc from the inertial position close to said body 3. The inertial position is visible in particular in fig. 1 to 2.

According to one embodiment, said body 3 comprises hooking means 11 projecting at the periphery and located facing an opposite end 92 of said flap 90, which hooking means 11 are in abutment with said opposite end 92. Such hooking means 11 may be in a concave shape, oriented towards said opposite end 92 and covering this opposite end 92 on the outside. The hooking means 11 in particular allow to prevent external traction of the tabs with respect to the body 3, ensuring locking of the tabs against outward deformation, allowing only flexibility of the tabs 90 oriented towards the body 3. Such hooking means 11 are visible in particular in fig. 3 and 4.

Preferably, the tabs 90 may be stressed when the tabs 90 are positioned in the locking of their opposite ends 92 by the hooking means 11. In short, the sheet 90 has been partially compressed.

Furthermore, said hooking means 11 close the grooves 10, preventing the formation of clusters of a plurality of jaws 1 when these parts are packed in bulk.

As mentioned above, the groove 10 extends between the inner face of the sheet 90 and the body 3 from an end 91 integral with the body 3 to a free opposite end 92 of the sheet 90. Furthermore, the free opposite end 92 of the sheet 90 comprises a projection 12 projecting on the inner face. Such a projection 12 is thus in the shape of a boss. The projection 12 has a thickness at least equal to the width of the slot 10. Thus, the groove 10 comprises a recess 13 facing the protrusion 12 for receiving the protrusion 12. Such a recess 13 forms a recess in the body 3, which is in the shape of a cavity formed in the wall of the groove 10. The notch 13 is dimensioned (in particular in depth) to ensure the introduction of at least the distal portion of the projection 12 during the application of stress to the sheet 90. Such a projection 12 and its recess 13 are visible in particular in fig. 1 and 2.

Like the hooking means 11, such a claw 1 design, the claw 1 being equipped with such a notch receiving at least part of the protrusion, allows the end of the groove 10 to be closed, preventing the formation of clusters of a plurality of claws 1 when these parts are packed in bulk.

From the above, the body 3 of the jaw 1 containing the return means 9 in the shape of the sheet 90 allows to exert an elastic return force when a stress is applied along the distal portion of said sheet 90. Such return force allows the rotation of the hub 6 in one direction to be reversed when the body 3 is secured about the rod 7, and then returns the lugs 4 in the opposite direction. An example of the forces applied is seen in particular in fig. 6 and 7, which show a claw 1 cooperating with a large steel wheel 5 inside a timepiece movement 2.

In this respect, the invention also relates to such a timepiece movement 2.

The timepiece movement 2 includes a support structure in the form of a blank 8. Such a blank 8 serves as a support for a variety of timepieces. The blank 8 is intended to be fixed to the exterior of a timepiece, such as a watch case. The blank 8 may be in the shape of a plate. According to a preferred embodiment, the blank 8 may be a clockwork plate or an integral part of a clockwork plate.

Timepiece movement 2 also includes a large steel wheel 5. The large steel wheel 5 is provided with teeth 50. A large steel wheel 5 is mounted in a rotating movement on said blank 8. In particular, such a rotary movement is caused by the drum through an adaptive connection.

Timepiece movement 2 also includes a mechanism for latching with teeth 50 of large steel wheel 5. Such a latching mechanism allows to control the transmission of the rotational movement of the large steel wheel 5. In particular, the latch ensures the transition from a continuous rotary motion at the input, caused by the large steel wheel 5, to an oscillating reciprocating motion of said large steel wheel 5 at the output.

For this purpose, the latching mechanism is rotatably mounted inside a housing 14 formed in the blank 8. Such a housing 14 is dimensioned to allow the latching mechanism to be introduced therein and retained therein so as to cooperate with the teeth of the large steel wheel 5.

The timepiece movement 2 thus includes a lever 7 for the free rotation of the latching mechanism within the housing 14 of the blank 8. The rod 7 is then dimensioned to complement the hub 6 of the jaw 1. Furthermore, the rod 7 is fixedly fitted in a hole 15 formed in said housing 14.

Advantageously, the latching mechanism comprises a latch pawl 1 as described above. The latch mechanism may comprise other timepieces, but preferably it comprises only the claw 1.

As mentioned above, the jaw 1 is then positioned in the housing 14 with the lug 4 oriented towards the tooth 50 of the large steel wheel 5, and the tab 90 is located on the opposite side to said tooth 50. Thus, the housing 14 is open on the side intended for the claw 1 in order to cooperate with the large steel wheel 5. Such positioning is visible in particular in fig. 5 to 8.

Moreover, timepiece movement 2 allows to compress plate 90 of claw 1 during the rotation of claw 1 caused by the rotary motion of said large steel wheel 5. The compression can be performed in any manner, in particular by abutment.

According to one embodiment, the housing 14 has an inner wall 140, which inner wall 140 engages the outside of the tab 90 of the claw 1. Thus, the housing 14 is formed with a recess with a flat upper face 141 and is recessed in the thickness of the blank 8. Thus, the inner wall 140 extends orthogonally or substantially orthogonally from said upper wall 141 to the surface 80 of the blank 8.

According to one embodiment, the inner wall 140 may be continuous. In short, the inner wall 140 extends from one end of the housing 14 to the other end without interruption or opening. The inner wall 140 then ensures compression of the tab 90 at its free end 92 during rotation of the claw 1. Such a configuration is visible in particular in fig. 5 to 7.

According to another embodiment, the inner wall 140 of the housing 14 is discontinuous along its portion of the length that is located facing the sheet 90. In short, the housing 14 has an opening through its inner wall 140 on the side of the tab 90 of the claw 1. This discontinuity of the inner wall 140 allows the blank 8 to be made significantly lighter. This discontinuity also allows to control the displacement of the jaw 1, in particular by dimensioning the length of the lower part of the inner wall 140, the upper corner of the lower part of the inner wall 140 serving as an abutment for the compression flap 90 when rotating the jaw 1. Such a configuration is visible in particular in fig. 8.

As mentioned above, the lever 7 allows positioning and retaining the claw 1 in the housing 14, allowing free rotation of the claw 1. For this purpose, the rod 7 cooperates with a hole 15 in the lower part. In the upper part, the stem 7 comprises a head 70 ensuring the holding of the jaw 1 along the upper part of said stem 7.

Moreover, the stem 7 has an outer diameter equal or substantially equal to the inner diameter of said hub 6, except for a clearance that allows the insertion of one with respect to the other during mounting and, conversely, during disassembly. The contact between the outer periphery of the rod 7 and the hub 6 is either direct or indirect via a rotating annular ring.

According to one embodiment, said holes 15 are tapped and the rod 7 is then in the shape of a screw. The tapping of the hole 15 is then performed complementary to the screw thread of the rod 7. The assembly of the rod 7 in the shape of a screw with the tapped hole 15 ensures a removable fixing, easily allowing the mounting and dismounting of the jaw 1 by screwing or unscrewing said rod 7 before or after the mounting or dismounting of the large steel wheel 5.

Furthermore, such a threaded connection is suitable for jaws 1 provided with a closed or open hub 6. In case the jaw 1 is provided with an open hub 6 in the shape of a U, once the rod 7 is screwed on, assembly can be performed by sliding the jaw 1. The installation involves first placing the claw 1, rotating the claw 1 to the desired angular position, and only thereafter placing the large steel wheel 5. Such an installation operation is visible in particular in fig. 9. Conversely, during disassembly, the claw 1 can be removed by unscrewing the rod 7 or preferably without unscrewing the rod 7. In the latter case, the disassembly involves first extracting the large steel wheel 5 and then ensuring the previous emptying of the barrel.

According to another embodiment, the rod 7 is in the shape of a nail driven into said hole 15. The assembly of the stem 7 in the shape of the nail driven into the hole 15 is final, i.e. once the nail has been introduced, it is difficult to remove without risk of damaging the other timepiece.

Thus, in order to allow the jaw 1 to be disassembled, its hub 6 needs to be open, so that said jaw 1 has its particular horseshoe shape. Thus, a first mounting comprising the introduction of the rod 7 into the hole 15 can be performed after positioning the pawl 1, the introduction of the rod 7 being performed by passing through its hub 6. Preferably, for any mounting, once the rod 7 has been introduced into the hole 15, the jaw 1 is mounted by sliding. The installation involves first placing the claw 1, rotating the claw 1 to the desired angular position, and only thereafter placing the large steel wheel 5. Such an installation operation is visible in particular in fig. 9. Instead, during installation, claw 1 can be removed simply by first removing large steel wheel 5 and then ensuring that the barrel is emptied beforehand. Furthermore, the stem 7 in the shape of a driven nail eliminates the step of tapping that produces the hole 15 precisely, as well as the wear that occurs over time during installation and removal. This solution allows to considerably simplify the mounting and dismounting and limits the risks of deterioration of the timepiece.

Moreover, the configuration according to the invention of the claw 1 comprising the return means 9 in the shape of the tab 90 allows to facilitate the mounting and dismounting of said claw 1 inside the timepiece movement 2. In fact, this configuration allows to limit the return action to the range of angular displacements of the jaw 1.

According to a first range, the pawl 1 is free to rotate and the lug 4 does not exert any force on the large steel wheel 5 despite the lug 4 engaging with the teeth 50 of the large steel wheel. Furthermore, along said first range, there is little friction between the lug 4 and the tooth 50, reducing wear over time. This first range corresponds to the angular travel of the jaw 1 from the active position in which the lug 4 engages with the tooth 50 until the tab 90 begins to be stressed. The size of the first range is visible in particular between two angular positions of the jaw 1 in fig. 5 and 6.

When the tab 90 begins to be compressed until the lug 4 reaches the inactive position and loses engagement with the tooth 50, return is activated only over the second range of angular displacement of the pawl 1. At this point, compression of the tab 90 returns the claw 1 to its original position in the opposite direction. The size of the second range is visible in particular between two angular positions of the jaw 1 in fig. 6 and 7.

Therefore, along the displacement including the two first ranges and the second range, the friction between the pawl 4 and the large steel wheel 5 is thus greatly reduced.

Furthermore, depending on the shape of the housing 14 in the blank 8 and the size of the opening of the discontinuous inner wall 140, the range of angular displacement of the claw 1 can be varied in order to control its return action in order to bring the claw 1 back to the locking position of the large steel wheel 5 as quickly as possible. This early return in particular allows limiting the emptying of the barrel drum during automatic winding.

Furthermore, the fact that the first range of displacement of the jaw 1 ensures its complete free movement (particularly during installation) significantly simplifies the angular positioning of the large steel wheel 5 with respect to the lug 4.

The invention also relates to a timepiece comprising a timepiece movement 2 as described above. Such a timepiece may preferably be a watch.