JP2013545991A - Ankle and escapement provided with such ankle - Google Patents

Abstract

The present invention relates to an improved ankle and improved escapement for a Swiss style ankle escapement, which makes it possible to simplify the timing operation by removing external tilt pins. The ankle is made in one piece, defines a general plane in which the ankle (10) is placed, is provided at its free end with a fork (14) for cooperating with Tianfu (17), and a fork. A bar (12) extended by two arms (20) is provided on the opposite side of the shaped part (14). Each arm (20) is separated from the impact and locking claw stone (22) and the first claw stone, and in the general plane, is a stop positioned to protrude with respect to the arm (20) A stop stone (26) having a convex portion at its end defining a contact point with the escapement wheel (24).
[Selection] Figure 1

Description

TECHNICAL FIELD The present invention relates to the field of mechanical watchmaking methods. More specifically, it relates to an ankle for an escapement mechanism and an escapement provided with such an ankle.

BACKGROUND OF THE INVENTION Among the different escapement mechanisms used in mechanical watchmaking methods, the most widespread today is the so-called Swiss ankle escapement. It uses an ankle provided with a bar with a fork and a needle at its free end to cooperate with the Tianfu impact pin. On the opposite side of the fork, the bar extends while it separates into two arms. Each arm includes a housing designed to receive stones, the surface of which forms a bearing plane designed to cooperate with the escapement wheel to perform the escapement function .

  During the locking phase, the escapement wheel compresses the locking plane and causes the ankle to pull, so that the latter weights the tilting pin, also called the limiting pin.

  The presence of the limit pin complicates the setting of the anchor position of the ankle. Therefore, in practice, it is necessary to take into account the position of the limit pin apart from the position of the rotation point of the ankle and escapement wheel. In view of the force points that exist between the contact points between the limit pin and the bar, the influence of that setting at the contact point between the claw stone and the escapement wheel is significant and thereby much more precise.

  Already proposed in the state of the art are escapements that make it possible to remove the limiting pin. For example, document EP1276021 (European Patent Application No. 1276021) has two ankles cooperating with each other, and each has a first tooth and a second continuous tooth of an escapement wheel. In particular, it proposes an original escapement. The tooth profile of the escapement wheel has a conforming shape, each with a concave impact surface and a crest surface at the top. The originality and speciality of this escapement makes it possible to replace its technical teaching with an existing mechanical part equipped with a Swiss ankle escapement.

  The present invention aims to overcome this drawback, i.e., avoid the presence of a limiting pin while facilitating the adjustment of the escapement without modifying the various parts of the escapement.

BRIEF DESCRIPTION OF THE INVENTION More specifically, the present invention relates to a Swiss ankle escapement ankle that is made in one piece, defining a general plane in which the ankle is located and cooperating with Tianfu at its free end. Including a bar provided with a fork for working and extended by two arms on the opposite side of the fork;
-Impact and claw stones;
A stop pallet stone that is separated from the first pallet stone and is positioned so as to protrude from the arm portion in the general plane, the stop pallet stone being an escapement wheel at an end thereof; And a stop claw stone having a convex portion defining a contact point with the.

  Advantageously, the ankle is made from a single crystal material, in particular a silicon-based material.

  According to the first embodiment, the stop claw stone is located between the impact and the claw stone.

  According to the second embodiment, the stop claw stone is located on either side of the impact and locking claw stone.

  The ankle may include a needle that is mounted on or integral with the fork.

  For pivoting of the ankle, the ankle includes a structure that allows assembly of the rod. Therefore, the ankle may include a pivot rod.

  According to another aspect, the present invention relates to an escapement comprising an escapement wheel and an ankle as described above. The arm's impact and locking pallet on one side and stop pallet on the other are arranged to cooperate with the first and second continuous teeth of the escapement wheel, respectively, thereby It performs the function of pulling and blocking without the use of any external bevel pins.

  The escapement wheel includes teeth defining an impact plane and a locking plane, and the impact and locking claw stone includes an impact plane and a locking plane. While the locking plane of the first arm and the locking plane of the impact claw stone are arranged to cooperate with the locking plane of the first tooth of the escapement wheel, the continuous tooth impact plane is Cooperate with the stop arm stone of the first arm.

  Preferably, the escapement wheel and the ankle are made from a single crystal material that is advantageously silicon-based.

BRIEF DESCRIPTION OF THE DRAWINGS Other details of the present invention will become apparent upon reading the following description given with reference to the accompanying drawings, in which FIGS. 1 and 2 show two embodiments of an ankle according to the present invention. It will appear more clearly.

1 shows an embodiment of an ankle according to the invention. 1 shows an embodiment of an ankle according to the invention.

DETAILED DESCRIPTION OF THE INVENTION FIG. 1 shows a first embodiment of an ankle 10 according to the present invention. It is the same as the state-of-the-art ankle of the Swiss ankle escapement 10. It includes a rod 12 provided with a fork 14 at its free end. The bar 12 defines a general plane in which the ankle 10 is placed. The fork 14 is designed to cooperate with the impact pin 16 of Tianfu 17, shown schematically. The fork 14 can be completed by a needle 18 designed to work with a small roller in Tianfu 17. On the opposite side of the fork 14, the bar 12 is extended and divided into two arms 20 located in a general plane. Therefore, the ankle 10 is the same as the conventional ankle 10 of the conventional ankle escapement 10 with respect to the overall shape of the rod 12 and the arm portion 20.

  The ankle 10 according to the present invention includes an impact and locking claw stone 22 provided with an impact plane 22 a and a locking plane 22 b in the arm portion 20. These planes are each conventionally designed to cooperate with the impact plane and the locking plane included by each tooth of the escapement wheel 24. In this application, the term clawstone should not be construed in a limited manner and does not necessarily clearly indicate a ruby element that is mounted on the ankle 10. The clawstone reveals the portion of the ankle 10 that is designed to cooperate with the escapement wheel 24.

  In accordance with the present invention, the ankle 10 further includes a stop claw stone 26 that is spaced from the impact and locking claw stones 22 and that projects from the arm 20 in a general plane defined by the rod 12. Including. Preferably, stop pawl 26 has a convex portion at its end that defines a point of contact with escapement wheel 24.

  More specifically, as shown in FIG. 1, the impact and locking claw stones 22 on one side and the stop claw stones 26 on the other side of the arm portion 20 are respectively provided on the escapement wheel 24. Arranged to cooperate with the first and second successive teeth, thereby performing the function of tension and obstruction without the use of any external bevel pins. The impact of the first arm 20 and the locking plane 22b of the locking claw stone 22 are arranged to cooperate with the locking plane 24b of the first tooth of the escapement wheel 24, while the continuous teeth The impact plane 24a of the first arm 20 cooperates with the stop claw stone 26 of its first arm 20 periodically (ie by a single contact point).

  In the first embodiment proposed in FIG. 1, the stop claw stone 26 is located between the impact and locking claw stone 22. Alternatively, the stop pallet is located on either side of the impact and locking calculus 22, ie, outside, as illustrated in FIG. In one variant, not shown, one stop claw stone 26 can be positioned between the impact and locking claw stone 22 and the other can be positioned outside the impact and locking claw stone 22.

  Advantageously, the ankle 10 and talc are made in one piece from a single crystal material, preferably from silicon or a silicon-based material. Needle 18 may be mounted on the ankle or integral with the fork. The escapement wheel 24 is also made from a single crystal material, preferably silicon or a silicon-based material, in order to optimize the friction conditions between the escapement wheel 24 and the ankle 10.

  During the next turn, another tooth of the escapement wheel 24 descends onto the locking claw stone of the other arm 20 while the successive teeth are actually in contact with the stop claw stone 26 of the other arm 20. Work together at the same time.

  Particularly advantageously, it can be seen that the stop of the escapement wheel 24 occurs without contact of the ankle 10 with the limiting pin 28, which is shown for illustrative purposes only.

  For that pivot, those skilled in the art will be able to select various techniques that allow the ankle 10 to be equipped with a pivot rod that can be mounted in a bearing. As an example, it is possible to use the technical teaching of application EP09165254 (European patent application No. 09165254) in the name of the applicant. To that end, the ankle 10 may have a structure that allows assembly of the rod at its pivot point.

  Particularly advantageously, in the conventional ankle escapement 10, the ankle 10 according to the invention can be replaced by a state-of-the-art ankle 10. This replacement can be made without any modification to the other parts of the escapement or without pivoting the ankle 10 pivoting. Thus, thanks to the removal of the limiting pin, it is possible to greatly simplify the setting of the escapement function without the need to specifically rebuild the mechanical parts around the particular escapement. This result can be obtained simply by replacing the conventional ankle 10 with the ankle 10 according to the invention. It should be noted that the ankle 10 according to the present invention can be replaced by a typical ankle 10 in the side ankle escapement 10.

  The choice of material also makes it possible to optimize the friction between the ankle 10 and the wheel. Thereby, it is possible to further optimize the shape of the ankle 10 and its claw stones. In fact, thanks to the shape of the ankle 10 according to the invention, the escapement wheel 24 is obstructed without any corner effects and without any concave areas that have to be lubricated. It has been noted that some ankles 10 have a recessed area that obstructs escapement wheel 24, which can cause fouling over time with the lubricant used.

  Furthermore, the ankle 10 according to the invention makes it possible to optimize the vibrations that occur when the escapement stops. In fact, for the vibration that occurs between the ankle 10 and the limit pin, that that occurs between the escapement wheel 24 and the stop clawstone occurs with the arm 20 of a smaller power point.

[Document Name] Description
TECHNICAL FIELD The present invention relates to the field of mechanical watchmaking methods. More specifically, it relates to an ankle for an escapement mechanism and an escapement provided with such an ankle.
[Background]
[0002]
BACKGROUND OF THE INVENTION Among the different escapement mechanisms used in mechanical watchmaking methods, the most widespread today is the so-called Swiss ankle escapement. It uses an ankle provided with a bar with a fork and a needle at its free end to cooperate with the Tianfu impact pin. On the opposite side of the fork, the bar extends while it separates into two arms. Each arm includes a housing designed to receive stones, the surface of which forms a bearing plane designed to cooperate with the escapement wheel to perform the escapement function .
[0003]
During the locking phase, the escapement wheel compresses the locking plane and causes the ankle to pull, so that the latter weights the outer tilt pin, also called the restrictor .
[0004]
The presence of the inclined pin complicates the setting of the anchor position of the ankle. Therefore, in practice, it is necessary to take into account the position of the tilt pin apart from the position of the rotation point of the ankle and escapement wheel. In view of the force points that exist between the contact points between the tilt pin and the bar, the influence of that setting on the contact point between the ankle stone and the escapement wheel is significant and thereby much more precise.
[0005]
What has already been proposed in the state of the art is an escapement that makes it possible to remove the tilt pin. For example, document EP1276021 (European Patent Application No. 1276021) has two ankles cooperating with each other, and each has a first tooth and a second continuous tooth of an escapement wheel. In particular, it proposes an original escapement. The tooth profile of the escapement wheel has a conforming shape, each with a concave impact surface and a crest surface at the top. The originality and speciality of this escapement makes it possible to replace its technical teaching with an existing mechanical part equipped with a Swiss ankle escapement.
[0006]
The present invention aims to solve this drawback, i.e. avoid the presence of tilt pins while facilitating the adjustment of the escapement without modifying the various parts of the escapement.
[0007]
More specifically brief description of the invention, the present invention also relates to Switzerland type ankle escapement comprises escapement wheel and pallet fork is integrally made and the general plane of the ankle is placed defining and, in its free end provided with a forked portion for cooperating with Tianfu, and two arms including a rod extending through the opposite side of the Matajo portion. Each arm is
-Impact and claw stones;
A stop claw stone that is spaced from the impact and the locking claw stone and that protrudes from the arm in the general plane, the stop cobble stone at the end thereof A stop pallet having a convex portion defining a contact point with the ring.
[0008]
The impact and locking claw stones on the one hand and the stop claw stones on the other side of the arm are respectively the first and second continuous teeth of the escapement wheel during one cycle of the escapement. Are arranged to cooperate with each other, thereby performing a pulling and blocking function without the use of any external tilt pins.
[0009]
BRIEF DESCRIPTION OF THE DRAWINGS Other details of the present invention will become apparent upon reading the following description given with reference to the accompanying drawings, in which FIGS. 1 and 2 show two embodiments of an ankle according to the present invention. It will appear more clearly.
[Brief description of the drawings]
[0010]
FIG. 1 shows an embodiment of an ankle according to the invention.
FIG. 2 shows an embodiment of an ankle according to the invention.
BEST MODE FOR CARRYING OUT THE INVENTION
[0011]
DETAILED DESCRIPTION OF THE INVENTION FIG. 1 shows a first embodiment of an ankle 10 according to the present invention. It is similar to the Swiss ankle escapement of the state of the art ankle. It includes a rod 12 provided with a fork 14 at its free end. The bar 12 defines a general plane in which the ankle 10 is placed. The fork 14 is designed to cooperate with the impact pin 16 of Tianfu 17, shown schematically. The fork 14 can be completed by a needle 18 designed to work with a small roller in Tianfu 17. On the opposite side of the fork 14, the bar 12 is extended and divided into two arms 20 located in a general plane. Therefore, the ankle 10 is the same as the conventional ankle 10 of the conventional ankle escapement with respect to the overall shape of the rod 12 and the arm portion 20.
[0012]
The ankle 10 according to the present invention includes an impact and locking claw stone 22 provided with an impact plane 22 a and a locking plane 22 b in the arm portion 20. These planes are each conventionally designed to cooperate with the impact plane and the locking plane included by each tooth of the escapement wheel 24. In this application, the term clawstone should not be construed in a limited manner and does not necessarily clearly indicate a ruby element that is mounted on the ankle 10. The clawstone reveals the portion of the ankle 10 that is designed to cooperate with the escapement wheel 24.
[0013]
In accordance with the present invention, the ankle 10 further includes a stop claw stone 26 that is spaced from the impact and locking claw stones 22 and that projects from the arm 20 in a general plane defined by the rod 12. Including. Preferably, stop pawl 26 has a convex portion at its end that defines a point of contact with escapement wheel 24.
[0014]
More specifically, as shown in FIG. 1, the impact and locking claw stones 22 on one side and the stop claw stones 26 on the other side of the arm portion 20 are respectively provided on the escapement wheel 24. Arranged to cooperate with the first and second successive teeth, thereby performing the function of tension and obstruction without the use of any external bevel pins. The impact of the first arm 20 and the locking plane 22b of the locking claw stone 22 are arranged to cooperate with the locking plane 24b of the first tooth of the escapement wheel 24, while the continuous teeth The impact plane 24a of the first arm 20 cooperates with the stop claw stone 26 of its first arm 20 periodically (ie by a single contact point).
[0015]
In the first embodiment proposed in FIG. 1, the stop claw stone 26 is located between the impact and locking claw stone 22. Alternatively, the stop pallet is located on either side of the impact and locking calculus 22, ie, outside, as illustrated in FIG. In one variant, not shown, one stop claw stone 26 can be positioned between the impact and locking claw stone 22 and the other can be positioned outside the impact and locking claw stone 22.
[0016]
Advantageously, the ankle 10 and talc are made in one piece from a single crystal material, preferably from silicon or a silicon-based material. Needle 18 may be mounted on the ankle or integral with the fork. The escapement wheel 24 is also made from a single crystal material, preferably silicon or a silicon-based material, in order to optimize the friction conditions between the escapement wheel 24 and the ankle 10.
[0017]
During the next turn, another tooth of the escapement wheel 24 descends onto the locking claw stone of the other arm 20 while the successive teeth are actually in contact with the stop claw stone 26 of the other arm 20. Work together at the same time.
[0018]
It can be seen particularly advantageously that the stop of the escapement wheel 24 occurs without contact of the ankle 10 with the tilt pin 28, which is shown for illustration purposes only.
[0019]
For that pivot, those skilled in the art will be able to select various techniques that allow the ankle 10 to be equipped with a pivot rod that can be mounted in a bearing. As an example, it is possible to use the technical teaching of application EP09165254 (European patent application No. 09165254) in the name of the applicant. To that end, the ankle 10 may have a structure that allows assembly of the rod at its pivot point.
[0020]
Particularly advantageously, in the conventional ankle escapement 10, the ankle 10 according to the invention can be replaced by a state-of-the-art ankle 10. This replacement can be made without any modification to the other parts of the escapement or without pivoting the ankle 10 pivoting. Thus, thanks to the removal of the tilt pin, the setting of the escapement function can be greatly simplified without the need to specifically rebuild the mechanical parts around the particular escapement. This result can be obtained simply by replacing the conventional ankle 10 with the ankle 10 according to the invention. Uncle 10 according to the invention, it should be noted that it is possible to replace the Oite typical ankle 10 next to the ankle escapement.
[0021]
The choice of material also makes it possible to optimize the friction between the ankle 10 and the wheel. Thereby, it is possible to further optimize the shape of the ankle 10 and its claw stones. In fact, thanks to the shape of the ankle 10 according to the invention, the escapement wheel 24 is obstructed without any corner effects and without any concave areas that have to be lubricated. It has been noted that some ankles 10 have a recessed area that obstructs escapement wheel 24, which can cause fouling over time with the lubricant used.
[0022]
Furthermore, the ankle 10 according to the invention makes it possible to optimize the vibrations that occur when the escapement stops. In fact, for the vibration that occurs between the ankle 10 and the tilt pin, that that occurs between the escapement wheel 24 and the stop claw stone occurs with the smaller force point arm 20.

Claims (14)

An integrally made Swiss ankle escapement ankle (10) for defining a general plane in which the ankle (10) is located and for cooperating with Tianfu (17) at its free end A bar (12) provided with a fork (14) and extended by two arms (20) on the opposite side of the fork (14), each arm (20)
-Impact and locking claw stones (22);
A stop pallet stone (26) positioned away from the first calculus and projecting relative to the arm (20) in the general plane, the stop calculus (26) being A stop claw stone (26) having a convex portion at its end defining a contact point with the escapement wheel (24);
Ankle (10) including   2. Ankle (10) according to claim 1, characterized in that it is made from a single crystal material.   3. Ankle (10) according to claim 2, characterized in that it is made of a silicon-based material.   Ankle (10) according to one of the preceding claims, characterized in that the stop pallet is located between the impact and the locking pallet (22).   5. Ankle (10) according to one of claims 1 to 4, characterized in that the stop pallet is located on either side of the impact and locking pallet (22).   One stop claw stone (26) is located between the impact and the claw stone (22) and the other is located outside the impact and the claw stone (22). The ankle (10) according to one of 1 to 4.   Ankle (10) according to one of the preceding claims, characterized in that it comprises a needle (18) mounted on the fork (14).   Ankle (10) according to one of the preceding claims, characterized in that it comprises a needle integral with the fork (14).   Ankle (10) according to one of the preceding claims, characterized in that it comprises a structure allowing assembly of the rod.   10. Ankle (10) according to one of the preceding claims, characterized in that it comprises a pivot rod.   11. An escapement comprising an escapement wheel (24) and an ankle (10) according to one of claims 1 to 10, wherein said impact and locking claw stones on one side of an arm (20) 22), and the stop pawl (26) on the other, are arranged to cooperate with the first and second continuous teeth of the escapement wheel (24), respectively, so that any external An escapement characterized in that it performs the function of pulling and obstructing without using any tilting pin. The escapement wheel (24) includes teeth defining an impact plane (24a) and a locking plane (24b), and the impact and locking claw stone (22) is provided with an impact plane (22a) and a locking plane (22b). And teeth defining
The locking of the first arm (20) and the locking plane (22b) of the impact stone (22) cooperate with the locking plane (24b) of the first tooth of the escapement wheel (24). 12, according to claim 11, characterized in that a continuous tooth impact plane (24 a) cooperates with a stop claw stone (26) of the first arm (20) while being arranged in such a way. Escapement.   13. Escapement according to one of claims 11 and 12, characterized in that the escapement wheel (24) and the ankle (10) are made from a single crystal material.   13. Escapement according to one of claims 11 and 12, characterized in that the escapement wheel (24) and the ankle (10) are made of silicon-based material.

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