This application claims priority to European Patent Application No. 19160841.3 filed on Mar. 5, 2019, the entire disclosure of which is hereby incorporated herein by reference.
The invention relates to an internal torque limiting mechanism for a horological movement, said torque limiting mechanism including a first wheel including a first felloe and arranged to pivot about a first axis of rotation relative to a structure or a plate or a bridge, said first wheel including at least a first elastic arm which, in the free state of said first wheel, projects along the direction of said first axis of rotation relative to said first felloe, and at least a second wheel including a second felloe and arranged to pivot relative to said structure about a second axis of rotation parallel or merged with said first axis of rotation overlapping at least partially with said first wheel.
The invention further relates to a barrel winding device including a control member arranged to be operated by a user and to actuate an input pinion engaging with said first wheel or said second wheel of such a torque limiting mechanism, included in said device.
The invention further relates to a horological movement including, between an input mechanism and an output mechanism, such a torque limiting mechanism.
The invention further relates to a timepiece, particularly a watch, including at least such a torque limiting mechanism, and/or at least such a movement.
The invention relates to the field of horological mechanisms, and more particularly the protection of certain mechanisms against an excessive torque addition, in particular energy recharging mechanisms such as winding mechanisms, or correction and/or display mechanisms, in particularly calendar or similar mechanisms.
Some horological mechanisms are designed to store and restore large quantities of energy, however, the dimensioning thereof is limited by that of the case of the timepiece in question, and it is not possible to apply high safety coefficients thereto to protect same against an excessive torque that might be applied thereto. The large size of known torque limiting mechanisms restricts the integration of complications in the timepiece. In addition, the user does not have the option of knowing whether they have correctly performed, completely safely, a complete setting, in particular for winding a mechanism.
The document CH703483A2 held by SEIKO describes a wheel with a torque limiting mechanism comprising a penetration arm part extending from a proximal end part to a distal end part equipped with a penetration addendum, which is engaged elastically in a pressure-engaged part. The addendum is detached from the engaged part to rotate the crown wheels when a torque exceeding a threshold value is applied. A force directed from the proximal end part to the distal end part is applied to the projection when a manual winding torque is applied to the mechanism and suitable for separating the projection from the engaged part.
The invention proposes to produce a very compact, economical, torque limiting device, the use whereof enables the user to determine readily the proper completion of a setting by said user.
For this purpose, the invention relates to an internal torque limiting mechanism for a horological movement, according to claim 1,
The invention further relates to a barrel winding device including such a torque limiting mechanism.
The invention further relates to a horological movement including, between an input mechanism and an output mechanism, such a torque limiting mechanism.
The invention further relates to a timepiece, particularly a watch, including at least such a torque limiting mechanism, and/or at least such a movement.
Further features and advantages of the invention will emerge on reading the following detailed description, with reference to the appended drawings, wherein:
The invention relates to a horological torque limiting mechanism 100. This mechanism 100 includes a first wheel 1, which includes a first felloe 10 and is arranged to pivot about a first axis of rotation D1 relative to a structure 4 or a plate or a bridge.
This first wheel 1 includes at least a first elastic arm 31, which, in the free state of the first wheel 1, projects along the direction of the first axis of rotation D1 relative to the first felloe 10. More particularly and non-exhaustively, this first elastic arm 31 is movable in a first pressed section 41 of the first wheel 1.
The mechanism 100 includes at least a second wheel 2, which includes a second felloe 20 and arranged to pivot relative to the structure 4 about a second axis of rotation D2, parallel or merged with the first axis of rotation D1, overlapping at least partially with the first.
The mechanism 100 includes a travel limiter 5, which is fastened to the structure 4, and which is arranged to hold the second wheel 2 on the first wheel 1 for the engagement thereof in frictional pressure in certain relative angular positions.
The invention is herein more particularly described in the simplified case where the mechanism 100 merely includes the first wheel 1 and the second wheel 2, those skilled in the art would be able to extrapolate to a greater number of wheels, for a mechanism including more than one input and one output.
The invention proposes to vary the frictional pressure between the first wheel 1 and the second wheel 2.
For this purpose, the second wheel 2 and/or the travel limiter 5 and/or the structure 4 includes at least one relief forming a ramp, and which projects along a direction parallel or merged with that of the first axis of rotation D1. This relief is arranged, in certain relative angular positions of the component bearing this relief relative to the first wheel 1, to engage in frictional pressure with at least a first elastic arm 31 of said first wheel 1, and, in further relative angular positions, allow a frictionless relative travel between the first wheel 1 and the component bearing this relief.
When the structure 4 or the travel limiter 5 includes such a relief, the mechanism forms a simple pawl, arranged to vary the axial position of the first elastic arm of the first wheel 1, or to vary the axial position of the entire first wheel 1 and thus vary the frictional pressure applied on the second wheel 2.
The invention relates more particularly to the case where the second wheel 2 includes at least a second arm 32 forming a ramp and which, in the free state of the second wheel 2, projects along the direction of the second axis of rotation D2 relative to the second felloe 20.
More particularly, this second arm 32 is a second elastic arm 32. Even more particularly, this second arm 32 is a second elastic arm 32 movable in a second pressed section 42.
When only the first wheel 1 and the second wheel 2 include reliefs projecting relative to the respective felloe thereof, they are mounted top-to-tail, with each first elastic arm 31 projecting towards the second wheel 2, and with said second arm 32 projecting towards the first wheel 1.
In an alternative embodiment and as seen in
In a further alternative embodiment and as seen in most of the other figures, the second axis of rotation D2 is merged with the first axis of rotation D1.
More particularly, each second arm 32 is arranged to engage successively, upon a relative rotation of the second wheel 2 relative to the first wheel 1, cyclically with the first felloe 10, a first elastic arm 31, and a first pressed section 41 before returning in engagement with the first felloe 10.
It is understood that the first wheel 1 and the second wheel 2 are arranged, if they are coaxial, to rotate in the same direction: either they both rotate in the same direction, or one rotates and the other is locked. These wheels may, in other applications where they are not coaxial, rotate in opposite directions of one another.
Each first elastic arm 31 of the first wheel defines a first ramp, which starts at the level of a hinge 310 with the first felloe 10, and rises to the level of a first apex. More particularly and as seen in the figures, this first elastic arm 31 is an overhanging arm, and the apex is coincident with the distal end of this first arm 31, the edge whereof defines a first front surface 311. In this particular alternative embodiment, any relief of an opposing wheel, in particular the second wheel 2, during a rotation still in the same direction of each wheel, climbs up this first ramp, then drops after passing the apex; according to the configuration, this relief drops onto the first felloe 10, or into the first pressed section 41. This jump corresponds to the disconnection of the mechanism.
In further alternative embodiments not illustrated, the first elastic arm 31 includes an upward ramp from the first felloe 10 to the first apex, then a downward ramp from the first apex to the first felloe 10. In the same way, the relief of the second wheel 2 may be formed in different manners, the figures represent this relief in the form of a second elastic arm 32 similar to the first elastic arm 31 of the first wheel 1, this configuration is advantageous as it makes it possible to use, for this first wheel 1 and the second wheel 2, identical components, at least at the level of these reliefs engaging with one another; obviously, according to the application, the first wheel 1 and the second wheel 2 may include different toothings, according to the components of the movement with which they engage.
More particularly, each first elastic arm 31 is arranged to engage successively, upon a relative rotation of the second wheel 2 relative to the first wheel 1, with the second felloe 20, a second arm 32, and a second pressed section 42 included in the second wheel 2, before returning in engagement with the second felloe 20.
The arrangement with a first front surface 311, and a similar second front surface 312 for the second elastic arm, enables, in a particular direction of rotation, engagement abutting with one another, and rotational actuation by mere, frictionless, pressure of a wheel with another, whereas, in the opposite direction of rotation, the elastic arms engage progressively to an unclicking position where one of the wheels is no longer actuated by the other.
In a particular alternative embodiment illustrated by the figures, each first elastic arm 31 is a substantially annular sector which extends substantially concentrically relative to the first axis of rotation D1. The radial cross-section thereof may be constant, or indeed progressive or degressive, so as to obtain a variable friction according to the relative angle between the opposing wheels. Preferably, the top surface of the first elastic arm 31 extends, radially relative to the first axis of rotation D1, perpendicularly thereto. In a non-illustrated alternative embodiment, this first elastic arm 31 may, further, be warped or slanted. Each second elastic arm 32 may be formed in a similar fashion. And in particular, more particularly, each second elastic arm 32 extends substantially concentrically relative to the second axis of rotation D2.
In a further alternative embodiment and as seen in
More particularly, and as seen in
As seen in
Thus, particularly and specifically to the invention, the usual crown wheel is split into two plates, forming the first wheel 1 and the second wheel 2, and advantageously in a very economical embodiment, first 31 and second 32 elastic arms are pressed and bent in each thereof. These plates are then mounted top-to-tail in place of the crown wheel. The first wheel 1 engages with a winding-mechanism pinion 202, and the second wheel 2 engages with the barrel ratchet 203. The first wheel 1 and the second wheel 2 are rigidly connected by means of the elastic arms 31 and 32, which transmit a frictional torque. If the torque applied to the winding-mechanism pinion 202 is excessive, the elastic arms 31 and 32 are distorted and slide against one another, until the system disconnects. During disconnection, the jump performed by the elastic arms 31 and 32 during unclicking produces a characteristic noise which gives the user the indication that the barrel is fully recharged.
In the alternative embodiment illustrated by the figures, each wheel 1, 2, includes three elastic arms 3132. After disconnection, the first wheel 1 performs a third of a turn.
More particularly, the play between the felloes of the two wheels is between 0.06 and 0.10 mm, and the axial elastic travel of each arm is half the value of this play.
The invention further relates to a horological movement 500 including, between an input mechanism 300 and an output mechanism 400, such a torque limiting mechanism 100.
More particularly, the input mechanism 300 is a calendar or date mechanism, and the output mechanism 400 is a mechanism for displaying the month, or day of the week, or date. Also, the torque limiter 100 is arranged to command, upon any jump of an arm of a wheel 1 or 2 of the torque limiter 100, the gain by one step of the display in question. For example, the command to correct the display of the day of the week is a cyclical command for which the device according to the invention is well suited. Similarly, a clear date correction setting may be obtained.
The invention is readily adaptable to any semi-instantaneous or dragging display: months, days, time zones, hours, or others.
The invention is also suitable for producing a reverser for mono- or bidirectional winding: the first wheel 1 engages with an oscillating automatic winding mass, and the second wheel 2 engages with the winding train. When the first wheel 1 turns in the clockwise direction, the system unclicks and the second wheel 2 does not turn. When the first wheel 1 turns in the anticlockwise direction, it actuates the second wheel 2 via the distal ends 311, 321, of the elastic arms 31 and 32. Thus, more particularly, the movement 500 includes an oscillating automatic winding mass and an automatic winding train, and such a torque limiter 100 including elastic arms 31, 32, forms a reverser for mono- or bidirectional winding, the first wheel 1 engaging with the oscillating automatic winding mass, and the second wheel 2 engaging with the winding train, such that, when the first wheel 1 turns in the clockwise, or respectively anticlockwise, direction, the system unclicks and the second wheel 2 does not turn, and when the first wheel 1 turns in the anticlockwise, or respectively clockwise, direction, it actuates the second wheel 2 via distal ends 311,321, included respectively in the elastic arms 31, 32.
The invention is also suitable for producing a brake-lever, for example to prevent a barrel from being discharged. The ratchet may be provided with elastic arms, and the barrel bridge with notches, such that the ends of the arms fall into the notches. Thus, more particularly, the movement 500 includes at least a barrel and a ratchet arranged on a barrel bridge, and such a torque limiter 100 forms a brake-lever, to prevent a barrel from being discharged, the ratchet forming one of the wheels 1, 2, and including elastic arms, and the barrel bridge forming a structure 4 and including notches, such that the ends of the arms fall into the notches.
More particularly, the input mechanism 300 is a minute repeater release mechanism, and the output mechanism 400 is a minute repeater mechanism. The torque limiter 100 is then arranged to command, upon any jump of an arm of a wheel 1 or 2 of the torque limiter 100, the control of a lifting-lever, included in the minute repeater mechanism, to inhibit the command of a further repeater during the execution of a repeater striking-mechanism.
The invention further relates to a timepiece 1000 including at least such a torque limiting mechanism 100, and/or at least such a movement 500. More particularly, this timepiece 1000 is a watch.
In sum, the proposed mechanism is very simple, as it requires no elastic return means other than those borne by the first wheel 1, and preferably the second wheel 2. In particular, it is not necessary to insert, in the space defined by the structure 4 and the travel limiter 5, a spring to press the first wheel 1 and the second wheel 2 against one another.
The coaxial arrangement of the wheels is particularly advantageous, as the pressures exerted on the wheels are symmetrical, and the transmissible pressure is maximal. In the case where the arrangement in the horological movement involves offsetting the first 1 and the second 2 wheels, it is advantageous to increase the number of elastic arms to prevent dead angles.
The embodiment of the wheels may stem, very economically, from stamping, the wheels may be identical, and optionally differ solely by the toothing thereof.
The invention enables the user to ensure that the function performed, winding, display correction, release, is completed properly, and ensures the protection of the components of the mechanism in question against any excessive torque. For example, the user can wind a barrel completely without being concerned about breaking a component.
Number | Date | Country | Kind |
---|---|---|---|
19160841 | Mar 2019 | EP | regional |
Number | Name | Date | Kind |
---|---|---|---|
7287901 | Helfer | Oct 2007 | B1 |
20070237035 | Helfer | Oct 2007 | A1 |
20120186054 | Cusin | Jul 2012 | A1 |
20150124569 | Decosterd | May 2015 | A1 |
20200192295 | Rochat | Jun 2020 | A1 |
20200285196 | Christan | Sep 2020 | A1 |
20210063967 | Comment | Mar 2021 | A1 |
20210349423 | Saglini | Nov 2021 | A1 |
Number | Date | Country |
---|---|---|
703 483 | Jan 2012 | CH |
1 843 225 | Oct 2007 | EP |
2 871 534 | May 2015 | EP |
1 207 713 | Feb 1960 | FR |
Entry |
---|
European Search Report dated Aug. 9, 2019 in European Application 19160841.3 filed on Mar. 5, 2019 (with English Translation of Categories of Documents Cited & Written Opinion), 7 pages. |
Number | Date | Country | |
---|---|---|---|
20200285196 A1 | Sep 2020 | US |