This application claims priority from European patent application No. 13154875.2 filed Feb. 12, 2013, the entire disclosure of which hereby incorporated by reference.
The invention concerns a shockproof timepiece wheel for driving a component having unbalance relative to a pivot axis of said wheel, said wheel includes, on the one hand an arbour for pivotally guiding the wheel about said pivot axis, and on the other hand, a drive means arranged or assembled on a flange of said wheel, said wheel including at least one flexible element between said arbour and said flange.
The invention further concerns a timepiece movement including a wheel of this type carrying one said component having unbalance relative to a pivot axis of said wheel.
The invention also concerns a watch including at least one timepiece movement of this type.
The invention concerns the field of protection of watches against the effects of shocks, in particular when the watches include moving components with significant unbalance liable to damage a more fragile element in the kinematic chain in the event of a shock.
The use of technologies permitting the use of hands with greater unbalance entails new problems:
the hands sliding on the tubes;
breakage of gear trains and/or rotors in electrical versions, in the event of a 5000 g shock.
This latter point is by far the most critical. In certain existing calibres, this type of breakage may occur in the event of a 5000 g shock, such as an accidental fall from the user's height.
Breakage means that the watch no longer functions, which strongly impacts the quality perceived by the user.
It is an object of the invention to prevent the gear trains and/or rotor from breaking by absorbing the energy from a shock, without affecting the design of the hands. Indeed, if a counterweight can be added to the hands to reduce their unbalance and thereby reduce the torque exerted during a large shock, this type of solution impairs the appearance of the hands desired by the manufacturers.
The energy from a shock must be absorbed to permit the use of hands with significant unbalance, which are increasingly common with the current trend of increasing the diameter of watches.
EP Patent No 1921516 in the name of the Swiss Watch Manufacturer ETA SA discloses a fastening for a silicon assembly element for use as a rotating element, in particular a hand or a toothed wheel. This assembly element includes two series of resilient structures etched into different layers of the plate in which the element is fabricated, to radially grip an arbour.
EP Patent No 1705533 in the name of PATEK PHILIPPE SA discloses an assembly of a silicon part on an arbour including a shoulder adjoining an axial stop member. The part includes a passage cooperating with the shoulder. The device further includes a washer with a hole fixed to the arbour so that the part is located between the stop member and the washer. The only possibility of protection against external stresses is provided by the elasticity of the silicon where the arbour is clamped.
CH Patent No 67295 in the name of BBC BROWN BOVERI & CIE discloses a wheel for heavy machinery including a toothed crown centred on a hub, with, just under the surface, a vibration or shock absorber device in the form of a tangentially mounted helical shock absorber spring, which is necessarily very bulky and unsuitable for horological applications.
The basic principal of the invention is to absorb the shock by permitting the elastic torsion of one component of the gear train and, more particularly, of the centre wheel. This torsion is achieved by a sliding motion between a centre arbour and a flange. An elastic element permits absorption of the shock. The arbour/flange sliding motion permits some energy dissipation by friction. The elastic element enables the amplitude and duration of the shock to be modified (lower amplitude and longer duration).
The invention therefore concerns a shockproof timepiece wheel for driving a component having unbalance relative to a pivot axis of said wheel, said wheel includes, on the one hand an arbour for pivotally guiding the wheel about said pivot axis, and on the other hand, a drive means arranged or assembled on a flange of said wheel, said wheel including at least one flexible element between said arbour and said flange, characterized in that said flange includes a cylindrical shoulder cooperating in abutment for centring purposes with a complementary cylindrical shoulder comprised in said arbour to ensure the perfect concentricity of said drive means with said arbour, and characterized in that said flexible element is mounted, either confined between said flange and a locking washer held on said arbour, or snapped onto said flange and/or said arbour.
According to a feature of the invention, said flexible element is an interchangeable element distinct from said arbour and from said flange and whose resilience is selected according to the maximum allowable value of said unbalance.
The invention further concerns a timepiece movement including a wheel of this type carrying one said component exhibiting unbalance relative to a pivot axis of said wheel, characterized in that said component is a hand, or an oscillating weight, or a strike hammer or a lever.
The invention also concerns a watch including at least one timepiece movement of this type.
Other features and advantages of the invention will appear upon reading the following detailed description, with reference to the annexed drawings, in which:
The invention proposes to improve the protection of watches against the effects of shocks. The effect of a large shock on a moving component with significant unbalance risks damaging the most fragile elements in the kinematic chain.
The invention therefore concerns a shockproof timepiece wheel 1 for driving a component 4 having unbalance relative to a pivot axis D of wheel 1.
Wheel 1 includes, on the one hand an arbour 2 (which may be tubular or solid) for pivotally guiding the wheel about pivot axis D, and on the other hand, a drive means 7 arranged to assembled on a flange 8 of wheel 1. This drive means 7 may be a toothed sector, a track for a belt or chain or similar, or other element.
Wheel 1 includes at least one flexible element 9 between arbour 2 and flange 8 for absorbing the shock impact and damping the effect on the other components of watch movement 100, in which wheel 1 of the invention is incorporated.
According to the invention, flange 8 includes a cylindrical shoulder 81 cooperating in abutment, to achieve centring, with a complementary cylindrical shoulder 21 comprised in arbour 2 to ensure the perfect concentricity of drive means 7 with arbour 2. Therefore perfect geometry and precise motion transmission are always ensured. This arrangement ensures that there is no out-of-roundness, or any vibration interference as a result of extremely reduced play.
The Figures illustrate several, non-limiting embodiments of the invention.
Of the embodiments illustrated, the first three embodiments, illustrated in
Thus it is possible to devise, for the same arbour 2—flange 8 pair, which determines the geometric interfaces with the rest of the movement, a series of flexible elements 9 having a similar geometry but different damping capacities, to adapt shockproof wheel 1 as well as possible to the context of use, and in particular to unbalance value, and also to the anticipated shock level, which depends on the use or destination of the watch, for example for users working in a necessarily vibrating environment, such as public works, or for users in a sporting, military or similar environment. As will be seen below, the assembly of wheel 1 is devised to be very simple, and it is therefore possible to tailor a watch to its conditions of use by selecting the appropriate flexible element 9.
According to the invention, flexible element 9 is mounted either confined between flange 8 and a locking washer 20 held on arbour 2, or snapped onto flange 8 and/or arbour 2.
Various non-limiting assembly versions are presented here. In particular, flexible element 9 may be mounted:
either confined between flange 8 and a locking washer 20 held on arbour 2, particularly driven or crimped onto arbour 2,
or snapped on both sides of an area 10 of assembly of cylindrical shoulder 81 to complementary cylindrical shoulder 21,
or snapped on in an assembly area 10 of cylindrical shoulder 81 and of complementary cylindrical shoulder 21.
In the first and second embodiment, flexible elements 9 are substantially flat circular gaskets, and are wedged between flange 8 and arbour 2. Flange 8 pivots on arbour 2. A washer resting on and riveted to arbour 2 forms an axial stop member for flange 8. The gaskets transmit the torque between flange 8 and arbour 2. In the event of a shock, the gaskets are deformed and thus absorb part of the energy from the shock. When the shock has finished, flange 8 returns to its initial position relative to arbour 2.
In the particular case of the application of the invention to a centre wheel 1 carrying a hand 5, the shock is absorbed directly in centre wheel 1. That is to say, the energy from the shock, exerted by the hand unbalance is absorbed as soon as possible into the torque transmission chain.
This prevents the breakage of any gear trains and rotors made of plastic material and having small pivots, which may be contained in a movement 100. The advantages of these plastic components are lower cost, pre-lubrication and a low level of friction on the pivots. The fact of being able to retain these components in a movement avoids the use of metal components, synonymous with an increase in costs and feasibility problems (particularly for the rotor of an electric or quartz movement). Shock absorption also prevents the hands from sliding on their arbour tube 2.
In the first embodiment illustrated in
This elastomer preferably has a hardness of between 50 and 70 Shore A, good results are obtained with a Shore hardness close to 65 Shore A. An “NBR”, or butadiene-acrylonitrile type copolymer is particularly suitable. Other elastomers having a similar hardness may also be suitable. Naturally, the choice of elastomer depends on the position of the wheel within the gear train, the level of unbalance of the wheel set(s) with which the wheel meshes and on the shock level to be absorbed. It is clear that, although the invention is very advantageous in a centre wheel carrying the hand and thus significant unbalance, it can be used for an intermediate wheel which does not necessarily carry the unbalance.
In this embodiment, flexible element 9 includes bosses 93 which are arranged, during normal operation, to transmit a drive torque between arbour 2 and flange 8 and, in the event of any shock, to absorb the torsion between arbour 2 and flange 8, to dissipate part of the energy from the shock by friction, to modify the effect on drive means 7 of the amplitude and duration of the shock, by reducing the amplitude and increasing the duration thereof, and to form an elastic return means returning flange 8 into a realignment position relative to arbour 2 after the shock.
These bosses 93 are preferably connected to each other by a ring 92 of flexible element 9, said ring 92 is arranged to abut on at least one lateral surface 8A of flange 8.
Preferably, ring 92 is located in a plane distinct from a plane in which bosses 93 extend, said bosses are intended to come within the thickness of flange 8, and have a similar thickness to that of flange 8.
Preferably, these bosses 93 are identical to each other and arranged regularly around an axial direction DA about which flexible element 9 extends.
Flange 8 includes housings 82 for receiving and centring bosses 93 of flexible element 9.
Arbour 2 also includes complementary housings 22 for receiving and centring bosses 93.
Arbour 2 and flange 8 are arranged so that, in at least one angular position of one relative to the other when said arbour and flange are assembled to cylindrical shoulder 81, cooperating in abutment for centring purposes with complementary cylindrical shoulder 21, housings 82 and complementary housings 22, in pairs, form slots 23 for receiving bosses 93 in a comprehensive and complementary manner when flexible element 9 is pressed onto flange 8.
Flange 8 includes a housing 81 for receiving arbour 2.
Advantageously, arbour 2 includes a groove 25 arranged to receive, in a first relative angular position, a rib 85 of flange 8, when arbour 2 and flange 8 are assembled to cylindrical shoulder 81 in abutment for centring purposes with complementary cylindrical shoulder 21, and when flange 8 is in an end stop position, in abutment, via a lateral surface 8A of flange 8, against a shoulder surface 27 of arbour 2. Groove 25 allows arbour 2 to pivot in the manner of a bayonet relative to flange 8 in at least a second relative angular position, in which housings 82 and complementary housings 22 are aligned and, in pairs, form slots 23 for receiving bosses 93 in a comprehensive and complementary manner when flexible element 9 is pressed onto flange 8, bosses 93 then angularly indexing flange 8 relative to arbour 2.
In this embodiment, flexible element 9 includes snap-on lugs 94 (as shown in
In a particular variant of this first embodiment, on at least of the thickness thereof, each boss 93 is symmetrical relative to a plane passing through axial direction DA and includes at least two curved ridges 95 oriented towards axial direction DA, separated by a curved hollow 96 for absorbing the compression of boss 93 in the event of a shock. In the particular case of the Figures, boss 93 has a profile of this type, further delimited laterally by curved hollows 97, on only one side 9A of flexible element 9, and the main surface 91, called the top surface, visible in
In the second embodiment of
Minute wheel 1 includes a toothed wheel 8 centred on an arbour 2, said flange 8 being pivotally connected to arbour 2 by a flexible element 9 that can deform in the event of a shock and is also an elastomer or similar, said flexible element 9 is pressed onto a top surface 8A of flange 8, and is held, together with flange 8 on arbour 2 by a locking washer 20, driven, or preferably riveted, or similarly mounted on the arbour. The Figures show a version with a rivet seam 26 prepared on the blank arbour 2, and which is shaped after the assembly of locking washer 20.
In a variant, locking washer 20 is elastic, but has greater rigidity than flexible element 9; rivet seam 26 may then be a machined element of arbour 2, forming a top stop member for locking washer 20 which is shaped on arbour 2 when it is lockably mounted on flexible element 9.
Arbour 2 includes, on both sides of a cylindrical shoulder 21 arranged to centre flange 8, on the one hand, a shoulder 27 for axially immobilising flange 8, and on the other hand, rivet seam 26 for immobilising flange 8 and locking washer 20 once the flange and washer have been placed in position.
Preferably, locking washer 20 does not compress flexible element 9 axially on flange 8, to prevent an increase in friction and the apparent stiffness of flexible element 9. Washer 20 essentially has the function of a casing ring, and controls any axial play remaining in flange 8 for the unrestricted rotation thereof, and confines studs 901 with adjusted axial play to attenuate any friction.
In the third embodiment of
In the fourth embodiment of
In another embodiment (not illustrated), flexible element 9 is formed by an elastomer overmould holding flange 8 and arbour 2 together. The overmould concerns an elastomer with a hardness of between 20 and 70 Shore A.
The invention further concerns a timepiece movement 100 including a shockproof wheel 1 of this type carrying one component 4 of this type having unbalance relative to a pivot axis D of wheel 1. Component 4 may in a non-limiting manner be:
In particular, as seen in
The invention also concerns a watch 200 including at least one timepiece movement 100 of this type.
Number | Date | Country | Kind |
---|---|---|---|
13154875 | Feb 2013 | EP | regional |
Number | Name | Date | Kind |
---|---|---|---|
2239682 | Fritz | Apr 1941 | A |
2958998 | Matthey et al. | Nov 1960 | A |
2973618 | Morf | Mar 1961 | A |
6441516 | Kaelin et al. | Aug 2002 | B1 |
7438465 | Bitterli et al. | Oct 2008 | B2 |
7572050 | Bitterli et al. | Aug 2009 | B2 |
20080112276 | Bitterli et al. | May 2008 | A1 |
20090154301 | Sakamaki et al. | Jun 2009 | A1 |
Number | Date | Country |
---|---|---|
67295 | Dec 1914 | CH |
1 705 533 | Sep 2006 | EP |
1 921 516 | May 2008 | EP |
Number | Date | Country | |
---|---|---|---|
20140226447 A1 | Aug 2014 | US |