This application claims priority from European Patent Application No. 15158296.2 filed Mar. 9, 2015, the entire disclosure of which is hereby incorporated herein by reference.
The invention relates to a pivoting assembly for a timepiece and, more particularly, to a gear train or to a resonator for a timepiece.
US Patent Applications 2015/098310 and 2015/098311 disclose a balance spring resiliently locked on an arbor by a washer. This type of configuration avoids having to fit the balance spring collet onto an arbor and then bonding it at its points of contact.
However, the use of such a washer results in a total height which makes it impossible to implement in movements of small thickness.
It is an object of the present invention to overcome all or part of the aforecited drawbacks by proposing a pivoting assembly using a resilient washer disclosed in one of US Patent Applications 2015/098310 and 2015/098311 which includes a total thickness allowing the application thereof to any type of timepiece movement.
To this end, the invention relates to a pivoting assembly comprising an arbor rotatably mounted between two bearings, a member mounted on the arbor with the aid of at least one resilient washer, characterized in that at least one of the two bearings comprises a limit stop which is arranged to enter into direct contact with said at least one resilient washer in order to restrict the relative movement between the arbor and the two bearings.
It is thus understood that all or part of the extra height due to the use of said at least one resilient washer is compensated by replacing the shoulder formed on the arbor by the upper surface of said at least one washer. Thus, the limit stop of at least one of the bearings acts directly against the resilient washer and no longer against the arbor in order to restrict the relative movement between the arbor and its bearings.
In accordance with other advantageous variants of the invention:
Moreover, the invention relates to a timepiece comprising at least one pivoting assembly according to any of the preceding variants.
Other features and advantages will appear clearly from the following description, given by way of non-limiting illustration, with reference to the annexed drawings, in which:
US Patent Applications 2015/098310 and 2015/098311, incorporated by reference in the present description, disclose a balance spring resiliently locked between the shoulder of an arbor and a resilient washer. One such configuration is shown in
Arbor 2 further includes two shoulders 8, 8′ each intended to enter into contact with a bearing 9, 9′ respectively mounted in bridge 3 and plate 4. It is evident that the configurations described in US Patent Applications 2015/098310 and 2015/098311 require a significant distance between resilient washer 7 and bearing 9 which may make them impossible to implement in a movement of small thickness.
To compensate for this extra thickness of the resilient washer, the invention relates to a pivoting assembly comprising an arbor rotatably mounted between two bearings and a member mounted on the arbor with the aid of at least one resilient washer. Advantageously according to the invention, at least one of the two bearings includes a limit stop which is arranged to enter into direct contact with said at least one resilient washer in order to restrict the relative movement between the arbor and its bearings.
It is thus understood that all or part of the extra height due to the use of a resilient washer is compensated by replacing the specially formed shoulder on the arbor by the upper surface of said at least one washer. Thus, the limit stop of at least one of the bearings acts directly against the resilient washer and no longer against the arbor in order to restrict the relative movement between the arbor and its bearings.
It is also understood that an arbor may also comprise at least two resilient washers, either attaching a single member, or each resilient washer attaching a distinct member against a distinct shoulder of the arbor. Advantageously, this means that each of the two bearings can enter into direct contact with one of the resilient washers used on the arbor in order to restrict the relative movement between the arbor and its bearings while minimising the height of the pivoting assembly.
For better comprehension of the invention,
As seen in
The second embodiment shown in
As seen in
As seen in
As seen in
As shown in
Regardless of the embodiment, it is thus understood that all or part of the extra height due to the use of resilient washer 22, 42, 62 is compensated by replacing the shoulder 8 formed on arbor 2 (illustrated in
Of course, this invention is not limited to the illustrated example but is capable of various variants and modifications which will appear to those skilled in the art. In particular, other members may be mounted instead of or in addition to the members cited below. By way of non-limiting example, said member or an additional member could thus be an escapement lever, a detent escapement, a mainspring of a barrel or striking mechanism, or even a balance.
It is also possible to envisage an arbor comprising two resilient washers, each attaching a distinct member to one end of the arbor, each limit stop of one of the two arbor bearings being arranged to enter into direct contact with one of the two resilient washers in order to restrict the relative movement between the arbor and its bearings.
Finally, in a non-limiting manner, in a last embodiment, the pivoting assembly could also comprise a member formed, for example, of at least one lever of a pallets mounted on an arbor (also called a staff) between two resilient washers. The limit stop of each of the two bearings respectively mounted in a plate and in a bridge are preferably arranged to enter into contact with one of the resilient washers in order to restrict the relative movement between the arbor and its bearings. The member may also comprise pallet-stones, a fork and a guard pin, each of which may be integral with the pallet lever or simply fixed to the pallet lever.
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15158296 | Mar 2015 | EP | regional |
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Number | Date | Country | |
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20160266549 A1 | Sep 2016 | US |