This application claims priority to European Patent Application No. 20195302.3 filed on Sep. 9, 2020, the entire disclosure of which is hereby incorporated herein by reference.
The invention concerns a clockwork column selector mechanism, including a mobile including a plurality of columns protruding above a base surface and separated by clearances, said columns and said clearances together forming slots extending along a profile, arranged to, in certain positions of said mobile, enable the insertion of a feeler-spindle or a pin into one said clearance in a transverse direction substantially normal to said profile and substantially parallel to said reference surface, and to, in other positions of said mobile, stop a feeler-spindle or a pin on a transverse surface of one said column.
The invention also concerns a chronograph mechanism, including at least one such selector mechanism, controlled by a control means maneuverable by the user.
The invention also concerns a timepiece, in particular a watch, comprising at least one horological movement, and at least one chronograph mechanism including at least one such selector mechanism, controlled by control means accessible to the user.
The invention concerns the field of clockwork mechanisms with complications, such as in particular chronograph mechanisms or striking mechanisms.
The clockwork mechanisms with complications, such as chronograph mechanisms or striking mechanisms, commonly use function selection mechanisms including crenellated column wheels, blocking or enabling the insertion of a feeler-spindle into a slot from the outside of the column wheel.
Some complex mechanisms implement column wheels with several levels, such as for example the striking mechanism which is described by the document EP2498146B1 in the name of MONTRES BREGUET, which includes means for selecting a mode with multi-stage column wheel of superimposed ratchets. These mechanisms, effective for providing several functionalities, are nevertheless very bulky, and the total thickness thereof generally does not allow them to be housed into a watch of common dimensions.
The document EP1760550 in the name of MONTRES JOURNE describes a similar column wheel mechanism whose outer profile is stepped for the control of different functions according to the rotation pitch of the wheel.
The invention proposes to develop a selector mechanism of small space requirement in thickness, capable of executing different functions, and in particular of developing a mobile with stopping surfaces both on the outside and on the inside of the slots of a mobile with columns, in particular but not limited to a column wheel.
Other features and advantages of the invention will appear on reading the following detailed description, with reference to the appended drawings, where:
The invention concerns a clockwork column selector mechanism 100, which includes a mobile including a plurality of columns 2.
These columns 2 are protruding above a base surface 1 and separated by clearances 5, the columns 2 and the clearances 5 together forming slots 10 extending along a profile P. The figures illustrate a configuration of column wheel where the profile P is circular, but this profile could also be linear, or otherwise, without departing from the invention.
These slots 10 are arranged to, in certain positions of the mobile, enable the insertion of a feeler-spindle or a pin into a clearance 5 in a transverse direction T substantially normal to said profile P and substantially parallel to the reference surface 1, and to, in other positions of the mobile, stop a feeler-spindle or a pin on a transverse stopping surface 81, 201, 202 of a column 2.
In the illustrated case of a circular profile P, the transverse direction T is a radial originating from the axis of the mobile.
According to the invention, at least one column 2 includes at least one intermediate transverse stopping surface 81, which is arranged to constitute a stop bearing surface of a feeler-spindle or a pin and to enable a partial insertion of a feeler-spindle or a pin in the thickness of the slot 10, and which is located, in a transverse direction T, between the geometric envelopes of two end transverse surfaces 201, 202, which transversely delimit the column 2.
More specifically, each column 2 which includes at least one intermediate transverse stopping surface 81 has a variable thickness in the transverse direction T, and includes at least one projection 4, which is arranged to retain a feeler-spindle, a finger, or a pin 3, or the like, of a clockwork mechanism arranged to cooperate with the selector mechanism 100, the projection 4 including the intermediate stopping surface 81 and a front stopping surface 82 in the direction of the profile P.
More particularly, the projection 4 is arranged to retain a feeler-spindle or a pin in at least one orientation in the direction of the profile P. More particularly, the projection 4 is arranged to retain a feeler-spindle or a pin in a single orientation in the direction of said profile P.
More particularly, a column 2 including a projection 4 includes at least two opposite projections 4, each arranged to retain a feeler-spindle or a pin in one orientation opposite to the other.
This embodiment with at least one projection formed in at least one column, more particularly each column, is advantageous because it is particularly compact.
However, it is possible, for timepieces which are larger than conventional watches, for example marine chronometers, watches with large complications, or clocks, to design the selector mechanism 100 in a different manner, for example by doubling the columns, some columns called outer columns ensuring the external stop function on a first side called outer side of the selector mechanism 100, and other columns called inner columns ensuring the internal stop function on a second side called inner side of the selector mechanism 100; the geometry of these inner columns is then adapted to ensure the functionality of such projections, and, for example, the inner columns can each consist of several pins 88, 89, one of which 88 includes an intermediate stopping surface 81 and the other 89 a front stopping surface 82, and possibly an end transverse surface 202.
Naturally, the projections can be, according to the desired functionality, located inside the profile as in the variant which is illustrated by
The projections 4 can also be stepped, as shown in
The figures illustrate circular column wheels, this arrangement is compact and advantageous, and meets the majority of horological functionalities. It is however possible to arrange on different radii: the different end transverse surfaces 201, and/or the different end transverse surfaces 202, and/or the different intermediate transverse stopping surfaces 81.
One understands that this selector mechanism 100 is, thus, arranged to define several transverse positions for inserting a maneuvering or control member: front stopping of a stop on one of the end transverse surfaces 201, 202, complete transverse travel through the clearance 5, limited partial transverse travel in stop bearing on a surface of the projection 4. Of course, if the same column 2 includes several projections 4 of different transverse depth, or if several columns 2 include several projections 4 of different transverse depth, it is possible to have more control positions.
More particularly, the mobile extends along a closed profile P, and the slots 10 extend between an outer envelope geometric surface defined by the outer end transverse surfaces 201 of the columns 2, and an inner envelope geometric surface defined by the inner end transverse surfaces 202 of the columns 2.
More particularly, the closed profile P is circular, and the outer envelope geometric surface and the inner envelope geometric surface are cylindrical and coaxial.
In a variant, the profile P is closed, and at least one projection 4 is inside said mobile. More particularly, each projection 4 is inside the mobile.
In another variant, the profile P is closed, and at least one projection 4 is outside the mobile. More particularly, each projection 4 is outside the mobile.
In a variant, at least one column 2 includes at least one bearing 11 in the height thereof, in an axial direction DA perpendicular to the base surface 1. Such a variant allows a greater number of combinations. Even more particularly, the bearing 11 is limited by an intermediate stopping surface 61 and/or 62 according to the invention. However, this variant, shown schematically in
The invention also concerns a chronograph mechanism 400 including at least one such selector mechanism 100, controlled by a control means 200 maneuverable by the user. More particularly, this chronograph mechanism 500 includes a minute counter disconnecting control 22, which allows disengaging, from the minute mobile 40, the drive finger of the minute counter 360, as shown in
This minute counter disconnecting control 22 carries a pin 3 which is arranged to, depending on the position of the mobile, in a starting position, hereinafter called “start”, corresponding to the running of the chronograph, remain at least partially in a clearance 5 between two columns 2, or in a stop position corresponding to stopping the chronograph, cooperate in bearing engagement with a projection 4, or in a reset position for resetting the chronograph, bear on an end transverse surface 201, 202 of a column 2.
The clearance 5 between two neighboring columns 2 is delimited by edge surfaces 6 and 7 of these two columns 2.
The beak 21 of the connecting lever 210 is arranged to cooperate, or in abutment bearing on an outer end transverse surface 201 of column 2, or in the position of insertion into a clearance 5.
This chronograph mechanism 400, illustrated by the figures, includes such a selector mechanism 100, herein a column wheel, whose profile P is circular, and includes the constituents listed according to the nomenclature at the end of the present description.
The invention also concerns a timepiece 1000, in particular a watch, including at least one horological movement 500, and at least one chronograph mechanism 400 including at least one selector mechanism 100 according to the invention, controlled by control means 200 accessible to the user.
In short, the invention allows work on a single column level, which is advantageous for the space requirement in thickness of the mechanism in which the selector mechanism 100 is incorporated according to the invention, and by using the available space, in particularly the inside of the columns 2, as shown in
The selector mechanism 100 according to the invention lends itself well to traditional manufacture by milling, and the cost thereof is therefore very moderate.
Number | Date | Country | Kind |
---|---|---|---|
20195302 | Sep 2020 | EP | regional |
Number | Name | Date | Kind |
---|---|---|---|
20120069717 | Mertenat | Mar 2012 | A1 |
Number | Date | Country |
---|---|---|
704 120 | May 2012 | CH |
704 120 | Nov 2015 | CH |
102692859 | Sep 2012 | CN |
106483822 | Mar 2017 | CN |
110275425 | Sep 2019 | CN |
1 760 548 | Mar 2007 | EP |
2 228 692 | Sep 2010 | EP |
Entry |
---|
Notice of the Reason for Refusal dated Aug. 2, 2022 in Japanese Patent Application No. 2021-129494 (with English language translation), 7 pages. |
European Search Report dated Mar. 17, 2021 in European Application No. 20195302.2, filed on Sep. 9, 2020 (with English Translation of Categories of cited documents), 3 pages. |
Combined Chinese Office Action and Search Report dated Jan. 19, 2023, in corresponding Chinese Patent Application No. 202111056058.4 (with English Translation of Category of Cited Documents), 10 pages. |
Number | Date | Country | |
---|---|---|---|
20220075326 A1 | Mar 2022 | US |