This is a National Phase Application in the United States of International Patent Application PCT/EP 2012/067913 filed Sep. 13, 2012, which claims priority on European Patent Application No. 11181352.3 of Sep. 15, 2011, the entire contents of each of which are incorporated herein by reference.
The invention concerns a timepiece barrel assembly including at least one mainspring for a barrel mounted between, at a first end, a barrel drum, and at a second end, a receiving surface comprised in a barrel core coaxial to said drum about a pivot axis.
The invention also concerns a timepiece movement including at least one such barrel assembly.
The invention also concerns a timepiece including at least one movement of this type, and/or at least one barrel assembly of this type.
The invention concerns the field of horology, and more specifically the field of energy storage barrels, for powering a movement, a striking work, or another timepiece function.
In order to increase the power reserve, by increasing the number of turns of a mainspring, one solution consists in decreasing the diameter of the barrel arbour and of the associated core, so as to increase the space available for the spring inside the drum.
The ratio of the core radius to the spring thickness is usually comprised between 10 and 20 and the invention proposes to reduce this ratio to below 10, and preferably to within a range of between 5 and 10.
The sizing must not be too small; there is a risk of breakage if the core diameter is too small.
In the conventional barrel architecture, a ratchet is axially mounted on a barrel arbour or on a core, via a square, with the ratchet usually being secured by an axial screw. The dimension of this screw and that of the square thus define the minimum diameter of a pivot shoulder. A step joined to this pivot shoulder limits the axial clearance of the arbour or of the core relative to a bottom plate or to a bridge carrying a jewel or similar element.
An even larger diameter than that of the step is required for a shoulder pivotally guiding the drum on the arbour or on the core, combined with a step limiting the axial clearance of the drum. The dimension chain required to observe minimal sections of material results in substantial dimensions, which are difficult to reduce. In particular, it is not sufficient merely to reduce all of the dimensions, since the cross-sections of material are then insufficient to ensure fatigue resistance.
CH Patent No 319631 in the name of FELSA SA discloses a double barrel, and the manner in which the clearance of each drum is limited. The clearance of the bottom drum is limited on the top side by the collar of a sleeve, which is pushed towards a shoulder of the barrel arbour, by a nut screwed onto the arbour; and, on the bottom side, by the base of a core pivoting integrally with the barrel arbour via a flat portion. The length of the bottom shoulder of the barrel arbour and that of the drum pipe determine the drum clearance, in relation to these collar and base surfaces.
U.S. Pat. No. 1,110,061 in the name of KIENZLE discloses a core detachably mounted on a barrel arbour (in the direction of pivoting); the core is supported both on the plate and the bridge, while the two shoulders of the core limit the travel of the drum and of the cover.
U.S. Pat. No. 3,564,839 in the name of WUTHRICH discloses a barrel which includes a screw thread on the bridge for supporting the drum, and a drum having a pipe. The cover is a simple metal plate placed on the bottom plate, with no connection to the arbour or to the drum. The arbour includes two shoulders, one resting on the core, the other intended to cooperate in abutment with the drum pipe.
GB Patent No 1162296 in the name of CITIZEN discloses a spring of variable thickness, but there is no teaching concerning the height features of the spring.
CH Patent No 341764 in the name of AUGE discloses a spring with strips of different widths, welded to each other.
All of these documents disclose barrel arbours with a hook driving the spring, but none with a pivoting barrel arbour for receiving the spring. The documents do not particularly describe any recess, on the arbour or the core, in which the spring could be positioned. Some Patent documents disclose springs whose rigidity is modified on the inner end coil, by modifying its thickness or otherwise; the geometry of the spring is not taken into account for centring the spring.
As a result of these physical limitations on the dimensioning of the various components, it is necessary to envisage different barrel architectures from the conventional architecture that has just been described.
The invention takes account of several solutions to arrive at this decrease in core diameter.
A significant constraint is ensuring that the assembly can be dismantled to change the mainspring or the entire barrel, if necessary.
The various means proposed by the invention can be combined with each other, to obtain an optimum result according to the space available, the position of the ratchet, the presence or absence of a cover for closing the barrel, although this function can also be performed by the ratchet.
A first solution consists in providing for the clearance between the drum and cover by the mainspring, by transferring the clearance adjustment function to the spring, in particular by fitting the spring with projecting areas, such as lugs, wider laminated areas, adding a flange, or similar. It is then possible to do without the shoulders supporting the drum and the cover on the barrel arbour or on the core.
A second solution consists in forming a core in several parts, particularly in two or three parts. This solution notably makes it possible to form a core of smaller diameter than the pivoting diameter of the drum. Advantageously, the core is inserted through the bore in the drum. An arbour or a core in two or more parts facilitates the machining of the hook for hooking the mainspring eye.
The core may include, for driving the ratchet, a conventional square or a threading. Or, in a non-limiting manner, in a second variant,
the core may also include one or more diameter adjustment washers or rings for guiding the core inside the plate and bridge.
Another solution consists in driving a washer onto the core to adjust the drum-cover clearance. This ring is mounted so as to prevent any disassembly of a bridge, when intervention is required on the barrel.
Yet another solution consists in providing for the pivoting of the drum and/or the cover in the bridges, instead of pivoting occurring on the barrel arbour or the core. Advantageously, both the drum and the cover are pivoted in a plate and a bridge.
The different variants proposed by the invention ensure ease of machining, assembly and disassembly, and control of the axial clearances between the various components and relative to the bridges.
In a particular version, the invention concerns a timepiece barrel assembly, including at least one mainspring mounted between, at a first end, a barrel drum, and at a second end, a receiving surface comprised in a barrel core coaxial to said drum about a pivot axis, characterized in that said spring is made of a multiphase, cobalt-nickel-chromium based alloy, comprising 44 to 46% cobalt, 20 to 22% nickel, 17 to 19% chromium, 4 to 6% iron, 3 to 5% tungsten, 3 to 5% molybdenum, 0 to 2% titanium, 0 to 1% beryllium, and having a Young's modulus of between 200 and 240 GPa and a shear modulus of between 80 and 100 GPa, and having a width to thickness ratio of between 9 and 21, and in that the maximum radius of said steel or stainless steel core relative to said pivot axis is less than nine times the maximum thickness of said spring, and further characterized in that said barrel assembly includes, on said spring or said drum, a means of limiting the longitudinal clearance, in the direction of said pivot axis, between said drum and said mainspring.
According to a feature of the invention, said means of limiting the longitudinal clearance between said drum and said spring is formed, either by at least one lug on at least one of the edges of said spring, or by a peripheral recess comprised in said drum on its largest internal diameter, said peripheral recess being comprised between two oblique shoulders for supporting and peripherally holding said spring.
The invention also concerns a timepiece movement including at least one barrel assembly of this type for storing energy with one input formed either by a ratchet mounted for integral rotation with said core, or by a drum toothing mounted for integral rotation with said drum, and an output respectively formed either by a drum toothing mounted for integral rotation with said drum, or by a ratchet mounted for integral rotation with said core.
The invention concerns a timepiece including at least one timepiece movement of this type and/or at least one energy storage assembly of this type with one input formed either by a ratchet mounted for integral rotation with said core, or by a drum toothing mounted for integral rotation with said drum, and an output formed respectively either by a drum toothing mounted for integral rotation with said drum, or by a ratchet mounted for integral rotation with said core.
Other features and advantages of the invention will appear more clearly upon reading the following detailed description, with reference to the annexed drawings, in which:
The invention concerns the field of horology, and more specifically the field of energy storage barrels, for powering a movement, a striking work, or another timepiece function.
More specifically, the invention concerns a barrel for a mechanical watch having a reduced core diameter.
In a particular version, the invention concerns a timepiece barrel assembly 1, including at least one barrel mainspring 2. This spring 2 is conventionally mounted between, at a first end 21, a barrel drum 3, and at a second end 22, a receiving surface 5 comprised in a barrel core 4 coaxial to drum 3 about a pivot axis D.
According to the invention, spring 2 is made of a multiphase, cobalt-nickel-chromium based alloy, comprising 44 to 46% cobalt, 20 to 22% nickel, 17 to 19% chromium, 4 to 6% iron, 3 to 5% tungsten, 3 to 5% molybdenum, 0 to 2% titanium, 0 to 1% beryllium, and having a Young's modulus of between 200 and 240 GPa and a shear modulus of between 80 and 100 GPa.
This spring 2 has a width to thickness ratio comprised between 3 and 23, and more particularly between 9 and 21.
The maximum radius of steel or stainless steel core 4 relative to pivot axis D is less than nine times the maximum thickness of spring 2.
Barrel assembly 1 includes, on spring 2 or on drum 3, a means 6 of limiting the longitudinal clearance towards pivot axis D, between drum 3 and mainspring 2.
In a particular variant, as seen in
As seen in
According to a particular feature of the invention, means 6 of limiting the longitudinal clearance between drum 3 and spring 2 is thus formed, either by at least one lug 24 on at least one of edges 27, 28 of spring 2, or by a peripheral recess 36 comprised in drum 3 on its largest inner diameter, peripheral recess 36 being comprised between two oblique shoulders 33, 34 for the peripheral holding and support of spring 2.
In a preferred embodiment, seen in
According to a particular feature of the invention, this at least one lug 24 of spring 2 is arranged for cooperating in abutment with an inner face 31 of drum 3 and/or with an inner face 71 of a cover 7 delimiting, with drum 3, a chamber 32 housing spring 2.
According to a particular feature of the invention, in another variant visible in
In yet another variant, visible in
In the particular embodiment of
It is easy to combine the embodiments of
In a variant, peripheral recess 36 is cylindrical and has the same height as spring 2, which is centred between shoulders 33, 34 which are plane and perpendicular to pivot axis D.
According to another particular feature of the invention, peripheral recess 36 has a lower height than that of spring 2, which is centred supported obliquely between shoulders 33, 34, which include oblique faces facing each other so as to define a V-shaped support for edge surfaces 27, 28 comprised in spring 2.
According to a particular feature of the invention, spring 2 is elastically held with no hook around receiving surface 5 which is a surface of revolution relative to pivot axis D.
In a particular embodiment, seen in
In the case of
In a particular embodiment seen in
Advantageously, recess 8 has a depth P corresponding to two times the thickness of spring 2.
In another variant illustrated in
As seen in particular, but in a non-limiting manner, in the variants of
In other embodiments, spring 2 forms, with core 4, a single-piece, welded or soldered or similar spring-core sub-assembly. This embodiment is particularly advantageous, economical and very easy to assemble.
The invention also concerns a timepiece movement 100 including at least one barrel assembly 1 of this type for storing energy with one input formed either by a ratchet 12 mounted for integral rotation with core 4, or by a drum toothing 13 mounted for integral rotation with drum 3, and an output respectively formed either by a drum toothing 13 mounted for integral rotation with drum 3, or by a ratchet 12 mounted for integral rotation with core 4.
The invention concerns a timepiece 1000 including at least one timepiece movement 100 and/or at least one barrel assembly for energy storage with one input formed either by a ratchet 12 mounted for integral rotation with core 4, or by a drum toothing 13 mounted for integral rotation with drum 3, and an output formed respectively either by a drum toothing 13 mounted for integral rotation with drum 3, or by a ratchet 12 mounted for integral rotation with core 4.
Number | Date | Country | Kind |
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11181352 | Sep 2011 | EP | regional |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2012/067913 | 9/13/2012 | WO | 00 | 2/25/2014 |
Publishing Document | Publishing Date | Country | Kind |
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WO2013/037870 | 3/21/2013 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
182629 | Barclay | Sep 1876 | A |
647760 | Quinn | Apr 1900 | A |
647819 | Eagleston | Apr 1900 | A |
1110061 | Kienzle | Sep 1914 | A |
2524660 | Harder et al. | Oct 1950 | A |
3564839 | Wuthrich | Feb 1971 | A |
3928085 | Yamamura et al. | Dec 1975 | A |
8684594 | Murakami et al. | Apr 2014 | B2 |
20020191493 | Hara | Dec 2002 | A1 |
20070133355 | Hara et al. | Jun 2007 | A1 |
Number | Date | Country |
---|---|---|
213484 | Feb 1941 | CH |
279670 | Dec 1951 | CH |
319631 | Feb 1957 | CH |
341764 | Oct 1959 | CH |
568 596 | Oct 1975 | CH |
1 984 988 | May 1968 | DE |
10 2009 014 4 | Sep 2010 | DE |
1 473 744 | Mar 1967 | FR |
1 162 296 | Aug 1969 | GB |
Entry |
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International Search Report Issued Nov. 13, 2012 in PCT/EP12/067913 Filed Sep. 13, 2012. |
Number | Date | Country | |
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20140211596 A1 | Jul 2014 | US |