CH715913B1 - Watch and/or watch movement winding machine. - Google Patents

Abstract

The invention relates to a winding machine (100), comprising motorization means (20) arranged to move a support (10), carrying at least one watch (1) or a clock movement, along a trajectory (T) in a plane (P), the motorization means (20) are arranged to move each support (10) while keeping the orientation of the support fixed relative to a fixed frame of reference, so that the speed vector of each point of the support (10) remains parallel to a fixed direction.

Description

Field of the invention

The invention relates to a watch and/or watch movement winding machine, comprising at least one support arranged to carry at least one object constituted by a watch or a watch movement, and comprising means of motorization arranged to move each said support.

Background of the invention

[0002] The winding of clock movements, or watches, in particular for test purposes, is often carried out with devices imparting a rotational movement to the movements, for example with a "Cyclotest" type device, and possibly with different rotations combined.

[0003] A device of the “Chapuis” type imparts to the movements a rotation along a horizontal axis, alternately in two directions, for example with two turns in one direction, then two turns in the other.

[0004] Other mechanisms impart to the movements a rotation in one direction at constant speed, with a variant where all the movements are aligned on the same axis of rotation.

Another variant of the "Chapuis" type device comprises a highly inclined plate, for example at 60°.

[0006] Existing devices have similar faults. The loading time is long, due to often tedious handling, and the operating time is substantial: it often takes more than thirty minutes to wind an automatic caliber up twenty-four hours. If the speed of rotation is increased in order to wind up more quickly, then the movements farthest from the axis of rotation risk no longer carrying out the winding correctly because of the centrifugal acceleration.

Summary of the invention

The invention proposes to introduce the standardization of the reassembly of the movements of the same production batch, in order to establish fixed parameters for their control and their qualification.

To this end, the invention relates to a watch winding machine and / or watch movement, according to claim 1.

Brief description of the drawings

Other characteristics and advantages of the invention will appear on reading the detailed description which follows, with reference to the appended drawings, where: FIG. 1 represents, schematically, and in plan view, a winding machine according to the invention, comprising motorization means for moving a plate paraxially, this plate being represented carrying five watches, and in different positions in the space; FIG. 2 represents, schematically, and in perspective, a support comprising several levels for receiving movements or watches, these levels being in this particular case mutually parallel levels; FIG. 3 represents, schematically, and in perspective, a support constituted by a plate of large dimensions, capable of accommodating several tens of movements; FIG. 4 represents, schematically, and in perspective, the combination of the variants of FIGS. 2 and 3, with a support comprising several levels for receiving movements, each comprising a large plate, the support thus being capable of supporting several hundred movements ; FIG. 5 represents, schematically and in plan, a machine according to the invention comprising motorization means, operation control means, status control means, and automated handling means; FIG. 6 represents, similarly to FIG. 5, automated handling means arranged to serve supports by supplying or removing movement-carrying pallets; FIG. 7 represents, schematically and in plan, an orbital winding mechanism, for maneuvering the handling support, comprising a fixed wheel, and a satellite carrier, which is driven in rotation by the motorization means, and which carries a gear train comprising a satellite bearing a support and which is driven by an intermediate wheel meshing with the fixed wheel and whose radius is equal to that of the satellite; FIG. 8 represents, similarly to FIG. 7, an orbital winding mechanism where the radius of the satellite is equal to that of the fixed wheel; FIG. 9 represents, similarly to FIG. 7, an orbital winding mechanism whose center distance between the satellite and the fixed wheel is adjustable; FIGS. 10 to 12 represent, similarly to FIG. 7, an orbital winding mechanism in different positions; Figures 13 to 15 show, similarly to Figure 7, another orbital winding mechanism in different positions.

Detailed Description of Preferred Embodiments

The invention relates to a winding machine 100 for a watch and/or a timepiece movement, comprising at least one support 10 arranged to carry at least one object 1 constituted by a watch or a timepiece movement, and comprising motorization means 20 arranged to move each support 10.

According to the invention, the motorization means 20 are arranged to move each support 10 along a trajectory T, in a plane P, and in particular but not limited to around a central axis D, keeping the orientation of the support relative to a fixed frame of reference, so that the velocity vector of each point of each support 10 remains parallel to a fixed direction, that is to say so that each point of the support follows the same trajectory, to a translation of the trajectory as a whole.

[0012] More particularly, the movement of each support takes place paraxially with respect to a main frame of reference of the plane P consisting of two main orthogonal directions X and Y of the plane P. A secondary frame of reference of two secondary orthogonal directions x and y of each support 10 remains parallel to the main frame of reference, so that each object 1 carried by a support 10 follows an individual trajectory T1, which is parallel to or coincides with the trajectory T of the support 10 which carries it.

[0013] More particularly, the trajectory T is a closed trajectory. In a particular variant, the support 10 can traverse this closed trajectory in a single direction.

[0014] And the motorization means 20 are arranged to impart to each support 10 a movement such that the value of the acceleration imparted to the support 10 during its evolution along its trajectory T is at all points greater than the value of the acceleration of gravity. More particularly, this movement is printed with an angular speed ω with respect to a median axis D, the instantaneous position of the support of which is separated by a radial value R, with a central acceleration, such as the value of the acceleration printed on the support 10 during its evolution along its trajectory T is at any point greater than the value of the acceleration of gravity. More particularly, the motorization means 20 are arranged to impart to each support 10 an angular speed ω with respect to the central axis D, the instantaneous position of the support of which is separated by a radial value R, with a central acceleration, such that the value of the radial acceleration imparted to the support 10 during its evolution along its trajectory T is at any point greater than the value of the acceleration due to gravity. More particularly, the movement of each support 10 is a uniform circular movement, along the trajectory T which is circular, and the radial acceleration, equal to ω<2>R, is greater than the value of the acceleration of the gravity.

More particularly, the movement of each point of each support 10 is a circular movement in a plane PI, of radius R and traversed at a frequency N, and the radial acceleration, equal to (2πN)<2>R, is greater than the acceleration due to gravity.

More particularly the PI plane of each point of each support 10 is a horizontal plane, perpendicular to the direction of the gravity field.

[0017] More particularly, the frequency N is greater than or equal to 100 revolutions per minute, and the minimum radial value R of the trajectory T with respect to the central axis D is greater than or equal to 5 millimeters. More particularly still, the frequency N is greater than or equal to 300 revolutions per minute, and the minimum radial value R of the trajectory T with respect to the median axis D is greater than or equal to 10 millimeters.

More particularly, at least one support 10 comprises several levels for receiving such objects 1. More particularly, at least one support 10 is a prism comprising at least ten parallel levels, each level being arranged to carry at least ten rows of at least ten objects 1.

More particularly, all the supports 10, which the winding machine 100 includes, are driven by the same kinematics, so as to impart the same movements to all the objects 1 carried by the supports 10 at any time.

[0020] More specifically, the winding machine 100 comprises control means 200, which are arranged to control the motorization means 20 to ensure automatic winding of each object 1 carried by the winding machine 100, and to manage the duration automatic winding.

[0021] More specifically, the winding machine 100 comprises operation control means 30, for the operation control of each object 1 carried by the winding machine 100, controlled by the control means 200.

[0022] More specifically, the winding machine 100 comprises state control means 40, for checking the state of each object 1 carried by the winding machine 100, these state control means 40 are controlled by the control means 200.

[0023] More particularly, the control means 200 are arranged to measure the conformity of operation and/or state of each object 1 carried by the winding machine 100 with respect to a reference, and to send the results thereof to a production management system included in the winding machine, or to which it is integrated. In a variant, the control means 200 publish or store a certificate of compliance with a repository, or are arranged to designate any object 1 that does not comply with the repository, for return to a retouching circuit.

More particularly, the winding machine 100 comprises automated handling means 50 which are arranged for the loading and/or unloading of such objects 1 on or off supports 10. Even more particularly, these automated handling means 50 are capable of picking up an object 1 considered as not conforming to a repository, in order to orient it in a retouching circuit.

[0025] More particularly, the winding machine 100 comprises at least one pallet 60, which is arranged to carry a plurality of objects 1 loaded onto the winding machine 100 and/or unloaded from the winding machine 100, and the means automated handling machines 50 are arranged for loading and/or unloading pallets 60 with respect to supports 10.

[0026] More specifically, the winding machine 100 comprises an orbital winding mechanism, of the differential type, comprising a fixed wheel 12 centered on the central axis D, and a satellite carrier 11, which is driven in rotation by the means engine 20 around the central axis D, and which carries a gear train comprising a satellite 15. This satellite 15 carries at least one support 10, and is driven by at least one intermediate wheel 13 meshing with the fixed wheel 12 .

More specifically, the radius of satellite 15 is equal to that of fixed wheel 12.

[0028] More specifically, the gear train comprises a single intermediate wheel 13 whose radius is equal to that of the satellite 15.

In a particular embodiment, the invention uses an XY table, that is to say a motorized, horizontal plate, with a programmable translation movement along X and Y, the plate always remaining parallel to its initial position, therefore without rotation. The invention consists in programming a circular movement, of constant radius R and of constant angular speed ω. A self-winding mechanical watch movement, placed on such a plate, then feels a centrifugal acceleration ω<2>R which rotates at the speed ω. By choosing w and R so that the acceleration is equal to or greater than 1 g (9.81 m/s<2>), this acceleration will cause the oscillating mass of the movement to rotate at the speed w, which will allow the movement to wind up.

The invention provides significant advantages: possible to wind up at high speed: around three minutes to wind up an automatic caliber by twenty-four hours, for example with w = 300 rpm, R = 12 mm, to have a centrifugal acceleration of around 1.2 g ; all the movements of the plate follow exactly the same circular trajectory, therefore undergo the same acceleration, the movements are reassembled in an identical way, and their qualification is therefore done in exactly the same winding conditions; this makes the certification of movements fairer, both at the manufacturer and at a certifying body; the invention therefore makes it possible to reassemble large batches of moves in parallel, for example a cube of 10 x 10 x 10 moves as in figure 4.

Claims (17)

1. Watch and/or watch movement winding machine (100), comprising at least one support (10) arranged to carry at least one object (1), which consists of a watch or a watch movement , and comprising motorization means (20) arranged to move each said support (10), characterized in that said motorization means (20) are arranged to move each said support (10) while keeping the orientation of the support relatively fixed to a fixed frame of reference, so that each point of each said support (10) follows the same trajectory. 2. Winding machine (100) according to claim 1, characterized in that said motorization means (20) are arranged to impart to each said support (10) a movement such that the value of the acceleration printed on said support (10 ) during its evolution along its trajectory (T) is at any point greater than the value of the acceleration due to gravity. 3. Winding machine (100) according to claim 1 or 2, characterized in that said movement of each point of each said support (10) is a circular movement around a median axis (D) in a plane (PI) , of radius R and traveled at a frequency N, and in that the radial acceleration, equal to (2πN)<2>R, is greater than the value of the acceleration due to gravity. 4. Winding machine (100) according to claim 3, characterized in that said plane (PI) of each point of each said support (10) is a horizontal plane, perpendicular to the direction of the gravity field. 5. Winding machine (100) according to one of claims 3 and 4, characterized in that said frequency N is greater than or equal to 100 revolutions per minute, and in that the minimum value of the radius R of said trajectory (T ) with respect to said median axis (D) is greater than or equal to 5 millimeters. 6. Winding machine (100) according to one of claims 1 to 5, characterized in that at least one said support (10) comprises several levels for receiving said objects (1). 7. Winding machine (100) according to one of claims 1 to 6, characterized in that at least one said support (10) is a prism comprising at least ten parallel levels, each level being arranged to carry at least ten rows of at least ten said objects (1). 8. Winding machine (100) according to one of claims 1 to 7, characterized in that all said supports (10) that said machine (100) comprises are driven by the same kinematics, so as to impart the same movements to all objects (1) carried by said supports (10) at any time. 9. Winding machine (100) according to one of claims 1 to 8, characterized in that said machine (100) comprises control means (200) arranged to control said motorization means (20) to ensure automatic winding of each said object (1) carried by said winding machine (100), and to manage the duration of said automatic winding. 10. Winding machine (100) according to claim 9, characterized in that said machine (100) comprises operation control means (30) for controlling the operation of each said object (1) carried by said winding machine. (100), controlled by said control means (200). 11. Winding machine (100) according to claim 9, characterized in that said machine (100) comprises state monitoring means (40) for monitoring the state of each said object (1) carried by said winding machine (100), controlled by said control means (200). 12. Winding machine (100) according to one of claims 9 to 11, characterized in that said control means (200) are arranged to measure the conformity of operation and/or state of each said object (1) carried by said reassembly machine (100) with respect to a repository, and to send the results thereof to a production management system which said reassembly machine comprises, or to which it is integrated. 13. Winding machine (100) according to one of claims 1 to 12, characterized in that said machine (100) comprises automated handling means (50) for loading and/or unloading said objects (1) on or off said supports (10). 14. Winding machine (100) according to claim 13, characterized in that said machine (100) comprises at least one pallet (60) arranged to carry a plurality of said objects (1) loaded onto and/or unloaded from said winding machine (100), and in that said automated handling means (50) are arranged for loading and/or unloading said objects carried by said pallets (60) on or off said supports (10). 15. Winding machine (100) according to one of claims 3 to 14, characterized in that said machine (100) comprises an orbital winding mechanism, comprising a fixed wheel (12) centered on said central axis (D), and a planet carrier (11), which is driven in rotation by said motorization means (20) around said central axis (D) and which carries a gear train comprising a satellite (15) carrying a said support (10) and driven by at least one intermediate wheel (13) meshing with said fixed wheel (12). 16. Winding machine (100) according to claim 15, characterized in that the radius of said satellite (15) is equal to that of said fixed wheel (12). 17. Winding machine (100) according to claim 15 or 16, characterized in that said gear train comprises a single intermediate wheel (13) whose radius is equal to that radius of said satellite (15).