EP2605087A1 - Modular clock assembly with functional modules - Google Patents

Abstract

The functional timepiece module (1) has a sub-assembly which is provided with the rigid bridge (2) carrying components. A pre-adjusted module is derived from the transformation of the sub-assembly by the irreversible securing of the adjustment and assembly components. A locating unit (6) recognizes and positions the functional module relative to another element of a mechanical modular unit (100) or a plate by the abutment of a main bearing surface (5) on a complementary bearing surface comprised in other element or plate. Independent claims are included for the following: (1) a mechanical modular unit; and (2) a method for assembling mechanical modular unit.

Description

Field of the invention

The invention relates to a timepiece integrable functional module in a modular assembly, said functional module being a mechanical module from a subset comprising a rigid bridge carrying components suitable for the execution of a particular watchmaking function of transformation a movement between at least one input mobile and at least one output mobile.

The invention also relates to a modular assembly for a watch movement or a timepiece comprising a plurality of such functional modules.

The invention further relates to a method of assembling such a modular assembly.

The invention also relates to a watch movement comprising at least one such modular assembly.

The invention also relates to a timepiece comprising at least one such modular assembly.

The invention relates to the field of mechanical watchmaking, and more particularly the field of watches.

Background of the Invention

Modular timepieces are known. Very common in electronic watchmaking, they are less frequent in mechanical watchmaking, where the modular construction, generally designed to decline the same basic movement in several calibres with features or a different presentation, is rarely less expensive than traditional manufacturing. Only certain additional mechanisms, made on additional boards, are relatively widespread.

Modular construction conventionally imposes the constraint of high-precision interface machining, because of the accumulation of assembly sets between modules, which impose very tight tolerances at the level of each module, to guarantee a satisfactory result at the level of the module. 'together.

The manufacture in modules is also, quite often, detrimental to the total thickness of the movement, and it is difficult to make extra-flat movements or even simply flat.

However, modular construction remains an attractive goal for watch manufacturers, as assembly tasks can be split up. In return for the tighter machining tolerances required by the accumulation of games between modules, the final assembly, being less difficult, can be performed by lower qualified personnel. But the final assembly remains an operation requiring the know-how and sensitivity of a watchmaker.

The patent application EP 1 079 284 on behalf of ETA describes a watch with two main modules each of which groups together half of the components.

The patent application EP 0 862 098 on behalf of VOSS describes a modular watch with a timing mechanism constituting an entire module.

The patent application EP 1 211 578 in the name of ETA discloses an ultra-thin electromechanical movement with stacked modules, implementing tubular spacers compensating for variations in thickness of the elements of the assembly.

Summary of the invention

The invention proposes to solve certain problems of the prior art by proposing a modular assembly that can be assembled without the use of an operator, while ensuring the accuracy of the operating parameters with proven settings, and with a cost of lower production than traditional production.

For this purpose, the invention relates to a timepiece integrable functional module in a modular assembly, said functional module being a mechanical module from a subset comprising a rigid bridge carrying components suitable for performing a function watchmaker transformation of a movement between at least one input mobile and at least one output mobile, characterized in that said subset is autonomous and comprises all the components necessary for the execution of said particular watch function under the action of a movement of said input mobile carried out by means external to said module, further characterized in that said subassembly comprises adjustment or / and assembly components which are irreversibly fixed after adjustment and a functional check of said particular watchmaking function performed on the test stand on said subset alone, and in that said module, which is derived from the transformation of said subset by the irreversible fixing of said adjustment components or and / or assembly, comprises at least a first bearing surface and locating means for the recognition and positioning of said module with respect to another element of a said modular assembly, or relative to a plate, supported by said first bearing surface on a complementary bearing surface that comprises said other element or said plate.

The invention also relates to a modular assembly for a watch movement or a timepiece comprising a plurality of such functional modules, characterized in that each of said functional modules is irreversibly adjusted by the irreversible fixing of said adjustment components or and / or assembly, and in that said functional modules cooperate in support two by two or each in support with a plate or with a bridge that includes said modular assembly, at a first bearing surface of each said functional module.

• on mémorise, au niveau de moyens de pilotage, une nomenclature de montage dudit ensemble modulaire, dont au moins un module fonctionnel pour chaque fonction horlogère particulière nécessitée par ledit ensemble modulaire, la séquence de montage dudit ensemble modulaire, les positions relatives d'assemblage entre composants de ladite nomenclature, et pour chaque composant une instruction relative à un maintien libre ou bien à un maintien fixé de façon irréversible ;
• on transforme de façon irréversible, pour chaque dit module fonctionnel, un sous-ensemble de chaque dit module fonctionnel en un dit module fonctionnel prêt à l'emploi, après un réglage et un contrôle fonctionnel de ladite fonction horlogère particulière réalisés au banc d'essai
• on emmagasine, dans un magasin, les composants que nécessite une nomenclature de montage dudit ensemble modulaire, dont au moins un module fonctionnel pour chaque fonction horlogère particulière nécessitée par ledit ensemble modulaire, chaque dit module fonctionnel étant déjà réglé de façon irréversible après un réglage et un contrôle fonctionnel de ladite fonction horlogère particulière réalisés au banc d'essai ;
• on programme un manipulateur commandé par des moyens de pilotage pour chercher, selon une séquence pré-établie propre à ladite nomenclature de montage dudit ensemble modulaire, chaque dit composant ou module fonctionnel à assembler ;
• on programme des moyens de reconnaissance de forme pour piloter ledit manipulateur en préhension de chaque dit module fonctionnel en fonction des moyens de repérage qu'il comporte, de façon à le disposer en position d'assemblage avec un autre dit module fonctionnel ou bien avec ladite platine ou avec un dit pont que comporte ledit ensemble modulaire, dans un positionnement précis établi par lesdits moyens de pilotage en fonction des informations recueillies par lesdits moyens de reconnaissance de forme ;
• on assemble, à chaque fois, de façon irréversible entre eux les éléments dudit ensemble modulaire ainsi précisément disposés.

The invention also relates to a method of assembling such a modular assembly according to which:

• storing, at the level of the control means, a fitting nomenclature of said modular assembly, including at least one functional module for each particular horological function required by said modular assembly, the assembly sequence of said modular assembly, the relative positions of assembly between components of said nomenclature, and for each component an instruction relating to a free maintenance or a maintenance irreversibly fixed;
• irreversibly transforming, for each said functional module, a subset of each said functional module into a said ready-to-use functional module, after an adjustment and functional control of the particular watchmaking function carried out on the test bench.
• the components required by a fitting nomenclature of said modular assembly, including at least one functional module for each particular horological function required by said modular assembly, are stored in a store, each said functional module being already irreversibly adjusted after adjustment and functional control of said particular watchmaking function performed on the test stand;
• a manipulator controlled by control means is programmed to search, according to a pre-established sequence specific to said assembly nomenclature of said modular assembly, each said component or functional module to be assembled;
• pattern recognition means for controlling said manipulator gripping each said functional module according to the tracking means that it comprises, so as to arrange it in the assembly position with another said functional module or with said platinum or with a said bridge that includes said modular assembly, in a precise positioning established by said control means according to the information collected by said pattern recognition means;
• irreversibly assembling, each time, the elements of said modular assembly thus precisely arranged.

The invention also relates to a watch movement comprising at least one such modular assembly.

The invention also relates to a timepiece comprising at least one such modular assembly.

Brief description of the drawings:

• la figure 1 représente, de façon schématisée sous forme d'un schéma-blocs, une pièce d'horlogerie avec un mouvement comportant un ensemble modulaire selon l'invention, comportant lui-même plusieurs modules fonctionnels selon l'invention ;
• la figure 2 représente, de façon schématisée, partielle, et en éclaté, une pièce d'horlogerie comportant in mouvement d'horlogerie constitué par un ensemble modulaire selon l'invention combinant plusieurs modules fonctionnels selon l'invention, certains modules étant représentés en transparence ou avec des crevés;
• la figure 3 représente, de façon schématisée, partielle, en éclaté et en vue de côté, un ensemble modulaire selon l'invention combinant plusieurs modules fonctionnels selon l'invention ;
• la figure 4 représente, de façon schématisée, trois étapes successives de transformation d'un sous-ensemble assemblée dans la première vue, puis contrôlée et réglée dans la deuxième vue, puis transformée de façon irréversible en un module fonctionnel selon l'invention selon la troisième vue dans laquelle les réglages sont figés.

Other features and advantages of the invention will appear on reading the detailed description which follows, with reference to the appended drawings, in which:

• the figure 1 represents schematically in the form of a block diagram, a timepiece with a movement comprising a modular assembly according to the invention, itself comprising a plurality of functional modules according to the invention;
• the figure 2 represents, schematically, partially, and exploded, a timepiece comprising a watch movement constituted by a modular assembly according to the invention combining several functional modules according to the invention, some modules being represented in transparency or with slashed;
• the figure 3 represents, schematically, partially, exploded and in side view, a modular assembly according to the invention combining several functional modules according to the invention;
• the figure 4 represents, schematically, three successive stages of transformation of an assembled subset in the first view, then controlled and adjusted in the second view, then irreversibly transformed into a functional module according to the invention according to the third view in which settings are frozen.

Detailed Description of the Preferred Embodiments:

The invention relates to the field of mechanical watchmaking, and more particularly the field of watches.

The invention relates both to a functional module 1 integrable timepiece in a modular assembly 100, and a modular assembly 100 formed in a particular way with such modules 1, if necessary supplemented by other components.

The functional module 1 according to the invention is a mechanical module derived from a subset 1A. This subassembly 1A comprises a bridge 2, rigid carrying components suitable for the execution of a particular watchmaking function of transforming a movement between at least one input mobile 3 and at least one output mobile 4.

According to the invention, this subset 1A is autonomous and comprises all the components necessary for the execution of this horological function. particular, under the action of a setting in motion of the mobile input 3 made by means external to the module 1.

In particular particular to the invention, this subassembly 1A comprises adjustment or / and assembly components 9 which are irreversibly fixed after adjustment and functional control of the particular watchmaking function, adjustment and control which are performed on the test bench on this subset 1A alone.

The module 1 itself is a pre-adjusted module resulting from the transformation of such a subassembly 1A, by the irreversible fixing of its adjustment and / or assembly components 9. figure 4 illustrates an example of transformation of a subassembly 1A into a pre-set functional module 1, by the joining of a set screw 9 with a housing or the like, by a needle punch or laser micro-welding, or the like.

This module 1 comprises at least a first bearing surface 5, and locating means 6 for the recognition and positioning of the module 1 relative to another element of such a modular assembly 100, or with respect to a plate that comprises this assembly 100, supported by the first bearing surface 5 on a complementary bearing surface that includes this other element or this plate.

The concept of bearing surface is understood in the broad sense, a bearing surface may be formed as well by a bore, or a shaft, as by a flat surface, or the like.

• dans une variante avantageuse pour une fabrication robotisée, les moyens de repérage 6 comportent des moyens de repérage optique pour la reconnaissance optique et le positionnement du module 1 ;
• dans une autre variante, les moyens de repérage 6 comportent des moyens de repérage sans contact, de type inductif, ou capacitif, ou encore acoustique ou ultra-sonore, pour la reconnaissance et le positionnement du module 1 ;
• dans une autre variante, ou, plus avantageusement en complément d'une des variantes précédentes, les moyens de repérage 6 comportent des moyens de repérage mécanique pour la reconnaissance mécanique et le positionnement du module 1, tels que palpeurs, butées, ou similaires.

The locating means may be designed for tracking with or without contact, and may take a number of forms, which may be combined with one another:

• in an advantageous variant for a robotic manufacturing, the locating means 6 comprise optical locating means for the optical recognition and the positioning of the module 1;
• in another variant, the locating means 6 comprise non-contact locating means, of inductive or capacitive type, or acoustic or ultrasonic, for the recognition and positioning of the module 1;
• in another variant, or, more advantageously, in addition to one of the preceding variants, the marking means 6 comprise mechanical marking means for mechanical recognition and positioning of the module 1, such as feelers, stops, or the like.

In a preferred embodiment, the first bearing surface 5 is flat and perpendicular to an insertion direction D.

Preferably, the functional module 1 comprises at least a second bearing surface 7 parallel to the first bearing surface 5. This arrangement facilitates a robotic assembly by paraxial positioning with respect to an insertion direction D, with stacking of certain components or modules by contact at the level of bearing surfaces perpendicular to this direction of insertion.

Advantageously, to ensure certain cooperation between assembly components, especially meshes between gears, or between wheels and racks, ratchets or the like, or to ensure the installation of cams, jumpers, ratchets, fingers, pushers or similar, the functional module 1 comprises at least one pivoting guide 8, to allow a pre-assembly of the module leaving a degree of freedom in pivoting. It is thus possible to ensure these co-operation in a final pivoting movement of the module 1. In a non-limiting preferred embodiment, this pivotal guidance is made with respect to a direction parallel to such an insertion direction D, in particular as realized according to the characteristics of the patent application EP11005713 the same depositor.

In a variant, the module 1 comprises guiding means arranged to cooperate with complementary guiding means that comprises another module 1, or a component of the modular assembly 100, or a plate of this assembly, for a cooperation arrangement. similar by translation, or a parallel adjustment, in a plane. Preferably, these guide means are made in a direction perpendicular to the direction of insertion D,

A first type of functional module 1 is a motor module 11, and comprises at least one barrel 110 whose input mobile 3 is constituted by a barrel shaft 111, which cooperates with a ratchet 12 incorporated or not to this engine module 11 , and which is arranged to be pivotally driven, or by a manual winding mechanism or by a winding module and setting time 15, or by an automatic winding mechanism or by an automatic winding module 18, for the winding of at least one spring 112 in at least one drum 113 constituting the mobile output 4 of this engine module 11. This drum 113 is arranged to drive an input pinion 131 of a gear train or a gear module 13.

Another type of functional module 1 is a gear module 13 of which said movable input 3 is constituted by an input pinion 131, arranged to cooperate with a drum 113, and a first output mobile 4A is constituted by a second wheel 132 arranged to cooperate with an escape pinion 161 connected to an escape wheel 160 that comprises an escape mechanism or a regulation module 16.

Advantageously, the functional module 1, in particular the gear module 13, comprises a second output mobile 4B which is constituted by a display gear train 133 arranged to cooperate, or with display means 13A that comprises the module of gear train 13, or with a display module 14 external to the gear module 13, comprising display means 14A.

Thus, another type of functional module 1 is a display module 14 whose input mobile 3 is constituted by a display train 133 that includes a gear mechanism or a gear module 13, and whose mobile output 4 is constituted by at least one indicator 140 arranged to cooperate with a complementary indicator 141 or with a dial that includes, or the display module 14, or a timepiece in which the latter is incorporated.

Advantageously, this gear module 13 or this display module 14 comprises the friction-linked timer mechanism of the work train described in the patent application. EP11177840 of the same applicant, and comprises a second mobile pre-mounted on center tube object of the patent application EP 11177839 the same depositor.

Still another type of functional module 1 is a time-setting module 15 whose input mobile 3 is constituted by a rod 150 arranged to to be driven by a user, and whose first output mobile 4C is constituted by a timer control wheel 151.

Preferably, this time-setting module 15 is a time-setting and winding module 15A, and has a second output mobile 4D which is constituted by a wind-up drive train 152.

Advantageously, this module 15 is made with a winding stem mechanism according to the patent application. EP11170180 the same depositor. It can, again, integrate a device for manual winding by pressing on the stem according to the patent application EP11177838 the same depositor.

Still another type of functional module 1 is a regulation module 16 comprising a regulating assembly, and whose input mobile 3 is constituted by an escape wheel 160 arranged to be driven by a second wheel 132 that includes a gear train or a gear module 13, and whose output mobile 4 is constituted by the same said escape wheel 160.

Such an exhaust control module 16 is advantageously produced according to the characteristics of the patent applications EP11005713 and EP11179181 the same depositor.

A particular functional module 1 is an automatic winding module 18 whose input mobile 3 is constituted by an oscillating mass 180 moved by the movements of a user or an external tool, and whose output mobile 4 is constituted by a drive train 183 of a ratchet 12 that includes, or a drive mechanism, or a motor module 11, or a ratchet 12 which meshes with a cylinder shaft that includes, or a drive mechanism, or a motor module 11.

This oscillating mass 180 is advantageously produced according to the characteristics of the patent application EP11188261 the same depositor.

In a particular embodiment of the invention, the functional module 1 is, except for its mobile input 3 and / or its mobile output 4, between two parallel planes, which constitute a first surface of flat support, perpendicular to an insertion direction D, and a second bearing surface 7. The functional modules 1 thus formed are easily stackable to one another by stacking, like cards in a card game. Naturally, if an input mobile 3 and / or an output mobile 4 are salient, there is provided a cut or a passage in the adjacent module to allow the cooperation and stacking.

The locating means 6 for the recognition and positioning of the module 1 may take different forms. Preferably they consist of one or more marks created during the machining of certain components of the module, and in particular at a first flat bearing surface, and a second bearing surface 7. for components made by bar turning, the marking means may constitute a groove for centering, and similarly for the components made on machining center, the locating means may consist of milled grooves, or in shoulders inexpensive to make and easy to identify by a camera. These locating means may also consist of screen printing, or the like.

The functional module 1 may, in a particular embodiment, comprise, on at least one of its components, at least one female machining such as a bore, and / or at least one male machining such as a trunnion or a boss, made wide tolerance, allowing the easy storage of this module on a pallet handling, or its maintenance on a conveyor belt, or any similar maintenance required by handling the module during a assembly cycle of a modular assembly 100 incorporating this module 1.

Advantageously, such machining is carried out inexpensively with tolerances unrelated to watch adjustments, of the order of 0.05 to 0.10 mm or more. In a particular embodiment where two adjacent modules 1 within a modular assembly 100 are thus equipped, one of a female machining and the other of such a male machining, it may be advantageous to combine them during the first phase. assembly, not for a precise centering that their respective tolerance does not allow, but for an irreversible fixation between them, by gluing, welding, soldering, riveting or other, the clearance between the female machining and the male machining being chosen from about 0.05 to 0.10 mm or more being used for the insertion of glue, or solder, or the like; at least one of these machining and male machining may also constitute a sacrificial material tank for local processing, for example a pin can be locally melted to ensure its welding with a hole with which it cooperates.

In a particular embodiment, the presetting of a functional module 1 takes into account assembly constraints with other modules or components constituting the set of higher rank.

In particular, a functional module 1 may include prestressing, at a bridge or the like.

The invention also relates to such a modular assembly 100 for a watch movement 1000 or a timepiece 2000 comprising a plurality of functional modules.

According to the invention, this modular assembly 1001 comprises a plurality of such functional modules 1 thus defined.

In a first embodiment, at least one of these functional modules 1 is irreversibly adjusted by the irreversible fixing of its adjustment and / or assembly components 9, after a control and adjustment to the test stand intended for give it very specific market parameters.

In another embodiment of the invention, each of these functional modules 1 is irreversibly adjusted by the irreversible fixing of its adjustment and / or assembly components 9, after a control and adjustment to the test bench. intended to give it very specific market parameters.

These functional modules 1 cooperate in two-to-two support, or each in support with a plate 10 or with a bridge that comprises this modular assembly 100, at a first bearing surface 5 of each functional module 1.

In a particular embodiment, this modular assembly 100 is assembled with all the functional modules 1 that compose it assembled together irreversibly.

• on mémorise, au niveau de moyens de pilotage, une nomenclature de montage de cet ensemble modulaire 100, dont au moins un module fonctionnel 1 pour chaque fonction horlogère particulière nécessitée par cet ensemble modulaire 100, la séquence de montage de cet ensemble modulaire 100, les positions relatives d'assemblage entre composants de la nomenclature, et pour chaque composant une instruction relative à un maintien libre ou bien à un maintien fixé de façon irréversible ;
• on transforme de façon irréversible, pour chaque module fonctionnel 1, un sous-ensemble 1A de chaque module fonctionnel 1 en un module fonctionnel 1 prêt à l'emploi, après un réglage et un contrôle fonctionnel de la fonction horlogère particulière, que doit remplir ce module fonctionnel 1 particulier, réalisés au banc d'essai
• on emmagasine, dans un magasin, les composants que nécessite une nomenclature de montage de cet ensemble modulaire 100, dont au moins un module fonctionnel 1 pour chaque fonction horlogère particulière nécessitée par ledit ensemble modulaire 100, chaque tel module fonctionnel 1 étant déjà réglé de façon irréversible après un réglage et un contrôle fonctionnel de ladite fonction horlogère particulière réalisés au banc d'essai. On comprend ainsi que tous les composants et modules 1 qui constituent l'ensemble modulaire 100 sont prêts à l'emploi et ne nécessitent plus, chacun, ni retouche, ni réglage ;
• on programme un manipulateur commandé par des moyens de pilotage pour chercher, selon une séquence pré-établie propre à la nomenclature de montage de cet ensemble modulaire 100, chaque composant ou module fonctionnel 1 à assembler ;
• on programme des moyens de reconnaissance de forme pour piloter ce manipulateur en préhension de chaque module fonctionnel 1 en fonction des moyens de repérage 6 qu'il comporte, de façon à le disposer en position d'assemblage avec un autre module fonctionnel 1 ou bien avec la platine 10 ou avec un pont que comporte cet ensemble modulaire 100, dans un positionnement précis établi par ces moyens de pilotage en fonction des informations recueillies par les moyens de reconnaissance de forme ;
• on assemble, à chaque fois, de façon irréversible entre eux les éléments de cet ensemble modulaire 100 ainsi précisément disposés. Cet assemblage irréversible n'autorise plus de démontage ultérieur, il peut être effectué par collage, soudure, brasage, rivetage, bouterollage, ou autre.

The invention also relates to a method of assembling such a modular assembly 100 according to which:

• a mounting nomenclature of this modular assembly 100 is stored at the level of the control means, of which at least one functional module 1 for each particular clock function required by this modular assembly 100, the assembly sequence of this modular assembly 100, the relative positions of assembly between components of the nomenclature, and for each component an instruction relative to a free maintenance or to a maintenance fixed irreversibly;
• irreversibly, for each functional module 1, a subset 1A of each functional module 1 is converted into a ready-to-use functional module 1, after an adjustment and a functional control of the particular horological function, which this function must fulfill. functional module 1 particular, carried out on a test bench
• the components required by a mounting schedule of this modular assembly 100, including at least one functional module 1 for each particular horological function required by said modular assembly 100, are stored in a store, each such functional module 1 being already adjusted so that irreversible after adjustment and functional control of said particular watchmaking function performed on the test bench. It is thus understood that all the components and modules 1 which constitute the modular assembly 100 are ready for use and no longer require each, retouching or adjustment;
• a manipulator controlled by control means is programmed to search, according to a pre-established sequence specific to the assembly nomenclature of this modular assembly 100, each component or functional module 1 to be assembled;
• shape recognition means are programmed to drive this manipulator in the grip of each functional module 1 according to the locating means 6 that it comprises, so as to arrange it in the assembly position with another functional module 1 or with the plate 10 or with a bridge that includes this modular assembly 100, in a precise positioning established by these control means according to the information collected by the shape recognition means;
• the elements of this modular assembly 100 thus precisely arranged are assembled irreversibly each time. This irreversible assembly no longer allows subsequent disassembly, it can be done by gluing, welding, brazing, riveting, riveting, or other.

In a preferred manner, a memory comprising the shape of each of the components or / and modules 1 required by the assembly nomenclature of this modular assembly 100 is incorporated in the control means. shape recognition means for controlling the manipulator gripping each component and / or module 1 according to its shape thus stored, so as to arrange it in assembly position with respect to a functional module 1, or with respect to a component of the assembly 100, or with respect to the plate 10 or with respect to a bridge that comprises this modular assembly 100, to maintain this component being manipulated in a precise positioning established by the control means according to the information collected by the form recognition means. And, according to the instruction contained in the nomenclature and relating to a free hold or to a maintenance fixed irreversibly, or is assembled irreversibly the component being manipulated in position on the subset of the assembly Modular 100 at its stage of realization, or one leaves this component during free handling before reducing its degrees of freedom by the installation and the fixing of other components then called by the nomenclature in the sequence of assembly.

Thus, preferably, each functional module 1 is held irreversibly fixed, either trapped between other components, or trapped in a sealed box, or held stationary, by an irreversible fixation method or a welding process or a method of bonding, or other method ensuring the indémontabilité, compared to another component or with respect to another functional module 1 or with respect to the plate 10 or with respect to a bridge that comprises the modular assembly 100.

Preferably, during the preparation of the components of the nomenclature prior to storage of the functional modules 1, at least one, and preferably on each functional module 1, is provided with a first bearing surface 5 that is plane and perpendicular to a direction. insertion device D, and at least one second bearing surface 7 parallel to the first bearing surface 5.

And, during the assembly of the functional module 1 in the modular assembly 100, it is arranged in the assembly position with another functional module 1 or with the plate 10 or with a bridge that includes the modular assembly 100, at level surfaces on both sides, and in a precise positioning established by the control means according to the information collected by the shape recognition means.

Preferably, we control all the translational movements of the manipulator, for the insertion of the components and / or modules 1, in a direction parallel to a single insertion direction D.

Preferably, shape recognition means comprising optical identification means for the optical recognition and positioning of each module 1 are used.

The invention also relates to a watch movement 1000 comprising at least one such modular assembly 100.

The invention also relates to a timepiece 2000 comprising at least one such modular assembly 100.

The invention has the advantage of combining, in a modular assembly, functional modules, which have each been set and tested beforehand, and which do not require any subsequent adjustment during the final assembly of the modular assembly.

The choice of a design oriented towards a final robotic assembly guided by shape recognition means allows wider tolerances in the dimensions of the inter-module interfaces. On the other hand, the quality of the bearing surfaces at these interfaces must be irreproachable, in particular at the flatness level when, preferably, these bearing surfaces are flat surfaces.

Claims (26)

A functional module (1) integrated in a modular assembly (100), said functional module (1) being a mechanical module derived from a subset (1A) comprising a rigid bridge (2) carrying components suitable for the executing a particular watchmaking function for transforming a movement between at least one input mobile (3) and at least one output mobile (4), characterized in that said subset (1A) is autonomous and comprises all the components necessary for the execution of said particular watchmaking function under the action of setting in motion said input mobile (3) made by means external to said module (1), further characterized in that said sub-assembly (1A) comprises adjustment or / and assembly components (9) which are irreversibly fixed after adjustment and functional control of said particular watchmaking function performed on the test stand on said subassembly ( 1A) alone, e t in that said module (1) is a pre-set module which is derived from the transformation of said subassembly (1A) by the irreversible fixing of said adjustment and / or assembly components (9), and comprises at least a first bearing surface (5) and locating means (6) for recognizing and positioning said module (1) with respect to another element of said modular assembly (100), or relative to a plate, supported by said first bearing surface (5) on a complementary bearing surface that comprises said other element or said plate. Function module (1) according to claim 1, characterized in that said locating means (6) comprise optical locating means for the optical recognition and positioning of said module (1). Functional module (1) according to one of the preceding claims, characterized in that said locating means (6) comprise acoustic or ultrasonic tracking means for recognizing and positioning said module (1). Functional module (1) according to one of the preceding claims, characterized in that said locating means (6) comprise mechanical locating means for the mechanical recognition and positioning of said module (1). Functional module (1) according to one of the preceding claims, characterized in that said first bearing surface (5) is flat and perpendicular to an insertion direction (D). Functional module (1) according to the preceding claim, characterized in that it comprises at least a second bearing surface (7) parallel to said first bearing surface (5). Functional module (1) according to one of the preceding claims, characterized in that it comprises at least one pivoting guide (8) parallel to an insertion direction (D). Functional module (1) according to one of the preceding claims, characterized in that it is a motor module (11) and comprises at least one cylinder (110) of which said input mobile (3) is constituted by a barrel (111), which cooperates with a ratchet (12) incorporated or not incorporated in said engine module (11) and arranged to be pivotally driven, or by a manual winding mechanism or by a winding module and set time (15), or by an automatic winding mechanism or by an automatic winding module (18), for the arming of at least one spring (112) in at least one drum (113) constituting said mobile output ( 4) of said engine module (11), said drum (113) being arranged to drive an input pinion (131) of a gear train or a gear module (13). Function module (1) according to one of claims 1 to 7, characterized in that it is a gear module (13) of which said input mobile (3) is constituted by an input pinion (131), arranged to cooperate with a drum (113), and of which a first output wheel (4A) is constituted by a second wheel (132) arranged to cooperate with an exhaust pinion (161) connected to an escape wheel ( 160) comprises an escape mechanism or a regulation module (16). Functional module (1) according to the preceding claim, characterized in that it comprises a second output mobile (4B) which is constituted by a display gear (133) arranged to cooperate, or with display means ( 13A) that comprises said gear module (13), or with a display module (14) external to said gear module (13). Function module (1) according to one of claims 1 to 7, characterized in that it is a display module (14) of which said input mobile (3) is constituted by a display gear (133) which comprises a gear mechanism or a gear module (13), and said output mobile (4) is constituted by at least one indicator (140) arranged to cooperate with a complementary indicator (141) or with a dial that includes , or said display module (14), or a timepiece in which the latter is incorporated. Function module (1) according to one of claims 1 to 7, characterized in that it is a time setting module (15) of which said input mobile (3) is constituted by a rod (150) arranged to be driven by a user, and of which a first output mobile (4C) is constituted by a timer control wheel (151). Functional module (1) according to the preceding claim, characterized in that said time setting module (15) is a time setting module and reassembly (15A), and comprises a second output mobile (4D ) which is constituted by a winding control train (152). Functional module (1) according to one of claims 1 to 7, characterized in that it is a regulation module (16) comprising a regulating assembly, and of which said input mobile (3) is constituted by a wheel of an escapement (160) arranged to be moved by a second wheel (132) which comprises a gear train or a gear module (13), and whose output gear (4) is constituted by the same said escape wheel ( 160). Functional module (1) according to one of claims 1 to 7, characterized in that it is an automatic winding module (18) of which said input mobile (3) is constituted by an oscillating mass (180) driven by the movements of a user or an external tool, and said output mobile (4) is constituted by a drive train of a ratchet (12) that includes, or a drive mechanism, or a module motor (11), or a ratchet (12) which meshes with a barrel shaft, or a motor mechanism, or a motor module (11). Modular assembly (100) for a watch movement (1000) or a timepiece (2000), comprising at least one pre-set functional module (1) according to one of the preceding claims, characterized in that at least one said functional module (1) is irreversibly adjusted by the irreversible fixing of said adjustment and / or assembly components (9), and in that said functional modules (1) cooperate in two-to-two support or each in support with a plate (10) or with a bridge that comprises said modular assembly (100), at a first bearing surface (5) of each said functional module (1). Modular assembly (100) according to the preceding claim, comprising a plurality of pre-adjusted functional modules (1) according to one of claims 1 to 15, characterized in that each of said functional modules (1) is pre-set irreversibly by the irreversible fixing of said adjustment and / or assembly components (9), and in that said functional modules (1) cooperate in two-by-two support or each in support with a plate (10) or with a bridge that comprises said modular assembly (100), at a first bearing surface (5) of each said functional module (1). Modular assembly (100) according to claim 16 or 17, characterized in that all of said pre-adjusted functional modules (1) which compose it are assembled to one another irreversibly. A method of assembling a modular assembly (100) according to the preceding claim, characterized in that : at the level of control means, a mounting nomenclature of said modular assembly (100) is stored, of which at least one functional module (1) for each particular horological function required by said modular assembly (100), the mounting sequence of said modular assembly (100), the relative positions of assembly between components of said nomenclature, and for each component an instruction relating to a free maintenance or a maintenance irreversibly fixed; irreversibly transforming, for each said functional module (1), a subset (1A) of each said functional module (1) into a said ready-to-use pre-set functional module (1), after a adjustment and functional control of said particular watchmaking function carried out on the test bench - Store in a store, the components that require a mounting nomenclature of said modular assembly (100), including at least one functional module (1) for each particular horological function required by said modular assembly (100), each said pre-set functional module (1) being already irreversibly adjusted after an adjustment and a functional control of said particular clock function performed on the bench test; a manipulator controlled by control means is programmed to search, in a pre-established sequence specific to said assembly nomenclature of said modular assembly (100), for each said component or functional module (1) to be assembled; - Form recognition means for controlling said manipulator gripping each said functional module (1) according to the locating means (6) that it comprises, so as to arrange it in the assembly position with another said functional module (1) or with said platen (10) or with a said bridge that comprises said modular assembly (100), in a precise positioning established by said control means according to the information collected by said shape recognition means ; each of the elements of said modular assembly (100) thus precisely arranged is irreversibly assembled. A method of assembling a modular assembly (100) according to the preceding claim, characterized in that incorporating in said control means a memory comprising the shape of each of said components that requires said assembly nomenclature of said modular assembly (100), and that said pattern recognition means is programmed to drive said manipulator gripping each said component according to its shape thus stored, so as to arrange it in assembly position with respect to a said functional module (1) or well with respect to said plate (10) or with respect to a said bridge that comprises said modular assembly (100), to maintain said component in a precise positioning established by said control means according to the information collected by said recognition means of form, and, according to the said instruction relating to a free maintenance or to a support fixed irreversibly, or alternatively irreversibly disables said component in position on the subset of said modular assembly (100) at its stage of realization, or said free component is left before reducing its degrees of freedom by laying and fixing other components subsequently called by said nomenclature. A method of assembling a modular assembly (100) according to the preceding claim, characterized in that each said functional module (1) is held irreversibly fixed, either trapped between other components, or trapped in a sealed box, is held immobile, by an irreversible fixing method or a welding process or a gluing process, with respect to another component or with respect to another said functional module (1) or with respect to said platen (10) or by referred to a said bridge that includes said modular assembly (100). A method of assembling a modular assembly (100) according to one of claims 19 to 21, characterized in that , prior to storing said functional modules (1), a first surface is produced on each said functional module (1). support (5) flat and perpendicular to an insertion direction (D), and at least one second bearing surface (7) parallel to said first bearing surface (5), and that during assembly of said functional module (1) in said modular assembly (100), it is arranged in the assembly position with another said functional module (1) or with said plate (10) or with a said bridge that comprises said modular assembly ( 100), at flat surfaces on either side, and in a precise positioning established by said control means as a function of the information collected by said pattern recognition means. A method of assembling a modular assembly (100) according to one of claims 19 to 22, characterized in that one controls all the translational movements of said manipulator in a single insertion direction (D). A method of assembling a modular assembly (100) according to one of claims 19 to 23, characterized in that shape recognition means comprising optical identification means for optical recognition and positioning of each said module (1). Clockwork movement (1000) comprising at least one modular assembly (100) according to one of Claims 16 to 18. Timepiece (2000) comprising at least one modular assembly (100) according to one of Claims 16 to 18.

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