EP2728423A1 - Clockwork balance wheel-hairspring assembly - Google Patents

Abstract

The assembly (1) has a balance wheel (2) pivoting around a pivoting axis (D) and a hair spring (3) comprising an inner turn (4) fixed to the wheel or to a ring (5) mounted to the spring. An outer turn (6) is fixed at a stud (7) to maintain the turn at a plate or balance coq. The wheel has a peripheral surface (20) at a distance from any point of the spring at value greater than variation (E1) to prevent modification of characteristics of the hairspring during resumption of machining of the hairspring on the surface for setting inertia or/and balancing of the wheel on the assembly. Independent claims are also included for the following: (1) an oscillator mechanism (2) a method for setting inertia or/and balancing a balance wheel on clockwork balance wheel-hairspring assembly.

Description

Field of the invention

The invention relates to a pendulum balance-sprung assembly, comprising at least one pivoting pivoting arm about a pivot axis and at least one spiral of which an inner turn is fixed to said pendulum or to a ferrule mounted integral with said balance and one of which outer spire is attached to a peg for its maintenance to a platinum or a rooster.

The invention also relates to a clock oscillator mechanism comprising at least one such balance-spiral assembly mounted on a platen carrying a pin via a cock.

The invention also relates to a watch movement comprising such an oscillator mechanism.

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

The invention also relates to a method of setting inertia or balancing of a sprung balance assembly comprising at least one swinging pivot about a pivot axis and at least one hairspring, by resuming machining on a part of said balance.

The invention relates to the field of clock oscillator mechanisms spiral balance.

Background of the invention

An intervention, to adjust the oscillation frequency on a sprung balance, is always delicate on a combined balance-hairspring assembly, because of the risk of alteration of the hairspring. The operation is even more delicate when it is considered within an already assembled watch movement, due to the protection constraints of the other components, and cleanliness of the movement.

Summary of the invention

The invention proposes to ensure the safety of the hairspring of a balance-hairspring assembly, when placing inertia or balancing of the balance when said hairspring and this balance are already assembled to one another, and in particular when the sprung balance assembly is already mounted in the watch movement.

For this purpose, the invention relates to a pendulum balance-sprung assembly, comprising at least one pivoting pivoting arm about a pivot axis and at least one spiral of which an inner turn is fixed to said balance or to a ferrule mounted integral with said a pendulum and an outer turn of which is fixed to a peg for its support to a plate or a rooster, characterized in that said balance has a peripheral surface, which is spaced from any point of said hairspring by a value greater than a first predefined distance , to prevent any modification of the characteristics of said hairspring during a resumption of machining of said balance on said peripheral surface for the inertia setting and / or the balancing of said balance on said assembly assembly.

The invention also relates to a clock oscillator mechanism comprising at least one such balance-hairspring assembly mounted on a plate carrying a pin via a cock, characterized in that said hairspring is foolproof, in that said stud is foolproof, and in that said cock is of unobstructed shape and comprises at least one clearance to facilitate a suction flow created in said mechanism during a resumption of machining said beam on said peripheral surface for the implementation of inertia and / or balancing said balance on said assembled assembly.

The invention also relates to a watch movement comprising such an oscillator mechanism, characterized in that said spiral is foolproof, and in that said piton is foolproof.

The invention also relates to a timepiece comprising at least one such movement, characterized in that said piece is a watch.

• on détermine la valeur et la localisation des reprises d'inertie ou/et d'équilibrage du balancier nécessaires ;
• on définit la valeur d'un premier écart, constituant la distance minimale entre tout point dudit spiral et une zone de reprise d'usinage;
• on détermine une surface périphérique, en périphérie dudit balancier, pour y effectuer cette reprise d'usinage, tout point de ladite surface étant éloigné dudit spiral d'au moins la valeur dudit premier écart;
• on fige en position, de façon indéréglable, les extrémités dudit spiral par rapport, d'une part audit balancier, et d'autre part à un piton que l'on immobilise de façon indéréglable par rapport à une platine ou un coq d'un mouvement ;
• on immobilise d'éventuels moyens de réglage dudit balancier dans une position de reprise ;
• on procède à la reprise d'usinage de mise d'inertie ou/et d'équilibrage.

The invention also relates to a method of setting inertia or balancing of a sprung balance assembly comprising at least one swinging pivot about a pivot axis and at least one hairspring, by resuming machining on a portion of said rocker, characterized in that, according to this method:

• the value and location of the inertia and / or balance balancing recoveries necessary are determined;
• defining the value of a first gap, constituting the minimum distance between any point of said hairspring and a machining recovery zone;
• a peripheral surface is determined at the periphery of said beam to perform this machining resumption, any point of said surface being remote from said hairspring by at least the value of said first gap;
• the ends of said hairspring are frozen in position, in a foolproof manner, relative to said balance and on the other hand to a pin which is immobilized in a foolproof manner with respect to a plate or a cock of a movement ;
• any adjustment means of said balance wheel are immobilized in a recovery position;
• we proceed to the resumption of machining inertia setting and / or balancing.

Brief description of the drawings

• la figure 1 représente, de façon schématisée et en perspective, un ensemble balancier-spiral selon l'invention ;
• la figure 2 représente, de façon schématisée et en perspective, l'extrémité externe d'un spiral dans une variante préférée de l'invention ;
• la figure 3 représente, de façon schématisée et en coupe passant par son axe de pivotement, l'ensemble balancier-spiral de la figure 1 ;
• la figure 4 représente, de façon schématisée et en vue de dessus, un détail d'un moyen unique de réglage d'un balancier dévolu surtout à l'après-vente ;
• la figure 5 représente, de façon schématisée et en en coupe passant par son axe de pivotement, un détail de sillon réalisé dans l'ensemble balancier-spiral de la figure 1 ;
• la figure 6 représente, de façon schématisée et en vue de dessus, l'ensemble de la figure 1 monté entre un pont et un coq lequel présente un dégagement destiné à canaliser un flux d'aspiration dans l'alignement d'un orifice d'une platine; la figure 7 est une coupe locale de cette figure 6 ;
• la figure 8 est un schéma-blocs représentant une montre comportant un mouvement renfermant un tel ensemble balancier-spiral.

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 and in perspective, a sprung balance assembly according to the invention;
• the figure 2 schematically shows in perspective the outer end of a hairspring in a preferred embodiment of the invention;
• the figure 3 represents, schematically and in section passing through its axis of pivoting, the sprung-balance assembly of the figure 1 ;
• the figure 4 represents, schematically and in plan view, a detail of a single means of adjustment of a rocker devolved mainly to after-sales;
• the figure 5 represents, schematically and in section through its pivot axis, a groove detail produced in the sprung-balance assembly of the figure 1 ;
• the figure 6 represents, schematically and in a view from above, the whole of the figure 1 mounted between a bridge and a cock which has a clearance for channeling a suction flow in alignment with a hole of a plate; the figure 7 is a local cut of this figure 6 ;
• the figure 8 is a block diagram showing a watch comprising a movement enclosing such a balance-spiral assembly.

Detailed Description of the Preferred Embodiments

The invention thus relates to a balance sprung balance-watch unit, intended to be incorporated in an oscillator mechanism 10 within a watch movement 100, and comprising at least one rocker 2 pivoting about a pivot axis D and at least one hairspring 3. An inner turn 4 of this hairspring 3 is fixed to the rocker 2 or to a shell 5 mounted integral with the rocker 2, and an outer coil 6 of this hairspring 3 is fixed to a pin 7 for its maintenance. to a plate 8 or a cock 80. The invention is described here in the particular case of a single balance spring and single spiral regulator member, the skilled person will extrapolate the invention to the case of several rockers and / or several spiral.

According to the invention, as visible on the figure 1 , the rocker 2 comprises a peripheral surface 20, which is spaced from any point of the spiral 3 by a value greater than a first predefined distance E1, to prevent any modification of the characteristics of the spiral 3 during a resumption of machining of the balance wheel 2 on the peripheral surface 20 for the implementation of inertia and / or balancing the balance 2 on the assembly 1 assembled.

By resuming machining is understood here any operation likely to locally modify the inertia of the pendulum: addition of material, displacement of material, removal of material. This operation can be done, without limitation, by taking up the cutting or abrading tool (milling, turning, grinding or similar), by laser, in particular a picolaser or even a femtolaser, by spraying material by jetting, by deformation under the action of a tool, by localized fusion, by heat treatment modifying the structure of the material, or other.

If the first difference E1 can be understood, in the most general case, in any position of the hairspring 3, it is also possible to set particular deviation values specific to each of certain specific positions of the hairspring: at rest, in positive amplitude maximum oscillation amplitude, maximum negative oscillation amplitude, or other.

It is therefore a question of protecting the hairspring, in order to proceed to the appropriate modifications on the balance 2, without modifying in any way the characteristics of the hairspring 3, in particular without subjecting it, directly or indirectly, to a thermal influence, or else projections of chips or material, or other influences, likely to change its torque and thus its frequency capable of oscillation.

In particular, the peripheral surface 20 is distant from the radially most eccentric point of the active part of the outer turn 6 of the spiral 3 by a value greater than this first gap E1.

Preferably, the first predefined distance E1 is greater than 0.50 mm. Advantageously, according to the invention the first predefined distance E1 is between 0.50 mm and 1.20 mm. In a particular application, the first predefined distance E1 is between 0.50 mm and 0.70 mm.

In a particular application illustrated in figure 2 the hairspring 3 is bent into a bend 31 and / or twisted into a twisting zone 32, at or near its attachment to the peg 7 so as to move the active part 61 of the outer turn 6 away from the peripheral surface 20 3. This active portion 61 of the hairspring 3 is thus remote from the peripheral surface 20 of machining resumption of the balance 2, and preferably from a distance greater than 2/3 of the radial extent of the peripheral surface 20 which is annular in projection in a plane perpendicular to the pivot axis D.

Preferably, according to the invention, the peripheral surface 20 is distant from the piton 7 by a value greater than a second predetermined distance E2, to prevent any modification of the characteristics of the hairspring 3 during a resumption of machining the balance 2 on the peripheral zone 20 for placing the inertia and / or balancing of the balance 2 on the assembly 1 assembled. And in particular to prevent any modification of the characteristics by indirect heating of the hairspring. preferably, the second predefined difference E2 is greater than 0.05 mm. This second predetermined difference E2 is preferably between 0.05 mm and 0.20 mm. In a particular application, the second predefined difference E2 is between 0.05 mm and 0.10 mm.

If the second difference E2 can be understood, in the most general case, in any position of the hairspring 3, it is also possible to set particular deviation values specific to each of certain specific positions of the hairspring: at rest, in positive amplitude maximum oscillation amplitude, maximum negative oscillation amplitude, or other.

To perform the machining resumption of the balance 2 for its inertia setting and / or balancing, according to the invention the peripheral surface 20 is accessible from at least one side of the balance 2 to an ablation means and / or reloading and / or deformation and / or projection and / or heat treatment in a volume outside a first surface 21. This first surface 21 is of revolution about the pivot axis D, and s' presses on the minimum radius 201 of the peripheral surface 20. The first surface 21 is, again, at a distance greater than a third distance E3 from any active point of the spiral 3 to prevent any modification of the characteristics of the spiral 3 during a recovery machining of the balance 2 on the peripheral surface 20 for the inertia setting or / and balancing of the balance 2.

In a particular embodiment of the invention, as visible in FIG. figure 3 , the invention the first surface 21 is a cone whose vertex S1 is on the same side as the spiral 3 relative to the balance 2.

The figures illustrate a simplified case of recovery of inertia of the balance 2 on one side, said upper 2A. Naturally, it is quite possible to carry out a machining of recovery of inertia on the opposite opposite side 2B. in such a case, the first surface 21 is composed of two half-surfaces, one on each side of the strut of the balance 2, for example with two portions of cones of opposite openings.

In a particular embodiment, in order to take into account not only the protection of the hairspring 3, but also the rest of the watch movement, in the case where the inertia and / or balancing of the balance 2 is performed directly in the movement 100 having the oscillator mechanism 10, which itself comprises the balance 2 and the hairspring 3, the access volume to the means for modifying the inertia of the balance 2 to the peripheral surface 20 is limited, not only on the side of the hairspring 3 by the first surface 21, but also, on the external, by a second surface 22. In this case, the peripheral surface 20 is accessible from at least one side of the beam 2, a means of ablation and / or reloading in a volume defined by two surfaces coaxial with the axis Pivot D, a first surface 21 based on the minimum radius 201 of the peripheral surface 20 and at a distance greater than a third distance E3 of any active point of the hairspring 3 to prevent any change in the characteristics of the hairspring 3 when a resumption of machining of the balance 2 on the peripheral surface 20 for the inertia setting and / or balancing of the balance 2, and a second surface 22 resting on another radius 202 of the peripheral surface 20 and greater than Ray 201 and defining a protective envelope of the clock mechanism surrounding the sprung balance assembly 1 during a resumption of machining of the balance 2 on the peripheral surface 20 for the inertia setting or / and balancing of the balance 2 on the assembly 1 assembled.

The limitation provided by this second surface 22 is intended to ensure the protection of the spiral 3 against a direct projection, or indirectly by reflection or ricochet, of a chip or other waste, on a surface of the balance, or a bridge , or a rooster.

In the particular case of figure 3 the second surface 22 is a cone whose vertex S2 is on the opposite side to the spiral 3 with respect to the rocker 2.

Preferably, the first surface 21 and the second surface 22 together define, in a section passing through the pivot axis D, an angle α less than a predetermined value a0 itself less than 45 °.

The tangent to the first surface 21 at the peripheral surface 20, in the plane of the pivot axis D, makes, with the pivot axis D, in a section passing through the pivot axis D, an angle β less than a predetermined value β0, which is linked to the predefined value E3.

Similarly, the tangent to the second surface 22 makes, with the pivot axis D, in a section passing through the pivot axis D, an angle e less than a predetermined value e0. In a particular application, this angle e0 is 45 °.

The value of the third difference E3 is advantageously between 100% and 120% of the value of the first difference E1, and preferably the value of the third difference E3 is equal to the value of the first difference E1.

According to the invention, the sprung balance assembly 1 according to the invention is designed to be set at the factory for its theoretical walk, and has no moving element whose improper handling can create a significant time error. In particular, the hairspring 3 is foolproof, that is to say that this balance-hairspring assembly 1 does not include a raquet, nor element for acting on the hairspring 3 or on its peg 7 which is also foolproof .

For this purpose, the rocker 2 comprises inertia adjustment means whose adjustment range is very small, with very little regulating power, for example a few seconds or a few tens of seconds per day. These means are for example constituted by visselottes, which are held stationary in a so-called recovery position, which is either a fixed position determined for example by a notch, or which is a bearing position on an abutment surface. These monkfish screws are held in this recovery position for the duration of the recovery of machining inertia setting and / or balancing. Their reduced adjustment range is only used after-sales. In a preferred embodiment, as visible on the figure 4 , the balance 2 thus comprises, as the only adjusting means, adjustment screws 9 movable only between a first stop position 91 on the balance 1 on which their head 93 is supported in factory setting, and a second position of stop 92 limiting their power regulation limited to 30 seconds per day for the needs of after-sales. These adjustment screws 9 constitute the only adjustable elements in service of this balance spring-balance 1.

In a preferred variant, the rocker 2 is machined for its inertia setting and / or its equilibration in the form of narrow grooves P with a depth greater than at least once their width L, and preferably greater than at least three times their width. width L. For the implementation of the invention, the spiral 3 may be made of silicon or silicon oxide or monocrystalline diamond or polycrystalline diamond or glass or metal glass or amorphous metal or quartz or a paramagnetic material or a ferromagnetic ferromagnetic material or antiferromagnetic alloy.

In an advantageous variant, in addition to the precautionary distances defined by the differences E1, E2, E3, described above, the spiral 3 is thermally pretreated so as to withstand localized heating in a neighboring zone during a resumption of operation. machining of the balance 2 on the peripheral surface 20 for the implementation of inertia and / or balancing of the balance 2.

The invention also relates to a clock oscillator mechanism 10 comprising at least one balance-spiral assembly 1 with spiral 3 unmountable without raquetry mounted on a plate 8 carrying a pin 7 via a cock 80. According to the the invention the cock 80 is of unobstructed shape, and comprises at least one clearance 81 to facilitate a suction flow created in the mechanism 10 during a resumption of machining of the balance 2 on the peripheral surface 20 for the setting of inertia and / or balancing the balance 2 on the assembly 1 assembled. The suction would indeed be inefficient in the presence of two platinum surfaces 8 and 80 cock face to face on both sides of the balance 2

Preferably, the plate 8 or a cock 80 that it has in the vicinity of this sprung-balance assembly 1 comprises at least one through hole 82 to facilitate a suction flow created in the mechanism 10 during a machining recovery. the balance 2 on the peripheral surface 20 for the implementation of inertia and / or balancing of the balance 2 on the assembly 1 assembled.

The invention also relates to a watch movement 100 comprising such an oscillator mechanism 10 with balance-spiral assembly 1 spiral 3 foolproof, with piton 7 foolproof, without raquetterie and without other adjusting means in service that the set screws 9 described upper. In another variant, the clockwork movement 100 comprises such an oscillator mechanism 10 with a balance spring-balance 1 with a spiral 3 which can not be adjusted, with an inaccessible peak 7, without adjustment and without any adjustment means in service.

The invention also relates to a timepiece 200 comprising at least one such movement 100, preferably this piece 200 is a watch.

The invention also relates to a method of setting inertia or balancing of such a sprung-balance assembly 1 comprising at least one balance 2 pivoting about a pivot axis D and at least one spiral 3, by a machining restart, as defined above on a portion of the balance 2.

• on détermine la valeur et la localisation des reprises d'inertie ou/et d'équilibrage du balancier nécessaires ;
• on définit la valeur d'un premier écart E1, constituant la distance minimale entre tout point du spiral 3 et une zone de reprise d'usinage;
• on détermine une surface périphérique 20, en périphérie du balancier 2, pour y effectuer cette reprise d'usinage, tout point de la surface 20 étant éloigné du spiral 3 d'au moins la valeur du premier écart E1;
• on fige en position, de façon indéréglable, les extrémités du spiral 3 par rapport, d'une part au balancier 2, et d'autre part à un piton 7 que l'on immobilise de façon indéréglable par rapport à une platine 8 ou un coq 80 d'un mouvement 10;
• on immobilise d'éventuels moyens de réglage 9 du balancier dans une position de reprise ;
• on procède à la reprise d'usinage de mise d'inertie ou/et d'équilibrage.

According to this method:

• the value and location of the inertia and / or balance balancing recoveries necessary are determined;
• defining the value of a first distance E1, constituting the minimum distance between any point of the spiral 3 and a machining recovery zone;
• a peripheral surface 20, at the periphery of the rocker 2, is determined for carrying out this machining restart, any point on the surface 20 being remote from the spiral 3 by at least the value of the first difference E1;
• the ends of the hairspring 3 are fixed in position, in a foolproof manner, relative to the pendulum 2 on the one hand, and on the other hand to a pin 7 which is immobilized in a foolproof manner with respect to a plate 8 or cock 80 of a movement 10;
• any adjustment means 9 of the rocker arm are immobilized in a recovery position;
• we proceed to the resumption of machining inertia setting and / or balancing.

In a preferred manner, this balance sprung assembly 1 is subjected, during this resumption of machining of inertia setting and / or balancing, to a suction flow channeled through orifices 82 and / or clearances 81 of the plate 8 and cock 80 between which is mounted this sprung-balance assembly 1.

In an advantageous implementation of this method, an envelope volume of action of the machining recovery means is defined, at least beyond a first surface 21 as defined above, and on the opposite side to the hairspring 3. with respect to this first surface 21. And the machining recovery means, namely, as the case may be, the axes of the laser or plasma beams or the like, machining pins in directions such as the thermal effects or the chips or dust emitted do not come into the grip of the hairspring. Preferably these axes are oriented in the sector of angle w, of value equal to the angle β, as visible on the figure 3 , so that the reflection of the rays, flows, chips and dust is done away from the hairspring 3.

The invention is well suited, in particular, to the machining of inertia recovery and / or balancing in an assembled motion. The definition of a second envelope surface 22 of security, as presented above, protects the other components of this movement, it is then ensured that the reflection of the streams and waste remains between the two surfaces 21 and 22. The presence of a suitably oriented suction flow, in particular ascending from S2 to S1 in the example of figure 3 , makes it possible to further improve this safety, and to ensure the cleanliness of the movement 10 after this recovery operation.

The movement 10, after its last adjustment of operation constituted by this operation of recovery of inertia and / or balancing of the balance, no longer undergoes adjustment in the factory. If the balance is equipped with adjustment screws 9, as explained above, the after-sales service then has a limited adjustment range.

The eventual return to the factory then conditions a new recovery of inertia, similar to that described here, the advantage of the invention being that it is then not necessary to disassemble the movement to carry out this operation.

Claims (22)

Set (1) balance spring-balance, comprising at least one rocker (2) pivoting about a pivot axis (D) and at least one spiral (3) of which an inner turn (4) is fixed to said balance ( 2) or a ferrule (5) mounted integral with said rocker (2) and an outer turn (6) of which is fixed to a pin (7) for its retention to a plate (8) or a cock (80), characterized in that that said rocker arm (2) has a peripheral surface (20) which is spaced from any point of said spring (3) of a value greater than a first gap (E1) predetermined to prevent any modification of the characteristics of said spring (3 ) during a resumption of machining said beam (2) on said peripheral surface (20) for placing inertia and / or balancing said balance (2) on said assembly (1) assembled. Spiral balance assembly (1) according to the preceding claim, characterized in that said first predefined difference (E1) is between 0.50 mm and 1.20 mm. Spiral balance assembly (1) according to the preceding claim, characterized in that said predefined first distance (E1) is between 0.50 mm and 0.70 mm. Spiral balance assembly (1) according to one of the preceding claims, characterized in that said hairspring (3) is bent or / and twisted at its attachment to said pin (7) so as to move away from said peripheral surface (20). ) the active part (61) of said outer turn (6). Spiral balance assembly (1) according to one of the preceding claims, characterized in that said peripheral surface (20) is spaced from said peak (7) by a value greater than a second predefined difference (E2), to prevent any modification characteristics of said hairspring (3) during machining resumption of said beam (2) on said peripheral zone (20) for the inertia setting and / or balancing of said beam (2) on said assembly (1) assembled. Set (1) sprung balance according to the preceding claim, characterized in that said second difference (E2) predefined is between 0.05 mm and 0.20 mm. Set (1) sprung balance according to the preceding claim, characterized in that said second gap (E2) predefined is between 0.05 mm and 0.10 mm. Spiral balance assembly (1) according to one of the preceding claims, characterized in that said peripheral surface (20) is accessible from at least one side of said balance (2) to an ablation means and / or reloading and / or deformation and / or heat treatment in a volume outside a first surface (21) of revolution about said pivot axis (D) and based on the minimum radius (201) of said peripheral surface (20). ) and at a distance greater than a third distance (E3) from any active point of said hairspring (3) to prevent any change in the characteristics of said hairspring (3) during machining resumption of said rocker (2) on said peripheral surface (20) for putting inertia or / and balancing said balance (2). Set (1) sprung balance according to the preceding claim, characterized in that said first surface (21) is a cone whose apex (S1) is on the same side as said spiral (3) relative to said balance (2). Spiral balance assembly (1) according to claim 6 or 7, characterized in that said first surface (21), with said pivot axis (D), in a section passing through said pivot axis (D), an angle (β) less than a predetermined value (β0). Spiral balance assembly (1) according to one of the preceding claims, characterized in that said rocker (2) comprises, as sole adjustment means, adjusting screws (9) movable only between a first abutment position (91) on said rocker (1) on which their head (93) is supported in factory setting, and a second stop position (92) limiting their limiting power limited to 30 seconds per day for the needs of after-sales. Spiral balance assembly (1) according to one of the preceding claims, characterized in that said rocker (2) is machined for its inertia setting and / or its balancing in the form of narrow grooves (S) of depth (P). greater than one times their width (L). Spiral balance assembly (1) according to one of the preceding claims, characterized in that said spiral (3) is made of silicon or oxide silicon or monocrystalline diamond or polycrystalline diamond or glass or metal glass or amorphous metal or quartz or a paramagnetic material or a ferromagnetic material or antiferromagnetic alloy. Spiral balance assembly (1) according to one of the preceding claims, characterized in that said spiral (3) is thermally pre-treated so as to withstand localized heating in a neighboring zone when machining is resumed ( 2) on said peripheral surface (20) for putting inertia or / and balancing said balance (2). Assembly (1) balance spring according to one of the preceding claims, characterized in that said spring (3) is foolproof and that said stud (7) is also foolproof. Clock oscillator mechanism (10) comprising at least one sprung balance assembly (1) according to one of the preceding claims mounted on a plate (8) carrying a stud (7) via a cock ( 80), characterized in that said hairspring (3) is foolproof, in that said peg (7) is foolproof, and in that said rooster (80) is unobstructed and has at least one clearance (81) to facilitate a suction flow created in said mechanism (10) during a machining resumption of said rocker (2) on said peripheral surface (20) for the inertia setting and / or balancing of said rocker (2) on said assembly (1) assembled .. Oscillator mechanism (10) according to the preceding claim, characterized in that said plate (8) comprises at least one through hole (82) to facilitate a suction flow created in said mechanism (10) during a machining restart said rocker (2) on said peripheral surface (20) for placing inertia and / or balancing said balance (2) on said assembly (1) assembled. A watch movement (100) comprising a said oscillator mechanism (10) according to claim 14 or 15, characterized in that said hairspring (3) is foolproof, and in that said pin (7) is foolproof. Timepiece movement (100) according to claim 16, characterized in that said spring (3) is foolproof, in that said pin (7) is foolproof, and in that said balance sprung assembly (1) comprises as sole adjustment means said adjustment screws (9) of said balance (2) according to claim 9. Clock movement (100) according to claim 16, characterized in that said hairspring (3) is foolproof, in that said peg (7) is foolproof, and in that said hairspring assembly (1) is without snubbing and without any means of adjustment in use. Timepiece (200) comprising at least one said movement (100) according to one of claims 16 to 18, characterized in that said piece (200) is a watch. Method for placing inertia or balancing a balance sprung assembly (1) comprising at least one rocker (2) pivoting about a pivot axis (D) and at least one spiral (3), by a machining recovery on a part of said balance (2), characterized in that , according to this method: the value and the location of the inertia and / or balance balancing recoveries required are determined; the value of a first difference (E1) is defined, constituting the minimum distance between any point of said hairspring (3) and a machining recovery zone; a peripheral surface (20) is determined at the periphery of said rocker (2), in order to carry out this machining restart, any point of said surface (20) being at a distance from said spiral (3) from at least the value of said first gap (E1); the ends of the said spring (3) are frozen in position, in a foolproof manner, relative to the balance (2) on the one hand, and on the other hand to a pin (7) that is immobilized in a foolproof manner by relative to a plate (8) or a cock (80) of a movement (10); - Any adjustment means (9) of said rocker (2) are immobilized in a recovery position; - We proceed to the recovery of machining inertia setting and / or balancing.

Images