Balance with inertia adjustment

Abstract

Balance with inertia adjustment for timepieces, including a hub defining the pivot axis of the balance, a rim, a web extending between a lower plane and an upper plane on either side of a median plane, the web including at least one arm connecting the rim to the hub, the arm including a housing configured to receive and hold in place at least one inertia block. According to the invention, the inertia block has a front face and a rear face and is integrated in the balance arm, so that the front face and rear face are substantially in the upper plane and the lower plane.

Claims

1. A balance with inertia adjustment, for timepieces, comprising: a hub defining a pivot axis of said balance, a rim, a web extending between a lower plane and an upper plane on either side of a median plane, said web including at least one arm connecting said rim to said hub, said at least one arm including a housing configured to receive and hold in place at least one inertia block, wherein said at least one inertia block has a front face and a rear face and is integrated in said arm of said balance, so that said front face and rear face are substantially in said upper plane and said lower plane, wherein said arm includes an elastic portion that is a separate piece from the at least one inertia block, and wherein the elastic portion clamps the at least one inertia block in the housing.

2. The balance according to claim 1, wherein said front face and said rear face of said at least one inertia block are set back by 0 m to 1 mm with respect to said upper plane and to said lower plane.

3. The balance according to claim 1, wherein said front face and said rear face of said at least one inertia block project by 0 m to 0.6 mm with respect to said upper plane and to the lower plane.

4. The balance according to claim 1, wherein said at least one inertia block is in said median plane of said web.

5. The balance according to claim 1, wherein said housing and said at least one inertia block are of complementary shape.

6. The balance according to claim 1, wherein said at least one inertia block is clamped with a predetermined retaining torque inside said housing.

7. The balance according to claim 1, wherein said at least one inertia block is cylindrical.

8. The balance according to claim 1, wherein said elastic portion extends in said median plane, and said elastic portion is deformable during an assembly of said at least one inertia block.

9. The balance according to claim 1, wherein said housing includes stops in the upper plane and lower plane to hold said at least one inertia block axially in place.

10. The balance according to claim 1, wherein said at least one inertia block includes upper and lower wings to rest on either side of said arm respectively in the lower plane and the upper plane to hold said at least one inertia block axially in place.

11. The balance according to claim 1, wherein said at least one inertia block is driven into said housing of said arm of said balance.

12. A timepiece including the movement according to claim 11.

13. The balance according to claim 1, wherein said arm and said rim have a same thickness.

14. A timepiece movement including the balance according to claim 1.

15. The balance according to claim 1, wherein the at least one inertia block is held in the housing by friction.

16. The balance according to claim 1, wherein the at least one inertia block is rotatable in the housing.

17. The balance according to claim 1, wherein the at least one inertia block is rotatable in the housing about an axis parallel to the pivot axis of said balance.

18. A balance with inertia adjustment, for timepieces, comprising: a hub defining a pivot axis of said balance, a rim, a web extending between a lower plane and an upper plane on either side of a median plane, said web including at least one arm connecting said rim to said hub, said at least one arm including a housing configured to receive and hold in place at least one inertia block, wherein said at least one inertia block has a front face and a rear face and is integrated in said arm of said balance, so that said front face and rear face are substantially in said upper plane and said lower plane, wherein said arm includes an elastic portion that is a separate piece from the at least one inertia block, and wherein the at least one inertia block is rotatable in the housing about an axis parallel to the pivot axis of said balance.

19. The balance according to claim 18, wherein said front face and said rear face of said at least one inertia block are set back by 0 m to 1 mm with respect to said upper plane and to said lower plane.

20. The balance according to claim 18, wherein the elastic portion clamps the at least one inertia block in the housing.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) Other characteristics and advantages of the invention will appear more clearly upon reading the following description of a specific embodiment of the invention, given simply by way of illustrative and non-limiting example, and the annexed Figures, among which:

(2) FIG. 1 is a perspective view of a balance conforming to the invention according to a first embodiment.

(3) FIG. 2 is a perspective view of a balance conforming to the invention according to a second embodiment.

(4) FIGS. 3 and 4 are respectively cross-sectional views of a balance according to the first and second embodiments illustrated in FIGS. 1 and 2.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

(5) A timepiece movement according to an example embodiment will now be described below with reference jointly to FIGS. 1, 2, 3 and 4.

(6) The invention therefore concerns a balance 1 with inertia adjustment, for timepieces, including a hub 4 defining the pivot axis A of balance 1, a rim 10, a web 11 extending between a lower plane Pi and an upper plane Ps on either side of a median plane Pm, web 11 including at least one arm 2 connecting rim 10 to hub 4, the at least one arm 2 including a housing 3 configured to receive and hold in place at least one inertia block 5.

(7) According to the invention, the balance has a front face 12 having a recess 14 and a rear face 13 which may also be recessed.

(8) According to a particular embodiment, the height of rim 10 may be identical to web 11, in that case balance 1 has no recess which makes it possible to obtain the most compact possible balance.

(9) As illustrated, balance 1 includes four arms, forming a hub 4 at the intersection thereof, hub 4 being provided with an orifice 40 intended to receive a balance staff 41, web 11 therefore being formed by the four arms and the hub 4.

(10) Rim 10 is of circular shape and, like arms 2, has no protruding portions, so that balance 1 is as compact as possible.

(11) As can be observed in the Figures, inertia block 5 is of cylindrical shape and includes a front face 52 and a rear face 53 and may, according to one embodiment of the invention, have upper and lower wings 54 and 55.

(12) Advantageously, each inertia block 5 is clamped inside a housing 3 in an operating position where a median plane of the inertia block coincides with the median plane Pm of web 11.

(13) Balance 1 includes rigid portions formed by hub 4, rim 10 and arms 2 connecting rim 10 to hub 4. Housing 3 is delimited, on the one hand by a rigid portion of balance 1, and on the other hand by an elastically deformable arm 20.

(14) According to a particular embodiment of the invention, not illustrated in the Figures, rim 10 of the balance has the same thickness as arms 2 of balance 1 and thus merges with arms 2 of the balance, arms 2 and rim 10 thus forming a plane element.

(15) According to the invention, housing 3 is delimited by a rigid portion of arm 2 and by an elastic portion 20 integral with a rigid portion of arm 2, elastic portion 20 being constantly returned towards the rigid portion of arm 2 delimiting housing 3.

(16) Advantageously, in the extension of housing 3, arm 2 has a recessed part 21 intended to facilitate the deformation of elastic portion 20.

(17) According to a preferred embodiment, housing 3 is substantially the same shape as inertia block 5. This embodiment is particularly advantageous since it limits the thickness of balance 1 once inertia blocks 5 are mounted on balance 1.

(18) In this preferred embodiment, elastic portion 20 extends in the median plane Pm of the web; arm 2 with a recess 21 facilitates the deformation of elastic portion 20.

(19) Balance 1 also includes adjustment inertia blocks 5 of cylindrical shape, inertia blocks 5 being provided with an opening 50 in the shape of a half-moon, or any other shape, and drive means 51 such as an adjustment notch or any other means known to those skilled in the art for adjusting the position of inertia block 5.

(20) According to a first embodiment, illustrated in FIGS. 1 and 3, housing 3 and elastic portion 20 of complementary shape to inertia block 5 include stops 30 in proximity to the upper and lower edges of housing 3, respectively in upper plane Ps and lower plane Pi, to hold inertia block 5 in place in median plane Pm in housing 3 while allowing it to rotate.

(21) These housings 3 make it possible to obtain inertia blocks 5 completely embedded in arms 2 of balance 1. When inertia blocks 5 are placed in housings 3, the inertia blocks are clamped in housings 3 and are thus held in position by friction by means of the elasticity of elastic arm 20.

(22) According to a second embodiment, visible in FIGS. 2 and 4, inertia block 5 includes upper and lower leaves intended to rest on either side of arm 2, and more precisely on either side of housing 3, respectively in lower plane Pi and upper plane Ps so as to hold inertia block 5 in housing 3 while allowing it to rotate in said housing 3.

(23) Advantageously, inertia block 5 is integrated in arm 2 of balance 1 so that the front and back faces are substantially in upper plane Ps and lower plane Pi. Substantially means that front face 52 and rear face 53 are set back by 0 m to 1 mm with respect to upper plane Ps and lower plane Pi in the first embodiment and that the upper and lower wings of inertia block 5 protrude by 0 m to 0.6 mm with respect to upper plane Ps and lower plane Pi in the second embodiment. Such an arrangement makes it possible to obtain a balance with inertia adjustment having a reduced space requirement.

(24) This balance 1 according to the invention makes it possible, in particular, to mount inertia blocks 5 on arms 2 of balance 1 regardless of the direction of assembly of the balance. Generally, those skilled in the art will choose the direction of assembly of inertia blocks 5 on balance 1 depending on the ease of access to inertia blocks 5 once balance 1 is mounted in a movement.

(25) The invention also concerns a timepiece movement and a timepiece equipped with a balance according to the invention.

(26) As a result of these different aspects of the invention, there is obtained a compact balance which reduces the thickness of the timepiece movement and is inexpensive to produce.

(27) Of course, the present invention is not limited to the illustrated example and is capable of various variants and modifications that will appear to those skilled in the art.

LIST OF PARTS

(28) 1. Balance 10. Rim 11. Web 12. Front face of the balance 13. Rear face of the balance 14. Recess 2. Arms 20. Elastic portion 21. Recessed part 3. Housings 30. Stops 4. Hub 40. Orifice 41. Balance staff 5. Inertia block 50. Opening 51. Drive means 52. Front face of the inertia block 53. Rear face of the inertia block 54. Upper wing of the inertia block 55. Lower wing of the inertia block A. Pivot axis Pm. Median plane Pi. Lower plane Ps. Upper plane