CH710582A2 - waterproof watch case. - Google Patents

Abstract

The invention relates to a watch case (100) comprising: a vertical stack (50) of superposed pieces; an annular middle (56) surrounding said stack (50), the middle part (56) having a plurality of annular middle segments (B1, B2, B3) in the same horizontal plane, said middle segments being articulated together, parts of said stack (50) being supported against each other by said middle part (56), so as to seal between said parts.

Description

Technical area

The present invention relates to a watch case specifically a waterproof watch case.

State of the art

[0002] It is known that one of the main problems of a watch is its tightness.

A role of the box of a waterproof watch is to protect the watch movement infiltrations of solid, liquid or even gas. This seal is traditionally obtained by means of seals (or gaskets) between the middle and the bottom, between the middle and the bezel, around the ice and around the winding stem or push buttons for example.

These joints are generally made of rubber or synthetic material and have the disadvantage of aging by degrading. It is therefore necessary to replace them periodically. On the other hand, these joints are difficult to replace after the opening and reassembly of the box, especially in services during which it is common that the seal is damaged.

Waterproof watches without joints are known from the state of the art.

For example, the document CH 705 659 describes a method of fixing a plastic watch ice on a case also made of plastic. This method consists in welding the assembly formed by the ice and the middle part by means of a laser beam to guarantee the tightness of the assembly.

[0007] US 2013 153 289 and FR 2 582 821 propose ultrasonic welding techniques.

CH 622 151 proposes a collage of the different parts of the box.

These different solutions do not allow disassembly and are primarily intended for cheap watches that should not be repaired.

[0010] EP 0 873 543 (Rado) proposes a watch case whose sealing is obtained via the polishing and then the stacking of the pieces fixed with the help of longitudinal members placed perpendicularly to the dial. These longitudinal members impose a strong aesthetic constraint to the designer of the watch. They can also hurt the wearer of the watch.

Brief summary of the invention

An object of the present invention is to provide a waterproof watch case free of limitations of known documents.

According to the invention, these objects are achieved in particular by means of a watch case comprising: a vertical stack of superposed pieces; a middle part in the form of an annular flange surrounding the stack, the caseband comprising several segments of annular flanges in the same horizontal plane, the middle segments being linked together in an articulated manner, the parts of the stack being supported against each other by means of the flange, so as to seal between said parts.

In the claims and in the description, the horizontal direction is that of the dial of the watch, the bottom of the watch, the plane of rotation of the hands and / or the platen of the movement. The vertical direction is perpendicular to the horizontal direction and corresponds for example to that of the axes of the gear train. In addition, the term "middle part" defines the peripheral middle part of the watch case.

This solution has the advantage over the prior art to reduce the number of joints required, or even to exonerate joints between the various components of the box, especially between the circle and the bottom and / or between the circle and the ice.

Another advantage is to allow easy disassembly and reassembly of the watch case, for example for a service.

Another advantage is that the quality of the seal does not deteriorate over time, and does not depend on parts that degrade as they age.

Brief description of the figures

Examples of implementation of the invention are indicated in the description illustrated by the appended figures in which: <tb> Fig. 1 <SEP> illustrates a diametral section in perspective of a watch case according to one embodiment. <tb> Fig. 2 <SEP> illustrates a diametral section in perspective of a watch case according to another embodiment. <tb> Fig. 3a <SEP> illustrates a perspective view from above of the watch case according to another embodiment. <tb> Fig. 3b <SEP> illustrates a perspective view from below of the watch case of FIG. 3a. <tb> Fig. 4 <SEP> illustrates a perspective diametral section of a watch case according to another embodiment. <tb> Fig. <SEP> illustrates a perspective view from above of the watch case according to another embodiment, without the bezel.

Example (s) of embodiment of the invention

Figs. 1, 2, 4 illustrate sectional views through the center of a watch case 100 according to a plurality of embodiments. In all these modes, the box comprises an ice 58, a bezel 60 and a vertical stack 50 of superposed pieces.

The stack 50 comprises for example a circle 54 and a bottom 52. The assembly defines a housing for housing a watch movement 28, which can be maintained by the circle and / or by a casing ring no represent. A middle part 56 comprising several segments of flanges B1 to B4 surrounds the stack 50.

The circle 54 is housed in the middle part 56 and can accommodate the movement and fix the bezel and the bottom. An additional casing ring (not shown) may be provided in the circle.

The seal between the different parts of the stack 50 is obtained through contact surfaces R1, R2 lapped between these parts. For example, the surface R2 of the circle 54 bearing against the bottom 52 is ground, as the corresponding surface R1 of the bottom bearing against the circle. Similarly, the surface R3 of the circle 54 bearing against the ice 58 is ground, as well as the corresponding contact surface R4 of the ice. In the variant of FIG. 1, these contact surfaces Ri are horizontal. In another variant not shown these surfaces could be inclined or non-planar.

Grinding or lapping of these surfaces Ri is performed by grinding machines thus obtaining lapped surfaces, flat, clean and smooth with very low roughness. This gives the advantage of being able to stack the different parts 52, 54, 58 in a sealed manner by keeping them tight against each other thanks to the clamping techniques which will be introduced below.

The middle part 56 comprises several annular middle segments Bi (i = 1, ..., 4) in the same horizontal plane, for example 2, 3 or 4 middle segments. These segments are linked together in an articulated manner by virtue of intermediate linkage elements, for example charnerons 40, fixed at each end to a segment of middle section Bi by pins 42.

In one embodiment illustrated in FIGS. 1, 3a and 3b, each middle segment B1 to B4 is connected to each of the two adjacent segments by a connecting element 40 fixed by two vertical pins 42, except for the segment B1 linked to B2 by a connecting screw 44 horizontal to adjust the clamping torque of the middle 56 on the stack 50, and thus the support force of the elements of the stack 50 against each other. This screw can be glued after adjustment. False pins 46 may be provided to maintain the symmetry of the links between segments.

In other embodiments, each segment B1 to B4 is connected to its two adjacent segments by a connecting member 40, without adjustment by means of horizontal screw 44. The clamping force is then determined once. for all thanks to the precision on machining tolerances of parts.

As seen in particular in FIG. 1, the middle part 56 defines bearing portions Ai (i = 1, 2) against the stack 50, for example a bearing portion A1 against the bottom 52 and a bearing portion A2 against the circle 54.

In the embodiment of FIGS. 1, 3a and 3b, the bearing portions A1 and A2 of the middle part 56 against the bottom and the circle, respectively, are inclined relative to the horizontal. The inclination can vary between 5 and 20 degrees, preferably between 9 and 18 degrees, preferably 15 degrees. When clamping the middle part 56 by means of the screw 44, the horizontal clamping force exerted by the middle part 56 is converted by these inclined surfaces into a bearing force comprising a vertical component between the parts constituting the stack 50. The tightness between the circle 54 and the bottom 52 is then ensured by the pressure thus exerted between the ground surfaces R1, R2, without the need to interpose a seal, or to glue the pieces together or still to weld them.

In the same way, in this embodiment, the seal between the ice 58 and the circle 54 is obtained by means of a bezel 60 having two portions of glasses, for example two portions L1 and L2. The bezel 60 holds the ice 58. The bearing portions A3 and A4 of the bezel 60 are inclined relative to the horizontal. The inclination can vary between 5 and 20 degrees, preferably between 9 and 18 degrees, preferably 15 degrees. When the portions of the bezel L1, L2 are tightened by means of at least one horizontal screw M1 (FIG 3a) between two segments, the horizontal clamping force exerted by the telescope 60 is converted by these inclined surfaces into a force of support, having a vertical component, between the ice 58 and the circle 54. The tightness between the ice 58 and the circle 54 is thus ensured by virtue of the pressing force between a ground contact surface R 3 of the circle and a surface rectified contact R4 of the ice 58 resting against each other.

In the embodiment illustrated in FIG. 2, through holes 47 on the periphery of the ice 58 can accommodate screws engaged in the circle, or pins, to maintain the ice bearing against the circle 54, respectively to center it.

In the variant of FIG. 5, the ice 58 is pressed against the circle by springs engaged in blind holes 48 in the periphery of the ice, and supported against a lower face of the bezel.

In the embodiment shown in FIG. 4, the bottom 52 comprises a plurality of housings H, in each of which is housed an elastically deformable element E, for example a spring connected to a ball. When tightening the box, the elastically deformable element E resting against a flange Bi segment pushes the bottom 52 against the circle 54, so as to create a pressure between the ground surfaces R1 and R2 against each other . Thus the stack 50 comprising the bottom 52 and the middle part 54 is compressed between a first bearing P1 of the middle part 56 and a second bearing of the middle part P2.

In this embodiment, the seal between the ice 58 and the circle 54 could be guaranteed by one or the other of the techniques previously described in the other embodiments.

The watch case further comprises a crown rod 22 for reassembly and setting time by means of a ring 20. The crown rod 22 cooperates with the winding stem 26 of the movement 28.

The tightness of the opening made in the box for the passage of the crown rod 22 through the circle 54 is obtained through a bushing 24 driven into the opening and traversed by the crown rod 22. crown rod 22 and bushing 24 are lapped and precisely adjusted so as to ensure a seamless seal of the rod. In addition, grease or silicone can be used to allow axial sliding and rotation while preventing moisture infiltration.

The same principle of sealing by coining can be used for pushbuttons.

Although the embodiments described below refer to parts assembled to each other, constructions where the circle 54 could be in one piece with the ice 58 or with the bottom 52 are also conceivable.

Furthermore, the bottom 52 could also carry a transparent glass 62 (FIG 4) allowing the user to see the bottom of the movement 28.

Reference numbers used in the figures

[0038] <tb> 100 <SEP> Watch box <Tb> 20 <September> Crown <tb> 22 <SEP> Crown stem <Tb> 24 <September> Bush <tb> 26 <SEP> Winding stem <Tb> 28 <September> Movement <Tb> 40 <September> knuckle <Tb> 42 <September> Pin <tb> 44 <SEP> Link Screw <tb> 46 <SEP> False pin <tb> 47 <SEP> Through hole in the periphery of the ice <tb> 48 <SEP> Spring to tighten the ice 58 against the circle 54 <tb> 49 <SEP> Screw or pin for holding or centering the ice <Tb> 50 <September> Stacking <Tb> 52 <September> Background <Tb> 54 <September> Circle <Tb> 56 <September> Build <Tb> 58 <September> Ice <Tb> 60 <September> Bezel <tb> 62 <SEP> Transparent glass <tb> A1, A2 <SEP> Support portions of flange segments <tb> A3, A4 <SEP> Support portions of the telescope <tb> Bi (i = 1, ..., 4) <SEP> Middle segments <tb> E <SEP> Ball spring / spring elastic element <tb> l1 <SEP> housing in the background <tb> L1, L2 <SEP> Portions of glasses <tb> M1 <SEP> Means for tightening the telescope <tb> P1 <SEP> Scope 1 <tb> P2 <SEP> Scope 2 <tb> Ri (i = 1, ..., 4) <SEP> Rectified contact surfaces

Claims (16)

1. Watch case (100) comprising: a vertical stack (50) of superposed pieces; an annular middle (56) surrounding said stack (50), the middle part (56) having a plurality of annular middle segments (Bi) in the same horizontal plane, said middle segments (Bi) being linked together in an articulated manner, the parts of said stack (50) being supported against each other by said middle part (56), so as to seal between said parts. The watch case (100) of claim 1, said stack (50) comprising: a circle (54); a bottom (52) under said circle (54); the bottom (52) being in abutment against the circle (54) with said middle part (56), so as to ensure the seal between the circle and the bottom. 3. Watch case (100) according to claim 2, comprising ground contact surfaces (R1, R2) between the bottom (52) and the circle (54). 4. Watch case according to one of claims 2 or 3, a contact surface (R1, R2) between the bottom (52) and the circle (54) being horizontal. 5. Watch case according to one of claims 1 to 4, the middle segments (Bi) having at least one bearing portion (A1, A2) against the stack (50), said middle part (56) exerting a clamping force on said stack, the bearing portion or portions being inclined relative to the horizontal, so as to exert a bearing force between the parts of said stack (50). 6. Watch case according to claim 5, the middle segments (Bi) including a said inclined bearing portion (A1) against the circle (54) and a said inclined bearing portion (A2) against the bottom (52). ). 7. Watch case (100) according to one of claims 1 to 4, comprising at least one elastically deformable element (E) bearing against a middle segment (B1) on the one hand and against said stack (50) d on the other hand, so as to exert a bearing force between the parts of said stack (50). 8. Watch case (100) according to claim 7, the stack (50) being compressed between a first bearing surface (P1) of the middle part and an elastic element (E) bearing against a second bearing surface (P2) of the middle part. . 9. Watch case (100) according to any one of claims 1 to 8, comprising: ice (58); a bezel (60) having at least two portions (L1, L2) and carrying said ice (58); the circle (54) bearing against the ice (58) by clamping said eyeglass portions together so as to ensure a seamless seal between the circle (54) and the ice (58). 10. Watch case (100) according to claim 9, comprising ground contact surfaces (R3, R4) between the ice (58) and the circle (54). 11. Watch case according to one of claims 9 or 10, a contact surface (R3, R4) between the ice (58) and the circle (54) being horizontal. 12. Watch case according to one of claims 9 to 11, said bezel (60), exerting a clamping force on the ice and a portion of the circle (54), said bezel (60) having a bearing portion inclined (A3) against the ice (58) and an inclined bearing portion (A4) against the circle (54), said bearing portions being inclined with respect to the horizontal, so as to exert a bearing force vertically between the ice (58) and the circle (54). 13. Watch case (100) according to any one of claims 2 to 12, comprising: ice (58); a plurality of springs (48) for pressing the ice (58) against the circle (54) to provide a seamless seal between the circle (54) and the ice (58). 14. Watch case (100) according to any one of claims 1 to 12, comprising: ice (58); a plurality of clamping screws for screwing the ice (58) against the hoop (54) to provide a seamless seal between the hoop (54) and the ice (58). The watch case (100) according to any one of claims 1 to 14, comprising: a crown rod (22) housed in a ring gear (20); a bushing (24) traversing the circle and traversed by the crown rod (22); said rod (22) and said sleeve (24) being precisely adjusted to seal said rod (22). 16. Watch case (100) according to any one of claims 1 to 15, comprising: a push button rod; a bushing passing through the middle and traversed by the push-button rod; said push button rod and said socket being precisely adjusted to seal said rod.