ISOTHERMAL CLOCK DEVICE

Abstract

An isothermal clock device for mechanical and/or functional components of a watch, the device being provided with a bracelet and a casing including an enclosure wherein a case of said watch is capable of being arranged and a reversible fastening device fastening the case of a watch in the enclosure of the casing by keeping it away from the set of elements of the casing defining this enclosure, the fastening device including at least two connecting members each connected to an attachment area of the case from at least one telescopic bar.

Description

TECHNICAL FIELD

The invention relates to an isothermal clock device for mechanical and/or functional components of a watch in particular adapted to operate under extreme temperatures. Such a device can also be called a Dewar clock device or more simply a Dewar device.

TECHNOLOGICAL BACKGROUND

An electronic watch conventionally comprises a bracelet and a watch case including several electrical or electronic components. It is known in the state of the art that some of these components do not withstand extreme temperatures, and cease operating properly at these temperatures. Typically, liquid crystal displays LCD using light-emitting diodes, or else quartz, tolerate temperatures not exceeding 80° C. (degrees Celsius) approximately, and not falling below 0° C. However, in particular environments such as, for example, space or lunar missions, the temperatures can frequently reach values in the range of substantially −150° C. to +125° C.

There is therefore a need to be able to use a watch, in particular an electronic watch, in environments where such extreme temperatures can prevail.

SUMMARY OF THE INVENTION

To this end, the invention relates to a Dewar device for mechanical and/or functional components of a watch, said device being provided with a bracelet and a casing including an enclosure in which a case of said watch is capable of being arranged and a reversible fastening device fastening said watch case in said enclosure of the casing by keeping it away from the set of elements of the casing defining this enclosure, said fastening device including at least two connecting members each connected to an attachment area of said case from at least one telescopic bar.

Thanks to the Dewar device formed by the casing and the watch case, the mechanical and/or functional components of the watch are protected from possible extreme temperatures comprised between −150 and +125 degrees Celsius that can prevail outside said device. In addition, said at least one connecting element, ensuring the fastening of the watch case to the casing, contributes to ensuring very good thermal insulation of the case by preventing any heat loss of this watch case 6, in particular by radiation. Thus, such a Dewar device allows using mechanical and/or functional components in contexts and environments where the temperatures can be extreme, such as for example during space exploration missions such as the exploration of the planet Mars or else the Moon. This also allows rationalising costs as well as to maintaining a reasonable complexity for the components used in watches requested for such missions.

In other embodiments:

• • each member comprises a contact area capable of cooperating with a first pointed end of each bar;
  • each bar comprises a second end capable of being connected to the attachment area, in particular to a horn of this attachment area;
  • each bar comprises a first portion comprising a first end of the bar and a second portion comprising a second end of this bar, the first and second portions being connected to each other by a resilient member, in particular a spring;
  • the first portion is capable of sliding in a housing defined in the second portion;
  • the resilient member is comprised in the housing defined in the second portion;
  • the contact area is made of a material having a hardness comprised between 7 and 10 on the Mohs scale, preferably a hardness of 9 on the same scale;
  • the contact area is made of a material having a Vickers hardness number comprised between 1200 and 3500 kg_f·mm−²;
  • said fastening device carries out a reversible fastening of the watch case to a back of the casing;
  • said enclosure is under vacuum or almost under vacuum;
  • the casing comprises a crystal whose surface is substantially greater or strictly greater than a crystal of the watch case;
  • a crystal of the watch case is disposed opposite to a crystal of the casing when the watch case is arranged in said enclosure;
  • the device comprises a middle on which said bracelet is fastened;
  • said set of elements of the casing forming said enclosure comprises a crystal, an inner peripheral wall of a middle and a back of this casing;
  • each connecting member is arranged on an inner peripheral wall of the enclosure of the casing opposite to the attachment area.

BRIEF DESCRIPTION OF THE FIGURES

Other features and advantages will emerge clearly from the description which is given below, by way of illustration and without limitation, with reference to the appended figures, in which:

FIG. 1 is a sectional view of a schematic representation of a Dewar device for mechanical and/or functional components of a watch, according to one embodiment of the invention;

FIG. 2 is a schematic representation of a casing of the Dewar device through which a case of said watch, which is reversibly mounted in an enclosure of said casing, is made visible, according to the embodiment of the invention, and

FIG. 3 is a larger-scale view of a connecting member of a reversible fastening device of the watch case in the enclosure of the casing of the Dewar device, according to the embodiment of the invention.

DETAILED DESCRIPTION OF THE INVENTION

FIGS. 1 and 2 represent an isothermal clock device 1 for mechanical and/or functional components 2 of a watch 3 also called Dewar clock device or more simply in the remainder of the description “Dewar device”. Such a Dewar device 1 for mechanical and/or functional components 2 of a watch 3 is capable of participating in imparting good thermal insulation to mechanical and/or functional components 2 of the watch 3, a case 6 of which is arranged in this casing 4 of the device 1 in order to ensure such insulation to these components 2. In other words, this Dewar device 1 is in particular formed by the combination of the casing 4 thereof and the case 6 of a watch 3 in order to make a thermal insulation suitable for these mechanical and/or functional components 2. In this configuration, the case 6 of a watch 3 is arranged in an enclosure 5 of the casing 4 while being kept away or at a distance from the set of elements 10a to 10c of the casing 4 defining this called enclosure 5, namely a crystal 10a, an inner peripheral wall 12 of a middle 10c and a back 10b of this casing 4. It will be noted that this inner peripheral wall 12 is also that of said enclosure 5.

This remoteness or this distance or even this spacing is configured from a fastening device 7 of the case 6 of a watch 3 in the casing 4. In other words, such a fastening device 7 is capable of configuring a spacing between said case 6 and the set of elements 10a, 10b, 10c of the casing 4 forming said enclosure 5 of this casing 4. This fastening device 7 that we will describe below, contributes to reducing or even eliminating any thermal conduction between the inner peripheral wall 12a of the middle 10c and/or the back 10b and/or the crystal 10a with the case 6 of a watch 3 in particular with an external overall face of this case 6. This external overall face includes an upper face comprising the crystal 11 of the case 6 of this watch 3, a lower face comprising a back of said case 6 and an outer peripheral wall of a middle of this case 6. It is understood that the lower and upper faces are opposite to each other.

It will be noted that such a case 6 is included in a watch 3 which can be an electronic watch, for example a quartz watch, or even a mechanical watch.

The previously mentioned mechanical and/or functional components 2 of the watch 3, comprise in a non-limiting and non-exhaustive manner: a horological movement, a dial, hands, rings, joints and/or electronic and/or electrical components 2. It will be noted, in particular, that such electronic and/or electrical components include, for example, a display device, a processor, a memory, an energy storage component, a motor, an integrated circuit and an electronic oscillator, etc . . .

It is therefore understood that in this configuration, this Dewar device 1 has the same properties and characteristics as a Dewar tube/vessel well known in the state of the art. As we have previously mentioned, the properties and characteristics of this Dewar device 1 participate in conferring it good thermal insulation relative to particularly extreme temperatures that may prevail in the external environment in which such a device 1 can be located.

In this context, this device 1 therefore comprises the casing 4 which includes the middle 10c on which a bracelet, allowing a user of this device 1 to wear it, is mounted. This casing 4 also includes the crystal 10a and the base 10b which are mentioned above. In this device 1, it will be noted that the crystal 10a preferably comprises a surface which is substantially greater than or strictly greater than a crystal 11 of the case 6 of a watch 3.

As we have seen, the crystal 10a, the middle 10c and the back 10b of this device 1 together define the enclosure 5 of this casing 4 which is likely to receive the case 6 of a watch 3. These three elements 10a to 10c of the casing 4, namely the middle 10c, the crystal 10a and the back 10b can be distinct elements which are joined together to construct this enclosure 5. Alternatively, the middle 10c and the back 10b of the casing 4 can together form a one-piece part, said one-piece part defining an opening opposite the back 10b which is likely to be closed by the crystal 10a and this, in a reversible and sealed manner. Alternatively, the middle 10c and the crystal 10a of the casing 4 of a watch 3, can together form a one-piece part, said one-piece part defining an opening opposite the crystal 10a which is likely to be closed by the back 10b and this, also in a reversible and sealed manner.

The middle 10c and the back 10b are preferably made, in a non-limiting and non-exhaustive manner, of a metal material, of glass or of a thermosetting or thermoplastic polymer resins reinforced with carbon or glass fibres or else of ceramic materials. It will be noted that when the middle 10c and the back 10b are transparent or semi-transparent, being for example made of glass, the peripheral wall 12 of the middle 10c and the inner face of the back 10b can be coated with a metal reflective coating or the like, such as, for example, a silver layer.

In addition, the device 1 can comprise an interferometric filter arranged on an external overall face of the casing 4, namely on an outer peripheral wall of the middle 10c and/or of the outer faces of the crystal 10a and of the back 10b of this case 6 of a watch 3. This interferometric filter can be a mesh or a netting forming a coating on this external overall face of the casing 4. This mesh or a netting has a meshing whose dimensions are such that they only allow passing some predetermined wavelengths of the electromagnetic spectrum, typically the wavelengths of the visible domain.

Furthermore, in this device 1, when the case 6 of a watch 3 is arranged in the enclosure 5 of the casing 4, the space defined between this case 6 and the inner peripheral wall 12 of the middle 10c, the back 10b and the crystal 10a is empty of material or almost empty. In other words, the enclosure 5 is under vacuum or almost under vacuum.

In order to ensure holding the case 6 of a watch 3 in this enclosure 5, the Dewar device 1 and in particular the casing 4 comprises the fastening device 7 carrying out a reversible fastening of the case 6 of a watch 3 on the inner peripheral wall 12 of this casing 4. This fastening device 7 which is also called “reversible fastening device” comprises at least two connecting members 9a visible in FIGS. 1 to 3 which are each connected to an attachment area 13 of said case 6 from at least one telescopic bar 9b, 9c.

In the embodiment shown in FIGS. 1 to 3, the fastening device 7 comprises two connecting members 9a and four telescopic bars 9b, 9c. In this configuration, these two connecting members 9a are capable of cooperating each with two telescopic bars 9b, 9c in order to secure the fastening of the case 6 of a watch 3 in the enclosure 5 of the casing 4 from attachment areas 13 of this casing 4. Each connecting member 9a is arranged on the inner peripheral wall 12 of the enclosure 5 of the casing 4 by being disposed opposite to the attachment area 13 with which it is made to cooperate within the context of this fastening. This arrangement of each connecting member 9a on the inner peripheral wall 12 can be made by clipping, nesting, welding, gluing or even screwing.

When this attachment area 13 comprises a pair of horns as illustrated in FIG. 2, the body of each member 9a is then entirely or partially arranged in the space defined between the two horns 16, preferably equidistant from these horns 16. More specifically in the context of the realization of this fastening of the case 6 of a watch 3 in the casing 4, each connecting member 9a comprises two contact areas 17 which are arranged in this member 9a opposite to each other, by each being disposed on a lateral wall of this member 9a. The arrangement of each contact area 17 on a lateral wall is performed so that it is positioned opposite to or else aligned with an opening included in the horn 16. As will be seen below, this opening is intended to be connected with this contact area 17 via a telescopic bar 9b, 9c. In this fastening device 7, the contact area 17 is capable of receiving a first end 18a of the bar 9b, 9c and the opening has in the horn 16 which is preferably blind, is for its part configured to receive a second end 18b of this called bar 9b, 9c.

The contact areas 17 of each of these members are made of a material having:

• • a hardness comprised between 7 and 10 on the Mohs scale, preferably a hardness of 9 on the same scale, or
  • a Vickers hardness number comprised between 1200 and 3500 kg_f·mm−².

In this context, such a material can be, in a non-limiting and non-exhaustive manner, corundum, a ruby, a sapphire or even ceramic. In addition, it will be noted that this material can also have low thermal conductivity properties.

In this fastening device 7, each telescopic bar 9b, 9c comprises a body formed of first and second portions 14a, 14b which are connected to each other in particular by a resilient member 15, for example a spring positioned in this second portion 14b of this body of the bar 9b, 9c. The first portion 14a of this bar 9b, 9c which is capable of sliding in the second portion 14b, comprises the first end 18a of the bar 9b, 9c which is likely to cooperate with the contact area 17 of each connecting member 9a. The second portion 14b of this bar 9b, 9c therefore comprises the second end 18b of the bar 9b, 9c which is intended to be disposed in the opening of the corresponding horn 16.

With reference to FIG. 3, in each bar 9b, 9c, the first end 18a is pointed. In other words, this first end 18a ends in a very acute angle contributing to reducing as much as possible a contact interface between this first end 18a and the contact area 17. In this context, the surface area of this first end can be between 10 and 10.106 μm². Such a small-sized contact interface contributes to greatly reducing or even eliminating the thermal conductivity of the fastening device 7 and therefore improving the thermal insulation of the components 2 from the external environment of the Dewar device 1.

In this configuration, when the case 6 of a watch 3 is disposed in the enclosure 5, the first and second ends 18a, 18b of each bar 9b, 9c are respectively arranged in the contact area 17 each connecting member 9a and in the opening of the corresponding horn 16. In order to carry out this arrangement of these ends 18a, 18b, the spring 15 included in the second portion 14b of the bar 9b, 9c is then compressed by the sliding of the first portion 14a of the body of the bar 9b, 9c in this second portion 14b . Thus, each bar 9b, 9c is disposed between the contact area 17 of the member and the opening of the horn 16 with a spring which is then stressed. It will be noted that in this configuration, the spring 15 of each bar 9b, 9c participates holding/fastening the case 6 in the enclosure 5 in particular by participating in absorbing any possible displacement of the case 6 relative to the casing 4 which may result from an acceleration, a deceleration and/or an abrupt/violent/sudden change of direction experienced by the Dewar device 1.

It will be noted that in an alternative, the fastening device 7 can comprise more than two connecting members. For example, it may comprise two pairs of connecting members each arranged in whole or in part between the horns 16 of an attachment area 13 of the case 6. In this configuration, only the lateral wall of the member of the pair which is disposed opposite to the opening of a horn 16 of the attachment area 13 comprises a contact area 17 in order to participate in the fastening of the case 6 in this enclosure 5.

Furthermore, such a fastening device 7 contributes to placing the case 6 of a watch 3 in this casing 4 so that the crystal 11 of this case 6 of a watch 3 is arranged opposite to the crystal 10a of the casing 4 so that the information comprised on the dial and/or the display interface of this watch 3 can be perceived through the transparent crystal 10a of the casing 4 by the user wearing the Dewar device 1.

Thus, such a Dewar device 1 provides the mechanical and/or functional components 2 of the watch 3 with a very good thermal insulation relative to the external environment by preventing a heat loss of the watch case 6 by radiation. Thus, when the temperature outside the device 1 reaches extreme values, typically in the range of −125 to +125° C., the temperature inside the enclosure 5 remains for its part substantially equal to the temperature present in the case 6 of a watch 3 during its arrangement in the casing 4, typically in the range of 20° C. It will be noted that regardless of the temperature conditions prevailing in the environment of the Dewar device 1, the temperature present in the case 6 of a watch 3 is a temperature which does not hinder the proper operation of the watch. This temperature is maintained for a period of time which is 5 to 18 times greater than the period of time during which such a watch case would be capable of preserving an operating temperature of its components 2 by being located directly in such an environment where such temperatures, which are in particular extreme, prevail (that is to say by being located outside the casing of the Dewar device). It is thus conceived that such a configuration allows protecting the mechanical and/or functional components 2 of the watch 3, as well as participating in ensuring their operation in an optimal manner in extreme outside temperature conditions.

Claims

1. A Dewar device for mechanical and/or functional components of a watch, said device being provided with a bracelet and a casing including an enclosure wherein a case of said watch is capable of being arranged and a reversible fastening device fastening said case of a watch in said enclosure of the casing by keeping it away from the set of elements of the casing defining said enclosure, said fastening device including at least two connecting members each connected to an attachment area of said case from at least one telescopic bar.

2. The Dewar device according to claim 1, wherein each member comprises a contact area capable of cooperating with a first pointed end of each bar.

3. The Dewar device according to claim 1, wherein each bar comprises a second end capable of being connected to the attachment area, in particular to a horn of said attachment area.

4. The Dewar device according to claim 1, wherein each bar comprises a first portion comprising a first end of the bar (and a second portion comprising a second end of said bar, the first and second portions being connected to each other by a resilient member, in particular a spring.

5. The Dewar device according to claim 1, wherein each bar comprises a first portion which is capable of sliding in a housing defined in the second portion.

6. The Dewar device according to claim 1, wherein each bar comprises a first portion comprising a first end of the bar and a second portion comprising a second end of said bar, the first and second portions being connected to each other by a resilient member, in particular a spring, said resilient member being comprised in the housing defined in the second portion.

7. The Dewar device according to claim 1, wherein each member comprises a contact area capable of cooperating with a first pointed end of each bar, the contact area being made of a material having a hardness comprised between 7 and 10 on the Mohs scale.

8. The Dewar device according to claim 1, wherein each member comprises a contact area capable of cooperating with a first pointed end of each bar, the contact area being made of a material having a Vickers hardness number comprised between 1200 and 3500 kgf·mm−2.

9. The Dewar device according to claim 1, wherein said fastening device carries out a reversible fastening of the case of a watch to a back of the casing.

10. The Dewar device according to claim 1, wherein said enclosure is under vacuum or almost under vacuum.

11. The Dewar device according to claim 1, wherein the casing comprises a crystal whose surface is substantially greater or strictly greater than a crystal of the case of a watch.

12. The Dewar device according to claim 1, wherein a crystal of the case of a watch is disposed opposite to a crystal of the casing when the case of a watch is arranged in said enclosure.

13. The Dewar device according to claim 1, comprises a middle on which said bracelet is fastened.

14. The Dewar device according to claim 1, wherein said set of elements of the casing forming said enclosure comprises a crystal, an inner peripheral wall of a middle and a back of said casing.

15. The Dewar device according to claim 1, wherein each connecting member is arranged on an inner peripheral wall of the enclosure of the casing opposite to the attachment area.