The present invention relates to a Dewar device for mechanical and/or functional components of a watch, the device comprising a device for actuating at least one push button of a watch arranged in a chamber of this Dewar device.
A watch and in particular an electronic watch conventionally comprises a wristlet and a watch case including several electric or electronic components. It is known in the prior art that some of these components do not support extreme temperatures, and stop functioning correctly at these temperatures. Typically, the LCD liquid crystal displays using light emitting diodes or quartz tolerate temperatures not exceeding approximately 80° C. (degrees Celsius), and not going below 0° C. However, in particular environments for example such as space or lunar missions, the temperatures can frequently reach values of approximately 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 in which there can be such extreme temperatures.
The invention relates to a Dewar device for mechanical and/or functional components of a watch, said device including: a wristlet, a case comprising a chamber in which a case of the watch is capable of being disposed in such a way that a glass of said watch case is arranged facing a glass of a set of elements of the case defining this chamber, at least one fastening device fastening said watch case in said chamber of the case while maintaining it distant from all of the elements of the case defining this chamber, and a device for actuating at least one push button by the angular movement of a free end of at least one lever element of said device relative to the case, said at least one lever element having another end movably fastened to said case.
In other embodiments:
Other particularities and advantages will be clear from the description that is made thereof below, for informational and in no way limiting purposes, in reference to the following appended drawings:
This Dewar device 1 is in particular formed by the combination of its case 4 and of the watch 3 case 6 in order to create appropriate thermal insulation for these mechanical and/or functional components 2. In this configuration, the watch 3 case 6 is arranged in a chamber 5 of the case 4 while being maintained distant or at a distance from all of the elements 10a to 10c of the case 4 defining this said chamber 5 namely the glass 10a, an inner peripheral wall 12 of a middle 10c and a back 10b of this case 4. It is noted that this inner peripheral wall 12 is also that of said chamber 5.
In this context, this device 1 thus comprises the case 4 which includes the middle 10c preferably provided with two pairs of horns 14 on which a wristlet allowing a user of this device 1 to wear it for example on the wrist is mounted. This case 4 also includes a crown, a glass 10a and a back 10b visible in
This case 4 also comprises a bezel which can be mounted movably in rotation relative to the middle 10c. Such a bezel has a substantially circular shape.
This Dewar device 1 also comprises a device 19 for actuating at least one push button of the case 6 of the watch 3 arranged in the chamber 5 of its case 4. This actuation device 19 comprises at least one lever element 15a, 15b, 15c, 15d of the case 4 which is movably mounted on this case 4. Such a lever element 15a, 15b, 15c, 15d is capable of carrying out a movement 13 relative to the case 4 in order to actuate said push button of the watch 3 case 6.
This lever element 15a, 15b, 15c, 15d comprises a one-piece rigid body having a substantially rectilinear shape. This lever element 15a, 15b, 15c, 15d comprises two ends 16a, 16b. A first end 16a called “free end” which is capable of coming in contact indirectly with the push button of the case 6 and a second end 16b called “attachment end” which is fastened/mounted movably in rotation about a fastening axis B on the case 4 of the Dewar device 1. Such a fastening axis B is defined at the point 18 of attachment to the case 4 of the lever element 15a, 15b, 15c, 15d, this fastening axis B being parallel or substantially parallel to a central axis O of the case 4 of the Dewar device 1. It is understood that this second end 16b is movably fastened at this attachment point 18 using a linking element 24.
In these conditions, it is understood that the free end 16a of this lever element 15a, 15b, 15c, 15d is thus capable of carrying out an angular movement 13 relative to the attachment end 16b when the lever element 15a, 15b, 15c, 15d is stressed by the user of the Dewar device 1 with the goal of activating the push button of the case 6 of the watch 3. In other words, the lever element 15a, 15b, 15c, 15d is configured to actuate said push button during a performing of an angular movement 13 of the first end 16a of this said at least one lever element 15a, 15b, 15c, 15d relative to the case 4 and more particularly relative to an outer peripheral wall 17 of this case 4 and thus to an outer face 23 of its middle 10c.
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Each lever element 15a, 15b, 15c, 15d is capable of alternating between a “deactivation” state during which the lever element 15a, 15b, 15c, 15d is configured in a position in which it does not participate in actuating the push button of the watch 3 case 6 and an “activation” state during which the lever element 15a, 15b, 15c, 15d is configured in a position in which it participates in actuating this push button.
Moreover, the actuation device 19 also comprises at least one return element capable of returning the lever element 15a, 15b, 15c, 15d from a deactivation state to an activation state. Furthermore, it is noted that the actuation device 19 can comprise in this configuration an element for limiting an angular movement 13 of the lever element 15a, 15b, 15c, 15d with respect to the case 4 and thus with respect to the middle 10c of this case 4 when this lever element 15a, 15b, 15c, 15d is operated in an anti-clockwise direction of movement, for example by the return element.
In this actuation device 19, the lever element 15a, 15b, 15c, 15d comprises an actuation zone 21 capable of activating the push button of the watch 3 by coming in contact with at least one activation zone 22 of the middle 10c of the case 4. This activation is carried out as soon as this lever element 15a, 15b, 15c, 15d is operated in an angular movement 13 relative to this activation zone 22 of the middle 10c, this movement 13 being carried out in the clockwise direction.
Such an actuation zone 21 is defined on a part of an outer surface of the lever element 15a, 15b, 15c, 15d. This part is arranged facing a portion of the outer face 23 of the middle 10c where the activation zone 22 is located. This part can be comprised between the point 18 of attachment to the case 4 of this lever element 15a, 15b, 15c, 15d and its free end inclusive. For example, this actuation zone 21 can be defined at this free end 16a.
In this configuration, the activation of the push button of the watch 3 case 6 by the lever element 15a, 15b, 15c, 15d is indirect. Indeed, the actuation zone 21 is capable of activating the push button of the watch 3 by coming in contact indirectly with the latter, via the activation zone 22 of the middle 10c.
This activation zone 22 is comprised in the actuation device 19 and is configured to interact with the lever element 15a, 15b, 15c, 15d. Such an activation zone 22 can comprise a sliding member, in particular a push button arranged in the middle 10c and which is capable of coming in contact directly with the push button of the watch 3 as soon as this button is stressed by the actuation zone 21 of the lever element 15a, 15b, 15c, 15d. In one alternative, this activation zone 22 can be a portion of the middle 10c which is capable of being deformed in order to come in contact with the push button of the watch 3.
In reference to
Moreover, it is thus understood that this device 19 for actuating the push button of the watch 3 is activated by the lever element 15a, 15b, 15c, 15d, using the angular movement 13 of the actuation zone 21 comprised on the lever element 15a, 15b, 15c, 15d relative to the activation zone 22 comprised in the middle 10c of the case 4.
It is understood that such an actuation zone 19 allows to improve the use of the Dewar device 1 in particular when the user of this device 1 is not very dexterous with the part of their body that allows them to manipulate it. This lack of dexterity can result from a disability or from the fact that this user is wearing heavy gloves on their hands which prevent them from being precise with their fingers to manipulate this Dewar device 1. In this context, it is noted that such a Dewar device 1 is particularly adapted to a use by astronauts wearing their spacesuit or more generally by users/adventurers in a suit moving in environments in which there are extreme conditions in terms for example of pressure, temperature, humidity, etc.
As mentioned above, the watch 3 case 6 is arranged in the chamber 5 of the case 4 while being maintained distant or at a distance from all of the elements 10a to 10c of this case 4. This remoteness or this distance or this separation is configured using at least one device 7 for fastening the watch 3 case 6 comprised in the case 4. In other words, the fastening device 7 is configured to carry out or maintain a separation between said case 6 and all of the elements 10a, 10b, 10c of the case 4 forming said chamber 5 of this case 4. This fastening device 7 participates in reducing or even in eliminating any thermal conduction between the inner peripheral wall 12 of the middle 10c and/or the back 10b and/or the glass 10a with the watch 3 case 6 in particular with an outer global face of this case 6. This outer global face includes an upper face comprising the glass 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 one another. It is noted that the fastening device 7 is arranged on an inner peripheral wall 12 of the chamber of the case 4. In this configuration the fastening device 7 mechanically connects, in particular in a reversible manner, the watch 3 case 6 to the inner peripheral wall 12 of the chamber of the case 4. Moreover, the Dewar device 1 can comprise two fastening devices 7 arranged in the chamber while being opposite to one another.
It is noted that such a case 6 is comprised in a watch 3 that can be an electronic watch for example a quartz watch, or a mechanical watch.
The mechanical and/or functional components 2 of the watch 3, mentioned above, comprise in a non-limiting and non-exhaustive manner: mechanical elements of the movement such as a balance-spring, wheels, a striking-work mechanism, a dial, hands, rings, joints and/or electronic and/or electric components 2. It is noted in particular that such electronic and/or electric components 2 include for example a display device, a processor, a memory, a component for storing energy, a motor, an integrated circuit and an electronic oscillator, etc.
It is thus understood that in this configuration, this Dewar device 1 has the same properties and characteristics as a Dewar tube/flask well known in the prior art. As mentioned above, the properties and characteristics of this Dewar device 1 participate in conferring onto it good thermal insulation with regard to temperatures, in particular extreme, that can exist in the outside environment in which such a device 1 can be located.
As mentioned, the glass 10a, the middle 10c and the back 10b of this device 1 together define the chamber 5 of this case 4 which is capable of receiving the watch 3 case 6. These three elements 10a to 10c of the case 4 namely the middle 10c, the glass 10a and the back 10b can be distinct elements that are joined together to build this chamber 5. Alternatively, the middle 10c and the back 10b of the case 4 can together form a one-piece part, said one-piece part defining an opening opposite to the back 10b which is capable of being closed by the glass 10a, in a reversible and sealed manner. In one alternative, the middle 10c and the glass 10a of the watch 3 case 4 can together form a one-piece part, said one-piece part defining an opening opposite to the glass 10a which is capable of being closed by the back 10b, also in a reversible and sealed manner.
The middle 10c or the back 10b can also be like the glass 10a transparent elements of the case 4 of the Dewar device 1. In such a configuration, the peripheral wall 12 of the middle 10c and the inner face of the back 10b can be coated with a metallic reflective coating or similar, for example such as a layer of silver.
It is noted however that the middle 10c or the back 10b are preferably made in a non-limiting and non-exhaustive manner from a metal material or from thermosetting or thermoplastic polymer resins reinforced with carbon or glass fibres or from ceramic materials.
In addition, the device 1 can comprise an interferometric filter arranged on an outer global face of the case 4 namely on an outer peripheral wall of the middle 10c and/or outer faces of the glass 10a and of the back 10b of this watch 3 case 6. This interferometric filter can be a grid or a netting forming a coating on this outer global face of the case 4. This grid or netting has a mesh, the dimensions of which are such that they only let certain predetermined wavelengths of the electromagnetic spectrum pass through, typically the wavelengths of the visible range.
Moreover when the device 1 is provided to be used in an environment comprising air, the chamber 5 of the case 4 comprising the watch case 6 is under vacuum or almost under vacuum. In other words, in this chamber, the space defined between this case 6 and the inner peripheral wall 12 of the middle 10c, the back 10b and the glass 10a is empty of material or almost empty. It is noted that when this device 1 is used in an environment devoid of air or substantially devoid, its chamber can not be under vacuum, or on the contrary also be under vacuum or almost under vacuum.
Such a Dewar device 1, the use or the manipulation of which is facilitated via the actuation device, participates in providing the mechanical and/or functional components 2 of the watch 3 with very good thermal insulation with respect to the outside environment by reducing or even by preventing heat loss by radiation of the components arranged in the watch case 6 over a long duration. Thus, when the temperature outside the device 1 reaches extreme values, typically approximately −125 to +125° C., the temperature inside the chamber 5 remains substantially equal to the temperature present in the watch 3 case 6 during its arrangement in the case 4, typically approximately 20° C. It is noted that regardless of the temperature conditions existing in the environment of the Dewar device 1, the temperature present in the watch 3 case 6 is a temperature that does not hinder the proper operation of the watch 3. This temperature is maintained over a duration that is 5 to 18 times greater than the duration for which such a watch 3 case would be capable of preserving an operating temperature of its components 2 while being located directly in such an environment in which there are such in particular extreme temperatures (that is to say while being located outside of the case of the Dewar device). It is thus understood that such a configuration allows to protect the mechanical and/or functional components 2 of the watch 3, as well as to participate in ensuring their operation in an optimal manner in extreme outside temperature conditions.
Number | Date | Country | Kind |
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21180254.1 | Jun 2021 | EP | regional |