A Dewar device (1) for mechanical and/or functional components (2) of a watch (3), the device (1) being provided with a bracelet and a casing (4) including an enclosure (5) in which a case (6) of the watch (3) is capable of being arranged and at least one fastening device (7) fastening the case (6) of the watch (3) inside the enclosure (5) of the casing (4) while keeping it away from the set of elements (10a, 10b, 10c) of the casing (4) defining this enclosure (5), the set (10a, 10b, 10c) including at least one transparent external element (10a) made of a transparent ceramic material, in particular a transparent polycrystalline ceramic material.

A method for manufacturing a sapphire single-crystal, including melting alumina and/or sapphire in a crucible, and bringing the molten alumina and/or sapphire in contact with a monocrystalline sapphire seed to make the molten alumina and/or sapphire crystallise progressively according to a growth direction to form the sapphire single-crystal. The monocrystalline sapphire seed has a rhombohedral crystallographic structure defining three crystallographic axes [A], [C] and [M] perpendicular to each other and respectively perpendicular to the crystallographic planes. The monocrystalline sapphire seed is a plate delimited by two planar faces which extend parallel to and at a distance from each other, is obtained from an initial sapphire single-crystal which is cut so that one of the crystallographic axes of the monocrystalline sapphire plate forms with a normal to the planar faces of the monocrystalline sapphire plate an angle whose value is comprised between 5 and 85°.

A watch external part of the present invention is equipped with a substrate and a coating formed using an aerosol deposition method. The coating is selectively provided at a portion of a site observable in a state with the watch external part incorporated in a watch. The substrate is made of a material including one type or two or more types selected from a group consisting of sapphire glass, quartz, and plastic. The watch external part is further equipped with a ground layer having at least one layer between the substrate and the coating.

The invention relates to a watch glass (1) comprising an near field communication (NFC) module (3) which comprises at least one microcircuit (3.2) connected to an antenna (3.1). The invention also relates to a watch (2) equipped with such a glass (1). The invention also relates to a method of producing such a watch glass (1).

A display system includes a watch having a watch face; and an intelligent display system. The display system includes a display panel, a selectively opaque panel, a memory having programming instructions, and a controller in communication with the display panel and the selectively opaque panel, and the memory. The display system is operable in each of: (a) display mode wherein the display panel is actuated by the controller to display image content, and at least a portion of the selectively opaque panel is opaque; (b) a transparent mode wherein the display panel does not display image content, the selectively opaque panel is substantially transparent, and the watch face is substantially visible; and (c) an augmented reality mode wherein the display panel is actuated by the controller to display image content, and the selectively opaque panel is substantially transparent, the watch face being substantially visible behind the display system.

The invention concerns an apparatus including a crystal or a screen in which the crystal or the screen is arranged to ensure sealing and an anti-scratch protection of said apparatus which is intended to display an information visible to a user through the crystal or the screen. The apparatus includes a first material layer (1) made of an unbreakable transparent plastic polymer fastened on the apparatus in a tight manner, and a second material layer (2) made of a transparent glass, superimposed on the first layer (1) and constituting the outer portion of the crystal or the screen of the apparatus. The second material layer (2) made of a transparent glass includes, carried by its inner face, a transparent repositionable glue film (4), this repositionable glue film (4) ensuring the repositionable adherence of the second material layer (2) on the first material layer (1), whereas the second material layer (2) with its repositionable glue film (4) can be removed so as to be able to be replaced by another second material layer (2) provided with a transparent repositionable glue film (4), without breaking the sealing of said apparatus ensured by the first material layer (1) which remains permanently fastened on said apparatus.

A method for marking a sapphire watch crystal, through the interaction between a laser beam and the sapphire. The beam is focused on a point inside the crystal and the interaction is such that it produces a rectilinear opaque area, which is parallel to the upper surface of the crystal or perpendicular to the surface. The orientation of the opaque area depends on the mode of operation applied. According to the hatching mode of operation, the beam is scanned along one or more linear paths, producing opaque lines inside the crystal, which are parallel to the upper surface. The perforation mode of operation produces distinct opaque areas, obtained by discontinuous operation of the beam on a number of juxtaposed points. According to this latter mode of operation, the opaque areas extend in the direction perpendicular to the upper surface of the crystal.

An external part component (10) of a watch, of a fashion item or of a jewellery item, including a substrate (11) made of a transparent material, the substrate (11) including an upper face (110) opposite to a lower face (111), the external part component (10) including a base layer (12) deposited over a first portion (1101) of the upper face (110) and at least one secondary layer (13) deposited over the base layer (12) and over a second portion (1102) of the upper face (110), the first and second portions (1101, 1102) of the upper face (110) having different surface conditions.

A method for marking a product (1) with a photoluminescent mark, said mark comprising a photoluminescent portion (10) which is transparent under normal light conditions and revealed by photoluminescence under UV illumination, said mark further comprising a non photoluminescent portion (9) which is transparent under normal light conditions as well s under UV illumination, said method comprising: deposing on said product a stack, said stack comprising alternatively layers (2,4) such as AlN, with a thickness of less than 1 micron and layers (3) of a second material, such as GaN with a thickness of less than 10 nm; raising the transparency of said non photoluminescent portion (10) with a deposition of transparent material (6) or incorporation of ions into said non photoluminescent portions.

A timepiece including: a dial; a windshield glass having a plurality of curved surfaces that differ from each other in curvature; and a hand disposed between the dial and the windshield glass, wherein the windshield glass includes: a first curved surface having a first curvature and including a center of the windshield glass; a second curved surface disposed adjacent to the first curved surface and having a second curvature larger than the first curvature; and a third curved surface disposed adjacent to the second curved surface and having a third curvature larger than the second curvature, a thickness of the first curved surface and a thickness of the second curved surface are equal, and in plan view, a distal end of the hand is disposed on a center C side of the windshield glass with respect to a boundary between the second curved surface and the third curved surface.