READING DEVICE FOR AN APPARATUS WITH GLASS OR SCREEN

Abstract

A crystal/glass or screen of an apparatus intended to display an information visible to a user includes on its outer surface a transparent protective film with a convex outer surface, constituting a lens in order to facilitate reading. The transparent protective film constituting a lens is a layer (2) of transparent sapphire glass material having an anti-scratch surface. This layer (2) includes a convex outer surface forming a lens and an inner surface carrying a transparent repositionable glue film (4) by which said layer (2) can be removably glued to the outer surface of the crystal or of the screen (1).

Claims

1. A crystal/glass or screen of an apparatus for displaying an information visible to a user, the crystal or the screen including on its outer surface a transparent protective film including an outer surface with a convex area constituting a lens in order to facilitate reading, the transparent protective film constituting a lens is a layer (2) of material including a convex outer surface and an inner surface carrying a transparent repositionable glue film (4) by which said layer(2)is removably glued to the outer surface of the crystal or the screen (1). Characterized in that a first layer (1) of material constituting the surface of the crystal or the screen is formed of a polycarbonate with a thickness comprised between 0.2 mm and 2 mm, typically 0.8 to 1.2 mm, said layer (2) with a convex outer surface is a second layer formed of a transparent sapphire glass having an anti-scratch surface and is superimposed on the first layer (1) thanks to positioning means (8) in which the second sapphire glass layer (2) has a maximum thickness including the convex area comprised between 0.2 and 2 mm, for example 0.4 mm and 1.2 mm, typically 0.5 and 0.6 mm, the positioning means (8) for facilitating the positioning of the second layer of material (2) on the first layer of material (1) including a protuberance or a groove, arranged on the outer or inner periphery of the first material (1) so that these positioning means (8) surround all or part of the second layer of material (2) that covers the first layer of material (1).

2. The crystal or screen according to claim 1, wherein the first layer of material (1), the second layer of material (2) and the repositionable glue film (4), once stacked, have a thickness comprised between 0.8 mm and 5 mm, typically 2 mm.

3. The crystal or screen according to claim 1, wherein the positioning means (8) include a notch formed in the first layer (1) of material.

4. The crystal or screen according to claim 3, wherein said notch constitutes an outer peripheral protuberance of the first layer (1) of material.

5. The crystal or screen according to claim 1, wherein the first layer (1) of material and/or the second layer (2) of material have an antireflection treatment to optical radiation in the visible wavelength range.

6. The crystal or screen according to claim 1, wherein the lens is a converging lens including a vergence comprised between 0.25 and 4 diopters, typically 2.

7. A wristwatch including a crystal according to claim 1.

8. A smartphone including a screen according to claim 1.

9. A tablet, interactive terminal, game console, bancomat or a touch table including a screen according to claim 1.

10. A lens of a crystal or a screen according to claim 1, the lens including a transparent sapphire glass layer, with a maximum thickness comprised between 0.2 and 2 mm, for example 0.4 mm and 1.2 mm, typically 0.5 and 0.6 mm, having an anti-scratch surface on a first face, a second opposite face carrying a transparent repositionable glue film (4) by which the lens is removably gluable on the outer surface of the crystal or the screen.

11. The lens according to claim 10, including a transparent sapphire glass layer.

12. The lens according to claim 10, including a diopter comprised between 0.5 diopter and 4 diopters, typically 2.

13. A set of lenses according to claim 12, wherein the diopter of each lens of the set has a value comprised between 0.5 and 4 diopters.

Description

[0029] The characteristics of the invention will appear more clearly upon reading the description of several embodiments given only by way of example, in no way restrictive, with reference to the schematic figures, in which:

[0030] FIG. 1 shows a sectional view of a stack of layers of materials according to the present invention;

[0031] FIG. 2 shows a sectional view of a system mounted on an apparatus including a screen;

[0032] FIG. 3 shows a side view of a wristwatch in which a removable crystal including a repositionable glue is disposed to be arranged on a crystal of the watch; and

[0033] FIG. 4 shows a perspective view of a smartphone including a system according to the present invention.

[0034] In the embodiment illustrated in FIG. 1, the crystal/glass of an apparatus intended to display an information visible to a user includes on its outer surface a transparent protective film with a convex outer surface, constituting a lens having a value for example of two diopters in order to facilitate the reading. The transparent protective film constituting a lens is a layer 2 of reconstituted transparent sapphire glass material, having an anti-scratch surface. This layer 2 includes a convex outer surface and an inner surface carrying a transparent repositionable glue film 4 by which the layer 2 is removably glued to the outer surface of a layer 1 of unbreakable transparent plastic polymer material, here a polycarbonate, arranged to be mounted on an apparatus so that a first face is arranged on the information side and a second face on the user side. The second layer 2 of transparent sapphire glass material is superimposed on the first layer 1 thanks to positioning means 8 in the form of a peripheral protuberance. The second sapphire glass layer 2 constitutes the transparent film constituting the lens. The repositionable glue film 4 is arranged on the inner face of the layer 2 of transparent sapphire glass so that the layer 2 of sapphire glass with the repositionable glue 4 can be removed without breaking the sealing of said apparatus.

[0035] In the example of FIG. 1, the convex area of the layer 2 extends to the periphery thereof. In non-illustrated variants, the layer 2 has a convex central area surrounded by a flat peripheral area having a constant thickness.

[0036] As illustrated in FIG. 2, the screen of the present invention is arranged so as to be incorporated into an apparatus 7 without denaturing it. The apparatus 7 comprises sealing means 3 in the form of a welding of the peripheral end of the first polycarbonate layer 1 on the outer periphery of the apparatus 7. Positioning means 8 surround the sapphire glass lens having a value of about two diopters which covers the first layer 1 of polycarbonate. A transparent repositionable glue film 4 is deposited on the inner face of the second transparent sapphire glass layer 2, so that the second layer 2 of material with the repositionable glue 4 can be removed without breaking the sealing of said apparatus 7 while adapting the sapphire glass lens to the eyesight of the user.

[0037] In the example illustrated in FIG. 3, a wristwatch 5 includes a watch crystal according to the present invention. The removable watch crystal made of transparent sapphire glass in the form of a magnifier allows not only enlarging the display present on the watch dial, but also, at each change of lens, the sealing of the wristwatch is preserved. Thus, the sapphire glass lens provides an enlargement of the information and an anti-scratch protection of the wristwatch 5 intended to display the time through the crystal. In this example, the first layer 1 of material is made of an unbreakable transparent polycarbonate. The polycarbonate layer 1 is arranged on the wristwatch 5 so that a first face is arranged on the dial side of the wristwatch 5 and a second face on the user side. Polycarbonate is a material widely used in the timepiece field, in particular for its robustness, despite its sensitivity to scratches. A second transparent sapphire glass layer 2 having an anti-scratch surface is ready to be arranged on the polycarbonate layer 1 mounted on the wristwatch 5. The sapphire glass lens has a value for example of two diopters. The transparent sapphire glass lens carries a repositionable glue film 4 arranged on the inner face of the transparent sapphire glass lens. Thus, the layer 2 of sapphire glass with the repositionable glue 4 can be superimposed on the first polycarbonate layer 1 arranged on the wristwatch 5 and if necessary, for example in case of breakage of the sapphire glass layer 2, or in case of adaptation of the sapphire lens to the eyesight of another user, the sapphire glass layer 2 can be removed without breaking the sealing of the wristwatch 5. A watch bezel provides a means for positioning 8 the sapphire crystal, the watch bezel being arranged on the outer periphery of the polycarbonate 1 so that these sealing means 3 surround the polycarbonate layer 1 and will never be broken in case of change of the sapphire crystal.

[0038] In a non-illustrated variant, the sapphire glass is contained in a notch of the crystal, which housing is hollowed either in the bezel of the casing, or directly in its middle.

[0039] In this example, the stack of the layers of polycarbonates, sapphire glass and of the repositionable glue represent a thickness of 2.6 mm. The polycarbonate has a thickness of 1 mm and the sapphire glass a thickness of 0.55 mm.

[0040] Regarding smartphones, the screen is by far the most frequently broken element even if it is a reinforced glass. Sapphire is more robust and more scratch-resistant than glass.

[0041] As illustrated in FIG. 4, a smartphone 6 includes a touch screen. This touch screen is composed of a first layer 1 of unbreakable transparent plastic polymer material, here a polycarbonate, the first layer 1 being arranged on the smartphone 6 so that a first face is arranged on the information side and a second face on the user side. A transparent protective film constituting a lens is a layer 2 of transparent sapphire glass material, having an anti-scratch surface. This lens includes a convex outer surface and an inner surface carrying a transparent repositionable glue film 4 by which the lens, having a value of about two diopters, can be removably glued to the outer surface of the screen. This lens is ready to be superimposed on the first layer 1 thanks to the transparent repositionable glue film 4 arranged on the inner face of the transparent sapphire glass lens.

[0042] In this example, the repositionable glue is compatible with the support on which it is coated on the one hand, herein a sapphire glass, and the support on which it is glued in a repositionable manner, herein a polycarbonate.

[0043] According to FIG. 4, a notch 3 in the casing of the smartphone 6 constitutes an outer peripheral protuberance of the polycarbonate layer 1 for an easier positioning of the layer 2 forming the lens.

[0044] In this example, the first layer of material 1 and the second layer of material 2 have an antireflection treatment to optical radiation in the visible wavelength range. The second layer 2 of material is a substantially monocrystalline aluminum oxide, more specifically a synthetic sapphire having an anti-scratch surface on a first face, a second opposite face including a repositionable glue film 4.

[0045] According to the present invention, the creation of a sandwich including a polycarbonate layer, a synthetic sapphire layer in the form of a lens with a repositionable invisible binder, allows the sealing of the apparatus to never be impacted in case of breakage of the sapphire glass layer. Thus, the broken sapphire glass layer can be removed, the apparatus remaining functional and sealed until a new layer of repositionable sapphire glass is placed. Thus, a scratch-resistant surface state is obtained, and in case of shock on the crystal, the polycarbonate layer does not break and therefore protects the inside of the apparatus against dust and moisture while waiting for replacement. The sapphire glass lens can be adapted to the eyesight of a user. The user can choose, himself, the lens having a diopter adapted to his vision.

[0046] Finally, an apparatus including a crystal or a screen according to the invention can accompany a user throughout his life by adapting to the evolution of his eyesight by means of the interchangeable lens, while preserving the eyesight of the user on the one hand and the sealing of the apparatus on the other hand.