Method of fabricating a liquid crystal display device and a liquid crystal display device

The invention claimed is: 1. A method of fabricating a liquid crystal display device comprising a reflective or transflective liquid crystal cell including liquid crystal molecules aligned in a planar or vertical manner, said liquid crystal cell being formed of a transparent front substrate located on the side of an observer, and a transparent rear substrate which extends beneath, parallel to, and at a distance from the front substrate, the front and rear substrates being joined to each other with a sealing frame which defines a sealed enclosure in which a liquid crystal composition is confined, the front and rear substrates being coated on opposite faces thereof with electrically conductive transparent electrodes and counter-electrodes, optical properties of the liquid crystal composition being modified by application of an electric field at a point of intersection between an electrode and a corresponding counter-electrode, the liquid crystal display device being provided with a reflective polarizing film arranged to absorb a first component of light which enters the liquid crystal cell through the front substrate, and to reflect a second component of light polarized in a direction orthogonal to that of the first component, the method comprising: embossing the reflective polarizing film to impart thereto a shape visible to the observer through the front substrate of the liquid crystal cell, depositing a transparent levelling layer in hollows on an upper face of the reflective polarizing film, an upper face of the levelling layer being parallel to an underside of the rear substrate, applying an adhesive layer to the upper face of the levelling layer, the adhesive layer being parallel to the underside of the rear substrate and the upper face of the levelling layer, and securing the reflective polarizing film to the underside of the rear substrate by securing the adhesive layer to the underside of the rear substrate. 2. The fabrication method according to claim 1 , wherein the reflective polarizing film is embossed by being pressed against a mould having relief shapes corresponding to shapes desired to be imprinted on said reflective polarizing film. 3. The fabrication method according to claim 2 , wherein the reflective polarizing film is pressed against the relief mould by creating an air vacuum. 4. The fabrication method according to claim 2 , wherein said reflective polarizing film is heated when the reflective polarizing film is pressed against the relief mould. 5. The fabrication method according to claim 3 , wherein said reflective polarizing film is heated when the reflective polarizing film is pressed against the relief mould. 6. The fabrication method according to claim 1 , wherein the reflective polarizing film is embossed by insert injection moulding. 7. The fabrication method according to claim 1 , wherein the adhesive layer is formed of an optically transparent adhesive being a pressure sensitive film. 8. The fabrication method according to claim 7 , wherein the optically transparent adhesive is partially diffusive. 9. The fabrication method according to claim 1 , wherein another transparent levelling layer is deposited on a back of the reflective polarizing film. 10. The fabrication method according to claim 1 , wherein the transparent levelling layer is a photopolymerizable resin. 11. The fabrication method according to claim 10 , wherein the transparent levelling layer is polymerized by ultraviolet radiation. 12. The fabrication method according to claim 1 , wherein, before being embossed, the upper face of the reflective polarizing film is provided with a diffusion layer in order to create an at least partially diffuse reflection. 13. The fabrication method according to claim 1 , wherein the reflective polarizing film comprises a reflective polarizer combined with an at least partially absorbent background layer arranged on a back of the reflective polarizer. 14. The fabrication method according to claim 13 , wherein the at least partially absorbent background layer is black or coloured. 15. The fabrication method according to claim 14 , wherein the black or coloured background layer is an ink layer or a laminated film applied to the back of the reflective polarizer, either before a shaping of said reflective polarizer, so that said black or coloured background layer is shaped at a same time as the reflective polarizer, or after the shaping of the reflective polarizer. 16. The fabrication method according to claim 13 , wherein, when the background layer is partially absorbent, a backlight device is arranged underneath said background layer. 17. The fabrication method according to claim 14 , wherein, when the background layer is partially absorbent, a backlight device is arranged underneath said background layer. 18. The fabrication method according to claim 15 , wherein, when the background layer is partially absorbent, a backlight device is arranged underneath said background layer. 19. The fabrication method according to claim 1 , wherein the reflective polarizing film comprises a reflective polarizer combined with an absorbent polarizer which is bonded to a back of the reflective polarizer, an assembly of the two reflective and absorbent polarizers being embossed simultaneously. 20. The fabrication method according to claim 1 , wherein the reflective polarizing film comprises an absorbent polarizer combined with an at least partially reflective reflector arranged underneath the absorbent polarizer. 21. The fabrication method according to claim 20 , wherein the reflector is metallic. 22. The fabrication method according to claim 20 , wherein, when the reflector is partially reflective, a backlight device is arranged underneath the reflective polarizing film. 23. A liquid crystal display device comprising: a reflective or transflective liquid crystal cell including liquid crystal molecules aligned in a planar or vertical manner, said liquid crystal cell being formed of a transparent front substrate located on the side of an observer, and a transparent rear substrate which extends beneath, parallel to, and at a distance from the front substrate, said two front and rear substrates being joined to each other with a sealing frame which defines a sealed enclosure in which a liquid crystal composition is confined, the front and rear substrates being coated on opposite faces thereof with electrically conductive transparent electrodes and counter-electrodes, optical properties of the liquid crystal composition being modified by application of an electric field at a point of intersection between an electrode and a corresponding counter-electrode, the liquid crystal display device being provided with a reflective polarizing film to absorb a first component of light which enters the liquid crystal cell through the front substrate, and to reflect a second component of light polarized in a direction orthogonal to that of the first component, wherein the reflective polarizing film includes relief portions visible to an observer through the front substrate of the liquid crystal cell, wherein a transparent levelling layer is provided in hollows on an upper face of the reflective polarizing film, an upper face of the levelling layer being parallel to an underside of the rear substrate, wherein an adhesive layer is provided on the upper face of the levelling layer, the adhesive layer being parallel to the underside of the rear substrate and the upper face of the level