Device and method for forming a functional film intended to be laminated on an optical article

The invention claimed is: 1. A film structure comprising: a carrier layer; a counter-force liner; at least one functional film disposed in between said carrier layer and said counter-force liner in a predetermined receiving area; a first adhesive layer that fastens the at least one functional film within the predetermined receiving area onto the carrier layer; and a second adhesive layer that fastens the at least one functional film within the predetermined receiving area onto the counter-force liner, wherein the carrier layer and the counter-force liner are larger than the functional film, and the counter-force liner is attached to and in direct contact with the carrier layer, at least on a portion of a zone outside the predetermined receiving area on at least two opposite sides of the predetermined receiving area. 2. The film structure of claim 1 , wherein the counter-force liner is more flexible than the carrier layer. 3. The film structure of claim 1 , further comprising a carrier-side sliding layer that is positioned in between said carrier layer and said functional film, said carrier-side sliding layer being configured to enable a positioning float of the functional film with respect to the carrier layer. 4. The film structure of claim 1 , further comprising a liner-side sliding layer configured to enable a positioning float of the functional film with respect to the counter-force liner, the liner-side sliding layer being disposed in between said counter force layer and said functional film, either in contact with the counter-force liner or in contact with a layer fastened to the counter-force liner. 5. The film structure of claim 4 , further comprising a third adhesive layer between the functional film and the liner-side sliding layer. 6. The film structure of claim 4 , wherein the liner-side sliding layer is an optical grade material and is configured to be laminated onto an optical article to fasten the functional film to said optical article. 7. The film structure of claim 1 , wherein the counter-force liner is configured to be in contact with the carrier layer for substantially each zone of the counter-force liner which is not in contact with the functional film or which is not in the receiving area. 8. The film structure of claim 7 , further comprising a gas venting system configured to enable gas that is present in the vicinity of the receiving area, in between the carrier layer and the counter-force liner, to exhaust at least partially out of said vicinity. 9. A machine for forming a functional film of the film structure according to claim 1 , the machine comprising: a pressurizing system; and a holding device configured to hold the film structure, wherein the pressurizing system and the holding device are configured to, when the film structure is held at a periphery thereof outside the functional film, apply a pressure difference on the carrier layer to inflate the carrier layer towards the counter-force liner, so that the functional film pushes onto the counter-force liner, while said counter-force liner applies a counter-force onto said functional film. 10. An optical device comprising an optical article; a functional film layer of the film structure according to claim 1 , wherein said functional film layer is arranged on a receiving face of the optical article. 11. A method for forming a functional film for lamination on an optical article, said method comprising the following steps: providing a film structure comprising at least a functional film, a carrier layer, and a counter-force liner, said functional film being in between said carrier layer and said counter-force liner, in a receiving area, the carrier layer and the counter-force liner being larger than the functional film, the counter-force liner being fastened, directly or indirectly, to the carrier layer at least on a portion of a zone outside the receiving area on at least two opposite sides of the receiving area; and forming the functional film by applying a pressure on the carrier layer to inflate the carrier layer towards the counter-force liner, the counter-force liner applying a counter-force to the functional film. 12. The film structure of claim 2 , further comprising a carrier-side sliding layer that is positioned in between said carrier layer and said functional film, said carrier-side sliding layer being configured to enable a positioning float of the functional film with respect to the carrier layer. 13. The film structure of claim 2 , further comprising a liner-side sliding layer configured to enable a positioning float of the functional film with respect to the counter-force liner, the liner-side sliding layer being disposed in between said counter force layer and said functional film, either in contact with the counter-force liner or in contact with a layer fastened to the counter-force liner. 14. The film structure of claim 1 , wherein the counter-force liner has a contact area with the functional film, said contact area being planar before forming the functional film. 15. The film structure of claim 1 , wherein the counter-force liner has a contact area with the carrier layer, said contact area being planar before forming the functional film. 16. The method of claim 11 , wherein the forming step is a thermoforming step that further comprises heating the carrier layer, the functional film, and the counter-force liner. 17. The method of claim 11 , further comprising, after forming the functional film, detaching the counter-force liner from the functional film and the carrier layer. 18. The method of claim 17 , wherein, after forming the functional film, the functional film is attached to the optical article by an adhesive layer.