Roll coating process and apparatus

The invention claimed is: 1. A roll coating process for applying a coating layer on a non-continuous sheet, the method comprising the steps of: (a) positioning the sheet relative to a rotatable applicator roll and an opposed backing roll such that the applicator roll is located above a top surface of the sheet; (b) supplying a liquid coating composition to an application surface of the applicator roll; and (c) applying the liquid coating composition to the top surface of the sheet by transporting the sheet horizontally between the applicator roll and the backing roll with a coated sheet forwarder and rotating the applicator roll so as to transfer the liquid coating composition from the application surface of the applicator roll onto the top surface of the sheet to form a top-coated sheet; wherein step (c) comprises the steps of: (i) interrupting the forwarding of the top-coated sheet by the coated sheet forwarder by stopping the top-coated sheet after a trailing edge of the sheet passes the application surface of the applicator roll, (ii) maintaining a meniscus of liquid coating composition between the trailing edge of the sheet and the application surface of the applicator roll when the sheet is stopped and the applicator roll continues to rotate, and (iii) restarting forwarding of the top-coated coated sheet by the coated sheet forwarder when the meniscus has disappeared between the trailing edge of the sheet and the application surface of the applicator roll. 2. The roll coating process according to claim 1 , wherein the sheet is rectangular. 3. The roll coating process according to claim 1 , wherein the sheet is a transparent glass plate. 4. The roll coating process according to claim 1 , wherein the process is a forward roll coating process. 5. The roll coating process according to claim 1 , wherein the applicator roll has a surface layer made from an elastomeric material. 6. The roll coating process according to claim 1 , wherein the applicator roll has a surface engraved structure. 7. The roll coating process according to claim 6 , wherein the surface engraved structure of the applicator roll comprises V-shaped grooves. 8. The roll coating process according to claim 1 , wherein the process comprises applying the liquid coating composition to the application surface of the applicator roll with a dosing device. 9. The roll coating process according to claim 5 , wherein step (c) comprises interrupting the forwarding of the top-coated sheet by the coated sheet forwarder at a position such that the sheet does not deform the surface of the application surface of the applicator roll. 10. The roll coating process according to claim 1 , wherein step (c) comprises interrupting the forwarding of the coated sheet by the coated sheet forwarder after the trailing edge of the top-coated sheet passes the applicator roll and simultaneously upwardly moving the applicator roll. 11. The roll coating process according to claim 1 , wherein the process applies an optical coating layer onto the top surface of the sheet. 12. A method for making an anti-reflective coated transparent substrate comprising the steps of applying a coating layer of a liquid anti-reflective coating composition to the substrate with the roll coating process according to claim 1 , and drying and curing the applied coating layer. 13. A roll coating process for applying a coating layer on a non-continuous sheet, the method comprising the steps of: (a) positioning the sheet relative in a gap between a deformable application surface of a rotatable applicator roll and an opposed backing roll such that the applicator roll is located above a top surface of the sheet with the deformable application surface layer thereof in contact with the top surface of the sheet such that the deformable application surface is deformed by the contact with the top surface of the sheet; (b) supplying a liquid coating composition to the deformable application surface of the applicator roll; and (c) applying the liquid coating composition to the top surface of the sheet by transporting the sheet horizontally between the applicator roll and the backing roll with a coated sheet forwarder while maintaining the deformable contact between the deformable application surface layer of the applicator roll and the top surface of the sheet and rotating the applicator roll so as to transfer the liquid coating composition from the deformable application surface of the applicator roll onto the top surface of the sheet to form a top-coated sheet; wherein step (c) comprises the steps of: (i) interrupting the forwarding of the top-coated sheet by the coated sheet forwarder by stopping the top-coated sheet after a trailing edge of the sheet passes the deformable application surface of the applicator roll such that the deformable application surface of the applicator roll is no longer deformed by the trailing edge of the sheet, (ii) maintaining a meniscus of liquid coating composition between the trailing edge of the sheet and the deformable application surface of the applicator roll when the sheet is stopped and the applicator roll continues to rotate, and (iii) restarting forwarding of the top-coated coated sheet by the coated sheet forwarder when the meniscus has disappeared between the trailing edge of the sheet and the deformable application surface of the applicator roll. 14. The roll coating process according to claim 13 , wherein the deformable surface layer of the applicator roll is made from an elastomeric material. 15. The roll coating process according to claim 13 , wherein step (c) comprises interrupting the forwarding of the coated sheet by the coated sheet forwarder after the trailing edge of the top-coated sheet passes the applicator roll and upwardly moving the applicator roll. 16. The roll coating process according to claim 15 , wherein the applicator roll is upwardly moved relative to the top-coated sheet either sequentially after or simultaneously with the stopping of the top-coated sheet. 17. The roll coating process according to claim 13 , wherein after stopping the top-coated sheet such that the deformable application surface of the applicator roll is no longer deformed by the trailing edge of the top-coated sheet, the process comprising moving the top-coated sheet backwards towards the deformable application surface. 18. The roll coating process according to claim 17 , wherein the top-coated sheet is stopped at a position so as to cause the meniscus to disappear between the trailing edge of the top-coated sheet and the deformable application layer of the applicator roll, and wherein moving the trailing edge of the top-coated sheet backwards towards the deformable application layer of the applicator roll causes the meniscus to reform therebetween.