Production line for the production of ophthalmic lenses

The invention claimed is: 1 . An automated production line for the production of ophthalmic lenses, the production line comprising: a production line front end comprising: a first injection-molding machine arranged in the production line and configured to concurrently produce a plurality of front curve plastic lens molds (FCM) within a predetermined cycle time of less than ten seconds; a second injection-molding machine arranged in the production line and configured to concurrently produce a corresponding plurality of base curve plastic lens molds (BCM) within the same predetermined cycle time of less than ten seconds; a casting module comprising a filling station configured to dose a predetermined amount of lens-forming material into a predetermined number of the front curve plastic lens molds (FCM), a capping station configured to place a corresponding number of the base curve plastic lens molds (BCM) having the same age as the predetermined number of front curve plastic lens molds (FCM) on the predetermined number of front curve plastic lens molds (FCM) containing the predetermined amount of lens-forming material, to form a corresponding number of closed plastic lens molds (BCM/FCM) containing the lens-forming material; a first transfer robot configured to transfer the corresponding number of closed plastic lens molds (BCM/FCM) containing the lens-forming material from the casting module to a stacking module comprising a plurality of lens mold trays, each lens mold tray configured for being loaded with a multiple of the corresponding number of closed plastic lens molds (BCM/FCM) transferred by the first transfer robot and containing the lens-forming material, a stacking robot for stacking a plurality of lens mold trays loaded with the closed plastic lens molds containing the lens-forming material to form a stack of lens mold trays; a curing module comprising a plurality of ovens, a stack handling robot, wherein each individual oven of the plurality of ovens comprises a heatable chamber sized to accommodate a said stack of lens mold trays carrying the closed plastic lens molds (BCM/FCM) as well as a door for opening and closing the chamber, to allow the stack handling robot to load a said stack of lens mold trays loaded with the closed plastic lens molds (BCM/FCM) containing the lens-forming material into the heatable chamber when the door is open, to allow the heatable chamber to be heated to a predetermined temperature to effect curing of the lens-forming material to form cured lenses (CL) in the closed plastic lens molds on the individual lens mold trays of the stack when the door is closed, and to allow the stack handling robot to remove a said stack of lens mold trays loaded with the closed plastic lens molds (BCM/FCM) containing the cured lenses (CL) from the chamber when the door is open again, and; a destacking module comprising a destacking robot configured to destack the individual lens mold trays from the stack of lens mold trays removed from the chamber of a said oven for allowing access to the closed plastic molds (BCM/FCM) of each individual lens mold tray; a second transfer robot configured to transfer a predetermined number of the closed plastic lens molds (BCM/FCM) containing the cured lenses (CL) from a said individual lens mold tray to a demolding and delensing module comprising a demolding station configured to open the predetermined number of closed plastic lens molds (BCM/FCM) by separating the base curve plastic lens molds (BCM) and the front curve plastic lens molds (FCM) from each other, with the cured lenses adhering either to the base curve plastic lens molds (BCM) or to the front curve plastic lens molds (FCM), a delensing station configured to release the cured lenses (CL) from the base curve plastic lens molds (BCM) or from the front curve plastic lens molds (FCM), a transfer gripper (TG 2 ) configured to transfer the cured lenses (CL) released from the delensing station to a treatment carrier tray; a production line back end comprising: a treatment module for a liquid bath treatment of the cured lenses (CL) carried by the treatment carrier tray to obtain the ophthalmic lenses; an inspection module for the inspection of the ophthalmic lenses, the inspection module comprising: a closed-loop rail a plurality of self-driving shuttles arranged on the closed-loop rail, each self-driving shuttle carrying a plurality of inspection cuvettes arranged thereon; a plurality of inspection stations arranged along the closed-loop rail; and a primary packaging module for packaging those ophthalmic lenses that have successfully passed the inspection in primary packaging containers. 2 . The production line according to claim 1 , wherein the first injection-molding machine comprises a first tool half and a second tool half, the first tool half and the second tool half being movably arranged relative to one another between a closed position for injection-molding of the front curve plastic molds (FCM) and an open position for removal of the molded front curve plastic molds (FCM), wherein the first tool half comprises a first tooling plate to which a plurality of individual first sleeves are pre-mounted, each of the individual first sleeves having an individual optical tool insert mounted thereto that determines the shape of a concave optical front surface of the front curve plastic lens mold (FCM) formed by the individual optical tool insert, and wherein the second tool half comprises a second tooling plate to which a plurality of individual second sleeves are pre-mounted, each of the individual second sleeves having an individual back piece insert mounted thereto that determines the shape of a convex back surface of the front curve plastic lens mold (FCM) formed by the individual back piece insert, wherein the first tool half further comprises a first slot accommodating the first tooling plate, the first slot allowing to mount the first tooling plate by sliding the first tooling plate into the first slot and then fixing the first tooling plate, and allowing to demount the first tooling plate by unfixing the first tooling plate and then pulling the first tooling plate out of the first slot, and wherein the second tool half further comprises a second slot accommodating the second tooling plate, the second slot allowing to mount the second tooling plate by sliding the second tooling plate into the second slot and then fixing the second tooling plate, and allowing to demount the second tooling plate by unfixing the second tooling plate and then pulling the second tooling plate out of the second slot; and wherein the second injection-molding machine comprises a third tool half and a fourth tool half, the third tool half and the fourth tool half being movably arranged relative to one another between a closed position for injection-molding of the base curve plastic lens molds (BCM) and an open position for removal of the molded base curve plastic lens molds (BCM), wherein the third tool half comprises a third tooling plate to which a plurality of individual third sleeves are pre-mounted, each of the individual third sleeves having an individual optical tool insert mounted thereto that determines the shape of a convex optical front surface of the base curve plastic lens mold formed by the individual optical tool insert, and wherein the fourth tool half comprises a fourth tooling plate to which a plurality of individual fourth sleeves are pre-mounted, each of the individual fourth sleeves having an individual back piece insert mounted thereto that determines the shape of the concave back surface of the base curve plastic lens mold formed by the individual back piece insert, wherein the third tool half further comprises a third slot accommodating the third tooling plate, the third slot allowing to mount the third tooling plate by