Production line for the production of ophthalmic lenses

1 . A method for the automated production of ophthalmic lenses, the method comprising: concurrently producing a plurality of front curve plastic lens molds by injection-molding the front curve plastic lens molds in the production line within a predetermined cycle time of less than ten seconds; concurrently producing a corresponding plurality of base curve plastic lens molds (BCM) by injection-molding the base curve plastic lens molds in the production line within the same predetermined cycle time of less than ten seconds; filling a predetermined amount of a lens-forming material into a predetermined number of the front curve plastic lens molds; placing a corresponding number of base curve plastic lens molds having the same age as the predetermined number of front curve plastic lens molds onto the front curve plastic lens molds containing the lens-forming material to form a corresponding number of closed plastic lens molds containing the lens-forming material; transferring the corresponding number of closed plastic lens molds containing the lens-forming material and placing them onto a lens mold tray; 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; loading the stack of lens mold trays loaded with the plastic lens molds containing the lens-forming material into a heatable chamber of an oven; heating the chamber of the oven to a predetermined temperature to effect curing of the lens-forming material to form cured lenses in the closed plastic lens molds; removing a said stack of lens mold trays loaded with the closed plastic lens molds containing the cured lenses from the chamber; destacking the individual trays from the stack of lens mold trays removed from the chamber for allowing access to the closed plastic molds of each individual lens mold tray; transferring a predetermined number of the closed plastic lens molds containing the cured lenses from a said individual lens mold tray in order for the closed molds being opened and the cured lenses being released; opening the closed lens molds by separating the base curve plastic lens molds and the front curve plastic lens molds from each other; releasing the cured lenses from the base curve plastic lens molds or the front curve plastic lens molds; transferring the released cured lenses to a treatment carrier tray; treating the cured lenses in a plurality of treatment baths to obtain the ophthalmic lenses, each treatment bath of the plurality of treatment baths comprising a treatment liquid selected from the group of water, an organic extraction liquid, a coating liquid, or mixtures thereof; inspecting the ophthalmic lenses; and packaging those ophthalmic lenses that have successfully passed the inspection in primary packaging containers, wherein the method further comprises stacking a plurality of individual treatment carrier trays one above the other to form a stack of treatment carrier trays carrying the cured lenses, and placing the stack of treatment carrier trays carrying the cured lenses into one or more treatment baths of the plurality of treatment baths. 2 . The method according to claim 1 , wherein ophthalmic lenses having different properties are concurrently manufactured in the production line. 3 . The method according to claim 1 , wherein in case the ophthalmic lenses to be manufactured by the production line are different from those presently manufactured by the production line, at least one of the first tooling plate, the second tooling plate, the third tooling plate and the fourth tooling plate is pulled out of the first slot, the second slot, the third slot or the fourth slot, respectively, and at least one of a new first tooling plate, a new second tooling plate, a new third tooling plate and a new fourth tooling plate having optical tool inserts or back pieces mounted to the respective first sleeves, second sleeves, third sleeves and fourth sleeves pre-mounted thereto is slid into at least one of the first slot, the second slot, the third slot and the fourth slot. 4 . The method according to claim 1 , wherein further the toric angle (a) of the base curve plastic molds and the front curve plastic molds relative to each other is verified prior to transferring the corresponding number of closed plastic lens molds containing the lens-forming material and placing them onto a lens mold tray. 5 . The method according to claim 1 , further comprising: placing the stack of treatment carrier trays into a first treatment bath of the plurality of treatment baths for a predetermined period of time; removing the stack of treatment carrier trays from the first treatment bath after the predetermined period of time and lifting the stack of treatment carrier trays to a position above the first treatment bath, and then pivoting the stack about a pivot shaft with the stack still being positioned above the first treatment bath to allow the treatment liquid remaining in the stack to flow back into the first treatment bath, thereafter pivoting the stack back; moving the stack of treatment carrier trays to a second treatment bath of the plurality of treatment baths and placing the stack into the second treatment bath, or moving the stack of treatment carrier trays to an ophthalmic lens transfer station and destacking the individual treatment carrier trays and transferring the ophthalmic lenses contained in an individual treatment carrier tray into inspection cuvettes for inspection of the ophthalmic lenses, one said ophthalmic lens into one cuvette. 6 . A production line for the production of ophthalmic lenses, the production line comprising: a production line front end comprising: a first injection-molding machine configured to produce a plurality of front curve plastic lens molds; a second injection-molding machine configured to produce a corresponding plurality of base curve plastic lens molds; a casting module comprising: a filling station, a capping station configured to place a corresponding number of the base curve plastic lens molds on the front curve plastic lens molds to form closed plastic lens molds, and a first transfer robot configured to transfer the closed plastic lens molds from the casting module to a stacking module comprising: a plurality of lens mold trays, each lens mold tray configured to comprise a plurality of the closed plastic lens molds transferred by the first transfer robot, and a stacking robot for stacking the plurality of lens mold trays configured to provide a stack of lens mold trays; and a curing module comprising: a plurality of ovens, and a stack handling robot, wherein the ovens of the plurality of ovens each comprises a heatable chamber sized to accommodate the stack of lens mold trays carrying the closed plastic lens molds. 7 . The production line of claim 6 , further comprising a destacking module comprising a destacking robot. 8 . The production line of claim 6 , further comprising a second transfer robot configured to transfer a plurality of the closed plastic lens molds from the individual lens mold tray. 9 . The production line of claim 6 , further comprising a demolding and delensing module. 10 . The production line of claim 9 , wherein the demolding and delensing module comprises: a demolding station configured to open the closed plastic lens molds by separating the base curve plastic lens molds and the front curve plastic lens molds from each other, and a delensing station. 11 . The production line of claim 6 , wherein: the first injection-molding machine comprises a first tool half and a second tool half, the first tool half and the second