A system and a method for processing of optical lenses in which the processing takes place using different processing apparatus between which there is a respective transfer apparatus. The transfer apparatus are used both for longitudinal and also cross conveyance. Each processing apparatus has its own conveyor apparatus which is controlled by the processing apparatus itself. The transfer apparatus are controlled by a central transfer control.

An automated production line for the production of ophthalmic lenses comprises: a production line front end (1) comprising: a first injection-molding machine (10) and a second injection-molding machine (12) a casting module (14) comprising a filling station (144) and a capping station (145); a stacking module (15) and a curing module (16); a destacking module (17) and a demolding and delensing module a production line back end (2) comprising: a scalable treatment module (20) comprising a number of liquid baths for a liquid bath treatment of the cured lenses (CL) carried by the treatment carrier tray (200) to obtain the ophthalmic lenses, wherein the number of liquid baths are reduced or increased pending on the number of ophthalmic lenses concurrently produced by the production lines.

A container (1) for accommodating an ophthalmic lens during a lens treatment process has a longitudinal axis (11) and comprises as separate elements a containment element (2), a mounting element (3), and a retaining element (4). The containment element (2) comprises a tubular section (21) and a bottom (22) arranged at a distal end of the tubular section (21), the bottom (22) protruding convexly towards the outside at the distal end of the tubular section (21) and being provided with a number of apertures (23, 24), the tubular section (21) at a proximal end (25) thereof having a latch (26) protruding from the proximal end (25) of the tubular section (21) towards the mounting element (3). The mounting element (3) comprises a sidewall (31) extending along the longitudinal axis (11) of the container (1), the sidewall (31) being provided with recesses or orifices (32) which are in engagement with the latch (26) of the containment element (2). The mounting element (3) further comprises an access opening (37) arranged at a proximal end of the mounting element (3) remote from the containment element (2). The retaining element (4) is fixedly arranged in between the containment element (2) and the mounting element (3), the retaining element (4) being configured to prevent the ophthalmic lens from being washed out of the containment element (2) and to permit access for a gripper through the access opening (37) of the mounting element (3) into the containment element (2) for insertion and removal of the ophthalmic lens.

A method of removing a liquid from a container (1) for accommodating an ophthalmic contact lens, in particular a soft contact lens, during transporting the container (1) from a liquid bath (13) to a subsequent processing station (14), the method including the steps of: transporting the container (1) from the liquid bath to the subsequent processing station, generating suction (20), and applying the suction (20) to a bottom (11) of the container (1) during the step of transporting the container (1) from the liquid bath to the subsequent processing station, thereby removing the liquid from the container (1).

A container (1) for accommodating an ophthalmic lens during a lens treatment process has a longitudinal axis (11) and comprises as separate elements a containment element (2), a mounting element (3), and a retaining element (4). The containment element (2) comprises a tubular section (21) and a bottom (22) arranged at a distal end of the tubular section (21), the bottom (22) protruding convexly towards the outside at the distal end of the tubular section (21) and being provided with a number of apertures (23, 24), the tubular section (21) at a proximal end (25) thereof having a latch (26) protruding from the proximal end (25) of the tubular section (21) towards the mounting element (3). The mounting element (3) comprises a sidewall (31) extending along the longitudinal axis (11) of the container (1), the sidewall (31) being provided with recesses or orifices (32) which are in engagement with the latch (26) of the containment element (2). The mounting element (3) further comprises an access opening (37) arranged at a proximal end of the mounting element (3) remote from the containment element (2). The retaining element (4) is fixedly arranged in between the containment element (2) and the mounting element (3), the retaining element (4) being configured to prevent the ophthalmic lens from being washed out of the containment element (2) and to permit access for a gripper through the access opening (37) of the mounting element (3) into the containment element (2) for insertion and removal of the ophthalmic lens.

An automated production line for the production of ophthalmic lenses comprises: a production line front end (1) comprising: a first injection-molding machine (10) and a second injection-molding machine (12) a casting module (14) comprising a filling station (144) and a capping station (145); a stacking module (15) and a curing module (16); a destacking module (17) and a demolding and delensing module a production line back end (2) comprising: a scalable treatment module (20) comprising a number of liquid baths for a liquid bath treatment of the cured lenses (CL) carried by the treatment carrier tray (200) to obtain the ophthalmic lenses, wherein the number of liquid baths are reduced or increased pending on the number of ophthalmic lenses concurrently produced by the production lines.

An automated production line for the production of ophthalmic lenses comprises: a production line front end (1) comprising: a first injection-molding machine (10) and a second injection-molding machine (12) a casting module (14) comprising a filling station (144) and a capping station (145); a stacking module (15) and a curing module (16); a destacking module (17) and a demolding and delensing module a production line back end (2) comprising: a treatment module (20), an inspection module (21), wherein the production line has the easy adaptability of curing times and temperatures, and in the capability of using different treatment liquids and treatment times in the extraction module to achieve the product flexibility.

An automated production line for the production of ophthalmic lenses comprises: a production line front end (1) comprising: a first injection-molding machine (10) and a second injection-molding machine (12) a casting module (14) comprising a filling station (144) and a capping station (145); a stacking module (15) and a curing module (16); a destacking module (17) and a demolding and delensing module a production line back end (2) comprising: a treatment module (20), an inspection module (21),
wherein the production line has the easy adaptability of curing times and temperatures, and in the capability of using different treatment liquids and treatment times in the extraction module to achieve the product flexibility.

An automated production line for the production of ophthalmic lenses comprises: a production line front end (1) comprising: a first injection-molding machine (10) and a second injection-molding machine (12) a casting module (14) comprising a filling station (144) and a capping station (145); a stacking module (15) and a curing module (16); a destacking module (17) and a demolding and delensing module a production line back end (2) comprising: a scalable treatment module (20); an inspection module (21); a primary packaging module (22), Wherein the first and second injection-molding machines allow for a quick exchange of the tooling plates used in the injection molding machine without the need to decrease the temperature of the injection molding machine by pre-configured tooling plates.