Systems and methods for producing silicone hydrogel contact lenses from a polymerizable composition
First Claim
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1. A method of producing silicone hydrogel contact lenses, comprising:
- placing a plurality of contact lens mold assemblies, each assembly comprising a silicone hydrogel lens precursor composition, between a first light source and a second light source located in a housing of a curing system, the curing system further comprising a carrier movable in a chamber defined by the housing and configured to carry the plurality of contact lens mold assemblies, the first light source located in the housing spaced apart from and generally facing a first side of the carrier for providing light effective to facilitate polymerization of the precursor composition in the plurality of contact lens mold assemblies, the second light source located in the housing spaced apart from and generally facing a substantially opposing second side of the carrier for providing light effective to facilitate polymerization of the precursor composition in the plurality of contact lens mold assemblies, a first substantially planar optical surface spaced apart from the plurality of contact lens mold assemblies and positioned in the housing to provide a substantially uniform intensity of light from the first light source over the contact lens mold assemblies positioned substantially perpendicular to a length of the chamber, a second substantially planar optical surface spaced apart from the plurality of contact lens mold assemblies and positioned in the housing to provide a substantially uniform intensity of light from the second light source over the contact lens mold assemblies positioned substantially perpendicular to the length of the chamber; and
exposing the plurality of contact lens mold assemblies carried by the carrier to ultraviolet light at an ultraviolet light intensity effective in forming polymerized silicone hydrogel contact lenses, wherein the ultraviolet light intensity varies from about 5% to about 30% from an average light intensity value during the exposure.
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Abstract
Systems and methods of manufacturing ophthalmic lenses, for example, silicone hydrogel contact lenses, are provided. The present systems and methods provide certain amounts of ultraviolet light to contact lens mold assemblies that comprise a silicone hydrogel precursor composition. For example, the systems and methods may provide ultraviolet light at an intensity from 20 μW/cm2 to 4000 μW/cm2. The ultraviolet light intensity can be provided as substantially uniform levels to provide consistent curing for batches of silicone hydrogel contact lenses.
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Citations
21 Claims
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1. A method of producing silicone hydrogel contact lenses, comprising:
placing a plurality of contact lens mold assemblies, each assembly comprising a silicone hydrogel lens precursor composition, between a first light source and a second light source located in a housing of a curing system, the curing system further comprising a carrier movable in a chamber defined by the housing and configured to carry the plurality of contact lens mold assemblies, the first light source located in the housing spaced apart from and generally facing a first side of the carrier for providing light effective to facilitate polymerization of the precursor composition in the plurality of contact lens mold assemblies, the second light source located in the housing spaced apart from and generally facing a substantially opposing second side of the carrier for providing light effective to facilitate polymerization of the precursor composition in the plurality of contact lens mold assemblies, a first substantially planar optical surface spaced apart from the plurality of contact lens mold assemblies and positioned in the housing to provide a substantially uniform intensity of light from the first light source over the contact lens mold assemblies positioned substantially perpendicular to a length of the chamber, a second substantially planar optical surface spaced apart from the plurality of contact lens mold assemblies and positioned in the housing to provide a substantially uniform intensity of light from the second light source over the contact lens mold assemblies positioned substantially perpendicular to the length of the chamber; and
exposing the plurality of contact lens mold assemblies carried by the carrier to ultraviolet light at an ultraviolet light intensity effective in forming polymerized silicone hydrogel contact lenses, wherein the ultraviolet light intensity varies from about 5% to about 30% from an average light intensity value during the exposure.- View Dependent Claims (2, 3, 4, 5, 6, 7, 21)
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8. A method of producing a silicone hydrogel contact lens, comprising:
placing a contact lens mold assembly, comprising a silicone hydrogel lens precursor composition, between a first light source located in a light station of a housing of a curing system and a second light source located in the light station of the housing of the curing system so that an upper surface of the contact lens mold assembly is exposed to light from the first light source and a bottom surface of the contact lens mold assembly is exposed to light from the second light source, the light station comprising a first substantially planar optical surface located so that the first light source is between the upper surface of the contact lens mold assembly and the first optical surface, and a second substantially planar optical surface located so that the second light source is between the bottom surface of the contact lens mold assembly and the second optical surface, the first optical surface and the second optical surface positioned and structured to achieve at least one of (a) compensating for a natural loss in light source intensity near an end of the first or second light source, (b) reducing reflection of light from the first light source by a surface behind the second light source, (c) reducing reflection of light from the second light source by a surface behind the first light source, and (d) providing a substantially even light intensity distribution over at least one of the upper surface of the contact lens mold assembly and the bottom surface of the contact lens mold assembly without regard to how many contact lens mold assemblies are present in the light station or where the contact lens mold assembly is located in the light station, and exposing the contact lens mold assembly to ultraviolet light at an ultraviolet light intensity effective in forming a polymerized silicone hydrogel contact lens, wherein at least one of the first light source and the second light source has an illumination intensity which varies from about 5% to about 30% from an average illumination intensity during the exposing. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16)
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17. A method of producing a silicone hydrogel contact lens, comprising:
placing a contact lens mold assembly comprising a silicone hydrogel lens precursor composition, between a first light source located in a light station of a housing of a curing system and a second light source located in the light station of the housing of the curing system so that an upper surface of the contact lens mold assembly is exposed to light from the first light source and a bottom surface of the contact lens mold assembly is exposed to light from the second light source, the light station comprising one or more substantially planar optical surfaces having a reflectivity between 0% and 30%, wherein the first or second light source is located between the upper surface of the contact lens mold assembly or the bottom surface of the contact lens mold assembly, respectively, and one of the substantial planar optical surfaces; and
exposing the contact lens mold assembly to ultraviolet light at an ultraviolet light intensity effective in forming a polymerized silicone hydrogel contact lens, wherein the ultraviolet light intensity varies from about 5% to about 30% from an average light intensity value during the exposure.- View Dependent Claims (18, 19, 20)
Specification