TH64214B - Photochromic products - Google Patents

Abstract

DC60 (06/02/47) This invention describes an optical product. Photochromic ophthalmic such as lenses, whose products include (1) clear substrates such as sulstrates, thermosets or thermoplastic plastics, (2) ) multi-layer splicing plate attached to at least one surface of the substrate, wherein such splice shall consist of (i) a thermoplastic film. clear polyurethane The thermoplastic polyurethane film provides the desired light filtering properties, such as photochromism, and is positioned next to the substrate surface. Rethane is molded from polyurethane-based materials, polyether or polyurethane-based polycarbonate, and (ii) transparent protective films. of polymeric materials such as polycarbonate films attached to thermoplastic polyurethane films. mentioned above in which there are abrasion resistant coatings that are attached to the protective film, such as organo-silane abrasion resistant coatings; and optical products with a coating that anti-reflection It is also attached to abrasion-resistant coatings. This invention describes an optical product. Photochromic ophthalmic such as lenses, the product includes: (1) transparent substrates such as thermoset or thermoplastic plastic substrates, (2) ) multi-layer splicing plate attached to at least one surface of the substrate, wherein such splice shall consist of (i) a thermoplastic film. clear polyurethane The thermoplastic polyurethane film provides the desired light filtering properties, such as photochromism, and is positioned next to the substrate surface. Rethane is molded from polyurethane-based materials, polyether or polyurethane-based polycarbonate, and (ii) transparent protective films. of polymeric materials such as polycarbonate films attached to thermoplastic polyurethane films. mentioned above in which there are abrasion resistant coatings that are attached to the protective film, such as organo-silane abrasion resistant coatings; and optical products with a coating that anti-reflection Also adheres to abrasion resistant coatings:

Claims (5)

Disclaimer (all) which will not appear on the advertisement page: Revised 8/9/2017 1. Photochromic product. Importantly, it contains: (a) a transparent solid substrate. Which has a front surface And the back surface, where such substrates were prepared from selected constituents from the polymerized allyl glycol carbonate monomer, poured Thermoplastic Polycarbonate, polyurea urethane, a component containing the product of the reaction of Poly-functional isocyanates and polythyol monomers, compositions containing Products of the reaction of poly-functional isocyanates and polyepisulfide monomers, optical quality mineral glass. (B) Photochromic transparent thermoplastic polyurethane film. Attached to at least One surface of the substrate, in which the polyurethane film has (i) thickness 2 to 15 mm, (ii) bend modulus less than 2.5 GPa, and (iii). It is molded from polyurethane material that has been Choose from polyurethane-based polyurethane, polyurethane-based Polycarbonate And a mixture of such polyurethane materials, the aforementioned polyurethane film Contains at least one photochromic organic material. Which can be dissolved in film Polyurethane, and (c) transparent protective films of organic polymer materials. The thermoplastic type is classified. Placed on top of a polyurethane film, the aforementioned photochromic material shows (1) a change in color when exposed to stimulate ultraviolet light radiation, and (2) the half-life of fading. Of color (T1 / 2) not more than 500 s when the violet rate light rays are removed. ----------------------------------------------- (original) EDIT 27/03/2017 1. Photochromic products Importantly, it contains: (a) a transparent solid substrate. Frontal And the back surface, where such substrates were prepared from selected constituents from the polymerized allyl glycol carbonate monomer group, poured Thermoplastic polycarbonate, polyurea urethane, composition containing Product of isocide reaction Poly Functional and Polythylol Monomer, Product Composition Of the reaction of poly-function isocyanate and polyepisulfide monomer, optical quality mineral glass And a combination of them (b) thermoplastic film Photochromic clear polyurethane Attached to At least one surface of the substrate, where the polyurethane film has (i) thickness 2 to 15 mm, (ii) the bend modulus less than 2,5 GPa, And (iii) is molded from polyurethane material that has been selected from Polyurethane-based polyurethane, polyurethane-based polycarbonate And mixtures of such polyurethane materials The aforementioned polyurethane film contains at least one photochromic organic material. It can dissolve in polyurethane films, and (c) transparent protective films of organic polymer materials. Cheap thermoplastic type Placed on top of a polyurethane film, the aforementioned photochromic material shows (1) a change in color. When exposed to stimulate ultraviolet light radiation, and (2) the half-life of Color fading (T1 / 2) Not more than 500 s when ultraviolet light is removed 2. Product of claim 1 where the protective film of organic polymer material The thermoplastic type is selected from nylon, poly (vinyl acetate), vinyl chloride-vinyl acetate copolymer, poly (lower alkyl ) Acrylate, poly (lower alkyl) methacrylate, styrene-butadiene copolymer resin, polyurea urethane , Slightly cross-linked thermoplastic polyurethane and thermoplastic materials. Polycarbonate 3. Product of claim 1, where the protective film of the polymer material has a thickness of 1 to 20 mil 4. Product of claim 1, where the resistant coating is Attrition Was placed Above the aforementioned protective film 5. Products of claim 4 where abrasive-resistant coatings Selected from the substance Poly-functional hard acrylic coating Melamine-based hard coatings, urethane-based hard coatings, alkyd-based hard coatings, silica-sol-based hard coatings 6. Product of claim 5 where abrasive-resistant coatings consist of organo-silane or abrasion-resistant coatings. Hard coatings based on silica-sol 7. Products of claim 4 where anti-reflective coatings are placed. On top of such abrasion-resistant coating, 8. Products of claim 1, where a polarizing film that penetrates ultraviolet light is inserted between the thermoplastic film. Photochromic polyurethane and protective film of thermoplastic polymer organic materials 9. Product of claim 1 where photochromic organic materials A is selected from benzoxacene, naphthooxacene, spiro (indolino), pyridobenzoxene, benzopyran, naphthopyran, spiro-9. - fluorino [1,2-b] pyran, phenanthropyran, quinopyran, naphthopyran fused with indino, fulguide, metal. Aldithysonate, Falkimide And mixtures of polypropylene materials 1 0. Product of claim 9 where photochromic organic material contains (a) at least one photochromic organic material. With a visible lambda-max from 400 to less than 550 nm, and (b) at least one photochromic organic material with a vibble lambda-max. From 550 to 700 nm 1 1. Product of claim 1, in which polarizing film does not emit light radiation. Ultraviolet permeability It is inserted between a solid transparent substrate and a photochromic thermoplastic polyurethane film 1 2. The product of claim 1 where the photochromic organic material Chromic is contained in polyurethane films. Content in quantity from 0.2 to 20 percent by weight 1 3. Product of claim 1 where product is optical product 1 4. product of claim 13 where optical product L is a lens with a refractive index from 1.48 to 1.90 1 5. Photochromic product of claim 2 where the product is an optical product and where the photochromic material Chromic is present in polyurethane films in volumes from 0.2 to 10 percent by weight 1. 6. Optical product of claim 15, where the product is a lens with a refractive index of The light from 1.48 to 1.75, and the polymer protective film thickness from 1 to 20 mil and the bend modulus from 0.1 to 5 GPa 1. 7. Photochromic products used. Ocular Importantly, it consists of: (a) a solid optical polymer substrate with a front surface and a back surface, in which the optical substrate The solid optical was prepared from a component selected from a group containing polyurea urethane, the product of the reaction of Poly-functional isocyanates and polythyol monomers, iso-reaction products Poly-functional cyanates And polyepisulfide monomers, and a combination of them (b) thermoplastic film Photochromic clear polyurethane Adjacent to one surface Of the substrate, the polyurethane film has (i) at least 80% light transmittance, (ii) a bend modulus of less than 2.5 GPa, (iii) thickness. From 2 to 15 mils, and (iv) are formed from Polyurethane materials containing polyurethane based on polyether, polyurethane on Polycarbonate basis And a mixture of such polyurethane materials, polyurethane film It also contains the photochromic content of at least one photochromic organic material. A type which can be dissolved in a polyurethane film, and (c) a thermoplastic transparent protective film of a polymer organic material placed on top of a polyurethane film. As mentioned, such polymer protective film has a light transmittance of at least 80%, thickness from 1 to 20 mil and a bend modulus from 0.5 to 3 GPa, photo products. Eye chromatic Show color changes When revealed for It stimulates ultraviolet light radiation, and the half-life of fading (T1 / 2) is not more than 500 s when ultraviolet light is removed. Of claim 17, where the substrate is a lens with a refractive index from 1.48 to 1.75 1. 9. Ophthalmic product of claim 18 where the lens is a flat lens, a lens One-sided view, multi-focus lens, or semi-finished single-view lens 2 0. Eye products. Of claim 17 where photochromic organic materials Is selected from benzoxazine, naphthooxazine, spiro (indolino) -pyridobenzoxene, benzopyran, naphthopyran, spiro-9- Fluorino [1,2-b] pyran, phenanthropyran, quinopyran, naphthopyran fused with indino, fulguide, falki. Mides, metal dithiosonates, and their mixtures of photochromic materials. 2 1. The ophthalmic product of claim 20 where the photochromic organic material may be used as a material. Mormigme In the amount of 0.2 to 20 percent by weight 2 2. Products used on eyes Of claim 20 where the protective film consists of nylon, poly (vinyl acetate), vinyl chloride-vinyl acetate copolymer, poly (lower L Kyl) acrylate, poly (lower alkyl) methacrylate, styrene-butadiene copolymer resin, polyurea urea Methane, slightly cross-linked thermoplastic polyurethane. And thermoplastic Polycarbonate 2 3. Eye products Of claim 17 where abrasion-resistant coatings are Placed on top of a protective polymer film. 2 4. Eye products. Of claim 23 where abrasion-resistant coatings consist of poly-functional acrylic hard coatings, melamine-based hard coatings, hard coatings based on Urethane basis, alkyd-based hard coatings, silica-sol-based hard coatings And hard coatings, types of organo - silane 2 5. Products used on eyes Of claim 17, where the film for polarization that light rays Ultraviolet permeable Is inserted between polyurethane films And protective film, thermoelectric type Plastic of organic polymer material 2 6. Photochromic optical lens of claim 16, where: (a) the lens substrate has a refractive index. Of light from 1.50 to 1.67, the substrate has a convex surface And concave surfaces, and lens substrates That was prepared from the elements Were selected from a group consisting of allyl glycol carbonate, polymerized monomer, thermoplastic Polycarbonate, a substrate prepared from polyurea urethane, and a combination of them, (b) thermoplastic film. Photochromic clear polyurethane is bonded to a surface that The convexity of the lens substrate, and (c) a thermoplastic transparent protective film of the organic polymer material, thickness from 5 to 10 mm. 2 7. Photochro-type lenses. Mick of claim 26 where photochromic organic materials are available in amounts from 0.3 to 5% by weight, photochromic organic materials contain: Naphthooxene, Spiro (Indolino) Pyridobenzoxene, Naphthopyran, Spiro-9-Fluorino [1.2-b] pyran, phenanthropyran, naphthopyran fused with indino and a mixture of such photochromic materials. And a protective film that is polymer Was composed of nylon, polyurea urethane, thermoplastic. Lightly cross-linked polyurethane and thermoplastic materials. Polycarbonate 2. 8. Photochromic lenses of claim 27, where each lens substrate and protective film consist of. Thermoplastic material Polycarbonate 2. 9. Photochromic lenses of claim 27 where the protective film of the polymer material has a melting temperature of more than 120 ํ, a transmittance value of more than 80%. , Modulus of curvature from 0.5 to 3 GPa, and higher abrasion resistance than polyurethane film 3 0. Photochromic lenses of claim 27 where the coating That is resistant to abrasion Attached to a protective polymer film And abrasion-resistant coatings Are selected from coatings consisting of hard coatings, organo-silane type And hard coatings based on silica sol 3 1. Photochromic lenses of claim 30, where the anti-reflective coating is 3 2. Optical product of claim 14 where optical products are photochromic lenses with High index where: (a) Optical substrate, a solid transparent polymer having a refractive index of at least 1.60, which substrate is prepared from Elements selected from a group Containing polyurea urethane, products of polyfunction isocyanate inactivity and polythiol monomer, products of poly isocyanate inactivity Polyfunctional and polyepisulfide monomers, and their combination of them (b) thermoplastic film Photochromic clear polyurethane Attached to the surface At least one side of the lens is said, and (c) such optical lens which is absolutely free from refraction 3 3. Lens of claim 32 where the polyurethane film is 0.3 to 5 percent by weight Of at least one photochromic organic material Containing naphthooxacene, spiro (indolino), pyridobenzoxine, naphthopyran, spiro-9-fluorino [1,2-b]. Pyran, phenanthropyran, naphthypiran fused with indino And a mixture of this photochromic material, and the polymer protective film is from 5 to 10 mil thick and consists of nylon, polyurea urethane, Thermoplastic Slightly crosslinked polyurethane and polycarbonate thermoplastic 3 4. Lens of claim 33 where the abrasion resistant coating is attached to the The polymer protective film, and abrasion resistant coatings are selected from the resistant coatings. To abrasion type organo-silane And hard coatings based on silica-sol 3 5. Lens of claim 34 where the anti-reflective coating is attached. And abrasive-resistant coatings. 3 6. Photochromic optical products It consists of: (a) Polyurea optical substrate. Transparent solid urethane with front surface And the back surface; (b) thermoplastic film Photochromic clear polyurethane Attached to At least one surface of the optical substrate, the polyurethane film has (i) 2 to 15 mil thickness, (ii) the bending modulus less than 2.5 GPa. , And (iii) are molded from polyurethane materials that It consists of polyurethane based on polyurethane, polyurethane based on polycarbonate and a mixture of such polyurethane materials. The polyurethane film also contains 0.2 to 10% by weight of at least photochromic organic materials. One type that can dissolve in polyurethane film, photochromic material is selected from naphthooxacene, spiro (indolino) pyridobenzaxine, n Pathophyran, Spiro-9-Fluorino [1,2-b] Piran, phenanthropyran, naphthopyran fused with indino, and of Mix of the aforementioned photochromic materials; And (c) a transparent thermoplastic protective film of the organic polymer material is placed on the said polyurethane, polymer protective film. It has a bending modulus of 0.1 to 5 GPa, the polymer protective film. Is selected from nylon, poly (vinyl acetate), vinyl chloride-vinyl acetate copolymer, poly (lower alkyl) acrylate, Poly (lower alkyl) methacrylate, styrene-butadiene copolymer resin, polyurea urethane, thermoplastic Lightly cross-linked polyurethane and thermoplastic materials. Polycarbonate, the photochromic material used in the eye, shows (1) a change in color. When revealed for Ultraviolet radiation stimulates, and (2) the half-life of the color fading (T1 / 2) is not more than 500 s when the ultraviolet light is removed. 3 7. Optical product of the claim. 36 where the polymer protective film is thermoplastic Polycarbonate ------------------------------ 1. Product which is made up of: (a) solid substrate, clear Frontal And the back surface, (b) thermoplastic film Clear polyurethane Attached With at least one surface Of such optical substrates The polyurethane film has a curvature modulus less than 2.5 GPa. The polyurethane film is provided with at least one of the required optical filtration properties. Such as for the aforementioned optical products And was formed from Selected polyurethane material from the polyurethane on the floor. Polyurethane bases, polyurethane based on polycarbonate and their mixtures of polyurethane materials, and (c) a transparent protective film of the polymer material. Organized Placed on top 2. The product of claim 1, where the substrate is selected from a thermoset-type substrate prepared from a compound that is Can be polymerized It consists of an allyl glycol carbonate monomer, a substrate prepared from a thermoplastic polycarbonate, a substrate prepared from a polyurea u. Rethane, a substrate prepared from a mixture consisting of a product of a poly-functional isocyanate reaction and a polythylol or polyepisulfide monomer. And substrates that It is prepared from optical quality mineral glass. 3. The product of claim No. 1, whose properties are Secondary light is selected from Solidification, polarization of light And photometric 4.Product of claim No. 1, which the protective film of Polymer material It is chosen from nylon, poly (vinyl acetate), vinyl chloride-vinyl acetate copolymer, poly (lower alkyl) acrylate. , Poly (lower alkyl) methacrylate, styrene-butadiene copolymer resin, polyurea urethane, thermoplastic Lightly cross-linked polyurethane plastic and thermoplastic materials. Polycarbonate 5. The optical product of claim No. 1, in which polyurethane and protective film of each polymer material has a thickness of 1 to 20 mil. 6.The optical product of claim 1, which is supplemented by Abrasion resistant coating Placed Above the said protective film 7. Products of Clause 6, where abrasion-resistant coatings are selected from Poly-Functional Acrylic Hard Coatings, Melamine-Based Hard Coatings, Urethane-based Hard Coatings, L-based Hard Coatings Think, hard coatings based on silica sol and organo-silane hard coatings 8. Products of Clause 7 where abrasive-resistant coatings consist of resistant coatings. Abrasion type Organo-silane or hard coatings based on silica-sol 9. Product of Clause 6, which is supplemented by With an anti-reflective coating placed on top Such abrasion-resistant coatings 1 0. Products of claim 3, in which the photometric properties, and photochromism properties are classified. Provided by photochromic organic materials At least one type: 1. Products of Clause 10, in which organic materials The photochromic type is selected. From benzoxamine, naphthoxacene, spiro (indolino), pyridobenzoxene, benzopyran, napporan, spiro-9-fluoride Nopiran, phenanthropyran, quinopyran, fused naphthopyran with indino, fulguide, metal dithysonate, falcium and Mixture of material type This photochromic 1 2. Product of Clause 11 in which organic materials Photochromic type consists of (a) photochromic organic materials. At least one of a kind Containing 400 to less than 550 nm visibles, lambda max, and (b) photocatalytic organic materials. At least one chromic with a visible lambgamax from 550 to 700nm 1 3. The product of Clause 10, which is supplemented by Fill with additives At least one of a kind That was selected from the desiccant Swallows ultraviolet light, amine impeded light stabilizer, oxidizing agent oxanilide, single oxygen binder. In conjunction with photochromic organic materials 1 4. Product of Clause 10, which organic materials Photochromic type is made Homogeneous distribution Throughout the polyurethane film 1 5. Products of claim No. 10, which organic materials Photochromic types are present in Polyurethane film in the amount of 0.2 to 20 percent by weight 1. 6. Products of claim No. 1, where the product is an optical product 1. 7. Optical product of the wrist. RIGHTS 16. Optical products are lenses with a refractive index from 1.48 to 1.90 1. 8. Optical products. It consists of: (a) a solid optical substrate with a front surface and a back surface. The optical substrates were selected from a thermoset-type substrate prepared from a polymerized compound. Consisting of an allyl glycol carbonate monomer, a substrate prepared from Thermoplastic Polycarbonate, a substrate prepared from polyurea urethane, a substrate prepared from a mixture consisting of products of the reaction of Polyfunctional isocyanates and polythyol or polyepisulfide momentum, and substrates prepared from optically quality mineral glass. Optical, (b) thermoplastic film At least photochromic transparent polyurethane. One surface of such optical substrates, where such polyurethane film is from 0.2 to 10% by weight of at least one photochromic organic material. type The polyurethane film has a curvature modulus less than 2.5 GPa and is molded from polyurethane material that is selected from the polyurethane on top. Polyurethane basis, polyurethane based on polycarbonate and a mixture of such polyurethane material, and (c) a transparent protective film of a polymer material. The tors are placed on top. Such polyurethane film Which protective film Such polymers are chosen from nylon, poly (vinyl acetate), vinyl chloride-vinyl acetate copolymer, poly (lower Alkyl) acrylate, poly (lower alkyl) methacrylate, styrene-butadiene copolymer resin, polyurea Polyurethane, slightly cross-linked thermoplastic polyurethane and thermoplastic materials. Polycarbonate 1 9. Optical Product of Clause 18, in which the optical substrate is a lens with a refractive index from 1.48 to 1.75. Photochromic polyurethane has a thickness of 2 to 15 mil and a bend modulus less than 1.0 GPa, and the polymer protective film has a thickness from 1 to 20 mm and the flexural modulus from 1.0 to 5 GPa 2 0. Photochromic products used in the eye, consisting of: (a) poly substrates. A clear solid optical model with front and back surfaces. Which the optical substrates The solids were selected from a thermoset substrate prepared from a compound capable of Polymerization can Consisting of an allyl glycol carbonate monomer, a substrate prepared from Thermoplastic Polycarbonate, a polyurea urethane substrate, a substrate prepared from a mixture consisting of products of a poly isocyanate reaction. Function and polythylol or polyepisulfide memory, (b) thermoplastic film. Transparent polyurethane adheres to one surface of the substrate where such polyurethane film has at least 80% light transmittance, flexural modulus. Less than 1.0 GPa, thickness from 1 to 20 mil, and being molded From polyurethane material That are selected from the polyurethane on Polyurethane-based polyurethane, polyurethane based on polycarbonate and their blends of polyurethane materials, with the addition of a number of such polyurethane films. Photochromic of at least one photochromic organic material, and (c) a thermoplastic transparent protective film of the polymer-based material being placed. Above such polyurethane film. The protective film of such a polymer has a light transmittance of at least 80%, thickness from 1 to 20 mm and a curvature modulus from 0.5 to 3 GPa. Regarding the eye of claim 20, where the substrate is a lens with a refractive index from 1.48 to 1.75 2 2.Ophthalmic product of claim 21, where the lens is a flat lens, Single-view lens, multi-focal lens, aspheric lens, aspheric multi-focus lens, or single-view lens Semi-finished type 2. 3. Ophthalmic product of claim 22, in which allyl glycol carbonate monomer is diethylene glycolbis (alliclcarbonate). 2 4. The ophthalmic product of Clause 20, in which photochromic organic materials are selected from benzoxazine, naphthoxacene, spiro (indolino). - Pyridobenzoxazine, Benzopyran, Napporan, Spiro-9-Fluorinopyran, Phenanthropyran, Quinopyran, Naphtho Pyran fused with indino, falguide, listening to kimode, metal dithysonate, and photochromic mixtures. 2 5. Ocular Products of Clause 24, Which Organic Materials Photochromic will be in the amount from 0.2 to 20 percent by weight 2. 6. The ophthalmic product of claim 20, in which the protective film is selected from nylon, poly (vinyl acetate T), vinyl chloride-vinyl acetate copolymer, poly (lower alkyl) acrylate, poly (lower alkyl) methacrylate Rylate, Styrene-butadiene copolymer resin, polyurea urethane, slightly cross-linked thermoplastic polyurethane and poured Thermoplastic Polycarbonate 2 7. Ophthalmic product of claim 20, in which resistant coatings An abrasion is placed on top of the film. Polymer protective coatings 2. 8. Eye-based products of claim 27, where abrasion-resistant coatings are selected from a group consisting of polycrystalline hard coatings. Lee function, melamine-based hard coatings, hard coatings that Based on urethane, alkyd-based hard coatings, silica sol-based hard coatings and organo-silane 2 coatings. With the eye of claim No. 20, where polyurethane-forming materials Transparent thermoplastic polyurethane films are additionally composed of a small amount of polyurethane based on polyester 3 0. Optical lenses. Photochromic type It is made up of: (a) a solid transparent optical lent substrate with a refractive index of 1.50 to 1.67, of which the substrate has a The convex surface and the surface that It is concave, and is selected from a thermoset-type substrate prepared from a polymerization-able mixture. Consisting of an allyl glycol carbonate monomer, a prepared substrate From thermoplastic Polycarbonate, and a substrate prepared from polyurea urethane, (b) thermoplastic film. Photochromic clear polyurethane bonded to a surface that Convex outside of the lens substrate The aforementioned polyurethane film has a thickness of 2 to 5 mil, a bend modulus less than 1.0 GPa. At least one photoromic organic material, and is molded from polyurethane materials. That are selected from the polyurethane On the basis of polyether, polyurethane-based Polycarbonate And a mixture of such polyurethane materials, and (c) a thermoplastic transparent protective film of a polyurethane material. More that was stuck. With polyurethane film Which protective film They are available in thicknesses from 5 to 10 mil. 3 1. Photochromic lenses of claim 30, where the polyurethane material forms a thermoplastic polyurethane film. Photochromic transparent rethane It is additionally composed of a small amount of polyurethane based on polyesters 3. 2. Photochromic lenses of claim No. 30, in which the photochromic organic material is used as a material. Chromic Are present in an amount from 0.3 to 5 percent by weight, photochromic organic materials are selected from naphthoxacene, spiro (indolino), pyridobenzoxine, Naphthopyran, Spiro-9-Fluoropyran, Phenanthropyran, Fused Naphthopyran, Indino and Mixture of Photocatalytic Materials This chromic, and polymer protective film are selected from nylon, polyurea urethane, slightly cross-linked thermoplastic polyurethane. 3. Polycarbonate thermoplastic materials 3. Photochromic lenses of claim 32, each of which consists of a lens substrate and protective film. Thermoplastic polyurethane material 3 4. Photochromic lens of claim 32, in which the protective film of the polymer material has a melt temperature of more than 120 °. H, light transmittance greater than 80%, flexural modulus from 0.5 to 3 GPa, and more abrasion resistance than polyurethane film. 3. 5. Photochro-type lenses. Mick of claim 32, which abrasive-resistant coatings It is attached to a polymer protective film and abrasion-resistant coating. It is selected from a coating consisting of an organo-silane hard coating and a hard coating on Basics of silica sol 3 6. Photochromic lenses of claim 35, in which anti-reflective coatings are attached to the substance. Abrasion-resistant coating 3 7. A high-index photochromic optical lens, which is combined with: (a) a polar optical substrate. A clear, hard polymer with a front surface. And the back surface and the refractive index of at least 1.60; (b) thermoplastic film Photochromic clear polyurethane that is attached to the surface At least one side of the lens says the polyurethane film is 1 to 20 mil thick, the bend modulus less than 2.5 GPa, and is molded from polyurethane material. They are selected from polyurethane based materials, polyurethane based materials, polycarbonate and their mixtures of polyurethane materials. The polyurethane film is supplemented by the photochromic amount of at least one photochromic organic material, and (c) thermoplastic protective film. Clear of the polymer material being placed On top of the polyurethane film, and such optical lenses are virtually free from refraction. Tane has a thickness of 2 to 15 mil and is from 0.3 to 5% by weight of at least one photochromic organic material. That were selected from naphthoxacene, spiro (indolino), pyridobenzoxine, naphthoporan, spiro-9-fluoropyran, phenay Anthropyran, fused naphthopyran, indino and a mixture of such photochromic materials, and the polymer protective film has Thick from 5 to 10 mil and selected from nylon, polyurethane urethane, slightly cross-linked thermoplastic polyurethane. And thermoplastic polycarbonate 3. 9. The high-index lens of claim 38, in which abrasion-resistant coatings are Made attached to the protective film at It is a polymer, and abrasion-resistant coatings are selected from organo-silane abrasion-resistant coatings and hard coatings based on silica sol 4 0. The high-index lens of claim 39, whose anti-reflective coating will Was attached to the substance Abrasion-resistant coating 4 1. Method of optical product forming, which consists of the steps of: (a) Provision of an optical substrate that is Polymers Transparent solid A preformed surface with a convex surface And the inward surfaces, (b) the provision of a pre-formed clear laminate Which consists of steps Of photochromic transparent polyurethane film And a layer of transparent polymer protective film in which the polyurethane film is molded from polyurethane material selected from polyurethane on top. Polyurethane basis, polyurethane based on polycarbonate and a mixture of such polyurethane materials. Which the said polyurethane film The modulus of curvature is less than 1.0 GPa and the number of photochromes. Mixtures of at least one photochromic organic material, provided that the protective film as such a polymer has The melting temperature is over 120 ํ and the flex modulus is from 0.5 to 3 GPa. At least covered A selected portion of one or more textures. Of the convex surface And at the concave inside of Such optical substrates, (c) the placement of the articulation on a selected surface. Little one surface Of the outward and inward convex surfaces of such substrates, in which the polyurethane film The state of the cladding attaches to the surface of the optical substrate, and (d) the forming of the cladding to be attached to the optical substrate. Under the condition in which the splice will Adheres to the selected surface of the substrate 4 2. Method of claim 41 in which the cladding is sized enough to cover Surface convex on the outside of The optical composite sheet, and the composite sheet, is placed next to the above-convex surface in step (c) 4. 3. Method of claim 41, where the sheet. Articulation will be Forms adjacent to the substrate The temperature is from 250 to 350 ํ 4 4. Method of claim 43, where the pressure is lower. Atmosphere will be used for The articulation is first applied along the surface of the substrate, and then a positive pressure is applied to the splice to attach the articulation to the substrate 4 5. Method of claim 44, which The applied positive pressure ranges from 150 to 400 psi. 4 6. Clause 41 method, where (a) a molded solid off-throat substrate. The precursor is a thermoset-type substrate prepared from a polymerization-capable compound consisting of an allyl glycol carbonate monomer, a substrate. That was prepared from polyurethane urethane, sterile thermoplastic Polycarbonate, a suppressed substrate Sterile from mixtures containing products of The reaction of the polyfunction isocyanate and polythylol or polyesulfide monomer, the substrate has a refractive index from 1.48 to 1.90 (b). Layer of photochromic clear polyurethane foam The thickness is from 1 to 20 mil, and the organic prochromic materials are discharged from naphthoxasun, spiro (idolino) pinidone-benzoc. Chacine, naphthropyran, spiro-9-fluoropyran, phenanthropyran, fused naphthopyran, indino ghee, and blended sachets of This photochromic material (c) a layer of transparent polymer protective film, ranging in thickness from 1 to 20 mil and selected from nylon, poly (vinyl acetic Tate), vinyl chloride-vinyl acetate copolymer, poly (lower alkyl) acrylate, poly (lower alkyl) metha Chrylates, styrene-butadiene copolymer resins, polyurea urethane, slightly cross-linked thermoplastic polyurethane, and Thermoplastic material Polycarbonate 4 7. Method of claim No. 46 in which the substrate is optically The solid optical is It has a pre-molded refractive index from 1.48 to 1.75, photochromic polyurethane film has a thickness of 2 to 15 mil, protective film at As polymers, thickness from 5 to 10 mil, polyurethane based on polyether is prepared from a mixture consisting of polyol polyol with weight. Molecules averaged from 650 to 1400, and polyurethane based on polycarbonate were prepared from mixtures consisting of polycrystalline polyol with an average molecular weight of 650 to 1000. 4 8. Method of claim No. 47, where the protective film that is polymer is thermoplastic. Polycarbonate 4. 9. Methods for manufacturing photochromic optical components consisting of: Transparent plastic lens substrates and what is on the transparent substrates made up of photochromic polyurethane film. By which method It consists of a procedure of: (a) providing a transparent, multi-layer laminate Which consists of layers of A photochromic transparent polyurethane film and a layer of transparent polymer protective film in which the polyurethane film is formed from polyurethane material. It is selected from polyurethane based on polyurethane, polyurethane based polycarbonate and mixtures - of such polyurethane materials. This polyurethane film has a curvature modulus less than 1.0 GPa and a photochromic amount of the material. At least one type of photochromic organic. Where such polymer protective film has a temperature Melting more than 120 ํ and the modulus of curvature from 0.5 to 3GPa. Can be durable (D) and (e) procedures sufficiently for the incubation conditions; (b) optical template provision. With inward parts, convex parts, and gaskets The periphery that connects the parts of the template together, the inward parts. And the outward convex forms a cavity; (c) arrangement of overlays within the optical template. Where the protective film is Polymers are attached to the surface. The inward opening of the optical template and the photochromic polyurethane film face the horn for the cavity. The splice will be sized enough to cover the Requirements of a concave surface; (d) a polymerized optical resin injection that can form substrates. Of a clear, hard plastic lens into the cavity of the optical template, and (e) curing the optical resin. To form a lens Clear plastic with a recessed surface. And surfaces that Convex outward And there is such a clear, multi-layer articulation attached to the outer convex surface of the lens. Such plastics 5 0. Method of claim 49 where polyurethane films are available from 1 to 20 mil thicknesses, and potochromic organic materials are selected from NAP. Thoxacine, spiro (indolino) - pyrido benzoxazine, napporan, spiro-9-fluorinopyran, phenanthropyran, Fused naphthopyran, indino, and mixture of such photochromic materials; And a protective film that is a clear polymer They are available in thicknesses from 1 to 20 mil and are chosen from nylon, poly (vinyl acetate), vinyl chloride-vinyl acetate copolymer, poly (lo Veralkyl) acrylate, poly (lower alkyl) methacrylate, styrene-butadiene copolymer resin, polyurea Polyurethane, slightly cross-linked thermoplastic polyurethane, and thermoplastic polycarbonate materials 5. 1. Method of claim No. 50 in which the resin is optically Col that can be polymerized. Are selected from polyurea, urethane and thermoplastic. Polycarbonate 5 2. Method of claim 51 in which the protective film is a polymer is thermoplastic. Polycarbonate 5 3.Photochromic optical products It consists of: (a) a transparent solid polyurea urethane optical substrate with a front surface. And the back surface; (b) thermoplastic film Photochromic clear polyurethane At least attached to the surface One surface of the optical substrate on which the polyurethane film Will have less than 2.5 GPa of bending modulus, with such polyurethane film There will be more 0.2 to 10 percent by weight of At least one potochromic organic material selected from naphthoxacene, spiro (indolino), pyridobenzoxine, naphthypiran, spiro. -9-fluorinopyran, phenanthropyran, fused naphthropyran, indino, and a mixture of such photochromic materials; And (c) a protective film that is a transparent thermoplastic of a material that Is a polymer whose protective film is such a polymer. There is a modulus of curvature from 0.1 to 5 GPa, provided that the polymer protective film It is chosen from nylon, poly (vinyl acetate), vinyl chloride-vinyl acetate copolymer, poly (lower alkyl) acrylate. , Poly (lower alkyl) methacrylate, styrene-butadiene copolymer resin, polyurea urethane, thermoplastic Lightly cross-linked polyurethane and thermoplastic materials. Polycarbonate 5 4. Optical product of claim 53, which protective film Is polymer, is thermoplastic Polycarbonate 5 5. Optical product of claim 53, in which the polyurethane film will be molded. From polyurethane materials that are Choose from polyurethane based on polyether, polyurethane based On the basis of polycarbonate, polyurethane based on polyesters and a mixture of such polyurethane materials.