CN101216611A

CN101216611A - Blue ray radiation preventing and achromatism spectacle lens, and method of producing the same

Info

Publication number: CN101216611A
Application number: CNA2007103080949A
Authority: CN
Inventors: 曾琪; 丁谆
Original assignee: Individual
Current assignee: Individual
Priority date: 2007-12-31
Filing date: 2007-12-31
Publication date: 2008-07-09

Abstract

The invention relates to a spectacle lens capable of preventing blue light radiation and eliminating the chromatic aberration and a manufacture method thereof, which belongs to the technical field of spectacles and the manufacture method thereof. The spectacle lens is characterized in that a substrate is prepared from an organic polymer, a blue light absorbent and a UV absorbent by mixing; and a coated film layer includes a TiO2 layer, an Al2O3 layer, an ITO layer, a noble metal layer, an MgF2 layer and a SiO2 layer. The manufacture method of the spectacle lens comprises following steps of: preparing materials, mixing, stirring, curing, cleaning the substrate, reinforcing and coating film on the substrate. The spectacle lens capable of preventing blue light radiation and eliminating the chromatic aberration can effectively filter most of UV light and a portion of blue light to reduce the damage to human retina and the irritation of shortwave glare, thus reducing chromatic aberration and improving resolution of human eyes. Accordingly, persons wearing the spectacle lens can view objects clearly in weaker or stronger light environment.

Description

A kind of blue ray radiation preventing and achromatism spectacle lens and manufacture method thereof

Technical field

The invention belongs to glasses and manufacture method technical field thereof, be specially a kind of blue ray radiation preventing and achromatism spectacle lens and manufacture method thereof.

Background technology

People know the uv damage eyes, and long-term ultraviolet ray irradiation can cause cataract, show that according to the research evidence wavelength is that 400nm～480nm blue light damages eyes easily, and the penetrable cornea of blue light, crystal, arrive retina.Blue light mainly plays detrimental effect to a kind of pigment in the retina, and this pigment only is accumulated among the retina cell, and this pigment molecular in the cell is very strong to the optical radiation absorption of blue region.Known to now, this pigment can inspire phototoxic reaction, and the absorbing light radiation also sustains damage cell.And the radiation of blue light and old macula lutea retrogression pathological changes are also closely related.

Along with the progress of science and technology, the mankind enter the information age at present, and great change has all taken place for mode of learning, working method, life style.Wherein the degree of dependence to vision is more and more higher for this, and the burden of vision is more and more heavier.People's study, work, amusement all more and more be unable to do without computer, TV, and the blue ray radiation composition height of display screen is big to visual cell's injury, and are optical emitters that constantly changes.In addition, the optical radiation of energy-saving electric light source has also comprised harmful blue ray radiation, when bringing benefit to people, also in the health that has injured human eye virtually.Any optical medium has different refractive indexes to the monochromatic light of the different wave length in the transparent wave band, and wavelength weak point person refractive index is big.Optical system is used white imaging mostly, and when white light is incident in the dielectric interface of Any shape, as long as incident angle is non-vanishing, the coloured light of various different wave lengths will have different routes of transmission because of chromatic dispersion, and the result causes various coloured light that different image spaces is arranged.The different aberration that is called of the aberration of this imaging.All there is aberration in the optical imagery instrument of any spherical lens combination, influences image quality.People's eyes also are precisions and complicated optical instrument exists aberration equally.Because the outwardness of aberration, the image on the human eye retina is not to be made up of numerous point, but is made up of numerous hot spot.If be its conjugate points with gold-tinted, then wavelength greater than gold-tinted be the positive pixel that enlarges, the light that is shorter than yellow wavelengths will form the inverted image of expansion.Concerning retina, will be the erect image of numerous expansion, the mutual overlapping of inverted image.The chromatic dispersion character of cornea, crystal, aqueous humor in the vision system of human eye thickens the image on the retina, has reduced visual acuity and visual efficiency.Can do continuous adjusting to crystal down conscious and unconscious to fuzzy image ciliary muscle, increase the weight of the working strength of ciliary muscle.Aberration cause fuzzy picture element produced invalidly looks signal and interference and look signal and all can be delivered to brain by optic nerve, brain is handled these signals, just can obtain clearly as, it is big more promptly to look fog-level, nerve center also increases the amount of information processing.Under the effect aspect above-mentioned two, produce visual fatigue, not only eye adjusting power descend, blurred vision, and be accompanied by headache, dizziness, feel sick, vomiting and symptoms such as mood anxiety, agitation and other neurosis.

Summary of the invention

The objective of the invention is to overcome the above-mentioned problems in the prior art, design provides the technical scheme of a kind of blue ray radiation preventing and achromatism spectacle lens and manufacture method thereof.

Described a kind of blue ray radiation preventing and achromatic lens, form by substrate and coatings two parts, it is characterized in that substrate is mixed with by organic high molecular polymer, blue-light absorbers, ultraviolet light absorber forms, and described coatings comprises titanium oxide layer, alundum (Al layer, indium tin oxide layer, layer of precious metal, magnesium fluoride layer, silicon oxide layer.

Described a kind of blue ray radiation preventing and achromatic lens is characterized in that the weight proportion of substrate is: organic high molecular polymer 98%～99%, blue-light absorbers 0.01%～0.02%, ultraviolet light absorber 0.98%～1.98%.

Described a kind of blue ray radiation preventing and achromatic lens is characterized in that described organic high molecular polymer is polymethyl methacrylate, propylene carbonate acetate or polycarbonate.

Described a kind of blue ray radiation preventing and achromatic lens is characterized in that described blue-light absorbers is one or more the composition in acrylate, methacrylate, acrylamide, Methacrylamide, maleate, the styrene.

Described a kind of blue ray radiation preventing and achromatic lens is characterized in that described blue-light absorbers is the blue look of toner yellow, toner, orange, the nanometer Al of toner ₂O ₃/ polyacrylic acid potpourri, nano-TiO ₂/ polyacrylic acid potpourri, nanometer Fe ₂O ₃Two or more composition in the/polyacrylic acid potpourri.

Described a kind of blue ray radiation preventing and achromatic lens is characterized in that described ultraviolet light absorber is ultraviolet absorbent UV-531, Ultraviolet Absorber UV-P, ultraviolet absorbent uv-326, ultraviolet light absorber UV327, ultraviolet light absorber UV328, ultraviolet light absorber UV-329 or ultraviolet light absorber UV-234.

Described a kind of blue ray radiation preventing and achromatic lens, it is characterized in that described coatings is respectively titanium oxide layer, alundum (Al rete, indium tin oxide rete, precious metal film layer, magnesium fluoride rete and membranous layer of silicon oxide from the inside to the outside, thickness is respectively 125nm, 100nm, 150nm, 100nm, 100nm and 175nm.

Described a kind of blue ray radiation preventing and achromatic lens is characterized in that described nanometer Al ₂O ₃/ polyacrylic acid potpourri, nano-TiO ₂/ polyacrylic acid potpourri, nanometer Fe ₂O ₃The particle diameter of nano material is 40nm～80nm in the/polyacrylic acid potpourri.

The manufacture method of described a kind of blue ray radiation preventing and achromatism spectacle lens comprises the steps:

1) batching adds weight percentage and is 0.01%～0.02% blue-light absorbers and 0.98%～1.98% ultraviolet light absorber in organic high molecular polymer, mix and stir, and mixes until raw material;

Described organic high molecular polymer is polymethyl methacrylate, propylene carbonate acetate or polycarbonate; Described blue-light absorbers is one or more the composition in acrylate, methacrylate, acrylamide, Methacrylamide, maleate, the styrene; Described is ultraviolet absorbent UV-531, Ultraviolet Absorber UV-P, ultraviolet absorbent uv-326, ultraviolet light absorber UV327, ultraviolet light absorber UV328, ultraviolet light absorber UV-329 or ultraviolet light absorber UV-234;

2) raw material normal temperature that will mix stores down, stirs before the materials, exhaust again;

3) curing molding is heated to fusing with raw material, and liquid material is injected into rapidly in the lens mold, curing molding;

4) cleaning of substrate, reinforcement, earlier the substrate with curing molding carries out surface clean, oven dry with clear water, and the substrate with oven dry immerses 20～40 seconds in the forced fluid then, and intensive treatment 1～2 hour under 100 ℃～120 ℃ temperature is strengthened substrate surface again;

Described forced fluid is organic alcoxyl silica sol liquid, organic alcoxyl titanium, organic alcoxyl silicon derivative or organic alcoxyl titanium derivative sol solutions;

5) plated film of substrate, to put into vacuum tank through the substrate of above-mentioned processing, adopt the method for evaporation or magnetron sputtering, be coated with titanium oxide layer, alundum (Al rete, indium tin oxide rete, precious metal film layer, magnesium fluoride rete and membranous layer of silicon oxide from the inside to the outside successively.

The manufacture method of described a kind of blue ray radiation preventing and achromatism spectacle lens is characterized in that the blue-light absorbers described in the step 1) is the blue look of toner yellow, toner, orange, the nanometer Al of toner ₂O ₃/ polyacrylic acid potpourri, nano-TiO ₂/ polyacrylic acid potpourri, nanometer Fe ₂O ₃Two or more composition in the/polyacrylic acid potpourri.

Above-mentioned a kind of blue ray radiation preventing and achromatism spectacle lens and manufacture method thereof; elimination overwhelming majority purple lights and part blue light effectively; both ultraviolet transmitance≤1% of wavelength below 400nm; wavelength is at blue light transmitance≤50% of 400nm～480nm; the visible light transmissive filter of its medium wavelength more than 450nm is also greater than the transmittance to shortwave light; this blue ray radiation preventing and achromatism spectacle lens can reduce the stimulation to human eye retina's injury and shortwave dazzle; reduce the human eye aberration; improve the resolution of human eye; make people in than low light environment; as at indoor reading books and periodicals newspaper; see computer or television machine etc.; can both clearly look thing, and in than the high light environment, eyes are protected owing to it optionally absorbs harmful shortwave light.

Embodiment

Below provide the specific embodiment of the present invention, and the present invention is described in further detail.

Specific embodiment 1:

Blue ray radiation preventing in this specific embodiment and achromatism spectacle lens are made up of substrate and coatings two parts, substrate is the lens that is prepared into by the polycarbonate that contains blue-light absorbers, the polymethyl methacrylate that contains blue-light absorbers or propylene carbonate acetate, coatings constitutes by four layers, be respectively titanium oxide layer, indium tin oxide rete, magnesium fluoride rete and membranous layer of silicon oxide from the inside to the outside, thickness is respectively 125nm, 150nm, 100nm and 175nm.

Blue-light absorbers in this specific embodiment by weight percentage be that the blue look of 0.01%--0.02% toner yellow, 0.001%--0.002% toner, 0.001%--0.002% toner are orange, 0.001%--0.002% nanometer Al2O3/ polyacrylic acid potpourri, 0.001%--0.002% nano TiO 2/polyacrylic acid potpourri, 0.00 1%--0.002% nanometer Fe 2O3/ polyacrylic acid potpourri form.

Specific embodiment 2:

Blue ray radiation preventing in this specific embodiment and achromatism spectacle lens are made up of substrate and coatings two parts, substrate is the lens that the polycarbonate that contains blue-light absorbers, the polymethyl methacrylate that contains blue-light absorbers or propylene carbonate acetate are prepared into, coatings has six layers, be respectively titanium oxide layer, alundum (Al rete, indium tin oxide rete, precious metal film layer, magnesium fluoride rete and membranous layer of silicon oxide from the inside to the outside, the thickness of rete is respectively 125nm, 100nm, 150nm, 100nm, 100nm and 175nm.

Blue-light absorbers in this specific embodiment by weight percentage be that 0.006%--0.008% toner yellow, 0.001%--0.002% toner are orange, 0.001%--0.002% nanometer Al2O3/ polyacrylic acid potpourri, 0.001%--0.002% nano TiO 2/polyacrylic acid potpourri mix.

Specific embodiment 3:

Blue ray radiation preventing in this specific embodiment and achromatism spectacle lens are made up of substrate and coatings two parts, substrate is the lens that is prepared into by the polycarbonate that contains blue-light absorbers, the polymethyl methacrylate that contains blue-light absorbers or propylene carbonate acetate, coatings has three layers, be respectively titanium oxide layer, magnesium fluoride rete and membranous layer of silicon oxide from the inside to the outside, thicknesses of layers is respectively 125nm, 100nm and 175nm.

Blue-light absorbers in this specific embodiment is that the blue look of 0.006%--0.008% toner yellow, 0.001%--0.002% toner, 0.001%--0.002% toner are orange by weight percentage, and 0.001%--0.002% nano TiO 2/polyacrylic acid composite mixes.

Specific embodiment 4:

This specific embodiment provides the manufacture method of a kind of blue ray radiation preventing and achromatism spectacle lens, may further comprise the steps:

1) batching adds weight percentage and is 0.01%～0.02% blue-light absorbers and 0.98%～1.98% ultraviolet light absorber in the polycarbonate particle, mix and stir, and mixes until raw material; Described blue-light absorbers is one or more the composition in acrylate, methacrylate, acrylamide, Methacrylamide, maleate, the styrene; Described ultraviolet light absorber is ultraviolet absorbent UV-531, Ultraviolet Absorber UV-P, ultraviolet absorbent uv-326, ultraviolet light absorber UV327, ultraviolet light absorber UV328, ultraviolet light absorber UV-329 or ultraviolet light absorber UV-234; Wherein the chemical name of ultraviolet light absorber CH-81 (UV-531) is an Octabenzone, Ultraviolet Absorber UV-P is 2-(2-hydroxy-5-methyl base phenyl) benzotriazole, ultraviolet absorbent uv-326 is 2-(the 2-hydroxyl-3-tert-butyl group-5-aminomethyl phenyl)-5-chlorinated benzotriazole, ultraviolet light absorber UV327 be 2-(2 '-hydroxyl-3 ', 5 '-di-tert-butyl-phenyl)-the 5-chlorinated benzotriazole, ultraviolet light absorber UV328 is a 2-(2-hydroxyl-3, the 5-di-tert-pentyl-phenyl) benzotriazole, ultraviolet light absorber UV-329 be 2-(2 '-hydroxyl-5 '-uncle's octyl phenyl) benzotriazole, ultraviolet light absorber UV-234 is 2-(2H-benzotriazole-2)-4,6-two (1-methyl isophthalic acid-phenethyl) phenol;

3) curing molding is heated to 280 ℃ with raw material, and liquid material is injected into rapidly in the lens mold, and curing molding is finished the preparation of substrate, and wherein the heat fused temperature of polycarbonate is 250 ℃～320 ℃;

4) cleaning of substrate, reinforcement, earlier the substrate with curing molding carries out surface clean, oven dry with clear water, and the substrate with oven dry immerses 30 seconds in the forced fluid then, and intensive treatment 1.5 hours under 100 ℃ temperature is strengthened substrate surface again;

5) plated film of substrate will be put into vacuum tightness less than 4 * 10 through the substrate of above-mentioned processing ^-3In the vacuum tank of handkerchief, use electronic beam current with the evaporation of Coating Materials titanium dioxide, be deposited on substrate surface with the form of molecule, form titanium oxide layer, the thickness of titanium oxide layer is 125nm; Re-use electronic beam current with Coating Materials alundum (Al evaporation, be deposited on substrate surface with the form of molecule, form the alundum (Al rete, the alundum (Al thicknesses of layers is 100nm; Re-use electronic beam current with Coating Materials indium tin oxide evaporation, be deposited on substrate surface with the form of molecule, form the indium tin oxide rete, the indium tin oxide thicknesses of layers is 150nm; Re-use electronic beam current with Coating Materials noble metal evaporation, be deposited on substrate surface with the form of molecule, form precious metal film layer, the noble metal film layer thickness is 100nm; Re-use electronic beam current with Coating Materials magnesium fluoride evaporation, be deposited on substrate surface with the form of molecule, form the magnesium fluoride rete, the magnesium fluoride thicknesses of layers is 100nm; Re-use electronic beam current with Coating Materials monox evaporation, be deposited on substrate surface with the form of molecule, form membranous layer of silicon oxide, the silicon oxide film layer thickness is 175nm.

Specific embodiment 5:

1) batching adds weight percentage and is 0.01%～0.02% blue-light absorbers and 0.98%～1.98% ultraviolet light absorber in the polymethyl methacrylate particle, mix and stir, and mixes until raw material; Described blue-light absorbers is the blue look of toner yellow, toner, orange, the nanometer Al of toner ₂O ₃/ polyacrylic acid potpourri, nano-TiO ₂/ polyacrylic acid potpourri, nanometer Fe ₂O ₃Two or more composition in the/polyacrylic acid potpourri;

3) curing molding is heated to 210 ℃ with raw material, and liquid material is injected into rapidly in the lens mold, and curing molding is finished the preparation of substrate, and wherein the heat fused temperature of polymethyl methacrylate is 180 ℃～240 ℃;

4) cleaning of substrate, reinforcement, earlier the substrate with curing molding carries out surface clean, oven dry with clear water, and the substrate with oven dry immerses 30 seconds in the forced fluid then, and intensive treatment 1 hour under 120 ℃ temperature is strengthened substrate surface again;

6) plated film of substrate will be put into vacuum tightness less than 4 * 10 through the substrate of above-mentioned processing ^-3In the vacuum tank of handkerchief, use electronic beam current with the evaporation of Coating Materials titanium dioxide, be deposited on substrate surface with the form of molecule, form titanium oxide layer, the oxidation titanium film layer thickness is 125nm; Re-use electronic beam current with Coating Materials alundum (Al evaporation, be deposited on substrate surface with the form of molecule, form the alundum (Al rete, the alundum (Al thicknesses of layers is 100nm; Re-use electronic beam current with Coating Materials magnesium fluoride evaporation, be deposited on substrate surface with the form of molecule, form the magnesium fluoride rete, the magnesium fluoride thicknesses of layers is 100nm; Re-use electronic beam current with Coating Materials monox evaporation, be deposited on substrate surface with the form of molecule, form membranous layer of silicon oxide, the silicon oxide film layer thickness is 175nm.

Claims

1. a blue ray radiation preventing and achromatic lens, form by substrate and coatings two parts, it is characterized in that substrate is mixed with by organic high molecular polymer, blue-light absorbers, ultraviolet light absorber forms, and described coatings comprises titanium oxide layer, alundum (Al layer, indium tin oxide layer, layer of precious metal, magnesium fluoride layer, silicon oxide layer.

2. a kind of blue ray radiation preventing according to claim 1 and achromatic lens is characterized in that the weight proportion of substrate is: organic high molecular polymer 98%～99%, blue-light absorbers 0.01%～0.02%, ultraviolet light absorber 0.98%～1.98%.

3. a kind of blue ray radiation preventing according to claim 1 and achromatic lens is characterized in that described organic high molecular polymer is polymethyl methacrylate, propylene carbonate acetate or polycarbonate.

4. a kind of blue ray radiation preventing according to claim 1 and achromatic lens is characterized in that described blue-light absorbers is one or more the composition in acrylate, methacrylate, acrylamide, Methacrylamide, maleate, the styrene.

5. a kind of blue ray radiation preventing according to claim 1 and achromatic lens is characterized in that described blue-light absorbers is the blue look of toner yellow, toner, orange, the nanometer Al of toner ₂O ₃/ polyacrylic acid potpourri, nano-TiO ₂/ polyacrylic acid potpourri, nanometer Fe ₂O ₃Two or more composition in the/polyacrylic acid potpourri.

6. a kind of blue ray radiation preventing according to claim 1 and achromatic lens is characterized in that described ultraviolet light absorber is ultraviolet absorbent UV-531, Ultraviolet Absorber UV-P, ultraviolet absorbent uv-326, ultraviolet light absorber UV327, ultraviolet light absorber UV328, ultraviolet light absorber UV-329 or ultraviolet light absorber UV-234.

7. a kind of blue ray radiation preventing according to claim 1 and achromatic lens, it is characterized in that described coatings is respectively titanium oxide layer, alundum (Al rete, indium tin oxide rete, precious metal film layer, magnesium fluoride rete and membranous layer of silicon oxide from the inside to the outside, thickness is respectively 125nm, 100nm, 150nm, 100nm, 100nm and 175nm.

8. a kind of blue ray radiation preventing according to claim 5 and achromatic lens is characterized in that described nanometer Al ₂O ₃/ polyacrylic acid potpourri, nano-TiO ₂/ polyacrylic acid potpourri, nanometer Fe ₂O ₃The particle diameter of nano material is 40nm～80nm in the/polyacrylic acid potpourri.

9. the manufacture method of a kind of blue ray radiation preventing according to claim 1 and achromatism spectacle lens comprises the steps:

10. the manufacture method of a kind of blue ray radiation preventing according to claim 9 and achromatism spectacle lens is characterized in that the blue-light absorbers described in the step 1) is the blue look of toner yellow, toner, orange, the nanometer Al of toner ₂O ₃/ polyacrylic acid potpourri, nano-TiO ₂/ polyacrylic acid potpourri, nanometer Fe ₂O ₃Two or more composition in the/polyacrylic acid potpourri.