CN105754275B - A kind of anti-blue light glasses substrate - Google Patents

Abstract

A kind of energy high efficiency filter harmful blue light and ultraviolet light, and transmitance and coloration mildness anti-blue light glasses substrate can be effectively improved, by being made using methacrylate polymer as the main body of material and the hud typed transition metal oxide nano-particles, alumina particulate, carbonic acid silicon particle, ultra-violet absorber, the surfactant that are scattered in the substrate body.

Description

A kind of anti-blue light glasses substrate

Technical field

The present invention relates to a kind of substrates of spectacle lens, and in particular to the substrate used in a kind of anti-blue light spectacle lens.

Background technology

In the prior art, the research of anti-blue light spectacle lens is like a raging fire, especially as the development of Internet technology, including anti- The anti-radiation glasses of blue light ultraviolet radiation preventing are used widely.Generally, it is seen that optical band is approximately from 380 nanometers (nm) wavelength to the wavelength of 780nm spectral region.The part of about 380nm to about 500nm correspond essentially to high energy blue light.It is blue Damage of the light to human eye especially retina be it is very big, if human eye for a long time exposure may result under blue light it is serious Ophthalmology disease, such as age-related maculopathy seriously even result in human eye blindness.But, in above-mentioned blue wave band 465nm to 495nm part be conducive to health because related to human biological's period, can promote blood circulation.It is existing Have safety goggles against radiation filtering generally includes ultraviolet light and most of short-wave band visible ray.And rarely have reservation to be higher than in the prior art The anti-blue light glasses of 465nm, reason are relatively narrow in the wave band, are filtering 450nm and during shorter wavelength, can't help just filtering The blue light of more than 465nm is fallen.The high-reflecting film or optical filter used in existing anti-blue light glasses is usually all wide area type diaphragm, because For Narrowband Spectral High-Reflectivity Filter Multilayers or optical filter when vacuum evaporation deposits process overflow it is long and complex, manufacture it is with high costs.On the other hand, even if Using spike filter, filtered from the harmful blue light that spectacle lens front surface reflection comes, but be derived between wearer rear Connecing light can then be reflected into the eye of eyeglass wearer in an identical manner, these harmful blue light light for reaching wearer's retina lead to Amount can be suitable with front incidence, blue light is caused to injure wearer's eyes.

It is well known that in anti-harmful blue light eyeglass, front and rear surfaces can apply UV coatings, to absorb UV light, also The coating of some other functions, such as impact-resistant coating, wear-resistant coating, anti-reflection coating, antistatic coating, polarizing coating and Anti-pollution layer and/or anti-fog coating etc., and eyeglass sheet is as a transparent substrate made of organic resin or glass, it is all Such as thermoplastic polymer material is made.

The thermoplastic material for using in the substrate, such as (methyl) acrylate copolymer, polyethylene (methyl-prop E pioic acid methyl ester) (PMMA), thio (methyl) acrylic acid, polyvinyl butyral (PVB), makrolon (PC), polyurethane (PU), Polyethylene (thioxanthamide), polyalcohol allyl carbonate, Ethylene/vinyl acetate, also such as poly- terephthaldehyde Sour second diester (PET) or polybutylene terephthalate (PBT), polycyclic sulphur compound, polyepoxide, makrolon and polyester Copolymer, the copolymer of cyclenes copolymer such as ethylene and norbornene or the copolymer of ethylene and cyclopentadiene and Combination thereof etc..

In the prior art, reducing blue light injury and the requirement of increase light transmittance can not often get both, and attend to one thing and lose sight of another, this disappears that It is long, to reduce blue light injury, it is necessary to sacrifice light transmittance as cost.Existing motion is proposed in such as acrylic acid series substrate Front and rear surfaces plated film, including antireflective coating, anti-reflection film etc., to reach antireflective effect while anti-blue light injures.Use The different structure of this front and rear surfaces membrane system, front surface film layer efficiently prevent injury of the blue light to human eye, and rear surface film layer increases The transmitance of eyeglass reaches antireflective effect.

In the prior art, the substrate of many anti-blue light eyeglasses is doping or surface dip dyeing melanin, Huang in lens substrate The organic coloring agents such as pigment, realize harmful blue light in and filter effect.But organic dyestuff weatherability is poor.In addition, existing skill Most anti-blue light eyeglass in art, substantially filters harmful high energy blue light, under permanent chromatic distortion, can reduce the coloration of optic nerve Sensibility has the risk for leading to anomalous trichromatism or even colour blindness.

The subject of the invention to be studied is to provide the substrate of such anti-blue light eyeglass, is not considering to be deposited on substrate Antireflective film, in the case of high-reflecting film etc. so that substrate can effectively improve transmitance in itself, coloration mildness and it is anti-harmful The eyeglass substrate of blue light.

Invention content

In view of above-mentioned technical problem, the present invention provides a kind of anti-blue light glasses substrate, can high efficiency filter harmful blue light and purple Outside line, and transmitance and coloration mildness can be effectively improved.

Specifically, the present invention provides a kind of anti-blue light glasses substrate, which is characterized in that the substrate is by using metering system Main body and the hud typed transition metal oxide nano grain that is scattered in the substrate body of the acid polymer as material Son, alumina particulate, carbonic acid silicon particle, ultra-violet absorber, surfactant are made；Wherein, hud typed transiting metal oxidation Object nano-particle, alumina particulate, carbonic acid silicon particle, ultra-violet absorber, surfactant account for substrate total weight respectively 1%-2%, 1%-3%, 1%-1.5%, 1%-4%, 0.5%-1%.

Anti-blue light glasses substrate as described above, the hud typed transition metal oxide are Fe₂O₃。

Anti-blue light glasses substrate as described above, the surfactant are polyvinylpyrrolidone.

According to the present invention, when making the substrate, can carry out as follows:First, methacrylate polymer is dissolved in In solvent, the polymer solution is obtained, can be conventional organic solvent, then, by hud typed oxo transition metal as solvent Compound nano-particle, alumina particulate, carbonic acid silicon particle, ultra-violet absorber, surfactant are filled into according to said ratio In the solution, dissolving is sufficiently stirred, the substrate is then obtained by spin coating.

According to the present invention, due to being doped with hud typed transition metal oxide (titanium dioxide, cobalt oxide in eyeglass substrate And/or iron oxide) nano particle, alumina particulate, carbonic acid silicon particle, substantially increase durability and translucency also, for Wavelength has resistance in harmful high energy blue light of 380-465nm ranges.

Specific embodiment

The present invention is described in detail below by specific embodiment.

In the present invention, the anti-blue light glasses substrate, by using main body of the methacrylate polymer as material, with And it is scattered in hud typed transition metal oxide nano-particles, alumina particulate, carbonic acid silicon particle, purple in the substrate body Ultraviolet absorbers, surfactant are made；Wherein, hud typed transition metal oxide nano-particles, alumina particulate, carbonic acid silicon Particle, ultra-violet absorber, surfactant account for the 1%-2% of substrate total weight, 1%-3%, 1%-1.5%, 1%- respectively 4%, 0.5%-1%.

The hud typed transition metal oxide is Fe₂O₃。

The surfactant is polyvinylpyrrolidone.

Research shows that compared with pure resin base material, mixed in resin base material after transition metal oxide nano-particles 360-450nm have strong absorption effects, inventor find, when proper proportion transition metal oxide nano-particles with When alumina particulate, carbonic acid silicon particle, ultra-violet absorber common distribution are in resin base material, absorbing wavelength compares independent ginseng The wavelength of miscellaneous transition metal oxide nano-particles or ultra-violet absorber generates red shift, and the present invention utilizes the synergistic effect, system It is standby go out can the blue light of highly resistance 380-465nm ranges and whole ultraviolet lights and the good anti-blue light eyeglass of durability.

In the present invention, when making the substrate, first, methacrylate polymer is dissolved in solvent, it is poly- to obtain this Polymer solution can be conventional organic solvent, then, by hud typed transition metal oxide nano-particles, oxygen as solvent Change aluminium particle, carbonic acid silicon particle, ultra-violet absorber, surfactant to be filled into the solution according to said ratio, fully stir Dissolving is mixed, filters out sediment, the substrate is then obtained by spin coating.

In the present invention, due to be doped in eyeglass substrate hud typed transition metal oxide (titanium dioxide, cobalt oxide and/ Or iron oxide) nano particle, alumina particulate, carbonic acid silicon particle, substantially increase durability and translucency also, for wavelength Have in harmful high energy blue light of 380-465nm ranges resistance.

The present invention is described in detail above by specific embodiment, but it should be recognized that of the invention and unlimited In the specific embodiment, the present invention can carry out various modifications and change on this basis.It is all do not depart from the present invention spirit and The equivalents such as any modification that principle is made, should all be included in the protection scope of the present invention.

Claims (3)

1. a kind of anti-blue light glasses substrate, which is characterized in that the substrate is by using master of the methacrylate polymer as material Body and the hud typed transition metal oxide nano-particles being scattered in the substrate body, alumina particulate, carbonic acid silicon are micro- Grain, ultra-violet absorber, surfactant are made, with the blue light of highly resistance 380-465nm ranges and whole ultraviolet lights；Wherein, core Shell mould transition metal oxide nano-particles, alumina particulate, carbonic acid silicon particle, ultra-violet absorber, surfactant difference 1%-2%, 1%-3%, 1%-1.5%, 1%-4%, the 0.5%-1% of substrate total weight are accounted for, it is first when making the substrate First the methacrylate polymer is dissolved in solvent, obtains the polymer solution, the solvent uses organic solvent, then The hud typed transition metal oxide nano-particles, alumina particulate, carbonic acid silicon particle, ultra-violet absorber, surface are lived Property agent is filled into according to said ratio in the polymer solution, is sufficiently stirred dissolving, is then obtained the substrate by spin coating.

2. anti-blue light glasses substrate as described in claim 1, the hud typed transition metal oxide is Fe₂O₃。

3. anti-blue light glasses substrate as described in claim 1, the surfactant is polyvinylpyrrolidone.