CN105295279A - Optical protecting material preventing ultraviolet light and blue light - Google Patents

Abstract

The invention relates to an optical protecting material preventing ultraviolet light and blue light. The optical protecting material is characterized by comprising a base material, fluorescent brighteners, colorants and ultraviolet light absorbers. The colorants and the ultraviolet light absorbers are used for absorbing the blue light emitted by the fluorescent brighteners. The quantity of the adopted fluorescent brighteners is calculated to be 0.025-20.000 g/square meter according to the surface area of a finished product. The quantity of the adopted colorants is calculated to be 0.001-10.000 g/square meter according to the surface area of the finished product. The color of the colorants and the color emitted by the fluorescent brighteners are complementary colors; the quantity of the adopted ultraviolet light absorbers is calculated to be 0-5.000 g/square meter according to the surface area of the finished product. The base material is optical transparent resin or optical transparent adhesive. The optical protecting material can prevent the ultraviolet light and the blue light so as to prevent the ultraviolet light from harming the human body and particularly protect against harm to eyes caused by the blue light generated by sunlight and an electronic display screen effectively. The optical protecting material has a better preventing effect for infants, students and ladies especially, and can protect tender skin and delay senescence.

Description

The optical protective material of antiultraviolet and blue light

Technical field

The present invention relates to optical material, specifically refer to the optical protective material of antiultraviolet and blue light.

Background technology

Ultraviolet is the short invisible light of a kind of wavelength ratio visible ray, arrives the wavelength region of earth surface: 280nm-400nm, it is not merely from sunlight, various artificial light, as UV-lamp, computer, TV etc. also can produce certain ultraviolet.The generation of the phenomenons such as excessive uviolizing has certain injury to the skin of people and eyes, causes wrinkle, color spot, old and feeble, can cause sunburn and sunburn time serious, or the solar keratosis of skin and mucous membrane, even causes canceration.Ultraviolet irradiation also can hurt the Langerhans cell in epidermis simultaneously, and the Main Function of L cell combines the external attack of antagonism, so just can destroy human immune system, immunological competence is declined.The harmful light that ultraviolet produces can cause human-body fatigue, furniture variable color and embrittlement, especially even more serious to the injury of child, student and Ms, and long harmful light irradiates and causes human body to produce malignant melanoma the most at last.Blue light is wavelength is 400 ~ 500nm, frequency is 6.1-6.7 × 10 ¹⁴the high-energy visible ray of Hz, blue ray radiation has very strong injury to human eye and eyesight.WHO Ai Yan association of World Health Organization announces: within 2006 to 2008, cause the whole world blind more than 30000 people every year because of blue ray radiation, the high energy region shortwave blue light of these shortwave blue lights especially 400nm ~ 450nm has very high energies, lens can be penetrated to go directly retina, cause photochemistry to damage to retina, directly or indirectly cause the infringement of macular area cell.

In order to prevent ultraviolet to the injury of human body, notification number is that the Chinese invention patent application of CN101831126A discloses one " whole anti-UV antifatigue and anti-malignant melanoma optical protective material ", it decomposes transparent agent by adding a certain amount of white dyes and/or UV light absorber and β-1# in optical resin, under the prerequisite of the not original light transmission of loss material and sharpness, obtain the effect of fully anti-ultraviolet.

Although the white dyes that this technical scheme uses joins in base-material to can be good at playing prevent the ultraviolet function of below 400nm, but, white dyes absorbs rear enabled stage to the ultraviolet entered wherein and diminishes and form blue light emitting, the eyes of people can be stimulated, produce secondary light and pollute.If use this material to manufacture optical transparent film, blue light is very large to the injury of eye, is far far more than the injury of ultraviolet to eyes; Ultraviolet can be absorbed usually when passing slide or cornea eye, and the eyes that this high energy shortwave blue light can penetrate us reach bottom retina, directly cause irreversible injury to ocular nerve.

Summary of the invention

Technical problem to be solved by this invention is the optical protective material providing antiultraviolet and blue light for the present situation of prior art.

The present invention solves the problems of the technologies described above adopted technical scheme: the optical protective material of this antiultraviolet and blue light, it is characterized in that comprising base-material, white dyes, for absorb described white dyes launch toner and the UV light absorber of blue light;

The consumption of described white dyes is with the surface area of finished product for 0.025-20.000 gram/m, and the consumption of described toner counts 0.001-10.000 gram/m with assembled watch area; The color of described toner and color that described white dyes is launched form complementary color;

The consumption of described UV light absorber with the surface area of finished product for 0-5.000 gram/m;

Described base-material is optical clear resin or optical clear tackiness agent, and its consumption is surplus.

Preferably, described toner can be orange class toner and/or yellow class toner.

Or described toner can be selected from lemon yellow toner, orange agent and/or green agent.

Or described toner can also be selected from least two kinds in yellow agent, blue light agent, red agent, purple agent and black developing agent.

More preferably, described toner is the mixture of P.Y.12, P.R.53:1 and P.B.15:3, and the weight ratio of three is 7.5 ~ 4.5:5 ~ 2:2 ~ 0.5.

Further, described in above-mentioned each scheme, the absorbing wavelength of toner is 410 ~ 500nm.

Optical clear resin in above-mentioned each scheme can be selected from PET, PVC, PVB, PC, PVP, PS, PE, PP, ABS, PA, PPE, PBT, PSF, PAR, PEEK, LCP, PMMA or EVA.

Optical clear tackiness agent in above-mentioned each scheme is finished adhesive, namely comprises butt tackiness agent, solvent and/or functional additive.Described optical clear tackiness agent preferred acrylate class tackiness agent, polyurethane tackifier, polyamide-based tackiness agent, polyester adhesive or epoxy adhesive.

White dyes in above-mentioned each scheme can select as required of the prior art any one, preferably, described white dyes selects dibenzoxazine class, distyryl benzene type or distyryl biphenyl fluorescent bleaches.

Better, described white dyes can select 2, two (the 5-tertiary butyl-2-benzoxazolyl) thiophene, 2 of 5-, 2 '-(4,4 '-diphenylethyllene) dibenzoxazine, fluoresent whitener CBS-127, fluoresent whitener CBS-127-P, white dyes SP-128, fluorescent whitening agent OB, fluorescent whitening agent OB-28, fluorescent whitening agent OB-1, fluorescent whitening agent OB-12, white dyes KWN, white dyes KCB, white dyes KCB-2, white dyes KSN, white dyes SWN, fluorescent brightener CBS-X or white dyes FP.

Described UV light absorber can be selected from 2-(the 2'-hydroxyl-3'-tertiary butyl-5'-aminomethyl phenyl)-5-chlorinated benzotriazole, 2-(2 '-hydroxyl-3 ', 5 '-diamyl phenyl) benzotriazole, 2-(the special octyl phenyl of 2'-hydroxyl-5'-) benzotriazole, 2-(the 2'-hydroxyl-3'-tertiary butyl-5'-aminomethyl phenyl)-5-chlorinated benzotriazole, 2-(2H-benzotriazole-2-base)-6-(dodecyl)-4-methylphenol, Octabenzone, ESCALOL 567, 2-(2'-hydroxyl-5'-aminomethyl phenyl) benzotriazole, 3-Phenoxy-benzaldehyde, UV326, UV234, UV360, at least one in UV164 and UV24.

The interpolation of UV light absorber can improve the stability of this optical protective material further, and improves UV resistance effect further.

Above-mentioned each scheme of the present invention can also add dispersion agent as required, as the cured PP203 of polypropylene, ethylene bis stearic acid amide EBS, EBS-SF dispersion agent, etc., improving toner dispersion effect in the material, make the optical articles color made evenly.Especially EBS-SF dispersion agent, after adding EBS-SF dispersion agent, can significantly improve the color homogeneity of product, sharpness and anti-blue light effect by 0.030 gram/m of assembled watch area.

Compared with prior art, technical scheme provided by the present invention utilizes white dyes to solve the visible ray high energy region blue light of 400-410nm to the injury of eyes to the absorption characteristic of optical wavelength.White dyes can absorb the higher near ultraviolet light of energy and makes its molecule enter excited state in addition, then by sharp molecular transition to the lower ground state of energy, and launch fluorescence. owing to there occurs power loss, the wavelength of fluorescence that width is penetrated is elongated, is generally the visible ray of 410-450nm; Meanwhile utilize various toner different to the absorptivity of optical wavelength, proportioning becomes the toner matched with the white dyes model of adding to combine, and solves the injury of blue light to eyes that wavelength is 410-500 nanometer.

Optical protective material provided by the present invention can under the prerequisite not damaging original material transparent degree and sharpness, to the research and practice of organic or inorganic toner conventional at present, find to composite between various toner or toner can effectively reduce white dyes launch the blue light of generation, dissimilar white dyes and the toner of proportioning have the corresponding relation between conversion and absorption therebetween, thus make product of the present invention can not only fully anti-ultraviolet, and can to white dyes launch generation blue light absorb, effectively prevent secondary light to pollute, also effectively can absorb extraneous harmful blue light simultaneously, thus reach the effect of anti-blue light, antiultraviolet and anti-blue light stable and durable effect, low cost of manufacture.

Embodiment

Below in conjunction with embodiment, the present invention is described in further detail.

Embodiment 1 to embodiment 15 is the embodiment of optical protective material, and its formula is as shown in table 1.

The making method of this antiultraviolet and blue light optical protective material can select as required of the prior art any one, such as extrude, injection moulding, blowing, calendering, pressure injection etc.

The present embodiment adopts extrusion molding, is specially after being mixed in proportion by each material, selects the common process suitable with concrete optically transparent material to be extruded into sheet material or coiled material.

Table 1

In table 1, the consumption of white dyes, UV light absorber and toner all with the surface-area of the sheet material made or coiled material for benchmark, have nothing to do with the thickness of finished product.Embodiment 14 and embodiment 15 are comparative example.

Table 2 is the embodiment of the optical clear tackiness agent of antiultraviolet and anti-blue light, and it is specifically filled a prescription and is shown in Table 2.

Optical clear tackiness agent in table 2 is commercially available finished adhesive, namely comprises butt tackiness agent and solvent, can also comprise other functional additive.The preparation method of embodiment 16 to embodiment 22 is by after each component mixing, is stirred to full and uniform, is then coated to the surface of object to be bonded, namely obtain UV resistance and the optical clear adhesive layer of anti-blue light.In formula, the consumption of white dyes and toner all amasss as benchmark with the coated surface of optical clear tackiness agent, has nothing to do with the thickness of glue-line after coating.Embodiment 22 is comparative example.

Table 2

The anti-ultraviolet testing method of the finished product made in embodiment 1 to embodiment 22 is:

Lain in by Renminbi in horizontal table top, face up, with UV400 ultraviolet lamps irradiates on Renminbi, the distance between UV-lamp and bank note, at about 5cm, there will be an obvious watermark immediately below " people " word.At this moment, the above-mentioned sheet material of (except embodiment 14,15,22) is put between Renminbi and UV-lamp, watermark moment completely dissolve, ultraviolet could not penetrate sheet material, all be blocked in outside this sheet material, and the sheet material same procedure of embodiment 14,15,22 is tested, watermark does not change.Illustrate that the optical protective material made by the present invention reaches uvioresistant UV400.

Anti-blue light testing method is:

Lain in by blank sheet of paper in horizontal table top, be radiated on blank sheet of paper by centre wavelength at 420 nanometer lights, the distance between lamp and blank sheet of paper, at about 5cm, there is an obvious royal purple light in blank sheet of paper.At this moment, the above-mentioned sheet material of (except embodiment 14,15,22) is put between blank sheet of paper and lamp, blue light on blank sheet of paper disappears, blue light is blocked after being absorbed by sheet material, not by sheet material, reach the effect intercepting blue light, and the sheet material same procedure of embodiment 14,15,22 is tested, blue light on blank sheet of paper has almost no change, and illustrates that the optical protective material made by the present invention effectively protects the injury of blue light to human eye retina.

Claims (10)

1. the optical protective material of antiultraviolet and blue light, it is characterized in that comprising base-material, white dyes, for absorb described white dyes launch toner and the UV light absorber of blue light;

The consumption of described white dyes is with the surface area of finished product for 0.025-20.000 gram/m, and the consumption of described toner counts 0.001-10.000 gram/m with assembled watch area; The color of described toner and color that described white dyes is launched form complementary color; The consumption of described UV light absorber with the surface area of finished product for 0-5.000 gram/m;

Described base-material is optical clear resin or optical clear tackiness agent.

2. the optical protective material of antiultraviolet according to claim 1 and blue light, is characterized in that described toner is orange class toner and/or yellow class toner.

3. the optical protective material of antiultraviolet according to claim 1 and blue light, is characterized in that described toner is selected from lemon yellow toner, orange toner and/or green agent.

4. the optical protective material of antiultraviolet according to claim 1 and blue light, is characterized in that described toner is selected from least two kinds in yellow agent, blue light agent, red agent, purple agent and black developing agent.

5. the optical protective material of antiultraviolet according to claim 4 and blue light, is characterized in that described toner is the mixture of P.Y.12, P.R.53:1 and P.B.15:3, and the weight ratio of three is 7.5 ~ 4.5:5 ~ 2:2 ~ 0.5.

6. the antiultraviolet according to the arbitrary claim of claim 1 to 5 and the optical protective material of blue light, is characterized in that the absorbing wavelength of described toner is 410 ~ 500nm.

7. the optical protective material of antiultraviolet according to claim 6 and blue light, is characterized in that described optical clear resin is selected from PET, PVC, PVB, PC, PVP, PS, PE, PP, ABS, PA, PPE, PBT, PSF, PAR, PEEK, LCP, PMMA or EVA;

Described optical clear tackiness agent is selected from esters of acrylic acid tackiness agent, polyurethane tackifier, polyamide-based tackiness agent, polyester adhesive or epoxy adhesive.

8. the optical protective material of antiultraviolet according to claim 7 and blue light, is characterized in that described white dyes selects dibenzoxazine class, distyryl benzene type or distyryl biphenyl fluorescent bleaches.

9. the optical protective material of antiultraviolet according to claim 8 and blue light, it is characterized in that described white dyes selects 2, two (the 5-tertiary butyl-2-benzoxazolyl) thiophene of 5-, 2, 2 '-(4, 4 '-diphenylethyllene) dibenzoxazine, fluoresent whitener CBS-127, fluoresent whitener CBS-127-P, white dyes SP-128, fluorescent whitening agent OB, fluorescent whitening agent OB-28, fluorescent whitening agent OB-1, fluorescent whitening agent OB-12, white dyes KWN, white dyes KCB, white dyes KCB-2, white dyes KSN, white dyes SWN, fluorescent brightener CBS-X or white dyes FP.

10. the optical protective material of antiultraviolet according to claim 6 and blue light, it is characterized in that described UV light absorber is selected from 2-(the 2'-hydroxyl-3'-tertiary butyl-5'-aminomethyl phenyl)-5-chlorinated benzotriazole, 2-(2 '-hydroxyl-3 ', 5 '-diamyl phenyl) benzotriazole, 2-(the special octyl phenyl of 2'-hydroxyl-5'-) benzotriazole, 2-(the 2'-hydroxyl-3'-tertiary butyl-5'-aminomethyl phenyl)-5-chlorinated benzotriazole, 2-(2H-benzotriazole-2-base)-6-(dodecyl)-4-methylphenol, Octabenzone, ESCALOL 567, at least one in 2-(2'-hydroxyl-5'-aminomethyl phenyl) benzotriazole and 3-Phenoxy-benzaldehyde.