CN203673162U - Anti-blue-ray lens - Google Patents

Abstract

The utility model relates to an anti-blue-ray lens. The anti-blue-ray lens comprises a transparent resin substrate; a hardening film is arranged on the surface of the transparent resin substrate; a first SiO2 film layer, a ZrO2 film layer, an In2O3 film layer, a Ti2O3 film layer, a second SiO2 film layer and a water-proof film layer are arranged on the surface of the hardening film in sequence. According to the anti-blue-ray lens disclosed by the utility model, the film layer structures are simplified, the effect on filtering the blue rays with the wavelength of 400 to 500 nm can reach over 40 percent by the introduction of the In2O3 film layer and the Ti2O3 film layer in sequence, and the blue-ray radiation can be filtered effectively. The stabbing pain and the soreness of eyes, the eye dryness and the eyestrain are reduced, and the cataract and the maculopathy are prevented.

Description

Anti-blue light eyeglass

Technical field

The utility model belongs to the technical field of optical material, and in particular, the utility model relates to a kind of anti-blue light eyeglass.

Background technology

Blue light refers to that wavelength is the high-energy visible ray of 400～500nm.There is various injuries and impact to human eye in this light, because shortwave blue light has very high energies, can penetrate the through retina of crystalline lens, the harm of blue ray radiation is mainly reflected in the following aspects: (1) blue light illumination retina can produce free radical, and these free radicals can cause retinal pigment epithelium decline, thereby epithelial decline can cause photaesthesia cell to lack nutrient causes vision impairment, very easily cause macula retinae portion pathology, and macular diseases almost becomes the No.1 killer of global human eyesight.(2) blue light is injected eyeground after focusing on, focus does not drop on retina, but drop between retina and crystalline lens, this has just increased the aberration distance that light focuses within the eye, and distance between intraocular focus is the main cause that forms blurred vision, so injecting of blue light can aggravation aberration and dimness of vision degree, then eye muscle is overstretched, eye blood supply is overstretched, and ocular blood supply is strengthened, thereby increases the weight of fatigue.(3) in daily life, conventional LED lamp, computer and mobile phone etc. send blue light intensity and have approached blue light intensity in sunlight at noon, and back spectacle is very near, at this moment blue light on amphiblestroid injury and on the impact of melatonin secretion considerably beyond the exposure intensity of 1.3 lux blue lights, because blue light stimulates brain, thereby destroying hormone secretion balance, the generation that suppresses melatonin secretion and improve cortex hormone of aadrenaline directly affects sleep quality.Studies show that blue light is present in the light such as LED lamp, computer monitor, mobile phone, digital product, LCDs, super bath in a large number.In order to prevent almost ubiquitous study of blue light injury, be badly in need of a kind of blue light safety goggles really with anti-blue light effect of exploitation.

Utility model content

In order to solve the problems of the technologies described above, the purpose of this utility model is to provide a kind of anti-blue light eyeglass.

Anti-blue light eyeglass described in the utility model, comprises transparent resin substrate, on described transparent resin substrate surface, is provided with and adds dura mater, it is characterized in that: on dura mater surface, have successively a SiO in described adding ₂rete, ZrO ₂rete, In ₂o ₃rete, Ti ₂o ₃rete, the 2nd SiO ₂rete and membrane waterproofing.

Wherein, a described SiO ₂the thickness of rete is 500nm, described ZrO ₂the thickness of rete is 320nm, In ₂o ₃the thickness of rete is 85nm, Ti ₂o ₃the thickness of rete is 350nm, the 2nd SiO ₂the thickness of rete is 780nm.

Anti-blue light eyeglass described in the utility model compared with prior art has following beneficial effect:

Anti-blue light eyeglass rete of the prior art is 8～12 layers substantially, film layer structure complexity, and cost is higher, and its blue light filter effect that is 400～500nm wavelength for wavelength coverage generally only can reach 10～30% left and right; And anti-blue light eyeglass described in the utility model is by introducing In ₂o ₃rete and Ti ₂o ₃rete, has not only simplified film layer structure, and can reach more than 40% the blue light filter effect of wavelength 400～500nm, can effectively filter blue ray radiation, be conducive to reduce eyes stung acid swollen, minimizing glasses are dry and astringent, kopiopia, prevention and ARM.

Accompanying drawing explanation

Fig. 1 is the structural representation of the anti-blue light eyeglass described in embodiment 1.

Fig. 2 is wavelength one transmittance graph of the anti-blue light eyeglass described in embodiment 1.

Embodiment

Below with reference to embodiment and accompanying drawing, structure and the performance of described anti-blue light eyeglass are described in further detail.

Embodiment 1

As shown in Figure 1, the anti-blue light eyeglass described in the present embodiment, comprises transparent resin substrate 10, on described transparent resin substrate 10 surfaces, is provided with and adds dura mater 20, has successively a SiO in described adding on dura mater 20 surfaces ₂rete 30, ZrO ₂rete 40, In ₂o ₃rete 50, Ti ₂o ₃rete 60, the two SiO ₂rete 70 and membrane waterproofing 80.A described SiO ₂the thickness of rete is 500nm, described ZrO ₂the thickness of rete is 320nm, Ti ₂o ₃the thickness of rete is 350nm, In ₂o ₃the thickness of rete is 85nm, the 2nd SiO ₂the thickness of rete is 780nm (be only each rete schematic diagram in Fig. 1, the thickness of each rete is as the criterion with literature record).And described in add dura mater and waterproof membrane thickness can select as required, and can not make a significant impact the blue light filter effect of the anti-blue light eyeglass described in the present embodiment.In addition, described transparent resin substrate can be resin substrate or optical base-substrate, for example, can select the transparent resin eyeglass of various highs index of refraction.Wherein, described SiO ₂rete, ZrO ₂rete, In ₂o ₃rete and Ti ₂o ₃rete, can adopt vacuum vapor plating, or utilizes sputtering target sputtering sedimentation, and the thickness of plated film can obtain by parameter controls such as sedimentation time, thermal evaporation temperature and sputtering powers.As shown in Figure 2, anti-blue light eyeglass described in the present embodiment can reach more than 40% the filter effect of blue light, and wearer can effectively prevent blue ray radiation, and it is swollen to reduce eyes stung acid, minimizing glasses are dry and astringent, kopiopia, reduce the risk that cataract and ARM occur.

Comparative example 1

Anti-blue light protection glass described in the present embodiment, the vacuum evaporation eight tunic layers successively from the bottom to top on transparent resin substrate surface, ground floor acrylate polyurethane and SiO ₂nano-composite coating, second layer SiO ₂rete, second layer ZrO ₂rete, the 4th layer of SiO ₂rete, layer 5 ZrO ₂rete, layer 6 nano indium tin metal oxide rete, layer 7 SiO ₂rete, the 8th layer of water barrier.Wherein ground floor acrylate polyurethane and SiO ₂nano-composite coating thickness is 300 nanometers, second layer SiO ₂thicknesses of layers is 170 nanometers, second layer ZrO ₂thicknesses of layers is 320 nanometers, the 4th layer of SiO ₂thicknesses of layers is 150 nanometers, layer 5 ZrO ₂thicknesses of layers is 750 nanometers, and layer 6 nano indium tin metal oxide rete 7 thickness are 850 nanometers, layer 7 SiO ₂thicknesses of layers is 750 nanometers, and the 8th layer of membrane waterproofing thickness is 150 nanometers.Described anti-blue light protection glass is only 25% left and right to the filter effect of blue light, far below the anti-blue light eyeglass described in embodiment 1.

For the ordinary skill in the art; specific embodiment is just exemplarily described the utility model by reference to the accompanying drawings; obviously the utility model specific implementation is not subject to the restrictions described above; as long as adopted the improvement of the various unsubstantialities that method of the present utility model design and technical scheme carry out; or without improving, design of the present utility model and technical scheme are directly applied to other occasion, all within protection domain of the present utility model.

Claims (2)

1. an anti-blue light eyeglass, comprises transparent resin substrate, on described transparent resin substrate surface, is provided with and adds dura mater, it is characterized in that: on dura mater surface, have successively a SiO in described adding ₂rete, ZrO ₂rete, In ₂o ₃rete, Ti ₂o ₃rete, the 2nd SiO ₂rete and membrane waterproofing.

2. anti-blue light eyeglass according to claim 1, is characterized in that: a described SiO ₂the thickness of rete is 500nm, described ZrO ₂the thickness of rete is 320nm, In ₂o ₃the thickness of rete is 85nm, Ti ₂o ₃the thickness of rete is 350nm, the 2nd SiO ₂the thickness of rete is 780nm.

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