CN208141068U - A kind of anti-blue light eyeglass and the glasses comprising the anti-blue light eyeglass - Google Patents
A kind of anti-blue light eyeglass and the glasses comprising the anti-blue light eyeglass Download PDFInfo
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- CN208141068U CN208141068U CN201820571971.5U CN201820571971U CN208141068U CN 208141068 U CN208141068 U CN 208141068U CN 201820571971 U CN201820571971 U CN 201820571971U CN 208141068 U CN208141068 U CN 208141068U
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- layer
- blue light
- thermal insulation
- light eyeglass
- resin matrix
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Abstract
A kind of glasses the utility model discloses anti-blue light eyeglass and comprising the anti-blue light eyeglass, wherein anti-blue light eyeglass includes resin matrix layer, is successively placed with first thermal insulation layer, nano oxidized film layer, blue absorption layer, UV-absorbing layer from the bottom to top from the upper surface of resin matrix layer;Successively it is placed with second thermal insulation layer and reflection bottom membrane from the bottom to top from the lower surface of resin matrix layer.Anti-blue light eyeglass heat with the above structure is stable, anti-blue light is more longlasting.
Description
Technical field
The utility model relates to optical mirror slip field, in particular to a kind of anti-blue light eyeglass and include the anti-blue light eyeglass
Glasses.
Background technique
In visible light, blue light wavelength is shorter, energy is high, can be directed through crystalline lens and reach eye macular area.LED, electricity
The shortwave blue light of a large amount of irregular frequency, prolonged blue light are remained in the bias lights artificial light sources such as brain, television screen
Irradiation retina can generate free radicals, and be easy to cause retinal pigment epithelium to become feeble and die, cause eye disease.
In order to reduce damage of the blue light to retina, it usually needs handle eyeglass.The applying date is in November, 2013
28 days, application No. is 201320761157.7 Chinese patents to disclose a kind of anti-blue light eyeglass, which includes resin substrate,
It is disposed with stiffened film, the first SiO from the bottom to top from resin substrate upper surface2Film layer, ZrO2Film layer, In2O3Film layer,
Ti2O3Film layer, the 2nd SiO2Film layer and membrane waterproofing.Although being had using anti-blue light eyeglass made from above method preferable anti-
Blue light effect, but heat or light application time are more long afterwards, resin substrate is easily deformed.
Utility model content
The purpose of the utility model is to provide a kind of anti-blue light eyeglasses, have the characteristics that heat stabilization, lasting anti-blue light.
The above-mentioned technical purpose of the utility model technical scheme is that:A kind of anti-blue light eyeglass,
Including resin matrix layer, it is successively placed with first thermal insulation layer, nano-alumina film from the bottom to top from the upper surface of resin matrix layer
Layer, blue absorption layer, UV-absorbing layer;It is successively placed with second thermal insulation layer from the bottom to top from the lower surface of resin matrix layer
With reflection bottom membrane.
Using above technical scheme, resin matrix layer as basic eyeglass, thickness can according to different users into
Row adjustment.Assemble to reduce heat on resin matrix layer, the two sides of resin matrix layer be respectively arranged with first thermal insulation layer and
Second thermal insulation layer, improve resin matrix layer to thermal stability, and conveniently on first thermal insulation layer or second thermal insulation layer surface
It is modified processing.The nano oxidized film layer of first thermal insulation layer upper surface setting is for reflecting harmful blue light and ultraviolet light, blue light
Absorbed layer and UV-absorbing layer further stop ultraviolet light and harmful blue light.Reflection bottom membrane below second thermal insulation layer can be into
One step reflective portion ultraviolet light and harmful blue light.
Further, one of resin matrix selection Polycarbonate Layer, epoxy resin layer or acrylate layer.
The resin matrix of the above type is selected, it is convenient processing modified in the progress of its surface, and above resin matrix itself
To better heat stability.
Further, nano-alumina film layer choosing selects TiO2Layer, Fe2O3Layer or Al2O3One of layer.
It selects the nano-metal-oxide of the above type as nano-alumina film, there is the spy of preferable reflection harmful blue light
Point.
Further, nano oxidized film layer with a thickness of 100-150nm.
Using above technical scheme, most of ultraviolet light and harmful blue light can be more efficiently reflected.
Further, nano oxidized film layer is deposited or is deposited on first thermal insulation layer surface.
Nano-alumina film is arranged on first thermal insulation layer surface using above method, improves nano-alumina film in first thermal insulation layer
The stable connection on surface reduces the damage that process generates first thermal insulation layer.
Further, first thermal insulation layer and second thermal insulation layer select polyimide film.
Using above technical scheme, polyimides membrane stability is preferable, and has good adhesive attraction with resin matrix.
Further, reflect bottom membrane with a thickness of 50-100nm.
Using above technical scheme, eyeglass is further increased to the barrier effect of harmful blue light and ultraviolet light.
Further, UV-absorbing layer is fixed with coloring layer far from the side of blue absorption layer.
Using above technical scheme, coloring layer can be adjusted according to demand, alleviate light direct projection caused by eye
Damage.
The another object of the utility model is to provide a kind of glasses, including above-mentioned anti-blue light eyeglass, the glasses have compared with
Good anti-blue light effect and anti-Deformation Features.
In conclusion the utility model has the advantages that:
1, first thermal insulation layer and second thermal insulation layer are respectively set in resin matrix layer two sides, improve resin matrix layer to heat
Stability, also facilitates and is modified processing on the surface of first thermal insulation layer and second thermal insulation layer, does not influence the property of resin matrix layer
Energy;
2, it successively arranges nano oxidized film layer, blue absorption layer and UV-absorbing layer in the upper surface of first thermal insulation layer,
Effectively stop ultraviolet light and harmful blue light;
3, in the lower surface of second thermal insulation layer setting reflection bottom membrane, anti-blue light eyeglass is further increased to ultraviolet light and is had
The blocking of evil blue light.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of anti-blue light eyeglass in embodiment one;
Fig. 2 is the light transmittance detection figure of anti-blue light eyeglass in embodiment one;
Fig. 3 is the light transmittance detection figure of anti-blue light eyeglass in embodiment two;
Fig. 4 is the light transmittance detection figure of anti-blue light eyeglass in embodiment three;
Fig. 5 is the structural schematic diagram of glasses in example IV;
In figure, 1, resin matrix layer;2, first thermal insulation layer;3, nano oxidized film layer;4, blue absorption layer;5, ultraviolet light is inhaled
Receive layer;6, second thermal insulation layer;7, bottom membrane is reflected;8, coloring layer;9, anti-blue light eyeglass;10, frame.
Specific embodiment
The utility model is described in further detail below in conjunction with attached drawing.
Embodiment one:A kind of anti-blue light eyeglass, as shown in Figure 1, including resin matrix layer 1, resin matrix layer 1 selects poly- carbon
Acid esters layer.Successively it is placed with first thermal insulation layer 2, nano oxidized film layer 3, indigo plant from the bottom to top from the upper surface of resin matrix layer 1
Light absorbing layer 4, UV-absorbing layer 5;Successively it is placed with second thermal insulation layer 6 from the bottom to top from the lower surface of resin matrix layer 1
With reflection bottom membrane 7.
The thickness of resin matrix layer 1 is selected according to the actual situation, and nano oxidized film layer 3 selects TiO in the present embodiment2
Layer, nano oxidized film layer 3, which adopts vapor deposition method, to be fixed in first thermal insulation layer 2, the nano oxidized film layer 3 with a thickness of
100nm.Polyimide film is selected to thermal stability, first thermal insulation layer 2 and second thermal insulation layer 6 for raising resin matrix layer 1
Layer, first thermal insulation layer 2 and second thermal insulation layer 6 with a thickness of 2 μm.Blue absorption layer 4 is by blue-light absorbers 46(Purchased from Ou Wende)
Film is made, and film thickness monitoring is in 100nm.UV-absorbing layer 5 is by ultraviolet absorbing agent UVP-327(Purchased from Big Dipper auxiliary agent)Film
It is made, film thickness monitoring is in 100nm.
In order to further increase the anti-blue light effect of eyeglass, the thickness for reflecting counterdie is set as 50nm, reflection counterdie selection
TiO2Film, TiO2Film adopts vapor deposition method fixed with second thermal insulation layer 6.
In addition, being coated in UV-absorbing layer 5 far from the side of blue absorption layer 4 to adapt to the demand of different user
Coloring layer 8, coloring layer 8 is by green G toner in the present embodiment(Purchased from Clariant)Film is made, and thickness control is at 1 μm.
Light transmittance detection is carried out to anti-blue light eyeglass made from the present embodiment, test results are shown in figure 2.It is tied by test
Fruit is it is found that blue light(400nm)Transmitance be 0.49%, have the effect of preferable blocking harmful blue light.In addition, this is prevented
Blue light eyeglass is put in 120 DEG C of heating for 24 hours, after heating 5 times repeatedly, is cooled to room temperature, detects to anti-blue light eyeglass, anti-blue light
Eyeglass stabilized structure itself, be not distorted deformation, while can be passed through with blocking harmful blue light.
Embodiment two:A kind of anti-blue light eyeglass, with reference to Fig. 1, including resin matrix layer 1, resin matrix layer 1 selects asphalt mixtures modified by epoxy resin
Rouge layer.Successively it is placed with first thermal insulation layer 2, nano oxidized film layer 3, blue light from the bottom to top from the upper surface of resin matrix layer 1
Absorbed layer 4, UV-absorbing layer 5;Successively it is placed with 6 He of second thermal insulation layer from the bottom to top from the lower surface of resin matrix layer 1
Reflect bottom membrane 7.
Nano oxidized film layer 3 selects Fe in the present embodiment2O3Layer, nano oxidized film layer 3 is using being fixed on the by the way of depositing
On one thermal insulation layer 2, the nano oxidized film layer 3 with a thickness of 120nm.For improve resin matrix layer 1 to thermal stability, first every
Thermosphere 2 and second thermal insulation layer 6 select polyimide film, first thermal insulation layer 2 and second thermal insulation layer 6 with a thickness of 2 μm.Blue light
Absorbed layer 4 is by blue-light absorbers 47(Purchased from Ou Wende)Film is made, and film thickness monitoring is in 100nm.UV-absorbing layer 5 is by ultraviolet
Light absorbers UVP-327(Purchased from Big Dipper auxiliary agent)Film is made, and film thickness monitoring is in 100nm.
In order to further increase the anti-blue light effect of eyeglass, the thickness for reflecting counterdie is set as 80nm, reflection counterdie selection
TiO2Film, TiO2Film adopts vapor deposition method fixed with second thermal insulation layer 6.
In addition, being coated in UV-absorbing layer 5 far from the side of blue absorption layer 4 to adapt to the demand of different user
Coloring layer 8, coloring layer 8 is by yellow 3G in the present embodiment(Purchased from Clariant)Film is made, and thickness control is at 1 μm.
Light transmittance detection is carried out to anti-blue light eyeglass made from the present embodiment, test results are shown in figure 3.It is tied by test
Fruit is it is found that blue light(400nm)Transmitance be 0.45%, have the effect of preferable blocking harmful blue light.In addition, this is prevented
Blue light eyeglass is put in 120 DEG C of heating for 24 hours, after heating 5 times repeatedly, is cooled to room temperature, detects to anti-blue light eyeglass, anti-blue light
Eyeglass stabilized structure itself, be not distorted deformation, while can be passed through with blocking harmful blue light.
Embodiment three:A kind of anti-blue light eyeglass, with reference to Fig. 1, including resin matrix layer 1, resin matrix layer 1 selects acrylic acid
Ester layer.Successively it is placed with first thermal insulation layer 2, nano oxidized film layer 3, blue light from the bottom to top from the upper surface of resin matrix layer 1
Absorbed layer 4, UV-absorbing layer 5;Successively it is placed with 6 He of second thermal insulation layer from the bottom to top from the lower surface of resin matrix layer 1
Reflect bottom membrane 7.
Nano oxidized film layer 3 selects Al in the present embodiment2O3Layer, nano oxidized film layer 3, which adopts vapor deposition method, is fixed on the
On one thermal insulation layer 2, the nano oxidized film layer 3 with a thickness of 150nm.For improve resin matrix layer 1 to thermal stability, first every
Thermosphere 2 and second thermal insulation layer 6 select polyimide film, first thermal insulation layer 2 and second thermal insulation layer 6 with a thickness of 2 μm.Blue light
Absorbed layer 4 is by blue-light absorbers 47(Purchased from Ou Wende)Film is made, and film thickness monitoring is in 100nm.UV-absorbing layer 5 is by ultraviolet
Light absorbers UVP-327(Purchased from Big Dipper auxiliary agent)Film is made, and film thickness monitoring is in 100nm.
In order to further increase the anti-blue light effect of eyeglass, the thickness for reflecting counterdie is set as 100nm, reflection counterdie selection
TiO2Film, TiO2Film adopts vapor deposition method fixed with second thermal insulation layer 6.
In addition, being coated in UV-absorbing layer 5 far from the side of blue absorption layer 4 to adapt to the demand of different user
Coloring layer 8, coloring layer 8 is by brown 3RT in the present embodiment(Purchased from Clariant)Film is made, and thickness control is at 1 μm.
Light transmittance detection is carried out to anti-blue light eyeglass made from the present embodiment, test results are shown in figure 4.It is tied by test
Fruit is it is found that blue light(400nm)Transmitance be 0.43%, have the effect of preferable blocking harmful blue light.In addition, this is prevented
Blue light eyeglass is put in 120 DEG C of heating for 24 hours, after heating 5 times repeatedly, is cooled to room temperature, detects to anti-blue light eyeglass, anti-blue light
Eyeglass stabilized structure itself, be not distorted deformation, while can be passed through with blocking harmful blue light.
Example IV:A kind of glasses, as shown in figure 5, being described including embodiment one to three any embodiment of embodiment anti-
Blue light eyeglass 9 further includes the frame 10 for being packaged in 9 periphery of anti-blue light eyeglass, and anti-blue light eyeglass 9 and frame 10 can be according to realities
Border situation is adjusted, which has preferable anti-Deformation Features and anti-blue light effect.
This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability
Field technique personnel can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but
As long as within the protection scope of the present utility model all by the protection of Patent Law.
Claims (9)
1. a kind of anti-blue light eyeglass, including resin matrix layer(1), it is characterised in that:From resin matrix layer(1)Upper surface rise by
Under supreme be successively placed with first thermal insulation layer(2), nano oxidized film layer(3), blue absorption layer(4), UV-absorbing layer(5);
From resin matrix layer(1)Lower surface rise successively be placed with second thermal insulation layer from the bottom to top(6)With reflection bottom membrane(7).
2. anti-blue light eyeglass according to claim 1, it is characterised in that:Resin matrix layer(1)Select Polycarbonate Layer, ring
One of oxygen resin layer or acrylate layer.
3. anti-blue light eyeglass according to claim 1, it is characterised in that:Nano oxidized film layer(3)Select TiO2Layer, Fe2O3
Layer or Al2O3One of layer.
4. anti-blue light eyeglass according to claim 3, it is characterised in that:Nano oxidized film layer(3)With a thickness of 100-
150nm。
5. anti-blue light eyeglass according to claim 3, it is characterised in that:Nano oxidized film layer(3)It is deposited or is deposited on
First thermal insulation layer(2)Surface.
6. anti-blue light eyeglass according to claim 1, it is characterised in that:First thermal insulation layer(2)And second thermal insulation layer(6)?
Select polyimide film.
7. anti-blue light eyeglass according to claim 1, it is characterised in that:Reflect bottom membrane(7)With a thickness of 50-100nm.
8. anti-blue light eyeglass according to claim 1-7, it is characterised in that:UV-absorbing layer(5)Far from blue
Light absorbing layer(4)Side be fixed with coloring layer(8).
9. a kind of glasses, it is characterised in that:Including the described in any item anti-blue light eyeglasses of claim 1-8.
Priority Applications (1)
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CN201820571971.5U CN208141068U (en) | 2018-04-20 | 2018-04-20 | A kind of anti-blue light eyeglass and the glasses comprising the anti-blue light eyeglass |
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CN201820571971.5U CN208141068U (en) | 2018-04-20 | 2018-04-20 | A kind of anti-blue light eyeglass and the glasses comprising the anti-blue light eyeglass |
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CN208141068U true CN208141068U (en) | 2018-11-23 |
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CN201820571971.5U Expired - Fee Related CN208141068U (en) | 2018-04-20 | 2018-04-20 | A kind of anti-blue light eyeglass and the glasses comprising the anti-blue light eyeglass |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108594469A (en) * | 2018-04-20 | 2018-09-28 | 台州市玉兔眼镜有限公司 | A kind of anti-blue light eyeglass, preparation method and the glasses for including the anti-blue light eyeglass |
-
2018
- 2018-04-20 CN CN201820571971.5U patent/CN208141068U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108594469A (en) * | 2018-04-20 | 2018-09-28 | 台州市玉兔眼镜有限公司 | A kind of anti-blue light eyeglass, preparation method and the glasses for including the anti-blue light eyeglass |
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20181123 Termination date: 20210420 |
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CF01 | Termination of patent right due to non-payment of annual fee |