CN207586562U - A kind of 3D sunglasses lenses and 3D sunglasses - Google Patents

Abstract

The utility model provides a kind of 3D sunglasses lenses, the substrate of the 3D sunglasses lenses is 3D polaroids, the 3D polaroids include the first main surface and the second main surface, UV ultraviolet resistant layers, stiffening layer, protecting against shock strengthening layer and wear-resisting strengthening layer are equipped in the first main surface, film plating layer or dye layer are equipped in the second main surface.3D sunglasses lenses provided by the utility model are applicable in that scene is wider, frequency of use higher compared to single 3D eyeglasses and sunglasses lenses, different mirror plate layers are integrally combined by improving material and surface treatment, lens surface reinforcing is made to be not easy to be injured, material improves light transmittance higher, eyeglass thickens intensity bigger, and texture is more preferable.The utility model also provides a kind of 3D sunglasses, including frame and above-mentioned 3D sunglasses lenses, can be not only used for watching all 3D films and television programs, and can stop strong light and antiultraviolet injury eyes when outgoing.

Description

A kind of 3D sunglasses lenses and 3D sunglasses

Technical field

The utility model is related to glasses optical component fields, and in particular to a kind of to have the function of 3D and anti-ultraviolet function Eyeglass and glasses.

Background technology

3D glasses are a kind of tools of viewing 3D films common in cinema, and current 3D glasses are big multi-functional single, It will be idle after 3D films and television programs have been watched, practicability has limitation, causes the waste of resource to a certain extent, if The function of sunglasses can be increased on 3D glasses, have the function of anti glare anti static coatings, antiultraviolet, while by plated film or dyeing, make It will certainly more be favored with fashion by consumer.

On the other hand, the 3D eyeglass usually used in movie theatre, using common 3D polarized lenses, viewing eyeglass list Thin, generally in 0.5mm hereinafter, quality is more soft, surface is easily scratched thickness, and viewing is caused to obscure, and its eyeglass light transmission Rate is poor, influences video viewing effect.

With the release being on the increase with 3D Mobile phone screens of 3D films and television programs, people increasingly increase the demand of 3D glasses Add, the requirement to lens quality is constantly promoted, and especially just has very high requirement in terms of light transmittance, toughness, wearability.

Utility model content

First of the utility model is designed to provide a kind of 3D sunglasses lenses, on the one hand solves existing 3D lens functions The problem of single, 3D sunglasses lenses provided by the utility model had not only had the function of 3D spectacle lens, but also were provided simultaneously with sunglasses lenses The function of anti glare anti static coatings, antiultraviolet；On the other hand, by increasing stiffening layer, protecting against shock strengthening layer and wear-resisting reinforcing on eyeglass Layer, solves the problems, such as that thin eyeglass, soft texture, surface are easily scratched and 3D viewing light transmittances are poor.

To achieve these goals, the utility model provides a kind of 3D sunglasses lenses, and the substrate of the 3D sunglasses lenses is 3D polaroids, the 3D polaroids include the first main surface and the second main surface, and UV UV resistance is equipped in first main surface Line layer；

Further, it is additionally provided with stiffening layer between the 3D polaroids and the UV ultraviolet resistant layers；

Further, strengthen in be on one side additionally provided with protecting against shock of the UV ultraviolet resistant layers far from first main surface Layer；

Further, it is additionally provided with wear-resisting reinforcing on one side far from the UV ultraviolet resistant layers in the protecting against shock strengthening layer Layer；

Further, film plating layer or dye layer are equipped in the second main surface.

The thickness range of 3D sunglasses lenses provided by the utility model is 0.5mm to 2mm.

Preferably, the thickness range of the 3D sunglasses lenses is 0.65mm to 1.2mm.

Preferably, the thickness of the 3D sunglasses lenses is 0.8mm.

The camber ranging from 0 to 400 of 3D sunglasses lenses provided by the utility model.

Preferably, the camber ranging from 100-300 of the 3D sunglasses lenses.

Preferably, the camber of the 3D sunglasses lenses is 200.

The manufacture material of 3D sunglasses lenses provided by the utility model includes one in nylon, PC, CR39, PMMA or resin Kind.

The manufacturing method of 3D sunglasses lenses provided by the utility model, includes the following steps：

S1：Clean 3D polaroids；

S2：First main surface of 3D polaroids is immersed in the hardening liquid for plated film stiffening layer；

S3：The 3D polaroids for impregnating hardening liquid are heated in an oven and are allowed to polymerize；

S4：UV ultraviolet resistant layers are plated in stiffening layer；

S5：Protecting against shock strengthening layer is plated in UC ultraviolet resistant layers；

S6：Wear-resisting strengthening layer is plated on protecting against shock strengthening layer；

S7：Film plating layer or dye layer are plated in the second main surface of 3D polaroids.

Preferably, hardening liquid described in step S2 contains organic substrate and the inorganic ultra micron object including element silicon；

Preferably, the heating temperature of step S3 is 100 DEG C, and polymerization time is 4-5 hours；

Preferably, the operating method of step S4 is：Eyeglass is put into vacuum coating cabin, using ion beam bombardment technology, UV ultraviolet resistant layers are plated in stiffening layer；

Preferably, UV ultraviolet resistant layers described in step S4 include metal oxide；

Preferably, the metal oxide that UV ultraviolet resistant layers described in step S4 include is silica and/or zirconium oxide；

Preferably, protecting against shock strengthening layer is plated in UC ultraviolet resistant layers by step S5 using sedimentation；

Preferably, wear-resisting strengthening layer is plated on protecting against shock strengthening layer by step S6 using sedimentation；

Preferably, film plating layer described in step S7 is specular layer.

3D sunglasses lenses provided by the utility model are applicable in that scene is wider, makes compared to single 3D eyeglasses and sunglasses lenses With frequency higher, different mirror plate layers are integrally combined by improving material and surface treatment, lens surface reinforcing is made to be not easy to be hindered And material improves light transmittance higher, eyeglass thickens intensity bigger, and texture is more preferable.

Another purpose of the utility model is to provide a kind of 3D sunglasses, including frame and above-mentioned 3D sunglasses lenses, both Available for watching all 3D films and television programs, and it can stop strong light and antiultraviolet injury eyes when outgoing.

Description of the drawings

In order to illustrate more clearly of the technical scheme in the embodiment of the utility model, will make below to required in embodiment Attached drawing is briefly described, it should be apparent that, the accompanying drawings in the following description is only the embodiment of the utility model, for For those of ordinary skill in the art, without creative efforts, can also it be obtained according to the attached drawing of offer Its attached drawing.

Fig. 1 is the 3D sunglasses lenses composition schematic diagrams that the utility model embodiment 1, embodiment 3 and embodiment 5 provide.

Reference numeral：3D sunglasses lenses 100,3D polarized lenses 200, the first main surface 210, the second main surface 220, stiffened 211, UV of layer ultraviolet resistant layers 212, protecting against shock strengthening layer 213, wear-resisting strengthening layer 214, film plating layer 221.

Fig. 2 is the 3D sunglasses lenses composition schematic diagrams that the utility model embodiment 2 and embodiment 4 provide.

Reference numeral：3D sunglasses lenses 100,3D polarized lenses 200, the first main surface 210, the second main surface 220, stiffened 211, UV of layer ultraviolet resistant layers 212, protecting against shock strengthening layer 213, wear-resisting strengthening layer 214, dye layer 222.

Specific embodiment

The utility model is described in more detail with reference to the accompanying drawings and examples.

Embodiment 1

Fig. 1 is please referred to, present embodiment discloses a kind of 3D sunglasses lenses, the substrate of the 3D sunglasses lenses is 3D polarisations Piece, the 3D polaroids include the first main surface 210 and the second main surface 220, are equipped with successively in first main surface 210 Stiffening layer 211, UV ultraviolet resistant layers 212, protecting against shock strengthening layer 213 and wear-resisting strengthening layer 214,220 set on the second major surface There is film plating layer 221.

As a kind of embodiment of the utility model, the 3D sunglasses lenses 100 are aspherical.

The thickness of the 3D sunglasses lenses 100 is 0.5mm.

The camber of the 3D sunglasses lenses 100 is 0.

The material of the 3D sunglasses lenses 100 includes nylon.

The manufacturing method of 3D sunglasses lenses that the present embodiment is provided, includes the following steps：

S1：Clean 3D polaroids；

S2：First main surface of 3D polaroids is immersed in the hardening liquid for plated film stiffening layer；

S3：The 3D polaroids for impregnating hardening liquid are heated in an oven and are allowed to polymerize；

S4：UV ultraviolet resistant layers are plated in stiffening layer；

S5：Protecting against shock strengthening layer is plated in UC ultraviolet resistant layers；

S6：Wear-resisting strengthening layer is plated on protecting against shock strengthening layer；

S7：Film plating layer is plated in the second main surface of 3D polaroids.

Hardening liquid described in step S2 contains organic substrate and the inorganic ultra micron object including element silicon；

The heating temperature of step S3 is 100 DEG C, and polymerization time is 4 hours；

The operating method of step S4 is：Eyeglass is put into vacuum coating cabin, using ion beam bombardment technology, by the anti-purples of UV Outside line layer is plated in stiffening layer；

The metal oxide that UV ultraviolet resistant layers described in step S4 include is silica；

Protecting against shock strengthening layer is plated in UC ultraviolet resistant layers by step S5 using sedimentation；

Wear-resisting strengthening layer is plated on protecting against shock strengthening layer by step S6 using sedimentation；

Film plating layer described in step S7 is specular layer.

Embodiment 2

Fig. 2 is please referred to, present embodiment discloses a kind of 3D sunglasses lenses, the substrate of the 3D sunglasses lenses is 3D polarisations Piece, the 3D polaroids include the first main surface 210 and the second main surface 220, are equipped with successively in first main surface 210 Stiffening layer 211, UV ultraviolet resistant layers 212, protecting against shock strengthening layer 213 and wear-resisting strengthening layer 214,220 set on the second major surface There is dye layer 222.

As a kind of embodiment of the utility model, the 3D sunglasses lenses 100 are spherical surface.

The thickness of the 3D sunglasses lenses 100 is 2mm.

The camber of the 3D sunglasses lenses 100 is 400.

The material of the 3D sunglasses lenses 100 includes PC.

The manufacturing method of 3D sunglasses lenses that the present embodiment is provided, includes the following steps：

S1：Clean 3D polaroids；

S2：First main surface of 3D polaroids is immersed in the hardening liquid for plated film stiffening layer；

S3：The 3D polaroids for impregnating hardening liquid are heated in an oven and are allowed to polymerize；

S4：UV ultraviolet resistant layers are plated in stiffening layer；

S5：Protecting against shock strengthening layer is plated in UC ultraviolet resistant layers；

S6：Wear-resisting strengthening layer is plated on protecting against shock strengthening layer；

S7：Dye layer is plated in the second main surface of 3D polaroids.

Hardening liquid described in step S2 contains organic substrate and the inorganic ultra micron object including element silicon；

The heating temperature of step S3 is 100 DEG C, and polymerization time is 5 hours；

The operating method of step S4 is：Eyeglass is put into vacuum coating cabin, using ion beam bombardment technology, by the anti-purples of UV Outside line layer is plated in stiffening layer；

The metal oxide that UV ultraviolet resistant layers described in step S4 include is zirconium oxide；

Protecting against shock strengthening layer is plated in UC ultraviolet resistant layers by step S5 using sedimentation；

Wear-resisting strengthening layer is plated on protecting against shock strengthening layer by step S6 using sedimentation；

Embodiment 3

Fig. 1 is please referred to, present embodiment discloses a kind of 3D sunglasses lenses, the substrate of the 3D sunglasses lenses is 3D polarisations Piece, the 3D polaroids include the first main surface 210 and the second main surface 220, are equipped with successively in first main surface 210 Stiffening layer 211, UV ultraviolet resistant layers 212, protecting against shock strengthening layer 213 and wear-resisting strengthening layer 214,220 set on the second major surface There is film plating layer 221.

As a kind of embodiment of the utility model, the 3D sunglasses lenses 100 are aspherical.

The thickness of the 3D sunglasses lenses 100 is 0.65mm.

The camber of the 3D sunglasses lenses 100 is 100.

The material of the 3D sunglasses lenses 100 includes CR39.

The manufacturing method of 3D sunglasses lenses that the present embodiment is provided, includes the following steps：

S1：Clean 3D polaroids；

S2：First main surface of 3D polaroids is immersed in the hardening liquid for plated film stiffening layer；

S3：The 3D polaroids for impregnating hardening liquid are heated in an oven and are allowed to polymerize；

S4：UV ultraviolet resistant layers are plated in stiffening layer；

S5：Protecting against shock strengthening layer is plated in UC ultraviolet resistant layers；

S6：Wear-resisting strengthening layer is plated on protecting against shock strengthening layer；

S7：Film plating layer is plated in the second main surface of 3D polaroids.

Hardening liquid described in step S2 contains organic substrate and the inorganic ultra micron object including element silicon；

The heating temperature of step S3 is 100 DEG C, and polymerization time is 4 hours；

The operating method of step S4 is：Eyeglass is put into vacuum coating cabin, using ion beam bombardment technology, by the anti-purples of UV Outside line layer is plated in stiffening layer；

The metal oxide that UV ultraviolet resistant layers described in step S4 include is zirconium oxide；

Protecting against shock strengthening layer is plated in UC ultraviolet resistant layers by step S5 using sedimentation；

Wear-resisting strengthening layer is plated on protecting against shock strengthening layer by step S6 using sedimentation；

Film plating layer described in step S7 is specular layer.

Embodiment 4

Fig. 2 is please referred to, present embodiment discloses a kind of 3D sunglasses lenses, the substrate of the 3D sunglasses lenses is 3D polarisations Piece, the 3D polaroids include the first main surface 210 and the second main surface 220, are equipped with successively in first main surface 210 Stiffening layer 211, UV ultraviolet resistant layers 212, protecting against shock strengthening layer 213 and wear-resisting strengthening layer 214,220 set on the second major surface There is dye layer 222.

As a kind of embodiment of the utility model, the 3D sunglasses lenses 100 are aspherical.

The thickness of the 3D sunglasses lenses 100 is 1.2mm.

The camber of the 3D sunglasses lenses 100 is 300.

The material of the 3D sunglasses lenses 100 includes PMMA.

The manufacturing method of 3D sunglasses lenses that the present embodiment is provided, includes the following steps：

S1：Clean 3D polaroids；

S2：First main surface of 3D polaroids is immersed in the hardening liquid for plated film stiffening layer；

S3：The 3D polaroids for impregnating hardening liquid are heated in an oven and are allowed to polymerize；

S4：UV ultraviolet resistant layers are plated in stiffening layer；

S5：Protecting against shock strengthening layer is plated in UC ultraviolet resistant layers；

S6：Wear-resisting strengthening layer is plated on protecting against shock strengthening layer；

S7：Dye layer is plated in the second main surface of 3D polaroids.

Hardening liquid described in step S2 contains organic substrate and the inorganic ultra micron object including element silicon；

The heating temperature of step S3 is 100 DEG C, and polymerization time is 5 hours；

The operating method of step S4 is：Eyeglass is put into vacuum coating cabin, using ion beam bombardment technology, by the anti-purples of UV Outside line layer is plated in stiffening layer；

The metal oxide that UV ultraviolet resistant layers described in step S4 include is silica；

Protecting against shock strengthening layer is plated in UC ultraviolet resistant layers by step S5 using sedimentation；

Wear-resisting strengthening layer is plated on protecting against shock strengthening layer by step S6 using sedimentation；

Embodiment 5

Fig. 1 is please referred to, present embodiment discloses a kind of 3D sunglasses lenses, the substrate of the 3D sunglasses lenses is 3D polarisations Piece, the 3D polaroids include the first main surface 210 and the second main surface 220, are equipped with successively in first main surface 210 Stiffening layer 211, UV ultraviolet resistant layers 212, protecting against shock strengthening layer 213 and wear-resisting strengthening layer 214 are set in the second main surface 220 There is film plating layer 221.

As a kind of embodiment of the utility model, the 3D sunglasses lenses 100 are aspherical.

The thickness of the 3D sunglasses lenses 100 is 0.8mm.

The camber of the 3D sunglasses lenses 100 is 200.

The material of the 3D sunglasses lenses 100 includes resin.

The manufacturing method of 3D sunglasses lenses that the present embodiment is provided, includes the following steps：

S1：Clean 3D polaroids；

S2：First main surface of 3D polaroids is immersed in the hardening liquid for plated film stiffening layer；

S3：The 3D polaroids for impregnating hardening liquid are heated in an oven and are allowed to polymerize；

S4：UV ultraviolet resistant layers are plated in stiffening layer；

S5：Protecting against shock strengthening layer is plated in UC ultraviolet resistant layers；

S6：Wear-resisting strengthening layer is plated on protecting against shock strengthening layer；

S7：Film plating layer is plated in the second main surface of 3D polaroids.

Hardening liquid described in step S2 contains organic substrate and the inorganic ultra micron object including element silicon；

The heating temperature of step S3 is 100 DEG C, and polymerization time is 4.5 hours；

The operating method of step S4 is：Eyeglass is put into vacuum coating cabin, using ion beam bombardment technology, by the anti-purples of UV Outside line layer is plated in stiffening layer；

The metal oxide that UV ultraviolet resistant layers described in step S4 include is silica and zirconium oxide；

Protecting against shock strengthening layer is plated in UC ultraviolet resistant layers by step S5 using sedimentation；

Wear-resisting strengthening layer is plated on protecting against shock strengthening layer by step S6 using sedimentation；

Film plating layer described in step S7 is specular layer.

The 3D sunglasses lenses that the utility model embodiment 1 to 5 provides have higher compared to existing common 3D eyeglasses Light transmittance, higher hardness, stronger wearability and there is antiultraviolet, table 1 is with existing 3 kinds common 3D eyeglasses Embodiment 1, comparative example 2, comparative example 3 and the optics and physical mechanical property of embodiment 1 to 5 compare as a comparison Table.

1 comparative example of table and embodiment optics and physical mechanical property contrast table

Embodiment 6

The present embodiment discloses a kind of 3D sunglasses, including frame and 3D sunglasses lenses, the substrate of the 3D sunglasses lenses For 3D polaroids, the 3D polaroids include the first main surface 210 and the second main surface 220, in first main surface 210 It is equipped with stiffening layer 211, UV ultraviolet resistant layers 212, protecting against shock strengthening layer 213 and wear-resisting strengthening layer 214 successively, in the second main surface Upper 220 are equipped with film plating layer 221 or dye layer 222.

As a kind of embodiment of the utility model, the 3D sunglasses lenses 100 are aspherical.

The thickness range of the 3D sunglasses lenses 100 is 0.5 to 2.0mm.

The camber ranging from 0 to 400 of the 3D sunglasses lenses 100.

The material of the 3D sunglasses lenses 100 includes one kind in nylon, PC, CR39, PMMA or resin.

After one secondary common sunglasses frame loads onto 3D sunglasses lenses provided by the utility model, this pair of glasses does not have viewing singly The functions such as the 3D films of cinema, 3D TVs, 3D mobile phones, moreover it is possible to have the anti glare anti static coatings, sun-proof, polarisation, UV resistance of common sunglasses The functions such as line.

To the above description of embodiment disclosed in the utility model, professional and technical personnel in the field is enable to realize or make Use the utility model.A variety of modifications of these embodiments will be apparent for those skilled in the art, The general principles defined herein can without departing from the spirit or scope of the present utility model, in other embodiments Middle realization.Therefore, the utility model is not intended to be limited to the embodiments shown herein, and is to fit to public with institute herein The consistent most wide range of the principle and features of novelty opened.

Claims (8)

1. a kind of 3D sunglasses lenses, which is characterized in that the substrate of the 3D sunglasses lenses be 3D polaroids, the 3D polaroids packet The first main surface and the second main surface are included, UV ultraviolet resistant layers are equipped in first main surface, in the 3D polaroids and institute It states and stiffening layer is additionally provided between UV ultraviolet resistant layers, the thickness range of the 3D sunglasses lenses is 0.5mm to 2mm.

2. 3D sunglasses lenses according to claim 1, which is characterized in that in the UV ultraviolet resistant layers far from described first Main surface is additionally provided with protecting against shock strengthening layer and wear-resisting strengthening layer on one side.

3. 3D sunglasses lenses according to claim 1, which is characterized in that be equipped with film plating layer or dye in second main surface Chromatograph.

4. 3D sunglasses lenses according to claim 1, which is characterized in that the thickness of the 3D sunglasses lenses is 0.8mm.

5. 3D sunglasses lenses according to claim 1, which is characterized in that the camber ranging from 0 of the 3D sunglasses lenses to 400。

6. 3D sunglasses lenses according to claim 1, which is characterized in that the camber of the 3D sunglasses lenses is 200.

7. 3D sunglasses lenses according to claim 1, which is characterized in that the material of the 3D sunglasses lenses include nylon, One kind in PC, CR39, PMMA or resin.

8. a kind of 3D sunglasses, including frame and 3D sunglasses lenses, which is characterized in that the 3D sunglasses lenses are claim 1 The 3D sunglasses lenses.