CN202126556U - Three-dimensional (3D) liquid crystal lens suitable for various display systems - Google Patents

Abstract

The utility model discloses a three-dimensional (3D) liquid crystal lens suitable for various display systems, which sequentially comprises a lower polaroid, a lower glass substrate, a lower transparent conducting film, a lower insulation layer, a lower oriented layer, a liquid crystal layer, sealing glue, an upper oriented layer, an upper insulation layer, an upper transparent conducting film, an upper glass substrate and an upper polaroid in a direction from a display screen to an outside light source. The sealing glue is in sealing connection onto the edges of the upper glass substrate and the lower glass substrate. The lower glass substrate, the lower transparent conducting film, the lower insulation layer, the lower oriented layer, the sealing glue, the upper oriented layer, the upper insulation layer, the upper transparent conducting film and the upper glass substrate form a liquid crystal box together. The liquid crystal layer is arranged in the liquid crystal box, and a silicon gel supporting body is arranged in the liquid crystal box. The 3D liquid crystal lens is strong in pressing resistance, good in watching effect and suitable for various display systems.

Description

A kind of 3D liquid crystal lens that is applicable to various display systems

Technical field

The utility model relates to a kind of eyeglass, is meant a kind of 3D liquid crystal lens that is applicable to various display systems especially.

Background technology

Continuous development along with lcd technology; The liquid crystal display device range of application is increasing; 3D film TV quietly intimately gets up at present, and the 3D technology can make picture become three-dimensional true to nature, and image no longer is confined on the plane of screen; Can walk out the screen outside seemingly, let spectators that sensation on the spot in person is arranged.Its most basic principle is utilized exactly and is received different pictures about human eye respectively, and brain is lived again through image information superposeed then, constitutes one have anterior-posterior, on-time, the image of L-R, stereo directional effect such as far-near.Initiatively fast gate-type 3D technology mainly is to realize 3D effect through the refresh rate that improves picture; Through being divided into two image by frame; Form two group of pictures of corresponding left eye and right eye; Staggered continuously showing, Infrared Projector makes left and right eyes see respective picture in the correct moment on the left and right sides eyeglass switch of the fast gate-type 3D glasses of synchro control simultaneously.This technology can keep the original resolution of picture, lets the user enjoy real full HD 3D effect very like a cork, and can not cause picture brightness to reduce.Right common 3D liquid crystal lens at present exists anti-pressure ability poor, and is yielding frangible, thereby influenced the quality of eyeglass and the effect of watching.

The utility model content

The utility model technical matters to be solved is: the 3D liquid crystal lens that is applicable to various display systems that a kind of anti-pressure ability is strong, viewing effect is good is provided.

For solving the problems of the technologies described above; The technical scheme of the utility model is: a kind of 3D liquid crystal lens that is applicable to various display systems; Comprise sandwich construction from display screen successively toward outside light source direction: following polaroid, lower glass substrate, down nesa coating, down insulation course, down oriented layer, liquid crystal layer, fluid sealant, go up oriented layer, go up insulation course, go up nesa coating, top glass substrate and last polaroid; Fluid sealant is sealedly connected on the edge of top glass substrate and lower glass substrate; Said lower glass substrate, down nesa coating, down insulation course, down oriented layer, fluid sealant, go up oriented layer, go up insulation course, go up nesa coating, top glass substrate constitutes liquid crystal cell together; Said liquid crystal layer places in the said liquid crystal cell, is provided with the silica gel supporter in the said liquid crystal cell.

As a kind of preferred scheme, described silica gel supporter is spherical.

As a kind of preferred scheme, described silica gel supporter is evenly arranged.

After having adopted technique scheme; The effect of the utility model is: because a kind of 3D liquid crystal lens that is applicable to various display systems; Comprise sandwich construction from display screen successively toward outside light source direction: following polaroid, lower glass substrate, down nesa coating, down insulation course, down oriented layer, liquid crystal layer, fluid sealant, go up oriented layer, go up insulation course, go up nesa coating, top glass substrate and last polaroid, fluid sealant is sealedly connected on the edge of top glass substrate and lower glass substrate, said lower glass substrate, down nesa coating, down insulation course, down oriented layer, fluid sealant, go up oriented layer, upward insulation course, upward nesa coating, top glass substrate constitute liquid crystal cell together; Said liquid crystal layer places in the said liquid crystal cell; Be provided with the silica gel supporter in the said liquid crystal cell, therefore, the vibration plane of natural light is not only limited to a fixed-direction but on all directions, evenly distributes; When natural light filters out and the uneven light of last polaroid absorption axes during through last polaroid; Thereby the formation polarized light, polarized light is through liquid crystal layer, during no power then; Liquid crystal layer changes the direction of vibration of polarized light; Thereby make the direction of vibration of its polarized light parallel, also just can pass through polaroid down, realize the unlatching of 3D liquid crystal lens with the absorption axes of following polaroid; And when energising; The liquid crystal of liquid crystal layer does not change the direction of vibration of polarized light, and the absorption axes of the direction of vibration of polarized light and following polaroid is not parallel like this, just can not pass through polaroid down yet; Realize closing of 3D liquid crystal lens; And the supporter of silica gel liquid crystal cell inner its to effect of supporting top glass substrate and lower glass substrate, and not yielding when the 3D liquid crystal lens is under pressure, break, thereby the consistency of thickness of assurance liquid crystal cell; Help the raising of viewing effect again, and help the production of mass.

Description of drawings

Below in conjunction with accompanying drawing and embodiment the utility model is further specified.

Fig. 1 is the structure cut-open view of the utility model embodiment;

In the accompanying drawing: 1. go up polaroid; 2. top glass substrate; 3. go up nesa coating; 4. go up insulation course; 5. go up oriented layer; 6. fluid sealant; 7. liquid crystal layer; 8. descend oriented layer; 9. descend insulation course; 10. descend polaroid; 11. following nesa coating; 12. lower glass substrate; 13. silica gel supporter.

Embodiment

Through specific embodiment the utility model is done further to describe in detail below.

Setting is following near a side of display screen, and near human eye is the top.

A kind of 3D liquid crystal lens that is applicable to various display systems; As shown in Figure 1; Comprise sandwich construction from display screen successively toward outside light source direction: following polaroid 10, lower glass substrate 12, down nesa coating 11, down insulation course 9, down oriented layer 8, liquid crystal layer 7, fluid sealant 6, go up oriented layer 5, go up insulation course 4, go up nesa coating 3, top glass substrate 2 and last polaroid 1; Fluid sealant 6 is sealedly connected on the edge of top glass substrate 2 and lower glass substrate 12; Said lower glass substrate 12, down nesa coating 11, down insulation course 9, down oriented layer 8, fluid sealant 6, go up oriented layer 5, go up insulation course 4, go up nesa coating 3, top glass substrate 2 constitutes liquid crystal cell together, said liquid crystal layer 7 places in the said liquid crystal cell, is provided with silica gel supporter 13 in the said liquid crystal cell; Described silica gel supporter 13 is spherical; And evenly arrange, thereby, guarantee the thickness uniformity of liquid crystal cell playing the effect of even support between top glass substrate 2 and the lower glass substrate 12.

Said upward polaroid 1 and following polaroid 10 are the polaroid of high-polarization; The general macromolecular compound polyvinyl alcohol film that adopts is as substrate; Dip-dye has strong dichroic iodine again, through 4-5 times of the stable back unilateral stretching of boric acid aqueous solution reduction, big molecular orientation is arranged then; Thereby form the polaroid of high-polarization, its polarization is up to 99.95%.

Said nesa coating 11 precompressed down fit on the lower glass substrate 12; Said upward nesa coating 3 precompressed fit on the top glass substrate 2; Said insulation course 9 down is printed on the said nesa coating 11 down, and the said insulation course 4 of going up is printed in said going up on the nesa coating 3.Said nesa coating 11 down is the ITO film with last nesa coating 3; The material of lower-glass fundamental sum top glass substrate 2 is a soda-lime glass; Last insulation course 4 is to adopt the silicon dioxide material with following insulation course 9; Last oriented layer 5 is a polyimide with following oriented layer 8, and fluid sealant 6 is an epoxy resin, and its fluid sealant 6 is provided with the firing point that is communicated with conduction.In order to prevent that eyeglass from scratching, can on last polaroid 1 and following polaroid 10, be stained with diaphragm.

Claims (3)

1. 3D liquid crystal lens that is applicable to various display systems; It is characterized in that: comprise sandwich construction successively toward outside light source direction from display screen: following polaroid, lower glass substrate, down nesa coating, down insulation course, down oriented layer, liquid crystal layer, fluid sealant, go up oriented layer, go up insulation course, go up nesa coating, top glass substrate and last polaroid; Fluid sealant is sealedly connected on the edge of top glass substrate and lower glass substrate; Said lower glass substrate, down nesa coating, down insulation course, down oriented layer, fluid sealant, go up oriented layer, go up insulation course, go up nesa coating, top glass substrate constitutes liquid crystal cell together; Said liquid crystal layer places in the said liquid crystal cell, is provided with the silica gel supporter in the said liquid crystal cell.

2. a kind of 3D liquid crystal lens that is applicable to various display systems as claimed in claim 1 is characterized in that: described silica gel supporter is for spherical.

3. a kind of 3D liquid crystal lens that is applicable to various display systems as claimed in claim 1, it is characterized in that: described silica gel supporter is evenly arranged.

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