CN202057933U

CN202057933U - Shutter glasses lens, shutter glasses and stereoscopic image system

Info

Publication number: CN202057933U
Application number: CN2010206959635U
Authority: CN
Inventors: 刘美鸿
Original assignee: ZHEJIANG YISIDA DISPLAY TECHNOLOGY Co Ltd
Current assignee: ZHEJIANG YISIDA DISPLAY TECHNOLOGY Co Ltd
Priority date: 2010-12-31
Filing date: 2010-12-31
Publication date: 2011-11-30
Anticipated expiration: 2020-12-31

Abstract

The utility model provides a shutter glasses lens, which comprises a one-fourth wave plate, a first polarizing plate, first conductive glass, a liquid crystal layer, second conductive glass and a second polarizing plate which are sequentially arranged, wherein the one-fourth wave plate is bonded with the first polarizing plate; the first polarizing plate is bonded with the first conductive glass,; the first conductive glass is matched with the second conductive glass to fix the liquid crystal layer; and the second polarizing plate is bonded with the second conductive glass. The utility model additionally provides shutter glasses and a stereoscopic image system. When the shutter glasses lens, the shutter glasses and the stereoscopic image system are used, light rays can permeate normally though a user moves the shutter glasses, the shutter glasses lens does not has an angle-related problem, the situation of diffraction or double images is avoided and the situation of a black screen or a partial black screen is avoided.

Description

Shutter glasses eyeglass, shutter glasses, stereo image system

Technical field

The utility model relates to the shutter glasses technical field, relates in particular to a kind of shutter glasses eyeglass, shutter glasses, stereo image system.

Background technology

Existing shutter glasses, when left stereopsis is scanned on the screen that comes across display, controlling left electronic liquid-crystal shutters is that left eyeglass is an opening, right electronic liquid-crystal shutters is that right eyeglass is a closed condition, otherwise, when right stereopsis is scanned on the screen that comes across display, controlling right electronic liquid-crystal shutters is that right eyeglass is an opening, left side electronic liquid-crystal shutters is that left eyeglass is a closed condition, thereby make the beholder can see a left side or right stereopsis, reach the purpose of viewing and admiring stereopsis.

See also Fig. 1, synoptic diagram for existing shutter glasses eyeglass, existing shutter glasses eyeglass comprises first Polarizer 101, first electro-conductive glass 102, liquid crystal layer 103, second electro-conductive glass 104, second Polarizer 105, light is when seeing through existing shutter glasses eyeglass, the medium that light need see through comprises first Polarizer, first electro-conductive glass, liquid crystal layer, second electro-conductive glass, second Polarizer, because seeing through the light of first Polarizer is linearly polarized light, in the user who uses this shutter glasses plane rotation left or to the right during plane rotating shutter glasses, will there be angular deviation in the linear direction of this linearly polarized light and first Polarizer, make light normally to penetrate, cause the shutter glasses eyeglass to have the angle problem, there is the angle problem in shutter glasses, diffraction phenomena or ghost phenomena occur, blank screen or part blank screen phenomenon occur.

The utility model content

The technical problems to be solved in the utility model provides a kind of shutter glasses eyeglass, shutter glasses, stereo image system.

The purpose of this utility model is to provide a kind of shutter glasses eyeglass, comprising:

The quarter-wave plate that sets gradually, first Polarizer, first electro-conductive glass, liquid crystal layer, second electro-conductive glass and second Polarizer, wherein,

Quarter-wave plate, bonding with first Polarizer;

First Polarizer, bonding with first electro-conductive glass;

First electro-conductive glass matches the immobile liquid crystal layer with second electro-conductive glass;

Second electro-conductive glass matches the immobile liquid crystal layer with first electro-conductive glass;

Second Polarizer, bonding with second electro-conductive glass.

The purpose of this utility model is a kind of shutter glasses also is provided, and comprising:

Electric field selector switch, electric field provide device, first eyeglass, second eyeglass and frame;

The electric field selector switch is arranged on the frame;

Electric field provides device, is arranged on the frame;

First eyeglass is arranged on the frame, comprising:

The first eyeglass quarter-wave plate that sets gradually, first eyeglass, first Polarizer, first eyeglass, first electro-conductive glass, the first eyeglass liquid crystal layer, first eyeglass, second electro-conductive glass and first eyeglass, second Polarizer, wherein,

The first eyeglass quarter-wave plate, bonding with first eyeglass, first Polarizer;

First eyeglass, first Polarizer, bonding with first eyeglass, first electro-conductive glass;

First eyeglass, first electro-conductive glass matches with first eyeglass, second electro-conductive glass, fixes the first eyeglass liquid crystal layer;

First eyeglass, second electro-conductive glass matches with first eyeglass, first electro-conductive glass, fixes the first eyeglass liquid crystal layer;

First eyeglass, second Polarizer, bonding with first eyeglass, second electro-conductive glass;

Second eyeglass is arranged on the frame, comprising:

The second eyeglass quarter-wave plate that sets gradually, second eyeglass, first Polarizer, second eyeglass, first electro-conductive glass, the second eyeglass liquid crystal layer, second eyeglass, second electro-conductive glass and second eyeglass, second Polarizer, wherein,

The second eyeglass quarter-wave plate, bonding with second eyeglass, first Polarizer;

Second eyeglass, first Polarizer, bonding with second eyeglass, first electro-conductive glass;

Second eyeglass, first electro-conductive glass matches with second eyeglass, second electro-conductive glass, fixes the second eyeglass liquid crystal layer;

Second eyeglass, second electro-conductive glass matches with second eyeglass, first electro-conductive glass, fixes the second eyeglass liquid crystal layer;

Second eyeglass, second Polarizer, bonding with second eyeglass, second electro-conductive glass.

The purpose of this utility model is and a kind of stereo image system is provided, comprising:

Display device and shutter glasses;

Display device comprises:

Quarter-wave plate two and Polarizer two;

Quarter-wave plate two, bonding with Polarizer two;

Shutter glasses comprises:

The electric field selector switch is arranged on the frame;

Electric field provides device, is arranged on the frame;

First eyeglass is arranged on the frame, comprising:

Second eyeglass is arranged on the frame, comprising:

Light is when seeing through shutter glasses eyeglass of the present utility model, the medium that light need see through comprises quarter-wave plate, first Polarizer, first electro-conductive glass, liquid crystal layer, second electro-conductive glass, second Polarizer, because seeing through the light of quarter-wave plate is circularly polarized light, and quarter-wave plate is when seeing through circularly polarized light, the circularly polarized light that can will see through changes linearly polarized light into, and because the polar orientation of first Polarizer becomes miter angle with the fast axle of quarter-wave plate, make this linearly polarized light all parallel all the time with the polar orientation of first Polarizer, like this when using user's mobile shutter glasses of this shutter glasses, this linearly polarized light all parallels all the time with the polar orientation of first Polarizer, light normally penetrates, thereby there is not the angle problem in the shutter glasses eyeglass, there is not the angle problem in shutter glasses, diffraction phenomena or ghost phenomena be can not occur, blank screen or part blank screen phenomenon can not occurred.

Light is when seeing through the utility model shutter glasses first eyeglass, the medium that need see through comprises the first eyeglass quarter-wave plate, first eyeglass, first Polarizer, first eyeglass, first electro-conductive glass, the first eyeglass liquid crystal layer, first eyeglass, second electro-conductive glass, first eyeglass, second Polarizer, light is when seeing through the utility model shutter glasses second eyeglass, the medium that need see through comprises the second eyeglass quarter-wave plate, second eyeglass, first Polarizer, second eyeglass, first electro-conductive glass, the second eyeglass liquid crystal layer, second eyeglass, second electro-conductive glass, second eyeglass, second Polarizer, owing to see through the first eyeglass quarter-wave plate, the light of the second eyeglass quarter-wave plate is circularly polarized light, and the first eyeglass quarter-wave plate, the second eyeglass quarter-wave plate is when seeing through circularly polarized light, the circularly polarized light that can will see through changes linearly polarized light into, and because first eyeglass, first Polarizer, the polar orientation of second eyeglass, first Polarizer and the first eyeglass quarter-wave plate, the fast axle of the second eyeglass quarter-wave plate becomes miter angle, make this linearly polarized light and first eyeglass, first Polarizer, the polar orientation of second eyeglass, first Polarizer all parallels all the time, like this when using user's mobile shutter glasses of this shutter glasses, this linearly polarized light and first eyeglass, first Polarizer, the polar orientation of second eyeglass, first Polarizer all parallels all the time, light normally penetrates, thereby there is not the angle problem in the shutter glasses eyeglass, there is not the angle problem in shutter glasses, diffraction phenomena or ghost phenomena be can not occur, blank screen or part blank screen phenomenon can not occurred.

The utility model stereo image system is used display device and is produced circularly polarized light, should be when seeing through first eyeglass of shutter glasses by circularly polarized light that display device produces, the medium that need see through comprises the first eyeglass quarter-wave plate, first eyeglass, first Polarizer, first eyeglass, first electro-conductive glass, the first eyeglass liquid crystal layer, first eyeglass, second electro-conductive glass, first eyeglass, second Polarizer, should be when seeing through second eyeglass of shutter glasses by circularly polarized light that display device produces, the medium that need see through comprises the second eyeglass quarter-wave plate, second eyeglass, first Polarizer, second eyeglass, first electro-conductive glass, the second eyeglass liquid crystal layer, second eyeglass, second electro-conductive glass, second eyeglass, second Polarizer, owing to see through the first eyeglass quarter-wave plate, the light of the second eyeglass quarter-wave plate is circularly polarized light, and the first eyeglass quarter-wave plate, the second eyeglass quarter-wave plate is when seeing through circularly polarized light, the circularly polarized light that can will see through changes linearly polarized light into, and because first eyeglass, first Polarizer, the polar orientation of second eyeglass, first Polarizer and the first eyeglass quarter-wave plate, the fast axle of the second eyeglass quarter-wave plate becomes miter angle, make this linearly polarized light and first eyeglass, first Polarizer, the polar orientation of second eyeglass, first Polarizer all parallels all the time, like this when using user's mobile shutter glasses of this shutter glasses, this linearly polarized light and first eyeglass, first Polarizer, the polar orientation of second eyeglass, first Polarizer all parallels all the time, light normally penetrates, thereby there is not the angle problem in the shutter glasses eyeglass, there is not the angle problem in shutter glasses, diffraction phenomena or ghost phenomena be can not occur, blank screen or part blank screen phenomenon can not occurred.

Description of drawings

Fig. 1 is the synoptic diagram of existing shutter glasses eyeglass;

Fig. 2 is the synoptic diagram of the utility model shutter glasses eyeglass;

Fig. 3 is the synoptic diagram of the utility model shutter glasses;

Fig. 4 is the synoptic diagram of first eyeglass;

Fig. 5 is the synoptic diagram of second eyeglass;

Fig. 6 is the synoptic diagram of the utility model shutter glasses embodiment;

Fig. 7 is the synoptic diagram of the utility model stereo image system.

Embodiment

The utility model provides a kind of shutter glasses eyeglass, shutter glasses, stereo image system, be applied to the shutter glasses technical field, light is when seeing through shutter glasses eyeglass of the present utility model, the medium that light need see through comprises quarter-wave plate, first Polarizer, first electro-conductive glass, liquid crystal layer, second electro-conductive glass, second Polarizer, because seeing through the light of quarter-wave plate is circularly polarized light, and quarter-wave plate is when seeing through circularly polarized light, the circularly polarized light that can will see through changes linearly polarized light into, and because the polar orientation of first Polarizer becomes miter angle with the fast axle of quarter-wave plate, make this linearly polarized light all parallel all the time with the polar orientation of first Polarizer, like this when using user's mobile shutter glasses of this shutter glasses, this linearly polarized light all parallels all the time with the polar orientation of first Polarizer, light normally penetrates, thereby there is not the angle problem in the shutter glasses eyeglass, there is not the angle problem in shutter glasses, diffraction phenomena or ghost phenomena be can not occur, blank screen or part blank screen phenomenon can not occurred.

In order to make the purpose of this utility model, technical scheme and advantage clearer,, the utility model is further elaborated below in conjunction with drawings and Examples.Should be appreciated that specific embodiment described herein only in order to explanation the utility model, and be not used in qualification the utility model.

The utility model provides a kind of shutter glasses eyeglass.

See also Fig. 2, be the synoptic diagram of the utility model shutter glasses eyeglass, this shutter glasses eyeglass 200 comprises: quarter-wave plate 201, first Polarizer 202, first electro-conductive glass 203, liquid crystal layer 204, second electro-conductive glass 205, second Polarizer 206;

Quarter-wave plate 201, bonding with first Polarizer 202, be used for seeing through circularly polarized light, the circularly polarized light that will see through changes linearly polarized light into;

First Polarizer 202, bonding with first electro-conductive glass 203, polar orientation becomes miter angle with the fast axle of quarter-wave plate 201, is used for seeing through this linearly polarized light;

First electro-conductive glass 203 is used to cooperate second electro-conductive glass 205, clamps liquid crystal layer 204, immobile liquid crystal layer 204, and see through the light that first Polarizer 202 is seen through;

Liquid crystal layer 204 is used at first electro-conductive glass 203, when second electro-conductive glass 205 does not add electric field, rotates the light predetermined angular one that first electro-conductive glass 203 is seen through, and sees through this through postrotational light; When first electro-conductive glass 203, second electro-conductive glass, 205 adding electric fields, see through the light that first electro-conductive glass 203 is seen through;

Second electro-conductive glass 205 is used to cooperate first electro-conductive glass 203, clamps liquid crystal layer 204, immobile liquid crystal layer 204, and see through the light that liquid crystal layer 204 is seen through;

Second Polarizer 206, bonding with second electro-conductive glass 205, be used for seeing through the light that parallels direction with polar orientation.

Wherein, the process that the circularly polarized light that quarter-wave plate 201 will see through changes linearly polarized light into comprises: the circularly polarized light that quarter-wave plate 201 will see through revolves and turn 90 degrees, changing this circularly polarized light that sees through is linearly polarized light, and this linearly polarized light is with respect to circularly polarized light phase phasic difference 90 degree or 180 degree that see through.

Wherein, liquid crystal layer 204 comprises twisted-nematic (TN) type liquid crystal layer, is used at first electro-conductive glass 203, when second electro-conductive glass 205 does not add electric field, rotates light 90 degree that first electro-conductive glass 203 is seen through, and sees through this through postrotational light; When first electro-conductive glass 203, second electro-conductive glass, 205 adding electric fields, see through the light that first electro-conductive glass 203 is seen through.

Wherein, liquid crystal layer 204 comprises super twisted nematic (STN) type liquid crystal layer, is used at first electro-conductive glass 203, when second electro-conductive glass 205 does not add electric field, rotates light 270 degree that first electro-conductive glass 203 is seen through, and sees through this through postrotational light; When first electro-conductive glass 203, second electro-conductive glass, 205 adding electric fields, see through the light that first electro-conductive glass 203 is seen through.

Wherein, first electro-conductive glass 203 comprises tin indium oxide (ITO) electro-conductive glass, is used to cooperate second electro-conductive glass 205, clamps liquid crystal layer 204, immobile liquid crystal layer 204, and see through the light that first Polarizer 202 is seen through.

Wherein, second electro-conductive glass 205 comprises tin indium oxide ITO electro-conductive glass, is used to cooperate first electro-conductive glass 203, clamps liquid crystal layer 204, immobile liquid crystal layer 204, and see through the light that liquid crystal layer 204 is seen through.

Wherein, the polar orientation of second Polarizer 206 can parallel with the polar orientation of first Polarizer 202, is used for seeing through the light that parallels direction with polar orientation; The polar orientation of second Polarizer 206 can become predetermined angular one with the polar orientation of first Polarizer 202, be used for seeing through the light that parallels direction with polar orientation.

The utility model shutter glasses eyeglass is used quarter-wave plate 201 and is seen through circularly polarized light, the circularly polarized light that will see through changes linearly polarized light into, then first Polarizer 202 sees through this linearly polarized light, first electro-conductive glass 203 sees through the light that first Polarizer 202 is seen through then, then liquid crystal layer 204 is at first electro-conductive glass 203, when second electro-conductive glass 205 does not add electric field, rotate the light predetermined angular one that first electro-conductive glass 203 is seen through, and see through this through postrotational light, at first electro-conductive glass 203, when second electro-conductive glass 205 adds electric field, see through the light that first electro-conductive glass 203 is seen through, second electro-conductive glass 205 sees through the light that liquid crystal layer 204 is seen through then, then second Polarizer 206 sees through the light that parallels direction with polar orientation, light is when seeing through shutter glasses eyeglass of the present utility model, the medium that light need see through comprises quarter-wave plate 201, first Polarizer 202, first electro-conductive glass 203, liquid crystal layer 204, second electro-conductive glass 205, second Polarizer 206, because seeing through the light of quarter-wave plate 201 is circularly polarized light, and quarter-wave plate 201 is when seeing through circularly polarized light, the circularly polarized light that can will see through changes linearly polarized light into, and because the polar orientation of first Polarizer 202 becomes miter angle with the fast axle of quarter-wave plate 201, make this linearly polarized light all parallel all the time with the polar orientation of first Polarizer 202, like this when using user's mobile shutter glasses of this shutter glasses, this linearly polarized light all parallels all the time with the polar orientation of first Polarizer 202, light normally penetrates, thereby there is not the angle problem in the shutter glasses eyeglass, there is not the angle problem in shutter glasses, diffraction phenomena or ghost phenomena be can not occur, blank screen or part blank screen phenomenon can not occurred.

The utility model also provides a kind of shutter glasses.

See also Fig. 3, synoptic diagram for the utility model shutter glasses, and in conjunction with Fig. 6, Fig. 6 is the synoptic diagram of the utility model shutter glasses embodiment, and this shutter glasses 300 comprises: electric field selector switch 301, electric field provide device 302, first eyeglass 303, second eyeglass 304, frame 305.

Wherein, electric field selector switch 301 is arranged on the frame 305, is used for selecting that first eyeglass 303, second eyeglass 304 are selected one and adds electric field.

Wherein, electric field provides device 302, is arranged on the frame 305, is used for the selection result according to electric field selector switch 301, to first eyeglass 303, second eyeglass 304 selects one that electric field is provided; Be used for when electric field selector switch 301 is selected first eyeglass, 303 adding electric fields, providing electric field, when electric field selector switch 301 is selected second eyeglass, 304 adding electric fields, provide electric field to second eyeglass 304 to first eyeglass 303.

See also Fig. 4, it is the synoptic diagram of first eyeglass, this first eyeglass 303, be arranged on the frame 305, comprise: the first eyeglass quarter-wave plate 3031, first eyeglass, first Polarizer 3032, first eyeglass, first electro-conductive glass 3033, the first eyeglass liquid crystal layer 3034, first eyeglass, second electro-conductive glass 3035, first eyeglass, second Polarizer 3036;

The first eyeglass quarter-wave plate 3031, bonding with first eyeglass, first Polarizer 3032, be used for seeing through circularly polarized light, the circularly polarized light that will see through changes linearly polarized light into;

First eyeglass, first Polarizer 3032, bonding with first eyeglass, first electro-conductive glass 3033, polar orientation becomes miter angle with the fast axle of the first eyeglass quarter-wave plate 3031, is used for seeing through this linearly polarized light;

First eyeglass, first electro-conductive glass 3033 is used to cooperate first eyeglass, second electro-conductive glass 3035, clamps the first eyeglass liquid crystal layer 3034, fixes the first eyeglass liquid crystal layer 3034, and sees through the light that first eyeglass, first Polarizer 3032 is seen through;

The first eyeglass liquid crystal layer 3034 is used for when electric field provides device 302 that electric field is provided to second eyeglass 304, rotates the light predetermined angular one that first eyeglass, first electro-conductive glass 3033 is seen through, and sees through this through postrotational light; When electric field provides device 302 that electric field is provided to first eyeglass 303, see through the light that first eyeglass, first electro-conductive glass 3033 is seen through;

First eyeglass, second electro-conductive glass 3035 is used to cooperate first eyeglass, first electro-conductive glass 3033, clamps the first eyeglass liquid crystal layer 3034, fixes the first eyeglass liquid crystal layer 3034, and sees through the light that the first eyeglass liquid crystal layer 3034 is seen through;

First eyeglass, second Polarizer 3036, bonding with first eyeglass, second electro-conductive glass 3035, be used for seeing through the light that parallels direction with polar orientation.

See also Fig. 5, it is the synoptic diagram of second eyeglass, this second eyeglass 304, be arranged on the frame 305, comprise: the second eyeglass quarter-wave plate 3041, second eyeglass, first Polarizer 3042, second eyeglass, first electro-conductive glass 3043, the second eyeglass liquid crystal layer 3044, second eyeglass, second electro-conductive glass 3045, second eyeglass, second Polarizer 3046;

The second eyeglass quarter-wave plate 3041, bonding with second eyeglass, first Polarizer 3042, be used for seeing through circularly polarized light, the circularly polarized light that will see through changes linearly polarized light into;

Second eyeglass, first Polarizer 3042, bonding with second eyeglass, first electro-conductive glass 3043, polar orientation becomes miter angle with the fast axle of the second eyeglass quarter-wave plate 3041, is used for seeing through this linearly polarized light;

Second eyeglass, first electro-conductive glass 3043 is used to cooperate second eyeglass, second electro-conductive glass 3045, clamps the second eyeglass liquid crystal layer 3044, fixes the second eyeglass liquid crystal layer 3044, and sees through the light that second eyeglass, first Polarizer 3042 is seen through;

The second eyeglass liquid crystal layer 3044 is used for when electric field provides device 302 that electric field is provided to first eyeglass 303, rotates the light predetermined angular one that second eyeglass, first electro-conductive glass 3043 is seen through, and sees through this through postrotational light; When electric field provides device 302 that electric field is provided to second eyeglass 304, see through the light that second eyeglass, first electro-conductive glass 3043 is seen through;

Second eyeglass, second electro-conductive glass 3045 is used to cooperate second eyeglass, first electro-conductive glass 3043, clamps the second eyeglass liquid crystal layer 3044, fixes the second eyeglass liquid crystal layer 3044, and sees through the light that the second eyeglass liquid crystal layer 3044 is seen through;

Second eyeglass, second Polarizer 3046, bonding with second eyeglass, second electro-conductive glass 3045, be used for seeing through the light that parallels direction with polar orientation.

Wherein, the first eyeglass liquid crystal layer 3034 comprises twisted-nematic TN type liquid crystal layer, is used for when electric field provides device 302 that electric field is provided to second eyeglass 304, rotates light 90 degree that first eyeglass, first electro-conductive glass 3033 is seen through, and sees through this through postrotational light; When electric field provides device 302 that electric field is provided to first eyeglass 303, see through the light that first eyeglass, first electro-conductive glass 3033 is seen through.

Wherein, the first eyeglass liquid crystal layer 3034 comprises super twisted nematic STN type liquid crystal layer, be used for when electric field provides device 302 that electric field is provided to second eyeglass 304, rotate light 270 degree that first eyeglass, first electro-conductive glass 3033 is seen through, and see through this through postrotational light; When electric field provides device 302 that electric field is provided to first eyeglass 303, see through the light that first eyeglass, first electro-conductive glass 3033 is seen through.

Wherein, first eyeglass, first electro-conductive glass 3033 comprises tin indium oxide ITO electro-conductive glass, is used to cooperate first eyeglass, second electro-conductive glass 3035, clamps the first eyeglass liquid crystal layer 3034, fix the first eyeglass liquid crystal layer 3034, and see through the light that first eyeglass, first Polarizer 3032 is seen through.

Wherein, first eyeglass, second electro-conductive glass 3035 comprises tin indium oxide ITO electro-conductive glass, is used to cooperate first eyeglass, first electro-conductive glass 3033, clamps the first eyeglass liquid crystal layer 3034, fix the first eyeglass liquid crystal layer 3034, and see through the light that the first eyeglass liquid crystal layer 3034 is seen through.

Wherein, the polar orientation of first eyeglass, second Polarizer 3036 can parallel with the polar orientation of first eyeglass, first Polarizer 3032, is used for seeing through the light that parallels direction with polar orientation; The polar orientation of first eyeglass, second Polarizer 3036 can become predetermined angular one with the polar orientation of first eyeglass, first Polarizer 3032, is used for seeing through the light that parallels direction with polar orientation.

Wherein, the second eyeglass liquid crystal layer 3044 comprises twisted-nematic TN type liquid crystal layer, is used for when electric field provides device 302 that electric field is provided to first eyeglass 303, rotates light 90 degree that second eyeglass, first electro-conductive glass 3043 is seen through, and sees through this through postrotational light; When electric field provides device 302 that electric field is provided to second eyeglass 304, see through the light that second eyeglass, first electro-conductive glass 3043 is seen through.

Wherein, the second eyeglass liquid crystal layer 3044 comprises super twisted nematic STN type liquid crystal layer, be used for when electric field provides device 302 that electric field is provided to first eyeglass 303, rotate light 270 degree that second eyeglass, first electro-conductive glass 3043 is seen through, and see through this through postrotational light; When electric field provides device 302 that electric field is provided to second eyeglass 304, see through the light that second eyeglass, first electro-conductive glass 3043 is seen through.

Wherein, second eyeglass, first electro-conductive glass 3043 comprises tin indium oxide ITO electro-conductive glass, is used to cooperate second eyeglass, second electro-conductive glass 3045, clamps the second eyeglass liquid crystal layer 3044, fix the second eyeglass liquid crystal layer 3044, and see through the light that second eyeglass, first Polarizer 3042 is seen through.

Wherein, second eyeglass, second electro-conductive glass 3045 comprises tin indium oxide ITO electro-conductive glass, is used to cooperate second eyeglass, first electro-conductive glass 3043, clamps the second eyeglass liquid crystal layer 3044, fix the second eyeglass liquid crystal layer 3044, and see through the light that the second eyeglass liquid crystal layer 3044 is seen through.

Wherein, the polar orientation of second eyeglass, second Polarizer 3046 can parallel with the polar orientation of second eyeglass, first Polarizer 3042, is used for seeing through the light that parallels direction with polar orientation; The polar orientation of second eyeglass, second Polarizer 3046 can become predetermined angular one with the polar orientation of second eyeglass, first Polarizer 3042, is used for seeing through the light that parallels direction with polar orientation.

Wherein, when first eyeglass 303 was the left eyeglass of shutter glasses, second eyeglass 304 was the right eyeglass of shutter glasses just; When first eyeglass 303 was the right eyeglass of shutter glasses, second eyeglass 304 was the left eyeglass of shutter glasses just.

Wherein, electric field selector switch 301 comprises the power supply gate, is arranged on the frame 305, is used for selecting that first eyeglass 303, second eyeglass 304 are selected one and adds electric field.

Wherein, electric field provides device 302 to comprise power supply, is arranged on the frame 305, is used for the selection result according to electric field selector switch 301, to first eyeglass 303, second eyeglass 304 selects one that electric field is provided; Be used for when electric field selector switch 301 is selected first eyeglass, 303 adding electric fields, providing electric field, when electric field selector switch 301 is selected second eyeglass, 304 adding electric fields, provide electric field to second eyeglass 304 to first eyeglass 303.

Wherein, the polar orientation of first eyeglass, first Polarizer 3032 parallels with the polar orientation of second eyeglass, first Polarizer 3042, and the polar orientation of first eyeglass, second Polarizer 3036 parallels with the polar orientation of second eyeglass, second Polarizer 3046.

Light is when seeing through the utility model shutter glasses first eyeglass 303, the medium that need see through comprises the first eyeglass quarter-wave plate 3031, first eyeglass, first Polarizer 3032, first eyeglass, first electro-conductive glass 3033, the first eyeglass liquid crystal layer 3034, first eyeglass, second electro-conductive glass 3035, first eyeglass, second Polarizer 3036, light is when seeing through the utility model shutter glasses second eyeglass 304, the medium that need see through comprises the second eyeglass quarter-wave plate 3041, second eyeglass, first Polarizer 3042, second eyeglass, first electro-conductive glass 3043, the second eyeglass liquid crystal layer 3044, second eyeglass, second electro-conductive glass 3045, second eyeglass, second Polarizer 3046, owing to see through the first eyeglass quarter-wave plate 3031, the light of the second eyeglass quarter-wave plate 3041 is circularly polarized light, and the first eyeglass quarter-wave plate 3031, the second eyeglass quarter-wave plate 3041 is when seeing through circularly polarized light, the circularly polarized light that can will see through changes linearly polarized light into, and because first eyeglass, first Polarizer 3032, the polar orientation of second eyeglass, first Polarizer 3042 and the first eyeglass quarter-wave plate 3031, the fast axle of the second eyeglass quarter-wave plate 3041 becomes miter angle, make this linearly polarized light and first eyeglass, first Polarizer 3032, the polar orientation of second eyeglass, first Polarizer 3042 all parallels all the time, like this when using user's mobile shutter glasses of this shutter glasses, this linearly polarized light and first eyeglass, first Polarizer 3032, the polar orientation of second eyeglass, first Polarizer 3042 all parallels all the time, light normally penetrates, thereby there is not the angle problem in the shutter glasses eyeglass, there is not the angle problem in shutter glasses, diffraction phenomena or ghost phenomena be can not occur, blank screen or part blank screen phenomenon can not occurred.

The utility model provides a kind of stereo image system again.

See also Fig. 7, be the synoptic diagram of the utility model stereo image system, this stereo image system 700 comprises: display device 701, shutter glasses 702.

Wherein, display device 701 comprises:

Polarizer 2 7011, polar orientation becomes miter angle with the fast axle of quarter-wave plate 2 7012, is used to produce linearly polarized light;

Quarter-wave plate 2 7012, bonding with Polarizer 2 7011, be used for seeing through the linearly polarized light that Polarizer 2 7011 is produced, the linearly polarized light that will see through changes circularly polarized light into.

Wherein, shutter glasses 702 comprises:

Electric field selector switch 7021, electric field provide device 7022, first eyeglass 7023, second eyeglass 7024, frame 7025;

Wherein, electric field selector switch 7021 is arranged on the frame 7025, is used for selecting that first eyeglass 7023, second eyeglass 7024 are selected one and adds electric field;

Wherein, electric field provides device 7022, is arranged on the frame 7025, is used for the selection result according to electric field selector switch 7021, to first eyeglass 7023, second eyeglass 7024 selects one that electric field is provided; Be used for when electric field selector switch 7021 is selected first eyeglass, 7023 adding electric fields, providing electric field, when electric field selector switch 7021 is selected second eyeglass, 7024 adding electric fields, provide electric field to second eyeglass 7024 to first eyeglass 7023;

Wherein, first eyeglass 7023, be arranged on the frame 7025, comprise: the first eyeglass quarter-wave plate 70231, first eyeglass, first Polarizer 70232, first eyeglass, first electro-conductive glass 70233, the first eyeglass liquid crystal layer 70234, first eyeglass, second electro-conductive glass 70235, first eyeglass, second Polarizer 70236;

The first eyeglass quarter-wave plate 70231, bonding with first eyeglass, first Polarizer 70232, be used for seeing through this and change the circularly polarized light that obtains through quarter-wave plate 2 7012, change this circularly polarized light that sees through into linearly polarized light;

First eyeglass, first Polarizer 70232, bonding with first eyeglass, first electro-conductive glass 70233, polar orientation becomes miter angle with the fast axle of the first eyeglass quarter-wave plate 70231, is used for seeing through this linearly polarized light;

First eyeglass, first electro-conductive glass 70233 is used to cooperate first eyeglass, second electro-conductive glass 70235, clamps the first eyeglass liquid crystal layer 70234, fixes the first eyeglass liquid crystal layer 70234, and sees through the light that first eyeglass, first Polarizer 70232 is seen through;

The first eyeglass liquid crystal layer 70234 is used for when electric field provides device 7022 that electric field is provided to second eyeglass 7024, rotates the light predetermined angular one that first eyeglass, first electro-conductive glass 70233 is seen through, and sees through this through postrotational light; When electric field provides device 7022 that electric field is provided to first eyeglass 7023, see through the light that first eyeglass, first electro-conductive glass 70233 is seen through;

First eyeglass, second electro-conductive glass 70235 is used to cooperate first eyeglass, first electro-conductive glass 70233, clamps the first eyeglass liquid crystal layer 70234, fixes the first eyeglass liquid crystal layer 70234, and sees through the light that the first eyeglass liquid crystal layer 70234 is seen through;

First eyeglass, second Polarizer 70236, bonding with first eyeglass, second electro-conductive glass 70235, be used for seeing through the light that parallels direction with polar orientation;

Wherein, second eyeglass 7024, be arranged on the frame 7025, comprise: the second eyeglass quarter-wave plate 70241, second eyeglass, first Polarizer 70242, second eyeglass, first electro-conductive glass 70243, the second eyeglass liquid crystal layer 70244, second eyeglass, second electro-conductive glass 70245, second eyeglass, second Polarizer 70246;

The second eyeglass quarter-wave plate 70241, bonding with second eyeglass, first Polarizer 70242, be used for seeing through this and change the circularly polarized light that obtains through quarter-wave plate 2 7012, change this circularly polarized light that sees through into linearly polarized light;

Second eyeglass, first Polarizer 70242, bonding with second eyeglass, first electro-conductive glass 70243, polar orientation becomes miter angle with the fast axle of the second eyeglass quarter-wave plate 70241, is used for seeing through this linearly polarized light;

Second eyeglass, first electro-conductive glass 70243 is used to cooperate second eyeglass, second electro-conductive glass 70245, clamps the second eyeglass liquid crystal layer 70244, fixes the second eyeglass liquid crystal layer 70244, and sees through the light that second eyeglass, first Polarizer 70242 is seen through;

The second eyeglass liquid crystal layer 70244 is used for when electric field provides device 7022 that electric field is provided to first eyeglass 7023, rotates the light predetermined angular one that second eyeglass, first electro-conductive glass 70243 is seen through, and sees through this through postrotational light; When electric field provides device 7022 that electric field is provided to second eyeglass 7024, see through the light that second eyeglass, first electro-conductive glass 70243 is seen through;

Second eyeglass, second electro-conductive glass 70245 is used to cooperate second eyeglass, first electro-conductive glass 70243, clamps the second eyeglass liquid crystal layer 70244, fixes the second eyeglass liquid crystal layer 70244, and sees through the light that the second eyeglass liquid crystal layer 70244 is seen through;

Second eyeglass, second Polarizer 70246, bonding with second eyeglass, second electro-conductive glass 70245, be used for seeing through the light that parallels direction with polar orientation.

Wherein, the first eyeglass liquid crystal layer 70234 comprises twisted-nematic TN type liquid crystal layer, be used for when electric field provides device 7022 that electric field is provided to second eyeglass 7024, rotate light 90 degree that first eyeglass, first electro-conductive glass 70233 is seen through, and see through this through postrotational light; When electric field provides device 7022 that electric field is provided to first eyeglass 7023, see through the light that first eyeglass, first electro-conductive glass 70233 is seen through.

Wherein, the first eyeglass liquid crystal layer 70234 comprises super twisted nematic STN type liquid crystal layer, be used for when electric field provides device 7022 that electric field is provided to second eyeglass 7024, rotate light 270 degree that first eyeglass, first electro-conductive glass 70233 is seen through, and see through this through postrotational light; When electric field provides device 7022 that electric field is provided to first eyeglass 7023, see through the light that first eyeglass, first electro-conductive glass 70233 is seen through.

Wherein, first eyeglass, first electro-conductive glass 70233 comprises tin indium oxide ITO electro-conductive glass, is used to cooperate first eyeglass, second electro-conductive glass 70235, clamps the first eyeglass liquid crystal layer 70234, fix the first eyeglass liquid crystal layer 70234, and see through the light that first eyeglass, first Polarizer 70232 is seen through.

Wherein, first eyeglass, second electro-conductive glass 70235 comprises tin indium oxide ITO electro-conductive glass, is used to cooperate first eyeglass, first electro-conductive glass 70233, clamps the first eyeglass liquid crystal layer 70234, fix the first eyeglass liquid crystal layer 70234, and see through the light that the first eyeglass liquid crystal layer 70234 is seen through.

Wherein, the polar orientation of first eyeglass, second Polarizer 70236 can parallel with the polar orientation of first eyeglass, first Polarizer 70232, is used for seeing through the light that parallels direction with polar orientation; The polar orientation of first eyeglass, second Polarizer 70236 can become predetermined angular one with the polar orientation of first eyeglass, first Polarizer 70232, is used for seeing through the light that parallels direction with polar orientation.

Wherein, the second eyeglass liquid crystal layer 70244 comprises twisted-nematic TN type liquid crystal layer, be used for when electric field provides device 7022 that electric field is provided to first eyeglass 7023, rotate light 90 degree that second eyeglass, first electro-conductive glass 70243 is seen through, and see through this through postrotational light; When electric field provides device 7022 that electric field is provided to second eyeglass 7024, see through the light that second eyeglass, first electro-conductive glass 70243 is seen through.

Wherein, the second eyeglass liquid crystal layer 70244 comprises super twisted nematic STN type liquid crystal layer, be used for when electric field provides device 7022 that electric field is provided to first eyeglass 7023, rotate light 270 degree that second eyeglass, first electro-conductive glass 70243 is seen through, and see through this through postrotational light; When electric field provides device 7022 that electric field is provided to second eyeglass 7024, see through the light that second eyeglass, first electro-conductive glass 70243 is seen through.

Wherein, second eyeglass, first electro-conductive glass 70243 comprises tin indium oxide ITO electro-conductive glass, is used to cooperate second eyeglass, second electro-conductive glass 70245, clamps the second eyeglass liquid crystal layer 70244, fix the second eyeglass liquid crystal layer 70244, and see through the light that second eyeglass, first Polarizer 70242 is seen through.

Wherein, second eyeglass, second electro-conductive glass 70245 comprises tin indium oxide ITO electro-conductive glass, is used to cooperate second eyeglass, first electro-conductive glass 70243, clamps the second eyeglass liquid crystal layer 70244, fix the second eyeglass liquid crystal layer 70244, and see through the light that the second eyeglass liquid crystal layer 70244 is seen through.

Wherein, the polar orientation of second eyeglass, second Polarizer 70246 can parallel with the polar orientation of second eyeglass, first Polarizer 70242, is used for seeing through the light that parallels direction with polar orientation; The polar orientation of second eyeglass, second Polarizer 70246 can become predetermined angular one with the polar orientation of second eyeglass, first Polarizer 70242, is used for seeing through the light that parallels direction with polar orientation.

Wherein, the first eyeglass quarter-wave plate 70231, bonding with first eyeglass, first Polarizer 70232, with quarter-wave plate 2 7012 oppositely and become an angle of 90 degrees, be used for seeing through this and change the circularly polarized light that obtains, change this circularly polarized light that sees through into linearly polarized light through quarter-wave plate 2 7012.

Wherein, the second eyeglass quarter-wave plate 70241, bonding with second eyeglass, first Polarizer 70242, with quarter-wave plate 2 7012 oppositely and become an angle of 90 degrees, be used for seeing through this and change the circularly polarized light that obtains, change this circularly polarized light that sees through into linearly polarized light through quarter-wave plate 2 7012.

Wherein, when first eyeglass 7023 was the left eyeglass of shutter glasses, second eyeglass 7024 was the right eyeglass of shutter glasses just; When first eyeglass 7023 was the right eyeglass of shutter glasses, second eyeglass 7024 was the left eyeglass of shutter glasses just.

Wherein, electric field selector switch 7021 comprises the power supply gate, is arranged on the frame 7025, is used for selecting that first eyeglass 7023, second eyeglass 7024 are selected one and adds electric field.

Wherein, electric field provides device 7022 to comprise power supply, is arranged on the frame 7025, is used for the selection result according to electric field selector switch 7021, to first eyeglass 7023, second eyeglass 7024 selects one that electric field is provided; Be used for when electric field selector switch 7021 is selected first eyeglass, 7023 adding electric fields, providing electric field, when electric field selector switch 7021 is selected second eyeglass, 7024 adding electric fields, provide electric field to second eyeglass 7024 to first eyeglass 7023.

Wherein, the polar orientation of first eyeglass, first Polarizer 70232 parallels with the polar orientation of second eyeglass, first Polarizer 70242, and the polar orientation of first eyeglass, second Polarizer 70236 parallels with the polar orientation of second eyeglass, second Polarizer 70246.

The utility model stereo image system is used display device 701 and is produced circularly polarized light, should be when seeing through first eyeglass 7023 of shutter glasses 702 by display device 701 circularly polarized light that produces, the medium that need see through comprises the first eyeglass quarter-wave plate 70231, first eyeglass, first Polarizer 70232, first eyeglass, first electro-conductive glass 70233, the first eyeglass liquid crystal layer 70234, first eyeglass, second electro-conductive glass 70235, first eyeglass, second Polarizer 70236, should be when seeing through second eyeglass 7024 of shutter glasses 702 by display device 701 circularly polarized light that produces, the medium that need see through comprises the second eyeglass quarter-wave plate 70241, second eyeglass, first Polarizer 70242, second eyeglass, first electro-conductive glass 70243, the second eyeglass liquid crystal layer 70244, second eyeglass, second electro-conductive glass 70245, second eyeglass, second Polarizer 70246, owing to see through the first eyeglass quarter-wave plate 70231, the light of the second eyeglass quarter-wave plate 70241 is circularly polarized light, and the first eyeglass quarter-wave plate 70231, the second eyeglass quarter-wave plate 70241 is when seeing through circularly polarized light, the circularly polarized light that can will see through changes linearly polarized light into, and because first eyeglass, first Polarizer 70232, the polar orientation of second eyeglass, first Polarizer 70242 and the first eyeglass quarter-wave plate 70231, the fast axle of the second eyeglass quarter-wave plate 70241 becomes miter angle, make this linearly polarized light and first eyeglass, first Polarizer 70232, the polar orientation of second eyeglass, first Polarizer 70242 all parallels all the time, like this when using user's mobile shutter glasses of this shutter glasses, this linearly polarized light and first eyeglass, first Polarizer 70232, the polar orientation of second eyeglass, first Polarizer 70242 all parallels all the time, light normally penetrates, thereby there is not the angle problem in the shutter glasses eyeglass, there is not the angle problem in shutter glasses, diffraction phenomena or ghost phenomena be can not occur, blank screen or part blank screen phenomenon can not occurred.

For the utility model shutter glasses eyeglass, shutter glasses, stereo image system, the form of realization is diversified.All within spirit of the present utility model and principle, any modification of being done, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims

1. a shutter glasses eyeglass is characterized in that, comprising:

Described quarter-wave plate, bonding with described first Polarizer;

Described first Polarizer, bonding with described first electro-conductive glass;

Described first electro-conductive glass matches with described second electro-conductive glass, fixing described liquid crystal layer;

Described second electro-conductive glass matches with described first electro-conductive glass, fixing described liquid crystal layer;

Described second Polarizer, bonding with described second electro-conductive glass.

2. shutter glasses eyeglass as claimed in claim 1 is characterized in that, described liquid crystal layer comprises:

Twisted-nematic TN type liquid crystal layer or super twisted nematic STN type liquid crystal layer.

3. shutter glasses eyeglass as claimed in claim 1 is characterized in that, described first electro-conductive glass comprises:

Tin indium oxide ITO electro-conductive glass matches the immobile liquid crystal layer with described second electro-conductive glass;

Described second electro-conductive glass comprises:

Tin indium oxide ITO electro-conductive glass matches with described first electro-conductive glass, fixing described liquid crystal layer.

4. shutter glasses eyeglass as claimed in claim 1 is characterized in that, the polar orientation of described second Polarizer parallels with the polar orientation of described first Polarizer.

5. shutter glasses eyeglass as claimed in claim 1 is characterized in that, described first Polarizer is bonding with described first electro-conductive glass, and polar orientation becomes miter angle with the fast axle of described quarter-wave plate.

6. a shutter glasses is characterized in that, comprising:

Described electric field selector switch is arranged on the described frame;

Described electric field provides device, is arranged on the described frame;

Described first eyeglass is arranged on the described frame, comprising:

The described first eyeglass quarter-wave plate, bonding with described first eyeglass, first Polarizer;

Described first eyeglass, first Polarizer, bonding with described first eyeglass, first electro-conductive glass;

Described first eyeglass, first electro-conductive glass matches with described first eyeglass, second electro-conductive glass, the fixing described first eyeglass liquid crystal layer;

Described first eyeglass, second electro-conductive glass matches with described first eyeglass, first electro-conductive glass, the fixing described first eyeglass liquid crystal layer;

Described first eyeglass, second Polarizer, bonding with described first eyeglass, second electro-conductive glass;

Described second eyeglass is arranged on the described frame, comprising:

The described second eyeglass quarter-wave plate, bonding with described second eyeglass, first Polarizer;

Described second eyeglass, first Polarizer, bonding with described second eyeglass, first electro-conductive glass;

Described second eyeglass, first electro-conductive glass matches with described second eyeglass, second electro-conductive glass, the fixing described second eyeglass liquid crystal layer;

Described second eyeglass, second electro-conductive glass matches with described second eyeglass, first electro-conductive glass, the fixing described second eyeglass liquid crystal layer;

Described second eyeglass, second Polarizer, bonding with described second eyeglass, second electro-conductive glass.

7. shutter glasses as claimed in claim 6 is characterized in that, the described first eyeglass liquid crystal layer comprises:

Twisted-nematic TN type liquid crystal layer or super twisted nematic STN type liquid crystal layer;

The described second eyeglass liquid crystal layer comprises:

8. shutter glasses as claimed in claim 6 is characterized in that, described first eyeglass, first electro-conductive glass comprises:

Tin indium oxide ITO electro-conductive glass matches with described first eyeglass, second electro-conductive glass, the fixing described first eyeglass liquid crystal layer;

Described first eyeglass, second electro-conductive glass comprises:

Tin indium oxide ITO electro-conductive glass matches with described first eyeglass, first electro-conductive glass, the fixing described first eyeglass liquid crystal layer;

Described second eyeglass, first electro-conductive glass comprises:

Tin indium oxide ITO electro-conductive glass matches with described second eyeglass, second electro-conductive glass, the fixing described second eyeglass liquid crystal layer;

Described second eyeglass, second electro-conductive glass comprises:

Tin indium oxide ITO electro-conductive glass matches with described second eyeglass, first electro-conductive glass, the fixing described second eyeglass liquid crystal layer.

9. shutter glasses as claimed in claim 6 is characterized in that, the polar orientation of described first eyeglass, second Polarizer parallels with the polar orientation of described first eyeglass, first Polarizer;

The polar orientation of described second eyeglass, second Polarizer parallels with the polar orientation of described second eyeglass, first Polarizer.

10. shutter glasses as claimed in claim 6 is characterized in that, described first eyeglass, first Polarizer is bonding with described first eyeglass, first electro-conductive glass, and polar orientation becomes miter angle with the fast axle of the described first eyeglass quarter-wave plate;

Described second eyeglass, first Polarizer, bonding with described second eyeglass, first electro-conductive glass, polar orientation becomes miter angle with the fast axle of the described second eyeglass quarter-wave plate.

11. a stereo image system is characterized in that, comprising:

Display device and shutter glasses;

Described display device comprises:

Quarter-wave plate two and Polarizer two;

Described quarter-wave plate two, bonding with described Polarizer two;

Described shutter glasses comprises:

Described electric field selector switch is arranged on the described frame;

Described electric field provides device, is arranged on the described frame;

Described first eyeglass is arranged on the described frame, comprising:

Described second eyeglass is arranged on the described frame, comprising:

12. stereo image system as claimed in claim 11 is characterized in that, the described first eyeglass liquid crystal layer comprises:

The described second eyeglass liquid crystal layer comprises:

13. stereo image system as claimed in claim 11 is characterized in that, described first eyeglass, first electro-conductive glass comprises:

Described first eyeglass, second electro-conductive glass comprises:

Described second eyeglass, first electro-conductive glass comprises:

Described second eyeglass, second electro-conductive glass comprises:

14. stereo image system as claimed in claim 11 is characterized in that, the polar orientation of described first eyeglass, second Polarizer parallels with the polar orientation of described first eyeglass, first Polarizer;

15. stereo image system as claimed in claim 11 is characterized in that, described first eyeglass, first Polarizer is bonding with described first eyeglass, first electro-conductive glass, and polar orientation becomes miter angle with the fast axle of the described first eyeglass quarter-wave plate;

16. stereo image system as claimed in claim 11 is characterized in that, described Polarizer two, and polar orientation becomes miter angle with the fast axle of described quarter-wave plate two.