CN102650745A - Polaroid glasses, polaroid filter, projector and stereoscopic image system - Google Patents

Abstract

The invention discloses a pair of polaroid glasses, a polaroid filter, a projector and a stereoscopic image system, which are applied to the projection technical field. The projector provided by the invention utilizes the polaroid filter, and generates alternant image signal light rays on schedule like 120 frames per second, wherein each image frame are alternant sequentially, and the generated alternant image signal light rays remain unchanged in the vibration direction when reflected to the polaroid glasses through a projection screen, so that a viewer only sees the corresponding images through a left glass and a right glass of the polaroid glasses, that is to say, the viewer receives one left eye frame, one right eye frame, one left eye frame and one right eye frame sequentially through the polaroid glasses, as a result, a stereoscopic feeling is generated in a optic nerve system, the purpose of viewing a stereoscopic image is achieved, and further the purpose of viewing the stereoscopic image through one projector is achieved.

Description

Polaroid glasses, polagizing filter, projector, stereo image system

Technical field

The present invention relates to the shadow casting technique field, relate in particular to a kind of polaroid glasses, polagizing filter, projector, stereo image system.

Background technology

Projector is a kind of equipment of forming images on projects images signal light to the projection screen of being used for, and existing projector comprises that liquid crystal (LCD) projector, liquid crystal on silicon (LCOS) projector, digital light handle (DLP) projector.

Stereoprojection realizes through the polarisation of light principle; The scheme of existing realization stereoprojection is to adopt two synchronous projects images of projector; The polarization direction of the polaroid before two projectors is orthogonal; Make the polarization direction of the two bundle polarized lights that produce also orthogonal; And polarized light be projected to special-purpose projection screen when reflexing to the beholder position again direction of polarized light can not change, the beholder can only see corresponding polarized light image through the polaroid glasses images of left and right eyes, thereby in visual system, produces stereo perception; Reach the purpose of viewing and admiring stereopsis, prior art also can't realize reaching the purpose of viewing and admiring stereopsis through a projector.

Summary of the invention

The technical matters that the present invention will solve provides a kind of polaroid glasses, polagizing filter, projector, stereo image system.

The object of the present invention is to provide a kind of polaroid glasses, comprising:

Left side eyeglass, right eyeglass, frame;

Said left eyeglass is arranged on the said frame, comprising: left eyeglass quarter-wave plate, left eyeglass Polarizer;

Said left eyeglass quarter-wave plate is used for seeing through elliptically polarized light, and the elliptically polarized light that will see through changes linearly polarized light into;

Said left eyeglass Polarizer is used for seeing through said linearly polarized light;

Said right eyeglass is arranged on the said frame, comprising: right eyeglass quarter-wave plate, right eyeglass Polarizer;

Said right eyeglass quarter-wave plate is used for seeing through elliptically polarized light, and the elliptically polarized light that will see through changes linearly polarized light into;

Said right eyeglass Polarizer is used for seeing through said linearly polarized light;

The polar orientation irrelevancy of the polar orientation of said left eyeglass Polarizer and said right eyeglass Polarizer is capable.

The objective of the invention is to also provides a kind of polagizing filter, comprising:

Electric field selector switch, electric field provide device, the polarizer;

Said electric field selector switch is used to select the schedule time, to the said polarizer electric field is provided;

Said electric field provides device, and being used for provides electric field to the said polarizer when said electric field selector switch selection provides electric field to the said polarizer;

The said polarizer comprises: Polarizer, first conductive layer, liquid crystal layer, second conductive layer, quarter-wave plate;

Said Polarizer is used for seeing through the linearly polarized light one that parallels direction with polar orientation;

Said first conductive layer, bonding with said Polarizer, be used for seeing through the linearly polarized light one that said Polarizer saw through;

Said liquid crystal layer; Bonding with said first conductive layer, be used for rotating linearly polarized light one predetermined angular that said first conductive layer is seen through at said first conductive layer, when second conductive layer does not add electric field; Obtain linearly polarized light two, and see through the said linearly polarized light two that after rotation, obtains; When said electric field provides device that electric field is provided to said first conductive layer, second conductive layer, see through the linearly polarized light one that said first conductive layer is seen through;

Said second conductive layer, bonding with said liquid crystal layer, be used for seeing through linearly polarized light one, the linearly polarized light two that said liquid crystal layer saw through;

Said quarter-wave plate, bonding with said second conductive layer, be used for seeing through the linearly polarized light one that said second conductive layer is seen through, the linearly polarized light one that will see through changes elliptically polarized light one into; See through the linearly polarized light two that said second conductive layer is seen through, the linearly polarized light two that will see through changes elliptically polarized light two into.

The objective of the invention is to and a kind of projector is provided, comprising:

Device for projecting, polagizing filter;

Said device for projecting is used for projects images signal light;

Said polagizing filter is arranged on the bang path of the picture signal light that said device for projecting projects, and comprising: electric field selector switch, electric field provide device, the polarizer;

Said electric field selector switch is used to select the schedule time, to the said polarizer electric field is provided;

Said electric field provides device, and being used for provides electric field to the said polarizer when said electric field selector switch selection provides electric field to the said polarizer;

The said polarizer comprises: Polarizer, first conductive layer, liquid crystal layer, second conductive layer, quarter-wave plate;

Said Polarizer is used for seeing through the light that parallels direction with polar orientation, sees through the picture signal light that said device for projecting projected, and obtains linearly polarized light one;

Said first conductive layer, bonding with said Polarizer, be used for seeing through the linearly polarized light one that said Polarizer saw through;

Said liquid crystal layer; Bonding with said first conductive layer, be used for rotating linearly polarized light one predetermined angular that said first conductive layer is seen through at said first conductive layer, when second conductive layer does not add electric field; Obtain linearly polarized light two, and see through the said linearly polarized light two that after rotation, obtains; When said electric field provides device that electric field is provided to said first conductive layer, second conductive layer, see through the linearly polarized light one that said first conductive layer is seen through;

Said second conductive layer, bonding with said liquid crystal layer, be used for seeing through linearly polarized light one, the linearly polarized light two that said liquid crystal layer saw through;

Said quarter-wave plate, bonding with said second conductive layer, be used for seeing through the linearly polarized light one that said second conductive layer is seen through, the linearly polarized light one that will see through changes elliptically polarized light one into; See through the linearly polarized light two that said second conductive layer is seen through, the linearly polarized light two that will see through changes elliptically polarized light two into.

The objective of the invention is to provides a kind of stereo image system again, comprising:

Projector, projection screen, polaroid glasses;

Said projector comprises: device for projecting, polagizing filter;

Said device for projecting is used for projects images signal light;

Said polagizing filter is arranged on the bang path of the picture signal light that said device for projecting projects, and comprising: electric field selector switch, electric field provide device, the polarizer;

Said electric field selector switch is used to select the schedule time, to the said polarizer electric field is provided;

Said electric field provides device, and being used for provides electric field to the said polarizer when said electric field selector switch selection provides electric field to the said polarizer;

The said polarizer comprises: Polarizer, first conductive layer, liquid crystal layer, second conductive layer, quarter-wave plate;

Said Polarizer is used for seeing through the light that parallels direction with polar orientation, sees through the picture signal light that said device for projecting projected, and obtains linearly polarized light one;

Said first conductive layer, bonding with said Polarizer, be used for seeing through the linearly polarized light one that said Polarizer saw through;

Said liquid crystal layer; Bonding with said first conductive layer, be used for rotating linearly polarized light one predetermined angular that said first conductive layer is seen through at said first conductive layer, when second conductive layer does not add electric field; Obtain linearly polarized light two, and see through the said linearly polarized light two that after rotation, obtains; When said electric field provides device that electric field is provided to said first conductive layer, second conductive layer, see through the linearly polarized light one that said first conductive layer is seen through;

Said second conductive layer, bonding with said liquid crystal layer, be used for seeing through linearly polarized light one, the linearly polarized light two that said liquid crystal layer saw through;

Said quarter-wave plate, bonding with said second conductive layer, be used for seeing through the linearly polarized light one that said second conductive layer is seen through, the linearly polarized light one that will see through changes elliptically polarized light one into; See through the linearly polarized light two that said second conductive layer is seen through, the linearly polarized light two that will see through changes elliptically polarized light two into;

Said projection screen is arranged on the bang path of polagizing filter saw through described in the said projector elliptically polarized light one, elliptically polarized light two, is used to reflect the elliptically polarized light one that said polagizing filter sees through, and obtains elliptically polarized light three; Reflect the elliptically polarized light two that said polagizing filter sees through, obtain elliptically polarized light four; The direction of vibration of the said elliptically polarized light that obtains three is identical with the direction of vibration of elliptically polarized light one, and the direction of vibration of the said elliptically polarized light that obtains four is identical with the direction of vibration of elliptically polarized light two;

Said polaroid glasses are arranged on the bang path of the elliptically polarized light three that obtains after the reflection of said projection screen, elliptically polarized light four, comprising: left eyeglass, right eyeglass, frame;

Said left eyeglass is arranged on the said frame, comprising: left eyeglass quarter-wave plate, left eyeglass Polarizer;

Said left eyeglass quarter-wave plate is used for seeing through the elliptically polarized light three that after said projection screen reflection, obtains, and the elliptically polarized light three that will see through changes linearly polarized light three into;

Said left eyeglass Polarizer is used for seeing through said linearly polarized light three;

Said right eyeglass is arranged on the said frame, comprising: right eyeglass quarter-wave plate, right eyeglass Polarizer;

Said right eyeglass quarter-wave plate is used for seeing through the elliptically polarized light four that after said projection screen reflection, obtains, and the elliptically polarized light four that will see through changes linearly polarized light four into;

Said right eyeglass Polarizer is used for seeing through said linearly polarized light four;

The polar orientation irrelevancy of the polar orientation of said left eyeglass Polarizer and said right eyeglass Polarizer is capable.

Projector applications polagizing filter of the present invention produces picture signal light alternately like the frequency of per second 120 frames on schedule; Each picture frame replaces in order; And the direction of vibration of the picture signal light light when projection screen reflexes to polaroid glasses that replaces of this generation can not change, and the beholder can only see corresponding image through polaroid glasses left side eyeglass, right eyeglass, and promptly the beholder receives a left-eye frame through polaroid glasses; Next right eye frame; Another left-eye frame then, another right eye frame next, thus in visual system, produce stereo perception; Reach the purpose of viewing and admiring stereopsis, reach the purpose of viewing and admiring stereopsis through a projector thereby reach realization.

Stereo image system of the present invention is used projector and is produced picture signal light alternately like the frequency of per second 120 frames on schedule; Each picture frame replaces in order; And the direction of vibration of the picture signal light light when projection screen reflexes to polaroid glasses that replaces of this generation can not change, and the beholder can only see corresponding image through polaroid glasses left side eyeglass, right eyeglass, and promptly the beholder receives a left-eye frame through polaroid glasses; Next right eye frame; Another left-eye frame then, another right eye frame next, thus in visual system, produce stereo perception; Reach the purpose of viewing and admiring stereopsis, reach the purpose of viewing and admiring stereopsis through a projector thereby reach realization.

Description of drawings

Fig. 1 is the synoptic diagram of polaroid glasses of the present invention;

Fig. 2 is the synoptic diagram of left eyeglass;

Fig. 3 is the synoptic diagram of right eyeglass;

Fig. 4 is the synoptic diagram of polagizing filter of the present invention;

Fig. 5 is the synoptic diagram of the polarizer;

Fig. 6 is the synoptic diagram of projector of the present invention;

Fig. 7 is the synoptic diagram of stereo image system of the present invention.

Embodiment

The present invention provides a kind of polaroid glasses, polagizing filter, projector, stereo image system, is applied to the shadow casting technique field, and projector applications polagizing filter of the present invention produces picture signal light alternately like the frequency of per second 120 frames on schedule; Each picture frame replaces in order; And the direction of vibration of the picture signal light light when projection screen reflexes to polaroid glasses that replaces of this generation can not change, and the beholder can only see corresponding image through polaroid glasses left side eyeglass, right eyeglass, and promptly the beholder receives a left-eye frame through polaroid glasses; Next right eye frame; Another left-eye frame then, another right eye frame next, thus in visual system, produce stereo perception; Reach the purpose of viewing and admiring stereopsis, reach the purpose of viewing and admiring stereopsis through a projector thereby reach realization.

In order to make the object of the invention, technical scheme and advantage clearer,, the present invention is further elaborated below in conjunction with accompanying drawing and embodiment.Should be appreciated that specific embodiment described herein only in order to explanation the present invention, and be not used in qualification the present invention.

The present invention provides a kind of polaroid glasses.

See also Fig. 1, be the synoptic diagram of polaroid glasses of the present invention, these polaroid glasses 100 comprise: left eyeglass 101, right eyeglass 102, frame 103;

See also Fig. 2, be the synoptic diagram of left eyeglass, this left side eyeglass 101 is arranged on the frame 103, comprising: left eyeglass quarter-wave plate 1011, left eyeglass Polarizer 1012;

Left side eyeglass quarter-wave plate 1011 is used for seeing through elliptically polarized light, and the elliptically polarized light that will see through changes linearly polarized light into;

Left side eyeglass Polarizer 1012 is used for seeing through this linearly polarized light;

See also Fig. 3, be the synoptic diagram of right eyeglass, this right side eyeglass 102 is arranged on the frame 103, comprising: right eyeglass quarter-wave plate 1021, right eyeglass Polarizer 1022;

Right eyeglass quarter-wave plate 1021 is used for seeing through elliptically polarized light, and the elliptically polarized light that will see through changes linearly polarized light into;

Right eyeglass Polarizer 1022 is used for seeing through this linearly polarized light;

The polar orientation of left side eyeglass Polarizer 1012 and the polar orientation irrelevancy of right eyeglass Polarizer 1022 are capable.

Wherein, left eyeglass quarter-wave plate 1011 sees through elliptically polarized light, and the process that the elliptically polarized light that will see through changes linearly polarized light into comprises:

Left side eyeglass quarter-wave plate 1011 sees through direction of vibration becomes predetermined angular one with its fast axle elliptically polarized light, and the elliptically polarized light that will see through changes linearly polarized light into.

Wherein, right eyeglass quarter-wave plate 1021 sees through elliptically polarized light, and the process that the elliptically polarized light that will see through changes linearly polarized light into comprises:

Right eyeglass quarter-wave plate 1021 sees through direction of vibration becomes predetermined angular two with its fast axle elliptically polarized light, and the elliptically polarized light that will see through changes linearly polarized light into.

Wherein, left eyeglass Polarizer 1012 comprises through the process of this linearly polarized light:

Polar orientation becomes predetermined angular one with the fast axle of left eyeglass quarter-wave plate 1011, is used for seeing through this linearly polarized light; Perhaps the direction of vibration of polar orientation and this linearly polarized light parallels, and is used for seeing through this linearly polarized light.

Wherein, right eyeglass Polarizer 1022 comprises through the process of this linearly polarized light:

Polar orientation becomes predetermined angular two with the fast axle of right eyeglass quarter-wave plate 1021, is used for seeing through this linearly polarized light; Perhaps the direction of vibration of polar orientation and this linearly polarized light parallels, and is used for seeing through this linearly polarized light.

Wherein, left eyeglass quarter-wave plate 1011 sees through direction of vibration becomes miter angle with its fast axle circularly polarized light, and the circularly polarized light that will see through changes linearly polarized light into.

Wherein, right eyeglass quarter-wave plate 1021 sees through direction of vibration becomes miter angle with its fast axle circularly polarized light, and the circularly polarized light that will see through changes linearly polarized light into.

Wherein, left eyeglass Polarizer 1012 polar orientation become miter angle with the fast axle of left eyeglass quarter-wave plate 1011, are used for seeing through this linearly polarized light; Perhaps the direction of vibration of polar orientation and this linearly polarized light parallels, and is used for seeing through this linearly polarized light.

Wherein, right eyeglass Polarizer 1022 polar orientation become miter angle with the fast axle of right eyeglass quarter-wave plate 1021, are used for seeing through this linearly polarized light; Perhaps the direction of vibration of polar orientation and this linearly polarized light parallels, and is used for seeing through this linearly polarized light.

The present invention also provides a kind of polagizing filter.

See also Fig. 4, be the synoptic diagram of polagizing filter of the present invention, this polagizing filter 400 comprises: electric field selector switch 401, electric field provide device 402, the polarizer 403.

Wherein, electric field selector switch 401 is used to select the schedule time, to the polarizer 403 electric field is provided.

Wherein, electric field provides device 402, and being used for provides electric field to the polarizer 403 when 401 selections of electric field selector switch provide electric field to the polarizer 403.

See also Fig. 5, be the synoptic diagram of the polarizer, this polarizer 403 comprises: Polarizer 4031, first conductive layer 4032, liquid crystal layer 4033, second conductive layer 4034, quarter-wave plate 4035;

Polarizer 4031 is used for seeing through the linearly polarized light one that parallels direction with polar orientation;

First conductive layer 4032, bonding with Polarizer 4031, be used for seeing through the linearly polarized light one that Polarizer 4031 is seen through;

Liquid crystal layer 4033; Bonding with first conductive layer 4032, be used at first conductive layer 4032, when second conductive layer 4034 does not add electric field, rotate linearly polarized light one predetermined angular that first conductive layer 4032 is seen through; Obtain linearly polarized light two, and see through the linearly polarized light two that this obtains after rotation; When electric field provides device 402 that electric field is provided to first conductive layer 4032, second conductive layer 4034, see through the linearly polarized light one that first conductive layer 4032 is seen through;

Second conductive layer 4034, bonding with liquid crystal layer 4033, be used for seeing through linearly polarized light one, the linearly polarized light two that liquid crystal layer 4033 is seen through;

Quarter-wave plate 4035, bonding with second conductive layer 4034, be used for seeing through the linearly polarized light one that second conductive layer 4034 is seen through, the linearly polarized light one that will see through changes elliptically polarized light one into; See through the linearly polarized light two that second conductive layer 4034 is seen through, the linearly polarized light two that will see through changes elliptically polarized light two into.

Wherein, electric field selector switch 401 is selected the schedule time, provides the process of electric field to comprise to the polarizer 403:

Electric field selector switch 401 is chosen in N/120 during second, to the polarizer 403 electric field is provided, and N wherein comprises odd number, even number.

Wherein, first conductive layer 4032 comprises tin indium oxide (ITO) electro-conductive glass, and is bonding with Polarizer 4031, is used for seeing through the linearly polarized light one that Polarizer 4031 is seen through.

Wherein, second conductive layer 4034 comprises tin indium oxide ITO electro-conductive glass, and is bonding with liquid crystal layer 4033, is used for seeing through linearly polarized light one, the linearly polarized light two that liquid crystal layer 4033 is seen through.

Wherein, Liquid crystal layer 4033 comprises twisted-nematic (TN) type liquid crystal layer; Bonding with first conductive layer 4032, be used at first conductive layer 4032, when second conductive layer 4034 does not add electric field, rotate linearly polarized light one 90 degree that first conductive layer 4032 is seen through; Obtain linearly polarized light two, and see through the linearly polarized light two that this obtains after rotation; When electric field provides device 402 that electric field is provided to first conductive layer 4032, second conductive layer 4034, see through the linearly polarized light one that first conductive layer 4032 is seen through.

Wherein, Liquid crystal layer 4033 comprises super twisted nematic (STN) type liquid crystal layer; Bonding with first conductive layer 4032, be used at first conductive layer 4032, when second conductive layer 4034 does not add electric field, rotate linearly polarized light one 270 degree that first conductive layer 4032 is seen through; Obtain linearly polarized light two, and see through the linearly polarized light two that this obtains after rotation; When electric field provides device 402 that electric field is provided to first conductive layer 4032, second conductive layer 4034, see through the linearly polarized light one that first conductive layer 4032 is seen through.

Wherein, electric field selector switch 401 comprises the power supply gate, is used to select the schedule time, to the polarizer 403 electric field is provided.

Wherein, electric field provides device 402 to comprise power supply, and being used for provides electric field to the polarizer 403 when 401 selections of electric field selector switch provide electric field to the polarizer 403.

Wherein, quarter-wave plate 4035 sees through the linearly polarized light one that second conductive layer 4034 is seen through, and the process that the linearly polarized light one that will see through changes elliptically polarized light one into comprises:

Quarter-wave plate 4035 sees through direction of vibration becomes predetermined angular one with its fast axle linearly polarized light one, and the linearly polarized light one that will see through changes elliptically polarized light one into.

Wherein, quarter-wave plate 4035 sees through the linearly polarized light two that second conductive layer 4034 is seen through, and the process that the linearly polarized light two that will see through changes elliptically polarized light two into comprises:

Quarter-wave plate 4035 sees through direction of vibration becomes predetermined angular two with its fast axle linearly polarized light two, and the linearly polarized light two that will see through changes elliptically polarized light two into.

Wherein, quarter-wave plate 4035 sees through direction of vibration becomes miter angle with its fast axle linearly polarized light one, and the linearly polarized light one that will see through changes circularly polarized light one into.

Wherein, quarter-wave plate 4035 sees through direction of vibration becomes miter angle with its fast axle linearly polarized light two, and the linearly polarized light two that will see through changes circularly polarized light two into.

The present invention provides a kind of projector again.

See also Fig. 6, be the synoptic diagram of projector of the present invention, this projector 600 comprises: device for projecting 601, polagizing filter 602;

Device for projecting 601 is used for projects images signal light;

Polagizing filter 602 is arranged on the bang path of the picture signal light that device for projecting 601 projected, and comprising: electric field selector switch 6021, electric field provide device 6022, the polarizer 6023;

Electric field selector switch 6021 is used to select the schedule time, to the polarizer 6023 electric field is provided;

Electric field provides device 6022, and being used for provides electric field to the polarizer 6023 when 6021 selections of electric field selector switch provide electric field to the polarizer 6023;

The polarizer 6023 comprises: Polarizer 60231, first conductive layer 60232, liquid crystal layer 60233, second conductive layer 60234, quarter-wave plate 60235;

Polarizer 60231 is used for seeing through the light that parallels direction with polar orientation, sees through the picture signal light that device for projecting 601 is projected, and obtains linearly polarized light one;

First conductive layer 60232, bonding with Polarizer 60231, be used for seeing through the linearly polarized light one that Polarizer 60231 is seen through;

Liquid crystal layer 60233; Bonding with first conductive layer 60232; Be used at first conductive layer 60232, when second conductive layer 60234 does not add electric field; Rotate linearly polarized light one predetermined angular that first conductive layer 60232 is seen through, obtain linearly polarized light two, and see through the linearly polarized light two that this obtains after rotation; When electric field provides device 6022 that electric field is provided to first conductive layer 60232, second conductive layer 60234, see through the linearly polarized light one that first conductive layer 60232 is seen through;

Second conductive layer 60234, bonding with liquid crystal layer 60233, be used for seeing through linearly polarized light one, the linearly polarized light two that liquid crystal layer 60233 is seen through;

Quarter-wave plate 60235, bonding with second conductive layer 60234, be used for seeing through the linearly polarized light one that second conductive layer 60234 is seen through, the linearly polarized light one that will see through changes elliptically polarized light one into; See through the linearly polarized light two that second conductive layer 60234 is seen through, the linearly polarized light two that will see through changes elliptically polarized light two into.

Wherein, electric field selector switch 6021 is selected the schedule time, provides the process of electric field to comprise to the polarizer 6023:

Electric field selector switch 6021 is chosen in N/120 during second, to the polarizer 6023 electric field is provided, and N wherein comprises odd number, even number.

Wherein, first conductive layer 60232 comprises tin indium oxide ITO electro-conductive glass, and is bonding with Polarizer 60231, is used for seeing through the linearly polarized light one that Polarizer 60231 is seen through.

Wherein, second conductive layer 60234 comprises tin indium oxide ITO electro-conductive glass, and is bonding with liquid crystal layer 60233, is used for seeing through linearly polarized light one, the linearly polarized light two that liquid crystal layer 60233 is seen through.

Wherein, Liquid crystal layer 60233 comprises twisted-nematic TN type liquid crystal layer; Bonding with first conductive layer 60232, be used at first conductive layer 60232, when second conductive layer 60234 does not add electric field, rotate linearly polarized light one 90 degree that first conductive layer 60232 is seen through; Obtain linearly polarized light two, and see through the linearly polarized light two that this obtains after rotation; When electric field provides device 6022 that electric field is provided to first conductive layer 60232, second conductive layer 60234, see through the linearly polarized light one that first conductive layer 60232 is seen through.

Wherein, Liquid crystal layer 60233 comprises super twisted nematic STN type liquid crystal layer; Bonding with first conductive layer 60232, be used at first conductive layer 60232, when second conductive layer 60234 does not add electric field, rotate linearly polarized light one 270 degree that first conductive layer 60232 is seen through; Obtain linearly polarized light two, and see through the linearly polarized light two that this obtains after rotation; When electric field provides device 6022 that electric field is provided to first conductive layer 60232, second conductive layer 60234, see through the linearly polarized light one that first conductive layer 60232 is seen through.

Wherein, electric field selector switch 6021 comprises the power supply gate, is used to select the schedule time, to the polarizer 6023 electric field is provided.

Wherein, electric field provides device 6022 to comprise power supply, and being used for provides electric field to the polarizer 6023 when 6021 selections of electric field selector switch provide electric field to the polarizer 6023.

Wherein, quarter-wave plate 60235 sees through the linearly polarized light one that second conductive layer 60234 is seen through, and the process that the linearly polarized light one that will see through changes elliptically polarized light one into comprises:

Quarter-wave plate 60235 sees through direction of vibration becomes predetermined angular one with its fast axle linearly polarized light one, and the linearly polarized light one that will see through changes elliptically polarized light one into.

Wherein, quarter-wave plate 60235 sees through the linearly polarized light two that second conductive layer 60234 is seen through, and the process that the linearly polarized light two that will see through changes elliptically polarized light two into comprises:

Quarter-wave plate 60235 sees through direction of vibration becomes predetermined angular two with its fast axle linearly polarized light two, and the linearly polarized light two that will see through changes elliptically polarized light two into.

Wherein, quarter-wave plate 60235 sees through direction of vibration becomes miter angle with its fast axle linearly polarized light one, and the linearly polarized light one that will see through changes circularly polarized light one into.

Wherein, quarter-wave plate 60235 sees through direction of vibration becomes miter angle with its fast axle linearly polarized light two, and the linearly polarized light two that will see through changes circularly polarized light two into.

Wherein, device for projecting 601 comprises: digital light is handled DLP projector, is used for projects images signal light; Or liquid crystal on silicon LCOS projector, be used for projects images signal light; Or liquid crystal LCD projector, be used for projects images signal light.

Wherein, the polarization frequency of polagizing filter 602 can be identical with the broadcast frequency of program source.

Wherein, polagizing filter 602 on schedule can be synchronous with the picture signal light that device for projecting 601 is projected like the picture signal light that replaces that frequency produced of per second 120 frames.

Projector 600 of the present invention uses polagizing filter 602 and produces picture signal light alternately like the frequency of per second 120 frames on schedule; Each picture frame replaces in order; And the direction of vibration of the picture signal light light when projection screen reflexes to polaroid glasses that replaces of this generation can not change, and the beholder can only see corresponding image through polaroid glasses left side eyeglass, right eyeglass, and promptly the beholder receives a left-eye frame through polaroid glasses; Next right eye frame; Another left-eye frame then, another right eye frame next, thus in visual system, produce stereo perception; Reach the purpose of viewing and admiring stereopsis, reach the purpose of viewing and admiring stereopsis through a projector thereby reach realization.

The present invention provides a kind of stereo image system again.

See also Fig. 7, be the synoptic diagram of stereo image system of the present invention, this stereo image system 700 comprises: projector 701, projection screen 702, polaroid glasses 703.

Wherein, projector 701 comprises: device for projecting 7011, polagizing filter 7012;

Device for projecting 7011 is used for projects images signal light;

Polagizing filter 7012 is arranged on the bang path of the picture signal light that device for projecting 7011 projected, and comprising: electric field selector switch 70121, electric field provide device 70122, the polarizer 70123;

Electric field selector switch 70121 is used to select the schedule time, to the polarizer 70123 electric field is provided;

Electric field provides device 70122, and being used for provides electric field to the polarizer 70123 when 70121 selections of electric field selector switch provide electric field to the polarizer 70123;

The polarizer 70123 comprises: Polarizer 701231, first conductive layer 701232, liquid crystal layer 701233, second conductive layer 701234, quarter-wave plate 701235;

Polarizer 701231 is used for seeing through the light that parallels direction with polar orientation, sees through the picture signal light that device for projecting 7011 is projected, and obtains linearly polarized light one;

First conductive layer 701232, bonding with Polarizer 701231, be used for seeing through the linearly polarized light one that Polarizer 701231 is seen through;

Liquid crystal layer 701233; Bonding with first conductive layer 701232; Be used at first conductive layer 701232, when second conductive layer 701234 does not add electric field; Rotate linearly polarized light one predetermined angular that first conductive layer 701232 is seen through, obtain linearly polarized light two, and see through the linearly polarized light two that this obtains after rotation; When electric field provides device 70122 that electric field is provided to first conductive layer 701232, second conductive layer 701234, see through the linearly polarized light one that first conductive layer 701232 is seen through;

Second conductive layer 701234, bonding with liquid crystal layer 701233, be used for seeing through linearly polarized light one, the linearly polarized light two that liquid crystal layer 701233 is seen through;

Quarter-wave plate 701235, bonding with second conductive layer 701234, be used for seeing through the linearly polarized light one that second conductive layer 701234 is seen through, the linearly polarized light one that will see through changes elliptically polarized light one into; See through the linearly polarized light two that second conductive layer 701234 is seen through, the linearly polarized light two that will see through changes elliptically polarized light two into.

Wherein, Projection screen 702; Being arranged at the light that polagizing filter 7012 is seen through in the projector 701 is on the bang path of elliptically polarized light one, elliptically polarized light two, is used to reflect the elliptically polarized light one that polagizing filter 7012 is seen through, and obtains elliptically polarized light three; The elliptically polarized light two that reflection polagizing filter 7012 is seen through obtains elliptically polarized light four; The direction of vibration of this elliptically polarized light that obtains three is identical with the direction of vibration of elliptically polarized light one, and the direction of vibration of this elliptically polarized light that obtains four is identical with the direction of vibration of elliptically polarized light two.

Wherein, polaroid glasses 703 are arranged on the bang path of the elliptically polarized light three that obtains after projection screen 702 reflection, elliptically polarized light four, comprising: left eyeglass 7031, right eyeglass 7032, frame 7033;

Left side eyeglass 7031 is arranged on the frame 7033, comprising: left eyeglass quarter-wave plate 70311, left eyeglass Polarizer 70312;

Left side eyeglass quarter-wave plate 70311 is used for seeing through the elliptically polarized light three that after projection screen 702 reflections, obtains, and the elliptically polarized light three that will see through changes linearly polarized light three into;

Left side eyeglass Polarizer 70312 is used for seeing through this linearly polarized light three;

Right eyeglass 7032 is arranged on the frame 7033, comprising: right eyeglass quarter-wave plate 70321, right eyeglass Polarizer 70322;

Right eyeglass quarter-wave plate 70321 is used for seeing through the elliptically polarized light four that after projection screen 702 reflections, obtains, and the elliptically polarized light four that will see through changes linearly polarized light four into;

Right eyeglass Polarizer 70322 is used for seeing through this linearly polarized light four;

The polar orientation of left side eyeglass Polarizer 70312 and the polar orientation irrelevancy of right eyeglass Polarizer 70322 are capable.

Wherein, electric field selector switch 70121 is selected the schedule time, provides the process of electric field to comprise to the polarizer 70123:

Electric field selector switch 70121 is chosen in N/120 during second, to the polarizer 70123 electric field is provided, and N wherein comprises odd number, even number.

Wherein, first conductive layer 701232 comprises tin indium oxide ITO electro-conductive glass, and is bonding with Polarizer 701231, is used for seeing through the linearly polarized light one that Polarizer 701231 is seen through.

Wherein, second conductive layer 701234 comprises tin indium oxide ITO electro-conductive glass, and is bonding with liquid crystal layer 701233, is used for seeing through linearly polarized light one, the linearly polarized light two that liquid crystal layer 701233 is seen through.

Wherein, Liquid crystal layer 701233 comprises twisted-nematic TN type liquid crystal layer; Bonding with first conductive layer 701232, be used at first conductive layer 701232, when second conductive layer 701234 does not add electric field, rotate linearly polarized light one 90 degree that first conductive layer 701232 is seen through; Obtain linearly polarized light two, and see through the linearly polarized light two that this obtains after rotation; When electric field provides device 70122 that electric field is provided to first conductive layer 701232, second conductive layer 701234, see through the linearly polarized light one that first conductive layer 701232 is seen through.

Wherein, Liquid crystal layer 701233 comprises super twisted nematic STN type liquid crystal layer; Bonding with first conductive layer 701232, be used at first conductive layer 701232, when second conductive layer 701234 does not add electric field, rotate linearly polarized light one 270 degree that first conductive layer 701232 is seen through; Obtain linearly polarized light two, and see through the linearly polarized light two that this obtains after rotation; When electric field provides device 70122 that electric field is provided to first conductive layer 701232, second conductive layer 701234, see through the linearly polarized light one that first conductive layer 701232 is seen through.

Wherein, electric field selector switch 70121 comprises the power supply gate, is used to select the schedule time, to the polarizer 70123 electric field is provided.

Wherein, electric field provides device 70122 to comprise power supply, and being used for provides electric field to the polarizer 70123 when 70121 selections of electric field selector switch provide electric field to the polarizer 70123.

Wherein, quarter-wave plate 701235 sees through the linearly polarized light one that second conductive layer 701234 is seen through, and the process that the linearly polarized light one that will see through changes elliptically polarized light one into comprises:

Quarter-wave plate 701235 sees through direction of vibration becomes predetermined angular one with its fast axle linearly polarized light one, and the linearly polarized light one that will see through changes elliptically polarized light one into.

Wherein, quarter-wave plate 701235 sees through the linearly polarized light two that second conductive layer 701234 is seen through, and the process that the linearly polarized light two that will see through changes elliptically polarized light two into comprises:

Quarter-wave plate 701235 sees through direction of vibration becomes predetermined angular two with its fast axle linearly polarized light two, and the linearly polarized light two that will see through changes elliptically polarized light two into.

Wherein, quarter-wave plate 701235 sees through direction of vibration becomes miter angle with its fast axle linearly polarized light one, and the linearly polarized light one that will see through changes circularly polarized light one into.

Wherein, quarter-wave plate 701235 sees through direction of vibration becomes miter angle with its fast axle linearly polarized light two, and the linearly polarized light two that will see through changes circularly polarized light two into.

Wherein, Projection screen 702 comprises metal shadowing's screen; Being arranged at the light that polagizing filter 7012 is seen through in the projector 701 is on the bang path of elliptically polarized light one, elliptically polarized light two, is used to reflect the elliptically polarized light one that polagizing filter 7012 is seen through, and obtains elliptically polarized light three; The elliptically polarized light two that reflection polagizing filter 7012 is seen through obtains elliptically polarized light four; The direction of vibration of this elliptically polarized light that obtains three is identical with the direction of vibration of elliptically polarized light one, and the direction of vibration of this elliptically polarized light that obtains four is identical with the direction of vibration of elliptically polarized light two.

Wherein, left eyeglass quarter-wave plate 70311 sees through the elliptically polarized light three that after projection screen 702 reflections, obtains, and the process that the elliptically polarized light three that will see through changes linearly polarized light three into comprises:

Left side eyeglass quarter-wave plate 70311 sees through direction of vibration becomes predetermined angular three with its fast axle the elliptically polarized light three that after projection screen 702 reflections, obtains, and the elliptically polarized light three that will see through changes linearly polarized light three into.

Wherein, right eyeglass quarter-wave plate 70321 sees through the elliptically polarized light four that after projection screen 702 reflections, obtains, and the process that the elliptically polarized light four that will see through changes linearly polarized light four into comprises:

Right eyeglass quarter-wave plate 70321 sees through direction of vibration becomes predetermined angular four with its fast axle the elliptically polarized light four that after projection screen 702 reflections, obtains, and the elliptically polarized light four that will see through changes linearly polarized light four into.

Wherein, left eyeglass Polarizer 70312 comprises through the process of this linearly polarized light three:

Polar orientation becomes predetermined angular three with the fast axle of left eyeglass quarter-wave plate 70311, is used for seeing through this linearly polarized light three; Perhaps the direction of vibration of polar orientation and this linearly polarized light three parallels, and is used for seeing through this linearly polarized light three.

Wherein, right eyeglass Polarizer 70322 comprises through the process of this linearly polarized light four:

Polar orientation becomes predetermined angular four with the fast axle of right eyeglass quarter-wave plate 70321, is used for seeing through this linearly polarized light four; Perhaps the direction of vibration of polar orientation and this linearly polarized light four parallels, and is used for seeing through this linearly polarized light four.

Wherein, left eyeglass quarter-wave plate 70311 sees through direction of vibration becomes miter angle with its fast axle circularly polarized light three, and the circularly polarized light three that will see through changes linearly polarized light three into.

Wherein, right eyeglass quarter-wave plate 70321 sees through direction of vibration becomes miter angle with its fast axle circularly polarized light four, and the circularly polarized light four that will see through changes linearly polarized light four into.

Wherein, left eyeglass Polarizer 70312 polar orientation become miter angle with the fast axle of left eyeglass quarter-wave plate 70311, are used for seeing through this linearly polarized light three; Perhaps the direction of vibration of polar orientation and this linearly polarized light three parallels, and is used for seeing through this linearly polarized light three.

Wherein, right eyeglass Polarizer 70322 polar orientation become miter angle with the fast axle of right eyeglass quarter-wave plate 70321, are used for seeing through this linearly polarized light four; Perhaps the direction of vibration of polar orientation and this linearly polarized light four parallels, and is used for seeing through this linearly polarized light four.

Wherein, device for projecting 7011 comprises: digital light is handled DLP projector, is used for projects images signal light; Or liquid crystal on silicon LCOS projector, be used for projects images signal light; Or liquid crystal LCD projector, be used for projects images signal light.

Wherein, the polarization frequency of polagizing filter 7012 can be identical with the broadcast frequency of program source.

Wherein, polagizing filter 7012 on schedule can be synchronous with the picture signal light that device for projecting 7011 is projected like the picture signal light that replaces that frequency produced of per second 120 frames.

Stereo image system 700 of the present invention is used projector 701 and is produced picture signal light alternately like the frequency of per second 120 frames on schedule; Each picture frame replaces in order; And the direction of vibration of the picture signal light light when projection screen 702 reflexes to polaroid glasses 703 that replaces of this generation can not change, and the beholder can only see corresponding image through the left eyeglass of polaroid glasses 703 7031, right eyeglass 7032, and promptly the beholder receives a left-eye frame through polaroid glasses 703; Next right eye frame; Another left-eye frame then, another right eye frame next, thus in visual system, produce stereo perception; Reach the purpose of viewing and admiring stereopsis, reach the purpose of viewing and admiring stereopsis through a projector thereby reach realization.

For polaroid glasses of the present invention, polagizing filter, projector, stereo image system, the form of realization is diversified.All within spirit of the present invention and principle, any modification of being done, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (18)

1. polaroid glasses is characterized in that, comprising: left eyeglass, right eyeglass, frame;

Said left eyeglass is arranged on the said frame, comprising: left eyeglass quarter-wave plate, left eyeglass Polarizer;

Said left eyeglass quarter-wave plate is used for seeing through elliptically polarized light, and the elliptically polarized light that will see through changes linearly polarized light into;

Said left eyeglass Polarizer is used for seeing through said linearly polarized light;

Said right eyeglass is arranged on the said frame, comprising: right eyeglass quarter-wave plate, right eyeglass Polarizer;

Said right eyeglass quarter-wave plate is used for seeing through elliptically polarized light, and the elliptically polarized light that will see through changes linearly polarized light into;

Said right eyeglass Polarizer is used for seeing through said linearly polarized light;

The polar orientation irrelevancy of the polar orientation of said left eyeglass Polarizer and said right eyeglass Polarizer is capable.

2. polaroid glasses as claimed in claim 1 is characterized in that, said left eyeglass quarter-wave plate sees through direction of vibration becomes miter angle with its fast axle circularly polarized light, and the circularly polarized light that will see through changes linearly polarized light into;

Said right eyeglass quarter-wave plate sees through direction of vibration becomes miter angle with its fast axle circularly polarized light, and the circularly polarized light that will see through changes linearly polarized light into;

Said left eyeglass Polarizer, polar orientation becomes miter angle with the fast axle of said left eyeglass quarter-wave plate, is used for seeing through said linearly polarized light; Perhaps the direction of vibration of polar orientation and said linearly polarized light parallels, and is used for seeing through said linearly polarized light;

Said right eyeglass Polarizer, polar orientation becomes miter angle with the fast axle of said right eyeglass quarter-wave plate, is used for seeing through said linearly polarized light; Perhaps the direction of vibration of polar orientation and said linearly polarized light parallels, and is used for seeing through said linearly polarized light.

3. a polagizing filter is characterized in that, comprising: electric field selector switch, electric field provide device, the polarizer;

Said electric field selector switch is used to select the schedule time, to the said polarizer electric field is provided;

Said electric field provides device, and being used for provides electric field to the said polarizer when said electric field selector switch selection provides electric field to the said polarizer;

The said polarizer comprises: Polarizer, first conductive layer, liquid crystal layer, second conductive layer, quarter-wave plate;

Said Polarizer is used for seeing through the linearly polarized light one that parallels direction with polar orientation;

Said first conductive layer, bonding with said Polarizer, be used for seeing through the linearly polarized light one that said Polarizer saw through;

Said liquid crystal layer; Bonding with said first conductive layer, be used for rotating linearly polarized light one predetermined angular that said first conductive layer is seen through at said first conductive layer, when second conductive layer does not add electric field; Obtain linearly polarized light two, and see through the said linearly polarized light two that after rotation, obtains; When said electric field provides device that electric field is provided to said first conductive layer, second conductive layer, see through the linearly polarized light one that said first conductive layer is seen through;

Said second conductive layer, bonding with said liquid crystal layer, be used for seeing through linearly polarized light one, the linearly polarized light two that said liquid crystal layer saw through;

Said quarter-wave plate, bonding with said second conductive layer, be used for seeing through the linearly polarized light one that said second conductive layer is seen through, the linearly polarized light one that will see through changes elliptically polarized light one into; See through the linearly polarized light two that said second conductive layer is seen through, the linearly polarized light two that will see through changes elliptically polarized light two into.

4. polagizing filter as claimed in claim 3 is characterized in that, said quarter-wave plate sees through direction of vibration becomes predetermined angular one with its fast axle linearly polarized light one, and the linearly polarized light one that will see through changes elliptically polarized light one into;

Said quarter-wave plate sees through direction of vibration becomes predetermined angular two with its fast axle linearly polarized light two, and the linearly polarized light two that will see through changes elliptically polarized light two into.

5. like claim 3 or 4 described polagizing filters, it is characterized in that said quarter-wave plate sees through direction of vibration becomes miter angle with its fast axle linearly polarized light one, the linearly polarized light one that will see through changes circularly polarized light one into;

Said quarter-wave plate sees through direction of vibration becomes miter angle with its fast axle linearly polarized light two, and the linearly polarized light two that will see through changes circularly polarized light two into.

6. polagizing filter as claimed in claim 3 is characterized in that, said electric field selector switch is chosen in N/120 during second, to the said polarizer electric field is provided, and said N comprises odd number, even number.

7. a projector is characterized in that, comprising: device for projecting, polagizing filter;

Said device for projecting is used for projects images signal light;

Said polagizing filter is arranged on the bang path of the picture signal light that said device for projecting projects, and comprising: electric field selector switch, electric field provide device, the polarizer;

Said electric field selector switch is used to select the schedule time, to the said polarizer electric field is provided;

Said electric field provides device, and being used for provides electric field to the said polarizer when said electric field selector switch selection provides electric field to the said polarizer;

The said polarizer comprises: Polarizer, first conductive layer, liquid crystal layer, second conductive layer, quarter-wave plate;

Said Polarizer is used for seeing through the light that parallels direction with polar orientation, sees through the picture signal light that said device for projecting projected, and obtains linearly polarized light one;

Said first conductive layer, bonding with said Polarizer, be used for seeing through the linearly polarized light one that said Polarizer saw through;

Said liquid crystal layer; Bonding with said first conductive layer, be used for rotating linearly polarized light one predetermined angular that said first conductive layer is seen through at said first conductive layer, when second conductive layer does not add electric field; Obtain linearly polarized light two, and see through the said linearly polarized light two that after rotation, obtains; When said electric field provides device that electric field is provided to said first conductive layer, second conductive layer, see through the linearly polarized light one that said first conductive layer is seen through;

Said second conductive layer, bonding with said liquid crystal layer, be used for seeing through linearly polarized light one, the linearly polarized light two that said liquid crystal layer saw through;

Said quarter-wave plate, bonding with said second conductive layer, be used for seeing through the linearly polarized light one that said second conductive layer is seen through, the linearly polarized light one that will see through changes elliptically polarized light one into; See through the linearly polarized light two that said second conductive layer is seen through, the linearly polarized light two that will see through changes elliptically polarized light two into.

8. projector as claimed in claim 7 is characterized in that, said quarter-wave plate sees through direction of vibration becomes predetermined angular one with its fast axle linearly polarized light one, and the linearly polarized light one that will see through changes elliptically polarized light one into;

Said quarter-wave plate sees through direction of vibration becomes predetermined angular two with its fast axle linearly polarized light two, and the linearly polarized light two that will see through changes elliptically polarized light two into.

9. like claim 7 or 8 described projectors, it is characterized in that said quarter-wave plate sees through direction of vibration becomes miter angle with its fast axle linearly polarized light one, the linearly polarized light one that will see through changes circularly polarized light one into;

Said quarter-wave plate sees through direction of vibration becomes miter angle with its fast axle linearly polarized light two, and the linearly polarized light two that will see through changes circularly polarized light two into.

10. projector as claimed in claim 7 is characterized in that, said electric field selector switch is chosen in N/120 during second, to the said polarizer electric field is provided, and said N comprises odd number, even number.

11. projector as claimed in claim 7 is characterized in that, said device for projecting comprises: digital light is handled DLP projector, is used for projects images signal light; Or liquid crystal on silicon LCOS projector, be used for projects images signal light; Or liquid crystal LCD projector, be used for projects images signal light.

12. a stereo image system is characterized in that, comprising: projector, projection screen, polaroid glasses;

Said projector comprises: device for projecting, polagizing filter;

Said device for projecting is used for projects images signal light;

Said polagizing filter is arranged on the bang path of the picture signal light that said device for projecting projects, and comprising: electric field selector switch, electric field provide device, the polarizer;

Said electric field selector switch is used to select the schedule time, to the said polarizer electric field is provided;

Said electric field provides device, and being used for provides electric field to the said polarizer when said electric field selector switch selection provides electric field to the said polarizer;

The said polarizer comprises: Polarizer, first conductive layer, liquid crystal layer, second conductive layer, quarter-wave plate;

Said Polarizer is used for seeing through the light that parallels direction with polar orientation, sees through the picture signal light that said device for projecting projected, and obtains linearly polarized light one;

Said first conductive layer, bonding with said Polarizer, be used for seeing through the linearly polarized light one that said Polarizer saw through;

Said liquid crystal layer; Bonding with said first conductive layer, be used for rotating linearly polarized light one predetermined angular that said first conductive layer is seen through at said first conductive layer, when second conductive layer does not add electric field; Obtain linearly polarized light two, and see through the said linearly polarized light two that after rotation, obtains; When said electric field provides device that electric field is provided to said first conductive layer, second conductive layer, see through the linearly polarized light one that said first conductive layer is seen through;

Said second conductive layer, bonding with said liquid crystal layer, be used for seeing through linearly polarized light one, the linearly polarized light two that said liquid crystal layer saw through;

Said quarter-wave plate, bonding with said second conductive layer, be used for seeing through the linearly polarized light one that said second conductive layer is seen through, the linearly polarized light one that will see through changes elliptically polarized light one into; See through the linearly polarized light two that said second conductive layer is seen through, the linearly polarized light two that will see through changes elliptically polarized light two into;

Said projection screen is arranged on the bang path of polagizing filter saw through described in the said projector elliptically polarized light one, elliptically polarized light two, is used to reflect the elliptically polarized light one that said polagizing filter sees through, and obtains elliptically polarized light three; Reflect the elliptically polarized light two that said polagizing filter sees through, obtain elliptically polarized light four; The direction of vibration of the said elliptically polarized light that obtains three is identical with the direction of vibration of elliptically polarized light one, and the direction of vibration of the said elliptically polarized light that obtains four is identical with the direction of vibration of elliptically polarized light two;

Said polaroid glasses are arranged on the bang path of the elliptically polarized light three that obtains after the reflection of said projection screen, elliptically polarized light four, comprising: left eyeglass, right eyeglass, frame;

Said left eyeglass is arranged on the said frame, comprising: left eyeglass quarter-wave plate, left eyeglass Polarizer;

Said left eyeglass quarter-wave plate is used for seeing through the elliptically polarized light three that after said projection screen reflection, obtains, and the elliptically polarized light three that will see through changes linearly polarized light three into;

Said left eyeglass Polarizer is used for seeing through said linearly polarized light three;

Said right eyeglass is arranged on the said frame, comprising: right eyeglass quarter-wave plate, right eyeglass Polarizer;

Said right eyeglass quarter-wave plate is used for seeing through the elliptically polarized light four that after said projection screen reflection, obtains, and the elliptically polarized light four that will see through changes linearly polarized light four into;

Said right eyeglass Polarizer is used for seeing through said linearly polarized light four;

The polar orientation irrelevancy of the polar orientation of said left eyeglass Polarizer and said right eyeglass Polarizer is capable.

13. stereo image system as claimed in claim 12 is characterized in that, said quarter-wave plate sees through direction of vibration becomes predetermined angular one with its fast axle linearly polarized light one, and the linearly polarized light one that will see through changes elliptically polarized light one into;

Said quarter-wave plate sees through direction of vibration becomes predetermined angular two with its fast axle linearly polarized light two, and the linearly polarized light two that will see through changes elliptically polarized light two into.

14., it is characterized in that said quarter-wave plate sees through direction of vibration becomes miter angle with its fast axle linearly polarized light one like claim 12 or 13 described stereo image systems, the linearly polarized light one that will see through changes circularly polarized light one into;

Said quarter-wave plate sees through direction of vibration becomes miter angle with its fast axle linearly polarized light two, and the linearly polarized light two that will see through changes circularly polarized light two into.

15. like claim 12 or 13 described stereo image systems; It is characterized in that; Said left eyeglass quarter-wave plate sees through direction of vibration becomes predetermined angular three with its fast axle the elliptically polarized light three that after said projection screen reflection, obtains, and the elliptically polarized light three that will see through changes linearly polarized light three into;

Said right eyeglass quarter-wave plate sees through direction of vibration becomes predetermined angular four with its fast axle the elliptically polarized light four that after said projection screen reflection, obtains, and the elliptically polarized light four that will see through changes linearly polarized light four into;

Said left eyeglass Polarizer, polar orientation becomes predetermined angular three with the fast axle of said left eyeglass quarter-wave plate, is used for seeing through said linearly polarized light three; Perhaps the direction of vibration of polar orientation and said linearly polarized light three parallels, and is used for seeing through said linearly polarized light three;

Said right eyeglass Polarizer, polar orientation becomes predetermined angular four with the fast axle of said right eyeglass quarter-wave plate, is used for seeing through said linearly polarized light four; Perhaps the direction of vibration of polar orientation and said linearly polarized light four parallels, and is used for seeing through said linearly polarized light four.

16. stereo image system as claimed in claim 15 is characterized in that, said left eyeglass quarter-wave plate sees through direction of vibration becomes miter angle with its fast axle circularly polarized light three, and the circularly polarized light three that will see through changes linearly polarized light three into;

Said right eyeglass quarter-wave plate sees through direction of vibration becomes miter angle with its fast axle circularly polarized light four, and the circularly polarized light four that will see through changes linearly polarized light four into;

Said left eyeglass Polarizer, polar orientation becomes miter angle with the fast axle of said left eyeglass quarter-wave plate, is used for seeing through said linearly polarized light three; Perhaps the direction of vibration of polar orientation and said linearly polarized light three parallels, and is used for seeing through said linearly polarized light three;

Said right eyeglass Polarizer, polar orientation becomes miter angle with the fast axle of said right eyeglass quarter-wave plate, is used for seeing through said linearly polarized light four; Perhaps the direction of vibration of polar orientation and said linearly polarized light four parallels, and is used for seeing through said linearly polarized light four.

17. stereo image system as claimed in claim 12 is characterized in that, said electric field selector switch is chosen in N/120 during second, to the said polarizer electric field is provided, and said N comprises odd number, even number.

18. stereo image system as claimed in claim 12 is characterized in that, said device for projecting comprises: digital light is handled DLP projector, is used for projects images signal light; Or liquid crystal on silicon LCOS projector, be used for projects images signal light; Or liquid crystal LCD projector, be used for projects images signal light.

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