CN202033527U - Projector and stereo image system - Google Patents

Abstract

The utility model discloses a projector and a stereo image system, used in the projection technology field. The projector of the utility model utilizes a polarization selector to generate a polarization image signal light of alternant frequency according to a scheduled time, such as 120 frames per second, each image frame is alternated according to an order, and a projection lens is used to transform the polarization image signal light into a new polarization image signal light of parallel vibration direction and changeless polarization frequency. Moreover, the vibration direction of the new polarization image signal light is not changed when the new polarization image signal light is reflected to a polarized glasses via a projection screen, users just can see a corresponding image via the left eyeglass and the right eyeglass of the polarized glasses, namely, the users receive a left eye frame, a right eye frame, a left eye frame again and a right eye frame again via the polarized glasses, thereby generating a stereoscopic perception in a visual system, and achieving the purpose of viewing the stereo images, and accordingly achieving the purpose of viewing the stereo images via a projector.

Description

Projector, stereo image system

Technical field

The utility model relates to the shadow casting technique field, relates in particular to a kind of projector, stereo image system.

Background technology

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

See also Fig. 1, be the synoptic diagram of existing projector, this projector 100 comprises:

Image signal processing equipment 101 is used to generate picture signal light;

Projection lens 102 is arranged on the bang path of the picture signal light that image signal processing equipment 101 generated, the picture signal light that is used to throw this generation imaging to the projection screen.

See also Fig. 2, be the synoptic diagram of the embodiment of existing digital light processing type projector, this digital light processing type projector 200 comprises: digital light is handled type image signal treatment facility 201, projection lens 202;

Digital light is handled type image signal treatment facility 201, is used to generate picture signal light, comprising:

Light source 2011 is used to provide light;

Relay lens 2012 is arranged on the bang path of the light that light source 2011 provided, and the ray cast that is used for light source 2011 is provided is to digital micro-mirror device (DMD) 2013;

Digital micro-mirror device 2013, be arranged on the bang path of the light that light source 2011 provided, comprise a plurality of micro mirror (not shown)s, the state that each micro mirror can present comprises ON state, OFF state, the micro mirror that presents the OFF state, be used to reflect the light that relay lens 2012 is projected, and make this light that reflects depart from projection lens 202, the micro mirror that presents the ON state, be used to reflect light that relay lens 2012 projected to projection lens 202, this light that reflexes to projection lens 202 promptly becomes image, has promptly generated picture signal light;

Projection lens 202 is arranged on the bang path of the light that light source 2011 provided, the picture signal light that is used to throw this generation imaging to the projection screen.

See also Fig. 3, be the synoptic diagram of the embodiment of existing liquid crystal on silicon type projector, this liquid crystal on silicon type projector 300 comprises: liquid crystal on silicon type image signal treatment facility 301, projection lens 302;

Liquid crystal on silicon type image signal treatment facility 301 is used to generate picture signal light, comprising:

Light source 3011 is used to provide light;

Beam splitting system 3012, be arranged on the bang path of the light that light source 3011 provided, be used for the light that light source 3011 is provided is divided into ruddiness, green glow, blue light three coloured light, ruddiness is projected to refracting telescope 1, green glow is projected to liquid crystal on silicon imaging system 3015, blue light is projected to refracting telescope 2 3014;

Refracting telescope 1 is arranged on the bang path of this ruddiness, is used for this ruddiness is refracted to liquid crystal on silicon imaging system 3015;

Refracting telescope 2 3014 is arranged on the bang path of this blue light, is used for this blue light is refracted to liquid crystal on silicon imaging system 3015;

Liquid crystal on silicon imaging system 3015 is arranged on the bang path of this ruddiness, green glow, blue light three coloured light, is used for this ruddiness, green glow, blue light three coloured light are closed look, carries out image modulation and forms image, generates picture signal light;

Projection lens 302 is arranged on the bang path of the picture signal light that liquid crystal on silicon type image signal treatment facility 301 generated, the picture signal light that is used to throw this generation imaging to the projection screen.

See also Fig. 4, be the synoptic diagram of the embodiment of existing liquid crystal type projector, this liquid crystal type projector 400 comprises: liquid crystal type image signal processing equipment 401, projection lens 402;

Liquid crystal type image signal processing equipment 401 is used to generate picture signal light;

Projection lens 402 is arranged on the bang path of the picture signal light that liquid crystal type image signal processing equipment 401 generated, the picture signal light that is used to throw this generation imaging to the projection screen.

The design of Fig. 2 representative is not the only possibility method that constitutes digital light processing type projector, the design of Fig. 3 representative is not the only possibility method that constitutes liquid crystal on silicon type projector yet, the design of Fig. 4 representative is not the only possibility method that constitutes liquid crystal type projector yet, and these figures that draw only are the purposes for example.

Stereoprojection realizes by 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 polarizer 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 is by a polaroid glasses left side, right eye can only be seen corresponding polarized light image, thereby in visual system, produce stereo perception, reach the purpose of viewing and admiring stereopsis, prior art also can't realize reaching the purpose of viewing and admiring stereopsis by a projector.

The utility model content

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

The purpose of this utility model is to provide a kind of projector, comprising: image signal processing equipment, polagizing filter, projection lens;

Described image signal processing equipment is used to generate picture signal light;

Described polagizing filter is arranged on the bang path of the picture signal light that described image signal processing equipment generates, and comprising: electric field selector switch, electric field provide device, the polarizer;

Described electric field selector switch is used to select the schedule time, provides electric field to the described polarizer;

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

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

Described Polarizer is used for seeing through the light that parallels direction with polar orientation, sees through the picture signal light that described image signal processing equipment generated, and obtains polarization image signal light one;

Described first quarter-wave plate, bonding with described Polarizer, be used for seeing through described polarization image signal light one, the polarization image signal light one that will see through changes polarization image signal light two into;

Described first conductive layer, bonding with described first quarter-wave plate, be used for seeing through described polarization image signal light two;

Described liquid crystal layer, bonding with described first conductive layer, be used at described first conductive layer, when described second conductive layer does not add electric field, rotate polarization image signal light two predetermined angulars that described first conductive layer is seen through, obtain polarization image signal light three, and see through the described polarization image signal light three that after rotation, obtains; When described electric field provides device that electric field is provided to described first conductive layer, described second conductive layer, see through the polarization image signal light two that described first conductive layer is seen through;

Described second conductive layer, bonding with described liquid crystal layer, be used for seeing through polarization image signal light two, the polarization image signal light three that described liquid crystal layer saw through;

Described second quarter-wave plate, bonding with described second conductive layer, be used for seeing through the polarization image signal light two that described second conductive layer is seen through, the polarization image signal light two that will see through changes polarization image signal light four into; See through the polarization image signal light three that described second conductive layer is seen through, the polarization image signal light three that will see through changes polarization image signal light five into;

Described projection lens is arranged on the bang path of described polarization image signal light four, polarization image signal light five, is used to throw the imaging to the projection screen of described polarization image signal light four, polarization image signal light five.

The purpose of this utility model is a kind of stereo image system also is provided, and comprising: projector, projection screen, polaroid glasses;

Described projector comprises: image signal processing equipment, polagizing filter, projection lens;

Described image signal processing equipment is used to generate picture signal light;

Described polagizing filter is arranged on the bang path of the picture signal light that described image signal processing equipment generates, and comprising: electric field selector switch, electric field provide device, the polarizer;

Described electric field selector switch is used to select the schedule time, provides electric field to the described polarizer;

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

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

Described Polarizer is used for seeing through the light that parallels direction with polar orientation, sees through the picture signal light that described image signal processing equipment generated, and obtains polarization image signal light one;

Described first quarter-wave plate, bonding with described Polarizer, be used for seeing through described polarization image signal light one, the polarization image signal light one that will see through changes polarization image signal light two into;

Described first conductive layer, bonding with described first quarter-wave plate, be used for seeing through described polarization image signal light two;

Described liquid crystal layer, bonding with described first conductive layer, be used at described first conductive layer, when described second conductive layer does not add electric field, rotate polarization image signal light two predetermined angulars that described first conductive layer is seen through, obtain polarization image signal light three, and see through the described polarization image signal light three that after rotation, obtains; When described electric field provides device that electric field is provided to described first conductive layer, described second conductive layer, see through the polarization image signal light two that described first conductive layer is seen through;

Described second conductive layer, bonding with described liquid crystal layer, be used for seeing through polarization image signal light two, the polarization image signal light three that described liquid crystal layer saw through;

Described second quarter-wave plate, bonding with described second conductive layer, be used for seeing through the polarization image signal light two that described second conductive layer is seen through, the polarization image signal light two that will see through changes polarization image signal light four into; See through the polarization image signal light three that described second conductive layer is seen through, the polarization image signal light three that will see through changes polarization image signal light five into;

Described projection lens, be arranged on the bang path of described polarization image signal light four, polarization image signal light five, be used for seeing through described polarization image signal light four, change the described described polarization image signal light four that sees through into polarization image signal light six, and throw the imaging to the described projection screen of described polarization image signal light six; See through described polarization image signal light five, change the described polarization image signal light five that sees through into polarization image signal light seven, and throw the imaging to the described projection screen of described polarization image signal light seven; The direction of vibration of described polarization image signal light six parallels with the direction of vibration of polarization image signal light four, and the direction of vibration of described polarization image signal light seven parallels with the direction of vibration of polarization image signal light five;

Described projection screen is arranged on the bang path of projection lens projected described in the described projector polarization image signal light six, polarization image signal light seven, is used to reflect described polarization image signal light six, obtains polarization image signal light eight; Be used to reflect described polarization image signal light seven, obtain polarization image signal light nine; The direction of vibration of the described polarization image signal light eight that obtains parallels with the direction of vibration of polarization image signal light six, and the direction of vibration of the described polarization image signal light nine that obtains parallels with the direction of vibration of polarization image signal light seven;

Described polaroid glasses are arranged on the bang path of polarization image signal light eight through obtaining after the reflection of described projection screen, polarization image signal light nine, comprising: left eyeglass, right eyeglass, frame;

Described left eyeglass is arranged on the described frame, comprises polarized lenses one, is used for seeing through the polarization image signal light eight that parallels direction with polar orientation;

Described right eyeglass is arranged on the described frame, comprises polarized lenses two, is used for seeing through the polarization image signal light nine that parallels direction with polar orientation;

The polar orientation irrelevancy of the polar orientation of described polarized lenses one and polarized lenses two is capable.

The utility model projector applications polagizing filter produces on schedule the polarization image signal light that the frequency as per second 120 frames replaces, each picture frame replaces in order, then projection lens converts this polarization image signal light to direction of vibration parallels and the polarization frequency is constant new polarization image signal light, and the direction of vibration of this new polarization image signal light light when projection screen reflexes to polaroid glasses can not change, the beholder is by polaroid glasses left side eyeglass, right eyeglass can only be seen corresponding image, be that the beholder receives a left-eye frame by polaroid glasses, next right eye frame, another left-eye frame then, next another right eye frame, thereby in visual system, produce stereo perception, reach the purpose of viewing and admiring stereopsis, reach the purpose of viewing and admiring stereopsis by a projector thereby reach realization.

The utility model stereo image system is used projector and is produced polarization image signal light alternately as the frequency of per second 120 frames on schedule, each picture frame replaces in order, and the direction of vibration of the polarization image signal light light when projection screen reflexes to polaroid glasses that replaces of this generation can not change, the beholder is by polaroid glasses left side eyeglass, right eyeglass can only be seen corresponding image, be that the beholder receives a left-eye frame by polaroid glasses, next right eye frame, another left-eye frame then, next another right eye frame, thereby in visual system, produce stereo perception, reach the purpose of viewing and admiring stereopsis, reach the purpose of viewing and admiring stereopsis by a projector thereby reach realization.

Description of drawings

Fig. 1 is the synoptic diagram of existing projector;

Fig. 2 is the synoptic diagram of the embodiment of existing digital light processing type projector;

Fig. 3 is the synoptic diagram of the embodiment of existing liquid crystal on silicon type projector;

Fig. 4 is the synoptic diagram of the embodiment of existing liquid crystal type projector;

Fig. 5 is the synoptic diagram of the utility model projector;

Fig. 6 is the synoptic diagram of the utility model stereo image system.

Embodiment

The utility model provides a kind of projector, stereo image system, be applied to the shadow casting technique field, the utility model projector applications polagizing filter produces on schedule the polarization image signal light that the frequency as per second 120 frames replaces, each picture frame replaces in order, then projection lens converts this polarization image signal light to direction of vibration parallels and the polarization frequency is constant new polarization image signal light, and the direction of vibration of this new polarization image signal light light when projection screen reflexes to polaroid glasses can not change, the beholder is by polaroid glasses left side eyeglass, right eyeglass can only be seen corresponding image, be that the beholder receives a left-eye frame by polaroid glasses, next right eye frame, another left-eye frame then, next another right eye frame, thereby in visual system, produce stereo perception, reach the purpose of viewing and admiring stereopsis, reach the purpose of viewing and admiring stereopsis by a projector thereby reach realization.

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 projector.

See also Fig. 5, be the synoptic diagram of the utility model projector, this projector 500 comprises: image signal processing equipment 501, polagizing filter 502, projection lens 503;

Image signal processing equipment 501 is used to generate picture signal light;

Polagizing filter 502 is arranged on the bang path of the picture signal light that image signal processing equipment 501 generated, and comprising: electric field selector switch 5021, electric field provide device 5022, the polarizer 5023;

Electric field selector switch 5021 is used to select the schedule time, provides electric field to the polarizer 5023;

Electric field provides device 5022, and being used for provides electric field to the polarizer 5023 when 5021 selections of electric field selector switch provide electric field to the polarizer 5023;

The polarizer 5023 comprises: Polarizer 50231, first quarter-wave plate 50232, first conductive layer 50233, liquid crystal layer 50234, second conductive layer 50235, second quarter-wave plate 50236;

Polarizer 50231 is used for seeing through the light that parallels direction with polar orientation, sees through the picture signal light that image signal processing equipment 501 is generated, and obtains linearly polarized light one, promptly obtains polarization image signal light one;

First quarter-wave plate 50232, bonding with Polarizer 50231, be used for seeing through this polarization image signal light one, the polarization image signal light one that will see through changes elliptically polarized light one into, promptly changes polarization image signal light two into;

First conductive layer 50233, bonding with first quarter-wave plate 50232, be used for seeing through this polarization image signal light two;

Liquid crystal layer 50234, bonding with first conductive layer 50233, be used at first conductive layer 50233, when second conductive layer 50235 does not add electric field, rotate polarization image signal light two predetermined angulars that first conductive layer 50233 is seen through, obtain elliptically polarized light two, promptly obtain polarization image signal light three, and see through the polarization image signal light three that this obtains after rotation; When electric field provides device 5022 that electric field is provided to first conductive layer 50233, second conductive layer 50235, see through the polarization image signal light two that first conductive layer 50233 is seen through;

Second conductive layer 50235, bonding with liquid crystal layer 50234, be used for seeing through polarization image signal light two, the polarization image signal light three that liquid crystal layer 50234 is seen through;

Second quarter-wave plate 50236, bonding with second conductive layer 50235, be used for seeing through the polarization image signal light two that second conductive layer 50235 is seen through, the polarization image signal light two that will see through changes linearly polarized light two into, promptly changes polarization image signal light four into; See through the polarization image signal light three that second conductive layer 50235 is seen through, the polarization image signal light three that will see through changes linearly polarized light three into, promptly changes polarization image signal light five into;

Projection lens 503, be arranged on the bang path of this polarization image signal light four, polarization image signal light five, be used to throw the imaging to the projection screen of this polarization image signal light four, polarization image signal light five, comprise: see through this polarization image signal light four, change this this polarization image signal light four that sees through into linearly polarized light four, promptly change polarization image signal light six into, and throw the imaging to the projection screen of this polarization image signal light six; See through this polarization image signal light five, change this polarization image signal light five that sees through into linearly polarized light five, promptly change polarization image signal light seven into, and throw the imaging to the projection screen of this polarization image signal light seven; The direction of vibration of this polarization image signal light six parallels with the direction of vibration of polarization image signal light four, and the direction of vibration of this polarization image signal light seven parallels with the direction of vibration of polarization image signal light five.

Wherein, electric field selector switch 5021 is selected the schedule time, provides the process of electric field to comprise to the polarizer 5023:

Electric field selector switch 5021 is chosen in N/120 during second, provides electric field to the polarizer 5023, and N wherein comprises odd number, even number.

Wherein, first conductive layer 50233 comprises tin indium oxide (ITO) electro-conductive glass, and is bonding with first quarter-wave plate 50232, is used for seeing through this polarization image signal light two.

Wherein, second conductive layer 50235 comprises tin indium oxide ITO electro-conductive glass, and is bonding with liquid crystal layer 50234, is used for seeing through polarization image signal light two, the polarization image signal light three that liquid crystal layer 50234 is seen through.

Wherein, liquid crystal layer 50234 comprises twisted-nematic (TN) type liquid crystal layer, bonding with first conductive layer 50233, be used at first conductive layer 50233, when second conductive layer 50235 does not add electric field, rotate polarization image signal light 2 90 degree that first conductive layer 50233 is seen through, obtain elliptically polarized light two, promptly obtain polarization image signal light three, and see through the polarization image signal light three that this obtains after rotation; When electric field provides device 5022 that electric field is provided to first conductive layer 50233, second conductive layer 50235, see through the polarization image signal light two that first conductive layer 50233 is seen through.

Wherein, liquid crystal layer 50234 comprises super twisted nematic (STN) type liquid crystal layer, bonding with first conductive layer 50233, be used at first conductive layer 50233, when second conductive layer 50235 does not add electric field, rotate polarization image signal light 2 270 degree that first conductive layer 50233 is seen through, obtain elliptically polarized light two, promptly obtain polarization image signal light three, and see through the polarization image signal light three that this obtains after rotation; When electric field provides device 5022 that electric field is provided to first conductive layer 50233, second conductive layer 50235, see through the polarization image signal light two that first conductive layer 50233 is seen through.

Wherein, electric field selector switch 5021 comprises the power supply gate, is used to select the schedule time, provides electric field to the polarizer 5023.

Wherein, electric field provides device 5022 to comprise power supply, and being used for provides electric field to the polarizer 5023 when 5021 selections of electric field selector switch provide electric field to the polarizer 5023.

Wherein, first quarter-wave plate 50232 sees through this polarization image signal light one, and the process that the polarization image signal light one that will see through changes polarization image signal light two into comprises:

First quarter-wave plate 50232 sees through direction of vibration becomes predetermined angular one with its fast axle polarization image signal light one, and the polarization image signal light one that will see through changes polarization image signal light two into.

Wherein, second quarter-wave plate 50236 sees through the polarization image signal light two that second conductive layer 50235 is seen through, and the process that the polarization image signal light two that will see through changes polarization image signal light four into comprises:

Second quarter-wave plate 50236 sees through direction of vibration becomes predetermined angular two with its fast axle polarization image signal light two, and the polarization image signal light two that will see through changes polarization image signal light four into.

Wherein, second quarter-wave plate 50236 sees through the polarization image signal light three that second conductive layer 50235 is seen through, and the process that the polarization image signal light three that will see through changes polarization image signal light five into comprises:

Second quarter-wave plate 50236 sees through direction of vibration becomes predetermined angular three with its fast axle polarization image signal light three, and the polarization image signal light three that will see through changes polarization image signal light five into.

Wherein, first quarter-wave plate 50232 sees through direction of vibration becomes miter angle with its fast axle polarization image signal light one, and the polarization image signal light one that will see through changes circularly polarized light one into, promptly changes polarization image signal light two into.

Wherein, second quarter-wave plate 50236 sees through direction of vibration becomes miter angle with its fast axle polarization image signal light two, and the polarization image signal light two that will see through changes linearly polarized light two into, promptly changes polarization image signal light four into.

Wherein, second quarter-wave plate 50236 sees through direction of vibration becomes miter angle with its fast axle polarization image signal light three, and the polarization image signal light three that will see through changes linearly polarized light three into, promptly changes polarization image signal light five into.

Wherein, image signal processing equipment 501 comprises: digital light is handled the type image signal treatment facility, is used to generate picture signal light; Or liquid crystal on silicon type image signal treatment facility, be used to generate picture signal light; Or the liquid crystal type image signal processing equipment, be used to generate picture signal light; Or display device, being used to generate picture signal light, this display device comprises TV, computer, projector, navigating instrument, mobile phone, camera.

Wherein, the polarization frequency of polagizing filter 502 can be identical with the broadcast frequency of program source.

Wherein, polagizing filter 502 on schedule can be synchronous with the picture signal light that image signal processing equipment 501 is generated as the polarization image signal light that replaces that frequency produced of per second 120 frames, and pairing each picture frame of this polarization image signal light replaces in order.

The utility model projector 500 uses polagizing filters 502 and produces on schedule the polarization image signal light that the frequency as per second 120 frames replaces, each picture frame replaces in order, then projection lens 503 converts this polarization image signal light to direction of vibration parallels and the polarization frequency is constant new polarization image signal light, and the direction of vibration of this new polarization image signal light light when projection screen reflexes to polaroid glasses can not change, the beholder is by polaroid glasses left side eyeglass, right eyeglass can only be seen corresponding image, be that the beholder receives a left-eye frame by polaroid glasses, next right eye frame, another left-eye frame then, next another right eye frame, thereby in visual system, produce stereo perception, reach the purpose of viewing and admiring stereopsis, reach the purpose of viewing and admiring stereopsis by a projector thereby reach realization.

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

See also Fig. 6, be the synoptic diagram of the utility model stereo image system, this stereo image system 600 comprises: projector 601, projection screen 602, polaroid glasses 603;

Projector 601 comprises: image signal processing equipment 6011, polagizing filter 6012, projection lens 6013;

Image signal processing equipment 6011 is used to generate picture signal light;

Polagizing filter 6012 is arranged on the bang path of the picture signal light that image signal processing equipment 6011 generated, and comprising: electric field selector switch 60121, electric field provide device 60122, the polarizer 60123;

Electric field selector switch 60121 is used to select the schedule time, provides electric field to the polarizer 60123;

Electric field provides device 60122, and being used for provides electric field to the polarizer 60123 when 60121 selections of electric field selector switch provide electric field to the polarizer 60123;

The polarizer 60123 comprises: Polarizer 601231, first quarter-wave plate 601232, first conductive layer 601233, liquid crystal layer 601234, second conductive layer 601235, second quarter-wave plate 601236;

Polarizer 601231 is used for seeing through the light that parallels direction with polar orientation, sees through the picture signal light that image signal processing equipment 6011 is generated, and obtains linearly polarized light one, promptly obtains polarization image signal light one;

First quarter-wave plate 601232, bonding with Polarizer 601231, be used for seeing through this polarization image signal light one, the polarization image signal light one that will see through changes elliptically polarized light one into, promptly changes polarization image signal light two into;

First conductive layer 601233, bonding with first quarter-wave plate 601232, be used for seeing through this polarization image signal light two;

Liquid crystal layer 601234, bonding with first conductive layer 601233, be used at first conductive layer 601233, when second conductive layer 601235 does not add electric field, rotate polarization image signal light two predetermined angulars that first conductive layer 601233 is seen through, obtain elliptically polarized light two, promptly obtain polarization image signal light three, and see through the polarization image signal light three that this obtains after rotation; When electric field provides device 60122 that electric field is provided to first conductive layer 601233, second conductive layer 601235, see through the polarization image signal light two that first conductive layer 601233 is seen through;

Second conductive layer 601235, bonding with liquid crystal layer 601234, be used for seeing through polarization image signal light two, the polarization image signal light three that liquid crystal layer 601234 is seen through;

Second quarter-wave plate 601236, bonding with second conductive layer 601235, be used for seeing through the polarization image signal light two that second conductive layer 601235 is seen through, the polarization image signal light two that will see through changes linearly polarized light two into, promptly changes polarization image signal light four into; See through the polarization image signal light three that second conductive layer 601235 is seen through, the polarization image signal light three that will see through changes linearly polarized light three into, promptly changes polarization image signal light five into;

Projection lens 6013, be arranged on the bang path of this polarization image signal light four, polarization image signal light five, be used to throw the imaging to the projection screen 602 of this polarization image signal light four, polarization image signal light five, comprise: see through this polarization image signal light four, change this this polarization image signal light four that sees through into linearly polarized light four, promptly change polarization image signal light six into, and throw the imaging to the projection screen 602 of this polarization image signal light six; See through this polarization image signal light five, change this polarization image signal light five that sees through into linearly polarized light five, promptly change polarization image signal light seven into, and throw the imaging to the projection screen 602 of this polarization image signal light seven; The direction of vibration of this polarization image signal light six parallels with the direction of vibration of polarization image signal light four, and the direction of vibration of this polarization image signal light seven parallels with the direction of vibration of polarization image signal light five;

Projection screen 602, be arranged on the bang path of projection lens 6013 is projected in the projector 601 polarization image signal light six, polarization image signal light seven, be used to reflect this polarization image signal light six, obtain linearly polarized light six, promptly obtain polarization image signal light eight; Be used to reflect this polarization image signal light seven, obtain linearly polarized light seven, promptly obtain polarization image signal light nine; The direction of vibration of the polarization image signal light eight that this obtains parallels with the direction of vibration of polarization image signal light six, and the direction of vibration of the polarization image signal light nine that this obtains parallels with the direction of vibration of polarization image signal light seven;

Polaroid glasses 603 are arranged on the bang path of polarization image signal light eight through obtaining after projection screen 602 reflection, polarization image signal light nine, comprising: left eyeglass 6031, right eyeglass 6032, frame 6033;

Left side eyeglass 6031 is arranged on the frame 6033, comprises polarized lenses one, is used for seeing through the linearly polarized light six that parallels direction with polar orientation, promptly sees through the polarization image signal light eight that parallels direction with polar orientation;

Right eyeglass 6032 is arranged on the frame 6033, comprises polarized lenses two, is used for seeing through the linearly polarized light seven that parallels direction with polar orientation, promptly sees through the polarization image signal light nine that parallels direction with polar orientation;

Wherein, the polar orientation irrelevancy of the polar orientation of polarized lenses one and polarized lenses two is capable.

Wherein, electric field selector switch 60121 is selected the schedule time, provides the process of electric field to comprise to the polarizer 60123:

Electric field selector switch 60121 is chosen in N/120 during second, provides electric field to the polarizer 60123, and N wherein comprises odd number, even number.

Wherein, first conductive layer 601233 comprises tin indium oxide ITO electro-conductive glass, and is bonding with first quarter-wave plate 601232, is used for seeing through this polarization image signal light two.

Wherein, second conductive layer 601235 comprises tin indium oxide ITO electro-conductive glass, and is bonding with liquid crystal layer 601234, is used for seeing through polarization image signal light two, the polarization image signal light three that liquid crystal layer 601234 is seen through.

Wherein, liquid crystal layer 601234 comprises twisted-nematic TN type liquid crystal layer, bonding with first conductive layer 601233, be used at first conductive layer 601233, when second conductive layer 601235 does not add electric field, rotate polarization image signal light 2 90 degree that first conductive layer 601233 is seen through, obtain elliptically polarized light two, promptly obtain polarization image signal light three, and see through the polarization image signal light three that this obtains after rotation; When electric field provides device 60122 that electric field is provided to first conductive layer 601233, second conductive layer 601235, see through the polarization image signal light two that first conductive layer 601233 is seen through.

Wherein, liquid crystal layer 601234 comprises super twisted nematic STN type liquid crystal layer, bonding with first conductive layer 601233, be used at first conductive layer 601233, when second conductive layer 601235 does not add electric field, rotate polarization image signal light 2 270 degree that first conductive layer 601233 is seen through, obtain elliptically polarized light two, promptly obtain polarization image signal light three, and see through the polarization image signal light three that this obtains after rotation; When electric field provides device 60122 that electric field is provided to first conductive layer 601233, second conductive layer 601235, see through the polarization image signal light two that first conductive layer 601233 is seen through.

Wherein, electric field selector switch 60121 comprises the power supply gate, is used to select the schedule time, provides electric field to the polarizer 60123.

Wherein, electric field provides device 60122 to comprise power supply, and being used for provides electric field to the polarizer 60123 when 60121 selections of electric field selector switch provide electric field to the polarizer 60123.

Wherein, first quarter-wave plate 601232 sees through this polarization image signal light one, and the process that the polarization image signal light one that will see through changes polarization image signal light two into comprises:

First quarter-wave plate 601232 sees through direction of vibration becomes predetermined angular one with its fast axle polarization image signal light one, and the polarization image signal light one that will see through changes polarization image signal light two into.

Wherein, second quarter-wave plate 601236 sees through the polarization image signal light two that second conductive layer 601235 is seen through, and the process that the polarization image signal light two that will see through changes polarization image signal light four into comprises:

Second quarter-wave plate 601236 sees through direction of vibration becomes predetermined angular two with its fast axle polarization image signal light two, and the polarization image signal light two that will see through changes polarization image signal light four into.

Wherein, second quarter-wave plate 601236 sees through the polarization image signal light three that second conductive layer 601235 is seen through, and the process that the polarization image signal light three that will see through changes polarization image signal light five into comprises:

Second quarter-wave plate 601236 sees through direction of vibration becomes predetermined angular three with its fast axle polarization image signal light three, and the polarization image signal light three that will see through changes polarization image signal light five into.

Wherein, first quarter-wave plate 601232 sees through direction of vibration becomes miter angle with its fast axle polarization image signal light one, and the polarization image signal light one that will see through changes circularly polarized light one into, promptly changes polarization image signal light two into.

Wherein, second quarter-wave plate 601236 sees through direction of vibration becomes miter angle with its fast axle polarization image signal light two, and the polarization image signal light two that will see through changes linearly polarized light two into, promptly changes polarization image signal light four into.

Wherein, second quarter-wave plate 601236 sees through direction of vibration becomes miter angle with its fast axle polarization image signal light three, and the polarization image signal light three that will see through changes linearly polarized light three into, promptly changes polarization image signal light five into.

Wherein, projection screen 602 comprises metal shadowing's screen, be arranged on the bang path of projection lens 6013 is projected in the projector 601 polarization image signal light six, polarization image signal light seven, be used to reflect this polarization image signal light six, obtain linearly polarized light six, promptly obtain polarization image signal light eight; Be used to reflect this polarization image signal light seven, obtain linearly polarized light seven, promptly obtain polarization image signal light nine; The direction of vibration of the polarization image signal light eight that this obtains parallels with the direction of vibration of polarization image signal light six, and the direction of vibration of the polarization image signal light nine that this obtains parallels with the direction of vibration of polarization image signal light seven.

Wherein, image signal processing equipment 6011 comprises: digital light is handled the type image signal treatment facility, is used to generate picture signal light; Or liquid crystal on silicon type image signal treatment facility, be used to generate picture signal light; Or the liquid crystal type image signal processing equipment, be used to generate picture signal light; Or display device, being used to generate picture signal light, this display device comprises TV, computer, projector, navigating instrument, mobile phone, camera.

Wherein, the polarization frequency of polagizing filter 6012 can be identical with the broadcast frequency of program source.

Wherein, polagizing filter 6012 on schedule can be synchronous with the picture signal light that image signal processing equipment 6011 is generated as the polarization image signal light that replaces that frequency produced of per second 120 frames, and pairing each picture frame of this polarization image signal light replaces in order.

The utility model stereo image system 600 is used projector 601 and is produced polarization image signal light alternately as the frequency of per second 120 frames on schedule, each picture frame replaces in order, and the direction of vibration of the polarization image signal light light when projection screen 602 reflexes to polaroid glasses 603 that replaces of this generation can not change, the beholder is by polaroid glasses 603 left eyeglasses 6031, right eyeglass 6032 can only be seen corresponding image, be that the beholder receives a left-eye frame by polaroid glasses 603, next right eye frame, another left-eye frame then, next another right eye frame, thereby in visual system, produce stereo perception, reach the purpose of viewing and admiring stereopsis, reach the purpose of viewing and admiring stereopsis by a projector thereby reach realization.

For the utility model projector, 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 (14)

1. a projector is characterized in that, comprising: image signal processing equipment, polagizing filter, projection lens;

Described image signal processing equipment is used to generate picture signal light;

Described polagizing filter is arranged on the bang path of the picture signal light that described image signal processing equipment generates, and comprising: electric field selector switch, electric field provide device, the polarizer;

Described electric field selector switch is used to select the schedule time, provides electric field to the described polarizer;

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

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

Described Polarizer is used for seeing through the light that parallels direction with polar orientation, sees through the picture signal light that described image signal processing equipment generated, and obtains polarization image signal light one;

Described first quarter-wave plate, bonding with described Polarizer, be used for seeing through described polarization image signal light one, the polarization image signal light one that will see through changes polarization image signal light two into;

Described first conductive layer, bonding with described first quarter-wave plate, be used for seeing through described polarization image signal light two;

Described liquid crystal layer, bonding with described first conductive layer, be used at described first conductive layer, when described second conductive layer does not add electric field, rotate polarization image signal light two predetermined angulars that described first conductive layer is seen through, obtain polarization image signal light three, and see through the described polarization image signal light three that after rotation, obtains; When described electric field provides device that electric field is provided to described first conductive layer, described second conductive layer, see through the polarization image signal light two that described first conductive layer is seen through;

Described second conductive layer, bonding with described liquid crystal layer, be used for seeing through polarization image signal light two, the polarization image signal light three that described liquid crystal layer saw through;

Described second quarter-wave plate, bonding with described second conductive layer, be used for seeing through the polarization image signal light two that described second conductive layer is seen through, the polarization image signal light two that will see through changes polarization image signal light four into; See through the polarization image signal light three that described second conductive layer is seen through, the polarization image signal light three that will see through changes polarization image signal light five into;

Described projection lens is arranged on the bang path of described polarization image signal light four, polarization image signal light five, is used to throw the imaging to the projection screen of described polarization image signal light four, polarization image signal light five.

2. projector as claimed in claim 1, it is characterized in that, described first quarter-wave plate sees through direction of vibration becomes predetermined angular one with its fast axle polarization image signal light one, and the polarization image signal light one that will see through changes polarization image signal light two into.

3. projector as claimed in claim 1 or 2, it is characterized in that, described first quarter-wave plate sees through direction of vibration becomes miter angle with its fast axle polarization image signal light one, and the polarization image signal light one that will see through changes circularly polarized light one into, changes polarization image signal light two into.

4. projector as claimed in claim 1 or 2, it is characterized in that, described second quarter-wave plate sees through direction of vibration becomes predetermined angular two with its fast axle polarization image signal light two, and the polarization image signal light two that will see through changes polarization image signal light four into;

Described second quarter-wave plate sees through direction of vibration becomes predetermined angular three with its fast axle polarization image signal light three, and the polarization image signal light three that will see through changes polarization image signal light five into.

5. projector as claimed in claim 4, it is characterized in that, described second quarter-wave plate sees through direction of vibration becomes miter angle with its fast axle polarization image signal light two, and the polarization image signal light two that will see through changes linearly polarized light two into, changes polarization image signal light four into;

Described second quarter-wave plate sees through direction of vibration becomes miter angle with its fast axle polarization image signal light three, and the polarization image signal light three that will see through changes linearly polarized light three into, changes polarization image signal light five into.

6. projector as claimed in claim 1 is characterized in that, described electric field selector switch is chosen in N/120 during second, provides electric field to the described polarizer, and described N comprises odd number, even number.

7. as claim 1 or 6 described projectors, it is characterized in that described image signal processing equipment comprises: digital light is handled the type image signal treatment facility, is used to generate picture signal light; Or liquid crystal on silicon type image signal treatment facility, be used to generate picture signal light; Or the liquid crystal type image signal processing equipment, be used to generate picture signal light; Or display device, being used to generate picture signal light, described display device comprises TV, computer, projector, navigating instrument, mobile phone, camera.

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

Described projector comprises: image signal processing equipment, polagizing filter, projection lens;

Described image signal processing equipment is used to generate picture signal light;

Described polagizing filter is arranged on the bang path of the picture signal light that described image signal processing equipment generates, and comprising: electric field selector switch, electric field provide device, the polarizer;

Described electric field selector switch is used to select the schedule time, provides electric field to the described polarizer;

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

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

Described Polarizer is used for seeing through the light that parallels direction with polar orientation, sees through the picture signal light that described image signal processing equipment generated, and obtains polarization image signal light one;

Described first quarter-wave plate, bonding with described Polarizer, be used for seeing through described polarization image signal light one, the polarization image signal light one that will see through changes polarization image signal light two into;

Described first conductive layer, bonding with described first quarter-wave plate, be used for seeing through described polarization image signal light two;

Described liquid crystal layer, bonding with described first conductive layer, be used at described first conductive layer, when described second conductive layer does not add electric field, rotate polarization image signal light two predetermined angulars that described first conductive layer is seen through, obtain polarization image signal light three, and see through the described polarization image signal light three that after rotation, obtains; When described electric field provides device that electric field is provided to described first conductive layer, described second conductive layer, see through the polarization image signal light two that described first conductive layer is seen through;

Described second conductive layer, bonding with described liquid crystal layer, be used for seeing through polarization image signal light two, the polarization image signal light three that described liquid crystal layer saw through;

Described second quarter-wave plate, bonding with described second conductive layer, be used for seeing through the polarization image signal light two that described second conductive layer is seen through, the polarization image signal light two that will see through changes polarization image signal light four into; See through the polarization image signal light three that described second conductive layer is seen through, the polarization image signal light three that will see through changes polarization image signal light five into;

Described projection lens, be arranged on the bang path of described polarization image signal light four, polarization image signal light five, be used for seeing through described polarization image signal light four, change the described described polarization image signal light four that sees through into polarization image signal light six, and throw the imaging to the described projection screen of described polarization image signal light six; See through described polarization image signal light five, change the described polarization image signal light five that sees through into polarization image signal light seven, and throw the imaging to the described projection screen of described polarization image signal light seven; The direction of vibration of described polarization image signal light six parallels with the direction of vibration of polarization image signal light four, and the direction of vibration of described polarization image signal light seven parallels with the direction of vibration of polarization image signal light five;

Described projection screen, be arranged on the bang path of projection lens projected described in the described projector polarization image signal light six, polarization image signal light seven, be used to reflect described polarization image signal light six, obtain polarization image signal light eight; Be used to reflect described polarization image signal light seven, obtain polarization image signal light nine; The direction of vibration of the described polarization image signal light eight that obtains parallels with the direction of vibration of polarization image signal light six, and the direction of vibration of the described polarization image signal light nine that obtains parallels with the direction of vibration of polarization image signal light seven;

Described polaroid glasses are arranged on the bang path of polarization image signal light eight through obtaining after the reflection of described projection screen, polarization image signal light nine, comprising: left eyeglass, right eyeglass, frame;

Described left eyeglass is arranged on the described frame, comprises polarized lenses one, is used for seeing through the polarization image signal light eight that parallels direction with polar orientation;

Described right eyeglass is arranged on the described frame, comprises polarized lenses two, is used for seeing through the polarization image signal light nine that parallels direction with polar orientation;

The polar orientation irrelevancy of the polar orientation of described polarized lenses one and polarized lenses two is capable.

9. stereo image system as claimed in claim 8, it is characterized in that, described first quarter-wave plate sees through direction of vibration becomes predetermined angular one with its fast axle polarization image signal light one, and the polarization image signal light one that will see through changes polarization image signal light two into.

10. stereo image system as claimed in claim 8 or 9, it is characterized in that, described first quarter-wave plate sees through direction of vibration becomes miter angle with its fast axle polarization image signal light one, the polarization image signal light one that will see through changes circularly polarized light one into, changes polarization image signal light two into.

11. stereo image system as claimed in claim 8 or 9, it is characterized in that, described second quarter-wave plate sees through direction of vibration becomes predetermined angular two with its fast axle polarization image signal light two, and the polarization image signal light two that will see through changes polarization image signal light four into;

Described second quarter-wave plate sees through direction of vibration becomes predetermined angular three with its fast axle polarization image signal light three, and the polarization image signal light three that will see through changes polarization image signal light five into.

12. stereo image system as claimed in claim 11, it is characterized in that, described second quarter-wave plate sees through direction of vibration becomes miter angle with its fast axle polarization image signal light two, the polarization image signal light two that will see through changes linearly polarized light two into, changes polarization image signal light four into;

Described second quarter-wave plate sees through direction of vibration becomes miter angle with its fast axle polarization image signal light three, and the polarization image signal light three that will see through changes linearly polarized light three into, changes polarization image signal light five into.

13. stereo image system as claimed in claim 8 is characterized in that, described electric field selector switch is chosen in N/120 during second, provides electric field to the described polarizer, and described N comprises odd number, even number.

14. as claim 8 or 13 described stereo image systems, it is characterized in that described image signal processing equipment comprises: digital light is handled the type image signal treatment facility, is used to generate picture signal light; Or liquid crystal on silicon type image signal treatment facility, be used to generate picture signal light; Or the liquid crystal type image signal processing equipment, be used to generate picture signal light; Or display device, being used to generate picture signal light, described display device comprises TV, computer, projector, navigating instrument, mobile phone, camera.

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