CN200947134Y - Auto-stereoscopic display - Google Patents
Auto-stereoscopic display Download PDFInfo
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- CN200947134Y CN200947134Y CN 200620054010 CN200620054010U CN200947134Y CN 200947134 Y CN200947134 Y CN 200947134Y CN 200620054010 CN200620054010 CN 200620054010 CN 200620054010 U CN200620054010 U CN 200620054010U CN 200947134 Y CN200947134 Y CN 200947134Y
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- transparency carrier
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- display device
- stereoscopic display
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Abstract
The utility model relates to an auto stereoscopic display which contains a graphic display device. The utility model is characterized in that a master and deputy type LCD (liquid crystal display) is arranged at front of the stereoscopic display. The utility model has the advantages of that display conversion between 2Dt to 3D is convenient; dye molecules realizes the utmost polarized light absorbing to make a perfect dark state so as to realize high definition; the utility model provides shorter image range of stereoscopic image to enable people to see the middle-sized or small-sized stereoscopic displays at a short distance; lower requirement on the thickness of LCD-panel not only increases the technical tolerance but also increases the number of dye molecule by increasing the thickness of the LCD-panel so as to raise the contrast of a parallactic palisade layer; the structure of the utility model is simple; the utility model is easy to produce at low cost so that the utility model is very practical.
Description
Technical field
The utility model relates to a kind of display, specifically, relates to a kind of automatic stereoscopic display device that utilizes the parallax barrier principle to realize the automatic stereo show image and can realize the conversion between two-dimensional/three-dimensional (2D/3D) display mode.
Background technology
People's vision is a stereoscopic vision, and the observer can feel the distance between the object when watching object, can feel distance between object and the observer, i.e. depth perception again.But owing to technical constraint, most display can only show various pictures by the screen of two dimension for a long time.Want to give full play to the power of human visual perception, the automatic stereoscopic display device that development can be reproduced the true three-dimension scene is an important approach.
The method that realizes stereo display is a lot, wherein realizes that by parallax barrier (parallaxbarrier is called disparity barrier again) scheme that the images of left and right eyes image separates promptly was suggested in 1903.A kind of schematic diagram that adopts the automatic stereoscopic display device of parallax barrier shown in Fig. 1, backlight 1, pixel layer 2 and parallax barrier layer 3 have been formed an automatic stereoscopic display device jointly.Differentiated slightly images of left and right eyes 15 images equidistantly are arranged on pixel layer 2 planes alternately, blocking and cut apart effect because of the 3 pairs of sight line of parallax barrier layer of pixel layer 2 fronts, make images of left and right eyes 15 see the image that to see separately respectively, the image that causes images of left and right eyes 15 to be captured produces small departing from, be used as 3-dimensional image via retina at last and read, realize stereo display.After this many schemes all are based on this principle, by revising the design of parallax barrier, thereby realize can the conversion of 2D/3D display mode function, and further improve display effect and indication range.
A kind of automatic stereoscopic display device that uses the general parallax barrier layer of band polaroid as shown in Figure 2, its pixel layer 2 is made of jointly polaroid 4, substrate 5, liquid crystal layer 6, substrate 7 and polaroid 8, its parallax barrier layer 3 is made of jointly substrate 9, liquid crystal layer 10, substrate 11 and polaroid 12, pixel layer 2 and parallax barrier layer 3 shared polaroid 8.Wherein our interocular distance that defines human eye 15 is V
W, the distance of people and palisade layer is V
D(being called image distance, i.e. visual range), the visual position of parallax barrier layer 3 (being polaroid 12 here) is d (being called object distance) with the distance of the outermost layer polaroid 8 of pixel layer 2, and left and right image pixel size all is P in the pixel layer 2.We can obtain following relation: V by the triangle similarity
D=dV
W/ P this shows, visual range is directly proportional with object distance, if our interocular distance adopts V
W=65mm, pel spacing P=0.08mm, object distance d=0.8mm, we can utilize top formula to obtain image distance (being visual range) V
DBe 650mm, this visual range obviously is too big for the small-medium size automatic stereoscopic display device that need closely watch.Because interocular distance V
WFix, and for the small-medium size display, pixel size P also can not be too big, could realize the purpose of closely watching so have only by reducing object distance d.
Adopt the twisted nematic breaker to make the parallax barrier layer among the Chinese patent CN1655011A, by polaroid being built up in the inboard of support plate, and replace glass substrate with plastic base (preferred thickness is less than 0.2mm), making the visual position of parallax barrier layer and the display pixel of display device have short distance (being object distance d) with this, (is above-mentioned visual range V so that short stereopsis image-forming range to be provided
D); The parallax barrier layer can be changed the spigot die formula of helping as required, so that stereopsis is converted to flat image, can carry out the conversion between the 2D/3D display mode.This all is of crucial importance for the process tolerance that the automatic stereoscopic display device design and the increase parallax barrier layer of small-medium size combine with pixel layer.Yet be glass substrate or plastic base all be have certain thickness, so by adopt thin as far as possible substrate for object distance to reduce be limited, the inboard that polaroid is built in support plate by method of printing also certainly will increase the technology difficulty of production in addition.
Adopted the structure of two micro-bit phase difference plates to realize the design of parallax barrier that can the 2D/3D conversion among the Chinese patent CN1506714A, it does not need liquid crystal layer, thereby cancellation substrate, reduce thickness, yet the making accuracy requirement of micro-bit phase difference plate is very high, and is also very high to the operation precision requirement of micro-bit phase difference sheet drive; Be provided with Polarizer (polaroid) between backlight module and micro-bit phase difference plate, the use of Polarizer has reduced utilization factor backlight, has weakened the brightness of display.
Summary of the invention
The purpose of this utility model provides the automatic stereoscopic display device that can realize the conversion between the 2D/3D display mode that a kind of stereopsis image-forming range is little and technology is easy to realize.The technical scheme that adopts is as follows:
A kind of automatic stereoscopic display device comprises image display, it is characterized in that: the appropriate location in described image display the place ahead is provided with a guest-host type LCD.
The preferred flat-panel monitor of described image display, it can have following two kinds of structures, a kind ofly form by module backlight and penetration spatial light modulator, wherein the penetration spatial light modulator can adopt thin film transistor (TFT) flat-panel monitor (TFT), it is a kind of LCD, constitutes above-mentioned pixel layer; Another kind is a self-emission display apparatus, can using plasma flat-panel monitor (PDP), organic electroluminescent flat-panel monitor (OLED) etc.The guest-host type LCD forms the parallax barrier layer.The incident light of guest-host type LCD should be a polarized light, so the light that image display penetrates also should be polarized light; When the light of common image display ejaculation is not polarized light, can between common image display and guest-host type LCD, a polaroid be set, common image display and polaroid constitute satisfactory image display.
The guest-host type LCD is made up of the liquid crystal layer of first transparency carrier, second transparency carrier and the dyestuff that mixed, liquid crystal layer is located between first transparency carrier and second transparency carrier, first transparency carrier and second transparency carrier are provided with corresponding electrode, and wherein first transparency carrier is relatively near image display.Electrode can by conduction, material transparent makes, electrode all is arranged on the substrate side by liquid crystal layer usually.
Described first transparency carrier and second transparency carrier can adopt transparent plastic base or glass substrate.
Described liquid crystal layer can adopt nematic liquid crystal, can be nematic phase positivity liquid crystal or nematic phase negative liquid crystal.Can buy the liquid crystalline dyes potpourri that mixed (doping of producing such as the MERCK company of Germany the liquid crystal of black dyes) and make liquid crystal layer.The general solubleness of dyestuff in liquid crystal is about 2%.When the amount of dyestuff was very few, guest-host type LCD blackness was not enough, and contrast is relatively poor, so can make liquid crystal cell thickly usually, increased the amount of liquid crystal, had also just increased the amount of dyestuff simultaneously, and light is absorbed fully, increased contrast.
A small amount of dyestuff is dissolved in the nematic liquid crystal, because the design feature of dye molecule itself, be parallel to molecular axis and perpendicular to molecular axis direction on, dye molecule is different to the absorption of light, it changes the absorption of the polarized light angle with its optical axis and polarized light direction of vibration, when the dye molecule axle is consistent with the polarized light direction of vibration, absorb maximum.Under electric field action, the dye molecule that is dissolved in the liquid crystal rotates with the rotation of liquid crystal molecule, presents change color.
According to the character (positivity or negative dyes, i.e. P type or N type dye) of liquid crystal dielectric anisotropy feature and dyestuff, adopt the surperficial oriented technology (comprising horizontal alignment technology and vertical orientated technology) that adapts, can obtain the demonstration of eurymeric or minus.
When described nematic liquid crystal adopts nematic phase positivity liquid crystal, adopt the horizontal alignment technology, and the friction orientation by transparency carrier (polarization direction of the polarized light that frictional direction will penetrate with image display is consistent), make liquid crystal molecule and dye molecule along first transparency carrier, arrange on the surface of second transparency carrier (is that liquid crystal molecule and dye molecule are parallel to first transparency carrier, arrange on the surface of second transparency carrier), and make orientation parallel, at first transparency carrier with the polarization direction of the polarized light of the emission of image display, there is not twist transition between second transparency carrier.This moment is because the frictional direction angle of the incident polarization direction of light of guest-host type LCD and liquid crystal molecule is zero, though therefore birefringence effect is arranged, but polarized light does not rotate in the guest-host type LCD, and the direction with the dye molecule axle parallels all the time.When not applying voltage, owing to the absorption maximum of dye molecule to light, the guest-host type LCD presents black; When applying voltage, because the effect of external electric field, dye molecule can together rotate to direction perpendicular to first transparency carrier, second transparency carrier with liquid crystal molecule, because this moment, the direction of dye molecule axle was vertical with the direction of vibration of polarized light, therefore very weak to light absorption, the position that the guest-host type LCD is added with external electric field presents clear state.
By the design and the electric field controls of electrode, can realize black and white strip is alternate on the guest-host type LCD the fence state and the variation of full impregnated state, can be used to respectively realize that 3D and 2D show.Electrode is the same with the ITO electrode of general LCD, in the utility model, preferred electrode is striated, electrode on first transparency carrier and second transparency carrier all can be by rectangular composition that is arranged in parallel, wherein on each substrate all odd numbers rectangular be one group, all even numbers are rectangular is one group, same group rectangular linking together, so the entire electrode separated into two parts on substrate, first transparency carrier is corresponding with the electrode on second transparency carrier.Common rectangular live width scope can be 30~70 microns, and rectangular spacing is 8~10 microns.By applying voltage between the partial electrode in guest-host type LCD (being the parallax barrier layer), can realize reversing of part liquid crystal molecule, thereby drive part dye molecule is torqued into the direction perpendicular to first transparency carrier and second transparency carrier, dye molecule after rotating is absorbing polarization light no longer, and do not have still absorbing polarization light of the dye molecule that rotates, alternately arrange with dark attitude thereby make the parallax barrier layer present bright attitude, form parallax barrier, can be used to show the 3D image.By applying voltage between the entire electrode in the parallax barrier layer, can realize reversing of whole liquid crystal molecules, thereby the drive dye molecule all is torqued into the direction perpendicular to first transparency carrier and second transparency carrier, dye molecule is absorbing polarization light no longer, thereby make the parallax barrier layer all present bright attitude, can be used to show the 2D image.The above-mentioned voltage that is applied between the electrode needs only greater than threshold voltage.
When described nematic liquid crystal adopts the nematic phase negative liquid crystal, adopt vertical orientated technology, and the friction orientation by transparency carrier (polarization direction of the polarized light that frictional direction will penetrate with image display is consistent), make liquid crystal molecule and dye molecule arrange perpendicular to the surface of first transparency carrier and second transparency carrier, and make that the long axis direction of liquid crystal molecule and dye molecule is vertical with the polarization direction of the polarized light of the emission of image display, can realize the conversion of 2D/3D display mode equally, and electrode design is simpler.Usually electrode is striated, and the electrode on first transparency carrier and second transparency carrier all can be by rectangular composition that is arranged in parallel, all rectangular linking together on each substrate, and first transparency carrier is corresponding with the electrode on second transparency carrier.Common rectangular live width is big or small consistent or approaching with rectangular spacing.When not applying voltage between the electrode, all liquid crystal molecule and dye molecule are all perpendicular to first transparency carrier and second transparency carrier, and dye molecule is absorbing polarization light not, thereby all present bright attitude, can be used to show the 2D image; When applying voltage between the electrode, can realize reversing of part liquid crystal molecule, thereby drive the part dye molecule and be torqued into the direction that is parallel to first transparency carrier and second transparency carrier, and the long axis direction of this part dye molecule is parallel with the polarization direction of the polarized light of the emission of image display, dye molecule energy absorbing polarization light after rotating, the place of the rectangular correspondence of electrode presents dark attitude, thereby presenting bright attitude alternately arranges with dark attitude, form parallax barrier, can be used to show the 3D image.The above-mentioned voltage that is applied between the electrode needs only greater than threshold voltage.
Described electrode is except the form of above striated, can also adopt other form, such as stair-stepping electrode spread form (stair-stepping electrode spread genomorph prior art is not described in detail at this), or the reticulate texture that constitutes by a plurality of stripeds that intersect vertically.
Adopt the guest-host type LCD not need extra polaroid 12 as the parallax barrier layer, so the visual position of parallax barrier has moved on to the intersection of liquid crystal layer and second transparency carrier in host and guest's LCD, when 3D shows, the object distance size only is the thickness that first transparency carrier adds liquid crystal layer, the object distance size than the general LCD fence that has polaroid shown in Figure 2 reduced near half, but reduced viewing distance greatly.
Major advantage of the present utility model and good effect are as follows: (1) is owing to adopted the guest-host type LCD to form parallax barrier, regulate the orientation of liquid crystal molecule in the guest-host type LCD by impressed voltage, the rotation that drives dye molecule simultaneously changes the ability of dye molecule to polarized light absorption, thereby realize the switching of guest-host type LCD fence state and complete bright state, therefore can realize the conversion of 2D/3D display mode easily; (2) directly utilize the polarized light of image display outgoing, make the axially identical of dye molecule, thereby can realize the absorption maximum of dye molecule, obtain enough black attitude, improve the sharpness of demonstration polarized light with the polarization direction of light; (3), therefore reduced the luminance loss of display because the LCD of guest-host type can not used polaroid 12; (4) owing to do not adopt polaroid 12, therefore can further reduce the distance between the display pixel of the visual position of parallax barrier layer and image display, shorter stereopsis image-forming range is provided, can realizes closely the watching of three-dimensional display of small-medium size; (5) the parallax barrier layer is not owing to there is rotation effect, thereby less demanding to thickness of liquid crystal box, increased process tolerance, and can increase dye molecule content by increasing the thickness of liquid crystal cell, thereby improved the contrast of parallax barrier layer; (6) simple in structure, technology is easy to realize that cost is not high, has practical value.
Description of drawings
Fig. 1 is the parallax barrier schematic diagram;
Fig. 2 is to use the structural representation of the automatic stereoscopic display device of the general parallax barrier of being with polaroid;
Fig. 3 (a) and Fig. 3 (b) are respectively the electrode pattern design diagrams on first transparency carrier and second transparency carrier in the guest-host type LCD of the utility model preferred embodiment 1;
Structural representation when Fig. 4 (a) is the utility model preferred embodiment 13D demonstration; The demonstration synoptic diagram of guest-host type LCD when Fig. 4 (b) is the 3D demonstration;
Structural representation when Fig. 5 (a) is the utility model preferred embodiment 12D demonstration; The demonstration synoptic diagram of guest-host type LCD when Fig. 5 (b) is the 2D demonstration;
Fig. 6 (a) and Fig. 6 (b) are respectively the electrode pattern design diagrams on first transparency carrier and second transparency carrier in the guest-host type LCD of the utility model preferred embodiment 2.
Embodiment
Shown in Fig. 4 (a) and Fig. 5 (a), this automatic stereoscopic display device comprises image display, and the appropriate location in image display the place ahead is provided with guest-host type LCD 3.
Image display is made up of module 1 backlight and penetration spatial light modulator 2, and penetration spatial light modulator 2 adopts the thin film transistor (TFT) flat-panel monitor, and penetration spatial light modulator 2 constitutes pixel layer 2.Penetration spatial light modulator 2 is made of jointly polaroid 4, substrate 5, liquid crystal layer 6, substrate 7 and polaroid 8.
Guest-host type LCD 3 forms parallax barrier layer 3.Guest-host type LCD 3 is made up of the liquid crystal layer 10 of first transparency carrier 9, second transparency carrier 11 and the dyestuff that mixed, liquid crystal layer 10 is located between first transparency carrier 9 and second transparency carrier 11, first transparency carrier 9 and second transparency carrier 11 are provided with corresponding electrode 13,14, in first transparency carrier 9 and second transparency carrier 11, first transparency carrier 9 is relatively near image display.Electrode 13,14 can by conduction, material transparent makes.
By the horizontal alignment technology, and the friction orientation by transparency carrier 9,11 (polarization direction of the polarized light that frictional direction will penetrate with image display is consistent), make nematic liquid crystal molecule and dye molecule arrange (being the surface arrangement that liquid crystal molecule and dye molecule are parallel to first transparency carrier, second transparency carrier) along the surface of first transparency carrier 9, second transparency carrier 11, and make orientation parallel, between first transparency carrier 9, second transparency carrier 11, do not have twist transition with the polarization direction of the polarized light of image display emission.
Shown in Fig. 3 (a) and Fig. 3 (b), electrode is striated, electrode 14 on the electrode 13 on first transparency carrier 9 and second transparency carrier 11 all can be by rectangular composition that is arranged in parallel, each substrate 9 wherein, on 11 all odd numbers rectangular be one group of (A, C), all even numbers are rectangular to be one group of (B, D), same group rectangular linking together, so substrate 9, entire electrode 13 on 11,14 all are divided into two parts, wherein the electrode 13 on first transparency carrier 9 is divided into A and B two parts, electrode 14 on second transparency carrier 11 is divided into C and D two parts, the electrode 13 of first transparency carrier 9 is corresponding with the electrode 14 on second transparency carrier 11, wherein A is corresponding with C, and B is corresponding with D.Rectangular live width is 60 microns in this electrode design, and rectangular spacing is 8 microns, and this is easy to reach for existing technological level.
Design by electrode 13,14 and electric field controls can realize the fence state that black and white strip is alternate and the variation of full impregnated state, can be used to respectively realize that 3D and 2D show.When not applying voltage, whole parallax barrier layer 3 presents black.When partial electrode A and C (or B and D) go up making alive, liquid crystal molecule between partial electrode A (or B) and the partial electrode C (or D) drives dye molecule and together reverses, make the surface of dye molecule axle perpendicular to first transparency carrier 9 and second transparency carrier 11, this moment, dye molecule was the most weak to the absorption of light, do not have birefringent phenomenon to take place simultaneously, make become between this a pair of partial electrode transparent; And adjacent another be not to applying voltage on partial electrode B and the D (or A and C), thereby remain black, just formed a chequered with black and white liquid crystal grating this moment, and shown in Fig. 4 (a) and Fig. 4 (b), the effect of blocking by liquid crystal grating can realize the 3D demonstration.As all partial electrode A, B, C, D (being entire electrode) applies voltage, all liquid crystal molecules all turn to the surperficial perpendicular direction with first transparency carrier 9 and second transparency carrier 11, and this moment, whole parallax barrier layer 3 all became transparently, and light is no longer included the effect of blocking, shown in Fig. 5 (a) and Fig. 5 (b), thereby can realize that 2D shows.
When not applying voltage between the electrode 13,14, guest-host type LCD 3 all presents bright attitude, can be used to show the 2D image; When applying voltage between the electrode 13,14, guest-host type LCD 3 presents bright attitude alternately arranges with dark attitude, forms parallax barrier, can be used to show the 3D image.
More than be two preferred embodiments of the present utility model, but embodiment of the present utility model more than these, such as image display also can be self-emission display apparatus, as plasma panel display (PDP), organic electroluminescent flat-panel monitor (OLED) etc.Electrode also can adopt other form, such as stair-stepping electrode spread form, or the reticulate texture that constitutes by a plurality of stripeds that intersect vertically.
Claims (9)
1, a kind of automatic stereoscopic display device comprises image display, it is characterized in that: the appropriate location in described image display the place ahead is provided with a guest-host type LCD.
2, automatic stereoscopic display device according to claim 1, it is characterized in that: described guest-host type LCD is made up of the liquid crystal layer of first transparency carrier, second transparency carrier and the dyestuff that mixed, liquid crystal layer is located between first transparency carrier and second transparency carrier, and first transparency carrier and second transparency carrier are provided with corresponding electrode.
3, automatic stereoscopic display device according to claim 2 is characterized in that: described liquid crystal layer is a nematic phase positivity liquid crystal.
4, automatic stereoscopic display device according to claim 2 is characterized in that: described liquid crystal layer is the nematic phase negative liquid crystal.
5, automatic stereoscopic display device according to claim 2 is characterized in that: described first transparency carrier and second transparency carrier are transparent plastic base or glass substrates.
6, automatic stereoscopic display device according to claim 3, it is characterized in that: described electrode is striated, electrode on first transparency carrier and second transparency carrier is by the rectangular composition that is arranged in parallel, wherein on each substrate all odd numbers rectangular be one group, all even numbers are rectangular is one group, same group rectangular linking together, entire electrode separated into two parts on substrate, first transparency carrier is corresponding with the electrode on second transparency carrier.
7, automatic stereoscopic display device according to claim 4, it is characterized in that: described electrode is striated, electrode on first transparency carrier and second transparency carrier is by the rectangular composition that is arranged in parallel, all rectangular linking together on each substrate, first transparency carrier is corresponding with the electrode on second transparency carrier.
8, according to each described automatic stereoscopic display device of claim 1~7, it is characterized in that: described image display adopts flat-panel monitor, it is made up of module backlight and penetration spatial light modulator, and wherein the penetration spatial light modulator is the thin film transistor (TFT) flat-panel monitor.
9, according to each described automatic stereoscopic display device of claim 1~7, it is characterized in that: described image display adopts flat-panel monitor, and it is a self-emission display apparatus, is plasma panel display or organic electroluminescent flat-panel monitor.
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CN 200620054010 CN200947134Y (en) | 2006-01-19 | 2006-01-19 | Auto-stereoscopic display |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN100449352C (en) * | 2006-01-19 | 2009-01-07 | 汕头超声显示器有限公司 | Automatic stereo display |
CN102725682A (en) * | 2010-08-17 | 2012-10-10 | Lc-Tec显示器公司 | High-speed liquid crystal polarization modulator |
CN102866509A (en) * | 2011-07-06 | 2013-01-09 | 乐金显示有限公司 | Image display device |
-
2006
- 2006-01-19 CN CN 200620054010 patent/CN200947134Y/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN100449352C (en) * | 2006-01-19 | 2009-01-07 | 汕头超声显示器有限公司 | Automatic stereo display |
CN102725682A (en) * | 2010-08-17 | 2012-10-10 | Lc-Tec显示器公司 | High-speed liquid crystal polarization modulator |
CN102725682B (en) * | 2010-08-17 | 2015-09-16 | Lc-Tec显示器公司 | High speed liquid crystal polarization modulator |
CN102866509A (en) * | 2011-07-06 | 2013-01-09 | 乐金显示有限公司 | Image display device |
CN102866509B (en) * | 2011-07-06 | 2014-11-12 | 乐金显示有限公司 | Image display device |
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Effective date of abandoning: 20090107 |
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