CN101183177A - Steroscopic display and manufacturing method thereof - Google Patents

Abstract

The present invention discloses a stereoscopic display, which is suitable for watching by an observer wearing a spectacle. The spectacle is provided with two cycle partial lenses with different polarization characteristics. The stereoscopic display comprises a flat display panel, a quarter wave plate and a nano-pattern half-wave plate. The flat display panel is provided with a plurality of pixels which are arranged in array and is suitable for displaying a partial line pattern. The quarter wave plate is arranged between the flat display panel and the spectacle. The nano-pattern half-wave plate is arranged between the flat display panel and the spectacle. The nano-pattern half-wave plate is corresponded to the part of the pixel. The present invention also provides a manufacturing method for the stereoscopic display. The nano-pattern half-wave plate of the present invention is provided with different phase delays in different areas. The quarter wave plate is used for transforming the line partial pattern to the cycle partial pattern. So the observer can see the stereoscopic display effect with low visual angle dependency. The present invention uses a single distribution direction for integrating the quarter wave plate and the nano-pattern half-wave plate, which can reduce the working complexity.

Description

Three-dimensional display and preparation method thereof

Technical field

The present invention relates to a kind of display, and be particularly related to a kind of three-dimensional display that the image of different polarization direction can be provided the zones of different of display panels.

Background technology

Along with the progress and prosperity of science and technology, people increase and minimizing never to having only for the enjoyment one of material life and spiritual aspect.With spiritual aspect, in the age that this science and technology is maked rapid progress, people wish to realize by display device the imagination of powerful and unconstrained style, to reach the effect of being personally on the scene; Therefore, how to make display device present three-dimensional image or image, just become now display device technology and desire most ardently the target that reaches.

With regard to using outward appearance, stereo display technique can roughly be divided into the observer need wear hyperphoria with fixed eyeballs mirror (stereoscopic) that the particular design glasses watch and the direct bore hole bore hole formula (auto-stereoscopic) of watching.The stereo display of hyperphoria with fixed eyeballs mirror can be divided into filter goggle (color filter glasses), polaroid glasses (polarizingglasses) and shutter glasses modes such as (shutter glasses).The principle of work of hyperphoria with fixed eyeballs mirror stereo display mainly is to utilize display to send to have the right and left eyes image of specific information, via the selection of wear-type glasses, allows right and left eyes see the right and left eyes image respectively, to form stereoscopic vision.

Fig. 1 is the display mechanism synoptic diagram of the three-dimensional display of collocation polaroid glasses use.See also Fig. 1, three-dimensional display 100 is suitable for allowing the observer watch when wearing polaroid glasses 110, polaroid glasses 110 have two line polariscope sheets (linear polarized eyeglass) that the polarization direction is respectively D1 and D2, and three-dimensional display 100 comprises two-d display panel 120 and patterning half-wave plate 130, and patterning half-wave plate 130 is disposed between two-d display panel 120 and the polaroid glasses 110.As shown in Figure 1, two-d display panel 120 has a plurality of pixels that are arrayed, and the pixel of odd-numbered line and even number line presents right eye picture R and left eye picture L respectively on the two-d display panel 120, shown in the picture F1 among Fig. 1.In addition, two-d display panel 120 has last Polarizer 140, and upward the bearing of trend of the optical axis of Polarizer 140 is parallel to polarization D1, makes two-d display panel 120 be suitable for showing that the polarization direction is the inclined to one side image of line of D1.Patterning half-wave plate 130 comprises a plurality of strip pattern B, and each strip pattern B is suitable for providing a phase delay, and phase delay can transfer the inclined to one side image of line that the polarization direction is D2 to so that the polarization direction is the inclined to one side image of line of D1.This strip pattern B one-row pixels in the corresponding odd-numbered line pixel respectively respectively, make be positioned at image that the odd-numbered line pixel presented through strip pattern B after, the line that presents the polarization direction and be a D2 picture R that takes over is shown in the picture F2 among Fig. 1.When the observer wears polaroid glasses 110 and watches three-dimensional display 100, see through the line polariscope sheet of different polarization characteristic, can allow right and left eyes see that respectively the polarization direction is the left eye picture L of D1 and the right eye picture R that the polarization direction is D2, to form stereoscopic vision.

Though above-mentioned technology can be so that observer's smooth flat-panel screens after wearing polaroid glasses shows stereo-picture, but for observer, when wearing polaroid glasses and watch stereo-picture, the stereo-picture visual angle interdependence height that it is watched makes the limited location of observer when watching three-dimensional display.Therefore, how reducing the visual angle interdependence of three-dimensional display, to increase observer's the visual angle watched, will be an emphasis of three-dimensional display development.

Summary of the invention

The invention provides a kind of three-dimensional display, it can reduce the visual angle interdependence of observer to three-dimensional display.

The invention provides a kind of method for making of three-dimensional display, in three-dimensional display, form two zones, to increase the visual angle watched of stereo-picture with the inclined to one side image of different circles.

The present invention proposes a kind of three-dimensional display, be suitable for allowing the observer when wearing glasses, watch, glasses have two round polariscope sheets (circular polarized eyeglass) that polarization characteristic is different, and three-dimensional display comprises two-d display panel, quarter-wave plate and patterning half-wave plate.Two-d display panel has a plurality of pixels that are arrayed, and wherein two-d display panel is suitable for showing the inclined to one side image of a line.Quarter-wave plate is disposed between two-d display panel and the glasses.The patterning half-wave plate is disposed between two-d display panel and the glasses, and wherein the patterning half-wave plate is corresponding to partial pixel.

In one embodiment of this invention, two-d display panel comprises having line polaroid display panels, organic electric-excitation luminescent displaying panel, plasma display or Electrowetting display panel (Electrowetting Display).

In one embodiment of this invention, the patterning half-wave plate is disposed on the two-d display panel, and quarter-wave plate is disposed on the patterning half-wave plate, and the patterning half-wave plate is between quarter-wave plate and two-d display panel.In one embodiment, three-dimensional display also comprises the substrate and first both alignment layers.First both alignment layers is disposed on the quarter-wave plate, and between quarter-wave plate and substrate, and the optical axis of quarter-wave plate is parallel with the optical axis of patterning half-wave plate.

In one embodiment of this invention, quarter-wave plate is disposed on the two-d display panel, and the patterning half-wave plate is disposed on the quarter-wave plate, and quarter-wave plate is between patterning half-wave plate and two-d display panel.In one embodiment, three-dimensional display also comprises the substrate and first both alignment layers.First both alignment layers is disposed on the patterning half-wave plate, and between patterning half-wave plate and substrate.In one embodiment, three-dimensional display also comprises the coating layer and second both alignment layers.Coating layer is disposed between four minutes one wave plates and the patterning half-wave plate.Second both alignment layers is disposed between coating layer and the quarter-wave plate.In another embodiment, three-dimensional display also comprises the coating layer with orientation function, be disposed between four minutes one wave plates and the patterning half-wave plate, and the optical axis of quarter-wave plate is parallel with the optical axis of patterning half-wave plate.

In one embodiment of this invention, the patterning half-wave plate comprises a plurality of strip patterns, and the one-row pixels in the corresponding even number line pixel of each strip pattern difference.

In one embodiment of this invention, the patterning half-wave plate comprises a plurality of strip patterns, and the one-row pixels in the corresponding odd-numbered line pixel of each strip pattern difference.

In one embodiment of this invention, the patterning half-wave plate comprises a plurality of strip patterns, and row pixel in the corresponding even column pixel of each strip pattern difference or the row pixel in the odd column pixel.

In one embodiment of this invention, the patterning half-wave plate comprises a plurality of island-shaped pattern, and each island-shaped pattern corresponds respectively to one of them pixel.In one embodiment, island-shaped pattern is all alternately arranged on column direction and line direction.

The present invention also proposes a kind of method for making of three-dimensional display, comprises the following steps.At first, provide two-d display panel, two-d display panel has a plurality of pixels that are arrayed, and is suitable for the inclined to one side image of display line.Then, make quarter-wave plate and patterning half-wave plate on substrate, wherein the patterning half-wave plate is corresponding to partial pixel.Afterwards, the substrate and the two-d display panel that will have quarter-wave plate and patterning half-wave plate fitted.

In one embodiment of this invention, the method for making with substrate of quarter-wave plate and patterning half-wave plate comprises the following steps.At first, on substrate, form first both alignment layers.Then, on first both alignment layers, form quarter-wave plate.Afterwards, on quarter-wave plate, form the patterning half-wave plate.

In one embodiment of this invention, the method for making with substrate of quarter-wave plate and patterning half-wave plate comprises the following steps.At first, on substrate, form first both alignment layers.Afterwards, on first both alignment layers, form the patterning half-wave plate.Then, on the patterning half-wave plate, form quarter-wave plate.

In one embodiment of this invention, the method for making with substrate of quarter-wave plate and patterning half-wave plate comprises the following steps.At first, on substrate, form first both alignment layers.Afterwards, on first both alignment layers, form the patterning half-wave plate.Then, on the patterning half-wave plate, form a coating layer.Continue, on coating layer, form second both alignment layers.Afterwards, on second both alignment layers, form quarter-wave plate.

In one embodiment of this invention, the method for making with substrate of quarter-wave plate and patterning half-wave plate comprises the following steps.At first, on substrate, form first both alignment layers.Afterwards, on first both alignment layers, form the patterning half-wave plate.Then, on the patterning half-wave plate, form a coating layer with orientation function.Continue, on coating layer, form quarter-wave plate with orientation function.

In the stereo display of the present invention, the patterning half-wave plate provides different phase delay in zones of different, makes the right and left eyes picture of the generation different polarization direction of three-dimensional display, and utilizes quarter-wave plate the linear polarization image transitions can be the circular polarization image.Therefore, the collocation of patterning half-wave plate and quarter-wave plate can allow the observer who has on polaroid glasses watch stereo-picture, and can increase the visual angle that the observer watches three-dimensional display, to promote the display quality of image.The optical axis of quarter-wave plate of the present invention is parallel with the optical axis of patterning half-wave plate, in part embodiment, can use single both alignment layers to integrate quarter-wave plate and patterning half-wave plate, can save manufacturing cost.

State with other purposes, feature and advantage and can become apparent on the present invention for allowing, preferred embodiment cited below particularly, and cooperate appended graphicly, be described in detail below.

Description of drawings

Fig. 1 is the display mechanism synoptic diagram of the three-dimensional display of collocation polaroid glasses use.

Fig. 2 A is the synoptic diagram of three-dimensional display first embodiment of the present invention.

Fig. 2 B is the synoptic diagram of three-dimensional display first embodiment of the present invention.

Fig. 2 C is the synoptic diagram of three-dimensional display first embodiment of the present invention.

Fig. 3 is the diagrammatic cross-section of three-dimensional display first embodiment of the present invention.

Fig. 4 A to Fig. 4 F illustrates the manufacture method of three-dimensional display of the present invention.

Fig. 5 is the synoptic diagram of three-dimensional display second embodiment of the present invention.

Fig. 6 is the diagrammatic cross-section of three-dimensional display second embodiment of the present invention.

Fig. 7 A to Fig. 7 C illustrates and forms above-mentioned method for making with substrate of quarter-wave plate and patterning half-wave plate.

Fig. 8 is the diagrammatic cross-section of three-dimensional display second embodiment of the present invention.

Fig. 9 A to Fig. 9 E illustrates a kind of above-mentioned method for making with substrate of quarter-wave plate and patterning half-wave plate that forms.

Figure 10 is the diagrammatic cross-section of three-dimensional display second embodiment of the present invention.

Figure 11 A to Figure 11 D illustrates a kind of above-mentioned method for making with substrate of quarter-wave plate and patterning half-wave plate that forms.

Description of reference numerals

100,200,400,500,600: three-dimensional display

110,210: glasses

120,220: two-d display panel

130,240: the patterning half-wave plate

140,250: go up Polarizer

230: quarter-wave plate

222: display panels

224: backlight module

226: following Polarizer

310: substrate

320: the first both alignment layers

510: coating layer

520: the second both alignment layers

610: coating layer with orientation function

B: strip pattern

D1, D2, D3: direction

F1, F2: picture

I: island-shaped pattern

L: left eye picture

P: pixel

R: right eye picture

Embodiment

First embodiment

Fig. 2 A is the synoptic diagram of three-dimensional display first embodiment of the present invention.Please refer to Fig. 2 A, three-dimensional display 200 is suitable for allowing the observer watch when wearing the inclined to one side glasses 210 of circle, wherein round inclined to one side glasses 210 have round polariscope sheet 210L left-handed and that two polarization characteristics of dextrorotation are different, and circle polariscope sheet 210L can be considered the combination of quarter-wave plate and line Polarizer shown in Fig. 2 A.In addition, three-dimensional display 200 comprises two-d display panel 220, quarter-wave plate 230 and patterning half-wave plate 240.In the present embodiment, patterning half-wave plate 240 is disposed on the two-d display panel 220, and quarter-wave plate 230 is disposed on the patterning half-wave plate 240, and patterning half-wave plate 240 is between quarter-wave plate 230 and two-d display panel 220.Two-d display panel 220 can be to have last Polarizer display panels, organic electric-excitation luminescent displaying panel, plasma display or Electrowetting display panel, is to be example with the display panels with last Polarizer in the present embodiment.

Please continue A with reference to Fig. 2, two-d display panel 220 has a plurality of pixel P that are arrayed, and in the present embodiment, two-d display panel 220 has last Polarizer 250, the bearing of trend of wherein going up the optical axis of Polarizer 250 is D1, makes two-d display panel 220 be suitable for showing that the polarization direction is the inclined to one side image of line of D1.Patterning half-wave plate 240 and quarter-wave plate 230 are disposed between two-d display panel 220 and the inclined to one side glasses 210 of circle, and patterning half-wave plate 240 is corresponding to partial pixel P.For example, patterning half-wave plate 240 comprises a plurality of strip pattern B, and the one-row pixels P among the corresponding odd-numbered line pixel P of each strip pattern B difference.Specifically, the strip pattern B on the patterning half-wave plate 240 has the effect of phase delay, can be so that two-d display panel 220 shown images produce the phase delay of 1/2nd wavelength (λ/2) afterwards by strip pattern B.

In detail, can to make the polarization direction be to change into the inclined to one side image of line that the polarization direction is D2 before the inclined to one side image of line of D1 is entering quarter-wave plate 230 to λ/2 phase delays of being provided in odd-numbered line pixel P of patterning half-wave plate 240.Simultaneously, the phase delay that patterning half-wave plate 240 is provided in even number line pixel P is about zero, the inclined to one side image of line that makes even number line pixel P be presented can keep original polarization direction D1 to enter quarter-wave plate 230 after by patterning half-wave plate 240, therefore the shown inclined to one side image of line of two-d display panel 220 is at the picture that presents after by patterning half-wave plate 240 shown in picture F1 among Fig. 2 A, and it is the strip picture of D2 that picture F1 is divided into strip picture and the polarization direction that the polarization direction is D1 with being spaced apart.

Please continue the A with reference to Fig. 2, it is that the inclined to one side image of line of D1 and D2 changes into respectively and left-handedly enters the inclined to one side glasses 210 of circle that the observer wears with the inclined to one side image of circle dextrorotation that the quarter-wave that quarter-wave plate 230 is provided (λ/4) phase delay can make the polarization direction.Shown in the picture F2 among Fig. 2 A, picture F2 is divided into strip left eye picture L and right eye picture R with being spaced apart, so the observer sees through the stereo-picture that the inclined to one side glasses 210 of circle can see that left eye picture L and right eye picture R as picture F2 are superposeed.It should be noted that, be the linear inclined to one side image of line compared to known polarization direction, the polarization direction is that the component of the inclined to one side image of circularly polarized circle on each polarization direction is roughly the same, when the observer who therefore wears the inclined to one side glasses 210 of circle watches three-dimensional display 200 at different visual angles, can watch comparatively stereo-picture uniformly, therefore quarter-wave plate of the present invention disposes the visual angle that helps increase three-dimensional display.

Each strip pattern B of patterning half-wave plate 240 also can be the one-row pixels P among the even number line pixel P of respectively corresponding flat display.In addition, patterning half-wave plate 240 still can be shown in Fig. 2 B and Fig. 2 C with the corresponding relation of the pixel P of flat-panel screens.Please refer to Fig. 2 B, patterning half-wave plate 240 (all the other do not illustrate) comprises a plurality of strip pattern B, and the row pixel P among the corresponding odd column pixel P of each strip pattern B difference.Certainly, each strip pattern B also can be the row pixel P among the corresponding even column pixel P of difference.In addition, please refer to Fig. 2 C, patterning half-wave plate 240 (all the other do not illustrate) comprises a plurality of island-shaped pattern I that all alternately arrange on column direction and line direction, and each island-shaped pattern I can correspond respectively to one of them pixel P, making picture present respectively as spaced two display images of checkerboard enters in the inclined to one side glasses 210 of circle that the observer wears, to present stereoscopic picture plane.Certainly, each island-shaped pattern I corresponds respectively to a plurality of pixel P.Therefore, the deviser can come the corresponding relation of pixel on pattern on the layout half-wave plate and the flat-panel screens in response to user demand, and the present invention is pattern form, size and the arrangement mode of limiting pattern half-wave plate not.

Particularly, three-dimensional display 200 can further comprise the substrate 310 and first both alignment layers 320, as shown in Figure 3.Fig. 3 is the diagrammatic cross-section of three-dimensional display first embodiment of the present invention.Please refer to Fig. 3, first both alignment layers 320 is disposed on the quarter-wave plate 230, and first both alignment layers 320 is between quarter-wave plate 230 and substrate 310, wherein first both alignment layers 320 has specific orientation arrangement, in order to adjust the optical axis direction of quarter-wave plate 230 and patterning half-wave plate 240.In the present embodiment, the optical axis of the optical axis of quarter-wave plate 230 and patterning half-wave plate 240 is parallel.

Specifically, quarter-wave plate 230 for example is made up of the phasic difference film with the material of patterning half-wave plate 240.The optical property of phasic difference film can be adjusted by the thickness of change phasic difference film or the molecules align of phasic difference film.For example, quarter-wave plate 230 for example is made with commaterial with patterning half-wave plate 240, makes quarter-wave plate 230 have different phase-delay quantities with patterning half-wave plate 240 by the thickness that changes the phasic difference film.In addition, because the optical axis of the quarter-wave plate 230 in the present embodiment is parallel with the optical axis of patterning half-wave plate 240, therefore can use first both alignment layers 320 of simple layer to define the optical axis of quarter-wave plate 230 and patterning half-wave plate 240, wherein first both alignment layers 320 can utilize various contact allocating process or contactless allocating process to adjust alignment direction.

For more abundant disclosure content of the present invention, the manufacture method of three-dimensional display first embodiment of the present invention will be described below.Fig. 4 A to Fig. 4 F illustrates a kind of manufacture method of three-dimensional display of the present invention, and it comprises the step of the following stated:

At first, please refer to Fig. 4 A and Fig. 2 A, two-d display panel 220 is provided, two-d display panel 220 has a plurality of pixel P that are arrayed, and is suitable for showing that the polarization direction is the inclined to one side image of line of D1.For example, two-d display panel 220 for example mainly is made up of display panels 222, backlight module 224 and the last Polarizer 250 and time Polarizer 226 that are positioned at display panels 222 both sides, the optical axis extending direction that wherein goes up Polarizer 250 is D1, makes two-d display panel 220 be suitable for showing that the polarization direction is the inclined to one side image of line of D1.Then, please refer to Fig. 4 B, on substrate 310, form first both alignment layers 320, wherein the alignment direction of first both alignment layers 320 is D3, make that the quarter-wave plate 230 and the optical axis extending direction of patterning half-wave plate 240 are D3, wherein be the angle (being illustrated in Fig. 2 A) of 45 degree between the optical axis extending direction D1 of the optical axis extending direction D3 of quarter-wave plate 230 and patterning half-wave plate 240 and last Polarizer 250.

Then, please refer to Fig. 4 C, on first both alignment layers 320, form quarter-wave plate 230, wherein the formation method of quarter-wave plate 230 for example is to be coated with a phasic difference film on first both alignment layers 320 comprehensively, and the mode of coating phasic difference film for example is the coating of slit die formula (Slot-die Coating) or method of spin coating (spin coating is via crosslinked the forming of UV exposure).Afterwards, please refer to Fig. 4 D and Fig. 2 A, form patterning half-wave plate 240 on quarter-wave plate 230, wherein patterning half-wave plate 240 is corresponding to partial pixel P, in the present embodiment, have a plurality of strip pattern Bs corresponding on the patterning half-wave plate 240 with one-row pixels P.The method of above-mentioned formation patterning half-wave plate 240 for example is to be coated with a phasic difference film on quarter-wave plate 230 comprehensively, and the mode of coating phasic difference film for example is coating of slit die formula or method of spin coating, after then defining needed strip pattern B via a photo-marsk process, remove part phasic difference film by developing process again, on substrate 310, to finish the making of a quarter-wave plate 230 and a patterning half-wave plate 240.

Afterwards, please refer to Fig. 4 E, the substrate 310 that will have quarter-wave plate 230 and patterning half-wave plate 240 carries out contraposition with two-d display panel 220 and is also fitted.Three-dimensional display 200 after the applying is suitable for allowing an observer watch when wearing the inclined to one side glasses 210 of circle shown in Fig. 4 F, and wherein round inclined to one side glasses 210 have the different round polariscope sheet 210L of two polarization characteristics.

Second embodiment

Fig. 5 is the synoptic diagram of three-dimensional display second embodiment of the present invention.Please refer to Fig. 5, the described three-dimensional display of the three-dimensional display 400 and first embodiment 200 is similar, and only the quarter-wave plate 230 of three-dimensional display 400 is different with three-dimensional display 200 with the allocation position of patterning half-wave plate 240.The quarter-wave plate 230 of three-dimensional display 400 is disposed on the two-d display panel 220, and patterning half-wave plate 240 is disposed on the quarter-wave plate 230, and quarter-wave plate 230 is between patterning half-wave plate 240 and two-d display panel 220.

In the present embodiment, two-d display panel 220 has last Polarizer 250, and the bearing of trend of wherein going up the optical axis of Polarizer 250 is D1, makes two-d display panel 220 be suitable for showing that the polarization direction is the inclined to one side image of line of D1.Afterwards, it is that the inclined to one side image of line of D1 changes into the inclined to one side image of circle and enters patterning half-wave plate 240 that the λ that quarter-wave plate 230 is provided/4 phase delays can make the polarization direction, and shown in the picture F1 among Fig. 5, the inclined to one side image of circle for example is the left-hand polarization image.Then, image enters patterning half-wave plate 240, and wherein patterning half-wave plate 240 is corresponding to partial pixel P, and in the present embodiment, patterning half-wave plate 240 comprises a plurality of strip pattern B, and the one-row pixels P among the corresponding odd-numbered line pixel P of each strip pattern B difference.Specifically, the λ that patterning half-wave plate 240 is provided in odd-numbered line pixel P/2 phase delays can make the inclined to one side image of circle change into the inclined to one side image of the opposite circle of optical activity direction and enter the inclined to one side glasses 210 of circle that the observer wears, and transfer the dextropolarization image to as the left-hand polarization image among Fig. 5.

On the other hand, in the present embodiment.The phase delay that patterning half-wave plate 240 is provided in even number line pixel P is about zero, so the image that even number line pixel P is presented can keep original optical activity enter the inclined to one side glasses 210 of circle that the observer wears after by patterning half-wave plate 240, therefore the picture of picture F2 during the image of picture F1 can present as Fig. 5 after by patterning half-wave plate 240, picture F2 is divided into strip left eye picture L and right eye picture R with being spaced apart, so the observer can see the stereo-picture that left eye picture L and right eye picture R as picture F2 are superposeed via the inclined to one side glasses 210 of circle.Certainly, the design on the patterning half-wave plate 240 can be adjusted according to demand, and the present invention is pattern form, size and the arrangement mode of limiting pattern half-wave plate 240 not.Be the linear inclined to one side image of line compared to known polarization direction, the polarization direction is that the component of the inclined to one side image of circularly polarized circle on each polarised direction is roughly the same, therefore, the three-dimensional display 400 of present embodiment has equally preferably and can watch the visual angle compared to known three-dimensional display 100 (being illustrated in Fig. 1).

Particularly, three-dimensional display 400 can further comprise the substrate 310 and first both alignment layers 320, as shown in Figure 6.Fig. 6 is the diagrammatic cross-section of a kind of three-dimensional display of second embodiment of the invention.Please refer to Fig. 6, first both alignment layers 320 is disposed on the patterning half-wave plate 240, and first both alignment layers 320 is between patterning half-wave plate 240 and substrate 310, wherein first both alignment layers 320 has specific orientation arrangement, in order to adjust the optical axis direction of quarter-wave plate 230 and patterning half-wave plate 240.In addition, quarter-wave plate 230 is between patterning half-wave plate 240 and two-d display panel 220.In the present embodiment, the optical axis of the optical axis of quarter-wave plate 230 and patterning half-wave plate 240 is parallel.

Fig. 7 A to Fig. 7 C is for forming above-mentioned method for making with substrate of quarter-wave plate and patterning half-wave plate.Please earlier with reference to Fig. 7 A, substrate 310 with first both alignment layers 320 is provided, the alignment direction of first both alignment layers 320 is D3, make that the quarter-wave plate 230 and the optical axis direction of patterning half-wave plate 240 are D3, wherein be the angle (being illustrated in Fig. 5) of 45 degree between the optical axis extending direction D1 of the optical axis direction D3 of quarter-wave plate 230 and patterning half-wave plate 240 and last Polarizer 250.Then, shown in Fig. 7 B, on first both alignment layers 320, form patterning half-wave plate 240, wherein patterning half-wave plate 240 is corresponding to partial pixel P (being illustrated among Fig. 5), in the present embodiment, having a plurality of phase delays on the patterning half-wave plate 240 is the strip pattern B of λ/2, but not as limit.The method of above-mentioned formation patterning half-wave plate 240 for example is to use coating of slit die formula or method of spin coating to be coated with a phasic difference film on first both alignment layers 320 comprehensively, after defining needed strip pattern B via photo-marsk process, make that having block and the phase delay that phase delay is λ/2 on the patterning half-wave plate 240 is about zero block, in the present embodiment, to be that λ/2 and phase delay are about the thickness of zero two blocks very close for phase delay.Afterwards, shown in Fig. 7 C, on patterning half-wave plate 240, form quarter-wave plate 230, wherein the formation method of quarter-wave plate 230 for example is to be coated with a phasic difference film on patterning half-wave plate 240 comprehensively, and the mode of coating phasic difference film for example is coating of slit die formula or method of spin coating, via crosslinked the forming of UV exposure.On substrate 310, to finish the making of quarter-wave plate 230 and patterning half-wave plate 240.Afterwards, the substrate 310 that will have patterning half-wave plate 240 and quarter-wave plate 230 again carries out contraposition with two-d display panel 220 is also fitted, to finish three-dimensional display 400.

In part embodiment, the thickness of quarter-wave plate 230 can change to some extent because of the pattern landform (topography) of bottom patterning half-wave plate 240, makes the membrane thickness unevenness of quarter-wave plate 230 and then the whole optical characteristics of influence.Therefore in part embodiment, when phase delay is λ/2 and phase delay when being about that thickness is too big between zero two zones apart, three-dimensional display can further comprise the coating layer 510 and second both alignment layers 520, three-dimensional display 500 as shown in Figure 8.Fig. 8 is the diagrammatic cross-section of a kind of three-dimensional display of second embodiment of the invention.Please refer to Fig. 8, coating layer 510 is disposed between quarter-wave plate 230 and the patterning half-wave plate 240, and second both alignment layers 520 is disposed between coating layer 510 and the quarter-wave plate 230.Coating layer 510 is in order to fill and lead up the pattern landform on patterning half-wave plate 240 surfaces, make quarter-wave plate 230 be able to be coated on comparatively equably the surface of coating layer 510, avoid quarter-wave plate 230 in technology, to be subjected to the influence of patterning half-wave plate 240 picture on surface and crawling.In addition, first both alignment layers 320 is in order to the optical axis direction of define pattern half-wave plate 240, and second both alignment layers 520 is in order to redefine the optical axis direction of quarter-wave plate 230.In this embodiment, first both alignment layers 320 is identical with the alignment direction of second both alignment layers 520.

Fig. 9 A to Fig. 9 E is a kind of above-mentioned method for making with substrate of quarter-wave plate and patterning half-wave plate that forms.Please earlier with reference to Fig. 9 A, provide the substrate 310 with first both alignment layers 320, wherein the alignment direction of first both alignment layers 320 is D3.Then, shown in Fig. 9 B, on first both alignment layers 320, form patterning half-wave plate 240, wherein patterning half-wave plate 240 is corresponding to partial pixel P (being illustrated in Fig. 5), in the present embodiment, having a plurality of phase delays on the patterning half-wave plate 240 is the strip pattern B of λ/2, but not as limit.The method of above-mentioned formation patterning half-wave plate 240 for example is to be coated with a phasic difference film on first both alignment layers 320 comprehensively, after defining the pattern that phase delay is λ/2 via a photo-marsk process, re-use developing process removal phase delay and be about zero zone, and form the patterning half-wave plate 240 that topographical surface just rises and falls.

Please continue C, on patterning half-wave plate 240, form coating layer 510, with the pattern on the overlay pattern half-wave plate 240 with reference to Fig. 9.Then, shown in Fig. 9 D, form second both alignment layers 520 on coating layer 510, wherein the alignment direction of second both alignment layers 520 is identical with the alignment direction D3 of first both alignment layers 320, and the production method of second both alignment layers 520 and first both alignment layers 320 are similar.Continue, see also Fig. 9 E, on second both alignment layers 520, form quarter-wave plate 230.Afterwards, the substrate 310 that again this is had patterning half-wave plate 240 and quarter-wave plate 230 carries out contraposition with two-d display panel 220 (being illustrated in Fig. 5) is also fitted, to finish three-dimensional display 500.

Certainly, in another embodiment, the coating layer 510 and second both alignment layers 520 also can use the coating layer 610 with orientation function to substitute, as shown in figure 10.Figure 10 is the diagrammatic cross-section of the another kind of three-dimensional display of second embodiment of the invention.Please refer to Figure 10, three-dimensional display can further comprise the coating layer 610 with orientation function, three-dimensional display 600 as shown in figure 10.Coating layer 610 with orientation function is disposed between quarter-wave plate 230 and the patterning half-wave plate 240, and the optical axis of quarter-wave plate 230 is parallel with the optical axis of patterning half-wave plate 240.230 of quarter-wave plates are in two-d display panel 220 and have between the coating layer 610 of orientation function.

Figure 11 A to Figure 11 D is a kind of above-mentioned method for making with substrate of quarter-wave plate and patterning half-wave plate that forms.Please earlier with reference to Figure 11 A, it is D3 that the alignment direction of substrate 310, the first both alignment layers 320 with first both alignment layers 320 is provided.Then, shown in Figure 11 B, form patterning half-wave plate 240 on first both alignment layers 320, wherein the method for making of patterning half-wave plate 240 and design consideration and above-mentioned Fig. 9 category-B seemingly repeat no more.Afterwards, shown in Figure 11 C, on patterning half-wave plate 240, form coating layer 610, with the pattern on the overlay pattern half-wave plate 240 with orientation function.The alignment direction of coating layer 610 with orientation function is identical with the alignment direction D3 of first both alignment layers 320.Continue, see also Figure 11 D, on coating layer 610, form quarter-wave plate 230 with orientation function.Subsequently, the substrate 310 that again this is had patterning half-wave plate 240 and quarter-wave plate 230 carries out contraposition with two-d display panel 220 (being illustrated in Fig. 5) is also fitted, to finish three-dimensional display 600.

In sum, three-dimensional display of the present invention with and manufacture method have the advantage of the following stated at least:

1, patterning half-wave plate of the present invention has different phase delay in zones of different, and uses quarter-wave plate to make the inclined to one side image of line transfer the inclined to one side image of circle to, so the observer can see the stereo display effect that the visual angle interdependence is lower.

2, the optical axis of quarter-wave plate of the present invention is parallel with the optical axis of patterning half-wave plate, in part embodiment, can use single both alignment layers to come integrated quarter-wave plate and patterning half-wave plate, reduces process complexity.

Though the present invention discloses as above with preferred embodiment; yet it is not in order to limit the present invention; those of ordinary skill in the technical field under any; without departing from the spirit and scope of the present invention; when can doing a little change and retouching, so protection scope of the present invention is as the criterion when looking appended the claim person of defining.

Claims (20)

1. a three-dimensional display is suitable for allowing the observer watch when wearing glasses, and these glasses have the different round polariscope sheet of two polarization characteristics, and this three-dimensional display comprises:

Two-d display panel has a plurality of pixels that are arrayed, and wherein this two-d display panel is suitable for showing the inclined to one side image of a line;

Quarter-wave plate is disposed between this two-d display panel and this glasses; And

The patterning half-wave plate is disposed between this two-d display panel and this glasses, and wherein the patterning half-wave plate is corresponding to partial pixel.

2. three-dimensional display as claimed in claim 1, wherein this two-d display panel comprises the organic electric-excitation luminescent displaying panel that has line polaroid display panels, have the line polaroid, has the plasma display of line polaroid, or has the Electrowetting display panel of line polaroid.

3. three-dimensional display as claimed in claim 1, wherein this patterning half-wave plate is disposed on this two-d display panel, and quarter-wave plate is disposed on this patterning half-wave plate, and this patterning half-wave plate is between this quarter-wave plate and this two-d display panel.

4. three-dimensional display as claimed in claim 3 also comprises:

Substrate; And

First both alignment layers is disposed on this quarter-wave plate, and between this quarter-wave plate and this substrate.

5. three-dimensional display as claimed in claim 3, wherein the optical axis of this quarter-wave plate is parallel with the optical axis of this patterning half-wave plate.

6. three-dimensional display as claimed in claim 1, wherein this quarter-wave plate is disposed on this two-d display panel, and the patterning half-wave plate is disposed on this quarter-wave plate, and this quarter-wave plate is between this patterning half-wave plate and this two-d display panel.

7. three-dimensional display as claimed in claim 6, other comprises:

Substrate; And

First both alignment layers is disposed on this patterning half-wave plate, and between this patterning half-wave plate and this substrate.

8. three-dimensional display as claimed in claim 7, other comprises:

Coating layer is disposed between this four minutes wave plates and this patterning half-wave plate; And

Second both alignment layers is disposed between this coating layer and this quarter-wave plate.

9. three-dimensional display as claimed in claim 7 also comprises the coating layer with orientation function, is disposed between this four minutes wave plates and this patterning half-wave plate.

10. three-dimensional display as claimed in claim 6, wherein the optical axis of this quarter-wave plate is parallel with the optical axis of this patterning half-wave plate.

11. three-dimensional display as claimed in claim 1, wherein this patterning half-wave plate comprises a plurality of strip patterns, and this strip pattern one-row pixels in the corresponding even number line pixel respectively respectively.

12. three-dimensional display as claimed in claim 1, wherein this patterning half-wave plate comprises a plurality of strip patterns, and this strip pattern one-row pixels in the corresponding odd-numbered line pixel respectively respectively.

13. three-dimensional display as claimed in claim 1, wherein this patterning half-wave plate comprises a plurality of strip patterns, and this strip pattern row pixel in the corresponding even column pixel or row pixel in the odd column pixel respectively respectively.

14. three-dimensional display as claimed in claim 1, wherein this patterning half-wave plate comprises a plurality of island-shaped pattern, and respectively this island-shaped pattern corresponds respectively to one of them pixel.

15. three-dimensional display as claimed in claim 14, wherein these island-shaped pattern are all alternately arranged on column direction and line direction.

16. the method for making of a three-dimensional display comprises:

Two-d display panel is provided, and this two-d display panel has a plurality of pixels that are arrayed, and is suitable for showing the inclined to one side image of a line;

Make quarter-wave plate and patterning half-wave plate on substrate, wherein the patterning half-wave plate is corresponding to partial pixel; And

This substrate and this two-d display panel that will have this quarter-wave plate and this patterning half-wave plate are fitted.

17. the method for making of three-dimensional display as claimed in claim 16, the method for making that wherein has this substrate of this quarter-wave plate and this patterning half-wave plate comprises:

On this substrate, form first both alignment layers;

On this first both alignment layers, form this quarter-wave plate; And

On this quarter-wave plate, form this patterning half-wave plate.

18. the method for making of three-dimensional display as claimed in claim 16, the method for making that wherein has this substrate of this quarter-wave plate and this patterning half-wave plate comprises:

On this substrate, form first both alignment layers;

On this first both alignment layers, form this patterning half-wave plate; And

On this patterning half-wave plate, form this quarter-wave plate.

19. the method for making of three-dimensional display as claimed in claim 16, the method for making that wherein has this substrate of this quarter-wave plate and this patterning half-wave plate comprises:

On this substrate, form first both alignment layers;

On this first both alignment layers, form this patterning half-wave plate;

On this patterning half-wave plate, form a coating layer;

On this coating layer, form second both alignment layers; And

On this second both alignment layers, form this quarter-wave plate.

20. the method for making of three-dimensional display as claimed in claim 16, the method for making that wherein has this substrate of this quarter-wave plate and this patterning half-wave plate comprises:

On this substrate, form first both alignment layers;

On this first both alignment layers, form this patterning half-wave plate;

On this patterning half-wave plate, form coating layer with orientation function; And

Have at this and to form this quarter-wave plate on coating layer of orientation function.

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