CN207611210U - Bore hole 3D display screen pixel arrangement structure - Google Patents

Abstract

The bore hole 3D display screen pixel arrangement structure that 3D rendering is fuzzy, stereoscopic effect is bad, including display screen can be fundamentally solved the utility model is related to a kind of, column mirror grating from top to bottom straight to formula in display screen.The vertical distributed architecture of sub-pixel R, G, B under column mirror grating：First row R, G, B, and so on distribution；Secondary series G, B, R, and so on distribution；Third row B, R, G, and so on distribution；Sub-pixel R, G, B cross direction profiles structure in column mirror grating：The first row R, G, B, R, G, B, R, G, B, and so on distribution；Second row G, B, R, G, B, R, G, B, R, and so on distribution；The third line B, R, G, B, R, G, B, R, G, and so on distribution.Advantage：First, the oblique formula of column mirror grating from top to bottom is changed to from top to bottom straight to formula, not only avoid shortcoming existing for background technology, and sub-pixel structure is rearranged according to the application arrangement, it not will produce to overlap each other with adjacent pixel and be scratched with dry, it is ensured that the perfect of stereo-picture embodies.

Description

Bore hole 3D display screen pixel arrangement structure

Technical field

The bore hole 3D display that 3D rendering is fuzzy, stereoscopic effect is bad can be fundamentally solved the utility model is related to a kind of Shield pixel arrangement structure, belongs to bore hole 3D column mirror grating manufacturing fields.

Background technology

Traditional bore hole 3D display screen is to be covered with one layer of column mirror grating in the upper surface of common LCD display.Such as Fig. 1 Shown in column mirror grating stereo imaging.

Each whole seems by tri- sub-pixels of R, G, B（That is three kinds of colors of red, green, blue）Composition, the cross of each sub-pixel To being 1 with vertical dimension ratio：3, as shown in the whole pixel conversion arrangement of subpixels of Fig. 2.

Left eye it is seen that LCD screen left eye pixel, right eye is it is seen that right-eye pixel in LCD screen.As shown in Figure 3.

Sub-pixel arrangement R, G, B cross direction profiles structure of this common LCD display：First row R, R, R, secondary series G, G, G, third row B, B, B, and so on distribution；Sub-pixel R, G, B cross direction profiles structure in column mirror grating：The first row R, G, B, R, G, B, R, G, B, and so on distribution；Second row R, G, B, R, G, B, R, G, B, and so on distribution；The third line R, G, B, R, G, B, R, G, B, and so on distribution.As shown in Figure 4.In the figure it can be seen that R, G, B per sub-pixel be from top to bottom with It is vertically arranged.It is shown if column mirror grating is also from top to bottom to be vertically arranged, on each grating corresponding This whole sub-pixel color.On the column mirror grating of 6 viewpoints, each column mirror grating that eyes are seen can all go out Existing same pigment.Its entire surface all can be this same pigment.Fig. 5 is the sub-pixel schematic diagram that left eye is seen, Fig. 6 is right eye The sub-pixel schematic diagram seen.Due to being two eyes while watching, another eye is it is seen that another adjacent color Element, the entire surface that left eye is seen in Fig. 5 are R colour sketch maps entirely, and the entire surface that right eye is seen in Fig. 6 is B colour sketch maps entirely.This Kind situation obviously cannot correctly show all correct colors.

So the cylindrical mirror film of current bore hole 3D display screen takes the method that inclined from top to down is put.Pixel and light After grid cooperation, pixel shows the pixel that its direction will be also taken according to grating gradient.Fig. 7 is the cooperation of pixel and inclined grating Relation schematic diagram.

A kind of this method of batter post mirror grating has the advantages that avoid the pixel that human eye sees same color, but bring Mutual the shortcomings that the scratching of being concerned with of another left and right pixel.Fig. 8 is left eye skew ray grid and the colour developing schematic diagram after pixels fit.Fig. 9 is right Eye skew ray grid and the colour developing schematic diagram after pixels fit.As shown in figure 8, due to grating be it is oblique put, see in left eye When pigment vertical bar, can see simultaneously not it should be appreciated that the adjacent pigment item in left and right a part.This must will produce left view With partly overlapping for right view, i.e. left and right figure interferes with each other, and this case has seriously affected the stereoscopic effect of stereo-picture.Especially It is when the displacement of object figure is larger in left figure and right figure, image just will produce serious fuzziness, cause the tight of stereoscopic effect Decline again.Figure 10 is the color development area schematic diagram of oblique column mirror grating.In the figure it can be seen that, when the area of a sub-pixel is When 100%, the actual imaging area of the image only has 77%, and unused area has 23%, because the grating of tilted direction has gone to adjacent picture On element, it is Chong Die with the pixel that should not be shown reach 28% area, this can cause left and right figure it is mutual it is relevant scratch, keep stereogram clear Clear degree is greatly reduced.

Utility model content

Purpose of design：The shortcoming of background technology is avoided, it is fuzzy, vertical that design one kind can fundamentally solve 3D rendering The ineffective bore hole 3D display screen pixel arrangement structure of body.

Design scheme：In order to realize above-mentioned purpose of design.The utility model changes the oblique formula of column mirror grating from top to bottom Then sub-pixel is rearranged to formula for from top to bottom straight, column mirror grating from top to bottom straight to formula in display screen.Cylindrical mirror The vertical distributed architecture of sub-pixel R, G, B under grating：First row R, G, B, and so on distribution；Secondary series G, B, R, and so on Distribution；Third row B, R, G, and so on distribution；Sub-pixel R, G, B cross direction profiles structure in column mirror grating：The first row R, G, B, R, G, B, R, G, B, and so on distribution；Second row G, B, R, G, B, R, G, B, R, and so on distribution；The third line B, R, G, B, R, G, B, R, G, and so on distribution.

The result of above structure：After straight column mirror grating is placed in improved two kinds of pixel screens, left eye and right eye institute The image in entire surface seen no longer is the pigment of same color, and the column mirror grating of vertical bar with from top to bottom When different color pixel is corresponding, what left eye was seen is entirely left figure pixel, and what right eye was seen is entirely right figure pixel, will not be produced Raw overlap each other with adjacent pixel is scratched with dry, ensure that the perfect of stereo-picture embodies.

Technical solution：A kind of bore hole 3D display screen pixel arrangement structure, including display screen, column mirror grating is by upper in display screen It is straight to formula under.The vertical distributed architecture of sub-pixel R, G, B under column mirror grating：First row R, G, B, and so on distribution；The Two row G, B, R, and so on distribution；Third row B, R, G, and so on distribution；Sub-pixel R, G, B in column mirror grating laterally divide Cloth structure：The first row R, G, B, R, G, B, R, G, B, and so on distribution；Second row G, B, R, G, B, R, G, B, R, with such Push away distribution；The third line B, R, G, B, R, G, B, R, G, and so on distribution.

The utility model compared with the background art, first, the oblique formula of column mirror grating from top to bottom is changed to from top to bottom Directly to formula, shortcoming existing for background technology is not only avoided, and sub-pixel structure is arranged again according to the application arrangement Row, not will produce to overlap each other with adjacent pixel and be scratched with dry, it is ensured that the perfect of stereo-picture embodies, and makes bore hole 3D display screen Essential improvement has occurred in display effect, and great progradation is played for the universal of stereoscopic display；Second is that implementation method is simple, hold Easily realize.

Description of the drawings

Fig. 1-1 is background technology center pillar ytterbium grating stereo imaging schematic diagram.

Fig. 1-2 is the close-up schematic view in Fig. 1-1.

Fig. 2-1 is background technology Central Plains pixel conversion arrangement of subpixels schematic diagram.

Fig. 2-2 is the close-up schematic view in Fig. 2-1.

Fig. 3-1 is the sub-pixel schematic diagram corresponding to monochromatic light grid in background technology.

Fig. 3-2 is the close-up schematic view in Fig. 3-1.

Fig. 4 is the pixel arrangement schematic diagram of background technology Central Plains display.

Fig. 5-1 is one of the sub-pixel schematic diagram that left eye is seen in background technology.

Fig. 5-2 is the two of the sub-pixel schematic diagram that left eye is seen in background technology.

Fig. 6-1 is one of the sub-pixel schematic diagram that right eye is seen in background technology.

Fig. 6-2 is the two of the sub-pixel schematic diagram that right eye is seen in background technology.

Fig. 7 is the matching relationship schematic diagram of pixel and grating in background technology.

Fig. 8-1 is left eye column mirror grating and the colour developing schematic diagram after pixels fit in background technology.

Fig. 8-2 is the close-up schematic view of Fig. 8-1.

Fig. 9-1 is right eye column mirror grating and the colour developing schematic diagram after pixels fit in background technology.

Fig. 9-2 is the close-up schematic view of Fig. 9-1.

Figure 10-1 is the color development area schematic diagram of oblique column mirror grating in background technology.

Figure 10-2 is the close-up schematic view of Figure 10-1.

Figure 11-1 is the first pixel arrangement schematic diagram of the application.

Figure 11-2 is the close-up schematic view of Figure 11-1.

Specific implementation mode

Embodiment 1：With reference to attached drawing 11-1 to Figure 11-2.A kind of bore hole 3D display screen pixel arrangement structure, including display screen, Column mirror grating from top to bottom straight to formula in display screen.The vertical distributed architecture of sub-pixel R, G, B under column mirror grating：First row R, G, B, and so on distribution；Secondary series G, B, R, and so on distribution；Third row B, R, G, and so on distribution；In column mirror grating Sub-pixel R, G, B cross direction profiles structure：The first row R, G, B, R, G, B, R, G, B, and so on distribution；Second row G, B, R, G, B, R, G, B, R, and so on distribution；The third line B, R, G, B, R, G, B, R, G, and so on distribution.Each sub-pixel It is laterally 1 with vertical dimension ratio：3.R, tri- sub-pixels of G, B respectively represent three kinds of colors of red, green, blue.

The arrangement of above two pixel again, in production technology, as long as it is enterprising that the color on display screen is covered on printing Row change.

It is to be understood that：Although above-described embodiment contrasts detailed word to the mentality of designing of the utility model Description, but these verbal descriptions, only to a kind of description of the utility model mentality of designing, rather than set the utility model Thinking limitation is counted, any combination, increase or modification without departing from the utility model mentality of designing each falls within the guarantor of the utility model It protects in range.

Claims (3)

1. a kind of bore hole 3D display screen pixel arrangement structure, including display screen, it is characterized in that in display screen column mirror grating by up to Under it is straight to formula.The vertical distributed architecture of sub-pixel R, G, B under column mirror grating：First row R, G, B, and so on distribution；Second Arrange G, B, R, and so on distribution；Third row B, R, G, and so on distribution；Sub-pixel R, G, B cross direction profiles in column mirror grating Structure：The first row R, G, B, R, G, B, R, G, B, and so on distribution；Second row G, B, R, G, B, R, G, B, R, and so on Distribution；The third line B, R, G, B, R, G, B, R, G, and so on distribution.

2. bore hole 3D display screen pixel arrangement structure according to claim 1, it is characterized in that：The transverse direction of each sub-pixel with Vertical dimension ratio is 1：3.

3. bore hole 3D display screen pixel arrangement structure according to claim 1, it is characterized in that：R, tri- sub-pixels of G, B point Three kinds of colors of red, green, blue are not represented.