CN108776389A - A kind of 3D films and 3D display device - Google Patents
A kind of 3D films and 3D display device Download PDFInfo
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- CN108776389A CN108776389A CN201810980543.2A CN201810980543A CN108776389A CN 108776389 A CN108776389 A CN 108776389A CN 201810980543 A CN201810980543 A CN 201810980543A CN 108776389 A CN108776389 A CN 108776389A
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- cylindrical lenses
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- films
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- G—PHYSICS
- G02—OPTICS
- G02B—OPTICAL ELEMENTS, SYSTEMS OR APPARATUS
- G02B30/00—Optical systems or apparatus for producing three-dimensional [3D] effects, e.g. stereoscopic images
- G02B30/20—Optical systems or apparatus for producing three-dimensional [3D] effects, e.g. stereoscopic images by providing first and second parallax images to an observer's left and right eyes
- G02B30/26—Optical systems or apparatus for producing three-dimensional [3D] effects, e.g. stereoscopic images by providing first and second parallax images to an observer's left and right eyes of the autostereoscopic type
- G02B30/27—Optical systems or apparatus for producing three-dimensional [3D] effects, e.g. stereoscopic images by providing first and second parallax images to an observer's left and right eyes of the autostereoscopic type involving lenticular arrays
Abstract
The invention discloses a kind of 3D films and 3D display devices.The 3D films include transparent substrate layer and the cylindrical lenses layer being set in the transparent substrate layer;The cylindrical lenses layer includes multiple cylindrical lenses rows, and each cylindrical lenses row includes multiple cylindrical lenses, and the multiple cylindrical lenses row is arranged along first direction, and the cylindrical lenses extend along the first direction;Cylindrical lenses in the multiple cylindrical lenses row at odd number cylindrical lenses row and even number cylindrical lenses row same position misplace the width arrangement of 0.5 cylindrical lenses, and the cylindrical lenses in two neighboring odd number cylindrical lenses row or two neighboring even number cylindrical lenses row at same position are facing each other.Technical solution provided in an embodiment of the present invention so that for 3D display device when carrying out 2D displays, cylindrical lenses are to showing that the segmentation of image weakens, and then lines seem relatively sharp, improve 2D display image qualities.
Description
Technical field
The present embodiments relate to display technology more particularly to a kind of 3D films and 3D display device.
Background technology
3D display device can enrich display device according to the attribute display 2D pictures or 3D pictures of screen to be played
Display effect improves the usage experience of user.
3D films are the important components of 3D display device, and 3D films in the prior art include multiple columns disposed in parallel
Lens.In 3D display device, 3D films are set to the light emission side of display panel, and when carrying out 3D display, cylindrical lenses are by display surface
The image with continuous parallax that plate is shown projects image onto viewer's right and left eyes position respectively by a point picture effect, by regarding
The parallax formed on nethike embrane forms stereoscopic vision through cerebral nervous system.When carrying out 2D displays, cylindrical lenses can but cause to show
The segmentation of diagram picture so that image seems that lines are fuzzy, or even part lines can disappear when from certain special angles, lead
Cause 2D display image qualities bad.
Invention content
A kind of 3D films of present invention offer and 3D display device, to promote the 2D display image qualities of 3D display device.
In a first aspect, an embodiment of the present invention provides a kind of 3D films, including transparent substrate layer and it is set to described transparent
Cylindrical lenses layer on substrate layer;
The cylindrical lenses layer includes multiple cylindrical lenses rows, and each cylindrical lenses row includes multiple cylindrical lenses,
The multiple cylindrical lenses row is arranged along first direction, and the cylindrical lenses extend along the first direction;The multiple column
Cylindrical lenses in lens row at odd number cylindrical lenses row and even number cylindrical lenses row same position misplace 0.5 cylindrical lenses
Width is arranged, the cylindrical lenses in two neighboring odd number cylindrical lenses row or two neighboring even number cylindrical lenses row at same position
It is facing each other.
Second aspect, the embodiment of the present invention additionally provide a kind of 3D display device, including described in the above-mentioned first aspect of power
3D films and display panel;The 3D films are located at the light emission side of the display panel.
3D films provided in an embodiment of the present invention include transparent substrate layer and the cylindrical lenses that are set in transparent substrate layer
Layer, cylindrical lenses layer includes multiple cylindrical lenses rows, and each cylindrical lenses row includes multiple cylindrical lenses, multiple cylindrical lenses rows
It is arranged along first direction, cylindrical lenses extend in a first direction, odd number cylindrical lenses row and even-numbered columns in multiple cylindrical lenses rows
The width arrangement of cylindrical lenses 0.5 cylindrical lenses of dislocation at shape lens row same position, two neighboring odd number cylindrical lenses
Cylindrical lenses in capable or two neighboring even number cylindrical lenses row at same position are facing each other.By the way that above-mentioned cylindrical lenses are arranged
Structure so that for 3D display device when carrying out 2D displays, cylindrical lenses are to showing that the segmentation of image weakens, and then lines have been seen
It is next relatively sharp, improve 2D display image qualities.
Description of the drawings
In order to clearly illustrate the technical solution of exemplary embodiment of the present, below to required in description embodiment
The attached drawing to be used does a simple introduction.Obviously, the attached drawing introduced is a part of the embodiment of the invention to be described
Attached drawing, rather than whole attached drawings without creative efforts, may be used also for those of ordinary skill in the art
To obtain other attached drawings according to these attached drawings.
Fig. 1 is a kind of structural schematic diagram of 3D films provided in an embodiment of the present invention;
Fig. 2 is a kind of cross-sectional view of the dotted line AB along Fig. 1;
Fig. 3 is another cross-sectional view of the dotted line AB along Fig. 1;
Fig. 4 is another cross-sectional view of the dotted line AB along Fig. 1;
Fig. 5 is a kind of structural schematic diagram of 3D display device provided in an embodiment of the present invention;
Fig. 6 is the cross-sectional view of the dotted line CD along Fig. 5;
Fig. 7 is another cross-sectional view of the dotted line CD along Fig. 5;
Fig. 8 is another cross-sectional view of the dotted line CD along Fig. 5.
Specific implementation mode
The present invention is described in further detail with reference to the accompanying drawings and examples.It is understood that this place is retouched
The specific embodiment stated is used only for explaining the present invention rather than limitation of the invention.It also should be noted that in order to just
In description, only some but not all contents related to the present invention are shown in the drawings.Exemplary reality is being discussed in greater detail
It should be mentioned that some exemplary embodiments are described as the processing described as flow chart or method before applying example.Although
Operations (or step) are described as the processing of sequence by flow chart, but many of which operation can be by concurrently, concurrently
Ground is implemented simultaneously.In addition, the sequence of operations can be rearranged.The processing when its operations are completed can be by
It terminates, it is also possible to the additional step being not included in attached drawing.It is described processing can correspond to method, function, regulation,
Subroutine, subprogram etc..
Fig. 1 is a kind of structural schematic diagram of 3D films provided in an embodiment of the present invention.Fig. 2 is one kind of the dotted line AB along Fig. 1
Cross-sectional view.As depicted in figs. 1 and 2,3D films include transparent substrate layer 100 and are set to the transparent substrate layer
Cylindrical lenses layer on 100, the cylindrical lenses layer include multiple cylindrical lenses rows 101, and each cylindrical lenses row 101 wraps
Multiple cylindrical lenses 110 are included, the multiple cylindrical lenses row 101 is arranged along first direction X, and the cylindrical lenses 110 are along described
First direction X extends, in the multiple cylindrical lenses row 101 at odd number cylindrical lenses row and even number cylindrical lenses row same position
Cylindrical lenses 110 misplace the width arrangements of 0.5 cylindrical lenses 110, two neighboring odd number cylindrical lenses row or two neighboring
Cylindrical lenses 110 in even number cylindrical lenses row at same position are facing each other.
Illustratively, according to the direction in Fig. 1 from top to bottom, first cylindrical lenses row 101 and third cylindrical lenses
Row 101 is odd number cylindrical lenses row 101, and second cylindrical lenses row 101 and the 4th cylindrical lenses row 101 are that even number column is saturating
Mirror row 101.Further, according to the direction in Fig. 1 from left to right, first cylindrical lenses in four cylindrical lenses rows 101
110 be the cylindrical lenses 110 at same position in each cylindrical lenses row 101.It should be noted that the present embodiment is only with 3D film packets
Include four cylindrical lenses rows 101, each cylindrical lenses row 101 includes illustrating for four cylindrical lenses 110, rather than to column
The restriction of 110 set-up mode of shape lens, in the other embodiment of the present embodiment, cylindrical lenses 110 can also set for other
Mode is set, the present embodiment is not specifically limited this.
It should also be noted that, the set-up mode of above-mentioned cylindrical lenses 110 makes identical bits in adjacent column lens row 101
The width arrangement of 0.5 cylindrical lenses 110 of dislocation of cylindrical lenses 110 at place is set, and then the seam of adjacent column lens 110 will not
Run through entire 3D films along first direction X, in 3D display device when carrying out 2D displays, display image will not obviously be divided, and draw
Matter is preferable.
3D films provided in this embodiment include transparent substrate layer 100 and the column that is set in the transparent substrate layer 100
Shape lens jacket, the cylindrical lenses layer include multiple cylindrical lenses rows 101, and each cylindrical lenses row 101 includes that multiple columns are saturating
Mirror 110, multiple cylindrical lenses rows 101 are arranged along first direction X, and cylindrical lenses 110 extend along first direction X, and multiple columns are saturating
Cylindrical lenses 110 in mirror row 101 at 101 same position of odd number cylindrical lenses row 101 and even number cylindrical lenses row misplace 0.5
The width of cylindrical lenses 110 is arranged, in 101 or two neighboring even number cylindrical lenses row 101 of two neighboring odd number cylindrical lenses row
Cylindrical lenses 110 at same position are facing each other.By the structure that above-mentioned cylindrical lenses 110 are arranged so that 3D display device
When carrying out 2D displays, cylindrical lenses 110 are to showing that the segmentation of image weakens, and then lines seem relatively sharp, improve
2D display image qualities.
Illustratively, as shown in Fig. 2, the cylindrical lenses 110 can be perpendicular to the cross sectional shape of the first direction X
It is semicircle.It should be noted that in the other embodiment of the present embodiment, cylindrical lenses 110 are cut perpendicular to first direction X's
Face shape can also be polygon, as shown in Figure 3.It is understood that 2D and 3D display demand in it can realize 3D films
Under the premise of, cylindrical lenses 110 can also be other shapes perpendicular to the section of first direction X.
Fig. 4 is another cross-sectional view of the dotted line AB along Fig. 1.On the basis of 3D membrane structures shown in Fig. 2, figure
3D films in 4 further include material layer 200 of making even, and the material layer 200 of making even is located at the cylindrical lenses layer far from described transparent
The side of substrate layer 100, surface of the material layer 200 far from the cylindrical lenses layer and the transparent substrate layer 100 of making even
Parallel close to the surface of the cylindrical lenses layer, the cylindrical lenses layer is first close to the surface of the material layer 200 of making even
The contact surface of surface, the cylindrical lenses layer and the material layer 200 of making even is the first surface, the material layer of making even
200 is different with the refractive index of the cylindrical lenses layer.
It should be noted that since surface of the cylindrical lenses layer far from transparent substrate layer 100 has bulge-structure, only
3D film layers including transparent substrate layer 100 and cylindrical lenses layer can only fit in transparent substrate layer 100 on display panel, column
Lens jacket can not be set to transparent substrate layer 100 close to the side of display panel.Increase is made even after material layer 200,3D film layers two
A opposite surface is plane, can according to the actual application be conformed to any surface on display panel, this full fitting
Set-up mode enable the cylindrical lenses layer in 3D films to be set to transparent substrate layer 100 close to the side of display panel.It can
With understanding, in order to not influence display effect, rolled over close to the film layer of display panel in material layer of making even 200 and cylindrical lenses layer
The rate of penetrating need to be less than the refractive index of another film layer, and in the case where not limiting the two position relationship, make even material layer 200 and column is arranged
The refractive index of shape lens jacket is different.
Fig. 5 is a kind of structural schematic diagram of 3D display device provided in an embodiment of the present invention.Fig. 6 is the dotted line CD along Fig. 5
Cross-sectional view.As shown in fig. 6,3D display device includes the 3D films 1 described in any embodiment of the present invention, and display
Panel 2, the 3D films are located at the light emission side of the display panel 2.
Optionally, the display panel 2 can be liquid crystal display panel.LCD technology is more mature display skill
Art, liquid crystal display panel are widely used in various electronic equipments, and the present embodiment is using liquid crystal display panel as 3D display
The display panel 2 of device can increase the compatibility of this programme and the prior art.It is understood that the present embodiment other
In embodiment, display panel 2 can also be other display panels 2, such as organic light emitting display panel.
Illustratively, referring to Fig. 5, the display panel 2 includes multiple pixel units 120 arranged in arrays, the picture
Plain unit 120 includes red sub-pixel 111, green sub-pixels 112 and blue subpixels 113.Along the first direction X, each
The cylindrical lenses 110 cover the integer pixel unit 120, each described along the vertical direction Y of the first direction X
Cylindrical lenses 110 cover pixel unit 120 described in even number.
It should be noted that along the vertical direction Y of first direction X, i.e. the extending direction of cylindrical lenses row 101, Mei Gezhu
Shape lens 110 cover even number pixel unit 120, when carrying out 3D display, close to its institute in above-mentioned even number cylindrical lenses 110
A semicolumn lens 110 of 101 first side of cylindrical lenses row are stated for being supplied to user's left-eye image, its close place column is saturating
The other half of 101 the second side of mirror row is for being supplied to user's eye image, due in adjacent column lens row 101 at same position
Cylindrical lenses 110 misplace the width of 0.5 cylindrical lenses 110, therefore enable to along first direction X, for being supplied to use
Half of cylindrical lenses 110 of family left-eye image and for being supplied to half of cylindrical lenses 110 of user's eye image to be arranged alternately,
So that user can watch good 3D display effect, wherein the first side can be the left side in orientation shown in Fig. 4
Side, the second side can be the right side in orientation shown in Fig. 4.
Specifically, with continued reference to Fig. 5, along the first direction X, each cylindrical lenses 110 cover a picture
Plain unit 120, along the vertical direction Y of the first direction X, each cylindrical lenses 110 cover two pixel units
120。
It should be noted that the correspondence of cylindrical lenses 110 shown in Fig. 5 and pixel unit 120 makes each column saturating
The minimum number for the pixel unit 120 that mirror 110 covers, and then certain in the size of display panel sub-pixel and arrangement mode
In the case of, the size of cylindrical lenses 110 is minimum, and the gap in same cylindrical lenses row 101 between adjacent cylindrical lenses 110 is long
Degree is minimum, which shows that the segmentation of image is least apparent to 2D, is visually hardly visible, therefore corresponding 2D display image qualities are good
It is good.
Illustratively, as shown in figure 5, the line direction of the matrix is identical as the vertical direction Y of first direction X, together
The red sub-pixel 111, the green sub-pixels 112 in one pixel unit 120 and the blue subpixels 113
It is arranged along the first direction X.
Can also be that other any disclosure satisfy that 2D it should be noted that the arrangement mode of sub-pixel is not limited to shown in Fig. 5
With the arrangement mode of 3D display effect.
Illustratively, referring to Fig. 6, the cylindrical lenses layer can be located at the transparent substrate layer 100 far from the display
The side of panel 2.
Fig. 7 is another cross-sectional view of the dotted line CD along Fig. 5.As shown in fig. 7,3D membrane structures shown in Fig. 6
On the basis of, the 3D films further include material layer 200 of making even, and it is separate that the material layer 200 of making even is located at the cylindrical lenses layer
The side of the transparent substrate layer 100, the refractive index of the material layer 200 of making even are more than the refractive index of the cylindrical lenses layer.
Fig. 8 is another cross-sectional view of the dotted line CD along Fig. 5.As shown in figure 8,3D membrane structures shown in Fig. 6
On the basis of, the 3D films further include material layer 200 of making even, and it is separate that the material layer 200 of making even is located at the cylindrical lenses layer
The side of the transparent substrate layer 100.The cylindrical lenses layer is located at the transparent substrate layer 100 close to the display panel 2
Side, the refractive index of the material layer 200 of making even is less than the refractive index of the cylindrical lenses layer.
Note that above are only presently preferred embodiments of the present invention and institute's application technology principle.It will be appreciated by those skilled in the art that
The present invention is not limited to specific embodiments described here, can carry out for a person skilled in the art it is various it is apparent variation,
It readjusts and substitutes without departing from protection scope of the present invention.Therefore, although being carried out to the present invention by above example
It is described in further detail, but the present invention is not limited only to above example, without departing from the inventive concept, also
May include other more equivalent embodiments, and the scope of the present invention is determined by scope of the appended claims.
Claims (10)
1. a kind of 3D films, which is characterized in that including transparent substrate layer and the cylindrical lenses being set in the transparent substrate layer
Layer;
The cylindrical lenses layer includes multiple cylindrical lenses rows, and each cylindrical lenses row includes multiple cylindrical lenses, described
Multiple cylindrical lenses rows are arranged along first direction, and the cylindrical lenses extend along the first direction;The multiple cylindrical lenses
Cylindrical lenses in row at odd number cylindrical lenses row and even number cylindrical lenses row same position misplace the width of 0.5 cylindrical lenses
It arranges, the cylindrical lenses in two neighboring odd number cylindrical lenses row or two neighboring even number cylindrical lenses row at same position are mutual
Face.
2. 3D films according to claim 1, which is characterized in that the cylindrical lenses are perpendicular to the section of the first direction
Shape is semicircle or polygon.
3. 3D films according to claim 1, which is characterized in that further include material layer of making even, the material layer of making even is located at
The side of the cylindrical lenses layer far from the transparent substrate layer;
The surface of the material layer far from the cylindrical lenses layer of making even is with the transparent substrate layer close to the cylindrical lenses layer
Surface it is parallel;
The cylindrical lenses layer is first surface close to the surface of the material layer of making even, and the cylindrical lenses layer is made even with described
The contact surface of material layer is the first surface;
The material layer of making even is different with the refractive index of the cylindrical lenses layer.
4. a kind of 3D display device, which is characterized in that including claim 1-3 any one of them 3D films and display panel;
The 3D films are located at the light emission side of the display panel.
5. 3D display device according to claim 4, which is characterized in that the display panel includes multiple arranged in arrays
Pixel unit, the pixel unit includes red sub-pixel, green sub-pixels and blue subpixels;
Along the first direction, each cylindrical lenses covering integer pixel unit;
Along the vertical direction of the first direction, pixel unit described in each cylindrical lenses covering even number.
6. 3D display device according to claim 5, which is characterized in that the line direction of the matrix and the first direction
Vertical direction it is identical;The red sub-pixel, the green sub-pixels in the same pixel unit and the blue
Sub-pixel is arranged along the first direction.
7. 3D display device according to claim 4, which is characterized in that the display panel is liquid crystal display panel.
8. 3D display device according to claim 4, which is characterized in that the cylindrical lenses layer is located at the transparent base
Side of the layer far from the display panel.
9. 3D display device according to claim 8, which is characterized in that the 3D films further include material layer of making even, described
Material layer of making even is located at the side of the cylindrical lenses layer far from the transparent substrate layer;The refractive index of the material layer of making even is big
In the refractive index of the cylindrical lenses layer.
10. 3D display device according to claim 4, which is characterized in that the 3D films further include material layer of making even, described
Material layer of making even is located at the side of the cylindrical lenses layer far from the transparent substrate layer;The cylindrical lenses layer is located at described
Bright substrate layer is close to the side of the display panel;The refractive index of the material layer of making even is less than the refraction of the cylindrical lenses layer
Rate.
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CN101144913A (en) * | 2007-10-16 | 2008-03-19 | 东南大学 | Three-dimensional stereo display |
KR20090060061A (en) * | 2007-12-07 | 2009-06-11 | 엘지디스플레이 주식회사 | 3d image display device |
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