CN106646964A - Liquid crystal display - Google Patents

Abstract

The invention provides a liquid crystal display. The liquid crystal display comprises a flat panel display with curved-surface display effect, the flat panel display comprises a color film substrate, an array substrate and liquid crystal arranged between the color film substrate and the array substrate, wherein the array substrate is provided with multiple pixel cells arranged in a matrix mode, the multiple pixel cells in each line are arranged with the vertical axis of the flat panel display as an axis of symmetry, and the field angles in the horizontal direction between the rays of light emitted from the edges of the multiple pixel cells in each line and the predetermined point right ahead the center of the flat panel display are the same in size. The display effect of the liquid crystal display is close to that of a curved-surface display screen.

Description

A kind of liquid crystal display

【Technical field】

The present invention relates to field of liquid crystal display, more particularly to a kind of liquid crystal display.

【Background technology】

The flat display apparatus such as liquid crystal display (Liquid Crystal Display, LCD) are because with high image quality, saving Electricity, thin fuselage and the advantages of applied range, and be widely used in mobile phone, TV, personal digital assistant, digital camera, The various consumption electronic products such as notebook computer, desktop computer, become the main flow in display device.Liquid on existing market It is backlight liquid crystal display that crystal device is most of, and it includes display panels (TFT-LCD) and backlight module.Liquid crystal The operation principle of display floater is that liquid crystal molecule is placed in the middle of the parallel glass substrate of two panels, is had perhaps in the middle of two panels glass substrate Many tiny electric wires vertically and horizontally, liquid crystal molecule are controlled by whether being powered and change direction, and the light of backlight module is rolled over Shoot out generation picture.

As shown in Figure 3 and Figure 4, Fig. 3 is the front view of the display screen 1 of prior art, and it is existing that Fig. 4 watches this for beholder The top view of the display screen 1 of technology.The liquid crystal display of prior art mostly is flat-panel screens, and its each pixel cell Area is identical.Beholder is sitting in immediately ahead of display the display content 2 for carrying out watching display screen 1.The eye distance of beholder The centre of display screen 1 and the distance (L at edge_a、L_b、L_c) will differ, the image of mid portion injects people perpendicular to display screen 1 Eye, the image of marginal portion favours display screen 1 and injects human eye (such as Fig. 2), and it is bright that this results in the intermediate imagery that human eye receives Degree is inconsistent with edge images brightness, and the image that identical imaged image is received with edge in the middle of screen by human eye is not Unanimously：There is compression in edge images, so as to cause sensory experience poor.Particularly beholder apart from display screen it is relatively near or During viewing large scale flat-panel screens, this problem can be projected more.

With the progress of technology, flexible displays are occurred in that.The Curved LCD of prior art is usually according to product The actual curvature demand of product, display screen is bent in the presence of external force and is adapted it to the radius of curvature of backlight module.It is existing The liquid crystal display of technology keeps certain by tft array substrate and CF color membrane substrates by introns (PS, Photo Spacer) The box of distance is thick, carries out surrounding solidification by sealed plastic box (Seal), filling liquid crystal (LC) in box.However, the physics of prior art The camber display screen of bending bends under external force the homogeneity that cannot ensure that box is thick, while the problems such as easily producing light leak, So as to cause its display quality to decline.In addition the bending processing procedure process of display screen can increase overall manufacturing cost, such as defective products The costs such as the loss, the manufacturing cost of backlight module, product packaging and the transport that cause.

【The content of the invention】

It is an object of the invention to provide a kind of liquid crystal display, to solve prior art in, flat-panel screens causes people The intermediate imagery brightness that receives of eye is inconsistent with edge images brightness, and identical imaged image is in the middle of screen and edge The image received by human eye is inconsistent, and leads to not ensure the homogeneity that box is thick using flexible displays, while easily The drawbacks such as light leak are produced, so as to the problem for causing its display quality to decline.

Technical scheme is as follows：

A kind of liquid crystal display, it includes a flat-faced screen with curved-surface display effect, the flat-faced screen bag Include：

Color membrane substrates；

Array base palte；And

Liquid crystal between the color membrane substrates and the array base palte；

Wherein, the array base palte is provided with the multiple pixel cells being arranged in a matrix, often the plurality of picture of row Plain unit is with the vertical central axis line of the flat-faced screen as symmetry axis symmetric arrays, and often each described pixel cell of row exists Predetermined point institute shape immediately ahead of the light that two marginal points symmetrical in same horizontal line are projected and the flat-faced screen center Into horizontal direction on the angle of visual field angular dimension it is identical.

Preferably, the plurality of pixel cell of each column is arranged by symmetrical axial symmetry of the horizontal median axis of the flat-faced screen Row, and two marginal points symmetrical on same vertical line of each described pixel cell and the flat-faced screen center of each column The angular dimension of the angle of visual field in vertical direction that the predetermined point in front is formed is identical.

Preferably, it is identical with regard to the area of two pixel cells of the vertical central axis line symmetric arrays.

Preferably, it is identical with regard to the area of two pixel cells of the horizontal median axis symmetric arrays.

Preferably, often go in the pixel cell, the width all same of each pixel cell, and each described pixel The length of unit is different.

Preferably, in pixel cell described in each column, the identical length of each pixel cell is same, and each described pixel The width of unit is different.

Preferably, the vertical central axis line is provided with the row pixel cell, and the row pixel cell is hung down with described Straight axis is symmetrical as symmetry axis.

Preferably, the horizontal median axis are provided with pixel cell described in a line, and pixel cell is with the water described in the row Flat axis is symmetrical as symmetry axis.

Preferably, the sub-pixel of each pixel cell is arranged along the horizontal direction of the flat-faced screen,

Preferably, the sub-pixel of each pixel cell is arranged along the vertical direction of the flat-faced screen.

Beneficial effects of the present invention：

A kind of liquid crystal display of the present invention, the area of the pixel cell by adjusting flat-faced screen zones of different, makes Predetermined point institute immediately ahead of edge light and the flat-faced screen center projected of every each pixel cell of row The angular dimension of the angle of visual field in the horizontal direction of formation is identical.Even if predetermined point of the proper people immediately ahead of display screen center When, projected area size of the screen edge with the pixel cell in the middle of screen on the retina of human eye is identical, with prior art The effect for reaching curved-surface display by physical method bending display screen is close to.

【Description of the drawings】

Fig. 1 is the flat-faced screen of the embodiment of the present invention, the identical display effect of virtual plane display screen and camber display screen The top view of fruit；

Fig. 2 is the flat-faced screen front view of the embodiment of the present invention；

Fig. 3 is the front view of the flat-faced screen of prior art；

Fig. 4 is the top view of the flat-faced screen that beholder watches prior art.

【Specific embodiment】

The explanation of following embodiment is the particular implementation implemented to illustrate the present invention may be used to reference to additional schema Example.The direction term that the present invention is previously mentioned, for example " on ", D score, "front", "rear", "left", "right", " interior ", " outward ", " side " Deng being only the direction with reference to annexed drawings.Therefore, the direction term for using is to illustrate and understand the present invention, and is not used to Limit the present invention.In figure, the similar unit of structure is represented with identical label.

Embodiment one

Refer to Fig. 1 and the flat-faced screen 10 that Fig. 2, Fig. 1 are the present embodiment, virtual plane display screen 20 and curved-surface display The top view of the identical display effect of screen 30, Fig. 2 is the front view of flat-faced screen 10 of the present embodiment.Can from Fig. 1 and Fig. 2 Arrive, a kind of liquid crystal display of the present invention, it includes a flat-faced screen 10 with curved-surface display effect, the plane shows Screen 10 includes：

Color membrane substrates, array base palte and the liquid crystal between the color membrane substrates and the array base palte.

Wherein, the array base palte is provided with the multiple pixel cells 50 being arranged in a matrix, these pixel cells 50 The two symmetrical regions in left and right are divided into as symmetry axis by the vertical central axis line of the flat-faced screen 10, often row is the plurality of Pixel cell 50 with the vertical central axis line of the flat-faced screen 10 as symmetry axis symmetric arrays, and in pixel cell described in every row In 50, apart from the remote pixel cell 50 of the vertical central axis line area be more than apart from the vertical central axis line it is near described in The pixel cell 50 of the area of pixel cell 50, i.e. left area or right area is along the horizontal direction of the flat-faced screen 10 Left and right edges be incremented by by preset rules, and often symmetrical in the same horizontal line two of each described pixel cell 50 of row The visual field in horizontal direction that the predetermined point immediately ahead of light and the center of the flat-faced screen 10 that marginal point is projected is formed The angular dimension at angle is identical.The so-called predetermined point of the present embodiment is the viewing screen immediately ahead of the center of flat-faced screen 10 of beholder 40 Eyes location during curtain.That is often sight of each the described pixel cell 50 of row immediately ahead of the center of the flat-faced screen 10 The projected area of the retina of the person of seeing 40 is identical.

In the present embodiment, the plurality of pixel cell 50 of preferred each column is with the horizontal median axis of the flat-faced screen 10 For symmetry axis symmetric arrays, and in pixel cell described in each column 50, apart from the remote pixel list of the horizontal median axis The area of unit 50 is more than the area apart from the near pixel cell 50 of the vertical central axis line, i.e. upper edge region or following region Pixel cell 50 along the vertical direction of the flat-faced screen 10 two edges up and down by preset rules be incremented by so that each column Immediately ahead of two symmetrical on same vertical line marginal points of each described pixel cell 50 and the center of the flat-faced screen 10 The vertical direction that formed of predetermined point on the angle of visual field angular dimension it is identical.This is done in flat-faced screen 10 Avoid pixel cell 50 to differ in the projected area of human eye in vertical direction, cause visual effect bad.

In the present embodiment, with regard to the vertical central axis line symmetric arrays two pixel cells 50 area phase Together.The light of the symmetrical transmitting of pixel cell 50 of described vertical central axis line the right and left is this ensures that thered on the perspective plane of human eye Product is identical.

In the present embodiment, with regard to the horizontal median axis symmetric arrays two pixel cells 50 area phase Together.The light of the symmetrical transmitting of pixel cell 50 in the upper and lower both sides of the horizontal median axis is this ensures that thered on the perspective plane of human eye Product is identical.

In the present embodiment, preferably often go in the pixel cell 50, the width of each pixel cell 50 (i.e. plane Height in the vertical direction of display screen 10) all same, and length (the i.e. level of flat-faced screen 10 of each pixel cell 50 Length on direction) it is different.

In the present embodiment, in pixel cell 50 described in preferred each column, the identical length of each pixel cell 50 is same, And the width of each pixel cell 50 is different.

In the present embodiment, level of the sub-pixel of preferred each pixel cell 50 along the flat-faced screen 10 Direction is arranged, or preferably vertical direction of the sub-pixel of each pixel cell 50 along the flat-faced screen 10 Arranged.

In the present embodiment, the preferably vertical central axis line is provided with the row pixel cell 50, the row pixel Unit 50 is symmetrical as symmetry axis using the vertical central axis line.

In the present embodiment, the preferably horizontal median axis are provided with pixel cell 50 described in a line, pixel described in the row Unit 50 is symmetrical as symmetry axis using the horizontal median axis.

In the present embodiment, often go in the pixel cell 50, the light that each described pixel cell 50 is projected with it is described The angular dimension of the angle of visual field that the center of flat-faced screen 10 front predetermined point is formed is identical.

In the present embodiment, in pixel cell 50 described in each column, the light that each described pixel cell 50 is projected with it is described The angular dimension of the angle of visual field that the center of flat-faced screen 10 front predetermined point is formed is identical.

The principle of the present invention is as follows：

As shown in figure 1, Fig. 1 is the flat-faced screen 10 of the present embodiment, virtual plane display screen 20 and camber display screen 30 Identical display effect top view, wherein P₁To P_nFor each actual pixels unit 50 of the flat-faced screen 10 of the present invention Area, D₁To D_nFor the area of each pixel cell 50 of virtual plane display screen 20, Q₁To Q_nFor the curved-surface display of prior art The area of each pixel cell 50 of screen 30, V₁To V_nThe projected area of the pixel cell 50 seen for beholder 40.Can from figure To see, P₁=D₁、P₂=D₂、P_i=D_i···P_n=D_n, and P₁=P_n>P₂=P_n-1>···>P_i, V₁=V₂= =V_n, this point can see more clearly from Fig. 2, Fig. 2 for the present embodiment the front view of flat-faced screen 10, it is each in fig. 2 Capable pixel cell 50 is (such as P₁To P_nThis line) width it is identical, but the length of each pixel cell 50 is different, i.e., they The area of pixel cell 50 is different, and same each row pixel cell 50 is (such as P_jTo P_mThis row) length it is identical, but each pixel The width of unit 50 is different, i.e., their area of pixel cell 50 is different.

Wherein, camber display screen 30 is a kind of display screen of prior art, and it is by the way that display screen is curved so that from The distance that the light that different pixels unit 50 is projected reaches the human eye immediately ahead of display screen center is identical, so that showing Projected area of the pixel cell 50 different on screen on human eye retina is identical so that the visual experience effect of beholder 40 is non- Chang Hao.Now the unit image of the pixel cell 50 of camber display screen 30 is seen screen pixel cell 50 by us along beholder 40 Direction extension always, these unit images is in one plane projected, it is just equivalent into a virtual plane display screen 20, Actually it is equivalent to the image V that beholder 40 sees₁To V_nIt is by the pixel cell 50D of virtual plane display screen 20₁To D_nOn Emit, and effect is identical.The materialization of the exactly virtual plane display screen 20 of flat-faced screen 10 of the present invention, i.e. P₁ =D₁、P₂=D₂、P_i=D_i···P_n=D_n, and P₁=P_n>P₂=P_n-1>···>P_i, V₁=V₂==V_n, this Bright flat-faced screen 10 and the display action effect of virtual plane display screen 20 is identical.

As described above, because V₁=V₂==V_n, i.e., the often capable or each column of the flat-faced screen 10 of the present invention is each The angle of visual field size that the light of individual pixel emission is formed with the eyes of the beholder 40 immediately ahead of display screen center is identical, According to the real radius of this point and camber display screen 30 (concrete numerical value of real radius according to the actual requirements depending on), it is possible to The length or width of each pixel cell 50 are calculated according to the sine and the cosine law of triangle, and then draws each picture The area of plain unit 50.As shown in Fig. 2 regarding of being formed of the pixel cell 50 of beholder 40 and a line of whole flat-faced screen 10 Rink corner size be a, the angle of visual field size that each pixel cell 50 and beholder 40 are formed be b, b=a/n, camber display screen 30 Radius be r, if D_iLength be L, then L=2rsins (b/2), sets in the same manner D_i+1Length be L_i+1, then L_i+1=rsin (3b/ 2)-rsin (b/2), the rest may be inferred can obtain for remaining.

A kind of liquid crystal display of the present invention, the face of the pixel cell 50 by adjusting the zones of different of flat-faced screen 10 Product so that when people is in the predetermined point immediately ahead of display screen center, the pixel cell 50 in the middle of screen edge and screen is in people Projected area size on the retina of eye is identical, bends display screen by physical method with prior art and reaches curved-surface display Effect is close to.Because display screen need not be bent into camber display screen 30 by the present invention, it is also possible to reach the effect of curved-surface display It is close to, just reduces manufacture, packaging and the cost of transportation of display screen.

In sum, although the present invention it is disclosed above with preferred embodiment, but above preferred embodiment and be not used to limit The system present invention, one of ordinary skill in the art without departing from the spirit and scope of the present invention, can make various changes and profit Adorn, therefore protection scope of the present invention is defined by the scope that claim is defined.

Claims (10)

1. a kind of liquid crystal display, it is characterised in that it includes a flat-faced screen with curved-surface display effect, the plane Display screen includes：

Color membrane substrates；

Array base palte；And

Liquid crystal between the color membrane substrates and the array base palte；

Wherein, the array base palte is provided with the multiple pixel cells being arranged in a matrix, often the plurality of pixel list of row Unit is with the vertical central axis line of the flat-faced screen as symmetry axis symmetric arrays, and each the described pixel cell often gone is same What the predetermined point immediately ahead of the light that two marginal points symmetrical on horizontal line are projected and the flat-faced screen center was formed The angular dimension of the angle of visual field in horizontal direction is identical.

2. liquid crystal display according to claim 1, it is characterised in that the plurality of pixel cell of each column is with the plane The horizontal median axis of display screen are symmetry axis symmetric arrays, and each described pixel cell of each column is symmetrical on same vertical line Two marginal points and the flat-faced screen center immediately ahead of the vertical direction that formed of predetermined point on the angle of visual field angle Degree size is identical.

3. liquid crystal display according to claim 1, it is characterised in that with regard to the two of the vertical central axis line symmetric arrays The area of the individual pixel cell is identical.

4. liquid crystal display according to claim 2, it is characterised in that with regard to the two of the horizontal median axis symmetric arrays The area of the individual pixel cell is identical.

5. liquid crystal display according to claim 1, it is characterised in that often go in the pixel cell, each described picture The width all same of plain unit, and the length of each pixel cell is different.

6. liquid crystal display according to claim 1, it is characterised in that in pixel cell described in each column, each described picture The identical length of plain unit is same, and the width of each pixel cell is different.

7. liquid crystal display according to claim 1, it is characterised in that the vertical central axis line is provided with the row picture Plain unit, the row pixel cell is symmetrical as symmetry axis using the vertical central axis line.

8. liquid crystal display according to claim 2, it is characterised in that the horizontal median axis are provided with picture described in a line Plain unit, pixel cell is symmetrical as symmetry axis using the horizontal median axis described in the row.

9. liquid crystal display according to claim 1, it is characterised in that the sub-pixel of each pixel cell is along institute The horizontal direction for stating flat-faced screen is arranged.

10. liquid crystal display according to claim 1, it is characterised in that the sub-pixel of each pixel cell along The vertical direction of the flat-faced screen is arranged.