CN105527764B - Liquid crystal display panel - Google Patents

Abstract

A liquid crystal display panel comprises a first substrate, a peripheral shading layer, a plurality of standard pixels, a plurality of edge pixels, a second substrate and a liquid crystal layer. The peripheral shading layer is positioned in the peripheral area to define a display area. The standard pixels are not overlapped with the peripheral shading layer, wherein each standard pixel comprises a first standard pixel electrode, a second standard pixel electrode and a third standard pixel electrode. The edge pixels are at least partially overlapped with the peripheral shading layer, wherein each edge pixel comprises a first edge pixel electrode, a second edge pixel electrode and a third edge pixel electrode, and the pattern of at least one of the first edge pixel electrode, the second edge pixel electrode and the third edge pixel electrode is different from the pattern of at least one of the first standard pixel electrode, the second standard pixel electrode and the third standard pixel electrode. The second substrate is opposite to the first substrate. The liquid crystal layer is arranged between the first substrate and the second substrate.

Description

Liquid crystal display panel

Technical field

The present invention relates to a kind of display panels, and in particular to a kind of liquid crystal display panel.

Background technique

In recent years, with the extension of application field, not only for properties such as the frivolous of display device, narrow frame, high image quality Requirement improve, the requirement for the change in shape of the display area of the display panel in display device also improving.Tradition The shape of the display area of display device applied to electronic equipments such as television set, PC, mobile phones is almost substantially Rectangle, but for the devices such as vehicle-mounted instrument panel, amusement display device, wearing display device, in the shape of rectangle It has been unable to satisfy the demand of user.Therefore, those devices are usually standby has matched the display panel with non-rectangle display area, Such as the display area of circle or other shapes.

However, the boundary of display area and frame region can make in the display panel with non-rectangle display area Opening area at each sub-pixel in a pixel is not identical, thus when being shown, be easy to produce edge (display area with The boundary of frame region) the unmatched problem of color, and influence beautiful.Therefore, for aobvious with non-rectangle display area For showing panel, it is the important topic that pole must overcome that the unmatched problem of border color, which how is effectively reduced,.

Summary of the invention

The present invention provides a kind of liquid crystal display panel, can effectively reduce the unmatched problem of border color, and then promote beauty Sight and visual adaptability.

Liquid crystal display panel of the invention includes first substrate, periphery light shield layer, multiple standard pixels, multiple edge pictures Element, the second substrate and liquid crystal layer.Periphery light shield layer is located in peripheral region and defines viewing area.Standard pixel and periphery shading Layer non-overlapping, wherein each standard pixel includes the first standard pixel electrode, the second standard pixel electrode and third official portrait Plain electrode.Edge pixel and periphery light shield layer are least partially overlapped, wherein each edge pixel include first edge pixel electrode, Second edge pixel electrode and third edge pixel electrode, wherein those first edge pixel electrodes, those second edge pixels The pattern of at least one of electrode and those third edge pixel electrodes be different from those the first standard pixel electrodes, those the The pattern of at least one of two standard pixel electrodes and those third standard pixel electrodes.The second substrate is located at first substrate It is opposite.Liquid crystal layer is set between first substrate and the second substrate.

Based on above-mentioned, in liquid crystal display panel of the invention, pass through the edge least partially overlapped with periphery light shield layer The pattern of first edge pixel electrode, second edge pixel electrode and at least one of third edge pixel electrode in pixel Different from the first standard pixel electrode, the second standard pixel electrode and in the non-overlapping standard pixel of periphery light shield layer The pattern of at least one of three standard pixel electrodes, the border color that can effectively reduce in liquid crystal display panel whereby mismatch The problem of, thus promote the beauty and visual adaptability of liquid crystal display panel.

To make the foregoing features and advantages of the present invention clearer and more comprehensible, embodiment is cited below particularly, and cooperates specification Attached drawing is described in detail below.

Detailed description of the invention

Fig. 1 is the upper schematic diagram according to the liquid crystal display panel of one embodiment of the present invention.

Fig. 2 is the diagrammatic cross-section of the hatching line I-I ' in Fig. 1.

Fig. 3 is the upper schematic diagram of the region K of first embodiment in Fig. 1.

Fig. 4 is the upper schematic diagram of the region K of second embodiment in Fig. 1.

Fig. 5 is the upper schematic diagram of the region K of third embodiment in Fig. 1.

Fig. 6 is the upper schematic diagram of the region K of the 4th embodiment in Fig. 1.

Description of symbols:

10: liquid crystal display panel

100: first substrate

110: the second substrate

120: active array

130: light shield layer

132: periphery light shield layer

134: netted light-shielding pattern

140: chromatic filter layer

152,154: alignment film

160: liquid crystal layer

A: viewing area

B: peripheral region

BE: block type electrode

BL, PL, UL: length

BW, PW, UW: width

DL: data line

EEB: third edge pixel electrode

EEG: second edge pixel electrode

EER: first edge pixel electrode

EU: edge pixel

EUB: third edge subpixel

EUG: second edge sub-pixel

EUR: first edge sub-pixel

K: region

PE: strip shaped electric poles

SEB: third standard pixel electrode

SEG: the second standard pixel electrode

SER: the first standard pixel electrode

SL: scan line

SU: standard pixel

SUB: third standard sub-pixel

SUG: the second standard sub-pixel

SUR: the first standard sub-pixel

T: active component

Specific embodiment

Fig. 1 is the upper schematic diagram according to the liquid crystal display panel of one embodiment of the present invention.Fig. 2 is along Fig. 1 The diagrammatic cross-section of hatching line I-I '.Fig. 3 is the upper schematic diagram of the region K of first embodiment in Fig. 1.

Referring to Fig. 1 and Fig. 2, liquid crystal display panel 10 has viewing area A and peripheral region B, and wherein peripheral region B is surround The surrounding of A in viewing area.Specifically, in the present embodiment, the shape of viewing area A is not rectangle and is round.However, this Invention is not limited to this.In other embodiments, the shape of viewing area A is also possible to other rules or irregular arbitrary shape Shape, such as diamond shape, ellipse, sector, egg type, love shape, water-drop-shaped etc., as long as all not implementable for rectangle.

Liquid crystal display panel 10 includes active array base plate 12, opposite substrate 14 and liquid crystal layer 160, wherein active array Substrate 12 includes first substrate 100, active array 120 and alignment film 152, and opposite substrate 14 includes the second substrate 110, shading Layer 130, chromatic filter layer 140 and alignment film 154.

The material of first substrate 100 can for glass, quartz, organic polymer or its similar to material.The second substrate 110 is located at The opposite direction of first substrate 10.The material of the second substrate 20 can for glass, quartz, organic polymer or its similar to material.

Active array 120 is configured on first substrate 100, and active array 120 includes multiple standard pixel SU and multiple Edge pixel EU, wherein standard pixel SU and edge pixel EU are arranged in multiple lines and multiple rows.About standard pixel SU and edge pixel The design of EU will be in hereinafter describing in detail.

Light shield layer 130 configures in the second substrate 110.Specifically, in the present embodiment, light shield layer 130 includes week Side light shield layer 132 is located in the B of peripheral region and defines viewing area A.In the present embodiment, periphery light shield layer 132 and standard Pixel SU non-overlapping, and periphery light shield layer 132 and edge pixel EU are least partially overlapped.In addition, the material of periphery light shield layer 132 Matter can be the reflexive lower materials such as black resin or shading metal (such as: chromium).In addition, in the present embodiment, week Circular pattern is presented in side light shield layer 132.However, the present invention is not limited thereto, cooperate the shape of viewing area A, periphery light shield layer 132 can be optionally designed to the pattern with any shape.

In addition, in the present embodiment, light shield layer 130 further includes that netted light-shielding pattern 134 is located in the A of viewing area, use To cover the element and cabling that are not intended to be watched in liquid crystal display panel 10 by user, such as scan line, data line, active member Part etc. (associated description will illustrate below).In the present embodiment, due to netted light-shielding pattern 134 and periphery light shield layer 132 belong to same film layer, and the material of netted light-shielding pattern 134 also can be that black resin or shading metal (such as: chromium) etc. are anti- The lower material of penetrating property.It is noted that in order to which the configuration of clear open active array 120 and periphery light shield layer 132 is closed in Fig. 1 System, thus omit and be painted the second substrate 110, netted light-shielding pattern 134, alignment film 152, alignment film 154 and liquid crystal layer 160.

Chromatic filter layer 140 is arranged in the second substrate 110.Chromatic filter layer 140 has multiple color filter patterns, and this A little color filter patterns are respectively arranged in one of sub-pixel opening of light shield layer 130 (as shown in Figure 2).In this embodiment party In formula, chromatic filter layer 140 may include red filter pattern, green filter pattern and blue filter pattern.However, of the invention It is without being limited thereto.In other embodiments, chromatic filter layer 140 also may include any group of the filter pattern of other colors It closes, depending on the demand of this partial visual designer.In addition, red filter pattern, green filter pattern and blue filter pattern point It is not filter pattern well known to technical staff in fields.

Alignment film 152 is configured on first substrate 100, and alignment film 154 is configured in the second substrate 110.Specifically, Alignment film 152 is between first substrate 100 and liquid crystal layer 160, and alignment film 154 is located at the second substrate 110 and liquid crystal layer 160 Between.

Liquid crystal layer 160 is set between first substrate 100 and the second substrate 110, and liquid crystal layer 160 includes multiple liquid crystal point Son.Specifically, the effect of alignment film 152, alignment film 154 is to make the liquid crystal molecule in liquid crystal layer 160 to present specific pre- Inclination angle and alignment direction.

Hereinafter, the design of standard pixel SU and edge pixel EU will be described in detail referring concurrently to Fig. 1 to Fig. 3.

Referring to Fig. 1 to Fig. 3, each standard pixel SU includes the first standard sub-pixel SUR, the second standard sub-pixel SUG and third standard sub-pixel SUB and each edge pixel EU includes first edge sub-pixel EUR, second edge sub-pixel EUG and third edge subpixel EUB.Wherein, by Fig. 1 and Fig. 3 it is found that the first standard sub-pixel SUR, second are marked in the K of region Quasi- sub-pixel SUG and third standard sub-pixel SUB do not overlap completely with periphery light shield layer 132, and first edge sub-pixel EUR And second edge sub-pixel EUG at least partly overlaps with periphery light shield layer 132.

Specifically, the first standard sub-pixel SUR include the first standard pixel electrode SER and with the first standard pixel electricity Active component T, scan line SL and the data line DL that pole SER is electrically connected；Second standard sub-pixel SUG includes the second standard pixel Electrode SEG and active component T, scan line SL and the data line DL being electrically connected with the second standard pixel electrode SEG；Third mark Quasi- sub-pixel SUB includes third standard pixel electrode SEB and the active component with third standard pixel electrode SEB electric connection T, scan line SL and data line DL；First edge sub-pixel EUR include first edge pixel electrode EER and with first edge picture Active component T, scan line SL and the data line DL that plain electrode EER is electrically connected；Second edge sub-pixel EUG includes second edge Pixel electrode EEG and active component T, scan line SL and the data line DL being electrically connected with second edge pixel electrode EEG；The Three edge subpixel EUB include third edge pixel electrode EEB and are electrically connected with third edge pixel electrode EEB active Element T, scan line SL and data line DL.Wherein, netted light-shielding pattern 134 and active component T, scan line SL and data line DL phase Overlapping, to cover active component T, scan line SL and data line DL.

In addition, in the present embodiment, liquid crystal display panel 10 corresponds to the first standard sub-pixel SUR and first edge The picture of sub-pixel EUR all show the first color, liquid crystal display panel 10 correspond to the second standard sub-pixel SUG and second The picture of edge subpixel EUG all show the second color, liquid crystal display panel 10 correspond to third standard sub-pixel SUB and The picture of third edge subpixel EUB all shows third color.For example, in the present embodiment, the first color, second Color and third color are respectively red, green and blue.

That is, when the liquid crystal molecule in liquid crystal layer 160 is by the first standard pixel electrode SER or first edge pixel Potential difference between electrode EER and common electrode (not being painted) drives and keeps light break-through out-of-date, and picture can show red；When Liquid crystal molecule in liquid crystal layer 160 by the second standard pixel electrode SEG or second edge pixel electrode EEG and common electrode it Between potential difference driving and keep light break-through out-of-date, picture can show green；And the liquid crystal molecule in the liquid crystal layer 160 by Potential difference between third standard pixel electrode SEB or third edge pixel electrode EEB and common electrode drives and wears light By when, picture can show blue.

For another viewpoint, in liquid crystal display panel 10, the red filter pattern of chromatic filter layer 140 is corresponding the One standard sub-pixel SUR and first edge sub-pixel EUR and be arranged, the green filter pattern of chromatic filter layer 140 is corresponding the Two standard sub-pixel SUG and second edge sub-pixel EUG and be arranged, the blue filter pattern of chromatic filter layer 140 is corresponding the Three standard sub-pixel SUB and third edge subpixel EUB and be arranged.

In addition, referring to figure 3., the first standard pixel electrode SER, the second standard pixel electrode SEG, third standard pixel electricity Pole SEB, first edge pixel electrode EER, second edge pixel electrode EEG and third edge pixel electrode EEB respectively include more A strip shaped electric poles PE and two block type electrode BE being connected with strip shaped electric poles PE.Specifically, as shown in figure 3, in region K In, the strip shaped electric poles PE and the strip shaped electric poles PE of first edge pixel electrode EER of the first standard pixel electrode SER is having the same Strip shaped electric poles number, width PW and length PL；The strip shaped electric poles PE and second edge pixel electrode of second standard pixel electrode SEG The strip shaped electric poles PE of EEG has different strip shaped electric poles number but identical strip shaped electric poles width PW and length PL；And third The strip shaped electric poles PE of standard pixel electrode SEB has different strip electricity from the strip shaped electric poles PE of third edge pixel electrode EEB Number of poles mesh but identical strip shaped electric poles width PW and length PL.That is, in the present embodiment, no matter strip shaped electric poles PE is Position is in standard pixel SU or position is in adjacent edge pixel EU, strip shaped electric poles width PW all having the same and length PL.In addition it is noted that in the present embodiment, liquid crystal display panel 10 is, for example, limit field suitching type (Fringe Field Switching, FFS) panel of LCD or coplanar suitching type (In-Plane Switching, IPS) liquid crystal Display panel, but not limited to this.

Furthermore, in the K of region, the first standard pixel electrode SER, the second standard pixel electrode SEG and third mark Quasi- pixel electrode SEB all has 4 strip shaped electric poles PE；The more first edge sub-pixel with 132 overlapping area of periphery light shield layer First edge pixel electrode EER in EUR equally has 4 strip shaped electric poles PE；It is less with 132 overlapping area of periphery light shield layer Second edge pixel electrode EEG in second edge sub-pixel EUG has 3 strip shaped electric poles PE；And not with periphery light shield layer 132 Third edge pixel electrode EEB in equitant third edge subpixel EUB then has 2 strip shaped electric poles PE.That is, In the K of region, the first standard pixel electrode SER, the second standard pixel electrode SEG and third standard pixel electrode SEB have phase Same pattern；First edge pixel electrode EER and the first standard pixel electrode SER pattern having the same, and second edge picture Plain electrode EEG and third edge pixel electrode EEB does not all have identical pattern with the first standard pixel electrode SER.

In one embodiment, the shape of the viewing area A of liquid crystal display panel 10 is round (as shown in Figure 1)；Show ruler Very little (i.e. the diameter of viewing area A) is 27 millimeters；Resolution is 300 × 300, this indicates that viewing area A's is parallel to data line DL's Diameter is parallel to the diameter of scan line SL also across 300 dot structures, wherein three sub- pictures across 300 dot structures Element constitutes a dot structure (as shown in Figures 1 and 3)；Dot structure number (pixel per inch, PPI) in each inch It is 282；The size of each sub-pixel is 90 microns × 30 microns, and the first standard pixel electrode SER, the second standard pixel electrode SEG, third standard pixel electrode SEB, first edge pixel electrode EER, second edge pixel electrode EEG and third edge pixel The length PL of the strip shaped electric poles PE of electrode EEB is all 80 microns, and width PW is all 3 microns；First standard pixel electrode SER, Two standard pixel electrode SEG, third standard pixel electrode SEB, first edge pixel electrode EER, second edge pixel electrode EEG And the length BL of the block type electrode BE of third edge pixel electrode EEB is all 5 microns, width BW is all 21 microns.

It is worth noting that inventor's discovery passes through first edge pixel electrode EER and the first official portrait in the K of region Plain electrode SER pattern having the same, second edge pixel electrode EEG and the second standard pixel electrode SEG have different Pattern and third edge pixel electrode EEB and third standard pixel electrode SEB have different pattern, may make first edge Pixel electrode EER, second edge pixel electrode EEG and the corresponding sub-pixel aperture opening ratio of third edge pixel electrode EEB and sub- picture The product ratio and the first standard pixel electrode SER, the second standard pixel electrode SEG of plain liquid crystal efficiency (LC efficiency) and The product of the corresponding sub-pixel aperture opening ratio of third standard pixel electrode SEB and sub-pixel liquid crystal efficiency is than consistent, sub-pixel Liquid crystal efficiency is defined as follows: LC efficiency=T%/(array Tr × CF Tr × AR), and wherein T% is liquid crystal display The penetrance of panel 10；Array Tr is the penetrance of active array base plate 12；CF Tr is the penetrance of opposite substrate 14；With And AR is the sub-pixel aperture opening ratio of liquid crystal display panel 10.

Specifically, in the present embodiment, if first edge pixel electrode EER, second edge pixel electrode EEG and The corresponding sub-pixel aperture opening ratio of three edge pixel electrode EEB and the product ratio of sub-pixel liquid crystal efficiency are a:b:c, then the first standard Pixel electrode SER, the second standard pixel electrode SEG and the corresponding sub-pixel aperture opening ratio of third standard pixel electrode SEB and sub- picture The product ratio of plain liquid crystal efficiency is a: β b: γ c of α, wherein 0.95 ≦ α≤1.05,0.95 β≤1.05 ≦ and 0.95 ≦ γ≤ 1.05, preferably α=β=γ.

For example, as it was noted above, in one embodiment, in the K of region, the first standard sub-pixel SUR, second are marked Quasi- sub-pixel SUG, third standard sub-pixel SUB, first edge sub-pixel EUR, second edge sub-pixel EUG and third edge The length UL of pixel EUB is all 90 microns, and width UW is all 30 microns；First standard pixel electrode SER, the second standard pixel electricity Pole SEG, third standard pixel electrode SEB, first edge pixel electrode EER, second edge pixel electrode EEG and third edge picture The length PL of the strip shaped electric poles PE of plain electrode EEB is all 80 microns, and width PW is all 3 microns；First standard pixel electrode SER, Second standard pixel electrode SEG, third standard pixel electrode SEB, first edge pixel electrode EER, second edge pixel electrode The length BL of the block type electrode BE of EEG and third edge pixel electrode EEB are all 5 microns, and width BW is all 21 microns, and in liquid LCD panel 10 is arranged in pairs or groups after backlight module measured, first edge pixel electrode EER, second edge pixel electrode EEG, the Three edge pixel electrode EEB, the first standard pixel electrode SER, the second standard pixel electrode SEG and third standard pixel electrode The product value of the corresponding sub-pixel aperture opening ratio of SEB, sub-pixel liquid crystal efficiency and sub-pixel aperture opening ratio and sub-pixel liquid crystal efficiency It is recorded in the following table 1 respectively.

Table 1

As shown in Table 1, although first edge pixel electrode EER, second edge pixel electrode EEG and third edge pixel electricity The product value and the first standard pixel electrode SER, the second standard of the corresponding sub-pixel aperture opening ratio of pole EEB and sub-pixel liquid crystal efficiency Pixel electrode SEG and the corresponding sub-pixel aperture opening ratio of third standard pixel electrode SEB and the product value of sub-pixel liquid crystal efficiency are not It is identical to the greatest extent, but first edge pixel electrode EER, second edge pixel electrode EEG and the corresponding son of third edge pixel electrode EEB The product ratio and the first standard pixel electrode SER, the second standard pixel electrode SEG of pixel aperture ratio and sub-pixel liquid crystal efficiency and The corresponding sub-pixel aperture opening ratio of third standard pixel electrode SEB and the product ratio of sub-pixel liquid crystal efficiency are consistent.

Further, inventor is it has also been found that work as first edge pixel electrode EER, second edge pixel electrode EEG and third The product ratio and the first standard pixel electrode of the corresponding sub-pixel aperture opening ratio of edge pixel electrode EEB and sub-pixel liquid crystal efficiency SER, the second standard pixel electrode SEG and the corresponding sub-pixel aperture opening ratio of third standard pixel electrode SEB and sub-pixel liquid crystal effect Meet above-mentioned relation between the product ratio of rate, may make the match colors of standard pixel SU and edge pixel EU adjacent to each other, Thus promote the beauty and visual adaptability of liquid crystal display panel 10.

That is, in the present embodiment, by adjusting first according to the equitant degree of periphery light shield layer 132 The number of the strip shaped electric poles PE of edge pixel electrode EER, second edge pixel electrode EEG and third edge pixel electrode EEB, with So that first edge pixel electrode EER, second edge pixel electrode EEG and the corresponding sub-pixel of third edge pixel electrode EEB The product ratio of aperture opening ratio and sub-pixel liquid crystal efficiency can with the first standard pixel electrode SER, the second standard pixel electrode SEG and The product of the corresponding sub-pixel aperture opening ratio of third standard pixel electrode SEB and sub-pixel liquid crystal efficiency is than unanimously, can effectively reduce The unmatched problem of border color in liquid crystal display panel 10.

In addition, though only with the standard pixel SU adjacent to each other and edge pixel EU in the K of region in above embodiment Feature of the invention is described, but technical staff should be appreciated that liquid crystal display panel 10 according to explanation above in fields The design of middle any edge pixel EU.

For example, when in an edge pixel EU second edge sub-pixel EUG and at least portion third edge subpixel EUB It point overlaps with periphery light shield layer 132, and third edge subpixel EUB and the equitant area of periphery light shield layer 132 are greater than the Two edge subpixel EUG and the equitant area of periphery light shield layer 132, then third edge pixel electrode EEB and adjacent standard Third standard pixel electrode SEB pattern having the same, second edge pixel electrode EEG and adjacent official portrait in pixel SU The second standard pixel electrode SEG in plain SU does not have identical pattern and first edge pixel electrode EER and adjacent official portrait The first standard pixel electrode SER in plain SU does not have identical pattern, wherein the strip shaped electric poles PE of first edge pixel electrode EER Number less than second edge pixel electrode EEG strip shaped electric poles PE number, and second edge pixel electrode EEG strip electricity The number of strip shaped electric poles PE of the number of pole PE less than third edge pixel electrode EEB.

For by way of further example, when in an edge pixel EU first edge sub-pixel EUR, second edge sub-pixel EUG and Third edge subpixel EUB at least partly overlaps with periphery light shield layer 132, and first edge sub-pixel EUR, second edge Pixel EUG and third edge subpixel EUB and the equitant area of periphery light shield layer 132 are substantially the same, then first edge Pixel EUR, second edge sub-pixel EUG and third edge subpixel EUB respectively with the first standard in adjacent standard pixel SU Sub-pixel SUR, the second standard sub-pixel SUG and third standard sub-pixel SUB pattern having the same.

For lifting another example, when in an edge pixel EU only first edge sub-pixel EUR at least partly with periphery light shield layer 132 overlap, then the first standard pixel electrode SER in first edge pixel electrode EER and adjacent standard pixel SU has Third standard pixel electrode SEB in identical pattern, third edge pixel electrode EEB and adjacent standard pixel SU does not have phase The second standard pixel electrode SEG in same pattern and second edge pixel electrode EEG and adjacent standard pixel SU does not have phase Same pattern, and third edge pixel electrode EEB and second edge pixel electrode EEG pattern having the same, wherein the second side The number of the strip shaped electric poles PE of edge pixel electrode EEG, third edge pixel electrode EEB are all less than first edge pixel electrode EER Strip shaped electric poles PE number.In other words, in liquid crystal display panel 10, as long as first edge pixel electrode EER, second edge The pattern of at least one of pixel electrode EEG and third edge pixel electrode EEB be different from the first standard pixel electrode SER, The pattern of at least one of second standard pixel electrode SEG and third standard pixel electrode SEB belongs to scope of the invention.

In addition, in the above-described embodiment, the first standard pixel electrode SER, the second standard pixel electrode SEG, third mark Quasi- pixel electrode SEB and first edge pixel electrode EER all have 4 strip shaped electric poles PE；Second edge pixel electrode EEG has 3 strip shaped electric poles PE；And third edge pixel electrode EEB has 2 strip shaped electric poles PE, but the present invention is not limited thereto.At it In his embodiment, the first standard pixel electrode SER, the second standard pixel electrode SEG, in third standard pixel electrode SEB The number of the strip shaped electric poles PE of any one, the number of the strip shaped electric poles PE of first edge pixel electrode EER, second edge pixel electricity The number of the strip shaped electric poles PE of the number and third edge pixel electrode EEB of the strip shaped electric poles PE of pole EEG all can be according to reality The framework of liquid crystal display panel 10, demand etc. on border and adjust.

In addition, in the above-described embodiment, the first standard pixel electrode SER, the second standard pixel electrode SEG, third mark Quasi- pixel electrode SEB, first edge pixel electrode EER, second edge pixel electrode EEG and third edge pixel electrode EEB points Not Bao Kuo two block type electrode BE, but the present invention is not limited thereto, as long as the first standard pixel electrode SER, the second standard pixel Electrode SEG, third standard pixel electrode SEB, first edge pixel electrode EER, second edge pixel electrode EEG and third edge Pixel electrode EEB respectively includes an at least block type electrode BE and belongs to scope of the invention.

In addition, above embodiment be by adjusting first edge pixel electrode EER, second edge pixel electrode EEG and The number of the strip shaped electric poles PE of third edge pixel electrode EEB is so that first edge pixel electrode EER, second edge pixel electrode The product ratio and the first standard of EEG and the corresponding sub-pixel aperture opening ratio of third edge pixel electrode EEB and sub-pixel liquid crystal efficiency Pixel electrode SER, the second standard pixel electrode SEG and the corresponding sub-pixel aperture opening ratio of third standard pixel electrode SEB and sub- picture The product of plain liquid crystal efficiency is than consistent, but the present invention is not limited thereto, as long as by adjusting first edge pixel electrode EER, the In the number of the strip shaped electric poles PE of two edge pixel electrode EEG and third edge pixel electrode EEB, length PL and width PW extremely Few one belongs to scope of the invention.Hereinafter, other variation aspects will be described in detail referring to fig. 4 to fig. 6.

Fig. 4 to fig. 6 is the upper schematic diagram of the region K of the second to the 4th embodiment in Fig. 1 respectively.The reality of fig. 4 to fig. 6 It is similar to the embodiment of above-mentioned Fig. 3 to apply mode, therefore the same or similar element is indicated with the same or similar symbol, and not Repeat explanation.Hereinafter, by being illustrated only for main difference each other.

Referring to figure 4., in the K of region, the strip shaped electric poles PE and first edge pixel electrode of the first standard pixel electrode SER The strip shaped electric poles PE of EER strip shaped electric poles number having the same, width PW and length PL；The item of second standard pixel electrode SEG The strip shaped electric poles PE strip shaped electric poles number having the same and length PL but difference of shape electrode PE and second edge pixel electrode EEG Strip shaped electric poles width PW；And the item of the strip shaped electric poles PE and third edge pixel electrode EEB of third standard pixel electrode SEB Shape electrode PE strip shaped electric poles number having the same and length PL but different strip shaped electric poles width PW.That is, in this reality It applies in mode, no matter strip shaped electric poles PE is position in standard pixel SU or position is in adjacent edge pixel EU, all has Identical strip shaped electric poles number and length PL.

Furthermore, in the K of region, the first standard pixel electrode SER, the second standard pixel electrode SEG and third mark The strip shaped electric poles PE of quasi- pixel electrode SEB width PW all having the same；First more with 132 overlapping area of periphery light shield layer The strip shaped electric poles PE of first edge pixel electrode EER in edge subpixel EUR has the item with the first standard pixel electrode SER The identical width PW of shape electrode PE；The second side in the second edge sub-pixel EUG less with 132 overlapping area of periphery light shield layer The width PW of strip shaped electric poles PE of the width PW of the strip shaped electric poles PE of edge pixel electrode EEG greater than first edge pixel electrode EER； And not strip shaped electric poles with the third edge pixel electrode EEB in the equitant third edge subpixel EUB of periphery light shield layer 132 The width PW of strip shaped electric poles PE of the width PW of PE greater than second edge pixel electrode EEG.That is, in the K of region, first Standard pixel electrode SER, the second standard pixel electrode SEG and third standard pixel electrode SEB pattern having the same；First side Edge pixel electrode EER and the first standard pixel electrode SER pattern having the same, and second edge pixel electrode EEG and third Edge pixel electrode EEB does not all have identical pattern with the first standard pixel electrode SER.

In one embodiment, the shape of the viewing area A of liquid crystal display panel 10 is round (as shown in Figure 1)；Show ruler Very little (i.e. the diameter of viewing area A) is 27 millimeters；Resolution is 300 × 300, this indicates that viewing area A's is parallel to data line DL's Diameter is parallel to the diameter of scan line SL also across 300 dot structures, wherein three sub-pixels across 300 dot structures Constitute a dot structure (as shown in Fig. 1 and Fig. 4)；Dot structure number (pixel per inch, PPI) in each inch is 282；The size of each sub-pixel is 90 microns × 30 microns, and the first standard pixel electrode SER, the second standard pixel electrode The length PL of the strip shaped electric poles PE of SEG, third standard pixel electrode SEB and first edge pixel electrode EER are all 80 microns, wide Spending PW is all 3 microns；The length PL of the strip shaped electric poles PE of second edge pixel electrode EEG is 80 microns, and width PW is all 3.35 Micron；The length PL of the strip shaped electric poles PE of third edge pixel electrode EEB is 80 microns, and width PW is all 3.6 microns；First mark Quasi- pixel electrode SER, the second standard pixel electrode SEG, third standard pixel electrode SEB, first edge pixel electrode EER, The length BL of the block type electrode BE of two edge pixel electrode EEG and third edge pixel electrode EEB are all 5 microns, and width BW is all It is 21 microns.

It is worth noting that inventor's discovery is by adjusting first according to the equitant degree of periphery light shield layer 132 The width PW of the strip shaped electric poles PE of edge pixel electrode EER, second edge pixel electrode EEG and third edge pixel electrode EEB, So that in standard pixel SU adjacent to each other and edge pixel EU, first edge pixel electrode EER, second edge pixel electrode EEG and the corresponding sub-pixel aperture opening ratio of third edge pixel electrode EEB and the product ratio of sub-pixel liquid crystal efficiency can be with first Standard pixel electrode SER, the second standard pixel electrode SEG and the corresponding sub-pixel aperture opening ratio of third standard pixel electrode SEB with The product ratio of sub-pixel liquid crystal efficiency is consistent, can effectively reduce the unmatched problem of border color in liquid crystal display panel 10, Thus promote the beauty and visual adaptability of liquid crystal display panel 10.

In addition, in the above-described embodiment, the first standard pixel electrode SER, the second standard pixel electrode SEG, third mark Quasi- pixel electrode SEB, first edge pixel electrode EER, second edge pixel electrode EEG and third edge pixel electrode EEB are all With 4 strip shaped electric poles PE, but the present invention is not limited thereto.In other embodiments, the first standard pixel electrode SER, Two standard pixel electrode SEG, third standard pixel electrode SEB, first edge pixel electrode EER, second edge pixel electrode EEG And the number of the strip shaped electric poles PE of any one of third edge pixel electrode EEB can be according to actually liquid crystal display panel 10 Framework, demand etc. and adjust.

Referring to figure 5., in the K of region, the strip shaped electric poles PE and first edge pixel electrode of the first standard pixel electrode SER The strip shaped electric poles PE of EER strip shaped electric poles number having the same, width PW and length PL；The item of second standard pixel electrode SEG Shape electrode PE and the strip shaped electric poles PE of second edge pixel electrode EEG strip shaped electric poles length PL having the same but different strips Electrode width PW and number；And the item of the strip shaped electric poles PE and third edge pixel electrode EEB of third standard pixel electrode SEB Shape electrode PE strip shaped electric poles length PL having the same but different strip shaped electric poles width PW and number.That is, in this reality It applies in mode, no matter strip shaped electric poles PE is position in standard pixel SU or position is in adjacent edge pixel EU, all has Identical strip shaped electric poles length PL.

Furthermore, in the K of region, the first standard pixel electrode SER, the second standard pixel electrode SEG and third mark The strip shaped electric poles PE of quasi- pixel electrode SEB all has 4 strip shaped electric poles PE and identical width PW；With 132 weight of periphery light shield layer First edge pixel electrode EER in the more first edge sub-pixel EUR of folded area equally has 4 strip shaped electric poles PE and should A little strip shaped electric poles PE have width PW identical with the strip shaped electric poles PE of the first standard pixel electrode SER；With periphery light shield layer 132 Second edge pixel electrode EEG in the less second edge sub-pixel EUG of overlapping area have 3 strip shaped electric poles PE and those The width PW of strip shaped electric poles PE of the width PW of strip shaped electric poles PE greater than first edge pixel electrode EER；And not with periphery shading Third edge pixel electrode EEB in 132 equitant third edge subpixel EUB of layer then has 2 strip shaped electric poles PE and should The width PW of strip shaped electric poles PE of the width PW greater than second edge pixel electrode EEG of a little strip shaped electric poles PE.That is, in area In the K of domain, the first standard pixel electrode SER, the second standard pixel electrode SEG and third standard pixel electrode SEB are having the same Pattern；First edge pixel electrode EER and the first standard pixel electrode SER pattern having the same, and second edge pixel electricity Pole EEG and third edge pixel electrode EEB does not all have identical pattern with the first standard pixel electrode SER.

In one embodiment, the shape of the viewing area A of liquid crystal display panel 10 is round (as shown in Figure 1)；Show ruler Very little (i.e. the diameter of viewing area A) is 27 millimeters；Resolution is 300 × 300, this indicates that viewing area A's is parallel to data line DL's Diameter is parallel to the diameter of scan line SL also across 300 dot structures, wherein three sub- pictures across 300 dot structures Element constitutes a dot structure (as shown in Figures 1 and 5)；Dot structure number (pixel per inch, PPI) in each inch It is 282；The size of each sub-pixel is 90 microns × 30 microns, and the first standard pixel electrode SER, the second standard pixel electrode The length PL of the strip shaped electric poles PE of SEG, third standard pixel electrode SEB and first edge pixel electrode EER are all 80 microns, wide Spending PW is all 3 microns；The length PL of the strip shaped electric poles PE of second edge pixel electrode EEG is 80 microns, and width PW is all 3.5 micro- Rice；The length PL of the strip shaped electric poles PE of third edge pixel electrode EEB is 80 microns, and width PW is all 4 microns；First official portrait Plain electrode SER, the second standard pixel electrode SEG, third standard pixel electrode SEB, first edge pixel electrode EER, the second side The length BL of the block type electrode BE of edge pixel electrode EEG and third edge pixel electrode EEB are all 5 microns, and width BW is all 21 Micron.

It is worth noting that inventor's discovery is by adjusting first according to the equitant degree of periphery light shield layer 132 The number of the strip shaped electric poles PE of edge pixel electrode EER, second edge pixel electrode EEG and third edge pixel electrode EEB with Width PW, so that in standard pixel SU adjacent to each other and edge pixel EU, first edge pixel electrode EER, second edge The product of pixel electrode EEG and the corresponding sub-pixel aperture opening ratio of third edge pixel electrode EEB and sub-pixel liquid crystal efficiency compares energy Enough sub-pixels corresponding with the first standard pixel electrode SER, the second standard pixel electrode SEG and third standard pixel electrode SEB Than consistent, the border color that can effectively reduce in liquid crystal display panel 10 mismatches the product of aperture opening ratio and sub-pixel liquid crystal efficiency The problem of, thus promote the beauty and visual adaptability of liquid crystal display panel 10.

In addition, in the above-described embodiment, the first standard pixel electrode SER, the second standard pixel electrode SEG, third mark Quasi- pixel electrode SEB and first edge pixel electrode EER all have 4 strip shaped electric poles PE；Second edge pixel electrode EEG has 3 strip shaped electric poles PE；And third edge pixel electrode EEB has 2 strip shaped electric poles PE, but the present invention is not limited thereto.At it In his embodiment, the first standard pixel electrode SER, the second standard pixel electrode SEG, in third standard pixel electrode SEB The number of the strip shaped electric poles PE of any one, the number of the strip shaped electric poles PE of first edge pixel electrode EER, second edge pixel electricity The number of the strip shaped electric poles PE of the number and third edge pixel electrode EEB of the strip shaped electric poles PE of pole EEG all can be according to reality The framework of liquid crystal display panel 10, demand etc. on border and adjust.

Fig. 6 is please referred to, in the K of region, the strip shaped electric poles PE and first edge pixel electrode of the first standard pixel electrode SER The strip shaped electric poles PE of EER strip shaped electric poles number having the same, width PW and length PL；The item of second standard pixel electrode SEG The strip shaped electric poles PE strip shaped electric poles number having the same and width PW but difference of shape electrode PE and second edge pixel electrode EEG Strip shaped electric poles length PL；And the item of the strip shaped electric poles PE and third edge pixel electrode EEB of third standard pixel electrode SEB Shape electrode PE strip shaped electric poles number having the same and width PW but different strip shaped electric poles length PL.That is, in this reality It applies in mode, no matter strip shaped electric poles PE is position in standard pixel SU or position is in adjacent edge pixel EU, all has Identical strip shaped electric poles number and width PW.

Furthermore, in the K of region, the first standard pixel electrode SER, the second standard pixel electrode SEG and third mark The strip shaped electric poles PE of quasi- pixel electrode SEB length PL all having the same；First more with 132 overlapping area of periphery light shield layer The strip shaped electric poles PE of first edge pixel electrode EER in edge subpixel EUR has the item with the first standard pixel electrode SER The identical length PL of shape electrode PE；The second side in the second edge sub-pixel EUG less with 132 overlapping area of periphery light shield layer The length PL of strip shaped electric poles PE of the length PL of the strip shaped electric poles PE of edge pixel electrode EEG less than first edge pixel electrode EER； And not strip shaped electric poles with the third edge pixel electrode EEB in the equitant third edge subpixel EUB of periphery light shield layer 132 The length PL of strip shaped electric poles PE of the length PL of PE less than second edge pixel electrode EEG.That is, in the K of region, first Standard pixel electrode SER, the second standard pixel electrode SEG and third standard pixel electrode SEB pattern having the same；First side Edge pixel electrode EER and the first standard pixel electrode SER pattern having the same, and second edge pixel electrode EEG and third Edge pixel electrode EEB does not all have identical pattern with the first standard pixel electrode SER.

In one embodiment, the shape of the viewing area A of liquid crystal display panel 10 is round (as shown in Figure 1)；Show ruler Very little (i.e. the diameter of viewing area A) is 27 millimeters；Resolution is parallel to the straight of data line DL for 300 × 300 this expression viewing area A's Diameter is parallel to the diameter of scan line SL also across 300 dot structures, wherein three sub-pixels across 300 dot structures Constitute a dot structure (as shown in Figure 1 and Figure 6)；Dot structure number (pixel per inch, PPI) in each inch is 282；The size of each sub-pixel is 90 microns × 30 microns, and the first standard pixel electrode SER, the second standard pixel electrode The length PL of the strip shaped electric poles PE of SEG, third standard pixel electrode SEB and first edge pixel electrode EER are all 80 microns, wide Spending PW is all 3 microns；The length PL of the strip shaped electric poles PE of second edge pixel electrode EEG is 60 microns, and width PW is all 3 micro- Rice；The length PL of the strip shaped electric poles PE of third edge pixel electrode EEB is 40 microns, and width PW is all 3 microns；First official portrait Plain electrode SER, the second standard pixel electrode SEG, third standard pixel electrode SEB, first edge pixel electrode EER, the second side The length BL of the block type electrode BE of edge pixel electrode EEG and third edge pixel electrode EEB are all 5 microns, and width BW is all 21 Micron.

It is worth noting that inventor's discovery is by adjusting first according to the equitant degree of periphery light shield layer 132 The length PL of the strip shaped electric poles PE of edge pixel electrode EER, second edge pixel electrode EEG and third edge pixel electrode EEB, So that in standard pixel SU adjacent to each other and edge pixel EU, first edge pixel electrode EER, second edge pixel electrode EEG and the corresponding sub-pixel aperture opening ratio of third edge pixel electrode EEB and the product ratio of sub-pixel liquid crystal efficiency can be with first Standard pixel electrode SER, the second standard pixel electrode SEG and the corresponding sub-pixel aperture opening ratio of third standard pixel electrode SEB with The product ratio of sub-pixel liquid crystal efficiency is consistent, can effectively reduce the unmatched problem of border color in liquid crystal display panel 10, Thus promote the beauty and visual adaptability of liquid crystal display panel 10.

In addition, in the above-described embodiment, the first standard pixel electrode SER, the second standard pixel electrode SEG, third mark Quasi- pixel electrode SEB, first edge pixel electrode EER, second edge pixel electrode EEG and third edge pixel electrode EEB are all With 4 strip shaped electric poles PE, but the present invention is not limited thereto.In other embodiments, the first standard pixel electrode SER, Two standard pixel electrode SEG, third standard pixel electrode SEB, first edge pixel electrode EER, second edge pixel electrode EEG And the number of the strip shaped electric poles PE of any one of third edge pixel electrode EEB can be according to actually liquid crystal display panel 10 Framework, demand etc. and adjust.

Although the present invention is disclosed as above with embodiment, however, it is not to limit the invention, any affiliated technology neck Technical staff in domain, it is without departing from the spirit and scope of the present invention, therefore of the invention when can make a little variation and retouching Protection scope is subject to view appended claims institute defender.

Claims (15)

1. a kind of liquid crystal display panel characterized by comprising

One first substrate；

One periphery light shield layer, defines a viewing area in a peripheral region；

Multiple standard pixels are located in the viewing area, and the periphery light shield layer non-overlapping, wherein each standard pixel includes one First standard pixel electrode, one second standard pixel electrode and a third standard pixel electrode；

The corresponding first standard pixel electrode, second mark is electrically connected with data line in multiple active components, scan line Quasi- pixel electrode and the third standard pixel electrode；

Netted light-shielding pattern is located in the viewing area and overlaps with those active components, scan line and data line；

Multiple edge pixels, it is least partially overlapped with the periphery light shield layer, wherein each edge pixel includes a first edge picture Plain electrode, a second edge pixel electrode and a third edge pixel electrode, wherein those first edge pixel electrodes, those The pattern of at least one of two edge pixel electrodes and those third edge pixel electrodes is different from those first standard pixels The pattern of at least one of electrode, those the second standard pixel electrodes and those third standard pixel electrodes；

One the second substrate, positioned at the opposite direction of the first substrate；And

One liquid crystal layer is set between the first substrate and the second substrate,

Wherein for the standard pixel and the edge pixel adjacent to each other, the first edge pixel of above-mentioned edge pixel Electrode, the second edge pixel electrode and the corresponding sub-pixel aperture opening ratio of third edge pixel electrode and sub-pixel liquid crystal efficiency Product ratio be a:b:c, the first standard pixel electrode, the second standard pixel electrode and the third mark of above-mentioned standard pixel The corresponding sub-pixel aperture opening ratio of quasi- pixel electrode and the product ratio of sub-pixel liquid crystal efficiency are a: β b: γ c of α, wherein 0.95 ≦ α≤ 1.05,0.95 β≤1.05 ≦ and 0.95 γ≤1.05 ≦.

2. liquid crystal display panel as described in claim 1, wherein the shape of the viewing area is not rectangle, those first official portraits Plain electrode is corresponding to provide one first color with those first edge pixel electrodes, those the second standard pixel electrodes with should A little second edge pixel electrodes are corresponding to provide one second color, those third standard pixel electrodes and those third edges Pixel electrode is corresponding to provide a third color.

3. liquid crystal display panel as described in claim 1, wherein those the first standard pixel electrodes, those second standard pixels Electrode, those third standard pixel electrodes, those first edge pixel electrodes, those second edge pixel electrodes and those thirds Each of edge pixel electrode include multiple strip shaped electric poles, and the strip shaped electric poles of the second standard pixel electrode and this second The strip shaped electric poles of edge pixel electrode are with different strip shaped electric poles numbers but identical strip shaped electric poles width and length.

4. liquid crystal display panel as claimed in claim 3, the wherein strip shaped electric poles of the third standard pixel electrode and the third The strip shaped electric poles of edge pixel electrode are with different strip shaped electric poles numbers but identical strip shaped electric poles width and length.

5. liquid crystal display panel as claimed in claim 4, wherein those the first standard pixel electrodes, those second standard pixels Electrode, those third standard pixel electrodes, those first edge pixel electrodes, those second edge pixel electrodes and those thirds Each of edge pixel electrode further includes that an at least block type electrode connects those strip shaped electric poles in corresponding pixel electrode.

6. liquid crystal display panel as described in claim 1, wherein those the first standard pixel electrodes, those second standard pixels Electrode, those third standard pixel electrodes, those first edge pixel electrodes, those second edge pixel electrodes and those thirds Each of edge pixel electrode include multiple strip shaped electric poles, and the strip shaped electric poles of the second standard pixel electrode and this second The strip shaped electric poles of edge pixel electrode strip shaped electric poles number having the same and length but different strip shaped electric poles width.

7. liquid crystal display panel as claimed in claim 6, the wherein strip shaped electric poles of the third standard pixel electrode and the third The strip shaped electric poles of edge pixel electrode strip shaped electric poles number having the same and length but different strip shaped electric poles width.

8. liquid crystal display panel as claimed in claim 7, wherein those the first standard pixel electrodes, those second standard pixels Electrode, those third standard pixel electrodes, those first edge pixel electrodes, those second edge pixel electrodes and those thirds Each of edge pixel electrode further includes that an at least block type electrode connects those strip shaped electric poles in corresponding pixel electrode.

9. liquid crystal display panel as described in claim 1, wherein those the first standard pixel electrodes, those second standard pixels Electrode, those third standard pixel electrodes, those first edge pixel electrodes, those second edge pixel electrodes and those thirds Each of edge pixel electrode include multiple strip shaped electric poles, and the strip shaped electric poles of the second standard pixel electrode and this second The strip shaped electric poles of edge pixel electrode length having the same but different strip shaped electric poles width and number.

10. liquid crystal display panel as claimed in claim 9, the wherein strip shaped electric poles of the third standard pixel electrode and the third The strip shaped electric poles of edge pixel electrode length having the same but different strip shaped electric poles width and number.

11. liquid crystal display panel as claimed in claim 10, wherein those the first standard pixel electrodes, those second official portraits Plain electrode, those third standard pixel electrodes, those first edge pixel electrodes, those second edge pixel electrodes and those Each of three edge pixel electrodes further include an at least block type electrode connect in corresponding pixel electrode those strips electricity Pole.

12. liquid crystal display panel as described in claim 1, wherein those the first standard pixel electrodes, those second official portraits Plain electrode, those third standard pixel electrodes, those first edge pixel electrodes, those second edge pixel electrodes and those Each of three edge pixel electrodes include multiple strip shaped electric poles, and the strip shaped electric poles of the second standard pixel electrode and this The strip shaped electric poles of two edge pixel electrodes strip shaped electric poles width having the same and number but different strip shaped electric poles length.

13. liquid crystal display panel as claimed in claim 12, wherein the strip shaped electric poles of the third standard pixel electrode and this The strip shaped electric poles of three edge pixel electrodes strip shaped electric poles width having the same and number but different strip shaped electric poles length.

14. liquid crystal display panel as claimed in claim 13, wherein those the first standard pixel electrodes, those second official portraits Plain electrode, those third standard pixel electrodes, those first edge pixel electrodes, those second edge pixel electrodes and those Each of three edge pixel electrodes further include an at least block type electrode connect in corresponding pixel electrode those strips electricity Pole.

15. liquid crystal display panel as described in claim 1, wherein α=β=γ.