CN101770120B - Liquid crystal display panel - Google Patents

Abstract

The invention discloses a liquid crystal display panel, the liquid crystal display panel includes: a first substrate including a common electrode; a second substrate including at least one pixel electrode, the pixel electrode comprising: the two sides of the main electrode strip are provided with a first edge and a second edge which are opposite, and the main electrode strip extends towards a first direction; a plurality of first secondary electrode branches extending outwardly from the first edges of the primary electrode strips; and a plurality of second secondary electrode branches extending outwardly from the second edge of the primary electrode strip, wherein each of the first and second secondary electrode branches has a branch width, and the second secondary electrode branches are offset in a first direction with respect to the first secondary electrode branches by a position offset greater than zero and less than the branch width of each of the first and second secondary electrode branches; and a liquid crystal layer disposed between the first substrate and the second substrate.

Description

Display panels

Present patent application is that the application number submitted in 05th in 01 month in 2009 is 200910001601.3, denomination of invention is divided an application for the Chinese patent application of " display panels ".

Technical field

The relevant a kind of display panels of the present invention, especially a kind of fine slit stable state multiregional vertical align (fine-slit stabilized multi-domain vertical alignment is hereinafter to be referred as FSMVA) display panels.

Background technology

Along with the release of large scale liquid crystal display panel, display panels must possess the wide viewing angle characteristic can satisfy demand in the use.Therefore, (multi-domain vertical alignment, MVA) display panels has become the main product of present large scale two-d display panel to have the multiregional vertical align of wide viewing angle characteristic.

The array base palte of known multi-area vertical coupling liquid crystal display panel (array substrate) has the pixel electrode of patterning, and colored filter substrate (color filter substrate, the CF substrate) include a plurality of projections usually, correspondence is arranged on the center of pixel electrode.Fringe field effect (fringe electric field effect) by pixel electrode is induced swinging to of liquid crystal molecule with the geometric configuration of projection, make the negative type liquid crystal molecule when pixel applies voltage, fall down, and the difference according to lqiuid crystal molecule tipping direction forms different viewing areas (domain), to obtain the characteristic of wide viewing angle.Though known multi-area vertical coupling liquid crystal display panel has wider visual angle, yet because the orientation projection makes the part liquid crystal molecule not apply the slight inclination of meeting generation under the voltage condition, therefore can cause display panels under dark attitude, to produce light leakage phenomena and reduce the contrast of LCD, and then influence the liquid crystal display displays effect.

Therefore, a kind of FSMVA display panels of improvement develops and goes out.Please refer to Fig. 1, it is the floor map of the part time pixel region 10 of known FSMVA display panels.As shown in Figure 1, the pixel electrode 20 of known FSMVA display panels is made of elongated primary electrode strip 22 and secondary electrode branches 24, wherein primary electrode strip 22 is complete narrow and long rectangular conductive material, and secondary electrode branches 24 is then stretched out fully symmetrically by the both sides of the edge of primary electrode strip 22.For liquid crystal molecule 30, the position of primary electrode strip 22 can form trunk portion (trunk), and the gap between the secondary electrode branches 24 of homonymy can form many trickle slits 26.

The array base version of known FSMVA display panels and CF substrate all need not be provided with projection and change swinging to of liquid crystal, need slit be set in the CF substrate-side yet, form different viewing areas and directly control swinging to of liquid crystal by the trickle slit 26 that extends.Though the liquid crystal molecule 30 corresponding to trickle slit 26 can have clear and definite toppling direction, yet the indefinite problem of toppling direction is arranged corresponding to primary electrode strip liquid crystal molecule partly.Therefore, many nodes appear in the stem portion branch of pixel at random, and node at random causes ghost phenomena easily when display frame (image retention IR), thereby influences image quality.

Therefore, how providing a kind of good multi-area vertical coupling liquid crystal display panel, make liquid crystal arrangement stable, and avoid producing ghost phenomena, still is a present big problem.

Summary of the invention

One of purpose of the present invention is to provide a kind of display panels, to solve above-mentioned known problem.

For reaching above-mentioned purpose, embodiments of the invention provide a kind of display panels, comprise first substrate with common electrode, second substrate with pixel electrode, and are arranged at the liquid crystal layer between first substrate and second substrate.Wherein pixel electrode comprises at least one primary electrode strip and a plurality of secondary electrode branches.Secondary electrode branches is stretched out by the both sides of the edge symmetry of primary electrode strip.Primary electrode strip has the trunk width, and has at least one node control part in the primary electrode strip, and the control width of node control part is different from the trunk width of primary electrode strip.

For reaching above-mentioned purpose, embodiments of the invention provide a kind of display panels in addition, comprise first substrate with common electrode, second substrate with pixel electrode, and are arranged at the liquid crystal layer between first substrate and second substrate.Pixel electrode comprises at least one primary electrode strip, a plurality of first secondary electrode branches and a plurality of second secondary electrode branches.Primary electrode strip is extended to first direction, and the primary electrode strip both sides have the first relative edge and second edge.First secondary electrode branches stretches out from first edge of primary electrode strip, and second secondary electrode branches then stretches out from second edge of primary electrode strip.Each first with each second secondary electrode branches have branch's width.Wherein, second secondary electrode branches is for first secondary electrode branches, one position offset is arranged on first direction, and position offset greater than zero and less than each first with branch's width of each second secondary electrode branches, described position offset be each described first and the described branch width of each described second secondary electrode branches 20% to 80%.

The present invention can directly utilize pixel electrode effectively to control the toppling direction of liquid crystal molecule, reduce ghost phenomena, do not go to induce swinging to of liquid crystal molecule and do not need the orientation projection to be set, and then avoid display panels under dark attitude, to produce light leakage phenomena and reduce the contrast of LCD in the inboard of second transparency carrier.

Description of drawings

Fig. 1 is the floor map of the part time pixel region of known FSMVA display panels.

Fig. 2 to Fig. 4 is the synoptic diagram of inferior dot structure one preferred embodiment of display panels of the present invention.

Fig. 5 to Fig. 7 is the enlarged diagram of other preferred embodiments of pixel electrode of the present invention.

Fig. 8 is the enlarged diagram of another preferred embodiment of pixel electrode of the present invention.

Drawing reference numeral

10 pixel region 20 pixel electrodes

22 primary electrode strip, 24 secondary electrode branches

26 trickle slit 30 liquid crystal molecules

102 dot structure 104 first transparency carriers

106 second transparency carriers, 108 liquid crystal layers

110 glass substrates, 112 sweep traces

114 data lines, 115 storage capacitors leads

116 glass substrates, 118 common electrodes

120 pixel electrodes, 122 primary electrode strip

124 secondary electrode branches, 126 node control part

130a first direction 130b second direction

130c third direction 222 primary electrode strip

232 node control part, 322 primary electrode strip

326 node control part, 334 openings

422 primary electrode strip, 424 secondary electrode branches

426 first node control parts, 432 Section Point control parts

522 primary electrode strip 522a, first edge

522b second edge 524 first secondary electrode branches

525 second secondary electrode branches D length

S spacing P position offset

L branch width W 1 trunk width

W2 control width W 3 control width

Embodiment

Below be about detailed description of the present invention and accompanying drawing.Yet appended accompanying drawing is only for reference and aid illustration usefulness, is not to be used for the present invention is limited.

For the technician who makes the technical field of the invention can further understand the present invention, hereinafter the spy enumerates a plurality of preferred embodiment of the present invention, and cooperates appended accompanying drawing, describe in detail constitution content of the present invention and the effect desiring to reach.

Please refer to Fig. 2 to Fig. 4.Fig. 2 to Fig. 4 is the synoptic diagram of inferior dot structure one preferred embodiment of display panels of the present invention, for example is one of them of the inferior dot structure of RGB (RGB).Fig. 2 is the vertical view of time dot structure, and Fig. 3 is the three-dimensional diagrammatic cross-section of time dot structure, and Fig. 4 is the enlarged diagram of the pixel electrode of part.For highlighting feature of the present invention, only illustrate one dot structure among Fig. 2 and Fig. 3 as representative, only illustrate a primary electrode strip among Fig. 4 as representative, also can be designed to the electric electrode strip of a plurality of masters according to design requirement.Wherein, the subelement of display panels is not illustrated among Fig. 2 to Fig. 4, and actual display panels can comprise dot structure a plurality of times.Moreover pixel electrode shown in Figure 2 only is the skeleton diagram of pixel electrode pattern, and its detailed pattern should be benchmark with the enlarged drawing of Fig. 4.In addition, the display panels of present embodiment can be the FSMVA display panels, but not as limit.

As Fig. 2 and shown in Figure 3, the inferior dot structure 102 of the display panels of present embodiment comprises first transparency carrier (for example being the membrane transistor substrate), 104, second transparency carrier (for example being colored filter substrate) 106, and liquid crystal layer 108.Both are oppositely arranged first transparency carrier 104 and second transparency carrier 106, and liquid crystal layer 108 is arranged between first transparency carrier 104 and second transparency carrier 106, and liquid crystal layer 108 comprises liquid crystal molecule.First transparency carrier 104 can comprise glass substrate 110 and a plurality of pixel electrodes 120.As shown in Figure 2,104 can comprise in addition many sweep traces parallel to each other 112 and many data lines parallel to each other 114 on first transparency carrier.Sweep trace 112 defines a plurality of times dot structure 102 with data line 114 on first transparency carrier 104.Include many storage capacitors leads (storage capacitor bus line) 115 within each time dot structure 102 in addition, be arranged in parallel with sweep trace 112 and run through time dot structure 102.First transparency carrier 104 can comprise elements such as alignment film and Polarizer (figure does not show) in addition, and for example Polarizer can be circular Polarizer or linear Polarizer, but is not limited thereto.

Please contrast Fig. 2 and Fig. 3, second transparency carrier 106 comprises glass substrate 116 and common electrode 118, and can comprise elements such as black matrix pattern, colored filter, alignment film and Polarizer (figure does not show) in addition.Black matrix pattern can rough corresponding first transparency carrier 104 sweep trace 112 and data line 114 and being provided with, colored filter can rough respective pixel electrode 120 and is provided with, common electrode 118 then can be covered in the surface of black matrix pattern and colored filter.

Glass substrate 110 is also replaceable with glass substrate 116 to be the substrate of other transparent materials, for example quartz or plastic cement.And pixel electrode 120 all can be transparency conducting layer with common electrode 118, for example tin indium oxide (ITO) transparency electrode; If during the example of reflected displaying device or Transflective display, pixel electrode 120 also can comprise the light reflective electrode.

In each time dot structure 102, pixel electrode 120 comprises at least one primary electrode strip 122 and a plurality of secondary electrode branches 124, and secondary electrode branches 124 is stretched out by the both sides of the edge symmetry of primary electrode strip 122.For example the inferior dot structure 102 of Fig. 2 includes a plurality of primary electrode strip 122 and secondary electrode branches 124, and the primary electrode strip 122 of part can be extended along first direction 130a, and the primary electrode strip 122 of part can be extended along second direction 130b, to reach the effect of the liquid crystal molecule of liquid crystal layer 108 being divided into a plurality of zones.First direction 130a and the second direction 130b of Fig. 2 are perpendicular quadrature approximately, yet the angle of first direction 130a and second direction 130b need not be confined to this, and can be any angle.In addition, each secondary electrode branches 124 of Fig. 2 can be vertical with primary electrode strip 122 and be stretched out, but is not limited to this.With the primary electrode strip 122 along first direction 130a extension is example, and each secondary electrode branches 124 that links to each other with aforementioned primary electrode strip 122 is all extended along third direction 130c haply, and third direction 130c and first direction 130a perpendicular quadrature.And in other embodiment, the third direction 130c that each secondary electrode branches 124 is extended can and first direction 130a between have obtuse angle or acute angle.Perhaps, each secondary electrode branches 124 that links to each other with same primary electrode strip 122 also can be extended along different directions, for example is radial extension.

As shown in Figure 4, primary electrode strip 122 has trunk width W 1, and has at least one node control part 126 in the primary electrode strip 122, can be arranged between the two adjacent secondary electrode branches 124.The control width W 2 of node control part 126 is different from the trunk width W 1 of primary electrode strip 122.In present embodiment, the control width W 2 of node control part 126 is greater than the trunk width W 1 of primary electrode strip 122, for example the ratio of the trunk width W 1 of the control width W 2 of node control part 126 and primary electrode strip 122 is preferable can be greater than 1 and smaller or equal to 3, obtaining good node control effect, but be not limited thereto.Node control part 126 the preferable central shaft that is symmetrical in primary electrode strip 122 is set, make pixel electrode 120 present the pattern of symmetry.And in other embodiment, the setting of node control part 126 also can not need be symmetrical in the central shaft of primary electrode strip 122, and for example the position of node control part 126 is left avertence or right avertence for the central shaft of primary electrode strip 122.

Node control part 126 mainly is arranged on the trunk, make the corresponding liquid crystal molecule of placement inwardly to topple over or outwards to topple over, thus, most liquid crystal optics node only appears at the position that the present invention is provided with node control part 126, the generation of the irregular random node of therefore can preventing.In the layout of present embodiment, single primary electrode strip 122 can have a plurality of node control part 126, and is provided with 2 to 15 secondary electrode branches 124 approximately between the two adjacent node control part 126.Have interval S between the two adjacent secondary electrode branches 124 of homonymy, and big or small preferable 1 times to 3 times of being about interval S of the width L of branch of each secondary electrode branches 124.The length D of each secondary electrode branches 124 is preferable to be about 3 times to 6 times of trunk width W 1 of primary electrode strip 122, but is not limited thereto, and does not need to use projection as long as reach.Each secondary electrode branches 124 can have different length, also can have unified length.Between secondary electrode branches 124 numbers that the adjacent node control part of aforesaid trunk width W 1, control width W 2, two is 126, the two adjacent secondary electrode branches 124 apart from the width L of branch of S, each secondary electrode branches 124, and relativeness, all can adjust according to the factors such as size, type or functional design of display.

When pixel electrode 120 not being imposed voltage, the liquid crystal molecule of the liquid crystal layer 108 of pixel electrode 120 tops can be perpendicular to the direction of substrate arranges (figure does not show).As shown in Figure 3, when pixel electrode 120 was bestowed a voltage, the liquid crystal molecule of the liquid crystal layer 108 of pixel electrode 120 tops was because of electric field effects is toppled over.Because the pattern of each pixel electrode 120 can cause the fringe field effect, the liquid crystal molecule that therefore is positioned at primary electrode strip 122 both sides can have different toppling directions, and makes to have a plurality of different viewing areas in time dot structure 102.Again, because the present invention is provided with the node control part 126 of particular design, therefore node control part 126 also can assist to control the toppling direction of the liquid crystal molecule that is positioned at trunk portion, make the node of trunk portion almost only appear at the position that is provided with node control part 126, reduce the ghost phenomena of display panels.Therefore, the present invention can directly utilize pixel electrode 120 effectively to control the toppling direction of liquid crystal molecule, do not go to induce swinging to of liquid crystal molecule and do not need the orientation projection to be set, and then avoid display panels under dark attitude, to produce light leakage phenomena and reduce the contrast of LCD in the inboard of second transparency carrier 106.

Except the pixel electrode 120 of control width W 2 greater than the trunk width W 1 of primary electrode strip 122 of node control part 126, also can have other sample attitudes at pixel electrode of the present invention.See also Fig. 5 to Fig. 7, Fig. 5 to Fig. 7 is the enlarged diagram of other preferred embodiments of pixel electrode of the present invention.The inferior dot structure of display panels herein (among the not complete Fig. 5 to Fig. 7 of being shown in) can comprise structures such as first transparency carrier, second transparency carrier and liquid crystal layer equally, and its similarity repeats no more.As shown in Figure 5, the main difference of the embodiment of Fig. 5 and the embodiment of Fig. 4 is, the control width W 3 of the node control part 232 of present embodiment is less than the trunk width W 1 of primary electrode strip 222, for example the ratio of the trunk width W 1 of the control width W 3 of node control part 232 and primary electrode strip 222 is more than or equal to 0.3 and less than 1, also can obtain good node control effect, but be not limited thereto.

As shown in Figure 6, the main difference of the embodiment of Fig. 6 and the embodiment of Fig. 4 is that each node control part 326 of present embodiment more comprises opening 334 at middle position.Wherein, the position of opening 334, shape and size need not be subjected to Fig. 6 and limit to.In the present invention, the opening 334 of primary electrode strip 322 can not need be arranged at the centre of node control part 326, and can design requirement and be partial to the wherein side of node control part 326; The shape of opening 334 can comprise rectangle, circle, square, other regular polygons, or or even erose opening, but be not limited thereto.

As shown in Figure 7, the main difference of the embodiment of Fig. 7 and the embodiment of Fig. 4 is, present embodiment has simultaneously than wide first node control part 426 of primary electrode strip 422 and the Section Point control part 432 narrow than primary electrode strip 422.The primary electrode strip 422 of present embodiment has a plurality of first node control parts 426 and a plurality of Section Point control parts 432, be arranged at respectively between the secondary electrode branches 424, the control width W 2 of first node control part 426 can be greater than the trunk width W 1 of primary electrode strip 422, and the control width W 3 of Section Point control part 432 can be less than the trunk width W 1 of primary electrode strip 422.But first node control part 426 and the 432 one after the other settings of Section Point control part, and be provided with 2 to 15 secondary electrode branches 424 approximately between each first node control part 426 and the adjacent Section Point control part 432, but be not limited thereto.

In addition, also can utilize the configuration of secondary electrode branches to avoid ghost phenomena at pixel electrode of the present invention.See also Fig. 8, it is the enlarged diagram of another preferred embodiment of pixel electrode of the present invention.The inferior dot structure of the display panels of present embodiment (among the not complete Fig. 8 of being shown in) can comprise structures such as first transparency carrier, second transparency carrier and liquid crystal layer equally, and its similarity repeats no more.As shown in Figure 8, present embodiment provides a kind of display panels in addition, and wherein pixel electrode 520 can comprise at least one primary electrode strip 522, a plurality of first secondary electrode branches 524 and a plurality of second secondary electrode branches 525.Primary electrode strip 522 is extended to first direction 130a, and primary electrode strip 522 both sides have the first relative edge 522a and the second edge 522b.First secondary electrode branches 524 can stretch out from the first edge 522a of primary electrode strip 522, and second secondary electrode branches 525 then stretches out from the second edge 522b of primary electrode strip 522.Each first secondary electrode branches 524 can have a width L1 of branch and the width L2 of branch respectively with each second secondary electrode branches 525.Wherein, second secondary electrode branches 525 is for first secondary electrode branches 524, one position offset P is arranged on first direction 130a, and position offset P greater than zero and less than each first or the width L1 of branch, the L2 of each second secondary electrode branches 524,525.According to the result who detects, preferable 20% to 80% of width L1 of branch or the width L2 of branch that be about of aforementioned location side-play amount P is more preferred from 50% of the width L1 of branch, L2.

Two want the width L1 of branch of electrode branches 524 the adjacent first time, preferable 1 times to 3 times of being about interval S between each first secondary electrode branches 524; Two want the width L2 of branch of electrode branches 525 the adjacent second time, preferable being about between second secondary electrode branches 525 apart from 1 times to 3 times of S.Each first with 3 times to 6 times of the preferable trunk width W 1 that is about primary electrode strip 522 of the length D of each second secondary electrode branches 524,525, but be not limited thereto.

Because second secondary electrode branches 525 is for first secondary electrode branches 524, one position offset P is arranged on first direction 130a, make second secondary electrode branches 525 for first secondary electrode branches 524, neither corresponding on the same straight line, neither stagger fully fully.According to analog result of the present invention, the pattern layout of this partial transposition also can effectively reduce ghost phenomena, even the generation of the node of can preventing, and makes the liquid crystal molecule of trunk portion correspondence also present forward arrangement, does not almost have the existence of node.

In sum, because pixel electrode of the present invention has the node control part of particular design, perhaps second secondary electrode branches is for first secondary electrode branches, one position offset is arranged on first direction, therefore, the present invention can directly utilize pixel electrode effectively to control the toppling direction of liquid crystal molecule, reduce ghost phenomena, do not go to induce swinging to of liquid crystal molecule and do not need the orientation projection to be set, and then avoid display panels under dark attitude, to produce light leakage phenomena and reduce the contrast of LCD in the inboard of second transparency carrier.

The above only is preferred embodiment of the present invention, and all equalizations of doing according to claim of the present invention change and modify, and all should belong to covering scope of the present invention.

Claims (4)

1. A liquid crystal display panel, characterized in that the liquid crystal display panel comprises: A first substrate, including a common electrode; A second substrate, including at least one pixel electrode, the pixel electrode includes: At least one main electrode strip has a first edge and a second edge opposite to each other on both sides, and the main electrode strip extends toward a first direction; a plurality of first secondary electrode branches extending outwardly from the first edge of the primary electrode strip; and a plurality of second secondary electrode branches extending outwardly from said second edge of said primary electrode strip, wherein each of said first and each of said second secondary electrode branches has a branch width, said first Relative to the first secondary electrode branches, the second secondary electrode branch has a position offset in the first direction, and the position offset is greater than zero and less than each of the first and each of the second electrode branches. said branch width of said second secondary electrode branch, said position offset is 20% to 80% of said branch width of each of said first and each of said second secondary electrode branches; and A liquid crystal layer is arranged between the first substrate and the second substrate. 2 . The liquid crystal display panel as claimed in claim 1 , wherein the position offset is substantially 50% of the branch width of each of the first and each of the second secondary electrode branches. 3. The liquid crystal display panel according to claim 1, wherein there is a distance between two adjacent first secondary electrode branches, and two adjacent second secondary electrode branches There is the spacing between them, the branch width of each of the first secondary electrode branches is substantially 1 to 3 times of the respective spacing, and the branch width of each of the second secondary electrode branches It is substantially 1 to 3 times the distance. 4. The liquid crystal display panel as claimed in claim 1, wherein a length of each of the first and each of the second secondary electrode branches is substantially 3 times to the width of the trunk of the main electrode strip. 6 times.

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