CN101165578B - Multidomain vertical orientation liquid crystal display panel - Google Patents

Abstract

The invention comprises an active component array baseboard, an opposition baseboard and a liquid crystal layer. Said active component array baseboard has multi scan lines, multi data lines, multi active components and multi pixel electrodes. The opposition baseboard has a shared electrode layer facing the active component array baseboard. The liquid layer is located between the active component array and the opposition baseboard. Each pixel electrode has multi first main slit; the portion of the main slit closed to the data line has a bending; the shared electrode layer has multi second main slit; the portion of the main slit closed to the scan lines has a bending.

Description

Multidomain vertical orientation liquid crystal display panel

Technical field

The present invention relates to a kind of display panels (liquid crystal display panel), and particularly relate to a kind of multidomain vertical orientation formula (multi-domain vertically alignment, MVA) display panels.

Background technology

At the multimedia fast development of society, depend on developing by leaps and bounds of semiconductor element or display device mostly.With regard to display, (Thin Film Transistor LiquidCrystal Display TFT-LCD) becomes the main flow in market gradually to have the Thin Film Transistor-LCD of high display quality, good space utilization efficient, low consumpting power, advantageous characteristic such as radiationless.

At present, market contrasts characteristics such as (high contrast ratio), the counter-rotating of no GTG (no gray scale inversion), colour cast little (low color shift), brightness height (highluminance), high color richness, high color saturation, rapid reaction and wide viewing angle for the performance requirement of LCD towards height.The technology that can realize the wide viewing angle requirement has at present comprised stable twisted nematic (twisted nematic, TN) liquid crystal adds view film (wide viewing film), copline suitching type (in-plane switching, IPS) LCD, limit suitching type (fringe field switching) LCD and multidomain vertical orientation formula Thin Film Transistor-LCD etc.At this, describe at existing multidomain vertical orientation LCD.

Figure 1A is the top view of pixel electrode in the single pixel of existing multidomain vertical orientation display panels, Figure 1B is the top view of common electrode layer in the single pixel of existing multidomain vertical orientation display panels, and the top view of Fig. 1 C after for stacking the closing of common electrode of the pixel electrode of Figure 1A and Figure 1B.In addition, the scan wiring in the pixel, data wiring and active component etc. have also been showed among Figure 1B, so that the relative position of these members and common electrode layer to be described.Wherein it should be noted that and also dispose Polarizer and following Polarizer (showing) in the both sides of display panels, and should about the penetrating shaft of Polarizer lay respectively at the direction of X and Y.

Please refer to Figure 1A and Figure 1B, in existing multidomain vertical orientation display panels, pixel electrode 110 has a plurality of main slits (main-slit) 112 and a plurality of thin slits (fine-slit) 114, and common electrode layer 120 also has a plurality of main slits 122 and a plurality of thin slits 124.Since main slit 112 with 122 and thin slit 114 and near 124 directions of an electric field can differ from other parts in the pixel, so the toppling direction of liquid crystal molecule will have more variation, and then reach the purpose of the angular field of view of increase display panels.

Fig. 2 is the stressed synoptic diagram of region R 12 place's liquid crystal molecules.Can find that by Figure 1A the edge of pixel electrode 110 all is straight line in each region R 10 with the R12 place, and different with the bearing of trend of thin slit 114 with the main slit 112 of pixel electrode 110.Please refer to Figure 1A and Fig. 2, the power that the edge of region R 12 interior pixel electrodes 110 puts on the liquid crystal molecule 130 is F12, and the power that the thin slit 114 of pixel electrode 110 puts on the liquid crystal molecule 130 then is F14.In other words, liquid crystal molecule 130 will be subjected to the power of different directions, and can't be poured onto suitable position (direction of F14) smoothly, so the orientation of the liquid crystal molecule 130 in the region R 12 is with wayward and produce dark line.Be head it off, common electrode layer 120 also can design the auxiliary slit (auxiliary-slit) 126 that is parallel to pixel electrode 110 edges in region R 10 with the R12 place, shown in Figure 1B.Please refer to Figure 1B and Fig. 2, because the power that auxiliary slit 126 puts on the liquid crystal molecule 130 is F16, power F16 court+directions X wherein, power F12 is court-directions X then, therefore liquid crystal molecule 130 suffered total force directions can also just can reduce the chance that region R 10 and R12 place produce dark line near the direction of power F14.

In the manufacture process of display panels, pixel electrode 110 is respectively formed on upper and lower two substrates with common electrode layer 120, and then with two substrate contrapositions and combination, so that pixel electrode 110 and common electrode layer 120 correct contraposition shown in Fig. 1 C.Yet, in case contraposition is not good in the assembling process of display panels, and making pixel electrode 110 and 120 on common electrode layer have bit errors, then auxiliary slit 126 can't produce effect as the aforementioned to the liquid crystal molecule in region R 10 and the R12, and make dark line occur once again.So, also deterioration significantly just of the display quality of multidomain vertical orientation display panels (as penetrance and reaction velocity etc.).

Summary of the invention

The purpose of this invention is to provide a kind of multidomain vertical orientation liquid crystal display panel, be suitable for solving the problem of the inaccurate display quality deterioration that causes of upper and lower substrate contraposition.

The present invention proposes a kind of multidomain vertical orientation liquid crystal display panel, and it comprises active elements array substrates, subtend substrate and liquid crystal layer.Active elements array substrates has plurality of scanning wirings, many data wirings, a plurality of active component and a plurality of pixel electrodes.Wherein, scan wiring is along first direction arrangement parallel to each other, and data wiring is along second direction arrangement parallel to each other, and data wiring and scan wiring define a plurality of pixel regions.Each active component is positioned at corresponding pixel region, and is driven by the scan wiring of correspondence.Each pixel electrode is positioned at corresponding pixel region, and is electrically connected corresponding active component to receive the corresponding signal that data wiring was transmitted.Each pixel electrode has a plurality of first main slit, and the first main slit has bending in the part near data wiring.The subtend substrate has the common electrode layer towards active elements array substrates.Liquid crystal layer is configured between active elements array substrates and the subtend substrate.

In the embodiment of this multidomain vertical orientation liquid crystal display panel, the common electrode layer has a plurality of second main slit, and the corresponding part near scan wiring of the second main slit has bending.

In the embodiment of this multidomain vertical orientation liquid crystal display panel, the common electrode layer has a plurality of second main slit and a plurality of second thin slit.The part second thin slit is along the second main slit arrangement, and other second thin slits are arranged along pairing pixel electrode edge.

The present invention also proposes a kind of multidomain vertical orientation liquid crystal display panel, and it comprises active elements array substrates, subtend substrate and liquid crystal layer.Active elements array substrates has plurality of scanning wirings, many data wirings, a plurality of active component and a plurality of pixel electrodes.Wherein, scan wiring is along first direction arrangement parallel to each other, and data wiring is along second direction arrangement parallel to each other, and data wiring and scan wiring define a plurality of pixel regions.Each active component is positioned at corresponding pixel region, and is driven by the scan wiring of correspondence.Each pixel electrode is positioned at corresponding pixel region, and is electrically connected corresponding active component to receive the corresponding signal that data wiring was transmitted.The subtend substrate has the common electrode layer towards active elements array substrates.Wherein, the common electrode layer has a plurality of second main slit, and the corresponding part near scan wiring of the second main slit has bending.Liquid crystal layer is configured between active elements array substrates and the subtend substrate.

In the embodiment of this multidomain vertical orientation liquid crystal display panel, the common electrode layer also has a plurality of second thin slit.The part second thin slit is along the second main slit arrangement, and other second thin slits are arranged along pairing pixel electrode edge.

The present invention also proposes a kind of multidomain vertical orientation liquid crystal display panel, and it comprises active elements array substrates, subtend substrate and liquid crystal layer.Active elements array substrates has plurality of scanning wirings, many data wirings, a plurality of active component and a plurality of pixel electrodes.Wherein, scan wiring is along first direction arrangement parallel to each other, and data wiring is along second direction arrangement parallel to each other, and data wiring and scan wiring define a plurality of pixel regions.Each active component is positioned at corresponding pixel region, and is driven by the scan wiring of correspondence.Each pixel electrode is positioned at corresponding pixel region, and is electrically connected corresponding active component to receive the corresponding signal that data wiring was transmitted.The subtend substrate has the common electrode layer towards active elements array substrates.Wherein, the common electrode layer has a plurality of second main slit and a plurality of second thin slit, and the part second thin slit is along the second main slit arrangement, and other second thin slits are arranged along pairing pixel electrode edge.

In sum, in multidomain vertical orientation liquid crystal display panel of the present invention, be to make the main slit of pixel electrode have bending, or make the main slit of common electrode layer have bending, to solve dark line problem in corresponding part near scan wiring in part near data wiring.In addition, on the common electrode layer, arrange a plurality of second thin slit, also dark line can be confined to by the data wiring along pairing pixel electrode edge.And above-mentioned various designs still can be brought into play the effect of improving dark line problem when having bit errors to produce.

For above-mentioned and other purposes, feature and advantage of the present invention can be become apparent, preferred embodiment cited below particularly, and in conjunction with the accompanying drawings, be described in detail below.

Description of drawings

Figure 1A is the top view of pixel electrode in the single pixel of existing multidomain vertical orientation display panels.

Figure 1B is the top view of common electrode layer in the single pixel of existing multidomain vertical orientation display panels.

The top view of Fig. 1 C after for stacking the closing of common electrode of the pixel electrode of Figure 1A and Figure 1B.

Fig. 2 is the stressed synoptic diagram of region R 12 place's liquid crystal molecules.

Fig. 3 is the partial cutaway schematic of multidomain vertical orientation liquid crystal display panel of the present invention.

Fig. 4 is the top view of a kind of embodiment of single pixel region in the multidomain vertical orientation liquid crystal display panel of the present invention.

Fig. 5 A is the top view of pixel electrode among Fig. 4.

Fig. 5 B is the stressed synoptic diagram of region R 40 place's liquid crystal molecules among Fig. 4.

Fig. 6 is the top view of common electrode layer among Fig. 4.

Fig. 7 is the top view of the another kind of embodiment of single pixel region in the multidomain vertical orientation liquid crystal display panel of the present invention.

Fig. 8 is the top view of pixel electrode among Fig. 7.

Fig. 9 is the top view of common electrode layer among Fig. 7.

Figure 10 is the top view of another embodiment of single pixel region in the multidomain vertical orientation liquid crystal display panel of the present invention.

Figure 11 is the top view of common electrode layer among Figure 10.

Figure 12 is the top view of the common electrode layer of single pixel region in the multidomain vertical orientation liquid crystal display panel of further embodiment of this invention.

The simple symbol explanation

110: pixel electrode

112,212: main slit

114,214: thin slit

120: the common electrode layer

126: auxiliary slit

130: liquid crystal molecule

R10, R12: zone

F12, F14, F16: power

X, Y, W, S: direction

300: multidomain vertical orientation liquid crystal display panel

310: active elements array substrates

320: the subtend substrate

330: liquid crystal layer

312: scan wiring

314: data wiring

316: active component

318: common electrode

410,420: pixel electrode

510,520,530,540: the common electrode layer

412,422,512,522,532,542: the first main slits

414,424,514,524,534,544: the first thin slits

R20, R30, R40: zone

Embodiment

The present invention proposes a kind of multidomain vertical orientation liquid crystal display panel, mainly is to do design on the layout of the main slit of pixel electrode and common electrode layer and thin slit, to solve the improper dark line problem that is caused of Liquid Crystal Molecules Alignment.Therefore, in the various embodiment of multidomain vertical orientation liquid crystal display panel of the present invention, the framework of other parts all can be general mutually, the use of can arranging in pairs or groups mutually of the main slit that difference is pixel electrode and common electrode layer and the various layouts of thin slit.Below, elder generation is described with regard to the basic framework of multidomain vertical orientation liquid crystal display panel of the present invention.Afterwards, distinguish the various layouts of main slit with the thin slit of pixels illustrated electrode and common electrode layer again.At last, enumerate the combination of wherein multiple pixel electrode and common electrode layer.Wherein, similar member will use same numeral.

Fig. 3 is the partial cutaway schematic of multidomain vertical orientation liquid crystal display panel of the present invention, and Fig. 4 is the top view of a kind of embodiment of single pixel region in the multidomain vertical orientation liquid crystal display panel of the present invention.Please refer to Fig. 3 and Fig. 4, multidomain vertical orientation liquid crystal display panel 300 of the present invention comprises active elements array substrates 310, subtend substrate 320 and liquid crystal layer 330.Active elements array substrates 310 has plurality of scanning wirings 312, many data wirings 314, a plurality of active component 316 and a plurality of pixel electrodes 410, and only respectively shows one among Fig. 4.Wherein, scan wiring 312 is along directions X arrangement parallel to each other, and 314 of data wirings are along the arrangement parallel to each other of Y direction, and data wiring 314 defines a plurality of pixel regions as shown in Figure 4 with scan wiring 312.Have an active component 316 and a pixel electrode 420 in each pixel region as shown in Figure 4, active component 316 is driven by the scan wiring 312 of correspondence, and pixel electrode 420 is electrically connected corresponding active component 316 to receive the signal that corresponding data wiring 314 is transmitted.In addition, active component 316 can be thin film transistor (TFT) (Thin Film Transistor, TFT) or other suitable active components.Also configurable on the active elements array substrates 310 have a common electrode 318, to form required pixel storage capacitor in each pixel region.Subtend substrate 320 has a common electrode layer 540 towards active elements array substrates 310.Subtend substrate 320 can be a colored optical filtering substrates, and perhaps color filter film (not showing) also can be formed on the active elements array substrates 310.Liquid crystal layer 330 is configured between active elements array substrates 310 and the subtend substrate 320.

Fig. 5 A is the top view of pixel electrode among Fig. 4.Also display scan distribution 312, data wiring 314 and active component 316 among Fig. 5 A are to illustrate the relative position of these members and pixel electrode 420.Please refer to Fig. 5 A, pixel electrode 420 has a plurality of first main slit 422, and the first main slit 422 has bending in the part near data wiring 314, the first main slit 422 after the bending for example extends along directions X basically, and other parts of the first main slit 422 are extended along S direction (the first main slit 422 of top among Fig. 5 A) and W direction (the first main slit 422 of below among Fig. 5 A) in the present embodiment basically.

Because the first main slit 422 is in the design of having done bending near the part of data wiring 314, therefore can reduce at the linear edge of region R 30, also just solve region R 30 and the improper dark line problem that causes of R40 place Liquid Crystal Molecules Alignment with R40 place pixel electrode 420.And, because the first main slit 422 has bending (for example the approximate vertical data wiring 314) in the part near data wiring 314, even, also still can bring into play the effect of the dark line problem that solves region R 30 and R40 place so pixel electrode 420 in follow-up and the common electrode layer contraposition process of (showing) bit errors takes place.

In addition, pixel electrode 420 also can have a plurality of first thin slit 424, and the first thin slit 424 of the small part that arrives is connected to the first main slit 422.These first thin slits 424 extend along W direction (the first thin slit 424 of top among Fig. 5 A) and S direction (the first thin slit 424 of below among Fig. 5 A) in the present embodiment basically.

Fig. 6 is the top view of common electrode layer among Fig. 4.Also display scan distribution 312, data wiring 314 and active component 316 among Fig. 6 are to illustrate the relative position of these members and common electrode layer 540.Please refer to Fig. 5 A and Fig. 6,, therefore weakened between region R 20 and the region R 30 standard power for liquid crystal molecule because the first main slit 422 of the pixel electrode 420 of Fig. 5 A produces bending in the part near data wiring 314.For providing better suited standard power to the liquid crystal molecule between region R 20 and region R 30, common electrode layer 540 also designs between region R 20 and region R 30 and is distributed with the second thin slit 544, and pixel electrode 420 then designs between region R 20 and region R 30 and is distributed with the second thin slit 424.Thus, can improve display quality.

Please refer to Fig. 4, present embodiment is in conjunction with the pixel electrode 420 of Fig. 5 A and the common electrode layer 540 of Fig. 6, therefore can bring into play both advantages and solves the dark line problem at region R 20, R30 and R40 place.Below, use Fig. 5 B that the stressed of region R 40 place's liquid crystal molecules among Fig. 4 is described.Please refer to Fig. 4 and Fig. 5 B, the power that the edge of region R 40 interior pixel electrodes 420 puts on the liquid crystal molecule 230 is F22, and the power that the first thin slit 424 of pixel electrode 420 puts on the liquid crystal molecule 230 then is F24.The power that the second thin slit 544 of common electrode layer 540 puts on the liquid crystal molecule 230 is F26, wherein power F24 and F26 are court+W directions, power F22 then is a court-directions X, therefore liquid crystal molecule 130 suffered total force directions can have similar arrangement near the W direction to other regional liquid crystal molecules, also just can reduce the chance that region R 10 and R12 place produce dark line.

Fig. 7 is the top view of the another kind of embodiment of single pixel region in the multidomain vertical orientation liquid crystal display panel of the present invention, and Fig. 8 is the top view of pixel electrode among Fig. 7, and Fig. 9 is the top view of common electrode layer among Fig. 7.Also display scan distribution 312, data wiring 314 and active component 316 among Fig. 9 are to illustrate the relative position of these members and common electrode layer 510.In fact, common electrode layer 510 is formed on subtend substrate (not showing), and scan wiring 312, data wiring 314 then are formed on active elements array substrates (not showing) with active component 316.Please refer to Fig. 7 and Fig. 8, pixel electrode 410 is similar to the pixel electrode 420 of Fig. 5 A.Then please refer to Fig. 7 and Fig. 9, common electrode layer 510 has a plurality of second main slit 512, and the second main slit 512 has bending in corresponding part near scan wiring 312, the second main slit 512 after the bending for example extends along directions X basically, and other parts of the second main slit 512 are then extended along S direction (the second main slit 512 of top among Fig. 9) and W direction (the second main slit 512 of below among Fig. 9) in the present embodiment basically.Because therefore the second main slit 512 can replace the design of existing auxiliary slit in the design of having done bending near the part of scan wiring 312, has also just solved the improper dark line problem that causes of region R 20 place's Liquid Crystal Molecules Alignment.

In addition, common electrode layer 510 also can have a plurality of second thin slit 514, and the second thin slit 514 of the small part that arrives is connected to the second main slit 512.These second thin slits 514 extend along W direction (the second thin slit 514 of top among Fig. 9) and S direction (the second thin slit 514 of below among Fig. 9) in the present embodiment basically.Because the second thin slit 514 at region R 20 places has increased than prior art,, also still can bring into play the effect of the dark line problem at solution region R 20 places even therefore common electrode layer 510 in follow-up and the pixel electrode contraposition process of (showing) bit errors takes place.Please refer to Fig. 7, present embodiment is in conjunction with the pixel electrode 410 of Fig. 8 and the common electrode layer 510 of Fig. 9, therefore can bring into play both advantages and solves the dark line problem at region R 20, R30 and R40 place.

Figure 10 is the top view of another embodiment of single pixel region in the multidomain vertical orientation liquid crystal display panel of the present invention, and Figure 11 is the top view of common electrode layer among Figure 10.Also display scan distribution 312, data wiring 314 and active component 316 among Figure 11.Please refer to Figure 11, this common electrode layer 520 has the second main slit 522 and the second thin slit 524.The common electrode layer 520 of Figure 11 is that with the difference of the common electrode layer 510 of Fig. 9 the second main slit 522 of top all extends along the S direction basically among whole piece Figure 11, and the second main slit 522 of below all extends along the W direction basically among whole piece Figure 11.Simultaneously, at the thin slit 524 of second on the common electrode layer 510 except along the second main slit 522 is arranged, still have the part the second thin slit 524 along with pairing pixel electrode (for example pixel electrode 110 of Figure 10) the corresponding common electrode layer 510 in edge on parallel arranged, as region R 20, R30 and R40.At this moment, it is other with data wiring 312 that dark line will be limited in scan wiring 314, and remainder then dark line can not occur because of the good standard that liquid crystal molecule is subjected to the second thin slit 524.Thus, can reach the purpose that improves display quality equally.And, because region R 20, R30 and R40 have the second thin slit 524 of part, even therefore common electrode layer 520 in follow-up and the pixel electrode contraposition process of (showing) bit errors takes place, also still can bring into play the effect that the dark line at region R 20, R30 and R40 place is confined to the pixel region edge.Please refer to Figure 10, present embodiment is in conjunction with the existing pixel electrode 110 of Figure 1A and the common electrode layer 520 of Figure 11.

Figure 12 is the top view of the common electrode layer of single pixel region in the multidomain vertical orientation liquid crystal display panel of further embodiment of this invention.Also display scan distribution 312, data wiring 314 and active component 316 among Figure 12.Please refer to Figure 12, this common electrode layer 530 has the second main slit 532 and the second thin slit 534.The common electrode layer 510 that the common electrode layer 530 of Figure 12 has made up Fig. 9 is in the common electrode layer 520 of the feature of region R 20 and Figure 11 feature in region R 40.Therefore, the common electrode layer 530 of Figure 12 can solve the improper dark line problem that causes of Liquid Crystal Molecules Alignment at region R 20 places, then dark line can be confined to data wiring 312 at region R 40 places other, and then reach the purpose that improves display quality, and still bring into play effect when bit errors takes place.

By Fig. 6,9,11 and 12 as can be known, in the multidomain vertical orientation liquid crystal display panel of the present invention, on the common electrode layer, can adopt the improvement design of region R 30 and the three major types such as region R 20 of R40 and Fig. 6 of region R 20, Figure 11 of Fig. 9, and these designs also can be used in combination mutually, all do not enumerate one by one at this.

It should be noted that, though only multidomain vertical orientation liquid crystal display panel of the present invention is described with Fig. 4, Fig. 7 and Figure 10 at this, three kinds of combinations of single pixel region interior pixel electrode and common electrode layer, but still have many embodiment to have various combination of features among Fig. 5 A, 6,8,9,11 and 12, omit its introduction at this.In addition, by the embodiment of Figure 10 as can be known, in the multidomain vertical orientation liquid crystal display panel of the present invention, the existing common electrode layer of also can arranging in pairs or groups of the pixel electrode with aforementioned various features, and the existing pixel electrode of also can arranging in pairs or groups of the common electrode layer with aforementioned various features.

In sum, in multidomain vertical orientation liquid crystal display panel of the present invention, be to make the main slit of pixel electrode have bending,, and then solve the improper dark line problem that causes of Liquid Crystal Molecules Alignment with the linear edge of minimizing pixel electrode in part near data wiring.Perhaps, make the main slit of common electrode layer have bending, replace the design of existing auxiliary slit, to solve dark line problem in corresponding part near scan wiring.Perhaps, on the common electrode layer, arrange a plurality of second thin slit, so that dark line is confined to by the scan wiring along pairing pixel electrode edge.Above-mentioned various design not only can improve the display quality of multidomain vertical orientation liquid crystal display panel, and still can bring into play effect when pixel electrode and common electrode layer have bit errors to produce.

Though the present invention discloses as above with preferred embodiment; yet it is not in order to limit the present invention; any those skilled in the art; without departing from the spirit and scope of the present invention; can do a little change and modification to it, thus protection scope of the present invention with claims the person of being defined be as the criterion.

Claims (10)

1. multidomain vertical orientation liquid crystal display panel comprises:

Active elements array substrates, has plurality of scanning wirings, many data wirings, a plurality of active components and a plurality of pixel electrode, wherein this plurality of scanning wirings is along first direction arrangement parallel to each other, these many data wirings are along second direction arrangement parallel to each other, these many data wirings and this plurality of scanning wirings define a plurality of pixel regions, each active component is positioned at this corresponding pixel region, and this scan wiring by correspondence drives, and each pixel electrode is positioned at this corresponding pixel region and be electrically connected this corresponding active component to receive the corresponding signal that this data wiring was transmitted, each pixel electrode has a plurality of first main slit, and this a plurality of first main slit has bending in the part near these many data wirings, and the first main slit of this after the bending is vertical with these many data wirings;

The subtend substrate has the common electrode layer towards this active elements array substrates; With

Liquid crystal layer is configured between this active elements array substrates and this subtend substrate.

2. multidomain vertical orientation liquid crystal display panel as claimed in claim 1, wherein this common electrode layer has a plurality of second main slit, and the corresponding part near this plurality of scanning wirings of this a plurality of second main slit has bending.

3. multidomain vertical orientation liquid crystal display panel as claimed in claim 2, wherein this common electrode layer also has a plurality of second thin slit.

4. multidomain vertical orientation liquid crystal display panel as claimed in claim 3 is wherein to this a plurality of second thin this a plurality of second main slit of slit connection of small part.

5. multidomain vertical orientation liquid crystal display panel as claimed in claim 1, wherein this common electrode layer has a plurality of second main slit and a plurality of second thin slit.

6. multidomain vertical orientation liquid crystal display panel as claimed in claim 5, wherein this a plurality of second thin slit of part is along the second main slit arrangement, and other this a plurality of second thin slit is arranged along pairing this pixel electrode edge.

7. multidomain vertical orientation liquid crystal display panel as claimed in claim 5 is wherein to this a plurality of second thin this a plurality of second main slit of slit connection of small part.

8. multidomain vertical orientation liquid crystal display panel as claimed in claim 1, wherein these a plurality of pixel electrodes also have a plurality of first thin slit.

9. multidomain vertical orientation liquid crystal display panel as claimed in claim 8 is wherein to this a plurality of first thin this a plurality of first main slit of slit connection of small part.

10. multidomain vertical orientation liquid crystal display panel as claimed in claim 1, wherein this a plurality of first main slit is the sealing slit.

Images