CN101702064A - Display panel - Google Patents

Abstract

The invention discloses a display panel, comprising a plurality of stay wire sets, wherein each stay wire set consists of a plurality of stay wires and the multiple stay wires extend along the same linear direction substantially; each stay wire is provided with a first part and a second part which are respectively arranged on opposite sides of sealant, the first part is arranged between the sealant and an active area of the display panel, and the shortest distance of any two adjacent stay wire sections in the first part is greater than that of any two adjacent stay wire sections in the second part. In addition, the shortest distance between any two adjacent stay wire sections in the first part is 15-35mu m. The design of the stay wire group can reduce electric field interference between adjacent stay wires and avoid light leak to improve the display quality.

Description

Display panel

Technical field

The present invention relates to a kind of display panel, and particularly relevant for a kind of display panel that reduces light leak by the Electric Field Distribution that changes periphery circuit region.

Background technology

In recent years along with the maturation of photoelectric technology and semiconductor fabrication, driven flat-panel screens (FlatPanel Display, FPD) flourish, wherein LCD is based on advantage such as its low voltage operating, radiationless line scattering, in light weight and volume be little, replaces traditional cathode-ray tube display more gradually and becomes the main flow of display product in recent years.

Fig. 1 is a kind of vertical view of known display panels.As shown in Figure 1, the display panels 100 periphery circuit region 100b that has active region 100a and be positioned at active region 100a periphery.Be provided with the dot structure (not illustrating) of array configurations in the active region 100a, and dot structure is connected to outer member by the stay wire groups 150 that is positioned at periphery circuit region 100b, as soft support plate or chip for driving etc.

Fig. 2 is the sectional view of the display panels 100 of Fig. 1 in the position of stay wire groups 150.Please be simultaneously with reference to Fig. 1 and 2, liquid crystal layer 130 is disposed between upper substrate 120 and the infrabasal plate 110, and frame glue (sealant) 140 centers on liquid crystal layer 130, and can pass through stay wire groups 150.In fact, the stay wire groups 150 of a frame glue 140 and a part can be covered by the upper substrate of display panels 100, but still draw complete frame glue 140 and stay wire groups 150 for knowing expression cassette glue 140 and the position of stay wire groups 150 on display panels 100, Fig. 1.

In foregoing liquid crystal display panel 100, still there is liquid crystal layer 130 in stay wire groups 150 tops that are positioned at frame glue 140 inboards, wherein owing to have voltage difference between the common electrode 170 of stay wire groups 150 and upper substrate 120, the arrangement of the liquid crystal molecule 132 that liquid crystal layer 130 is interior still can be subjected to the influence of the electric field E that this voltage difference produces.Particularly, the spacing P1 of adjacent two backguys 152 in stay wire groups 150 is very little, or when continuously the spacing P2 of a backguy 152 its adjacent sections 152a of bending (meandering) is very little, the capital is producing the electric field interference between these adjacent two backguys 152 or between two adjacent sections 152a, and it is more chaotic to cause liquid crystal molecule 132 to be arranged, and causes light leak.

Especially, the black matrix 160 of stay wire groups 150 tops only can provide shaded effect to a certain degree, is difficult to stop fully the generation of light leak.In addition, even display panels 100 is after being assembled into liquid crystal indicator, framework or shell (not illustrating) around the display panels 100 also have shaded effect, but still can be because structural design restriction or assembling deviation, and the generation light leak influences display quality.

Summary of the invention

The invention provides a kind of display panel, the electric field that the design of its stay wire groups can reduce between the adjacent backguy disturbs, and avoids light leak.

For specifically describing content of the present invention, at this a kind of display panel is proposed, it has active region and periphery circuit region.This display panel comprises active component array base board, subtend substrate, display medium and frame glue.Active component array base board has a plurality of dot structures and a plurality of stay wire groups, and wherein dot structure is disposed in the active region with array way, and stay wire groups is positioned at periphery circuit region and connect its pairing dot structure respectively.Each stay wire groups comprises many backguys side by side, and described many backguys are extended along same rectilinear direction in fact.Subtend substrate and active component array base board are oppositely arranged.Display medium is disposed between active component array base board and the subtend substrate.Frame glue is disposed between active component array base board and the subtend substrate, and around display medium.Frame glue is by each stay wire groups, each stay wire groups has a first and a second portion that lays respectively at the relative both sides of frame glue, wherein first is between frame glue and active region, and in the first bee-line of wantonly two adjacent backguy sections greater than the bee-line of wantonly two adjacent backguy sections in the second portion.

In one embodiment, above-mentioned subtend substrate has a light shield layer, and light shield layer covers the first of each stay wire groups.

In one embodiment, each backguy is continuously the bending form.

In one embodiment, each above-mentioned backguy is formed by connecting in regular turn and alternately by a plurality of first backguy sections and a plurality of second backguy section.Described a plurality of first backguy section has one first identical length direction, and described a plurality of second backguy section has one second identical length direction, and first length direction is in fact perpendicular to second length direction.

The bearing of trend of the backguy under in one embodiment, first length direction of each above-mentioned first backguy section is parallel in fact.

In one embodiment, in the above-mentioned first bee-line of described a plurality of first backguy sections of wantonly two adjacent backguys greater than the bee-line of described a plurality of first backguy sections of wantonly two adjacent backguys in the second portion.

In one embodiment, in the above-mentioned first bee-line of the two adjacent second backguy sections of a backguy greater than the bee-line of the two adjacent second backguy sections of a backguy in the second portion.

In one embodiment, the bee-line of wantonly two adjacent backguy sections is about 15 μ m to 35 μ m in the above-mentioned first.

More propose a kind of display panel at this, it has active region and periphery circuit region.Display panel comprises active component array base board, subtend substrate, display medium and frame glue.Active component array base board has a plurality of dot structures and a plurality of stay wire groups, and wherein dot structure is disposed in the active region with array way, and stay wire groups is positioned at periphery circuit region and connect its pairing dot structure respectively.Each stay wire groups comprises many backguys side by side.Subtend substrate and active component array base board are oppositely arranged.Display medium is disposed between active component array base board and the subtend substrate.Frame glue is disposed between active component array base board and the subtend substrate, and around display medium.Frame glue is by each stay wire groups, and stay wire groups has the first between frame glue and active region, and the bee-line of wantonly two adjacent backguy sections is about 15 μ m to 35 μ m in the first.

In one embodiment, above-mentioned subtend substrate has a light shield layer, and light shield layer covers the first of each stay wire groups.

In one embodiment, above-mentioned each backguy is continuously the bending form.

In one embodiment, each backguy of above-mentioned first is formed by connecting in regular turn and alternately by a plurality of first backguy sections and a plurality of second backguy section.Described a plurality of first backguy section has one first identical length direction, and described a plurality of second backguy section has one second identical length direction, and first length direction is in fact perpendicular to second length direction.

The bearing of trend of the backguy under in one embodiment, first length direction of above-mentioned each first backguy section is parallel in fact.

In one embodiment, the bee-line of the first backguy section of wantonly two adjacent backguys is about 15 μ m to 35 μ m in the above-mentioned first.

In one embodiment, the bee-line of the two adjacent second backguy sections of a backguy is about 15 μ m to 35 μ m in the above-mentioned first.

Based on above-mentioned, the present invention designs the backguy layout of display panel, to optimize the Electric Field Distribution between frame glue and the active region.So, the electric field that can effectively reduce between the adjacent backguy disturbs, and alleviates the confusion degree of liquid crystal arrangement, avoids light leak, to obtain better display quality.

For above-mentioned feature and advantage of the present invention can be become apparent, embodiment cited below particularly, and cooperate appended accompanying drawing to be described in detail below.

Description of drawings

Fig. 1 is the vertical view of known a kind of display panels;

Fig. 2 is the sectional view of the display panels of Fig. 1 in the position of stay wire groups;

Fig. 3 is the vertical view according to a kind of display panel of one embodiment of the invention;

Fig. 4 is the part sectioned view of the display panel of Fig. 3;

Fig. 5 is the partial enlarged drawing of the stay wire groups of Fig. 3;

Fig. 6 illustrates the design according to the another kind of stay wire groups of one embodiment of the invention;

Fig. 7 illustrates the design according to another stay wire groups of one embodiment of the invention;

Fig. 8 and Fig. 9 have more illustrated the stay wire groups according to the different kenels of other embodiment of the present invention.

Wherein, Reference numeral

100: display panels 100a: active region

100b: periphery circuit region 110: infrabasal plate

120: upper substrate 130: liquid crystal layer

132: liquid crystal molecule 140: frame glue

150: stay wire groups 152: backguy

152a: backguy section E: electric field

P1: the spacing P2 of adjacent two backguys: the spacing of two adjacent backguy sections of a backguy

160: black matrix 170: common electrode

300: display panel 300a: active region

300b: periphery circuit region 310: active component array base board

312: dot structure 312a: thin film transistor (TFT)

312b: pixel electrode 320: subtend substrate

322: black matrix 324: chromatic filter layer

326: common electrode 330: display medium

340: frame glue 350: stay wire groups

350a: the 350b of first of stay wire groups: the second portion of stay wire groups

352: backguy 352a: the first backguy section

352b: the second backguy section S1, S2: the bee-line of two adjacent backguys

840: frame glue W1, W2: the bee-line of two adjacent region sections in backguy

850: stay wire groups 852: backguy

852a: backguy section Q1: the bee-line between the backguy section

940: frame glue 950: stay wire groups

952: backguy Q2: the bee-line between the kink of two adjacent backguys

R: the kink of backguy

Embodiment

Fig. 3 is the vertical view according to a kind of display panel of one embodiment of the invention.Fig. 4 is the part sectioned view of the display panel of Fig. 3.

Shown in Fig. 3 and 4, the periphery circuit region 300b that display panel 300 has active region 300a and is positioned at active region 300a periphery.This display panel 300 comprises active component array base board 310, subtend substrate 320, display medium 330 and frame glue 340.Active component array base board 310 has a plurality of dot structures 312 and a plurality of stay wire groups 350, wherein dot structure 312 is disposed in the active region 300a with array way, and stay wire groups 350 is positioned at periphery circuit region 300b and electrically connect its pairing dot structure 312 respectively.Furthermore, stay wire groups 350 be electrically connected between the grid of dot structure 312 and the outside gate drivers or the source electrode driver of the source electrode that is electrically connected at dot structure 312 and outside between.

In addition, subtend substrate 320 is oppositely arranged with active component array base board 310.Display medium 330 is disposed between active component array base board 310 and the subtend substrate 320.Frame glue 340 is disposed between active component array base board 3 10 and the subtend substrate 320, and around display medium 330.In fact, the stay wire groups 350 of a frame glue 340 and a part can be covered by subtend substrate 320, but for knowing that expression cassette glue 340 and the position of stay wire groups 350 on display panel 300, Fig. 3 still draw complete frame glue 340 and stay wire groups 350.

In the present embodiment, dot structure 312 can be common framework in the existing display panel technology for example, for example comprises elements such as thin film transistor (TFT) 312a and pixel electrode 312b.In other words, active component array base board 310 for example is a thin-film transistor array base-plate, and subtend substrate 320 for example is a colored optical filtering substrates, and it has elements such as black matrix 322, chromatic filter layer 324 and common electrode 326.In addition, display medium 330 for example is liquid crystal or other display mediums.Those skilled in the art can replace or adjust the kind of the framework and the display medium 330 of dot structure 312 according to existing know-how, do not give unnecessary details herein.

In addition, active component array base board 310 can also be to have integrated chromatic filter layer or the COA substrate or the BOA substrate of the making of black matrix, and along with the type of different active component array base board 310 or different design requirements, subtend substrate 320 may omit chromatic filter layer 324 or black matrix 322.

Fig. 5 is the partial enlarged drawing of the stay wire groups 350 of Fig. 3.As shown in Figure 5, each stay wire groups 350 comprises many backguys 352 side by side, and described many backguys 352 extend along same rectilinear direction in fact, and each backguy 352 be to bend form continuously.The backguy 352 of indication in the present embodiment encloses parallel side by side the backguy 352 of zone in 350 for the dotted line of Fig. 5, and does not comprise other backguys of being carried out towards active region 300a by backguy 352.In addition, frame glue 340 is by each stay wire groups 350.Each stay wire groups 350 has a 350a of first and a second portion 350b who lays respectively at frame glue 340 relative both sides, and wherein the 350a of first is between frame glue 340 and active region 300a, and second portion 350b then is positioned at the opposite side of frame glue 340.In other words, the 350a of first is because of being positioned at frame glue 340, and corresponding to the display medium 330 of a part.In addition, under possible situation, can cover the 350a of first of each stay wire groups 350 on the subtend substrate 320 as the black matrix 322 of light shield layer, with the light leak of the periphery circuit region 300b that reduces contiguous display medium 330 edges.

Consider that known technology is because of the too small electric field interference problem that causes of backguy 352 spacings, present embodiment may allow display medium 330 starts cause the backguy 352 of the 350a of first of light leak to design unusually at being positioned at frame glue 340, wherein among the 350a of first the bee-line of wantonly two adjacent backguy sections greater than the bee-line of wantonly two adjacent backguy sections among the second portion 350b.In other words, promptly be the bee-line that has enlarged among the 350a of first wantonly two adjacent backguy sections, avoid the two adjacent electric fields that the backguy section produced because too near and the phase mutual interference.The bee-line of described herein wantonly two adjacent backguy sections can be the bee-line between the two adjacent different backguys 352, or the bee-line that refers to two adjacent region sections of single backguy 352 because backguy 352 is designed to bend form continuously.

Fig. 5 illustrates the framework that the bee-line between the two adjacent different backguys 352 is designed, and wherein the bee-line S1 of two adjacent backguys 352 in the 350a of first is greater than the bee-line S2 of two adjacent backguys 352 in the second portion 350b.

More specifically, the backguy 352 that Fig. 5 illustrated is formed by connecting by a plurality of first backguy section 352a and a plurality of second backguy section 352b in regular turn and alternately for bending form continuously.Described a plurality of first backguy section 352a has one first identical length direction, i.e. Y direction on the drawing; And described a plurality of second backguy section 352b has one second identical length direction, i.e. directions X on the drawing, and first length direction (Y direction) is in fact perpendicular to second length direction (directions X).In addition, in the present embodiment, the bearing of trend of the backguy 352 of first length direction of each first backguy section 352a (Y direction) under being parallel in fact, and second length direction (directions X) of each second backguy section 352b is in fact perpendicular to the bearing of trend of affiliated backguy 352.In other words, in the framework that Fig. 5 illustrated, the bee-line S1 of described a plurality of first backguy section 352a of wantonly two adjacent backguys 352 is greater than the bee-line S2 of described a plurality of first backguy section 352a of wantonly two adjacent backguys 352 among the second portion 350b among the 350a of first.

Roughly continue to use the framework of Fig. 5, Fig. 6 illustrates the design according to the another kind of stay wire groups of one embodiment of the invention, wherein adopts same numeral to represent identical or similar elements, and no longer identical or similar elements is repeated to introduce.As shown in Figure 6, bee-line to two adjacent region sections in single the backguy 352 designs, and wherein the bee-line W1 of two adjacent region sections of a backguy 352 in the 350a of first is greater than the bee-line W2 of two adjacent region sections in this backguy 352 in the second portion 350b or another backguy 352.

In other words, if the backguy 352 of Fig. 6 is identical Curved Continuous fold-type attitude with the backguy 352 of Fig. 5, then the bee-line W1 of two of a backguy 352 adjacent second backguy section 352b can be greater than the bee-line W2 of two adjacent second backguy section 352b of same or another backguy 352 among the second portion 350b among the 350a of first.

In addition, the present invention also can be simultaneously designs the bee-line of two adjacent region sections in the bee-line between the two adjacent different backguys and single the backguy.Roughly continue to use the framework of Fig. 5 and 6, Fig. 7 illustrates the design according to another stay wire groups of one embodiment of the invention, wherein adopts same numeral to represent identical or similar elements, and no longer identical or similar elements is repeated to introduce.As shown in Figure 7, bee-line to two adjacent region sections in the bee-line between the two adjacent different backguys 352 and the backguy 352 designs simultaneously, wherein the bee-line S1 of two adjacent backguys 352 in the 350a of first is greater than the bee-line S2 of two adjacent backguys 352 in the second portion 350b, and in the backguy 352 in the 350a of first the bee-line W1 of two adjacent region sections greater than the bee-line W2 of two adjacent region sections in same in the second portion 350b or another backguy 352.

In other words, if the backguy 352 of Fig. 7 is identical Curved Continuous fold-type attitude with the backguy 352 of Fig. 5 and 6, then the bee-line S1 of described a plurality of first backguy section 352a of wantonly two adjacent backguys 352 is greater than the bee-line S2 of described a plurality of first backguy section 352a of wantonly two adjacent backguys 352 among the second portion 350b among the 350a of first, and the bee-line W1 of the two adjacent second backguy section 352b of a backguy 352 can be greater than the bee-line W2 of two adjacent second backguy section 352b of same or another backguy 352 among the second portion 350b among the 350a of first.

On the other hand, defined bee-line S1 or bee-line W1 can further be designed in a preferable numerical range among aforementioned a plurality of embodiment.Preferable 15 μ m to the 35 μ m that are about of aforesaid bee-line S1 or bee-line W1, the electric field that so can significantly reduce between the adjacent backguy section disturbs, and obtains preferable display effect.

Aforementioned a plurality of embodiment serves as the relation of bee-line that boundary designs the adjacent backguy section of the relative both sides of frame glue with frame glue, to obtain preferable Electric Field Distribution.Yet, in other embodiments of the invention, can also not consider the magnitude relationship of bee-line of the adjacent backguy section of the relative both sides of frame glue, but only design at the spacing between the backguy section of frame glue inboard (being aforesaid first).In other words, promptly be that aforesaid bee-line S1 or bee-line W1 are designed to about 15 μ m to 35 μ m, disturb with the electric field that reduces between the adjacent backguy section, and obtain preferable display effect.

Certainly, the backguy kenel that the present invention is suitable for is not limited only to the backguy kenel that aforementioned a plurality of embodiment illustrates, and defined bee-line S1 or bee-line W1 also can be along with the backguy kenel is different.Fig. 8 and Fig. 9 have more illustrated the stay wire groups according to the different kenels of other embodiment of the present invention.In the stay wire groups 850 that Fig. 8 illustrated, that need to consider promptly is bee-line Q1 between the backguy section 852a of two adjacent backguys 852 of frame glue 840 inboards.In addition, the kink R of stay wire groups 950 its backguys 952 that Fig. 9 illustrates has arc angle, and that need to consider promptly is bee-line Q2 between the kink R of two adjacent backguys 952 of frame glue 940 inboards.

In sum, the present invention designs the backguy layout of display panel, the spacing of backguy section that wherein makes contiguous active region one side of frame glue is greater than the spacing of the backguy section of frame glue opposite side, or the spacing size of the backguy section between adjustment frame glue and the active region, to adjust the Electric Field Distribution between frame glue and the active region.Because the bee-line between the adjacent backguy section is adjusted in the desirable scope, the electric field that therefore can reduce between the adjacent backguy disturbs, and then alleviates the confusion degree of liquid crystal arrangement, avoids light leak.Display panel of the present invention can have good display quality.

Certainly; the present invention also can have other various embodiments; under the situation that does not deviate from spirit of the present invention and essence thereof; those of ordinary skill in the art work as can make various corresponding changes and distortion according to the present invention, but these corresponding changes and distortion all should belong to the protection domain of the appended claim of the present invention.

Claims (10)

1. a display panel has an active region and a periphery circuit region, it is characterized in that this display panel comprises:

One active component array base board, have a plurality of dot structures and a plurality of stay wire groups, these dot structures are disposed in this active region with array way, and described stay wire groups is positioned at this periphery circuit region and electrically connect its pairing these dot structures respectively, and each stay wire groups comprises many backguys;

One subtend substrate is oppositely arranged with this active component array base board;

One display medium is disposed between this active component array base board and this subtend substrate; And

One frame glue, be disposed between this active component array base board and this subtend substrate, and around this display medium, this frame glue is substantially by in described each stay wire groups at least one, this stay wire groups has a first and a second portion that lays respectively at these relative both sides of frame glue, wherein this first is between this frame glue and this active region, and in this first the bee-line of wantonly two adjacent backguy sections greater than the bee-line of wantonly two adjacent backguy sections in this second portion.

2. display panel according to claim 1 is characterized in that, this subtend substrate has a light shield layer, and this light shield layer covers this first of each stay wire groups.

3. display panel according to claim 1 is characterized in that, each backguy is continuously the bending form.

4. display panel according to claim 3, it is characterized in that, each backguy is formed by connecting in regular turn and alternately by a plurality of first backguy sections and a plurality of second backguy section, these first backguy sections have one first identical length direction, and these second backguy sections have one second identical length direction, and this first length direction is in fact perpendicular to this second length direction, and wherein this first length direction of each first backguy section is parallel to the bearing of trend of this affiliated backguy in fact.

5. display panel according to claim 4 is characterized in that, the bee-line of the described first backguy section of wantonly two adjacent backguys is greater than the bee-line of the described first backguy section of wantonly two adjacent backguys in the second portion in this first.

6. display panel according to claim 4 is characterized in that, the bee-line of the two adjacent second backguy sections of a backguy in this first is greater than the bee-line of the two adjacent second backguy sections of a backguy in the second portion.

7. display panel according to claim 1, wherein the bee-line of wantonly two adjacent backguy sections is about 15 μ m to 35 μ m in this first.

8. a display panel has an active region and a periphery circuit region, it is characterized in that this display panel comprises:

One active component array base board, have a plurality of dot structures and a plurality of stay wire groups, these dot structures are disposed in this active region with array way, and these stay wire groups are positioned at this periphery circuit region and electrically connect its pairing described dot structure respectively, and each stay wire groups comprises many backguys;

One subtend substrate is oppositely arranged with this active component array base board;

One display medium is disposed between this active component array base board and this subtend substrate; And

One frame glue, be disposed between this active component array base board and this subtend substrate, and around this display medium, this frame glue is by each stay wire groups, and this stay wire groups has the first between this frame glue and this active region, and the bee-line of wantonly two adjacent backguy sections is about 15 μ m to 35 μ m in this first.

9. display panel according to claim 8 is characterized in that, this subtend substrate has a light shield layer, and this light shield layer covers this first of each stay wire groups.

10. display panel according to claim 8 is characterized in that, each backguy is continuously the bending form.

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