CN102221760B - Array substrate and liquid crystal display panel - Google Patents

Abstract

The invention provides an array substrate and a liquid crystal display panel. The array substrate comprises a transparent substrate and a plurality of opaque distribution wires positioned on the transparent substrate; the plurality of distribution wires extend and pass through a frame glue area; random one of the plurality of distribution wires has periodical waveform bent patterns in the frame glue area; and the period of the waveform bent patterns of the distribution wires is staggered relative to the adjacent distribution wires. The liquid crystal display panel comprises the array substrate, an opposed substrate opposite to the array substrate and frame glue stuck between the two substrates; the frame glue is stuck to the frame glue area of the array substrate; the frame glue is sealed between the two substrates to form a display area; and a liquid crystal layer is filled in the display area. The frame glue is quickly cured without increasing the power consumption, so that the production efficiency is improved.

Description

Array base palte and display panels

[technical field]

The present invention relates to field of liquid crystal display, particularly have array base palte and the display panels of special distribution structure.

[background technology]

Liquid crystal display (Liquid Crystal Display, LCD) has that image quality is good, volume is little, lightweight, low driving voltage, low-power consumption, radiationless and advantage that manufacturing cost is relatively low, occupies an leading position in the flat pannel display field at present.Liquid crystal display is fit to be applied in desk-top computer, palmtop computer, personal digital assistant (Personal Digital Assistant, PDA), portable phone, TV and multiple office automation and the audio-visual equipment very much.

Display panels is the primary clustering of liquid crystal display, display panels commonly used is by thin film transistor (TFT) (Thin Film Transistor, TFT) array base palte, colored filter (ColorFilter, CF) substrate and the liquid crystal layer that is clipped between the two substrates form.Usually, utilize frame glue (Sealant) that two substrates is fit together, the liquid crystal that prevents from being clipped in therebetween flows out.

Generally speaking, frame glue is to be coated on the thin-film transistor array base-plate, afterwards dispenser method and make colored filter substrate and its applying.Wherein, have black matrix" (BlackMatrix, BM) on the colored filter substrate, and frame glue is with respect to the black matrix" setting.Therefore, when using that for example ultraviolet light shines frame glue, be that the back side by thin-film transistor array base-plate sees through transparent array base palte and shines frame glue and make frame glue hardened forming.Yet, if frame glue whereabouts has distribution to exist, distribution will cause frame glue herein can't shine fully ultraviolet light by ultraviolet shielding, thereby affect the curing rate of frame glue, thereby cause easily liquid crystal and uncured frame to glued joint in the processing procedure to touch and liquid crystal polluted the image quality that affects display panels.

Fig. 1 is the distribution synoptic diagram of thin-film transistor array base-plate in the available liquid crystal display panel.As shown in Figure 1, thin-film transistor array base-plate comprises a transparency carrier and is distributed in multi-strip scanning line 11 and many data lines 12 on the transparency carrier, in order to make sweep trace 11 be connected to sweep trace pad 14, data line 12 is connected to data line pad 13, between sweep trace 11 and sweep trace pad 14, form the bonding pad of " fan-shaped ", between data line 12 and data line pad 13, also form the bonding pad of " fan-shaped ", thereby so that sweep trace pad 14 be connected with exterior I C with data line pad 13.Thin-film transistor array base-plate comprises viewing area 16 and is positioned at frame glue district 15 all around, viewing area 16.Liquid crystal is arranged in viewing area 16, and frame glue is coated on 15 places, frame glue district.In each " fan-shaped " bonding pad, the length of distribution is increased progressively to both sides by the centre in " fan-shaped " district, so that the resistance value of distribution (R) is also increased progressively to both sides by the centre in " fan-shaped " district with coupling capacitance (C), so that distribution has different RC time delay, different RC can cause display panels picture quality to reduce time delay, water ripples (mura) phenomenon for example appears, in order to make each distribution in " fan-shaped " district have identical RC time delay, at present solution mainly be with an end of the distribution in " fan-shaped " district or up and down the distribution at place, two ends be arranged to bend cabling, the difference by its length compensates and makes each distribution have identical RC time delay.Fig. 2 is the enlarged drawing in zone 10 among Fig. 1, have on the data line 12 of the square wave bending Wiring structure of periodically arranging herein and be coated with frame glue 3, data line 12 extends longitudinally arrangement in essence, frame glue 3 is subjected in the Light Curing, because data line 12 is own opaque, thereby will stop that a part of light transmission affects the curing rate of frame glue 3.For example, transverse elongated zone 21 and transverse elongated zone 22 in Fig. 2, its width is 1/4 cycle of data line 12 square waveforms bending cabling, but owing to have all the time the minor face of square waveform bending cabling in the transverse elongated zone 21, and have all the time the long limit of square waveform bending cabling in the transverse elongated zone 22, so more as can be known, the shared area of data line 12 is less than the shared area of data line in the transverse elongated zone 22 12 in the transverse elongated zone 21, therefore, along in the transverse elongated zone perpendicular to these many data line longitudinal extension directions, different because being subject to light-struck area in frame glue 3 solidification processs, can cause the speed of frame glue photocuring slower thereby uneven illumination is even.In addition, and for example vertical long and narrow regional 23 of these many data line longitudinal extension directions of the edge among Fig. 2 and vertical long and narrow regional 24, although its width is the live width of data line 12 square waveforms bending cabling, but owing to have all the time the broadside of square waveform bending cabling in vertical long and narrow regional 23, and have all the time the narrow limit of square waveform bending cabling in vertical long and narrow regional 24, so more as can be known, the shared area of data line 12 is less than the shared area of data line in vertical long and narrow regional 23 12 in vertical long and narrow regional 24, thereby, different because being subject to light-struck area along existing equally in the vertical long and narrow zone of these many data line longitudinal extension directions in frame glue 3 solidification processs, can cause the speed of frame glue photocuring slower thereby uneven illumination is even.

At present, for above problem, most of solutions are intensity or the irradiation times that increase UV-irradiation, but can cause thus the reduction of power consumption increase or production efficiency.Therefore, be necessary to provide thin-film transistor array base-plate with modified distribution structure to solve the above problem of prior art.

[summary of the invention]

The technical problem to be solved in the present invention is to reduce distribution on the array base palte to solidifying the impact of frame glue, and then accelerates the curing rate of frame glue.

For solving the problems of the technologies described above, adopt following technical scheme:

The invention provides a kind of array base palte, it comprises transparency carrier, is positioned at opaque many distributions and frame Jiao Qu on this transparency carrier, these many distributions extend past frame Jiao Qu, arbitrary in many distributions all has periodic waveform bending pattern in this frame glue district, and the cycle of the waveform of distribution bending pattern arranges with respect to the adjacent wiring dislocation.

The present invention also provides a kind of display panels, it comprises aforesaid array base palte, the counter substrate relative with array base palte and is bonded in frame glue between the two substrates, the gluing frame Jiao Qu that receives array base palte of frame, frame glue seals between two substrates and forms viewing area, viewing area filling liquid crystal layer.

Embodiment of the present invention is carried out rational deployment by the distribution on the pair array substrate, reduce distribution on the array base palte to the impact of frame glue when carrying out ultraviolet light polymerization, so that frame glue can be subject to relatively equably the irradiation of ultraviolet light and solidify, need not to increase intensity or the irradiation time of UV-irradiation in the frame adhesive curing process, thereby when not increasing power consumption, make frame glue rapid curing, enhance productivity, reduce production costs.

Below by describing with reference to the accompanying drawings preferred embodiment in detail, disclose more significantly other aspects and features of the present invention.But should be known in this accompanying drawing only for task of explanation designs, not as the restriction of scope of the present invention, because the restriction of scope should be with reference to additional claim.Should also be appreciated that unless otherwise indicated, accompanying drawing only tries hard to illustrate conceptually structure described herein and flow process, unnecessary to scale drafting.

[description of drawings]

Fig. 1 is the distribution synoptic diagram of thin-film transistor array base-plate in the available liquid crystal display panel.

Fig. 2 is the enlarged drawing in zone 10 among Fig. 1.

Fig. 3 is the cross section structure synoptic diagram of display panels of the present invention.

Fig. 4 is the local enlarged diagram of the distribution of thin-film transistor array base-plate in the display panels of first embodiment of the invention.

Fig. 5 is the local enlarged diagram of the distribution of thin-film transistor array base-plate in the display panels of second embodiment of the invention.

Fig. 6 is the local enlarged diagram of the distribution of thin-film transistor array base-plate in the display panels of third embodiment of the invention.

Fig. 7 is the local enlarged diagram of the distribution of thin-film transistor array base-plate in the display panels of four embodiment of the invention.

[embodiment]

For making purpose of the present invention, technical scheme and advantage clearer, referring to accompanying drawing and in conjunction with embodiment, the present invention done further elaborating.

Fig. 3 is the cross section structure synoptic diagram of display panels of the present invention.As shown in Figure 3, display panels of the present invention comprises array base palte 1, counter substrate 2, is used for the frame glue 3 with liquid crystal layer 4 sealings between the liquid crystal layer 4 between array base palte 1 and the counter substrate 2 and bonding array base palte 1 and counter substrate 2.Below all embodiments will be take array base palte 1 as thin-film transistor array base-plate be described as example, certainly, the present invention also is limited to the array base palte that adopts this active element of thin film transistor (TFT) to consist of, the present invention is also applicable to being the array base palte that passive-type element or other element consist of by non-active type, in fact, array base palte of the present invention has widely concept.Wherein, thin-film transistor array base-plate 1 has equally viewing area (not shown) and is positioned at the frame Jiao Qu (not shown) of periphery, viewing area, and liquid crystal layer 4 is arranged in the viewing area, and frame glue 3 is arranged in frame glue district.Many the distributions that thin-film transistor array base-plate 1 comprises a transparency carrier, is formed on a plurality of pixel cells (not shown) on the transparency carrier and is electrically connected with a plurality of pixel cells, a plurality of pixel cells are arranged in the viewing area, and many distributions extend past frame Jiao Qu from the viewing area.

The first embodiment

Fig. 4 is the local enlarged diagram of the distribution of thin-film transistor array base-plate in the display panels of first embodiment of the invention.Many distributions are positioned at the below of frame glue 3, the zone that frame glue 3 covers is frame Jiao Qu, these many distributions can be sweep trace or data line, below all embodiments will be take distribution as data line 12 be elaborated as example, certainly, the present invention goes for the situation that many distributions are sweep trace equally.As shown in Figure 4, these many distributions are data line 12.In frame glue district, arbitrary data line 12 all has periodic waveform bending pattern in many data lines 12, and the cycle of waveform bending pattern is T1, and waveform bending pattern is square waveform bending pattern in each cycle T 1.The square waveform bending pattern of arbitrary data line 12 has identical live width d1 (for illustrated clearly visible, T1 wherein, d1 schematically is indicated on the outer data line of frame Jiao Qu, data line is shown in the frame glue district and has identical waveform bending pattern outside frame Jiao Qu, following embodiment adopts the same manner to represent), many data line 12 extends longitudinally arrangement in essence namely shown in the y direction among Fig. 4, wherein the bearing of trend with data line 12 is defined as vertically, it is the y direction, and be defined as laterally perpendicular to the direction of the bearing of trend of data line 12, be shown in the x direction among Fig. 4, the noun of locality as used herein " vertically " and " laterally " only are the purposes in order to describe, not as limitation of the present invention.When this distribution is sweep trace, should also can be understood as " vertically " and " laterally " x direction and y direction among Fig. 4.Square waveform bending pattern comprises a plurality of transversal section that vertically joins, and wherein, transversal section lateral length in each cycle T 1 is long and short, long and short rule and is arranged in order.

In the present embodiment, square waveform bending pattern 1/4 cycle of mutual dislocation between the adjacent data line 12 arranges, and even number data lines 12 can be regarded 1/4 cycle gained by odd number data lines 12 downward translation square waveform bending patterns as among Fig. 4.Get respectively among Fig. 4 along the transverse elongated zone 41 perpendicular to data line longitudinal extension direction (being the direction of x shown in Fig. 4), 42, its width is 1/4 cycle of data line 12 square waveforms bending pattern, its length is frame glue overall length a in the horizontal, because the square waveform bending pattern of data line includes the length with different lateral lengths that alternately occurs in the transverse elongated zone 41 and 42, the hyphen intercept, therefore, data line 12 shared sum of areas in long and narrow regional 41 and 42 equate, namely cover transverse elongated zone 41 and have identical light-receiving area with 42 interior frame glue 3.

In fact in the present embodiment, for arbitrary unit transverse elongated zone 50, namely take the overall length a of frame glue on laterally (being the direction of x shown in Fig. 4) for long limit with take the unit width Δ l of vertically (being the direction of y shown in Fig. 4) as the broadside formation, all data line 12 area occupied and all equal, thereby so that the frame glue in arbitrary unit transverse elongated zone 50 has identical light-receiving area, thereby can realize frame glue 3 in the horizontal be subjected to irradiation even, and then guarantee that whole frame glue 3 has relatively uniformly light-receiving area, realizes frame glue 3 quick-setting purposes.

The second embodiment

The second embodiment and the first embodiment something in common repeat no more.Fig. 5 is the local enlarged diagram of the distribution of thin-film transistor array base-plate in the display panels of second embodiment of the invention.The second embodiment is compared its difference with the first embodiment and is, in the second embodiment, square waveform bending pattern 3/4 cycle of mutual dislocation between the adjacent data line 12 arranges, and arranging of even number data lines 12 can be regarded the 3/4 cycle gained that is bent patterns by odd number data lines 12 downward translation square waveforms as among Fig. 5.Get respectively transverse elongated zone 51,52 among Fig. 5, its width is 1/4 of the data line 12 square waveforms bending cycle, its length is frame glue overall length a in the horizontal, similarly, since in the transverse elongated zone 51 and 52 square waveform of data line bending pattern include alternately occur have long and short transversal a section of different lateral lengths, therefore, in transverse elongated zone 51 and 52, data line 12 shared sum of areas equate, namely cover transverse elongated zone 51 and have identical light-receiving area with 52 interior frame glue 3.

In fact in the present embodiment, for arbitrary unit transverse elongated zone 50, namely take the overall length a of frame glue on laterally (being the direction of x shown in Fig. 5) for long limit with take the unit width Δ l of vertically (being the direction of y shown in Fig. 5) as the broadside formation, all data line 12 area occupied and all equal, thereby so that the frame glue in arbitrary unit transverse elongated zone 50 has identical light-receiving area, thereby can realize frame glue 3 in the horizontal be subjected to irradiation even, and then guarantee that whole frame glue 3 has relatively uniformly light-receiving area, realizes frame glue 3 quick-setting purposes.

In above Fig. 4 and the first and second embodiments shown in Figure 5, the data line of thin-film transistor array base-plate in frame glue district has periodic square waveform bending pattern, and, pass through adjacent data line, the i.e. bending of square waveform between odd number data lines and even number data lines pattern mutual dislocation 1/4 or 3/4 cycle, so that the length with different lateral lengths in the transverse elongated zone, the hyphen intercept is arranged in pairs or groups mutually, reduced the distribution on the thin-film transistor array base-plate to the impact of frame glue when carrying out ultraviolet light polymerization, thereby guaranteed that frame glue has uniform light-receiving area in the horizontal, therefore, with respect to the data line on the existing thin-film transistor array base-plate shown in Figure 2, generally speaking, whole frame glue has relatively uniformly light-receiving area, therefore greatly improves the speed of frame adhesive curing.Yet, the topological design of this data line only changes frame glue light-receiving area in the horizontal by longitudinally displacement, and frame glue light-receiving area does not in the vertical change in essence, therefore, along the broadside that has all the time square waveform bending pattern in the vertical long and narrow zone of the part of data line longitudinal extension direction, and have all the time the narrow limit of square waveform bending pattern in the vertical long and narrow zone of another part, so, the topological design of this data line still exists frame glue to have in the vertical extremely inhomogeneous light-receiving area, although make moderate progress with respect to prior art, but still not very desirable.

The 3rd embodiment

The difference of third embodiment of the invention and above-mentioned first, second embodiment is, first, second embodiment all be only consider along perpendicular in the transverse elongated zone of data line longitudinal extension direction so that frame glue light-receiving area is even, the 3rd embodiment then is that comprehensive consideration is along the vertical long and narrow zone of data line longitudinal extension direction and along the transverse elongated zone perpendicular to data line longitudinal extension direction, so that frame glue light-receiving area is even as much as possible.

The 3rd embodiment and first, second embodiment something in common repeat no more.Fig. 6 is the local enlarged diagram of the distribution of thin-film transistor array base-plate in the display panels of third embodiment of the invention.As shown in Figure 6, many distributions are positioned at the below of frame glue, and these many distributions can be sweep trace or data line, and these many distributions are data line 12 in the present embodiment.In frame glue district, arbitrary data line 12 all has periodic stepped appearance bending pattern in many data lines 12.The stepped appearance bending pattern of each data line 12 all has identical live width d2, the step-like bending pattern of arbitrary data line 12 has identical cycle T 2, its cycle T 2 is that five times of data line 12 live widths are (for illustrated clearly visible, T2 wherein, d2 schematically is indicated on the outer data line of frame Jiao Qu, data line is shown in the frame glue district and has identical waveform bending pattern outside frame Jiao Qu, following embodiment adopts the same manner to represent), many data line 12 extends longitudinally arrangement in essence namely shown in the y direction among Fig. 6, wherein the bearing of trend with data line 12 is defined as vertically, it is the y direction, and be defined as laterally perpendicular to the direction of the bearing of trend of data line 12, namely shown in the x direction among Fig. 6.Stepped appearance bending pattern comprises a plurality of transversal section that vertically joins, and wherein, transversal section lateral length in each cycle T 2 is 3: 1: 2: 2: 1 rule is arranged in order.

In the present embodiment, stepped appearance bending pattern between the adjacent data line 12 is arranged up and down and was differed for 1/5 cycle, and even number data lines 12 can be regarded 1/5 cycle (being the live width of the data line 12) gained by odd number data lines 12 downward translation stepped appearance bending patterns as among Fig. 6.Get respectively among Fig. 6 along the transverse elongated zone 61 perpendicular to data line 12 longitudinal extension directions (being the direction of x shown in Fig. 6), 62,63,64,65, its width is 1/5 cycle (being the live width of data line 12) of stepped appearance bending pattern, its length is frame glue overall length a in the horizontal, in these transverse elongated zones, transversal section mutually collocation with different lateral lengths, thereby so that in transverse elongated zone 61, in 62 and 63, data line 12 shared sum of areas equate, namely cover transverse elongated zone 61, frame glue 3 in 62 and 63 has identical light-receiving area; In transverse elongated zone 64 and 65, data line 12 shared sum of areas equate, namely cover transverse elongated zone 64 and have identical light-receiving area with 65 interior frame glue 3.

Among Fig. 6 along vertical long and narrow regional 66 of data line 12 longitudinal extension directions (being the direction of y shown in Fig. 6), 67 and 68, its width is 1/5 cycle (being the live width of the stepped appearance bending pattern of data line 12) of stepped appearance bending pattern, its length is frame glue 3 width b in the vertical, in these vertical long and narrow zones, arrange in pairs or groups mutually in broadside and narrow limit with different in width, thereby so that vertical long and narrow regional 66, in 67 and 68, data line 12 shared sum of areas equate, namely cover vertical long and narrow regional 66, frame glue 3 in 67 and 68 has identical light-receiving area.

In fact in the present embodiment, for arbitrary unit vertical long and narrow regional 60, namely take the width b of frame glue on vertically (being the direction of y shown in Fig. 6) for long limit with take the unit width Δ w of laterally (being the direction of x shown in Fig. 6) as the broadside formation, all data line 12 area occupied and all equal, thereby so that the frame glue in arbitrary unit vertical long and narrow regional 60 has identical light-receiving area, thereby can guarantee frame glue 3 in the vertical be subjected to irradiation even, and then realize frame glue 3 quick-setting purposes.

Present embodiment is by changing the design of the waveform bending pattern of data line 12 in frame glue district, so that waveform bending pattern is stepped appearance, and pass through adjacent data line, namely the stepped appearance between odd number data lines and the even number data lines bends pattern 1/5 cycle of mutual dislocation, so that the length with different lateral lengths in the transverse elongated zone, the hyphen intercept is arranged in pairs or groups mutually, and arrange in pairs or groups mutually in the broadside and the narrow limit that have different in width in vertical long and narrow zone, reduced the distribution on the thin-film transistor array base-plate to the impact of frame glue when carrying out ultraviolet light polymerization, thereby with respect to existing data line design, so that data line 12 has relatively uniformly light-receiving area in the horizontal, and has in the vertical uniform light-receiving area.The 3rd embodiment is with respect to the first and second embodiments, because of its comprehensive consideration frame glue along data line 12 longitudinal extension directions vertically and along horizontal this both direction perpendicular to data line 12 longitudinal extension directions, thereby can be so that whole frame glue light-receiving area disperses as much as possible, so that the light-receiving area of whole frame glue is more even with respect to the first and second embodiments, more be conducive to the rapid curing of frame glue.

The 4th embodiment

The 4th embodiment and the 3rd embodiment something in common repeat no more.The 4th embodiment is compared its difference with the 3rd embodiment and is, in the present embodiment, stepped appearance bending pattern between the adjacent data line 12 is arranged up and down and was differed for 4/5 cycle, Fig. 7 is the local enlarged diagram of the distribution of thin-film transistor array base-plate in the display panels of four embodiment of the invention, and even number data lines 12 can be regarded 4/5 cycle (being that quadruple is according to the live width of the line 12) gained that is bent patterns by odd number data lines 12 downward translation stepped appearances as among Fig. 7.Get respectively among Fig. 7 along the transverse elongated zone 71 perpendicular to data line 12 longitudinal extension directions (being the direction of x shown in Fig. 7), 72,73,74,75, its width is 1/5 cycle (being the live width of the stepped appearance bending pattern of data line 12) of stepped appearance bending pattern, its length is frame glue overall length a in the horizontal, in these transverse elongated zones, transversal section mutually collocation with different lateral lengths, thereby so that in transverse elongated zone 71, in 72 and 73, data line 12 shared sum of areas equate, namely cover transverse elongated zone 71, frame glue 3 in 72 and 73 has identical light-receiving area; In transverse elongated zone 74 and 75, data line 12 shared sum of areas equate, namely cover transverse elongated zone 74 and have identical light-receiving area with 75 interior frame glue 3.

Among Fig. 7 along vertical long and narrow regional 76 of data line 12 longitudinal extension directions (being the direction of y shown in Fig. 7), 77 and 78, its width is 1/5 cycle (being the live width of the stepped appearance bending pattern of data line 12) of stepped appearance bending pattern, its length is frame glue 3 width b in the vertical, in these vertical long and narrow zones, arrange in pairs or groups mutually in broadside and narrow limit with different in width, thereby so that vertical long and narrow regional 76, in 77 and 78, data line 12 shared sum of areas equate, namely cover vertical long and narrow regional 76, frame glue 3 in 77 and 78 has identical light-receiving area.

Similar with the 3rd embodiment, in fact in the present embodiment, for arbitrary unit vertical long and narrow regional 60, namely take the width b of frame glue on vertically (being the direction of y shown in Fig. 7) for long limit with take the unit width Δ w of laterally (being the direction of x shown in Fig. 7) as the broadside formation, all data line 12 area occupied and all equal, thereby so that the frame glue in arbitrary unit vertical long and narrow regional 60 has identical light-receiving area, thereby can guarantee frame glue 3 in the vertical be subjected to irradiation even, and then realize frame glue 3 quick-setting purposes.

Similarly, the 4th embodiment has the technique effect identical with the 3rd embodiment, does not repeat them here.

More than thin-film transistor array base-plate provided by the present invention and display panels thereof are described in detail, used specific case herein principle of the present invention and embodiment are set forth, the explanation of above embodiment just is used for helping to understand method of the present invention and core concept thereof; The introduction of only carrying out as an example of data line example in the embodiment of the present invention is equally applicable to sweep trace; Embodiment has only been done corresponding description to cycle and the bending shape of the distribution that is positioned at frame glue district, all can arrange arbitrarily for the cycle that is positioned at the outer distribution of frame Jiao Qu, bending shape etc.; Simultaneously; for one of ordinary skill in the art; according to thought of the present invention; all will change in specific embodiments and applications; in sum, this description should not be construed as limitation of the present invention, and is within the spirit and principles in the present invention all; any modification of doing, be equal to and replace and improvement etc., all should be included within protection scope of the present invention.

Claims (10)

1. array base palte, it comprises transparency carrier, is positioned at opaque many distributions and frame Jiao Qu on the described transparency carrier, described many distributions extend past frame Jiao Qu, it is characterized in that: in described frame glue district, arbitrary all has periodic waveform bending pattern in described many distributions, and the waveform of described distribution bending pattern is arranged with respect to the adjacent wiring dislocation.

2. array base palte as claimed in claim 1 is characterized in that: described waveform bending pattern bends pattern for square waveform within each cycle.

3. array base palte as claimed in claim 2 is characterized in that: waveform bending pattern 1/4 cycle of mutual dislocation or 3/4 cycle between the adjacent wiring.

4. array base palte as claimed in claim 3, it is characterized in that: described many distributions extend longitudinally arrangement in essence, described waveform bending pattern comprises a plurality of transversal section that vertically joins, and wherein, transversal section lateral length in each cycle is long and short, long and short rule and is arranged in order.

5. array base palte as claimed in claim 1 is characterized in that: described waveform bending pattern bends pattern for stepped appearance within each cycle.

6. array base palte as claimed in claim 5 is characterized in that: waveform bending pattern 1/5 cycle of mutual dislocation or 4/5 cycle between the adjacent wiring.

7. array base palte as claimed in claim 6, it is characterized in that: described many distributions extend longitudinally arrangement in essence, described waveform bending pattern comprises a plurality of transversal section that vertically joins, and wherein, transversal section lateral length in each cycle is 3: 1: 2: 2: 1 rule is arranged in order.

8. such as claim 4 or 7 described array base paltes, it is characterized in that: described waveform bending pattern has identical live width.

9. such as each described array base palte in the claim 1 to 7, it is characterized in that: described array base palte is thin-film transistor array base-plate, and the thin film transistor (TFT) on described distribution and the array base palte is electrically connected, and described many distributions are sweep trace or data line.

10. display panels, it comprise such as each described array base palte in the claim 1 to 9, the counter substrate relative with array base palte and as described in being bonded in array base palte and as described in frame glue between the counter substrate, the gluing frame Jiao Qu that receives described array base palte of described frame, frame glue seals between two substrates and forms viewing area, described viewing area filling liquid crystal layer.

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