CN105676496A

CN105676496A - Liquid crystal display panel and liquid crystal display device

Info

Publication number: CN105676496A
Application number: CN201610252040.4A
Authority: CN
Inventors: 甘启明
Original assignee: Shenzhen China Star Optoelectronics Technology Co Ltd
Current assignee: TCL China Star Optoelectronics Technology Co Ltd
Priority date: 2016-04-21
Filing date: 2016-04-21
Publication date: 2016-06-15
Anticipated expiration: 2036-04-21
Also published as: WO2017181450A1; CN105676496B

Abstract

Embodiments of the invention disclose a liquid crystal display panel and a liquid crystal display device. The liquid crystal display panel comprises a first short circuit bar region positioned above a display region and a second short circuit bar region positioned below the display region, wherein the first short circuit bar region comprises a first short circuit bar, a second short circuit bar, a third short circuit bar, a first R voltage signal end, a first G voltage signal end and a first B voltage signal end; the second short circuit bar region comprises a fourth short circuit bar, a fifth short circuit bar, a sixth short circuit bar, a second R voltage signal, a second G voltage signal end and a second B voltage signal end; the first short circuit bar, the second short circuit bar and the third short circuit bar are connected with the first R voltage signal end, the first G voltage signal end and the first B voltage signal end respectively; and the fourth short circuit bar, the fifth short circuit bar and the sixth short circuit bar are connected with the second R voltage signal end, the second G voltage signal end and the second B voltage signal end respectively. According to the liquid crystal display panel and the liquid crystal display device, a signal can be provided for each pixel during screen turn-on detection.

Description

Display panels and liquid crystal indicator

Technical field

The present invention relates to Display Technique field, particularly relate to a kind of display panels and liquid crystal indicator.

Background technology

Liquid crystal display be the characteristic utilizing liquid crystal material to show a kind of panel display apparatus of image, there is compared to other display devices the advantages such as frivolous, low driving voltage and low-power consumption, have become as the main product on whole consumption market. Liquid crystal panel is the topmost element of liquid crystal display, liquid crystal panel make technique be broadly divided into leading portion array process, stage casing become box make and back segment module group assembling. After becoming box, it is necessary to liquid crystal display screen carries out screen detection (celltest), and detection liquid crystal panel is various bad with what become box section to occur in array segment. During point screen detection, need to guarantee to provide signal to test to each pixel.

Summary of the invention

The present invention provides a kind of display panels and liquid crystal indicator, when a screen detects, provides signal test can to each pixel.

The open a kind of display panels of embodiment of the present invention, including viewing area, described viewing area includes a plurality of scanning line intersected vertically and data wire, and the multiple pixels limited by a plurality of described scanning line and a plurality of described data wire, described display panels also includes the first shorting bar region being positioned at above described viewing area and the second shorting bar region being positioned at below described viewing area, and described first shorting bar region includes the first shorting bar of horizontally set, second shorting bar and the 3rd shorting bar, and include a R voltage signal end, oneth G voltage signal end and a B voltage signal end, described second shorting bar region includes the 4th shorting bar of horizontally set, 5th shorting bar, 6th shorting bar and include the 2nd R voltage signal, 2nd G voltage signal end and the 2nd B voltage signal end, described first shorting bar, described second shorting bar and described 3rd shorting bar respectively with a described R voltage signal end, a described G voltage signal end and a described B voltage signal end connect, described 4th shorting bar, described 5th shorting bar and described 6th shorting bar respectively with described 2nd R voltage signal end, described 2nd G voltage signal end and described 2nd B voltage signal end connect, described first shorting bar, described second shorting bar, described 3rd shorting bar, described 4th shorting bar, described 5th shorting bar and described 6th shorting bar are all connected with described data wire.

Wherein, the pixel of every a line is connected by a described scanning line, every string pixel is alternately connected by parity rows by two adjacent described data wires, and each two shorting bar in described first shorting bar region is connected described data wire in an alternating fashion with each two shorting bar in described second shorting bar region.

Wherein, described first shorting bar and described 4th shorting bar are connected with the data wire being connected to red pixel, described second shorting bar and described 5th shorting bar are connected with the data wire being connected to green pixel, and described 3rd shorting bar and described 6th shorting bar are connected with the data wire being connected to blue pixel.

Wherein, described display panels also includes the 3rd shorting bar region being positioned on the left of described viewing area, described 3rd shorting bar region includes vertically arranged the 7th shorting bar, the 8th shorting bar and includes first grid signal end and second grid signal end, described 7th shorting bar is connected with described first grid signal end, described 8th shorting bar is connected with described second grid signal end, described 7th shorting bar is connected with the described scanning line of odd-numbered line, and described 8th shorting bar is connected with the described scanning line of even number line.

Wherein, the pixel of every a line is connected by a described scanning line, every string pixel is alternately connected by parity rows by two adjacent described data wires, and one of them shorting bar in described first shorting bar region is connected described data wire in an alternating fashion with one of them shorting bar in described second shorting bar region.

Wherein, described substrate also includes the 3rd shorting bar region being positioned on the left of described viewing area, described 3rd shorting bar region includes vertically arranged the 7th shorting bar, the 8th shorting bar and includes first grid signal end and second grid signal end, described 7th shorting bar is connected with described first grid signal end, described 8th shorting bar is connected with described second grid signal end, described 7th shorting bar is connected with the described scanning line of odd-numbered line, and described 8th shorting bar is connected with the described scanning line of even number line.

Wherein, multiple described pixels constitute multipair pixel, a plurality of described scanning line constitutes multipair scanning line, every a pair scanning line is arranged between at least one pair of pixel and is connected with at least one pair of pixel, adjacent data wire is arranged between at least one pair of pixel and is connected with at least one pair of pixel, the polarity of each pixel all with the opposite polarity of adjacent pixel, three shorting bars in described first shorting bar region are by described 3rd shorting bar and Article 1 data wire, start by described first shorting bar and adjacent two described data wires from Article 2 data wire, described second shorting bar and adjacent two described data wires, described 3rd shorting bar is connected with a plurality of described data wire with the over-over mode of adjacent two articles of described data wires, three shorting bars in described second shorting bar region start by described 4th shorting bar and adjacent two articles of described data wires from Article 1 data wire, described 5th shorting bar and adjacent two articles of described data wires, described 6th shorting bar is connected with a plurality of described data wire with the over-over mode of adjacent two articles of described data wires.

Wherein, described substrate also includes the 3rd shorting bar region being positioned on the left of described viewing area, described 3rd shorting bar region includes the 7th vertically arranged shorting bar, 8th shorting bar, 9th shorting bar, tenth shorting bar and include first grid signal end, second grid signal end, 3rd signal end and the 4th signal end, described 7th shorting bar is connected with described first grid signal end, described 8th shorting bar is connected with described second grid signal end, described 9th shorting bar is connected with described 3rd signal end, described tenth shorting bar is connected with described 4th signal end, start often adjacent four bars of Article 1 scanning lines scanned lines from described Article 1 scanning line to be connected with described 7th shorting bar, Article 2 scanning line is connected with described 8th shorting bar, Article 3 scanning line is connected with described 9th shorting bar and described Article 4 scanning line is connected with described tenth shorting bar.

Embodiment of the present invention is also disclosed a kind of liquid crystal indicator, including the display panels described in any of the above-described item.

The display panels of embodiment of the present invention offer and liquid crystal indicator, by arranging shorting bar region over and under in viewing area, it is possible to when carrying out a screen and detecting, provides signal to detect to each pixel.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical scheme in the embodiment of the present invention, the accompanying drawing used required in embodiment will be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the structural representation of display panels in first embodiment of the invention;

Fig. 2 is the structural representation of display panels in second embodiment of the invention; And

Fig. 3 is the structural representation of display panels in third embodiment of the invention.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiments. Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of protection of the invention.

Fig. 1 is the structural representation of the display panels 100 in first embodiment of the invention. Display panels 100 includes viewing area 11. Viewing area 11 includes a plurality of scanning line 111 intersected vertically and data wire 112 and the multiple pixels 113 limited by multi-strip scanning line 111 and a plurality of data lines 112. The pixel 113 of every a line is scanned line 111 by one and connects, and every string pixel 113 is alternately connected by parity rows by adjacent two data line 112. Such as, Article 1 data wire D1 is connected with the red pixel 113 of the odd-numbered line in first row red pixel 113, and Article 2 data wire D2 is connected with the red pixel 113 of the even number line in first row red pixel 113.

Display panels 100 also includes the first shorting bar region 12 being positioned at above viewing area 11 and the second shorting bar region 13 being positioned at below viewing area 11. First shorting bar region 12 includes first shorting bar the 121, second shorting bar the 122, the 3rd shorting bar 123 of horizontally set, also includes R voltage signal end the 124, the oneth G voltage signal end the 125, the oneth B voltage signal end 126 and a common voltage signal end 127.First shorting bar 121 is arranged at the top of the second shorting bar 122, and the second shorting bar 122 is arranged at the top of the 3rd shorting bar 123. First shorting bar 121 is connected with a R voltage signal end 124, and the second shorting bar 122 is connected with a G voltage signal end 125, and the 3rd shorting bar 123 is connected with a B voltage signal end 126. Second shorting bar region 13 includes the 4th shorting bar the 131, the 5th shorting bar the 132, the 6th shorting bar 133 of horizontally set, also includes the 2nd R voltage signal end the 134, the 2nd G voltage signal end the 135, the 2nd B voltage signal end 136 and the 2nd common voltage signal end 137. 5th shorting bar 132 is arranged at the lower section of the 4th shorting bar 131, and the 6th shorting bar 133 is arranged at the lower section of the 5th shorting bar 132. 4th shorting bar 131 is connected with the 2nd R voltage signal end 134, and the 5th shorting bar 132 is connected with the 2nd G voltage signal end 135, and the 6th shorting bar 133 is connected with the 2nd B voltage signal end 136.

In present embodiment, each two shorting bar in the first shorting bar region 12 is connected data wire 112 in an alternating fashion with each two shorting bar in the second shorting bar region 13. First shorting bar 121 and the 4th shorting bar 131 are all connected with the data wire 112 being connected to red pixel 113. Second shorting bar 122 and the 5th shorting bar 132 are all connected with the data wire 112 being connected to green pixel 113, and the 3rd shorting bar 123 and the 6th shorting bar 133 are all connected with the data wire 112 being connected to blue pixel 113. Specifically, first shorting bar 121 is connected with data wire D1, data wire D10 etc., second shorting bar 122 is connected with data wire D2, data wire D5 etc., 3rd shorting bar 123 is connected with data wire D6, data wire D9 etc., thus the first shorting bar region 12 is connected with a plurality of data lines 112 by the arrangement of RGGBBR.... 4th shorting bar 131 is connected with data wire D4, data wire D7 etc., 5th shorting bar 132 is connected with data wire D8, data wire D11 etc., 6th shorting bar 133 is connected with data wire D3, data wire D12 etc., thus the second shorting bar region 13 is connected with a plurality of data lines 112 by the arrangement of BRRGGB....

In present embodiment, display panels 100 also includes the 3rd shorting bar region 14 being positioned on the left of viewing area 11. 3rd shorting bar region 14 includes the 7th vertically arranged shorting bar 141 and the 8th shorting bar 142, also includes first grid signal end 143, second grid signal end 144 and the 3rd common voltage signal end 143. 7th shorting bar 141 is positioned at the left side of the 8th shorting bar 142. 7th shorting bar 141 is connected with first grid signal end 143, and the 8th shorting bar 142 is connected with second grid signal end 144. 7th shorting bar 141 is connected with the scanning line 111 of odd-numbered line, and the 8th shorting bar 142 is connected with the scanning line 111 of even number line.

In present embodiment, carry out some screen detection time, executing in alive situation to first grid signal end 143, if applying voltage to the first shorting bar 121 and the 4th shorting bar 131, the red pixel 113 of all odd-numbered lines should be lit, if applying voltage to the second shorting bar 122 and the 5th shorting bar 132, the green pixel 113 of all odd-numbered lines should be lit, if applying voltage to the 3rd shorting bar 123 and the 6th shorting bar 133, the blue pixel 113 of all odd-numbered lines should be lit. Executing in alive situation to second grid signal end 144, if applying voltage to the second shorting bar 122 and the 5th shorting bar 132, the red pixel 113 of all even number lines should be lit, if applying voltage to the 3rd shorting bar 123 and the 6th shorting bar 133, the green pixel 113 of all even number lines should be lit, if applying voltage to the first shorting bar 121 and the 4th shorting bar 131, then the blue pixel 113 of all even number lines should be lit.Therefore, when carrying out a screen and detecting, it is possible to provide signal to test each pixel 113.

Fig. 2 is the structural representation of the display panels 200 in second embodiment of the invention. Being in that with display panels 100 similarity, display panels 200 includes the 22, second shorting bar region, the 21, first shorting bar region, viewing area 23 and the 3rd shorting bar region 24. Viewing area 21 includes multi-strip scanning line 211, a plurality of data lines 212 and multiple pixel 213. The pixel 213 of every a line is scanned line 211 by one and connects, and every string pixel 213 is alternately connected by parity rows by adjacent two data line 212. First shorting bar region 22 includes first shorting bar the 221, second shorting bar the 222, the 3rd shorting bar 223 of horizontally set, also includes R voltage signal end the 224, the oneth G voltage signal end the 225, the oneth B voltage signal end 226 and a common voltage signal end 227. First shorting bar 221 is arranged at the top of the second shorting bar 222, and the second shorting bar 222 is arranged at the top of the 3rd shorting bar 223. First shorting bar 221 is connected with a R voltage signal end 224, and the second shorting bar 222 is connected with a G voltage signal end 225, and the 3rd shorting bar 223 is connected with a B voltage signal end 226. Second shorting bar region 23 includes the 4th shorting bar the 231, the 5th shorting bar the 232, the 6th shorting bar 233 of horizontally set, also includes the 2nd R voltage signal end the 234, the 2nd G voltage signal end the 235, the 2nd B voltage signal end 236 and the 2nd common voltage signal end 237. 5th shorting bar 232 is arranged at the lower section of the 4th shorting bar 231, and the 6th shorting bar 233 is arranged at the lower section of the 5th shorting bar 232. 4th shorting bar 231 is connected with the 2nd R voltage signal end 234, and the 5th shorting bar 232 is connected with the 2nd G voltage signal end 235, and the 6th shorting bar 233 is connected with the 2nd B voltage signal end 236. Being different in that with display panels 100, one of them shorting bar in the first shorting bar region 22 is connected data wire 212 in an alternating fashion with one of them shorting bar in the second shorting bar region 23.

In present embodiment, the first shorting bar 221 and the 4th shorting bar 231 are all connected with the data wire 212 being connected to red pixel 213. Second shorting bar 222 and the 5th shorting bar 232 are all connected with the data wire 212 being connected to green pixel 213, and the 3rd shorting bar 223 and the 6th shorting bar 233 are all connected with the data wire 212 being connected to blue pixel 213. Specifically, first shorting bar 221 is connected with data wire D1, D7 etc., second shorting bar 222 is connected with data wire D5, D11 etc., and the 3rd shorting bar 223 is connected with data wire D3, D9 etc., thus the first shorting bar region 22 is connected with a plurality of data lines 221 by the arrangement of RBGRBG.... 4th shorting bar 231 is connected with data wire D4, D10 etc., and the 5th shorting bar 232 is connected with data wire D2, D8 etc., and the 6th shorting bar is connected with data wire D6, D12 etc., thus the second shorting bar region 22 is connected with a plurality of data lines 212 by the arrangement of GRBGRB....

Also residing in the similarity of display panels 100, display panels 200 also includes the 3rd shorting bar region 24 being positioned on the left of viewing area 21. 3rd shorting bar region 24 includes the 7th vertically arranged shorting bar 241 and the 8th shorting bar 242, also includes first grid signal end 243, second grid signal end 244 and the 3rd common voltage signal end 245. 7th shorting bar 241 is positioned at the left side of the 8th shorting bar 242.7th shorting bar 241 is connected with first grid signal end 243, and the 8th shorting bar 242 is connected with second grid signal end 244. 7th shorting bar 241 is connected with the scanning line 211 of odd-numbered line, and the 8th shorting bar 242 is connected with the scanning line 211 of even number line.

In present embodiment, carry out some screen detection time, executing in alive situation to first grid signal end 243, if applying voltage to the first shorting bar 221 and the 4th shorting bar 231, the red pixel 213 of all odd-numbered lines should be lit, if applying voltage to the second shorting bar 222 and the 5th shorting bar 232, the green pixel 213 of all odd-numbered lines should be lit, if applying voltage to the 3rd shorting bar 223 and the 6th shorting bar 233, the blue pixel 213 of all odd-numbered lines should be lit. Executing in alive situation to second grid signal end 244, if applying voltage to the second shorting bar 222 and the 5th shorting bar 232, the red pixel 213 of all even number lines should be lit, if applying voltage to the 3rd shorting bar 223 and the 6th shorting bar 233, the green pixel 213 of all even number lines should be lit, if applying voltage to the first shorting bar 221 and the 4th shorting bar 231, then the blue pixel 213 of all even number lines should be lit. Therefore, when carrying out a screen and detecting, it is possible to provide signal to test each pixel 113.

Fig. 3 is the structural representation of display panels 300 in third embodiment of the invention, being in that with the similarity of display panels 100, display panels 300 includes the 32, second shorting bar region, the 31, first shorting bar region, viewing area 33 and the 3rd shorting bar region 34. Viewing area 31 includes multi-strip scanning line 311, a plurality of data lines 312 and multiple pixel 313. First shorting bar region 32 includes first shorting bar the 321, second shorting bar the 322, the 3rd shorting bar 323 of horizontally set, also includes R voltage signal end the 324, the oneth G voltage signal end the 325, the oneth B voltage signal end 326 and a common voltage signal end 327. First shorting bar 321 is arranged at the top of the second shorting bar 322, and the second shorting bar 322 is arranged at the top of the 3rd shorting bar 323. First shorting bar 321 is connected with a R voltage signal end 324, and the second shorting bar 322 is connected with a G voltage signal end 325, and the 3rd shorting bar 323 is connected with a B voltage signal end 326. Second shorting bar region 33 includes the 4th shorting bar the 331, the 5th shorting bar the 332, the 6th shorting bar 333 of horizontally set, also includes the 2nd R voltage signal end the 334, the 2nd G voltage signal end the 335, the 2nd B voltage signal end 336 and the 2nd common voltage signal end 337. 5th shorting bar 332 is arranged at the lower section of the 4th shorting bar 331, and the 6th shorting bar 333 is arranged at the lower section of the 5th shorting bar 332. 4th shorting bar 331 is connected with the 2nd R voltage signal end 334, and the 5th shorting bar 332 is connected with the 2nd G voltage signal end 335, and the 6th shorting bar 333 is connected with the 2nd B voltage signal end 336.

It is different in that with display panels 100, in present embodiment, multiple pixels 313 constitute multipair pixel, multi-strip scanning line 311 constitutes multipair scanning line, every a pair scanning line is arranged between at least one pair of pixel and is connected with at least one pair of pixel, adjacent data wire 312 is arranged between at least one pair of pixel and is connected with at least one pair of pixel, the polarity of each pixel 313 all with the opposite polarity of adjacent pixel 313. Three shorting bars in first shorting bar region 32 connect with data wire D1 by the 3rd shorting bar 323, start to be connected with a plurality of data lines 312 with the over-over mode of adjacent two data line 312 with adjacent two data line the 312, the 3rd shorting bars 323 with adjacent two data line the 312, second shorting bars 322 by the first shorting bar 321 from Article 2 data wire (data wire D2), thus the second shorting bar region 32 is connected with a plurality of data lines 312 by the arrangement of BRRGGB....Three shorting bars in second shorting bar region 33 start to be connected with a plurality of data lines 312 with the over-over mode of adjacent two data line 312 with adjacent two data line the 312, the 6th shorting bars 333 with adjacent two data line the 312, the 5th shorting bars 332 by the 4th shorting bar 331 from Article 1 data wire (data wire D1), thus the second shorting bar region 33 is connected with a plurality of data lines 312 by the arrangement of RRGGBB....

In present embodiment, display panels 300 also includes the 3rd shorting bar region 34 being positioned on the left of viewing area 31. 3rd shorting bar region 34 includes the 7th shorting bar the 341, the 8th shorting bar the 342, the 9th shorting bar the 343, the tenth shorting bar 344 arrayed from left to right, and also includes first grid signal end 345, second grid signal end the 346, the 3rd signal end the 347, the 4th signal end 348 and the 3rd common voltage signal end 349. 7th shorting bar 341 is connected with first grid signal end 345,8th shorting bar 342 is connected with second grid signal end 346,9th shorting bar 343 is connected with the 3rd signal end 347, tenth shorting bar 344 is connected with the 4th signal end 348, start often adjacent four bars of Article 1 scanning lines scanned lines and the 7th shorting bar 341 from Article 1 scanning line 311 to connect, Article 2 scanning line and the 8th shorting bar 342 connect, Article 3 scanning line and the 9th shorting bar 343 connect, and Article 4 scanning line and the tenth shorting bar 344 connect.

In the present embodiment, mode as described above is configured, and when carrying out a screen and detecting, signal can be provided to detect each pixel 313.

The present invention provides liquid crystal indicator, and liquid crystal indicator can be the liquid crystal indicator including display panels 100,200 or 300.

The above is the preferred embodiment of the present invention; it should be pointed out that, for those skilled in the art, under the premise without departing from the principles of the invention; can also making some improvements and modifications, these improvements and modifications are also considered as protection scope of the present invention.

Claims

1. a display panels, including viewing area, described viewing area includes a plurality of scanning line intersected vertically and data wire, and the multiple pixels limited by a plurality of described scanning line and a plurality of described data wire, it is characterized in that, described display panels also includes the first shorting bar region being positioned at above described viewing area and the second shorting bar region being positioned at below described viewing area, and described first shorting bar region includes the first shorting bar of horizontally set, second shorting bar and the 3rd shorting bar, and include a R voltage signal end, oneth G voltage signal end and a B voltage signal end, described second shorting bar region includes the 4th shorting bar of horizontally set, 5th shorting bar, 6th shorting bar and include the 2nd R voltage signal, 2nd G voltage signal end and the 2nd B voltage signal end, described first shorting bar, described second shorting bar and described 3rd shorting bar respectively with a described R voltage signal end, a described G voltage signal end and a described B voltage signal end connect, described 4th shorting bar, described 5th shorting bar and described 6th shorting bar respectively with described 2nd R voltage signal end, described 2nd G voltage signal end and described 2nd B voltage signal end connect, described first shorting bar, described second shorting bar, described 3rd shorting bar, described 4th shorting bar, described 5th shorting bar and described 6th shorting bar are all connected with described data wire.

2. display panels as claimed in claim 1, it is characterized in that, the pixel of every a line is connected by a described scanning line, every string pixel is alternately connected by parity rows by two adjacent described data wires, and each two shorting bar in described first shorting bar region is connected described data wire in an alternating fashion with each two shorting bar in described second shorting bar region.

3. display panels as claimed in claim 2, it is characterized in that, described first shorting bar and described 4th shorting bar are connected with the data wire being connected to red pixel, described second shorting bar and described 5th shorting bar are connected with the data wire being connected to green pixel, and described 3rd shorting bar and described 6th shorting bar are connected with the data wire being connected to blue pixel.

4. display panels as claimed in claim 2, it is characterized in that, also include the 3rd shorting bar region being positioned on the left of described viewing area, described 3rd shorting bar region includes vertically arranged the 7th shorting bar, the 8th shorting bar and includes first grid signal end and second grid signal end, described 7th shorting bar is connected with described first grid signal end, described 8th shorting bar is connected with described second grid signal end, described 7th shorting bar is connected with the described scanning line of odd-numbered line, and described 8th shorting bar is connected with the described scanning line of even number line.

5. display panels as claimed in claim 1, it is characterized in that, the pixel of every a line is connected by a described scanning line, every string pixel is alternately connected by parity rows by two adjacent described data wires, and one of them shorting bar in described first shorting bar region is connected described data wire in an alternating fashion with one of them shorting bar in described second shorting bar region.

6. display panels as claimed in claim 5, it is characterized in that, described first shorting bar and described 4th shorting bar are connected with the data wire being connected to red pixel, described second shorting bar and described 5th shorting bar are connected with the data wire being connected to green pixel, and described 3rd shorting bar and described 6th shorting bar are connected with the data wire being connected to blue pixel.

7. display panels as claimed in claim 5, it is characterized in that, described substrate also includes the 3rd shorting bar region being positioned on the left of described viewing area, described 3rd shorting bar region includes vertically arranged the 7th shorting bar, the 8th shorting bar and includes first grid signal end and second grid signal end, described 7th shorting bar is connected with described first grid signal end, described 8th shorting bar is connected with described second grid signal end, described 7th shorting bar is connected with the described scanning line of odd-numbered line, and described 8th shorting bar is connected with the described scanning line of even number line.

8. display panels as claimed in claim 1, it is characterized in that, multiple described pixels constitute multipair pixel, a plurality of described scanning line constitutes multipair scanning line, every a pair scanning line is arranged between at least one pair of pixel and is connected with at least one pair of pixel, adjacent data wire is arranged between at least one pair of pixel and is connected with at least one pair of pixel, the polarity of each pixel all with the opposite polarity of adjacent pixel, three shorting bars in described first shorting bar region are by described 3rd shorting bar and Article 1 data wire, start by described first shorting bar and adjacent two described data wires from Article 2 data wire, described second shorting bar and adjacent two described data wires, described 3rd shorting bar is connected with a plurality of described data wire with the over-over mode of adjacent two articles of described data wires, three shorting bars in described second shorting bar region start by described 4th shorting bar and adjacent two articles of described data wires from Article 1 data wire, described 5th shorting bar and adjacent two articles of described data wires, described 6th shorting bar is connected with a plurality of described data wire with the over-over mode of adjacent two articles of described data wires.

9. display panels as claimed in claim 8, it is characterized in that, described substrate also includes the 3rd shorting bar region being positioned on the left of described viewing area, described 3rd shorting bar region includes the 7th vertically arranged shorting bar, 8th shorting bar, 9th shorting bar, tenth shorting bar and include first grid signal end, second grid signal end, 3rd signal end and the 4th signal end, described 7th shorting bar is connected with described first grid signal end, described 8th shorting bar is connected with described second grid signal end, described 9th shorting bar is connected with described 3rd signal end, described tenth shorting bar is connected with described 4th signal end, start often adjacent four bars of Article 1 scanning lines scanned lines from described Article 1 scanning line to be connected with described 7th shorting bar, Article 2 scanning line is connected with described 8th shorting bar, Article 3 scanning line is connected with described 9th shorting bar and described Article 4 scanning line is connected with described tenth shorting bar.

10. a liquid crystal indicator, it is characterised in that include the display panels as described in claim 1 to 9 any one.