CN109031814A - Liquid crystal display and its array substrate - Google Patents

Abstract

The present invention provides a kind of liquid crystal display and its array substrate, the array substrate includes multiple data lines arranged in the first direction, the a plurality of grid line arranged in a second direction, the data line is arranged in a crossed manner with the grid line and limits the multiple pixel regions being arranged in array, the array substrate further includes thin film transistor (TFT), pixel electrode and first transparency electrode, the thin film transistor (TFT), pixel electrode is located in the pixel region, the first transparency electrode is arranged along first direction, the first transparency electrode is located between two pixel electrodes of arbitrary neighborhood in a first direction.Liquid crystal display proposed by the present invention is by increasing first transparency electrode, the viewing area of liquid crystal display is enabled to expand to the partial region where first transparency electrode, the viewing area of liquid crystal display is increased compared with the existing technology, to improve the aperture opening ratio of liquid crystal display.

Description

Liquid crystal display and its array substrate

Technical field

The present invention relates to the fabricating technology field of liquid crystal display more particularly to a kind of liquid crystal displays and its array Substrate.

Background technique

TFT display part aperture opening ratio is an important indicator for determining TFT display part quality, and high aperture opening ratio can save Save power consumption, the prolonged display service life of display device.As shown in Figure 1, the black matrix" in TFT display part is mainly Block the signal wire and thin film transistor (TFT) in TFT display part, wherein the display area of TFT display part is mainly picture Region where plain electrode.The method of the existing aperture opening ratio for promoting TFT display part is mainly to pass through to reduce black matrix" Width realizes that still, the aperture opening ratio that TFT display part is promoted using this method is very limited, moreover, because reducing black The width of colour moment battle array, this method be easy to cause TFT substrate and CF substrate to shift during to group and generate leakage problem.

Summary of the invention

To solve the above-mentioned problems, the present invention provides a kind of liquid crystal display and its array substrate, is able to ascend liquid crystal Show the aperture opening ratio of device.

It is proposed by the present invention the specific technical proposal is: providing a kind of array substrate, the array substrate includes along first party To the multiple data lines of arrangement, a plurality of grid line arranged in a second direction, the data line is arranged in a crossed manner with the grid line and limits Surely in multiple pixel regions of array setting, the array substrate further includes thin film transistor (TFT), pixel electrode and first transparency electrode, The thin film transistor (TFT), pixel electrode are located in the pixel region, and the first transparency electrode is arranged along first direction, and described the One transparent electrode is located between two pixel electrodes of arbitrary neighborhood in a first direction.

Further, the first transparency electrode is block type electrode.

Further, the first transparency electrode includes first electrode line and multiple first strips arranged in a second direction Electrode, the first electrode line is parallel with the data line, and first strip shaped electric poles are vertical with the data line.

Further, first strip shaped electric poles include first electrode and second electrode, the first electrode and described Two electrodes mutually stagger and are located at the two sides of the first electrode line.

Further, the array substrate further includes the second transparency electrode arranged in a second direction, and described second is transparent Electrode is located between two pixel electrodes of arbitrary neighborhood in a second direction.

Further, the second transparency electrode is block type electrode.

Further, the second transparency electrode includes second electrode line and multiple second strips arranged in the first direction Electrode, the second electrode line is parallel with the grid line, and second strip shaped electric poles are vertical with the grid line.

Further, second strip shaped electric poles include third electrode and the 4th electrode, the third electrode and described Four electrodes mutually stagger and are located at the two sides of the second electrode line.

Further, the array substrate further includes color blocking layer, and the color blocking layer is set on the thin film transistor (TFT), described Pixel electrode is set in the color blocking layer.

The present invention also provides a kind of liquid crystal display, the liquid crystal display includes upper substrate and as above any described Box is arranged in array substrate, the upper substrate and the array substrate, and the upper substrate includes glass substrate, black matrix" and public affairs Common electrode, the liquid crystal display include viewing area and non-display area, and the viewing area includes the area where the pixel electrode Partial region where domain and the first transparency electrode, the black matrix" is for blocking the non-display area.

Liquid crystal display proposed by the present invention includes upper substrate and array substrate, and array substrate includes first transparency electrode, The first transparency electrode is arranged along first direction, and the first transparency electrode is located at arbitrary neighborhood two in a first direction Between pixel electrode, by increasing first transparency electrode, the viewing area of liquid crystal display is enabled to expand to the first transparent electricity Partial region where pole, increases the viewing area of liquid crystal display compared with the existing technology, to improve liquid crystal display Aperture opening ratio.

Detailed description of the invention

With reference to the accompanying drawing, by the way that detailed description of specific embodiments of the present invention, technical solution of the present invention will be made And other beneficial effects are apparent.

Fig. 1 is the structural schematic diagram of existing liquid crystal display；

Fig. 2 is the structural schematic diagram of array substrate in embodiment 1；

Fig. 3 is the structural schematic diagram of liquid crystal display in embodiment 1；

Fig. 4 is the sectional view of A-A in Fig. 3；

Fig. 5 is the structural schematic diagram of array substrate in embodiment 2；

Fig. 6 is the structural schematic diagram of liquid crystal display in embodiment 2.

Specific embodiment

Hereinafter, with reference to the accompanying drawings to detailed description of the present invention embodiment.However, it is possible to come in many different forms real The present invention is applied, and the present invention should not be construed as limited to the specific embodiment illustrated here.On the contrary, providing these implementations Example is in order to explain the principle of the present invention and its practical application, to make others skilled in the art it will be appreciated that the present invention Various embodiments and be suitable for the various modifications of specific intended application.In the accompanying drawings, identical label will be used for table always Show identical element.

Embodiment 1

Referring to Fig. 2~4, the liquid crystal display in the present embodiment includes array substrate 1, upper substrate 2 and liquid crystal layer 3.Array Box is arranged in substrate 1 and upper substrate 2, and liquid crystal layer 3 is located between array substrate 1 and upper substrate 2.Array substrate 1 includes along The multiple data lines 11 of one direction arrangement, a plurality of grid line 12 arranged in a second direction, data line 11 and grid line 12 are arranged in a crossed manner And limiting the multiple pixel regions 10 being arranged in array, i.e., data line 11 and grid line 12 are arranged in grid, each grid protocol picture Plain area 10.Array substrate 1 further includes thin film transistor (TFT) 13, pixel electrode 14 and first transparency electrode 15, thin film transistor (TFT) 13, as Plain electrode 14 is located in pixel region.First transparency electrode 15 is arranged along first direction, and first transparency electrode 15 is located in first party Between upward two pixel electrodes 14 of arbitrary neighborhood.Wherein, first direction is horizontal direction, i.e. the direction x in Fig. 1, second Direction is vertical direction, i.e. the direction y in Fig. 1.

Upper substrate 2 includes glass substrate 21, black matrix" and public electrode 23, wherein glass substrate 21 and public electrode 23 are not shown in Fig. 3.Black matrix" is set to the surface of glass substrate 21, and public electrode 23 covers black matrix".Liquid crystal display Device includes viewing area and non-display area, and viewing area includes the portion at 15 place of region and first transparency electrode where pixel electrode 14 Region where the part that subregion, i.e. first transparency electrode 15 are not blocked by black matrix", black matrix" are non-aobvious for blocking Show area.

The present embodiment enables the viewing area of liquid crystal display by adding first transparency electrode 15 in array substrate 1 Region where enough extending to first transparency electrode 15 improves liquid crystal to increase the display area of liquid crystal display Show the aperture opening ratio of device.

Preferably, first transparency electrode 15 and pixel electrode 14 are located on the same floor and are spaced setting, first transparency electrode 15 Material with pixel electrode 14 is ITO.

First transparency electrode 15 can be connect by via hole with data line 11 or grid line 12, can also by via hole with it is public Electrode 23 connects, and provides orientation voltage by data line 11, grid line 12 or public electrode 23 for first transparency electrode 15.

First transparency electrode 15 can be block type electrode, and width is less than two pixels of arbitrary neighborhood in a first direction Spacing between electrode 14.First transparency electrode 15 and public electrode 23 are used to control the liquid of 15 region of first transparency electrode Brilliant voltage, pixel electrode 14 and public electrode 23 are used to control the voltage of the liquid crystal of 14 region of pixel electrode, to make Obtain the partial region that viewing area includes 15 place of region and first transparency electrode where pixel electrode 14.

Preferably, first transparency electrode 15 includes first electrode line 150 and multiple first strips arranged in a second direction Electrode 151, first electrode line 150 is parallel with data line 11, and the first strip shaped electric poles 151 are vertical with data line 11.Adjacent two grid Multiple first strip shaped electric poles 151 are provided between line 12.

First strip shaped electric poles 151 include first electrode 100 and second electrode 101, first electrode 100 and second electrode 101 Mutually stagger and be located at the two sides of first electrode line 150, i.e. the left side that is located at first electrode line 150 of first electrode 100, Two electrodes 101 are located at the right side of first electrode line 150, the first electrode 100 of the left and right sides of first electrode line 150 and the second electricity Pole 101 mutually staggers setting, in this way can more evenly to the liquid crystal applied voltages in the region where first transparency electrode 15, To promote the display effect of 15 region of first transparency electrode.

Due to the presence of first transparency electrode 15, black matrix" only needs to block on second direction, that is, direction y film crystalline substance Body pipe, therefore, the black matrix" in the present embodiment include the multiple shading strips 22 arranged in a second direction, each shading strip 22 include the second light shielding part 221 of block-like first light shielding part 220 and strip, and the first light shielding part 220 is for blocking film crystal Pipe, the second light shielding part 221 is for blocking grid line 12.Wherein, first transparency electrode 15 is located at the of two adjacent shading strips 22 Region between one light shielding part 220 and the second light shielding part 221 is displayed for.Since the first light shielding part 220 is in bulk, relatively In existing black matrix", the present embodiment can also reduce array substrate 1 and upper substrate 2 and left and right offset occurs during to group And generate light leak amount.

Referring to Fig. 4, thin film transistor (TFT) 13 includes substrate 130, grid 131, gate insulation layer 132, active layer 133, source electrode 134, drain electrode 135.Wherein, the structure of thin film transistor (TFT) 13 is bottom grating structure, and grid 131 is set on substrate 130, gate insulation layer 132 covering substrates 130 and grid 131.Active layer 133 includes source contact area 102, back channel region 103 and drain contact region 104, channel region 103 is carried on the back between source contact area 102 and drain contact region 104, back channel region 103 is corresponding with grid 131, Source electrode 134 and drain electrode 135 are arranged at intervals at the both ends of active layer 133, and source electrode 134 is set on gate insulation layer 132 and covers source electrode Contact zone 102, drain electrode 135 are set on gate insulation layer 132 and cover drain contact region 104.Wherein, grid line 12 and grid 131 connect It connects, source electrode 134 is connect with data line 11, and drain electrode 135 is connect by via hole with pixel electrode 14.

Thin film transistor (TFT) 13 further includes passivation layer 136, and passivation layer 136 is in source electrode 134, drain electrode 135 and covers source electrode 134, the exposed surface of drain electrode 135, active layer 133.Passivation layer 136 plays the role of protecting source electrode 134, drain electrode 135.

Array substrate 1 further includes color blocking layer 16, wherein color blocking layer 16 is not shown in Fig. 2, and it is brilliant that color blocking layer 16 is set to film On body pipe 13.First transparency electrode 15 and pixel electrode 14 set on the surface of color blocking layer 16 and are spaced setting.

Embodiment 2

Referring to Fig. 5, Fig. 6, the present embodiment difference from example 1 is that, array substrate 1 further includes in a second direction I.e. the second transparency electrode 17 of the direction y arrangement, second transparency electrode 17 are located at the arbitrary neighborhood two on second direction, that is, direction y Between a pixel electrode 14.

Viewing area in the present embodiment includes the part area where the region at 14 place of pixel electrode, first transparency electrode 15 Partial region where domain and second transparency electrode 17, i.e., where the part that first transparency electrode 15 is not blocked by black matrix" Region where the part that region and second transparency electrode 17 are not blocked by black matrix", black matrix" is for blocking film crystalline substance Region where body pipe 13.

By adding second transparency electrode 17 in array substrate 1, so that the viewing area of liquid crystal display can also extend Liquid crystal is improved to further increase the display area of liquid crystal display to the region where second transparency electrode 17 Show the aperture opening ratio of device.

Preferably, second transparency electrode 17 and pixel electrode 14 are located on the same floor and are spaced setting, second transparency electrode 17 Material with pixel electrode 14 is ITO.

Second transparency electrode 17 can be connect by via hole with data line 11 or grid line 12, can also by via hole with it is public Electrode 23 connects, and provides orientation voltage by data line 11, grid line 12 or public electrode 23 for second transparency electrode 17.

Second transparency electrode 17 can be block type electrode, and width is less than two pixels of arbitrary neighborhood in a second direction Spacing between electrode 14.Second transparency electrode 17 and public electrode 23 are used to control the liquid of 17 region of second transparency electrode Brilliant voltage, so that viewing area includes the partial region where second transparency electrode 17.

Preferably, second transparency electrode 17 includes second electrode line 170 and multiple second strips arranged in the first direction Electrode 171, second electrode line 170 is parallel with grid line 12, and the second strip shaped electric poles 171 are vertical with grid line 12.Adjacent two datas line Multiple second strip shaped electric poles 171 are provided between 11.

Second strip shaped electric poles 171 include third electrode 200 and the 4th electrode 201, third electrode 200 and the 4th electrode 201 Mutually stagger and be located at the two sides of second electrode line 170, i.e. the left side that is located at second electrode line 170 of third electrode 200, Four electrodes 201 are located at the right side of second electrode line 170, the third electrode 200 of the left and right sides of second electrode line 170 and the 4th electricity Pole 201 mutually staggers setting, in this way can more evenly to the liquid crystal applied voltages in the region where second transparency electrode 17, To promote the display effect of 17 region of second transparency electrode.

Due to the presence of second transparency electrode 17, the black matrix" in the present embodiment only needs to block thin film transistor (TFT) i.e. Can, therefore, the black matrix" in the present embodiment only includes block-like first light shielding part 220.Relative to embodiment 1, the present embodiment Array substrate 1 and upper substrate 2 can also be reduced downward shift occurs during to group and generates light leak amount.

Certainly, the present invention can also only include second transparency electrode 17, and it does not include first transparent that structure, which is in embodiment 2, Structure when electrode 15, black matrix structure do corresponding adjustment, are not repeating here.

The above is only the specific embodiment of the application, it is noted that for the ordinary skill people of the art For member, under the premise of not departing from the application principle, several improvements and modifications can also be made, these improvements and modifications are also answered It is considered as the protection scope of the application.

Claims (10)

1. a kind of array substrate, which is characterized in that including multiple data lines arranged in the first direction, arrange in a second direction A plurality of grid line, the data line and multiple pixel regions that the grid line is arranged in a crossed manner and restriction is in array setting, the array base Plate further includes thin film transistor (TFT), pixel electrode and first transparency electrode, and the thin film transistor (TFT), pixel electrode are located at the pixel Qu Zhong, the first transparency electrode are arranged along first direction, and the first transparency electrode is located at any phase in a first direction Between adjacent two pixel electrodes.

2. array substrate according to claim 1, which is characterized in that the first transparency electrode is block type electrode.

3. array substrate according to claim 1, which is characterized in that the first transparency electrode include first electrode line and Multiple first strip shaped electric poles arranged in a second direction, the first electrode line is parallel with the data line, first strip Electrode is vertical with the data line.

4. array substrate according to claim 3, which is characterized in that first strip shaped electric poles include first electrode and Two electrodes, the first electrode and the second electrode mutually stagger and are located at the two sides of the first electrode line.

5. array substrate according to claim 1 to 4, which is characterized in that the array substrate further includes along second party To the second transparency electrode of arrangement, the second transparency electrode be located at two pixel electrodes of arbitrary neighborhood in a second direction it Between.

6. array substrate according to claim 5, which is characterized in that the second transparency electrode is block type electrode.

7. array substrate according to claim 5, which is characterized in that the second transparency electrode include second electrode line and Multiple second strip shaped electric poles arranged in the first direction, the second electrode line is parallel with the grid line, the second strip electricity Pole is vertical with the grid line.

8. array substrate according to claim 7, which is characterized in that second strip shaped electric poles include third electrode and Four electrodes, the third electrode and the 4th electrode mutually stagger and are located at the two sides of the second electrode line.

9. array substrate according to claim 1, which is characterized in that the array substrate further includes color blocking layer, the color Resistance layer is set on the thin film transistor (TFT), and the pixel electrode is set in the color blocking layer.

10. a kind of liquid crystal display, which is characterized in that the array substrate including upper substrate and as described in claim 1-9 is any, Box is arranged in the upper substrate and the array substrate, and the upper substrate includes glass substrate, black matrix" and public electrode, institute Stating liquid crystal display includes viewing area and non-display area, where the viewing area includes pixel region and the first transparency electrode Partial region, the black matrix" is for blocking the non-display area.