CN204613550U - Display panel - Google Patents

Abstract

A display panel comprises a first substrate, an active matrix, a color filter layer, a black photoresist layer, a second substrate, a non-self-luminous display medium layer and a black frame adhesive layer. The active matrix has sub-pixels arranged in an array and dummy sub-pixels. The quasi-sub-pixels are positioned at least at two sides of the sub-pixels. The color filter layer is arranged in the sub-pixels and the quasi-pixels. The black photoresist layer has an inner spacer and an outer spacer. The inner spacers are disposed on the color filter layer in the sub-pixels. The outer spacers are disposed on the color filter layer in the intended sub-pixels. The second substrate is located above the first substrate. The non-self-luminous display medium layer is arranged between the first substrate and the second substrate. The black frame glue layer is close to the outer spacer to bond the first substrate and the second substrate. The height of the outer spacers is substantially equal to the height of the black sealant layer.

Description

Display panel

Technical field

The utility model relates to a kind of display panel, particularly a kind of display panels.

Background technology

The LCD MODULE of STN Super TN (Super Twisted Nematic, STN) or thin film transistor (TFT) (Thin FilmTransistor TFT) has been widely used as the display device of notebook personal computer etc.

For the LCD MODULE of thin film transistor (TFT) (TNT).The LCD MODULE of thin film transistor (TFT) is divided into again black matrix" to be integrated in transistor (TFT) array substrate (Black Matrix on Array, BOA) display panel and color filter sheet integrated in the display panel of transistor (TFT) array substrate (Color Filter onArray, COA).No matter be that black matrix" is integrated in transistor (TFT) array substrate (BOA) or the color filter sheet integrated problem that all can produce aberration in transistor (TFT) array substrate (COA) at edge of display area place, and the metallic circuit through display panel inside reflects and produces the problem having light leak.It is upper even more serious that these problems are integrated in transistor (TFT) array substrate (BOA) at black matrix".Therefore, how to reduce black matrix" and be integrated in edge of display area place aberration degree on transistor (TFT) array substrate (BOA), aberration is even avoided to produce, and reduce black matrix" and be integrated in the light leak amount of transistor (TFT) array substrate (BOA), by one of the problem that should address for research staff.

Summary of the invention

The utility model relates to a kind of display panel, use and reduce black matrix" and be integrated in edge of display area place aberration degree on transistor (TFT) array substrate (BOA), even avoid aberration to produce, and reduce the light leak amount that black matrix" is integrated in transistor (TFT) array substrate (BOA).

Display panel disclosed in the utility model, comprises a first substrate, an active-matrix, a chromatic filter layer, a black light resistance layer, a second substrate, a non-self luminescence display dielectric layer and a black box glue-line.Define a viewing area and a surrounding zone on the first substrate.This surrounding zone is around viewing area.Active-matrix has multiple sub-pixel and multiple plan puts sub-pixel.These sub-pixels are arranged at viewing area and are arrayed.At least every three different colours sub-pixels form a pixel.These are intended putting sub-pixel and are arranged at surrounding zone and at least both sides being positioned at viewing area.Chromatic filter layer is arranged at these sub-pixels and these plans are put among pixel.Black light resistance layer has at least one internal clearance thing and at least one external series gap thing, and these internal clearance things to be arranged in viewing area and on chromatic filter layer, and these external series gap things are arranged on surrounding zone and on chromatic filter layer.Second substrate is positioned at above first substrate.Non-self luminescence display dielectric layer is arranged between first substrate and second substrate.Black box glue-line is arranged at surrounding zone and is close to external series gap thing, to bond first substrate and second substrate.Wherein the vertical height of external series gap thing is equal with the vertical height of black box glue-line in fact.

According to the display panel disclosed in above-described embodiment, because the vertical height of external series gap thing is equal with the vertical height of black box glue-line in fact, and external series gap thing fill up chromatic filter layer, non-spontaneous display dielectric layer and black box glue-line around space, therefore the refraction effect that extraneous light is incident upon black box glue-line place is similar to the refraction effect that extraneous light is incident upon black light resistance layer, and then the surrounding zone that effectively can reduce display panel produces the problem of aberration.

In addition, the internal clearance thing of black light resistance layer hides and is positioned at the data line of the active-matrix of viewing area and the top of sweep trace, to avoid producing leakage problem in the viewing area of display panel.

Moreover the external series gap thing of black light resistance layer hides the top that the plan being positioned at surrounding zone puts the conducting element of active-matrix together with black box glue-line, to avoid producing leakage problem in the surrounding zone of display panel.

The above explanation about the utility model content and the explanation of following embodiment are in order to demonstration and explanation principle of the present utility model, and provide patent claim of the present utility model further to explain.

Accompanying drawing explanation

Fig. 1 is the schematic top plan view of the display panel according to the utility model first embodiment.

Fig. 2 A is the diagrammatic cross-section illustrated along the 2A-2A profile line of Fig. 1.

Fig. 2 B is the close-up schematic view of Fig. 2 A.

Fig. 3 is the floor map of the active-matrix of the display panel of Fig. 2 A.

Fig. 4 is the black box glue-line of Fig. 2 A and the optical density-wavelength simulation curve schematic diagram of black light resistance layer.

Fig. 5 is the diagrammatic cross-section of the display panel according to the utility model second embodiment.

description of reference numerals:

10 display panels

100 first substrates

200 active-matrix

210 pixels

210a, 210b, 210c sub-pixel

210t thin film transistor (TFT)

211 source electrodes

212 data lines

213 grids

214 sweep traces

215 drain electrodes

216 pixel electrodes

220 intend putting sub-pixel

221 conducting elements

300 chromatic filter layers

310 red filter patterns

320 green filter patterns

330a, 330b blue filter pattern

400 black light resistance layers

410 internal clearance things

411 main gap

412 spacers

413 modification space

420 external series gap things

421 perforation

500 second substrates

600 transparent electrode layers

700 non-self luminescence display dielectric layers

800 black box glue-lines

810 holes

910 conductive pads

920 conductive silver glues

S1 viewing area

S2 surrounding zone

Embodiment

Refer to Fig. 1 to Fig. 3.Fig. 1 is the schematic top plan view of the display panel according to the utility model first embodiment.Fig. 2 A is the diagrammatic cross-section illustrated along the 2A-2A profile line of Fig. 1.Fig. 2 B is the close-up schematic view of Fig. 2 A.Fig. 3 is the floor map of the active-matrix of the display panel of Fig. 2 A.

The display panel 10 of the present embodiment can be applicable to have the coated display type of frame, as screen or notebook computer, or the display type that Rimless is coated, as smart mobile phone (i.e. display surface and housing design for complanation type).For the display type that Rimless is coated, the problem of edge's light leak is more serious.Therefore, the present embodiment designs mainly for the demand of the coated display type of Rimless.Refer to following explanation.

As shown in Fig. 1 and Fig. 2 A, display panel 10 comprises first substrate 100, active-matrix 200, chromatic filter layer 300, black light resistance layer 400, second substrate 500, non-self luminescence display dielectric layer 700 and a black box glue-line 800.

First substrate 100 is such as the light-permeable such as glass, plastic cement substrate.First substrate 100 defines an a viewing area S1 and surrounding zone S2.It is peripheral that surrounding zone S2 is positioned at viewing area S1, and have a conductive pad 910.Viewing area S1 refers to that display panel 10 is arranged in pairs or groups can demonstrate the region of image after backlight module (not illustrating).Surrounding zone S2 is the reserved region arranging driving circuit, viewing area S1 periphery, i.e. the non-region being used for show image.

Active-matrix 200 has multiple sub-pixel 210a, 210b, 210c and multiple plan puts sub-pixel 220.These sub-pixels 210a, 210b, 210c are arranged at viewing area S1 and are arrayed.These sub-pixels 210a, 210b, 210c of every at least three different colours form a pixel 210.For example, the color of adjacent three sub-pixels 210a, 210b, 210c is respectively red, green, blue, and red sub-pixel 210a, green sub-pixels 210b and blue subpixels 210c form a pixel 210 jointly.

These plans put the relative both sides that sub-pixel 220 is only positioned at viewing area S1.These are intended putting sub-pixel 220 and also comprise at least one conducting element 221.Conducting element 221 is such as thin film transistor (TFT) or wire.These are intended putting sub-pixel 220 and are arranged at surrounding zone S2 and are arranged in frame-shaped, and around viewing area S1 (as shown in Figure 1), but not as limit, in other embodiments (not illustrating), these intend putting the both sides at least arbitrarily that sub-pixel 220 also can be positioned at viewing area S1.

In addition, these colors of intending putting sub-pixel 220 can for red, green or blue.The color of putting sub-pixel 220 in the plan of the present embodiment is for blueness, its object is to blue lower for human eye colourity, shaded effect is better, therefore the plan being positioned at surrounding zone S2 puts sub-pixel 220 when adopting blueness, for the S2 of surrounding zone, have preferably shaded effect.

As shown in Fig. 2 A to Fig. 3, each sub-pixel 210a, 210b, 210c such as comprise thin film transistor (TFT) 210t.Each thin film transistor (TFT) 210t has a grid 211, one source pole 212 and a drain electrode 213.Grid 211 is stacked at first substrate 100, and connects scan line 214.Grid 211 is provided with one dielectric layer 217.Source electrode 212 is stacked at sweep trace 214 with drain electrode 213, and source electrode 212 connects a data line 215 and a drain electrode 213 connects an electrode 216.In addition, more foldedly in source electrode 212 and drain electrode 213 one first insulation course 218 is provided with.

Please continue please refer to the drawing 1 to Fig. 2 B again.Chromatic filter layer 300 is arranged at these sub-pixels 210a, 210b, 210c and these plans are put among pixel 220, and is stacked at each first insulation course 218.Specifically, chromatic filter layer 300 comprises multiple red filter pattern 310, multiple green filter pattern 320 and multiple blue filter pattern 330a, 330b.These red filter patterns 310, these green filter patterns 320 and these blue filter patterns 330a such as arrange with the order of red, green, blue, and red filter pattern 310 correspondence is arranged on red sub-pixel 210a, green filter pattern 320 correspondence is arranged on green sub-pixels 210b, blue filter pattern 330a correspondence is arranged at blue subpixels 210c, and blue filter pattern 330b by these red filter patterns 310, these green filter patterns 320 with these filter pattern 330a around interior, and correspondence is arranged at plan puts on sub-pixel 220.In addition, one second insulation course 219 (as shown in Figure 2 B) is provided with corresponding to more folded above these red filter patterns 310 in sub-pixel, these green filter patterns 320 and these blue filter patterns 330a.

Shaded effect due to blueness is more red good with green, therefore selects blue filter pattern 330b to be stacked at plan in the present embodiment to put above sub-pixel 220.But not as limit, in other embodiments, also green or red filter pattern can be stacked at plan to put above sub-pixel 220.

Black light resistance layer 400 has at least one internal clearance thing 410 and at least one external series gap thing 420.Internal clearance thing 410 and external series gap thing 420 are such as black matrix" or the combination for black matrix" and spacer (photo spacer).These internal clearance things 410 are arranged on chromatic filter layer 300, and correspond to directly over the S1 of viewing area.These internal clearance things 410 have multiple main gap 411 and multiple spacers 412.These main gap 411 are stacked on these blue filter patterns 330a respectively.These time spacer 412 is stacked at red filter pattern 310 respectively with on green filter pattern 320.Main gap 411 and time spacer 412 are to allow first substrate 100 and second substrate 500 maintain gap, with the space providing non-self luminescence display dielectric layer 700 to inject.These external series gap things 420 are arranged on and are positioned on the blue filter pattern 330b of surrounding zone S2.

Second substrate 500 is such as glass substrate.Second substrate 500 is positioned at above first substrate 100, and second substrate 500 arranges a transparent electrode layer 600 in the face of the one side of non-self luminescence display dielectric layer 700.

Non-self luminescence display dielectric layer 700, i.e. liquid crystal layer, its inside has multiple liquid crystal molecule.Non-self luminescence display dielectric layer 700 is arranged between first substrate 100 and second substrate 500, and is stacked at the second insulation course 219.

Black box glue-line 800 is arranged at surrounding zone S2 and is close to external series gap thing 420, to bind first substrate 100 and second substrate 500.In the present embodiment, black box glue-line 800 is covered on conductive pad 910, and has a holes 810 corresponding to conductive pad 910 place.Fill out in holes 810 and be provided with a conductive silver glue 920.Conductive silver glue 920 is contacted with conductive pad 910 and transparent electrode layer 600, is electrically connected to make conductive pad 910 and transparent electrode layer 600.

In addition, internal clearance thing 410, external series gap thing 420 and black box glue-line 800 all have multiple black particles, and each black particles is such as group that titanium particle, RGB stuff and other stuff, carbon particle or titanium particle, RGB stuff and other stuff and carbon particle are formed.

In the present embodiment, not limiting the material adding the black particles of internal clearance thing 410, external series gap thing 420 and black box glue-line 800 needs identical with concentration, but in other embodiments, if the material adding the black particles of internal clearance thing 410, external series gap thing 420 and black box glue-line 800 is all identical with concentration, then contribute to the aberration reducing internal clearance thing 410, external series gap thing 420 and black box glue-line 800.

For example, refer to shown in table one Yu Fig. 4, Fig. 4 is the black box glue-line of Fig. 2 A and the optical density-wavelength simulation curve schematic diagram of black light resistance layer.

The composition of table one black light resistance layer 400 and black box glue-line 800

As shown in Table 1, in the present embodiment, black light resistance layer 400 is with the composition of black box glue-line 800, and except the material of black particles is identical with concentration, all the other materials of arranging in pairs or groups are not identical.Specifically, black light resistance layer 400 comprise 40% black particles, the acrylic monomer of 35%, the sticking agent of 20% and 5% light initiator and compositions of additives.Black box glue-line 800 comprise 40% black particles, the acryl resin of 30%, the epoxy acrylic resin of 15% and 15% filling agent, couplant, light initiator and compositions of additives.

Then, as shown in Figure 4, optical density value simulation is carried out with black box glue-line 800 with the black light resistance layer 400 described in table one, its analog result presents the optical density curve (fine rule) of optical density curve (thick line) the convergence black box glue-line 800 of black light resistance layer 400, makes black light resistance layer 400 less obvious with the aberration of black box glue-line 800.That is, although black light resistance layer 400 is not identical with the constituent of black box glue-line 800, but in the present embodiment, because the black particles of black light resistance layer 400 is identical with concentration with the material of the black particles of black box glue-line 800, thus can allow the optical density curve of black light resistance layer 400 level off to black box glue-line 800 optical density curve and eliminate the aberration of black light resistance layer 400 and black box glue-line 800 further.

It should be noted that the vertical height of external series gap thing 420 is equal with the vertical height of black box glue-line 800 in fact, and all contact transparent electrode layer 600.The vertical height of external series gap thing 420 refers to that external series gap thing 420 protrudes from the height of first substrate 100, and the vertical height of black box glue-line 800 is also for black box glue-line 800 protrudes from the height of first substrate 100.Therefore, the vertical height of external series gap thing 420 is equal with the vertical height of black box glue-line 800 in fact, and contact transparent electrode layer 600 and refer to, external series gap thing 420 is all contacted with the transparent electrode layer 600 on second substrate 500 with the apical margin of black box glue-line 800, and between external series gap thing 420 and transparent electrode layer 600 in fact gapless produce, and between black box glue-line 800 transparent electrode layer 600 in fact also gapless produce.

In addition, the left and right sides of external series gap thing 420 is close to non-self luminescence display dielectric layer 700 and black box glue-line 800 respectively, with fill up chromatic filter layer 300, non-spontaneous display dielectric layer and black box glue-line 800 around space.

Because the active-matrix 200 below chromatic filter layer 300 includes metal sweep trace 214 and data line 212, light can produce the problem of light leak through active-matrix 200 reflection in the S1 of viewing area.Therefore, internal clearance thing 410 correspondence is stacked at above red, green, blue look filter pattern 330a, to avoid the problem producing light leak in the S1 of viewing area.

In like manner, intend putting active-matrix 200 and include metal conducting element 221 equally, therefore, external series gap thing 420 correspondence is stacked at the blue filter pattern 330b being positioned at and intending putting above active-matrix 200, to avoid the problem producing light leak in the S2 of surrounding zone.

In addition, because the vertical height of external series gap thing 420 is equal with the vertical height of black box glue-line 800 in fact, and external series gap thing 420 fill up chromatic filter layer 300, non-spontaneous display dielectric layer and black box glue-line 800 around space, therefore the refraction effect that extraneous light is incident upon black box glue-line 800 place is similar to the refraction effect that extraneous light is incident upon black light resistance layer 400, and then the surrounding zone S2 that effectively can reduce display panel 10 produces the problem of aberration.

Separately, in the present embodiment, black box glue-line 800 directly contacts with black light resistance layer 400, and the reason that not sum non-spontaneous light display dielectric layer 700 directly contacts is, black box glue-line 800 is formed at above first substrate 100 by coating process, make the edge of black box glue-line 800 not easily maintain straight line, if black box glue-line 800 directly contacts with non-self luminescence display dielectric layer 700, then easily make the edge of viewing area S1 produce zigzag and reduce display quality.Contrary, the black light resistance layer 400 of the present embodiment is solidified above first substrate 100 by lithography process, therefore the edge of black light resistance layer 400 more easily maintains straight line, and then promote the display quality of display panel 10.

In addition, thickness due to the black light resistance layer 400 produced by present lithography process is less than the spacing of first substrate 100 and second substrate 500, therefore in order to reduce technology difficulty, special pad on first substrate 100 intends putting sub-pixel 220 and chromatic filter layer 300, significantly to reduce the thickness requirements of black light resistance layer 400, the degree of difficulty of a step-down of going forward side by side low formation black light resistance layer 400.

Refer to Fig. 5.Fig. 5 is the diagrammatic cross-section of the display panel according to the utility model second embodiment.The present embodiment is similar to the embodiment of above-mentioned Fig. 1, therefore is only described for deviation.

In the embodiment in figure 1, black box glue is close at an edge of external series gap thing 420, but not as limit, in the present embodiment, external series gap thing 420 further can stretch out and exceed the position of black box glue.Specifically, external series gap thing 420 has a perforation 421.Black box glue is all located in perforation 421 with the conductive pad 910 of the holes 810 being positioned at black box glue with conductive silver glue 920, to make black box glue bond first substrate 100 and second substrate 500, transparent electrode layer 600 is allowed to be electrically connected conductive pad 910 with by conductive silver glue 920.

According to the display panel disclosed in above-described embodiment, because the vertical height of external series gap thing is equal with the vertical height of black box glue-line in fact, and external series gap thing fill up chromatic filter layer, non-spontaneous display dielectric layer and black box glue-line around space, therefore the refraction effect that extraneous light is incident upon black box glue-line place is similar to the refraction effect that extraneous light is incident upon black light resistance layer, and then the surrounding zone that effectively can reduce display panel produces the problem of aberration.

In addition, the internal clearance thing of black light resistance layer hides and is positioned at the data line of the active-matrix of viewing area and the top of sweep trace, to avoid producing leakage problem in the viewing area of display panel.

Moreover the external series gap thing of black light resistance layer hides the top that the plan being positioned at surrounding zone puts the conducting element of active-matrix together with black box glue-line, to avoid producing leakage problem in the surrounding zone of display panel.

Although embodiment of the present utility model is openly described above; so and be not used to limit the utility model; any those skilled in the art; not departing from spirit and scope of the present utility model; such as work as according to the shape described in the utility model application range, structure, feature and spirit and can do a little change, therefore scope of patent protection of the present utility model must be as the criterion depending on the claim person of defining.

Claims (10)

1. a display panel, comprises:

One first substrate, define a viewing area and a surrounding zone, this surrounding zone is around this viewing area;

One active-matrix, there is multiple sub-pixel and multiple plan puts sub-pixel, those sub-pixels are arranged at this viewing area and in arrayed, often those sub-pixels of at least three different colours form a pixel, and those are intended putting sub-pixel and are arranged at this surrounding zone and at least both sides being positioned at this viewing area;

One chromatic filter layer, is arranged at those sub-pixels and those plans are put among pixel;

One black light resistance layer, has at least one internal clearance thing and at least one external series gap thing, and those internal clearance things to be arranged in this viewing area and on this chromatic filter layer, and those external series gap things are arranged on this surrounding zone and on this chromatic filter layer;

One second substrate, is positioned at above this first substrate;

One non-self luminescence display dielectric layer, is arranged between this first substrate and this second substrate; And

One black box glue-line, is arranged at this surrounding zone and is close to this external series gap thing, to bond this first substrate and this second substrate;

Wherein the vertical height of this external series gap thing is equal with the vertical height of this black box glue-line in fact.

2. display panel as claimed in claim 1, wherein those are intended putting sub-pixel and are arranged at this surrounding zone and four sides being positioned at this viewing area.

3. display panel as claimed in claim 1, wherein those are intended putting sub-pixel and are provided with a blue filter pattern.

4. display panel as claimed in claim 1, wherein this internal clearance thing and this external series gap thing are black matrix" or the combination for black matrix" and spacer.

5. display panel as claimed in claim 1, wherein the quantity of this at least one internal clearance thing is multiple, those internal clearance things have main gap and a spacer, and the vertical height of this main gap is equal with this external series gap thing in fact and be greater than this spacer.

6. display panel as claimed in claim 5, wherein those internal clearance things, this external series gap thing and this black box glue-line all have multiple black particles, and each this black particles is titanium particle, RGB stuff and other stuff or carbon particle.

7. display panel as claimed in claim 5, wherein this three sub-pixel of this active-matrix is respectively equipped with a red filter pattern, a green filter pattern and a blue filter pattern, and this red filter pattern and this green filter pattern arrange this spacer, this blue filter pattern is arranged this main gap.

8. display panel as claimed in claim 5, wherein this sub-pixel each comprises a thin film transistor (TFT), and this thin film transistor (TFT) has one source pole and connects a data line, a grid connection scan line and drain electrode connection one pixel electrode.

9. display panel as claimed in claim 1, wherein those are intended putting sub-pixel and also comprise at least one conducting element, and this conducting element is in fact thin film transistor (TFT) or wire.

10. display panel as claimed in claim 1, wherein above this second substrate, a transparent electrode layer is arranged to the one side of this non-self luminescence display dielectric layer, this surrounding zone has a conductive pad and this black box glue-line covers on it, this black box glue-line is to having a holes in conductive pad place, this holes is filled out and is established a conductive silver glue, and this conductive silver glue is communicated with this conductive pad and this transparent electrode layer.