CN108878687A - Display panel and electronic equipment - Google Patents

Abstract

The invention discloses a display panel and electronic equipment, wherein a color resistance stacking structure is arranged in a non-display area of the display panel, so that the film thickness of a color film substrate in the non-display area is improved, the thickness of a glue layer is reduced, the stress at the edge of the non-display area is larger during bending, the position of a neutral surface of the non-display area is improved, an inorganic layer for packaging in the non-display area is indirectly close to the position of the neutral surface of the non-display area, the risk of bending and breaking of the inorganic layer in the non-display area is greatly reduced, and the display effect of the display panel is improved. This electronic equipment reduces non-display area inorganic encapsulation layer and has the cracked risk of buckling through adopting this display panel, has solved steam and oxygen and has got into the display area and influence display panel's display effect's problem from fracture department, also very big improvement its display effect.

Description

A kind of display panel and electronic equipment

Technical field

The present invention relates to flexible display technologies fields, more specifically more particularly to a kind of display panel and electronic equipment.

Background technique

It is aobvious that Organic Light Emitting Diode (Organic Light-Emitting Diode, OLED) is also known as organic electric laser Show, organic luminous semiconductor there is that self-luminous, wide viewing angle, high contrast, power consumption is low and reaction speed is fast, it is wide It is general to be applied to the display fields such as mobile phone, DV, DVD player, laptop and TV.

OLED display panel for traditional liquid crystal display panel (Liquid Crystal Display, LCD), Flexible Displays are able to achieve, so that height can carry, bent display technology becomes an important breakthrough in field.

For bent display panel, in inorganic layer of the non-display area for encapsulation, due to far from non-display The neutral surface in area and the risk that there is bending fracture, cause steam and oxygen to enter viewing area from breaking part, influence display panel Display effect.

Summary of the invention

To solve the above problems, the display panel solves existing the present invention provides a kind of display panel and electronic equipment There are the problem of technology, the risk for reducing the bending fracture of non-display area inorganic layer of high degree.

To achieve the above object, the present invention provides the following technical solutions：

A kind of display panel, the display panel are divided into viewing area and surround the non-display area of the viewing area；

The display panel includes：

Underlay substrate；

On the underlay substrate and along set gradually far from the underlay substrate direction array layer, light-emitting function Layer, encapsulated layer and color membrane substrates；

The color membrane substrates include：

Color film substrate；

The color blocking of light shield layer on the color film substrate and multiple and different colors is set, and the color membrane substrates are described aobvious Show and be divided into shading region and transparent area in area, the light shield layer covers the shading region, and the color blocking covers the transparent area；

Color blocking stacked structure in the non-display area is set；

Wherein, the color blocking stacked structure includes the light shield layer and at least one layer color blocking of stacking, or stack The color blocking of at least two layers different colours.

The present invention also provides a kind of electronic equipment, including display panel described in any of the above embodiments.

As can be seen from the above description, a kind of display panel provided by the invention is stacked by the way that color blocking is arranged in non-display area Structure, to improve thicknesses of layers of the color membrane substrates in non-display area, in bending, the stress at non-display area edge is bigger, so that The neutral surface position of non-display area is improved, and makes the inorganic layer in non-display area for encapsulation close to its neutral surface position, pole indirectly The risk for reducing the bending fracture of non-display area inorganic layer of big degree, improves the display effect of display panel indirectly.

Also, the color blocking stacked structure is in the production process, is made of the material and technique of production color blocking and light shield layer It forms, without increasing other techniques, manufacture craft is simple.

The electronic equipment reduces the wind that non-display area inorganic encapsulated layer has bending fracture by using the display panel Danger solves the problems, such as that steam and oxygen enter viewing area from breaking part and influences the display effect of display panel, also very big journey Degree improves its display effect.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this The embodiment of invention for those of ordinary skill in the art without creative efforts, can also basis The attached drawing of offer obtains other attached drawings.

Fig. 1 is a kind of structural schematic diagram of display panel provided in an embodiment of the present invention；

Fig. 2 is schematic cross-section of the Fig. 1 along the display panel of AA ' cutting line；

Fig. 3 is a kind of schematic cross-section of the Fig. 1 along the color membrane substrates of AA ' cutting line；

Fig. 4 is another schematic cross-section of the Fig. 1 along the color membrane substrates of AA ' cutting line；

Fig. 5 is another schematic cross-section of Fig. 1 along the color membrane substrates of AA ' cutting line；

Fig. 6 is the structural schematic diagram of another display panel provided in an embodiment of the present invention；

Fig. 7 is the structural schematic diagram of another display panel provided in an embodiment of the present invention；

Fig. 8 includes a kind of schematic cross-section of a bent area along the color membrane substrates of BB ' cutting line for Fig. 7；

Fig. 9 includes another schematic cross-section of a bent area along the color membrane substrates of BB ' cutting line for Fig. 7；

Figure 10 includes another schematic cross-section of a bent area along the color membrane substrates of BB ' cutting line for Fig. 7；

Figure 11 includes another schematic cross-section of a bent area along the color membrane substrates of BB ' cutting line for Fig. 7；

Figure 12 includes another schematic cross-section of a bent area along the color membrane substrates of BB ' cutting line for Fig. 7；

Figure 13 includes another schematic cross-section of a bent area along the color membrane substrates of BB ' cutting line for Fig. 7；

Figure 14 includes another schematic cross-section of a bent area along the color membrane substrates of BB ' cutting line for Fig. 7；

Figure 15 is another schematic cross-section of the Fig. 1 along the display panel of AA ' cutting line；

Figure 16 is another schematic cross-section of Fig. 1 along the color membrane substrates of AA ' cutting line.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

In order to make the foregoing objectives, features and advantages of the present invention clearer and more comprehensible, with reference to the accompanying drawing and specific real Applying mode, the present invention is described in further detail.

With reference to Fig. 1, Fig. 1 is a kind of structural schematic diagram of display panel provided in an embodiment of the present invention, the display panel It is divided into viewing area 11 and surrounds the non-display area 12 of the viewing area 11, the non-display area 12 is usually the display panel Frame region.

Specifically, the viewing area 11 includes multiple pixel units, each pixel unit includes：It is arranged in TFT (Thin Film Transistor, thin film transistor (TFT)) anode layer, hole injection layer, hole transmission layer, luminescent layer, electronics on control layer Transport layer and cathode layer, each pixel unit are used to issue the light of different colours.

It is schematic cross-section of the Fig. 1 along the display panel of AA ' cutting line with reference to Fig. 2, Fig. 2, the display panel includes：Lining Substrate 21；On the underlay substrate 21 and along array layer 22, the hair set gradually far from 21 direction of underlay substrate Light functional layer 23, encapsulated layer 24 and color membrane substrates 25.

Specifically, the array layer 22 includes but is not limited to buffer layer, the light emitting functional layer 23 includes but does not limit In multiple thin film transistor (TFT)s 26, passivation layer 233, planarization layer 234 and pixel defining layer 235, wherein the thin film transistor (TFT) 26 Including active layer 261, grid 262, source electrode 263, drain electrode 264, the light emitting functional layer 23 further includes being arranged in the active layer Gate insulating layer 231, setting between 261 and the grid 262 is in the grid 262 and the source electrode 263 and the drain electrode Interlayer insulating film 232 between 264, the setting of passivation layer 233 deviate from the layer in the source electrode 263 and the drain electrode 264 Between insulating layer 232 side, the planarization layer 234 be arranged in the passivation layer 233 deviate from the interlayer insulating film 232 one Side, the pixel defining layer 235 are arranged in the side that the planarization layer 234 deviates from the underlay substrate 21, need to illustrate It is that the source electrode 263 and the drain electrode 264 are located on the same floor.

It should be noted that the pixel defining layer 235 has multilayered structure in fig 2, no longer elaborate herein, and Only illustrate by taking a thin film transistor (TFT) as an example in attached drawing 2.

The encapsulated layer 24 includes the first inorganic encapsulated layer 241, organic being successively set in the pixel defining layer 235 Encapsulated layer 242 and the second inorganic encapsulated layer 243, the encapsulated layer 24 are thin-film encapsulation layer (Thin Film Encapsulation, TFE).

Optionally, the underlay substrate 21 be insulating material flexible underlay substrate, have it is extensible, bent or The characteristics such as flexible, material include but is not limited to polyimide material (abbreviation PI) or makrolon material (abbreviation PC) or Pet material (abbreviation PET) etc..

Optionally, the buffer layer includes but is not limited to inorganic material layer or organic material layer, wherein inorganic material layer Material include but is not limited to silica, silicon nitride, silicon oxynitride, aluminium oxide or aluminium nitride etc., the material of organic material layer Including but not limited to acrylic or PI etc., in embodiments of the present invention, the buffer layer are said by taking organic material layer as an example It is bright.

With reference to Fig. 3, Fig. 3 is a kind of schematic cross-section of the Fig. 1 along the color membrane substrates of AA ' cutting line, the color membrane substrates 25 Including：Color film substrate 31；The color blocking 33 of light shield layer 32 on the color film substrate 31 and multiple and different colors, the coloured silk are set Ilm substrate 25 is divided into shading region and transparent area in the viewing area 11, and the light shield layer 31 covers the shading region, described Color blocking 32 covers the transparent area.It should be noted that arrangement mode of the color blocking of multiple and different colors in the transparent area In the present invention and it is not construed as limiting.

Specifically, the pixel unit on the transparent area and the display base plate corresponds, by the transparent area Middle setting color blocking makes the color burn for the light that pixel unit issues on the display base plate, for example, what a pixel unit issued Light is feux rouges, which is arranged red color resistance in corresponding transparent area on color membrane substrates, then passing through the red color resistance The feux rouges that display panel can be made to issue is darker.

Optionally, in the present embodiment, the color blocking stacked structure 34 in the non-display area 12 is set.

Wherein, the color blocking stacked structure 34 includes the light shield layer 32 and at least one layer color blocking 33 of stacking, or The color blocking 33 of at least two layers different colours stacked.

Specifically, use is identical when forming the color blocking or light shield layer of each different colours on the color film substrate 31 Technical matters sequentially forms required light shield layer and/or color perpendicular on the direction of the color film substrate 31 in non-display area 12 Resistance layer, to constitute required color blocking stacked structure.

It should be understood that the color blocking of different colours is successively produced on the corresponding position of color film substrate 31 by different materials, That is although since the color blocking of different colours in viewing area 11 does not overlap, so as shown in the figure, the color blocking of different colours exists It is located at the same plane for being parallel to display panel in viewing area 11, but the color blocking of actually distinct color is different film layers.

It should be understood that since the insulating layer in array layer is mainly the film layer that inorganic material is formed, inorganic material hardness It is larger.Along vertically with the direction of display panel, the film layer that the organic material for including in viewing area 11 is formed will be more than non-display area Domain, such as pixel defining layer 235, planarization layer 234, organic encapsulation layer 242.Due to the presence of these film layers in viewing area 11, The neutral surface in viewing area 11 can be made to move up compared to non-display area, thus make neutral surface close to or in array substrate with The adjacent inorganic insulation layer of the active layer of thin film transistor (TFT), or can be adjusted by these organic layers, keep neutral surface close or position Inorganic encapsulated layer in encapsulated layer, such as organic encapsulation layer 242 is provided in viewing area 11, the organic encapsulation layer 242 is logical The technique for crossing inkjet printing is formed, and thickness is about 2um, thicker compared to its thickness for more other film layers, and substrate base Plate 21 is also organic material layer, such as PI material, and the thickness of underlay substrate 21 is also thicker, in turn, passes through in viewing area 11 The adjusting of organic encapsulation layer 242 and underlay substrate 21 can be such that the neutral surface in viewing area 11 is improved, and keep neutral surface close Or the circuit element in luminescent device, array layer, the inorganic layer in 11 array layer of viewing area are also just not easy to be broken The problem of.But in non-display area 12, the non-all standing of organic encapsulation layer 242 first, secondly mainly by more in non-display area 12 A inorganic layer stacks, for example, barrier layer, gate insulating layer, interlayer insulating film, in inorganic encapsulated layer at least portion's film layer non- Display area adjacent stacks, and the neutral surface in non-display area 12 is located at the lower section of these inorganic layers, then hard along with inorganic layer Big problem is spent, leads to display panel in the process of bending, the inorganic layer in non-display area 12 is easily broken off.

In order to which the inorganic layer solved the problems, such as in non-display area is easily broken off, the present invention passes through in the non-display area 12 Color blocking stacked structure 34 is set, to increase the thicknesses of layers in non-display area 12 above inorganic layer, it is clear that the design can make to show Show that panel stress of non-display area in bending becomes larger, is in the neutral surface of non-display area 12 in inorganic layer as far as possible, also Generation the problem of inorganic fault rupture in non-display area when preventing bending.

Further, the color blocking includes the color blocking of n kind different colours, and the color blocking stacked structure includes the n-layer stacked The color blocking of different colours.

Optionally, by taking the pixel of display panel includes red sub-pixel, blue subpixels, green sub-pixels as an example, color film The color blocking color and pixel of substrate correspond, then n=3, i.e. color blocking includes red color resistance, blue color blocking and green color blocking.

Specifically, Fig. 4 is another schematic cross-section of the Fig. 1 along the color membrane substrates of AA ' cutting line, described with reference to Fig. 4 On position of the color film substrate 31 based on the display panel non-display area 12, the light shield layer and three layers of color of stacking are set Resistance, to form color blocking stacked structure 34.

Or, Fig. 5 is another schematic cross-section of Fig. 1 along the color membrane substrates of AA ' cutting line, with reference to Fig. 5 with display panel For pixel including three kinds of colors, color blocking includes three kinds of colors, and the present embodiment is directly at three layers of non-display area setting stacking The color blocking of different colours, to form color blocking stacked structure 34, the color blocking of three kinds of colors is stacked, and each pixel of display panel can be sent out Light blocks out, has both shade function.

It can be with it should be noted that in the present invention, between the color blocking stacked structure 34 and the color film substrate 31 There are other materials layers.

Optionally, the material of the color film substrate 31 includes, but are not limited to colorless polyimide material.

As can be seen from the above description, a kind of display panel provided by the invention is stacked by the way that color blocking is arranged in non-display area Structure, to improve thicknesses of layers of the color membrane substrates in non-display area, in bending, the stress at non-display area edge is bigger, so that The neutral surface position of non-display area is improved, and makes the inorganic layer in non-display area for encapsulation close to its neutral surface position, pole indirectly The risk for reducing the bending fracture of non-display area inorganic layer of big degree, to improve the display effect of display panel.

Also, the color blocking stacked structure is in the production process, is made of the material and technique of production color blocking and light shield layer It forms, without increasing other techniques, manufacture craft is simple.

It further, is the structural schematic diagram of another display panel provided in an embodiment of the present invention, institute with reference to Fig. 6, Fig. 6 Display panel is stated at least one bent area 61, the extending direction of the bending axis 62 of the bent area 61 and the viewing area 11 The extending direction at edge intersects, and the color blocking stacked structure 34 is set to the bent area 61.

It is inorganic in non-display area 12 due in entire display panel specifically, for based on bent display panel Preferably color blocking stacked structure 34 is arranged in the bent area substantially in each bent area 61 for the danger zone of fault rupture In 61, i.e., the described color blocking stacked structure 34 is arranged in the bent area in the non-display area 12.

Further, color blocking stacked structure 34 is along the display surface edges of boards in the orthographic projection of plane where the display panel The flagpole pattern that frame extends.

Optionally, as shown in fig. 6, color blocking stacked structure 34 in the orthographic projection of plane where the display panel is around institute State viewing area 11.

When the color blocking stacked structure 34 guarantees that display panel is bent based on any bending axis, which begins The stress of non-display area can be improved eventually, generation the problem of to prevent inorganic fault rupture in non-display area.

It should be noted that bending axis described in the present embodiment is not an entity structure, and refer to the folding of bent area Axis guides the axis in the direction of bending, the path of the folding line bent in other words is consistent with bending axis extending direction.

It should be noted that the color blocking stacked structure 34 can also cover the entire non-display area 12.

With reference to Fig. 7, Fig. 7 is the structural schematic diagram of another display panel provided in an embodiment of the present invention, needs to illustrate It is only to be illustrated in attached drawing 7 with a bent area.Wherein the present embodiment place same as the previously described embodiments is no longer superfluous It states.

Different, the bending axis both sides opposite with the display panel of the bent area are intersected, optionally, such as Fig. 7 institute Show, opposite both sides are vertical with the display panel for the bending axis 62 of the bent area 61, and the bent area 61 includes two sons Bent area 63.

Wherein, in the same bent area, two sub- bent areas 63 are located at 11 two sides of viewing area In non-display area 12, the color blocking stacked structure 34 is provided at least one described sub- bent area 63.

Specifically, being provided with the color blocking stacked structure in each described sub- bent area 63 in same bent area 34, for guaranteeing display panel during bending, as keeps the stress of 11 two sides of viewing area identical as possible, avoid out Now occurred by problem caused by stress difference, such as in display panel the problems such as the offset of film layer, and improves display surface The bending ability of plate is particularly suitable for foldable display panel to improve the portability of display panel.

Further, it is cut for Fig. 7 along one kind that the color membrane substrates of BB ' cutting line include a bent area with reference to Fig. 8, Fig. 8 Face schematic diagram is parallel to the display floater frame extending direction at least one and is parallel to the direction of the underlay substrate On, the width of the color blocking stacked structure 34 is equal to the width of the sub- bent area 63.

Or, Fig. 9 is that Fig. 7 shows along another section that the color membrane substrates of BB ' cutting line include a bent area with reference to Fig. 9 It is intended to, the width of the color blocking stacked structure 34 is greater than the width of the sub- bent area 63.

Specifically, since the danger zone of inorganic fault rupture in non-display area 12 is substantially in each bent area 61, The display floater frame extending direction is parallel at least one and is parallel on the direction of the underlay substrate, and color blocking stacks The risk of inorganic fault rupture in sub- bent area 63 is reduced to by the width of structure 34 at least equal to the width of the sub- bent area 63 It is minimum, if the width of color blocking stacked structure 34 is less than the width of the sub- bent area 63, it is evident that not by color blocking stacked structure The sub- bent area 63 of 34 coverings still has the risk of inorganic fault rupture.

Optionally, as shown in Figure 8 and Figure 9, at least one perpendicular to the section of the bending axis and the underlay substrate On, central symmetry of the color blocking stacked structure about the bent area.

Specifically, since the range of bent area 61 is only merely the range virtually defined based on bending axis, it will Center symmetric setting of the color blocking stacked structure 34 about the bent area 61, be in order to guarantee based on bending axis for, make its two The stress variation trend of side is as consistent as possible.

Further, with reference to Figure 10, Figure 10 includes the another of a bent area along the color membrane substrates of BB ' cutting line for Fig. 7 Kind of schematic cross-section successively by the region 91 of no color blocking stacked structure, buffer area 92 and has at least one second direction The region (or sub- bent area 63) of the color blocking stacked structure 34；Wherein, buffering color blocking is provided in the buffer area 92 to stack Structure 93；In a first direction, the thickness of the buffering color blocking stacked structure 93 is less than the thickness of the color blocking stacked structure 34.

Wherein, the first direction is perpendicular to the underlay substrate 21, and the second direction is along non-bent area direction institute The direction of bent area 61 is stated, the second direction is parallel to the extending direction of the display floater frame.

Specifically, increasing answering for bent area 61 since the color blocking stacked structure 34 being arranged in the bent area 61 Power also just increases the stress difference between bent area 61 and non-bent area indirectly, and the stress difference is to the film layer in non-display area 12 Structure and Wiring structure can be impacted inevitably, in order to solve this problem, by defining the buffer area 92, described Setting buffering color blocking stacked structure 93 in buffer area 92, to reduce the stress difference between bent area 61 and non-bent area as far as possible.

It optionally, is Fig. 7 along another that the color membrane substrates of BB ' cutting line include a bent area with reference to Figure 11, Figure 11 Schematic cross-section, in this second direction, the two sides of the color blocking stacked structure 34 can be set buffering color blocking and stack knot Structure 93.

It should be noted that two buffering color blocking stacked structures 93 thickness in said first direction can it is different can also With identical, in the present invention and it is not construed as limiting.

It should be noted that may exist gap between buffering color blocking stacked structure 93 and the color blocking stacked structure 34, It can also be disposed proximate to, in the present invention and be not construed as limiting.

It should be noted that buffering color blocking stacked structure 93 width in this second direction and be not construed as limiting, it can root Depending on the frame situation of specific display panel.

Further, in a first direction, the thickness of the buffering color blocking stacked structure 93 is less than color blocking stacking knot The thickness of structure 34 is embodied in：

With reference to Figure 12, Figure 12 illustrates for Fig. 7 along another section that the color membrane substrates of BB ' cutting line include a bent area Figure, in said first direction, the color blocking number of plies of the buffering color blocking stacked structure 93 are less than the color blocking stacked structure 34 The color blocking number of plies.

The first situation：As shown in figure 12, the thickness of each layer of color blocking in said first direction is identical, when buffering color blocking It is in said first direction, described when the color blocking number of plies of stacked structure 93 is less than the color blocking number of plies of the color blocking stacked structure 34 The thickness of buffering color blocking stacked structure 93 is consistently less than the thickness of the color blocking stacked structure 34.

Second situation：With reference to Figure 13, Figure 13 be Fig. 7 along the color membrane substrates of BB ' cutting line include a bent area again The color blocking thickness of a kind of schematic cross-section, different colours is different, then 34 color blocking includes described slow in the color blocking stacked structure Rush the color blocking of color blocking stacked structure 93.That is, when the color blocking thickness of different colours is not simultaneously as color blocking stacked structure 34 The color blocking number of plies be greater than the color blocking number of plies of buffering color blocking stacked structure 93, it is evident that the thickness of color blocking stacked structure 34 is slow It rushes on the basis of the thickness of color blocking stacked structure 93 and is further added by the thickness of additional color blocking layer.

The third situation：With reference to Figure 14, Figure 14 be Fig. 7 along the color membrane substrates of BB ' cutting line include a bent area again A kind of schematic cross-section, the color blocking include：First color color blocking and the second color color blocking, the thickness of the first color color blocking It is described with a thickness of thickness in said first direction less than the thickness of the second color color blocking；Make at least partly described One color color blocking is located in the buffering color blocking stacked structure 93 and is not located in the color blocking stacked structure 34, at least partly institute The second color color blocking is stated to be located in the color blocking stacked structure 34 and be not located in the buffering color blocking stacked structure 93.Namely It says, there are the first color color blocking and the second color color blocking difference in thickness, is always ensured that buffering color blocking stacked structure 93 thickness is less than the thickness of color blocking stacked structure 34.

Further, as shown in Fig. 2, the display panel further includes：The first resistance in the non-display area 12 is set Barrier 27 and the second barrier layer 28；

Wherein, first barrier layer 27 surrounds the viewing area 11, and second barrier layer 28 surrounds first resistance Barrier 27, and there are gaps between first barrier layer 27 and second barrier layer 28.

Specifically, the first barrier layer 27 can be during thin-film package (Thin Film Encapsulation, TFE) Packaging area is controlled, is made by the way of inkjet printing since the organic encapsulation layer 242 during thin-film package is general, thus The first barrier layer 27 is needed to limit the region of organic encapsulation layer 242, and under normal circumstances, organic encapsulation layer 242 ends to first The side opposite with the viewing area 11 of barrier layer 27.

The crackle that second barrier layer 28 can prevent non-display area inorganic encapsulated fault rupture from generating is spread to viewing area 12, with And the boundary of the first inorganic encapsulated layer 241 and the second inorganic encapsulated layer 243 is limited, the first inorganic encapsulated layer 241 and second is inorganic Encapsulated layer 243 can generally end in the second barrier layer 28, the first barrier layer 27 and the second barrier layer 28 across the first barrier layer 27 It is generally stacked and is formed by organic matter, other organic films that can be multiplexed in viewing area 11, and shape and be not construed as limiting.

It further, is another schematic cross-section of the Fig. 1 along the display panel of AA ' cutting line with reference to Figure 15, Figure 15, At least one is parallel on the direction of the bending axis, from the non-display area is away from the edge of the viewing area, the color Resistance stacked structure 34 is at least covered to the side on relatively described second barrier layer 28 in first barrier layer 27.

Specifically, stress compares concentration at the position at 28 place of the first barrier layer 27 and the second barrier layer, i.e., first stops The thickness of layer 27 and 28 position of the second barrier layer, the first inorganic encapsulated layer 241 and the second inorganic encapsulated layer 243 is larger, And organic encapsulation layer 242 ends the side opposite towards the viewing area 11 to color blocking stacked structure 34, leads to the first barrier layer 27 far from the inorganic encapsulated layer for being only left to stack at 11 1 side position of viewing area, firmly along with inorganic layer thickness Problem causes stress at the position to compare concentration, thus easily cracks or be broken, and is the danger area there are risk of breakage Domain, therefore color blocking stacked structure 34 is at least covered to the side on relatively described second barrier layer 28 in first barrier layer 27, pole The risk for reducing the first inorganic encapsulated layer 241 and the fracture of the second inorganic encapsulated layer 243 in non-display area 12 of big degree.

Optionally, color blocking stacked structure 34 covers display panel edge to the region between the first barrier layer 27, i.e. color blocking Stacked structure 34 is extended from display panel edge to viewing area, and deviates from the side of viewing area 11 by the end of the first barrier layer 27. Avoid organic encapsulation layer Chong Die with resistance stacked structure 34, so that both tune can be played to the neutral surface in display floater frame region Section, and the region for not needing to adjust neutral surface can be covered to avoid color blocking stacked structure 34, avoid the neutrality to some regions Face, which is adjusted, excessively further to be made during frame region needs to adjust the region of neutral surface and reach with the region for not needing to adjust neutral surface Property face position consistency, improve the uniform of each region bending performance of display panel.

It further, is another schematic cross-section of Fig. 1 along the color membrane substrates of AA ' cutting line, institute with reference to Figure 16, Figure 16 Stating display panel further includes：

Glue-line 151 between the encapsulated layer and the color membrane substrates.

The glue-line 151 and the thickness of 34 overlapping region of color blocking stacked structure are less than described other regions of glue-line 151 Thickness, it is described with a thickness of perpendicular to the thickness on the display panel direction.

Optionally, the material of the glue-line 151 is optical cement.

Specifically, after by carrying out planarization process to display base plate, by the glue-line 151 by color membrane substrates and display Substrate is bonded, to form required display panel structure.

As can be seen from the above description, a kind of display panel provided by the invention is stacked by the way that color blocking is arranged in non-display area Structure reduces the thickness of glue-line to improve thicknesses of layers of the color membrane substrates in non-display area, makes non-display area side in bending The stress of edge is bigger, so that the neutral surface position of non-display area is improved, indirectly leans on the inorganic layer in non-display area for encapsulation Its nearly neutral surface position, the risk for reducing the bending fracture of non-display area inorganic layer of high degree, to improve the aobvious of display panel Show effect.

Based on a kind of display panel of the above-mentioned offer of the present invention, the present invention also provides a kind of electronic equipment, which is set Standby includes above-mentioned display panel.

Specifically, the electronic equipment includes but is not limited to plate or mobile phone etc..

The electronic equipment reduces the wind that non-display area inorganic encapsulated layer has bending fracture by using the display panel Danger solves the problems, such as that steam and oxygen enter viewing area from breaking part and influences the display effect of display panel, also very big journey Degree improves its display effect.

It should be noted that all the embodiments in this specification are described in a progressive manner, each embodiment weight Point explanation is the difference from other embodiments, and the same or similar parts between the embodiments can be referred to each other.

It should also be noted that, herein, relational terms such as first and second and the like are used merely to one Entity or operation are distinguished with another entity or operation, without necessarily requiring or implying between these entities or operation There are any actual relationship or orders.Moreover, the terms "include", "comprise" or its any other variant are intended to contain Lid non-exclusive inclusion, so that article or equipment including a series of elements not only include those elements, but also It including other elements that are not explicitly listed, or further include for this article or the intrinsic element of equipment.Do not having In the case where more limitations, the element that is limited by sentence "including a ...", it is not excluded that in the article including above-mentioned element Or there is also other identical elements in equipment.

The foregoing description of the disclosed embodiments enables those skilled in the art to implement or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, as defined herein General Principle can be realized in other embodiments without departing from the spirit or scope of the present invention.Therefore, of the invention It is not intended to be limited to the embodiments shown herein, and is to fit to and the principles and novel features disclosed herein phase one The widest scope of cause.

Claims (16)

1. a kind of display panel, which is characterized in that the display panel is divided into viewing area and surrounds the non-aobvious of the viewing area Show area；

The display panel includes：

Underlay substrate；

On the underlay substrate and along set gradually far from the underlay substrate direction array layer, light emitting functional layer, envelope Fill layer and color membrane substrates；

The color membrane substrates include：

Color film substrate；

The color blocking of light shield layer on the color film substrate and multiple and different colors is set, and the color membrane substrates are in the viewing area In be divided into shading region and transparent area, the light shield layer covers the shading region, and the color blocking covers the transparent area；

Color blocking stacked structure in the non-display area is set；

Wherein, the color blocking stacked structure includes the light shield layer stacked and at least one layer of color blocking, or is stacked at least The color blocking of two layers of different colours.

2. display panel according to claim 1, which is characterized in that the color blocking includes the color blocking of n kind different colours, institute State the color blocking that color blocking stacked structure includes the n-layer different colours stacked.

3. display panel according to claim 1, which is characterized in that the display panel has at least one bent area, The extending direction of the bending axis of the bent area intersects with the extending direction of the edge of display area, and the color blocking stacked structure is set It is placed in the bent area.

4. display panel according to claim 3, which is characterized in that the bending axis and the display panel of the bent area Opposite both sides intersection, the bent area include two sub- bent areas；

Wherein, in the same bent area, two sub- bent areas are located at the non-display area of the viewing area two sides In, the color blocking stacked structure is provided at least one described sub- bent area.

5. display panel according to claim 3, which is characterized in that be parallel to the display floater frame at least one It extending direction and is parallel on the direction of the underlay substrate, the width of the color blocking stacked structure is equal to the sub- bent area The width of width or the color blocking stacked structure is greater than the width of the sub- bent area.

6. display panel according to claim 3, which is characterized in that at least one perpendicular to the bending axis and described On the section of underlay substrate, central symmetry of the color blocking stacked structure about the bent area.

7. display panel according to claim 3, which is characterized in that at least one second direction, successively pass through nothing Region, buffer area and the region for having the color blocking stacked structure of color blocking stacked structure；

Wherein, buffering color blocking stacked structure is provided in the buffer area；

In a first direction, the thickness of the buffering color blocking stacked structure is less than the thickness of the color blocking stacked structure；

For the first direction perpendicular to the underlay substrate, the second direction is that the side of the bent area is directed toward along non-bent area To.

8. display panel according to claim 7, which is characterized in that the second direction is parallel to the display surface edges of boards The extending direction of frame.

9. display panel according to claim 7, which is characterized in that in said first direction, the buffering color blocking heap The color blocking number of plies of stack structure is less than the color blocking number of plies of the color blocking stacked structure；

Wherein, the thickness of each layer of color blocking in said first direction is identical or the color blocking thickness of different colours is different, then described Color blocking in color blocking stacked structure includes the color blocking of the buffering color blocking stacked structure.

10. display panel according to claim 7, which is characterized in that the color blocking includes：First color color blocking and second Color color blocking, the thickness of the first color color blocking are less than the thickness of the second color color blocking, described with a thickness of described the Thickness on one direction；

At least partly described first color color blocking, which is located in the buffering color blocking stacked structure and is not located at the color blocking, stacks knot In structure, at least partly described second color color blocking, which is located in the color blocking stacked structure and is not located at the buffering color blocking, stacks knot In structure.

11. display panel according to claim 3, which is characterized in that the display panel further includes：It is arranged described non- The first barrier layer and the second barrier layer in viewing area；

Wherein, first barrier layer surrounds the viewing area, and second barrier layer surrounds first barrier layer, and described There are gaps between first barrier layer and second barrier layer.

12. display panel according to claim 11, which is characterized in that in the side that at least one is parallel to the bending axis Upwards, from the non-display area is away from the edge of the viewing area, the color blocking stacked structure is at least covered to described first The side on relatively described second barrier layer in barrier layer.

13. display panel according to claim 1, which is characterized in that the display panel further includes：

Glue-line between the encapsulated layer and the color membrane substrates；

The color blocking stacked structure is located at the color film substrate towards the side of the encapsulated layer, the glue-line and the color blocking heap The thickness of stack structure overlapping region is less than the thickness in other regions of glue-line, described with a thickness of perpendicular to the display panel side Upward thickness.

14. display panel according to claim 13, which is characterized in that the material of the glue-line is optical cement.

15. display panel according to claim 1, which is characterized in that the material of the coloured silk film substrate is that colourless polyamides is sub- Amine material.

16. a kind of electronic equipment, which is characterized in that including above-mentioned such as the described in any item display panels of claim 1-15.