CN108878484A - Display panel and display device - Google Patents

Abstract

The application discloses display panel and display device relates to and shows technical field, and the display area has arc border and straight line boundary, and display panel includes: a substrate base plate; the first metal layer, the first insulating layer, the capacitor metal layer, the second insulating layer, the second metal layer, the third insulating layer and the third metal layer are sequentially arranged along the direction far away from the substrate; the display area is provided with a plurality of data lines which are arranged along a first direction and extend along a second direction and are positioned on the second metal layer, the data lines comprise first data lines and second data lines, the first data lines extend to the arc boundary, and the second data lines extend to the linear boundary; the fan-out wiring area is provided with a first fan-out wiring electrically connected with the first data lines in a one-to-one correspondence mode and a second fan-out wiring electrically connected with the second data lines in a one-to-one correspondence mode, at least part of adjacent first fan-out wirings are located on different film layers respectively, and at least part of first fan-out wirings are located on the third metal layer, so that crosstalk between adjacent wiring lines is reduced.

Description

Display panel and display device

Technical field

This application involves field of display technology, specifically, being related to a kind of display panel and display device.

Background technique

In recent years, with the development of science and technology, the purposes of the display device with display panel is more and more extensive, so that Requirement of the people to display panel is more and more diversified, and it is conventional to be no longer only satisfied with large scale, fine definition of display panel etc. Performance indicator, also have more diversified requirement to the shape of display panel, therefore special-shaped display panel occur.

The appearance of display panel breaches the limitation of display panel single rectangular structure, not only makes display effect more Diversification, and make the application approach of display panel also more and more extensive, it has been successfully applied to such as wrist-watch, glasses or intelligence In the wearable Electronic Design of energy bracelet etc.Compared to convention display, the main distinction of special-shaped display screen is that it is aobvious Show that non-rectangle special shape is presented in region.For example, the first relatively common situation is that the quadrangle of viewing area is designed as circular arc Shape, since each data line in viewing area needs to be connected to driving chip by being fanned out to cabling, the form of arc structure causes to prolong Extending to the spacing being fanned out between cabling that the data line of circular arc sector is electrically connected will be smaller, and adjacent is fanned out between cabling easily There is crosstalk phenomenon, to influence the display effect of display panel.

Summary of the invention

In view of this, the technical problem to be solved by the application is to provide a kind of display panel and display device, it will be with arc The first of the corresponding first data line electrical connection in shape boundary is fanned out to cabling and is arranged in different film layers, and at least partly first is fanned out to away Line is located at third metal layer, increases the adjacent first spacing being fanned out between cabling, effectively prevents adjacent first and is fanned out to cabling Since crosstalk shows as being conducive to the display effect for promoting display panel and display device caused by hypotelorism.

In order to solve the above-mentioned technical problem, the application has following technical solution：

In a first aspect, the application provides a kind of display panel, with viewing area and around the non-aobvious of viewing area setting Show that area, the viewing area have arc boundary and the first straight line boundary with the arc contour connection, the non-display area packet It includes and is fanned out to cabling area, at least partly described arc boundary is located at the side that the viewing area is fanned out to cabling area described in, described Display panel includes：

Underlay substrate；The first metal layer, the first insulating layer, capacitance metal set gradually along the direction far from underlay substrate Layer, second insulating layer, second metal layer, third insulating layer and third metal layer；

The viewing area, which is provided with, to be arranged along first direction and extends in a second direction a plurality of positioned at second metal The data line of layer, the first direction and the second direction are intersected, and the data line includes the first data line and the second data Line, first data line extend to the arc boundary, and second data line extends to the first straight line boundary；

It is described be fanned out to cabling area be provided with first data line correspond be electrically connected first be fanned out to cabling and Second be electrically connected is corresponded with second data line and is fanned out to cabling, and at least partly adjacent described first is fanned out to cabling point Film layer and at least partly described first that Wei Yu be not different be fanned out to cabling and be located at the third metal layer.

Second aspect, the application provide a kind of display device, including display panel, and wherein the display panel is the application institute The display panel of offer.

Compared with prior art, display panel described herein and display device have reached following effect：

Display panel and display device provided herein, viewing area have arc boundary, the data positioned at viewing area Signal wire is electrically connected with the cabling one-to-one correspondence that is fanned out to for being fanned out to cabling area, in particular, with the first data for extending to arc boundary The first of line electrical connection is fanned out in cabling, and at least partly adjacent first, which is fanned out to cabling, is located at different film layers, and at least Part first is fanned out to cabling and is located at third metal layer.First, which is fanned out to cabling, is distributed in three different film layers, between each film layer by Insulator separation, when being fanned out to cabling for first different film layers are arranged in, adjacent first is fanned out between cabling and will have at least One layer insulating is isolated, being fanned out to cabling and will have three-layer insulated layer and carry out on the first metal layer and third metal layer Isolation, therefore the embodiment of the present application is fanned out to cabling for first and is provided with more distribution film layers, and adjacent first is enabled to fan Cabling is located at different film layers out, so that being conducive to increase adjacent first is fanned out to the distance between cabling, and then advantageous In eliminate in the prior art due to it is adjacent be fanned out to cabling spacing it is excessively close caused by crosstalk phenomenon, to be conducive to promote display surface The display effect of plate.In addition, when being fanned out to cabling for first different film layers be arranged in, the cabling that is fanned out to that is distributed in each film layer Quantity reduces, and in identical width range, therefore can suitably increase in same film layer adjacent first and be fanned out to cabling Spacing is fanned out between cabling that there is a phenomenon where crosstalks so as to avoid be located at same film layer adjacent first, thus be conducive into The display effect of one step raising display panel.

Detailed description of the invention

The drawings described herein are used to provide a further understanding of the present application, constitutes part of this application, this Shen Illustrative embodiments and their description please are not constituted an undue limitation on the present application for explaining the application.In the accompanying drawings：

Fig. 1 show data line in display panel provided by the prior art and shows with a kind of part that cabling is electrically connected is fanned out to It is intended to；

Fig. 2 show a kind of top view of display panel provided by the embodiment of the present application；

Fig. 3 show a kind of AA ' sectional view of display panel shown in Fig. 2；

Fig. 4 show a kind of BB ' sectional view of display panel shown in Fig. 2；

Fig. 5 show another top view of display panel provided by the embodiment of the present application；

Fig. 6 show another top view of display panel provided by the embodiment of the present application；

Fig. 7 show another BB ' sectional view of display panel shown in Fig. 2；

Fig. 8, which is shown, embodies a kind of schematic diagram that the first first is fanned out to cabling and the first data line electrical connection；

Fig. 9, which is shown, embodies a kind of schematic diagram that the first second is fanned out to cabling and the first data line electrical connection；

Figure 10, which is shown, embodies a kind of the one the third schematic diagrames for being fanned out to cabling and the first data line connection relationship；

Figure 11, which is shown, embodies a kind of schematic diagram that the first fourth is fanned out to cabling and the first data line connection relationship；

Figure 12, which is shown, embodies a kind of the one penta schematic diagrames for being fanned out to cabling and the first data line connection relationship；

Figure 13 show another BB ' sectional view of display panel shown in Fig. 2；

Figure 14 show another AA ' sectional view of display panel shown in Fig. 2；

Figure 15 show a kind of FF ' sectional view of display panel shown in Fig. 2；

Figure 16 show another FF ' sectional view of display panel shown in Fig. 2；

Figure 17 show a kind of structural schematic diagram of display device provided by the embodiment of the present application.

Specific embodiment

As used some vocabulary to censure specific components in the specification and claims.Those skilled in the art answer It is understood that hardware manufacturer may call the same component with different nouns.This specification and claims are not with name The difference of title is as the mode for distinguishing component, but with the difference of component functionally as the criterion of differentiation.Such as logical The "comprising" of piece specification and claim mentioned in is an open language, therefore should be construed to " include but do not limit In "." substantially " refer within an acceptable error range, those skilled in the art can within a certain error range solve described in Technical problem basically reaches the technical effect.In addition, " coupling " word includes any direct and indirect electric property coupling herein Means.Therefore, if it is described herein that a first device is coupled to a second device, then representing the first device can directly electrical coupling It is connected to the second device, or the second device indirectly electrically coupled through other devices or coupling means.Specification Subsequent descriptions be implement the application better embodiment, so it is described description be for the purpose of the rule for illustrating the application, It is not intended to limit the scope of the present application.The protection scope of the application is as defined by the appended claims.

Compared to convention display, the main distinction of special-shaped display screen is that non-rectangle special form is presented in its display area Shape.For example, the first relatively common situation is that the quadrangle of viewing area is designed as arc-shaped, Fig. 1 show the prior art and is mentioned Data line and a kind of partial schematic diagram for being fanned out to cabling and being electrically connected in the display panel of confession, due to each data line in viewing area 301 are electrically connected with the one-to-one correspondence of cabling 302 is fanned out to, and the form of arc structure leads to 301 institute of data line for extending to circular arc sector The spacing of electrical connection being fanned out between cabling 302 will be smaller, respectively less than extend to 301 institute's electricity of data line of non-circular arc structural region The spacing of connection being fanned out between cabling 302, i.e. L1 < L2.Therefore, extend to what the data line 301 of circular arc sector was electrically connected It is fanned out in cabling 302, adjacent is fanned out between cabling 302 due to easily there is crosstalk phenomenon apart from too small, to influence to show The display effect of panel.

The application provides a kind of display panel and display device, by the first data line corresponding with arc-shaped side circle electrical connection First, which is fanned out to cabling, is arranged in different film layers, and at least partly first is fanned out to cabling and is located at third metal layer, increases adjacent the One is fanned out to the spacing between cabling, effectively prevent adjacent first be fanned out to cabling due to caused by hypotelorism crosstalk show As being conducive to the display effect for promoting display panel and display device.

It is described in detail below in conjunction with the drawings and specific embodiments.

Fig. 2 show a kind of top view of display panel provided by the embodiment of the present application, and Fig. 3 show shown in Fig. 2 and shows Show that a kind of AA ' sectional view of panel, Fig. 4 show a kind of BB ' sectional view of display panel shown in Fig. 2, in conjunction with Fig. 2-Fig. 4, originally Display panel 100 provided by applying, with viewing area 11 and the non-display area 12 being arranged around viewing area 11, viewing area 11 has The first straight line boundary 101 for having arc boundary 102 and connecting with arc boundary 102, non-display area 12 include being fanned out to cabling area 121, at least partly arc boundary 102 is located at viewing area 11 close to the side for being fanned out to cabling area 121, and display panel 100 includes：

Underlay substrate 10；Along far from underlay substrate 10 direction set gradually the first metal layer 31, the first insulating layer 41, Capacitance metal layer 34, second insulating layer 42, second metal layer 32, third insulating layer 43 and third metal layer 33；

Viewing area 11, which is provided with, to be arranged along first direction and extends in a second direction a plurality of positioned at second metal layer 32 Data line 20, first direction and second direction are intersected, and data line 20 includes the first data line 21 and the second data line 22, the first number Arc boundary 102 is extended to according to line 21, the second data line 22 extends to first straight line boundary 101；

Be fanned out to cabling area 121 be provided with the first data line 21 correspond be electrically connected first be fanned out to cabling 71 and with Second data line 22 corresponds second be electrically connected and is fanned out to cabling 72, and at least partly adjacent first, which is fanned out to cabling 71, distinguishes position In different film layers and at least partly first is fanned out to cabling 71 and is located at third metal layer 33.

Specifically, embodiment illustrated in fig. 2 shows a kind of structure of display panel 100, four angles of the display panel 100 It include arc boundary 102, in some other embodiment, display panel 100 can also be presented as other structures, such as refer to Fig. 5, Fig. 5 show another top view of display panel 100 provided by the embodiment of the present application, the display panel of the embodiment 100 may also include area Notch 90 etc., the application to this without specifically limiting, as long as viewing area 11 is close to being fanned out to cabling area The situation that 121 side is provided with arc boundary 102 is all satisfied the application to the structural requirement of display panel 100,.It needs to illustrate , it has been only shown schematically data line 20 in display panel 100 shown in Fig. 2 and has been fanned out to a kind of arrangement mode of cabling 70, Data line 20 and the actual quantity for being fanned out to cabling 70 are not represented.

Fig. 3 shows a kind of film layer structure figure of 100 viewing area 11 of display panel, which includes substrate base Plate 10 and the first metal layer 31, the first insulating layer 41, capacitance metal layer set gradually along the direction far from underlay substrate 10 34, second insulating layer 42, second metal layer 32, third insulating layer 43 and third metal layer 33, in general, each data line in Fig. 2 20 are respectively positioned on second metal layer 32.Continuing with referring to fig. 2, in a second direction, the data line 20 at arc boundary 102 is extended to For the first data line 21, the data line 20 extended at first straight line boundary 101 is the second data line 22, with the first data line 21 The cabling 70 that is fanned out to for corresponding electrical connection is fanned out to cabling 71 for first, is fanned out to what the second data line 22 one-to-one correspondence was electrically connected Cabling 70 is second to be fanned out to cabling 72, in particular, refer to Fig. 4, Fig. 4 only symbolically illustrates that each first is fanned out to cabling 71 and divides It is distributed in the schematic diagram of three different film layers, the first film layer structure for being fanned out to cabling 71 is only embodied, does not represent first in each film layer It is fanned out to the actual quantity of cabling 71, in embodiment provided by Fig. 4, at least partly adjacent described first is fanned out to the difference of cabling 71 Positioned at different film layers and at least partly described first is fanned out to cabling 71 and is located at the third metal layer 33, and in Fig. 4, first is fanned out to Cabling 71 is distributed in three different film layers, by insulator separation between each film layer, is fanned out to cabling 71 for first and is arranged in difference Film layer when, adjacent first is fanned out between cabling 71 and will have at least one layer of insulating layer and be isolated, and is located at the first metal layer 31 and third metal layer 33 on be fanned out to cabling 70 and will have three-layer insulated layer and be isolated, therefore the embodiment of the present application is first It is fanned out to cabling 71 and is provided with more distribution film layers, enable to adjacent first to be fanned out to cabling 71 and be located at different films Layer is fanned out to the distance between cabling 71 to be conducive to increase adjacent first, so be conducive to eliminate in the prior art due to It is adjacent be fanned out to 70 spacing of cabling it is excessively close caused by crosstalk phenomenon, to be conducive to be promoted the display effect of display panel 100.This Outside, when being fanned out to cabling 71 for first different film layers are arranged in, the quantity for being fanned out to cabling 70 being distributed in each film layer reduces, In identical width range, therefore the adjacent first spacing for being fanned out to cabling 71 can be suitably increased in same film layer, thus It avoids and is fanned out between cabling 71 that there is a phenomenon where crosstalks positioned at adjacent the first of same film layer, therefore be conducive to further increase The display effect of display panel 100.

Optionally, Fig. 6 show another top view of display panel provided by the embodiment of the present application, referring to Fig. 6, shows Show that area 11 is provided with the multiple pixel unit rows 80 arranged in a second direction, each pixel unit row 80 includes multiple sub-pixel units 89；Viewing area also has the second straight line boundary 103 vertical with first straight line boundary 101；Pixel corresponding with arc boundary 102 The quantity of sub-pixel unit 89 included in cell row 80 is less than in pixel unit row 80 corresponding with second straight line boundary 103 The quantity for the sub-pixel unit 89 for being included.

Specifically, Fig. 6 is referred to, from the close side for being fanned out to cabling area 121 to the separate side for being fanned out to cabling area 121, The quantity for the sub-pixel unit 89 that pixel unit row 80 is included is fanned out to cabling area in incremental trend, since viewing area 11 is close 121 side is provided with arc boundary 102, this allows for the quantity ratio of the corresponding sub-pixel unit 89 in 102 place of arc boundary Normal region is lacked, therefore combines the first data line corresponding to the sub-pixel unit 89 at Fig. 2 and Fig. 4, with arc boundary 102 The first of 21 electrical connections, which will be fanned out to the distance between cabling 71, to become smaller, and become smaller to avoid adjacent first from being fanned out to distance between cabling 71 Caused by crosstalk phenomenon, the application is fanned out to cabling 71 for adjacent first and different film layers is arranged in and is at least partially disposed at Three metal layers 33, thus be conducive to increase adjacent first be fanned out between cabling 71 again perpendicular to 10 direction of underlay substrate spacing with And it is being parallel to the spacing in 10 direction of underlay substrate, therefore be conducive to avoid the generation of crosstalk phenomenon, be conducive to improve display surface The display effect of plate 100.

Optionally, Fig. 7 show another BB ' sectional view of display panel shown in Fig. 2, two first fans of arbitrary neighborhood Cabling 71 is located at the first metal layer 31 and third metal layer 33 out.

Specifically, incorporated by reference to Fig. 3 and Fig. 7, in this embodiment, first, which is fanned out to cabling 71, is alternately distributed in the first metal layer 31 and third metal layer 33, by three-layer metal layer (i.e. the first insulating layer 41, between the first metal layer 31 and third metal layer 33 Two insulating layers 42 and third insulating layer 43) isolation, adjacent first, which is fanned out to cabling 71, is located at the first metal layer 31 and third A possibility that when metal layer 33, the two being at a distance sufficiently large along the direction perpendicular to underlay substrate 10, and crosstalk phenomenon occurs is very It is small, therefore adjacent crosstalk phenomenon caused by being fanned out to 70 hypotelorism of cabling in the prior art is effectively prevented, be conducive to be promoted The display effect of display panel 100.In addition, being fanned out to cabling 71 for the first of arbitrary neighborhood is separately positioned on different film layers, energy Enough maximized film layer spaces for utilizing display panel, make first be fanned out to cabling 71 be distributed it is more uniform, to be also beneficial to make The display for obtaining display panel is more uniform, is more advantageous to the display effect for promoting display panel.

Optionally, Fig. 8, which is shown, embodies a kind of schematic diagram that the first first is fanned out to cabling and the first data line electrical connection, The electrical connection between cabling and the first data line is fanned out to embody the first first, and the embodiment of the present application can be in Fig. 2 along the The extending direction of one data line vertically intercept close to be fanned out to cabling area 121 the first data line of part 21 and with first data line The first first of part of 21 electrical connections is fanned out to cabling, has illustratively for example intercepted the CC ' in Fig. 2；Fig. 9, which is shown, embodies the first second Be fanned out to a kind of schematic diagram of cabling and the first data line electrical connection, for embody the first second be fanned out to cabling and the first data line it Between electrical connection, the embodiment of the present application can vertically intercept along the extending direction of the first data line close to being fanned out in Fig. 2 First data line of part 21 in cabling area 121 and the first second of part being electrically connected with first data line 21 are fanned out to cabling, example Property for example intercepted DD ' in Fig. 2, in conjunction with Fig. 3, Fig. 8 and Fig. 9, first to be fanned out to cabling 71 include that the first first is fanned out to cabling 711 Cabling 712 is fanned out to the first second, and the first first is fanned out to cabling 711 and is located at the first metal layer 31, and the first second is fanned out to cabling 712 and is located at the Three metal layers 33；

First first be fanned out to cabling 711 by pass through the first insulating layer 41 and second insulating layer 42 on the first via hole 81 and with Its corresponding first data line 21 is electrically connected, and the first second is fanned out to cabling 712 by passing through the second via hole on third insulating layer 43 82 and the electrical connection of corresponding first data line 21.

Specifically, in Fig. 3 and embodiment illustrated in fig. 8, it is located at the first metal layer 31 since the first first is fanned out to cabling 711, number It is located at second metal layer 32 according to line 20, therefore the first first is fanned out between cabling 711 and data line 20 and needs by being located at first absolutely 81 side of the first via hole in edge layer 41 and second insulating layer 42 can realize electrical connection.Similarly, in Fig. 3 and embodiment illustrated in fig. 9, by Cabling 712, which is fanned out to, in the first second is located at third metal layer 33, and data line 20 is located at second metal layer 32, therefore, the first second fan The second via hole 82 by being located on third insulating layer 43 is needed to form electrical connection between cabling 712 and data line 20 out.

Optionally, in embodiment illustrated in fig. 7, the first first is fanned out to cabling 711 and the first second is fanned out to the material of cabling 712, width Degree and thickness are all the same, and it is poor to be so conducive to reduce the load that the first first is fanned out to cabling 711 and the first second is fanned out between cabling 712 Different, reduction is fanned out to cabling 711 via the first first and the first second is fanned out to the difference for the signal that cabling 712 transmits, to be conducive to make The overall brightness for obtaining display panel 100 is more uniform, is more advantageous to the visual experience effect for promoting user.

Optionally, incorporated by reference to Fig. 3 and Fig. 4, in display panel 100 provided by the embodiment of the present application, first is fanned out to cabling 71 are distributed in the first metal layer 31, capacitance metal layer 34 and third metal layer 33.

Specifically, in display panel 100 provided by Fig. 3 and Fig. 4 embodiment, first, which is fanned out to cabling 71, is distributed in three gold Belong to film layer, is the first metal layer 31, capacitance metal layer 34 and third metal layer 33 respectively, is fanned out to cabling for the first of identical quantity When 71 distributions to three different metallic diaphragms, be conducive to reduce the number that first be located on each metallic diaphragm is fanned out to cabling 71 Amount, therefore being fanned out in cabling area 121 in identical size, be conducive to increase on each metallic diaphragm adjacent first be fanned out to cabling 71 it Between spacing, thus be conducive to avoid adjacent first be fanned out to 71 spacing of cabling it is excessively close caused by crosstalk phenomenon, be equally beneficial for Promote the display effect of display panel 100.

Optionally, Fig. 3, Fig. 4, Figure 10, Figure 11 and Figure 12 are referred to, wherein Figure 10 show embodiment the one the third and is fanned out to cabling With a kind of schematic diagram of the first data line connection relationship, Figure 11 show the first fourth of embodiment and is fanned out to cabling and the connection of the first data line A kind of schematic diagram of relationship, Figure 12, which is shown, embodies a kind of the one penta signals for being fanned out to cabling and the first data line connection relationship Figure, wherein for embody respectively the one the third be fanned out to cabling, the first fourth is fanned out to cabling and the one penta be fanned out to cabling and the first data line it Between electrical connection, the embodiment of the present application can vertically intercept along the extending direction of the first data line close to being fanned out in Fig. 2 First data line of part 21 in cabling area 121 and the part being electrically connected with first data line 21 the one the third is fanned out to cabling, first Fourth is fanned out to cabling and the one penta and is fanned out to cabling, CC ', DD ' and EE ' in Fig. 2 has illustratively for example been intercepted respectively, in conjunction with Fig. 3 And Fig. 4, first be fanned out to cabling 71 include the one the third be fanned out to cabling 713, the first fourth is fanned out to cabling 714 and the one penta are fanned out to cabling 715, the one the third, which are fanned out to cabling 713, is located at the first metal layer 31, and the first fourth is fanned out to cabling 714 and is located at capacitance metal layer 34, and first Penta, which is fanned out to cabling 715, is located at third metal layer 33；

0- Figure 12 referring to Figure 1, the one the third, which are fanned out to cabling 713, passes through and passes through on the first insulating layer 41 and second insulating layer 42 Third via hole 83 and the electrical connection of corresponding first data line 21, the first fourth, which is fanned out to cabling 714 and passes through, passes through the second insulation The 4th via hole 84 and the electrical connection of corresponding first data line 21 on layer 42, the one penta are fanned out to cabling 715 by passing through the The 5th via hole 85 and corresponding the first data line 21 electrical connection on three insulating layers 43.

Specifically, it referring to Fig. 3 and Figure 10, is fanned out to cabling 713 and is located at the first metal layer 31 due to the one the third, and data line 20 Positioned at second metal layer 32, it is isolated by the first insulating layer 41 and second insulating layer 42 therebetween, therefore the two needs to pass through position Electrical connection is realized in the third via hole 83 on the first insulating layer 41 and second insulating layer 42；Similarly, Fig. 3 and Figure 11 are referred to, by Cabling 714 is fanned out in the first fourth and is located at capacitance metal layer 34, and data line 20 is located at second metal layer 32, and the two is by second insulating layer 42 isolation, therefore the two needs the 4th via hole 84 by being located in second insulating layer 42 to realize electrical connection；Similarly, figure is referred to 3 and Figure 12 is fanned out to cabling 715 and is located at third metal layer 33 due to the one penta, and data line 20 is located at second metal layer 32, the two by Third insulating layer 43 is isolated, therefore the two needs the 5th via hole 85 by being located on third insulating layer 43 to realize electrical connection.

Optionally, in embodiment illustrated in fig. 4, the one the third it is fanned out to cabling 713, the first fourth is fanned out to cabling 714 and the one penta fans The material, width and thickness of cabling 715 are all the same out.So be conducive to reduce the one the third be fanned out to cabling 713, the first fourth is fanned out to away Line 714 and the one penta is fanned out to load difference between cabling 715, thus reduce be fanned out to cabling 713 via the one the third, the first fourth is fanned Out cabling 714 and the one penta be fanned out to the transmitting of cabling 715 signal difference, to advantageously allow the entirety of display panel 100 Brightness is more uniform, is more advantageous to the visual experience effect for promoting user.

Optionally, 3, Figure 13 show another BB ' sectional view of display panel shown in Fig. 2 referring to Figure 1, and the application is real It applies in display panel provided by example, first, which is fanned out to cabling 71, is distributed in the first metal layer 31, capacitance metal layer 34, the second metal Layer 32 and third metal layer 33.It should be noted that Figure 13 only symbolically illustrates that each first is fanned out to cabling 71 and is distributed in four The schematic diagram of a difference film layer, only embodies the first film layer structure for being fanned out to cabling 71, does not represent in each film layer first and is fanned out to away The actual quantity of line 71.

Specifically, in display panel provided by the embodiment of the present application, first, which is fanned out to cabling 71, is removed using Fig. 4 or Fig. 7 institute Outside the arrangement mode shown, also cabling can be fanned out to by first and 71 be distributed in four metallic diaphragms, i.e., first as shown in fig. 13 that respectively Metal layer 31, capacitance metal layer 34, second metal layer 32 and third metal layer 33 so can maximumlly utilize display panel Film layer space, make first be fanned out to cabling 71 be distributed it is more uniform, to be also beneficial to so that the display of display panel is more equal It is even, it is more advantageous to the display effect for promoting display panel.Meanwhile when being fanned out to cabling 71 for first and being distributed in four metallic diaphragms, It is more conducive to reducing first be distributed on each metallic diaphragm and is fanned out to the quantity of cabling 71, be located to be more advantageous to increase Adjacent first is fanned out to distance between cabling 71 on same metallic diaphragm, is more advantageous to and reduces the adjacent first spacing for being fanned out to cabling 71 From crosstalk phenomenon caused by excessively close.Certainly to reduce each first load difference being fanned out between cabling 71, the application can also be incited somebody to action Each first in Figure 13 embodiment is fanned out to the material of cabling 71, width and thickness be disposed as it is identical.

Optionally, Fig. 3 is referred to, display panel 100 provided by the embodiment of the present application further includes along far from underlay substrate Thin film transistor array layer 15, the first planarization layer 91 and the organic luminous layer 50 that 10 direction is set gradually, thin film transistor (TFT) Array layer 15 includes gate metal layer 151 and source-drain electrode metal layer 152, and the first metal layer 31 and 151 same layer of gate metal layer are set It sets, second metal layer 32 and the setting of 152 same layer of source-drain electrode metal layer, capacitance metal layer 34 are located at gate metal layer 151 and source and drain Between pole metal layer 152.

Specifically, continuing with referring to Fig. 3, display panel 100 further includes the film crystalline substance set gradually on underlay substrate 10 Body pipe array layer 15, the first planarization layer 91 and organic luminous layer, thin film transistor array layer 15 include the grid being stacked Metal layer 151 and source-drain electrode metal layer 152, organic luminous layer 50 include along perpendicular to 10 place plane of first substrate direction according to Anode layer 51, luminous material layer 52, pixel defining layer 53 and the cathode layer 54 of secondary setting.Thin film transistor array layer 15 is provided with Thin film transistor (TFT) is driven, the drain electrode of thin film transistor (TFT) is driven to be electrically connected with the anode layer 51 in organic luminous layer.In the application After driving thin film transistor (TFT) conducting, outside under alive driving, hole and electronics are respectively from 54 note of anode layer 51 and cathode layer Enter into luminous material layer 52, hole and electronics meet in luminous material layer 52, are compound, give off energy, then by energy The molecule for passing to organic luminescent substance in luminous material layer 52, makes it from ground state transition to excitation state.Excitation state is very unstable, Excited molecule returns to ground state from excitation state, and radiation transistion generates luminescence phenomenon, is based on this luminescence phenomenon, can be by organic light emission two The display of pole pipe realization picture.It should be noted that display panel 100 further includes being located at organic luminous layer far from first substrate 10 The encapsulated layer 60 of side prevents outside moisture and oxygen from causing to organic luminous layer extraneous moisture and oxygen is isolated It influences.It should be noted that the application embodiment illustrated in fig. 3 is illustrated with the thin film transistor array layer 15 of top gate structure , i.e., gate metal layer 151 is located at side of the semiconductor active layer 30 far from underlay substrate 10, in addition to such mode, can also adopt With bottom grating structure, i.e. gate metal layer 151 is located at semiconductor active layer 30 close to the side of underlay substrate 10, the application to this not Specifically limited.

Optionally, Fig. 3 is referred to, the setting of third metal layer 33 in the embodiment of the present application is close in the first planarization layer 91 The side of organic luminous layer.It is so equivalent to and has increased layer of metal film newly between the first planarization layer 91 and organic luminous layer Layer, to realize the layering setting for being fanned out to cabling to first.In addition, third metal layer 33 far from the first planarization layer 91 one Side is also provided with the second planarization layer 92, to provide the surface of planarization for the formation of organic luminous layer.

Optionally, Figure 14 show another AA ' sectional view of display panel shown in Fig. 2, in embodiment illustrated in fig. 14, has Machine luminescent layer 50 includes anode layer 51, the luminous material layer 52, pixel definition set gradually along the direction far from underlay substrate 10 Layer 53 and cathode layer 54, third metal layer 33 and 51 same layer of anode layer are arranged.

Specifically, in embodiment illustrated in fig. 14, third metal layer 33 and 51 same layer of anode layer are arranged, and there is no need to be third Film layer is separately provided in metal layer 33, is multiplexed existing anode layer 51, third metal layer 33 and anode layer 51 can be in same systems It is completed in journey, therefore is conducive to save the production procedure of display panel 100, also help saving production cost.

The above various embodiments is primarily directed to the first fan corresponding to the first data line 21 extended at arc boundary 102 The improvement explanation of cabling 71 in addition to this can also be to prolonging in embodiment provided herein in such as embodiment illustrated in fig. 2 out It extends to corresponding to the second data line 22 at straight border 101 second and is fanned out to cabling 72 and improve, optionally, with the first fan Similarly, at least partly adjacent second is fanned out to cabling 72 is located at different film layers to cabling 71 out.Cabling is fanned out to by second 72 when being distributed in different film layers, is equally beneficial for reducing adjacent second and is fanned out to the distance between cabling 72, avoids adjacent second It is fanned out between cabling 72 and crosstalk phenomenon occurs.

Optionally, second be fanned out to cabling 72 be distributed in by least one layer of insulator separation the first metal layer 31 and third gold Belong to layer 33, referring to Figure 15, alternatively, second is fanned out to cabling 72 and is distributed in the first metal layer 31, capacitance metal by insulator separation Layer 34 and third metal layer 33, referring to Figure 16.Figure 15 show a kind of FF ' sectional view of display panel shown in Fig. 2, shown in Figure 16 For another FF ' sectional view of display panel shown in Fig. 2, it should be noted that Figure 15 and Figure 16 is only symbolically illustrated respectively Second is fanned out to the schematic diagram that cabling 72 is distributed in two or three different film layers, only embodies the second film layer knot for being fanned out to cabling 72 Structure does not represent in each film layer the second actual quantity for being fanned out to cabling 72.Specifically, cabling 72 is fanned out to by second to be distributed in two layers Or when three layers of different metal layer, not only it is avoided that adjacent second is fanned out to the crosstalk phenomenon occurred between cabling 72, meanwhile, also It is fanned out to the quantity of cabling 72 conducive to reduce that each film layer included second, is guaranteeing that adjacent second is fanned out between cabling 72 and does not occur Under the premise of crosstalk, it can also reduce adjacent second and be fanned out to the distance between cabling 72, entirely be fanned out to cabling to be conducive to reduce The width in area 121, thus also help the narrow frame design for realizing display panel 100.

Based on the same inventive concept, the application also provides a kind of display device 200, show this Shen referring to Figure 17, Figure 17 Please display device provided by embodiment a kind of structural schematic diagram, which includes display panel 100, the display Panel 100 is display panel provided by the embodiment of the present application.The embodiment of display device 200 can be found in above-mentioned battle array in the application The embodiment of column substrate, repeating place, details are not described herein again.It should be noted that display device provided by the embodiment of the present application 200 can be：Mobile phone, tablet computer, television set, display, laptop, Digital Frame, navigator etc. are any with aobvious Show the products or components of function.

As can be seen from the above embodiments beneficial effect existing for the application is：

Display panel and display device provided herein, viewing area have arc boundary, the data positioned at viewing area Signal wire is electrically connected with the cabling one-to-one correspondence that is fanned out to for being fanned out to cabling area, in particular, with the first data for extending to arc boundary The first of line electrical connection is fanned out in cabling, and at least partly adjacent first, which is fanned out to cabling, is located at different film layers, and at least Part first is fanned out to cabling and is located at third metal layer.First, which is fanned out to cabling, is distributed in three different film layers, between each film layer by Insulator separation, when being fanned out to cabling for first different film layers are arranged in, adjacent first is fanned out between cabling and will have at least One layer insulating is isolated, being fanned out to cabling and will have three-layer insulated layer and carry out on the first metal layer and third metal layer Isolation, therefore the embodiment of the present application is fanned out to cabling for first and is provided with more distribution film layers, and adjacent first is enabled to fan Cabling is located at different film layers out, so that being conducive to increase adjacent first is fanned out to the distance between cabling, and then advantageous In eliminate in the prior art due to it is adjacent be fanned out to cabling spacing it is excessively close caused by crosstalk phenomenon, to be conducive to promote display surface The display effect of plate.In addition, when being fanned out to cabling for first different film layers be arranged in, the cabling that is fanned out to that is distributed in each film layer Quantity reduces, and in identical width range, therefore can suitably increase in same film layer adjacent first and be fanned out to cabling Spacing is fanned out between cabling that there is a phenomenon where crosstalks so as to avoid be located at same film layer adjacent first, thus be conducive into The display effect of one step raising display panel.

Above description shows and describes several preferred embodiments of the present application, but as previously described, it should be understood that the application Be not limited to forms disclosed herein, should not be regarded as an exclusion of other examples, and can be used for various other combinations, Modification and environment, and the above teachings or related fields of technology or knowledge can be passed through within that scope of the inventive concept describe herein It is modified.And changes and modifications made by those skilled in the art do not depart from spirit and scope, then it all should be in this Shen It please be in the protection scope of appended claims.

Claims (15)

1. a kind of display panel, which is characterized in that described aobvious with viewing area and around the non-display area of viewing area setting Show that area has arc boundary and the first straight line boundary with the arc contour connection, the non-display area includes being fanned out to cabling Area, at least partly described arc boundary are located at the viewing area close to the side for being fanned out to cabling area, the display panel packet It includes：

Underlay substrate；Along far from underlay substrate direction set gradually the first metal layer, the first insulating layer, capacitance metal layer, Second insulating layer, second metal layer, third insulating layer and third metal layer；

The viewing area, which is provided with, to be arranged along first direction and extends in a second direction a plurality of positioned at the second metal layer Data line, the first direction and the second direction are intersected, and the data line includes the first data line and the second data line, institute It states the first data line and extends to the arc boundary, second data line extends to the first straight line boundary；

It is described be fanned out to cabling area be provided with first data line correspond be electrically connected first be fanned out to cabling and with institute It states the second of the one-to-one correspondence electrical connection of the second data line and is fanned out to cabling, at least partly adjacent described first is fanned out to cabling difference position In different film layers and at least partly described first is fanned out to cabling and is located at the third metal layer.

2. display panel according to claim 1, which is characterized in that the viewing area is provided with arranges along the second direction Multiple pixel unit rows of cloth, each pixel unit row includes multiple sub-pixel units；The viewing area also have with it is described The vertical second straight line boundary in first straight line boundary；

The quantity of sub-pixel unit included in the pixel unit row corresponding with arc-shaped side circle is less than and described the The quantity of sub-pixel unit included in the corresponding pixel unit row of two straight borders.

3. display panel according to claim 1, which is characterized in that two of arbitrary neighborhood described first are fanned out to cabling point It Wei Yu not the first metal layer and the third metal layer.

4. display panel according to claim 1, which is characterized in that described first is fanned out to cabling is fanned out to away including the first first Line and the first second are fanned out to cabling, and first first is fanned out to cabling and is located at the first metal layer, and first second is fanned out to cabling position In the third metal layer；

First first be fanned out to cabling by pass through first insulating layer and the second insulating layer on the first via hole and with Its corresponding described first data line electrical connection, first second are fanned out to cabling by passing through second on the third insulating layer Via hole and the electrical connection of corresponding first data line.

5. display panel according to claim 4, which is characterized in that first first is fanned out to cabling and first second fan The material, width and thickness of cabling are all the same out.

6. display panel according to claim 1, which is characterized in that described first, which is fanned out to cabling, is distributed in first gold medal Belong to layer, the capacitance metal layer and the third metal layer.

7. display panel according to claim 6, which is characterized in that described first to be fanned out to cabling include the one the third being fanned out to away Line, the first fourth are fanned out to cabling and the one penta are fanned out to cabling, and described the one the third, which are fanned out to cabling, is located at the first metal layer, and described One fourth is fanned out to cabling and is located at the capacitance metal layer, and described the one penta, which are fanned out to cabling, is located at the third metal layer；

Described the one the third be fanned out to cabling by pass through third via hole on first insulating layer and the second insulating layer and with Its corresponding described first data line electrical connection, first fourth are fanned out to cabling by passing through the 4th in the second insulating layer Via hole and the electrical connection of corresponding first data line, described the one penta, which are fanned out to cabling, passes through and passes through the third insulating layer On the 5th via hole and the electrical connection of corresponding first data line.

8. display panel according to claim 7, which is characterized in that described the one the third are fanned out to cabling, first fourth fan Out cabling and described the one penta be fanned out to cabling material, width and thickness it is all the same.

9. display panel according to claim 1, which is characterized in that described first, which is fanned out to cabling, is distributed in first gold medal Belong to layer, the capacitance metal layer, the second metal layer and the third metal layer.

10. according to claim 1, display panel described in 6 or 9, which is characterized in that further include along far from the underlay substrate Thin film transistor array layer, the first planarization layer and the organic luminous layer that direction is set gradually, the thin film transistor array layer Including gate metal layer and source-drain electrode metal layer, the first metal layer and gate metal layer same layer setting, described second Metal layer and source-drain electrode metal layer same layer setting, the capacitance metal layer are located at the gate metal layer and the source-drain electrode Between metal layer.

11. display panel according to claim 10, which is characterized in that the third metal layer setting is flat described first Smoothization layer is close to the side of the organic luminous layer.

12. display panel according to claim 10, which is characterized in that the organic luminous layer includes along far from the lining Anode layer, luminous material layer, pixel defining layer and the cathode layer that the direction of substrate is set gradually, the third metal layer and institute State the setting of anode layer same layer.

13. according to claim 1, display panel described in 6 or 9, which is characterized in that at least partly adjacent described second is fanned out to Cabling is located at different film layers.

14. display panel according to claim 13, which is characterized in that described second, which is fanned out to cabling, is distributed in by least one The first metal layer and the third metal layer of layer insulating isolation, alternatively, described second is fanned out to cabling and is distributed in by exhausted The first metal layer, the capacitance metal layer and the third metal layer of edge layer isolation.

15. a kind of display device, which is characterized in that any display panel including claim 1 to 14.