CN104049397B - Panel and display device - Google Patents

Abstract

The invention provides a panel and a display device provided with the panel. The panel comprises a first transparent substrate, a first conducting layer positioned at the outer side of the first surface of the first transparent substrate, and a second conducting layer positioned at the outer side of the second surface of the first transparent substrate, wherein the first conducting layer comprises a binding area which is provided with a plurality of binding patterns, the second conducting layer comprises a plurality of opaque wires, engraved seams exist between adjacent opaque wires, the second conducting layer is provided with a projecting region in the binding region, the projecting region also comprises a plurality of sub projecting regions, and light transmitting through the engraved seams of the opaque wires of the second conducting layer is enabled to be clear enough for a user to observe the binding condition of the binding patterns through controlling the proportion X of the light transmitting area in the at least one sub projecting region to the area of the sub projecting regions.

Description

A kind of panel and display device

Technical field

The present invention relates to display field, more particularly to a kind of panel and the display device including this panel.

Background technology

In the last few years, active matrix type display was popularized, for example, be widely used in mobile phone, panel computer, In the mobile devices such as mp3, mp4.In the prior art, display device includes display floater, contact panel, or has aobvious simultaneously Show the panel with touch controllable function.After the completion of touch control layer laying, generally to will bind pattern and printed circuit board (PCB) in binding region Or the element such as ic bound with panel, binding angle and binding pattern are pressed or is welded.For detection binding effect, need to tying up Binding pattern after fixed is observed, the top due to binding pattern covered by electronic component it is therefore desirable to from opposite side ( Side) it is observed.But during binding, panel has been fitted, and opposite side (lower section) is generally by the opaque gate metal of array base palte Line covers, and is difficult to see the binding effect of reality clearly, and then binding situation effectively can not be checked.

Content of the invention

Embodiments of the invention technical problem to be solved is binding region cannot to be observed after binding or see Survey unclear, and then binding situation effectively can not be checked.

In order to solve above-mentioned technical problem, The embodiment provides a kind of panel, comprising:

First transparency carrier, described first transparency carrier includes first surface and second surface；

The first conductive layer outside described first surface, described first conductive layer includes binding region, described binding Region has multiple binding patterns；

The second conductive layer outside described second surface, described second conductive layer includes a plurality of opaque wire, institute State and there is between adjacent opaque wire quarter seam；Wherein

Described second conductive layer has view field in described binding region, and described view field also includes many height projections Region, at least one described sub- view field, ratio x of glazed area and sub- view field area meets relation: x ＞ kd+1, D be in units of millimeter described first conductive layer with described second conductive layer the distance in vertical described first transparency carrier direction Value, d ＜ 1, k are constant, -1 < k < -0.1.

The embodiment of the present invention also provides a kind of display device, and it includes panel provided in an embodiment of the present invention.

Panel and the display device including this panel that the present invention provides, control the impermeable of binding region opposite side (lower section) The width of bright wire and spacing or increase transparent conductors are it is ensured that be enough to see the transparent surface of the binding pattern in binding region clearly Long-pending, make reviewer can effectively check the binding effect of binding pattern, improve the yield of product.

Brief description

Fig. 1 is the side view of one embodiment of the invention；

Fig. 2 is the first conductive layer top view of one embodiment of the invention；

Fig. 3 is the second conductive layer top view of one embodiment of the invention；

Fig. 4 a is the observation schematic diagram of one embodiment of the invention；

Fig. 4 b is the graph of a relation with millimeter for unit distance value d and glazed area ratio x for the one embodiment of the invention；

Fig. 5 is the side view of another embodiment of the present invention；

Fig. 6 a is the top view of the view field of one embodiment of the invention a certain kind embodiment；

Fig. 6 b is the top view of the view field of one embodiment of the invention a certain kind embodiment；

Fig. 7 a is the top view of the sub- view field of one embodiment of the invention another embodiment；

Fig. 7 b is the top view of the sub- view field of one embodiment of the invention another embodiment；

Fig. 8 a is the top view of the sub- view field of one embodiment of the invention another embodiment；

Fig. 8 b is the top view of the sub- view field of one embodiment of the invention another embodiment；

Fig. 8 c is the top view of the sub- view field of one embodiment of the invention another embodiment；

Fig. 9 is a kind of side view of embodiment of display device of the present invention；

Figure 10 is the side view of the another embodiment of display device of the present invention.

Specific embodiment

Understandable for enabling the above objects, features and advantages of the present invention to become apparent from, below in conjunction with the accompanying drawings to the present invention Specific embodiment be described in detail.

Elaborate a lot of details in the following description in order to fully understand the present invention, but the present invention is acceptable To be implemented different from alternate manner described here using other, therefore the present invention is not limited by following public specific embodiment System.

Of the present invention " positioned at " include " being located immediately at ", i.e. directly contact, also include " being indirectly located at ", and middle There is wall, non-direct contact.

" top " of the present invention is usually panel light-emitting area, that is, in the face of the one side of user；Of the present invention " under Side " is the one side back to user.

The embodiment of the present invention provides a kind of panel, as shown in figure 1, include the first transparency carrier 10, the first conductive layer 12, the Two conductive layers 14.First transparency carrier includes first surface 101 and second surface 102, and it is transparent that the first conductive layer 12 is located at first Outside the first surface 101 of substrate 10, the second conductive layer 15 is located at outside the second surface 102 of the first transparency carrier 10.First Conductive layer 12 has viewing area 12a and non-display area 12b, and the second conductive layer 14 has viewing area 14a and non-display area 14b, the The viewing area projecting with the second conductive layer 14 on the direction of vertical first transparency carrier 10 for the viewing area 12a of one conductive layer 12 14a overlaps.In units of millimeter first conductive layer 12 is with the second conductive layer 14 on the direction of vertical first transparency carrier 10 Distance value is d.

The top view of the first conductive layer 12 is as shown in Fig. 2 the first conductive layer 12 includes binding region 20, in binding region 20 Including multiple binding patterns 22.First conductive layer 12 may also include multiple electrodes 24 and a plurality of electrode wires 26, and multiple electrodes 24 can To be the transparency electrodes such as touch control electrode, pixel electrode, public electrode, a plurality of electrode wires 26 are led first with multiple binding patterns 22 The non-display area 12b electrical connection of electric layer 12.

The top view of the second conductive layer 14 is as shown in figure 3, include a plurality of impermeable in the non-display area 14b of the second conductive layer 14 Bright wire 32, has quarter seam between adjacent opaque wire 32.Second conductive layer 14 (does not show perpendicular to the first transparency carrier 10 Go out) view field in the binding region of the first conductive layer 12 for the direction be 30.View field 30 can be further divided into the first throwing Shadow zone domain 301, the second view field 302 and the 3rd view field 303, the glazed area at least one sub- view field and son Ratio x of view field's area meets: x ＞ kd+1, d are that the first conductive layer described in millimeter (mm) as unit is led with described second Electric layer is in the distance value in vertically described first transparency carrier direction, d ＜ 1；K is constant, -1 < k < -0.1.Constant k is and observation is System is related, because the element of panel is less, it usually needs observed with microscope, k depend on the radius of microscope objective and its With the angle of observation thing, after determining observation condition, k is certain certain value.

Fig. 4 a illustrates observation schematic diagram, including binding pattern 22, opaque wire 32 and observation system 40.Observation system 40 include object lens 42, eyepiece 44 and observer 46.Never the binding binding pattern 22 is observed in transparent conductors 32 side to observer 46 Effect.Because level thickness each in panel is micron order, that is, propagation path of light is extremely short, and the coefficient of refraction of its internal material is to light path Bias effect is less, is similar to straightline propagation, and the therefore radius r of object lens and the angle, θ with binding pattern center essentially dictate The size of coefficient k.Separately because the thickness of panel is generally less than 1mm, therefore when k is less than -1, its area is also not in negative than x Value.When Fig. 4 b illustrates k for -0.67, never transparent conductors 32 side, glazed area ratio x needed for binding pattern 22 can be seen clearly Relation with the in units of millimeter first conductive layer 12 and the distance value d of the second conductive layer 14.

As shown in Figure 4 b, when the distance value d of the first conductive layer 12 and the second conductive layer 14 gets over hour, required transparent surface Long-pending bigger, that is, shelter is less, when the distance value d of the in units of millimeter first conductive layer 12 and the second conductive layer 14 is 0.3 When, the glazed area ratio that can clearly observe binding pattern 22 is for 80%.

Further, in view field 30, the live width of opaque wire and quarter seam can be homogeneous it is also possible to be non-equal One.As shown in figure 3, its view field 30 can be further divided into the first view field according to the density difference of opaque wire 301st, the second view field 302 and the 3rd view field 303, according to the difference of its live width and quarter seam width, can take multiple realities Apply mode to realize ratio x of the glazed area at least one sub- view field 301,302,303 and sub- view field area Meet: x ＞ kd+1

Further, when being bound using pressing mode, the end stress of view field is least uniform, and end is binding The two ends of region long side direction, the first projection so the sub- view field being located at end is the check object of emphasis, in such as Fig. 3 Region 301.It is therefore that the object of the invention is better achieved, the glazed area and first in the first view field 301 should be made as far as possible Ratio x of view field's area meets: x ＞ kd+1, d are described first conductive layer and described second conductive layer in units of millimeter In the distance value in vertically described first transparency carrier direction, k is constant, -1 < k < -0.1.

In order that panel more frivolous it is preferred that the in units of millimeter first conductive layer 12 and the second conductive layer 14 away from It is less than or equal to 0.3 from value d, now ratio x of glazed area and view field's area is more than or equal to 80%.

Panel provided in an embodiment of the present invention, both can ensure the frivolous of panel, also dependent on the practical situation of observation system, The glazed area ratio controlling view field meets observation requirement, improves the accuracy rate in detection binding effect, carries further The high quality of product and yield.

The embodiment of the present invention also provides a kind of panel also to include the second transparency carrier 50, as shown in figure 5, the second conductive layer 14 Positioned at the side of the second surface 102 near the first transparency carrier 10 for second transparency carrier 50, the first conductive layer 12 is located at first The first surface 101 of transparency carrier 10.

The glazed area at least one sub- view field and ratio x of sub- view field area is controlled to meet x ＞ kd+1 Mode have multiple, different several ways are given below to control glazed area in sub- view field and sub- view field Ratio x of area.For ease of explanation, the diagram of the opaque wire of illustrative embodiments neutron view field of institute of the present invention is Straight line.But in actual applications, as shown in figure 3, the opaque wire 32 in view field 30 can also be broken line.

Control a kind of mode of ratio x of glazed area at least one sub- view field and sub- view field area For controlling the live width of opaque wire to stitch width (line-spacing) with carving.

As shown in Figure 6 a, ratio y stitching width (line-spacing) b and live width a quarter designing opaque wire 32 meets relation:The width of opaque wire 32 can be the same or different, for having the opaque of identical live width Wire 32, it meets relation with ratio y carving seam width (line-spacing):Contrast has the impermeable of different live widths View field 30 as shown in Figure 6 b, can be divided into the first view field 301, second to project according to different live widths by bright wire 32 Region 302, the 3rd view field 303.In first view field 301, the second view field 302 or the 3rd view field 303 Stitch width (line-spacing) b1, b2, b3 and respective live width a1, a2, a3 at quarter of the opaque wire 32 of at least one sub- view field Ratio y meets relation:Stitch at the quarter of region intersection width with adjacent opaque wire 32 in wider width Degree determines.

Further, in conjunction with Fig. 6 a and Fig. 6 b, when the distance of the in units of millimeter first conductive layer 12 and the second conductive layer 14 When value d is less than or equal to 0.3, the glazed area at least one sub- view field (301,302,303) and view field's area Ratio x is more than or equal to 80%, and the ratio carving seam width (line-spacing) with the width of opaque wire 32 is more than or equal to 4:1.

The another way of ratio x of the glazed area in control at least one sub- view field and sub- view field area For reducing the live width of the opaque wire at least one view field, to increase the seam width (line of the quarter between opaque wire Away from).

With a certain sub- view field, illustrate, as shown in Figure 7a, in view field as a example such as the first view field 301 The width a of the outer opaque wire 32 of 30 (not shown) with the ratio carving seam width (line-spacing) b arbitrarily, is pointed in view field 30 The width of the opaque wire 32 of at least one sub- view field (as the first view field 301) reduced, make the first projection Ratio y stitching width (line-spacing) b and live width c at quarter in region 301 meets relation:

An ibid embodiment, for the opaque wire 32 of whole view field 30 width can identical can not also With, for the opaque wire 32 with identical live width, in view field 30 reduce live width, formula carve seam width (line-spacing) with Its ratio y meets relation:Contrast has the opaque wire 32 of different live widths, according to opaque wire 32 respective live widths determine reduction ratio, that is, control the quarter seam of the opaque wire 32 of sub- view field of view field 30 at least Ratio y of width (line-spacing) and live width meets relation:Stitch width at the quarter of region intersection with adjacent impermeable Wider width in bright wire 32 determines.

Further, when the distance value d of the in units of millimeter first conductive layer 12 and the second conductive layer 14 is less than or equal to 0.3 When, ratio x of the glazed area at least one sub- view field and sub- view field area is more than or equal to 80%, and at least one son is thrown The ratio stitching width (line-spacing) quarter in the domain of shadow zone with the width of opaque wire 32 is more than or equal to 4:1.

Above-mentioned embodiment, due to changing live width, can slightly increase the resistance of opaque wire 32, for eliminating the effects of the act, Change in the sub- view field of live width, such as the first sub- view field 301, such as Fig. 7 b, panel may also include the 3rd conductive layer 60, 3rd conductive layer 60 near second surface 102 (not shown) of the first transparency carrier 10, in the first view field 301.Institute State the 3rd conductive layer and comprise multiple bus 601,602,603, the overlapping electricity of opaque wire 32 with described second conductive layer 14 Connect.

Further, for whole view field 30, if change the live width of opaque wire 32 with present embodiment, all may be used To increase the 3rd conductive layer 60 and opaque conductor in parallel, reach the effect reducing resistance.

It is only a kind of embodiment of reduction width in above-mentioned diagram, at least one sub- view field, except reduction all Outside the width of opaque wire, can also only reduce the width of partly opaque wire.Additionally, for an opaque wire, Its reduction can be partly continuous or discontinuous.

The another way of ratio x of the glazed area in control at least one sub- view field and sub- view field area For using transparent conductors to substitute all or part of opaque wire 32 at least one sub- view field.

Equally taking a certain sub- view field as a example, such as the first view field 301.As shown in Figure 8 a, the second conductive layer 14 is gone back Including transparent conductors 341,342, opaque wire 322,324 (not shown) include Part I 322a, 324a of two disconnections And Part II 322b, 324b, transparent conductors 341,342 be located at Part I 322a, 324a and Part II 322b, Between 324b, and it is electrically connected the Part I 322a and Part II 322b and not of opaque wire 322 (not shown) The Part I 324a and Part II 324b of transparent conductors 324 (not shown).

Due to instead of opaque wire with transparent conductors, therefore in the first view field 301, opaque wire 321 Relation can be met with the spacing of opaque wire 322 (not shown) and width ratio z of opaque wire 32:I.e. in the opaque wire of not malleable spacing itself and live width, can be part or all of with transparent conductors Replace, to meet glazed area and the first view field 301 area ratio x ＞ kd+1 in the first view field 301.

Further, when partly or entirely being replaced with transparent conductors, projected area is located at for a certain opaque wire One section of domain, both can whole section replace it is also possible to only replace part paragraph.As shown in Figure 8 a, 341 replacements of transparent conductors are impermeable Bright wire 322 (not shown) is in the part paragraph of the first view field 301, and transparent conductors 342 substituted for impermeable wire 324 (not shown) is in the whole paragraph of the first view field 301.

Further, when partly or entirely being replaced with transparent conductors, for a certain opaque wire in view field It is also possible to transparent conductors are divided into multistage during middle replacement part paragraph, carry out staggered replacement.

In addition to according to the mode replacing transparent conductors at interval of an opaque wire shown in Fig. 8 a, also can be according to the Each opaque conductor width of one view field 301 inner region and quarter seam width, are all replaced or are spaced more than one not Transparent conductors carry out partial replacement.In sub- view field, different substitute modes are as shown in Fig. 8 b and Fig. 8 c.

As shown in Figure 8 b, if the opaque arrangement of conductors in the first view field 301 is very intensive, can all be replaced Change, only exist transparent conductors in the first view field 301.

As shown in Figure 8 c, if the opaque wire in the first view field 301 is more sparse, more than one can be spaced not Transparent conductors carry out partial replacement, as long as ensureing opaque arrangement of conductors uniformly, in the first view field 301, glazed area With the first view field 301 area ratio x ＞ kd+1.

Further, the width for the opaque wire 32 of whole view field 30 can be the same or different, for tool There is the opaque wire 32 of identical live width, select the substitute mode being suitable for according to its density, make at least one sub- view field Substitute all or part of opaque wire 32 with transparent conductors, make the glazed area of at least one sub- view field and sub- view field Area ratio x meets relation: x ＞ kd+1；For the opaque wire 32 with different live widths, according to each sub- view field The density of opaque wire 32 selects all or part of glazed area and son projection replaced, that is, control at least one sub- view field The ratio x of region area meets relation: x ＞ kd+1, region intersection quarter seam width with adjacent opaque wire 32 in wider Width determine.

Further, when the in units of millimeter first conductive layer 12 and the second conductive layer 14 distance value d be less than or equal to 0.3, When width ratio z of opaque wire 32 spacing and opaque wire is less than 4:1, present embodiment use transparent conductors 341, Described opaque wire 32 in 342 pairs of at least one described sub- view fields carries out all or part of replacement, you can realize this Goal of the invention.

Embodiments provide numerous embodiments to control transmission area and the son at least one sub- view field View field's area ratio x meets relation: x ＞ kd+1, neatly not only can be selected according to the practical situation of panel, and And compound selection can also be carried out.

The panel that the embodiments of the present invention provide can be all contact panel, and its touch control layer is the first conductive layer 12, such as Fig. 2 Shown, also include touch control electrode 24 and touch control electrode line 26 in the visible area 12a of the first conductive layer 12.Touch control electrode line 26 extends To the first conductive layer edge, electrically connect in binding region 20 with binding pattern 22.

Panel provided in an embodiment of the present invention can be clearly viewed binding pattern from the lower section of binding region, is tied up by observing Determine the binding situation of pattern, effectively judge binding effect, it is to avoid bad products flow into next process procedure or market, cause The waste of cost and the defect of quality.

The embodiment of the present invention also provides a kind of display device, including arbitrary panel provided in an embodiment of the present invention, display dress Putting can be liquid crystal indicator or organic light-emitting display device, and the sectional view of liquid crystal indicator is as shown in figure 9, include first Transparency carrier 10, the second transparency carrier 50, the liquid crystal layer 90 being clipped between the first transparency carrier 10 and the second transparency carrier 50, first Transparency carrier 10 is color membrane substrates, and the second transparency carrier 50 is array base palte, the first transparency carrier 10 and the second transparency carrier 50 Fit together.First conductive layer 12 is included on the first surface 101 of the first transparency carrier 10, electronic device 92 is in binding area Domain 20 is electrically connected with the binding pattern of the first conductive layer 12.Second transparency carrier 50 is near the first transparency carrier 10 second surface 102 side includes the second conductive layer 14, the second conductive layer 14 on the direction perpendicular to the first transparency carrier 10, in binding area View field on domain 20 is 30.Second conductive layer 14 includes a plurality of opaque wire 32 (not shown), and view field 30 has Duo Gezi view field, the glazed area of at least one sub- view field meets relation: x ＞ kd+1, d with the ratio x of the gross area Be in units of millimeter described first conductive layer with described second conductive layer the distance in vertical described first transparency carrier direction Value, d ＜ 1, k are constant, -1 < k < -0.1.

Further, the first conductive layer 12 can be touch control layer, including multiple touch control electrode and a plurality of touch control electrode line, a plurality of tactile Control electrode wires are electrically connected with electronic device by the binding pattern of binding region, make display device have touch controllable function.

Further, also can have an anisotropic conduction between the binding pattern of electronic device 92 and the first conductive layer 12 Film 94, makes electronic device 92 and the binding pattern of the first conductive layer 12 electrically connect by pressing.

The display device that the present invention provides can be also organic light-emitting display device.As shown in Figure 10, including the first transparent base Plate 10, the second transparency carrier 50, the first transparency carrier 10 is cover plate, and the second transparency carrier is array base palte.In the first transparent base First conductive layer 12 is included on the first surface 101 of plate 10, electronic device 92 is bound with the first conductive layer 12 in binding region 20 Pattern electrically connects.Second transparency carrier 50 includes the second conductive layer 14 near the side of the first transparency carrier 10 second surface 102, On the direction perpendicular to the first transparency carrier 10, the view field in binding region 20 is 30 to second conductive layer 14.Second Conductive layer 14 includes a plurality of opaque wire 32 (not shown), and view field 30 includes Duo Gezi view field, at least one son The glazed area of view field meets relation with the ratio x of the gross area: x ＞ kd+1, d are described first conduction in units of millimeter Layer distance value in vertical described first transparency carrier direction with described second conductive layer, d ＜ 1, k are constant, -1 < k < -0.1.

Further, also can have an anisotropic conduction between the binding pattern of electronic device 92 and the first conductive layer 12 Film 94, makes electronic device 92 and the binding pattern of the first conductive layer 12 electrically connect by pressing.

To reduce display device thickness further, also the second conductive layer 14 directly can be made in the first transparency carrier 10 Second surface 101, saves the second transparency carrier 50.First transparency carrier 10 or the second transparency carrier 50 can adopt glass, flexibility The transparent substrates such as substrate, Electronic Paper.

Further, the first conductive layer 12 can be touch control layer, including multiple touch control electrode and a plurality of touch control electrode line, a plurality of tactile Control electrode wires are electrically connected with electronic device by the binding pattern of binding region, make display device have touch controllable function.

Panel provided in an embodiment of the present invention can be clearly viewed binding pattern from the second surface of the first transparency carrier, leads to Cross the binding situation observing binding pattern, effectively judge binding effect, it is to avoid the bad defect causing of binding of touch control layer.

It should be noted that above example can be used for reference mutually, comprehensively use.Although the present invention is with preferred embodiment Disclose as above, but it is not that any those skilled in the art are in the spirit without departing from the present invention and model for limiting the present invention In enclosing, the methods and techniques content that may be by the disclosure above makes possible variation and modification to technical solution of the present invention, Therefore, every content without departing from technical solution of the present invention, according to appointing that the technical spirit of the present invention is made to above example What simple modification, equivalent variations and modification, belong to the protection domain of technical solution of the present invention.

Claims (14)

1. a kind of panel, comprising:

First transparency carrier, described first transparency carrier includes first surface and second surface；

The first conductive layer outside the first surface of described first transparency carrier, described first conductive layer includes binding area Domain, described binding region has multiple binding patterns；

The second conductive layer outside the second surface of described first transparency carrier, described second conductive layer includes a plurality of impermeable Bright wire, has quarter seam between adjacent described opaque wire；Wherein

Described second conductive layer has view field in described binding region, and described view field also includes many sub- projected area Domain, at least one described sub- view field, ratio x of glazed area and sub- view field area meets relation: x ＞ kd+1, d Be in units of millimeter described first conductive layer with described second conductive layer the distance in vertical described first transparency carrier direction Value, d ＜ 1, k are constant, -1 < k < -0.1.

2. panel as claimed in claim 1 it is characterised in that at least one described sub- view field glazed area with son throw Ratio x of shadow region area is more than or equal to 80%, and in units of millimeter, described first conductive layer and described second conductive layer exist Vertically the distance value d in described first transparency carrier direction is less than or equal to 0.3.

3. it is characterised in that also including the second transparency carrier, described first conductive layer is located at panel as claimed in claim 1 The first surface of described first transparency carrier；It is transparent near described first that described second conductive layer is located at described second transparency carrier The side of substrate.

4. panel as claimed in claim 1 is it is characterised in that stitch at the described quarter being located at least one described sub- view field Ratio y of width and described opaque conductor width meets relation:

5. panel as claimed in claim 4 is it is characterised in that stitch at the described quarter being located at least one described sub- view field Ratio y of width and described opaque conductor width be more than or equal to 4:1, in units of millimeter described first conductive layer with described The distance value d in vertically described first transparency carrier direction for second conductive layer is less than or equal to 0.3.

6. panel as claimed in claim 4 is it is characterised in that also include the 3rd conductive layer, and described 3rd conductive layer is near Two surfaces, in view field sub- at least one described；Described 3rd conductive layer comprises multiple bus, leads with described second The overlapping electrical connection of described opaque wire of electric layer.

7. panel as claimed in claim 1 is it is characterised in that described second conductive layer also includes transparent conductors, described transparent Wire is located at least one described sub- view field, and described opaque wire has Part I and the Part II of disconnection, institute State transparent conductors to be located between the Part I of described opaque wire and Part II and electrically connect the two.

8. panel as claimed in claim 7 is it is characterised in that the spacing of described opaque wire and described opaque wire Width ratio z meets relation:

9. claim 8 states panel it is characterised in that opaque wire as described in sub- view field as described at least one Spacing is less than 4:1 with width ratio z of described opaque wire, and in units of millimeter, described first conductive layer is led with described second The distance value d in vertically described first transparency carrier direction for the electric layer is less than or equal to 0.3.

10. the panel as described in any one of claim 1-9 is it is characterised in that described first conductive layer also includes multiple touch-controls Electrode and a plurality of touch control electrode line, described touch control electrode line is electrically connected with described binding pattern.

A kind of 11. display devices, including panel as described in any one of claim 1-9.

12. display devices as claimed in claim 11 it is characterised in that described first conductive layer include multiple touch control electrode and A plurality of electrode wires, described touch control electrode line is connected with described binding pattern.

13. display devices as claimed in claim 11 it is characterised in that also including an electronic device, described electronic device bag Include binding foot, described binding foot is electrically connected with the binding pattern of described first conductive layer.

14. display devices as claimed in claim 13 are it is characterised in that the binding foot of described electronic device is led with described first Between the binding pattern of electric layer, also include an anisotropic conductive film.