CN205670287U - A kind of display floater and display device - Google Patents

Abstract

The utility model discloses a kind of display floater and display device, the dot structure being made up of in using Rendering display floater multiple compact arranged sub-pixels；Often each sub-pixel alignment in row sub-pixel, the position of X the sub-pixel that stagger in a column direction between each sub-pixel in two the most adjacent row sub-pixels, 0 < X < 1, each sub-pixel is different with the color of adjacent each sub-pixel.On this basis, utilize the gap location between each sub-pixel, the touching signals line arranging with the different layer of data wire and insulating with data wire, touching signals line and corresponding touch detection electrodes are set and connect.Arranging by touching signals line being changed to layer different with data wire, aperture opening ratio will not be taken, also do not result in the light efficiency environmental difference caused because arranging touching signals line between sub-pixel.Further, it is positioned at, due to data wire and touching signals line, the problem that different layer can be avoided occurring short circuit between the two especially.

Description

A kind of display floater and display device

Technical field

This utility model relates to Display Technique field, particularly relates to a kind of display floater and display device.

Background technology

At present, along with the raising required for display screen display precision, the current application of Rendering is more and more extensive, wash with watercolours Dyeing technique is to use relatively low technological ability, reaches more preferable display effect by the secondment relation between pixel.Meanwhile, Touch technology has been the standard configuration of display screen, and touch detection electrodes is especially embedded in the In-cell touch panel within display screen, Can be substantially reduced again the cost of manufacture of touch screen with the overall thickness of thinning module, be favored by Ge great panel producer.

At present, existing In-cell touch panel is in order to meet touch accuracy, it is generally required to arrange several inside display floater Hundred touch detection electrodes, each touch detection electrodes is required to arrange the signal connecting line i.e. touching signals line of correspondence.If touch-control Holding wire is drawn from the two ends, left and right of display floater, then be unfavorable for narrow frame design.Therefore, general employing Double Data line scheme, I.e. utilize data wire place film layer, increase by a touching signals line in the vertical.But the touching signals line additionally introduced will certainly be right The aperture opening ratio of display impacts, and especially affects more so in high accuracy (PPI) product.It is additionally, since touch accuracy and wants remote Much smaller than display precision, therefore, the quantity of touching signals line can arrange the sub-picture of touching signals line less than the quantity of data wire Plain and the sub-pixel being not provided with touching signals line light efficiency environment can be different, can have undesirable effect display effect.

Use Rendering display floater in, due in two the most adjacent row sub-pixels between each sub-pixel in row side Upwards can stagger less than the position of a sub-pixel, therefore, data wire is broken line.Use Double Data line scheme that touch-control letter is set During number line, the short circuit problem between data wire and touching signals line easily occurs.

Utility model content

In view of this, this utility model embodiment provides a kind of display floater and display device, in order to solve existing adopting Data wire and touching signals line meeting when with utilizing data wire place film layer in the display floater of Rendering, touching signals line is set The problem that short circuit occurs.

Therefore, on the one hand, this utility model embodiment provides a kind of display floater, including: by multiple compact arranged The dot structure that sub-pixel is constituted；Often go each described sub-pixel alignment in described sub-pixel, son described in two the most adjacent row Pixel staggers between each described sub-pixel in a column direction the position of X sub-pixel, 0 < X < 1, each described sub-pixel and phase The color of adjacent each sub-pixel is different；

The a plurality of data lines of the row gap location being arranged between described sub-pixel；

The gap location being arranged between described sub-pixel and each different layer of described data wire arrange and with each described data wire phase The a plurality of touching signals line of insulation mutually；

And the multiple touch detection electrodes connected with corresponding each described touching signals line.

In a kind of possible implementation, in the above-mentioned display floater that this utility model embodiment provides, each described tactile Control detecting electrode forms the common electrode layer that in described dot structure, each sub-pixel comprises.

In a kind of possible implementation, in the above-mentioned display floater that this utility model embodiment provides, each described tactile Control holding wire film layer between described data wire place film layer and described common electrode layer.

In a kind of possible implementation, in the above-mentioned display floater that this utility model embodiment provides, each described tactile Control holding wire is consistent with the bearing of trend of each described data wire.

In a kind of possible implementation, in the above-mentioned display floater that this utility model embodiment provides, it is positioned at same The orthographic projection on underlay substrate of the described data wire in the row gap of sub-pixel covers the orthographic projection of described touching signals line.

In a kind of possible implementation, in the above-mentioned display floater that this utility model embodiment provides, spaced rows institute State each described sub-pixel alignment in a column direction in sub-pixel.

In a kind of possible implementation, in the above-mentioned display floater that this utility model embodiment provides, described in every Data wire is only connected with the pixel switch being positioned at the not each described sub-pixel of homonymy of same color.

In a kind of possible implementation, in the above-mentioned display floater that this utility model embodiment provides, described in every Data wire is connected with the pixel switch of each described sub-pixel of the same side.

On the other hand, this utility model embodiment additionally provides a kind of display device, carries including this utility model embodiment The above-mentioned display floater of confession.

The beneficial effect of this utility model embodiment includes:

A kind of display floater that this utility model embodiment provides and display device, use in Rendering display floater by The dot structure that multiple compact arranged sub-pixels are constituted；Often each sub-pixel alignment in row sub-pixel, two the most adjacent row Sub-pixel staggers between each sub-pixel in a column direction the position of X sub-pixel, 0 < X < 1, each sub-pixel is each with adjacent The color of sub-pixel is different.On this basis, utilize the gap location between each sub-pixel, arrange and arrange with the different layer of data wire And with the touching signals line of data wire insulation, the connection of touching signals line and corresponding touch detection electrodes.By by touching signals Line is changed to layer different with data wire and arranges, and will not take aperture opening ratio, also not result between sub-pixel because arranging touching signals line And the light efficiency environmental difference caused.Further, can avoid between the two especially owing to data wire and touching signals line are positioned at different layer The problem that short circuit occurs.

Accompanying drawing explanation

One of structural representation of display floater that Fig. 1 provides for this utility model embodiment；

Fig. 2 is the partial schematic diagram of display floater of the prior art；

Fig. 3 is the partial schematic diagram that display floater of the prior art uses Double Data line structure；

The partial schematic diagram of the display floater that Fig. 4 provides for this utility model embodiment；

The two of the structural representation of the display floater that Fig. 5 provides for this utility model embodiment；

Fig. 6 a and Fig. 6 b is respectively the display floater schematic cross-section that this utility model embodiment provides；

The flow chart of the manufacture method of the display floater that Fig. 7 provides for this utility model embodiment.

Detailed description of the invention

Below in conjunction with the accompanying drawings, display floater this utility model embodiment provided and the detailed description of the invention of display device It is described in detail.

In accompanying drawing, the shapes and sizes of each film layer do not reflect the actual proportions of display floater, and purpose is schematically illustrate reality Use novel content.

This utility model embodiment provides a kind of display floater, including: it is made up of multiple compact arranged sub-pixels Dot structure as shown in Figure 1；Often each sub-pixel alignment in row sub-pixel, each sub-pixel in two the most adjacent row sub-pixels Between stagger in a column direction the position of X sub-pixel, 0 < X < 1, the position of half sub-pixel that such as staggers, each sub-pixel with The color of adjacent each sub-pixel is different；

A plurality of data lines S1 of row gap location that is arranged between sub-pixel, S2 ... S6；

The gap location being arranged between sub-pixel layer different with each data wire is arranged and a plurality of with each data wire mutually insulated Touching signals line；

And the multiple touch detection electrodes connected with corresponding each touching signals line.

When in order to reduce power consumption when showing pure color picture, data wire can be set to a data line and only connect one The sub-pixel of color, such data line can be connected with the sub-pixel of the left and right sides being positioned at different rows, as shown in Figure 2.This Time, when using Double Data line scheme to arrange touching signals line, as it is shown on figure 3, data wire S1 and touching signals line Tx1 there will be The situation of short circuit (in Fig. 3 shown in circle), therefore, inapplicable utilizes data wire place film layer to arrange touching signals line.

The above-mentioned display floater that this utility model embodiment provides, on the basis of the display floater using Rendering, profit With the gap location between each sub-pixel, the touching signals line arranged with the different layer of data wire is set.By touching signals line is changed Arrange for layer different with data wire, aperture opening ratio will not be taken, also do not result in and cause because arranging touching signals line between sub-pixel Light efficiency environmental difference.Further, can avoid occurring between the two short especially owing to data wire and touching signals line are positioned at different layer The problem on road.

In the specific implementation, in order to be beneficial to be applied in the display device of narrow frame, it is to avoid touching signals line is from display surface The two ends, left and right of plate are drawn, and in the above-mentioned display floater that this utility model embodiment provides, as shown in Figure 4, typically touch each The bearing of trend of control holding wire Tx and each data wire S is designed to consistent, is and arranges respectively along the row gap location between sub-pixel Touching signals line Tx.

Further, in order to not interfere with the aperture opening ratio of display, at the above-mentioned display surface that this utility model embodiment provides In plate, as shown in Figure 4, the data wire S orthographic projection on underlay substrate in the row gap being positioned at same sub-pixel typically covers The orthographic projection of touching signals line Tx, the i.e. live width of touching signals line Tx are generally no greater than the live width of data wire S.It is preferred that will touch The live width of control holding wire Tx is set to be preferred overlapped with the live width of data wire S.

Further, design for the ease of dot structure, in the above-mentioned display floater that this utility model embodiment provides, Each sub-pixel general alignment, i.e. odd rows alignment in a column direction, even number line in spaced rows sub-pixel Pixel alignment.

In the specific implementation, in the above-mentioned display floater that this utility model embodiment provides, data wire and each sub-pixel it Between can use the connected mode of row reversion (Column-inversion), each sub-pixel of i.e. every data line and the same side Pixel switch connects, now, as it is shown in figure 5, every data line S1, S2 ... S6 has been at least connected with the sub-pixel of two kinds of colors, When showing pure color picture, need to open the data wire that a plurality of and display pure color is connected, such as when needing to show red picture, Then need to open S1, S2, S4 and S5 tetra-data line.

Or, it is preferred that in the above-mentioned display floater of this utility model embodiment offer, between data wire and each sub-pixel The connected mode inverting (Z-inversion) in a zigzag can be preferably employed, as it is shown in figure 1, the most every data line S1, S2 ... S6 is only connected with the pixel switch being positioned at not each sub-pixel of homonymy of same color.So, when showing pure color picture, it is only necessary to The data wire that the pure color opened and show is connected, such as, when needing to show red picture, the most only need to open S1 and S4 two Data wire, such that it is able to reduce power consumption.

In the specific implementation, in order to simplify the structure of display floater, in the above-mentioned display that this utility model embodiment provides In panel, the function of common electrode layer multiplexing touch detection electrodes, the most each touch detection electrodes composition dot structure can be used In the common electrode layer that comprises of each sub-pixel, as such, it is possible to the most additionally increase the quantity of film layer in display floater and achieve tactile Control function.

Further, structure based on employing common electrode layer multiplexing touch detection electrodes, in this utility model embodiment In the above-mentioned display floater provided, as shown in Figure 6 a, each touching signals line 007 can be arranged at data wire 005 place film layer And the film layer between common electrode layer 101.So, can there is thickness between touching signals line 007 and common electrode layer 010 isThe resin bed 008 of left and right so that the electric capacity between common electrode layer 010 and touching signals line 007 is less, thus can To ensure that touching signals line 007 is the least on the impact of overlapping other touch detection electrodes being not connected with, thus improve touch-control inspection The accuracy surveyed.

Further, the pixel electricity that each sub-pixel in the above-mentioned display floater that this utility model embodiment provides comprises Relative position between pole with common electrode layer, can as shown in Figure 6 a, i.e. pixel electrode 009 is positioned at common electrode layer 010 Top, can as shown in Figure 6 b, and pixel electrode 009 is positioned at the lower section of common electrode layer 010, does not limits at this.

Conceiving based on same utility model, this utility model embodiment additionally provides the making side of a kind of above-mentioned display floater Method, as it is shown in fig. 7, comprises following steps:

S701, on underlay substrate 001, sequentially form grid 002, gate insulation layer 003, active layer 004, data wire 005 Figure；

S702, on the figure of data wire 005, form the first insulating barrier 006；

S703, on the first insulating barrier 006 formed touching signals line 007 figure；

S704, on the figure of touching signals line 007, form resin bed 008, form resin bed by patterning processes 008 and first figure of insulating barrier 006；

S705, the pixel electrode 009 forming mutually insulated on the figure of resin bed 008 and the figure of common electrode layer 010 Shape.

In the above-mentioned manufacture method that this utility model embodiment provides, step S702 forms the first insulating barrier 006 After be made without composition, with resin bed 008 simultaneously composition in step S704, as such, it is possible to use 9 compositions to complete display The making of panel, these nine compositions are particularly as follows: grid 002 → gate insulation layer, 003 → active layer, 004 → data wire, 005 → touch-control Holding wire 007 → resin bed 008 and the first insulating barrier 006 → pixel electrode, 009 → the second insulating barrier → common electrode layer 010； Or, grid 002 → gate insulation layer, 003 → active layer, 004 → data wire, 005 → touching signals line 007 → resin bed 008 and One insulating barrier 006 → common electrode layer, 010 → resin bed 008 and the second insulating barrier → pixel electrode 009.

Conceiving based on same utility model, this utility model embodiment additionally provides a kind of display device, including this practicality The above-mentioned display floater that new embodiment provides, this display device can be: mobile phone, panel computer, television set, display, pen Remember any product with display function or the parts such as this computer, DPF, navigator.The enforcement of this display device can be joined See the embodiment of above-mentioned display floater, repeat no more in place of repetition.

Above-mentioned display floater that this utility model embodiment provides and display device, use in Rendering display floater by The dot structure that multiple compact arranged sub-pixels are constituted；Often each sub-pixel alignment in row sub-pixel, two the most adjacent row Sub-pixel staggers between each sub-pixel in a column direction the position of X sub-pixel, 0 < X < 1, each sub-pixel is each with adjacent The color of sub-pixel is different.On this basis, utilize the gap location between each sub-pixel, arrange and arrange with the different layer of data wire And with the touching signals line of data wire insulation, the connection of touching signals line and corresponding touch detection electrodes.By by touching signals Line is changed to layer different with data wire and arranges, and will not take aperture opening ratio, also not result between sub-pixel because arranging touching signals line And the light efficiency environmental difference caused.Further, can avoid between the two especially owing to data wire and touching signals line are positioned at different layer The problem that short circuit occurs.

Obviously, those skilled in the art can carry out various change and modification without deviating from this practicality to this utility model Novel spirit and scope.So, if of the present utility model these amendment and modification belong to this utility model claim and Within the scope of its equivalent technologies, then this utility model is also intended to comprise these change and modification.

Claims (9)

1. a display floater, it is characterised in that including: the dot structure being made up of multiple compact arranged sub-pixels；Often go Each described sub-pixel alignment in described sub-pixel, at row between each described sub-pixel in sub-pixel described in two the most adjacent row Stagger on direction the position of X sub-pixel, 0 < X < 1, each described sub-pixel is different with the color of adjacent each sub-pixel；

The a plurality of data lines of the row gap location being arranged between described sub-pixel；

The gap location being arranged between described sub-pixel is arranged and the most exhausted with each described data wire with each different layer of described data wire The a plurality of touching signals line of edge；

And the multiple touch detection electrodes connected with corresponding each described touching signals line.

2. display floater as claimed in claim 1, it is characterised in that each described touch detection electrodes forms described dot structure In the common electrode layer that comprises of each sub-pixel.

3. display floater as claimed in claim 2, it is characterised in that each described touching signals line is positioned at described data wire place Film layer between film layer and described common electrode layer.

4. display floater as claimed in claim 1, it is characterised in that each described touching signals line prolongs with each described data wire Stretch direction consistent.

5. display floater as claimed in claim 4, it is characterised in that be positioned at the described data in the row gap of same sub-pixel Line orthographic projection on underlay substrate covers the orthographic projection of described touching signals line.

6. display floater as claimed in claim 1, it is characterised in that in sub-pixel described in spaced rows, each described sub-pixel is at row Alignment on direction.

7. the display floater as described in any one of claim 1-6, it is characterised in that every described data wire only with same color Be positioned at the not each described sub-pixel of homonymy pixel switch connect.

8. the display floater as described in any one of claim 1-6, it is characterised in that every described data wire is each with the same side The pixel switch of described sub-pixel connects.

9. a display device, it is characterised in that include the display floater as described in any one of claim 1-8.