CN103034366A

CN103034366A - Display substrate manufacturing method, black matrix, display substrate and display device

Info

Publication number: CN103034366A
Application number: CN2012105642161A
Authority: CN
Inventors: 李娟�
Original assignee: Beijing BOE Optoelectronics Technology Co Ltd
Current assignee: BOE Technology Group Co Ltd; Beijing BOE Optoelectronics Technology Co Ltd
Priority date: 2012-12-21
Filing date: 2012-12-21
Publication date: 2013-04-10
Anticipated expiration: 2032-12-21
Also published as: CN103034366B

Abstract

The invention discloses a display substrate manufacturing method, a black matrix, a display substrate and a display device, relating to a display technology. According to the embodiment of the invention, the black matrix is made from an electroconductive material, in addition, transverse black matrix patterns and longitudinal black matrix patterns are arranged in different layers, color resistance layers are arranged between the transverse black matrix patterns and the longitudinal black matrix patterns, the transverse black matrix patterns and the longitudinal black matrix patterns are insulated by using patterns of the color resistance layers, each transverse black matrix pattern or each longitudinal black matrix pattern constitute a touch-control electrode, or at least two adjacent transverse black matrix patterns or longitudinal black matrix patterns constitute a touch-control electrode, therefore, the touch-control electrode is unnecessary to manufacture independently, a process flow is shortened, multiple etching is prevented after the color resistance layers are made, and the product yield is improved.

Description

A kind of display base plate method for making and black matrix, display base plate, display device

Technical field

The present invention relates to display technique, relate in particular to a kind of display base plate method for making and black matrix, display base plate, display device.

Background technology

At present, when carrying out the making of Embedded Touch Screen, need to be at the inboard touch-control electrode of making of color film, the touch-control electrode is generally all selected tin indium oxide common electrode, metal or both conductive layer.

The technique that realizes Embedded Touch Screen in color film generally is at the black matrix of common color film BM(), R G the resistance of B look, PS(cylindrical spacer) etc. the technique basis of finishing on, increase the making of X, Y-direction touch-control electrode, the material of touch-control electrode is generally common electrode; And the technique that forms shared electrode patterns needs through overexposure, development, etching, peels off, and makes the protection that the look resistance that has formed in the viewing area in long flow path and the etching does not have complete common electrode layer, is vulnerable to the corrosion of etching liquid.Equally, if select metal as the touch-control electrode, to the making flow process of touch-control electrode also more complicated.

As seen, the ability of making at present the anti-etching liquefaction corrosion of the technological process complexity of touch-control electrode and the resistance of checking colors has high requirements, and product yield is lower.

Summary of the invention

The embodiment of the invention provides a kind of display base plate method for making and deceives matrix, display base plate, display device, to improve efficient and the product yield of making the touch-control electrode.

A kind of black matrix comprises:

Laterally black Matrix Pattern and vertical Matrix Pattern of deceiving by the conductive material making, each laterally black Matrix Pattern or vertically black Matrix Pattern consist of a touch-control electrode, perhaps at least two adjacent laterally black Matrix Patterns or vertically black Matrix Pattern consist of a touch-control electrode; And

Described laterally black Matrix Pattern and the different layer of described vertical black Matrix Pattern arrange, and are laterally deceiving Matrix Pattern and vertically be provided with the look resistance layer between the black Matrix Pattern, and by described look resistance layer figure insulation.

A kind of display base plate comprises the black matrix that the embodiment of the invention provides.

A kind of display device comprises the black matrix that the embodiment of the invention provides.

A kind of display device comprises the display base plate that the embodiment of the invention provides.

A kind of display base plate method for making comprises:

Make laterally black Matrix Pattern or vertically deceive Matrix Pattern by conductive material;

Utilize insulating material to make look resistance layer figure;

Make vertically black Matrix Pattern or laterally deceive Matrix Pattern by conductive material; Wherein, each is laterally deceived Matrix Pattern or vertically deceives touch-control electrode of Matrix Pattern formation, perhaps at least two adjacent laterally deceiving Matrix Patterns or vertically deceive touch-control electrode of Matrix Pattern formation; Described laterally black Matrix Pattern and vertically black Matrix Pattern insulate by described look resistance layer figure.

The embodiment of the invention provides a kind of display base plate method for making and black matrix, display base plate, display device, make black matrix by conductive material, and, laterally black Matrix Pattern and the different layer of vertically black Matrix Pattern arrange, and laterally deceiving Matrix Pattern and vertically be provided with the look resistance layer between the black Matrix Pattern, and insulated by look resistance layer figure, each is laterally deceived Matrix Pattern or vertically deceives touch-control electrode of Matrix Pattern formation, perhaps at least two adjacent laterally deceiving Matrix Patterns or vertically deceive Matrix Pattern consist of a touch-control electrode, therefore, do not need to make separately again the touch-control electrode, reduced technological process, also avoided repeatedly carrying out etching after the resistance of making look, improved product yield.

Description of drawings

The black matrix structure synoptic diagram that Fig. 1 a provides for the embodiment of the invention;

Laterally black matrix and vertical sectional view of deceiving the overlapping place of matrix that Fig. 1 b provides for the embodiment of the invention;

The display substrate structure synoptic diagram that Fig. 2 provides for the embodiment of the invention;

The array base-plate structure synoptic diagram that Fig. 3 provides for the embodiment of the invention;

The display base plate method for making process flow diagram that Fig. 4 provides for the embodiment of the invention.

Embodiment

With shown in Fig. 1 b, the black matrix that the embodiment of the invention provides comprises as shown in Figure 1a:

Laterally black Matrix Pattern 101 and vertical Matrix Pattern 102 of deceiving by the conductive material making, each laterally black Matrix Pattern 101 or vertically black Matrix Pattern 102 consist of a touch-control electrode, perhaps at least two adjacent laterally black Matrix Patterns 101 or vertically black Matrix Pattern 102 consist of a touch-control electrode; And

Laterally black Matrix Pattern 101 and vertical black Matrix Pattern 102 different layers arrange, and are laterally deceiving Matrix Pattern 101 and vertically be provided with the look resistance layer between the black Matrix Pattern 102, and by 104 insulation of look resistance layer figure.

Wherein, when comprising at least two adjacent laterally black Matrix Patterns 101 in each touch-control electrode or vertically during black Matrix Pattern 102, also comprising in each touch-control electrode: be used for connecting and composing each laterally black Matrix Pattern 101 of this touch-control electrode or vertical electrode tip 103 of black Matrix Pattern 102.

Wherein, Fig. 1 b is laterally black Matrix Pattern 101 and vertical sectional view of deceiving Matrix Pattern 102 overlapping places among Fig. 1 a.

Because black matrix uses conductive material to make, so can be used as the touch-control electrode, simultaneously, the look resistance is arranged between the black matrix of both direction, can be so that the black matrix mutually insulated of both direction have been avoided the short circuit of touch-control electrode.

For obtaining suitable susceptibility and the precision of touch-control electrode, can comprise a plurality of laterally black Matrix Patterns in each touch-control electrode or vertically deceive Matrix Pattern, for example, as shown in Figure 1a, comprise three laterally black Matrix Patterns in each touch-control electrode or vertically deceive Matrix Pattern, when the picture fineness of display device is higher, horizontal black Matrix Pattern the or vertically number of black Matrix Pattern can be more in each touch-control electrode, when the picture fineness of display device was hanged down, laterally deceiving Matrix Pattern or vertically deceiving the Matrix Pattern number in each touch-control electrode can be less.

Wherein, laterally the material of black Matrix Pattern and vertically black Matrix Pattern can use the polymeric matrix that is doped with nano metal material; Perhaps also can use the polymeric matrix that is doped with compound conductive doped material; Perhaps can directly use conductive polymer material, conducting polymer and derivants thereof such as polyaniline, polypyrrole, polythiophene; Can also use the metal material with black Matrix Properties.

Usually, the electrical-conductive nanometer metal mixes with the form of electrical-conductive nanometer particle or electrical-conductive nanometer silk usually, and therefore, conductiving doping has the polymeric matrix of nano metal material, is generally the polymeric matrix that is doped with electrical-conductive nanometer particle or electrical-conductive nanometer silk.

And electrical-conductive nanometer particle or electrical-conductive nanometer silk are more excellent with the electric conductivity of Nano Silver, therefore, and for further improving the electric conductivity of black matrix, can use the material of the black matrix of polymeric matrix conduct that is doped with nano silver particles.

Generally, be doped with in the polymeric matrix of electrical-conductive nanometer particle or electrical-conductive nanometer silk, the doping composition account for polymeric matrix quality 5% ~ 70%, those skilled in the art can be according to actual conditions flexible doping ratio.

Laterally black Matrix Pattern and the different layer of vertically black Matrix Pattern arrange, and laterally deceiving Matrix Pattern and vertically be provided with the look resistance layer between the black Matrix Pattern, by the look resistance layer figure insulation of using insulating material to make, specifically can block edge by a kind of look, also can block edge by plurality of color, usually the look resistance comprises red color resistance, green look resistance and the resistance of blue look, at this moment, laterally black Matrix Pattern and vertically black Matrix Pattern are positioned at red color resistance, green look resistance, the up and down both sides of at least a look resistance layer figure in the blue look resistance are then laterally deceived Matrix Pattern and vertically are provided with red color resistance between the black Matrix Pattern, green look resistance, at least a in the blue look resistance.

When carrying out the display base plate making, can after making laterally black Matrix Pattern or vertically deceiving Matrix Pattern, make at least a look resistance layer figure, then make the black Matrix Pattern of other direction, make again remaining look resistance layer figure.

The embodiment of the invention also provides a kind of display base plate, is provided with the black matrix that the embodiment of the invention provides in the viewing area of this display base plate.

Wherein, this display base plate can be specially color membrane substrates.

Further, as shown in Figure 2, this color membrane substrates also comprises:

Frame conducting resinl 105 is connected with touch-control electrode 103, is used for connecting touch-control electrode 103 is connected touch-control drive integrated circult chip IC with array base palte touching signals line.

As shown in Figure 3, in array base palte, comprise the touching signals line 106 of each touch-control electrode of corresponding color membrane substrates, each touching signals line 106 connects touch-control drive IC (integrated circuit (IC) chip) 107.Touching signals line 106 may further include the output line road that metal or common electrode (tin indium oxide) electrode and connection metal or common electrode (tin indium oxide) electrode are connected with touch-control drive IC 107.In order not conflict with the output line road that is used for display driver, the wiring that is used for the touch-control driving needs spatially separate with it, therefore both generally connect up respectively at the two ends of display screen, and namely Display Driver IC and touch-control drive IC lay respectively at the both sides of screen.

Further, because at periphery, usually carry out shading by complete black matrix, and black matrix as the touch-control electrode after, laterally deceive Matrix Pattern and vertically need insulation between the black Matrix Pattern, in the periphery of viewing area light leak not occuring in order to guarantee laterally to deceive Matrix Pattern and vertically to deceive Matrix Pattern, as shown in Figure 2, also comprises:

Be positioned at the lightproof area in the outside, viewing area; This lightproof area is normal black region 108 and/or black tape backlight zone, is arranged on black matrix periphery, is used for preventing viewing area periphery light leak.

Usually, to the display base plate based on normal black pattern, often the pixel electrode in the black viewing area and the voltage difference between the common electrode are zero;

To the display base plate based on normal white mode, often the pixel electrode in the black viewing area and the voltage difference between the common electrode reach maximum.

Concrete, normal black region is made of the pixel that does not participate in showing (Dummy Pixel), in different display modes, can realize by different modes, is described as follows:

At IPS(In-Plane Switching, plane conversion pattern) etc. in the plane electric fields display mode, with pixel electrode (Pixel electrode) and common electrode (Com electrode) conducting of dummy pixel, namely be normal black the demonstration; If do not disturb the electric field of liquid crystal aligning to exist, electrode also can be set carry out electric field shielding.

At VA(Vertical Alignment, vertical orientation pattern) etc. in the vertical electric field display mode, all Pixel electrodes that do not participate in the pixel that shows are communicated with, and connect off(in working order the time and close) attitude voltage; If do not disturb the electric field of liquid crystal aligning to exist, electrode also can be set carry out electric field shielding.

Show at TN(Twist nematic liquid display twisted nematic liquid crystal) in the normal white pattern that shows, all Pixel electrodes that do not participate in the pixel that shows are communicated with, and connect on(in working order the time and open) attitude voltage.

Further, the frame conducting resinl can be selected black conductive glue, thereby further prevents the generation of light leak.

For avoiding flatness layer in the color membrane substrates to hinder being connected between touch-control electrode and conducting resinl, the perhaps different touch-control electrode of common electrode layer short circuit, can further carry out graphic making to flatness layer and/or common electrode layer, so that flatness layer and/or common electrode layer are dodged out the position that the touch-control electrode of black matrix is connected with conducting resinl, the figuratum flatness layer of tool is dodged out position that the touch-control electrode is connected with conducting resinl can be so that the touch-control electrode has sufficient space with conducting resinl to be connected, and the figuratum common electrode layer of tool is dodged out position that the touch-control electrode is connected with conducting resinl and can be avoided the common electrode layer to contact with touch-control electrode or conducting resinl short circuit occurring.

For guaranteeing further to deceive the common electrode place at matrix electrodes end place and the shaded effect of flatness layer opening part, this color membrane substrates also comprises: the outer rim that is used for shading, be arranged on by described laterally black Matrix Pattern and/or vertically the end place of the touch-control electrode that consists of of black Matrix Pattern, i.e. common electrode place and the flatness layer opening part at black matrix electrodes end place.

The embodiment of the invention also provides a kind of display device, comprises the black matrix that the embodiment of the invention provides.

The embodiment of the invention also provides a kind of display device, comprises the display base plate that the embodiment of the invention provides.

The embodiment of the invention also provides a kind of display base plate method for making, as shown in Figure 4, comprising:

Step S401, make laterally black Matrix Pattern or vertical black Matrix Pattern by conductive material;

Step S402, utilize insulating material to make look resistance layer figure;

Step S403, make vertically black Matrix Pattern or horizontal black Matrix Pattern by conductive material, wherein, each is laterally deceived Matrix Pattern or vertically deceives touch-control electrode of Matrix Pattern formation, perhaps at least two adjacent laterally deceiving Matrix Patterns or vertically deceive Matrix Pattern consist of a touch-control electrode, and laterally black matrix and vertical matrix of deceiving are by the insulation of look resistance layer figure.

In step S401, make the black Matrix Pattern of a direction, in step S403, then make the black Matrix Pattern of another direction, that is, and in step S401, if make laterally black Matrix Pattern, then in step S403, make vertically black Matrix Pattern, otherwise, in step S401, if make vertically black Matrix Pattern, then in step S403, make laterally black Matrix Pattern.

Further, this display base plate can be specially color membrane substrates, and this moment, this method for making also comprised:

Step S404, make the frame conducting resinl at the color membrane substrates edge, the frame conducting resinl is connected with the touch-control electrode, is connected the touching signals line of touch-control drive IC with array base palte for connection touch-control electrode.

Step S401-step S403 is the flow process in the color membrane process, and step S404 carries out when liquid crystal becomes box.

Laterally black Matrix Pattern and the different layer of vertically black Matrix Pattern arrange, and laterally deceiving Matrix Pattern and vertically be provided with the look resistance layer between the black Matrix Pattern, insulated by look resistance layer figure, specifically can block edge by a kind of look, also can block edge by plurality of color, the look resistance comprises red color resistance, the resistance of green look and the resistance of blue look usually, at this moment, among the step S402, utilize insulating material to make look resistance layer figure, specifically comprise: utilize insulating material to make successively red color resistance, the resistance of green look and blue look resistance figure.Laterally black Matrix Pattern and vertically black Matrix Pattern are positioned at the both sides of red color resistance, the resistance of green look, the resistance of blue look.

Certainly, laterally black Matrix Pattern and vertically black Matrix Pattern can also be arranged at least a look resistance layer figure both sides of red color resistance, the resistance of green look, the resistance of blue look.

When carrying out the color membrane substrates making, can after making laterally black Matrix Pattern or vertically deceiving Matrix Pattern, make at least a look resistance layer figure so, then make the black Matrix Pattern of other direction, make again remaining look resistance layer figure.

At this moment, among the step S402, utilize insulating material to make look resistance layer figure, specifically comprise:

Utilize insulating material to make in red color resistance, the resistance of green look and the blue look resistance figure one or both;

After step S403, also comprise:

Utilize other look resistance layer figure in insulating material making red color resistance, the resistance of green look and the blue look resistance figure.

That is, can make the resistance of red color resistance, green look and blue look resistance layer figure after, make the black matrix of other direction by conductive material; Perhaps

Behind in making red color resistance, the resistance of green look and the blue look resistance layer figure one or both, by the black matrix of conductive material making other direction, make again other look resistance layer figure in red color resistance, the resistance of green look and the blue look resistance layer figure.

Better, between step S402 and step S403, also comprise: carry out the making of flatness layer and/or common electrode layer, wherein, flatness layer and/or common electrode layer have pattern, flatness layer and/or common electrode layer are dodged out the position that the touch-control electrode is connected with conducting resinl, the figuratum flatness layer of tool is dodged out position that the touch-control electrode is connected with conducting resinl can be so that the touch-control electrode has sufficient space with conducting resinl to be connected, and the figuratum common electrode layer of tool is dodged out position that the touch-control electrode is connected with conducting resinl and can be avoided the common electrode layer to contact with touch-control electrode or conducting resinl short circuit occurring.

Although described the preferred embodiments of the present invention, in a single day those skilled in the art get the basic creative concept of cicada, then can make other change and modification to these embodiment.So claims are intended to all changes and the modification that are interpreted as comprising preferred embodiment and fall into the scope of the invention.

Obviously, those skilled in the art can carry out various changes and modification to the present invention and not break away from the spirit and scope of the present invention.Like this, if of the present invention these are revised and modification belongs within the scope of claim of the present invention and equivalent technologies thereof, then the present invention also is intended to comprise these changes and modification interior.

Claims

1. a black matrix is characterized in that, comprising:

Laterally black Matrix Pattern and vertical Matrix Pattern of deceiving by the conductive material making, each laterally black Matrix Pattern or vertically black Matrix Pattern consist of a touch-control electrode, perhaps at least two adjacent laterally black Matrix Patterns or vertically black Matrix Pattern consist of a touch-control electrode;

Described laterally black Matrix Pattern and the different layer of described vertical black Matrix Pattern arrange, and laterally deceive Matrix Pattern and vertically be provided with the look resistance layer between the black Matrix Pattern described, and by described look resistance layer figure insulation.

2. black matrix as claimed in claim 1 is characterized in that, laterally the material of black Matrix Pattern and described vertically black Matrix Pattern is specially:

Be doped with the polymeric matrix of nano metal material; Perhaps

Be doped with the polymeric matrix of compound conductive doped material; Perhaps

Conductive polymer material; Perhaps

Metal material.

3. black matrix as claimed in claim 2 is characterized in that, laterally the material of black Matrix Pattern and described vertically black Matrix Pattern is specially:

Be doped with the polymeric matrix of electrical-conductive nanometer particle or electrical-conductive nanometer silk.

4. black matrix as claimed in claim 3 is characterized in that, laterally the material of black Matrix Pattern and described vertically black Matrix Pattern is specially:

Be doped with the polymeric matrix of nano silver particles.

5. black matrix as claimed in claim 3 is characterized in that, in the described polymeric matrix that is doped with electrical-conductive nanometer particle or electrical-conductive nanometer silk, the doping composition account for polymeric matrix quality 5% ~ 70%.

6. black matrix as claimed in claim 1 is characterized in that, and is described at horizontal black Matrix Pattern with vertically be provided with the look resistance layer between the black Matrix Pattern, is specially:

Be provided with at least a in red color resistance, the resistance of green look, the resistance of blue look between described laterally black Matrix Pattern and the described vertically black Matrix Pattern.

7. a display base plate is characterized in that, is provided with arbitrary described black matrix such as claim 1-6 in the viewing area of described display base plate.

8. display base plate as claimed in claim 7 is characterized in that, described display base plate is color membrane substrates; This color membrane substrates also comprises:

The frame conducting resinl is connected with described touch-control electrode, is used for connecting described touch-control electrode is connected touch-control drive integrated circult chip IC with array base palte touching signals line.

9. display base plate as claimed in claim 7 is characterized in that, described display base plate also comprises the lightproof area that is positioned at the outside, described viewing area;

Described lightproof area is normal black viewing area and/or black tape backlight zone.

10. display base plate as claimed in claim 9 is characterized in that,

To the display base plate based on normal black pattern, pixel electrode and the voltage difference between the common electrode in the described normal black viewing area are zero;

To the display base plate based on normal white mode, pixel electrode and the voltage difference between the common electrode in the described normal black viewing area reach maximum.

11. display base plate as claimed in claim 8 is characterized in that, described frame conducting resinl is black conductive glue.

12. display base plate as claimed in claim 8 is characterized in that, also comprises:

The figuratum common electrode layer of the figuratum flatness layer of tool and/or tool, the figuratum common electrode layer of the figuratum flatness layer of described tool and/or tool and described laterally black Matrix Pattern, vertically black Matrix Pattern and the insulation of described frame conducting resinl.

13. display base plate as claimed in claim 7 is characterized in that, also comprises:

The outer rim that is used for shading is arranged on by described laterally black Matrix Pattern and/or the vertical end place of the touch-control electrode that consists of of black Matrix Pattern.

14. a display device is characterized in that, comprises arbitrary described display base plate such as claim 7-13.

15. a display base plate method for making is characterized in that, comprising:

Utilize insulating material to make look resistance layer figure;

16. method as claimed in claim 15 is characterized in that, described display base plate is color membrane substrates; Described method for making also comprises:

Make the frame conducting resinl at the color membrane substrates edge, described frame conducting resinl is connected with described touch-control electrode, is used for connecting described touch-control electrode is connected touch-control drive integrated circult chip IC with array base palte touching signals line.

17. method as claimed in claim 16 is characterized in that, the material of described laterally black Matrix Pattern and described vertically black Matrix Pattern is specially:

Be doped with the polymeric matrix of nano metal material; Perhaps

Conductive polymer material; Perhaps

Metal material.

18. method as claimed in claim 15 is characterized in that, the described insulating material that utilizes is made look resistance layer figure, specifically comprises:

Utilize insulating material to make successively red color resistance, the resistance of green look and blue look resistance figure.

19. method as claimed in claim 15 is characterized in that, the described insulating material that utilizes is made look resistance layer figure, specifically comprises: utilize insulating material to make in red color resistance, the resistance of green look and the blue look resistance figure one or both;

Make vertically black Matrix Pattern by conductive material or laterally after the step of black Matrix Pattern, also comprise described: utilize insulating material to make other look resistance layer figure in red color resistance, the resistance of green look and the blue look resistance figure.

20. method as claimed in claim 15 is characterized in that, also comprises:

Carry out the making of flatness layer and/or common electrode layer; Described flatness layer and/or common electrode layer have pattern, and described flatness layer and/or common electrode layer are dodged out the position that the touch-control electrode is connected with conducting resinl.