CN106896596A - A kind of IPS panels of antiradar reflectivity - Google Patents

Abstract

The present invention relates to technical field of display panel, specifically disclose a kind of IPS panels of antiradar reflectivity, including the upper polaroid, color filter, liquid crystal layer, array driving plate, the down polaroid that are set gradually from top surface to bottom surface, the liquid crystal layer is closed by the sealing frame glue'', and the color filter is provided with glass substrate layer, matrix color blocking layer, insulating barrier and conducting ito layers.Carry out an invention offer a kind of antiradar reflectivity IPS panels, conducting ito layers are located between matrix color blocking layer and insulating barrier or between insulating barrier and liquid crystal layer, about 40 times of reflected light decrease is even lower compared to existing technology, significantly enhances readability under the high light of panel；Setting conducting medium is in the sealing frame glue'', effectively derive the residual electrostatic or external electrical field of the conducting ito layers to array driving plate, and save the conductive silver paste for being located at panel periphery in the prior art, it is then more firm in structure, can more effectively maintain whole display screen in frame black, realize more beautiful outward appearance.

Description

A kind of IPS panels of antiradar reflectivity

Technical field

The present invention relates to technical field of display panel, more particularly to a kind of antiradar reflectivity IPS panels.

Background technology

With the development of technology, requirement more and more higher of the consumer to display screen, particularly in outward appearance and performance, outward See, performance has become the key factor that consumer buys display screen application product.As the first boundary of user interactive Face, display screen is the window that user operates and interact with consumer products, and for indoor and outdoor type application product, consumer will It is asked under highlighted luminous environment, can also accomplish high-contrast, high-resolution rate etc., while also pursuing mask integration attractive in appearance.Drop Low screen reflection rate can increase readability of the product under each visual angle, can effectively maintain whole display screen to be melted into frame again Black, realizes more beautiful outward appearance.And as the optimal IPS display panels in visual angle, to solve static electric field influence, generally in coloured silk Color optical filtering plate surface can additionally increase by one layer of electroconductive ITO film, and residual electrostatic or external electrical field are drawn out into connecing for array driving plate Location, but refractive index and the refractive index difference of glass due to ito film is larger, and ito film forms one layer of reflecting layer, is display screen Larger reflectivity is brought, readability under the high light of product is reduced.

Regarding to the issue above, the common practices of display industry be that ITO is thinning or ITO disappears shadow, but ITO thinning technique at present Complexity, control difficulty is high, and ITO is easier to be corroded, and reliability is low, and the ITO shadows that disappear then are needed in electroconductive ITO film plating last layer AR Anti-reflection film, increases technology difficulty and product cost, and the process improving space of generally ITO is thinning or ITO disappears shadow is limited, it is impossible to have Effect reduces the state that screen reflection rate reaches user's requirement.

The content of the invention

The present invention provides a kind of IPS panels of antiradar reflectivity, solves and for conducting ito layers to be located at matrix color blocking layer with insulation Reduce the emissivity of incident light and set conducting medium in the sealing frame glue'' to lead between layer or between insulating barrier and liquid crystal layer Go out the residual electrostatic or external electrical field of the conducting ito layers to the technical problem of array driving plate.

Be to solve above technical problem, the present invention provides a kind of IPS panels of antiradar reflectivity, including from top surface to bottom surface according to The upper polaroid of secondary setting, color filter, liquid crystal layer, array driving plate, down polaroid, the liquid crystal layer are sealed by the sealing frame glue'' Close, the color filter is provided with glass substrate layer, matrix color blocking layer, insulating barrier and conducting ito layers.

Further, the color filter be followed successively by from top surface to bottom surface the glass substrate layer, matrix color blocking layer, absolutely Edge layer, described conducting ito layers be located between the matrix color blocking layer and the insulating barrier or positioned at the insulating barrier with it is described Between liquid crystal layer.

Further, when the conducting ito layers are located between the matrix color blocking layer and the insulating barrier, the insulation The position that layer corresponds to the sealing frame glue'' is provided with the insulating barrier photoetching hole of insertion, mixed with conducting medium the sealing frame glue'' also The insulating barrier photoetching hole is filled, the conducting medium connects the conducting ito layers and the array driving plate.

Further, when the conducting ito layers are located between the insulating barrier and the liquid crystal board, the sealing frame glue'' In mixed with the conducting medium for connecting the conducting ito layers and the array driving plate.

Specifically, the bottom surface of the insulating barrier is fixed with the photoetching support column in the insertion liquid crystal board；The electroconductive ITO The bottom surface of layer is fixed with the photoetching support column in the insertion liquid crystal board.

Specifically, the conducting medium is metal ball.

Specifically, the sealing frame glue'' is located on the ground section of the array driving plate.

Specifically, liquid crystal molecule is provided with the middle part of the liquid crystal board, bottom is provided with to be fixed in the array driving plate LC driving electrode.

Specifically, the matrix color blocking layer is provided with color color blocking and black matrix".

Specifically, the color color blocking includes intersecting equally distributed R color blockings, G color blockings and B color blockings；The black matrix" Fill the R color blockings, the space between G color blockings and B color blockings and surround the R color blockings, G color blockings and B color blockings.

A kind of IPS panels of antiradar reflectivity that the present invention is provided, by conducting ito layers be located at matrix color blocking layer and insulating barrier it Between or insulating barrier and liquid crystal layer between, reflected light by after matrix color blocking layer or matrix color blocking layer, insulating barrier, compared to existing technology Conducting ito layers are located in color filter, reflected light weakens about 40 times, significantly enhance readability under the high light of panel； The residual electrostatic or external electrical field that setting conducting medium derives the conducting ito layers in the sealing frame glue'', effectively drive to array Dynamic plate, and conductive silver paste in the prior art located at panel periphery is saved, it is then more firm in structure, can more effectively maintain Whole display screen realizes more beautiful outward appearance in frame black；Or ITO thinning compared to ITO disappears shadow, and technique is simpler, controllable Property it is high, to the reduction of the thickness requirements of conducting ito layers, by increasing capacitance it is possible to increase thickness maintains reliability higher, reducing the base of reflectivity Reliability high is remained in that on plinth, with economic benefit higher.

Brief description of the drawings

Fig. 1 is vertical under noresidue electrostatic or external electrical field effect Traditional IP S panels provided in an embodiment of the present invention Sectional view；

Fig. 2 is vertical in the case where having residual electrostatic or external electrical field effect Traditional IP S panels provided in an embodiment of the present invention Sectional view；

Fig. 3 is the illumination schematic diagram of the color filter in Fig. 2 provided in an embodiment of the present invention；

Fig. 4 is the vertical section figure of the IPS panels of the first type antiradar reflectivity provided in an embodiment of the present invention；

Fig. 5 is the illumination schematic diagram of the color filter in Fig. 4 provided in an embodiment of the present invention；

Fig. 6 is the top view of the matrix color blocking layer in Fig. 5 provided in an embodiment of the present invention；

Fig. 7 is the vertical section figure of the IPS panels of Second-Type antiradar reflectivity provided in an embodiment of the present invention.

Specific embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation is described.It is only below preferred embodiment, does not constitute limiting the scope of the invention.

It is vertical section figure of the Traditional IP S panels provided in an embodiment of the present invention under without external electrical field referring to Fig. 1, ginseng See Fig. 2, be vertical section figure of the Traditional IP S panels provided in an embodiment of the present invention in the case where there is external electrical field.Traditional IP S panels, Upper polaroid 1, color filter 2, liquid crystal layer 3, array driving plate 4, down polaroid 5 are sequentially provided with from top surface to bottom surface, will be led Electric ITO layer 6 is located on color filter 2, and is the reason for set conducting ito layers 6：

The liquid crystal layer 3 is closed by the sealing frame glue'' 7, and due to the requirement of IPS Display Techniques, liquid crystal molecule 31 need to keep doing level Ordered state, when routinely using, liquid crystal does in face under the voltage of LC driving electrode 32 and rotates.But when color filter 2 has When residual electrostatic or external electrical field effect (E represents electric field line in figure), such as Fig. 2, liquid crystal molecule can be misused change and tilt shape by electric field State, causes obvious picture exception, and such as contrast declines, black picture turns white, referring again to Fig. 1, in order to solve the problem, then Balance electricity or external electrical field are guided to by the ground terminal of array driving plate 4 by the conductive silver paste 8 located at panel periphery, to maintain liquid crystal Top prevents picture exception always situated in zero potential.

In Fig. 1, the color filter 2 be sequentially provided with from top surface to bottom surface glass substrate layer 21, matrix color blocking layer 22, Insulating barrier 23, due to conducting ito layers 6 and the refractive index difference of color filter 2, in extraneous light receiving surface plate, such as Fig. 3 is formed Reflection and refraction, it is known that reflectivity computing formula(the refractive index n1 of conducting ito layers 6, the refractive index of glass N2), and the known conducting ito layers refractive index about 2.0 or so, the upper polaroid 1 (glass) refractive index about 1.5, in face The optical reflection of 0.25/12.25 ≈ 2% is formed on plate, the reflectivity is still fallen within than larger scope, can under the high light of product The property read is than relatively low.

Regarding to the issue above, the display general way of industry be that ITO is thinning or ITO disappears shadow, but ITO thinning technique at present Complexity, control difficulty is high, and ITO is easier to be corroded, reliability reduction, and the ITO shadow shadows that disappear that disappear then are needed on electroconductive ITO film 6 Plating last layer AR anti-reflection films, increase technology difficulty and product cost, the process improving space of generally ITO is thinning or ITO disappears shadow It is limited, it is impossible to effectively to reduce the state that screen reflection rate reaches user's requirement.

In order to solve the above problems, a kind of IPS panels of antiradar reflectivity are the embodiment of the invention provides, Fig. 4 is the present invention The vertical section figure of the IPS panels of the first type antiradar reflectivity that embodiment is provided, during Fig. 5 is Fig. 4 provided in an embodiment of the present invention Color filter 2 illumination schematic diagram, Fig. 6 is the top view of the matrix color blocking layer in Fig. 5 provided in an embodiment of the present invention.With Fig. 1 is similar, and the IPS panels are sequentially provided with upper polaroid 1, color filter 2, liquid crystal layer 3, array driving plate from top surface to bottom surface 4th, down polaroid 5, the color filter 2 is sequentially provided with glass substrate layer 21, matrix color blocking layer 22, insulation from top surface to bottom surface Layer 23, the conducting ito layers 24 are (corresponding to 6 in Fig. 1, in order to represent that it is located in the color filter 2, using new Mark) just it is located between the matrix color blocking layer 22 and the insulating barrier 23.The insulating barrier 23 corresponds to the sealing frame glue'' 7 Position be provided with the insulating barrier photoetching hole 27 of insertion, the sealing frame glue'' 7 mixed with such as metal ball of conducting medium 37 also fills up institute Insulating barrier photoetching hole 27 is stated, the conducting medium 37 connects the conducting ito layers 24 with the array driving plate 4；The insulation The bottom surface of layer 23 is fixed with the photoetching support column 233 in the insertion liquid crystal layer 3.

Need explanation：

The sealing frame glue'' 7 is located on the ground section 41 of the array driving plate 4, by conducting ito layers 24=>Insulating barrier Photoetching hole 27=>Conducting medium 37=>The ground section 41 of array driving plate 4, forms a zero potential screen layer, effectively prevents liquid Crystalline substance is disturbed by external electrical field；

The middle part of the liquid crystal layer 3 is provided with liquid crystal molecule 31, and bottom is provided with the liquid crystal being fixed in the array driving plate 4 Driving electrodes 32；

The matrix color blocking layer 22 is provided with color color blocking 221 and black matrix" 222；The color color blocking 221 includes intersecting Equally distributed R color blockings, G color blockings and B color blockings；The black matrix" 222 fills the R color blockings, between G color blockings and B color blockings Space simultaneously surrounds the R color blockings, G color blockings and B color blockings, sees Fig. 5.

Reflectivity is analyzed, the conducting ito layers 24 are placed to the matrix color blocking layer below 22, because color The penetrance of color blocking 221 is about 30%, and the penetrance of black matrix" 222 is 0, color color blocking 221 and the face ratio of black matrix" 222 Close to 1:1, then the light of color color blocking 221 and black matrix" 222 is have passed through, the light quantity that enters into the conducting ito layers 24 is changed into About 50%*30%=15%, only original 15%, reflected light also passes through the matrix color blocking layer 22, similarly, described Conducting ito layers 24 reflect back and derive the light of panel also only original 15% or so ratio, be changed into 15%*15%= 22.5 ‰ ≈ 1/40, the reflection light about the 1/40 of Fig. 3 brought by electroconductive ITO, reflected light weakens about 40 times, if with reference to Fig. 3 2% for calculating, passes through the light reflexed to outside the color filter 2 to the conducting ito layers 24 and is changed into former incident ray 2%*15%*15%=0.45 ‰, from the point of view of theory, the reflected light of the conducting ito layers 24 is completely blocked substantially, reduces The reflectivity brought by former conducting ito layers 6, significantly enhances readability under the high light of panel.

Except by the conducting ito layers 24 just located at the black matrix" 222 and 221 layer 22 of color color blocking and the insulation Between layer 23, such as Fig. 7 is the vertical section figure of the IPS panels of Second-Type antiradar reflectivity provided in an embodiment of the present invention, can be with The conducting ito layers 24 are located between the insulating barrier 23 and the liquid crystal layer 3, in this way, comparison diagram 7 and Fig. 4, the insulation Layer 23 no longer sets the insulating barrier photoetching hole 27, because the conducting ito layers 24 directly connect with the array driving plate 4 Touch, certainly including its ground section 41 described in the array driving plate 4, it is only necessary in the sealing frame glue'' 7 when encapsulation The middle conducting medium 37 such as metal ball, also one difference for mixing the connection conducting ito layers 24 and the array driving plate 4 It is not bottom surface that the photoetching support column 233 in Fig. 4 is now secured to the conducting ito layers 24, inserts the liquid crystal layer 3 In.The IPS panels of the first type antiradar reflectivity provided compared to Fig. 4, this IPS panels reduce the technique of insulating barrier photoetching hole 27, Few a set of Mask (light shield), can effectively reduce processing procedure cost, and incident ray also have passed through one when reaching the conducting ito layers 24 Layer insulating 23, reflectivity is lower in theory, is substantially negligible and disregards, but because conducting ito layers 24 may be straight with liquid crystal Contact, there are the possibility of control unknown risks, at present for, the IPS panels of the first type antiradar reflectivity are in structure and performance It is more stable.But, either the first type or Second-Type, can increase thickness to maintain the reliability higher of panel, right The thickness requirement reduction of conducting ito layers, is maintained to reliability high, with warp higher on the basis of reflectivity is reduced Ji benefit.

The above is the preferred embodiment of the present invention, it is noted that for those skilled in the art For, under the premise without departing from the principles of the invention, some improvements and modifications can also be made, these improvements and modifications are also considered as Protection scope of the present invention.

Claims (10)

1. the IPS panels of a kind of antiradar reflectivity, including upper polaroid, color filter, the liquid set gradually from top surface to bottom surface Crystal layer, array driving plate, down polaroid, the liquid crystal layer are closed by the sealing frame glue'', it is characterised in that the color filter sets There are glass substrate layer, matrix color blocking layer, insulating barrier and conducting ito layers.

2. IPS panels of a kind of antiradar reflectivity according to claim 1, it is characterised in that：The color filter is from top Face is followed successively by the glass substrate layer, matrix color blocking layer, insulating barrier to bottom surface, and the conducting ito layers are located at the matrix color blocking Between layer and the insulating barrier or between the insulating barrier and the liquid crystal layer.

3. IPS panels of a kind of antiradar reflectivity according to claim 2, it is characterised in that：When the conducting ito layers are located at When between the matrix color blocking layer and the insulating barrier, the position that the insulating barrier corresponds to the sealing frame glue'' is provided with insertion Insulating barrier photoetching hole, the sealing frame glue'' mixed with conducting medium also fills up the insulating barrier photoetching hole, and the conducting medium connects Lead to the conducting ito layers and the array driving plate.

4. IPS panels of a kind of antiradar reflectivity as claimed in claim 2, it is characterised in that：When the conducting ito layers are located at institute State when between insulating barrier and the liquid crystal board, driven with the array mixed with the connection conducting ito layers in the sealing frame glue'' The conducting medium of plate.

5. IPS panels of a kind of antiradar reflectivity as described in claim 3 or 4, it is characterised in that：The bottom surface of the insulating barrier is consolidated Surely there is the photoetching support column in the insertion liquid crystal board；The bottom surface of the conducting ito layers is fixed with the insertion liquid crystal board Photoetching support column.

6. IPS panels of a kind of antiradar reflectivity as described in claim 3 or 4, it is characterised in that：The conducting medium is metal Ball.

7. IPS panels of a kind of antiradar reflectivity as described in claim 3 or 4, it is characterised in that：The sealing frame glue'' is located at institute State on the ground section of array driving plate.

8. IPS panels of a kind of antiradar reflectivity as described in claim 3 or 4, it is characterised in that：Set in the middle part of the liquid crystal board There is liquid crystal molecule, bottom is provided with the LC driving electrode being fixed in the array driving plate.

9. IPS panels of a kind of antiradar reflectivity as described in claim 3 or 4, it is characterised in that：The matrix color blocking layer is provided with Color color blocking and black matrix".

10. IPS panels of a kind of antiradar reflectivity as claimed in claim 9, it is characterised in that：The color color blocking includes intersecting Equally distributed R color blockings, G color blockings and B color blockings；The black matrix" fills the R color blockings, the space between G color blockings and B color blockings And surround the R color blockings, G color blockings and B color blockings.