CN110515253A - A kind of superstructure and preparation method thereof of color electric ink display screen - Google Patents

Abstract

The invention discloses a kind of superstructures and preparation method thereof of color electric ink display screen, are related to electric ink display screen manufacturing field.Including optical waveguide layer, flatness layer, filter layer, protective layer and the transparent electrode layer set gradually, in which: the optical waveguide layer includes transparent substrate, and setting is in the scattering point of array distribution over the transparent substrate；The flatness layer is covered in above the scattering point of the optical waveguide layer, and the pit between adjacent scattering point is filled and led up, keeps optical waveguide layer smooth；The filter layer is covered in above the optical waveguide layer；The protective layer is covered in above the filter layer；The transparent electrode layer is set to above the protective layer.Solving the problems, such as conventional electronic ink display screen, caused general thickness is excessively high since multilayer adheres to, to evade colour cast, low color saturation, be not easy to reach the bottlenecks such as high-resolution.

Description

A kind of superstructure and preparation method thereof of color electric ink display screen

Technical field

The present invention relates to electric ink display screen manufacturing field, in particular to a kind of upper layer of color electric ink display screen Structure and preparation method thereof.

Background technique

The screen structure that existing color electric ink is shown is made in such a way that multilayer is sequentially superimposed: firstly, production is driven Moving-wire waypoint battle array substrate sticks electric ink diaphragm in the driving pixel of dot matrix substrate, completes the electronic paper display module of black and white； Secondly, colored filter is superimposed on above electric ink diaphragm, completing coloration process specifically can be in electric ink Direct spray printing above diaphragm, or colored filter is made on glass or plastic basis material, then this substrate is fitted in into electronics On ink capsules, reach colorization effect.Since colored filter and electric ink diaphragm are there are certain thickness, color is easily caused Partially, low color saturation, be not easy to reach the bottlenecks such as high-resolution.And since electronic-paper display screen is reflective viewing screen, for the ease of Round-the-clock use, it is necessary to be further added by front light-source, such multilayer adhesion arrangement can allow integral thickness higher.

Summary of the invention

It is an object of the invention to: a kind of superstructure and preparation method thereof of color electric ink display screen is provided, Solve the problems, such as conventional electronic ink display screen due to multilayer adhere to caused by general thickness it is excessively high, thus evaded colour cast, Low color saturation is not easy to reach the bottlenecks such as high-resolution.

The technical solution adopted by the invention is as follows:

A kind of superstructure of color electric ink display screen, including set gradually optical waveguide layer, flatness layer, filter layer, Protective layer and transparent electrode layer, in which:

The optical waveguide layer includes transparent substrate, and setting is in the scattering point of array distribution over the transparent substrate；

The flatness layer is covered in above the scattering point of the optical waveguide layer, and the pit between adjacent scattering point is filled and led up, makes to lead Photosphere is smooth；

The filter layer is covered in above the optical waveguide layer；

The protective layer is covered in above the filter layer；

The transparent electrode layer is set to above the protective layer.

The present invention will be fabricated separately the light guide plate of transparent electrode layer, filter layer and front light-source in conventional electronic ink display screen Three is integrated, and is produced in same transparent substrate by yellow light stack technology, is avoided overall caused by multilayer adherency The excessively high problem of thickness.And transparent electrode layer is directly made on filter layer, make its thickness control in 2um hereinafter, greatly dropping Low general thickness between filter layer and electronic ink layer, the phenomenon that having prevented colour cast completely.It may make the drive of substrate in this way Moving cell can be designed smaller with filter unit, then cooperate high-resolution electric ink, reach the mesh for improving resolution Ground and it is able to achieve the effect that full view is shown.And the light guide plate three of transparent electrode layer, filter layer and front light-source is integrated, it can The efficiency of production is greatly improved, process is reduced, cost is reduced.

It is noted that if when filter layer using minus photoresist or sprayed on material or other inherently there is flowing When the material of characteristic, filter layer can be directly covered on the scattering point, directly fill and lead up the pit between adjacent scattering point, Then directly filter layer can be covered on optical waveguide layer, to omit flatness layer.

Further, the transparent substrate of the optical waveguide layer can be used the high material of light transmittance, including but not limited to glass or Acrylic or PET or PEN or TAC.

Further, the filter layer is on flatness layer using the photoresist array of RGB three coloured light resistance production RGBW.

The present invention adds colorless and transparent unit using red (R), green (G), the resistance of blue (B) three coloured light, convert thereof into R, G, Four coloured light of B and W hinder array.Wherein, W refers to Transparent color in the present invention.

Further, ITO including but not limited to or IZO or grapheme material can be used in the transparent electrode layer, or Nano silver material.

In order to obtain the superstructure of above-mentioned color electric ink display screen, a kind of color electric ink display screen upper layer knot The production method of structure, comprising steps of

S1: the high transparent substrate of selected light transmittance；

S2: production is in the scattering point of array distribution on one of side of transparent substrate, completes optical waveguide layer production；

S3: making flatness layer above the scattering point of optical waveguide layer, and the pit between adjacent scattering point is filled and led up, optical waveguide layer is made It is smooth；

S4: making filter layer on flatness layer, i.e., the photoresist battle array of RGB three coloured light resistance production RGBW is used on flatness layer Column；

S5: the protective mulch on filter layer, filter layer is fully enclosed, keep filter layer smooth；

S6: transparent electrode layer is made on the protection layer.

Further, scattering point described in the S2 completes system using the technique of including but not limited to laser, or engraving Make.

Further, filter layer described in the S4, using including but not limited to exposure development or inkjet printing and hot pressing The mode of transfer completes the production.

In conclusion by adopting the above-described technical solution, the beneficial effects of the present invention are:

1. a kind of superstructure and preparation method thereof of color electric ink display screen of the present invention, passes through yellow light lamination skill Art, will be fabricated separately in conventional electronic ink display screen the light guide plate three of transparent electrode layer, filter layer and front light-source combined into One, it is produced in same transparent substrate, avoids the excessively high problem of general thickness caused by multilayer adheres to.Generally, pole The big general thickness for reducing electric ink display screen reduces light and penetrates consume, improves color saturation.

2. a kind of superstructure and preparation method thereof of color electric ink display screen of the present invention, transparent electrode layer, optical filtering Three kinds of structures of light guide plate of layer and front light-source integrate, and improve production efficiency, reduce production process, greatly reduce Cost.

3. a kind of superstructure and preparation method thereof of color electric ink display screen of the present invention, may make the driving of substrate Unit can be designed smaller with filter unit, then cooperate high-resolution electric ink, with reaching the mesh for improving resolution And it is able to achieve the effect that full view is shown.

Detailed description of the invention

Examples of the present invention will be described by way of reference to the accompanying drawings, in which:

Fig. 1 is the superstructure schematic diagram of color electric ink display screen of the invention；

Fig. 2 is color electric ink display screen schematic diagram of the invention；

In figure, 1- optical waveguide layer, 2- flatness layer, 3- filter layer, 4- protective layer, 5- transparent electrode layer, 6- scattering point, 7- electronics Ink layer, 8- array substrate, 9-LED light source, 10- waterproof gasket cement.

Specific embodiment

All features disclosed in this specification or disclosed all methods or in the process the step of, in addition to mutually exclusive Feature and/or step other than, can combine in any way.

It should be noted that the relational terms of term " first " and " second " or the like be used merely to an entity or Operation is distinguished with another entity or operation, and without necessarily requiring or implying between these entities or operation, there are any This actual relationship or sequence.Moreover, the terms "include", "comprise" or its any other variant be intended to it is non-exclusive Property include so that include a series of elements process, method, article or equipment not only include those elements, but also Further include other elements that are not explicitly listed, or further include for this process, method, article or equipment it is intrinsic Element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including described There is also other identical elements in the process, method, article or equipment of element.

It elaborates below with reference to Fig. 1, Fig. 2 to the present invention.

Embodiment 1

A kind of superstructure of color electric ink display screen, as shown in Figure 1 and Figure 2, including set gradually optical waveguide layer 1, Flatness layer 2, filter layer 3, protective layer 4 and transparent electrode layer 5, in which:

The optical waveguide layer 1 includes transparent substrate, and setting is in the scattering point 6 of array distribution over the transparent substrate；

The flatness layer 2 is covered in 6 top of scattering point of the optical waveguide layer 1, and the pit between adjacent scattering point 6 is filled and led up, Keep optical waveguide layer 1 smooth；

The filter layer 3 is covered in 1 top of optical waveguide layer；

The protective layer 4 is covered in 3 top of filter layer；

The transparent electrode layer 5 is set to 4 top of protective layer.

The present invention will be fabricated separately the leaded light of transparent electrode layer 5, filter layer 3 and front light-source in conventional electronic ink display screen Plate three is integrated, and is produced in same transparent substrate by yellow light stack technology, is avoided total caused by multilayer adherency The excessively high problem of body thickness.And transparent electrode layer 5 is made directly on filter layer 3, make its thickness control in 2um hereinafter, greatly The general thickness reduced between filter layer 3 and electronic ink layer, the phenomenon that having prevented colour cast completely.It may make substrate in this way Driving unit can be designed smaller with filter unit, then cooperate high-resolution electronic capsule, reach raising resolution Mesh and be able to achieve the effect that full view is shown.And the light guide plate three of transparent electrode layer 5, filter layer 3 and front light-source close and It is one, the efficiency of production can be greatly improved, reduces process, reduce cost.

Embodiment 2

The present embodiment is the supplementary explanation of embodiment 1.

When filter layer 3 uses minus photoresist or sprayed on material or other inherently have the material of flow behavior, filter Photosphere 3 can be directly covered on the scattering point 6, directly fill and lead up the pit between adjacent scattering point 6, then can directly by Filter layer 3 is covered on optical waveguide layer 1, to omit flatness layer 2.

Embodiment 3

The present embodiment is the supplementary explanation of embodiment 1.

The transparent substrate of the optical waveguide layer 1 can be used the high material of light transmittance, including but not limited to glass or acrylic, Or PET or PEN or TAC.It can be flexible or rigid material.

Embodiment 4

The present embodiment is the supplementary explanation of embodiment 1.

ITO including but not limited to or IZO or grapheme material or nano silver material can be used in the transparent electrode layer 5 Material.

Embodiment 5

It is in place of the present embodiment and the difference of embodiment 1:

As shown in Fig. 2, when electronic ink layer electric ink capsule use multiple color charged particle, that is, include but When being not limited to black and white is red, black and white is yellow three color Electronic Papers or four kinds and four kinds or more the full-color Electronic Paper of charged particle, the present invention Signified superstructure is the optical waveguide layer 1 set gradually, flatness layer 2 and transparent electrode layer 5.

Wherein, optical waveguide layer 1 includes transparent substrate, and setting is in the scattering point 6 of array distribution over the transparent substrate；It is described Flatness layer 2 is covered in 6 top of scattering point of the optical waveguide layer 1, and the pit between adjacent scattering point 6 is filled and led up, keeps optical waveguide layer 1 flat It is whole；The covering transparent electrode layer 5 on flatness layer 2.

Further, the knot of optical waveguide layer 1, flatness layer 2 and transparent electrode layer 5 also can be used in black and white electric ink display screen Structure.

Embodiment 6

A kind of production method of color electric ink display screen superstructure, comprising steps of

S1: the high transparent substrate of selected light transmittance；

S2: production is in the scattering point 6 of array distribution on one of side of transparent substrate, completes optical waveguide layer 1 and makes；

S3: flatness layer 2 is made above the scattering point 6 of optical waveguide layer 1, the pit between adjacent scattering point 6 is filled and led up, makes to lead Photosphere 1 is smooth；

S4: making filter layer 3 on flatness layer 2, i.e., the photoresist of RGB three coloured light resistance production RGBW is used on flatness layer 2 Array；

S5: the protective mulch 4 on filter layer 3, filter layer 3 is fully enclosed, keep filter layer 3 smooth；

S6: transparent electrode layer 5 is made on protective layer 4.

Embodiment 7

The present embodiment is the supplementary explanation of embodiment 6.

Scattering point 6 described in the step S2 is completed the production using the technique of including but not limited to laser, or engraving.

Filter layer 3 described in the step S4, using including but not limited to exposure development or inkjet printing and hot-pressing transfer printing Mode complete the production.

Embodiment 8

As shown in Fig. 2, a kind of production method of color electric ink display screen, makes electronic ink in array substrate first Then superstructure contraposition of the invention is pressed and is solidified by water layer, then after having pasted LED light source, using waterproof sealing glue point Color electric ink display screen is made in the mode of glue encapsulation.

Embodiment 9

The present embodiment and embodiment 8 the difference is that:

The transparent electrode material layer of conditional electronic paper membrane piece can be substituted by superstructure of the invention, first with traditional handicraft Electronic Paper diaphragm is made, superstructure of the invention is replaced with into existing universal transparent electrode material layer, color electric is made Ink display screen diaphragm, then it is cut into the size of needs, in a manner of aligning fitting, pastes in array substrate, make its picture element Unit corresponds up and down, color electric paper display screen is made, then after having pasted LED light source, is sealed using waterproof gasket cement dispensing Color electric ink display screen is made in the mode of dress.

Further, due to not having a filter layer 3, full-color electronic ink screen or black and white electric ink display screen are directly and LED Light source pastes, then color electric ink display screen is made by the way of waterproof gasket cement glue dispensing and packaging.

The above, only the preferred embodiment of the present invention, but scope of protection of the present invention is not limited thereto, it is any Those skilled in the art within the technical scope disclosed by the invention, can without the variation that creative work is expected or Replacement, should be covered by the protection scope of the present invention.Therefore, protection scope of the present invention should be limited with claims Subject to fixed protection scope.

Claims (7)

1. a kind of superstructure of color electric ink display screen, it is characterised in that: including the optical waveguide layer (1), flat set gradually Smooth layer (2), filter layer (3), protective layer (4) and transparent electrode layer (5), in which:

The optical waveguide layer (1) includes transparent substrate, and setting is in the scattering point (6) of array distribution over the transparent substrate；

The flatness layer (2) is covered in above the scattering point (6) of the optical waveguide layer (1), and the pit between adjacent scattering point (6) is filled out It is flat, keep optical waveguide layer (1) smooth；

The filter layer (3) is covered in above the optical waveguide layer (1)；

The protective layer (4) is covered in above the filter layer (3)；

The transparent electrode layer (5) is set to above the protective layer (4).

2. a kind of superstructure of color electric ink display screen according to claim 1, it is characterised in that: the leaded light The transparent substrate of layer (1) can be used the high material of light transmittance, including but not limited to glass or acrylic or PET or PEN or TAC。

3. a kind of superstructure of color electric ink display screen according to claim 1, it is characterised in that: the optical filtering Layer (3) is on flatness layer using the photoresist array of RGB three coloured light resistance production RGBW.

4. a kind of superstructure of color electric ink display screen according to claim 1, it is characterised in that: described transparent Including but not limited to ITO or IZO or grapheme material or nano silver material can be used in electrode layer (5).

5. a kind of production method of color electric ink display screen superstructure, which is characterized in that comprising steps of

S1: the high transparent substrate of selected light transmittance；

S2: production is in the scattering point (6) of array distribution on one of side of transparent substrate, completes optical waveguide layer (1) production；

S3: making flatness layer (2) above the scattering point (6) of optical waveguide layer (1), the pit between adjacent scattering point (6) filled and led up, Keep optical waveguide layer (1) smooth；

S4: making filter layer (3) on flatness layer (2), i.e., the light of RGB three coloured light resistance production RGBW is used on flatness layer (2) Hinder array；

S5: the protective mulch (4) on filter layer (3), filter layer (3) is fully enclosed, keep filter layer (3) smooth；

S6: transparent electrode layer (5) are made on protective layer (4).

6. a kind of production method of color electric ink display screen superstructure according to claim 5, it is characterised in that: Scattering point described in the S2 (6) is completed the production using the technique of including but not limited to laser, or engraving.

7. a kind of production method of color electric ink display screen superstructure according to claim 5, it is characterised in that: Filter layer described in the S4 (3) is completed using the including but not limited to mode of exposure development or inkjet printing and hot-pressing transfer printing Production.