CN101806983B - Preparation method of flexible color display medium module - Google Patents

Abstract

The invention relates to a display panel and a preparation method of a flexible color display medium module thereof. The preparation method of the flexible color display medium module comprises the following steps: firstly, forming a flexible substrate on a rigid substrate, secondly form a plurality of color photoresist layers and display medium layers on the flexible substrate in turn, and finally separating the flexible substrate from the rigid substrate. As the display medium layers are directly configured on the color photoresist layers, the alignment accuracy between the display medium layers and the color photoresist layers can be improved, and the parallax phenomena caused when light passes through the display medium layers and the color photoresist layers can be reduced.

Description

The manufacture method of flexible color display medium module

Technical field

The present invention relates to a kind of manufacture method of display medium module, particularly relate to a kind of flexible color display medium module and use the manufacture method of its display panel.

Background technology

Progress along with plane display technique, more and more many electronic products are all equipped with display panel, especially portable electronic product (portable electrical product), for example mobile phone (mobile phone), e-book (e-book), digital camera (digital camera) and personal digital assistant (personal digital assistant, PDA) etc.Because portable electronic product is the trend development towards lightweight and thin thickness, so be applied in the advantage that the display panel of portable electronic product also needs to possess lightweight and thin thickness.

Hold above-mentionedly, because flexible type display panel not only has advantages of lightweight and thin thickness, also have advantages of deflection and fall not brokenly, so flexible type display panel has become the important development trend of panel industry.Current flexible type display panel is greatly mainly with electrophoretic display panel (electro-phoretic display panel, EPD panel) be main, and the manufacture method of existing known color electrophoresis display panel is first electrophoretic foil to be disposed on the substrate that is formed with active or passive element arrays, and then colored filter (color filter) group is stood in electrophoretic foil.

Yet, in the vertical process of the group of colored filter, tend to cause light to pass through after colorama resistance layer and display dielectric layer to produce parallax because the contraposition between itself and electrophoretic foil is inaccurate, and then the shown image quality of reduction display panel.

As can be seen here, above-mentioned existing flexible type display panel, in product structure, manufacture method and use, obviously still has inconvenience and defect, and is urgently further improved.In order to solve the problem of above-mentioned existence, relevant manufacturer there's no one who doesn't or isn't seeks solution painstakingly, but have no for a long time applicable design is completed by development always, and common product and method do not have appropriate structure and method to address the above problem, this is obviously the problem that the anxious wish of relevant dealer solves.The manufacture method of therefore how to found a kind of new display panel and flexible color display medium module thereof, real one of the current important research and development problem that belongs to, also becoming the current industry utmost point needs improved target.

Summary of the invention

The object of the invention is to, overcome the defect that existing flexible color display medium module exists, and provide a kind of manufacture method of new flexible color display medium module, technical matters to be solved is to make it to improve the contraposition accuracy between colorama resistance layer and display dielectric layer, is very suitable for practicality.

Another object of the present invention is to, overcome the defect that existing flexible color display medium module exists, and provide a kind of new flexible color display medium module, technical matters to be solved is the parallax effect producing after making its minimizing light by colorama resistance layer and display dielectric layer, thereby is more suitable for practicality.

A further object of the present invention is, overcome the defect of the manufacture method existence of existing display panel, and provide a kind of manufacture method of new display panel, technical matters to be solved is to make it increase the flexible color display medium module of display panel and the contraposition precision of control element array base palte, and then the technique yield of raising display panel, thereby be more suitable for practicality.

The object of the invention to solve the technical problems realizes by the following technical solutions.

For achieving the above object, the invention provides a kind of manufacture method of flexible color display medium module, it is that a rigid substrates is first provided, and then on rigid substrates, forms flexible substrate.Come again, on flexible substrate, form a plurality of colorama resistance layers, and form display dielectric layer in these colorama resistance layers, and then flexible substrate is separated with rigid substrates.

In addition, for achieving the above object, the present invention also provides a kind of manufacture method of display panel, and it is to utilize above-mentioned steps to form flexible color display medium module, and forms the control element array base palte with viewing area and periphery circuit region.Then, flexible color display medium module group is stood on to control element array base palte top, so that display dielectric layer is positioned on control element array base palte.Come again, on control element array base palte, configure one drive circuit, and this driving circuit is to be positioned at periphery circuit region.

In one embodiment of this invention, the flexible substrate method separated with rigid substrates comprised to laser separation process.

In one embodiment of this invention, before wherein forming these colorama resistance layers on above-mentioned flexible substrate, be more included in and on flexible substrate, form a light shield layer.This light shield layer has a plurality of openings, and these colorama resistance layers are to be formed in opening.

In one embodiment of this invention, also can before formation control component array baseplate, first provide one second rigid substrates, and this control element array base palte is to be formed on the second rigid substrates.After driving circuit to be formed, more comprise the second rigid substrates separated with control element array base palte.At this, it is for example to utilize laser separation process by separated from one another.

In one embodiment of this invention, above-mentioned these colorama resistance layers can comprise redness, green, blue optical filtering photoresistance.And in another embodiment, these colorama resistance layers more can comprise white optical filtering photoresistance.

In one embodiment of this invention, the material of above-mentioned flexible substrate can be pi (polyimide, PI), poly terephthalic acid diethylester (Polyethylene terephathalate, PET), polyaryletherketone (polyether ether ketone, PEEK) or Polyethylene Naphthalate (polyethylene naphthalene, PEN).

Moreover for achieving the above object, the present invention provides a kind of flexible color display medium module again, by flexible substrate, a plurality of colorama resistance layer and display dielectric layer, formed.Wherein, colorama resistance layer is to be disposed on flexible substrate, and display dielectric layer is electrophoretic foil or electric moistening thin slice, it is electrophoresis layer or electric wettable layer are disposed in two plastic substrates and obtain, this display dielectric layer is disposed in these colorama resistance layers, and directly contacts with those colorama resistance layers.

In one embodiment of this invention, above-mentioned flexible color display medium module more comprises a light shield layer, is disposed on flexible substrate.Light shield layer has a plurality of openings, and above-mentioned colorama resistance layer is to fill in these openings.

In one embodiment of this invention, above-mentioned colorama resistance layer comprises red optical filtering photoresistance, green optical filtering photoresistance and blue optical filtering photoresistance.And in another embodiment, these colorama resistance layers more can comprise white optical filtering photoresistance.

In one embodiment of this invention, the material of above-mentioned flexible substrate can be pi, poly terephthalic acid diethylester, polyaryletherketone or Polyethylene Naphthalate.

By technique scheme, the manufacture method of display panel of the present invention and flexible color display medium module thereof at least has following advantages and beneficial effect: the present invention first sequentially forms colorama resistance layer and display dielectric layer on the flexible substrate being formed on rigid substrates, just that flexible substrate is separated with rigid substrates afterwards, so the present invention can significantly promote flexible color display medium module and use technique yield and the production capacity of its display panel.And, the present invention is directly disposed at display dielectric layer in colorama resistance layer, therefore not only can improve the contraposition accuracy between display dielectric layer and colorama resistance layer, more can reduce the parallax effect that light produces after by display dielectric layer and colorama resistance layer.

In sum, the invention relates to the manufacture method of a kind of display panel and flexible color display medium module thereof.The manufacture method of this flexible color display medium module is first on rigid substrates, to form flexible substrate, then on flexible substrate, sequentially forms a plurality of colorama resistance layers and display dielectric layer, finally again that flexible substrate is separated with rigid substrates.Because display dielectric layer is to be directly configured in colorama resistance layer, therefore not only can improve the contraposition accuracy between display dielectric layer and colorama resistance layer, more can reduce the parallax effect that light produces after by display dielectric layer and colorama resistance layer.The present invention has significant progress technically, and has obvious good effect, is really a new and innovative, progressive, practical new design.

Above-mentioned explanation is only the general introduction of technical solution of the present invention, in order to better understand technological means of the present invention, and can be implemented according to the content of instructions, and for above and other object of the present invention, feature and advantage can be become apparent, below especially exemplified by preferred embodiment, and coordinate accompanying drawing, be described in detail as follows.

Accompanying drawing explanation

Figure 1A to Fig. 1 D illustrates respectively the technique diagrammatic cross-section into flexible color display medium module in one embodiment of the invention.

Fig. 2 illustrates and is formed at the diagrammatic cross-section on flexible substrate for colorama resistance layer in another embodiment of the present invention.

Fig. 3 illustrates and is formed at the diagrammatic cross-section on flexible substrate for light shield layer in another embodiment of the present invention and colorama resistance layer.

Fig. 4 A to Fig. 4 D illustrates respectively the making flow process sectional view into display panel in one embodiment of the invention.

Fig. 5 illustrates the arrangements of components schematic diagram into control element array base palte in one embodiment of the invention.

100: flexible color display medium module

110,201: rigid substrates 120: flexible substrate

130: colorama resistance layer 140: light shield layer

142: opening 150: display dielectric layer

200: display panel 210: control element array base palte

210a: viewing area 210b: periphery circuit region

212: substrate 214: pixel cell

215: sweep trace 216: data line

217: thin film transistor (TFT) 218: pixel electrode

230: driving circuit 232:IC circuit

234: flexible circuit board R: red optical filtering photoresistance

G: green optical filtering photoresistance B: blue optical filtering photoresistance

W: white optical filtering photoresistance

Embodiment

For further setting forth the present invention, reach technological means and the effect that predetermined goal of the invention is taked, below in conjunction with accompanying drawing and preferred embodiment, to the display panel proposing according to the present invention and its embodiment of manufacture method, structure, method, step, feature and the effect thereof of flexible color display medium module thereof, be described in detail as follows.

Figure 1A to Fig. 1 D illustrates as the technique of flexible color display medium module in one embodiment of the invention (be processing procedure, below be all called technique) diagrammatic cross-section.Refer to shown in Figure 1A, first on rigid substrates 110, form flexible substrate 120, wherein the material of rigid substrates 110 is for example glass or stainless steel, the material of flexible substrate 120 can be pi (polyimide, PI), poly terephthalic acid diethylester (Polyethylene terephathalate, PET), polyaryletherketone (polyether ether ketone, PEEK) or Polyethylene Naphthalate (polyethylene naphthalene, PEN).

Refer to shown in Figure 1B, then on flexible substrate 120, form a plurality of colorama resistance layers 130.It is worth mentioning that, colorama resistance layer 130 can utilize lithography technique to be made, and colorama resistance layer 130 can comprise red optical filtering photoresistance R, green optical filtering photoresistance G and blue optical filtering photoresistance B.In other embodiments, as shown in Figure 2, these colorama resistance layers 130 that are formed on flexible substrate 120 also can comprise white optical filtering photoresistance W, to improve display brightness.

And, in order to increase the contrast of display frame, and avoiding occurring the phenomenon of mixed light, the present invention can also first form light shield layer 140 in another embodiment on flexible substrate 120, as shown in Figure 3.Wherein, the material of light shield layer 140 is for example resin or other lighttight materials, and it has a plurality of openings 142, and colorama resistance layer 130 is to fill in these openings 142.

Refer to shown in Fig. 1 C, in colorama resistance layer 130, form display dielectric layer 150.In the present embodiment, display dielectric layer 150 can be electrophoretic foil (electro-phoretic plate) or electric moistening thin slice (electro-wetting plate).Specifically, display dielectric layer 150 is for example electrophoresis layer or electric wettable layer are disposed in two plastic substrates and obtain, and this electrophoresis layer can be the electrophoresis layer of micro-cup (micro-cup) type or microcapsule-type (micro-capsule), but the present invention is not as limit.

Refer to shown in Fig. 1 D, flexible substrate 120 is separated with rigid substrates 110, to form flexible color display medium module 100.Wherein, the present embodiment is with laser separation process (laser release), flexible substrate 120 is separated with rigid substrates 110.

Because the present invention is directly disposed at display dielectric layer 150 in colorama resistance layer 130, therefore can avoid the bad problem of display dielectric layer 150 and 130 contrapositions of colorama resistance layer, and reduce the parallax (parallax) that light produces because of refract light path difference when by display dielectric layer 150 and colorama resistance layer 130.

In addition, the present invention allly wants to be disposed at after the technique of all elements on flexible substrate 120 completing, just that flexible substrate 120 is separated with rigid substrates 110, thereby can significantly promote yield and the output of flexible color display medium module 100.To the application of flexible color display medium module 100 of the present invention be described for embodiment below, but it is not in order to limit the present invention.

Fig. 4 A to Fig. 4 D illustrates respectively the making flow process sectional view into display panel in one embodiment of the invention.Refer to shown in Fig. 4 A, first formation control component array baseplate 210.Wherein, control element array base palte 210 has viewing area 210a and periphery circuit region 210b.Specifically, the present embodiment is for example on substrate 212, to form a plurality of pixel cells 214, and substrate 212 forms control element array base palte 210 with these pixel cells 214, and these pixel cell 214 whereabouts are the viewing area 210a of control element array base palte 210.

It is worth mentioning that, the control element array base palte 210 of the present embodiment can have pliability, and its technique is first on rigid substrates 201, to form the flexual substrate 212 of tool, and wherein the material of the material of substrate 212 and aforesaid flexible substrate 120 is same or similar, repeats no more herein.Then, on substrate 212, form pixel cell 214.That is to say, the present invention is first formed at control element array base palte 210 on rigid substrates 201.

Fig. 5 illustrates the schematic diagram into control element array base palte in one embodiment of the invention.Refer to shown in Fig. 5, from the above, each pixel cell 214 is consisted of sweep trace (scan line) 215, data line (data line) 216, thin film transistor (TFT) (thin film transistor, TFT) 217 and pixel electrode 218.Wherein, each thin film transistor (TFT) 217 is to be electrically connected to corresponding sweep trace 215 and data line 216, and each pixel electrode 218 is to be electrically connected with data line 216 by thin film transistor (TFT) 217.That is to say, the present embodiment is to utilize thin film transistor (TFT) array (thin film transistor array, TFT array) as control element.

Although it should be noted that the present embodiment is that control element with active (active, below be all called active) is that example explains, it is not in order to limit the present invention.Have the knack of this skill person and should be understood that display panel of the present invention can be also to control by passive (be passive type, below be all called passive) control element array.

Refer to shown in Fig. 4 B, form flexible color display medium module 100, and then 210 groups of flexible color display medium module 100 and control element array base paltes are stood on each other, so that the display dielectric layer 150 of flexible color display medium module 100 is positioned at the viewing area 210a of control element array base palte 210.Wherein the technique of flexible color display medium module 100 as mentioned before, will repeat no more herein.

Refer to shown in Fig. 4 C, after 100 groups of flexible color display medium modules are stood on control element array base palte 210, be then configuration driven circuit 230 in the 210b of the periphery circuit region of control element array base palte 210.Specifically, driving circuit 230 comprises IC circuit 232 and flexible circuit board (flexible printed circuit, FPC) 234, wherein IC circuit 232 is pixel cells in the 210b of viewing area 214 for drive arrangements, and flexible circuit board 234 is for IC circuit 232 is electrically connected to external circuit (not shown).At this, IC circuit 232 can be by crystal grain-glass bond (Chip on Glass, COG), crystal grain-film engages (Chip on Film, COF) or film automatic attaching (Tape Automatic Bonding, TAB) mode is disposed on control element array base palte 210, and is electrically connected with the pixel cell 214 in the 210b of viewing area.

Specifically, control element array base palte 210 is after completing the configuration of driving circuit 230, just separated with rigid substrates 201, to make the display panel 200 shown in Fig. 4 D.At this, can make substrate 212 separated with rigid substrates 201 with laser separation process equally.

Because the manufacturing process of flexible color display medium module of the present invention is first to form flexible substrate on rigid substrates, and sequentially form colorama resistance layer and display dielectric layer on flexible substrate after, just that flexible substrate is separated with rigid substrates, therefore directly colorama resistance layer is printed on to method on flexible substrate in comparison with the existing known Scroll typography of utilizing, flexible color display medium module of the present invention can have preferably resolution and technique yield and output.

And, because the present invention is directly disposed at display dielectric layer in colorama resistance layer, therefore not only can improve the contraposition accuracy between display dielectric layer and colorama resistance layer, more can avoid light when by display dielectric layer and colorama resistance layer, because refract light path difference generates the image of parallax.

In addition, in the disclosed display panel of the present invention, except comprising above-mentioned flexible color display medium module, more can include the flexual control element array base palte of tool.And the present invention is first formed on control element array base palte on rigid substrates, and after the configuration that completes driving circuit, the more flexual control element array base palte of rigid substrates and tool is separated.Therefore, the multiple tracks light shield technique that the present invention not only can utilize resolution the best can reach 1 micron forms pixel cell on the flexual substrate of tool, in the time of more can avoiding on the flexual substrate of tool configuration driven circuit, because substrate compressive deformation affects the configuration yield of driving circuit.

In sum, the disclosed flexible color display medium module technique of the present invention tool can production, and can effectively promote flexible color display medium module and use the technique yield of its display panel, and improve the resolution of flexible color display medium module and display panel.In addition, flexible color display medium module of the present invention more can improve the problem of parallax experienced of the shown image of display panel.

The above, it is only preferred embodiment of the present invention, not the present invention is done to any pro forma restriction, although the present invention discloses as above with preferred embodiment, yet not in order to limit the present invention, any those skilled in the art, do not departing within the scope of technical solution of the present invention, when can utilizing the method for above-mentioned announcement and technology contents to make a little change or being modified to the equivalent embodiment of equivalent variations, in every case be the content that does not depart from technical solution of the present invention, any simple modification of above embodiment being done according to technical spirit of the present invention, equivalent variations and modification, all still belong in the scope of technical solution of the present invention.

Claims (12)

1. a manufacture method for flexible color display medium module, is characterized in that it comprises:

One rigid substrates is provided;

On this rigid substrates, form a flexible substrate;

On this flexible substrate, form a plurality of colorama resistance layers;

In those colorama resistance layers, form a display dielectric layer; And

This flexible substrate is separated with this rigid substrates.

2. the manufacture method of flexible color display medium module according to claim 1, is characterized in that, the method that this flexible substrate is separated with this rigid substrates comprises laser separation process.

3. the manufacture method of flexible color display medium module according to claim 1, it is characterized in that, form those colorama resistance layers on this flexible substrate before, more be included on this flexible substrate and form a light shield layer, and this light shield layer has a plurality of openings, and those colorama resistance layers are to be formed in those openings.

4. the manufacture method of flexible color display medium module according to claim 1, is characterized in that, on this flexible substrate, formed those colorama resistance layers comprise red optical filtering photoresistance, green optical filtering photoresistance and blue optical filtering photoresistance.

5. the manufacture method of flexible color display medium module according to claim 4, is characterized in that, on this flexible substrate, formed those colorama resistance layers more comprise white optical filtering photoresistance.

6. a manufacture method for display panel, is characterized in that it comprises the following steps:

Form a flexible color display medium module, it comprises the following steps:

One first rigid substrates is provided;

On this rigid substrates, form a flexible substrate;

On this flexible substrate, form a plurality of colorama resistance layers;

In those colorama resistance layers, form a display dielectric layer; And

This flexible substrate is separated with this rigid substrates;

Form a control element array base palte, this control element array base palte has a viewing area and a periphery circuit region;

This flexible color display medium module group is stood on to this control element array base palte top, so that this display dielectric layer is positioned on this control element array base palte; And

On this control element array base palte, configure one drive circuit, this driving circuit is to be positioned at this periphery circuit region.

7. the manufacture method of display panel according to claim 6, is characterized in that, wherein this flexible substrate method separated with this first rigid substrates is comprised to laser separation process.

8. the manufacture method of display panel according to claim 6, it is characterized in that, before wherein forming those colorama resistance layers on this flexible substrate, more be included on this flexible substrate and form a light shield layer, and this light shield layer has a plurality of openings, and those colorama resistance layers are to be formed in those openings.

9. the manufacture method of display panel according to claim 6, it is characterized in that, wherein before forming this control element array base palte, more comprise one second rigid substrates is provided, and this control element array base palte is to be formed on this second rigid substrates, and after forming this driving circuit, more comprise this second rigid substrates separated with this control element array base palte.

10. the manufacture method of display panel according to claim 9, is characterized in that, wherein this second rigid substrates method separated with this control element array base palte is comprised to laser separation process.

The manufacture method of 11. display panels according to claim 6, is characterized in that, wherein on this flexible substrate, formed those colorama resistance layers comprise red optical filtering photoresistance, green optical filtering photoresistance and blue optical filtering photoresistance.

The manufacture method of 12. display panels according to claim 11, is characterized in that, wherein on this flexible substrate, formed those colorama resistance layers more comprise white optical filtering photoresistance.