TW200919401A - Flexible display and manufacturing method thereof - Google Patents

Abstract

A flexible display and manufacturing method thereof. The flexible display comprises a first substrate and a second substrate. The first and second substrates respectively comprise an opposing surface and an outside surface. The opposing surfaces face to each other, and thus, the first and second substrates are oppositely disposed. The first substrate comprises staggered a plurality of flexible regions and a plurality of rigid regions.

Description

200919401 IX. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention relates to the technology of flat panel displays, and more particularly to a flexible display and a method of fabricating the same. [Prior Art] In terms of the technical requirements of flexible displays, one of the key factors affecting the optical quality is that when the display area is flexed, the upper and lower substrates cannot be maintained and fixed. The distance, which affects the phase difference of the display light, results in poor display quality of the display during flexing. The following Patent Document 1 discloses a flexible substrate which is fixed to the upper and lower sides by using a retaining wall, and a pressure releasing structure is formed at the edge of the formed panel to thin the thickness of the substrate in the outermost region of the entire panel, and the region can be used as a pressure release region. Release stress due to heat shrinkage and bending. The following Patent Document 2 discloses that a rigid display region and a soft bending buffer are formed on a flexible substrate. When the substrate is bent, the main stress and deformation are concentrated in a curved buffer to maintain the shape of the display region. The following Patent Document 3 discloses a method of directly forming a spacer on a substrate as a means for stabilizing the pitch between the upper and lower substrates. The following Patent Document 4 discloses that a groove is provided in the outermost region of the entire panel to assist in absorbing stress and avoiding variations in the pitch between the upper and lower substrates. Patent documents: 1. US5699139; 2. US20060204675; 0962-A22258TWF(N2); P61960025TW; dwwang 5 200919401 3. US20030151715; 4. US20030137630. However, the above-mentioned conventional techniques are still unable to effectively fix the pitch of the upper and lower substrates in the range of a single pixel, and the display quality of the above display in the case of deflection is still not completely avoided. SUMMARY OF THE INVENTION In view of the above, the present invention provides a flexible display and a method of fabricating the same, which utilizes a relatively stable structure to maintain the pitch between the upper and lower substrates to achieve an ideal quality. The present invention provides a flexible display comprising: a first substrate and a second substrate, each having a pair of facing surfaces and an outer side surface, and facing opposite each other by the opposing surfaces; The first substrate has a plurality of flexible regions and a plurality of rigid regions, and the two are arranged in a staggered network. The present invention further discloses a flexible display comprising: a first substrate having a first opposite surface and a first outer surface; and a second substrate disposed opposite the first substrate, having a first a second opposite surface and a second outer surface, wherein the second opposing surface and the first opposing surface are opposite to each other; wherein the first substrate has a plurality of first flexible regions and a plurality of first rigid regions, The second substrate has a plurality of second flexible regions and a plurality of second rigid regions arranged in a staggered network; the first rigid region and the second rigid region are aligned with each other And the first flexible region and the second flexible region are aligned with each other. 0962-A22258TWF(N2); P61960025TW; dwwang 6 200919401 _ The invention further discloses a manufacturing method of a flexible display, comprising: providing a first substrate and a second substrate, each having a pair of surfaces and a plurality of flexible regions and a plurality of rigid regions are formed on the outer surface of the first substrate in a staggered network; and the opposing surfaces of the second substrate and the second substrate are opposed to each other, and the opposite surfaces are disposed The first substrate and the second substrate. The invention further discloses a method for manufacturing a flexible display, comprising: providing a first substrate having a first opposite surface and a first outer surface; providing a second substrate having a second opposing surface And a second outer surface; forming a plurality of first flexible regions and a plurality of first rigid regions on the first substrate, the two are interlaced with each other; forming a plurality of second flexible layers on the second substrate a region and a plurality of second rigid regions, which are arranged in a staggered network; the first rigid region and the second rigid region are aligned with each other, and the first flexible region and the second flexible region are The first opposing surface and the first opposing surface are opposite to each other, and the first substrate and the second substrate are disposed opposite to each other. DETAILED DESCRIPTION OF THE EMBODIMENTS In order to make the features and advantages of the present invention more comprehensible, the preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings. FIG. 1 is a cross-sectional view showing The structure of the flexible display of the first embodiment of the invention includes substrates 100 and 200. The substrate 100 has a pair of facing surfaces l〇〇a and an outer side surface 100b, and the substrate 200 has a pair of facing surfaces 200a and an outer side surface 200b, and opposite sides of each other by opposing surfaces 100a and 200a. The substrates 100 and 200 are disposed. 0962-A22258TWF(N2); P61960025TW; dwwang 7 200919401 In addition, the substrate 100 has a plurality of flexible regions 101 and a plurality of rigid regions 102, and the two regions are arranged in a staggered network. The space existing between the substrate and the space 2 is filled into the display medium according to the visual requirements. For example, when the medium is a liquid crystal, the flexible display of the present invention is a liquid crystal display, and the above-mentioned display medium is a laminated polarity. In contrast to non-polar liquids, the flexible display of the present invention is an electrowetting display or the like. In the present embodiment, the rigid region 1〇2 is used as the pixel region of the flexible display of the present invention, that is, the image display region for displaying images, and the scalability II domain 101 serves as the circuit distribution region. A display circuit required for the display area is formed therein. When the flexible display region of the present invention is bent, only the flexible region 101 is deformed, and the rigid region 1〇2 is not substantially deformed, so that the substrate can be maintained in a relatively stable structure. The spacing X is to achieve the desired display quality. In the present embodiment, the substrates 100 and 200 are preferably flexible substrates, and the plurality of rigid layers 110 are located on the opposite surface 1 〇〇 a of the substrate 100, and the region where the rigid layer 110 is located becomes the rigid region 102. In one embodiment, the substrates 100 and 200 are both transparent substrates, and the rigid layer 11 is a transparent layer of dioxide. In other embodiments, other relatively rigid transparent materials may be used as the rigidity. Layer 1 1 〇. In addition, the mutual arrangement of the flexible region 101 and the rigid region 102 in the form of a parental relationship means that there is a rigid region 102 between the two flexible regions 1G1, and when the substrate 1〇〇 and 2〇〇 are bent, The bendable range is inevitably limited. Thus, in a preferred embodiment, the groove structure 105 can be provided in each flexible region to increase the flexible region!可〗 The bendable angle 0962-A22258TWF (N2); P61960025TW; dwwang 200919401 degrees. In Fig. 1, since the display circuit necessary for the flexible display of the present invention is placed in the flexible region 1?1 of the facing surface 100a, the groove structure 105 is disposed on the outer side surface i00b; In the embodiment, in the case that the arrangement of the display circuit and the winding are not affected, other groove structures may be disposed on the opposite surface 10a as needed. On the other hand, the ratio of the depth of the groove structure 105 to the thickness of the substrate 1 可 can be appropriately controlled to balance the requirements of the substrate strength and the bendable angle, and the relevant influencing factors such as the elastic modulus of the substrate 100 and the fall of the substrate 100 Mechanical properties such as strength, tensile strength, and the practical application of the flexible display of the present invention. Those skilled in the art to which the present invention pertains can apply their existing experimental techniques, such as the Taguchi experimental planning method, to obtain the optimum groove structure 1 〇 5 depth in accordance with their requirements by a limited number of experiments. And other appearance conditions. In addition, in another embodiment, the groove structure 205 may be disposed on the outer side surface 200b of the substrate 200 at a position corresponding to the groove structure 105 to increase the bendable angle of the substrate 200. And further improve the flexibility of the overall display. On the other hand, since the opposite surface 200a of the substrate 2〇〇 may also place the display circuit necessary for the flexible display of the present invention, the groove structure 205 is disposed on the outer side surface 2〇〇b; In the example, without affecting the arrangement of the display circuit and the winding, it is also possible to provide other groove structures on the opposite surface 2〇〇a as needed. Also, the consideration regarding the depth, appearance, and the like of the groove structure 205 is the same as that of the groove structure 105. In this embodiment, if there is no support structure between the substrates 100 and 200 in the display area 0962-A22258TWF(N2); P61960025TW; dwwana 9 200919401 formed by the plurality of halogen regions, the substrate 1 and 200 The spacing is determined by the structure of the encapsulating material, such as the entire substrate edge, not shown. In this case, in some cases, when the substrate is bent, the pitch of the substrate 1 (9) and 2 (8) in the range of the single halogen region (rigid region 102) may still slightly change. Thus, in a preferred embodiment, a plurality of support structures 10 can be placed between the substrates 100 and 2 to maintain a substrate pitch within a range of pixels. In the second diagram, the support structure 1〇 is located at the edge of the rigid region 102; in other embodiments, it may be located in other suitable regions. Next, please refer to Fig. 2, which is a cross-sectional view showing the structure of a flexible display according to a second embodiment of the present invention. Compared with the first embodiment, in the present embodiment, a plurality of flexible regions 201 and a plurality of rigid regions 2〇2 which are arranged in a staggered network are also disposed on the substrate 200. Therefore, only the flexible region 201 and the rigid region 202 will be described in detail below. Other components in FIG. 2, such as the substrates 100 and 200, the opposite surface i〇〇a, the outer surface 1 and the salvable region 101, The rigid region 102, the groove structures 1〇5 and 205, the rigid layer 110, the support structure 10, the space 20, etc., have been found in the foregoing! The narrative of the figure is omitted here. In FIG. 2, the substrate 200 has a pair of facing surfaces 2A and an outside surface 200b' and is opposed to each other by the opposing surfaces i〇〇a of the substrates 100 and 2, and the opposite substrate 100 is disposed. With 200. Each of the sustainable & field 101 lines is aligned with the corresponding flexible region 201, and each of the rigid regions 102 is aligned with the corresponding rigid region 202, respectively. In the present embodiment, the rigid regions 102 and 202 are used as the 0962-A22258TWF{N2) of the present invention; P61960025TW; dwwang 10 200919401 can display the pixel region of the 、, that is, the image display region for displaying images. The flexible regions 101 and 201 serve as circuit distribution regions in which display circuits required for the image display region are formed. When the flexible display area of the present invention is bent, only the flexible areas 101 and 201 are deformed, and the rigid areas 102 and 202 are not substantially deformed, so the flexible display shown in FIG. In comparison, the flexible display of the present embodiment can maintain a more stable structure to maintain the spacing between the substrate 100 and 2 turns to achieve a more desirable quality. In the present embodiment, the substrates 100 and 200 are preferably flexible substrates, and the plurality of rigid layers 210 are located on the opposite surface 20A of the substrate 200, and the region where the rigid layer 210 is located becomes the rigid region 202. In addition, based on the same reason that the groove structure 105 is provided, in the case where the groove structure 205 is provided as described in the foregoing description of FIG. 1, it is disposed in each of the flexible regions 201 to increase the flexible region 8201. 6 scoops are bendable. In a case where the rigid layer 210 is a transparent substrate, and the rigid layer 210 is in the embodiment, the substrate 100 and 200 are both in the embodiment, and other transparent ceria layers may be used; Only

When the rigid suitable transparent material is used as the (10) 11 layer 21G 1 diagram, the support structure is also provided, as in the previous paragraph for the 1 ^ , 1 Λ θ

In the case of the preferred embodiment of 10, the spacing of the substrates in the region of the rigid regions 102 and 202 is known as G. In Figure 2, the edge of the structure of the building is 1 ,, which is more secure. In other embodiments, other suitable areas may also be used. t Λ ^ ^ , 々 < Manufacture of flexible displays, in the foregoing embodiments & Such as b can be known as the substrate process

0962-A22258TWF(N2); P61960025TW; cfwwanQ 200919401 If a groove structure 105 and/or 205 is formed on the substrate 100 and/or 200, in one embodiment, it may be dried or wet etched. The flexible regions 101 and/or 102' of the predetermined regions of the substrate 100 and/or 200, such as the outer surfaces 100b and/or 200b, form the groove structures 105 and/or 205 previously described in the first and second figures. In another embodiment, the aforementioned groove structure 105 and/or 205 may be scribed by laser or a suitable cutter; in yet another embodiment, the substrate is formed by a thermoplastic resin in particular. In the case of 200, as shown in Fig. 3, a convex structure can be preset in the mold 30, and a resin injection molding process (commonly referred to as "molding" process in the industry) is performed, and the formed substrate 100 and/or 200 is changed. The groove structure 1〇5 and/or 205. Next, as shown in FIG. 4, a rigid layer 110 is formed on the opposite surface 10a of the substrate 100 by a method such as chemical vapor deposition to form a material layer of the rigid layer 110 on the substrate. On the opposite surface l〇〇a, the material layer is patterned by, for example, lithography to form the rigid layer 110, and the region where the rigid layer 110 is located becomes the rigidity in the foregoing description of the first and second figures. The region 102, other regions where the rigid layer 110 is not formed, and/or regions where the groove structure 105 has been formed are the flexible regions 101 described above for the first and second figures. When the flexible display of the present invention shown in Fig. 2 is to be manufactured, the rigid layer 210 is formed on the opposite surface 200a of the substrate 200 by the same method as described above. Similarly, in the substrate 200, the region where the rigid layer 210 is located becomes the rigid region 202 in the foregoing description of FIGS. 1 and 2, and other regions where the rigid layer 210 is not formed and/or the region where the groove structure 205 has been formed are It becomes the flexible region 201 in the above description of Figs. 1 and 2. 0962-A22258TWF(N2); P61960025TW; dwwang 12 200919401 Then, a support structure 10 is formed on the substrate 100 or 200 as needed. In some embodiments, the support structure 10 may be formed of a light absorbing material formed by a method such as chemical vapor deposition to form a material layer of the support structure 10 on the opposite surface 100a of the substrate 100. Or on the opposite surface 200a of the substrate 200, the material layer is patterned by, for example, photolithography to form the support structure 10, as described above for the first and second figures, for example, in the rigid region 102. Edge or its corresponding position. Next, if the flexible display shown in FIG. 1 is to be fabricated, the substrate 100 having the rigid region 102 is aligned with the substrate 200 having no rigid region, for example, in the implementation of the groove structures 105, 205. In the example, the groove structure 105 is aligned with the groove structure 205. In the embodiment in which the support structure 10 has been formed on the substrate 200, the support structure 1〇 is aligned with the edge of the rigid region 102, using known In the substrate encapsulation technique, the opposite surfaces 200a and 100a are opposed to each other, and the substrate 1 and the substrate 200 are opposed to each other, and the two are fixed to each other to complete the flexible display shown in FIG. If the flexible display shown in FIG. 2 is to be fabricated, the substrate 100 having the rigid region 102 is aligned with the substrate 200 having the rigid region 202, for example, the rigid region 102 is aligned with the rigid region 202, and The flexible region 101 is aligned with the flexible region 201, and the opposite surfaces 200a and 100a are opposed to each other using a known substrate packaging technique, and the substrate 100 and the substrate 200 are disposed opposite to each other, and the two are fixed to each other. Complete the flexible display shown in Figure 2. 0962-A22258TWF(N2); P61960025TW; dwwang 13 200919401 Although the present invention has been disclosed in the above preferred embodiments, it is not intended to limit the invention, and any one of ordinary skill in the art to which the invention pertains, without departing from the invention In the spirit and scope of the invention, the scope of protection of the invention is defined by the scope of the appended claims.

0962-A22258TWF(N2); P61960025TW; dwwanQ 200919401 BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view showing the structure of a flexible display according to an embodiment of the present invention. Fig. 2 is a cross-sectional view showing the structure of a flexible display according to another embodiment of the present invention. Fig. 3 is a cross-sectional view showing a step of an exemplary manufacturing method of the flexible display of the present invention. Fig. 4 is a cross-sectional view showing another step of the exemplified manufacturing method of the flexible display of the present invention. [Description of main component symbols] 10 to support structure 20 to space 30 to mold 100 to substrate 100a to opposite surface 100b to outer surface 101 to flexible region 102 to rigid region 105 to groove structure 110 to rigid layer 2 00 ~ Substrate 200a ~ opposite surface 200b ~ outer surface 0962-A22258TWF (N2); P61960025TW; dwwang 15 200919401 201 ~ flexible area 202 ~ rigid area 2 0 5 ~ groove structure 210 ~ rigid layer 0962-A22258TWF (N2) ;P61960025TW;ciwwanQ 16

Claims (1)

200919401 X. Patent application scope: 1. A flexible display comprising: a first substrate and a second substrate, each of which has a lateral outer side, and a 丄-facing surface and ^ The opposing surfaces are opposite to each other and disposed opposite each other. wherein: the substrate has a plurality of flexible regions and a plurality of rigid regions, one of which is interlaced with a network. Among them ▲ 2. For the flexible display described in the scope of the patent, the flexible area is used as a circuit distribution area. 3. The flexible display as described in the scope of claim 2, the rigid regions are used as image display areas. 4. The flexible display of claim 1, wherein the first substrate and the second substrate are flexible substrates; and the substrate=flexible display further comprises an opposite surface on which the plurality of layers are located. The regions where the rigid layers are located become the rigid regions. 5. If you apply for a patent range! The item may include a plurality of support gentleman structures located between the substrate and the second substrate. • The flexible method described in the 5 items of the patented yoke of the yoke is difficult to locate at the edge of the difficult n-domain, σ8·· as claimed in the patent scope! The formula described above includes a plurality of groove structures in the flexible region. (1) A foreigner package 8. The flexible display of the present invention is disclosed in the seventh aspect of the invention, wherein the structure is located on the outer surface of the first substrate. 9. A flexible display comprising: · 〇 962-A22258TWF (N2); P6, 96 〇〇 25 TW.d, wwang 200919401 a first substrate 'having a 坌. face; and a facing surface and - - an outer table - the second substrate is disposed opposite to the first substrate, and the surface and a second outer surface are opposite to each other, wherein the opposite surface and the first opposite table - the substrate has a first-flexible rigid region, which are arranged in a staggered network; and the second substrate has a plurality of second flexible regions which are interlaced in a network; a plurality of younger ones, the first rigid region and the second rigid regions are aligned with each other and the two flexible regions are aligned with the second flexible regions. The flexible display of claim 9, wherein the 5th and 1st flexible regions are used as circuit distribution regions. The flexible display of claim 9, wherein the first and second rigid regions are used as image display areas. The flexible display of the ninth item, wherein the first substrate and the second substrate are squeezable substrates, and the substrate display further comprises a plurality of first-rigid layers located at the - the surface of the second plate of the U-plate and the plurality of second rigid layers are located on the eighth surface of the second surface. The S-domains of the first and second rigid layers are the first and second rigid regions. . 13. The flexible display according to claim 9 of the patent application, further comprising wwang 0962-A2225eTWF(N2): P6W6〇〇2sm^ 18 200919401 comprising a plurality of structures arranged on the first substrate and the second Between the substrates. U. The portable display of claim 13, wherein: the plurality of material structures are located at edges of the first and second rigid regions. _ ^ The flexible display of claim 9, further comprising a plurality of first recesses; I* M M ^ ^ 9, , ° ° in a flexible area of 5 hai, with a plurality of concave The groove is configured in the second flexible region. The flexible display of the second aspect of the invention, wherein the first slot is located on the first outer side of the first substrate, and the first groove structure is located on the second substrate. The outer table toy includes a method for manufacturing a flexible display, comprising: a first substrate and a second substrate, each having a pair of facets and an outer surface; H彳 opposite table j* board $ a plurality of flexible regions and a plurality of rigid regions, one of which is interlaced with a network; and the opposite direction: 对 Π and: the opposite surfaces of the second substrate are opposite to each other, and the substrate is directly Two substrates. Manufacturer: For example, the system of the flexible display described in item 17... The flexible region is used as the circuit distribution area. As in the patent application, the method of making the data, i. The domain of the flexible display is used as an image display area. The method according to claim 17, wherein the middle substrate of the flexible display and the second substrate are flexible substrates, and 62 A22258TWF(N2); P6i96〇〇25TW; dwwang 19 200919401 The manufacturing method of the flexible display further comprises: forming a plurality of rigid layers on the opposite surface of the first substrate, wherein the regions where the rigid layers are located become the rigid regions. 21. The method of fabricating a flexible display of claim 17, further comprising forming a plurality of support structures between the first substrate and the second substrate. 22. The method of manufacturing a flexible display according to claim 21, wherein the support structures are located at edges of the rigid regions. The method of manufacturing the flexible display of claim 17, further comprising: forming a plurality of groove structures in the flexible region, wherein the groove structures are located on the first substrate Outside surface. 24. The method of manufacturing a flexible display according to claim 17, wherein the first substrate is formed by injection molding of a mold, and a plurality of groove structures are formed in the flexible region. And the groove structures are located on an outer side surface of the first substrate. 25. A method of manufacturing a flexible display, comprising: providing a first substrate having a first opposing surface and a first outer surface; providing a second substrate having a second opposing surface and a first a second outer surface; a plurality of first flexible regions and a plurality of first rigid regions are formed on the first substrate, and the two are interlaced with each other; and a plurality of second flexible regions and plural numbers are formed on the second substrate a second rigid region, which is interlaced with each other; 0962-A22258TWF(N2); P61960025TW; dwwang 20 200919401 aligning the first rigid regions with the second rigid regions, and the first The flexible region and the second flexible regions are aligned with each other, and the second opposite surface and the first opposite surface are opposed to each other, and the first substrate and the second substrate are oppositely disposed. 26. The method of fabricating a flexible display according to claim 25, wherein the first and second flexible regions are used as circuit distribution regions. 27. The method of manufacturing a flexible display according to claim 25, wherein the first and second rigid regions are used as image display regions. The method for manufacturing a flexible display according to claim 25, wherein the first substrate and the second substrate are flexible substrates, and the manufacturing method of the flexible display further comprises: forming a plurality a first rigid layer on the first opposing surface of the first substrate; and a plurality of second rigid layers on the second opposing surface of the second substrate; wherein the first and second rigidities The regions in which the layers are located are the first and second rigid regions, respectively. 29. The method of fabricating a flexible display of claim 25, further comprising forming a plurality of support structures between the first substrate and the second substrate. 30. The method of manufacturing a flexible display according to claim 29, wherein the support structures are located at edges of the first and second rigid regions. 0962-A22258TWF(N2); P61960025TW; dwwang 21 200919401 3^. For example, the patent method (4) 25 method, including: kJ耨-type display system forms a plurality of first concave and concave social regions, and these a first flexible surface of the substrate; and a plurality of second recess structures formed on the first substrate, wherein the second recess of the second recessed plate Twist the outer side surface. The f & mega method of the flexible display according to the second aspect of the second substrate, wherein the first substrate 盥= mode is formed and forms a plurality In the second flexible region of the board, and the first outer surface of the first substrate of the second substrate, the second recess; the second substrate; Second outer surface. The I configuration is located at 0962-A22258TWF(N2); P61960025TW; dwwang 22