CN204143398U - Bendable touch-control sensing module and display device thereof - Google Patents
Bendable touch-control sensing module and display device thereof Download PDFInfo
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- CN204143398U CN204143398U CN201420288559.4U CN201420288559U CN204143398U CN 204143398 U CN204143398 U CN 204143398U CN 201420288559 U CN201420288559 U CN 201420288559U CN 204143398 U CN204143398 U CN 204143398U
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- 239000002184 metal Substances 0.000 claims description 13
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- 239000004973 liquid crystal related substance Substances 0.000 claims description 7
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- 238000000034 method Methods 0.000 description 6
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- 229920001621 AMOLED Polymers 0.000 description 3
- MRNHPUHPBOKKQT-UHFFFAOYSA-N indium;tin;hydrate Chemical compound O.[In].[Sn] MRNHPUHPBOKKQT-UHFFFAOYSA-N 0.000 description 3
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Abstract
The utility model provides a kind of touch-control sensing module, this touch-control sensing module comprises: substrate, this substrate has the firstth district, the secondth district and bendable folding area, and this bendable folding area is between this firstth district and this secondth district, and makes this touch-control sensing module have folded state and deployed condition; And inductive layer, this inductive layer to be arranged on below substrate and to comprise the first pattern inductive layer and the second pattern inductive layer, and this first pattern inductive layer at least corresponds to the firstth district, and this second pattern inductive layer at least corresponds to the secondth district.
Description
Technical field
The utility model relates to a kind of bendable touch-control sensing module and display device thereof.
Background technology
Due to the convenience of touch control display apparatus, current touch-control sensing module has been the indispensable part, particularly touch-control handheld apparatus of display.In order to be supplied to the better audio-visual visual enjoyment of consumer, the touch control display apparatus of large screen is more and more general.Moreover, prevailing due to mobile phone games, sense of vision and game console are also that player is required, and therefore each manufacturer also competitively releases large screen mobile phone, such as: Samsung mega (6.3 cun) and Sony Xperia Z ultra (6.4 cun).But.Large touch display device or the mobile phone with large touch screen compare and take up room, and also bad storage with carry, therefore need convenient for collecting and satisfy the demands of consumers with the large touch display carried.
Utility model content
The utility model is intended to solve one of technical matters in correlation technique at least to a certain extent.
The utility model provides a kind of touch control display apparatus on the one hand, comprise: substrate, this substrate has the firstth district, the secondth district and bendable folding area, and this bent district is positioned between this firstth district and secondth district, has folded state and deployed condition to make this touch control display apparatus; Inductive layer, this inductive layer is arranged on the below of substrate; First display module, this first display module is arranged on the below of inductive layer, and corresponds to this firstth district; And second shows module, this second display module is arranged on the below of this inductive layer, and corresponds to this secondth district.
The utility model provides a kind of touch-control sensing module on the other hand, comprise: substrate, this substrate has the firstth district, the secondth district and bendable folding area, and this bent district is positioned between this firstth district and secondth district, has folded state and deployed condition to make this touch-control sensing module; And inductive layer, this inductive layer is arranged on the below of this substrate and comprises the first pattern inductive layer and the second pattern inductive layer, and this first pattern inductive layer at least corresponds to this firstth district, and this second pattern inductive layer at least corresponds to this secondth district.
The utility model provides a kind of touch-control sensing module more on the one hand, and comprising: substrate, this substrate has the firstth district, the secondth district and bendable folding area thereof, and this bent district is positioned between this firstth district and this secondth district; And inductive layer, this inductive layer is arranged on the substrate, and wherein this inductive layer comprises: the first pattern inductive layer, and this first pattern inductive layer is arranged in this firstth district; Second pattern inductive layer, this second pattern inductive layer is arranged in this secondth district; And emulation inductive layer, this emulation inductive layer is arranged on this bendable folding area.
Accompanying drawing explanation
Fig. 1 (a), 1 (b), 1 (c) and 1 (d) are the structural representations of the touch control display apparatus according to the utility model first embodiment.
Fig. 2 (a) and 2 (b) are the schematic diagram of the touch control display apparatus according to the utility model second embodiment;
Fig. 3 (a) and 3 (b) are the schematic diagram of the touch-control sensing module according to the utility model the 3rd embodiment;
Fig. 4 (a) and 4 (b) are the schematic diagram of the touch-control sensing module according to the utility model the 4th embodiment;
Fig. 5 is the schematic diagram of the touch-control sensing module according to the utility model the 5th embodiment;
Fig. 6 is the schematic diagram of the touch-control sensing module according to the utility model the 6th embodiment;
Fig. 7 is the schematic diagram of the touch-control sensing module according to the utility model the 7th embodiment; And
Fig. 8 is the process flow diagram of the manufacture method of touch control display apparatus according to the utility model embodiment.
Reference numeral:
100 touch control display apparatus 101 substrates
1011 first bendable folding area, districts 1012
1013 second district 1,014 first electrodes
1015 second electrode 102 inductive layers
103 adhesion layers 104 first show module
105 second display module 200 touch control display apparatus
201 substrates 202 show module
203 bendable display module 204 inductive layers
205 adhesion layer 206 fixed fold frames
300 touch-control sensing module 301 first touch-control sensing modules
302 second touch-control sensing module 303 bendable folding areas
304 first flexible circuit board 305 second flexible circuit boards
306 first electrode 307 second electrodes
308 substrate 400 touch-control sensing modules
401 first touch-control sensing districts of touch-control sensing district 402 second
403 bendable folding area 404 first flexible circuit boards
405 second flexible circuit board 406 first X-axis pattern electrodes
407 first Y-axis pattern electrode 408 second X-axis pattern electrodes
409 second Y-axis pattern electrode 410 substrates
500 touch-control sensing module 501 first touch-control sensing districts
502 second bendable folding area, touch-control sensing districts 503
504 first flexible circuit board 505 second flexible circuit boards
506 first X-axis pattern electrode 507 first Y-axis pattern electrodes
508 second X-axis pattern electrode 509 second Y-axis pattern electrodes
510 substrate more than 511 emulation patterns
600 touch-control sensing module 601 substrates
6011 first bendable folding area, districts 60111
6012 second district 602 first touch-control sensing floor
603 second touch-control sensing layer 604 first flexible circuit boards
605 second flexible circuit board 700 touch-control sensing modules
701 substrate 7,011 first districts
7012 second bendable folding area, districts 7013
702 first touch-control sensing layer 703 second touch-control sensing layers
704 wire netting compartment 705 first flexible circuit boards
706 second flexible circuit board 800 touch control display apparatus manufacture methods
801 step 801 802 steps 802
803 steps 803
Embodiment
Be described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Be exemplary below by the embodiment be described with reference to the drawings, be intended to for explaining the utility model, and can not be interpreted as restriction of the present utility model.
Fig. 1 (a), 1 (b) and 1 (c) are the structural representations of the touch control display apparatus according to the utility model first embodiment.As shown in Fig. 1 (a), 1 (b) and 1 (c), in the first embodiment of the present utility model, touch control display apparatus 100 comprises substrate 101, inductive layer 102, adhesion layer 103, first display module 104 and the second display module 105, wherein Fig. 1 (a) and Fig. 1 (b) is deployed condition, and Fig. 1 (c) is folded state.Substrate 101 comprises three regions, be respectively the first district 1011, bent area 1012 and the second district 1013, and bent area 1012 has bending state and deployed condition for making substrate 101.Inductive layer 102 is arranged on the below of substrate 101, and shows module 104 and second by adhesion layer 103 and first and show module 105 and bond, and substrate 101 and inductive layer 102 can be considered touch-control sensing module.First display module 104 and the second display module 105 are positioned at the below of inductive layer 102, and correspond respectively to the first district 1011 and the second district 1013 of substrate 101.In other words, touch control display apparatus 100 is made up of single touch-control sensing module and two display modules separated from one another, and wherein the substrate 101 of this touch-control sensing module is the flexible base plate be integrally formed, and is formed not by assembled combination.In addition, first display module 104 and the second display module 105 can be liquid crystal display module (Liquid-Crystal Display Module, LCM), active organic light-emitting diode (Active-Matrix Organic Light-Emitting Diode, AMOLED) show module or other known displays, and the first display module 104 and the second display module 105 can be dissimilar displays.Such as, the first display module 104 is liquid crystal display module, and the second display module 105 is active organic light-emitting diode display module.Inductive layer 102 can be overall continuous print electrode and be located at the below of substrate 101, or as shown in Fig. 1 (d), first electrode 1014 and the second electrode 1015 separated from one another is set respectively in the first district 1011 of substrate 101 and the below in the second district 1013, wherein between the first electrode 1014 and the second electrode 1015, there is spacing (gap).Because substrate 101 is as flexible material, so the touch inductive module be made up of substrate 101 and inductive layer 102 also has folded state and deployed condition.It should be noted that, adhesion layer 102 can be transparent optical cement (Optically Clear Adhesive in this embodiment, OCA), and the inductive layer 102 double-deck induction electrode structure (dual layer electrode) that can be X, Y-axis electrode interlaced, single layer electrode structure (one layer electrode or single layer electrode), or other known electrode structures.
Fig. 2 (a) and 2 (b) are the structural representations of the touch control display apparatus according to the enforcement of the utility model second aspect.As shown in Fig. 2 (a) He 2 (b), touch control display apparatus 200 comprises substrate 201, inductive layer 204, adhesion layer 205, display module 202 and bendable display module 203, the junction wherein shown between module 202 and bendable display module 203 adopts viscose to carry out joint (not shown), and Fig. 2 (a) is deployed condition, and Fig. 2 (b) is folded state.Substrate 201 and inductive layer 204 can be considered touch-control sensing module, and this touch-control display module is bendable touch-control display module.In the second embodiment of the present utility model, inductive layer 204 can be formed by overall continuous print electrode, as shown in Fig. 2 (a), or separated from one another and correspond respectively to display module 202 and the electrode of bendable module 203 forms (not shown) by two.No matter inductive layer 204 is overall continuous print electrode or two electrodes separated from one another, and this inductive layer 204 is all arranged on the below of same substrate 201, and this substrate 201 is flexible substrate.In addition, display module 202 can be liquid crystal display module (LCM), and is non-bendable display module, and bendable display module 203 can be active organic light-emitting diode (AMOLED) show module.The material of inductive layer 204 can be transparent conductive material, such as tin indium oxide etc.Preferably, the material of inductive layer 204 can adopt conductive metal material, and forms metal mesh structure (metal mesh), because metal has good ductility, so can bear more bending.In another embodiment, the material of inductive layer 204 also can be formed by transparent conductive material and conductive metal material jointly.As shown in Fig. 2 (b), when touch control display apparatus 200 is folded state, the two ends of touch control display apparatus 200 can be fixed to keep folded state by fixed fold frame 206 or other device/modes.In addition, from the folded state in figure, bendable display module 203 is also corresponding with bendable folding area, and therefore the display frame of the second embodiment will because of not corresponding with bendable folding area display device, and cause overall picture discontinuous.In addition, the joint shown between module 202 and bendable display module 203 adopts viscose (not shown) to engage.
Fig. 3 (a) and 3 (b) are the structural representation of the touch-control sensing module according to the utility model the 3rd embodiment, wherein Fig. 3 (a) is the vertical view of touch-control sensing module 300, and Fig. 3 (b) is the side view of touch-control sensing module 300.Substrate 308, first electrode 306, second electrode 307, first flexible circuit board (Flexible Printed Circuit is comprised according to the touch-control sensing module 300 of the utility model the 3rd embodiment, FPC) 304 and second flexible circuit board 305, wherein, first electrode 306 and the second electrode 307 form inductive layer jointly, and the first flexible circuit board 304 can be connected a wafer or a control circuit board (not shown) further respectively with the second flexible circuit board 305.Substrate 308 comprises the first touch-control sensing district 301 and the second touch-control sensing district 302 and bendable folding area 303, and the first corresponding with the first touch-control sensing district 301 and the second touch-control sensing district 302 respectively electrode 306 and the second electrode 307 are single layer electrode structure.First electrode 306 is configured in the first touch-control sensing district 301, second electrode 307 is configured in the second touch-control sensing district 302, and the first electrode 306 and the second electrode 307 are electrically connected to the first flexible circuit board 304 and the second flexible circuit board 305 respectively, and the first electrode 306 and the separated from one another and spacing of being separated by of the second electrode 307, this spacing corresponds to bendable folding area 303.The bendable folding area 303 of touch-control sensing module 300 makes touch-control sensing module 300 have folded state and deployed condition.Owing to not configuring any induction electrode or circuit in bent area 303, therefore there is not the problem making whole touch area electrical property failure because of bending broken string in touch-control sensing module 300.Identical with shown in the first and second embodiments described above, the touch-control sensing module 300 in this embodiment can configure identical or different display modules respectively in the below in the first touch-control sensing district 301 and the second touch-control sensing district 302, does not repeat them here.
As shown in Fig. 4 (a) and 4 (b), for the structural representation of the 4th embodiment that the utility model proposes, wherein, Fig. 4 (a) is the vertical view of the touch-control sensing module 400 of the 4th embodiment of the present utility model, and Fig. 4 (b) is the side view of the touch-control sensing module 400 of the 4th embodiment of the present utility model.Touch-control sensing module 400 in 4th embodiment comprises substrate 410, first X-axis pattern electrode 406, first Y-axis pattern electrode 407, second X-axis pattern electrode 408 and the second Y-axis pattern electrode 409, first flexible circuit board 404 and the second flexible circuit board 405, wherein, first X-axis pattern electrode 406, first Y-axis pattern electrode 407, second X-axis pattern electrode 408 and the second Y-axis pattern electrode 409 form inductive layer jointly, and the first flexible circuit board 404 can be connected with wafer and control circuit board (not shown) more further respectively with the second flexible circuit board 405.Substrate 410 comprises the first touch-control sensing district 403 of touch-control sensing district 401, second and bendable folding area 403, the first X-axis pattern electrode 406 of the present embodiment and the first Y-axis pattern electrode 407 are configured at the first touch-control sensing district 401, and be electrically connected to the first flexible circuit board 404, second X-axis pattern electrode 408 and the second Y-axis pattern electrode 409 are configured at the second touch-control sensing district 402, and be electrically connected to the second flexible circuit board 405, that is first touch-control sensing district 401 and the configuration separated from one another of the second touch-control sensing district 402 of the present embodiment.The bent region 403 of touch-control sensing module 400 can make touch-control sensing module 400 have folded state and deployed condition, owing to not configuring any induction electrode or circuit in bent area 403, so the problem making whole touch area electrical property failure because of bending broken string can not be there is in touch-control sensing module 400.Identical with shown in the first and second embodiments described above, the touch-control sensing module 400 in this embodiment can configure identical or different display modules respectively in the below in the first touch-control sensing district 401 and the second touch-control sensing district 402, does not repeat them here.
As shown in Figure 5, for the structural representation of the 5th embodiment that the utility model proposes, the touch-control sensing module 500 in the 5th embodiment comprises substrate 510, first X-axis pattern electrode 506, first Y-axis pattern electrode 507, second X-axis pattern electrode 508, second Y-axis pattern electrode 509, first flexible circuit board 504, second flexible circuit board 505 and multiple emulation pattern (dummy pattern) 511.Wherein, first X-axis pattern electrode 506, first Y-axis pattern electrode 507, second X-axis pattern electrode 508 and the second Y-axis pattern electrode 509 form inductive layer jointly, and the first flexible circuit board 508 can be connected with wafer or control circuit board (not shown) further with the second flexible circuit board 505.Substrate 510 comprises the first touch-control sensing district 502 of touch-control sensing district 501, second and bendable folding area 503.The first X-axis pattern electrode 506 of the present embodiment and the first Y-axis pattern electrode 507 are configured at the first touch-control sensing district 501, and are electrically connected on the first flexible circuit board 504.Second X-axis pattern electrode 508 and the second Y-axis pattern electrode 509 are configured at the second touch-control sensing district 502, and being electrically connected on the second flexible circuit board 505, and the separated from one another and spacing of being separated by of the electrode in the electrode in the first touch-control sensing district 501 and the second touch-control sensing district 502.The bendable folding area 503 of touch-control sensing module 500 can make touch-control sensing module 500 have folded state and deployed condition, in addition, owing to being configured with multiple emulation pattern (dummy pattern) 511 in bendable folding area 503, so can improve because bendable folding area 503 does not configure the visuality of the sensing electrode that sensing electrode is formed for topic.Preferably, the shape of multiple emulation pattern 511 is identical with the pattern electrode in arrangement mode and the first touch-control sensing district 501 or the second touch-control sensing district 502, namely emulating each unit of pattern 511 is rhombus or diamond structure, and emulation pattern 511 and the electrode of the first touch area 501 and the electrode of the second touch area 502 are electrically insulated each other.In like manner, the touch-control sensing module 500 of the present embodiment also can configure identical or different display module for 502 times in the first touch-control sensing district 501 and the second touch-control sensing district respectively.
As shown in Figure 6, for the structural representation of the 6th embodiment that the utility model proposes, the touch-control sensing module 600 in the 6th embodiment comprises yoke 600, first touch-control sensing layer 602, second touch-control sensing layer 603, first flexible circuit board 604 and the second flexible circuit board 605.Substrate 601 comprises the first district 6011 and the second district 6012 further, and the first district 6011 is close to bendable folding area 60111, has folded state and deployed condition to make substrate 601.First touch-control sensing floor 602 is arranged on the below of substrate 601 and corresponding with the second district 6012, and the first touch-control sensing layer 602 and the separated from one another and spacing of being separated by of the second touch-control sensing layer 603, and be electrically connected to the first flexible circuit board 604 and the second flexible circuit board 605 respectively.Preferably, the first touch-control sensing layer 602 in the present embodiment is bendable flexible transparent conducting film layer, such as metallic conduction rete, and the second touch-control sensing layer 603 formula transparent conductive film layer, such as tin indium oxide rete, but be not limited thereto; In addition, bendable display module and non-bendable display module can be configured to corresponding with the first district 6011 and the second district 6012 respectively.Because the first touch-control sensing layer 602 and bendable display module all have pliability, so it can be arranged on accordingly the below of the first district 6011 and bendable folding area 60111.In addition, the touch-control sensing layer of the present embodiment also can be single layer structure or double-decker.It should be noted that, in the present embodiment, if be integrated into collapsible touch-control sensing module with two kinds of different transparency conducting layers, then the sensed layer across bendable folding area 60111 is at least one soft conductive film layer, and it can bear level bending.If be integrated into collapsible touch control display apparatus by metal conductive materials and electrically conducting transparent material, then the first touch-control sensing layer 602 is formed by metal conductive materials and across extending to bending place, and the second touch-control sensing layer 603 is formed by transparent conductive material (as tin indium oxide), repeatedly bend to bear.Then, in another embodiment of the present utility model, the first touch-control sensing layer and the second touch-control sensing layer can be formed by metal conductive materials or be formed by electrically conducting transparent material.
As shown in Figure 7, for the structural representation of the 7th embodiment that the utility model proposes, the touch-control sensing module 700 in the 7th embodiment comprises substrate 701, first touch-control sensing layer 702, second touch-control sensing layer 703, wire netting compartment (metal mesh layer) 704, first flexible circuit board 705 and the second flexible circuit board 706.Substrate 701 also comprises three regions, and these three regions are respectively the first district 7012 of district 7011, second and bendable folding area 7013, and bendable folding area 7013 can make substrate 701 have folded state and deployed condition.First touch-control sensing floor 702 is arranged on below substrate 701 and also corresponds to the first district 7011, and the second touch-control sensing floor 703 is arranged on the below of substrate 701 and corresponds to the second district 7012, and the first touch-control sensing layer 702 and the separated from one another and spacing of being separated by of the second touch-control sensing layer 703, and be electrically connected to the first flexible circuit board 704 and the second flexible circuit board 705 respectively, and wire netting compartment 704 is arranged on below substrate 701 also corresponding to bendable folding area 7013, wherein wire netting compartment 704 and the first touch-control sensing layer 702 and the second touch-control sensing layer 703 separated from one another and be electrically insulated.In addition, wire netting compartment 704 is also electrically connected to the first flexible circuit board 705, second flexible circuit board 706 or another flexible circuit board, to provide touch controllable function, and owing to being use metal grill as bending place, repeatedly bends so can bear.The first touch-control sensing layer 702 in the present embodiment and the second touch-control sensing layer 703 can be indium-tin oxide film layers (Indium Tin Oxide layer, ITO layer) or also can be metal grill layer.It should be noted that, because this wire netting compartment 704 also has touch controllable function, therefore also touch-control sensing can be carried out in bent area, to make the overall inducing function of touch-control sensing module 700 smooth and easy more continuously, and because metal material can bear and repeatedly bend, so the situation also not having broken string inefficacy when operating produces.
As shown in Figure 8, the manufacture method of the touch control display apparatus proposed for the utility model.The manufacture method 800 of this touch control display apparatus includes the following step:
Step 801 a: substrate is provided, it has the firstth district, the secondth district and bendable folding area, and this bendable folding area is between this firstth district and this secondth district, to make this touch control display apparatus have folded state and deployed condition, wherein this substrate is the integrated flexible base plate of full slice system.
Step 802: form inductive layer below substrate, this inductive layer comprises the first pattern inductive layer and the second pattern inductive layer, and this first pattern inductive layer at least corresponds to the firstth district, and this second pattern inductive layer at least corresponds to the secondth district.Preferably, this the first pattern inductive layer and this second pattern inductive layer is separated from one another is electrically insulated and a spacing of being separated by, this inductive layer also comprises the analogous diagram pattern layer (dummy pattern layer) or metal net shaped rete that are positioned at this spacing, this emulation pattern or this wire netting compartment also correspond to this bendable folding area, and this wire netting compartment also can have touch controllable function.
Step 803: the display module that two separated from one another is provided, correspond respectively to the firstth district and the secondth district also to engage respectively, wherein these two display modules can be display device of the same type, all such as liquid crystal display modules, or dissimilar display device, such as one is liquid crystal display module, and another is organic light-emitting diode display module.
Touch control display apparatus of the present utility model, a kind of full slice system bent touch-control sensing module is proposed to carry out whole touch-control, and can solve large touch display compare take up room and inconvenience storage shortcoming, and touch-control sensing layer separated from one another is set in both sides, bent area, causes the problem that cannot operate completely to solve central bending place wire fracture.In addition, in above-described embodiment, touch-control display module also only can connect a flexible circuit board, makes originally separated from one another and multiple touch-control sensing layers of electrical isolation carry out electrical ties by the stronger plain conductor of intensity or wireless transmission.
The foregoing is only most preferred embodiment of the present utility model; when not limiting with this scope that the utility model implements; scope of the present utility model should be as the criterion with the scope of claims request protection; namely the equalization change generally done according to the scope of the utility model claims request protection with modify, all should still belong in scope that the utility model contains.
Claims (15)
1. a touch-control sensing module, comprising:
Substrate, described substrate has the firstth district, the secondth district and bendable folding area, and described bendable folding area between described firstth district and described secondth district, and makes described touch control display apparatus have folded state and deployed condition; And
Inductive layer, described inductive layer is arranged on the below of described substrate and comprises the first pattern inductive layer and the second pattern inductive layer, described first pattern inductive layer at least corresponds to shown firstth district, and described second pattern inductive layer at least corresponds to described secondth district, wherein said first pattern inductive layer and the separated from one another and spacing of being separated by of described second pattern inductive layer.
2. touch-control sensing module as claimed in claim 1, wherein said spacing is positioned at described bendable folding area, and described substrate is the flexible base plate be integrally formed.
3. touch-control sensing module as claimed in claim 1, wherein said inductive layer also comprises analogous diagram pattern layer, described analogous diagram pattern layer is positioned at described spacing and corresponds to described bendable folding area, described analogous diagram pattern layer and described first patterned layer and the insulation separated from one another of described second patterned layer.
4. touch-control sensing module as claimed in claim 3, the material of the first pattern inductive layer shown in it and described second pattern inductive layer is transparent conductive material, and the material of described analogous diagram pattern layer is conductive metal material.
5. touch-control sensing module as claimed in claim 1, wherein said first pattern inductive layer at least corresponds to described firstth district and described bendable folding area, and described second pattern inductive layer at least corresponds to described secondth district, described first pattern inductive layer is flexible conductive film layer.
6. touch-control sensing module as claimed in claim 5, wherein said flexible conductive film layer is across described bendable folding area, and described spacing is not positioned at described bendable folding area.
7. a touch control display apparatus, comprising:
Substrate, described substrate has the firstth district, the secondth district and bendable folding area, and described bendable folding area is between described firstth district and described secondth district, and makes described touch control display apparatus have folded state and deployed condition;
Inductive layer, is arranged on the below of described substrate and comprises the first pattern inductive layer and the second pattern inductive layer, and described first pattern inductive layer at least corresponds to described firstth district, and described second pattern inductive layer at least corresponds to described secondth district;
First display module, described first display module is arranged on below described inductive layer, and corresponds to described firstth district; And
Second display module, described second display module is arranged on below described inductive layer, and corresponds to described secondth district.
8. touch control display apparatus as claimed in claim 7, wherein said inductive layer is continuity inductive layer, and namely described first pattern inductive layer and described second pattern inductive layer are connected with each other.
9. touch control display apparatus as claimed in claim 7, wherein said first pattern inductive layer and the separated from one another and spacing of being separated by of described second pattern inductive layer, described inductive layer also comprises analogous diagram pattern layer, described analogous diagram pattern layer be positioned at described spacing and correspond to described bendable folding area, and with described first pattern inductive layer and described second pattern inductive layer isolated insulation.
10. touch control display apparatus as claimed in claim 7, wherein said first pattern inductive layer and the separated from one another and spacing of being separated by of described second pattern inductive layer, described inductive layer also comprises metal net shaped rete, described metal net shaped rete is positioned at described spacing and corresponds to described bendable folding area, and touch controllable function is provided, and described metal net shaped rete and described first pattern inductive layer and the insulation separated from one another of described second pattern inductive layer.
11. touch control display apparatus as claimed in claim 7, wherein said first pattern inductive layer is single layer structure or double-decker, and described second pattern inductive layer is single layer structure or double-decker.
12. touch control display apparatus as claimed in claim 7, wherein said first display module is liquid crystal display module, and described second display module is active organic light-emitting diode display module.
13. touch control display apparatus as claimed in claim 7, also comprise fixed fold structure, the described substrate that described fixed fold structure is fixedly bent.
14. touch control display apparatus as claimed in claim 7, also comprise adhesion layer, described adhesion layer shows module and described second at described inductive layer and described first and shows between module, described inductive layer and described first is shown module and described second and shows module and combine.
15. touch control display apparatus as claimed in claim 7, wherein said first pattern inductive layer and the separated from one another and spacing of being separated by of described second pattern inductive layer.
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| CN201420288559.4U CN204143398U (en) | 2014-05-30 | 2014-05-30 | Bendable touch-control sensing module and display device thereof |
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| CN201420288559.4U CN204143398U (en) | 2014-05-30 | 2014-05-30 | Bendable touch-control sensing module and display device thereof |
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| WO2016161894A1 (en) * | 2015-04-10 | 2016-10-13 | 京东方科技集团股份有限公司 | Foldable substrate and manufacturing method therefor, and flexible display device |
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