CN207764757U - Touch-control display module and electronic device - Google Patents

Abstract

The utility model discloses a kind of touch-control display modules.Touch-control display module includes flexible panel, polarization element, touch control layer and display panel.Along the light direction of display panel, display panel, polarization element and flexible panel are cascading.Touch control layer is integrated on polarization element.The invention also discloses a kind of electronic devices.The touch-control display module and electronic device of the utility model embodiment are using polarization element as substrate, touch control layer is directly integrated on polarization element, without additionally using substrate of the base material as touch control layer, so as to reduce the thickness of touch-control display module, keep the shape of touch-control display module thinner more attractive, the usage experience of user is preferable.

Description

Touch-control display module and electronic device

Technical field

The utility model is related to display technology field, more particularly to a kind of touch-control display module and electronic device.

Background technology

The thickness of existing flexible display screen is larger, and the excessive aesthetics for not only influencing flexible display screen of thickness also influences The usage experience of user.

Utility model content

The embodiments of the present invention provide a kind of touch-control display module and electronic device.

The touch-control display module of the utility model embodiment includes flexible panel, polarization element, touch control layer and display surface Plate, along the light direction of the display panel, the display panel, the polarization element and the flexible panel are stacked gradually and are set It sets, the touch control layer is integrated on the polarization element.

Touch control layer is directly integrated in by the touch-control display module of the utility model embodiment using polarization element as substrate On polarization element, without additionally using substrate of the base material as touch control layer, so as to reduce the thickness of touch-control display module, make The shape of touch-control display module is thinner more attractive, and the usage experience of user is preferable.

In some embodiments, the polarization element includes line polarisation layer and quarter-wave phase delay layer.

The work(for the ambient light that polarization element in the touch-control display module of the utility model embodiment has reflection extraneous Can, the contrast of touch-control display module can be promoted, the display performance of touch-control display module is optimized.

In some embodiments, the touch control layer includes conductive layer.

Conductive layer can be used for detecting the touch-control of user.

In some embodiments, the conductive layer is single conductive layer, and the polarization element includes towards the flexibility The first surface of panel, the single conductive layer setting is on the first surface.

Conductive layer is positioned close on the first surface of flexible panel, sensitiveer to the touch control detection of user.

In some embodiments, the conductive layer is single conductive layer, and the polarization element includes towards the display The second surface of panel, the single conductive layer are arranged on the second surface.

Single conductive layer is arranged on the second surface of polarization element, second surface at a distance from flexible panel farther out, because This can play the role of single conductive layer setting be effectively protected to single conductive layer on a second surface.

In some embodiments, the polarization element includes towards the first surface of the flexible panel, the conduction Layer includes a plurality of first electrode being arranged in parallel on the first surface, a plurality of the be arranged in parallel on the first surface Two electrodes and a plurality of bridge formation electrode, the touch control layer further include insulator；The a plurality of first electrode and a plurality of second electricity Extremely crisscross, every first electrode is continuously uninterrupted, and every second electrode is with corresponding described a plurality of first The staggered place of electrode disconnects and is not turned on the corresponding a plurality of first electrode；Each bridge formation electrode will be corresponding described The gap of second electrode is connected；The insulator insulate the bridge formation electrode and the first electrode.

Conductive layer, which is single layer bridging structure, can make the thickness of touch control layer smaller, further such that touch-control display module Thickness is also smaller.

In some embodiments, the polarization element includes towards the first surface of the flexible panel and towards described The second surface of display panel, the conductive layer include the first conductive layer being arranged on the first surface and are arranged described The second conductive layer on second surface, first conductive layer include a plurality of first electrode of spaced setting, and described second Conductive layer includes a plurality of second electrode of spaced setting, and a plurality of first electrode is handed in length and breadth with a plurality of second electrode It is wrong.

The conductive layer of multilayered structure can detect the multi-point touch of user, meet the use demand of user.

In some embodiments, the polarization element includes base material and rotatory polarization piece；The base material is arranged in the circle Between polaroid and the display panel, the rotatory polarization piece includes towards the upper surface of the flexible panel, the base material packet The top surface towards the flexible panel is included, the conductive layer includes that the first conductive layer of setting on the upper surface exists with setting The second conductive layer on the top surface, first conductive layer include a plurality of first electrode of spaced setting, and described second Conductive layer includes a plurality of second electrode of spaced setting, and a plurality of first electrode and a plurality of second electrode are handed in length and breadth It is wrong.

The conductive layer of multilayered structure can detect the multi-point touch of user, meet the use demand of user.

In some embodiments, the polarization element includes base material and rotatory polarization piece；The base material is arranged described soft Between property panel and the rotatory polarization piece, the base material includes towards the top surface of the flexible panel, and the rotatory polarization piece includes Towards the upper surface of the flexible panel, the conductive layer includes the first conductive layer being arranged on the top surface and is arranged in institute State the second conductive layer on upper surface, first conductive layer includes a plurality of first electrode of spaced setting, and described second Conductive layer includes a plurality of second electrode of spaced setting, and a plurality of first electrode is handed in length and breadth with a plurality of second electrode It is wrong.

The conductive layer of multilayered structure can detect the multi-point touch of user, meet the use demand of user.

In some embodiments, the touch-control display module further includes adhesive layer, the flexible panel, the rotatory polarization Piece, the base material and the display panel is adjacent is bonded between the two by the adhesive layer.

Each layer of touch-control display module is bonded together by adhesive layer can consolidate the structure of touch-control display module.

In some embodiments, the touch-control display module further includes adhesive layer, the flexible panel, the base material, The rotatory polarization piece and display panel is adjacent is bonded between the two by the adhesive layer.

Each layer of touch-control display module is bonded together by adhesive layer can consolidate the structure of touch-control display module.

In some embodiments, the touch-control display module further includes adhesive layer, the flexible panel, the polarizing element The part and display panel is adjacent is bonded between the two by the adhesive layer.

Each layer of touch-control display module is bonded together by adhesive layer can consolidate the structure of touch-control display module.

The electronic device of the utility model embodiment includes the touch-control described in shell and above-mentioned any one embodiment Display module.The shell includes roof and bottom wall.The touch-control display module connects the roof and the bottom wall.

Touch-control display module in the electronic device of the utility model embodiment is using polarization element as substrate, by touch-control Layer is directly integrated on polarization element, without additionally using substrate of the base material as touch control layer, is shown so as to reduce touch-control The thickness of module can further reduce the thickness of electronic device, keep the shape of electronic device thinner more attractive, the use of user Experience is preferable.In addition, electronic device has bent characteristic, the use demand of user can be met.

The additional aspect and advantage of the utility model will be set forth in part in the description, partly will be from following description In become apparent, or recognized by the practice of the utility model.

Description of the drawings

The utility model is above-mentioned and/or additional aspect and advantage from the following description of the accompanying drawings of embodiments will Become apparent and is readily appreciated that, wherein：

Fig. 1 is the structural schematic diagram of the touch-control display module of the utility model certain embodiments.

Fig. 2 is the principle schematic of the polarization element of the utility model certain embodiments.

Fig. 3 is the conspectus of the conductive layer of the utility model certain embodiments.

Fig. 4 is the structural schematic diagram of the touch-control display module of the utility model certain embodiments.

Fig. 5 is the structural schematic diagram of the touch-control display module of the utility model certain embodiments.

Fig. 6 is the conspectus of the conductive layer of the utility model certain embodiments.

Fig. 7 is the structural schematic diagram of the touch-control display module of the utility model certain embodiments.

Fig. 8 is the conspectus of the conductive layer of the utility model certain embodiments.

Fig. 9 is the structural schematic diagram of the touch-control display module of the utility model certain embodiments.

Figure 10 is the structural schematic diagram of the touch-control display module of the utility model certain embodiments.

Figure 11 is the structural schematic diagram of the electronic device of the utility model certain embodiments.

Specific implementation mode

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining attached drawing description is exemplary, it is intended to for explaining the utility model, and should not be understood as to the utility model Limitation.

Also referring to Fig. 1 and Fig. 2, the touch-control display module 100 of the utility model embodiment include flexible panel 10, Polarization element 20, touch control layer 30 and display panel 40.Wherein, along the light direction of display panel 40, display panel 40, polarizing element Part 20 and flexible panel 10 are cascading.Touch control layer 30 is integrated on polarization element 20.

Specifically, flexible panel 10 can play a protective role to touch-control display module 100.The material of flexible panel 10 can be with It is polyimides (Polyimide, PI), polymethyl methacrylate (Polymethyl Methacrylate, PMMA), poly- carbon Acid esters (Polycarbonate, PC), polyethylene terephthalate (Polyethylene Glycol At least one of Terephthalate, PET).In other words, flexible panel 10 may be used in PI, PMMA, PC or PET and appoint The unitary plastic material for anticipating a kind of is made, alternatively, flexible panel 10 can also be made of composite plastic, composite plastic can be Both both PI and PMMA, PC and PET etc., can also be PI, PMMA and PC three, PMMA, PC and PET three or PI, PMMA, PC and PET etc..Wherein, PI, PMMA, PC or PET all have good light transmittance and mechanical performance, and use is above-mentioned Material, which makes flexible panel 10, can not only meet the display function of touch-control display module 100, also may make touch-control display module 100 have preferable bendable folding endurance.Preferably, flexible panel 10 can be used PI and be made.PI has excellent light transmission, thoroughly Light rate can reach 90% or more；PI also has good heat resistance, chemical stability and enough mechanical strengths, and it is aobvious to meet touch-control Show module 100 to high temperature resistant, wear-resistant and resistant to bending demand.In addition, the value range of the thickness of flexible panel 10 is 20 μm To 300 μm.Such as：The thickness of flexible panel 10 can be 20 μm, 25 μm, 30 μm, 32.5 μm, 35 μm, 40 μm, 45 μm, 50 μm, 57 μm、60μm、66μm、70μm、75μm、80μm、90μm、95μm、100μm、105μm、110μm、115μm、120μm、125μm、130 μm、135μm、140μm、145μm、150μm、155μm、160μm、165μm、170μm、175μm、180μm、185μm、190μm、 195μm、200μm、205μm、210μm、215μm、220μm、225μm、230μm、235μm、240μm、245μm、250μm、255μ M, 260 μm, 265 μm, 270 μm, 275 μm, 280 μm, 285 μm, 290 μm, 295 μm, 300 μm etc..It is appreciated that flexible panel 10 Thickness be in 20 μm to 300 μm it is relatively mild.Otherwise, if the thickness of flexible panel 10 crosses (such as less than 20 μm) small, flexible face Plate 10 possibly can not play the role of preferably protecting touch-control display module 100；If the thickness of flexible panel 10 is excessive (such as larger than 300 μm), then cause the thickness of entire touch-control display module 100 also to increase, influences the aesthetics and use of touch-control display module 100 The usage experience at family.

Organic Light Emitting Diode (Organic Light-Emitting Diode, OLED) display can be used in display panel 40 Screen.OLED display screen includes cathode, anode, electron transfer layer, hole transmission layer and luminescent layer.It is inclined applying to OLED display screen When pressure, cathode injects electronics, and anode injects hole, by injected electrons and hole respectively in electron transfer layer and hole transmission layer Interior to be transmitted in the form of colliding wave and compound in luminescent layer, to which the luminous layering molecule of excitation generates singlet exciton, singlet swashs Sub- attenuation and shine.OLED display screen has self luminous characteristic, compared to liquid crystal display (Liquid Crystal Display, LCD) for, OLED display screen is not necessarily to backlight and liquid crystal layer, therefore, the thinner thickness of OLED display screen.In addition, The spontaneous light characteristic of OLED display screen makes power consumption of the OLED display screen in dark picture be far below the constant backlight of LCD display Power consumption possesses energy-efficient characteristic.In addition, OLED display screen also have can flexing, not easily broken characteristic, it is aobvious that touch-control can be met Show demand of the module 100 to resistant to bending.

The main function of polarization element 20 in touch-control display module 100 is to eliminate extraneous reflected light.Specifically, it please tie Fig. 2 is closed, polarization element 20 includes line polarisation layer 21 and quarter-wave phase delay layer 23.When display panel 40 uses OLED It when display screen, is made since the cathode of OLED display screen is generally metal, the ambient light in meeting reflected illumination to display panel 40, Influence the display of touch-control display module 100.It, can be aobvious to eliminate influence of the ambient light of reflection to touch-control display module 100 Show that setting includes line polarisation layer 21 and the polarization element 20 of quarter-wave phase delay layer 23 on the light direction of panel 40. Wherein, ambient light is after line polarisation layer 21, the linear polarization of the only surplus half of ambient light, and quarter-wave phase delay layer 23 can convert the ambient light of linear polarization to circularly polarized light (left-handed rotation).When circularly polarized light is shown the cathode reflection of panel 40 Orthogonal circularly polarized light (right-handed rotation) can be formed afterwards, so using quarter-wave phase delay layer 23 after, final is inclined The polarization vertical with the between axlemolecules of line polarisation layer 21 is presented in light, light extraction, ambient light can not just be blocked in polarization element 20 again, To promote the contrast of touch-control display module 100.

Polarization element 20 includes line polarisation layer 21 and quarter-wave phase delay layer 23.Line in polarization element 20 is inclined Photosphere 21 can be TAC/PVA/TAC structures.Wherein, polyvinyl alcohol (Polyvinyl alcohol, PVA) is a kind of polyphosphazene polymer Object is closed, by all kinds of there is dichroic organic dyestuff to be dyed to PVA, while at a certain temperature and humidity conditions PVA is set to be extended, so that PVA absorbs dichroic dye and forms polarization property.Cellulose triacetate (Triacetyl- Celllulose, TAC) there is optical homogeneity and good translucency, on PVA layers of two opposite surfaces, TAC layer is set It can shield to PVA layers, prevent PVA layers to lose polarizing properties because of water suction, colour fading.Cyclenes can also be used in line polarisation layer 21 Hydrocarbon polymer (Cyclo Olefin Polymer, COP) is made.COP has good optical property, mechanicalness and heat resistance, COP can have polarizing function after certain stretch processing.Quarter-wave phase delay layer 23 in polarization element 20 COP materials can also be used to be made.Wherein, the thickness of polarization element 20 can be 20 μm to 100 μm, for example, the thickness of polarization element 20 Degree can be 20 μm, 37 μm, 60.5 μm, 86 μm, 90 μm, 100 μm etc..It is appreciated that the thickness of polarization element 20 is in 20 μm extremely 100 μm relatively mild.Otherwise, on the one hand, if the thickness of polarization element 20 cross (such as less than 20 μm) it is small, to the system of polarization element 20 The more demanding of technique is made, manufacturing process may be complex, increases the manufacturing cost of touch-control display module 100；On the other hand, If the thickness of flexible panel 10 is excessive (such as larger than 100 μm), the thickness of entire touch-control display module 100 is caused also to increase, shadow Ring the aesthetics of touch-control display module 100 and the usage experience of user.

Touch control layer 30 includes conductive layer 33, and conductive layer 33 is used to detect the touch-control of user.Using polarization element 20 as substrate, Conductive layer 33 is integrated on polarization element 20.The material of conductive layer 33 can be used tin indium oxide (Indium Tin Oxide, ITO), any one in silver nanowire, metal silver wire.Wherein, tin indium oxide, silver nanowire, metal silver wire all have well Light transmittance and electric conductivity, can realize detection user's touch-control function while not to the light extraction light path of display panel 40 into Row blocks.Conductive layer 33 can be integrated on polarization element 20 by kinds of processes.For example, conductive material (such as ITO) is passed through Plated film mode is coated on polarization element 20, then is formed with the polarization element 20 of conductive material to plating and is etched to obtain conductive layer 33；Alternatively, being coated with silver nanowire or metal silver wire on polarization element 20, recycle laser or wet etching to being coated with Silver nanowire or the polarization element of metal silver wire 20 are etched to obtain conductive layer 33；Alternatively, using glue is imprinted by polarizing element Part 20 extrudes groove structure, then fills conductive metal into groove structure to obtain conductive layer 33 etc..

The touch-control display module 100 of the utility model embodiment is straight by touch control layer 30 using polarization element 20 as substrate It connects and is integrated on polarization element 20, without additionally using base material as the substrate of touch control layer 30, shown so as to reduce touch-control The thickness of module 100 keeps the shape of touch-control display module 100 thinner more attractive, and the usage experience of user is preferable.In addition, this reality Have the function of the extraneous ambient light of reflection with the polarization element 20 in the touch-control display module 100 of novel embodiment, can carry Rise the contrast of touch-control display module 100, the display performance of optimization touch-control display module 100.

Also referring to Fig. 1 and Fig. 3, in some embodiments, conductive layer 33 is the conductive layer 33 of single layer, and thickness can 0.5 μm to 5 μm is taken, for example, the thickness of conductive layer 33 can be 0.5 μm, 1.2 μm, 3 μm, 4.6 μm, 5 μm etc..Polarization element at this time 20 include the first surface 251 towards flexible panel 10, and the conductive layer 33 of single layer is arranged on first surface 251.Single layer is led Electric layer 33 has multiple electrodes 331.Each electrode 331 is connected to processing chip 60 by conducting wire 70.The finger touch of user When touch-control display module 100, the electrode 331 on position of touch changes relative to the self-capacitance on ground, leads to the defeated of electrode 331 Go out signal also to change.Processing chip 60 scans the output signal that can be obtained each electrode 331 after each electrode 331, leads to It crosses and analyzes the output signal of each electrode 331 and whether change and can judge the position of touch of user.The conductive layer of single layer 33 are positioned close on the first surface 251 of flexible panel 10 (namely close to user), sensitiveer to the touch control detection of user.

Also referring to Fig. 3 and Fig. 4, in some embodiments, conductive layer 33 is the conductive layer 33 of single layer, and thickness can 0.5 μm to 5 μm is taken, for example, the thickness of the conductive layer 33 of single layer can be 0.5 μm, 1.2 μm, 3 μm, 4.6 μm, 5 μm etc..Polarizing element Part 20 includes the second surface 252 towards display panel 40, and second surface 252 is opposite with first surface 251.The conductive layer of single layer 33 are arranged on second surface 252.The conductive layer 33 of single layer has multiple electrodes 331.Each electrode 331 is connected by conducting wire 70 It is connected to processing chip 60.When the finger touch touch-control display module 100 of user, the electrode 331 on position of touch is relative to ground Self-capacitance changes, and the output signal of electrode 331 is caused also to change.Processing chip 60 scans after each electrode 331 i.e. The output signal that each electrode 331 can be obtained, whether the output signal by analyzing each electrode 331, which changes, can determine whether Go out the position of touch of user.The conductive layer 33 of single layer is arranged on the second surface 252 of polarization element 20, second surface 252 with Farther out, therefore the conductive layer of single layer 33 is arranged on second surface 252 can be to the conduction of single layer for the distance of flexible panel 10 Layer 33 plays the role of being effectively protected.

Also referring to Fig. 5 and Fig. 6, in some embodiments, conductive layer 33 can be single layer bridging structure.Polarization element 20 include the first surface 251 towards flexible display panels 40.Specifically, conductive layer 33 includes a plurality of first electricity disposed in parallel Pole 34, a plurality of second electrode 35 disposed in parallel and a plurality of bridge formation electrode 36.Touch control layer 30 further includes insulator 305.First electricity The value of the thickness of pole 34 and second electrode 35 can be 0.5 μm to 5 μm, for example, the thickness of first electrode 24 can be 0.5 μm, 1.7 μm, 2.6 μm, 3.3 μm, 4 μm, 5 μm etc., the thickness of second electrode 24 can be 0.5 μm, 1 μm, 2.4 μm, 3 μm, 4.4 μm, 5 μm etc.； The thickness of bridge formation electrode 36 can be 10nm to 100nm, for example, the thickness of bridge formation electrode 36 can be 10nm, 29nm, 43nm, 68.3nm, 88nm, 90.2nm, 100nm etc.；The material of insulator 305 can be transparent photoresist or insulation butter etc. with good The organic material of translucency and insulating properties, insulator 305 can be used the modes such as silk-screen or yellow light processing procedure and made.A plurality of first Electrode 34 and a plurality of second electrode 35 are arranged on first surface 251, and a plurality of first electrode 34 and a plurality of second electrode 35 are vertical Traversed by is wrong.Wherein, as shown in fig. 6, a plurality of first electrode 34 and a plurality of second electrode 35 it is crisscross refer to it is a plurality of first electricity Pole 34 is mutually perpendicular to interlock with a plurality of second electrode 35, i.e. first electrode 34 and the angle of second electrode 35 is 90 degree；Certainly, exist In other embodiment, a plurality of first electrode 34 and a plurality of second electrode 35 be crisscross can also be a plurality of first electrode 34 with A plurality of second electrode 35 is mutually inclined staggeredly.Every first electrode 34 is continuous uninterrupted, every second electrode 35 with it is corresponding The staggered place of a plurality of first electrode 34 disconnects and is not turned on corresponding a plurality of first electrode 34.Every bridge formation electrode 36 will correspond to Second electrode 35 gap conducting, insulator 305 insulate bridge formation electrode 36 and first electrode 34.Single layer bridging structure A plurality of first electrode 34 in conductive layer 33 is used as driving electrodes, a plurality of second electrode 35 to be used as induction electrode, each first Electrode 34 and each second electrode 35 are connected to processing chip 60 by conducting wire 70.In use, to each first electrode 34 timesharing apply driving voltage, and the output of the first electrode 34 is scanned when each first electrode 34 is applied with driving voltage Signal while a plurality of second electrode 35 is scanned successively to obtain multiple output signals.In user's touch-control touch-control display module 100 When, the output signal of the corresponding first electrode 34 of position of touch and second electrode 35 can change, in this way, can judge to use The position of touch at family.Conductive layer 33, which is single layer bridging structure, can make the thickness of touch control layer 30 smaller, further such that touch-control The thickness of display module 100 is also smaller.

Fig. 7 and Fig. 8 are please referred to, in some embodiments, the structure of conductive layer 33 can be multilayered structure.Polarizing element at this time Part 20 includes the first surface 251 towards flexible panel 10 and the second surface 252 towards display panel 40.Multilayered structure is led Electric layer 33 includes the first conductive layer 37 and the second conductive layer 38.The value of the thickness of first conductive layer 37 and the second conductive layer 38 can It is 0.5 μm to 5 μm, for example, the thickness of the first conductive layer 37 can be 0.5 μm, 1.7 μm, 2.6 μm, 3.3 μm, 4 μm, 5 μm etc., the The thickness of two conductive layers 38 can be 0.5 μm, 1 μm, 2.4 μm, 3 μm, 4.4 μm, 5 μm etc..First conductive layer 37 is arranged in the first table On face 251, the second conductive layer 38 is arranged on second surface 252.First conductive layer 37 is by the first of a plurality of spaced setting Electrode 371 forms, and the second conductive layer 38 is made of the second electrode 381 of a plurality of spaced setting.A plurality of first electrode 371 with A plurality of second electrode 381 is spatially crisscross.Wherein, as shown in figure 8, a plurality of first electrode 371 and a plurality of second electrode 381 spatially crisscross refer to that a plurality of first electrode 371 is spatially mutually perpendicular to hand over a plurality of second electrode 381 Mistake, i.e. first electrode 371 and the angle of second electrode 381 are 90 degree；Certainly, in other embodiments, a plurality of first electrode 371 with a plurality of second electrode 381 is crisscross can also be a plurality of first electrode 371 and a plurality of second electrode 381 spatially It is mutually inclined staggeredly.Specifically, a plurality of first electrode 371 is used as induction electrode, a plurality of second electrode 381 to be used as driving electrodes, Each first electrode 371 and each second electrode 381 are connected to processing chip 60 by conducting wire 70.In use, to every One 381 timesharing of second electrode applies driving voltage, and scan when each second electrode 381 is applied with driving voltage this The output signal of two electrodes 381 while a plurality of first electrode 371 is scanned successively to obtain multiple output signals.In user's touch-control When touch-control display module 100, the mutual capacitance of the corresponding first electrode 371 of position of touch and 381 intersection of second electrode generates change Change, causes first electrode 371 and the output signal of second electrode 381 to change, in this way, can judge the touch-control position of user It sets.The conductive layer 33 of multilayered structure can detect the multi-point touch of user, meet the use demand of user.

Fig. 8 and Fig. 9 are please referred to, in some embodiments, the structure of conductive layer 33 can be multilayered structure.Polarizing element at this time Part 20 includes rotatory polarization piece 26 and base material 27, and wherein rotatory polarization piece 26 prolongs with including line polarisation layer 21 and quarter-wave phase The polarization element 20 of slow layer 23 is the polaroid for having same polarization effect, and in other words, rotatory polarization piece 26 is also by line polarisation Layer 21 and quarter-wave phase delay layer 23 form.Rotatory polarization piece 26 includes the upper surface 261 towards flexible panel 10, base Material 27 includes the top surface 271 towards flexible panel 10.Along the light direction of display panel 40, display panel 40, base material 27, circle are inclined Mating plate 26 and flexible panel 10 are cascading.The conductive layer 33 of multilayered structure includes the first conductive layer 37 and the second conductive layer 38.The value of the thickness of first conductive layer 37 and the second conductive layer 38 can be 0.5 μm to 5 μm, for example, the thickness of the first conductive layer 37 Degree can be 0.5 μm, 1.7 μm, 2.6 μm, 3.3 μm, 4 μm, 5 μm etc., and the thickness of the second conductive layer 38 can be 0.5 μm, 1 μm, 2.4 μ M, 3 μm, 4.4 μm, 5 μm etc..First conductive layer 37 is arranged on upper surface 261, and the second conductive layer 38 is arranged on top surface 271. A plurality of first electrode 371 is spatially crisscross with a plurality of second electrode 381.Wherein, as shown in figure 8, a plurality of first electrode 371 with a plurality of second electrode 381 is spatially crisscross refers to that a plurality of first electrode 371 and a plurality of second electrode 381 exist It is spatially mutually perpendicular to interlock, i.e. first electrode 371 and the angle of second electrode 381 is 90 degree；Certainly, in other embodiment In, a plurality of first electrode 371 and a plurality of second electrode 381 be spatially crisscross can also be a plurality of first electrode 371 with A plurality of second electrode 381 is spatially mutually inclined staggeredly.Specifically, a plurality of first electrode 371 is used as induction electrode, and a plurality of the Two electrodes 381 are used as driving electrodes, and each first electrode 371 and each second electrode equal 381 are connected to by conducting wire 70 Processing chip 60.In use, applying driving voltage to 381 timesharing of each second electrode, and applied in each second electrode 381 The output signal of the second electrode 381 is scanned when added with driving voltage while to scan a plurality of first electrode 371 successively more to obtain A output signal.In user's touch-control touch-control display module 100, the corresponding first electrode 371 of position of touch and second electrode 381 The mutual capacitance of intersection generates variation, and first electrode 371 and the output signal of second electrode 381 is caused to change, in this way, i.e. It can determine whether out the position of touch of user.The conductive layer 33 of multilayered structure can detect the multi-point touch of user, meet making for user Use demand.

Also referring to Fig. 8 and Figure 10, in some embodiments, the structure of conductive layer 33 can be multilayered structure.At this time Polarization element 20 include rotatory polarization piece 26 and base material 27, wherein rotatory polarization piece 26 with include line polarisation layer 21 and quarter-wave The polarization element 20 of phase delay layer 23 is the polaroid for having same polarization effect, in other words, rotatory polarization piece 26 also by Line polarisation layer 21 and quarter-wave phase delay layer 23 form.Rotatory polarization piece 26 includes towards the upper surface of flexible panel 10 261, base material 27 includes the top surface 271 towards flexible panel 10.Along the light direction of display panel 40, display panel 40, circle are inclined Mating plate 26, base material 27 and flexible panel 10 are cascading.The conductive layer 33 of multilayered structure includes the first conductive layer 37 and the Two conductive layers 38.The value of the thickness of first conductive layer 37 and the second conductive layer 38 can be 0.5 μm to 5 μm, for example, first is conductive The thickness of layer 37 can be 0.5 μm, 1.7 μm, 2.6 μm, 3.3 μm, 4 μm, 5 μm etc., and the thickness of the second conductive layer 38 can be 0.5 μm, 1 μm, 2.4 μm, 3 μm, 4.4 μm, 5 μm etc..First conductive layer 37 is arranged on top surface 271, and the second conductive layer 38 is arranged in upper surface On 261.First conductive layer 37 includes the first electrode 371 of a plurality of spaced setting, and the second conductive layer 38 includes a plurality of mutual Spaced second electrode 381.A plurality of first electrode 371 is spatially crisscross with a plurality of second electrode 381.Wherein, As shown in figure 8, a plurality of first electrode 371 with a plurality of second electrode 381 is spatially crisscross refers to a plurality of first electrode 371 are spatially mutually perpendicular to interlock with a plurality of second electrode 381, i.e. first electrode 371 and the angle of second electrode 381 is 90 Degree；Certainly, in other embodiments, a plurality of first electrode 371 with a plurality of second electrode 381 is spatially crisscross may be used also To be that a plurality of first electrode 371 is spatially mutually inclined staggeredly with a plurality of second electrode 381.Specifically, a plurality of first electrode 371 are used as induction electrode, a plurality of second electrode 381 to be used as driving electrodes, each first electrode 371 and each second electrode Equal 381 are connected to processing chip 60 by conducting wire 70.In use, driving voltage is applied to 381 timesharing of each second electrode, and The output signal of the second electrode 381 is scanned when each second electrode 381 is applied with driving voltage while being scanned successively more First electrode 371 is to obtain multiple output signals.In user's touch-control touch-control display module 100, position of touch corresponding The mutual capacitance of 381 intersection of one electrode 371 and second electrode generates variation, leads to the defeated of first electrode 371 and second electrode 381 Go out signal to change, in this way, can judge the position of touch of user.The conductive layer 33 of multilayered structure can detect user's Multi-point touch meets the use demand of user.

Referring again to Fig. 1, in some embodiments, touch-control display module 100 includes adhesive layer 50.Flexible panel 10, Polarization element 20 and display panel 40 is adjacent is bonded between the two by adhesive layer 50.In other words, flexible panel 10 and polarisation It is bonded by adhesive layer 50 between element 20, is glued by adhesive layer 50 between polarization element 20 and display panel 40 It connects.In this way, each layer of touch-control display module 100 is bonded together by adhesive layer 50 can consolidate touch-control display module 100 Structure.The thickness of adhesive layer 50 is 10 μm to 100 μm desirable, for example, the thickness of adhesive layer 50 can be 10 μm, 30 μm, 59 μm, 71 μ M, 82.2 μm, 93.5 μm, 100 μm etc..The material of adhesive layer 50 can be used optical cement (Optically Clear Adhesive, OCA), optical clear resin (Optical Clear Resin, OCR), pressure-sensitive cement (Pressure Sensitive Adhesives, PSA), any one in shadowless glue (Ultraviolet Rays, UV).OCA, OCR, PSA and UV glue have There are preferable translucency and flexibility, can meet touch-control display module 100 can be around the demand of folding, while will not block display The light extraction light path of panel 40.Preferably, in specific embodiment of the utility model, the material of adhesive layer 50 uses OCA.

Referring again to Fig. 9, in some embodiments, touch-control display module 100 includes adhesive layer 50.Flexible panel 10, Rotatory polarization piece 26, base material 27 and display panel 40 is adjacent is bonded between the two by adhesive layer 50.In other words, flexible panel 10 It is carried out by adhesive layer 50 between rotatory polarization piece 26 be bonded, is glued by adhesive layer 50 between rotatory polarization piece 26 and base material 27 It connects, is bonded by adhesive layer 50 between base material 27 and display panel 40.In this way, each layer of touch-control display module 100 is led to It crosses adhesive layer 50 and is bonded together the structure that can consolidate touch-control display module 100.The material of adhesive layer 50 can be used OCA, OCR, Any one in PSA and UV glue.OCA, OCR, PSA and UV glue all have preferable translucency and flexibility, can meet tactile Control display module 100 can be around the demand of folding, while will not block the light extraction light path of display panel 40.Preferably, in this practicality In novel specific embodiment, the material of adhesive layer 50 uses OCA.

Referring again to Figure 10, in some embodiments, touch-control display module 100 includes adhesive layer 50.Flexible panel 10, Base material 27, rotatory polarization piece 26 and display panel 40 is adjacent is bonded between the two by adhesive layer 50.In other words, flexible panel 10 Carried out by adhesive layer 50 between base material 27 it is be bonded, carried out by adhesive layer 50 between base material 27 and rotatory polarization piece 26 it is be bonded, It is bonded by adhesive layer 50 between rotatory polarization piece 26 and display panel 40.In this way, each layer of touch-control display module 100 is led to It crosses adhesive layer 50 and is bonded together the structure that can consolidate touch-control display module 100.The material of adhesive layer 50 can be used OCA, OCR, Any one in PSA and UV glue.OCA, OCR, PSA and UV glue all have preferable translucency and flexibility, can meet tactile Control display module 100 can be around the demand of folding, while will not block the light extraction light path of display panel 40.Preferably, in this practicality In novel specific embodiment, the material of adhesive layer 50 uses OCA.

Please refer to Fig.1 1, the utility model also provides a kind of electronic device 1000.Electronic device 1000 includes 200 He of shell Touch-control display module 100 described in above-mentioned any one embodiment.Shell 200 includes roof 201 and bottom wall 203.Touch-control is aobvious Show that module 100 connects roof 201 and bottom wall 203.

Specifically, for example, when electronic device 1000 is wrist-watch, roof 201 and bottom wall 203 can be wrist-watch can snapping two End.When electronic device 1000 is mobile phone, roof 201 and bottom wall 203 are that (user plane is to touch-control display module for the placement of mobile phone vertical screen 100) when, the part above screen is the roof 201 of mobile phone, and the part below screen is the bottom wall 203 of mobile phone.

Touch-control display module 100 in electronic device 1000 directly collects using polarization element 20 as substrate, by touch control layer 30 At on polarization element 20, without additionally using base material as the substrate of touch control layer 30, so as to reduce touch-control display module 100 thickness can further reduce the thickness of electronic device 1000, keep the shape of electronic device 1000 thinner more attractive, use The usage experience at family is preferable.In addition, electronic device 1000 with bent characteristic, can meet, user is diversified to use need It asks.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example Point is contained at least one embodiment or example of the utility model.In the present specification, to the schematic table of above-mentioned term It states and is necessarily directed to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be with It can be combined in any suitable manner in any one or more of the embodiments or examples.In addition, without conflicting with each other, this field Technical staff can by the feature of different embodiments or examples described in this specification and different embodiments or examples into Row combines and combination.

In addition, term " first ", " second " are used for description purposes only, it is not understood to indicate or imply relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include at least one this feature.The meaning of " plurality " is at least two, such as two in the description of the present invention, It is a, three etc., unless otherwise specifically defined.

Although the embodiments of the present invention have been shown and described above, it is to be understood that above-described embodiment is Illustratively, it should not be understood as limiting the present invention, those skilled in the art are in the scope of the utility model Inside it can make changes, modifications, alterations, and variations to the above described embodiments.

Claims (9)

1. a kind of touch-control display module, which is characterized in that the touch-control display module includes flexible panel, polarization element, touch-control Layer, display panel and adhesive layer, along the light direction of the display panel, the display panel, the polarization element and described Flexible panel is cascading, and the touch control layer is integrated on the polarization element, the flexible panel, the polarization element It is adjacent with the display panel to be bonded between the two by the adhesive layer.

2. touch-control display module according to claim 1, which is characterized in that the polarization element includes line polarisation layer and four / mono- wavelength phases retardation layer.

3. touch-control display module according to claim 1, which is characterized in that the touch control layer includes conductive layer.

4. touch-control display module according to claim 3, which is characterized in that the conductive layer is single conductive layer, described Polarization element includes the first surface towards the flexible panel and the second surface towards the display panel, and the single layer is led Electric layer is arranged on the first surface；Or

The single conductive layer is arranged on the second surface.

5. touch-control display module according to claim 3, which is characterized in that the polarization element includes towards the flexibility The first surface of panel, the conductive layer includes a plurality of first electrode being arranged in parallel on the first surface, a plurality of parallel It further includes insulator that second electrode on the first surface and a plurality of bridge formation electrode, the touch control layer, which is arranged,；It is a plurality of described First electrode and a plurality of second electrode are crisscross, and every first electrode is continuously uninterrupted, every second electricity Pole and the corresponding a plurality of first electrode staggered place disconnect and be not turned on the corresponding a plurality of first electrode；Each The gap of the corresponding second electrode is connected the bridge formation electrode；The insulator is by the bridge formation electrode and described the One electrode insulation.

6. touch-control display module according to claim 3, which is characterized in that the polarization element includes towards the flexibility The first surface of panel and second surface towards the display panel, the conductive layer include setting on the first surface The first conductive layer and the second conductive layer for being arranged on the second surface, first conductive layer includes spaced setting A plurality of first electrode, second conductive layer includes a plurality of second electrode of spaced setting, a plurality of first electrode It is crisscross with a plurality of second electrode.

7. touch-control display module according to claim 3, which is characterized in that the polarization element includes base material and rotatory polarization Piece；

The base material is arranged between the rotatory polarization piece and the display panel, and the rotatory polarization piece includes towards the flexibility The upper surface of panel, the base material include towards the top surface of the flexible panel, and the conductive layer includes being arranged in the upper table The second conductive layer of the first conductive layer and setting on the top surface on face, first conductive layer includes spaced setting A plurality of first electrode, second conductive layer includes a plurality of second electrode of spaced setting, a plurality of first electrode It is crisscross with a plurality of second electrode；Or

The base material is arranged between the flexible panel and the rotatory polarization piece, and the base material includes towards the flexible panel Top surface, the rotatory polarization piece includes towards the upper surface of the flexible panel, and the conductive layer includes being arranged in the top surface On the first conductive layer and setting the second conductive layer on the upper surface, first conductive layer includes spaced setting A plurality of first electrode, second conductive layer includes a plurality of second electrode of spaced setting, a plurality of first electrode It is crisscross with a plurality of second electrode.

8. touch-control display module according to claim 7, which is characterized in that the touch-control display module further includes gluing Layer, the flexible panel, the rotatory polarization piece, the base material and the display panel is adjacent passes through the adhesive layer between the two Bonding；Or

The flexible panel, the base material, the rotatory polarization piece and the display panel is adjacent passes through the gluing between the two Layer bonding.

9. a kind of electronic device, which is characterized in that including：

Shell, the shell include roof and bottom wall；With

Touch-control display module described in claim 1-8 any one, the touch-control display module connect the roof and described Bottom wall.