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CN205983428U - Touch display screen and display device - Google Patents

Touch display screen and display device Download PDF

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Publication number
CN205983428U
CN205983428U CN201620757121.5U CN201620757121U CN205983428U CN 205983428 U CN205983428 U CN 205983428U CN 201620757121 U CN201620757121 U CN 201620757121U CN 205983428 U CN205983428 U CN 205983428U
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China
Prior art keywords
electrode
substrate
touch
display screen
liquid crystal
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Expired - Fee Related
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CN201620757121.5U
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Chinese (zh)
Inventor
程鸿飞
李鑫
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BOE Technology Group Co Ltd
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BOE Technology Group Co Ltd
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Priority to CN201620757121.5U priority Critical patent/CN205983428U/en
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Expired - Fee Related legal-status Critical Current
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Abstract

The utility model provides a touch display screen and display device, this touch display screen of includes: the first base plate and the second base plate of parallel opposition each other, the setting is in first base plate with between the second base plate, and add the first electrode and the second electrode that can produce the horizontal component of electric field under the electric state, the packing is in first base plate with liquid crystal between the second base plate, the setting is in the second base plate outside or inboard touch -sensitive electrode. This liquid crystal includes that nematic liquid crystal and dispersion are in being used for among the nematic liquid crystal makes the liquid crystal forms the long chain compound of scattering attitude. This touch display screen is with light based on the waveguide structure, has improved the transmissivity of light, the condition of destroying the light total reflection through long chain compound makes the liquid crystal molecules be the scattering attitude, realizes showing the function from this.

Description

Touch display screen and display device
Technical field
Embodiment of the present utility model is related to a kind of touch display screen and display device.
Background technology
Liquid crystal display (liquid crystal display, LCD) is widely used in the applied field such as show window, vehicle Scape.But, it is provided with double-layered polarizers at present in most liquid crystal display, the presence of polaroid can be to liquid crystal display band Carry out the not high technical problem of light penetration.
Touch-screen is up-to-date information input equipment, and it has the advantages that touch is quick on the draw, supports multiple point touching.Its energy Simply, conveniently, naturally realize man-machine interaction, be that people provide a kind of brand-new multimedia human-computer interaction method.According to group Become the difference of structure, touch screen can be divided into:External hanging type touch screen (Add on Mode Touch Panel), covering surface-type Touch screen (On Cell Touch Panel) and embedded touch screen (In Cell Touch Panel).Tied according to touch screen The difference of structure, the scheme of touch screen design also has multiple, and relatively common is by the display screen of liquid crystal indicator and touch screen It is fabricated separately it is also possible to make induction electrode, driving electrodes in the inside of the display screen of liquid crystal indicator, surface or outside, And connect corresponding induced signal line and drive signal line.If touch-screen is increased on current liquid crystal display can lead to light The transmitance of line is lower.
Therefore, design is a kind of has high permeability, has the touch display screen of touch controllable function and display function simultaneously, more next More become the demand to LCDs for the people at this stage.
Utility model content
The utility model at least one embodiment provides a kind of touch display screen and display device.Touch compared to current liquid crystal Touch display screen, it has higher light penetration, the display screen have high permeability arranges touch sensible electrode, can be real Existing display function and touch controllable function.
The utility model at least one embodiment provides a kind of touch display screen, including:First substrate and second substrate, each other Parallel opposed;First electrode and second electrode, are arranged between described first substrate and described second substrate, and in powering state Under can produce horizontal component of electric field;It is filled in the liquid crystal between described first substrate and described second substrate, described liquid crystal includes nematic Phase liquid crystal and the long-chain compound for making described Formation of liquid crystals scattering states being dispersed in described nematic liquid crystal;It is arranged on institute State outside second substrate or inner side touch sensible electrode.
For example, in the touch display screen that the utility model one embodiment provides, the long-chain of described long-chain compound is vertical In described first substrate.
For example, in the touch display screen that the utility model one embodiment provides, described first electrode is slit-shaped, described Second electrode is slit-shaped or tabular.
For example, in the touch display screen that the utility model one embodiment provides, described first electrode is electric with described second When pole is arranged on the same substrate, between described first electrode and described second electrode, it is provided with insulating barrier.
For example, the utility model one embodiment provide touch display screen in, described first electrode and described second electricity Pole may be contained within the upper surface of described first substrate.
For example, in the touch display screen that the utility model one embodiment provides, described first electrode is arranged on described the On the upper surface of one substrate, described second electrode is arranged on the lower surface of described second substrate.
For example, the touch display screen that the utility model one embodiment provides also includes display driver circuit and touch-control drives electricity Road, first electrode electrically connects display driver circuit to realize the function of display, in second time period electrical connection in first time period Touch drive circuit is to realize touch controllable function.
For example, in the touch display screen that the utility model one embodiment provides, described first electrode touches sense with described Answer orthographic projection on described second substrate for the electrode least partially overlapped.
For example, in the touch display screen that the utility model one embodiment provides, described first electrode and described touch sense Electrode is answered to be arranged in a mutually vertical manner.
For example, the touch display screen that the utility model one embodiment provides, also includes the 3rd electrode it is characterised in that institute State the driving electrodes for touch-control for the 3rd electrode, described 3rd electrode and described touch sensible electrode are on described first substrate Orthographic projection is least partially overlapped.
The utility model at least one embodiment also provides a kind of display device, including the touch display screen in above-mentioned.
The structure based on fiber waveguide for the touch display screen in the utility model embodiment come improve light transmitance simultaneously Make using long-chain compound partial liquid crystal molecule be in that scattering states are arranged in the power-on state, thus change in fiber waveguide and propagate The incidence angle of light size destroying the total reflection condition between liquid crystal and substrate so that light is from corresponding position outgoing, Thus realizing display function, this display function is no longer necessary to polaroid, thus allowing touch display screen to save this knot of polaroid Structure, thus improves the transmissivity of light and the utilization ratio of light.And the outside in second substrate or inner side setting touch sensible electrode, Can have display function and touch controllable function simultaneously.
Brief description
In order to be illustrated more clearly that the technical scheme of the utility model embodiment, simple by making to the accompanying drawing of embodiment below Ground introduce it should be apparent that, drawings in the following description merely relate to some embodiments of the present utility model, rather than to this practicality New restriction.
A kind of cross section structure schematic diagram of touch display screen that Fig. 1 provides for the utility model one embodiment;
A kind of cross section structure schematic diagram of touch display screen that Fig. 2 provides for the utility model another embodiment;
Public electrode and the floor map of touch sensible electrode that Fig. 3 provides for the utility model one embodiment;
A kind of cross section structure schematic diagram of touch display screen that Fig. 4 provides for the another embodiment of the utility model;
A kind of cross section structure schematic diagram of touch display screen that Fig. 5 provides for the another embodiment of the utility model.
Reference:
100- touch display screen;101- first substrate;102- second substrate;103- first electrode;104- second electrode; 105- long-chain compound;106- liquid crystal;107- touch sensible electrode;108- insulating barrier;109- the 3rd electrode;110- light source.
Specific embodiment
Purpose, technical scheme and advantage for making the utility model embodiment are clearer, new below in conjunction with this practicality The accompanying drawing of type embodiment, is clearly and completely described to the technical scheme of the utility model embodiment.Obviously, described Embodiment is a part of embodiment of the present utility model, rather than whole embodiments.Based on described of the present utility model Embodiment, the every other embodiment that those of ordinary skill in the art are obtained on the premise of without creative work, all belong to Scope in the utility model protection.
Unless otherwise defined, the technical term that the disclosure uses or scientific terminology should be the utility model art Inside there is the ordinary meaning that the personage of general technical ability is understood." first ", " second " and similar word used in the disclosure Language is not offered as any order, quantity or importance, and is used only to distinguish different parts." inclusion " or " bag Contain " etc. similar word mean to occur element before this word or object cover the element occurring in this word presented hereinafter or Object and its equivalent, and it is not excluded for other elements or object.The word that " connection " or " being connected " etc. are similar to is not limited to Physics or machinery connection, but can include electrical connection, no matter be direct or indirectly." on ", D score, "left", "right" etc. is only used for representing relative position relation, and after the absolute position being described object changes, then this relative position is closed System is likely to correspondingly change.
Generally, it is provided with polaroid in display floater, the light that backlight sends injects display floater by polaroid, then Display floater is projected by polaroid, natural light is become linearly polarized light by polaroid, but, the presence of polarizer can make light Transmitance substantially reduces, thus affecting display effect.If touch sensible is arranged on the display floater be provided with polarizer again Electrode, as the reduction further of the transmitance of light, and can not meet at present to the demand touching display.
The utility model at least one embodiment provides a kind of touch display screen, and this touch display screen includes:Parallel to each other right The first substrate put and second substrate;It is arranged between first substrate and second substrate and can produce in the power-on state level electricity The first electrode of field and second electrode;It is filled in the liquid crystal between first substrate and second substrate;It is arranged on outside second substrate Or the touch sensible electrode of inner side.This liquid crystal includes nematic liquid crystal and is dispersed in being used in nematic liquid crystal and makes Formation of liquid crystals The long-chain compound of scattering states.
Embodiment of the disclosure make use of the architectural characteristic of fiber waveguide, and optical waveguide structure is applied in Display Technique.Adopt With the light source irradiating liquid crystal box incident from the side of liquid crystal cell, allow light along the direction parallel to first substrate and second substrate Incidence and outgoing.Fiber waveguide is the structure of the transmission light wave being made up of transparent medium, on the medium interface of different refractivity, entirely Reflex makes light wave be confined to propagate in the finite region in fiber waveguide.
Liquid crystal layer that optical waveguide structure in the disclosure is differed by refractive index and transparency carrier (for example, glass substrate, mould Material substrate) form it is characterised in that the refractive index of liquid crystal layer is more than the refractive index of transparency carrier.This optical waveguide structure can make Light is propagated along predetermined direction.
The structure based on fiber waveguide for the touch display screen in the utility model embodiment come improve light transmitance simultaneously Make using long-chain compound partial liquid crystal molecule be in that scattering states are arranged in the power-on state, thus change in fiber waveguide and propagate The incidence angle of light size destroying the total reflection condition between liquid crystal and substrate so that light is from corresponding position outgoing, Thus realizing display function, this display function is no longer necessary to polaroid, thus allowing touch display screen to save this knot of polaroid Structure, thus improves the transmissivity of light and the utilization ratio of light.And the outside in second substrate or inner side setting touch sensible electrode, Can have display function and touch controllable function simultaneously.
Illustrate below by several embodiments.
Embodiment one
The present embodiment provides a kind of touch display screen, and Fig. 1 is a kind of cross section structure schematic diagram of touch display screen.As Fig. 1 Shown, this touch display screen 100 includes:Opposed first substrate 101 parallel to each other and second substrate 102, are arranged on the first base First electrode 103 between plate 101 and second substrate 102 and second electrode 104, are filled in first substrate 101 and second substrate Liquid crystal 106 between 102, is arranged on the touch sensible electrode 107 of second substrate 101 outside or inner side.In the power-on state Horizontal component of electric field can be produced, thus can be used for driving liquid crystal 106 between one electrode 103 and second electrode 104.Liquid crystal 106 include to Row phase liquid crystal and the long-chain compound 105 for making described Formation of liquid crystals scattering states being dispersed in nematic liquid crystal.
For example, first substrate 101 and second substrate 102 are transparent glass substrate, plastic base etc., can divide thereon Xing Cheng not control or drive circuit of first electrode 103 and second electrode 104 etc..For example, the folding of glass substrate and plastic base Rate of penetrating is 1.0-1.2.
For example, in the present embodiment, first electrode 103 is slit-shaped, and second electrode 104 is slit-shaped or tabular, and it is special Levy and be, slit-shaped electrode includes multiple being spaced and sub-electrode arranged in parallel.First electrode 103 and second electrode 104 Connect to control circuit, control circuit can apply a positive voltage in first electrode 103, second electrode 104 applies one Negative voltage or be grounded, thus forms electric field, for example, shape in first electrode 103 and the corresponding region of second electrode 104 Become horizontal component of electric field, to drive the liquid crystal molecule in these regions to rotate in the horizontal direction.According to different designs, slit-shaped electricity Multiple sub-electrodes in extremely can be by uniformly applied voltage it is also possible to by individually applied voltage, such as gradually rising or drop Low, it is consequently formed the electric field gradually changing.
For example, first substrate 101 and second substrate 102 can also form oriented layer, this oriented layer is connect with liquid crystal 106 Touch, therefore by oriented layer, liquid crystal molecule can be orientated, the material of oriented layer can be for example polyimides (PI).Example As the differently- oriented directivity being arranged on oriented layer on first substrate 101 and second substrate 102 is contrary, thus forming antiparallel orientations Construction.
For example, the forming process of oriented layer includes:First substrate 101 and second substrate 102 are respectively coated with orientation liquid, Carry out friction orientation technique after orientation liquid solidification, or carry out photocuring and orientation process.Oriented layer contributes to liquid crystal molecule Deflect under electric field action.
Display panels can be divided into according to display pattern:Twisted-nematic (Twisted Nematic, abbreviation TN) type, Plane conversion (In Plane Switching, abbreviation IPS) type and senior super dimension field switch (Advanced Super Dimension Switch, abbreviation ADS) type etc..Voltage is provided to drive liquid crystal in the liquid crystal display of ADS type and IPS pattern formula The public electrode of deflection and pixel electrode are all arranged on first substrate, commonly known as horizontal electric field type.Liquid in TN pattern In crystal display, pixel electrode is arranged on the first substrate, and public electrode is arranged on second substrate, commonly known as vertically electric Field pattern.As shown in figure 1, first electrode 103 is public electrode, second electrode 104 is pixel electrode, by public electrode and pixel The deflection to control liquid crystal molecule for the electric field producing between electrode.
The present embodiment is described in detail taking the liquid crystal indicator of advanced super dimension switch (ADS) pattern as a example.Senior In the liquid crystal touch display screen of super dimension field translative mode, by electric field produced by gap electrode edge in same plane and narrow The electric field that seam electrode layer and plate electrode interlayer produce forms multi-dimensional electric field, makes in liquid crystal cell between gap electrode, directly over electrode All aligned liquid-crystal molecules can produce rotation, thus improve liquid crystal operating efficiency and increasing light transmission efficiency.Senior super Dimension field switch technology can improve the picture quality of liquid crystal indicator, has high-resolution, high permeability, low-power consumption, width regard The advantages of angle, high aperture, low aberration.
For example, as shown in figure 1, in the touch display screen 100 that the present embodiment provides, the long-chain of long-chain compound 105 hangs down Straight in first substrate 101, that is, in long-chain compound 105 direction of long-chain with not powered under the conditions of liquid crystal 106 arragement direction one Cause.
It should be noted that as shown in figure 1, liquid crystal molecule itself does not light, in this touch display screen near liquid crystal molecule And parallel to being provided with from the incident light source 110 in side on the direction of first substrate, this light source for example, includes multiple luminous two The lamp bar of pole pipe (LED) or be cold-cathode fluorescence lamp (CCFL).First electrode 103, second electrode 104 are not being powered up and shape Under conditions of becoming electric field, originally as clear state, the transmitance of the light propagated in liquid crystal layer can reach more than 90% to liquid crystal layer, But due to total reflection, these light can't be from the surface outgoing of first substrate and second substrate.Under conditions of powering up, by In the presence of long-chain compound, liquid crystal molecule presents scattering states, changes light and is incident to first substrate or from liquid crystal layer The incidence angle of two substrates, destroys the condition of light total reflection, can be with the first base in the respective regions some light applying electric field Plate or second substrate have a certain degree injection, thus can be used for the display function realizing having the high grade of transparency.And, this display Realizing not by two polaroids used in traditional liquid crystal indicator of function, be thus avoid and led using polaroid The decline of the light light transmittance causing, thus improves display brightness, and reduces energy ezpenditure.
For example, first substrate 101 and second substrate 102 are connected to each other by sealed plastic box, constitute liquid crystal cell.Sealed plastic box is by saturating Bright material is formed, and light can be incident to liquid crystal layer through sealed plastic box.
For example, can be mixed in liquid crystal formed long-chain compound needed for monomer and light trigger, long-chain compound by Multiple corresponding monomers are polymerized formation under ultraviolet irradiation and in the presence of light trigger.
For example, formed the monomer needed for long-chain compound include following in any one or combination:4,4 '-two [6- (third Alkene acyloxy) hexyloxy] biphenyl, 2- methyl isophthalic acid, 4- bis- [4- (3- acryloxy hexyloxy) benzoxy] hydroquinones, 2- Methyl isophthalic acid, 4- bis- [4- (3- acryloxy propoxyl group) benzoxy] hydroquinones, corresponding chemical formula is followed successively by:
For example, by the corresponding long-chain compound that above-mentioned monomer is formed include following in any one or combination:Poly- 4, 4 '-two [6- (acryloxy) hexyloxy] biphenyl, poly- 2- methyl isophthalic acid, 4- bis- [4- (3- acryloxy hexyloxy) benzoic acid Base] hydroquinones, poly- 2- methyl isophthalic acid, 4- bis- [4- (3- acryloxy propoxyl group) benzoxy] hydroquinones, correspondingization Formula is followed successively by:
For example, the polymerization degree n value in above-mentioned long-chain compound is 10-18.
For example, in the present embodiment, nematic liquid crystal refers to be in nematic liquid crystal.Nematic liquid crystal molecule is rod, Can move in three-dimensional scope, and electrically there is obvious anisotropy, it is possible to use external electric field changes its molecule Oriented, thus can change the optical property of liquid crystal.For example, twisted nematic (TN) liquid crystal is distortion in its natural state , after adding electric current to this liquid crystal, they will be according to the corresponding angle of the alive size reverse twist of institute.In the present embodiment In, the nematic liquid crystal being used is, for example, positivity liquid crystal (△ ε>0) and refractive index be 1.6-1.8 (such as 1.7).For example, nematic Phase liquid crystal includes any one or combination in following liquid crystal molecules:
For example, in the mixture being made up of liquid crystal molecule, monomer and light trigger, the mass percentage content of monomer is 1%-5%, the mass percentage content of light trigger is 0.5%-3%.
For example, in the touch display screen that the present embodiment provides, first electrode 103, second electrode 104 and touch sensible electricity Pole 107 can be formed by photoetching process, and the material of above-mentioned electrode is transparent conductive material, for example, indium tin oxide (ITO), Indium-zinc oxide (IZO) etc..
For example, as shown in figure 1, first electrode 103 and second electrode 104 may be contained within the upper surface of first substrate 101, the It is provided with insulating barrier 108 between one electrode 103 and second electrode 104, so that first electrode 103 is electrically isolated with second electrode 104.
For example, the material of insulating barrier 108 is transparent insulation material, such as Si oxide, silicon nitride, hafnium oxide, silicon Nitrogen oxides or aluminum oxide etc., the structure of insulating barrier and formation process refer to conventional design and technique, will not be described here.
First electrode and second electrode can also be divided on different substrates, and for example, Fig. 2 is that the utility model is further real A kind of cross section structure schematic diagram of touch display screen of example offer is provided.As shown in Fig. 2 first electrode 103 and 104 points of second electrode It is located on first substrate 101 and second substrate 102, first electrode 103 is arranged on the upper surface of first substrate 101, the second electricity Pole 104 is arranged on the lower surface of second substrate 102, and similarly, first electrode 103 is slit-shaped, and second electrode 104 is slit Shape or tabular are it is characterised in that slit-shaped electrode includes multiple being spaced and sub-electrode arranged in parallel.
For example, this touch display screen includes display driver circuit and touch drive circuit, and generally plug-in touch-screen can be aobvious Show that in addition the upper surface of the upper substrate of panel increases touch driving electrodes and touch sensible electrode to realize touch controllable function.For example, Strip tin indium oxide (the Indium being located on different layers and intersecting each other is made on the surface of thin-film transistor array base-plate Tin Oxide, ITO) electrode, this two-layer stripe-like ITO electrodes is respectively as the touch driving electrodes realizing touch function and touch Induction electrode.For example, as depicted in figs. 1 and 2, first electrode 103 is used as touching driving electrodes, in first time period the One electrode 103 electrical connection display driver circuit is used as public electrode and realizes display function, in second time period first electrode 103 Electrical connection touch drive circuit is used as touch driving electrodes and realizes touch controllable function.Processing step so can be reduced, save electricity Pole material, reduces production cost.Fig. 1 and Fig. 2 is the profile of the bearing of trend of the electrode strip along touch sensible electrode 107, Therefore it is characterized in that touch sensible electrode 107 is shown as elongate in shape.
For example, as shown in figure 3, first electrode 103 with orthographic projection on first substrate 101 for the touch sensible electrode 107 extremely Small part is overlapping, thus in the extension of bearing of trend and the electrode strip of touch sensible electrode 107 of the electrode strip of first electrode 103 Direction is different, forms intersection region each other, and forms electric capacity in intersection region.
Further, as shown in figure 3, first electrode (touch driving electrodes) and touch sensible electrode transverse and longitudinal cross-distribution, First electrode 103 and touch sensible electrode 107 are arranged in a mutually vertical manner, and so the size of each intersection region, close to consistent, is being handed over The size of the electric capacity that fork region is formed is also roughly the same, so defines capacitance matrix in infall.Then respectively to each row One electrode (touch driving electrodes) applies touch scanning signals, and detection touches driving electrodes corresponding touch sense with often row successively Answering the output signal of electrode, thus detecting the change of electric capacity in capacitance matrix, judging touch location.
For example, drive signal line and induced signal line, touch sensible electricity are additionally provided with first substrate or second substrate Pole is connected with induced signal line, and first electrode is connected with drive signal line as touching driving electrodes.Induced signal line and touch Induction electrode is in different layers or same layer, when induced signal line is in different layers with touch sensible electrode, touch sensible Electrode is connected by the via being located on insulating barrier between the two with induced signal line;When induced signal line and touch sensible When electrode is in same layer, both are joined directly together.
For example, as depicted in figs. 1 and 2, touch sensible electrode 107 is arranged at the upper surface of second substrate 102.As Fig. 4 institute Show, touch sensible electrode 107 can also be arranged at the lower surface of second substrate 102, is consequently formed built-in type touch display screen.Interior Embedding capacitive touch display screen, can be with the thickness of thinning module and permissible by touch control electrode is embedded in the inside of display screen Substantially reduce the manufacturing cost of touch-screen, its application in touching Display Technique is more and more extensive.
Embodiment two
The present embodiment provides a kind of touch display screen, as shown in figure 5, this touch display screen also includes the 3rd electrode 109, should 3rd electrode 109 is the driving electrodes of touch-control.3rd electrode 109 includes multiple electrodes article, the electrode strip of the 3rd electrode 109 Bearing of trend different from the bearing of trend of the electrode strip of touch sensible electrode 107 (for example, perpendicular to one another), the two is in first substrate Orthographic projection on 101 is least partially overlapped.
The present embodiment serves as touch driving electrodes by setting up a transparency electrode, such second electrode 104 without point When be multiplexed with the touch-control time period touch driving electrodes and display the time period public electrode.
Embodiment three
The present embodiment provides a kind of display device, and the touch that this display device is included in embodiment one and embodiment two shows Screen.This display device can have display function for mobile phone, panel computer, notebook computer, DPF, navigator etc. are any Product or part with touch controllable function.
Embodiment of the present utility model provides a kind of touch display screen and display device, has at least one beneficial effect following Really:
(1) based on optical waveguide structure, decrease the use of polarizer, improve the transmitance of light.
(2) destroy the condition of light total reflection by long-chain compound, make liquid crystal molecule become scattering states to realize display function.
(3) first electrode time-sharing multiplex is the public electrode of display and the driving electrodes of touch-control can save electrode material Material.
(4) touch sensible electrode is set on the display screen have high permeability, makes touch display screen realize display function And touch controllable function.
Have following some need explanation:
(1) the utility model embodiment accompanying drawing relates only to the structure being related to the utility model embodiment, other knots Structure refers to be commonly designed.
(2) for clarity, in the accompanying drawing for describing embodiment of the present utility model, the thickness quilt in layer or region Zoom in or out, that is, these accompanying drawings are not drawn according to actual ratio.It is appreciated that ought such as layer, film, region or substrate it The element of class be referred to as positioned at another element " on " or during D score, this element can " direct " be located at another element " on " or D score, or there may be intermediary element.
(3) in the case of not conflicting, the feature in embodiment of the present utility model and embodiment can be mutually combined with Obtain new embodiment.
The above, specific embodiment only of the present utility model, but protection domain of the present utility model does not limit to In this, protection domain of the present utility model should be defined by described scope of the claims.

Claims (11)

1. a kind of touch display screen, including:
First substrate and second substrate, parallel to each other opposed;
First electrode and second electrode, are arranged between described first substrate and described second substrate, and in the power-on state may be used Produce horizontal component of electric field;
Be filled in the liquid crystal between described first substrate and described second substrate, including nematic liquid crystal and be dispersed in described to The long-chain compound for making described Formation of liquid crystals scattering states in row phase liquid crystal;
Be arranged on outside described second substrate or inner side touch sensible electrode.
2. touch display screen according to claim 1 is it is characterised in that the long-chain of described long-chain compound is perpendicular to described First substrate.
3. touch display screen according to claim 1 it is characterised in that described first electrode be slit-shaped, described second Electrode is slit-shaped or tabular.
4. touch display screen according to claim 3 is it is characterised in that described first electrode is arranged with described second electrode When on the same substrate, between described first electrode and described second electrode, it is provided with insulating barrier.
5. touch display screen according to claim 4 is it is characterised in that described first electrode and described second electrode are all provided with It is placed on the upper surface of described first substrate.
6. touch display screen according to claim 3 is it is characterised in that described first electrode is arranged on described first substrate Upper surface on, described second electrode is arranged on the lower surface of described second substrate.
7. the touch display screen according to any one of claim 1-6, also includes display driver circuit and touch-control drives electricity Road, described first electrode electrically connects described touch-control in the first time period described display driver circuit of electrical connection, in second time period Drive circuit.
8. touch display screen according to claim 7 is it is characterised in that described first electrode and described touch sensible electrode Orthographic projection on described second substrate is least partially overlapped.
9. touch display screen according to claim 8 is it is characterised in that described first electrode and described touch sensible electrode It is arranged in a mutually vertical manner.
10. the touch display screen according to any one of claim 1-6, also includes the 3rd electrode it is characterised in that described 3rd electrode is the driving electrodes of touch-control, described 3rd electrode and described touch sensible electrode on described first substrate just Projection is least partially overlapped.
A kind of 11. display devices, including the touch display screen any one of claim 1-10.
CN201620757121.5U 2016-07-18 2016-07-18 Touch display screen and display device Expired - Fee Related CN205983428U (en)

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WO2018014707A1 (en) * 2016-07-18 2018-01-25 京东方科技集团股份有限公司 Touch display screen and preparation method, display apparatus and drive method therefor
WO2019015668A1 (en) * 2017-07-21 2019-01-24 京东方科技集团股份有限公司 Touch display panel, fingerprint recognition device, and display device
WO2019218683A1 (en) * 2018-05-15 2019-11-21 Boe Technology Group Co., Ltd. Optical waveguide display substrate, and display device
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WO2018014707A1 (en) * 2016-07-18 2018-01-25 京东方科技集团股份有限公司 Touch display screen and preparation method, display apparatus and drive method therefor
CN107632727A (en) * 2016-07-18 2018-01-26 京东方科技集团股份有限公司 Touch display screen and preparation method thereof, display device and driving method
US10564781B2 (en) 2016-07-18 2020-02-18 Boe Technology Group Co., Ltd. Touch display screen and preparation method, display apparatus and drive method therefor
CN107632727B (en) * 2016-07-18 2024-04-12 京东方科技集团股份有限公司 Touch display screen, manufacturing method thereof, display device and driving method
CN106647049A (en) * 2017-03-24 2017-05-10 京东方科技集团股份有限公司 LED display panel and LED display device
WO2019015668A1 (en) * 2017-07-21 2019-01-24 京东方科技集团股份有限公司 Touch display panel, fingerprint recognition device, and display device
US10983619B2 (en) 2017-07-21 2021-04-20 Boe Technology Group Co., Ltd. Touch display panel, fingerprint recognition device, and display device
WO2019218683A1 (en) * 2018-05-15 2019-11-21 Boe Technology Group Co., Ltd. Optical waveguide display substrate, and display device
US11003010B2 (en) 2018-05-15 2021-05-11 Boe Technology Group Co., Ltd. Optical waveguide display substrate, and display device
CN111522163A (en) * 2019-02-01 2020-08-11 Oppo广东移动通信有限公司 Display screen, display screen assembly and electronic equipment
TWI729858B (en) * 2020-06-19 2021-06-01 國立中山大學 Transmittable lighting device
US11175557B1 (en) 2020-06-19 2021-11-16 National Sun Yat-Sen University Transmittable lighting device

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