CN106773445A - A kind of display unit, display device and its touch control method - Google Patents

Abstract

The embodiment of the present invention provides a kind of display unit, display device and its touch control method, is related to display technology field, and the characteristic that can be changed using display unit light transmission state produces electric energy.The display unit includes：The light valve and generator unit being stacked；Generator unit includes：The first electrode and second electrode being oppositely arranged, have gap between first electrode and second electrode；First electrode is with respect to second electrode near light valve；First photic deformation layer, first photic deformation layer is arranged at interstitial site, first photic deformation layer has just to region with the open region of light valve, first photic deformation layer can with the change of light valve light transmission state along the first photic deformation layer sprawl direction elongation or shrink so that the free end of the first photic deformation layer first electrode and second electrode just to region in move；Wherein, second electrode energy reflected light；Or, display unit also includes being arranged on reflecting layer of the generator unit away from light valve side.For reclaiming electric energy.

Description

A kind of display unit, display device and its touch control method

Technical field

The present invention relates to display technology field, more particularly to a kind of display unit, display device and its touch control method.

Background technology

With the fast-developing and progress of science and technology, various display devices also flourish therewith.Electrowetting display device and Electrophoretic display apparatus are due to having the advantages that power consumption is small, pliability and be used widely.

Wherein, electrowetting display device and electrophoretic display apparatus may be by the reflection of ambient light to reach the effect of display Really.The displaying principle of electrophoretic display apparatus is the profile shape that charged pigment particles are controlled by electric field, and then changes display Area produces the display device of display effect to the reflectivity of ambient light.The displaying principle of electrowetting display device is by adjustment It is applied to the voltage between liquid and solid electrode to change surface tension of the liquid in the surface of solids, so as to change between the two Contact angle phenomenon.

The content of the invention

Embodiments of the invention provide a kind of display unit, display device and its touch control method, saturating using display unit The characteristic that light state can change produces electric energy.

To reach above-mentioned purpose, embodiments of the invention are adopted the following technical scheme that：

A kind of first aspect, there is provided display unit, including：The light valve and generator unit being stacked；The generator unit Including：The first electrode and second electrode being oppositely arranged, have gap between the first electrode and the second electrode；It is described The relatively described second electrode of first electrode is near the light valve；First photic deformation layer, the first photic deformation layer is arranged on At the interstitial site, the first photic deformation layer has just to region with the open region of the light valve, and described first is photic Deformation layer can sprawl direction elongation or contraction with the change of the light valve light transmission state along the described first photic deformation layer, so that The free end of the first photic deformation layer the first electrode and the second electrode just to region in move；Wherein, The second electrode energy reflected light；Or, the display unit also includes being arranged on the generator unit away from the light valve one The reflecting layer of side.

In one embodiment of the application, the light valve is electrowetting light valve.

In a preferred implementation of electrowetting light valve, the electrowetting light valve includes：The 3rd electrode that is oppositely arranged and 4th electrode；The 3rd electrode is arranged near the 4th electrode side or isolation of the 4th electrode near the 3rd electrode side is arranged on Layer, the barricade for being arranged on the hydrophilic layer at separation layer edge and being arranged on hydrophilic layer；Also include：It is filled in the 3rd electricity Electrowetting display medium between pole, the 4th electrode and the barricade, the electrowetting display medium includes non-conductive First display solution and conduction second display solution, it is described first display solution and it is described second display solution it is unmixing.

In one embodiment of the application, the light valve is electrophoresis light valve.

Used as an optional realization of electrophoresis light valve, the electrophoresis light valve includes：Electrophoretic display layer and for driving State the transparent driving electrodes that electrophoretic display layer is shown；The electrophoretic display layer includes transparent solvent and is dispersed in described transparent Black charged particles in solvent.

Further, the driving electrodes are included positioned at the first son driving electrodes of the electrophoresis light valve shading region and positioned at institute State the second son driving electrodes of electrophoresis light valve open region.

In one embodiment of the application, the generator unit also includes the second photic deformation layer；Described second is photic Deformation layer is arranged between the light valve and the first electrode, and the second photic deformation layer has with the open region of the light valve Have just to region, the second photic deformation layer can be with the change of the light valve light transmission state along the described second photic deformation layer Sprawl direction elongation or shrink；The second photic deformation layer is connected with the described first photic deformation layer.

Preferably, the generator unit has cavity, and the first photic deformation layer is located in the cavity；The generating Unit also includes：Elastomer in the cavity, the sidewall contact of the elastomer and the cavity, and along described first Photic deformation layer sprawls direction, and filling liquid is provided between the elastomer and the free end of the first photic deformation layer； When the first photic deformation layer extends, the first photic deformation layer promotes the filling liquid to extrude the elastomer, in institute When stating the first photic deformation layer and shrinking, the elastomer replys deformation, promotes the filling liquid to the first electrode and described Second electrode just to region movement.

Preferably, dielectric constant of the dielectric constant of the filling liquid more than the described first photic deformation layer.

A kind of second aspect, there is provided display device, including a plurality of data lines and a plurality of grid line, and by many datas Line and a plurality of grid line insulation intersect the multiple pixel regions for limiting, and each described pixel region is provided with above-mentioned display list Unit；The display device also includes energy-storage units and rectification unit；The first electrode, the second electrode and the rectification list First, described energy-storage units form loop.

Preferably, the display device also includes：The plurality of transmission lines that intersects with the grid line, touch control detection unit and Positioned at the thin film transistor (TFT) of each pixel region；The touch control detection unit includes multiple current detecting units, every biography Defeated line is connected with a current detecting unit, and the touch control detection unit is used for scanning signal and each electric current according to each grid line The curent change that detection unit is detected determines touch location；Wherein, the grid of the thin film transistor (TFT) is connected with the grid line, Source electrode is connected with the transmission line, and drain electrode is connected with first electrode or second electrode in generator unit；Positioned at same row pixel Thin film transistor (TFT) in region is connected with same transmission lines.

A kind of third aspect, there is provided touch control method of above-mentioned display device, including:Within a time period, work as data wire When stopping input signal, or within a time period, when the signal of data wire input is constant, grid line is scanned line by line, root The curent change detected according to the scanning signal and each current detecting unit of each grid line determines touch location.

The embodiment of the present invention provides a kind of display unit, display device and its touch control method, when light valve printing opacity, ambient light Can be irradiated on the first photic deformation layer, so that the first photic deformation layer can sprawl direction elongation or contraction along it, and with light According to the change of intensity, the deformation extent of the first photic deformation layer also changes therewith.Due to display unit display when, light valve it is saturating Light state can change with the change of display picture, thus the first photic deformation layer can extend or shrink, so that The free end of the first photic deformation layer first electrode and second electrode just to region in move, and then the first photic deformation layer With first electrode and second electrode just to area can change, will so cause that first electrode and second electrode are formed Electric capacity change.Connected in circuit when by first electrode and second electrode, the electricity that first electrode and second electrode are formed The change of appearance can in circuit form charging and discharging currents.If by first electrode and second electrode and energy-storage units in generator unit It is connected, just can so reclaims the electric energy of capacitor charge and discharge generation, can also compensate for the electricity that light valve light transmission state changes consumption Can, so that display unit more energy-conserving and environment-protective.

Brief description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing The accompanying drawing to be used needed for having technology description is briefly described, it should be apparent that, drawings in the following description are only this Some embodiments of invention, for those of ordinary skill in the art, on the premise of not paying creative work, can be with Other accompanying drawings are obtained according to these accompanying drawings.

Fig. 1 (a) is a kind of structural representation one of display unit provided in an embodiment of the present invention；

Fig. 1 (b) is a kind of structural representation two of display unit provided in an embodiment of the present invention；

Fig. 2 is a kind of structural representation three of display unit provided in an embodiment of the present invention；

Fig. 3 (a) in a kind of embodiment of the present invention is provided display unit electrowetting light valve be the structural representation of shading status Figure one；

Fig. 3 (b) in a kind of embodiment of the present invention is provided display unit electrowetting light valve be the structural representation of light transmission state Figure one；

Fig. 4 (a) in a kind of embodiment of the present invention is provided display unit electrowetting light valve be the structural representation of shading status Figure two；

Fig. 4 (b) in a kind of embodiment of the present invention is provided display unit electrowetting light valve be the structural representation of light transmission state Figure two；

Fig. 5 (a) in a kind of embodiment of the present invention is provided display unit light valve be the structural representation one of electrophoresis light valve；

Fig. 5 (b) in a kind of embodiment of the present invention is provided display unit light valve be the structural representation two of electrophoresis light valve；

Fig. 6 in a kind of embodiment of the present invention is provided display unit light valve be the structural representation three of electrophoresis light valve；

Fig. 7 is a kind of structural representation four of display unit provided in an embodiment of the present invention；

Fig. 8 (a) is a kind of structural representation five of display unit provided in an embodiment of the present invention；

Fig. 8 (b) is a kind of structural representation six of display unit provided in an embodiment of the present invention；

Fig. 9 (a) is a kind of structural representation one of display device provided in an embodiment of the present invention；

Fig. 9 (b) is a kind of structural representation two of display device provided in an embodiment of the present invention；

Figure 10 is a kind of structural representation three of display device provided in an embodiment of the present invention.

Reference：

01- shading regions；02- open regions；1- light valves；2- generator units；3- reflecting layer；10- first electrodes；The electricity of 20- second Pole；The photic deformation layers of 30- first；The free end of the photic deformation layers of 301- first；The electrodes of 40- the 3rd；The electrodes of 50- the 4th；60- is dredged Water layer；70- barricades；80- electrowetting display mediums；801- first shows solution；802- second shows solution；90- transparency carriers (transparent material layer)；100- hydrophilic layers；110- separation layers；120- electrophoretic display layers；1201- transparent solvents；1202- charged blacks Particle；130- driving electrodes；The son driving electrodes of 1301- first；The son driving electrodes of 1302- second；The photic deformation layers of 140- second； 150- cavitys；160- elastomers；170- filling liquids；180- energy-storage units；190- rectification units；200- current detecting units.

Specific embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation is described, it is clear that described embodiment is only a part of embodiment of the invention, rather than whole embodiments.It is based on Embodiment in the present invention, it is every other that those of ordinary skill in the art are obtained under the premise of creative work is not made Embodiment, belongs to the scope of protection of the invention.

The embodiment of the present invention provides a kind of display unit, as Figure 1-Figure 8, including：The light valve 1 being stacked and generating Unit 2；Generator unit 2 includes：The first electrode 10 and second electrode 20 being oppositely arranged, first electrode 10 and second electrode 20 it Between have gap；First electrode 10 is with respect to second electrode 20 near light valve 1；Generator unit 2 also includes：First photic deformation layer 30, the first photic deformation layer 30 is arranged at interstitial site, and the first photic deformation layer 30 has Zheng Dui areas with the open region of light valve 1 Domain, the first photic deformation layer 30 can with the change of the light transmission state of light valve 1 along the first photic deformation layer 30 sprawl direction elongation or Shrink so that the free end 301 of the first photic deformation layer 30 first electrode 10 and second electrode 20 just to region in move； Wherein, second electrode 20 can reflected light；Or, display unit also includes being arranged on reflection of the generator unit 2 away from the side of light valve 1 Layer 3.

It should be noted that first, the type for light valve 1 is not defined, and can be liquid crystal light valve, or electricity Wetting light valve or electrophoresis light valve etc..

The open region of light valve 1 refers to the maximum transmission area of light valve 1, wherein, the size of the open region of light valve 1 be it is constant, But the size of the transparent area of light valve 1 can change.The change of the light transmission state of light valve 1 include shading status and light transmission state it Between phase co-conversion, also including light valve 1 be in light transmission state when, transparent area change of different sizes.

Second, the material for the first photic deformation layer 30 is not defined, as long as can be extended in illumination, during no light Shrink or shunk in illumination, extended during no light, and with the change of intensity of illumination, the first photic deformation layer 30 Deformation degree can also change therewith.The material of the first photic deformation layer 30 for example can be the poly- phthalimide containing azo end structure Or the macromolecule containing spiral shell benzopyrans structure etc..

Wherein, the first photic deformation layer 30 sprawls direction, that is, refer to the direction vertical with the thickness of the first photic deformation layer 30. First photic deformation layer 30 is sprawled direction and is stretched along it, can be that the characteristic of the material of the first photic deformation layer 30 determines the first light Cause deformation layer 30 can only along its sprawl direction elongation or shrink, or the first photic deformation layer 30 be arranged on specific passage In, the shape of passage defines that the first photic deformation layer 30 can only sprawl direction elongation or contraction along it.

3rd, the interstitial site between first electrode 10 and second electrode 20 is including first electrode 10 and second electrode 20 just To region, also including it is described just to region along the first photic deformation layer 30 the region that direction stretches out of sprawling.First light It can be that as shown in Fig. 1 (a), the part of the first photic deformation layer 30 is arranged on the first electricity to cause deformation layer 30 to be arranged at interstitial site Pole 10 and second electrode 20 just to region, be partly arranged on the region for just stretching out to region；Can also be such as Fig. 1 (b) Shown, the first photic deformation layer 30 all sets the region for just stretching out to region, naturally it is also possible to be, the first photic deformation Layer 30 is provided entirely in just to region (description of the invention accompanying drawing is not illustrated).

4th, first electrode 10 can be formed by transparent material, or the material shape by that can be reflected light Into.When first electrode 10 is when being formed by the material that can be reflected light, in order to ensure the freedom of the first photic deformation layer 30 End 301 can first electrode 10 and second electrode 20 just to region in move, it will be understood by those skilled in the art that now First photic deformation layer 30 should at least partly be arranged on the region for just stretching out to region.In order that more light can irradiate Onto the first photic deformation layer 30, thus the embodiment of the present invention is preferably, and first electrode 10 is transparency electrode.

5th, in order to ensure display unit can be shown, ambient light must be reflected towards people after injecting display unit Eye, when the energy reflected light of second electrode 20, it is possible to use second electrode 20 is reflected, or, as shown in Figure 2, it is possible to use The reflecting layer 3 that generator unit 2 is arranged on away from the side of light valve 1 is reflected.

6th, capacitance equation isWherein, d is the distance between first electrode 10 and second electrode 20, and S is First electrode 10 and second electrode 20 just to area, ε between first electrode 10 and second electrode 20 medium dielectric constant. It can be seen from capacitance equation, when the medium between first electrode 10 and second electrode 20 is equal with first electrode 10 and second electrode 20 Just to area change when, the electric capacity that first electrode 10 and second electrode 20 are formed also can accordingly change.Specifically, Medium between first electrode 10 and second electrode 20 and first electrode 10 and second electrode 20 just to area reduce, then the The electric capacity that one electrode 10 and second electrode 20 are formed reduces, and now first electrode 10 and second electrode 20 are formed with external circuit and put Electric current；Medium between first electrode 10 and second electrode 20 and first electrode 10 and second electrode 20 just to area increase Greatly, then the electric capacity increase that first electrode 10 and second electrode 20 are formed, now first electrode 10 and second electrode 20 are returned with outside Road forms charging current.

The embodiment of the present invention provides a kind of display unit, and when 1 printing opacity of light valve, ambient light can be irradiated to the first photic deformation On layer 30, so that the first photic deformation layer 30 can sprawl direction elongation or contraction along it, and with the change of intensity of illumination, first The deformation extent of photic deformation layer 30 also changes therewith.Because display unit is in display, the light transmission state of light valve 1 can be with aobvious Show the change of picture and change, thus the first photic deformation layer 30 can extend or shrink, so that the first photic deformation The free end 301 of layer 30 first electrode 10 and second electrode 20 just to region in move, and then the first photic deformation layer 30 With first electrode 10 and second electrode 20 just to area can change, will so cause the electricity of first electrode 10 and second The electric capacity that pole 20 is formed changes.Connected in circuit when by first electrode 10 and second electrode 20, first electrode 10 and The change of the electric capacity that two electrode 20 is formed can in circuit form charging and discharging currents.If by the first electrode 10 in generator unit 2 It is connected with energy-storage units with second electrode 20, just can so reclaims the electric energy of capacitor charge and discharge generation, can also compensate for light The light transmission state of valve 1 changes the electric energy of consumption, so that display unit more energy-conserving and environment-protective.

Preferably, as shown in Figure 3 and Figure 4, light valve 1 is electrowetting light valve.

Wherein, electrowetting refers to change drop by changing the voltage between drop and insulated substrate on substrate Wetability, that is, change contact angle, deforms upon drop, the phenomenon of displacement.

Herein, the structure for electrowetting light valve is not defined, and can be any type of electrowetting light valve.

The embodiment of the present invention provides two kinds of concrete structures of electrowetting light valve：

The first：As shown in Fig. 3 (a) and Fig. 3 (b), electrowetting light valve includes：The 3rd transparent electrode 40 being oppositely arranged With the 4th transparent electrode 50, be arranged on the 3rd electrode 40 near the side of the 4th electrode 50 or be arranged on the 4th electrode 50 near the The hydrophobic layer 60 of the side of three electrode 40 (is arranged on the 3rd electrode 40 near the 4th in description of the invention such as Fig. 3 with hydrophobic layer 60 Electrode 50 is illustrated as a example by side) and it is arranged on barricade 70 between the 3rd electrode 40 and the 4th electrode 50；Electrowetting light Valve also includes：The 3rd electrode 40, the electrowetting display medium 80 between the 4th electrode 50 and barricade 70 are filled in, electrowetting shows Show that medium 80 includes the second display solution 802 of the nonconducting first display solution 801 and conduction, the first display He of solution 801 Second display solution 802 is unmixing.

The applied voltage on the 3rd electrode 40 and the 4th electrode 50, forms electricity between the 3rd electrode 40 and the 4th electrode 50 , by changing the wettability on the surface of hydrophobic layer 60, for example, the surface of hydrophobic layer 60 more hydrophilic (moistening) is changed the second display Wettability of the solution 802 on hydrophobic layer 60 so that first display solution 801 and second display solution 802 deform upon, Displacement.Specifically, as shown in Fig. 3 (a), when the 3rd electrode 40 and the 4th 50 applied voltage of electrode is not given, nonconducting first Display solution 801 can be laid on hydrophobic layer 60, therefore display unit can be presented the color of the first display solution 801；When to When three electrodes 40 and the 4th 50 applied voltage of electrode, shown in such as Fig. 3 (b), the electric charge produced on hydrophobic layer 60 can attract conduction Second display solution 802, hence in so that the first display solution 801 is extruded to corner, thus can be presented second electrode 20 (now Second electrode 20 can reflected light) color or reflecting layer 3 color.Now, ambient light can pass through the directive generator unit of light valve 1 First photic deformation layer 30 in 2.

Second：As shown in Fig. 4 (a) and Fig. 4 (b), electrowetting light valve includes：The 3rd electrode 40 and the 4th being oppositely arranged Electrode 50；The 3rd electrode 40 is arranged near the side of the 4th electrode 50 or the 4th electrode 50 is arranged near the side of the 3rd electrode 40 Separation layer 110, the barricade 70 that is arranged on the hydrophilic layer 100 at the edge of separation layer 110 and is arranged on hydrophilic layer 100；Electricity profit Wet light valve also includes：It is filled in the 3rd electrode 40, the electrowetting display medium 80 between the 4th electrode 50 and barricade 70, electricity profit Wet display medium 80 includes the second display solution 802 of the nonconducting first display solution 801 and conduction, the first display solution 801 and second show that solution 802 is unmixing.

Herein, when the 3rd electrode 40 and the 4th 50 applied voltage of electrode is not given, shown in such as Fig. 4 (a), nonconducting first Display solution 801 can be laid on separation layer 110, therefore the color of the first display solution 801 can be presented；When to the 3rd electrode 40 During with the 4th 50 applied voltage of electrode, shown in such as Fig. 4 (b), the electric charge produced on separation layer 60 can attract the second display of conduction Solution 802, hence in so that the first display solution 801 is extruded to the edge of separation layer 110, thus can be presented second electrode 20 The color of (the now energy of second electrode 20 reflected light) or the color in reflecting layer 3.Now, ambient light can be sent out through the directive of light valve 1 First photic deformation layer 30 in electric unit 2.

Wherein, the material for the 3rd electrode 40 and the 4th electrode 50 is not defined, for example, can be ITO (Indium Tin Oxide, tin indium oxide), IZO (Indium Zinc Oxide, indium zinc oxide) or FTO (Fluorine-Doped Tin Oxide, Fluorin doped tin ash).

Herein, nonconducting first display solution 801 can be ink or alkane etc., the second conductive display solution 802 Can be water or salting liquid etc..

Additionally, can be that the 3rd electrode 40 is set, or the 4th electrode 50 near generator unit 2 in electrowetting light valve Set near generator unit 2.Wherein, transparent base can be set between the electrode and first electrode 10 that are set near generator unit 2 Plate 90, it is also possible to which transparent material layer 90 is set.

The embodiment of the present invention, when light valve 1 is electrowetting light valve, by controlling on the 3rd electrode 40 and the 4th electrode 50 Voltage, just can control the light transmission state of light valve 1, when the light transmission state of light valve 1 changes, due to the change of light intensity, first Photic deformation layer 30 can extend or shrink, and the elongation of the first photic deformation layer 30 or contraction can cause first electrode 10 and second The electric capacity that electrode 20 is formed changes, and is connected in circuit when by first electrode 10 and second electrode 20, just can be in circuit Middle formation charging and discharging currents.If the first electrode 10 and second electrode 20 in generator unit are connected with energy-storage units, so Just the electric energy of capacitor charge and discharge generation can be reclaimed.

On this basis, when light valve 1 is electrowetting light valve as shown in Figure 3 or as shown in Figure 4, if by electrowetting light valve In electrode in the 3rd electrode 40 and the 4th electrode 50 near first electrode 10 be arranged to multiple strip sub-electrodes, applied by control The voltage on multiple strip sub-electrodes is added to, the size of transparent area when light valve 1 just can be controlled to be in light transmission state, so that thoroughly The intensity for crossing the light of light valve 1 changes.

With reference to as shown in Figure 5-Figure 8, light valve 1 is electrophoresis light valve.

Wherein, electrophoresis light valve can be microcapsules formula electrophoresis light valve, or micro-cup formula electrophoresis light valve, or other The electrophoresis light valve of type.On this basis, the concrete structure for electrophoresis light valve is not defined, and can be the electricity of arbitrary structures Swimming light valve.

As shown in Fig. 5 (a) and Fig. 5 (b), it is shown that a kind of principle realization of electrophoresis light valve, including：Electrophoretic display layer 120 and the transparent driving electrodes 130 for driving electrophoretic display layer 120 to be shown；Electrophoretic display layer 120 includes transparent molten Agent 1201 and the black charged particles 1202 being dispersed in transparent solvent 1201.

Wherein, the material for driving electrodes 130 is not defined, for example, can be ITO, IZO, IGZO or FTO.

Herein, the material for black charged particles 1202 is not defined, for example can be by ferrimanganic is black, copper-chrome black or Carbon black etc. is formed.On this basis, black charged particles 1202 can be with positively or negatively charged.

On this basis, the material for transparent solvent 1201 is not defined, for example, can be synthesising different structure alkane, fat Fat oil or silicon liquid etc..

As it is known by the man skilled in the art, in the implementation of specific technology, can be using the specific electrophoresis such as microcapsules, micro-cup Display solution.

It should be noted that transparency carrier 90 can be set between electrophoretic display layer 120 and first electrode 10, it is also possible to set Put transparent material layer 90.

The embodiment of the present invention, the light transmission state of light valve 1 just can be controlled by controlling the voltage in driving electrodes 130, when When the light transmission state of light valve 1 changes, due to the change of light intensity, the first photic deformation layer 30 can extend or shrink, and first The elongation of photic deformation layer 30 or contraction can cause that the electric capacity that first electrode 10 and second electrode 20 are formed changes, when by the One electrode 10 and second electrode 20 are connected in circuit, just can in circuit form charging and discharging currents.If by generator unit First electrode 10 and second electrode 20 be connected with energy-storage units, just can so reclaim capacitor charge and discharge generation electric energy.

It is further preferred that as shown in Figure 5-Figure 8, driving electrodes 130 include first positioned at electrophoresis light valve shading region 01 Son driving electrodes 1301 and the second son driving electrodes 1302 positioned at electrophoresis light valve open region 02.

Herein, when the voltage electrically opposite with black charged particles 1202 is applied to the second son driving electrodes 1302, this When black charged particles 1202 can move and be laid on open region 02, now light valve 1 is in shading status；Driven when to the first son When electrode 1301 applies the voltage electrically opposite with black charged particles 1202, now black charged particles 1202 can be moved to screening Light area 01, now light valve 1 be in light transmission state, at this moment ambient light just can pass through the first photic deformation layer 30 of directive of light valve 1.

It should be noted that when light valve 1 is electrophoresis light valve, black square can also be set to the shading region 01 of electrophoresis light valve Battle array, does not illustrate in description of the invention accompanying drawing.

The embodiment of the present invention, by controlling the voltage in the first son driving electrodes 1301 and the second son driving electrodes 1302, Just light valve 1 can be controlled to be in shading status or light transmission state.

On this basis, as Figure 6-Figure 8, when the second son driving electrodes 1302 are for multiple strip sub-electrodes, pass through Control is applied to the voltage on multiple strip sub-electrodes, the size of transparent area when light valve 1 just can be controlled to be in light transmission state, from And the intensity of the light through light valve 1 is changed.

Preferably, as shown in fig. 7, generator unit 2 also includes the second photic deformation layer 140；Second photic deformation layer 140 sets Put between light valve 1 and first electrode 10, the second photic deformation layer 140 has just to region with the open region of light valve 1, the second light Causing deformation layer 140 can sprawl direction elongation or contraction with the change of the light transmission state of light valve 1 along the second photic deformation layer 140；The Two photic deformation layers 140 are connected with the first photic deformation layer 30.

Herein, illustrated so that light valve 1 is electrophoresis light valve as an example in accompanying drawing 7.

Wherein, the material for the second photic deformation layer 140 is not defined, as long as can be extended in illumination, no light When shrink or shunk in illumination, extended during no light, and with the change of intensity of illumination, the second photic deformation layer 140 deformation degree can also change therewith.The material of the second photic deformation layer 140 for example can be to contain the poly- of azo end structure Phthalimide or the macromolecule containing spiral shell benzopyrans structure etc..On this basis, the material of the second photic deformation layer 140 and The material of one photic deformation layer 30 can be with identical, it is also possible to different.When the material and the first light-induced variable of the second photic deformation layer 140 When the material of shape layer 30 is different, the first photic deformation layer 30 and the second photic deformation layer 140 should extend or receive in illumination Contracting, also should extend in no light or shrink.

On this basis, the second photic deformation layer 140 is sprawled direction and is stretched along it, can be the second photic deformation layer 140 The characteristic of material determines that the second photic deformation layer 140 along it can only sprawl direction elongation or shrink, or second photic Deformation layer 140 is arranged in specific passage, and the shape of passage defines that the second photic deformation layer 140 can only sprawl direction along it Elongation is shunk.

The embodiment of the present invention, is additionally provided with the second photic deformation layer 140 between light valve 1 and first electrode 10, due to Two photic deformation layers 140 have just to region with the open region of light valve 1, and the second photic deformation layer 140 and the first photic deformation Layer 30 is connected, thus the second photic deformation layer 140 can extend or shrink when the light transmission state of light valve 1 changes, so that Can promote the free end 301 of the first photic deformation layer 30 first electrode 10 and second electrode 20 just to region move, and then Cause the change of first electrode 10 and the electric capacity of second electrode 20.Due to the first photic deformation layer 30 and the second photic deformation layer 140 Common eigenvector, make the free end 301 of the first photic deformation layer 30 first electrode 10 and second electrode 20 just to region move, The deformation extent of the first photic deformation layer 30 can thus be increased, so that the electricity that first electrode 10 and second electrode 20 are formed Hold becoming apparent from for change, and then cause that the charging and discharging currents that first electrode 10 and second electrode 20 are formed in circuit are bigger, this Sample just can be recovered to bigger electric energy.

Preferably, as shown in Fig. 8 (a) and Fig. 8 (b), generator unit 2 has cavity 150, and the first photic deformation layer 30 is located at In cavity 150；Generator unit 2 also includes：Elastomer 160 in cavity 150, elastomer 160 connects with the side wall of cavity 150 Touch, and direction is sprawled along the first photic deformation layer 30, set between the free end 301 of the photic deformation layer 30 of elastomer 160 and first It is equipped with filling liquid 170；When the first photic deformation layer 30 extends, shown in such as Fig. 8 (a), the first photic deformation layer 30 promotes filling Liquid 170 extrudes elastomer 160, and when the first photic deformation layer 30 shrinks, shown in such as Fig. 8 (b), elastomer 160 replys deformation, pushes away Dynamic filling liquid 170 to first electrode 10 and second electrode 20 just to region move.

Preferably, dielectric constant of the dielectric constant of filling liquid 170 more than the first photic deformation layer 30.

Wherein, the type for filling liquid 170 is not defined, as long as the dielectric constant of filling liquid 170 is more than the first light Cause the dielectric constant of deformation layer 30.Filling liquid 170 for example can be electrowetting display medium 80, or electrophoresis showed Solvent in layer 120 etc..

Herein, cavity 150 can be formed by transparent material.On this basis, first electrode 10 and second electrode 20 can be with It is formed in cavity 150, it is also possible to be formed in outside cavity 150, this is not defined.

The embodiment of the present invention, when the light transmission state of light valve 1 changes, if the first photic deformation layer 30 extends, the One photic deformation layer 30 can promote filling liquid 170 to move so that filling liquid 170 is just right with first electrode 10, second electrode 20 Area reduce；When the light transmission state of light valve 1 changes, if the first photic deformation layer 30 shrinks, elastomer 160 is replied Deformation, thus can promote filling liquid 170 to first electrode 10 and second electrode 20 just to region move so that filling liquid 170 with first electrode 10, second electrode 20 just to area increase.Because the dielectric constant of filling liquid 170 is more than the first light The dielectric constant of deformation layer 30 is caused, thus it is just right in first electrode 10 and second electrode 20 relative to the first photic deformation layer 30 Region movement, filling liquid 170 first electrode 10 and second electrode 20 just to region movement to first electrode 10 and the The influence of the electric capacity that two electrode 20 is formed becomes apparent from, so that the charging and discharging currents for being formed are bigger.

Used as an example, the dielectric constant of ether is 4.335, because the dielectric constant of ether is larger, thus the present invention Can be using ether as filling liquid 170 in one preferred implementation of embodiment.

The embodiment of the present invention provides a kind of display device, shown in such as Fig. 9 (a), including a plurality of data lines (Date) and a plurality of Grid line (Gate), and the multiple pixel regions for limiting, each pixel region are intersected by a plurality of data lines and the insulation of a plurality of grid line It is provided with above-mentioned display unit；As shown in Fig. 9 (a) and Fig. 9 (b), display device also includes energy-storage units 180 and rectification unit 190；First electrode 10, second electrode 20 and rectification unit 190, energy-storage units 180 form loop.

Wherein, energy-storage units 180 for example can be battery.

Herein, can change into the charging and discharging currents that first electrode 10 and second electrode 20 are formed can for rectification unit 190 To be charged to the voltage of battery, power storage is got up.

Additionally, first electrode 10 and second electrode 20 can by the cabling that is set in display device and rectification unit 190, Energy-storage units 180 are connected to form loop

It should be noted that the electric energy that the generator unit 2 in display device is produced can be stored, it can also be used to display dress The display put, i.e., for driving the change of the light transmission state of light valve 1 in display unit.When display device show needed for electric energy by When generator unit 2 is provided, now display device then needs the electricity for being formed to first electrode 10 and second electrode 20 in advance in start Appearance fills an electric charge, hereafter just can power off.

The embodiment of the present invention, during the display of display unit, if the light transmission state of light valve 1 changes, sends out Electric capacity in electric unit 2 between first electrode 10 and second electrode 20 can change, so as to charging and discharging currents can be formed, produce Charging and discharging currents by being stored in energy-storage units 180 after the rectification of rectification unit 190, such that it is able to reclaim electric energy.This hair Bright embodiment, during the display of display device, electric energy is produced using display unit light through the characteristic that state changes, Electric energy is produced to can be used for the display of display device, so that display device is more environmentally-friendly.

Preferably, as shown in Figure 10, display device also includes：Plurality of transmission lines (C), the touch control detection list intersected with grid line Unit and positioned at the thin film transistor (TFT) T of each pixel region；Touch control detection unit includes multiple current detecting units 200, every Transmission line C is connected with a current detecting unit 200, and touch control detection unit is used for scanning signal and each electricity according to each grid line The curent change that stream detection unit 200 is detected determines touch location；Wherein, the grid of thin film transistor (TFT) T is connected with grid line, source Pole is connected with transmission line, and drain electrode is connected with first electrode 10 or second electrode 20 in generator unit 2；Positioned at same row pixel region Thin film transistor (TFT) T in domain is connected with same transmission lines.

Wherein, touch control detection unit can determine that line position is put according to the scanning signal of each grid line, according to current detecting unit 200 curent changes for detecting can determine column position, and now display device has touch controllable function.Herein, the change of electric current can Being by no current to the change for having electric current, or the change of size of current.

Herein, drain electrode is connected with first electrode 10 or second electrode 20 in generator unit 2, for first electrode 10 and the The electrode not being connected with drain electrode in two electrodes 20, it can be by the other cablings in display device and the phase of energy-storage units 180 Even (in description of the invention accompanying drawing 10 so that first electrode 10 or second electrode 20 are connected by cabling M with energy-storage units 180 as an example Illustrated).The embodiment of the present invention, can also in a display device set public electrode wire, first electrode 10 or second electrode 20 are connected by public electrode wire with energy-storage units 180.Now, the not phase of other electrodes in public electrode wire and display device Even.

Based on above-mentioned, it will be understood by those skilled in the art that in order to ensure the electric current that current detecting unit 200 is detected becomes Change is caused by touch, therefore it is determined that during touch location, data wire should stop input signal, or within a period of time, number The signal being input into according to line is constant.On this basis, the light valve 1 in all display units can not be entirely shading status, otherwise be Finger is touched, will not also cause the change of electric current on transmission line.

The embodiment of the present invention, when the data wire signal that input signal or data wire are not input into is constant, now light valve 1 is saturating Light state does not change, therefore the first photic deformation layer 30 just will not extend or shrink, and first electrode 10 and second electrode 20 are formed Electric capacity will not change, thus first electrode 10 and second electrode 20 will not form charging and discharging currents, the electricity on transmission line Stream signal just will not also change.When being touched, now data wire input signal or data wire input signal not Become, because finger has blocked ambient light, thus the light transmission state of light valve 1 can change, therefore the first photic deformation layer 30 will be stretched Long or contraction, so that can cause that the electric capacity that first electrode 10 and second electrode 20 are formed changes, and discharge and recharge can cause to pass Current signal on defeated line can also change, scanning signal and each current detecting list of the touch control detection unit according to each grid line The curent change that unit 200 detects just can determine touch location, so that display device has touch controllable function.

The embodiment of the present invention also provides a kind of touch control method of above-mentioned display device, including:Within a time period, work as number When stopping input signal according to line, or within a time period, when the signal of data wire input is constant, grid line is swept line by line Retouch, the curent change that the scanning signal and each current detecting unit 200 according to each grid line are detected determines touch location.

In above-mentioned alleged a period of time, the light transmission state for referring to reaching light valve does not change the required time.For example, Carry out the time needed for reaching required display content when display content changes.Specifically, for example for electric ink light valve, should Time can complete a time for content change refreshing.

The embodiment of the present invention provides a kind of touch control method of display device, within a time period, when data wire is not input into letter Number or within a time period, when the signal of data wire input is constant, now the light transmission state of light valve 1 does not change, therefore first Photic deformation layer 30 just will not extend or shrink, and the electric capacity that first electrode 10 and second electrode 20 are formed will not change, because And first electrode 10 and second electrode 20 will not form charging and discharging currents, the current signal on transmission line just will not also become Change.When being touched, now input signal or the signal of data wire input be not constant for data wire, because finger has blocked environment Light, thus the light transmission state of light valve 1 can change, therefore the first photic deformation layer 30 will extend or shrink, so as to can be caused The electric capacity that one electrode 10 and second electrode 20 are formed changes, and discharge and recharge can cause that the current signal on transmission line can also be sent out Changing, the curent change that touch control detection unit is detected according to the scanning signal and each current detecting unit 200 of each grid line Just touch location can be determined, so that display device can carry out touch-control.

The above, specific embodiment only of the invention, but protection scope of the present invention is not limited thereto, and it is any Those familiar with the art the invention discloses technical scope in, change or replacement can be readily occurred in, should all contain Cover within protection scope of the present invention.Therefore, protection scope of the present invention should be based on the protection scope of the described claims.

Claims (10)

1. a kind of display unit, it is characterised in that including：The light valve and generator unit being stacked；

The generator unit includes：

The first electrode and second electrode being oppositely arranged, have gap between the first electrode and the second electrode；It is described The relatively described second electrode of first electrode is near the light valve；

First photic deformation layer, the first photic deformation layer is arranged at the interstitial site, the first photic deformation layer Open region with the light valve has just to region, and the first photic deformation layer can be with the change edge of the light valve light transmission state The first photic deformation layer is sprawled direction elongation or is shunk, so that the free end of the first photic deformation layer is described the One electrode and the second electrode just to region in move；

Wherein, the second electrode energy reflected light；Or, the display unit also includes being arranged on the generator unit away from institute State the reflecting layer of light valve side.

2. display unit according to claim 1, it is characterised in that the light valve is electrowetting light valve or electrophoresis light valve.

3. display unit according to claim 2, it is characterised in that the electrowetting light valve includes：

The 3rd electrode being oppositely arranged and the 4th electrode；The 3rd electrode is arranged near the 4th electrode side or the 4th electricity is arranged on The separation layer for being extremely close to the 3rd electrode side, the barricade for being arranged on the hydrophilic layer at separation layer edge and being arranged on hydrophilic layer；

Also include：It is filled in the 3rd electrode, the electrowetting display medium between the 4th electrode and the barricade, institute State second display solution of the electrowetting display medium including the nonconducting first display solution and conduction, the first display solution It is unmixing with the described second display solution.

4. display unit according to claim 2, it is characterised in that the electrophoresis light valve includes：

Electrophoretic display layer and the transparent driving electrodes for driving the electrophoretic display layer to be shown；The electrophoretic display layer Including transparent solvent and the black charged particles being dispersed in the transparent solvent.

5. display unit according to claim 4, it is characterised in that the driving electrodes include being located at the electrophoresis light valve First son driving electrodes of shading region and the second son driving electrodes positioned at the electrophoresis light valve open region.

6. display unit according to claim 1, it is characterised in that the generator unit also includes the second photic deformation Layer；

The second photic deformation layer is arranged between the light valve and the first electrode, the second photic deformation layer and institute The open region for stating light valve has just to region, and the second photic deformation layer can be with the change of the light valve light transmission state along described The direction of sprawling of the second photic deformation layer extends or shrinks；The second photic deformation layer is connected with the described first photic deformation layer Connect.

7. display unit according to claim 1, it is characterised in that the generator unit has cavity, first light Deformation layer is caused to be located in the cavity；

The generator unit also includes：Elastomer in the cavity, the sidewall contact of the elastomer and the cavity, And direction is sprawled along the described first photic deformation layer, set between the elastomer and the free end of the first photic deformation layer There is filling liquid；

When the described first photic deformation layer extends, the first photic deformation layer promotes the filling liquid to extrude the elasticity Body, when the described first photic deformation layer shrinks, the elastomer replys deformation, promotes the filling liquid to the first electrode With the second electrode just to region move.

8. a kind of display device, it is characterised in that including a plurality of data lines and a plurality of grid line, and by a plurality of data lines and The a plurality of grid line insulation intersects the multiple pixel regions for limiting, it is characterised in that each described pixel region is set just like power Profit requires the display unit described in any one of 1-7；

The display device also includes energy-storage units and rectification unit；The first electrode, the second electrode and the rectification Unit, the energy-storage units form loop.

9. display device according to claim 8, it is characterised in that the display device also includes：Handed over the grid line The plurality of transmission lines of fork, touch control detection unit and the thin film transistor (TFT) positioned at each pixel region；

The touch control detection unit includes multiple current detecting units, every transmission line and a current detecting unit phase Even, the touch control detection unit is used for the curent change detected according to the scanning signal and each current detecting unit of each grid line Determine touch location；

Wherein, the grid of the thin film transistor (TFT) is connected with the grid line, and source electrode is connected with the transmission line, and drain electrode is single with generating First electrode or second electrode in unit are connected；Thin film transistor (TFT) and same transmission lines phase in same row pixel region Even.

10. a kind of touch control method of display device as claimed in claim 9, it is characterised in that including:

Within a time period, when data wire stops input signal, or within a time period, when data wire input signal not During change, grid line is scanned line by line, the curent change that the scanning signal and each current detecting unit according to each grid line are detected Determine touch location.