CN106019573A - Display panel and display device - Google Patents

Abstract

The invention discloses a display panel and a display device so as to simplify the structure of the display panel, reduce power consumption of the display panel and reduce cost of the display panel, and accordingly when electronic paper is used on the display panel, the structure of the electronic paper can be simplified, power consumption of the electronic paper is reduced, and cost of the electronic paper is reduced. The display panel is provided with display units distributed in an array. Each display unit comprises an upper cover plate and a lower cover plate opposite to the upper cover plate, wherein a lower electrode is arranged on the side, opposite to the upper cover plate, of the lower cover plate; an electrostrictive material is arranged on the side, opposite to the upper cover plate, of the lower electrode, and a lower reflection layer is arranged on the side, opposite to the upper cover plate, of the electrostrictive material; an upper semi-transparent semi-reflection electrode is arranged on the side, opposite to the lower cover plate, of the upper cover plate. The electrostrictive materials deform under the action of an electric field formed by the lower electrodes and the upper semi-transparent semi-reflection electrodes, so air gaps change.

Description

A kind of display floater, display device

Technical field

The application relates to display field, particularly relates to a kind of display floater, display device.

Background technology

Developing rapidly the day by day increasing with environmental protection pressure along with technology, people increasingly thirst for a kind of collection tradition Paper and modern digital technology double dominant medium, then electronic paper technology is just arisen at the historic moment, and Obtain vigorous growth, electronic reader (such as e-book, electronic newspaper) or other electricity can be widely used in Sub-element.

High pass wholly-owned subsidiary high pass photoelectricity, have employed micro electro mechanical system (MEMS) technology when making electronic paper screen, It utilizes interference of light principle, the natural light in reflection surrounding, the light being irradiated in display screen by control Line so that it is pixel one by one reflects required color, it is achieved colored display.But it is owing to have employed microcomputer Electricity system, and then Electronic Paper product is existed structure is complicated, power consumption is bigger, relatively costly problem.

Summary of the invention

The purpose of the application is to provide a kind of display floater, display device, to simplify the structure of display floater, Reduce display floater power consumption, reduce display floater cost, and then by this display panel applications to electronics During paper, the structure of Electronic Paper can be simplified, reduce the power consumption of Electronic Paper, reduce the cost of Electronic Paper.

The embodiment of the present application provides a kind of display floater, and described display floater has the display in array distribution Unit, described display unit includes: the upper cover plate being oppositely arranged and lower cover；Wherein,

The one side relative with described upper cover plate of described lower cover is provided with bottom electrode, described bottom electrode with The one side that described upper cover plate is relative is provided with electrostriction material, described electrostriction material with described on The one side that cover plate is relative is provided with lower reflecting layer；

The one side relative with described lower cover of described upper cover plate is provided with upper semi-transparent half antielectrode；

Shape between described lower reflecting layer and described semi-transparent half antielectrode of described upper cover plate of described lower cover Become to have the air gap；

Described electrostriction material described bottom electrode with described semi-transparent half antielectrode formed electric field action Under deform upon so that described the air gap changes.

The display floater that the embodiment of the present application provides, by arranging semi-transparent half antielectrode at upper cover plate, Lower cover arranges lower reflecting layer so that the light of display unit is incided in the external world can be perpendicular to upper cover plate Side is upwardly formed two bundle coherent lights, and arranges electrostriction material between upper semi-transparent half antielectrode and bottom electrode Material, by making this electrostriction material carry out telescopic variation under the effect of electric field, and then makes two reflections The air gap between Ceng carries out respective change, owing to two bundle coherent lights meet some requirements in optical path difference Time, interference of light can be realized and strengthen, and then the display floater that the embodiment of the present application provides can be by extraneous incident Light carry out selectivity interfere strengthen, make display unit can realize corresponding photochromic display.Such that it is able to Simplify the structure of display floater, reduce the power consumption of display floater, reduce the cost of display floater, and then inciting somebody to action When this display panel applications is to Electronic Paper, the structure of Electronic Paper can be simplified, reduce the power consumption of Electronic Paper, subtract The cost of little Electronic Paper.

Preferably, described display floater also includes, control unit, and described control unit is for for each Described display unit, according to this display unit need to show photochromic, to the described bottom electrode of this display unit Or described semi-transparent half antielectrode apply and this photochromic corresponding voltage so that the air of this display unit Gap reaches preset value, so that this first photochromic reflection light and the second reflection light realize interference and adds By force, wherein, described first reflection light is that ambient incides this display unit via described upper cover plate Described semi-transparent half antielectrode, then the reflection of described upper cover plate is reflexed to through described semi-transparent half antielectrode Light, described second reflection light be ambient via described upper cover plate incide this display unit described on Semi-transparent semi-reflecting electrode, is transmitted to described lower reflecting layer through described semi-transparent half antielectrode, then by described lower instead Penetrate layer and reflex to the reflection light of described upper cover plate.

The display floater that the embodiment of the present application provides, described display floater also includes the control for controlling display Unit processed, and then display floater that the embodiment of the present application provides can be made the external world according to the signal that need to show Light carries out selectivity reinforcement, and then makes display unit realize different photochromic display.

Preferably, the bottom electrode in each display unit is independent block type electrode, and all described displays are single Described semi-transparent half antielectrode in unit is an overall plane-shape electrode.

Preferably, described bottom electrode connects signal voltage, described semi-transparent half antielectrode ground connection.

Preferably, upper semi-transparent half antielectrode in each display unit is independent block type electrode, all institutes Stating the described bottom electrode in display unit is an overall plane-shape electrode.

Preferably, described semi-transparent half antielectrode connects signal voltage, described bottom electrode ground connection.

Preferably, the bottom electrode in each display unit is independent block type electrode, and each display unit In upper semi-transparent half antielectrode be to be independent block type electrode.

Preferably, described bottom electrode connects signal voltage, described semi-transparent half antielectrode ground connection；Or on described Semi-transparent semi-reflecting electrode connects signal voltage, described bottom electrode ground connection.

Preferably, between described semi-transparent half antielectrode and described bottom electrode, it is additionally provided with supporter, described Support thing is formed at the marginal area of described display unit, for entering the described upper cover plate above described lower cover Row supports, so that forming described the air gap between described lower reflecting layer and described semi-transparent half antielectrode.

Preferably, described electrostriction material includes one of llowing group of materials or combination: nano barium phthalate, poly- Urethane complex or pottery.

The embodiment of the present application also provides for a kind of display device, described the showing provided including the embodiment of the present application Show panel.

The embodiment of the present application also provides for a kind of Electronic Paper, the described display provided including the embodiment of the present application Panel.

Accompanying drawing explanation

The structural representation of the display floater that Fig. 1 provides for the embodiment of the present application；

The structural representation of the display unit that Fig. 2 provides for the embodiment of the present application；

Fig. 3 (a) interferes schematic diagram when weakening for the HONGGUANG that the embodiment of the present application provides；

Fig. 3 (b) interferes schematic diagram during reinforcement for the green glow that the embodiment of the present application provides；

Fig. 3 (c) interferes schematic diagram when weakening for the blue light that the embodiment of the present application provides；

The structural representation that bottom electrode is block type electrode that Fig. 4 provides for the embodiment of the present application；

Upper semi-transparent half antielectrode that Fig. 5 provides for the embodiment of the present application is structural representation during block type electrode；

Upper semi-transparent half antielectrode that Fig. 6 provides for the embodiment of the present application and bottom electrode are knot during block type electrode Structure schematic diagram.

Detailed description of the invention

Below in conjunction with Figure of description, the embodiment of the present application is realized process to be described in detail.Should be noted that , the most same or similar label represents same or similar element or has same or like merit The element of energy.The embodiment described below with reference to accompanying drawing is exemplary, is only used for explaining the application, And it is not intended that restriction to the application.

Shown in Fig. 1 and Fig. 2, the embodiment of the present application provides a kind of display floater, and this display floater has Display unit 100 in array distribution, display unit 100 includes: the upper cover plate 110 that is oppositely arranged and Lower cover 120；Wherein,

The one side relative with upper cover plate 110 of lower cover 120 is provided with bottom electrode 121, bottom electrode 121 The one side relative with upper cover plate 110 is provided with electrostriction material 122, electrostriction material 122 with upper The one side that cover plate 110 is relative is provided with lower reflecting layer 123；

The one side relative with lower cover 120 of upper cover plate 110 is provided with upper semi-transparent half antielectrode 111；

It is provided with between upper semi-transparent half antielectrode 111 and the bottom electrode 121 of lower cover 120 of upper cover plate 110 Supporter 130, for the upper cover plate 110 above lower cover 120 is supported, so that lower reflecting layer 123 And form the air gap 140 between upper semi-transparent half antielectrode 111；

Electrostriction material 122 bottom electrode 121 with under the electric field action that formed of semi-transparent half antielectrode 111 Deform upon so that the air gap 140 changes.

Below in conjunction with Fig. 2, Fig. 3 (a), Fig. 3 (b) and Fig. 3 (c), the embodiment of the present application is shown Show that the displaying principle of panel is carried out following detailed description:

The display floater provided for the embodiment of the present application, owing to being provided with semi-transparent semi-reflecting at upper cover plate 110 Electrode 111, is provided with lower reflecting layer 123 at lower cover 120, incides on this semi-transparent semi-reflecting in ambient light During electrode 111, the reflection light that two bundles are relevant can be upwardly formed in the side being perpendicular to upper cover plate 110, respectively Being the first reflection light and the second reflection light, wherein, the first reflection light is that ambient enters via upper cover plate 110 It is mapped to upper semi-transparent half antielectrode 111 of this display unit 100, then reflexes to through upper semi-transparent half antielectrode 111 The reflection light of upper cover plate 110, the second reflection light is that ambient incides this display list via upper cover plate 110 Upper semi-transparent half antielectrode 111 of unit 100, is transmitted to lower reflecting layer 123 through upper semi-transparent half antielectrode 111, The reflection light of upper cover plate 110 is reflexed to again by lower reflecting layer 123.Wherein, the first reflection light and the second reflection The optical path difference of light is the distance of the air gap 140 between upper semi-transparent half antielectrode 111 and lower reflecting layer 123, The distance of the air gap 140 is different, and the optical path difference that can cause the first reflection light and the second reflection light is different, and Different size of optical path difference can make the light of different wave length interfere reinforcement accordingly.That is, upper semi-transparent half The distance of the air gap 140 between antielectrode 111 and lower reflecting layer 123 meets the even number of HONGGUANG half-wavelength Times time, can make this display unit 100 produce red interference of light strengthen, it is achieved the red display of this position； And if the distance of the air gap 140 between upper semi-transparent half antielectrode 111 and lower reflecting layer 123 meets During the odd-multiple of HONGGUANG half-wavelength, this display unit 100 can be made to produce red interference of light and to weaken, such as Fig. 3 (a) Shown in, this position will not show redness；And if in upper semi-transparent half antielectrode 111 and lower reflecting layer 123 Between the distance of the air gap 140 when meeting the even-multiple of green glow half-wavelength, this display unit can be made 100 produce green interference of light strengthens, as shown in Fig. 3 (b), it is achieved the green display of this position；And if The distance of the air gap 140 between upper semi-transparent half antielectrode 111 and lower reflecting layer 123 meets green glow half During the odd-multiple of wavelength, this display unit 100 can be made to produce green interference of light and to weaken；In like manner, if The distance of upper the air gap 140 between semi-transparent half antielectrode 111 and lower reflecting layer 123 meets blue light half-wave During the even-multiple grown, this display unit 100 can be made to produce blue interference of light and to strengthen, it is achieved this position Blue display；And if the air gap 140 between upper semi-transparent half antielectrode 111 and lower reflecting layer 123 Distance when meeting the odd-multiple of blue light half-wavelength, this display unit 100 can be made to produce blue interference of light and to subtract Weak, as shown in Fig. 3 (c), this position will not show blueness.Wherein, upper semi-transparent half antielectrode 111 and under The distance of the air gap 140 between reflecting layer 123 can be by electrostriction material 122 in different size Electric field intensity effect under change accordingly, i.e. can upper by different display units 100 Upper semi-transparent half antielectrode 111 of cover plate 110 and the bottom electrode 121 of lower cover 120 apply different voltage, Make different display unit 100 form different size of electric field intensity, and then control electrostriction material 122 Stroke size, so can realize upper semi-transparent half antielectrode 111 to different display units 100 and lower instead Penetrate the control of the air gap 140 size between layer 123, and then realize the light at different display units 100 Color shows.

Therefore, the embodiment of the present application provide display floater, due to upper semi-transparent half antielectrode 111 and lower instead Penetrate and electrostriction material 122 is set between layer 123, by making this electrostriction material 122 at the work of electric field Carry out telescopic variation under with, and then make between the air between semi-transparent half antielectrode 111 and lower reflecting layer 123 Gap 140 carries out respective change, and then makes display unit 100 can realize corresponding photochromic display, thus can To simplify the structure of display floater, reduce the power consumption of display floater, reduce the cost of display floater, for needing Electronic Paper to be shown, it is not necessary to the microelectromechanical-systems of complexity is set, and then in showing the embodiment of the present application When showing panel application to Electronic Paper, the structure of Electronic Paper can be simplified, reduce the power consumption of Electronic Paper, reduce electricity The cost of sub-paper.

In the specific implementation, owing to light is by extraneous incident, and two beam interferometers are being formed after upper cover plate 110 Reflection light, therefore, the upper cover plate 110 of the embodiment of the present application is transparent cover plate, is specifically as follows glass. Upper semi-transparent half antielectrode 111 is specifically as follows to the metal with the first preset thickness, concrete metal material Matter can be silver.Can be the metal with the second preset thickness for lower reflecting layer 123, concrete metal Material can be silver.First preset thickness and the second preset thickness can be entered in the specific implementation as required Row arrange, when upper semi-transparent half antielectrode 111 is identical material with lower reflecting layer 123, due to the two Function is different, i.e. a kind of for light can be made to realize semi-permeable half reflection, another kind of for light can be made to realize being all-trans Penetrate, then, the occurrence of the first preset thickness and the second preset thickness is unequal.For being arranged at lower cover 120 Bottom electrode 121, concrete material can be tin indium oxide.It addition, for being arranged on upper cover plate 110 Upper supporter 130 between semi-transparent half antielectrode 111 and the bottom electrode 121 of lower cover 120, it is mainly used It is supported in the upper cover plate 110 being pointed to above lower cover 120, so that upper semi-transparent the half of upper cover plate 110 The lower reflecting layer 123 of antielectrode 111 and lower cover 120 is formed has space at regular intervals, certainly, and this Time the electrostriction material 122 of each display unit 100 and lower reflecting layer 123 due to can be with display unit The difference of 100, carry out in various degree is flexible, i.e. the electrostriction material 122 of each display unit 100 Between be formed with gap, separate, and between the lower reflecting layer 123 of each display unit 100 formed Having gap, the most separate, supporter 130 is arranged at interstitial site, concrete, and it can be arranged on The marginal area of each display unit 100, it is also possible to be arranged on the marginal area of part display unit 100, Can arrange the most flexibly in the specific implementation, do not limit at this.Concrete, supporter The shape of 130 can be the structure of the continuous tabular of the edge extension along display unit 100；Can also be many Individual independent column structure, the cross section of column structure is circular or rectangle.For the material of supporter 130, In order to avoid upper semi-transparent half antielectrode 111 turns on bottom electrode 121, generally insulant.It addition, it is right In the material of electrostriction material 122, it can include one of llowing group of materials or combine: nano barium phthalate, Polyurethane complex or pottery.

It should be noted that display floater has multiple display unit 100, multiple display units 100 upper Cover plate 110 is holistic structure, and the lower cover 120 of multiple display units 100 is holistic structure, And for lower reflecting layer 123 and electrostriction material 122, owing to meeting is along with each display unit 100 electricity The difference of field size is moved accordingly, i.e. the lower reflecting layer 123 of each display unit 100 is and it The absolute construction that the lower reflecting layer 123 of its display unit 100 is separate, the electricity of each display unit 100 Causing telescopic material 122 is the independence knot separate with the electrostriction material 122 of other display unit 100 Structure.And for upper semi-transparent half antielectrode 111 and bottom electrode 121, due to the different displays of display floater to be made Unit 100 realizes different photochromic display, and i.e. different display units 100 need to have the electric field varied in size, That is, upper semi-transparent half antielectrode 111 and bottom electrode 121, at least one of which is independent block electrode, And then, the Different electrodes block at this block type electrode connects different signal voltages, during another electrode ground connection, and can So that display floater forms multiple display unit 100 with the electric field intensity that varies in size, saturating to upper half below The concrete structure shape of half antielectrode 111 and bottom electrode 121 carries out concrete example explanation.

Such as, as shown in Figure 4, the bottom electrode 121 in each display unit 100 is independent block type electrode, Upper semi-transparent half antielectrode 111 in all display units 100 is an overall plane-shape electrode.When each display is single Bottom electrode 121 in unit 100 is independent block type electrode, upper semi-transparent semi-reflecting in all display units 100 When electrode 111 is an overall plane-shape electrode, bottom electrode 121 connects signal voltage, upper semi-transparent half antielectrode 111 Ground connection.When upper semi-transparent half antielectrode 111 ground connection of overall planar, by different block bottom electrodes 121 apply different signal voltages, and then display floater can be made to realize different photochromic displays.

The most such as, as it is shown in figure 5, upper semi-transparent half antielectrode 111 in each display unit 100 is independent Block type electrode, the bottom electrode 121 in all display units 100 is an overall plane-shape electrode.When each aobvious Show that upper semi-transparent half antielectrode 111 in unit 100 is independent block type electrode, in all display units 100 Bottom electrode 121 when being an overall plane-shape electrode, upper semi-transparent half antielectrode 111 connects signal voltage, bottom electrode 121 ground connection.When bottom electrode 121 ground connection of overall planar, can be by different block upper semi-transparent Half antielectrode 111 applies different signal voltages, makes display floater realize different photochromic displays.

The most such as, as shown in Figure 6, the bottom electrode 121 in each display unit 100 is independent block electricity Upper semi-transparent half antielectrode 111 in pole, and each display unit 100 is independent block type electrode.When each Bottom electrode 121 in display unit 100 is upper in independent block type electrode, and each display unit 100 When semi-transparent semi-reflecting electrode 111 is independent block type electrode, bottom electrode 121 can be made to connect signal voltage, upper half Saturating half antielectrode 111 ground connection；Or, it is possible to so that saturating half antielectrode 111 of upper half connects signal voltage, lower electricity Pole 121 ground connection, all can make display floater realize different photochromic displays.

Preferably, the display floater that the embodiment of the present application provides also includes control unit, and control unit is used for For each display unit 100, according to this display unit 100 need to show photochromic, to this display unit Bottom electrode 121 or upper semi-transparent half antielectrode 111 of 100 apply and this photochromic corresponding voltage so that should The air gap 140 of display unit 100 reaches preset value, so that this photochromic first reflection light and the Two reflection light realize interfering to be strengthened.

The display floater that the embodiment of the present application provides, display floater also includes the control list for controlling display Unit, and then ambient light entered by the display floater that the embodiment of the present application can be made to provide according to the signal that need to show Row selectivity is strengthened, and then makes display unit realize different photochromic display.

The embodiment of the present application also provides for a kind of display device, the display surface provided including the embodiment of the present application Plate.

The embodiment of the present application also provides for a kind of Electronic Paper, the display floater provided including the embodiment of the present application.

In sum, the display floater that the embodiment of the present application provides, due to upper semi-transparent half antielectrode 111 He Between lower reflecting layer 123, electrostriction material 122 is set, by making this electrostriction material 122 at electric field Effect under carry out telescopic variation, and then make the sky between semi-transparent half antielectrode 111 and lower reflecting layer 123 Gas gap 140 carries out respective change, and then makes display unit 100 can realize corresponding photochromic display, from And the structure of display floater can be simplified, and reduce the power consumption of display floater, reduce the cost of display floater, right In the Electronic Paper needing display, it is not necessary to arrange the microelectromechanical-systems of complexity, and then by the embodiment of the present application Display panel applications to Electronic Paper time, can simplify the structure of Electronic Paper, reduce the power consumption of Electronic Paper, subtract The cost of little Electronic Paper.

Obviously, those skilled in the art can carry out various change and modification without deviating from this Shen to the application Spirit and scope please.So, if the application these amendment and modification belong to the application claim and Within the scope of its equivalent technologies, then the application is also intended to comprise these change and modification.

Claims (12)

1. a display floater, it is characterised in that described display floater has the display list in array distribution Unit, described display unit includes: the upper cover plate being oppositely arranged and lower cover；Wherein,

The one side relative with described upper cover plate of described lower cover is provided with bottom electrode, described bottom electrode with institute State the relative one side of upper cover plate and be provided with electrostriction material, described electrostriction material with described upper cover plate Relative one side is provided with lower reflecting layer；

The one side relative with described lower cover of described upper cover plate is provided with upper semi-transparent half antielectrode；

Shape between described lower reflecting layer and described semi-transparent half antielectrode of described upper cover plate of described lower cover Become to have the air gap；

Described electrostriction material described bottom electrode with described semi-transparent half antielectrode formed electric field action Under deform upon so that described the air gap changes.

2. display floater as claimed in claim 1, it is characterised in that described display floater also includes, Control unit, described control unit is for for each described display unit, needing display according to this display unit Photochromic, to this display unit described bottom electrode or described semi-transparent half antielectrode apply photochromic relative with this The voltage answered so that the air gap of this display unit reaches preset value, so that this is photochromic first anti- Penetrating light and the second reflection light realizes interfering and strengthens, wherein, described first reflection light is that ambient is via described Upper cover plate incides described semi-transparent half antielectrode of this display unit, more anti-through described semi-transparent half antielectrode Being mapped to the reflection light of described upper cover plate, described second reflection light is that ambient incides via described upper cover plate Described semi-transparent half antielectrode of this display unit, is transmitted to described lower reflection through described semi-transparent half antielectrode Layer, then the reflection light of described upper cover plate is reflexed to by described lower reflecting layer.

3. display floater as claimed in claim 1, it is characterised in that the lower electricity in each display unit The most independent block type electrode, described semi-transparent half antielectrode in all described display units is an integral face Shape electrode.

4. display floater as claimed in claim 3, it is characterised in that described bottom electrode connects signal voltage, Described semi-transparent half antielectrode ground connection.

5. display floater as claimed in claim 1, it is characterised in that the upper half in each display unit Saturating half antielectrode is independent block type electrode, and the described bottom electrode in all described display units is an integral face Shape electrode.

6. display floater as claimed in claim 5, it is characterised in that described semi-transparent half antielectrode connects Signal voltage, described bottom electrode ground connection.

7. display floater as claimed in claim 1, it is characterised in that the lower electricity in each display unit Upper semi-transparent half antielectrode in the most independent block type electrode, and each display unit is independent block electricity Pole.

8. display floater as claimed in claim 7, it is characterised in that described bottom electrode connects signal voltage, Described semi-transparent half antielectrode ground connection；Or described semi-transparent half antielectrode connects signal voltage, described bottom electrode connects Ground.

9. display floater as claimed in claim 1, it is characterised in that described semi-transparent half antielectrode with Being additionally provided with supporter between described bottom electrode, above support is formed at the marginal zone of described display unit Territory, for being supported the described upper cover plate above described lower cover, so that described lower reflecting layer is with described Described the air gap is formed between upper semi-transparent half antielectrode.

10. display floater as claimed in claim 1, it is characterised in that described electrostriction material includes One of llowing group of materials or combination: nano barium phthalate, polyurethane complex or pottery.

11. 1 kinds of display devices, it is characterised in that include showing as described in claim as arbitrary in claim 1-10 Show panel.

12. such as display device according to claim 11, it is characterised in that this display device is electricity Sub-paper.