CN104637974B - Organic Light Emitting Diode touch control display device - Google Patents
Organic Light Emitting Diode touch control display device Download PDFInfo
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Abstract
A kind of Organic Light Emitting Diode touch control display device, including an organic luminescent assembly and a package assembling, the package assembling is covered in the top of the organic luminescent assembly, and include the quarter wavelength plate overlapped, a polarizer and a pixel control layer, wherein the quarter wavelength plate is made of liquid crystal material, and the pixel control layer is a single layer electrode structure.Whereby, so that Organic Light Emitting Diode touch control display device is provided simultaneously with display, optical anti-reflection and touch function, and effectively reduce the thickness and weight of Organic Light Emitting Diode touch control display device.
Description
Technical field
The present invention relates to a kind of display equipment, more particularly to a kind of Organic Light Emitting Diode touch-control with touch function
Show equipment.
Background technology
Referring to Fig. 1, a kind of main existing Organic Light Emitting Diode (hereinafter referred to as OLED) display 1 includes a substrate 10,
One organic light emitting module 11 and one being set on substrate 10 is covered in the transparent cover plate 12 of 11 top of organic light emitting module, such as
Glass or transparent acrylic (PET) plate.And can be binded with an adhesive layer 13 between substrate 10 and the periphery of transparent cover plate 12, it will
Organic light emitting module 11 is closed between the two, makes the oxidation that will not make moist.And since OLED display 1 is the display mould of self-luminous
Formula, indoors or under the conditions of low ambient light, the display characteristic with high contrast, high color saturation, if but its place
Under the environment light source of high illumination, when being irradiated such as the sunlight outside receiving chamber, because the brightness of OLED itself is far below external environment
Light, the then ambient light reflected by 1 surface of OLED display will allow user not see the picture shown by Chu's OLED display 1
Face.
Therefore, to solve the above problems, traditional way be arranged again on the transparent cover plate 12 of OLED display 1 one by
The optical diaphragm group (not shown) that quarter wavelength plate is constituted with a polarizer makes absorption from extraneous incident light.Wherein
Quarter wavelength plate tradition is to be made with macromolecule film surface (polyimide, abbreviation PI) through extending uniaxially or biaxially, thick
Degree is about hundreds of microns.And polarizer tradition is by TAC (Triafol T) film (protective layer), PVA (polyvinyl alcohol) polarisation
Matrix and TAC film (protective layer) are total to thin-film material composition of the threeply degree from some tens of pm to hundreds of microns.
In addition, to allow OLED display 1 to be provided simultaneously with touch function, then it can be in the optical diaphragm of OLED display 1
One ready-made touch-control sensing module (not shown) is set again in group, consequently, have the OLED display of touch function
Volume, thickness and weight will greatly increase, and be difficult to apply on the frivolous electronic product to require.
Invention content
The purpose of the present invention is to provide a kind of Organic Light Emitting Diode touch-controls that can reduce product integral thickness and weight
Show equipment.
Organic Light Emitting Diode touch control display device of the present invention, including an organic luminescent assembly and a package assembling, cover
It is placed on the top of the organic luminescent assembly, and includes the quarter wavelength plate overlapped, a polarizer and a touch-control sensing
Layer, wherein the quarter wavelength plate is made of liquid crystal material, and the pixel control layer is a single layer electrode structure.
Preferably, in one embodiment, which is formed in the lower surface of the polarizer, the pixel control layer
Be formed in the quarter wavelength plate, and the pixel control layer include it is several along a first direction arrangement first electrodes row and
Several independent second electrodes between first electrode row are set, and respectively first electrode row include to be somebody's turn to do with several conducting wires edge
The concatenated several first electrodes of first direction, and the quarter wavelength plate is equipped with several conducting wires with first electrode row and hands over
Wrong bridge-jointing unit connects the second electrode and constitutes and several connect with the second direction of the first direction staggeredly row along one
The second electrode of row arranges.
And preferably, the conductive columns that above-mentioned respectively bridge-jointing unit runs through the quarter wavelength plate comprising two, Yi Jishe
In the upper surface of the quarter wavelength plate and the conducting wire that is connect with one end of two conductive columns, and two conductive columns is another
End is electrically connected with the one end of two adjacent second electrodes.
Preferably, in one embodiment, which is formed in the lower surface of the polarizer, the pixel control layer
Be formed in the quarter wavelength plate, and the pixel control layer include it is several along a first direction arrangement first electrodes row and
Several independent second electrodes between first electrode row are set, and respectively first electrode row include to be somebody's turn to do with several conducting wires edge
The concatenated several first electrodes of first direction, and also set between the respectively two neighboring second electrode of the first electrode row both sides
The bridge-jointing unit for having one and the wire crossbar of each first electrode row, connect the second electrode and constitute it is several along one with should
The second electrode row for the second direction arranged in series that first direction interlocks.
And preferably, above-mentioned respectively bridge-jointing unit includes the insulating layer and shape of a conducting wire for covering first electrode row
At on which insulating layer to connect the conducting wire of two neighboring second electrode.
Preferably, in one embodiment, which is formed in the lower surface of the polarizer, the pixel control layer
It is formed in the quarter wavelength plate, and the pixel control layer includes the electrode group of several equidistant arrangements, each electrode group includes
It is oppositely arranged and in a first electrode of strip and a second electrode, wherein the width of the first electrode is by one first end court
A second end opposite with the first end is gradually successively decreased, and the width of the second electrode is opposite with the first end by one first end court
One second extreme direction gradually be incremented by.
Preferably, in one embodiment, which is formed in the lower surface of the polarizer, the quarter wavelength plate
It is formed in the pixel control layer, and the pixel control layer includes several first electrode row along first direction arrangement and sets
Set several independent second electrodes between first electrode row, respectively first electrode row comprising with several conducting wires along this
The concatenated several first electrodes in one direction, and the polarizer is equipped with several bridge joints with the wire crossbar of first electrode row
Unit connects the second electrode and constitutes the second of several second direction arranged in series interlocked with the first direction along one
Electrodes series.
And preferably, above-mentioned respectively bridge-jointing unit include two run through the polarizer conductive columns, and be set to the polarisation
The lower surface of plate and the conducting wire being connect with each one end of two conductive columns, and the other end of two conductive columns and adjacent two
The one end of a second electrode is electrically connected.
Preferably, in one embodiment, which is formed in the lower surface of the polarizer, the quarter wavelength plate
It is formed in the pixel control layer, and the pixel control layer includes several first electrode row along first direction arrangement and sets
Set several independent second electrodes between first electrode row, respectively first electrode row comprising with several conducting wires along this
The concatenated several first electrodes in one direction, and the quarter wavelength plate is equipped with several wire crossbars with first electrode row
Bridge-jointing unit, connect the second electrode and constitute it is several along one with the first direction interlock second direction arranged in series
Second electrode row.
And preferably, above-mentioned respectively bridge-jointing unit includes two conductive columns for running through the quarter wavelength plate, and it is set to
The lower surface of the quarter wavelength plate and the conducting wire being connect with each one end of two conductive columns, and two conductive columns is another
End is electrically connected with the one end of two adjacent second electrodes.
Preferably, in one embodiment, which is formed in the lower surface of the polarizer, the quarter wavelength plate
It is formed in the pixel control layer, and the pixel control layer includes several first electrode row along first direction arrangement and sets
Set several independent second electrodes between first electrode row, respectively first electrode row comprising with several conducting wires along this
The concatenated several first electrodes in one direction, and be additionally provided between the respectively two neighboring second electrode of the first electrode row both sides
One with the bridge-jointing unit of the wire crossbar of each first electrode row, connect the second electrode and constitute it is several along one with this
The second electrode row for the second direction arranged in series that one direction interlocks.
And preferably, above-mentioned respectively bridge-jointing unit includes the insulating layer and shape of a conducting wire for covering first electrode row
At on which insulating layer to connect the conducting wire of two neighboring second electrode.
Preferably, in one embodiment, which is formed in the lower surface of the polarizer, the quarter wavelength plate
It is formed in the pixel control layer, and the pixel control layer includes the electrode group of several equidistant arrangements, each electrode group includes phase
To setting and in a first electrode and a second electrode for strip, wherein the width of the first electrode by one first end towards with
The opposite second end of the first end is gradually successively decreased, and the width of the second electrode is opposite with the first end by one first end court
One second extreme direction is gradually incremented by.
Preferably, in one embodiment, which includes also an insulating layer, and the quarter wavelength plate is formed in this
The lower surface of polarizer, the pixel control layer are formed in the quarter wavelength plate, which is formed in the pixel control layer
On, and the pixel control layer includes several first electrode row along first direction arrangement and is arranged in first electrode row
Between several independent second electrodes, respectively first electrode row comprising with several conducting wires along the first direction concatenated several the
One electrode, and the insulating layer is equipped with the bridge-jointing units of the wire crossbars of several row with the first electrode, connection described the
Two electrodes and constitute it is several along one with the first direction interlock second direction arranged in series second electrodes arrange.
And preferably, above-mentioned respectively bridge-jointing unit include two run through the insulating layer conductive columns, and be set to the insulation
The lower surface of layer and the conducting wire being connect with each one end of two conductive columns, and the other end of two conductive columns and adjacent two
The one end of a second electrode is electrically connected.
Preferably, in one embodiment, which includes also a transparent insulation plate, and the pixel control layer is formed in
The upper surface of the transparent insulation plate, the quarter wavelength plate are formed in the pixel control layer, which is overlapped in this four points
One of on wave plate, and the pixel control layer includes several first electrodes row along first direction arrangement and is arranged described the
Several independent second electrodes between one electrodes series, respectively first electrode row include to be connected along the first direction with several conducting wires
Several first electrodes, and the quarter wavelength plate is equipped with the bridge joint lists of the wire crossbars of several row with the first electrode
Member, connect the second electrode keep composition several along one with the first direction interlock second direction arranged in series second electricity
Pole arranges.
And preferably, above-mentioned respectively bridge-jointing unit includes two conductive columns for running through the quarter wavelength plate, and it is set to
The upper surface of the quarter wavelength plate and the conducting wire being connect with each one end of two conductive columns, and two conductive columns is another
End is electrically connected with the one end of two adjacent second electrodes.
And preferably, the above-mentioned polarizer is a liquid crystal polarization plate.
Preferably, in one embodiment, which includes also a transparent insulation plate, and the pixel control layer is formed in
The upper surface of the transparent insulation plate, the quarter wavelength plate are formed in the pixel control layer, which is overlapped in this four points
One of on wave plate, and the pixel control layer includes several first electrodes row along first direction arrangement and is arranged described the
Several independent second electrodes between one electrodes series, respectively first electrode row include to be connected along the first direction with several conducting wires
Several first electrodes, and be additionally provided between each two neighboring second electrode of the first electrode row both sides one with respectively this
The bridge-jointing unit of the wire crossbar of one electrodes series connects the second electrode and keeps composition several and interlocks along one and the first direction
Second direction arranged in series second electrode row.
And preferably, above-mentioned respectively bridge-jointing unit includes the insulating layer and shape of a conducting wire for covering first electrode row
At on which insulating layer to connect the conducting wire of two neighboring second electrode.
And preferably, the above-mentioned polarizer is a liquid crystal polarization plate.
Preferably, in one embodiment, which includes also a transparent insulation plate, and the pixel control layer is formed in
The upper surface of the transparent insulation plate, the quarter wavelength plate are formed in the pixel control layer, which is overlapped in this four points
One of on wave plate, and the pixel control layer includes the electrode group of several equidistant arrangements, and each electrode group includes to be oppositely arranged and be in
One first electrode of strip and a second electrode, the wherein width of the first electrode are by one first end court and the first end phase
An anti-second end is gradually successively decreased, and the width of the second electrode is by a second end side opposite with the first end of one first end court
It is incremented by gradual.
Preferably, in one embodiment, which includes also a transparent insulation plate, and the pixel control layer is formed in
The lower surface of the transparent insulation plate, the quarter wavelength plate are formed in the upper surface of the transparent insulation plate, which is overlapped in
In the quarter wavelength plate, and the pixel control layer includes several first electrode row along first direction arrangement and is arranged
Several independent second electrodes between the first electrode row, respectively first electrode row include with several conducting wires along the first party
To concatenated several first electrodes, and the transparent insulation plate is equipped with several bridge joints with the wire crossbar of first electrode row
Unit connects the second electrode and constitutes the second of several second direction arranged in series interlocked with the first direction along one
Electrodes series.
And preferably, above-mentioned respectively bridge-jointing unit includes two conductive columns for running through the transparent insulation plate, and being set to should
The upper surface of transparent insulation plate and the conducting wire being connect with each one end of two conductive columns, and the other end of two conductive columns with
The one end of two adjacent second electrodes is electrically connected.
And preferably, the above-mentioned polarizer is a liquid crystal polarization plate.
Preferably, in one embodiment, which includes also a transparent insulation plate, and the pixel control layer is formed in
The lower surface of the transparent insulation plate, the quarter wavelength plate are formed in the upper surface of the transparent insulation plate, which is overlapped in
In the quarter wavelength plate, and the pixel control layer includes several first electrode row along first direction arrangement and is arranged
Several independent second electrodes between the first electrode row, respectively first electrode row include with several conducting wires along the first party
To concatenated several first electrodes, and be additionally provided between each two neighboring second electrode of the first electrode row both sides one with
The respectively bridge-jointing unit of the wire crossbar of first electrode row, connecting the second electrode keeps composition several along one and the first party
To the second electrode row of second direction arranged in series staggeredly.
And preferably, above-mentioned respectively bridge-jointing unit includes the insulating layer and shape of a conducting wire for covering first electrode row
At on which insulating layer to connect the conducting wire of two neighboring second electrode.
And preferably, the above-mentioned polarizer is a liquid crystal polarization plate.
Preferably, in one embodiment, which includes also a transparent insulation plate, and the pixel control layer is formed in
The lower surface of the transparent insulation plate, the quarter wavelength plate are formed in the upper surface of the transparent insulation plate, which is overlapped in
In the quarter wavelength plate, and the pixel control layer includes the electrode group of several equidistant arrangements, and each electrode group includes to set in opposite directions
Set and in a first electrode and the second electrode of strip, wherein the width of the first electrode by one first end towards with this
The opposite second end in one end is gradually successively decreased, and the width of the second electrode is by one first end towards opposite with the first end 1 the
Two extreme directions are gradually incremented by.
And preferably, the above-mentioned polarizer is a liquid crystal polarization plate.
Preferably, in one embodiment, which also includes a transparent insulation plate and an insulating layer, and this four/
One wave plate is formed in the upper surface of the transparent insulation plate, which is overlapped in the quarter wavelength plate, the pixel control layer
It is formed in the lower surface of the transparent insulation plate, which is formed in the pixel control layer, and the pixel control layer includes number
A first electrode along first direction arrangement arranges and is arranged several independent second electricity between first electrode row
Pole, respectively first electrode row are comprising with several conducting wires, along the concatenated several first electrodes of the first direction, and the insulating layer is set
The bridge-jointing units for having the wire crossbars of several row with the first electrode, connect the second electrode and constitute it is several along one with
The second electrode row for the second direction arranged in series that the first direction interlocks.
And preferably, above-mentioned respectively bridge-jointing unit include two run through the insulating layer conductive columns, and be set to the insulation
The lower surface of layer and the conducting wire being connect with each one end of two conductive columns, and the other end of two conductive columns and adjacent two
The one end of a second electrode is electrically connected.
And preferably, the above-mentioned polarizer is a liquid crystal polarization plate.
And preferably, in above-mentioned various embodiments, which also includes a piece of glass fitted on the polarizer
Glass.
Preferably, in one embodiment, which includes also a sheet glass, and the pixel control layer is formed in the glass
The lower surface of glass, the quarter wavelength plate are formed in the lower surface of the pixel control layer, which is located at the quarter-wave
The lower surface of plate, and the pixel control layer includes several first electrodes row along first direction arrangement and is arranged described the
Several independent second electrodes between one electrodes series, respectively first electrode row include to be connected along the first direction with several conducting wires
Several first electrodes, and the polarizer is equipped with the bridge-jointing units of the wire crossbars of several row with the first electrode, connects
The second electrode for connecing the second electrode and constituting several second direction arranged in series interlocked with the first direction along one arranges.
And preferably, above-mentioned respectively bridge-jointing unit include two run through the polarizer conductive columns, and be set to the polarisation
The lower surface of plate and the conducting wire being connect with each one end of two conductive columns, and the other end of two conductive columns and adjacent two
The one end of a second electrode is electrically connected.
Preferably, in one embodiment, which includes also a sheet glass, and the pixel control layer is formed in the glass
The lower surface of glass, which is formed in the lower surface of the polarizer, and the glass is pasted downward with the pixel control layer
Together on the upper surface of the polarizer, and the pixel control layer include several first electrodes along first direction arrangement arrange with
And several independent second electrodes between first electrode row are set, respectively first electrode row are comprising with several conducting wire edges
The concatenated several first electrodes of the first direction, and between the respectively two neighboring second electrode of the first electrode row both sides also
Bridge-jointing unit equipped with one with the wire crossbar of each first electrode row, connect the second electrode and constitute it is several along one with
The second electrode row for the second direction arranged in series that the first direction interlocks.
And preferably, above-mentioned respectively bridge-jointing unit includes the insulating layer and shape of a conducting wire for covering first electrode row
At on which insulating layer to connect the conducting wire of two neighboring second electrode.
Preferably, in one embodiment, which includes also a sheet glass, and the pixel control layer is formed in the glass
The lower surface of glass, which is formed in the lower surface of the polarizer, and the glass is pasted downward with the pixel control layer
Together on the upper surface of the polarizer, and the pixel control layer includes the electrode group of several equidistant arrangements, each electrode group packet
Containing the first electrode and a second electrode for being oppositely arranged and be in strip, wherein the width of the first electrode is by one first end
Gradually successively decrease towards a second end opposite with the first end, the width of the second electrode is by one first end court and the first end phase
One second anti-extreme direction is gradually incremented by.
The beneficial effect of the present invention is:By will be formed by liquid crystal material quarter wavelength plate, polarizer and touch
Control sensing structure is incorporated on package assembling, is replaced the encapsulation upper cover of traditional OLED display, is not only made organic
Light emitting diode touch control display device is provided simultaneously with display, optical anti-reflection and touch function, and effectively reduces organic light emission two
The integral thickness and weight of pole pipe touch control display device.
Description of the drawings
Fig. 1 is a kind of structure section schematic diagram of existing organic light emitting diode display.
Fig. 2 is the diagrammatic cross-section of the first embodiment of Organic Light Emitting Diode touch control display device of the present invention.
Fig. 3 is the quarter wavelength plate of first embodiment and the close-up schematic view of pixel control layer.
Fig. 4 is the diagrammatic cross-section of the 4-4 hatchings along Fig. 3.
Fig. 5 is the close-up schematic view of the pixel control layer of first embodiment.
Fig. 6 is the diagrammatic cross-section of the 6-6 hatchings along Fig. 5.
Fig. 7 is the close-up schematic view of another pixel control layer of first embodiment.
Fig. 8 is the diagrammatic cross-section of the second embodiment of Organic Light Emitting Diode touch control display device of the present invention.
Fig. 9 is the polarizer of second embodiment and the close-up schematic view of pixel control layer.
Figure 10 is the diagrammatic cross-section of the 9-9 hatchings along Fig. 9.
Figure 11 is the quarter wavelength plate of second embodiment and the close-up schematic view of pixel control layer.
Figure 12 is the diagrammatic cross-section of the 11-11 hatchings along Figure 11.
Figure 13 is the diagrammatic cross-section of the 3rd embodiment of Organic Light Emitting Diode touch control display device of the present invention.
Figure 14 is the diagrammatic cross-section of the fourth embodiment of Organic Light Emitting Diode touch control display device of the present invention.
Figure 15 is the diagrammatic cross-section of the 5th embodiment of Organic Light Emitting Diode touch control display device of the present invention.
Figure 16 is the diagrammatic cross-section of the sixth embodiment of Organic Light Emitting Diode touch control display device of the present invention.
Figure 17 is the diagrammatic cross-section of the 7th embodiment of Organic Light Emitting Diode touch control display device of the present invention.
Specific implementation mode
The following describes the present invention in detail with reference to the accompanying drawings and embodiments.
Shown in Fig. 2 to Fig. 4, the first embodiment of Organic Light Emitting Diode touch control display device of the present invention includes mainly
One organic luminescent assembly 20 and one is covered in the package assembling 30 of 20 top of organic luminescent assembly.Wherein organic luminescent assembly 20 wraps
It is set to organic light emission (OLED) module 22 on substrate 21 containing a substrate 21 and one, includes mainly storehouse setting from lower to upper
One lower electrode layer, an electron transfer layer, an organic luminous layer, an electric hole transfer layer, electric hole note with several pixel electrodes
Enter layer and a upper electrode layer.And package assembling 30 includes the quarter wavelength plate 31 overlapped, a polarizer 32, a touch-control
Sensed layer 33 and a glass 34, wherein quarter wavelength plate 31 are made of liquid crystal material, and pixel control layer 33 is a single layer
Electrode structure.
More precisely, as shown in Fig. 2, pixel control layer 33, quarter wavelength plate 31, polarizer 32 and glass 34 be by
It is sequentially overlapped on down.
And as shown in figure 3, pixel control layer 33 includes several the first electricity along a first direction, such as X-direction arrangement
The pole row R1 and several independent second electrode P2 being arranged between the first electrode row R1, respectively the first electrode row R1 packets
Containing with several conducting wire L1 along the concatenated several first electrode P1 of the first direction, and quarter wavelength plate 31 be equipped with it is several with it is described
It is several along one and first to constitute to connect the second electrode P2 for the bridge-jointing unit 40 that the conducting wire L1 of first electrode row R1 interlocks
Direction interlock second direction, such as Y direction arrangement second electrode row R2.
Wherein, as shown in figure 4, respectively the bridge-jointing unit 40 includes two conductive columns 41,42 for running through quarter wavelength plate 31,
And the conducting wire 43 being connect set on the upper surface of quarter wavelength plate 31 and with each one end of two conductive columns 41,42, and should
The other end of two conductive columns 41,42 is electrically connected with the one end of two adjacent second electrode P2.Whereby, through bridge-jointing unit
40 connect the second electrode P2 in a second direction, constitute several second electrodes interlocked with the first electrode row R1 and arrange
R2, and form a single layer touch-control sensing structure.
Then it is that first conducting wire 43 is arranged in the lower surface in polarizer 32, then uses such as wet coating processing procedure for processing procedure
(roll to roll) coating of liquid crystalline material construction quarter wavelength plate 31, then etch the conductive column 41,42 of bridge-jointing unit 40
Required hole simultaneously lays conductive column 41,42, so that each one end of conductive column 41,42 and conducting wire 43 is electrically connected, then at four points
One of lay a transparent conductive material layer (not shown) on wave plate 31, with etch process or laser on transparent conductive material layer
Processing procedure makes first electrode row R1 and several independent second electrode P2, makes each other end and adjacent two of conductive column 41,42
The one end of a second electrode P2 is electrically connected to form a single layer touch-control sensing structure, finally the cover glass on polarizer 32
34, that is, complete package assembling 30.Wherein transparent conductive material layer can be ITO (indium tin oxide), nano silver wire (silver
Nano wire), carbon nanotubes (carbon nano tube), conducting polymer (PEDOT/PSS), metal grill (metal
) or the conductive materials such as graphene mesh.
Then, package assembling 30 is covered in the top of organic luminescent assembly 20 downward with pixel control layer 33, and in base
It is binded with an adhesive layer 23 between plate 21 and the periphery of quarter wavelength plate 31, organic light emitting module 22 is closed in the two
Between, make the oxidation that will not make moist, that is, completes the assembling of Organic Light Emitting Diode touch control display device.
In addition, being another embodiment of the pixel control layer 33 of the present embodiment, with above-mentioned reality as shown in Figures 5 and 6
Apply example difference be in:Pixel control layer 33 be located at respectively the both sides first electrode row R1 two neighboring second electrode P2 it
Between, it is additionally provided with one and the respectively bridge-jointing units 50 of the conducting wire L1 of first electrode row R1 staggeredly, connects two neighboring second electrode
P2 is to constitute the second electrode row R2 of several second direction arrangements to interlock with first direction along one.
Wherein, as shown in fig. 6, respectively the bridge-jointing unit 50 includes the insulating layer of the conducting wire L1 of a covering first electrode row R1
51, and be formed on insulating layer 51 to connect the conducting wire 52 of two neighboring second electrode P2.Whereby, through set on touch-control sensing
Bridge-jointing unit 50 on layer 33 connects the second electrode P2 in a second direction, constitutes the several and first electrode row R1 and hands over
Wrong second electrode row R2, and form a single layer touch-control sensing structure.
Alternatively, another embodiment of the pixel control layer 33 of the present embodiment can also be as shown in fig. 7, comprising several equidistant
The electrode group 70 of arrangement, each electrode group 70 include in strip and the first electrode 71 being oppositely arranged and a second electrode
72, the wherein width of first electrode 71 is gradually successively decreased by its first end 73 towards opposite second end 74, the width of second electrode 72
Gradually it is incremented by towards opposite second end 74 by its first end 73.
Furthermore the material for having surface treatment (hardening) can be selected in the polarizer 32 of the present embodiment, to replace glass 34
Function, you can omit glass 34, and the integral thickness of package assembling 30 can be further decreased.
It is shown in Figure 8, it is the second embodiment of Organic Light Emitting Diode touch control display device of the present invention, it is real with first
The composition component for applying example is roughly the same, difference be in:The quarter wavelength plate 31 of package assembling 30, pixel control layer 33, partially
Tabula rasa 32 and glass 34 are from bottom to top sequentially to overlap.
Moreover, as shown in figure 9, being equipped with several first electrodes with pixel control layer 33 in the lower surface of polarizer 32
The bridge-jointing unit 40 that the conducting wire L1 of R1 interlocks is arranged, the second electrode P2 for connecting pixel control layer 33 is several along one to constitute
With the second direction of first direction staggeredly, such as the second electrode row R2 of Y direction arrangement.And as shown in Figure 10, each bridge joint
Unit 40 includes two and runs through the conductive column 41,42 of polarizer 32, and is led set on the lower surface of polarizer 32 and with this two
The conducting wire 43 of one end connection of electric column 41,42, and the other end of two conductive columns 41,42 and two adjacent second electrode P2
One end electrical connection.Whereby, through the bridge-jointing unit 40 set on polarizer 32, the second electrode P2 is led in a second direction
It connects, constitutes several second electrode row R2 to interlock with the first electrode row R1, and form a single layer touch-control sensing structure.
It is first first to produce first electrode row R1 and several independent second in the lower surface of polarizer 32 for processing procedure
Electrode P2 etches conductive column 41, the 42 required holes of bridge-jointing unit 40 to form pixel control layer 33, then in polarizer 32
Conductive column 41,42 is simultaneously laid in hole, and each one end of conductive column 41,42 and the one end of two adjacent second electrode P2 is made to be electrically connected
It connects, conducting wire 43 is laid in the upper surface of polarizer 32, conducting wire 43 and each other end of conductive column 41,42 is made to be electrically connected, then at
The quarter wavelength plate 31 being made of liquid crystal material is formed in pixel control layer 33, finally the cover glass on polarizer 32
34.Certainly, if polarizer 32 can omit glass 34 using the material for having surface treatment (hardening), and envelope is further decreased
The integral thickness of arrangement 30.
Alternatively, as shown in figure 11, also several and touch-control can be equipped in the quarter wavelength plate 31 below pixel control layer 33
The bridge-jointing unit 40 that the conducting wire L1 of the first electrode row R1 of sensed layer 33 interlocks, described the of connection pixel control layer 33
Two electrode P2 are to constitute several second directions interlocked with first direction along one, such as the second electrode row R2 of Y direction arrangement.
And as shown in figure 12, respectively the bridge-jointing unit 40 includes two conductive columns 41,42 for running through quarter wavelength plate 31, and is set to four
The lower surface of/mono- wave plate 31 and the conducting wire 43 being connect with one end of two conductive columns 41,42, and two conductive columns 41,
42 other end is electrically connected with the one end of two adjacent second electrode P2.Whereby, through set on quarter wavelength plate 31
Bridge-jointing unit 40 connects the second electrode P2 in a second direction, constitutes several the to interlock with the first electrode row R1
Two electrodes series R2, and form a single layer touch-control sensing structure.Details are not described herein for its manufacturing method thereof.
In addition, the present embodiment also can be as shown in Figures 5 and 6, the directly setting connection described second in pixel control layer 33
The bridge-jointing unit 50 of electrode P2, or as shown in fig. 7, the electrode group 70 of several equidistant arrangements is formed in pixel control layer 33, all
It equally may make up a single layer touch-control sensing structure and achieve the purpose that touch-control sensing.
It is shown in Figure 13, it is the 3rd embodiment of Organic Light Emitting Diode touch control display device of the present invention, with first
The composition component of embodiment is roughly the same, difference be in:The quarter wavelength plate 31 of package assembling 30, polarizer 32, touch-control
Sensed layer 33 and glass 34 are from bottom to top sequentially to overlap.It is to form touch-control in the lower surface of glass 34 for processing procedure
Polarizer 32 is arranged in sensed layer 33 in pixel control layer 33, and in formation is made of liquid crystal material on polarizer 32 four
/ mono- wave plate 31.And the present embodiment can be in the polarizer 32 below pixel control layer 33 (four as shown in Figure 11 and Figure 12
/ mono- wave plate 31) lower surface be arranged bridge-jointing unit 40, so that it is connected the second electrode P2 of pixel control layer 33, or
As shown in Figures 5 and 6, directly setting connects the bridge-jointing unit 50, Huo Zheru of the second electrode P2 in pixel control layer 33
Shown in Fig. 7, the electrode group 70 of several equidistant arrangements is formed in pixel control layer 33, all equally may make up a single layer touch-control sensing knot
Structure and achieve the purpose that touch-control sensing.
It is shown in Figure 14, it is the fourth embodiment of Organic Light Emitting Diode touch control display device of the present invention, and it is above-mentioned
Embodiment difference be in:Package assembling 30 also includes an insulating layer 35, and insulating layer 35, pixel control layer 33, a quarter
Wave plate 31, polarizer 32 and glass 34 are from bottom to top sequentially to overlap.It is in the lower surface of polarizer 32 for processing procedure
The quarter wavelength plate 31 being made of liquid crystal material is formed, and in formation pixel control layer 33 in quarter wavelength plate 31, and in
Insulating layer 35 is laid in pixel control layer 33, then at the upper surface cover glass 34 of polarizer 32.Certainly, if polarizer 32 uses
Have the material of surface treatment (hardening), then can omit glass 34, and further decreases the integral thickness of package assembling 30.Wherein
As shown in FIG. 11 and 12, the present embodiment is equipped with the bridge joint for the second electrode P2 for connecting pixel control layer 33 in insulating layer 35
Unit 40.
It is shown in Figure 15, it is the 5th embodiment of Organic Light Emitting Diode touch control display device of the present invention, and it is above-mentioned
Embodiment difference be in:Package assembling 30 also include a transparent insulation plate 36, and transparent insulation plate 36, pixel control layer 33,
Quarter wavelength plate 31, polarizer 32 and glass 34 are from bottom to top sequentially to overlap.It is first transparent exhausted for processing procedure
The upper surface of listrium 36 forms pixel control layer 33, and in a quarter that formation is made of liquid crystal material in pixel control layer 33
Wave plate 31, and in polarizer 32 is arranged in quarter wavelength plate 31, then at the upper surface cover glass 34 of polarizer 32.If wherein
Polarizer 32 selects the material for having surface treatment (hardening), then can omit glass 34, and further decreases package assembling 30
Integral thickness.Alternatively, liquid crystal polarization plate also can be used in polarizer 32, also that is, in quarter wavelength plate 31, using such as wet type
Coating process (roll to roll) coating of liquid crystalline material, construction liquid crystal polarization plate can also further decrease package assembling 30
Integral thickness.
Moreover, as shown in FIG. 9 and 10, the present embodiment can be arranged in quarter wavelength plate 31 connects pixel control layer 33
The bridge-jointing unit 40 of the second electrode P2, or as shown in Figures 5 and 6, directly setting connects institute in pixel control layer 33
The bridge-jointing unit 50 of second electrode P2 is stated, or as shown in fig. 7, forms the electrode group of several equidistant arrangements in pixel control layer 33
70, it all equally may make up a single layer touch-control sensing structure and achieve the purpose that touch-control sensing.
It is shown in Figure 16, be the sixth embodiment of Organic Light Emitting Diode touch control display device of the present invention, it includes with
The identical composition component of fourth embodiment, and its be in fourth embodiment difference in:The pixel control layer 33 of package assembling 30,
Transparent insulation plate 36, quarter wavelength plate 31, polarizer 32 and glass 34 are from bottom to top sequentially to overlap.Processing procedure is come
Say, be first transparent insulation plate 36 lower surface formed pixel control layer 33, and the upper surface of transparent insulation plate 36 formed by
The quarter wavelength plate 31 that liquid crystal material is constituted, and in polarizer 32 is arranged in quarter wavelength plate 31, then at polarizer 32
Upper surface cover glass 34.If wherein polarizer 32 selects the material for having surface treatment (hardening), glass 34 can be omitted, with
Further decrease the integral thickness of package assembling 30.Alternatively, polarizer 32 uses liquid crystal polarization plate, to further decrease encapsulation group
The integral thickness of part 30.
And as shown in Figures 3 and 4, the present embodiment can be arranged in the transparent insulation plate 36 above pixel control layer 33 and bridge
Unit 40, to connect the second electrode P2 of pixel control layer 33, or as shown in Figures 5 and 6, in pixel control layer 33
Directly setting connects the bridge-jointing unit 50 of the second electrode P2, or as shown in fig. 7, is formed in pixel control layer 33 several etc.
Electrode group 70 away from arrangement all equally may make up a single layer touch-control sensing structure and achieve the purpose that touch-control sensing.
It is the 7th embodiment of Organic Light Emitting Diode touch control display device of the present invention referring to Figure 17, in addition to including
Outside whole composition components of five embodiments, package assembling 30 also includes an insulating layer 35, and insulating layer 35, pixel control layer
33, transparent insulation plate 36, quarter wavelength plate 31, polarizer 32 and glass 34 are from bottom to top sequentially to overlap.With regard to processing procedure
For, be transparent insulation plate 36 lower surface formed pixel control layer 33, and in pixel control layer 33 lay insulating layer 35,
And the quarter wavelength plate 31 being made of liquid crystal material is formed in the upper surface of transparent insulation plate 36, and in quarter wavelength plate 31
Upper setting polarizer 32, then at the upper surface cover glass 34 of polarizer 32.Wherein polarizer 32, which can be selected, has surface treatment
The material of (hardening) to omit glass 34, and further decreases the integral thickness of package assembling 30.Alternatively, polarizer 32 uses
Liquid crystal polarization plate can also further decrease the integral thickness of package assembling 30.
Moreover, as shown in FIG. 11 and 12, the insulating layer 35 of 33 lower section of pixel control layer of the present embodiment is tactile equipped with connecting
The bridge-jointing unit 40 for controlling the second electrode P2 of sensed layer 33, reaches touch-control sensing to constitute a single layer touch-control sensing structure
Purpose.
Therefore, when aobvious across the Organic Light Emitting Diode touch-control of the above-mentioned first to the 7th embodiment from extraneous incident light
When showing the package assembling 30 of equipment, which can be absorbed by quarter wavelength plate 31 and polarizer 32.And it is incorporated into
Pixel control layer 33 in package assembling 30 can play touch-control sensing function, and reach the present invention while having display, antireflection
And the effect of touch-control sensing.
In above-mentioned first embodiment to the 7th embodiment, between organic luminescent assembly 20 and package assembling 30, more wrap
Include transparent adhesive layer(It is not shown), transparent adhesive layer, which is covered on organic luminescent assembly, makes organic luminescent assembly and package assembling electricity
Property insulation, and organic luminescent assembly is made to completely cut off with extraneous oxygen, moisture, avoids it from making moist and aoxidize and influence the service life, reach
The effect of packaging protection while the display function for having no effect on organic luminescent assembly.
Furthermore above-mentioned quarter wavelength plate 31 has the characteristic (self- of self assembly using liquid crystal molecule
Assembly), such as the surface alignment technique of reactive liquid crystals and relative maturity, the systematicness of large-area liquid crystal is realized
Arrangement becomes a film thickness with crystal structure after membrane body solidified forming.Since 31 thickness of quarter wavelength plate only has
A few micrometers, many is reduced compared to traditional quarter-wave plate thickness, therefore can effectively reduce the integral thickness of package assembling 30.
And above-mentioned certain not above-mentioned liquid crystal molecule self assembly characteristic and table can also be utilized as the polarizer 32 of supporting substrate
Face alignment technique is made of such as cholesteric liquid crystal material, and is further reduced the thickness of polarizer 32 to only a few micrometers, and
Due to being without the use of TAC protective films, many is reduced compared to traditional polarisation plate thickness, or even penetrate specific coating technique,
The thickness of liquid crystal polarization plate 32 can be reduced to about 1 micron, and further reduce the integral thickness of package assembling 30.And by
In without using traditional quarter wavelength plate, the problems such as in addition to being not required to worry plank out of stock, stock, and can be by dealer voluntarily in envelope
Coating of liquid crystalline material makes quarter wavelength plate 31 on arrangement 30, to shorten processing time, and is conveniently advised in response to different product
Lattice demand, thickness and application place of elasticity adjustment quarter wavelength plate 31 etc., and part can be saved and purchase four points outward
One of wave plate expense, so that the manufacturing cost of product is reduced.
In addition, embodiment described above also may include a frame decorative ink layer (decoration layer), can set
In the lower surface of glass 34, it is set to the upper surface or lower surface of quarter wavelength plate 31, or the base set on organic luminescent assembly 20
The positions such as the upper surface of plate 21.
In conclusion the Organic Light Emitting Diode touch control display device of above-described embodiment by liquid crystal material by will be formed
On package assembling 30, substitution traditional OLED is aobvious for quarter wavelength plate, polarizer and touch-control sensing structural integrity
The encapsulation upper cover for showing device, not only makes Organic Light Emitting Diode touch control display device be provided simultaneously with display, optical anti-reflection and touch-control
Function, and at least save the glass cover-plate of conventional organic luminescence component and the glass cover-plate of touch-control sensing module, two layers of bonding glass
OCA (Optical clear Adhesive) optical cement of glass cover board etc., and effectively reduce Organic Light Emitting Diode touch-control and show
The integral thickness and weight of equipment.In addition, the present invention makes quarter wavelength plate using liquid crystal material, it can be by quarter wavelength plate
Thickness be reduced to a few micrometers by traditional hundreds of microns, can further reduce Organic Light Emitting Diode touch control display device
Integral thickness reaches effect and purpose of the present invention really.
Claims (34)
1. a kind of Organic Light Emitting Diode touch control display device, it is characterised in that:
The touch control display device includes:
One substrate is provided with an adhesive layer on the substrate;
One organic light emitting module;And
One package assembling, is covered in the top of the organic light emitting module, and the package assembling include overlap one or four/
One wave plate, a polarizer and a pixel control layer, the wherein quarter wavelength plate are made of liquid crystal material, and the touch-control sensing
Layer is a single layer electrode structure;
Wherein the organic light emitting module is sealed in the substrate, the package assembling and the adhesive layer and is formed by space.
2. Organic Light Emitting Diode touch control display device according to claim 1, it is characterised in that:The quarter wavelength plate
It is formed in the lower surface of the polarizer, which is formed in the quarter wavelength plate, and the pixel control layer includes
Several first electrodes along first direction arrangement arrange and are arranged several independent second between first electrode row
Electrode, respectively the first electrode row comprising with several conducting wires along the concatenated several first electrodes of the first direction, and this four/
One wave plate is equipped with several bridge-jointing units with the wire crossbar of first electrode row, connects the second electrode and constitutes number
The second electrode of a second direction arranged in series interlocked with the first direction along one arranges.
3. Organic Light Emitting Diode touch control display device according to claim 2, it is characterised in that:The respectively bridge-jointing unit packet
Containing two run through the quarter wavelength plate conductive column, and set on the upper surface of the quarter wavelength plate and with two conductions
The conducting wire of one end connection of column, and the other end of two conductive columns is electrically connected with the one end of two adjacent second electrodes.
4. Organic Light Emitting Diode touch control display device according to claim 1, it is characterised in that:The quarter wavelength plate
It is formed in the lower surface of the polarizer, which is formed in the quarter wavelength plate, and the pixel control layer includes
Several first electrodes along first direction arrangement arrange and are arranged several independent second between first electrode row
Electrode, respectively first electrode row comprising with several conducting wires along the concatenated several first electrodes of the first direction, and positioned at respectively this
The bridge joint list of one and the wire crossbar of respectively first electrode row are additionally provided between the two neighboring second electrode of one electrodes series both sides
Member, second for connecting the second electrode and constituting several second direction arranged in series interlocked with the first direction along one are electric
Pole arranges.
5. Organic Light Emitting Diode touch control display device according to claim 4, it is characterised in that:The respectively bridge-jointing unit packet
The insulating layer for the conducting wire for covering first electrode row containing one, and formed on which insulating layer to connect two neighboring second electrode
Conducting wire.
6. Organic Light Emitting Diode touch control display device according to claim 1, it is characterised in that:The quarter wavelength plate
It is formed in the lower surface of the polarizer, which is formed in the quarter wavelength plate, and the pixel control layer includes
The electrode group of several equidistant arrangements, each electrode group include to be oppositely arranged and in a first electrode of strip and one second electricity
Pole, the wherein width of the first electrode are gradually successively decreased by one first end towards a second end opposite with the first end, this second
The width of electrode is gradually incremented by by one first end towards one second extreme direction opposite with the first end.
7. Organic Light Emitting Diode touch control display device according to claim 1, it is characterised in that:The pixel control layer shape
At in the lower surface of the polarizer, which is formed in the pixel control layer, and the pixel control layer includes number
A first electrode along first direction arrangement arranges and is arranged several independent second electricity between first electrode row
Pole, respectively first electrode row are comprising with several conducting wires, along the concatenated several first electrodes of the first direction, and the polarizer is set
The bridge-jointing units for having the wire crossbars of several row with the first electrode, connect the second electrode and constitute it is several along one with
The second electrode row for the second direction arranged in series that the first direction interlocks.
8. Organic Light Emitting Diode touch control display device according to claim 7, it is characterised in that:The respectively bridge-jointing unit packet
The conductive column for running through the polarizer containing two, and connect set on the lower surface of the polarizer and with each one end of two conductive columns
The conducting wire connect, and the other end of two conductive columns is electrically connected with the one end of two adjacent second electrodes.
9. Organic Light Emitting Diode touch control display device according to claim 1, it is characterised in that:The pixel control layer shape
At in the lower surface of the polarizer, which is formed in the pixel control layer, and the pixel control layer includes number
A first electrode along first direction arrangement arranges and is arranged several independent second electricity between first electrode row
Pole, respectively first electrode row comprising with several conducting wires along the concatenated several first electrodes of the first direction, and a quarter
Wave plate is equipped with several bridge-jointing units with the wire crossbar of first electrode row, connects the second electrode and constitutes several
The second electrode for the second direction arranged in series interlocked with the first direction along one arranges.
10. Organic Light Emitting Diode touch control display device according to claim 9, it is characterised in that:The respectively bridge-jointing unit
Including two run through the conductive column of the quarter wavelength plate, and led set on the lower surface of the quarter wavelength plate and with this two
The conducting wire of each one end connection of electric column, and the other end of two conductive columns and the one end of two adjacent second electrodes are electrically connected
It connects.
11. Organic Light Emitting Diode touch control display device according to claim 1, it is characterised in that:The pixel control layer
It is formed in the lower surface of the polarizer, which is formed in the pixel control layer, and the pixel control layer includes
Several first electrodes along first direction arrangement arrange and are arranged several independent second between first electrode row
Electrode, respectively first electrode row comprising with several conducting wires along the concatenated several first electrodes of the first direction, and positioned at respectively this
The bridge joint list of one and the wire crossbar of respectively first electrode row are additionally provided between the two neighboring second electrode of one electrodes series both sides
Member, second for connecting the second electrode and constituting several second direction arranged in series interlocked with the first direction along one are electric
Pole arranges.
12. Organic Light Emitting Diode touch control display device according to claim 11, it is characterised in that:The respectively bridge-jointing unit
Including one covers the insulating layer of the conducting wire of first electrode row, and formed on which insulating layer to connect two neighboring second electricity
The conducting wire of pole.
13. Organic Light Emitting Diode touch control display device according to claim 1, it is characterised in that:The pixel control layer
It is formed in the lower surface of the polarizer, which is formed in the pixel control layer, and the pixel control layer includes
The electrode group of several equidistant arrangements, each electrode group include to be oppositely arranged and in a first electrode of strip and one second electricity
Pole, the wherein width of the first electrode are gradually successively decreased by one first end towards a second end opposite with the first end, this second
The width of electrode is gradually incremented by by one first end towards one second extreme direction opposite with the first end.
14. Organic Light Emitting Diode touch control display device according to claim 1, it is characterised in that:The package assembling is also
Including an insulating layer, and the quarter wavelength plate is formed in the lower surface of the polarizer, which is formed in this four points
One of on wave plate, which is formed in the pixel control layer, and the pixel control layer includes several to be arranged along a first direction
The first electrode of row arranges and several independent second electrodes between first electrode row is arranged, and respectively the first electrode arranges
Including with several conducting wires along the concatenated several first electrodes of the first direction, and the insulating layer is equipped with several and described first electricity
The bridge-jointing unit of the wire crossbar of pole row, connects the second electrode and constitutes several the to interlock with the first direction along one
The second electrode of two direction arranged in series arranges.
15. Organic Light Emitting Diode touch control display device according to claim 14, it is characterised in that:The respectively bridge-jointing unit
Include two run through the insulating layer conductive columns, and set on the lower surface of the insulating layer and with each one end of two conductive columns
The conducting wire of connection, and the other end of two conductive columns is electrically connected with the one end of two adjacent second electrodes.
16. Organic Light Emitting Diode touch control display device according to claim 1, it is characterised in that:The package assembling is also
Including a transparent insulation plate, and the pixel control layer is formed in the upper surface of the transparent insulation plate, which forms
In in the pixel control layer, which is overlapped in the quarter wavelength plate, and the pixel control layer includes several along one the
The first electrode row of one direction arrangement and the several independent second electrodes being arranged between first electrode row, respectively this
One electrodes series include with several conducting wires along the concatenated several first electrodes of the first direction, and the quarter wavelength plate is equipped with number
The bridge-jointing unit of the wire crossbar of a row with the first electrode, connect the second electrode keep composition several along one with this
The second electrode row for the second direction arranged in series that one direction interlocks.
17. Organic Light Emitting Diode touch control display device according to claim 16, it is characterised in that:The respectively bridge-jointing unit
Including two run through the conductive column of the quarter wavelength plate, and led set on the upper surface of the quarter wavelength plate and with this two
The conducting wire of one end connection of electric column, and each other end of two conductive columns and the one end of two adjacent second electrodes are electrically connected
It connects.
18. Organic Light Emitting Diode touch control display device according to claim 1, it is characterised in that:The package assembling is also
Including a transparent insulation plate, and the pixel control layer is formed in the upper surface of the transparent insulation plate, which forms
In in the pixel control layer, which is overlapped in the quarter wavelength plate, and the pixel control layer includes several along one the
The first electrode row of one direction arrangement and the several independent second electrodes being arranged between first electrode row, respectively this
One electrodes series include with several conducting wires along the concatenated several first electrodes of the first direction, and positioned at each first electrode row both sides
Two neighboring second electrode between be additionally provided with the bridge-jointing unit of one and the wire crossbar of each first electrode row, described in connection
Second electrode keeps composition several along the second electrode row of a second direction arranged in series with the first direction staggeredly.
19. Organic Light Emitting Diode touch control display device according to claim 18, it is characterised in that:The respectively bridge-jointing unit
Including one covers the insulating layer of the conducting wire of first electrode row, and formed on which insulating layer to connect two neighboring second electricity
The conducting wire of pole.
20. Organic Light Emitting Diode touch control display device according to claim 1, it is characterised in that:The package assembling is also
Including a transparent insulation plate, and the pixel control layer is formed in the upper surface of the transparent insulation plate, which forms
In in the pixel control layer, which is overlapped in the quarter wavelength plate, and the pixel control layer includes several equidistant rows
The electrode group of row, each electrode group include to be oppositely arranged and in a first electrode and the second electrode of strip, wherein this
The width of one electrode is gradually successively decreased by one first end towards a second end opposite with the first end, the width of the second electrode by
One first end is gradually incremented by towards one second extreme direction opposite with the first end.
21. Organic Light Emitting Diode touch control display device according to claim 1, it is characterised in that:The package assembling is also
Including a transparent insulation plate, and the pixel control layer is formed in the lower surface of the transparent insulation plate, which forms
In the upper surface of the transparent insulation plate, which is overlapped in the quarter wavelength plate, and the pixel control layer includes several
First electrode along first direction arrangement arranges and is arranged several independent second electrodes between first electrode row,
Respectively first electrode row are comprising with several conducting wires, along the concatenated several first electrodes of the first direction, and the transparent insulation plate is set
The bridge-jointing units for having the wire crossbars of several row with the first electrode, connect the second electrode and constitute it is several along one with
The second electrode row for the second direction arranged in series that the first direction interlocks.
22. Organic Light Emitting Diode touch control display device according to claim 21, it is characterised in that:The respectively bridge-jointing unit
Include two run through the transparent insulation plate conductive columns, and set on the upper surface of the transparent insulation plate and with two conductive columns
The connection of each one end conducting wire, and the other end of two conductive columns is electrically connected with the one end of two adjacent second electrodes.
23. Organic Light Emitting Diode touch control display device according to claim 1, it is characterised in that:The package assembling is also
Including a transparent insulation plate, and the pixel control layer is formed in the lower surface of the transparent insulation plate, which forms
In the upper surface of the transparent insulation plate, which is overlapped in the quarter wavelength plate, and the pixel control layer includes several
First electrode along first direction arrangement arranges and is arranged several independent second electrodes between first electrode row,
Respectively first electrode row comprising with several conducting wires along the concatenated several first electrodes of the first direction, and positioned at each first electrode
It is additionally provided with the bridge-jointing unit of one and the wire crossbar of respectively first electrode row between the two neighboring second electrode of row both sides, connects
Connect the second electrode keep composition several along one with the first direction interlock second direction arranged in series second electrode arrange.
24. Organic Light Emitting Diode touch control display device according to claim 23, it is characterised in that:The respectively bridge-jointing unit
Including one covers the insulating layer of the conducting wire of first electrode row, and formed on which insulating layer to connect two neighboring second electricity
The conducting wire of pole.
25. Organic Light Emitting Diode touch control display device according to claim 1, it is characterised in that:The package assembling is also
Including a transparent insulation plate, and the pixel control layer is formed in the lower surface of the transparent insulation plate, which forms
In the upper surface of the transparent insulation plate, which is overlapped in the quarter wavelength plate, and the pixel control layer includes several
The electrode group of equidistant arrangement, each electrode group include the first electrode and a second electrode for being oppositely arranged and be in strip,
In the width of the first electrode gradually successively decreased towards a second end opposite with the first end by one first end, the second electrode
Width is gradually incremented by by one first end towards one second extreme direction opposite with the first end.
26. Organic Light Emitting Diode touch control display device according to claim 1, it is characterised in that:The package assembling is also
Including a transparent insulation plate and an insulating layer, and the quarter wavelength plate is formed in the upper surface of the transparent insulation plate, the polarisation
Plate is overlapped in the quarter wavelength plate, which is formed in the lower surface of the transparent insulation plate, which forms
In in the pixel control layer, and the pixel control layer includes several to exist along the first electrodes row of first direction arrangement and setting
Several independent second electrodes between the first electrode row, respectively first electrode row include with several conducting wires along the first party
To concatenated several first electrodes, and the insulating layer is equipped with several bridge joint lists with the wire crossbar of first electrode row
Member, second for connecting the second electrode and constituting several second direction arranged in series interlocked with the first direction along one are electric
Pole arranges.
27. Organic Light Emitting Diode touch control display device according to claim 26, it is characterised in that:The respectively bridge-jointing unit
Include two run through the insulating layer conductive columns, and set on the lower surface of the insulating layer and with each one end of two conductive columns
The conducting wire of connection, and the other end of two conductive columns is electrically connected with the one end of two adjacent second electrodes.
28. Organic Light Emitting Diode touch control display device according to claim 1, it is characterised in that:The package assembling is also
Including a sheet glass, and the pixel control layer is formed in the lower surface of the glass, which is formed in the touch-control sense
Survey the lower surface of layer, which is located at the lower surface of the quarter wavelength plate, and the pixel control layer comprising several along one the
The first electrode row of one direction arrangement and the several independent second electrodes being arranged between first electrode row, respectively this
One electrodes series include with several conducting wires along the concatenated several first electrodes of the first direction, and the polarizer is equipped with several and institute
The bridge-jointing unit for stating the wire crossbar of first electrode row, connects the second electrode and constitutes several along one and the first direction
The second electrode of second direction arranged in series staggeredly arranges.
29. Organic Light Emitting Diode touch control display device according to claim 28, it is characterised in that:The respectively bridge-jointing unit
Include two run through the polarizer conductive columns, and set on the lower surface of the polarizer and with each one end of two conductive columns
The conducting wire of connection, and the other end of two conductive columns is electrically connected with the one end of two adjacent second electrodes.
30. Organic Light Emitting Diode touch control display device according to claim 1, it is characterised in that:The package assembling is also
Including a sheet glass, and the pixel control layer is formed in the lower surface of the glass, which is formed in the polarizer
Lower surface, and the glass is fitted in the pixel control layer downward on the upper surface of the polarizer, and the pixel control layer
Including several first electrodes along first direction arrangement arrange and are arranged several independent between first electrode row
Second electrode, respectively first electrode row comprising with several conducting wires along the concatenated several first electrodes of the first direction, and positioned at each
The bridge of one and the wire crossbar of respectively first electrode row are additionally provided between the two neighboring second electrode of the first electrode row both sides
Order member, connects the second electrode and constitutes the of several second direction arranged in series interlocked with the first direction along one
Two electrodes series.
31. Organic Light Emitting Diode touch control display device according to claim 30, it is characterised in that:The respectively bridge-jointing unit
Including one covers the insulating layer of the conducting wire of first electrode row, and formed on which insulating layer to connect two neighboring second electricity
The conducting wire of pole.
32. Organic Light Emitting Diode touch control display device according to claim 1, it is characterised in that:The package assembling is also
Including a sheet glass, and the pixel control layer is formed in the lower surface of the glass, which is formed in the polarizer
Lower surface, and the glass is fitted in the pixel control layer downward on the upper surface of the polarizer, and the pixel control layer
Include the electrode group of several equidistant arrangements, each electrode group includes to be oppositely arranged and in a first electrode and one second for strip
Electrode, the wherein width of the first electrode are gradually successively decreased by one first end towards a second end opposite with the first end, this
The width of two electrodes is gradually incremented by by one first end towards one second extreme direction opposite with the first end.
33. the Organic Light Emitting Diode touch control display device according to claim 2 to 27 any of which, it is characterised in that:
The package assembling also includes a piece of glass fitted on the polarizer.
34. the Organic Light Emitting Diode touch control display device according to claim 16 to 27 any of which, it is characterised in that:
The polarizer is a liquid crystal polarization plate.
Priority Applications (3)
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CN201310559964.5A CN104637974B (en) | 2013-11-12 | 2013-11-12 | Organic Light Emitting Diode touch control display device |
TW103112515A TWI642178B (en) | 2013-11-12 | 2014-04-03 | Organic light emitting diode touch display device |
TW103205828U TWM489327U (en) | 2013-11-12 | 2014-04-03 | Organic LED touch-control display device |
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CN201310559964.5A CN104637974B (en) | 2013-11-12 | 2013-11-12 | Organic Light Emitting Diode touch control display device |
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CN104637974B true CN104637974B (en) | 2018-10-26 |
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US11574967B2 (en) * | 2020-08-14 | 2023-02-07 | Novatek Microelectronics Corp. | Organic light-emitting display panel |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
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US6697132B2 (en) * | 2000-06-01 | 2004-02-24 | Nitto Denko Corporation | Optical member and liquid crystal display device |
CN203607416U (en) * | 2013-11-12 | 2014-05-21 | 宸鸿光电科技股份有限公司 | Organic light-emitting diode touch control display equipment |
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KR101323434B1 (en) * | 2009-06-08 | 2013-10-29 | 엘지디스플레이 주식회사 | Organic Light Emitting Display Device |
US8946985B2 (en) * | 2012-05-07 | 2015-02-03 | Samsung Display Co., Ltd. | Flexible touch screen panel and flexible display device with the same |
-
2013
- 2013-11-12 CN CN201310559964.5A patent/CN104637974B/en active Active
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2014
- 2014-04-03 TW TW103112515A patent/TWI642178B/en active
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Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6697132B2 (en) * | 2000-06-01 | 2004-02-24 | Nitto Denko Corporation | Optical member and liquid crystal display device |
CN203607416U (en) * | 2013-11-12 | 2014-05-21 | 宸鸿光电科技股份有限公司 | Organic light-emitting diode touch control display equipment |
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TWM489327U (en) | 2014-11-01 |
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TWI642178B (en) | 2018-11-21 |
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