CN103050506A - OLED (organic light-emitting diode) display - Google Patents

Abstract

The invention discloses an OLED (organic light-emitting diode) display, which comprises a base plate, an isolation layer and a touch controlled functional layer, wherein an OLED light-emitting element is formed on the base plate. The OLED light-emitting element comprises an OLED displaying component, an organic light-emitting functional layer and an OLED anode; the isolation layer is formed on the OLED light-emitting element; the touch controlled functional layer is formed on the isolation layer, and the touch controlled functional layer is provided with a touch controlled electrode; and the touch controlled electrode and the OLED anode are respectively connected onto respective ICs (integrated circuits) to form a top light-emitting OLED display integrated with touch control. A shielding layer is arranged between the isolation layer and the touch controlled functional layer, an insulation layer is arranged on the shielding layer, and thus signal interference between the OLED light-emitting element and the touch controlled functional layer is prevented. As the OLED light-emitting element and the touch controlled functional layer are arranged on the same base plate, the thickness of the OLED display integrated with a touch control function in the prior art is reduced. The touch controlled electrode is connected onto the terminal part of the base plate and is further connected onto the respective IC through the terminal part, thus the manufacture process of the display is simplified.

Description

A kind of OLED display

Technical field

The present invention relates to OLED display technology field, particularly a kind of OLED display with integrated touch controllable function.

Background technology

The integrated touch technology of display of display being controlled by induction is by the at present extensive use of the display devices such as mobile phone, panel computer, and display of organic electroluminescence is OLED(OrganicLight-Emitt ing Diode) with it the plurality of advantages such as active illuminating, contrast is high, corresponding speed is fast, frivolous are arranged, be described as the display of new generation that can replace liquid crystal display (LCD).And a kind of main flow that has especially the touch-control sensing display with the OLED display of integrated functionality now.

The structural representation of OLED display as shown in Figure 1, it comprises that oled substrate 10, negative electrode 11 are that common electrode, organic luminescence function layer 12, anode 13 are the parts such as transparency electrode, packaged glass 15 and sealed plastic box 16.Wherein 10 minutes pixel regions of substrate and terminal area; Organic luminescence function layer 12 comprises hole injection layer, hole transmission layer, luminescent layer, electron transfer layer, electron injecting layer; By sealed plastic box 16 encapsulation, the inner chamber the inside of its formation arranges negative electrode 11 and anode 13 between oled substrate 11 and the bonnet 15, and interpolar is provided with organic luminescence function layer 13.After hole injection layer applied positive voltage, applies negative voltage on the transparent cathode, the hole was injected from hole injection layer, moves to luminescent layer, injected with transparent cathode and the electronics that moves to luminescent layer is combined and is sent visible light.The light that luminescent layer sends penetrated transparent cathode, reached user's eyes behind the packaged glass.This OLED is divided into two kinds according to illumination mode, and wherein: light sends from the oled substrate face and is end emission type; When from after capping send and be the top reflection-type.

A kind of prior art of the OLED display with integrated touch controllable function is that the packaged glass at the OLED display is provided with the touch-control electrode pattern as shown in Figure 2, and this display comprises oled substrate 11 and the packaged glass 15 of fitting by sealed plastic box 36.Be formed with equally OLED display module, organic luminescence function layer and OLED anode etc. on the oled substrate 11.Be formed with touch-control electrode pattern 33 at packaged glass, electrode pattern 33 can be capacitance type touch control screen electrode pattern or resistance type touch control screen electrode pattern.And this individual layer or double-deck touch-control electrode and the OLED anode pass through peripheral circuit, and position of touch and displaying contents is interrelated, under the processing of operating system, realize displaying contents is carried out touch-control control.The display of this structure need to just can be finished by two substrates and show and touch controllable function, makes it the module group procedure more complicated.Simultaneously, the box body that oled substrate 11 and packaged glass 15 consist of has increased the thickness of touch-control electrode and touch-control electrode protective membrane, is unfavorable for the requirement of this display thinning.

Summary of the invention

Goal of the invention: for the thickness of the OLED display that reduces integrated touch controllable function in the prior art with simplify the processing procedure of this display.

Technical scheme: in order to reach the purpose of foregoing invention, the invention provides a kind of OLED display, this display comprises a substrate, is formed with an OLED light-emitting component at this substrate, comprises OLED display module, organic luminescence function layer and OLED anode; One isolation layer is formed on the OLED light-emitting component; And being formed at touch controllable function layer on this isolation layer, this touch controllable function layer is formed with the touch-control electrode;

Wherein, this touch-control electrode and this OLED anode are connected respectively on separately the drive IC, to form the top-illuminating OLED display of an integrated touch-control.

Further, described touch-control electrode is single-layer electrodes or two-layer electrode;

Further, described individual layer touch-control electrode comprises transverse electrode and longitudinal electrode, and wherein, longitudinal electrode is noncontinuous electrode, and this discontinuous longitudinal electrode is electrically connected mutually by the conductive layer of OLED light-emitting component;

Further, described touch controllable function layer is the capacitance touching control functional layer;

Further, between described isolation layer and touch controllable function layer, one deck screen is set;

Further, a layer insulating is set between described screen and functional layer;

Further, described OLED anode and touch-control electrode are connected respectively to the portion of terminal of substrate.

Beneficial effect: technical scheme of the present invention is that OLED light-emitting component and touch controllable function layer are accomplished on the same substrate, can reduce the thickness of the OLED display of integrated touch controllable function in the prior art.On the basis of the portion of terminal of OLED anodic bonding substrate in the prior art, also the touch-control electrode also is connected to the portion of terminal of substrate, is connected to respectively on separately the drive IC by portion of terminal again, simplify the processing procedure of this display.

Description of drawings

Fig. 1 is the structural representation of prior art OLED display;

Fig. 2 is the structural representation of the OLED display of the integrated touch controllable function of prior art;

Fig. 3 is the structural representation of the OLED display of integrated touch controllable function of the present invention;

Fig. 4 is the profile of AA ' direction among Fig. 3;

Fig. 5 is the structural representation of the OLED display of individual layer touch controllable function of the present invention

Fig. 6 is the profile of the longitudinal direction of Fig. 5;

Fig. 7 is BB ' profile among Fig. 6;

Fig. 8 is the structural representation of the OLED display of the present invention's integrated touch controllable function of being provided with screen;

Among the figure 10, substrate, 100, OLED light-emitting component, 11, negative electrode, 12, organic luminescence function layer, 13, anode, 15, isolation layer, 30, double-deck touch controllable function layer, 33, the touch-control electrode of double-deck touch controllable function layer, 35, the insulating barrier of double-deck touch controllable function layer, 101/101 '/405/405 '/501/501 ', portion of terminal, 40, individual layer touch controllable function layer, 41, horizontal touch-control electrode, 42, the touch-control electrode of longitudinal direction, 70, screen, 75, insulating barrier, 47, contact hole, 19, conductive layer, 50, the touch controllable function layer.16, sealed plastic box, 90, sealing frame.

Embodiment

Below in conjunction with the drawings and specific embodiments, further illustrate the present invention, should understand these embodiment only is used for explanation the present invention and is not used in and limits the scope of the invention, after having read the present invention, those skilled in the art all fall within the application's claims limited range to the modification of the various equivalent form of values of the present invention.

The OLED display of integrated touch controllable function provided by the invention is that the electrode of touch controllable function and OLED light-emitting component are arranged on the same substrate.Referring to being the first embodiment of the present invention such as Fig. 3.As shown in the figure, at the substrate 10 with the prior art of the luminous element of OLED one deck isolation layer (not shown) is set, wherein substrate 10 is divided into pixel region P(and does not show) and terminal area T.At this isolation layer touch controllable function layer 30 is set, touch controllable function layer 30 is the Dual-layer structure, and wherein, upper strata touch-control electrode and lower floor's this (not shown) of touch-control electrode cause respectively portion of terminal 101 and 101 '.Above each parts are set rear coating sealing frame 90, with the encapsulation cover plate (not shown) with these substrate 10 bonding top-illuminating OLED displays that form an integrated touch controllable function that are sealed to.Wherein, encapsulation cover plate is generally glass cover-plate.

For better understanding present embodiment, Fig. 4 has provided that the profile of AA ' direction is described in further detail present embodiment among Fig. 3.As shown in Figure 4, in the pixel region P of substrate 10, form the OLED light-emitting component 100 of prior art, light-emitting component 100 comprises that successively the negative electrode 11, organic luminescence function layer 12, the anode 13 that form are the OLED emissive element anode, also comprise OLED display module one top gate structure TFT, drive the parts such as cabling.Wherein, negative electrode 11 is metal material; Anode 12 is generally the ITO transparent conductive film, and the anode with the OLED light-emitting component is electrically connected to terminal area T inner terminal section (not shown) simultaneously.At the OLED light-emitting component isolation layer 15 is set, this isolation layer 15 is to utilize printing or evaporation coating method inorganic matter or organic substance or both collocation to be had on the material coating OLED light-emitting component such as planarization effect to form.Form double-deck touch controllable function layer 30 at this isolation layer, the capacitance touching control functional layer that this bilayer touch controllable function layer 30 is comprised of two-layer touch-control electrode 33 about insulating barrier 35 isolation.Simultaneously the touch-control electrode 33 on upper strata is electrically connected on the portion of terminal 101 in the terminal area T, the touch-control electrode 33 of lower floor is electrically connected to portion of terminal 101 in the terminal area T ' upper (not shown).Touch-control electrode 33 and OLED emissive element anode are connected to the drive IC that is installed in separately on the substrate 10 by portion of terminal respectively, have not only simplified module group procedure, also touch controllable function layer and OLED light-emitting component are set on the same substrate simultaneously.Reduced the thickness of the OLED display of the integrated touch controllable function of being finished by two-layer substrate.

Fig. 5 gives the second embodiment of the present invention, and the touch controllable function layer of different from the first embodiment is present embodiment is single layer structure.Shown in the longitudinal sectional drawing of the stereogram of Fig. 5 and Fig. 6, be provided with one deck isolation layer 15 at the substrate 10 that is provided with light-emitting component 100, and form individual layer touch controllable function layer 40 at this insulating barrier.Wherein, OLED light-emitting component 100 comprise equally negative electrode 11, organic luminescence function layer 12, anode 13 optical element electrodes and OLED display module one top gate structure TFT, drive the parts such as cabling; Individual layer control functional layer 40 comprises the touch-control electrode 41 of transverse direction and the touch-control electrode 42 of longitudinal direction.Wherein the touch-control electrode 41 of transverse direction can be directly connected to the portion of terminal 405 of terminal area T ', and the touch-control electrode 42 of longitudinal direction is discontinuous electrode pattern, can not be directly connected on the portion of terminal 405 of terminal area T, in order to connect discontinuous touch-control electrode 42, BB ' profile as shown in Figure 7, make contact hole 47 at isolation layer 15, and contact hole 47 and the conductive layer 19 of OLED light-emitting component 100 are electrically connected.Two discontinuous touch-control electrodes 42 are realized being electrically connected by contact hole 47 and conductive layer 19.Therefore, no matter the touch-control electrode of transverse and longitudinal direction can be connected to portion of terminal, makes to finish touch-control drive when connecting the luminous driver circuit of OLED.The feature of each parts of present embodiment is identical with the first embodiment, so no longer describe in detail.

For better understanding design of the present invention, the present invention gives the 3rd embodiment, different from the first and second embodiment is that present embodiment is between isolation layer and touch controllable function layer a screen to be set, and avoids the signal between OLED light-emitting component and the touch controllable function layer to disturb.Shown in the profile of Fig. 8, be provided with equally light-emitting component 100, layer isolation layer 15 and touch controllable function layer 50 on the substrate 10, what present embodiment was different is that a screen 70 is set between isolation layer 15 and touch controllable function layer 50, and this screen is the ITO transparent conductive film.And at these screen 70 formation insulating barriers 75.Wherein, touch controllable function layer 50 is individual layer or double-deck touch controllable function layer, and the touch-control electrode of touch controllable function layer 50 is electrically connected to portion of terminal 501.By the increase of screen 70, avoided the signal between OLED light-emitting component and the touch controllable function layer to disturb.In order to better finish instruction and the displaying contents of touch-control.The feature of each parts of present embodiment is identical with the second embodiment with the first embodiment, so no longer describe in detail.

Compared with prior art, the OLED display of integrated functionality of the present invention is not only more frivolous, also simplifies the processing procedure of this display simultaneously.

Claims (7)

1. OLED display, it is characterized in that: this display comprises a substrate, is formed with an OLED light-emitting component at this substrate, comprises OLED display module, organic luminescence function layer and OLED anode; One isolation layer is formed on the OLED light-emitting component; And being formed at touch controllable function layer on this isolation layer, this touch controllable function layer is formed with the touch-control electrode;

Wherein, this touch-control electrode and this OLED anode are connected respectively on separately the drive IC, to form the top-illuminating OLED display of an integrated touch-control.

2. a kind of OLED display according to claim 1, it is characterized in that: described touch-control electrode is single-layer electrodes or two-layer electrode.

3. a kind of OLED display according to claim 2, it is characterized in that: described individual layer touch-control electrode comprises transverse electrode and longitudinal electrode; Wherein, longitudinal electrode is noncontinuous electrode, and this discontinuous longitudinal electrode is electrically connected mutually by the conductive layer of OLED light-emitting component.

4. a kind of OLED display according to claim 1, it is characterized in that: described touch controllable function layer is the capacitance touching control functional layer.

5. a kind of OLED display according to claim 1 is characterized in that: between described isolation layer and touch controllable function layer one deck screen is set.

6. a kind of OLED display according to claim 5 is characterized in that: a layer insulating is set between described screen and functional layer.

7. a kind of OLED display according to claim 1, it is characterized in that: described OLED anode and touch-control electrode are connected respectively to the portion of terminal of substrate.

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