CN206250196U - OLED touch-control display panels and touch control display apparatus - Google Patents
OLED touch-control display panels and touch control display apparatus Download PDFInfo
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- CN206250196U CN206250196U CN201621209305.4U CN201621209305U CN206250196U CN 206250196 U CN206250196 U CN 206250196U CN 201621209305 U CN201621209305 U CN 201621209305U CN 206250196 U CN206250196 U CN 206250196U
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Abstract
A kind of OLED touch-control display panels, including substrate, first electrode layer, pixel confining layers, organic luminous layer, isolation supporting construction, the second electrode lay and protective mulch;First electrode layer is formed on substrate, including spaced first electrode and the first touch control electrode;Pixel confining layers have opening, and pixel confining layers cover the edge part of first electrode, and the center section of first electrode is exposed from opening;Organic luminous layer is inserted in the opening of pixel confining layers;Isolation supporting construction is formed in pixel confining layers, the second electrode lay covering pixel confining layers, isolation supporting construction and organic luminous layer;The second electrode lay is isolated the step formed between supporting construction and pixel confining layers and is separated into mutually non-touching second electrode and second touch control electrode, and second touch control electrode is located in isolation supporting construction;Protective mulch shape covers the second electrode lay.The utility model further relates to a kind of touch control display apparatus.
Description
Technical field
The utility model is related to a kind of OLED touch-control display panels, the touch-control display dress with OLED touch-control display panels
Put, belong to OLED technical field of touch-control display.
Background technology
The species of flat panel display technology is more, including liquid crystal display (Liquid Crystal Display, LCD) and organic
Diode displaying (Organic Light-Emitting Diode, OLED) etc..OLED is active luminescent device, with height
Contrast, wide viewing angle, low-power consumption, fast response time, volume it is thinner and can flexibility the features such as, receive increasing pass
Note, is expected to turn into main flow flat panel display technology of future generation, is one of the most technologies that attract attention in current flat panel display technology.
The principle of luminosity of OLED is to deposit very thin luminous organic material (organic light emission between two electrodes (anode and negative electrode)
Layer), electric current is passed to luminous organic material, injected by carrier and be combined and cause to light.
With the development of portable electronic display device, touch technology provides a kind of new man-machine interaction interface, its
Using upper more direct, more humane.Touch technology is combined with flat panel display technology, touch control display apparatus, energy are formed
Enough making flat display apparatus has touch controllable function, can perform input by finger, stylus etc., and operation is more directly perceived, easy.Should
On the whole touch technology for touch control display apparatus is divided into two kinds of condenser type and resistance-type, in recent years capacitive touch-control display dress
The occupation rate of market put gradually grows up, and has surmounted resistance type touch display device and has turned into the mainstream technology in market.It is capacitive
Touch-control causes curent change using the electric capacity for changing panel, and then is converted into potential change, to judge the touch coordinate of user.
Capacitive touch control display apparatus can more be further subdivided into single-layer capacitive touch display device and double-layer capacitance type touch-control
Display device, the touch sensor of the touch control display apparatus of double-layer capacitance type is arranged respectively to two induction electrode layers and (drives electricity
Pole and sensing electrode), the insulating materials of midfeather one is staggered, by the conductive pattern on two induction electrode layers to feel
Survey and judge the position of user's finger touch.
Touch technology the more commonly used at present includes external hanging type touch technology and embedded touch technology.Embedded touch skill
Art refers to that touch sensor is integrated into inside display panel, because embedded touch technology can compared to external hanging type touch technology
Make display device more frivolous, therefore embedded touch technology should more be concerned in OLED display.Existing embedded touch
Technology needs to increase film layer and technological process on the basis of original display base plate technology, therefore can cause structure, processing procedure
More complicated, manufacturing process difficulty increase causes yields to decline low harmful effect, increased manufacturing cost.
Further, in OLED display, the driving electrodes and sensing electrode of embedded touch technology are typically integrated in thin
On film transistor (TFT) image element array substrates, high-frequency signal is required during embedded touch technology humanized, and OLED shows it is low frequency
Signal is driven, therefore embedded touch technology is carried OLED and shows the problem that signal is interfered that can face, so as to constrain visitor
Experience at family.
Utility model content
The purpose of this utility model is to provide a kind of OLED touch-control display panels, can be effectively reduced cost of manufacture.
The utility model embodiment provides a kind of OLED touch-control display panels, including substrate, first electrode layer, pixel are limited
Layer, organic luminous layer, isolation supporting construction, the second electrode lay and protective mulch;First electrode layer is formed on substrate, and first
Electrode layer includes spaced first electrode and the first touch control electrode;Pixel confining layers are formed on substrate and have opening,
Pixel confining layers cover the edge part of first electrode, and the center section of first electrode is exposed from opening;Organic luminous layer
Insert in the opening of pixel confining layers and cover the first electrode exposed from opening;Isolation supporting construction is formed in pixel confining layers
On, the second electrode lay is formed on substrate and covers pixel confining layers, isolation supporting construction and organic luminous layer;The second electrode lay
It is isolated the step formed between supporting construction and pixel confining layers and is separated into mutually non-touching second electrode and the second touch-control
Electrode, second touch control electrode is located in isolation supporting construction and covers isolation supporting construction;Protective mulch is formed on substrate
And cover the second electrode lay.
Further, the first pole layer is stacked structure, including reflective metal layer, dielectric layer and first electrode;Reflective metals
Layer is arranged on substrate, and reflective metal layer includes spaced reflecting layer and the first touch control electrode;Dielectric layer is arranged on substrate
Reflective metal layer is gone up and covers, first electrode is set on the dielectric layer, and first electrode is located at the surface in reflecting layer.
Further, first electrode layer is sandwich construction, including spaced first electrode and the first touch control electrode.
Further, isolation supporting construction is the structure with inverted trapezoidal cross section wide at the top and narrow at the bottom.
Further, the material of isolation supporting construction is negativity photoresist.
Further, first electrode is the anode of OLED light-emitting components, and second electrode is the negative electrode of OLED light-emitting components.
Further, the first touch control electrode is the driving electrodes in touch sensor, and second touch control electrode is touch sensing
Sensing electrode in device.
The utility model also provides a kind of touch control display apparatus, including above-mentioned OLED touch-control display panels.
The OLED touch-control display panels that the utility model embodiment is provided, its OLED light-emitting component is by first electrode layer
Second electrode in first electrode, the second electrode lay and the organic luminous layer shape between first electrode and second electrode
Into the pixel restriction being formed around for being sealed in organic luminous layer between first electrode and second electrode of light-emitting component
Layer.The touch sensor of OLED touch-control display panels is by the first touch control electrode and the second electrode lay in first electrode layer
Two touch control electrodes are formed.OLED touch-control display panels of the present utility model first touch-control of graphical generation when first electrode is made
Electrode, by making isolation supporting construction in pixel confining layers, generates with second electrode not simultaneously when second electrode is deposited
The second touch control electrode of contact, so as to not substantially increase existing process in the case of formed touch sensor driving electrodes and
Sensing electrode, reduces cost of manufacture.
Brief description of the drawings
Fig. 1 is the cross-sectional view of the OLED touch-control display panels of the utility model first embodiment.
Fig. 2 a to Fig. 2 f are the Making programme schematic diagrames of the OLED touch-control display panels of the utility model first embodiment.
Fig. 3 is the cross-sectional view of the OLED touch-control display panels of the utility model second embodiment.
Specific embodiment
Further to illustrate that the utility model is to reach technical approach and effect that predetermined utility model purpose is taken,
Below in conjunction with drawings and Examples, to specific embodiment of the present utility model, structure, feature and its effect, describe in detail such as
Afterwards.
The touch technology of OLED touch-control display panels of the present utility model is embedded touch technology, and Fig. 1 is new this practicality
The cross-sectional view of the OLED touch-control display panels of type first embodiment, as shown in figure 1, the utility model first embodiment
The OLED touch-control display panels 100 of offer include substrate 110, first electrode layer 120, pixel confining layers 130, organic luminous layer
140th, isolation supporting construction 150, the second electrode lay 160 and protective mulch 170.Wherein, first electrode layer 120 is formed in substrate
On 110, first electrode layer 120 includes the spaced touch control electrode 121b of first electrode 123 and first of in the vertical direction;Picture
Plain confining layers 130 are formed on substrate 110 and have opening 131, and pixel confining layers 130 cover the surrounding of first electrode 123
Edge point, the center section of first electrode 123 is exposed from opening 131;Organic luminous layer 140 inserts opening for pixel confining layers 130
Mouth 131 is interior and covers the first electrode 123 exposed from opening 131;Isolation supporting construction 150 is formed in pixel confining layers 130,
The second electrode lay 160 is formed on substrate 110 and covers pixel confining layers 130, isolation supporting construction 150 and organic luminous layer
140;The second electrode lay 160 is isolated the step formed between supporting construction 150 and pixel confining layers 130 and is separated into and does not connect mutually
Tactile second electrode 162 and second touch control electrode 164, second touch control electrode 164 be located at isolation supporting construction 150 on and covering every
From supporting construction 150;Protective mulch 170 is formed on substrate 110 and covers the second electrode lay 160.
Specifically, for example, thin film transistor (TFT) (TFT) image element array substrates of substrate 110, including multi-strip scanning line, a plurality of number
According to line, the thin film transistor (TFT) set at the crossover location of scan line and data wire and storage capacitance etc., thin film transistor (TFT) bag
Semiconductor layer, grid, source electrode and drain electrode etc. are included, this is well known to those skilled in the art technology, will not be repeated here.
First electrode layer 120 is separating stacked structure, including reflective metal layer 121, dielectric layer 122 and first electrode
123。
Reflective metal layer 121 is formed on substrate 110, and reflective metal layer 121 is for example by the conductive gold with high reflectance
Category or alloy etc. are made, and are, for example, specifically silver, aluminium etc..Reflective metal layer 121 include patterning formed in the horizontal direction between
Every the first touch control electrode 121b and reflecting layer 121a that set.First touch control electrode 121b is, for example, the driving in touch sensor
Electrode.Reflecting layer 121a is used to be totally reflected the light of the transmitting of organic luminous layer 140 of aftermentioned formation.
Dielectric layer 122 is formed on substrate 110 and covers reflective metal layer 121, and dielectric layer 122 is for example by organic insulation material
Material is made.
First electrode 123 is formed on dielectric layer 122.First electrode 123 is located at the top of reflective metal layer 121.First
Electrode 123 is, for example, the anode of OLED light-emitting components.First electrode 123 uses inorganic material or organic conductive polymer.It is inorganic
Material is generally the work contents such as metal oxide or gold, copper, silver such as tin indium oxide (ITO), zinc oxide (ZnO), indium zinc oxide (IZO)
Number metal higher, preferably ITO;Organic conductive polymer be preferably polythiophene/polyvinylbenzenesulfonic acid sodium (PEDOT/PSS),
One kind in polyaniline (PANI).
Pixel confining layers 130 are used to be spaced apart the organic luminous layer 140 of aftermentioned formation and be sealed in first electrode 123
And second electrode 162 between.Pixel confining layers 130 are for example by the positivity such as polyimides photoresist by photoetching or printing system
Into.Pixel confining layers 130 have opening 131, and pixel confining layers 130 cover the edge part of each first electrode 123, often
Expose from opening 131 center section of individual first electrode 123.
Organic luminous layer 140 is formed in the opening 131 of pixel confining layers 130 and covers the part exposed from opening 131
First electrode 123.Organic luminous layer 140 generally comprises hole injection layer, hole transmission layer, luminescent layer, hole blocking layer, electronics
At least one of which or sandwich construction in transport layer, electron injecting layer stack to be formed.The structure of organic luminous layer 140 is this area skill
Technology known to art personnel, will not be repeated here.
Isolation supporting construction 150 is formed in pixel confining layers 130.In the present embodiment, isolation supporting construction 150 is that have
The structure of inverted trapezoidal cross section wide at the top and narrow at the bottom, isolation supporting construction 150 is big away from the surface area of the side of pixel confining layers 130
In the surface area near the side of pixel confining layers 130.Isolation supporting construction 150 is for example made up of negativity photoresist.
The second electrode lay 160 is formed on substrate 110 and covers pixel confining layers 130, organic luminous layer 140 and isolation are propped up
Support structure 150, the second electrode lay 160 is isolated the step formed between supporting construction 150 and pixel confining layers 130 and is separated into phase
Non-touching second electrode 162 and second touch control electrode 164, that is, isolating the side of supporting construction 150 has part from the second electricity
Expose between pole 162 and second touch control electrode 164.Second electrode 162 is located at the pixel limit for not being isolated the covering of supporting construction 150
(i.e. second electrode 162 covers organic luminous layer 140 and is not isolated support knot for the top of given layer 130 and organic luminous layer 140
The part of pixel confining layers 130 of the covering of structure 150), second touch control electrode 164 is located at the top (i.e. second of isolation supporting construction 150
Touch control electrode 164 covers isolation supporting construction 150).The second electrode lay 160 is typically using work(such as lithium, magnesium, calcium, strontium, aluminium, indiums
The relatively low metal of function or they with copper, the alloy of gold, silver, or the electrode layer that metal is alternatively formed with metal fluoride.Second
Electrode 162 is, for example, the negative electrode of light-emitting component, and second touch control electrode 164 is, for example, the sensing electrode in touch sensor.
Protective mulch 170 is formed on substrate 110 and covers the second electrode lay 160 and reveal from the second electrode lay 160
The isolation supporting construction 150 for going out.Protective mulch 170 is, for example, by shapes such as silica, silicon nitride, silicon oxynitride or silicon oxynitrides
Into single or multiple lift structure, protective mulch 170 be used for intercept water, oxygen and to organic luminous layer 140 transmitting light
It is totally reflected etc..
Fig. 2 a to Fig. 2 f are the Making programme schematic diagrames of the OLED touch-control display panels of the utility model first embodiment,
The preparation method of OLED touch-control display panels comprises the following steps:
Step S11:As shown in Figure 2 a, there is provided substrate 110, the metallic reflection of first electrode layer 120 is formed on substrate 110
Layer 121.Specifically, the methods such as vacuum sputtering or vapour deposition method are first passed through on substrate 110 and deposits one layer of leading with high reflectance
Material layer, then is etched patterning to the conductive material layer to form the gold of first electrode layer 120 by photoetching process
Category reflecting layer 121.Metallic reflector 121 includes spaced first touch control electrode 121b and reflecting layer 121a.
Step S12:As shown in Figure 2 b, it is coated with substrate 110 or deposits one dielectric layer 122 and covers metallic reflector
121, first electrode 123 is then formed on dielectric layer 122.Specifically, after dielectric layer 122 is formed, pass through on dielectric layer 122
Vacuum sputtering or vapour deposition method deposition layer of conductive material layer, are then etched pattern by photoetching process to the conductive material layer
Change to form first electrode 123, wherein the first electrode 123 for being formed is located at the top of reflecting layer 121a.
Step S13:As shown in Figure 2 c, pixel confining layers 130 are formed.Specifically, it is coated with first electrode layer 120 or heavy
One layer of photoresist layer of product, pixel confining layers 130 are formed by exposure imaging, and the pixel confining layers 130 of formation have opening
131, pixel confining layers 130 cover the edge part of each first electrode 123, the center section of each first electrode 123
Expose from opening 131.
Step S14:As shown in Figure 2 d, organic luminous layer 140 is formed.Specifically, by evaporation process formed have it is red,
Green, blue three-color organic luminous layer 140, it is corresponding that the organic luminous layer 140 of each color is formed in pixel confining layers 130
It is open in 131 and covers the first electrode 123 of the part exposed from the opening 131.
Step S15:As shown in Figure 2 e, in pixel confining layers 130 formed isolation supporting construction 150, specifically, coating or
One layer of negativity photoresist layer of deposition, isolation supporting construction 150 is formed by exposure imaging in pixel confining layers 130, due to
The characteristic of negativity photoresist, the isolation supporting construction 150 for being formed has the structure of inverted trapezoidal cross section wide at the top and narrow at the bottom.
Step S16:As shown in figure 2f, the second electrode lay 160 is formed.Specifically, one is deposited by methods such as magnetron sputterings
Layer has conductive material layer to form the second electrode lay 160, and the second electrode lay 160 of formation is isolated supporting construction 150 and picture
The step formed between plain confining layers 130 is separated into mutually non-touching second electrode 162 and second touch control electrode 164, wherein,
Second electrode 162 is located at the top of pixel confining layers 130 and organic luminous layer 140, and second touch control electrode 164 is located at isolation and supports
The top of structure 150.One layer of protective mulch 170 (as shown in Figure 1) is coated with or deposits on the second electrode lay 160 afterwards.
Fig. 3 is the cross-sectional view of the OLED touch-control display panels of the utility model second embodiment, such as Fig. 3 institutes
Show, the OLED touch-control display panels 200 of second embodiment are roughly the same with the OLED touch-control display panels 100 of first embodiment,
Difference is that the first electrode layer 220 of the OLED touch-control display panels 200 of second embodiment is sandwich construction, the first electricity
Pole layer 220 is for example made up of materials such as the trilaminate material of tin indium oxide-silver-tin indium oxide, silver or aluminium so that first electrode layer
220 have conductive and reflecting properties simultaneously.First electrode layer 220 includes the touch-control of spaced first electrode 222 and first electricity
Pole 224.
Specifically, OLED touch-control display panels 200 include substrate 210, first electrode layer 220, pixel confining layers 230, have
Machine luminescent layer 240, isolation supporting construction 250, the second electrode lay 260 and protective mulch 270;The shape of the first electrode layer 220
Into on the substrate 210, the first electrode layer 220 includes the touch control electrode of spaced first electrode 222 and first
224;The pixel confining layers 230 are formed on the substrate 210 and have opening 231, and the pixel confining layers 230 cover institute
The edge part of first electrode 222 is stated, the center section of the first electrode 222 is exposed from the opening 231;It is described to have
Machine luminescent layer 240 insert in the opening 231 of the pixel confining layers 230 and cover expose from the opening 231 described first
Electrode 222;The isolation supporting construction 250 is formed in the pixel confining layers 230, and the second electrode lay 260 is formed in
On the substrate 210 and cover the pixel confining layers 230, it is described isolation supporting construction 250 and the organic luminous layer 240;
The second electrode lay 260 is separated into by the step formed between the isolation supporting construction 250 and the pixel confining layers 230
Mutually non-touching second electrode 262 and second touch control electrode 264, the second touch control electrode 264 are located at the isolation support
In structure 250 and cover it is described isolation supporting construction 250;The protective mulch 270 is formed on the substrate 210 and covers
The second electrode lay 260.
The step of OLED 200 preparation methods of touch-control display panel of second embodiment, substantially refers to first embodiment
The preparation method of OLED touch-control display panels 100, OLED touch-control display panels 200 and the first embodiment of second embodiment
The difference of the preparation method of OLED touch-control display panels 100 is:When the first pole layer 220 is formed, by vacuum sputtering
Or vapour deposition method deposits multilayer and (is such as followed successively by three layers of material of tin indium oxide-silver-tin indium oxide by different materials over the substrate 210
The bed of material) conductive material layer is formed, patterning is then etched to the conductive material layer by photoetching process is set with forming interval
The touch control electrode 224 of first electrode 222 and first put.Pixel confining layers 230, organic luminous layer 240, isolation support are formed afterwards
The method of structure 250, the second electrode lay 260 and protective mulch 270 refers to first embodiment, will not be repeated here.
The utility model further relates to a kind of touch control display apparatus, and it includes above-mentioned OLED touch-control display panels.
The OLED light-emitting components of OLED touch-control display panels of the present utility model are by the first electrode in first electrode layer,
Second electrode in two electrode layers and the organic luminous layer between first electrode and second electrode are formed, light-emitting component
Be formed around the pixel confining layers for organic luminous layer being sealed between first electrode and second electrode.OLED touch-controls show
The touch sensor of panel is formed by the second touch control electrode in the first touch control electrode and the second electrode lay in first electrode layer.
OLED touch-control display panels of the present utility model first touch control electrode of graphical generation when first electrode is made, leads to
Cross and isolation supporting construction is made in pixel confining layers, generation simultaneously discontiguous with second electrode the when second electrode is deposited
Two touch control electrodes, so as to form the driving electrodes and sensing electricity of touch sensor in the case where substantially existing process is not increased
Pole, can be effectively reduced cost of manufacture.
Further, the driving electrodes and sensing electrode of touch sensor are produced on the anode and the moon of OLED display elements
The side of pole, it is to avoid the problem that signal is interfered.
The above, is only preferred embodiment of the present utility model, not makees any formal to the utility model
Limitation, although the utility model is disclosed above with preferred embodiment, but is not limited to the utility model, any ripe
Professional and technical personnel is known, is not being departed from the range of technical solutions of the utility model, when in the technology using the disclosure above
Appearance is made a little change or is modified to the Equivalent embodiments of equivalent variations, as long as being without departing from technical solutions of the utility model
Hold, any simple modification, equivalent variations and the modification made to above example according to technical spirit of the present utility model, still
Belong in the range of technical solutions of the utility model.
Claims (8)
1. a kind of OLED touch-control display panels, it is characterised in that including substrate (110,210), first electrode layer (120,220),
Pixel confining layers (130,230), organic luminous layer (140,240), isolation supporting construction (150,250), the second electrode lay (160,
260) with protective mulch (170,270);The first electrode layer (120,220) is formed on the substrate (110,210), institute
Stating first electrode layer (120,220) includes spaced first electrode (123,222) and the first touch control electrode (121b, 224);
The pixel confining layers (130,230) are formed on the substrate (110,210) and with opening (131,231), the pixel
Confining layers (130,230) cover first electrode (123,222) the edge part, the first electrode (123,222)
Expose from the opening (131,231) center section;The organic luminous layer (140,240) inserts the pixel confining layers
In the opening (131,231) of (130,230) and covering expose from the opening (131,231) the first electrode (123,
222) center section;Isolation supporting construction (150,250) is formed in the pixel confining layers (130,230), described
The second electrode lay (160,260) is formed on the substrate (110,210) and covers the pixel confining layers (130,230), institute
State isolation supporting construction (150,250) and the organic luminous layer (140,240);The second electrode lay (160,260) is by institute
The step formed between isolation supporting construction (150,250) and the pixel confining layers (130,230) is stated to be separated into and do not connect mutually
Tactile second electrode (162,262) and second touch control electrode (164,264), the second touch control electrode (164,264) is positioned at institute
State in isolation supporting construction (150,250) and cover isolation supporting construction (150,250);The protective mulch (170,
270) it is formed on the substrate (110,210) and covers the second electrode lay (160,260).
2. OLED touch-control display panels according to claim 1, it is characterised in that the first electrode layer (120) is folded
Rotating fields, including reflective metal layer (121), dielectric layer (122) and the first electrode (123);The reflective metal layer (121)
It is arranged on the substrate (110), the reflective metal layer (121) includes spaced reflecting layer (121a) and described first
Touch control electrode (121b);The dielectric layer (122) is arranged on the substrate (110) and covers the reflective metal layer (121),
The first electrode (123) is arranged on the dielectric layer (122), and the first electrode (123) is positioned at the reflecting layer
The surface of (121a).
3. OLED touch-control display panels according to claim 1, it is characterised in that the first electrode layer (220) is many
Rotating fields, including the spaced first electrode (222) and first touch control electrode (224).
4. OLED touch-control display panels according to claim 1, it is characterised in that the isolation supporting construction (150,
250) it is the structure with inverted trapezoidal cross section wide at the top and narrow at the bottom.
5. OLED touch-control display panels according to claim 1, it is characterised in that the isolation supporting construction (150,
250) material is negativity photoresist.
6. OLED touch-control display panels according to claim 1, it is characterised in that the first electrode (123,222) is
The anode of OLED light-emitting components, the second electrode (162,262) is the negative electrode of OLED light-emitting components.
7. OLED touch-control display panels according to claim 1, it is characterised in that first touch control electrode (121b,
224) it is the driving electrodes in touch sensor, the second touch control electrode (164,264) is the sensing electricity in touch sensor
Pole.
8. a kind of touch control display apparatus, it is characterised in that shown including the OLED touch-controls as described in any one of claim 1 to 7
Panel.
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