CN106484162A - The embedded touch display device of tool Anneta module - Google Patents
The embedded touch display device of tool Anneta module Download PDFInfo
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- CN106484162A CN106484162A CN201510541110.3A CN201510541110A CN106484162A CN 106484162 A CN106484162 A CN 106484162A CN 201510541110 A CN201510541110 A CN 201510541110A CN 106484162 A CN106484162 A CN 106484162A
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- polarizer
- anneta module
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- module
- display device
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Abstract
This case, with regard to a kind of embedded touch display device of tool Anneta module, comprises display module, Polarizer, metal grill circuit, multiple metal lead wire and Anneta module.Polarizer is arranged at upper surface or the lower surface of display module.Metal grill circuit is arranged at least one surface or the inside of Polarizer, for forming visual Touch Zone.Multiple metal lead wires are arranged at least one surface or the inside of Polarizer, and are laid in the periphery of visual Touch Zone and are used for forming perimeter circuit area, and are electrically connected with metal grill circuit.Anneta module is arranged at least one surface or the inside of Polarizer, and is located at perimeter circuit area and is isolated with multiple metal lead wires.Metal grill circuit and Anneta module are all arranged at least one surface or the inside of Polarizer, so that touch-control sensing circuit is had preferably and regard effect and relatively low-resistance value, touch-control response speed can be lifted, it is applied to flexible display, do not result in the puzzlement of signal interference and time division multiplexing moreover it is possible to reduce the thickness of display device.
Description
Technical field
This case with regard to a kind of touch control display apparatus, particularly to a kind of embedded touch of tool Anneta module
Display device.
Background technology
With the progress of Information & Communication Technology, have touch controllable function electronic installation such as mobile phone,
Panel computer, portable computer have become indispensable outfit in people's daily life.In general,
The electronic installation of tool touch controllable function need to include touch control display apparatus, and wherein touch control display apparatus include glass
Cover plate, touch-control module and display module.Touch-control module is arranged under glass cover-plate, and touch-control module
Directly carry out upper and lower overlapping with display module, because touch-control module is transparent panel, therefore image can
Shown with penetrating the touch-control module being superimposed on, then by touch-control module as the medium inputting or boundary
Face.However, electronic installation is increasingly towards frivolous and high density trend development, traditional touch-control shows
Showing device must increase the weight of a touch-control module so that the weight of touch control display apparatus significantly increases
Plus, do not meet current market for light, thin, short, the little requirement of display, and directly overlap and touch
Control module will increase thickness, thus reduce the penetrance of light, increase reflectance, colour cast and mist degree,
The quality of screen display is made to reduce.Additionally, traditional touch-control module and its set-up mode will increase work
Skill step and material cost, and the touch-control sensing effect of contact panel and the vision of display module can be affected
Effect.
On market today, touch-control Display Technique can simply divide into external hanging type according to the set location of touch-control module
Touch technology and embedded touch technology, wherein embedded touch technology has integral thickness thinning, work
Skill simplifies, and can maintain the advantages of original colour generation of display and brightness, and therefore embedded touch technology is satisfied
Become the emphasis of research and development.But the touch control electrode that current embedded touch technology is adopted is with tin indium oxide
Based on the transparency electrode of (hereinafter referred to as ITO), the wherein sheet resistance of ITO is higher, and touch-control reaction is relatively slow,
Technique is more complicated, and is unsuitable for large scale and flexible display application.Additionally, traditional embedded touch skill
The induction electrode layer of art is closer to the driver circuit of display module and is readily incorporated more noises.Furthermore,
It is embedded to be formed that traditional embedded touch technology need to increase multiple working procedure in the processing step of display module
Touch-control structure, this will reduce display quantum of output, elongates the production cycle, so that overall production cost is increased
Plus, and it is difficult self-defined, it is difficult to increase surcharge, and reliability and Yield lmproved cannot be made.
In addition, regression technique itself:First, the importing estimation of traditional embedded touch technology can allow panel factory
Bear before volume production 3% to 10% not wait yield loss, also therefore will result in predictable technique and
Material cost is lost, so Yield lmproved certainly will be vital task;Furthermore, for embedded touch skill
Art content highest In-cell TDM, touch-control and display layer other height shared line layout, once panel
Resolution is promoted to WQHD/UHD from existing HD/FHD, and the challenge making yield is not said, as
Element aperture opening ratio (Aperture Ratio) and charge rate (Charging Ratio) between balance (Trade-off), show
Show driving and the mechanism such as the time-division processing (Timing Control) of touch control detection, and the electromagnetism of panel itself
Field noise jamming etc., is all that a lot of has the outpost of the tax office to be solved.Finally embedded touch control panel is tactile
Control layer is not highly dependent on the change (capacitance variations) of electromagnetic field to detect touch event, when removing glass plate etc.
After structure simplifies, allow emission electrode (Tx) and induction electrode (Rx) be subject to extraneous static and destroy and lose
Touch controllable function, is to be solved with practices such as Antistatic polaroid or conductive silver glues so that industry is many, future is with product
Product, under the evolution demand of large scale, Rimless, high parsing etc., also need to propose other optimization designs
To increase production reliability.Therefore, it is necessary in fact to develop a kind of embedded metal grid touch-control display dress
Put, to solve prior art problem encountered.
On the other hand, with the progress of Information & Communication Technology, the electronics dress of combining wireless communication function
Put and also become indispensable outfit in people's daily life.In general, tool radio communication function
Electronic installation need to include Anneta module and wireless signal processing module, wherein Anneta module framework is
Wireless signal transmit-receive cell, and be generally arranged in the way of additional on the circuit board of electronic installation, shell
The inner surface of body, the inner surface of back-cover, or the bottom side being arranged at display floater.However, electronic installation
It is increasingly towards frivolous and high density trend development, traditional Anneta module and its set-up mode are to keep away
Exempt from signal interference and need to retain empty regions, therefore will occupy the space within electronic installation, impact is internal
Configuration, makes the thickness of electronic installation cannot reduce further.Touching with combining wireless communication function
As a example control display device, traditional Anneta module and set-up mode can increase when importing touch control display apparatus
Processing step and material cost, and easily cause the interference of signal, the wireless signal of impact Anneta module
Transmitting-receiving effect and the touch-control sensing effect of touch-control module.
Additionally, the feeder line that Anneta module is comprised is usually used external column type cable, wherein this circle
Column type cable includes core, the insulating barrier being coated on outside core, the metallic shield being coated on outside insulating barrier
Layer, and it is coated on the protective layer outside metal screen layer.Though however, column type cable can avoid feeder line
Signal interference, but its thickness is not thicker pliable, and must make antenna radiator by other processing step
It is connected with feeder line, be therefore unfavorable for integration and the development of Anneta module and touch technology.
Content of the invention
There is above-mentioned technical problem because prior art carries out integration for Anneta module and touch technology,
For reaching above-mentioned purpose, this case provides a kind of embedded touch display device of tool Anneta module, comprises to show
Show module, Polarizer, metal grill circuit, multiple metal lead wire and Anneta module.Polarizer sets
It is placed in upper surface or the lower surface of display module.Metal grill circuit is arranged at least one table of Polarizer
Face or inside, for forming visual Touch Zone.Multiple metal lead wires are arranged at least one table of Polarizer
Face or inside, and be laid in the periphery of visual Touch Zone and be used for forming perimeter circuit area, and and wire netting
Ruling road is electrically connected with.Anneta module is arranged at least one surface or the inside of Polarizer, and is located at week
Side line areas are simultaneously isolated with multiple metal lead wires.
For reaching above-mentioned purpose, this case separately provides a kind of embedded touch display device of tool Anneta module,
Comprise display module, upper Polarizer, lower Polarizer, metal grill circuit, multiple metal lead wire and
Anneta module.Upper Polarizer is arranged at the upper surface of display module.Lower Polarizer is arranged at display module
Lower surface.Metal grill circuit is arranged at least one surface or the inside of Polarizer or lower Polarizer,
For forming visual Touch Zone.Multiple metal lead wires and metal grill circuit are arranged at same Polarizer,
And be laid in the periphery of visual Touch Zone and be used for forming perimeter circuit area, and electrical with metal grill circuit
Connect.Anneta module and metal grill circuit are arranged at same Polarizer, and are arranged at perimeter circuit area,
Wherein Anneta module and multiple metal lead wires are isolated.
The purpose of this case is to provide a kind of embedded touch display device of tool Anneta module, and it is by gold
Belong to grid circuit and Anneta module is all arranged at least one surface or the inside of Polarizer, thereby make touch-control
Induction line has preferably to regard imitates with compared with low-resistance value, can lift touch-control response speed, be suitable to flexible aobvious
Show application, do not result in signal interference and the puzzlement of time division multiplexing, and be not required to separately add shielding element,
And make the structure of touch control display apparatus lightening, reduce thickness, and can achieve touch-control and wireless signal
The function of transmitting-receiving.
The another object of this case is to provide a kind of embedded touch display device of tool Anneta module, its
Form metal grid lines inside at least one surface of internal upper Polarizer or lower Polarizer or its simultaneously
Road and Anneta module, thereby make touch control display apparatus have splendid regarding effect, extremely low reflectance, no-reflection
Colour cast has high touch-control resolution, tool high integration yield, tool antistatic effect concurrently, and does not affect to be applied to
The visual effect of screen of UHD, QWHD of high-res.
The another object of this case is to provide a kind of embedded touch display device of tool Anneta module, its
Metal grill circuit and Anneta module one-shot forming are arranged at least one surface or interior of Polarizer
Portion, thereby can Simplified flowsheet, it is possible to decrease the loss of technique and material cost, and can improve yield, product
Product reliability and self-defined flexibility ratio, and signal can be avoided to disturb, the straight-through yield of lifting.
Brief description
Figure 1A is the embedded touch display device of the tool Anneta module of this case first preferred embodiment
Structural representation.
Figure 1B is the embedded touch display device of the tool Anneta module shown in Figure 1A in AA section
Sectional view.
Fig. 2A is the embedded touch display device of the tool Anneta module of this case second preferred embodiment
Structural representation.
Fig. 2 B is the embedded touch display device of the tool Anneta module shown in Fig. 2A in BB section
Sectional view.
Fig. 3 is the knot of the embedded touch display device of tool Anneta module of this case the 3rd preferred embodiment
Structure schematic diagram.
Fig. 4 is the knot of the embedded touch display device of tool Anneta module of this case the 4th preferred embodiment
Structure schematic diagram.
Fig. 5 A is the metal grill circuit of this case preferred embodiment and Anneta module connects up relative to Polarizer
A demonstration example structural representation.
Fig. 5 B is the metal grill circuit of this case preferred embodiment and Anneta module connects up relative to Polarizer
Another demonstration example structural representation.
Fig. 5 C is the metal grill circuit of this case preferred embodiment and Anneta module connects up relative to Polarizer
Another demonstration example structural representation.
Fig. 5 D is the metal grill circuit of this case preferred embodiment and Anneta module connects up relative to Polarizer
Another demonstration example structural representation.
Fig. 5 E is the metal grill circuit of this case preferred embodiment and Anneta module connects up relative to Polarizer
The structural representation of another demonstration example.
Fig. 5 F is the metal grill circuit of this case preferred embodiment and Anneta module connects up relative to Polarizer
The structural representation of another demonstration example.
Fig. 6 is that a demonstrative structure of the metal micro-line of metal grill circuit of this case preferred embodiment shows
It is intended to.
Fig. 7 be the Anneta module of touch control display apparatus and the circuit board of this case connect what element phase connected
The structural representation of one demonstration example.
Fig. 8 is the knot of the embedded touch display device of tool Anneta module of this case the 5th preferred embodiment
Structure schematic diagram.
Fig. 9 A is the embedded touch display device of the tool Anneta module shown in Fig. 8 in the one of CC section
The sectional view of demonstration example.
Fig. 9 B is that the embedded touch display device of the tool Anneta module shown in Fig. 8 is another in CC section
The sectional view of one demonstration example.
Fig. 9 C is that the embedded touch display device of the tool Anneta module shown in Fig. 8 is another in CC section
The sectional view of one demonstration example.
Figure 10 display combines the feeder line of column type cable using traditional external-added antenna and uses this case sky
The ultra-thin feeder line of wire module carries out the comparison diagram of signaling reflex loss test.
Description of reference numerals:
1:Embedded touch display device
11:Upper Polarizer
111:Visual Touch Zone
112:Perimeter circuit area
114:Upper light transmission film
115:Light polarizing film
116:Lower light transmission film
12:Display module
121:Color filter element
122:Liquid crystal layer
123:Transistor array layer
13:Metal grill circuit
131:Induction electrode (Rx)
132:Emission electrode (Tx)
133、135、136、137:Light transmission film
14:Metal lead wire
15:Anneta module
151:Antenna radiator
151a:Feed point
151b:Earth point
152:Ultra-thin feeder line
153:First conductive protecting layer
154:Second conductive protecting layer
155:Metallic shield element
1551:First shielding metal level
1552:Secondary shielding metal level
1553:3rd shielding metal level
1554:4th shielding metal level
16:Lower Polarizer
17:Glass cover-plate
18:Backlight module
20:Winding displacement connecting portion
21:Flexible bus bar
3:Circuit board
31:First connects element
32:Second connects element
171:Shielding pattern layer
191:First protective layer
192:Second protective layer
193:Protective layer
194、195、196、197、198:Optical cement
W1:First width
W2:Second width
W3:3rd width
W4:4th width
W5:5th width
W6:6th width
A1、A2、P1、P2、T1、T2:Thickness
C1:First thickness
C2:Second thickness
C3:3rd thickness
AA、BB、CC:Section
Specific embodiment
Some exemplary embodiments embodying this pattern characteristics with advantage will describe in the explanation of back segment in detail.
It should be understood that this case can have various changes in different aspects, it is all without departing from this case
Scope, and therein explanation and accompanying drawing be used as being described in itself, not for limit
This case processed.
Figure 1A is the embedded touch display device of the tool Anneta module of this case first preferred embodiment
Structural representation, and the embedded touch display device that Figure 1B is the tool Anneta module shown in Figure 1A
Sectional view in AA section.As illustrated by figures 1 a and 1b, the embedded of tool Anneta module of this case touches
Control display device 1 (hereinafter referred to as touch control display apparatus) comprises Polarizer 11, display module 12, metal
Grid circuit 13, multiple metal lead wire 14 and Anneta module 15.Upper Polarizer 11 is arranged at display
The upper surface of module 12.Metal grill circuit 13 is arranged at least one surface or interior of Polarizer 11
Portion, for forming visual Touch Zone 111.Multiple metal lead wires 14 are arranged at Polarizer 11 at least
One surface or inside, and be laid in the periphery of visual Touch Zone 111 and be used for forming perimeter circuit area 112,
And be electrically connected with metal grill circuit 13.Anneta module 15 is arranged at least the one of Polarizer 11
Surface or inside, and it is located at perimeter circuit area 112, and be isolated with multiple metal lead wires 14.Yu Ben
In embodiment, Anneta module 15 includes antenna radiator 151, wherein antenna radiator 151 framework in
Carry out the wireless signal transmitting-receiving of special frequency channel, such as but not limited to bluetooth (Bluetooth), Wireless Fidelity
(WiFi) or the frequency range such as global positioning system (GPS) wireless signal transmitting-receiving.In the present embodiment, antenna
Module 15 is isolated with multiple metal lead wires 14 and refers to be not connected in structure each other.
In the present embodiment, display module 12 can be LCD MODULE, and by color filter element 121,
Liquid crystal layer 122 and transistor array layer 123 are sequentially laminated composition.Color filter element 121 is used for
Filter unwanted color of light composition, liquid crystal layer 122 is used for show image, transistor array layer 123
The switching running being turned on and being ended, to control the imaging of liquid crystal layer 122.Certainly, display module
12 stepped construction is not limited, and also can change according to practical application and adjustment.
In the present embodiment, upper Polarizer 11 may include light transmission film 114, light polarizing film 115 and under
Light transmission film 116, and sequentially stacking composition.Upper light transmission film 114 can be Triafol T (TAC)
Film, light polarizing film 115 can be polyvinyl alcohol (PVA) film containing iodine, and lower light transmission film 116 can be
Triafol T (TAC) film.Metal grill circuit 13, multiple metal lead wire 14 and Anneta module
15 can be utilized such as but not limited to light shield to develop, and simultaneously or one-shot forming ground forms and is arranged at etch process
The lower surface of lower light transmission film 116, in other words, metal grill circuit 13, multiple metal lead wire 14 and
Anneta module 15 is located between upper Polarizer 11 and the color filter element 121 of display module 12.Should
Polyvinyl alcohol film containing iodine provides a light polarizing film function, two three cellulose acetate membranes then provide protection and
Support the function of light polarizing film 115.Certainly above-mentioned material is had the material of same functionality to replace,
Replace as three cellulose acetate membrane can onlap flexion (SRF) film, have no effect on this polyvinyl alcohol containing iodine
The polarization matrix of film, does not also affect the performance of this case embedded touch display device basic effect.Yu Yi
In a little embodiments, upper light transmission film 114 and lower light transmission film 116 also can be respectively selected from poly- terephthaldehyde
Sour second diester (Polyethylene terephthalate, PET), PolyEtherImide (Polyetherimide,
PEI), Polyphenylene Sulfone (Polyphenylensulfone, PPSU), polyimides (Polyimide, PI),
PEN (Polyethylene naphthalate, PEN), cyclenes hydrocarbon type copolymer
(Cyclic olefin copolymer, COC), polymeric liquid crystal copolymer (Liquid Crystal Polymer,
LCP), the combination of one of thin glass or previous materials.Certainly, upper light transmission film 114, light polarizing film
115 and lower light transmission film 116 also can be had by surface treatment mode respectively anti-glare (Anti-glare,
AG), antireflection (Anti-reflection, AR) or low reflection (Low-reflection, LR) function.
In the present embodiment, the touch control display apparatus 1 of this case also include lower Polarizer 16, are arranged at aobvious
Show the lower surface of module 12, it has structure similar in appearance to upper Polarizer 11, material and function, in
This repeats no more.Touch control display apparatus 1 may also include glass cover-plate 17, is arranged at Polarizer 11
Top, for protecting touch control display apparatus 1.Touch control display apparatus 1 also include backlight module 18, if
It is placed in the lower surface of lower Polarizer 16, in order to provide light source needed for display module 12.
Fig. 2A is the embedded touch display device of the tool Anneta module of this case second preferred embodiment
Structural representation, and the embedded touch display device that Fig. 2 B is the tool Anneta module shown in Fig. 2A
Sectional view in BB section.Shown in the touch control display apparatus 1 of the present embodiment and Figure 1A and Figure 1B
Touch control display apparatus 1 are similar, and identical element numbers represent identical element, structure and function,
Repeat no more in this.Different from the touch control display apparatus 1 shown in Figure 1A and Figure 1B, the present embodiment
The metal grill circuit 13 of touch control display apparatus 1, multiple metal lead wire 14 and Anneta module 15 can
Using such as but not limited to light shield development etch process simultaneously or one-shot forming formed and be arranged at upper partially
The upper surface of the upper light transmission film 114 of tabula rasa 11, in other words, metal grill circuit 13, multiple metal
Lead 14 and Anneta module 15 are located between upper Polarizer 11 and glass cover-plate 17.Alternatively,
The metal grill circuit 13 of touch control display apparatus 1, multiple metal lead wire 14 and Anneta module 15 can
Using such as but not limited to light shield development etch process simultaneously or one-shot forming formed and be arranged at polarisation
The upper surface of film 115, or form simultaneously and be arranged at the lower surface of light polarizing film 115.
In some embodiments, metal grill circuit 13, multiple metal lead wire 14 and Anneta module
15 also may be selected to be arranged at least one surface of lower Polarizer 16 or inside.Fig. 3 is that this case the 3rd is preferable
The structural representation of the embedded touch display device of tool Anneta module of embodiment.The present embodiment touch
Control display device 1 is similar to the touch control display apparatus 1 shown in Figure 1A and Figure 1B, and identical element
Label represents identical element, structure and function, repeats no more in this.Different from Figure 1A and Figure 1B
Shown touch control display apparatus 1, the metal grill circuit 13 of the touch control display apparatus 1 of the present embodiment,
Multiple metal lead wires 14 and Anneta module 15 can be utilized such as but not limited to light shield development etch process
Simultaneously or one-shot forming ground forms and be arranged at the upper surface of lower Polarizer 16, in other words, metal grill
Circuit 13, multiple metal lead wire 14 and Anneta module 15 are located at lower Polarizer 16 and display module 12
Transistor array layer 123 between.Wherein, the stepped construction of lower Polarizer 16 and previous embodiment
Upper Polarizer 11 is similar, and metal grill circuit 13, multiple metal lead wire 14 and Anneta module 15
Be arranged at the mode of lower Polarizer 16 and structure also with the metal grill circuit 13 of previous embodiment, multiple
The mode that metal lead wire 14 and Anneta module 15 are arranged at Polarizer 11 is similar to structure, in this
Repeat no more.
Fig. 4 is the knot of the embedded touch display device of tool Anneta module of this case the 4th preferred embodiment
Structure schematic diagram.The touch control display apparatus 1 of the present embodiment are similar to the touch control display apparatus 1 shown in Fig. 3,
And identical element numbers represent identical element, structure and function, repeat no more in this.It is different from
Touch control display apparatus 1 shown in Fig. 3, the metal grill circuit of the touch control display apparatus 1 of the present embodiment
13rd, multiple metal lead wires 14 and Anneta module 15 can be utilized such as but not limited to light shield development etching
Technique is simultaneously or one-shot forming ground forms and is arranged at the lower surface of lower Polarizer 16, in other words, metal
Grid circuit 13, multiple metal lead wire 14 and Anneta module 15 are located at lower Polarizer 16 and backlight module
Between 18.
Fig. 5 A is the metal grill circuit of this case preferred embodiment and Anneta module connects up relative to Polarizer
A demonstration example schematic diagram.In this embodiment, metal grill circuit 13 includes induction electrode
(Rx) 131 and emission electrode (Tx) 132, wherein induction electrode (Rx) 131 and emission electrode (Tx) 132
Mutually isolated.In the present embodiment, induction electrode (Rx) 131 is mutually isolated with emission electrode (Tx) 132
Refer to be not connected in structure each other or separated with insulating barrier phase each other.First, embodiment such as light shield
Development etch process and in upper Polarizer 11 lower surface simultaneously or one-shot forming form induction electrode
(Rx) 131 with the antenna radiator 151 of Anneta module 15.In other words, induction electrode (Rx) 131 and sky
The antenna radiator 151 of wire module 15 is formed directly into the lower light transmission film 116 of Polarizer 11
Lower surface.Then, a light transmission film 133 is provided, and depositing metal conductive layer on light transmission film 133
Afterwards, execution light shield development etch process is to form emission electrode (Tx) 132 on light transmission film 133.So
Afterwards, protective layer 193 is formed on emission electrode (Tx) 132.Finally, emission electrode (Tx) 132 will be loaded with
Light transmission film 133 be loaded with the upper Polarizer 11 that induction electrode (Rx) 131 is with Anneta module 15 and utilize
Optical cement 194 engages, you can constitute the Polarizer having Anneta module and embedded touch control as shown in Figure 5A
Structure, and be able in the assembling application that subsequently continues.Alternatively, the antenna radiator of Anneta module 15
151 also can with emission electrode (Tx) 132 simultaneously or one-shot forming be formed at the same of light transmission film 133
Surface.Protective layer 193 also can be and optical cement 194 phase same material.It should be noted that metal grill
The induction electrode (Rx) 131 of circuit 13 is also interchangeable with the position of emission electrode (Tx) 132, not with above-mentioned
Embodiment is limited.
Fig. 5 B is the metal grill circuit of this case preferred embodiment and Anneta module connects up relative to Polarizer
Another demonstration example schematic diagram.In the present embodiment, metal grill circuit 13 includes induction electrode
(Rx) 131 and emission electrode (Tx) 132, and by implement such as light shield develop etch process can in upper partially
The upper surface last time molding ground of tabula rasa 11 forms the antenna of induction electrode (Rx) 131 and Anneta module 15
Radiant body 151.In other words, the antenna radiator 151 of induction electrode (Rx) 131 and Anneta module 15
It is formed directly into the upper surface of the upper light transmission film 114 of Polarizer 11.Then, provide a printing opacity thin
After film 133, and depositing metal conductive layer on the light transmission film 133, execution light shield development etch process with
Emission electrode (Tx) 132 is formed on light transmission film 133.Then, formed on emission electrode (Tx) 132
Protective layer 193.Finally, the light transmission film 133 of emission electrode (Tx) 132 will be loaded with and be loaded with faradism
Pole (Rx) 131 is engaged using optical cement 194 with the upper Polarizer 11 of Anneta module 15, you can constitute such as
Tool Anneta module shown in Fig. 5 B and the polarized light plate structure of embedded touch control, and be able in the assembling that subsequently continues
Application.Alternatively, the antenna radiator 151 of Anneta module 15 also can be with emission electrode (Tx) 132
Simultaneously or one-shot forming be formed at the same surface of light transmission film 133.Protective layer 193 also can be with
Optical cement 194 phase same material.It should be noted that the induction electrode (Rx) 131 of metal grill circuit 13
Also interchangeable with the position of emission electrode (Tx) 132, it is not limited with above-described embodiment.
The metal grill circuit of Fig. 5 C this case preferred embodiment and Anneta module connect up relative to Polarizer
The schematic diagram of another demonstration example.In this embodiment, metal grill circuit 13 includes induction electrode
(Rx) 131 and emission electrode (Tx) 132, and embodiment such as light shield development etch process and in upper polarisation
The upper light transmission film 114 of plate 11 upper surface one-shot forming ground and directly form induction electrode (Rx) 131
With the antenna radiator 151 of Anneta module 15, it is then carried out another light shield development etch process with upper
The lower surface of the lower light transmission film 116 of Polarizer 11 forms emission electrode (Tx) 132.Wherein induction electrode
(Rx) 131 with the antenna radiator 151 of Anneta module 15 on can form the first protective layer 191;And in send out
Second protective layer 192 can be formed on radio pole (Tx) 132, you can constitute tool antenna as shown in Figure 5 C
Module and the polarized light plate structure of embedded touch control, with the assembling application that subsequently continues.Alternatively, antenna
The antenna radiator 151 of module 15 also can with emission electrode (Tx) 132 one-shot forming be formed at upper partially
The lower surface of the lower light transmission film 116 of tabula rasa 111.First protective layer 191 and the second protective layer 192
Can be phase same material, such as but not limited to optical cement.It should be noted that the sense of metal grill circuit 13
Answer electrode (Rx) 131 also interchangeable with the position of emission electrode (Tx) 132, be not limited with above-described embodiment.
In some embodiments, as shown in Figure 5 D, the induction electrode (Rx) 131 of metal grill circuit 13
Also can form and be arranged at the upper light transmission film 114 of upper Polarizer 11 respectively with emission electrode (Tx) 132
Upper surface and lower surface, the wherein antenna radiator 151 of induction electrode (Rx) 131 and Anneta module 15
On can form the first protective layer 191;And the second protective layer 192 can be formed on emission electrode (Tx) 132.
First protective layer 191 and the second protective layer 192 can be respectively optical cement, therefore pass through the second protective layer
192 can make light transmission film 114 engage with light polarizing film 115.In other embodiments, such as Fig. 5 E
Shown, induction electrode (Rx) 131 and the emission electrode (Tx) 132 of metal grill circuit 13 also can distinguish shape
Become and be arranged at the upper surface of light polarizing film 115 and the lower surface of Polarizer 11, in other words, antenna mould
The induction electrode (Rx) 131 of block 15 and metal grill circuit 13 and emission electrode (Tx) 132 are arranged at
The inside of upper Polarizer 11.On the antenna radiator 151 of induction electrode (Rx) 131 and Anneta module 15
The first protective layer 191 can be formed;And the second protective layer 192 can be formed on emission electrode (Tx) 132.
First protective layer 191 and the second protective layer 192 can be respectively optical cement, therefore pass through the first protective layer
191 can make light transmission film 114 engage with light polarizing film 115, and can be made down by the second protective layer 192
Light transmission film 116 is engaged with light polarizing film 115.In other embodiments, as illustrated in figure 5f, metal
The induction electrode (Rx) 131 of grid circuit 13 and emission electrode (Tx) 132 also can form respectively and be arranged at
The upper surface of lower light transmission film 116 of upper Polarizer 11 and lower surface, wherein induction electrode (Rx) 131
With the first protective layer 191 can be formed on the antenna radiator 151 of Anneta module 15;And in emission electrode
(Tx) the second protective layer 192 can be formed on 132.First protective layer 191 and the second protective layer can be respectively
Optical cement, therefore can make lower light transmission film 116 engage with light polarizing film 115 by the first protective layer 191.
It should be noted that the induction electrode (Rx) 131 of metal grill circuit 13 and the position of emission electrode (Tx) 132
Put also interchangeable, be not limited with above-described embodiment.
The tool Anneta module of previous embodiment gained and the polarized light plate structure of embedded touch control, can be in response to reality
Use demand and the structure dress that is introduced directly into touch control display apparatus 1 is overall, and be difficult to disturb, be more not required to again
Separately add shielding element.Additionally, special metal grill line construction less to affect light inclined in this
Tabula rasa penetrating.During practical application, the fine structure that can also be for aforementioned metal grid circuit is further
Optimize, such as control each layer rate of etch in light shield development etch process to tie with the electrode producing step-like surface
Light can be scattered by structure further, reduces by visibility.Or the metal micro-line in metal grill circuit
Surface covers one layer of melanism dope layer or adds roughening structure and colourity reconciliation levels at electrode, thereby with
Reducing metal reflective affects the application of Polarizer.What is more, the metal grill circuit of this case, Duo Gejin
Belong to lead and Anneta module is integrated in Polarizer, in advance compared to the glass of glass cover-plate and colorized optical filtering
Glass panel, the tool Anneta module of this case and the Polarizer of embedded touch control can also be regarded as a flexible type element and
Can be applicable to flexible display device, and the metal grill circuit of this case, multiple metal lead wire and antenna mould
Block also can realize boundless mount structure and three-dimensional covering plate structure application further by design.
In some embodiments, the material of the metal micro-line of metal grill circuit 13 be selected from copper, gold,
Silver, aluminum, tungsten, ferrum, nickel, chromium, titanium, molybdenum, indium, zinc, stannum, tantalum, vanadium, chromium, cobalt, manganese or
It at least appoints the two above composite being formed, such as copper ferro-titanium, Calmalloy, ambrose alloy
Alloy, nickel zinc alloy, nickel tantalum alloy, nickel tungsten, nichrome, nickel-copper-chromium alloy etc., and not
As limit.Wherein, metal micro-line width can be between 1 μ um to 20 μm, and between 1 μm to 5 μm
For preferable, more to be optimal between 1 μm to 3 μm.Metal micro-line thickness can between 0.1 μm to 20 μm,
And to be preferable between 0.1 μm to 5 μm.
In some embodiments, the induction electrode (Rx) that the metal micro-line of metal grill circuit 13 is constituted
It is separated arrangement with emission electrode (Tx), and be preferred with arc respectively.Fig. 6 is this case preferred embodiment
The metal micro-line of metal grill circuit a demonstrative structure schematic diagram.As shown in fig. 6, wire netting
The metal micro-line on ruling road 13 is preferred with arc, its radius of curvature to be preferred between 0.05mm to 5mm,
And favouring first axle (as X-axis line) and second axis (as Y-axis line), angle of inclination is between 30
Spend and be preferred to 60 degree, and the profile of multiple grid cell 138 is all different, can be effective by this design
Reduce or avoid interference with stricture of vagina (Moire).In some embodiments, under the design architecture of two-layer electrode,
The actual induction circuit conductive material gross area of lower electrode layers is more than the actual induction line of upper electrode layer
The road conductive material gross area, thereby can effectively lift touch-control sensitivity, resolution and precision.
Fig. 7 be the Anneta module of touch control display apparatus and the circuit board of this case connect what element phase connected
The structural representation of one demonstration example.As shown in Figure 1A, 1B and 7, the touch control display apparatus 1 of this case
Upper Polarizer 11 width relatively larger than display module 12, lower Polarizer 16 and backlight module 18
Each width.The antenna radiator 151 of Anneta module 15 also includes at least one feed point 151a and one
Earth point 151b.Circuit board 3 includes first and connects element 31 and second connecting element 32, wherein
First connect element 31 and second connect element 32 and circuit board 3 wireless signal process circuit and
Grounding parts connect.In some embodiments, first connects element 31 connects element 32 with second and can be
Metal thimble or elastic contact chip.When touch control display apparatus 1 are connected with group with circuit board 3, antenna mould
Feed point 151a of block 15 and earth point 151b connect element 31 and the respectively with the first of circuit board 3
Two connect element 32 contact and connect, and thereby make the Anneta module 15 can be with the wireless signal of circuit board 3
Process circuit and grounding parts connect.In some embodiments, feed point 151a of antenna radiator 151
With can be formed respectively on earth point 151b and the first conductive protecting layer 153 and the second conductive protection are set
Layer 154, and first connect element 31 and second and connect element 32 and can pass through the first conductive protecting layer respectively
153 and second conductive protecting layer 154 and contact with feed point 151a and earth point 151b and connect, mat
This can prevent antenna radiator 151 from being connected element 31 and second by first and connect element 32 (i.e. metal
Thimble or elastic contact chip) directly contact and cause scratch or abrasion, and then have influence on antenna efficiency.
In the present embodiment, the first conductive protecting layer 153 and the second conductive protecting layer 154 can for example but not
It is limited to vacuum moulding machine, plating, wire mark, transfer, bat printing, printing, dispensing, laminating or spraying etc. to apply
Work maneuver forms feed point 151a in antenna radiator 15 for the metallic conduction protective layer with earth point 151b's
Surface.Conductive protecting layer material composition can be such as, but not limited to hot (light) curing conductive material, conductive height
Molecule (PEDOT), conductive particle and pressure-sensing glue mixing material, carbonaceous conductive glue (carrying), aluminum conducting resinl (carrying),
Copper conductive adhesive (carrying), silver conductive adhesive (carrying) or zinc conducting resinl (carrying) etc..First conductive protecting layer 153 and
The area of two conductive protecting layers 154 is respectively interposed between 1 μm of 2 to 10cm2, and with 0.5mm2 extremely
10mm2 is preferable.First conductive protecting layer 153 is situated between respectively with the thickness of the second conductive protecting layer 154
Between 1 μm to 200 μm, and it is preferable with 8 μm to 50 μm.
The structure of the embedded touch display device of tool Anneta module of Fig. 8 this case the 5th preferred embodiment
Schematic diagram.Touch control display apparatus 1 and the touch control display apparatus 1 shown in Figure 1A and 1B of the present embodiment
Similar, and identical element numbers represent identical element, structure and function, repeat no more in this.
Different from the touch control display apparatus 1 shown in Figure 1A and 1B, the touch control display apparatus 1 of the present embodiment
Anneta module 15 includes antenna radiator 151, ultra-thin feeder line 152 and metallic shield element 155,
Wherein antenna radiator 151, ultra-thin feeder line 152 and metallic shield element 155 are respectively arranged at periphery
Line areas 112, and isolate with multiple metal lead wires 14 respectively.One end of ultra-thin feeder line 152 is connected to
Antenna radiator 151, and the other end of ultra-thin feeder line 152 is integrated in winding displacement connecting portion 20, thereby may be used
The feed point corresponding with circuit board electrical connection (not shown) using flexible bus bar 21.Metallic shield element 155
Isolate with ultra-thin feeder line 152, and be located on ultra-thin feeder line 152 and the circuit along ultra-thin feeder line 152 prolongs
Stretch setting, be finally integrated in winding displacement connecting portion 20 and connect to the earth terminal of flexible bus bar 21 (GND).
In the present embodiment, metallic shield element 155 and ultra-thin feeder line 152 are isolated finger each other in structure
It is not connected to.In the present embodiment, the antenna radiator of Anneta module 15 151 and ultra-thin feeder line 152
At least one is located at the same surface of upper Polarizer 11 (or lower Polarizer 16) with metal grill circuit position 13
Or it is internal.In another embodiment, the antenna radiator 151 of Anneta module 15, ultra-thin feeder line 152
And metallic shield element 155 and metal grill circuit 13 and multiple metal lead wire 14 are simultaneously or once
Molding ground forms and is arranged at same surface or the inside of Polarizer 11, also or simultaneously or one-shot forming
Ground forms and is arranged at same surface or the inside of lower Polarizer 16.
Fig. 9 A is the embedded touch display device of the tool Anneta module shown in Fig. 8 in the one of CC section
The sectional view of demonstration example.In this embodiment, as shown in Fig. 8 and 9A, first, embodiment such as light
Cover development etch process and in upper Polarizer 11 lower surface simultaneously or one-shot forming form metal grill
The induction electrode (Rx) 131 of circuit 13, the antenna radiator 151 of Anneta module 15, ultra-thin feeder line 152,
The secondary shielding metal level 1552 of metallic shield element 155 and the 3rd shielding metal level 1553, wherein sky
The antenna radiator 151 of wire module 15, ultra-thin feeder line 152, the second screen of metallic shield element 155
Cover metal level 1552 and the 3rd shielding metal level 1553 is located at perimeter circuit area 112, and ultra-thin feeder line
152 are located between secondary shielding metal level 1552 and the 3rd shielding metal level 1553.Then, implement
Another light shield development etch process with the upper surface of upper Polarizer 111 simultaneously or one-shot forming formed
The emission electrode (Tx) 132 of metal grill circuit 13 and the 4th shielding metal level 1554, the wherein the 4th
Shielding metal level 1554 is located at perimeter circuit area 112.Then, a light transmission film 136, its material are provided
Matter can be identical with the upper light transmission film 114 of Polarizer 11 and lower light transmission film 116, and in this printing opacity
On thin film 136 be such as, but not limited to vacuum moulding machine, plating, wire mark, transfer, bat printing, printing,
After the construction maneuver such as dispensing or spraying forms metal conducting layer, execution light shield development etch process is with saturating
First shielding metal level 1551 is formed on optical thin film 136.Afterwards, by light transmission film 136 and upper polarisation
Plate 11 is engaged using optical cement 195, and the wherein first shielding metal level 1551 is located at perimeter circuit area 112.
In the present embodiment, metallic shield element 155 includes the first shielding metal level 1551, secondary shielding gold
Belong to layer the 1552, the 3rd shielding metal level 1553 and shield metal level 1554 with the 4th, itself and aerial radiation
Body 151 and ultra-thin feeder line 152 mutually separate, and ring sets and coats ultra-thin feeder line 152, wherein metal screen
The circuit covering element 155 along ultra-thin feeder line 152 is extended, and is finally integrated in winding displacement connecting portion 20 simultaneously
Connect to the earth terminal of flexible bus bar 21 (GND), the signal of ultra-thin feeder line 152 thereby can be suppressed to disturb.
Glass cover-plate 17 includes a shielding pattern layer 171, and this shielding pattern layer 171 is pointed to perimeter circuit area
122, the antenna radiator 151 of Anneta module 15, ultra-thin feeder line 152, metallic shield element can be covered
155 with a plurality of metal lead wire 14 so as to not by depending on recognizing.Can profit between glass cover-plate 17 and Polarizer 11
Engaged with optical cement 196.It should be noted that the induction electrode (Rx) 131 of metal grill circuit 13
Also interchangeable with the position of emission electrode (Tx) 132, it is not limited with above-described embodiment.
Fig. 9 B is that the embedded touch display device of the tool Anneta module shown in Fig. 8 is another in CC section
The sectional view of one demonstration example.In this embodiment, as shown in Fig. 8 and Fig. 9 B, first, embodiment
As light shield develop etch process and in upper Polarizer 11 upper surface simultaneously or one-shot forming form metal
The emission electrode (Tx) 132 of grid circuit 13 and the 4th shielding metal level of metallic shield element 155
1554, the wherein the 4th shielding metal level 1554 is located at perimeter circuit area 112.Then, implement another light
Cover development etch process in the lower surface of upper Polarizer 111, with simultaneously or one-shot forming form antenna
Second screen of the antenna radiator 151 of module 15, ultra-thin feeder line 152 and metallic shield element 155
Cover metal level 1552 and the 3rd shielding metal level 1553, wherein antenna radiator 151, ultra-thin feeder line 152,
Secondary shielding metal level 1552 and the 3rd shielding metal level 1553 are located at perimeter circuit area 112, and ultra-thin
Feeder line 152 is located between secondary shielding metal level 1552 and the 3rd shielding metal level 1553.Then,
There is provided a light transmission film 137, its material can be with the upper light transmission film 114 of Polarizer 11 and lower printing opacity
Thin film 116 is identical, and on this light transmission film 137 be such as, but not limited to vacuum moulding machine, plating,
After the construction maneuver such as wire mark, transfer, bat printing, printing, dispensing or spraying forms metal conducting layer, hold
Row light shield development etch process with light transmission film 137 simultaneously or one-shot forming form metal grill
The induction electrode (Rx) 131 of circuit 13 and the first shielding metal level 1551.Afterwards, by light transmission film
137 are engaged using optical cement 195 with upper Polarizer 11, and the wherein first shielding metal level 1551 is located at week
Side line areas 112.In the present embodiment, metallic shield element 155 include the first shielding metal level 1551,
Secondary shielding metal level the 1552, the 3rd shielding metal level 1553 and the 4th shielding metal level 1554, its
Ring sets and coats ultra-thin feeder line 152, and wherein metallic shield element 155 prolongs along the circuit of ultra-thin feeder line 15
Stretch setting, be finally integrated in winding displacement connecting portion 20 and connect to the earth terminal of flexible bus bar 21 (GND),
The signal that ultra-thin feeder line 152 thereby can be suppressed disturbs.Glass cover-plate 17 includes a shielding pattern layer 171,
This shielding pattern layer 171 is pointed to perimeter circuit area 122, can cover the aerial radiation of Anneta module 15
Body 151, ultra-thin feeder line 152, metallic shield element 155 and a plurality of metal lead wire 14 be not so as to be regarded
Recognize.Optical cement 196 is can be utilized to engage between glass cover-plate 17 and Polarizer 11.It should be noted that
The induction electrode (Rx) 131 of metal grill circuit 13 is also interchangeable with the position of emission electrode (Tx) 132,
It is not limited with above-described embodiment.
Fig. 9 C is that the embedded touch display device of the tool Anneta module shown in Fig. 8 is another in CC section
The sectional view of one demonstration example.In this embodiment, as shown in Fig. 8 and Fig. 9 C, first, embodiment
As light shield develop etch process and in upper Polarizer 11 lower surface simultaneously or one-shot forming form metal
The induction electrode (Rx) 131 of grid circuit 13, the antenna radiator 151 of Anneta module 15, ultra-thin feedback
Line 152, the secondary shielding metal level 1552 of metallic shield element 155 and the 3rd shielding metal level 1553,
The wherein antenna radiator 151 of Anneta module 15, ultra-thin feeder line 152, secondary shielding metal level 1552
And the 3rd shielding metal level 1553 be located at perimeter circuit area 112, and ultra-thin feeder line 152 be located at second
Between shielding metal level 1552 and the 3rd shielding metal level 1553.Then, implement another light shield to show
Shadow etch process with upper Polarizer 11 upper surface formed the 4th shielding metal level 1554, the wherein the 4th
Shielding metal level 1554 is located at perimeter circuit area 112.Then, a light transmission film 135, its material are provided
Matter can be identical with the upper light transmission film 114 of Polarizer 11 and lower light transmission film 116, and in this printing opacity
On thin film 135 be such as, but not limited to vacuum moulding machine, plating, wire mark, transfer, bat printing, printing,
After the construction maneuver such as dispensing or spraying forms metal conducting layer, execution light shield development etch process is with saturating
On optical thin film 135 simultaneously or one-shot forming ground formed metal grid lines road 13 emission electrode (Tx) 132
And first shielding metal level 1551.Afterwards, light transmission film 135 and upper Polarizer 11 are utilized optics
Glue 197 engages, and the wherein first shielding metal level 1551 is located at perimeter circuit area 112.In the present embodiment
In, metallic shield element 155 include the first shielding metal level 1551, secondary shielding metal level 1552,
3rd shielding metal level 1553 and the 4th shielding metal level 1554, its ring sets and coats ultra-thin feeder line 152,
Wherein metallic shield element 155 is extended along the circuit of ultra-thin feeder line 152, is finally integrated in winding displacement
Connecting portion 20 simultaneously connects to the earth terminal of flexible bus bar 21 (GND), thereby can suppress ultra-thin feeder line 152
Signal interference.Glass cover-plate 17 includes a shielding pattern layer 171, this shielding pattern layer 171 para-position
In perimeter circuit area 122, can cover the antenna radiator 151 of Anneta module 15, ultra-thin feeder line 152,
Metallic shield element 155, a plurality of metal lead wire 14 be not so as to by depending on recognizing.Glass cover-plate 17 and polarisation
Optical cement 198 is can be utilized to engage between plate 11.It should be noted that the sensing of metal grill circuit 13
Electrode (Rx) 131 is also interchangeable with the position of emission electrode (Tx) 132, is not limited with above-described embodiment.
In some embodiments, as shown in Figure 9 C, ultra-thin feeder line 152 and secondary shielding metal level 1552
Gap there is the first width W1, the wherein first width W1 between 1 μm to 1cm, and with
0.1mm to 0.35mm is preferable.The live width of ultra-thin feeder line 152 has the second width W2, and wherein
Two width W2 are between 1 μm to 1cm, and are preferable with 0.3mm to 1mm.Secondary shielding
The live width of metal level 1552 has a 3rd width W3, and the live width of the 3rd shielding metal level 1553 has the
Four width W4, the wherein the 3rd width W3 and the 4th width W4 between 1 μm to 10cm, and
It is preferable with 0.25mm to 0.5mm.The live width of the first shielding metal level 1551 has the 5th width
W5, the live width of the 4th shielding metal level 1554 has a 6th width W6, the wherein the 5th width W5 with
6th width W6 is between 1 μm to 10cm, and is preferable with 0.5mm to 2.0mm.First
Shielding metal level 1551 has first thickness C1, and wherein first thickness C1 is between 0.1 μm to 0.2mm
Between, and be preferable with 0.5 μm to 20 μm.Ultra-thin feeder line 152, secondary shielding metal level 1552
With the 3rd shielding metal level 1553, there is the thickness being substantially equal, and represented with C2 with second thickness,
Wherein second thickness C2 is between 0.1 μm to 0.2mm, and is preferable with 0.5 μm to 20 μm.
4th shielding metal level 1554 has the 3rd thickness C3, and the wherein the 3rd thickness C3 is between 0.1 μm extremely
Between 0.2mm, and it is preferable with 0.5 μm to 20 μm.The thickness P1 of light transmission film 135 and polarisation
The thickness P2 of plate 11 is respectively interposed between 10 μm to 500 μm, and is relatively with 50 μm to 0.35mm
Good.The thickness A 1 of optical cement 197 and the thickness A 2 of optical cement 198 are respectively interposed in 5 μm to 1cm
Between, and be preferable with 0.1mm to 0.35mm.The thickness T1 of glass cover-plate 17 is between 12 μm
To 1cm, and it is preferable with 50 μm to 1.0mm.The thickness T2 of shielding pattern layer 171 is situated between
Between 5 μm to 50 μm, and it is preferable with 9 μm to 20 μm.
Figure 10 display combines the feeder line of column type cable using traditional external-added antenna and uses this case sky
The ultra-thin feeder line of wire module carries out the comparison diagram of signaling reflex loss test.As shown in Figure 10, in 1GHz
Carry out reflection loss test to the frequency range of 7GHz, significantly be can be seen that by comparison diagram and use this case
The ultra-thin feeder line of Anneta module and its signal interference value of the mode of metallic shield element, close to 0, therefore may be used
Reach the result suitable with feeder line with traditional external-added antenna and effect.
In sum, this case provides a kind of embedded touch display device of tool Anneta module, and it is by gold
Belong to grid circuit and Anneta module is all arranged at least one surface or the inside of Polarizer.Due to embedded
Touch control display apparatus adopt metal grill circuit as touch-control sensing electrode, therefore have saturating less than ITO
The resistance value of prescribed electrode and preferable regarding are imitated, more can be by the metal micro-line of control metal grill circuit
Thickness is adjusting resistance value, therefore it is many with timesharing without interfering to be introduced directly into touch control display apparatus
The puzzlement of work, is not required to separately add shielding element.Integral antenna modular structure in the lump simultaneously, more favorably
Facilitate the structure of overall touch control display apparatus lightening, reduce thickness, and can achieve touch-control and wireless communication
Number transmitting-receiving function.Additionally, the embedded touch display device of the tool Anneta module of this case, it is in interior
At least one surface of the upper Polarizer in portion or lower Polarizer or inside form metal grill circuit and sky simultaneously
Wire module, thereby makes touch control display apparatus have splendid simultaneous regarding effect, extremely low reflectance, no-reflection colour cast
Have high touch-control resolution, tool high integration yield, tool antistatic effect, and do not affect to be applied to high parsing
The visual effect of screen of UHD, QWHD of degree.Moreover, the embedded touch of the tool Anneta module of this case shows
Showing device, metal grill circuit and Anneta module are all arranged at Polarizer in same stage process step by it
At least one surface or inside, thereby can Simplified flowsheet, it is possible to decrease the loss of technique and material cost,
And yield, production reliability and self-defined flexibility ratio can be improved, and signal can be avoided to disturb, carry
Rise straight-through yield.
This case appointed by those skilled in the art apply craftsman think and be all as modify, so neither de- as attached right
Require be intended to protector.
Claims (20)
1. a kind of embedded touch display device of tool Anneta module is it is characterised in that comprise:
One display module;
One Polarizer, is arranged at a upper surface or a lower surface of this display module;
One metal grill circuit, is arranged at least one surface or the inside of this Polarizer, for forming one
Visual Touch Zone;
Multiple metal lead wires, be arranged at this at least one surface of this Polarizer or this inside, and be laid in
The periphery of this visual Touch Zone is used for forming a perimeter circuit area, and electrically connects with this metal grill circuit
Connect;And
One Anneta module, is arranged at this at least one surface or the inside of this Polarizer, and is located at this periphery
Line areas and being isolated with the plurality of metal lead wire.
2. the embedded touch display device of tool Anneta module as claimed in claim 1, its feature exists
In this display module is a LCD MODULE, and includes the colorized optical filtering unit being sequentially stacked
Part, a liquid crystal layer and a transistor array layer.
3. the embedded touch display device of tool Anneta module as claimed in claim 1, its feature exists
In, this metal grill circuit be arranged at a upper surface of this Polarizer, a lower surface or this inside, and
This Anneta module includes an antenna radiator, and it is inclined that this antenna radiator and this metal grill circuit are located at this
The same surface of tabula rasa or be co-located inside this.
4. the embedded touch display device of tool Anneta module as claimed in claim 3, its feature exists
Light transmission film, a light polarizing film and once printing opacity on that, this Polarizer comprises sequentially to be stacked
Thin film, this metal grill circuit includes an induction electrode and an emission electrode, wherein this induction electrode
Mutually isolated with this emission electrode, and be respectively arranged at light transmission film on this upper surface, on this thoroughly
A lower surface of optical thin film, a upper surface of this light polarizing film, a lower surface of this light polarizing film, this is lower
One upper surface of optical thin film, or a lower surface any surface therein of this lower light transmission film.
5. the embedded touch display device of tool Anneta module as claimed in claim 4, its feature exists
In this antenna radiator is arranged at same surface with the one of which of this induction electrode and this emission electrode.
6. the embedded touch display device of tool Anneta module as claimed in claim 4, its feature exists
In, this Polarizer also includes a light transmission film, fit on this this upper surface of light transmission film or this under
This induction electrode of this lower surface of light transmission film, wherein this metal grill circuit and this emission electrode
One of which is arranged at this light transmission film.
7. the embedded touch display device of tool Anneta module as claimed in claim 4, its feature exists
In this light polarizing film is a polyvinyl alcohol film containing iodine, and on this, light transmission film and this lower light transmission film divide
Xuan Zi not Triafol T, polyethylene terephthalate, PolyEtherImide, Polyphenylene Sulfone, polyamides
Imines, PEN, cyclenes hydrocarbon type copolymer, polymeric liquid crystal copolymer, onlap
One of flexion film, thin glass or a combination thereof.
8. the embedded touch display device of tool Anneta module as claimed in claim 3, its feature exists
In this antenna radiator has a feed point and an earth point, leads with the one first of a circuit board respectively
Connect element and one second and connect element and contact and turn on, wherein this feed point of this antenna radiator with should
Earth point is respectively provided with one first conductive protecting layer and one second conductive protecting layer.
9. the embedded touch display device of tool Anneta module as claimed in claim 1, its feature exists
In this metal grill circuit and this Anneta module are one-shot forming in this at least one surface of this Polarizer
Or it is internal.
10. the embedded touch display device of tool Anneta module as claimed in claim 1, its feature exists
In this Anneta module includes:
One antenna radiator;
One ultra-thin feeder line, is arranged at this perimeter circuit area, and one end of wherein this ultra-thin feeder line is connected to this
Antenna radiator, the other end of this ultra-thin feeder line is connected to a winding displacement connecting portion of this Polarizer;And
One metallic shield element, is isolated with this ultra-thin feeder line, and ring sets and coats this ultra-thin feeder line.
The embedded touch display device of 11. tool Anneta modules as claimed in claim 10, its feature exists
Include one first shielding metal level, a secondary shielding metal level in, this metallic shield element, one the 3rd
Shielding metal level and one the 4th shielding metal level, wherein this ultra-thin feeder line, this second metal screen layer
It is located at the same surface of this Polarizer with the 3rd metal screen layer, the 4th metal screen layer is located at should
Another surface of Polarizer, this first metal screen layer is located at a surface of a light transmission film, this printing opacity
Thin film is fitted with this Polarizer.
A kind of 12. embedded touch display devices of tool Anneta module are it is characterised in that comprise:
One display module;
Polarizer on one, is arranged at a upper surface of this display module;
Polarizer once, is arranged at a lower surface of this display module;
One metal grill circuit, is arranged at least one surface or interior of Polarizer or this lower Polarizer on this
Portion, for forming a visual Touch Zone;
Multiple metal lead wires, are arranged at same Polarizer with this metal grill circuit, and be laid in this can
Periphery depending on Touch Zone is used for forming a perimeter circuit area, and is electrically connected with this metal grill circuit;
And
One Anneta module, is arranged at same Polarizer with this metal grill circuit, and is arranged at this periphery
Line areas, wherein this Anneta module and the plurality of metal lead wire are isolated.
The embedded touch display device of 13. tool Anneta modules as claimed in claim 12, its feature exists
In, also include a glass cover-plate, be arranged at the top of Polarizer on this, wherein this Anneta module with should
Metal grill circuit is arranged on this between Polarizer and this glass cover-plate, or is arranged at Polarizer on this
And this display module between, or be arranged at Polarizer on this this inside.
The embedded touch display device of 14. tool Anneta modules as claimed in claim 12, its feature
Be, also include a backlight module, be arranged at the lower section of this lower Polarizer, wherein this Anneta module with
This metal grill circuit is arranged between this lower Polarizer and this backlight module, or is arranged at this lower polarisation
Between plate and this display module, or be arranged at this lower Polarizer this inside.
The embedded touch display device of 15. tool Anneta modules as claimed in claim 12, its feature
It is, light transmission film on that on this, Polarizer and this lower Polarizer comprise sequentially to be stacked respectively,
One light polarizing film and once light transmission film, wherein this metal grill circuit include an induction electrode and one
Emission electrode, wherein this induction electrode are mutually isolated with this emission electrode, and are respectively arranged on this thoroughly
One upper surface of optical thin film, a lower surface of light transmission film on this, a upper surface of this light polarizing film, should
A lower surface of light polarizing film, a upper surface of this lower light transmission film, or a following table of this lower light transmission film
Face any surface therein.
The embedded touch display device of 16. tool Anneta modules as claimed in claim 15, its feature exists
In, this Polarizer also includes a light transmission film, fit on this this upper surface of light transmission film or this under
This induction electrode of this lower surface of light transmission film, wherein this metal grill circuit and this emission electrode
One of which is arranged at this light transmission film.
The embedded touch display device of 17. tool Anneta modules as claimed in claim 15, its feature
Be, this Anneta module includes an antenna radiator, this antenna radiator and this induction electrode and this
It is arranged at same surface to the one of which one-shot forming of radio pole.
The embedded touch display device of 18. tool Anneta modules as claimed in claim 17, its feature exists
In this antenna radiator has a feed point and an earth point, leads with the one first of a circuit board respectively
Connect element and one second connect element contact with conducting, wherein this feed point of this antenna radiator with should
Earth point is respectively provided with one first conductive protecting layer and one second conductive protecting layer.
The embedded touch display device of 19. tool Anneta modules as claimed in claim 12, its feature exists
In this Anneta module includes:
One antenna radiator, is arranged at Polarizer on this;
One ultra-thin feeder line, be arranged at this perimeter circuit area of Polarizer on this, wherein this ultra-thin feeder line
One end is connected to this antenna radiator, and the other end of this ultra-thin feeder line is connected to one of Polarizer on this
Winding displacement connecting portion;And
One metallic shield element, is isolated with this ultra-thin feeder line, and ring sets and coats this ultra-thin feeder line.
The embedded touch display device of 20. tool Anneta modules as claimed in claim 19, its feature exists
Include one first shielding metal level, a secondary shielding metal level in, this metallic shield element, one the 3rd
Shielding metal level and one the 4th shielding metal level, wherein this ultra-thin feeder line, this second metal screen layer
It is located at the same surface of Polarizer on this with the 3rd metal screen layer, the 4th metal screen layer is located at
Another surface of Polarizer on this, this first metal screen layer is located at a surface of a light transmission film, should
Light transmission film is fitted with Polarizer on this.
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CN201510541110.3A CN106484162A (en) | 2015-08-28 | 2015-08-28 | The embedded touch display device of tool Anneta module |
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CN201510541110.3A CN106484162A (en) | 2015-08-28 | 2015-08-28 | The embedded touch display device of tool Anneta module |
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CN109375822A (en) * | 2018-12-07 | 2019-02-22 | 业成科技(成都)有限公司 | Touch screen, touching display screen and mobile terminal |
CN110941113A (en) * | 2019-11-27 | 2020-03-31 | 上海天马微电子有限公司 | Display device and manufacturing method thereof |
CN111007953A (en) * | 2018-10-05 | 2020-04-14 | 东友精细化工有限公司 | Touch sensor-antenna module and display device including the same |
CN111029724A (en) * | 2019-12-24 | 2020-04-17 | Oppo广东移动通信有限公司 | Mobile terminal |
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CN112241212A (en) * | 2019-07-16 | 2021-01-19 | 中强光电股份有限公司 | Conductive sheet for touch panel and method for manufacturing same |
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CN112421207A (en) * | 2020-10-28 | 2021-02-26 | 维沃移动通信有限公司 | Display screen module and electronic equipment |
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CN113036393A (en) * | 2021-02-02 | 2021-06-25 | 深圳市信维通信股份有限公司 | Screen component integrated with NFC antenna structure and terminal equipment |
CN113918045A (en) * | 2021-09-27 | 2022-01-11 | 安徽精卓光显技术有限责任公司 | Touch module, touch screen, electronic equipment and manufacturing method of touch module |
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