CN106484163A - The metal grill touch-control thin film of tool Anneta module and embedded touch display device - Google Patents
The metal grill touch-control thin film of tool Anneta module and embedded touch display device Download PDFInfo
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- CN106484163A CN106484163A CN201510541241.1A CN201510541241A CN106484163A CN 106484163 A CN106484163 A CN 106484163A CN 201510541241 A CN201510541241 A CN 201510541241A CN 106484163 A CN106484163 A CN 106484163A
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Abstract
This case comprises at least one transparent substrates, wire netting circuit, multiple metal lead wire and Anneta module with regard to a kind of metal grill touch-control thin film of tool Anneta module and its applicable embedded touch display device, the metal grill touch-control thin film of tool Anneta module.Metal grill circuit is arranged at least one surface of this at least one transparent substrates, and is used for forming visual Touch Zone.Multiple metal lead wires are arranged at least one surface of this at least one transparent substrates, and are laid in the periphery of visual Touch Zone for forming perimeter circuit area, and are electrically connected with metal grill circuit.Anneta module includes antenna radiator and ultra-thin feeder line, one end of wherein ultra-thin feeder line is connected to antenna radiator, antenna radiator and ultra-thin feeder line are arranged at least one surface of this at least one transparent substrates, and are laid in perimeter circuit area, and are isolated with multiple metal lead wires.So that touch-control sensing circuit is had preferably and regard effect with compared with low-resistance value, touch-control response speed can be lifted, reduce the thickness of display device.
Description
Technical field
This case with regard to a kind of touch-control thin film and touch control display apparatus, particularly to a kind of tool Anneta module
Metal grill touch-control thin film and embedded touch 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.General and
Speech, 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 and display module directly carry out upper and lower overlapping, because touch-control module is transparent panel, therefore shadow
As the touch-control module being superimposed on can be penetrated and shows, then by touch-control module as the medium inputting
Or interface.However, electronic installation is increasingly towards frivolous and high density trend development, traditional touches
Control display device must increase a touch-control module weight so that the weight of touch control display apparatus significantly
Ground increases, and does not meet current market for light, thin, short, the little requirement of display, and directly folds
Closing touch-control module will increase thickness, thus reduce the penetrance of light, increase reflectance, colour cast with
Mist degree, makes the quality of screen display reduce.Additionally, traditional touch-control module and its set-up mode will
Increase processing step and material cost, and touch-control sensing efficiency and the display module of contact panel can be affected
Visual 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 3% to 10% yield loss not waited before volume production, also therefore will result in predictable technique
And material cost loss, so Yield lmproved certainly will be vital task;Furthermore, for embedded touch
Technology content highest In-cell TDM, touch-control and display layer other height shared line layout, once face
Plate resolution is promoted to WQHD/UHD from existing HD/FHD, and the challenge making yield is not said,
Balance between the aperture opening ratio (Aperture Ratio) of pixel and charge rate (Charging Ratio)
(Trade-off), display drives the mechanism such as the time-division processing (Timing Control) with touch control detection, and
Electromagnetic noise interference of panel itself etc., is all that a lot of has the outpost of the tax office to be solved.Finally embed
The touch control layer of formula contact panel is not highly dependent on the change (capacitance variations) of electromagnetic field to detect touch-control thing
Part, after removing the simplification of the structures such as glass plate, allows emission electrode (Tx) easily to meet with induction electrode (Rx)
Destroyed by extraneous static and lose touch controllable function, how be with Antistatic polaroid or conductive silver glue with industry
Solve etc. the practice, future, also needs with product under large scale, Rimless, the evolution demand of high parsing
Propose other optimization designs to increase production reliability.Therefore, it is necessary in fact to develop a kind of embedded gold
Belong to grid touch control display apparatus, 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 be used for be
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, with electronics
Device is increasingly towards frivolous and high density trend development, traditional Anneta module and its set-up mode
For avoiding signal interference need to retain empty regions, therefore the space within electronic installation will be occupied, impact
Internal wiring layout, makes the thickness of electronic installation cannot reduce further.With combining wireless communication function
Touch control display apparatus as a example, meeting when traditional Anneta module and set-up mode import touch control display apparatus
Increase processing step and material cost, and easily cause the interference of signal, affect the wireless of Anneta module
Signal transmitting and 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.Again, communicate
If antenna is superimposed on embedded touch display device again, the required signal interactive interference problem considered is more
For complexity.How communication function and touch controllable function to be added with and be integrated in the embedded touch of a tool antenna and show
Showing device, it is to avoid each other produce signal interference, and then affect antenna wireless signal transmitting-receiving efficiency with
The touch-control sensing efficiency of touch-control module, at present institute must be in the face of the problem of solution.
Content of the invention
For reaching above-mentioned purpose, this case provides a kind of metal grill touch-control thin film of tool Anneta module, is suitable for
In embedded touch display device.It is saturating that the metal grill touch-control thin film of this tool Anneta module comprises at least one
Photopolymer substrate, metal grill circuit, multiple metal lead wire and Anneta module.Metal grill circuit is arranged
In at least one surface of this at least one transparent substrates, and it is used for forming visual Touch Zone.Multiple metals draw
Line is arranged at this at least one surface of this at least one transparent substrates, and is laid in the periphery of visual Touch Zone
For forming perimeter circuit area, and it is electrically connected with metal grill circuit.Anneta module includes antenna
Radiant body and ultra-thin feeder line, one end of wherein ultra-thin feeder line is connected to antenna radiator, antenna radiator
It is arranged at this at least one surface of this at least one transparent substrates with ultra-thin feeder line, and be located at perimeter circuit
Area, and be 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,
It comprises display module, upper Polarizer, lower Polarizer and tool Anneta module metal grill touch-control thin
Film.Upper Polarizer is arranged at the upper surface of LCD MODULE.Lower Polarizer is arranged at liquid crystal display mode
The lower surface of block.Tool Anneta module metal grill touch-control thin film be arranged at Polarizer upper surface,
Between display module and upper Polarizer, the inside of display module, between display module and lower Polarizer,
Or the lower surface of lower Polarizer.The metal grill touch-control thin film of tool Anneta module comprises at least one printing opacity base
Plate, metal grill circuit, multiple metal lead wire and Anneta module.Metal grill circuit is arranged at this
At least one surface of at least one transparent substrates, and be used for forming visual Touch Zone.Multiple metal lead wires set
Be placed in this at least one surface of this at least one transparent substrates, and be laid in the periphery of visual Touch Zone with
In formation perimeter circuit area, and it is electrically connected with metal grill circuit.Anneta module includes aerial radiation
Body and ultra-thin feeder line, one end of wherein ultra-thin feeder line is connected to antenna radiator, antenna radiator with super
Thin feeder line is arranged at this at least one surface of this at least one transparent substrates, and is located at perimeter circuit area, and
It is isolated with multiple metal lead wires.
The purpose of this case is to provide a kind of metal grill touch-control thin film of tool Anneta module, and it is by metal
Grid circuit and Anneta module are all arranged at least one surface of at least one transparent substrates and form a thin film
Structure, thereby makes touch-control sensing circuit have preferably and regards effect and compared with low-resistance value, can lift touch-control reaction
Speed, is suitable to flexible display application, does not result in signal interference and the puzzlement of time division multiplexing, and is not required to
Separately add shielding element, and make touch control display apparatus structure lightening, reduce thickness, and can
Realize the function of touch-control and wireless signal 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 grill circuit and Anneta module at least one surface of at least one transparent substrates, thereby simultaneously
So that touch control display apparatus is had and splendid have high touch-control parsing concurrently depending on effect, extremely low reflectance, no-reflection colour cast
Degree, tool be high to integrate yield, tool antistatic effect, and do not affect to be applied to high-res UHD,
The visual effect of screen of QWHD.
The another object of this case is to provide a kind of embedded touch display device of tool Anneta module, its
Metal grill circuit, the antenna radiator of Anneta module and ultra-thin feeder line one-shot forming are arranged at
At least one surface of at least one transparent substrates, thereby can Simplified flowsheet, it is possible to decrease technique and material cost
Loss, and yield, production reliability and customized flexibility ratio can be improved, and signal can be avoided
Interference, the straight-through yield of lifting.
Brief description
Fig. 1 is the structure of the metal grill touch-control thin film of tool Anneta module of this case first preferred embodiment
Schematic diagram.
Fig. 2A is the metal grill touch-control thin film of the tool Anneta module shown in Fig. 1 in the first of AA section
Implement the sectional view of aspect.
Fig. 2 B is the structural representation that the Anneta module shown in Fig. 2A is connected with circuit board.
Fig. 3 A is the metal grill touch-control thin film of the tool Anneta module shown in Fig. 1 in the second of AA section
Implement the sectional view of aspect.
Fig. 3 B is the structural representation that the Anneta module shown in Fig. 3 A is connected with circuit board.
Fig. 4 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. 5 is the structure of the metal grill touch-control thin film of tool Anneta module of this case second preferred embodiment
Schematic diagram.
Fig. 6 is the knot of the embedded touch display device of tool Anneta module of this case first preferred embodiment
Structure schematic diagram.
It is different real in B-section that Fig. 7 A to 7H is respectively the embedded touch display device shown in Fig. 6
Apply the sectional view of aspect.
Fig. 8 is the knot of the embedded touch display device of tool Anneta module of this case second preferred embodiment
Structure schematic diagram.
Fig. 9 is the knot of the embedded touch display device of tool Anneta module of this case the 3rd preferred embodiment
Structure schematic diagram.
Figure 10 is the knot of the embedded touch display device of tool Anneta module of this case the 4th preferred embodiment
Structure schematic diagram.
Figure 11 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:The metal grill touch-control thin film of tool Anneta module
11:Transparent substrates
111:Visual Touch Zone
112:Perimeter circuit area
113:First transparent substrates
114:Second transparent substrates
115、116:Optical cement
12:Metal grill circuit
121:Induction electrode
122:Emission electrode
123:Grid cell
13:Metal lead wire
14:Anneta module
141:Antenna radiator
142:Feed point
143:Earth point
144:First protective layer
145:Second protective layer
146:Ultra-thin feeder line
147:Metallic shield element
1471:First shielding metal level
1472:Secondary shielding metal level
1473:3rd shielding metal level
1474:4th shielding metal level
15:Winding displacement connecting portion
16:Flexible bus bar
2:Embedded touch shows to be put
21:Glass cover-plate
211:Shielding pattern layer
22:Upper Polarizer
23:Display module
231:Color filter element
232:Liquid crystal layer
233:Transistor array layer
24:Lower Polarizer
25:Backlight module
3:Circuit board
31:First connects element
32:Second connects element
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:Section
B: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.
Fig. 1 is the structure of the metal grill touch-control thin film of tool Anneta module of this case first preferred embodiment
Schematic diagram, Fig. 2A is the metal grill touch-control thin film of tool Anneta module shown in Fig. 1 in the one of AA section
Implement the sectional view of aspect, and Fig. 2 B is the knot that the Anneta module shown in Fig. 2A is connected with circuit board
Structure schematic diagram.As shown in Fig. 1,2A and 2B, the metal grill touch-control thin film of the tool Anneta module of this case
1 (hereinafter referred to as touch-control thin film) comprises at least one transparent substrates 11, metal grill circuit 12, multiple metal
Lead 13 and Anneta module 14.Metal grill circuit 12 is arranged at least one transparent substrates 11 extremely
A few surface, and be used for forming visual Touch Zone 111.It is saturating that multiple metal lead wires 13 are arranged at least one
At least one surface of photopolymer substrate 11, and it is laid in the periphery of visual Touch Zone 111 for forming periphery
Line areas 112, and be electrically connected with metal grill circuit 12.Anneta module 14 includes antenna radiator
141 and ultra-thin feeder line 146, one end of wherein ultra-thin feeder line 146 is connected to antenna radiator 141.My god
Antenna radiator 141 and the ultra-thin feeder line 146 of wire module 14 are arranged at least one transparent substrates 11
This at least one surface, and it is located at perimeter circuit area 112, and be isolated with multiple metal lead wires 13.In
In the present embodiment, set to the antenna radiator 141 of Anneta module 14 and the one-shot forming of ultra-thin feeder line 146
It is placed in the same surface of same transparent substrates 11, wherein antenna radiator 141 is used for carrying out special frequency channel
Wireless signal transmitting-receiving, such as but not limited to bluetooth (Bluetooth), Wireless Fidelity (WiFi) or the whole world is fixed
The wireless signal transmitting-receiving of the frequency ranges such as position system (GPS).In the present embodiment, the antenna of Anneta module 14
Radiant body 141 and ultra-thin feeder line 146 are isolated with multiple metal lead wires 13 respectively and refer to each other in structure
On be not connected to.
In the present embodiment, metal grill circuit 12 includes induction electrode 121 and emission electrode
122, wherein induction electrode 121 is arranged at the upper surface of transparent substrates 11, and emission electrode 122 is arranged
In the lower surface of transparent substrates 11, and induction electrode 121 is mutually isolated with emission electrode 122.Yu Ben
In embodiment, induction electrode 121 is mutually isolated with emission electrode 122 to be referred to not connect in structure each other
Connect or separated with insulating barrier phase each other.It should be noted that induction electrode 121 and emission electrode 122
The other position of layer can exchange.Additionally, antenna radiator 141 and both ultra-thin feeder lines 146 and faradism
The one of which of pole 121 or emission electrode 122 is arranged at same surface, is lost with developing in such as light shield
It is formed on upper surface or the lower surface of transparent substrates 11 to synchronization or one-shot forming in carving technology.
As shown in Figure 2 B, the ultra-thin feeder line 146 of Anneta module 14 has feed point 142 and earth point
143, wherein feed point 142 and earth point 143 are positioned at the lateral margin of ultra-thin feeder line 146 or end.Circuit
Plate 3 includes first and connects element 31 and second connecting element 32, wherein first connect element 31 with
Second connects element 32 is connected with the wireless signal process circuit of circuit board 3 and grounding parts.In some
In embodiment, first connect element 31 and second to connect element 32 can be metal thimble or Elastic Contact
Piece.When touch-control thin film 1 is connected with group with circuit board 3, the feed point 142 of Anneta module 14 and earth point
143 connect element 31 respectively with the first of circuit board 3 connects element 32 with second and contacts and connect, mat
This makes Anneta module 14 can be connected with the wireless signal process circuit of circuit board 3 and grounding parts.Yu Yi
In a little embodiments, the feed point 142 of Anneta module 14 and earth point 143 can be formed respectively and arrange the
One conductive protecting layer 144 and the second conductive protecting layer 145, and first connect element 31 and lead with second
Connect element 32 can respectively by the first conductive protecting layer 144 and the second conductive protecting layer 145 with feedback
Point 142 and earth point 143 contact and connect, and thereby can prevent antenna radiator 141 from being led by first
Connect the directly contact that element 31 connects element 32 (i.e. metal thimble or elastic contact chip) with second and cause
Scratch or abrasion, and then have influence on antenna efficiency.In the present embodiment, the first conductive protecting layer 144
With the second conductive protecting layer 145 can be such as, but not limited to vacuum moulding machine, plating, wire mark, transfer,
The construction maneuver such as bat printing, printing, dispensing, laminating or spraying forms metallic conduction protective layer in antenna mould
The feed point 142 of block 14 and the surface of earth point 143.Conductive protecting layer material composition can for example but not
It is limited to hot (light) curing conductive material, conducting polymer (PEDOT), conductive particle are mixed with pressure-sensing glue
Material, carbonaceous conductive glue (carrying), aluminum conducting resinl (carrying), copper conductive adhesive (carrying), silver conductive adhesive (carrying) or zinc are led
Electric glue (carrying) etc..First conductive protecting layer 144 is respectively interposed in the area of the second conductive protecting layer 145
1μm2To 10cm2Between, and with 0.5mm2To 10mm2For preferable.First conductive protecting layer 144
And the thickness of the second conductive protecting layer 145 is respectively interposed between 1 μm to 200 μm, and with 8 μm extremely
50 μm is preferable.
Fig. 3 A is the metal grill touch-control thin film of tool Anneta module shown in Fig. 1 in another reality in AA section
Apply the sectional view of aspect, and Fig. 3 B is the structure that the Anneta module shown in Fig. 3 A is connected with circuit board
Schematic diagram.As shown in Fig. 1,3A and 3B, touch-control thin film 1 and Fig. 2A and 2B institute of the present embodiment
The touch-control thin film 1 showing is similar, and identical element numbers represent identical element, structure and function,
Repeat no more in this.Different from the touch-control thin film 1 shown in Fig. 2A and 2B, the touch-control of the present embodiment is thin
Film 1 includes multiple transparent substrates 11, and it includes the first transparent substrates 113 and the second transparent substrates 114,
And first transparent substrates 113 can be affixed by being such as, but not limited to optical cement with the second transparent substrates 114
Close.Induction electrode 121 and the emission electrode 122 of metal grill circuit 12 are respectively arranged at the first printing opacity
Substrate 113 and the upper surface of the second transparent substrates 114, and be provided commonly for forming visual Touch Zone 111.
Multiple metal lead wires 13 are then with respect to induction electrode 121 and the emission electrode of metal grill circuit 12
122, and it is respectively arranged at the first transparent substrates 113 and the upper surface of the second transparent substrates 114, and cloth
Periphery located at visual Touch Zone 111 for formed perimeter circuit area 112, and with metal grill circuit
12 electric connections.It is saturating that the antenna radiator 141 of Anneta module 14 and ultra-thin feeder line 146 are arranged at first
The upper surface of photopolymer substrate 113, and it is located at perimeter circuit area 112, and be separated by with multiple metal lead wires 13
From.Ultra-thin feeder line 146 has feed point 142 and earth point 143, and wherein the first of circuit board 3 connects
Element 31 and second connects element 32 and also can pass through the first conductive protecting layer 144 and second respectively
Conductive protecting layer 145 and contact and connect with feed point 142 and earth point 143.It should be noted that sense
Other position can exchange according to practical application request with the layer of emission electrode 122 to answer electrode 121, or hands over
Replace and combine the upper surface being arranged at the first transparent substrates 113 and the second transparent substrates 114 or lower surface.
Additionally, the antenna radiator 141 of Anneta module 14 can be with induction electrode 121 with both ultra-thin feeder lines 146
Or emission electrode 122 one of wherein synchronization or one-shot forming be arranged on same transparent substrates.
The touch-control membrane structure of previous embodiment gained, can be directly embedded into tactile in response to actually used demand
The structure dress of control display device is overall, and is difficult to disturb, and is more not required to separately add shielding element again.This
Outward, it is penetrating in touch-control thin film that special metal grill line construction less affects light.Practical application
When, the fine structure that can also be for aforementioned metal grid circuit optimizes further, such as controls light shield development
In etch process, light can be dissipated by each layer rate of etch electrode structure to produce step-like surface further
Penetrate, reduce by visibility.Or cover one layer of melanism coating in the metal micro-line surface of metal grill circuit
Layer or add roughening structure and colourity reconciliation levels at electrode, thereby affects light to reduce metal reflective
Learn characteristic.What is more, the metal grill circuit of this case, multiple metal lead wire and Anneta module are whole in advance
Together in transparent substrates, compared to the face glass of glass cover-plate and colorized optical filtering, the touch-control of this case is thin
Film can also be regarded as a flexible type element and can be applicable to flexible display device, and the metal grid lines of this case
Road, multiple metal lead wire and Anneta module also can realize boundless mount structure further by design
With the application of three-dimensional covering plate structure.
In some embodiments, the material of the metal micro-line of metal grill circuit 12 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 extremely
5 μm is preferable, more to be optimal between 1 μm to 3 μm.Metal micro-line thickness can be between 0.1 μm
To 20 μm, and to be preferable between 0.1 μm to 5 μm.
In previous embodiment, the induction electrode 121 that the metal micro-line of metal grill circuit 12 is constituted
It is separated arrangement with emission electrode 122, and be preferred with arc respectively.Fig. 4 is preferably implemented for this case
One demonstrative structure schematic diagram of the metal micro-line of metal grill circuit of example.As shown in figure 4, metal
The metal micro-line of grid circuit 12 is preferred with arc, and its radius of curvature is between 0.05mm to 5mm to be
Good, and favour first axle (as X-axis line) and second axis (as Y-axis line), angle of inclination between
30 degree are preferred to 60 degree, and the profile of multiple grid cell 123 is all different, can be had by this design
Effect reduces or avoids interference with stricture of vagina (Moire).In some embodiments, in the design architecture of two-layer electrode
Under, the actual induction circuit conductive material gross area of lower electrode layers is more than the effective feeling of upper electrode layer
Answer the circuit conductive material gross area, thereby can effectively lift touch-control sensitivity, resolution and precision.
Fig. 5 is the structure of the metal grill touch-control thin film of tool Anneta module of this case second preferred embodiment
Schematic diagram.The touch-control thin film 1 of the present embodiment is similar to the touch-control thin film 1 shown in Fig. 1, and identical
Element numbers represent identical element, structure and function, repeat no more in this.Different from shown in Fig. 1
Touch-control thin film 1, the Anneta module 14 of the touch-control thin film 1 of the present embodiment include antenna radiator 141,
Ultra-thin feeder line 146 and metallic shield element 147, wherein antenna radiator 141, ultra-thin feeder line 146
And metallic shield element 147 is respectively arranged at perimeter circuit area 112, and respectively with multiple metal lead wires
13 isolation.One end of ultra-thin feeder line 146 is connected to antenna radiator 141, and ultra-thin feeder line 146
The other end is integrated in winding displacement connecting portion 15, thereby can be utilized flexible bus bar (as the label 16 of Fig. 6) and with
The corresponding feed point electrical connection of circuit board.Metallic shield element 147 is isolated with ultra-thin feeder line 146, and ring
Located at ultra-thin feeder line 146 and extended along the circuit of ultra-thin feeder line 146, finally it is integrated in winding displacement even
Socket part 15 simultaneously connects to the earth terminal of flexible bus bar (GND).In the present embodiment, Anneta module 14
Antenna radiator 141, ultra-thin feeder line 146 and metallic shield element 147 drawn with multiple metals respectively
Line 13 is isolated and refers to be not connected in structure each other.
The embedded touch display device knot of the tool Anneta module of open this case first preferred embodiment of Fig. 6
Structure schematic diagram.(hereinafter referred to as touch-control shows the embedded touch display device 2 of the tool Anneta module of this case
Device) include glass cover-plate 21, upper Polarizer 22, display module 23, lower Polarizer 24, backlight mould
Block 25 and touch-control thin film 1, wherein touch control display apparatus 2 element from top to bottom is configured to glass cover
Plate 21, touch-control thin film 1, upper Polarizer 22, display module 23, lower Polarizer 24 and backlight mould
Block 25.Display module 23 is LCD MODULE, and includes the color filter element being sequentially stacked
231st, liquid crystal layer 232 and transistor array layer 233.Color filter element 231 is used for filtering and is not required to
The color of light composition wanted, liquid crystal layer 232 is used for show image, and transistor array layer 233 is turned on
Switching running with cut-off, to control the imaging of liquid crystal layer 232.Certainly, LCD MODULE 23
Stepped construction is not limited, and also can change according to practical application and adjustment.Touch-control thin film 1 can have
Structure as shown in Fig. 1 or Fig. 5.In the present embodiment, touch-control thin film 1 is using for example shown in Fig. 5
Structure, and be arranged between glass cover-plate 21 and upper Polarizer 22.
Fig. 7 A is that the embedded touch display device shown in Fig. 6 implements cutting of aspect in the first of B-section
Face figure.As shown in Fig. 6 and 7A, in this embodiment, touch-control thin film 1 includes multiple transparent substrates
11, it includes the first transparent substrates 113 and the second transparent substrates 114.First transparent substrates 113
Lower surface can be utilized such as light shield to develop, and simultaneously or one-shot forming ground forms metal grid lines road to etch process
12 emission electrode 122, the antenna radiator 141 of Anneta module 14, ultra-thin feeder line 146, metal
The secondary shielding metal level 1472 of shielding element 147 and the 3rd shielding metal level 1473, wherein antenna mould
The antenna radiator 141 of block 14, ultra-thin feeder line 146, the secondary shielding gold of metallic shield element 147
Belong to floor 1472 and the 3rd shielding metal level 1473 is located at perimeter circuit area 112, and ultra-thin feeder line 146
Between secondary shielding metal level 1472 and the 3rd shielding metal level 1473.Additionally, the first printing opacity
The upper surface of substrate 113 can simultaneously or one-shot forming ground forms gold using another light shield development etch process
Belong to induction electrode 121 and the first shielding metal level 1471 of grid circuit 12, the wherein first shielding gold
Belong to floor 1471 and be located at perimeter circuit area 112 and with respect to ultra-thin feeder line 146.Second transparent substrates 114
Lower surface on can be formed the 4th shielding metal level 1474, the wherein the 4th shielding metal level 1474 be located at week
Side line areas 112 and with respect to ultra-thin feeder line 146.It is saturating that 4th shielding metal level 1474 is formed at second
The method of photopolymer substrate 114 may include the following step:First be such as, but not limited to vacuum moulding machine, plating,
The construction maneuver such as wire mark, transfer, bat printing, printing, dispensing or spraying is in the second transparent substrates 114
On lower surface formed metal conducting layer, afterwards execution light shield development etch process and in the second transparent substrates
4th shielding metal level 1474 is formed on 114 lower surface.First transparent substrates 113 and the second printing opacity
Substrate 114 can be engaged using optical cement 115.
In the present embodiment, metallic shield element 147 includes the first shielding metal level 1471, the second screen
Cover metal level the 1472, the 3rd shielding metal level 1473 and shield metal level 1474 with the 4th, itself and antenna
Radiant body 141 and ultra-thin feeder line 146 mutually separate, and ring sets and coats ultra-thin feeder line 146, wherein gold
The circuit belonging to shielding element 147 along ultra-thin feeder line 146 is extended, and is finally integrated in winding displacement connecting portion
15 and connect to the earth terminal of flexible bus bar 16 (GND), thereby can suppress the signal of ultra-thin feeder line 146
Interference.In the present embodiment, metallic shield element 147 is mutually separated with ultra-thin feeder line 146 and refers to each other
It is not connected in structure.Additionally, glass cover-plate 21 includes a shielding pattern layer 211, this light-shielding pattern
Floor 211 is pointed to perimeter circuit area 112, can cover the antenna radiator 141 of Anneta module 14, surpass
Thin feeder line 146, metallic shield element 147 are with a plurality of metal lead wire 13 so as to not by depending on recognizing.Glass
Optical cement 116 is can be utilized to engage between cover plate 21 and touch-control thin film 1.It should be noted that metal grill
The induction electrode 121 of circuit 12 is also interchangeable with the position of emission electrode 122, does not take off embodiment in the past
It is limited.Alternatively, as shown in Figure 7 B, the 4th shielding metal level 1474 of touch-control thin film 1 can change
For being arranged at the upper surface of the second transparent substrates 114, the wherein induction electrode of metal grill circuit 12
121 is also interchangeable with the position of emission electrode 122, does not take off embodiment in the past and is limited.
Fig. 7 C figure is the embedded touch display device shown in Fig. 6 in the 3rd enforcement aspect of B-section
Sectional view.As shown in Fig. 6 and 7C, in this embodiment, touch-control thin film 1 includes multiple transparent substrates
11, it includes the first transparent substrates 113 and the second transparent substrates 114.First transparent substrates 113
Lower surface can for example light shield development etch process be simultaneously or one-shot forming ground forms metal grid lines road 12
Induction electrode 121, the antenna radiator 141 of Anneta module 14, ultra-thin feeder line 146, metallic shield
The secondary shielding metal level 1472 of element 147 and the 3rd shielding metal level 1473, wherein Anneta module
14 antenna radiator 141, ultra-thin feeder line 146, the secondary shielding metal level of metallic shield element 147
1472 and the 3rd shielding metal level 1473 be located at perimeter circuit area 112, and ultra-thin feeder line 146 is located at the
Between two shielding metal levels 1472 and the 3rd shielding metal level 1473.Additionally, the second transparent substrates
114 lower surface can with another light shield development etch process simultaneously or one-shot forming form metal grill
The emission electrode 122 of circuit 12 and the 4th shielding metal level 1474, the wherein the 4th shielding metal level
1474 are located at perimeter circuit area 112 and with respect to ultra-thin feeder line 146.First transparent substrates 113 upper
First shielding metal level 1471 can be formed on surface, the wherein first shielding metal level 1471 is located at perimeter line
Road area 112 and with respect to ultra-thin feeder line 146.First shielding metal level 1471 is formed at the first printing opacity base
The method of the upper surface of plate 113 may include the following step:First to be such as, but not limited to vacuum moulding machine, electricity
The construction maneuver such as plating, wire mark, transfer, bat printing, printing, dispensing or spraying is in the first transparent substrates
113 upper surface forms metal conducting layer, and execution light shield development etch process is with the first printing opacity afterwards
First shielding metal level 1471 is formed on the upper surface of substrate 113.First transparent substrates 113 and second
Transparent substrates 114 can be engaged using optical cement 115.
In the present embodiment, metallic shield element 147 includes the first shielding metal level 1471, the second screen
Cover metal level the 1472, the 3rd shielding metal level 1473 and shield metal level 1474 with the 4th, itself and antenna
Radiant body 141 and ultra-thin feeder line 146 mutually separate, and ring sets and coats ultra-thin feeder line 146, wherein gold
The circuit belonging to shielding element 147 along ultra-thin feeder line 146 is extended, and is finally integrated in winding displacement connecting portion
15 and connect to the earth terminal of flexible bus bar 16 (GND), thereby can suppress the signal of ultra-thin feeder line 146
Interference.Additionally, glass cover-plate 21 includes a shielding pattern layer 211, this shielding pattern layer 211 para-position
In perimeter circuit area 112, can cover the antenna radiator 141 of Anneta module 14, ultra-thin feeder line 146,
Metallic shield element 147 is with a plurality of metal lead wire 13 so as to not by depending on recognizing.Glass cover-plate 21 and touch-control
Optical cement 116 is can be utilized to engage between thin film 1.It should be noted that the sensing of metal grill circuit 12
Electrode 121 is also interchangeable with the position of emission electrode 122, does not take off embodiment in the past and is limited.Replaceable
Ground, as illustrated in fig. 7d, the 4th shielding metal level 1474 of touch-control thin film 1 can be changed to be arranged at second
The upper surface of transparent substrates 114, and the induction electrode 121 of metal grill circuit 12 and emission electrode 122
Position also interchangeable, before take off embodiment and be limited.
Fig. 7 E figure is the embedded touch display device shown in Fig. 6 in the 5th enforcement aspect of B-section
Sectional view.As shown in Fig. 6 and 7E, in this embodiment, touch-control thin film 1 includes multiple transparent substrates
11, it includes the first transparent substrates 113 and the second transparent substrates 114.First transparent substrates 113
Upper surface is simultaneously or one-shot forming ground forms the induction electrode 121 on metal grid lines road 12 and metal covers
First shielding metal level 1471 of element 147.The lower surface of the first transparent substrates 113 is simultaneously or once
The antenna radiator 141 of molding ground formation Anneta module 14, ultra-thin feeder line 146, metallic shield element
147 secondary shielding metal level 1472 and the 3rd shielding metal level 1473.Second transparent substrates 114
Lower surface is simultaneously or one-shot forming ground forms the 4th shielding metal level 1474 and metal grill circuit 12
Emission electrode 122.Wherein, the antenna radiator 141 of Anneta module 14, ultra-thin feeder line 146, metal
Shielding element 147 is located at perimeter circuit area 112, and ultra-thin feeder line 146 is also located at metallic shield element
Between 147 secondary shielding metal level 1472 and the 3rd shielding metal level 1473.First transparent substrates
113 and second transparent substrates 114 engaged using optical cement 115.Additionally, glass cover-plate 21 includes one
Shielding pattern layer 211, shielding pattern layer 211 is pointed to perimeter circuit area 112, can cover Anneta module
14 antenna radiator 141, ultra-thin feeder line 146, metallic shield element 147 and a plurality of metal lead wire
13 so as to not by depending on recognizing.Optical cement 116 is can be utilized to connect between glass cover-plate 21 and touch-control thin film 1
Close.Similarly, also may be used in the induction electrode 121 of metal grill circuit 12 and the position of emission electrode 122
Exchange, do not take off embodiment in the past and be limited.Alternatively, as shown in Figure 7 F, the 4th of touch-control thin film 1
Shielding metal level 1474 can be changed to be arranged at the upper surface of the second transparent substrates 114, and metal grid lines
The induction electrode 121 on road 12 is also interchangeable with the position of emission electrode 122, does not take off embodiment in the past and is
Limit.
Fig. 7 G is that the embedded touch display device shown in Fig. 6 implements cutting of aspect in the 7th of B-section
Face figure.As shown in Fig. 6 and 7G, in the present embodiment, touch-control thin film 1 includes multiple transparent substrates
11, it includes the first transparent substrates 113 and the second transparent substrates 114.First transparent substrates 113
Upper surface is simultaneously or one-shot forming ground forms the induction electrode 121 on metal grid lines road 12 and metal covers
Cover the first shielding metal level 1471 of element 147.The lower surface simultaneously or one of the first transparent substrates 113
The antenna radiator 141 of secondary molding ground formation Anneta module 14, ultra-thin feeder line 146, metallic shield unit
The secondary shielding metal level 1472 of part 147 and the 3rd shielding metal level 1473.Second transparent substrates 114
Upper surface formed metal grill circuit 12 emission electrode 122.The following table of the second transparent substrates 114
Face forms the 4th shielding metal level 1474.The antenna radiator 141 of Anneta module 14, ultra-thin feeder line
146th, metallic shield element 147 is located at perimeter circuit area 112, and ultra-thin feeder line 146 is also located at metal
Between the secondary shielding metal level 1472 of shielding element and the 3rd shielding metal level 1473.First is saturating
Photopolymer substrate 113 and the second transparent substrates 114 are engaged using optical cement 115.Additionally, glass cover-plate 21
Including a shielding pattern layer 211, shielding pattern layer 211 is pointed to perimeter circuit area 112, can cover sky
The antenna radiator 141 of wire module 14, ultra-thin feeder line 146, metallic shield element 147 and a plurality of gold
Belong to lead 13 so as to not by depending on recognizing.Optical cement 116 can be utilized between glass cover-plate 21 and touch-control thin film 1
Engage.Similarly, the induction electrode 121 of metal grill circuit 12 and the position of emission electrode 122
Also interchangeable, do not take off embodiment in the past and be limited.Alternatively, as shown in fig. 7h, touch-control thin film 1
4th shielding metal level 1474 can be changed to be arranged at the upper surface of the second transparent substrates 114, and wire netting
The induction electrode 121 on ruling road 12 is also interchangeable with the position of emission electrode 122, does not take off enforcement in the past
Example is limited.
In some embodiments, as shown in fig. 7h, ultra-thin feeder line 146 and secondary shielding metal level 1472
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 146 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 1472 has a 3rd width W3, and the live width of the 3rd shielding metal level 1473 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 1471 has the 5th width
W5, the live width of the 4th shielding metal level 1474 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 1471 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 146, secondary shielding metal level 1472
With the 3rd shielding metal level 1473, there is the thickness being substantially equal, and C2 generation is used with second thickness
Table, wherein second thickness C2 are between 0.1 μm to 0.2mm, and with 0.5 μm to 20 μm are
Preferably.4th shielding metal level 1474 there is the 3rd thickness C3, the wherein the 3rd thickness C3 between
0.1 μm to 0.2mm, and be preferable with 0.5 μm to 20 μm.Second transparent substrates 114
The thickness P2 of thickness P1 and the first transparent substrates 113 is respectively interposed between 10 μm to 500 μm, and
It is preferable with 50 μm to 0.35mm.The thickness A 1 of optical cement 115 and the thickness A 2 of optical cement 116
It is respectively interposed in 5 μm to 1cm, and be preferable with 0.1mm to 0.35mm.Glass cover-plate 21
Thickness T1 between 12 μm to 1cm, and be preferable with 50 μm to 1.0mm.Light-shielding pattern
The thickness T2 of layer 211 is between 5 μm to 50 μm, and is preferable with 9 μm to 20 μm.
In previous embodiment, metal grill circuit 12, multiple metal lead wire 13, Anneta module 14
Antenna radiator 141, ultra-thin feeder line 146, metallic shield element 147 all can by 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 alloy being formed to be constituted.And transparent substrates 11, including the first transparent substrates
113 and second transparent substrates 114 then can be respectively selected from polyethylene terephthalate (Polyethylene
Terephthalate, PET), PolyEtherImide (Polyetherimide, PEI), Polyphenylene Sulfone
(Polyphenylensulfone, PPSU), polyimides (Polyimide, PI), poly- naphthalenedicarboxylic acid
Glycol ester (Polyethylene naphthalate, PEN), cyclenes hydrocarbon type copolymer (Cyclic olefin
Copolymer, COC), polymeric liquid crystal copolymer (Liquid Crystal Polymer, LCP), thin
Glass or the combination of previous materials.
The embedded touch display device of tool Anneta module of open this case second preferred embodiment of Fig. 8
Structural representation.The touch control display apparatus 2 of the present embodiment are similar to embodiment illustrated in fig. 6 and identical
Element numbers represent identical element, structure and function, repeat no more in this.Different from Fig. 6 institute
The touch control display apparatus 2 showing, the touch-control thin film 1 of the touch control display apparatus 2 of the present embodiment is embedded at partially
Between the color filter element 231 of tabula rasa 22 and LCD MODULE 23.Alternatively, as Fig. 9
Shown, the touch-control thin film 1 of touch control display apparatus 2 also can be embedded at the transistor of LCD MODULE 23
Between array layer 233 and lower Polarizer 24.Similarly, as shown in Figure 10, touch control display apparatus 2
Touch-control thin film 1 also can be embedded between lower Polarizer 24 and backlight module 25.In fact except front
State enforcement exception, the touch-control thin film 1 of this case also can be embedded when preparing LCD MODULE 23 in advance
Between color filter element 231 and liquid crystal layer 232, or it is embedded at liquid crystal layer 232 and transistor array
Between row layer 233, subsequently structure dresses up the touch control display apparatus 2 of this case again, thereby can be whole by Anneta module
Together in embedded touch display device.It should be noted that the stacking knot of the touch control display apparatus 2 of this case
Structure can adjust change according to practical application request, and the position that wherein touch-control thin film 1 is embedded is closer to top
During glass plate body 21, touch control display apparatus 2 electrically will be better, but optical characteristics can be poor, phase
Instead, the position that touch-control thin film 1 is embedded further away from top glass plate body 21 when, touch control display apparatus
2 electrically will be poor, but optical characteristics can preferably.
Figure 11 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 11, in
Carry out reflection loss test, significantly be can be seen that by comparison diagram makes under the frequency range of 1GHz to 7GHz
With the ultra-thin feeder line of this case Anneta module and its signal interference value of mode of metallic shield element close to
0, therefore can reach the result suitable with feeder line with traditional external-added antenna and effect.
In sum, this case provides a kind of tool metal grill touch-control thin film of Anneta module and embedded
Touch control display apparatus, metal grill circuit and Anneta module are all arranged at least one transparent substrates by it
At least one surface, to be integrated into the metal grill touch-control thin film of tool Anneta module.Due to embedded touch
Display device adopts the metal grill circuit in touch-control thin film as touch-control sensing electrode, therefore has low
In the resistance value of ito transparent electrode and preferably regarding effect, also can be by controlling the gold of metal grill circuit
The thickness belonging to micro-line is adjusting resistance value, therefore can be introduced directly into touch control display apparatus without interfering
With the puzzlement of time division multiplexing, it is not required to separately add shielding element.Simultaneously in the lump integral antenna module with gold
Belong to grid touch-control sensing electrode structure, also favorably facilitate the structure of overall touch control display apparatus lightening,
Reduce thickness, and can achieve the function of touch-control and wireless signal transmitting-receiving.
Additionally, the embedded touch display device of this case adopts aforesaid metal grill touch-control thin film, because
This have splendid have high touch-control resolution concurrently depending on effect, extremely low reflectance, no-reflection colour cast, tool is high integrates
Yield, tool antistatic effect, and do not affect to be applied to the screen of UHD, QWHD of high-res
Depending on effect.Moreover, metal grill circuit and Anneta module are all arranged at least one in same stage process step
On transparent substrates, can Simplified flowsheet, and reduce the loss of technique and material cost, and can improve good
Rate, production reliability and customized flexibility ratio, and signal can be avoided to disturb, lifting is straight-through good
Rate.Additionally, the touch-control thin film after integrating can be considered that flexible type element, communication and touch controllable function can simultaneously
By design, and realize boundless mount structure and three-dimensional covering plate structure application further.What is more,
The ultra-thin feeder line complexed metal shielding element of Anneta module can effectively suppress signal to disturb.
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 metal grill touch-control thin film of tool Anneta module is it is adaptable to an embedded touch display device,
It is characterized in that, the metal grill touch-control thin film of this tool Anneta module comprises:
At least one transparent substrates;
One metal grill circuit, is arranged at least one surface of this at least one transparent substrates, and is used for being formed
One visual Touch Zone;
Multiple metal lead wires, are arranged at this at least one surface of this at least one transparent substrates, and are laid in this
The periphery of visual Touch Zone is for forming a perimeter circuit area, and is electrically connected with this metal grill circuit;
And
One Anneta module, including an antenna radiator and a ultra-thin feeder line, wherein the one of this ultra-thin feeder line
End is connected to this antenna radiator, and this antenna radiator and this ultra-thin feeder line are arranged at this at least one printing opacity base
This at least one surface of plate, and it is located at this perimeter circuit area, and be isolated with the plurality of metal lead wire.
2. the metal grill touch-control thin film of tool Anneta module as claimed in claim 1 is it is characterised in that be somebody's turn to do
This ultra-thin feeder line of Anneta module has a feed point and an earth point, and this feed point and this earth point are respectively
Connect element and one second with the one first of a circuit board and connect element and contact and turn on, wherein this feed point
With one first conductive protecting layer and one second conductive protecting layer are respectively provided with this earth point.
3. the metal grill touch-control thin film of tool Anneta module as claimed in claim 1 is it is characterised in that be somebody's turn to do
Metal grill circuit includes an induction electrode and an emission electrode, this induction electrode and this emission electrode phase
Mutually isolate and be respectively arranged at a upper surface or a lower surface of this at least one transparent substrates, and this antenna spoke
Beam and this ultra-thin feeder line respectively with this induction electrode and this emission electrode one of which one-shot forming arrange
In same surface.
4. the metal grill touch-control thin film of tool Anneta module as claimed in claim 1 is it is characterised in that be somebody's turn to do
At least one transparent substrates include:
One first transparent substrates;And
One second transparent substrates, are fitted with this first transparent substrates.
5. the metal grill touch-control thin film of tool Anneta module as claimed in claim 4 is it is characterised in that be somebody's turn to do
Metal grill circuit includes an induction electrode and an emission electrode, this induction electrode and this emission electrode phase
Mutually isolate, this induction electrode and this emission electrode one of are wherein arranged at this first transparent substrates, this sense
Answer the other of electrode and this emission electrode to be arranged at this second transparent substrates, and this antenna radiator with
This ultra-thin feeder line is arranged at this first transparent substrates and is located at this perimeter circuit area.
6. the metal grill touch-control thin film of tool Anneta module as claimed in claim 5 is it is characterised in that be somebody's turn to do
Anneta module also includes a metallic shield element, is arranged at this first transparent substrates and this second transparent substrates,
And be isolated with this ultra-thin feeder line, and ring sets and coats this ultra-thin feeder line.
7. the metal grill touch-control thin film of tool Anneta module as claimed in claim 6 is it is characterised in that be somebody's turn to do
Metallic shield element includes one first shielding metal level, a secondary shielding metal level, one the 3rd shielding metal
Layer and one the 4th shielding metal level, wherein this secondary shielding metal level with the 3rd shielding metal level with should
Ultra-thin feeder line is arranged at the same surface of this first transparent substrates, this first shielding metal level be arranged at this
One transparent substrates and with respect to this ultra-thin feeder line, the 4th shielding metal level is arranged at this second transparent substrates
And with respect to this ultra-thin feeder line.
8. the metal grill touch-control thin film of tool Anneta module as claimed in claim 1 is it is characterised in that be somebody's turn to do
Transparent substrates are flexible transparent substrates.
9. the metal grill touch-control thin film of tool Anneta module as claimed in claim 1 is it is characterised in that be somebody's turn to do
The other end of ultra-thin feeder line is connected to a winding displacement connecting portion.
10. a kind of embedded touch display device of tool Anneta module is it is characterised in that comprise:
One display module;
Polarizer on one, is arranged at a upper surface of this LCD MODULE;
Polarizer once, is arranged at a lower surface of this LCD MODULE;And
The metal grill touch-control thin film of one tool Anneta module, is arranged at a upper surface of Polarizer on this, is somebody's turn to do
Display module and on this between Polarizer, the inside of this display module, this display module and this lower Polarizer
Between, or a lower surface of this lower Polarizer, and comprise:
At least one transparent substrates;
One metal grill circuit, is arranged at least one surface of this at least one transparent substrates, and is used for
Form a visual Touch Zone;
Multiple metal lead wires, are arranged at this at least one surface of this at least one transparent substrates, and lay
For forming a perimeter circuit area and electrical with this metal grill circuit in the periphery of this visual Touch Zone
Connect;And
One Anneta module, including an antenna radiator and a ultra-thin feeder line, wherein this ultra-thin feeder line
One end be connected to this antenna radiator, it is at least one saturating that this antenna radiator and this ultra-thin feeder line are arranged at this
This at least one surface of photopolymer substrate, and it is located at this perimeter circuit area, and be isolated with the plurality of metal lead wire.
The embedded touch display device of 11. tool Anneta modules as claimed in claim 10, its feature exists
Be a LCD MODULE in, this display module, and include sequentially being stacked a color filter element,
One liquid crystal layer and a transistor array layer.
The embedded touch display device of 12. tool Anneta modules as claimed in claim 11, its feature exists
In also including:
One glass cover-plate, is arranged at this upper surface of Polarizer on this;And
One backlight module, is arranged at this lower surface of this lower Polarizer.
The embedded touch display device of 13. tool Anneta modules as claimed in claim 12, its feature exists
In the metal grill touch-control thin film of this tool Anneta module is arranged at this upper surface of Polarizer, this coloured silk on this
Color filter element and on this between Polarizer, between this color filter element and this liquid crystal layer, this liquid crystal layer
And this transistor array layer between, between this transistor array layer and this lower Polarizer, or this lower Polarizer
And this backlight module between.
The embedded touch display device of 14. tool Anneta modules as claimed in claim 10, its feature exists
In this ultra-thin feeder line of this Anneta module has a feed point and an earth point, and this feed point and this ground connection
Point connects element and one second with the one first of a circuit board respectively and connects element and contacts and turn on, wherein
It is respectively provided with one first conductive protecting layer and one second conductive protecting layer on this feed point and this earth point.
The embedded touch display device of 15. tool Anneta modules as claimed in claim 10, its feature exists
In this metal grill circuit includes an induction electrode and an emission electrode, this induction electrode and this transmitting
Electrode is mutually isolated and a upper surface that be respectively arranged at this at least one transparent substrates or a lower surface, and should
Antenna radiator and this ultra-thin feeder line respectively with this induction electrode and this emission electrode one of which one-shot forming
Be arranged at same surface.
The embedded touch display device of 16. tool Anneta modules as claimed in claim 10, its feature exists
In this at least one transparent substrates includes:
One first transparent substrates;And
One second transparent substrates, are fitted with this first transparent substrates.
The embedded touch display device of 17. tool Anneta modules as claimed in claim 16, its feature exists
In this metal grill circuit includes an induction electrode and an emission electrode, this induction electrode and this transmitting
Electrode is mutually isolated, and this induction electrode and this emission electrode one of are wherein arranged at this first transparent substrates,
This induction electrode is arranged at this second transparent substrates with the another one of this emission electrode, and this antenna radiator
It is arranged at this first transparent substrates with this ultra-thin feeder line and be located at this perimeter circuit area.
The embedded touch display device of 18. tool Anneta modules as claimed in claim 17, its feature exists
In this Anneta module also includes a metallic shield element, is arranged at this first transparent substrates second saturating with this
Photopolymer substrate, and be isolated with this ultra-thin feeder line, and ring sets and coats this ultra-thin feeder line.
The embedded touch display device of 19. tool Anneta modules as claimed in claim 18, its feature exists
In this metallic shield element includes one first shielding metal level, a secondary shielding metal level, one the 3rd screen
Cover metal level and one the 4th shielding metal level, wherein this secondary shielding metal level and the 3rd shielding metal
Layer and this ultra-thin feeder line are arranged at the same surface of this first transparent substrates, this first shielding metal level setting
In this first transparent substrates and with respect to this ultra-thin feeder line, it is second saturating that the 4th shielding metal level is arranged at this
Photopolymer substrate and with respect to this ultra-thin feeder line.
The embedded touch display device of 20. tool Anneta modules as claimed in claim 10, its feature exists
In the other end of this ultra-thin feeder line is connected to a winding displacement connecting portion.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201510541241.1A CN106484163A (en) | 2015-08-28 | 2015-08-28 | The metal grill touch-control thin film of tool Anneta module and embedded touch display device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201510541241.1A CN106484163A (en) | 2015-08-28 | 2015-08-28 | The metal grill touch-control thin film of tool Anneta module and embedded touch display device |
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CN106484163A true CN106484163A (en) | 2017-03-08 |
Family
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CN201510541241.1A Pending CN106484163A (en) | 2015-08-28 | 2015-08-28 | The metal grill touch-control thin film of tool Anneta module and embedded touch display device |
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Application publication date: 20170308 |