CN104589770A - Multi-layer touch control surface material based on intelligent information equipment - Google Patents

Abstract

The present invention provides a multi-layer touch control surface material based on intelligent information equipment. The adhering film comprises a protection layer, an adhering layer and a substrate layer, and is provided with an electric conduction layer with the function of cross-regional signal transduction, wherein the electric conduction layer is partially covered in the structure layer of the adhering film. With the multi-layer touch control surface material based on the intelligent information equipment, the cross-regional signal transduction can be achieved, a variety of functions capable of being set and adjusted by users can be added, the blank position of the user operation interface can be utilized to add the new function and add the virtual key, and especially the quick key and the user favorite shortcut can be set on the equipment operating surface.

Description

Based on the multilayer touch-control surface material of Intelligent information equipment

Technical field

What the present invention relates to is a kind of multilayer touch-control surface material, particularly a kind of multi-functional composite multi-layer touch-control surface material of intelligent information interactive device.

Background technology

Along with getting more and more of smart machine, corresponding auxiliary function exploitation and application also get more and more, and wherein sticking film for mobile phone one of is exactly.

Sticking film for mobile phone can be divided into according to its purposes: film for mobile phone screen, handset pad pasting; Can be divided into according to function: mobile phone screen peep-proof pad pasting, the scratch resistant pad pasting of mobile phone screen, handset anti-scratch pad pasting, handset decorative adhesive film; Can be divided into according to its material: the transparent pad pasting of mobile phone, colored pearl pad pasting, color pearl pad pasting; Principle according to pad pasting mounting can be divided into: gum pad pasting, electrostatic pad pasting etc.The appearance of sticking film for mobile phone has brought a lot of convenience, and fashionable group can decorate mobile phone by oneself selecting the pattern liked, has taken leave of flat colour, has shown personalized wind coloured silk especially, to a kind of brand-new visual impact of people; Screen is protected by regular pad pasting, and not only mobile phone screen can from the invasion of cut, greasy dirt, and can alleviate eye fatigue when owner uses mobile phone; The people be placed in by mobile phone in pocket gets more and more now, the puzzlement that everybody has cell phone keyboard, screen enters dust, and by the pad pasting of handset and screen, these problems are all effectively solved.

Although there are many advantages, but existing pad pasting function singleness, namely the multilayer touch-control surface material function of this pad pasting is comparatively single, is confined to above-mentioned function, and as the smart machine at Man Machine Interface or interface and application, also have a lot of functions to develop.Particularly there is a lot of blank spaces at the edge of the display screen of user, wastes very much.Interactive window and operation interface do not have shortcut or shortcut yet in addition, can not carry out quick start-up and operation to conventional software or application, so, composite or the functional material of special function is not had based on this pad pasting.

Summary of the invention

The present invention is just to provide a kind of function based on information interaction equipment, especially based on the multilayer touch-control surface material of capacitive touch screen, and be similar to the Touch Screen of this type of electrical signal conduction, not only can utilize the blank space of user interface, be used for increasing virtual key, the shortcut that bug and user oneself like can also be set.

The object of the invention is to be realized by technical scheme below:

A kind of multilayer touch-control surface material based on Intelligent information equipment; this multilayer touch-control surface material comprises protective layer, adhesive layer and substrate layer; it is characterized in that: described multilayer touch-control surface material has the conductive layer of trans-regional conducted signal, this conductive layer local complexity is in the structure sheaf of multilayer touch-control surface material.

Preferably, between the substrate layer of described conductive layer inside multilayer touch-control surface material and adhesive layer.

Preferably, described conductive layer is combined by any one in electrically-conducting paint, electrically conductive ink or macromolecule conducting material or its.

Further, described conductive layer is Nano Silver coating.

Further, described conductive layer is transparent.

Preferably, described multilayer touch-control surface material also comprises a marker.

Further, described marker is between the substrate layer and adhesive layer of multilayer touch-control surface outer material side.

Like this, by above-mentioned technical scheme, just can reach such effect: increase multiple user and can arrange and the function regulated, the blank space of the display screen of the information interaction equipment of user can be utilized to increase new function, expand the effective usable floor area of screen, be used for increasing virtual key, particularly equipment operating surface, the shortcut that bug and user oneself like can also be set.

Accompanying drawing explanation

Fig. 1 is a kind of schematic diagram based on information interaction equipment multilayer touch-control surface material proposed by the invention.

Illustrate in figure:

1. protective layer;

2. adhesive layer;

3. substrate layer;

4. marker;

5. conductive layer.

Detailed description of the invention

Below in conjunction with accompanying drawing, structure of the present invention is further detailed.

A kind of multilayer touch-control surface material based on Intelligent information equipment; this multilayer touch-control surface material comprises protective layer 1, adhesive layer 2 and substrate layer 3; it is characterized in that: described multilayer touch-control surface material has the conductive layer 5 of trans-regional conducted signal, this conductive layer 5 local complexity is in the structure sheaf of multilayer touch-control surface material.

In the present embodiment, described conductive layer 5 is between substrate layer 3 and adhesive layer 2.

In another preferred embodiment, between the substrate layer 3 of described conductive layer 5 inside multilayer touch-control surface material and adhesive layer 2.

In the present embodiment, described multilayer touch-control surface material also comprises a marker 4.

In another preferred embodiment, described marker 4 is between substrate layer 3 and adhesive layer 2.

In another preferred embodiment, described marker 4 is between the substrate layer 3 and adhesive layer 2 of multilayer touch-control surface outer material side.

In the present embodiment, described conductive layer 5 is combined by any one in electrically-conducting paint, electrically conductive ink or macromolecule conducting material or its.

In another preferred embodiment, described conductive layer 5 is Nano Silver coating.

This multilayer touch-control surface material will be applied on the information interaction such as smart mobile phone, panel computer equipment, in order to not affect the display of Touch Screen, so the light transmittance of the material of described conductive layer 5 employing is very important, secondly, in order to realize quick, real-time trans-regional conducted signal, its requirement has excellent conductance.

ITO (Indium Tin Oxide) is although be current most widely used transparent electrode material, but due to ito thin film and indium tin oxide transparent conductive semiconductor film harder, be unsuitable on the flexible mobile phone multilayer touch-control surface material that needs to carry out bending, therefore conductive layer 5 does not in the present embodiment adopt ITO.

In addition, conductive layer 5 can also adopt and prepare based on conductive materials such as conducting polymer, CNT, Graphene, electrospun nanofiber copper wire, type metal grid, nano-silver threads.This is wherein as conducting polymer composite PEDOT:PSS, but the usual conductance of this material is all lower, and absorptivity is high, especially in visible wavelength range; For another example its sheet resistance of transparent electrode material of preparing of carbon nano-tube material is up to 1000-5000ohm/sq.And this wherein, wherein performance is the most excellent to adopt the transparency electrode prepared based on silver nano material to be proved to be this, and it can also keep the electric property of 100ohm/sq while having 90% light transmittance, surfacing simultaneously, resistance to bending, adhesive force is good.Certainly, this conductive layer 5 also can be the mixture composition of conducting polymer composite and nano silver material.

In the present embodiment, described conductive layer is transparent.

In the present embodiment, adhesive layer 2 and protective layer 1 as shown in Figure 1, are double-decker in the present embodiment, lay respectively at the inside and outside both sides of substrate layer 3, and wherein, protective layer 1 is positioned at above adhesive layer 2.In the present embodiment, described nano-silver conductive layer 5 local complexity is between the substrate layer 3 and adhesive layer 2 of inner side.But be not limited to the preferred embodiment, this conductive layer 5 can between the substrate layer 3 in outside and adhesive layer 2, also can between the protective layer 1 in inner side or outside and adhesive layer 2.

Above-mentioned interior outside is for the display screen of information interaction equipment or Touch Screen, is the inner side of multilayer touch-control surface material, otherwise is the outside of multilayer touch-control surface material during its laminating near the side of display screen.

In the present embodiment, described nano-silver conductive layer 5 is that being evenly coated on substrate layer 3 of dispersion liquid local of Nano Silver is formed after drying, by applying pressure, heat or both combinations to improve the conductance of nano-silver conductive layer 5.

In the present embodiment, described substrate layer 3 is preferably PET film.Certainly, also can be PE or PI film.Or the one that can be in glass, polyolefin, polyether-ketone, polyimides (PI), PETG (PET), polyacrylate, silicone, polyethylene, glass resin, Merlon, fluoropolymer, polyester, or the copolymer of above material or mixture or laminate.

In the present embodiment, described protective layer 1 is mould release membrance, and wherein said mould release membrance is formed for coating after PET or PE or PI film through silicone release agent, and mould release membrance after treatment shows extremely light and stable off-type force.Described mould release membrance is peelable.Mould release membrance used is general more weak with the cohesive force between other materials, and mould release membrance after treatment shows extremely light and stable off-type force, and after forming transparency electrode, it can as protective layer 1.

In the present embodiment, described adhesive layer 2 is Optical transparent adhesive.Also can be the mixture of polyurethane and polyurethane curing agent thereof or the solution of thermoplastic polyester or there is the good thermosetting epoxy resin of bending property and the mixture of curing agent through to heat or ultraviolet light toasts Post RDBMS and forms the macromolecular material with well bending property.

In the present embodiment, described information interaction equipment is our modal mobile phone, TV, panel computer, smart camera and other smart machine etc., these equipment have an interactive interface, and these interfaces occur mainly with the mode of touch screen at present, and touch screen is main mainly with capacitance touching control screen, and multilayer touch-control surface material proposed by the invention also mainly carrys out design and implementation for capacitive touch screen.

Using smart mobile phone as user terminal, the present embodiment is mainly implemented in mobile phone body, body has display screen, namely described capacitive touch screen, in addition, there are some marks on the display screen, i.e. Mobile phone touch control button, this touch controlled key can be in display screen region, in the effective range of i.e. capacitive touch screen, also can outside display screen region, namely beyond the effective range of capacitive touch screen, touch controlled key is set again, to realize modal returning, homepage, the functions such as menu, these function keys are the most common in based on the mobile phone of Android system.

And general mobile phone all needs multilayer touch-control surface material, simultaneously traditional multilayer touch-control surface material does not increase any new function except protection and beautification function.

Above-mentioned is the most common configuration of existing smart mobile phone, in order to realize function of the present invention, existing multilayer touch-control surface material is being carried out extension and improvement, to realize function of the present invention and to get a desired effect.

In the present embodiment, add one deck conductive layer 5 to above-mentioned multilayer touch-control surface material, this conductive layer 5 is main to be applied to master, and namely occurring with the form of coating, also can be thin film.This conductive layer 5 is coated in the both sides of multilayer touch-control surface material substrate layer, is just coated in outboard signal sensitive but be easy to wearing and tearing, is coated in that the inner side life-span is long but susceptibility is slightly poor.

Conductive layer 5 local complexity are in the specific region of multilayer touch-control surface material substrate layer 3 or appointed area, there is Touch Zone, the position of triggering is pointed because Touch Zone is user, a suitable virtual button, effective display area again in order to not make this Touch Zone not take original display screen, so Touch Zone is arranged on beyond the effective range of capacitance touching control screen, beyond the effective coverage of namely display screen, also have, this conductive layer 5 extends and the specific region of corresponding device capacitance touching control screen, namely there is the icon area of corresponding mark in display screen, like this, the human-induced signal produced when triggering in Touch Zone, due to the conduction of conductive layer 5, directly pass to icon area, to trigger icon shown on display screen corresponding to icon area and program.

Above-mentioned situation is corresponding common situation, conductive layer 5 and corresponding Touch Zone and icon area are rectangle, but find in test, conductive layer 5 can be various shape, in order to be suitable for different capacitive screens, and being suitable for different display interface designs, conductive layer 5 can make multiple different shape, makes it have predefined shape.

Also can know from the above embodiments, described conductive layer 5 continuous distributed within the effective coverage of display screen and the effective coverage of display screen with exterior domain, the shape of conductive layer 5 is corresponding.

In addition, the above-mentioned conductive layer with predefined shape has multiple, can various ways arrangement or the assembled arrangement such as tandem, horizontally-arranged, oblique row, like this, can adapt to the characteristic of software and meet the individual needs of user.

Meanwhile, for making above-mentioned Touch Zone more apparent, can identify at printed thereon, making it have visible mark, to facilitate user accurately trigger and control, the marker 4 of the circle namely shown in Fig. 1.Certainly, this marker can have arbitrary shape.

Further, described conductive layer 5, with transparent conductive material preparation, is printed on like this on screen and just can not has an impact to display.

And conductive layer 5 covers with one of serigraphy, coating, obliterating, spraying, showering, Tianjin painting, dipping, sputtering etc. or group technology or is combined in the substrate layer 3 of multilayer touch-control surface material.

Like this, by above-mentioned technical scheme, just can reach such effect: by increasing the conductive layer with trans-regional conducted signal of the continuous distributed of a local on common multilayer touch-control surface material, achieve the trans-regional response of finger touch signal, namely this multilayer touch-control surface material pastes with on capacitance touching control display screen by user, user only needs this conductive layer of finger touch to be positioned at Touch Zone outside display screen, the function that this conductive layer is positioned at the icon area of display screen can be realized, increase multiple user can arrange and the function regulated, the blank space of user interface can be utilized to increase new function, the shortcut that bug and user oneself like can also be set.

Although only illustrate a preferred embodiment of the present invention here, its meaning not limits the scope of the invention, applicability and configuration.On the contrary, those skilled in the art can be made to be implemented the detailed description of embodiment.Will be understood that without departing from the spirit and scope as defined in the invention, can make the appropriate changes and modifications some details.

Claims (10)

1. based on a multilayer touch-control surface material for Intelligent information equipment, this pad pasting comprises protective layer, adhesive layer and substrate layer, it is characterized in that: described pad pasting has the conductive layer of trans-regional conducted signal, and this conductive layer local complexity is in the structure sheaf of pad pasting.

2., as claimed in claim 1 based on the multilayer touch-control surface material of Intelligent information equipment, it is characterized in that: described conductive layer is between substrate layer and adhesive layer.

3. the multilayer touch-control surface material based on Intelligent information equipment as described in as arbitrary in claim 1 or 2, is characterized in that: between the substrate layer of described conductive layer inside pad pasting and adhesive layer.

4. the multilayer touch-control surface material based on Intelligent information equipment as described in as arbitrary in claim 1 or 2, is characterized in that: described pad pasting also comprises a marker.

5., as claimed in claim 3 based on the multilayer touch-control surface material of Intelligent information equipment, it is characterized in that: described pad pasting also comprises a marker.

6., as claimed in claim 4 based on the multilayer touch-control surface material of Intelligent information equipment, it is characterized in that: described marker is between substrate layer and adhesive layer.

7. as claimed in claim 6 based on the multilayer touch-control surface material of Intelligent information equipment, it is characterized in that: between the substrate layer of described marker outside pad pasting and adhesive layer.

8. the multilayer touch-control surface material based on Intelligent information equipment as described in as arbitrary in claim 1 or 2, is characterized in that: described conductive layer is combined by any one in electrically-conducting paint, electrically conductive ink or macromolecule conducting material or its.

9., as claimed in claim 8 based on the multilayer touch-control surface material of Intelligent information equipment, it is characterized in that: described conductive layer is Nano Silver coating.

10., as claimed in claim 8 based on the multilayer touch-control surface material of Intelligent information equipment, it is characterized in that: described conductive layer is transparent.