CN101887321A - Push input device - Google Patents

Abstract

The invention discloses a push input device which comprises a lower conducting layer, an upper conducting layer and an adhesion layer, wherein the upper conducting layer is provided with a second base plate and a second conducting layer, the second conducting layer faces toward the lower conducting layer and is arranged on the second base plate, a plurality of conducting areas are arranged on the second conducting layer and are mutually and electrically insulated, and at least one of the conducting areas is provided a signal transmission wire; the upper conducting layer and the lower conducting layer are mutually bonded through the adhesion layer.

Description

Push input device

Technical field

The present invention relates to a kind of push input device, relate in particular to a kind of push input device that can obtain simultaneously more than one group of (x axle, y axle) coordinate values.

Background technology

Along with the progress of numeral science and technology, various information treatment facilities are flourish with surprising rapidity.Under the tide of this digital information, owing to have the convenience of height, push input device is used as the input equipment of digital electronic device already widely, from PDA(Personal Digital Assistant), mobile phone to notebook computer, even industrial computer, all can see the application of push input device everywhere.

See also Fig. 1, it is the synoptic diagram of known push input device.The push input device 10 that is disclosed among Fig. 1 mainly is made of elements such as lower conductiving layer 11, last conductive layer 12, double faced adhesive tape 13 and separation materials (spacer) 14.Wherein lower conductiving layer 11 is by indium tin oxide (ITO), fluorine tin-oxide (Fluorine Tin Oxide are arranged in surface coated with 12 of last conductive layers, FTO), antimony tin oxide (Antimony Tin Oxide, ATO) or poly terephthalic acid diethylester (PET), polycarbonate (PC) or the glass of carbon ink conducting objects (Carbonate) etc. constitute.Also be provided with separation material 14 on the lower conductiving layer 11 separating both and to avoid lower conductiving layer 11 and the conducting voluntarily of last conductive layer 12, engage by double faced adhesive tape 14 between last conductive layer 12 and the lower conductiving layer 11.The surface of last conductive layer 12 has pushes surperficial S, and the user makes lower conductiving layer 11 contact and conducting with last conductive layer 12 by pushing surperficial S.Push input device 10 can detect the position of pushing and produce controlling signal, and an output circuit (not being shown among the figure) is connected in the side of conductive layer 12 and lower conductiving layer 11, in order to the output controlling signal.

But above-mentioned known push input device, its mode that only allows at one time a specified point to be pushed produces controlling signal by pushing surperficial S.But occasion at majority, above-mentioned mode of operation, for the user is inadequately easily, therefore the push input device of pushing input that can accept at one time more than two has just been arranged, push input and comprise one group of x axle, y axle bed scale value for common one, but these push input device still have bulk strength deficiency, not anti-reflection, not UV resistant (UV), not scratch resistance, acid and alkali-resistance and do not have whole plane to push the various disappearances on surface or the like not usually.

Duty is event, and the applicant tests and studies through concentrated in view of the disadvantages that is produced in the known technology, and a spirit of working with perseverance, and visualizes this case eventually to overcome above-mentioned shortcoming, below is the brief description of this case.

Summary of the invention

In view of the push input device in the known technology can't be accepted the more than one input of pushing usually simultaneously, push input and comprise one group of x axle, y axle bed scale value for common one, the present invention proposes a kind of more than one resistance-type push input device of pushing input that allows to accept simultaneously, to give the man-machine interface control mode brand-new style and features, the present invention simultaneously also improves the surface of pushing that makes it have high strength, antireflection, UV resistant (UV), scratch resistance, acid and alkali-resistance and whole plane is provided comprehensively to push input device.Push input device of the present invention can be widely used on the handheld apparatus of all kinds of portable products, household electrical appliances application or small-medium size panel.

Therefore according to first conception of the present invention, propose a kind of push input device, it comprises: a lower conductiving layer; Conductive layer on one, it has one second substrate and one second conductive layer; An and adhesion layer, upward conductive layer and this lower conductiving layer are engaged with each other by this adhesion layer, wherein this second conductive layer is arranged at this second substrate towards this lower conductiving layer, have a plurality of conduction regions on this second conductive layer, each those conduction region is electrically insulated each other, and those conduction regions at least one conduction region wherein has a signal transmission line.

Preferably, push input device provided by the present invention, wherein this lower conductiving layer has one first substrate and one first conductive layer, and those conduction regions be shaped as mutually the same, differ from one another, part is identical or the part is different.

Preferably, push input device provided by the present invention, more comprise: a strong layer, it is arranged at this first substrate below, wherein the material of this strong layer is a light-permeable plastifying material or a glass, wherein this light-permeable plastifying material comprises a polycarbonate or a polymethylmethacrylate, and this glass comprises a safety glass or a tempered glass.

Therefore according to second conception of the present invention, a kind of push input device is proposed, it has a lower conductiving layer, a conductive layer and an adhesion layer on one, wherein this lower conductiving layer has one first substrate and one first conductive layer, should go up conductive layer and have one second substrate and one second conductive layer, this second conductive layer is arranged at this second substrate towards this first conductive layer, upward conductive layer and this lower conductiving layer are engaged with each other by this adhesion layer, it comprises: a glassy layer, be arranged on this on conductive layer, wherein have a plurality of conduction regions on this second conductive layer, each those conduction region is electrically insulated each other, and those conduction regions at least one conduction region wherein has a signal transmission line.

Preferably, push input device provided by the present invention more comprises: a uvioresistant layer, go up between the conductive layer between this glassy layer and this, and wherein this uvioresistant layer is a polaroid or a three cellulose acetate membrane.

Preferably; push input device provided by the present invention; more comprise: at least one protective seam; it is arranged on this glassy layer, and wherein this at least one protective seam is an anti-reflecting layer, a Bewildering resistance layer, an anti-soil layer, an anti-mist layer, an antibiotic layer, an anti-fingerprint layer, a uvioresistant layer or its combination.

Preferably, push input device provided by the present invention, wherein: this glassy layer is arranged on this on conductive layer by an optics glue-line, and this optics glue-line is an optical clear glue-line; Or this glassy layer is through antireflection, anti-dizzy, anti-soil, anti-mist, antibiotic, anti-fingerprint and the uvioresistant glass of at least a processing wherein.

Preferably, push input device provided by the present invention, wherein: the thickness of this glassy layer is between the scope of 0.05mm to 0.5mm; Or this adhesion layer is a solid-state double faced adhesive tape or a liquid glue.

Preferably, push input device provided by the present invention, more comprise: a strong layer, be arranged at this lower conductiving layer below, wherein the material of this strong layer is a light-permeable plastifying material or a glass, wherein this light-permeable plastifying material comprises a polycarbonate or a polymethylmethacrylate, and this glass comprises a safety glass or a tempered glass.

Therefore according to the 3rd conception of the present invention, a kind of push input device is proposed, it has a conductive layer and an adhesion layer on the lower conductiving layer,, wherein this lower conductiving layer has one first substrate and one first conductive layer, should go up conductive layer and have one second substrate and one second conductive layer, this second conductive layer is arranged at this second substrate towards this first conductive layer, upward conductive layer and this lower conductiving layer are engaged with each other by this adhesion layer, it comprises: one first phase separation layer, and it is arranged at a side of this first substrate; And one second phase separation layer, it is arranged at a side of this second substrate, wherein has a plurality of conduction regions on this second conductive layer, and each those conduction region is electrically insulated each other, and those conduction regions at least one conduction region wherein has a signal transmission line.

Preferably, push input device provided by the present invention more comprises: a polaroid is arranged on this second phase separation layer top; And at least one protective seam, be arranged on this polaroid top, and this push input device, more comprise: an antireflecting coating is arranged at a side of this at least one protective seam; Or a glassy layer, be arranged at this at least one protective seam top, wherein: this glassy layer is arranged on this on conductive layer by an optics glue-line, and this optics glue-line is an optical clear glue-line; Or this glassy layer is through antireflection, anti-dizzy, anti-soil, anti-mist, antibiotic, anti-fingerprint and the uvioresistant glass of at least a processing wherein.

Preferably; push input device provided by the present invention, wherein the material of this first phasic difference film and the second phasic difference film is respectively polycarbonate, poly-aryl bornylene, polyethers stone wind, poly-cycloolefin, poly-aryl acid esters, poly-to naphthalenedicarboxylic acid diethylester, tri acetyl cellulose, glass, polymethylmethacrylate or its combination.

Preferably, push input device provided by the present invention, wherein this first phasic difference film and the second phasic difference film are 1/4 λ phasic difference films.

Preferably, push input device provided by the present invention more comprises: a strong layer is arranged at this first substrate below.

Therefore according to the 4th conception of the present invention, a kind of push input device is proposed, it has a conductive layer and an adhesion layer on the lower conductiving layer,, wherein this lower conductiving layer has one first substrate and one first conductive layer, should go up conductive layer and have one second substrate and one second conductive layer, this second conductive layer is arranged at this second substrate towards this first conductive layer, upward conductive layer and this lower conductiving layer are engaged with each other by this adhesion layer, it comprises: an optics etc. are to layer, and it is arranged at a side of this second substrate; And a polaroid, it is arranged at the side to layer such as this optics, wherein has a plurality of conduction regions on this second conductive layer, and each those conduction region is electrically insulated each other, and those conduction regions at least one conduction region wherein has a signal transmission line.

Description of drawings

Fig. 1 is the synoptic diagram of known push input device;

Fig. 2 (A) is the cross sectional side view of Improvement type push input device of the present invention;

Fig. 2 (B) is a conduction region synoptic diagram of the present invention;

Fig. 3 is the cross sectional side view of strong Improvement type push input device of the present invention;

Fig. 4 has the synoptic diagram of the Improvement type push input device of glassy layer for the present invention;

Fig. 5 (A) is the cross sectional side view of first embodiment of antireflection push input device of the present invention; And

Fig. 5 (B) is the cross sectional side view of second embodiment of antireflection push input device of the present invention.

[main element symbol description]

10: push input device 11: lower conductiving layer

12: go up conductive layer 13: double faced adhesive tape

14: separation material S: push the surface

20: Improvement type push input device 21: lower conductiving layer

21a: the first conductive layer 21b: first substrate

22: go up conductive layer 22a: second conductive layer

22b: second substrate 23: separation material

24: double faced adhesive tape A, A1, A2: conduction region

30: Improvement type push input device 31: lower conductiving layer

31a: the first conductive layer 31b: first substrate

32: go up conductive layer 32a: second conductive layer

32b: second substrate 35: strong layer

40: Improvement type push input device 41: lower conductiving layer

41a:ITO layer 41b: substrate

42: go up conductive layer 42a:ITO layer

44: the first adhesion layers of 42b:PET substrate

45: glassy layer 48: signal transmission line

46: anti-UV layer 47: protective seam

F: pressing force

501,502: antireflection push input device 52: go up conductive layer

512: the second phase separation layers of 511: the first phase separation layers

52a: second conductive layer 54: polaroid

56: protective seam 57: optics etc. are to layer

Embodiment

This case can fully be understood by following embodiment explanation, make the personage who has the knack of this skill to finish according to this, and the enforcement of right this case is not can be limited it by following case study on implementation to implement kenel.

See also Fig. 2 (A), it is the cross sectional side view of Improvement type push input device of the present invention.Improvement type push input device 20 among Fig. 2 (A) mainly comprises lower conductiving layer 21, goes up conductive layer 22 and a plurality of conduction region A1 and A2.

Lower conductiving layer 21 is engaged with each other by adhesion layer 24 with last conductive layer 22, the adhesion layer 24 preferable various solid-state or liquid double faced adhesive tapes (double side adhesive) that can be, solid-state glue such as double faced adhesive tape, liquid glue such as glue or frame glue etc. are in order to engage lower conductiving layer 21 and to go up conductive layer 22.Have the first substrate 21b and the first conductive layer 21a on the lower conductiving layer 21, have the second substrate 22b and the second conductive layer 22a on the last conductive layer 22, the second conductive layer 22a is arranged at the side of conductive layer 22 towards the first conductive layer 21a.Separation material 23 is arranged at that the first conductive layer 21a goes up and between the first conductive layer 21a and the second conductive layer 22a, when avoiding Improvement type push input device 20 not to be touched, improper between the first conductive layer 21a and the second conductive layer 22a contacts causes short circuit and produces wrong signal.

Has the conductive material that is coated with partitioned mode on the second conductive layer 22a among Fig. 2 (A), be to be electrically insulated each other between each conduction region, and generation is as a plurality of conduction regions of conduction region A1 or conduction region A2 etc., and wherein at least one conduction region is that conduction region A1 or conduction region A2 can have a signal transmission line, when having point more than two to be pushed simultaneously on this Improvement type push input device 20, the second conductive layer 22a is by conduction region A1 and conduction region A2 and electrically conduct simultaneously each other with the first conductive layer 21a, thereby push input device 20 of the present invention just can be accepted the more than one input of pushing simultaneously, push input and comprise one group of x axle for common one, y axle bed scale value is a plurality ofly pushed input and will be comprised many group x axles, y axle bed scale value.

During enforcement, the second conductive layer 22a can be divided into 2 * 2 conduction regions, then push input device 20 just can be accepted the more than one input of pushing simultaneously.Preferred implementation then is that the second conductive layer 22a is divided into n * m conduction region, and it is identical or inequality that n and the number of m can be, and that the conduction region shape after dividing can be is mutually the same, differ from one another, part is identical or the part different, shown in Fig. 2 (B).Thereby Improvement type push input device 20 of the present invention can be accepted the more than one input of pushing simultaneously, and the number of conduction region is looked actual needs and determined then without limits, but the number of conduction region is many more, and the resolution of push input device and sensitivity are good more.

The Improvement type push input device that is disclosed among Fig. 2 (A) and Fig. 2 (B) can also promote integral intensity through strong processing.Please continue to consult Fig. 3, it is the cross sectional side view of strong Improvement type push input device of the present invention.Improvement type push input device 30 among Fig. 3 mainly comprises lower conductiving layer 31, goes up conductive layer 32 and strong layer 35.

Have the first substrate 31b and the first conductive layer 31a on the lower conductiving layer 31, have the second substrate 32b and the second conductive layer 32a on the last conductive layer 32.The second conductive layer 32a is arranged at the side of conductive layer 32 towards the first conductive layer 31a, and lower conductiving layer 31 is engaged with each other by adhesion layer 24 with last conductive layer 32, and separation material 23 is arranged on the first conductive layer 31a.Have the conductive material that is coated with partitioned mode on the second conductive layer 32a of last conductive layer 32, be to be electrically insulated each other between each conduction region, and produce a plurality of conduction region A, to allow the accepting more than one input of pushing simultaneously.

And be the integral rigidity that promotes Improvement type push input device 30, preferable the strong layer 35 of one deck can be set below the first substrate 31b.Strong layer 35 is attached to first substrate 31b bottom by optical cement, and then promotes the integral rigidity and the structural strength of Improvement type push input device 30.The material of strong layer 35 is preferably light-permeable plastifying material or glass, and light-permeable plastifying material such as polycarbonate (PC) or polymethylmethacrylate (PMMA), glass such as safety glass or tempered glass.

The Improvement type push input device that is disclosed among Fig. 2 (A) and Fig. 2 (B) also can and attach glass on its surface, and it is more durable to make it push the surface.See also Fig. 4, it has the synoptic diagram of the Improvement type push input device of glassy layer for the present invention.Improvement type push input device 40 among Fig. 4 has mainly comprised lower conductiving layer 41, has gone up conductive layer 42 and glassy layer 45.

Lower conductiving layer 41 is made of the substrate 41b that indium tin oxide (ITO) layer 41a arranged in surface coated.Substrate 41b is preferably light-permeable plastifying material or glass.Light-permeable plastifying material such as PC, PMMA or acryl, glass such as safety glass or tempered glass.Last conductive layer 42 mainly then is by there being the flexible base plate of the second conductive layer 42a to be constituted in surface coated, and flexible base plate can be pet substrate 42b.Lower conductiving layer 41 and go up conductive layer 42 and engage by adhesion layer 24, separation material 23 is arranged on ITO layer 41a and goes up to separate lower conductiving layer 41 and to go up conductive layer 42.And lower conductiving layer 41 is arranged on the relative below of conductive layer 42, and last conductive layer 42 is arranged on the relative top of lower conductiving layer 41, and the second conductive layer 42a is arranged at the side of conductive layer 42 towards lower conductiving layer 41.

Glassy layer 45 then is to be fixed in conductive layer 42 tops by first adhesion layer 44, first adhesion layer 44 can be various optical cement, as optical lens gelatin (Optically Clear Adhesive, OCA) etc., the thickness of glassy layer 45 is between the scope of 0.05mm to 0.5mm, the top of glassy layer 45 is for pushing surperficial S, has the conductive material that is coated with partitioned mode on the second conductive layer 42a of last conductive layer 42, be to be electrically insulated each other between each conduction region, and produce a plurality of conduction region A, allowing the accepting more than one input of pushing simultaneously, the user pushes surperficial S by contact and lower conductiving layer 41 contacted with last conductive layer 42 produce controlling signal.Article one, signal transmission line 48 is connected in the side of lower conductiving layer 41 and last conductive layer 42, in order to the output controlling signal.

Though on last conductive layer 42, be provided with glassy layer 45, go up the deterioration that pet substrate 42b in the conductive layer 42 still can cause the PET material because of exposing to the open air for a long time under light.Therefore the present invention further adds uvioresistant (UV) layer 46 between last conductive layer 42 and glassy layer 45; anti-UV layer 46 can be polaroid or Triafol T (TAC) film etc.; be incident to the UV of pet substrate 42b with filtering, and protect the pet substrate 42b that goes up in the conductive layer 42.

In order further to promote the functional of Improvement type push input device 40 of the present invention; glassy layer of the present invention 45 is preferable can also to be through antireflection, anti-dizzy, anti-soil, anti-mist, antibiotic, anti-fingerprint and the anti-UV glass of at least a processing wherein, perhaps also at least one protective seam 47 can be set above glassy layer 45 again.At least one protective seam 47 can be wherein one deck at least of anti-reflecting layer, Bewildering resistance layer, anti-soil layer, anti-mist layer, antibiotic layer, anti-fingerprint layer and anti-UV layer, thereby makes push input device 40 of the present invention have more antireflection, anti-dizzy, anti-soil, anti-mist, antibiotic, anti-fingerprint and wherein at least a function of anti-UV.

And be the integral rigidity that promotes Improvement type push input device 40, preferable the strong layer 35 of one deck can be set below substrate 41b.Strong layer 35 is attached to substrate 41b bottom by optical cement, and then promotes the integral rigidity and the structural strength of Improvement type push input device 40.The material of strong layer 35 is preferably light-permeable plastifying material or glass, light-permeable plastifying material such as PC, PMMA or acryl, glass such as safety glass or tempered glass.

The Improvement type push input device that is disclosed among Fig. 2 (A) and Fig. 2 (B) owing to do not pass through anti-reflex treated, when therefore using under having the environment of high brightness, is pushed the surface and can be presented reflex.Please continue to consult Fig. 5 (A), it is the cross sectional side view of first embodiment of antireflection push input device of the present invention.Push input device 501 among Fig. 5 (A) is made of lower conductiving layer 41, last conductive layer 52, first phase separation layer 511, second phase separation layer 512 and the second conductive layer 52a.Last conductive layer 52 has second phase separation layer 512 and the second conductive layer 52a.

First phase separation layer 511 is arranged at lower conductiving layer 41 belows, and second phase separation layer 512 then is arranged on second conductive layer 52a top, and the first phasic difference film 511 and the second phasic difference film 512 are 1/4 λ phasic difference film.The second conductive layer 52a is arranged at the side of conductive layer 52 towards lower conductiving layer 41, is engaged with each other by adhesion layer 24 between the second conductive layer 52a and the lower conductiving layer 41.Establish between the second conductive layer 52a and the lower conductiving layer 41 to have on separation material 23, the second conductive layer 52a and have the conductive material that is coated with partitioned mode.Be to be electrically insulated each other between each conduction region, and produce a plurality of conduction region A that allowing the accepting more than one input of pushing simultaneously, thereby formed antireflection push input device 501 is a rotatory polarization shape push input device.

The material of the first phasic difference film 511 and the second phasic difference film 512 is preferable to can be polycarbonate (PC), poly-aryl bornylene (ARTON), polyethers stone wind (PES), poly-cycloolefin (ZEONOR), tri acetyl cellulose (TAC) or its combination.The preferable low birefringence plastic substrate that adopts of transparent substrates in the lower conductiving layer 41 can be polymethylmethacrylate, optical polycarbonates, safety glass or tempered glass.

Can also look actual needs and polaroid 54 is set on second phase separation layer 512, polaroid 54 tops also can be provided with protective seam 56.Generally speaking, in order to reduce the environment reflection of light, these protective seam 56 surfaces also can further be coated with one deck antireflecting coating.

Described push input device 501 can optionally attach or put on any display commonly used and as push input device.

Please continue to consult Fig. 5 (B), it is the cross sectional side view of second embodiment of antireflection push input device of the present invention.Push input device 502 among Fig. 5 (B) is made of to layer 57, polaroid 54 and the second conductive layer 52a lower conductiving layer 41, optics etc.Lower conductiving layer 41 has transparent substrates and conductive layer.

Optics etc. are arranged at second conductive layer 52a top to layer 57, and polaroid 54 then is arranged on optics etc. to layer 57 top, and polaroid 54 tops also can be provided with protective seam 56.The second conductive layer 52a and lower conductiving layer 41 are engaged with each other by adhesion layer 24, the second conductive layer 52a is arranged at the side of conductive layer 52 towards lower conductiving layer 41, be provided with separation material 23 between the second conductive layer 52a and the lower conductiving layer 41, and also has the conductive material that is coated with partitioned mode on the second conductive layer 52a, be to be electrically insulated each other between each conduction region, and produce a plurality of conduction region A, allowing the accepting more than one input of pushing simultaneously, thereby formed push input device 502 is a line polarized light type push input device.

This optics etc. are to preferable polycarbonate (PC), poly-aryl bornylene (ARTON), polyethers stone wind (PES), poly-cycloolefin (ZEONOR), the poly-aryl acid esters (PAR), poly-to naphthalenedicarboxylic acid diethylester (PEN), tri acetyl cellulose (TAC), glass, polymethylmethacrylate (PMMA) or its combination of can be of the material of layer 57.Generally speaking, in order to reduce the environment reflection of light, these protective seam 56 surfaces can add plating one deck antireflection plated film.

Can also look actual needs at optics etc. on layer 57 and polaroid 54 is set, polaroid 54 tops also can be provided with protective seam 56.Generally speaking, in order to reduce the environment reflection of light, these protective seam 56 surfaces also can further be coated with one deck antireflecting coating.

Described push input device 502 can optionally attach or put on any display commonly used and as push input device.

And be the integral rigidity that promotes push input device 501 and 502, the preferable strong layer 35 of attaching one deck below the first phasic difference film 511 and lower conductiving layer 41 respectively.Strong layer 35 is fixed on the first phasic difference film 511 and lower conductiving layer 41 bottoms by optical cement, and then promotes the integral rigidity and the structural strength of antireflection push input device 501 and 502.The material of strong layer 35 is light-permeable plastifying material or glass, light-permeable plastifying material such as PC or PMMA, glass such as safety glass or tempered glass.

And be promote push input device 501 with 502 its push surperficial durability, also can above protective seam 56, attach one deck glassy layer 45.Glassy layer 45 is fixed in protective seam 56 tops tops by OCA, and glassy layer 45 is preferable can also to be through antireflection, anti-dizzy, anti-soil, anti-mist, antibiotic, anti-fingerprint and the uvioresistant glass of at least a processing wherein.

This case be in fact one rare to see, be worth the rare invention treasured, but the above person only is a most preferred embodiment of the present invention, when can not with qualification the present invention implemented scope.Promptly generally according to the present patent application claim do impartial variation and modification, all should still belong to patent of the present invention contain in the scope, sincerely please your auditor's explicit example for reference, and pray Hui Zhun, be that institute is to praying.

Claims (15)

1. push input device, it comprises:

One lower conductiving layer;

Conductive layer on one, it has one second substrate and one second conductive layer; And

One adhesion layer, conductive layer and this lower conductiving layer are engaged with each other by this adhesion layer on this,

Wherein this second conductive layer is arranged at this second substrate towards this lower conductiving layer, has a plurality of conduction regions on this second conductive layer, and each those conduction region is electrically insulated each other, and those conduction regions at least one conduction region wherein has a signal transmission line.

2. push input device as claimed in claim 1, wherein this lower conductiving layer has one first substrate and one first conductive layer, and those conduction regions be shaped as mutually the same, differ from one another, part is identical or the part is different.

3. push input device as claimed in claim 2 more comprises:

One strong layer, it is arranged at this first substrate below, wherein the material of this strong layer is a light-permeable plastifying material or a glass, and wherein this light-permeable plastifying material comprises a polycarbonate or a polymethylmethacrylate, and this glass comprises a safety glass or a tempered glass.

4. push input device, it has a conductive layer and an adhesion layer on the lower conductiving layer,, wherein this lower conductiving layer has one first substrate and one first conductive layer, should go up conductive layer and have one second substrate and one second conductive layer, this second conductive layer is arranged at this second substrate towards this first conductive layer, upward conductive layer and this lower conductiving layer are engaged with each other by this adhesion layer, and it comprises:

One glassy layer is arranged on this on conductive layer,

Wherein have a plurality of conduction regions on this second conductive layer, each those conduction region is electrically insulated each other, and those conduction regions at least one conduction region wherein has a signal transmission line.

5. push input device as claimed in claim 4 more comprises:

One uvioresistant layer is gone up between the conductive layer between this glassy layer and this, and wherein this uvioresistant layer is a polaroid or a three cellulose acetate membrane.

6. push input device as claimed in claim 4 more comprises:

At least one protective seam, it is arranged on this glassy layer, and wherein this at least one protective seam is an anti-reflecting layer, a Bewildering resistance layer, an anti-soil layer, an anti-mist layer, an antibiotic layer, an anti-fingerprint layer, a uvioresistant layer or its combination.

7. push input device as claimed in claim 4, wherein:

This glassy layer is arranged on this on conductive layer by an optics glue-line, and this optics glue-line is an optical clear glue-line; Or

This glassy layer is through antireflection, anti-dizzy, anti-soil, anti-mist, antibiotic, anti-fingerprint and the uvioresistant glass of at least a processing wherein.

8. push input device as claimed in claim 4, wherein:

The thickness of this glassy layer is between the scope of 0.05mm to 0.5mm; Or

This adhesion layer is a solid-state double faced adhesive tape or a liquid glue.

9. push input device as claimed in claim 4 more comprises:

One strong layer, be arranged at this lower conductiving layer below, wherein the material of this strong layer is a light-permeable plastifying material or a glass, and wherein this light-permeable plastifying material comprises a polycarbonate or a polymethylmethacrylate, and this glass comprises a safety glass or a tempered glass.

10. push input device, it has a conductive layer and an adhesion layer on the lower conductiving layer,, wherein this lower conductiving layer has one first substrate and one first conductive layer, should go up conductive layer and have one second substrate and one second conductive layer, this second conductive layer is arranged at this second substrate towards this first conductive layer, upward conductive layer and this lower conductiving layer are engaged with each other by this adhesion layer, and it comprises:

One first phase separation layer, it is arranged at a side of this first substrate; And

One second phase separation layer, it is arranged at a side of this second substrate,

Wherein have a plurality of conduction regions on this second conductive layer, each those conduction region is electrically insulated each other, and those conduction regions at least one conduction region wherein has a signal transmission line.

11. push input device as claimed in claim 10 more comprises:

One polaroid is arranged on this second phase separation layer top; And

At least one protective seam is arranged on this polaroid top, and this push input device, more comprises:

One antireflecting coating is arranged at a side of this at least one protective seam; Or

One glassy layer is arranged at this at least one protective seam top, wherein:

This glassy layer is arranged on this on conductive layer by an optics glue-line, and this optics glue-line is an optical clear glue-line; Or

This glassy layer is through antireflection, anti-dizzy, anti-soil, anti-mist, antibiotic, anti-fingerprint and the uvioresistant glass of at least a processing wherein.

12. push input device as claimed in claim 10, wherein the material of this first phasic difference film and the second phasic difference film is respectively polycarbonate, poly-aryl bornylene, polyethers stone wind, poly-cycloolefin, poly-aryl acid esters, poly-to naphthalenedicarboxylic acid diethylester, tri acetyl cellulose, glass, polymethylmethacrylate or its combination.

13. push input device as claimed in claim 10, wherein this first phasic difference film and the second phasic difference film are 1/4 λ phasic difference films.

14. push input device as claimed in claim 10 more comprises:

One strong layer is arranged at this first substrate below.

15. push input device, it has a conductive layer and an adhesion layer on the lower conductiving layer,, wherein this lower conductiving layer has one first substrate and one first conductive layer, should go up conductive layer and have one second substrate and one second conductive layer, this second conductive layer is arranged at this second substrate towards this first conductive layer, upward conductive layer and this lower conductiving layer are engaged with each other by this adhesion layer, and it comprises:

One optics etc. are to layer, and it is arranged at a side of this second substrate; And

One polaroid, it is arranged at the side to layer such as this optics,

Wherein have a plurality of conduction regions on this second conductive layer, each those conduction region is electrically insulated each other, and those conduction regions at least one conduction region wherein has a signal transmission line.

Images