CN201876850U - Touch panel and electronic device - Google Patents

Touch panel and electronic device Download PDF

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Publication number
CN201876850U
CN201876850U CN2010205526006U CN201020552600U CN201876850U CN 201876850 U CN201876850 U CN 201876850U CN 2010205526006 U CN2010205526006 U CN 2010205526006U CN 201020552600 U CN201020552600 U CN 201020552600U CN 201876850 U CN201876850 U CN 201876850U
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CN
China
Prior art keywords
transparency carrier
touch
shielding layer
circuit board
flexible circuit
Prior art date
Application number
CN2010205526006U
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Chinese (zh)
Inventor
秘琮翔
黄明祥
Original Assignee
展触光电科技股份有限公司
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Priority to CN2010205526006U priority Critical patent/CN201876850U/en
Application granted granted Critical
Publication of CN201876850U publication Critical patent/CN201876850U/en

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Abstract

The utility model relates to a touch panel and an electronic device. The touch panel is simultaneously provided with a first touch module and a second touch module, wherein the first touch module is used for executing the operating function of a known touch screen, the second touch module is used for additionally providing a function for executing a touch button, the second touch module is arranged on the lower surface of a shielding area of a transparent substrate of the touch panel, and the second touch module is provided with an induction module and a processing assembly; when a user touches a button pattern marked on the touch panel, the induction module can output an induction signal to the processing assembly to process the signal after the change of the capacitance value is detected, output the processed induction signal to a processing unit to perform further resolving and output the final result to a display to display.

Description

Contact panel and electronic installation

Technical field

The utility model relates to a kind of contact panel, refers to a kind of contact panel contact panel and electronic device construction that is combined with keypress function especially.

Background technology

The upsurge of the multi-point touch display screen that is taken up along with the iPhone intelligent mobile phone of Apple computer, also little by little spread to general notebook computer and desktop computer, and then design flat computer and AIO (ALL IN ONE) touch-control computing machine with multi-point touch function display screen curtain, the operation-interface of intuitive by it is simple, make the operator can directly picture dwindles via carrying out on the picture of display screen at an easy rate, the clicking and the operations such as broadcast of execution or multi-medium file of amplification, rotation, program.

Seeing also shown in Figure 1ly, is the schematic appearance for known touch-control computing machine.This touch-control computing machine 50 has a touch control display screen 52, a shell 54 in order to ccontaining this touch control display screen in appearance, and a support 56 that extends to shell 54.And can adjust screen display setting (OSD voluntarily for the ease of the user, On-Screen Display), and the power supply of switch touch control display screen 52, the existing ubiquity practice is a plurality of function keys to be set on the shell 54 of touch control display screen 52 peripheries or to adjust key 58, in order to controlling and adjusting of above-mentioned functions to be provided, these function keys or to adjust key 58 then be that button with mechanical type or touch is constituted are no matter and be that the press-key structure of any pattern all must be set on the shell 54.

Still have in addition a kind of general be that cancellation is provided with function key on shell as rule, but directly see through finger at the enterprising line operate of touch control display screen, that is when a specific region that the operator touches on the touch control display screen to be defineed in advance with finger, can call out out the menu of a screen display setting (OSD) and be presented on the touch control display screen, on touch control display screen, carry out direct operation for the operator.

Yet, because present touch-control computing machine is in design in order further to try to achieve its in appearance frivolous small and exquisite, gradually trend towards doing the design of no frame, promptly under the notion of no frame design, in the past that the practice of function key design on shell is infeasible, and by on touch control display screen, calling out out the OSD menu method that the line operate screen display is provided with of going forward side by side, though the predicament that can avoid the entity function key to design, but it must see through the mode that unique touch control display screen is operated, to be formed on operational inconvenience, for example must in the viewing area of original touch control display screen, define a zone and give the operation that screen display is provided with, and sacrifice original considerable the looking or the zone of touch-control of part.Therefore, how to make not take under original touch display area on the touch control display screen, still can provide the operator to carry out the operation that screen display is provided with easily, know usually that for current this area has the knowledgeable desires most ardently the target of making great efforts solution.

The utility model content

Therefore fundamental purpose of the present utility model is to provide a kind of contact panel, by on a contact panel, being provided with one first touch-control module and one second touch-control module respectively simultaneously, wherein first touch-control module is in order to carry out the operating function of known Touch Screen, second touch-control module then is a function of carrying out touch controlled key in order to additionally to provide, so that disposing the electronic installation of contact panel of the present utility model, can and not have under the situation of frame setting in the whole plane formula, the operating function of function button is provided, and do not need to be provided with frame again the mechanism of function button, or must take the sensing area of original first touch-control module, provide touch controlled key function operations interface additionally to cook up.

In order to reach aforesaid purpose, a specific embodiment of the present utility model proposes a kind of contact panel, and it includes:

One transparency carrier has the shielded area that a sensing area and is surrounded on this sensing area periphery;

One first touch-control module is arranged on this transparency carrier lower surface, and it includes at least:

A plurality of induction electrodes are these transparency carrier lower surfaces of laying this sensing area;

A plurality of wire circuits are these transparency carrier lower surfaces that are laid in this shielded area, and one end and described a plurality of induction electrode are an electric connection;

One shielding layer is to be a lighttight insulation course, is arranged at this wire line below, in order to cover described a plurality of wire line; And

One flexible circuit board is arranged at a side of this transparency carrier, and is an electric connection with described a plurality of wire circuit other ends; And

One second touch-control module, it includes:

One patterned layer has at least one button pattern, is provided with to correspond between this contact panel lower surface and this shielding layer of this shielded area;

One induction module is arranged at this shielding layer lower surface of corresponding this patterned layer, when making that being positioned at corresponding this transparency carrier upper surface of this patterned layer is touched, produces sensing signal output by a capacitance variation;

One flexible circuit board electrically connects with this induction module, uses this sensing signal of output.

A specific embodiment of the present utility model then proposes a kind of electronic installation, and it includes:

One display;

One contact panel is to be installed in this display forward surface place, and it comprises:

One transparency carrier has the shielded area that a sensing area and is surrounded on this sensing area periphery, makes this display be positioned at the sensing area rear of this contact panel;

One first touch-control module is arranged on this transparency carrier lower surface, and it includes at least:

A plurality of induction electrodes are these transparency carrier lower surfaces of laying this sensing area;

A plurality of wire circuits are these transparency carrier lower surfaces that are laid in this shielded area, and one end and described a plurality of induction electrode are an electric connection;

One shielding layer is to be a lighttight insulation course, is arranged at this wire line below, in order to cover described a plurality of wire line; And

One flexible circuit board is arranged at a side of this transparency carrier, and is an electric connection with described a plurality of wire circuit other ends; And

One second touch-control module, it includes:

One patterned layer has at least one button pattern, is provided with to correspond between this contact panel lower surface and this shielding layer of this shielded area;

One induction module is arranged at this shielding layer lower surface of corresponding this patterned layer, when making that being positioned at corresponding this transparency carrier upper surface of this patterned layer is touched, produces sensing signal output by a capacitance variation;

One flexible circuit board electrically connects with this induction module, uses this sensing signal of output.

Another specific embodiment of the present utility model proposes a kind of contact panel, and it includes:

One transparency carrier has the shielded area that a sensing area and is surrounded on this sensing area periphery;

One first touch-control module is arranged on this transparency carrier lower surface, and it includes at least:

A plurality of induction electrodes are these transparency carrier lower surfaces of laying this sensing area;

A plurality of wire circuits are these transparency carrier lower surfaces that are laid in this shielded area, and one end and described a plurality of induction electrode are an electric connection;

One shielding layer is to be a lighttight insulation course, is arranged at this wire line below, in order to cover described a plurality of wire line; And

One flexible circuit board is arranged at a side of this transparency carrier, and is an electric connection with described a plurality of wire circuit other ends; And

One second touch-control module, it includes:

One patterned layer is to be formed on this shielding layer in the hollow out mode, covers simultaneously in this wire line below with this shielding layer;

One color lump layer is covered in this shielding layer below;

One induction module is arranged at this color lump layer lower surface of corresponding this patterned layer, when making that being positioned at corresponding this transparency carrier upper surface of this patterned layer is touched, produces sensing signal output by a capacitance variation;

One flexible circuit board electrically connects with this induction module, uses this sensing signal of output.

Another specific embodiment of the present utility model then proposes a kind of electronic installation, and it includes:

One display;

One contact panel is to be installed in this display forward surface place, and it includes:

One transparency carrier has the shielded area that a sensing area and is surrounded on this sensing area periphery, makes this display be positioned at the sensing area rear of this contact panel;

One first touch-control module is arranged on this transparency carrier lower surface, and it includes at least:

A plurality of induction electrodes are these transparency carrier lower surfaces of laying this sensing area;

A plurality of wire circuits are these transparency carrier lower surfaces that are laid in this shielded area, and one end and described a plurality of induction electrode are an electric connection;

One shielding layer is to be a lighttight insulation course, is arranged at this wire line below, in order to cover described a plurality of wire line; And

One flexible circuit board is arranged at a side of this transparency carrier, and is an electric connection with described a plurality of wire circuit other ends; And

One second touch-control module, it includes:

One patterned layer is to be formed on this shielding layer in the hollow out mode, covers simultaneously in this wire line below with this shielding layer;

One color lump layer is covered in this shielding layer below;

One induction module is arranged at this color lump layer lower surface of corresponding this patterned layer, when making that being positioned at corresponding this transparency carrier upper surface of this patterned layer is touched, produces sensing signal output by a capacitance variation;

One flexible circuit board electrically connects with this induction module, uses this sensing signal of output.

Description of drawings

Fig. 1 is the schematic appearance of known touch-control computing machine.

Fig. 2 is the three-dimensional exploded view of the contact panel of the utility model one preferred embodiment.

Fig. 3 is the schematic perspective view of the contact panel of the utility model one preferred embodiment.

Fig. 4 is the cut-open view of the contact panel of the utility model one preferred embodiment.

Fig. 5 is the schematic appearance of the contact panel of the utility model one preferred embodiment.

Fig. 6 is that the utility model one preferred embodiment is applied to the block schematic diagram on the electronic installation.

Fig. 7 is the three-dimensional exploded view of the contact panel of another preferred embodiment of the utility model.

Fig. 8 is the cut-open view of the contact panel of another preferred embodiment of the utility model.

Description of drawings:

1 contact panel

10 transparency carriers

12 sensing areas

14 shielded areas

20 second touch-control modules

22 patterned layer

222 button patterns

24 induction modules

242 conducting films

244 signal line groups

246 signal contacts

26 flexible circuit boards

262 processing components

28 color lump layers

30 first touch-control modules

32 shielding layers

322 patterned layer

40 electronic installations

42 first driver modules

44 displays

46 processing units

50 touch-control computing machines

52 touch control display screens

54 shells

56 supports

58 function keys or adjustment key

Embodiment

Now for making your juror further understanding and understanding can be arranged to technical characterictic of the present utility model and the effect reached, sincerely help with preferred embodiment figure and cooperate detailed explanation, illustrate as afterwards:

Seeing also Fig. 2 and shown in Figure 3, is respectively the three-dimensional exploded view and the schematic perspective view of the contact panel of the utility model one preferred embodiment.As shown in the figure, contact panel 1 of the present utility model includes a transparency carrier 10, one first touch-control module 30 and one second touch-control module 20, wherein this transparency carrier 10 is the sheet material for a transparent insulation, the preferably is made with the clear glass material, but be not limited to the clear glass material made, this contact panel 1 an optional electric resistance touch-control panel or capacitance type touch-control panel of doing for oneself, and the preferably is selected from capacitance type touch-control panel in the present embodiment.These transparency carrier 10 surfaces have the shielded area 14 that a sensing area 12 and is surrounded on the sensing area periphery, the position is provided with this first touch-control module 30 at transparency carrier 10 lower surfaces of this sensing area 12, please consult shown in Figure 5ly simultaneously, this first touch-control module 30 includes a plurality of induction electrodes (figure do not show), a plurality of wire circuit (figure does not show), a shielding layer 32 and a flexible circuit board (figure does not show) at least respectively.Wherein these a plurality of induction electrodes are transparency carrier 10 lower surfaces that are laid in this sensing area 12; A plurality of wire lines then are laid in transparency carrier 10 lower surfaces of this shielded area 14, and one end and induction electrode are an electric connection; This shielding layer 32 is to be a lighttight insulation course, is arranged at this wire line below, can be made of insulation inks, in order to cover this wire line; Flexible circuit board then is a side that is arranged at transparency carrier 10, and is an electric connection with the wire circuit other end.Because the structure of aforesaid first touch-control module is to belong to known technology, will repeat no more its content in this.

Please cooperate simultaneously in addition consult shown in Figure 4, feature of the present utility model mainly is that these transparency carrier 10 lower surfaces of 14 are provided with this second touch-control module 20 in the shielded area in the position, and this second touch-control module 20 includes a patterned layer 22, an induction module 24 and a flexible circuit board 26.Wherein this patterned layer 22 has at least one button pattern 222, and with printing or be coated with and be afraid of mode and be arranged between transparency carrier 10 lower surfaces and a shielding layer 32 of shielded area 14, it should be noted that these patterned layer 22 set zones must avoid the path that wire line is laid, and this shielding layer 32 promptly refers to the shielding layer of first touch-control module; 24 of this induction modules are arranged on these shielding layer 32 lower surfaces that correspond to this patterned layer 22, make when being positioned at these patterned layer 22 corresponding these transparency carrier 10 upper surfaces and being touched by the user, can produce a sensing signal by capacitance variation and export.

This induction module 24 comprises an at least one conducting film 242 and a signal line group 244.Wherein this conducting film 242 can select for use any material with electric conductivity to constitute, and is laid on these shielding layer 32 lower surfaces that correspond to this patterned layer 22, in order to the variation of detecting capacitance, to produce the output of this sensing signal; These signal line group 244 1 ends then are to be connected in this conducting film 242, the other end then is to extend to this transparency carrier 10 edges, and form at least one signal contact 246, and this signal line group 244 and signal contact 246 the bests also can be starched material by silver and lay and form; 26 signal contacts 246 with this induction module 24 of this flexible circuit board electrically connect, make the sensing signal that this conducting film 242 is produced via capacitance variation, can transfer to the external world via this signal line group 244 and flexible circuit board 26 respectively, wherein also can one processing components 262 be set on this flexible circuit board 26 via COF (Chip On Flexible Printed Circuit) technology, make and transmit the sensing signal of coming in via signal line group 244, can via after the processing of processing components 262 again via the output of the circuit of flexible circuit board 26, and this processing components 262 mainly is meant an analog digital conversion chip, after being become digital signal by analog signal conversion, exports again transmit this sensing signal that enters, to reduce interference of noise.

Please cooperate and consult shown in Figure 6ly, be that the utility model one preferred embodiment is applied to the block schematic diagram on the electronic installation.As shown in the figure, this electronic installation 40 is to be example explanation with a touch-control computing machine, and this electronic installation 40 mainly includes this contact panel 1, one first driver module 42, a display 44 and a processing unit 46.Wherein this contact panel 1 is with the whole plane formula and does not have the frame mode and be installed in this display 44 forward surface places, and display 44 is positioned at sensing area 12 rears of contact panel 1 just, make and to penetrate sensing area 12 and see and look the shown content of display 44 via contact panel 1 the place ahead, this display 44 is to refer to a LCD, and this contact panel 1 and include this first touch-control module 30 and second touch-control module 20,42 of this first driver modules are electrically connected between this first touch-control module 30 and the display 44,20 of this second touch-control modules and processing unit 46 electrically connect, and this processing unit 46 electrically connects with display 44 again, and this processing unit 46 is located at this electronic installation 30 to carry out the function of data processing and computing in being.

Wherein first touch-control module 30 is the modes of operation that belong to known contact panel, when the user carries out the operation of general Touch Screen to the sensing area of having divided 12 on contact panel 1, the sensing signal that is produced exports this first driver module 42 to and handles, so that with first touch-control module 30 after the sensing signal that sensing produced carries out the interpretation of coordinate computation, coordinate signal exported on this display 44 show.

The utility model mainly is provided with this second touch-control module 20 in addition on contact panel 1, second touch-control module 20 is shielded area 14 lower surfaces that are arranged at this transparency carrier 10, this second touch-control module 20 has this induction module 24 and this processing components 262, when the user touches the button pattern 222 that is indicated on this contact panel 1, induction module 24 can be after the variation that detects capacitance, output sensing signal to this processing components 262 is carried out Signal Processing, and after the sensing signal after will handling exports processing unit 46 to and make further dissection process, export net result to display 44 and show.

Second touch-control module 20 in the utility model one preferred embodiment can be by planning in order to carry out screen display setting (OSD), the patterned layer 22 of second touch-control module 20 can include a plurality of different button patterns 222, and to keep straight on, line or arrangement mode arranged side by side are arranged between shielded area 14 lower surfaces and shielding layer 32 of contact panel 1, each button pattern 222 can be chosen to be wherein arbitrary option that screen display is provided with respectively, for example sets in order to carry out color-values, correlative value is set, brightness value is set, the picture level set, functions such as vertical setting of picture or power switch.

Other sees also Fig. 7 and shown in Figure 8, is respectively the three-dimensional exploded view and the cut-open view of the contact panel of another preferred embodiment of the utility model.As shown in the figure, patterned layer 322 in second touch-control module 20 of present embodiment is directly to be formed on the shielding layer 32 in the hollow out mode, after shielding layer 32 is covered in the wire line below, other is provided with a color lump layer 28 and is covered in this shielding layer 32 belows, 24 of this induction modules are arranged on these color lump layer 28 lower surfaces that correspond to this patterned layer 322, make when being positioned at these patterned layer 322 corresponding these transparency carrier 10 upper surfaces and being touched, can produce a sensing signal by capacitance variation and export by the user.In the present embodiment because patterned layer 322 is to be formed on the shielding layer 32 in the hollow out mode, so need below patterned layer 322, further cover this color lump layer 28, cover the conducting film 242 that is positioned at patterned layer 322 belows by this color lump layer 28, the effect that beautifies patterned layer 322 is then arranged on the other hand, the feasible color and luster that can manifest color lump layer 28 from the hollow out place, therefore furthermore, present embodiment can be according to the different qualities of button pattern 222, and below representing the button pattern 222 of different qualities and function, cover the color lump layer 28 of different color, and reach the characteristic that the user can be easy to identification and control.

Therefore, through as shown in the above description, the utility model is mainly by be provided with this first touch-control module 30 and this second touch-control module 20 simultaneously on a contact panel 1, wherein first touch-control module 30 is in order to carry out the operating function of known Touch Screen, 20 of second touch-control modules are the functions of carrying out touch controlled key in order to additionally to provide, make the electronic installation 30 that is disposing the utility model contact panel 1, can and not have under the situation of frame setting in the whole plane formula, the operation of function button is provided, and do not need to be provided with frame again the mechanism of function button, or must take the sensing area 12 of original first touch-control module 30, carry out touch controlled key function operations interface additionally to cook up in order to provide.

Claims (10)

1. a contact panel is characterized in that, described contact panel includes at least:
One transparency carrier has the shielded area that a sensing area and is surrounded on described sensing area periphery;
One first touch-control module is arranged on described transparency carrier lower surface, and it includes at least:
A plurality of induction electrodes are described transparency carrier lower surfaces of laying described sensing area;
A plurality of wire circuits are the described transparency carrier lower surfaces that are laid in described shielded area, and one end and described a plurality of induction electrode are an electric connection;
One shielding layer is to be a lighttight insulation course, is arranged at described wire line below, in order to cover described a plurality of wire line; And
One flexible circuit board is arranged at a side of described transparency carrier, and is an electric connection with described a plurality of wire circuit other ends; And
One second touch-control module, it includes:
One patterned layer has at least one button pattern, is provided with to correspond between the described transparency carrier lower surface and described shielding layer of described shielded area;
One induction module is arranged at the described shielding layer lower surface of corresponding described patterned layer, when making that being positioned at the corresponding described transparency carrier upper surface of described patterned layer is touched, produces sensing signal output by a capacitance variation;
One flexible circuit board electrically connects with described induction module, uses the described sensing signal of output.
2. contact panel as claimed in claim 1 is characterized in that, described induction module more includes:
At least one conducting film is to be covered in the described shielding layer lower surface that corresponds to described patterned layer, in order to the variation of detecting capacitance, to produce the output of described sensing signal; And
One signal line group, the one end is connected in described conducting film, and the other end then is to extend to described transparency carrier edge, and forms at least one signal contact, for described flexible circuit board and the electric connection of described signal contact.
3. contact panel as claimed in claim 1, it is characterized in that, described flexible circuit board is provided with a processing components, make and to transmit the described sensing signal of coming in via described induction module, after carrying out the analog-converted digital signal processing via described processing components earlier, export via the circuit of described flexible circuit board again.
4. contact panel as claimed in claim 1 is characterized in that, described induction module is made of silver slurry material.
5. an electronic installation is characterized in that, described electronic installation comprises having:
One display;
One contact panel is to be installed in described display forward surface place, and it comprises at least:
One transparency carrier has the shielded area that a sensing area and is surrounded on described sensing area periphery, makes described display be positioned at the sensing area rear of described contact panel;
One first touch-control module is arranged on described transparency carrier lower surface, and it includes at least:
A plurality of induction electrodes are described transparency carrier lower surfaces of laying described sensing area;
A plurality of wire circuits are the described transparency carrier lower surfaces that are laid in described shielded area, and one end and described a plurality of induction electrode are an electric connection;
One shielding layer is to be a lighttight insulation course, is arranged at described wire line below, in order to cover described a plurality of wire line; And
One flexible circuit board is arranged at a side of described transparency carrier, and is an electric connection with described a plurality of wire circuit other ends; And
One second touch-control module, it includes:
One patterned layer has at least one button pattern, is provided with to correspond between the described transparency carrier lower surface and described shielding layer of described shielded area;
One induction module is arranged at the described shielding layer lower surface of corresponding described patterned layer, when making that being positioned at the corresponding described transparency carrier upper surface of described patterned layer is touched, produces sensing signal output by a capacitance variation;
One flexible circuit board electrically connects with described induction module, uses the described sensing signal of output.
6. electronic installation as claimed in claim 5 is characterized in that, described induction module more includes:
At least one conducting film is to be covered in the described shielding layer lower surface that corresponds to described patterned layer, in order to the variation of detecting capacitance, to produce the output of described sensing signal; And
One signal line group, the one end is connected in described conducting film, and the other end then is to extend to described transparency carrier edge, and forms at least one signal contact, for described flexible circuit board and the electric connection of described signal contact.
7. electronic installation as claimed in claim 5, it is characterized in that, described flexible circuit board is provided with a processing components, make and to transmit the described sensing signal of coming in via described induction module, after carrying out the analog-converted digital signal processing via described processing components earlier, export via the circuit of described flexible circuit board again.
8. electronic installation as claimed in claim 5 is characterized in that, described induction module is made of silver slurry material.
9. a contact panel is characterized in that, described contact panel includes at least:
One transparency carrier has the shielded area that a sensing area and is surrounded on described sensing area periphery;
One first touch-control module is arranged on described transparency carrier lower surface, and it includes at least:
A plurality of induction electrodes are described transparency carrier lower surfaces of laying described sensing area;
A plurality of wire circuits are the described transparency carrier lower surfaces that are laid in described shielded area, and one end and described a plurality of induction electrode are an electric connection;
One shielding layer is to be a lighttight insulation course, is arranged at described wire line below, in order to cover described a plurality of wire line; And
One flexible circuit board is arranged at a side of described transparency carrier, and is an electric connection with described a plurality of wire circuit other ends; And
One second touch-control module, it includes:
One patterned layer is to be formed on the described shielding layer in the hollow out mode, covers simultaneously in described wire line below with described shielding layer;
One color lump layer is covered in described shielding layer below;
One induction module is arranged at the described color lump layer lower surface of corresponding described patterned layer, when making that being positioned at the corresponding described transparency carrier upper surface of described patterned layer is touched, produces sensing signal output by a capacitance variation;
One flexible circuit board electrically connects with described induction module, uses the described sensing signal of output.
10. an electronic installation is characterized in that, described electronic installation comprises having:
One display;
One contact panel is to be installed in described display forward surface place, and it includes at least:
One transparency carrier has the shielded area that a sensing area and is surrounded on described sensing area periphery, makes described display be positioned at the sensing area rear of described contact panel;
One first touch-control module is arranged on described transparency carrier lower surface, and it includes at least:
A plurality of induction electrodes are described transparency carrier lower surfaces of laying described sensing area;
A plurality of wire circuits are the described transparency carrier lower surfaces that are laid in described shielded area, and one end and described a plurality of induction electrode are an electric connection;
One shielding layer is to be a lighttight insulation course, is arranged at described wire line below, in order to cover described a plurality of wire line; And
One flexible circuit board is arranged at a side of described transparency carrier, and is an electric connection with described a plurality of wire circuit other ends; And
One second touch-control module, it includes:
One patterned layer is to be formed on the described shielding layer in the hollow out mode, covers simultaneously in described wire line below with described shielding layer;
One color lump layer is covered in described shielding layer below;
One induction module is arranged at the described color lump layer lower surface of corresponding described patterned layer, when making that being positioned at the corresponding described transparency carrier upper surface of described patterned layer is touched, produces sensing signal output by a capacitance variation;
One flexible circuit board electrically connects with described induction module, uses the described sensing signal of output.
CN2010205526006U 2010-10-08 2010-10-08 Touch panel and electronic device CN201876850U (en)

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Application Number Priority Date Filing Date Title
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Cited By (9)

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CN102629178A (en) * 2012-04-27 2012-08-08 深圳莱宝高科技股份有限公司 Panel structure and manufacture method thereof
CN102722299A (en) * 2012-04-27 2012-10-10 深圳莱宝高科技股份有限公司 Panel structure and manufacturing method thereof
CN102722281A (en) * 2012-05-29 2012-10-10 深圳莱宝高科技股份有限公司 Touch panel and manufacturing method thereof
WO2013097631A1 (en) * 2011-12-25 2013-07-04 宸鸿科技(厦门)有限公司 Touch control panel and manufacturing method therefor
CN103515127A (en) * 2012-06-27 2014-01-15 深圳欧菲光科技股份有限公司 Manufacturing method of touch control button
CN103874369A (en) * 2012-12-07 2014-06-18 宏达国际电子股份有限公司 Electronic device
CN104123023A (en) * 2013-04-24 2014-10-29 宸鸿科技(厦门)有限公司 Touch panel and manufacturing method thereof
CN104571692A (en) * 2014-12-16 2015-04-29 广东欧珀移动通信有限公司 Touch control key wire distribution structure and terminal
CN105700746A (en) * 2016-01-05 2016-06-22 伯恩光学(惠州)有限公司 Key structure for touch screen and touch screen

Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2013097631A1 (en) * 2011-12-25 2013-07-04 宸鸿科技(厦门)有限公司 Touch control panel and manufacturing method therefor
CN102722299B (en) * 2012-04-27 2016-10-12 深圳莱宝高科技股份有限公司 A kind of panel construction and preparation method thereof
CN102722299A (en) * 2012-04-27 2012-10-10 深圳莱宝高科技股份有限公司 Panel structure and manufacturing method thereof
CN102629178A (en) * 2012-04-27 2012-08-08 深圳莱宝高科技股份有限公司 Panel structure and manufacture method thereof
CN102629178B (en) * 2012-04-27 2016-06-29 深圳莱宝高科技股份有限公司 Panel construction and preparation method thereof
CN102722281A (en) * 2012-05-29 2012-10-10 深圳莱宝高科技股份有限公司 Touch panel and manufacturing method thereof
CN102722281B (en) * 2012-05-29 2016-10-12 深圳莱宝高科技股份有限公司 Contact panel and preparation method thereof
CN103515127A (en) * 2012-06-27 2014-01-15 深圳欧菲光科技股份有限公司 Manufacturing method of touch control button
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