CN207182241U - Mobile phone touch control operates tunic - Google Patents
Mobile phone touch control operates tunic Download PDFInfo
- Publication number
- CN207182241U CN207182241U CN201720491278.2U CN201720491278U CN207182241U CN 207182241 U CN207182241 U CN 207182241U CN 201720491278 U CN201720491278 U CN 201720491278U CN 207182241 U CN207182241 U CN 207182241U
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- mobile phone
- layer
- tunic
- metal level
- touch control
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Abstract
The utility model belongs to various handheld electronic communication equipment technical fields, disclose a kind of Mobile phone touch control operation tunic, the tunic is arranged on the surface of mobile phone, metal level is included in the tunic, one termination electrode of the metal level is arranged on the control area of tunic, couple to form the first capacitance field when manipulating with human body, another termination electrode of the metal level holds the visible area that formula is coupling in mobile phone, the second capacitance field is formed with mobile phone visible area, the mobile phone sets control module, the control module receives the electric signal sent by the first capacitance field and the second capacitance field and is sent to cell phone system, start corresponding mobile phone application.The function key of visible area is moved to mobile phone faceplate or the side even back side by the utility model by hand-set lid or mobile phone protective cover, is improved the display utilization rate of visible area, is allowed users to more easily one-handed performance.
Description
Technical field
The utility model belongs to various handheld electronic communication equipment technical fields, such as mobile phone application, particularly a kind of mobile phone
Touch control operation tunic.
Background technology
Touching-type handset screen includes resistance-type touch screen and capacitive touch screens, and resistance-type touch screen is eliminated substantially, condenser type
The structure of touch screen is the screen such as transparent G+G, G+F, coordinates LCD and In-cell and On-cell display screens to be formed, this screen structure
Touch control operation position passes through user's hand in viewing area, handset program by setting corresponding application in viewing area position
Finger, which touches, calls suitable mobile phone application.
The function key of prior art takes the display space of visible area, and mobile phone frame design is single, for large touch
Screen, the finger length of normal person, which calculates, can not be directly realized by short distance contact, in some special occasions, the inconvenience of bimanualness
Property, bring the usage experience that user is bad.
Utility model content
In order to solve the above-mentioned technical problem, the utility model provides a kind of Mobile phone touch control operation tunic, by mobile phone visible area
Operating function, move to mobile phone bezel locations, side or the back side, positioned at singlehanded controllable position, facilitate the use of mobile phone.
The utility model adopts the technical scheme that:
A kind of Mobile phone touch control operates tunic, it is characterized in that, the tunic is arranged on the surface of mobile phone, is included in the tunic
Metal level, a termination electrode of the metal level are arranged on the control area of tunic, couple to form the first capacitance field when manipulating with human body,
Another termination electrode of the metal level holds the visible area that formula is coupling in mobile phone, and the second capacitance field is formed with mobile phone visible area, described
Mobile phone sets control module, and the control module receives the electric signal sent by the first capacitance field and the second capacitance field simultaneously
Cell phone system is sent to, starts corresponding mobile phone application.
Further, the tunic is mobile phone touch cover plate, includes what is set from top to bottom above the mobile phone touch cover plate
Protective layer and hardened layer, the first indium tin oxide layer that the lower section of the mobile phone touch cover plate includes setting from top to bottom, first
Insulating barrier, ink layer, the second indium tin oxide layer, the second insulating barrier, the metal level, passivation layer and explosion proof film layer.
Further, the tunic is mobile phone flexibility polyester set, and the mobile phone flexibility polyester set top includes setting from top to bottom
The protective layer and the first hardened layer put, the second hardened layer that mobile phone flexibility polyester set lower section includes setting from top to bottom, the
One indium tin oxide layer, the first insulating barrier, ink layer, the second indium tin oxide layer, the second insulating barrier, the metal level and passivation
Layer.
Further, the electrode line width of the conductive layer is 5-10 μm, and conductive electrode aspect group resists for 75-100 Ω.
Further, the protective layer includes the one or more in anti-dizzy, antireflection and anti-soil layer.
Further, the screen of the mobile phone is IN-CELL screens.
Further, glassy layer is set on the mobile phone screen, the top of the glassy layer be followed successively by from top to bottom layer of silica gel,
Rupture pressure disc, indium tin oxide layer, the lower section of the glassy layer are followed successively by hardened layer and protective layer, the protective layer bag from top to bottom
Include the one or more in anti-dizzy, antireflection and anti-soil layer.
Further, the conductive layer adds gold-tinted or typography to make the transparency conducting layer to be formed by sputter.
Further, the screen of the mobile phone is 2D, 2.5D, 3D glass.
The beneficial effects of the utility model are:
(1)The function key of visible area is moved to by mobile phone faceplate or side by hand-set lid or mobile phone protective cover or even carried on the back
Face, the display utilization rate of visible area is improved, allows users to more easily one-handed performance;
(2)Hand-set lid and mobile phone protective cover are protected to mobile phone;
(3)By the two-stage capacitive coupling mechanisms between human body and electric conductor, between electric conductor and Mobile phone screen, without change
Any part of mobile phone;
(4)Realized by software, it is versatile, suitable for the custom of all types of user.
Brief description of the drawings
Accompanying drawing 1 is the structural exploded view of pad pasting of the present utility model;
Accompanying drawing 2 is the structural exploded view of protective case of the present utility model;
Accompanying drawing 3 is the structural exploded view of mobile phone glass layer.
In accompanying drawing marked as:
101. protective layer;102. hardened layer;
103. mobile phone touch cover plate;104. the first indium tin oxide layer;
105. the first insulating barrier;106. ink layer;
107. the second indium tin oxide layer;108. the second insulating barrier;
109. the metal level;110. passivation layer;
111. and explosion proof film layer;201. protective layer;
202. first hardened layers;203. flexible polyester sets;
204. second hardened layers;205. first indium tin oxide layers;
206. first insulating barriers;207. ink layer;
208. second indium tin oxide layers;209. second insulating barriers;
210. metal level;211. passivation layer;
301. layer of silica gel;302. rupture pressure disc;
303. indium tin oxide layer;304. glassy layer;
305. hardened layer;306. protective layer.
Embodiment
The embodiment for operating tunic to the utility model Mobile phone touch control below in conjunction with the accompanying drawings elaborates.
Mobile phone touch control operation tunic is arranged on the surface of mobile phone, includes metal level in the tunic, metal level connects for both ends
The wire of receiving electrode, a termination electrode of metal level are arranged on the control area of tunic, couple to form the first electricity when manipulating with human body
Holding field, another termination electrode of the metal level holds the visible area that formula is coupling in mobile phone, the second capacitance field is formed with mobile phone visible area,
The mobile phone sets control module, and the control module receives the telecommunications sent by the first capacitance field and the second capacitance field
Number and be sent to cell phone system, start corresponding mobile phone application.
Referring to accompanying drawing 1, when tunic is mobile phone touch cover plate, i.e., Mobile phone screen patch lid or pad pasting, its structure are from top to bottom
The protective layer 101 of setting, hardened layer 102, mobile phone touch cover plate 103, the first indium tin oxide layer 104, the first insulating barrier 105,
Ink layer 106, the second indium tin oxide layer 107, the second insulating barrier 108, the metal level 109, passivation layer 110 and explosion proof film layer
111。
Referring to accompanying drawing 2, when tunic is that mobile phone flexibility polyester covers, the protective layer 201, first that its structure top to bottm is set is hard
Change layer 202, flexible polyester covers the 203, second hardened layer 204, the first indium tin oxide layer 205, the first insulating barrier 206, ink layer
207th, the second indium tin oxide layer 208, the second insulating barrier 209, metal level 210 and passivation layer 211.
It is by completing transparent black-out layer and electrically conducting transparent in PET film surface sputter in cover plate and cell-phone cover Making programme
Layer, transparent conductive electrode layer circuit is completed by gold-tinted processing procedure or printing process etch process, again by using coating or printing
Technique protects its transparent conductive electrode layer transparent insulation glue, while electrode wires wide limits can arrive 5-10um, conductive electrode aspect
Unit impedance can reach below 75-100 Ω, and electrode touch-control figure can also use irregular figure design to reach corresponding different tactile
Control the capacitance requirement of position.
Protective layer includes the one or more in anti-dizzy, antireflection and anti-soil layer.
Referring to accompanying drawing 3, the utility model useful application is in equal on existing popular ON-CELL screens or IN-CELL screens, Mobile phone screen
Glassy layer is set, and glassy layer is applicable to 2D, 2.5D, 3D moulding, and its structure is followed successively by layer of silica gel 301, rupture pressure disc from top to bottom
302nd, indium tin oxide layer 303, glassy layer 304, hardened layer 305 and protective layer 306, the protective layer equally include anti-dizzy, anti-
One or more in reflection and anti-soil layer.
Described above is only preferred embodiment of the present utility model, it is noted that for the common skill of the art
Art personnel, on the premise of the utility model principle is not departed from, some improvements and modifications can also be made, these improvements and modifications
Also it should be regarded as the scope of protection of the utility model.
Claims (9)
1. a kind of Mobile phone touch control operates tunic, it is characterised in that:The tunic is arranged on the surface of mobile phone, is included in the tunic
Metal level, a termination electrode of the metal level are arranged on the control area of tunic, couple to form the first capacitance field when manipulating with human body,
Another termination electrode of the metal level holds the visible area that formula is coupling in mobile phone, and the second capacitance field is formed with mobile phone visible area, described
Mobile phone sets control module, and the control module receives the electric signal sent by the first capacitance field and the second capacitance field simultaneously
Cell phone system is sent to, starts corresponding mobile phone application.
2. Mobile phone touch control according to claim 1 operates tunic, it is characterised in that:The tunic is mobile phone touch cover plate,
Include the protective layer and hardened layer set from top to bottom, the lower section bag of the mobile phone touch cover plate above the mobile phone touch cover plate
Include the first indium tin oxide layer set from top to bottom, the first insulating barrier, ink layer, the second indium tin oxide layer, the second insulation
Layer, the metal level, passivation layer and explosion proof film layer.
3. Mobile phone touch control according to claim 1 operates tunic, it is characterised in that:The tunic is mobile phone flexibility polyester
Set, the mobile phone flexibility polyester set top include the protective layer and the first hardened layer set from top to bottom, and the mobile phone is flexible poly-
Fat set lower section include set from top to bottom the second hardened layer, the first indium tin oxide layer, the first insulating barrier, ink layer, second
Indium tin oxide layer, the second insulating barrier, the metal level and passivation layer.
4. Mobile phone touch control according to any one of claim 1 to 3 operates tunic, it is characterised in that:The metal level
Electrode line width is 5-10 μm, and conductive electrode aspect group resists for 75-100 Ω.
5. the Mobile phone touch control operation tunic according to Claims 2 or 3, it is characterised in that:The protective layer includes anti-dizzy, anti-
One or more in reflection and anti-soil layer.
6. Mobile phone touch control according to any one of claim 1 to 3 operates tunic, it is characterised in that:The screen of the mobile phone
Curtain is IN-CELL screens.
7. Mobile phone touch control according to claim 6 operates tunic, it is characterised in that:Glass is set on the mobile phone screen
Layer, the top of the glassy layer is followed successively by layer of silica gel, rupture pressure disc, indium tin oxide layer, the lower section of the glassy layer from top to bottom
Hardened layer and protective layer are followed successively by from top to bottom, and the protective layer includes the one or more in anti-dizzy, antireflection and anti-soil layer.
8. Mobile phone touch control according to any one of claim 1 to 3 operates tunic, it is characterised in that:The metal level leads to
Crossing sputter adds gold-tinted or typography to make the transparency conducting layer to be formed.
9. Mobile phone touch control according to any one of claim 1 to 3 operates tunic, it is characterised in that:The screen of the mobile phone
Curtain is 2D, 2.5D, 3D glass.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720491278.2U CN207182241U (en) | 2017-05-05 | 2017-05-05 | Mobile phone touch control operates tunic |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720491278.2U CN207182241U (en) | 2017-05-05 | 2017-05-05 | Mobile phone touch control operates tunic |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207182241U true CN207182241U (en) | 2018-04-03 |
Family
ID=61733742
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201720491278.2U Active CN207182241U (en) | 2017-05-05 | 2017-05-05 | Mobile phone touch control operates tunic |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207182241U (en) |
-
2017
- 2017-05-05 CN CN201720491278.2U patent/CN207182241U/en active Active
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right |
Effective date of registration: 20180918 Address after: 310026 Gaohong South Street 298 (1 5-6 storeys), Gaohong Town, Ling'an District, Hangzhou, Zhejiang. Patentee after: Zhejiang Yuxin Optical Technology Co., Ltd. Address before: 314423 room 510, weft three road, hi tech Industrial Park, Haining, Jiaxing, Zhejiang, China, 11 Patentee before: Zhejiang Yu Xin Photoelectric Technology Co. Ltd. |
|
TR01 | Transfer of patent right |