CN103809814A - Touch module with photovoltaic conversion function - Google Patents
Touch module with photovoltaic conversion function Download PDFInfo
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- CN103809814A CN103809814A CN201210441196.9A CN201210441196A CN103809814A CN 103809814 A CN103809814 A CN 103809814A CN 201210441196 A CN201210441196 A CN 201210441196A CN 103809814 A CN103809814 A CN 103809814A
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Abstract
The invention provides a touch module with the photovoltaic conversion function. The touch module comprises a touch area and a non-touch area. The touch area is provided with a first transparent substrate, a second transparent substrate and a photovoltaic conversion unit. The first transparent substrate is provided with a first side and a second side. The second transparent substrate is provided with a third side and a fourth side. The second side and the third side of the touch area are provided with a first touch electrode layer and a second touch electrode layer respectively. The photovoltaic conversion unit is arranged on the first side of the first transparent substrate. The photovoltaic conversion unit is arranged in the touch area of the touch module, and therefore the light collecting area of the photovoltaic conversion unit can be increased, the current conversion amount is increased, and the standby time and the use time of the touch device are prolonged.
Description
Technical field
The invention relates to a kind of touch module of tool opto-electronic conversion, in espespecially a kind of Touch Zone that photoelectric conversion unit is arranged to touch module, receive light area and the conversion that improves the magnitude of current to increase photoelectric conversion unit, and then promote the touch module of contactor control device standby and the tool opto-electronic conversion of service time.
Background technology
Be heavily the supply of electric power by existing general portable electronic equipment head, so as to maintaining standby and the use of electronic installation, it still needs to be dependent on built-in battery supplied electric power running the supply of portable electronic equipment electric power, the use that combines more in addition contactor control device due to existing portable electronic equipment makes its power consumption more acute, significantly reduces the time of standby and use.
For solving the very large problem of known portable electronic equipment power consumption, by a solar modules and its combination at present, and carry out the conversion of photoelectricity through solar modules, and then the electrical power storage that order conversion produces is in the built-in cell device of this portable electronic equipment, increase use and the stand-by time of portable electronic equipment, described solar modules is mainly arranged in the non-Touch Zone of portable electronic equipment or the housing of this portable electronic equipment, carry out opto-electronic conversion for making solar modules can absorb light irradiation, this housing must be made as transparent material, or by protruding solar modules this outside of exposing, and then generation makes this product thickness be difficult for the shortcoming reducing.
Summary of the invention
For this reason, for solving the shortcoming of above-mentioned known technology, fundamental purpose of the present invention, be to provide in a kind of Touch Zone that photoelectric conversion unit is arranged to touch module, receive light area and the conversion that improves the magnitude of current to increase photoelectric conversion unit, and then promote the touch module of contactor control device standby and the tool opto-electronic conversion of service time.
In order to achieve the above object, the invention provides a kind of touch module of tool opto-electronic conversion, comprise: a Touch Zone and a non-Touch Zone, this Touch Zone has one first transparency carrier and one second transparency carrier and a photoelectric conversion unit, this first transparency carrier has one first side and one second side, described the second transparency carrier has one the 3rd side and one the 4th side, and this Touch Zone is respectively arranged with one first touch control electrode layer and one second touch control electrode layer in the second side and the 3rd side position place, and this photoelectric conversion unit is located at the first side of aforementioned the first transparency carrier, and this non-Touch Zone next-door neighbour is arranged at all sides in aforementioned Touch Zone, and this non-Touch Zone has one first electrode routing layer and one second electrode routing layer is electrically connected respectively described the first touch control electrode layer and the second touch control electrode layer, whereby, described photoelectric conversion unit is arranged in the Touch Zone of touch module, photoelectric conversion unit be can increase and light area and the conversion that improves the magnitude of current received, and then lifting contactor control device standby and service time, and because this photoelectric conversion layer is arranged at position, described Touch Zone, can reduce the integral thickness of this touch module, and can improve known technology and setting must be to transparent housing and irradiate the shortcoming of carrying out opto-electronic conversion for absorbing light.
Accompanying drawing explanation
Fig. 1 is the three-dimensional combination figure of the touch module of tool opto-electronic conversion of the present invention;
Fig. 2 is the assembled sectional view of the touch module of tool opto-electronic conversion of the present invention.
Main element symbol description
Touch Zone 1
The first transparency carrier 11
The first side 111
The second side 112
The second transparency carrier 12
The 3rd side 121
The 4th side 122
The first transparent electrode layer 133
The second transparent electrode layer 134
The first touch control electrode layer 14
The second touch control electrode layer 15
Non-Touch Zone 2
The first electrode routing layer 21
The second electrode routing layer 22
The first conductive adhesive layer 24
The second conductive adhesive layer 25
Embodiment
Characteristic in above-mentioned purpose of the present invention and structure thereof and function, will be explained according to appended graphic preferred embodiment.
The present invention is a kind of touch module of tool opto-electronic conversion, refer to shown in Fig. 1 and Fig. 2, show plane combination schematic diagram and the diagrammatic cross-section of the present invention's the first preferred embodiment, include a Touch Zone 1 and a non-Touch Zone 2, this Touch Zone 1 has one first transparency carrier 11 and one second transparency carrier 12 and a photoelectric conversion unit 13, wherein the material of this first transparency carrier 11 and the second transparency carrier 12 explains with glass and plastic cement in this better enforcement, but be not limited to this, also may be selected to be polyethylene terephthalate (Polyethylene Terephthalate, PET), polycarbonate (Poly Carbonate, PC), tygon (polyethylene, PE), Polyvinylchloride (Poly Vinyl Chloride, PVC), polypropylene (PolyPropylene, PP), polystyrene (Poly Styrene, PS), polymethylmethacrylate (Polymethylmethacrylate, PMMA), cyclic olefine copolymer (cyclo olefin coplymer, COC) arbitrary material wherein.
Wherein said the first transparency carrier 11 has one first side 111 and one second side 112, and this second transparency carrier 12 has one the 3rd side 121 and the 4th side 122, and this Touch Zone 1 is respectively arranged with one first touch control electrode layer 14 and one second touch control electrode layer 15 in the second side 112 and the 3rd side 121 positions, and this first touch control electrode layer 14 and one second touch control electrode layer 15 materials are indium tin oxide (IndiumTin Oxide, or antimony tin oxide (Antimony Tin Oxide ITO), or indium-zinc oxide (indiumzinc oxide ATO), IZO) film described the first touch control electrode layer 14 and one second touch control electrode layer 15 are formed in the mode of sputter in this preferred embodiment on this second side 112 and the 3rd side 121 1 sides, but be not limited to this, in the time of concrete enforcement, also can select to be coated with gel, the mode of plating or evaporation is formed on this side, close first Chen Ming.
Wherein this Touch Zone 1 has more colloid layer 16 and is located between this first and second transparency carrier, and in the present embodiment, its colloid layer 16 is arranged between described the first touch control electrode layer 14 and one second touch control electrode layer 15, and this colloid layer 16 is chosen as optical cement fat and optical cement is wherein arbitrary.
And this photoelectric conversion unit 13 is located at the first side 111 of aforementioned the first transparency carrier 11, and this photoelectric conversion unit 13 has an anti-reflecting layer 131 and a light absorbing zone 132, described light absorbing zone 132 both sides have respectively one first transparent electrode layer 133 and one second transparent electrode layer 134, and described anti-reflecting layer 131 is located at a side of the contrary aforementioned light absorbing zone 132 of aforementioned the first transparent electrode layer 133, and in the present embodiment, its photoelectric conversion unit 13 is formed by a thin-film type solar cell.
Wherein these non-Touch Zone 2 next-door neighbours are arranged at the 1 week side in aforementioned Touch Zone, and this non-Touch Zone 2 has one first electrode routing layer 21 and one second electrode routing layer 22 is electrically connected respectively described the first touch control electrode layer 14 and the second touch control electrode layer 15, the first transparency carrier 11 of its Touch Zone 1 and the second transparency carrier 12 and colloid layer 16 extend to described non-Touch Zone 2, and this first electrode routing layer 21 is relatively arranged on the second side 112 positions of described the first transparency carrier 11, this the second electrode routing layer 22 is relatively arranged on the 3rd side 121 positions of described the second transparency carrier 12.
And wherein this non-Touch Zone 2 has more a shielding layer 23 and one first conductive adhesive layer 24 and one second conductive adhesive layer 25 and a flexible circuit board 26, wherein this shielding layer 23 is located at aforementioned the first electrode routing layer 21 with respect to described the first transparency carrier 11 opposite sides, and the colloid layer 16 of its Touch Zone 1 extends between described shielding layer 23 and the second electrode routing layer 22, and this first conductive adhesive layer 24 is located at aforementioned the first electrode routing layer 21 with respect to the first transparency carrier 11 opposite sides and is connected described shielding layer 23, and this second conductive adhesive layer 25 is located at aforementioned the second electrode routing layer 22 with respect to the second transparency carrier 12 opposite sides, and be provided with described flexible base plate between this first conductive adhesive layer 24 and the second conductive adhesive layer 25, whereby, described photoelectric conversion unit 13 is arranged in the Touch Zone 1 of touch module 1, photoelectric conversion unit 13 be can increase and light area and the conversion that improves the magnitude of current received, and then lifting contactor control device standby and service time, and because this photoelectric conversion layer is arranged at 1 position, described Touch Zone, can reduce the integral thickness of this touch module 1, and can improve known technology and setting must be to transparent housing and irradiate the shortcoming of carrying out opto-electronic conversion for absorbing light.
The above, the present invention has advantages of following compared to known technology:
1. increase and receive light area;
2. improve the conversion of the magnitude of current;
3. promote contactor control device standby and service time.
Press, the above, be only preferred embodiment of the present invention, only feature of the present invention is not limited to this, anyly be familiar with this skill person in field of the present invention, can think easily and variation or modification, all should be encompassed in following claim of the present invention.
Claims (10)
1. a touch module for tool opto-electronic conversion, is characterized in that, comprises:
One Touch Zone, there is one first transparency carrier and one second transparency carrier and a photoelectric conversion unit, this first transparency carrier has one first side and one second side, described the second transparency carrier has one the 3rd side and one the 4th side, and this Touch Zone is respectively arranged with one first touch control electrode layer and one second touch control electrode layer in the second side and the 3rd side position place, and this photoelectric conversion unit is located at the first side of aforementioned the first transparency carrier;
One non-Touch Zone, next-door neighbour is arranged at all sides in aforementioned Touch Zone, and this non-Touch Zone has one first electrode routing layer and one second electrode routing layer is electrically connected respectively described the first touch control electrode layer and the second touch control electrode layer.
2. the touch module of tool opto-electronic conversion as claimed in claim 1, is characterized in that, described Touch Zone has more colloid layer to be located between this first and second transparency carrier, and this colloid layer is chosen as optical cement fat and optical cement is wherein arbitrary.
3. the touch module of tool opto-electronic conversion as claimed in claim 1, it is characterized in that, described photoelectric conversion unit has an anti-reflecting layer and a light absorbing zone, described light absorbing zone both sides have respectively one first transparent electrode layer and one second transparent electrode layer, and described anti-reflecting layer is located at a side of the contrary aforementioned light absorbing zone of aforementioned the first transparent electrode layer.
4. the touch module of tool opto-electronic conversion as claimed in claim 1, it is characterized in that, described the first transparency carrier and the second transparency carrier extend to described non-Touch Zone, and this first electrode routing layer is relatively arranged on the second side of described the first transparency carrier, this second electrode routing layer is relatively arranged on the 3rd side of described the second transparency carrier.
5. the touch module of tool opto-electronic conversion as claimed in claim 4, is characterized in that, described non-Touch Zone has more a shielding layer, and aforementioned the first electrode routing layer is located at respect to the first transparency carrier opposite side in this shielded area.
6. the touch module of tool opto-electronic conversion as claimed in claim 4, it is characterized in that, described non-Touch Zone has more one first conductive adhesive layer and one second conductive adhesive layer and a flexible circuit board, this first conductive adhesive layer is located at aforementioned the first electrode routing layer with respect to the first transparency carrier opposite side, and this second conductive adhesive layer is located at aforementioned the second electrode routing layer with respect to the second transparency carrier opposite side, described flexible base plate is located between this first and second conductive adhesive layer.
7. the touch module of tool opto-electronic conversion as claimed in claim 1, is characterized in that, described photoelectric conversion unit is formed by a thin-film type solar cell.
8. the touch module of tool opto-electronic conversion as claimed in claim 1, it is characterized in that, described first and second transparency carrier may be selected to be polyethylene terephthalate, polycarbonate, tygon, Polyvinylchloride, polypropylene, polystyrene, polymethylmethacrylate and cyclic olefine copolymer and wherein arbitrary material of glass.
9. the touch module of tool opto-electronic conversion as claimed in claim 1, it is characterized in that, described the first touch control electrode layer and one second touch control electrode layer are for to be coated with the wherein arbitrary membrane structure that mode was formed of gel, plating, evaporation or sputter, and this membrane structure is that indium tin oxide ITO, indium-zinc oxide IZO and antimony tin oxide ATO are wherein arbitrary.
10. the touch module of tool opto-electronic conversion as claimed in claim 2, is characterized in that, described colloid layer extend to described non-Touch Zone and be arranged at the first electrode routing layer and the second electrode routing layer between.
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CN201210441196.9A CN103809814A (en) | 2012-11-07 | 2012-11-07 | Touch module with photovoltaic conversion function |
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CN201210441196.9A CN103809814A (en) | 2012-11-07 | 2012-11-07 | Touch module with photovoltaic conversion function |
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CN104571698A (en) * | 2014-12-26 | 2015-04-29 | 京东方科技集团股份有限公司 | Touch panel, manufacturing method for touch panel and touch display device comprising touch panel |
CN105955546A (en) * | 2016-06-24 | 2016-09-21 | 京东方科技集团股份有限公司 | Solar touch display device |
CN106157581A (en) * | 2015-04-14 | 2016-11-23 | 南昌欧菲光学技术有限公司 | Solar energy type touch-control remote controller |
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CN102654798A (en) * | 2011-03-03 | 2012-09-05 | 宸鸿光电科技股份有限公司 | Touch sensing device and manufacturing method thereof |
CN202422097U (en) * | 2012-02-15 | 2012-09-05 | 林志忠 | Capacitive touch control device |
CN203054792U (en) * | 2012-11-07 | 2013-07-10 | 林志忠 | Touch module with photoelectric conversion function |
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US20100294344A1 (en) * | 2005-09-28 | 2010-11-25 | Sipix Chemical Inc. | Decoration film and decoration device |
CN101556389A (en) * | 2008-04-09 | 2009-10-14 | 胜华科技股份有限公司 | Transparent capacitance type touch panel |
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CN104571698A (en) * | 2014-12-26 | 2015-04-29 | 京东方科技集团股份有限公司 | Touch panel, manufacturing method for touch panel and touch display device comprising touch panel |
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CN106157581A (en) * | 2015-04-14 | 2016-11-23 | 南昌欧菲光学技术有限公司 | Solar energy type touch-control remote controller |
CN105955546A (en) * | 2016-06-24 | 2016-09-21 | 京东方科技集团股份有限公司 | Solar touch display device |
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Application publication date: 20140521 |