CN202887147U - Touch device with photoelectric conversion - Google Patents

Abstract

A touch device with photoelectric conversion comprises: a touch device body, the touch device body having: the photoelectric conversion layer is arranged in the touch area, so that the light absorption area of the photoelectric conversion layer can be increased, the converted current amount is increased, and the standby time and the service time of the touch device are further prolonged.

Description

The contactor control device of tool opto-electronic conversion

Technical field

A kind of contactor control device of tool opto-electronic conversion, in espespecially a kind of Touch Zone that photoelectric conversion layer is arranged at contactor control device, receive light area so as to promoting contactor control device standby and service time and increasing photoelectric conversion layer, improve the contactor control device of the tool opto-electronic conversion of the magnitude of current of changing.

Background technology

Pressing existing general portable electronic equipment head heavily is the supply of electric power, so as to standby and the use of keeping electronic installation, it still need be dependent on built-in battery supplied electric power running the supply of portable electronic equipment electric power, because existing portable electronic equipment combines the use of contactor control device more in addition so that its power consumption is more acute, then significantly reduces the time of standby and use.

For solving the very large problem of known portable electronic equipment power consumption, with a solar modules and its combination at present, and carry out the conversion of photoelectricity by solar modules, and then the electrical power storage that the 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 mainly is arranged in the housing of the non-Touch Zone of portable electronic equipment or this portable electronic equipment, carry out opto-electronic conversion for making solar modules can absorb the light irradiation, then this housing must be made as transparent material, or with protruding this outside of exposing of solar modules, and then produce the shortcoming that makes this product thickness be difficult for reduction.

The utility model content

For this reason, for solving the shortcoming of above-mentioned known technology, fundamental purpose of the present utility model provides the standby of a kind of lifting contactor control device and service time and increases photoelectric conversion layer and receives light area, improves the contactor control device of the tool opto-electronic conversion of the magnitude of current of changing.

In order to achieve the above object, the utility model provides a kind of contactor control device of tool opto-electronic conversion, comprises: a contactor control device body;

Described contactor control device body has: a Touch Zone and a non-Touch Zone, and described non-Touch Zone next-door neighbour is arranged at all sides in aforementioned Touch Zone, and described Touch Zone is provided with a photoelectric conversion layer.

Aforementioned photoelectric conversion layer is combined with this contactor control device body, can carries out electrical power storage after opto-electronic conversion further will be changed in contactor control device by this photoelectric conversion layer, and then promote use and the stand-by time of this contactor control device.

Moreover, because this photoelectric conversion layer is arranged at the Touch Zone of this this contactor control device body, then can reduce the integral thickness of this contactor control device body, and can improve known technology and the housing setting must be transparent shortcoming.

Particularly, the utility model provides a kind of contactor control device of tool opto-electronic conversion, comprises:

One contactor control device body has: a Touch Zone and a non-Touch Zone, and described non-Touch Zone next-door neighbour is arranged at all sides in aforementioned Touch Zone, and described Touch Zone is provided with a photoelectric conversion layer.

Preferably, the contactor control device of described tool opto-electronic conversion, described contactor control device body also has one first transparency carrier and one second transparency carrier and at least one touch control electrode layer and colloid layer and a conductive adhesive layer and a shielding layer and an electrode routing layer and a flexible base plate, described the 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, described photoelectric conversion layer is located at the first side of aforementioned the first transparency carrier, the 3rd side and the 4th side that aforementioned the second transparency carrier is located in described touch control electrode layer selection are wherein arbitrary, described touch control electrode layer and this colloid layer and this conductive adhesive layer and this shielding layer and this flexible base plate and this electrode routing layer be located at this first, two transparency carriers between the two, described touch control electrode layer is arranged at the Touch Zone of this contactor control device body, described conductive adhesive layer is located at described flexible base plate and this electrode routing layer between the two, described shielding layer is located at former electrodes routing layer one side and adjacent aforementioned conductive adhesive layer, described flexible base plate and this shielding layer and this electrode routing layer and this conductive adhesive layer are located at the non-Touch Zone of this contactor control device body, and described colloid layer is located between flexible base plate and this touch control electrode layer and this first transparency carrier three.

Preferably, the contactor control device of described tool opto-electronic conversion, described contactor control device body also has one first transparency carrier and one second transparency carrier and at least one touch control electrode layer and colloid layer and a conductive adhesive layer and a shielding layer and an electrode routing layer and a flexible base plate, described the 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, described photoelectric conversion layer is located at the first side of aforementioned the first transparency carrier, the 3rd side and the 4th side of described the second transparency carrier all are provided with aforementioned touch control electrode layer, described touch control electrode layer and this colloid layer and this conductive adhesive layer and this shielding layer and this flexible base plate and this electrode routing layer be located at this first, two transparency carriers between the two, described touch control electrode layer is arranged at the Touch Zone of this contactor control device body, described conductive adhesive layer is located at described flexible base plate and this electrode routing layer between the two, described shielding layer is located at former electrodes routing layer one side and adjacent aforementioned conductive adhesive layer, described flexible base plate and this shielding layer and this electrode routing layer and this conductive adhesive layer are located at the non-Touch Zone of this contactor control device body, and described colloid layer is located between flexible base plate and this touch control electrode layer and this first transparency carrier three.

Preferably, the contactor control device of described tool opto-electronic conversion, described photoelectric conversion layer 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 opposite aforementioned light absorbing zone of aforementioned the first transparent electrode layer.

Preferably, the contactor control device of described tool opto-electronic conversion, described photoelectric conversion layer is consisted of by a thin-film type solar cell.

Preferably, the contactor control device of described tool opto-electronic conversion, described first and second transparency carrier may be selected to be wherein arbitrary material of polyethylene terephthalate, polycarbonate, tygon, Polyvinylchloride, polypropylene, polystyrene, polymethylmethacrylate and cyclic olefine copolymer and glass, and described colloid layer is chosen as optical cement fat and optical cement is wherein arbitrary.

Preferably, the contactor control device of described tool opto-electronic conversion, described first and second transparency carrier may be selected to be wherein arbitrary material of polyethylene terephthalate, polycarbonate, tygon, Polyvinylchloride, polypropylene, polystyrene, polymethylmethacrylate and cyclic olefine copolymer and glass, and described colloid layer is chosen as optical cement fat and optical cement is wherein arbitrary.

Preferably, the contactor control device of described tool opto-electronic conversion, described touch control electrode layer is with coating gel, plating, evaporation or the sputter arbitrary formed membrane structure of mode wherein, and this membrane structure is that indium tin oxide ITO, indium-zinc oxide IZO and antimony tin oxide ATO are wherein arbitrary.

Preferably, the contactor control device of described tool opto-electronic conversion, described touch control electrode layer is with coating gel, plating, evaporation or the sputter arbitrary formed membrane structure of mode wherein, and this membrane structure is that indium tin oxide ITO, indium-zinc oxide IZO and antimony tin oxide ATO are wherein arbitrary.

Preferably, the contactor control device of described tool opto-electronic conversion, described contactor control device body also has one first transparency carrier and one second transparency carrier and at least one touch control electrode layer and colloid layer and a conductive adhesive layer and a shielding layer and an electrode routing layer and a flexible base plate, described the 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, described photoelectric conversion layer is located at the first side of aforementioned the first transparency carrier, the 3rd side and the 4th side that aforementioned the second transparency carrier is located in described touch control electrode layer selection are wherein arbitrary, described touch control electrode layer and this colloid layer and this conductive adhesive layer and this shielding layer and this flexible base plate and this electrode routing layer be located at this first, two transparency carriers between the two, described touch control electrode layer is arranged at the Touch Zone of this contactor control device body, described conductive adhesive layer is located at described flexible base plate and this electrode routing layer between the two, described shielding layer is located at the second side of aforementioned the first transparency carrier, described flexible base plate and this shielding layer and this electrode routing layer and this conductive adhesive layer are located at the non-Touch Zone of this contactor control device body, and described colloid layer is located between flexible base plate and this touch control electrode layer and shielding layer and this first transparency carrier.

Preferably, the contactor control device of described tool opto-electronic conversion, described contactor control device body also has one first transparency carrier and one second transparency carrier and at least one touch control electrode layer and colloid layer and a conductive adhesive layer and a shielding layer and an electrode routing layer and a flexible base plate, described the 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, described photoelectric conversion layer is located at the first side of aforementioned the first transparency carrier, the 3rd side and the 4th side of described the second transparency carrier all are provided with aforementioned touch control electrode layer, described touch control electrode layer and this colloid layer and this conductive adhesive layer and this shielding layer and this flexible base plate and this electrode routing layer be located at this first, two transparency carriers between the two, described touch control electrode layer is arranged at the Touch Zone of this contactor control device body, described conductive adhesive layer is located at described flexible base plate and this electrode routing layer between the two, described shielding layer is located at the second side of aforementioned the first transparency carrier, described flexible base plate and this shielding layer and this electrode routing layer and this conductive adhesive layer are located at the non-Touch Zone of this contactor control device body, and described colloid layer is located between flexible base plate and this touch control electrode layer and shielding layer and this first transparency carrier.

Description of drawings

Fig. 1 is the vertical view of the first embodiment of the contactor control device of the utility model tool opto-electronic conversion;

Fig. 2 is the assembled sectional view of the first embodiment of the contactor control device of the utility model tool opto-electronic conversion;

Fig. 3 is the assembled sectional view of the second embodiment of the contactor control device of the utility model tool opto-electronic conversion;

Fig. 4 is the assembled sectional view of the 3rd embodiment of the contactor control device of the utility model tool opto-electronic conversion;

Fig. 5 is the assembled sectional view of the 4th embodiment of the contactor control device of the utility model tool opto-electronic conversion.

The main element symbol description

Contactor control device body 1

Touch Zone 11

The first transparency carrier 111

The first side 1111

The second side 1112

The second transparency carrier 112

The 3rd side 1121

The 4th side 1122

Touch control electrode layer 113

Colloid layer 114

Non-Touch Zone 12

Conductive adhesive layer 121

Shielding layer 122

Electrode routing layer 123

Flexible base plate 124

Photoelectric conversion layer 13

Anti-reflecting layer 131

Light absorbing zone 132

The first transparent electrode layer 133

The second transparent electrode layer 134

Embodiment

Characteristic on above-mentioned purpose of the present utility model and structure thereof and the function will be explained according to appended graphic preferred embodiment.

See also Fig. 1, Fig. 2, be vertical view and the assembled sectional view of the first embodiment of the contactor control device of the utility model tool opto-electronic conversion, as shown in the figure, the contactor control device of described tool opto-electronic conversion comprises: a contactor control device body 1;

Described contactor control device body 1 has: a Touch Zone 11 and a non-Touch Zone 12, and described non-Touch Zone 12 next-door neighbours are arranged at aforementioned Touch Zone 11 all sides, and described Touch Zone 11 is provided with a photoelectric conversion layer 13.

Described contactor control device body 1 also has one first transparency carrier 111 and one second transparency carrier 112 and at least one touch control electrode layer 113 and colloid layer 114 and a conductive adhesive layer 121 and a shielding layer 122 and an electrode routing layer 123 and a flexible base plate 124, described the first transparency carrier 111 has one first side 1111 and one second side 1112, described the second transparency carrier 112 has one the 3rd side 1121 and one the 4th side 1122, described photoelectric conversion layer 13 is located at the first side 1111 of aforementioned the first transparency carrier 111, the 3rd side 1121 and the 4th side 1122 that aforementioned the second transparency carrier 112 is located in described touch control electrode layer 113 selections are wherein arbitrary, present embodiment touch control electrode layer 113 is arranged at the 3rd side 1121, is not limited but do not regard it as.

Described touch control electrode layer 113 and colloid layer 114 and this conductive adhesive layer 121 and this shielding layer 122 and this flexible base plate 124 and this electrode routing layer 123 be located at this first, two transparency carriers 111,112 between the two, described touch control electrode layer 113 is arranged at the Touch Zone 11 of this contactor control device body 1, described conductive adhesive layer 121 is located at described flexible base plate 124 and this electrode routing layer 123 between the two, described shielding layer 122 is located at former electrodes routing layer 123 1 sides and adjacent aforementioned conductive adhesive layer 121, described flexible base plate 124 and this shielding layer 122 and this electrode routing layer 123 and this conductive adhesive layer 121 are located at the non-Touch Zone 12 of this contactor control device body 1, described colloid layer 114 is located between flexible base plate 124 and this touch control electrode layer 113 and this first transparency carrier 111 threes, the Touch Zone 11 top-down orders that are present embodiment are, photoelectric conversion layer 13, the first transparency carrier 111, colloid layer 114, touch control electrode layer 113, the second transparency carrier 112, non-Touch Zone 12 top-down orders are the first transparency carrier 111, colloid layer 114, flexible base plate 124, conductive adhesive layer 121 is arranged side by side with shielding layer 122, electrode routing layer 123, the second transparency carrier 112.

See also Fig. 3, assembled sectional view for the second embodiment of the contactor control device of the utility model tool opto-electronic conversion, as shown in the figure, present embodiment is identical with aforementioned the first embodiment part-structure and association, so will repeat no more at this, only present embodiment and not existing together of aforementioned the first embodiment are located at the second side 1112 of aforementioned the first transparency carrier 111 for described shielding layer 122, the Touch Zone 11 top-down orders that are present embodiment are, photoelectric conversion layer 13, the first transparency carrier 111, colloid layer 114, touch control electrode layer 113, the second transparency carrier 112, non-Touch Zone 12 top-down orders are the first transparency carrier 111, shielding layer 122, colloid layer 114, flexible base plate 124, conductive adhesive layer 121, electrode routing layer 123, the second transparency carrier 112.

See also Fig. 4, assembled sectional view for the 3rd embodiment of the contactor control device of the utility model tool opto-electronic conversion, as shown in the figure, present embodiment is identical with aforementioned the first embodiment part-structure and association, so will repeat no more at this, only the 3rd side 1121 and the 4th side 1122 that do not exist together for described the second transparency carrier 112 of present embodiment and aforementioned the first embodiment all are provided with aforementioned touch control electrode layer 113, described colloid layer 114 be located at this first, two transparency carriers 111,112 between the two, then present embodiment Touch Zone 11 top-down orders are, photoelectric conversion layer 13, the first transparency carrier 111, colloid layer 114, touch control electrode layer 113, the second transparency carrier 112, touch control electrode layer 113, non-Touch Zone 12 top-down orders are the first transparency carrier 111, colloid layer 114, flexible base plate 124, conductive adhesive layer 121 is arranged side by side with shielding layer 122, electrode routing layer 123, the second transparency carrier 112, electrode routing layer 123.

See also Fig. 5, assembled sectional view for the 4th embodiment of the contactor control device of the utility model tool opto-electronic conversion, as shown in the figure, present embodiment is identical with aforementioned the 3rd embodiment part-structure and association, so will repeat no more at this, only present embodiment and not existing together of aforementioned the 3rd embodiment are located at the second side 1112 of aforementioned the first transparency carrier 111 for described shielding layer 122, then present embodiment Touch Zone 11 top-down orders are, photoelectric conversion layer 13, the first transparency carrier 111, colloid layer 114, touch control electrode layer 113, the second transparency carrier 112, touch control electrode layer 113, non-Touch Zone 12 top-down orders are the first transparency carrier 111, shielding layer 122, colloid layer 114, flexible base plate 124, conductive adhesive layer 121, electrode routing layer 123, the second transparency carrier 112, electrode routing layer 123.

The described photoelectric conversion layer 13 of aforementioned first, second, third and fourth embodiment 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 aforementioned the first transparent electrode layer 133 opposite aforementioned light absorbing zones 132, and described photoelectric conversion layer 13 is consisted of by a thin-film type solar cell.

Described first and second transparency carrier 111,112 may be selected to be and is polyethylene terephthalate, polycarbonate, tygon, Polyvinylchloride, polypropylene, polystyrene, polymethylmethacrylate and cyclic olefine copolymer and glass arbitrary material wherein, described colloid layer 114 is chosen as optical cement fat and optical cement is wherein arbitrary, the first transparency carrier 111 of aforementioned the first embodiment is glass, and 112 of the second transparency carriers are that aforementioned material is wherein arbitrary.

Described touch control electrode layer 113 is with coating gel, plating, evaporation or the sputter arbitrary formed membrane structure of mode wherein, and this membrane structure is that indium tin oxide (ITO), indium-zinc oxide (IZO) and antimony tin oxide (ATO) are wherein arbitrary.

Claims (11)

1. the contactor control device of a tool opto-electronic conversion is characterized in that, comprises:

One contactor control device body has: a Touch Zone and a non-Touch Zone, and described non-Touch Zone next-door neighbour is arranged at all sides in aforementioned Touch Zone, and described Touch Zone is provided with a photoelectric conversion layer.

2. the contactor control device of tool opto-electronic conversion as claimed in claim 1, it is characterized in that, described contactor control device body also has one first transparency carrier and one second transparency carrier and at least one touch control electrode layer and colloid layer and a conductive adhesive layer and a shielding layer and an electrode routing layer and a flexible base plate, described the 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, described photoelectric conversion layer is located at the first side of aforementioned the first transparency carrier, the 3rd side and the 4th side that aforementioned the second transparency carrier is located in described touch control electrode layer selection are wherein arbitrary, described touch control electrode layer and this colloid layer and this conductive adhesive layer and this shielding layer and this flexible base plate and this electrode routing layer be located at this first, two transparency carriers between the two, described touch control electrode layer is arranged at the Touch Zone of this contactor control device body, described conductive adhesive layer is located at described flexible base plate and this electrode routing layer between the two, described shielding layer is located at former electrodes routing layer one side and adjacent aforementioned conductive adhesive layer, described flexible base plate and this shielding layer and this electrode routing layer and this conductive adhesive layer are located at the non-Touch Zone of this contactor control device body, and described colloid layer is located between flexible base plate and this touch control electrode layer and this first transparency carrier three.

3. the contactor control device of tool opto-electronic conversion as claimed in claim 1, it is characterized in that, described contactor control device body also has one first transparency carrier and one second transparency carrier and at least one touch control electrode layer and colloid layer and a conductive adhesive layer and a shielding layer and an electrode routing layer and a flexible base plate, described the 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, described photoelectric conversion layer is located at the first side of aforementioned the first transparency carrier, the 3rd side and the 4th side of described the second transparency carrier all are provided with aforementioned touch control electrode layer, described touch control electrode layer and this colloid layer and this conductive adhesive layer and this shielding layer and this flexible base plate and this electrode routing layer be located at this first, two transparency carriers between the two, described touch control electrode layer is arranged at the Touch Zone of this contactor control device body, described conductive adhesive layer is located at described flexible base plate and this electrode routing layer between the two, described shielding layer is located at former electrodes routing layer one side and adjacent aforementioned conductive adhesive layer, described flexible base plate and this shielding layer and this electrode routing layer and this conductive adhesive layer are located at the non-Touch Zone of this contactor control device body, and described colloid layer is located between flexible base plate and this touch control electrode layer and this first transparency carrier three.

4. the contactor control device of tool opto-electronic conversion as claimed in claim 1, it is characterized in that, described photoelectric conversion layer 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 opposite aforementioned light absorbing zone of aforementioned the first transparent electrode layer.

5. the contactor control device of tool opto-electronic conversion as claimed in claim 1 is characterized in that, described photoelectric conversion layer is consisted of by a thin-film type solar cell.

6. the contactor control device of tool opto-electronic conversion as claimed in claim 2, it is characterized in that, described first and second transparency carrier may be selected to be wherein arbitrary material of polyethylene terephthalate, polycarbonate, tygon, Polyvinylchloride, polypropylene, polystyrene, polymethylmethacrylate and cyclic olefine copolymer and glass, and described colloid layer is chosen as optical cement fat and optical cement is wherein arbitrary.

7. the contactor control device of tool opto-electronic conversion as claimed in claim 3, it is characterized in that, described first and second transparency carrier may be selected to be wherein arbitrary material of polyethylene terephthalate, polycarbonate, tygon, Polyvinylchloride, polypropylene, polystyrene, polymethylmethacrylate and cyclic olefine copolymer and glass, and described colloid layer is chosen as optical cement fat and optical cement is wherein arbitrary.

8. the contactor control device of tool opto-electronic conversion as claimed in claim 2, it is characterized in that, described touch control electrode layer is with coating gel, plating, evaporation or the sputter arbitrary formed membrane structure of mode wherein, and this membrane structure is that indium tin oxide ITO, indium-zinc oxide IZO and antimony tin oxide ATO are wherein arbitrary.

9. the contactor control device of tool opto-electronic conversion as claimed in claim 3, it is characterized in that, described touch control electrode layer is with coating gel, plating, evaporation or the sputter arbitrary formed membrane structure of mode wherein, and this membrane structure is that indium tin oxide ITO, indium-zinc oxide IZO and antimony tin oxide ATO are wherein arbitrary.

10. the contactor control device of tool opto-electronic conversion as claimed in claim 1, it is characterized in that, described contactor control device body also has one first transparency carrier and one second transparency carrier and at least one touch control electrode layer and colloid layer and a conductive adhesive layer and a shielding layer and an electrode routing layer and a flexible base plate, described the 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, described photoelectric conversion layer is located at the first side of aforementioned the first transparency carrier, the 3rd side and the 4th side that aforementioned the second transparency carrier is located in described touch control electrode layer selection are wherein arbitrary, described touch control electrode layer and this colloid layer and this conductive adhesive layer and this shielding layer and this flexible base plate and this electrode routing layer be located at this first, two transparency carriers between the two, described touch control electrode layer is arranged at the Touch Zone of this contactor control device body, described conductive adhesive layer is located at described flexible base plate and this electrode routing layer between the two, described shielding layer is located at the second side of aforementioned the first transparency carrier, described flexible base plate and this shielding layer and this electrode routing layer and this conductive adhesive layer are located at the non-Touch Zone of this contactor control device body, and described colloid layer is located between flexible base plate and this touch control electrode layer and shielding layer and this first transparency carrier.

11. the contactor control device of tool opto-electronic conversion as claimed in claim 1, it is characterized in that, described contactor control device body also has one first transparency carrier and one second transparency carrier and at least one touch control electrode layer and colloid layer and a conductive adhesive layer and a shielding layer and an electrode routing layer and a flexible base plate, described the 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, described photoelectric conversion layer is located at the first side of aforementioned the first transparency carrier, the 3rd side and the 4th side of described the second transparency carrier all are provided with aforementioned touch control electrode layer, described touch control electrode layer and this colloid layer and this conductive adhesive layer and this shielding layer and this flexible base plate and this electrode routing layer be located at this first, two transparency carriers between the two, described touch control electrode layer is arranged at the Touch Zone of this contactor control device body, described conductive adhesive layer is located at described flexible base plate and this electrode routing layer between the two, described shielding layer is located at the second side of aforementioned the first transparency carrier, described flexible base plate and this shielding layer and this electrode routing layer and this conductive adhesive layer are located at the non-Touch Zone of this contactor control device body, and described colloid layer is located between flexible base plate and this touch control electrode layer and shielding layer and this first transparency carrier.

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