CN110134294A - Solar energy touch device and its manufacturing method - Google Patents

Abstract

The present invention discloses a kind of solar energy touch device and its manufacturing method.Solar energy touch device includes touch-control module and cover module, and touch-control module has loading end；Cover module is engaged on the loading end of touch-control module, and cover module includes transparent panel and solar panels, transparent panel has the touch surface of separate touch-control module and is connected in the corresponding surface at touch surface edge, and cover module is defined on the outside of the corresponding surface of transparent panel in the cricoid accommodating space in side, solar panels are in Fang Huanzhuan and have light-receiving surface and medial surface, solar panels are set in accommodating space, and light-receiving surface is substantially trimmed in touch surface, and medial surface is to be set in distance towards corresponding surface and each other and constitute annular gap.Whereby, the electric energy that the solar panels generate can be supplied to touch-control module or other electronic devices being connected with solar panels, to effectively promote the battery durable power of portable electronic product, and realize energy-saving and environment-friendly purpose.

Description

Solar energy touch device and its manufacturing method

Technical field

The present invention relates to touch device and its manufacturing method more particularly to solar energy touch device and its manufacturing methods.

Background technique

The existing portable electronic devices for including touch device (such as: touch panel) are (such as: smartphone, plate meter Calculation machine or laptop) it is usually to be powered by the rechargeable battery of the types such as lithium battery or lithium polymer battery；So And usually have the bad problem of battery durable power using the portable electronic devices of these rechargeable batteries, thus cause using The puzzlement of person.Furthermore some other power sources (such as: solar panel) are integrated into touch-control although occurring on the market at present The product of device；The problem that thickness is too thick, degree of integration is bad and reliability is bad however, these products remain.

It then, is the special utilization for concentrating on studies and cooperating the principles of science, finally inventors believe that drawbacks described above can improve It is proposed that design is reasonable and is effectively improved the present invention of drawbacks described above.

Summary of the invention

The embodiment of the present invention is to provide a kind of solar energy touch device and its manufacturing method, can effectively improve existing touching Control the issuable defect of device institute.

The embodiment of the present invention discloses a kind of solar energy touch device, comprising: a touch-control module has a loading end；And One cover module is engaged on the loading end of the touch-control module, and the cover module includes: a transparent panel, With the touch surface far from the touch-control module and it is connected in the corresponding surface at the touch surface edge, and the outer cover mold Block is defined on the outside of the corresponding surface of the transparent panel in the cricoid accommodating space in side；And solar panels, it is in Fang Huan Shape and have a light-receiving surface and a medial surface, the solar panels are set in the accommodating space, and the light-receiving surface is cut Touch surface described in Qi Yu, and the medial surface is to be set in distance towards the corresponding surface and each other and constitute an annular gap.

Preferably, the loading end include an active region with around the rim area on the outside of the active region, it is described Transparent panel is set on the active region, and it is complete that the touch surface towards the loading end orthographic projection is formed by a view field It is overlapped in the active region；The accommodating space is located on the rim area, and the solar panels are set to the rim area On.

Preferably, the cover module includes a heat-insulated glue-line, and solar panels described in the heat-insulated glue-line gluing And the rim area of the loading end.

Preferably, the width of the annular gap is between 50 microns to 200 microns, and the heat-insulated glue-line is further It is filled in the annular gap.

Preferably, the transparent panel is formed with an annular groove the outside of the touch surface is recessed, and the corresponding surface is institute An inner sidewall of annular groove is stated, the annular groove encirclement defines the accommodating space, and the solar panels are set to the ring On one bottom wall of shape slot, and the loading end of the touch-control module is completely covered by a bottom surface of the transparent panel.

Preferably, a lateral wall of the annular groove is located at the outer peripheral inside of the transparent panel and has been separated by one Distance；Alternatively, the annular groove is and the solar panels by the recessed outer edge for extending to the transparent panel of the inner sidewall A lateral surface trim the outer edge in the transparent panel.

Preferably, the cover module includes a heat-insulated glue-line, and solar panels described in the heat-insulated glue-line gluing And the bottom wall of the annular groove.

Preferably, the width of the annular gap is between 50 microns to 200 microns, and the heat-insulated glue-line is further It is filled in the annular gap.

Preferably, the width of the annular gap is between 50 microns to 200 microns, and the annular gap is covered with sky Gas.

The embodiment of the present invention also discloses a kind of manufacturing method of solar energy touch device, comprising: provides a jig, is formed There are multiple second perforations of multiple first perforations and position on the outside of multiple first perforations；By the touch-control of the transparent panel Face is set on multiple first perforations, and the light-receiving surface of the solar panels is set to multiple second perforations On；It is evacuated with multiple first perforations of the air extractor to the jig with multiple second perforations, so that institute State transparent panel and the solar panels be adsorbed in respectively by multiple first perforations and multiple second perforations it is described Jig, and make the touch surface with the light-receiving surface in coplanar；And the cover module for being adsorbed in the jig is connect It is bonded on the loading end of the touch-control module.

In conclusion solar energy touch device disclosed in the embodiment of the present invention can by by solar panel integrated in touch-control In module, and the electric energy that solar panels are generated is supplied to touch-control module or other electronics being connected with solar panels Device to effectively promote the battery durable power of portable electronic product, and realizes energy-saving and environment-friendly purpose.Furthermore institute Stating solar energy touch device can be by the design of the structure of touch-control module and cover module and position configuration relation, so that solar panels It can be received into the accommodating space being located on the outside of transparent panel, to efficiently reduce the volume and thickness of solar energy touch device Degree.In addition, since the medial surface of the solar panels is the corresponding surface towards transparent panel and is set in distance each other and constitutes a ring Shape gap, therefore the annular gap can be used to reduce the heat transfer between component and component (such as: solar panels and transparent panel), Lead to the case where damaging to be effectively prevented from component because of heat aggregation.

Finally, the manufacturing method of solar energy touch device disclosed in the embodiment of the present invention can pass through jig and air extractor Use and transparent panel and solar panels put mode, and make the touch surface and light-receiving surface in coplanar, thus effectively The surface smoothness of ground promotion solar energy touch device.

For that can be further understood that feature and technology contents of the invention, please refer to the following detailed descriptions related to the present invention With attached drawing, but these explanations are only used to illustrate the present invention with attached drawing, rather than make any limitation to protection scope of the present invention.

Detailed description of the invention

Fig. 1 is the stereoscopic schematic diagram of solar energy of embodiment of the present invention touch device.

Fig. 2 is the decomposition diagram of Fig. 1.

Fig. 3 is the decomposition diagram of Fig. 2.

Fig. 4 is schematic cross-sectional view of the Fig. 1 along hatching line IV-IV.

Fig. 5 is the change type (one) of Fig. 4.

Fig. 6 is the change type (two) of Fig. 4.

Fig. 7 is the change type (three) of Fig. 4.

Fig. 8 is the change type (four) of Fig. 4.

Fig. 9 is the change type (five) of Fig. 4.

Figure 10 is the schematic diagram (one) of the manufacturing method of solar energy of embodiment of the present invention touch device.

Figure 11 is the schematic diagram (two) of the manufacturing method of solar energy of embodiment of the present invention touch device.

Specific embodiment

Fig. 1 to Figure 11 is please referred to, is the embodiment of the present invention, need to first be illustrated, each embodiment respective figure is mentioned And correlated measure and external form, only be used to specifically describe embodiments of the present invention, in order to understand the contents of the present invention, and It is non-to be used to limit to protection scope of the present invention.

[solar energy touch device]

As shown in Figure 1 to Figure 4, the present embodiment discloses a kind of solar energy touch device 100, including a touch-control module 1 and is engaged in One cover module 2 of touch-control module 1.Wherein, the touch-control module 1 can be used to incude a reception contact (such as: finger or glue nib Deng) signal of input, and the cover module 2 can be for protecting touch-control module 1 and for providing touch-control module 1 electric energy.Below It will illustrate respectively the various components specific configuration of the present embodiment solar energy touch device 100, then illustrate that solar energy touches in due course again Control the connection relationship between the various components of device 100.

The touch-control module 1 has a loading end 11 (such as Fig. 3), and the cover module 2 is to be engaged in touch-control module 1 Loading end 11 on.Wherein, the loading end 11 includes an active region 111 and the frame around 111 outside of active region Area 112.

It further says, the touch-control module 1 may, for example, be an an electric resistance touch-control panel either capacitance touching control Panel.Wherein, the electric resistance touch-control panel can wrap containing conductive indium-tin oxide layer (top ITO layer) on one, once Conductive indium-tin oxide layer (bottom ITO layer) and the multiple insulation being set between upper and lower conductive indium-tin oxide layer are every ball (spacer dot).The capacitance type touch-control panel can be distinguished into two-layer capacitance touching control panel and three-layer type capacitance touching control face Plate.Wherein, the two-layer capacitance touching control panel can wrap containing a mono-layer oxidized indium tin conductive layer (single ITO ) and the Optical transparent adhesive (such as: ADH, OCA) or glass substrate that are set on mono-layer oxidized indium tin conductive layer layer；And described three Laminar capacitance touching control panel can wrap containing conductive indium-tin oxide layer on one, once conductive indium-tin oxide layer and be set to up and down Optical transparent adhesive or glass substrate between conductive indium-tin oxide layer.

Please continue to refer to Fig. 1 to Fig. 4, the cover module 2 include a transparent panel 21, solar panels 22 and one every Hot glue layer 23.

The transparent panel 21 may, for example, be do not include have any black ink (black ink) transparent conductive film or Glass (film or glass).Wherein, the transparent panel 21 has a touch surface 211 of separate touch-control module 1 and is connected in touching One corresponding surface 212 at 211 edge of control face, and the cover module 2 is defined on the outside of the corresponding surface 212 of transparent panel 21 in side A cricoid accommodating space 24.

The solar panels 22 may, for example, be silicon-based semiconductor battery, the Cadimium telluride thin film that can convert light energy into electric energy Solar battery, copper, indium and selenium film battery or dye-sensitized film battery.The solar panels 22 can be directly or indirectly Ground is electrically connected at touch-control module 1, to provide 1 electric energy of touch-control module.Electricity between the solar panels 22 and touch-control module 1 Property connection type is without restriction in this present embodiment.

Wherein, the solar panels 22 in Fang Huanzhuan and have a light-receiving surface 221 and a medial surface 222, the solar energy Plate 22 is to be set in above-mentioned accommodating space 24, and the light-receiving surface 221 is substantially trimmed in the touch surface of transparent panel 21 211, and the medial surface 222 is the corresponding surface 212 towards transparent panel 21 and is set in distance each other and constitutes an annular gap G (such as Fig. 4).Wherein, the light-receiving surface 221 of the present embodiment is coplanar in touch surface 211, and " coplanar " in this present embodiment Refer to the difference in height between light-receiving surface 221 and touch surface 211 no more than 50 microns (μm).In one embodiment of this invention, described The width W of annular gap G preferably between 50 microns to 200 microns, and the annular gap G be covered with air, but The present invention is not only restricted to this.

Furthermore the outer rim of the solar panels 22 is trimmed in the outer rim of touch-control module 1, the present embodiment " trim " be Refer to that the outer rim of solar panels 22 does not stretch out the outer rim of touch-control module 1 and the outer rim apart from touch-control module 1 in 100 microns.

In more detail, the transparent panel 21 be set on the active region 111 of the loading end 11 of touch-control module 1, and The touch surface 211 of the transparent panel 21 towards 11 orthographic projection of loading end be formed by a view field be it is substantially complete be overlapped in it is dynamic Make area 111.In one embodiment of this invention, the accommodating space 24 is preferably the loading end for being located substantially at touch-control module 1 On 11 rim area 112, and the solar panels 22 are set on rim area 112.

The heat-insulated glue-line 23 may, for example, be Optical transparent adhesive (such as: ADH, OCA), but the present invention is not only restricted to this.Its In, the heat-insulated glue-line 23 is gluing cover module 2 and touch-control module 1.More specifically, the heat-insulated glue-line 23 is outside gluing The rim area 112 of the loading end 11 of the solar panels 22 and touch-control module 1 of cover module 2.

According to above-mentioned configuration, the solar energy touch device 100 of the present embodiment can be by being integrated in touch-control for solar panels 22 In module 1, and generated electric energy is stored and can be further provided to after allowing solar panels 22 to absorb light Touch-control module 1 or other electronic devices (such as: liquid crystal display) being electrically connected with solar panels 22.Whereby, when it is described too Positive energy touch device 100 is applied to portable electronic product (such as: smartphone, tablet computer or laptop) When, the battery durable power that user can need not worry about electronic product is bad or use half that can not have the problem of electric power.Again Person, since the solar panels 22 will not manufacture carbon dioxide during producing electricl energy, the application solar energy is touched The electronic product of control device 100 can reduce the discharge amount to the greenhouse gases of the earth, to realize energy-saving and environment-friendly purpose.

Furthermore the solar energy touch device 100 of the present embodiment can pass through the design of the structure of touch-control module 1 and cover module 2 And position configuration relation, and solar panels 22 are dexterously accommodated to the accommodating space 24 for being located at 21 outside of transparent panel In, to efficiently reduce the volume and thickness of solar energy touch device 100.It is noted that the solar energy of the present embodiment Plate 22 can replace the edge black surround of conventional touch panel, therefore can reduce the black surround printing process in product processing procedure, thus simple Change the design of product.

Further say, since the transparent panel 21 is on the active region 111 for be set to loading end 11, and the solar energy Plate 22 is to be set on the rim area 112 of loading end 11, therefore the solar panels 22 can not only be used to provide touch-control module 1 electricity It can and will not influence the translucent effect of touch-control module 1 completely.Whereby, when the solar energy touch device 100 is set to a display When in equipment (such as: liquid crystal display), the picture that the display equipment is presented can be understood by transparent panel 21 by user Ground is watched and the effect of the picture presentation will not be covered and influenced by solar panels 22.

Finally, due between the medial surface 222 of the solar panels 22 is the corresponding surface 212 towards transparent panel 21 and is in each other An annular gap G is constituted every setting, and the heat-insulated glue-line 23 is the rim area of gluing solar panels 22 and loading end 11 112, therefore the annular gap G and heat-insulated glue-line 23 can be used to reduce component and component (such as: solar panels 22 and transparent panel 21) heat transfer between, so that being effectively prevented from component leads to the case where damaging because of heat aggregation.

It should be noted that although the present embodiment is to be covered each by touch-control module with solar panels 22 with the transparent panel 21 1 loading end 11 explains (such as Fig. 4), but the present invention is not only restricted to this.For example, the loading end 11 of the touch-control module 1 It is also possible to substantially completely be covered by a bottom surface of transparent panel 21 (figure is unlabeled).In more detail, described such as Fig. 6 and Fig. 8 Transparent panel 21 recessed can be formed with an annular groove 213 in the outside of touch surface 211, and the corresponding surface 212 is annular groove 213 One inner sidewall 2131, the encirclement of annular groove 213 define the accommodating space 24, and the solar panels 22 are set to annular groove On 213 bottom wall 2132, and the loading end 11 of the touch-control module 1 is substantially completely to be covered by a bottom surface of transparent panel 21 Lid.Wherein, the heat-insulated glue-line 23 of the cover module 2 is the bottom wall 2132 and gluing of gluing solar panels 22 and annular groove 213 The bottom surface of transparent panel 21 and the loading end 11 of touch-control module 1.Preferably, the ring being made of the medial surface 222 with corresponding surface 212 The width W of shape clearance G is between 50 microns to 200 microns, and the annular gap G is to be covered with air.

Furthermore which can be roughly divided into two types for the structure of the annular groove 213: one of which is the one of the annular groove 213 The inside of lateral wall 2133 outer edges 214 in transparent panel 21 and be separated by one distance (such as Fig. 6)；Wherein another kind is The annular groove 213 is and the one of the solar panels 22 by the recessed outer edge 214 for extending to transparent panel 21 of inner sidewall 2131 Lateral surface 223 substantially trims the outer edge 214 (such as Fig. 8) in transparent panel 21.

In addition it is noted that although the various embodiments described above are to be covered with air with the annular gap G to explain (as schemed 4, Fig. 6 and Fig. 8), but the present invention is not only restricted to this.For example, the heat-insulated glue-line 23 is also possible to further be filled in ring In shape clearance G (such as Fig. 5, Fig. 7 and Fig. 9), realizing component and component (such as solar panels 22 and transparent panel 21) spaced heat Purpose.Wherein, the width W of the annular gap G is preferably between 50 microns to 200 microns.

[manufacturing method of solar energy touch device]

Due to that may have tolerance (such as: thickness is different) between the transparent panel 21 and solar panels 22 of the cover module 2, Therefore when the transparent panel 21 and solar panels 22 are in assembling, surface irregularity may be led to the problem of (such as: solar panels 22 light-receiving surface 221 can not be trimmed in the touch surface 211 of transparent panel 21).

Such as Figure 10 and Figure 11, in order to solve the problems, such as that above-mentioned surface irregularity, the present embodiment separately disclose a kind of solar energy touching Control the manufacturing method of device 100.The manufacturing method of the solar energy touch device 100 includes step S110, step S120, step Rapid S130 and step S140, but it is not only restricted to this.That is, the manufacturing method of solar energy touch device 100 can be according to setting The demand of meter person and adjusted or increased and decreased its step, the present invention is without restriction herein.

Specifically, step S110 is to provide a jig J, and the jig J-shaped is at having multiple first perforation J1 and position Multiple second perforation J2 on the outside of multiple first perforation J1.Step S120 is that the touch surface 211 of the transparent panel 21 is arranged In on multiple first perforation J1 of jig J, and the light-receiving surface 221 of the solar panels 22 is set to multiple the second of jig J On perforation J2.Step S130 is to be taken out with multiple first perforation J1s and multiple second perforation J2s of the air extractor E to jig J Gas, so that the transparent panel 21 is adsorbed in by multiple first perforation J1 and multiple second perforation J2 respectively with solar panels 22 Jig J, and make the touch surface 211 with light-receiving surface 221 substantially in coplanar.Step S140 is that will be adsorbed in the jig J's Cover module 2 is bonded on the loading end 11 of touch-control module 1, to complete the manufacture of the solar energy touch device 100, and can The problem of surface irregularity to efficiently solve solar energy touch device 100.

[technical effect of the embodiment of the present invention]

In conclusion solar energy touch device 100 disclosed in the embodiment of the present invention can be by integrating solar panels 22 In on touch-control module 1, and the electric energy that solar panels 22 are generated is supplied to touch-control module 1 or other and solar panels 22 electronic devices being electrically connected, to effectively promote the battery durable power of portable electronic product, and realize energy-saving ring The purpose of guarantor.Furthermore the solar energy touch device 100 can pass through the design of the structure of touch-control module 1 and cover module 2 and position Configuration relation enables solar panels 22 to be received to being located in the accommodating space 24 in 21 outside of transparent panel, to effectively subtract The volume and thickness of few solar energy touch device 100.In addition, since the medial surface 222 of the solar panels 22 is towards transparent panel It 21 corresponding surface 212 and is set in distance each other and constitutes an annular gap G, therefore the annular gap G and heat-insulated glue-line 23 It can be used to reduce the heat transfer between component and component (such as: solar panels 22 and transparent panel 21), to be effectively prevented from component Lead to the case where damaging because of heat aggregation.

Finally, the manufacturing method of solar energy touch device 100 disclosed in the embodiment of the present invention can pass through jig J and pumping The use of device E and transparent panel 21 and solar panels 22 put mode, and make the touch surface 211 and light-receiving surface 221 big It causes to be in coplanar, to effectively promote the surface smoothness of solar energy touch device 100.

The foregoing is merely preferred possible embodiments of the invention, are not used to limit to protection scope of the present invention, it is all according to Equivalent changes and modifications within the scope of the patent application of the present invention, should all belong to the protection scope of claims of the present invention.

Claims (10)

1. a kind of solar energy touch device, which is characterized in that the solar energy touch device includes:

One touch-control module has a loading end；And

One cover module is engaged on the loading end of the touch-control module, and the cover module includes:

One transparent panel has the touch surface far from the touch-control module and is connected in a corresponding surface at the touch surface edge, And the cover module is defined on the outside of the corresponding surface of the transparent panel in the cricoid accommodating space in side；And

One solar panels in Fang Huanzhuan and have a light-receiving surface and a medial surface, and it is empty that the solar panels are set to the receiving In, and the light-receiving surface is trimmed in the touch surface, and the medial surface is towards the corresponding surface and each other in interval It is arranged and constitutes an annular gap.

2. solar energy touch device according to claim 1, which is characterized in that the loading end include an active region with Around the rim area on the outside of the active region, the transparent panel is set on the active region, and the touch surface is towards institute It states loading end orthographic projection and is formed by a view field and be completely overlapped in the active region；The accommodating space is located at the frame Qu Shang, and the solar panels are set on the rim area.

3. solar energy touch device according to claim 2, which is characterized in that the cover module includes an adiabatic gum Layer, and the rim area of solar panels described in the heat-insulated glue-line gluing and the loading end.

4. solar energy touch device according to claim 3, which is characterized in that the width of the annular gap is micro- between 50 Rice is between 200 microns, and the heat-insulated glue-line is further filled in the annular gap.

5. solar energy touch device according to claim 1, which is characterized in that the transparent panel is in the outer of the touch surface Side is recessed to be formed with an annular groove, and the corresponding surface is an inner sidewall of the annular groove, and the annular groove encirclement defines institute Accommodating space is stated, the solar panels are set on a bottom wall of the annular groove, and the carrying of the touch-control module Face is completely covered by a bottom surface of the transparent panel.

6. solar energy touch device according to claim 5, which is characterized in that a lateral wall of the annular groove is located at institute It states the outer peripheral inside of transparent panel and has been separated by a distance；Alternatively, the annular groove is prolonged by the inner sidewall is recessed The outer edge of the transparent panel is extended to, and a lateral surface of the solar panels trims the outer edge in the transparent panel.

7. solar energy touch device according to claim 5, which is characterized in that the cover module includes an adiabatic gum Layer, and the bottom wall of solar panels described in the heat-insulated glue-line gluing and the annular groove.

8. solar energy touch device according to claim 7, which is characterized in that the width of the annular gap is micro- between 50 Rice is between 200 microns, and the heat-insulated glue-line is further filled in the annular gap.

9. according to claim 1, solar energy touch device described in 2,5 or 6, which is characterized in that the width of the annular gap Between 50 microns to 200 microns, and the annular gap is covered with air.

10. a kind of manufacturing method of solar energy touch device, to manufacture solar energy touch device as described in claim 1, It is characterized in that, the manufacturing method of the solar energy touch device includes:

One jig is provided, multiple second perforations of multiple first perforations and position on the outside of multiple first perforations are formed with；

The touch surface of the transparent panel is set on multiple first perforations, and by described in the solar panels by Smooth surface is set on multiple second perforations；

It is evacuated with multiple first perforations of the air extractor to the jig with multiple second perforations, so that institute State transparent panel and the solar panels be adsorbed in respectively by multiple first perforations and multiple second perforations it is described Jig, and make the touch surface with the light-receiving surface in coplanar；And

The cover module for being adsorbed in the jig is bonded on the loading end of the touch-control module.