CN109217810A - Solar battery inductor and preparation method thereof, electronic product and shell, accessory - Google Patents

Abstract

The present invention relates to a solar cell sensor and its manufacturing method, electronic product, casing and accessories. The solar cell sensor comprises a solar cell unit, a first electrode lead, a second electrode lead, a first detector and a second detector There are a plurality of solar cell units, the solar cell unit has a first electrode and a second electrode, the first electrode of each solar cell unit is connected with the first electrode lead, and the second electrode of each solar cell unit is connected with the second electrode lead, Each first electrode lead is independently connected to at least one first detector, and each second electrode lead is independently connected to at least one second detector. The first detector and the second detector are used to detect electrical signals. The above-mentioned solar cell sensor can sense the illuminated part or the non-illuminated part (shading part), and feed back the information to the control system, and the control system sends out control commands according to the settings.

Description

Solar battery inductor and preparation method thereof, electronic product and shell, accessory

Technical field

The present invention relates to technical field of solar batteries, more particularly to a kind of solar battery inductor and its production side Method, electronic product and shell, accessory.

Background technique

Traditional consumer electronic product, shell mainly have glass shell, plastic shell and metal shell etc., mainly Play protection decoration, function is more single, is not able to satisfy consumer and increasingly increases electronic product differentiation, multifunction Demand.

Summary of the invention

Based on this, it is necessary in view of the above-mentioned problems, providing a kind of solar battery inductor and preparation method thereof, electronics produces Product and shell, accessory.

A kind of solar battery inductor, including solar battery cell, first electrode lead, second electrode lead, One detector and the second detector；

The solar battery cell have it is multiple, the solar battery cell have first electrode and second electrode, respectively The first electrode of the solar battery cell is connect with the first electrode lead, each solar battery cell The second electrode is connect with the second electrode lead, and each first electrode lead connects alone at least one first detection Device, each second electrode lead connect alone at least one second detector, first detector and second inspection Device is surveyed for detecting electric signal.

The first electrode lead and the second electrode lead have a plurality of in one of the embodiments, and every The first electrode lead is connected the first electrodes of multiple solar battery cells in a first direction, described in every First electrode lead is connected the second electrodes of multiple solar battery cells in a second direction.

Multiple solar battery cells are distributed in matrix in one of the embodiments, described in same a line The first electrode of solar battery cell first electrode lead as described in same is drawn, positioned at the solar-electricity of same row The second electrode of pool unit second electrode lead as described in same is drawn.

The solar battery inductor further includes electric energy storage body, the electric energy storage in one of the embodiments, Body is connect with the first electrode lead and the second electrode lead.

The solar battery inductor further includes controller in one of the embodiments, the controller with it is described First detector and second detector connection, the controller are also used to connect with external equipment, and the controller is used Control instruction is issued to the external equipment in the electric signal fed back according to first detector and second detector.

A kind of accessory of electronic product, including fitment body and the solar battery inductor, the solar energy Battery inductor is arranged in the fitment body.

A kind of shell of electronic product, including shell and the solar battery inductor, the solar battery Inductor is arranged on the housing.

A kind of electronic product, has the shell, and first detector and second detector are connected to described The internal circuit of electronic product.

A kind of production method of solar battery inductor, comprising the following steps:

Multiple solar battery cells are attached on release film；

First electrode lead is made on multiple solar battery cells, makes each solar battery cell The first electrode is connect with a first electrode lead；

The release film is removed, second electrode lead is made on multiple solar battery cells, is made each described The second electrode of solar battery cell is connect with a second electrode lead；

The every first electrode lead is connected into alone at least one first detector, every second electrode is drawn Line connects alone at least one second detector, first detector and second detector for detecting electric signal.

A kind of production method of solar battery inductor, comprising the following steps:

First electrode lead is made on substrate；

Solar battery functional layer is made on the substrate and covers the first electrode lead；

Solar battery functional layer etching is divided into multiple solar battery cells, makes each solar-electricity The first electrode of pool unit is connect with a first electrode lead；

Second electrode lead is made on multiple solar battery cells, makes each solar battery cell The second electrode is connect with a second electrode lead；

The every first electrode lead is connected into alone at least one first detector, every second electrode is drawn Line connects alone at least one second detector, first detector and second detector for detecting electric signal.

Compared with existing scheme, the invention has the following advantages:

Above-mentioned solar battery inductor, when light irradiates Mr. Yu's solar battery cell, which is generated Electric current (voltage), can be by detecting corresponding first electrode lead by connected the first detector and the second detector (X_a), affiliated second electrode lead (Y_b), X_aWith Y_bThe solar battery cell connected jointly is the position of light irradiation.Together Sample reason, when light irradiates all solar battery cells, the first detector and the second detector reach maximum detected value.When it In the irradiation light of solar battery cell when being blocked, the detected value meeting of connected first detector and the second detector Reduce the respective value of a unit.Confirm the first detector and the connected first electrode of the second detector that electric current (voltage) is reduced Lead (X_a), second electrode lead (Y_b), X_aWith Y_bThe solar battery cell connected jointly is the position that irradiation light is kept off. Above-mentioned solar battery inductor can incude illumination position or non-illumination position (shading position), information is fed back To control system, control instruction is issued according to setting by control system.

It is appreciated that above-mentioned solar battery inductor can be used as electric energy power supply unit simultaneously.

Above-mentioned electronic product and its shell, accessory are equivalent to the light quilt of institute's touch location when finger touches case surface It keeps off, the position touched can be parsed by above-mentioned principle.Similarly, the position of multiple spot and wide area touch, gesture etc. Deng also can parse out.These information are fed back into control system, control instruction is issued according to setting by control system.Separately Outside, luminous energy power supply also may be implemented in above-mentioned electronic product and its shell.To which the multi-functional of electronic product can be further realized Change.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the solar battery inductor of an embodiment；

Fig. 2 is cross-sectional view of the solar battery inductor shown in FIG. 1 along the direction A-A；

Fig. 3 is cross-sectional view of the solar battery inductor shown in FIG. 1 along the direction B-B.

Specific embodiment

To facilitate the understanding of the present invention, a more comprehensive description of the invention is given in the following sections with reference to the relevant attached drawings.In attached drawing Give presently preferred embodiments of the present invention.But the invention can be realized in many different forms, however it is not limited to this paper institute The embodiment of description.On the contrary, purpose of providing these embodiments is keeps the understanding to the disclosure more thorough Comprehensively.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.

Unless otherwise defined, all technical and scientific terms used herein and belong to technical field of the invention The normally understood meaning of technical staff is identical.Term as used herein in the specification of the present invention is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term as used herein "and/or" includes one or more phases Any and all combinations of the listed item of pass.

As shown in Figures 1 to 3, the solar battery inductor 100 of one embodiment of the invention, including solar battery cell 110, first electrode lead 120, second electrode lead 130, the first detector 140 and the second detector 150.

Wherein, solar battery cell 110 has multiple, and solar battery cell 110 has first electrode and second electrode. The first electrode of each solar battery cell 110 is connect with first electrode lead 120, and the second of each solar battery cell 110 Electrode is connect with second electrode lead 130, and each first electrode lead 120 connects alone at least one first detector 140, and each Two contact conductors 130 connect alone at least one second detector 150, and the first detector 140 and the second detector 150 are used for Detect electric signal.Wherein, electric signal can be but not limited to one of electric current, voltage and capacitor or a variety of, be also possible to it Changing value.

Wherein, solar battery cell 110 can be but not limited to silicon systems solar battery, thin-film solar cells or calcium Titanium ore solar battery etc..Solar battery cell 110 can be the square of (0.01mm~100mm) × (0.01mm~100mm) Shape sheet can also be the round sheet that diameter is 0.01mm~100mm, be also possible to diamond shape, trapezoidal, oval, triangle or Irregular shape etc..In a specific example, solar battery cell 110 is the rectangular patch of 5mm × 5mm.It is touching In control application, since common finger simulation point size is 10mm × 10mm, solar battery cell 110 be selected as 5mm × The rectangular patch of 5mm is advisable.

The material of first electrode lead 120 and second electrode lead 130 can be but not limited to silver, copper, aluminium, carbon etc. and lead Electric material.In a wherein example, the width of first electrode lead 120 and second electrode lead 130 be 0.0001mm~ 100mm.In a wherein example, the width of first electrode lead 120 and second electrode lead 130 be 0.001mm~ 10mm.In a specific example, the width of first electrode lead 120 and second electrode lead 130 is 0.2mm.

As shown in Figures 1 to 3, in a wherein example, first electrode lead 120 and second electrode lead 130 have It is a plurality of, the first electricity of multiple solar battery cells 110 that every series connection of first electrode lead 120 arranges in a first direction Pole, the second electrode for multiple solar battery cells 110 that every series connection of first electrode lead 120 arranges in a second direction.

In the example shown in Fig. 1~3, multiple solar battery cells 110 are distributed in matrix, positioned at the sun of same a line The first electrode of energy battery unit 110 connects same first electrode lead 120, positioned at the solar battery cell of same row 110 second electrode connects same second electrode lead 130.In this example, first electrode lead 120 and second electrode Lead 130 is mutually perpendicular to.In other examples, multiple solar battery cells 110 can also be according to other regular modes It is arranged.

As shown in Figures 1 to 3, in a wherein example, pass through insulating materials between multiple solar battery cells 110 160 separate.Insulating materials 160 can be but not limited to insulating resin or inorganic insulation filler etc., by solidifying or being sintered Mode is fixed between multiple solar battery cells 110.

In a wherein example, between adjacent solar battery cell 110 between be divided into 0.0001mm~50mm.At it In in an example, between adjacent solar battery cell 110 between be divided into 0.005mm~50mm.In a specific example In, between adjacent solar battery cell 110 between be divided into 0.5mm.

In a wherein example, solar battery inductor 100 further includes electric energy storage body (not shown), electric energy storage Body is connect with first electrode lead 120 and second electrode lead 130.The electric energy that body forms light is stored by electric energy to store Get up.Specifically, every first electrode lead 120 and every second electrode lead 130 be can be and connect an electricity alone Body can be stored, is also possible to each first electrode lead 120 and each second electrode lead 130 is all connected to the same electric energy storage Body.

In a wherein example, solar battery inductor 100 further includes the first protection packaging layer 170 and the second protection Encapsulated layer 180, solar battery cell 110, first electrode lead 120 and the setting of second electrode lead 130 are in the first protection envelope It fills between layer 170 and the second protection packaging layer 180.First protection packaging layer 170 and the second protection packaging layer 180 can be Transparent insulation ink, transparent resin, transparent coating or transparent powder sintering into etc..

In a wherein example, solar battery inductor 100 further includes controller, and controller is detected with first respectively Device 140 and the connection of the second detector 150, controller are also used to connect with external equipment, and controller is used for according to the first detection Device 140 and the electric signal of the second detector 150 feedback issue control instruction to external equipment.

Above-mentioned solar battery inductor 100, when light irradiates Mr. Yu's solar battery cell 110, the solar battery list Member 110 generates electric current (voltage) and passes through connected the first detector 140 and the second detector 150, can be corresponding by detecting 120 (X of first electrode lead_a), affiliated 130 (Y of second electrode lead_b), X_aWith Y_bThe solar battery cell connected jointly 110 be the position of light irradiation.As a same reason, when light irradiates all solar battery cells 110,140 He of the first detector Second detector 150 reaches maximum detected value.When the irradiation light of one of solar battery cell 110 is blocked, institute The detected value of the first detector 140 even and the second detector 150 can reduce the respective value of a unit.Confirm electric current (voltage) The first detector 140 and the connected 120 (X of first electrode lead of the second detector 150 reduced_a), second electrode lead 130 (Y_b), X_aWith Y_bThe solar battery cell 110 connected jointly is the position that irradiation light is kept off.Above-mentioned solar battery induction Device 100 can incude illumination position or non-illumination position (shading position), control system be fed back information to, by controlling System processed issues control instruction according to setting.

For example, above-mentioned solar battery inductor 100 can be used as a kind of photoinduction lock, it can be by unlock piece in solar-electricity The hot spot of specific position, shape, size, frequency and/or duration is irradiated on the photosensitive surface of pond inductor 100, or is hidden The shade for covering out specific position, shape, size, frequency and/or duration, when the first detector 140 and the second detector 150 solve Be precipitated the hot spot or shade position, shape, size, frequency and/or duration and preset position, shape, size, frequency and/ Or duration when matching, then the corresponding switch of control system control is opened.

For another example, above-mentioned solar battery inductor 100 can be used as a kind of photoinduction joystick control, can be by solar battery The photosensitive surface of inductor 100, which touch being formed, completes shading status, is solved by the first detector 140 and the second detector 150 The information elements such as position, shape, size, frequency, the duration of shading are precipitated, is sent to control system, can replace to a certain extent Computer system is operated for physical keyboard.

In addition, above-mentioned solar battery inductor 100 can be used as electric energy power supply unit simultaneously.

Further, the present invention also provides a kind of accessories of electronic product, including fitment body and any of the above-described example Solar battery inductor 100, solar battery inductor 100 be arranged in fitment body.

Electronic product can be but not limited to mobile phone, tablet computer, smartwatch, computer, TV etc., electronic product Accessory can be but not limited to protective case, keyboard, mouse, charging equipment etc..

Further, the present invention also provides a kind of shell of electronic product, including shell and it is any of the above-described it is exemplary too Positive energy battery inductor 100, solar battery inductor 100 is arranged on shell.

Further, the present invention also provides electronic products, have above-mentioned shell, the first detector 140 and the second detection Device 150 is connected to the internal circuit of electronic product.

Solar battery inductor 100 includes controller in one of the embodiments, and controller is detected with first respectively Device 140 and the connection of the second detector 150, controller are also attached to the internal circuit of electronic product.Controller is according to the first inspection The electric signal for surveying device 140 and the second detector 150 feedback issues control instruction to other composition parts of electronic product.It can be with Understand, controller is also possible to the intrinsic controller of electronic product, the first detector 140 of solar battery inductor 100 with And second detector 150 be connected to the intrinsic controller.

Solar battery inductor 100 includes that electric energy stores body in one of the embodiments, and electric energy storage body is connected to The internal circuit of electronic product.It is constituted it is appreciated that electric energy storage body is also possible to the battery etc. that electronic product itself has.

Above-mentioned electronic product and its shell, accessory are equivalent to the light quilt of institute's touch location when finger touches case surface It keeps off, the position touched can be parsed by above-mentioned principle.Similarly, the position of multiple spot and wide area touch, gesture etc. Deng also can parse out.These information are fed back into control system, control instruction is issued according to setting by control system.Separately Outside, luminous energy power supply also may be implemented in above-mentioned electronic product and its shell.To which the multi-functional of electronic product can be further realized Change.

Further, the present invention also provides a kind of production method of any of the above-described exemplary solar battery inductor 100, The production method the following steps are included:

Multiple solar battery cells 110 are attached on release film by S110；

S120 makes first electrode lead 120 on multiple solar battery cells 110, makes each solar battery list The first electrode of member 110 is connect with a first electrode lead 120；

S130, remove release film, on multiple solar battery cells 110 make second electrode lead 130, make it is each too The second electrode of positive energy battery unit 110 is connect with a second electrode lead 130；

Every first electrode lead 120 is connected alone at least one first detector 140 by S140, by every second electricity Pole lead 130 connects alone at least one second detector 150, the first detector 140 and the second detector 150 for detecting Electric signal.

In a wherein example, production method the following steps are included:

Multiple solar battery cells 110 are attached on release film by S111；

S121 makes a plurality of first electrode lead 120, is connected to a plurality of first electrode lead 120 multiple The first electrode of solar battery cell 110 on one direction；

S131 removes release film, makes a plurality of second electrode lead 130 and be connected to multiple sun in a second direction The second electrode of energy battery unit 110；

A plurality of first electrode lead 120 is connected alone at least one first detector 140 by S141 respectively, by a plurality of Two contact conductors 130 connect alone at least one second detector 150, the first detector 140 and the second detector 150 respectively For detecting electric signal.

The present invention is done further by taking the production method of the solar battery inductor 100 of a specific example as an example below Explanation.

The production method of the solar battery inductor 100 of one specific example, comprising the following steps:

A: silicon systems solar battery original piece is cut into the solar battery cell 110 of 5mm × 5mm rectangle.

In other examples, 110 size range of solar battery cell can be but not limited to (0.01mm~100mm) × (0.01mm~100mm)；Junior unit is also possible to one of diamond shape, trapezoidal, oval, triangle or irregular shape or more The combination of kind.

B: the solar battery cell 110 after cutting is arranged separately on UV visbreaking release film according to matrix, solar energy Mutually be not attached between battery unit 110, between adjacent solar battery cell 110 between be divided into 0.5mm.

In other examples, between adjacent solar battery cell 110 interval can be but be not limited to 0.005mm~ 50mm.Multiple solar battery cells 110 can also be arranged according to other regular modes.

C: the fill insulant 160 between solar battery cell 110.

Insulating materials 160 can be but not limited to insulating resin or inorganic insulation filler etc., by solidifying or being sintered Mode is fixed between multiple solar battery cells 110.Insulating materials 160 and the upper surface of solar battery cell 110 are neat It puts down or is higher by.

D: the first electrode lead 120 that a plurality of width is 0.2mm is made by screen printing method, makes a plurality of first electrode lead 120 are connected to the first electrode (solar battery cell 110 of multiple solar battery cells 110 in a first direction Upper surface), each first electrode lead 120 is connected the first electrodes of a certain number of solar battery cells 110, Mei Getai The first electrode of positive energy battery unit 110 is only connected with a first electrode lead 120, is connected, mutually parallel between contact conductor, And it is not connected to.

In other examples, the production method of first electrode lead 120 is also possible to but is not limited to bat printing, spray printing, plated film Deng.The width of first electrode lead 120 and second electrode lead 130 can be but be not limited to 0.001mm~10mm.Contact conductor Leading electric material can be but not limited to the conductive materials such as silver, copper, aluminium, carbon.

E: after first electrode lead 120 completes, whole face make with a thickness of 0.01mm the first protection packaging layer 170, welding position is reserved in the end of first electrode lead 120.

In other examples, the thickness of the first protection packaging layer 170 can be but not limited to 0.001mm~10mm.First 170 material therefor of protection packaging layer can be but not limited to transparent insulation ink, transparent resin, transparent coating or transparent powder Sintering into etc..

F: attaching release film on the upper surface protective layer of the first protection packaging layer 170, UV illumination, pastes in strip step b The UV visbreaking release film of conjunction.

G: the second electrode lead 130 that a plurality of width is 0.2mm is made by screen printing method, makes a plurality of second electrode lead 130 are connected to the second electrode (solar battery cell 110 of multiple solar battery cells 110 in a second direction Upper surface), each second electrode lead 130 is connected the second electrodes of a certain number of solar battery cells 110, Mei Getai The second electrode of positive energy battery unit 110 is only connected with a second electrode lead 130, is connected, mutually parallel between contact conductor, And it is not connected to.To which each junior unit is only connected with single upper surface electrode lead or lower surface electrode lead.Second electrode The trend of lead 130 moves towards vertical with first electrode lead 120.

In other examples, the production method of second electrode lead 130 is also possible to but is not limited to bat printing, spray printing, plated film Deng.The width of second electrode lead 130 and second electrode lead 130 can be but be not limited to 0.001mm~10mm.Contact conductor Leading electric material can be but not limited to the conductive materials such as silver, copper, aluminium, carbon.

H: after second electrode lead 130 completes, whole face make with a thickness of 0.01mm the second protection packaging layer 180, welding position is reserved in the end of second electrode lead 130.

In other examples, the thickness of the second protection packaging layer 180 can be but not limited to 0.001mm~10mm.Second 180 material therefor of protection packaging layer can be but not limited to transparent insulation ink, transparent resin, transparent coating or transparent powder Sintering into etc..

I: each first electrode lead 120 and each second electrode lead 130 are connected using flexible circuit board (FPC) Body is stored to control axis (devices such as IC) and electric energy.In control axis, every upper 120 (X of first electrode lead₁~X_n) even Meet the first detector 140 respectively solely belonged to, every 130 (Y of second electrode lead₁~Y_n) respective the second detector solely belonged to of connection 150.First detector 140 and the second detector 150 are for detecting electric signal.

When light is irradiated in solar battery inductor 100, electric current that all solar battery cells 110 generate by with Respectively connected contact conductor leads to control axis (devices such as IC) and electric energy storage body.

When light individually irradiates on one of them solar battery cell 110, electric current (voltage) can be generated and pass through phase The first detector 140 and the second detector 150 even, can be by detecting corresponding 120 (X of first electrode lead_a), it is affiliated 130 (Y of second electrode lead_b), X_aWith Y_bThe solar battery cell 110 connected jointly is the position of light irradiation.

As a same reason, when light irradiates all solar battery cells 110, the first detector 140 and the second detector 150 reach To maximum detected value.When the irradiation light of one of solar battery cell 110 is blocked, connected first detector 140 and second the detected value of detector 150 can reduce the respective value of a unit.Confirm the first detection that electric current (voltage) is reduced Device 140 and the connected 120 (X of first electrode lead of the second detector 150_a), 130 (Y of second electrode lead_b), X_aWith Y_bConnect jointly The solar battery cell 110 connect is the position that irradiation light is kept off.

When finger touches 100 surface of solar battery inductor, the light for being equivalent to institute's touch location, which is kept off, to be arrived.Above Principle is identical, and the position touched is parsed by control axis.The size of sense of touch parsing precision and solar battery cell 110 (unit interval size) is related, and smaller parsing precision is higher.Common finger simulation point size 10mm × 10mm, it is big to commonly use junior unit Small 5mm × 5mm is advisable.The position of same principle, multiple spot and a little bigger sense of touch, gesture parsing also can parse out.

Further, the solar battery inductor 100 above-mentioned steps made, passes through OCA optical cement, OCR optical cement Or EVA optical cement etc., it is fitted in the transparent reinforced glasses that complete in advance, on transparent combined housing.Shell is light-transmitting materials, is made Light as much as possible is penetrated and is radiated on multiple solar battery cells 110；Plating anti-reflection film can also be increased in surface of shell, mentioned Rise transmittancy；OCA/OCR/EVA also needs high light transmittance.

The solar battery inductor 100 of above-mentioned steps production can have the function of intelligent measurement while power generation. It is combined with electronic product casing, can make shell that can both answer with Intelligent light sensing, can also mentioned by optical energy power for electronic product For electric energy, cruising ability is promoted.

Further, the present invention also provides a kind of another systems of any of the above-described exemplary solar battery inductor 100 Make method, the production method is for being difficult to cut solar battery (such as thin-film solar cells or perovskite solar energy of separation Battery) for more be applicable in.The production method the following steps are included:

S210 makes first electrode lead 120 on substrate；

S220 makes solar battery functional layer on substrate and covers first electrode lead 120；

The etching of solar battery functional layer is divided into multiple solar battery cells 110, makes each solar-electricity by S230 The first electrode of pool unit 110 is connect with a first electrode lead 120；

S240 makes second electrode lead 130 on multiple solar battery cells 110, makes each solar battery list The second electrode of member 110 is connect with a second electrode lead 130；

Every first electrode lead 120 is connected alone at least one first detector 140 by S250, by every second electricity Pole lead 130 connects alone at least one second detector 150, the first detector 140 and the second detector 150 for detecting Electric signal.

In a wherein example, the production method of solar battery inductor 100 the following steps are included:

S211 makes a plurality of first electrode lead 120 extended in a first direction on substrate；

S221 makes solar battery functional layer on substrate and covers first electrode lead 120；

The etching of solar battery functional layer is divided into multiple solar battery cells 110, makes a plurality of first electrode by S231 Lead 120 respectively connects multiple solar battery cells 110；

S241 makes a plurality of second electrode lead extended in a second direction on multiple solar battery cells 110 130, so that a plurality of second electrode lead 130 is respectively connected multiple solar battery cells 110；

A plurality of first electrode lead 120 is connected alone at least one first detector 140 by S251 respectively, by a plurality of Two contact conductors 130 connect alone at least one second detector 150, the first detector 140 and the second detector 150 respectively For detecting electric signal.

The present invention is done further by taking the production method of the solar battery inductor 100 of a specific example as an example below Explanation.

The production method of the solar battery inductor 100 of one specific example, comprising the following steps:

A: being coated with one layer of metal conducting layer on substrate, etches a plurality of first electrode lead extended in a first direction 120, the width of first electrode lead 120 is 0.01mm.It is mutually parallel between first electrode lead 120, independent, and reserved weldering Connect position.

In other examples, metal conducting layer can also by printing, first electrode lead 120 can also by silk-screen, The modes such as bat printing, spray printing make.The width of first electrode lead 120 can be but not limited to 0.0001mm~100mm.

B: whole face is coated with transparency conducting layer, and etching forms the first electrode being parallel to each other that a plurality of width is 5mm, adjacent First electrode spacing is 0.1mm.A plurality of first electrode is parallel with a plurality of first electrode lead 120 respectively to be connected, and every first Electrode is only connected with a first electrode lead 120, is connected.

The material of transparency conducting layer may be selected but be not limited to ITO or PEDOT etc..In other examples, the width of first electrode Degree can be but be not limited to 0.0001mm~100mm, and adjacent first electrode spacing can be but be not limited to 0.0001mm~50mm.

C: the etching protection block that support size is 0.3 × 5mm is made on first electrode lead 120.Protection block is etched to use In the protection first electrode lead 120 in subsequent etching process.

In other examples, the size for etching protection block can be but be not limited to (0.0003mm~50mm) × (0.0003mm ~50mm).

D: other solar battery functional layers are made on the product that above-mentioned steps obtain.

E: segmentation is etched to solar battery functional layer and forms multiple solar battery cells having a size of 5mm × 5mm 110, array distribution is formed, the spacing between adjacent solar battery cell 110 is 0.1mm.Solar battery cell 110 is filled out Insulating materials 160 is filled to be isolated.

In other examples, the size of solar battery cell 110 can be but be not limited to (0.01mm~100mm) × (0.01mm~100mm), the spacing between adjacent solar battery cell 110 can be but be not limited to 0.0001mm~50mm.

F: layer of transparent conductive layer is coated on solar battery cell 110, it is the mutual of 5mm that etching, which forms a plurality of width, Parallel second electrode, adjacent second electrode spacing are 0.1mm.

The material of transparency conducting layer may be selected but be not limited to ITO or PEDOT etc..In other examples, the width of second electrode Degree can be but be not limited to 0.0001mm~100mm, and adjacent second electrode spacing can be but be not limited to 0.0001mm~50mm.

G: a plurality of second electrode lead 130 extended in a second direction of silk-screen on the second electrode makes a plurality of second electrode Lead 130 respectively connects the second electrode of multiple solar battery cells 110, and the width of second electrode lead 130 is 0.01mm.It is more It is mutually parallel between bar second electrode lead 130, independent, and reserved welding position.130 upper surface electrode of second electrode lead draws Line is parallel with second electrode trend, and every second electrode lead 130 is only connected with a second electrode, is connected.

In other examples, second electrode lead 130 can also be made by modes such as bat printing, spray printings.Second electrode lead 130 width can be but not limited to 0.0001mm~100mm.

H: after second electrode lead 130 completes, whole face make with a thickness of 0.01mm protection packaging layer.

In other examples, the thickness of protection packaging layer can be but not limited to 0.001mm~10mm.Protection packaging layer institute With material can be but not limited to transparent insulation ink, transparent resin, transparent coating or transparent powder sintering into etc..

I: each first electrode lead 120 and each second electrode lead 130 are connected using flexible circuit board (FPC) Body is stored to control axis (devices such as IC) and electric energy.In control axis, every upper 120 (X of first electrode lead₁~X_n) even Meet the first detector 140 respectively solely belonged to, every 130 (Y of second electrode lead₁~Y_n) respective the second detector solely belonged to of connection 150.First detector 140 and the second detector 150 are for detecting electric signal.

Further, the solar battery inductor 100 above-mentioned steps made, passes through OCA optical cement, OCR optical cement Or EVA optical cement etc., it is fitted in the transparent reinforced glasses that complete in advance, on transparent electronic product casing.Shell is light transmission Material penetrates light as much as possible and is radiated on multiple solar battery cells 110；Plating can also be increased in surface of shell to increase Permeable membrane promotes transmittancy；OCA/OCR/EVA also needs high light transmittance.

The solar battery inductor 100 of above-mentioned steps production has the function of intelligent measurement while power generation.With Electronic product casing combination, can make shell that can both answer with Intelligent light sensing, can also be provided by optical energy power for electronic product Electric energy promotes cruising ability.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to protection of the invention Range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (10)

1. a kind of solar battery inductor, which is characterized in that including solar battery cell, first electrode lead, the second electricity Pole lead, the first detector and the second detector；

The solar battery cell has multiple, and the solar battery cell has first electrode and second electrode, each described The first electrode of solar battery cell is connect with the first electrode lead, each solar battery cell it is described Second electrode is connect with the second electrode lead, and each first electrode lead connects alone at least one first detector, Each second electrode lead connects alone at least one second detector, first detector and second detector For detecting electric signal.

2. solar battery inductor as described in claim 1, which is characterized in that the first electrode lead and described Two contact conductors have a plurality of, and the every first electrode lead is connected multiple solar battery cells in a first direction The first electrode, the every first electrode lead connects the institutes of multiple solar battery cells in a second direction State second electrode.

3. solar battery inductor as claimed in claim 2, which is characterized in that multiple solar battery cells are in square Battle array distribution, first electrode first electrode lead as described in same positioned at the solar battery cell of same a line are drawn, Second electrode second electrode lead as described in same positioned at the solar battery cell of same row is drawn.

4. solar battery inductor as described in claim 1, which is characterized in that further include electric energy storage body, the electric energy Storage body is connect with the first electrode lead and the second electrode lead.

5. such as the described in any item solar battery inductors of Claims 1 to 4, which is characterized in that it further include controller, it is described Controller is connect with first detector and second detector, and the controller is also used to connect with external equipment, The electric signal that the controller is used to be fed back according to first detector and second detector is to the external equipment Issue control instruction.

6. a kind of accessory of electronic product, which is characterized in that including fitment body and as described in any one of Claims 1 to 5 Solar battery inductor, the solar battery inductor is arranged in the fitment body.

7. a kind of shell of electronic product, which is characterized in that including shell and it is as claimed in any one of claims 1 to 5 too Positive energy battery inductor, the solar battery inductor setting is on the housing.

8. a kind of electronic product, which is characterized in that have shell as claimed in claim 7, first detector and described Second detector is connected to the internal circuit of the electronic product.

9. a kind of production method of solar battery inductor, which comprises the following steps:

Multiple solar battery cells are attached on release film；

First electrode lead is made on multiple solar battery cells, makes the described of each solar battery cell First electrode is connect with a first electrode lead；

The release film is removed, second electrode lead is made on multiple solar battery cells, makes each sun The second electrode of energy battery unit is connect with a second electrode lead；

The every first electrode lead is connected into alone at least one first detector, the every second electrode lead is only From at least one second detector, first detector and second detector is connected for detecting electric signal.

10. a kind of production method of solar battery inductor, which comprises the following steps:

First electrode lead is made on substrate；

Solar battery functional layer is made on the substrate and covers the first electrode lead；

Solar battery functional layer etching is divided into multiple solar battery cells, makes each solar battery list The first electrode of member is connect with a first electrode lead；

Second electrode lead is made on multiple solar battery cells, makes the described of each solar battery cell Second electrode is connect with a second electrode lead；

The every first electrode lead is connected into alone at least one first detector, the every second electrode lead is only From at least one second detector, first detector and second detector is connected for detecting electric signal.