CN205544546U - Mobile electronic device power supply system and mobile electronic device - Google Patents

Abstract

The utility model discloses a mobile electronic device power supply system and mobile electronic device, wherein power supply system includes energy memory, photoelectric conversion device, wind electric power switching device and battery circuit control board, battery circuit control board electricity is connected between photoelectric conversion device's output and energy memory's I/O end to and between wind electric power switching device's output and energy memory's the I/O end, battery circuit control board for according to energy memory's current electric quantity, after changing, on -state between control photoelectric conversion device and the battery circuit control board and the on -state between wind electric power switching device and the battery circuit control board, and switch on with battery circuit control board and/or wind electric power switching device when switching on with battery circuit control board at control photoelectric conversion device, electric energy that the electric energy of exporting photoelectric conversion device and/or wind electric power switching device exported input to energy memory. The problem that traditional electronic equipment charge mode has the limitation has effectively been solved.

Description

Mobile electronic device electric power system and mobile electronic device

Technical field

This utility model relates to electronic communication technology field, particularly relate to a kind of mobile electronic device and power be System and mobile electronic device.

Background technology

Along with the fast development of electronic equipment and people are to growth in the living standard, mobile phone, panel computer, Digital cameras etc. are widely applied.Above-mentioned electronic equipment would generally built-in supplying cell, to provide corresponding Electrical energy drive electronic equipment normally use.But, the built-in supplying cell of existing electronic equipment consumes at electricity Time to the greatest extent, it is typically only possible by civil power and is charged.And when the emergency situations of mains failure occurring or being located in remote When not being provided that the region of civil power, if after electronic equipment built-in supplying cell electricity exhausts, being just easy to lead The phenomenon that cause can not be charged in time, so that the use of electronic equipment has certain limitation.

Utility model content

Based on this, it is necessary to cause the use of electronic equipment to have one for traditional electronic equipment charging modes Fixed circumscribed problem, it is provided that a kind of mobile electronic device electric power system and mobile electronic device.

For realize this utility model purpose provide a kind of mobile electronic device electric power system, including energy storage device, Photoelectric conversion device, wind power conversion device and battery line panel；

Described battery line panel is connected electrically in the outfan of described photoelectric conversion device and described energy storage device Input/output terminal between, and the outfan of described wind power conversion device and the input of described energy storage device/defeated Go out between end；

Described battery line panel, for the current electric quantity according to described energy storage device, controls described photoelectricity Conducting state between conversion equipment and described battery line panel and described wind power conversion device are with described Conducting state between battery line panel, and controlling described photoelectric conversion device and described battery line When panel conducting and/or described wind power conversion device turn on described battery line panel, by described photoelectricity After the electric energy of conversion equipment output and/or the electric energy of described wind power conversion device output are changed, input is the most described Energy storage device.

Wherein in an embodiment, described battery line panel includes change-over circuit；

First input/output terminal of described change-over circuit is by the output of the first switch with described photoelectric conversion device End electrical connection, and electrically connected with the outfan of described wind power conversion device by second switch；

Second input/output terminal of described change-over circuit electrically connects with the input/output terminal of described energy storage device, uses In described battery line panel according to the current electric quantity of described energy storage device, control described first switch and/or During described second switch Guan Bi, the electric energy that described photoelectric conversion device is exported and/or described wind power conversion device The electric energy of output is changed.

Wherein in an embodiment, described battery line panel includes electric quantity detecting circuit and control circuit；

The input of described electric quantity detecting circuit electrically connects with the input/output terminal of described energy storage device, described electricity The outfan of amount testing circuit electrically connects with the input of described control circuit；

Described electric quantity detecting circuit, for detecting the described current electric quantity of described energy storage device, and will detect Described current electric quantity carry out after analog digital conversion output to described control circuit；

The outfan of described control circuit is changed with the outfan of described photoelectric conversion device and described wind-powered electricity generation respectively The outfan electrical connection of device, for according to the described current electric quantity signal received, controlling described photoelectricity and turn Conducting state between outfan and the described battery line panel of changing device and described wind power conversion device Outfan and described battery line panel between conducting state.

Wherein in an embodiment, described energy storage device includes energy-storage battery.

Wherein in an embodiment, described energy-storage battery includes the first energy-storage battery and the second energy-storage battery；

The input/output terminal of described first energy-storage battery and the input/output terminal of described second energy-storage battery are respectively Electrically connect with described battery line panel；And

Described battery line panel, it is adaptable to according to the current electric quantity and described of described first energy-storage battery The current electric quantity of two energy-storage batteries, controls the input/output terminal of described first energy-storage battery and described battery line Conducting state between panel, and the input/output terminal of described second energy-storage battery and described battery line Conducting state between panel.

Accordingly, this utility model additionally provides a kind of mobile electronic device, including housing, mainboard and as above Arbitrary described mobile electronic device electric power system；

Photoelectric conversion device and wind power conversion device in described mobile electronic device electric power system are arranged at institute State the outside of housing；

Energy storage device and battery line panel in described mainboard, described mobile electronic device electric power system are equal It is arranged on the inside of described housing；And

The outfan of described battery line panel electrically connects with the power input of described mainboard, for by institute State the electric energy input of energy storage device output to described mainboard.

Wherein in an embodiment, described wind power conversion device is fixedly mounted on the lateral wall of described housing； Or

Described wind power conversion device is plugged on the lateral wall of described housing by interface.

Wherein in an embodiment, described photoelectric conversion device is photovoltaic cell；And

Described photovoltaic cell is attached to the described housing side away from the display screen of described mobile electronic device.

Wherein in an embodiment, described energy storage device is superior graphite alkene lithium titanate lithium ion battery.

Wherein in an embodiment, described mobile electronic device is mobile phone, panel computer or digital camera.

The beneficial effect of above-mentioned mobile electronic device electric power system:

It is by arranging photoelectric conversion device, wind power conversion device and electricity in mobile electronic device electric power system Pond circuit panel, and battery line panel is set is connected electrically in outfan and the energy storage of photoelectric conversion device Between the input/output terminal of device, and the input/output terminal of the outfan of wind power conversion device and energy storage device Between, so that battery line panel can control opto-electronic conversion according to the current electric quantity of energy storage device Conducting state between outfan and the battery line panel of device and the outfan of wind power conversion device with Conducting state between cell circuit board, so again the conducting of photoelectric conversion device and battery line panel and/ Or when wind power conversion device and the conducting of battery line panel, the electric energy that photoelectric conversion device is exported and/or wind The electric energy of electrical switching device output inputs after changing to energy storage device, to realize the charging to energy storage device. Thus, when mobile terminal uses above-mentioned mobile electronic device electric power system to be powered, mobile electronic device is worked as Energy storage device electricity when exhausting, can be filled whenever and wherever possible by photoelectric conversion device and wind power conversion device Electricity, overcomes the drawback that civil power must be used to be charged, thus is effectively increased mobile electronic device charging The multiformity of mode and motility.Finally efficiently solving traditional electronic equipment charging modes causes electronics to set Standby use has certain circumscribed problem.

Accompanying drawing explanation

Fig. 1 is the structural representation of a specific embodiment of mobile electronic device electric power system of the present utility model；

Fig. 2 is the structural representation of the embodiment one of mobile electronic device of the present utility model；

Fig. 3 is the structural representation of the embodiment two of mobile electronic device of the present utility model；

Fig. 4 is the structural representation of the embodiment three of mobile electronic device of the present utility model；

Fig. 5 is the structural representation of the embodiment four of mobile electronic device of the present utility model.

Detailed description of the invention

For making technical solutions of the utility model clearer, below in conjunction with drawings and the specific embodiments to this practicality Novel it is described in further detail.

First, it should be noted that the mobile electronic device in this utility model includes various mobile terminal, As: mobile phone, panel computer and vehicle-mounted computer etc., also include other electronic equipments, such as: digital camera and row Car monitor etc..Mobile electronic device electric power system 100 then for be arranged on mobile electronic device for for Mobile electronic device provides the drive system of necessary electric energy.

See Fig. 1, as a specific embodiment of mobile electronic device electric power system 100 of the present utility model, It includes energy storage device 110, photoelectric conversion device 130, wind power conversion device 120 and battery line panel 140。

Wherein, battery line panel 140 is connected electrically in outfan and the energy storage dress of photoelectric conversion device 130 Put between the input/output terminal of 110, and the outfan of wind power conversion device 120 and energy storage device 110 Between input/output terminal.That is, battery line panel 140 is connected electrically in the output of photoelectric conversion device 130 Between end and the input/output terminal of energy storage device 110, the most also it is connected electrically in the defeated of wind power conversion device 120 Go out between end and the input/output terminal of energy storage device 110.

Meanwhile, battery line panel 140, for the current electric quantity according to energy storage device 110, control photoelectricity Conducting state between conversion equipment 130 and battery line panel 140 and wind power conversion device 120 with Conducting state between battery line panel 140, and controlling photoelectric conversion device 130 and battery line When panel 140 turns on and/or wind power conversion device 120 turns on battery line panel 140, by photoelectricity Conversion equipment 130 output electric energy and/or wind power conversion device 120 output electric energy change after input to Energy storage device 110.

That is, by setting up photoelectric conversion device 130 in mobile electronic device electric power system 100 and wind-powered electricity generation turns Changing device 120, and battery line panel 140 is set is connected electrically in photoelectric conversion device 130 and energy storage device Between 110, and between wind power conversion device 120 and energy storage device 110, thus at energy storage device 110 When current electric quantity is not enough to drive mobile electronic device normally to work, by photoelectric conversion device 130 and/or wind-powered electricity generation Conversion equipment 120 is charged for energy storage device 110 so that the charging modes of mobile electronic device is the most only Only rely upon civil power, hereby it is achieved that the multiformity of mobile electronic device charging modes and motility, and reach Arrive the effect that mobile electronic device can be charged whenever and wherever possible.

Wherein, it should be noted that in order to ensure electric energy and the wind-powered electricity generation conversion that photoelectric conversion device 130 exports The electric energy of device 120 output can effectively input to energy storage device 110, it is achieved for energy storage device 110 charging Purpose, as a specific embodiment of mobile electronic device electric power system 100 of the present utility model, its battery Circuit panel 140 has specifically included change-over circuit (not shown).

Concrete, the first input/output terminal of change-over circuit is by the first switch (not shown) and photoelectricity The outfan electrical connection of conversion equipment 130, and by second switch (not shown) and wind-powered electricity generation conversion dress Put the outfan electrical connection of 120.That is, the first input/output terminal of change-over circuit respectively by first switch and Second switch electrically connects with the outfan of photoelectric conversion device 130 and the outfan of wind power conversion device 120, Thus by the first switch and the disconnection of second switch and Guan Bi, it is achieved photoelectric conversion device 130 and conversion electricity Open circuit between open circuit between road and path, and wind power conversion device 120 and change-over circuit and path.

Meanwhile, the second input/output terminal of change-over circuit electrically connects with the input/output terminal of energy storage device 110, For battery line panel 140 according to the current electric quantity of energy storage device 110, control the first switch and/or the During two switch Guan Bis, the electric energy exported by photoelectric conversion device 130 and/or wind power conversion device 120 export Electric energy is changed so that the electric energy that exported by photoelectric conversion device 130 and defeated by wind power conversion device 120 The electric energy gone out can input smoothly to energy storage device 110, it is ensured that mobile electronic device electric power system 100 can By property and effectiveness.

It should be pointed out that, the first switch and second switch can realize in several ways.As: can use Relay is as the first switch and second switch；MOS transistor device also can be used to open as the first switch and second Close.Wherein, there is due to metal-oxide-semiconductor the advantages such as little, the easy operation of volume, be preferably and use metal-oxide-semiconductor to make For being arranged on the first switch and second switch at the first input/output terminal of change-over circuit.

Further, it is embodied as the another of mobile electronic device electric power system 100 of the present utility model Example, its battery line panel 140 also includes electric quantity detecting circuit and control circuit (the most not shown in figure).

Wherein, the input of electric quantity detecting circuit electrically connects with the input/output terminal of energy storage device 110, electricity The outfan of testing circuit electrically connects with the input of control circuit.Electric quantity detecting circuit, is used for detecting energy storage The current electric quantity of device 110, and export to control circuit after the current electric quantity detected is carried out analog digital conversion. That is, by arranging electric quantity detecting circuit in battery line panel 140, it is achieved thereby that to energy storage device The real-time monitoring of the current electric quantity of 110, it is achieved that the purpose to the charging in time of energy storage device 110.

Herein, it should be noted that electric quantity detecting circuit specifically by gathering electronic circuit and can compare electronic circuit (the most not shown in figure) realizes.Wherein, defeated as electric quantity detecting circuit of input of electronic circuit is gathered Enter end, electrically connect with the input/output terminal of energy storage device 110, for working as of monitoring energy storage device 110 in real time Front electricity.Further, the outfan gathering electronic circuit and the input comparing electronic circuit electrical connection, for supervising The current electric quantity that measures inputs to comparing electronic circuit, so by compare the electronic circuit current electric quantity to receiving with The default electricity prestored compares, and obtains corresponding result, and by the comparative result that obtains by than The outfan of relatively electronic circuit exports to control circuit.It gathers electronic circuit and compares electronic circuit by using The detection of the current electric quantity of row energy storage device 110, circuit structure is simple, it is easy to accomplish.Further, son is gathered Circuit can use sensor to realize, and compares electronic circuit and then can be realized by comparator.It uses sensor Realize electric quantity detecting circuit with comparator, be effectively improved mobile electronic device electric power system 100 charging While reliability and promptness, also it is effectively simplified circuit structure, reduces circuit cost.

Further, the outfan of control circuit the most respectively with outfan and the wind-powered electricity generation of photoelectric conversion device 130 The outfan electrical connection of conversion equipment 120, for according to the current electric quantity signal received, controls photoelectricity and turns Conducting state between outfan and the battery line panel 140 of changing device 130 and wind power conversion device Conducting state between outfan and the battery line panel 140 of 120, thus reach energy storage device 110 Effective control of charging.

It addition, also, it should be noted in the one of mobile electronic device electric power system 100 of the present utility model In specific embodiment, its energy storage device 110 is energy-storage battery, and preferably lithium titanate lithium ion battery.And And, see Fig. 5, as another specific embodiment of mobile electronic device electric power system 100 of the present utility model, Its energy storage device 110 includes the first energy-storage battery 111 and the second energy-storage battery 111.

Concrete, the input/output terminal of the first energy-storage battery 111 and the input/output of the second energy-storage battery 111 End electrically connects with battery line panel 140 respectively.Further, battery line panel 140, it is adaptable to according to The current electric quantity of the first energy-storage battery 111 and the current electric quantity of the second energy-storage battery 111, control the first energy storage electricity Conducting state between input/output terminal and the battery line panel 140 in pond 111, and the second energy storage electricity Conducting state between input/output terminal and the battery line panel 140 in pond 111.

It includes the first energy-storage battery 111 and the second energy-storage battery 111 by arranging energy storage device 110, and sets Put the input/output terminal of the input/output terminal of the first energy-storage battery 111 and the second energy-storage battery 111 respectively with electricity Pond circuit panel 140 electrically connects, so that battery line panel 140 can be according to the first energy storage electricity The current electric quantity in pond 111 and the current electric quantity of the second energy-storage battery 111, control the defeated of the first energy-storage battery 111 Enter/conducting state between outfan and battery line panel 140, and the second energy-storage battery 111 is defeated Enter/conducting state between outfan and battery line panel 140, finally realize photoelectric conversion device 130 With wind power conversion device 120 to the first energy-storage battery 111 and mesh charged respectively of the second energy-storage battery 111 's.

That is, the mobile electronic device including the first energy-storage battery 111 and the second energy-storage battery 111 is powered it is When system 100 is applied to mobile electronic device, when the electricity of the first energy-storage battery 111 is not enough to drive mobile electricity When subset normally works, then give the first energy storage electricity at photoelectric conversion device 130 and wind power conversion device 120 While the charging of pond 111, the second energy-storage battery 111 drive electric energy accordingly for mobile electronic device offer. When the second energy-storage battery 111 electric quantity consumption totally time, set for mobile electron by the first energy-storage battery 111 the most again Standby offer drives electric energy accordingly, and is the second storage by photoelectric conversion device 130 and wind power conversion device 120 Can be charged by battery 111.Hereby it is achieved that the first energy-storage battery 111 and wheel of the second energy-storage battery 111 Current charge and the purpose of electric discharge, further ensure that the normal work of mobile electronic device, and effectively prolong Grow stand-by time and the working time of mobile electronic device, thus avoided the phenomenon of frequent charge, improved Service life of mobile electronic device.

Accordingly, operation principle based on above-mentioned mobile electronic device electric power system 100, this utility model is also Provide a kind of mobile electronic device.Due to this utility model provide mobile electronic device power supply the principle with The operation principle of mobile electronic device electric power system 100 of the present utility model is same or similar, therefore repeats it Place repeats no more.

Seeing Fig. 2 to Fig. 5, as mobile electronic device of the present utility model, it has specifically included housing, master Plate 200 and arbitrary described mobile electronic device electric power system 100.Wherein, mobile electronic device is powered Photoelectric conversion device 130 in system 100 and wind power conversion device 120 are arranged at the outside of housing.Main Energy storage device 110 and battery line panel 140 in plate 200, mobile electronic device electric power system 100 are equal It is arranged on the inside of housing.Further, the outfan of battery line panel 140 is defeated with the power supply of mainboard 200 Enter end electrical connection, input to mainboard 200 for the electric energy that energy storage device 110 is exported.

It is by arranging mobile electronic device electric power system 100, by mobile electronic device on mobile electronic device Energy storage device 110 in electric power system 100 is as the driving power supply of mobile electronic device, and by mobile electron Photoelectric conversion device 130 and wind power conversion device 120 in equipment electric power system 100 are mobile electronic device In energy storage device 110 be charged, it is achieved that mobile electronic device charging multiformity and motility, have Effect overcomes the drawback that traditional mobile electronic device charging modes is single, and ensure that mobile electronic device Reliability.

Wherein, it should be noted that the wind power conversion device 120 in mobile electronic device electric power system 100 And the mounting means between the housing of mobile electronic device includes multiple.Seeing Fig. 2 and Fig. 5, one of which is: Wind power conversion device 120 is fixedly mounted on the lateral wall of housing.Seeing Fig. 3 and Fig. 4, another is then: Wind power conversion device 120 is plugged on the lateral wall of housing by interface.That is, at wind power conversion device 120 In first interface F2 is set, and the second interface F1 is set on the hull outside wall of mobile electronic device accordingly. By matching of first interface F2 and the second interface F1, the installation of wind power conversion device 120 can be realized And dismounting.Preferably, first interface F2 and the second interface F1 can be all USB-C interface.Meanwhile, arrange The second interface F1 on the hull outside wall of mobile electronic device also can directly use the former of mobile electronic device There is charging inlet, it is not necessary to be separately provided corresponding interface again, thus further simplify circuit knot Structure, saves circuit cost.

Wherein, wind power conversion device 120 is preferably with the mounting means of the housing of mobile electronic device: wind-powered electricity generation Conversion equipment 120 is plugged on the lateral approach of housing.Thus, when needs use wind power conversion device 120 it is When energy storage device 110 in mobile electronic device is charged, wind power conversion device 120 is plugged into movement On the housing of electronic equipment.When being made without charging, then by wind power conversion device 120 by moving The housing of electronic equipment is pulled up.It is by arranging the shell of wind power conversion device 120 and mobile electronic device It is dismountable grafting mounting means between body, is effectively increased the convenience of mobile electronic device, and simultaneously Reduce the volume of mobile electronic device.

Wherein, wind power conversion device 120 has specifically included blower fan and corresponding wind-powered electricity generation change-over circuit.Its apoplexy The number of machine is at least one.Further, the number of blower fan is preferably two such that it is able to be effectively improved generating Efficiency.

Further, photoelectric conversion device 130 is preferably photovoltaic cell.Further, Fig. 4 is seen, in order to more enter The volume reducing mobile electronic device of one step, improves the convenience of mobile electronic device, it is preferred that photovoltaic Battery is attached to the housing side away from the display screen 300 of mobile electronic device.As: photovoltaic cell can be pasted It is attached to the back side of the housing of mobile electronic device.When the energy storage device 110 in mobile electronic device electricity not During foot, electric energy can be converted light energy into by photovoltaic cell, be charged for energy storage device 110.

Further, energy storage device 110 is preferably superior graphite alkene lithium titanate lithium ion battery.Use titanium Acid lithium ion battery is that mobile electronic device carries out energy resource supply as the energy, can meet mobile electronic device High temperature 55 DEG C, use under conditions of subzero 50 DEG C of low temperature, and use superior graphite alkene lithium titanate lithium ion Battery is as mobile electronic device, such as: the power source of mobile phone, possesses 6min fully charged, can be at-50 DEG C～60 DEG C Environment in work, meet service life of 10 years.

In order to mobile electronic device of the present utility model is more clearly described, set with mobile electron individually below As a example by for mobile phone, mobile electronic device of the present utility model is carried out detailed further.

Embodiment one

Seeing Fig. 2, in the present embodiment, wind power conversion device 120 is fixedly mounted on the shell of mobile electronic device Body top, and energy storage device 110 includes the first energy-storage battery 111.Wherein it is desired to explanation, B1+ For: the positive pole of the first input/output terminal of change-over circuit in battery line panel 140；B1-is: battery line The negative pole of the first input/output terminal of change-over circuit in road panel 140；B2+ is: battery line panel The positive pole of the second input/output terminal of change-over circuit in 140；B2-is: change in battery line panel 140 The negative pole of the second input/output terminal of circuit；P+ is: the positive pole of the outfan of battery line panel 140； P-is: the negative pole of the outfan of battery line panel 140；Further, the output of battery line panel 140 The both positive and negative polarity (P+, P-) of end is electrically connected with the both positive and negative polarity of the power input of the mainboard 200 of mobile electronic device Connecing, the electric energy for being exported by the first energy-storage battery 111 inputs to mainboard 200, is just driving mainboard 200 Often work.

Meanwhile, battery line panel 140 controls photoelectric conversion device 130, wind power conversion device 120 and Connection between one energy-storage battery 111, photoelectric conversion device 130, wind power conversion device 120 are in parallel form； The electric energy that photoelectric conversion device 130, wind power conversion device 120 produce is directly output to battery line panel 140, battery line panel 140 it is charged to after processing the first energy-storage battery 111.

Concrete: when the current electric quantity of the first energy-storage battery 111 be enough to drive mobile electronic device properly functioning Time, now battery line panel 140 control photoelectric conversion device 130 and wind power conversion device 120 all with Change-over circuit disconnects.Meanwhile, first energy-storage battery 111 output electric energy by change-over circuit second input/ Outfan (B2+, B2-) inputs to change-over circuit, change-over circuit by battery after changing accordingly The outfan (P+, P-) of circuit panel 140 exports the mainboard 200 to mobile electronic device, main to drive Corresponding device in plate 200 is operated.

Meanwhile, battery line panel 140 monitor the current electric quantity of the first energy-storage battery 111 in real time, and When the current electric quantity monitoring the first energy-storage battery 111 is not enough to drive mobile electronic device properly functioning, The most now, battery line panel 140 control photoelectric conversion device 130 and/or wind power conversion device 120 with Change-over circuit turns on.Photoelectric conversion device 130 and/or the converted electricity of electric energy of wind power conversion device 120 output Input to the first energy-storage battery 111 after the conversion of road and be charged.

Embodiment two

Seeing Fig. 3, in the present embodiment, wind power conversion device 120 is inserted into mobile electronic device by interface Case top, and energy storage device 110 only includes the first energy-storage battery 111 equally.When needs use wind-powered electricity generation When first energy-storage battery 111 is charged by conversion equipment 120, set by being arranged on wind power conversion device 120 The second interface F1 that the first interface F2 put is directly connected to be arranged in mobile electronic device case top is carried out Charging.Wherein, its specific works principle is identical with embodiment one, is also by battery line panel 140 Control photoelectric conversion device 130, connection between wind power conversion device 120 and the first energy-storage battery 111, light Electrical switching device 130, wind power conversion device 120 are in parallel form；Photoelectric conversion device 130, wind-powered electricity generation are changed The electric energy that device 120 produces is directly output to battery line panel 140, by battery line panel 140 It is charged to after reason the first energy-storage battery 111.

Embodiment three

Seeing Fig. 5, in the present embodiment, wind power conversion device 120 is fixedly mounted on the housing of mobile electronic device Top, and energy storage device 110 includes the first energy-storage battery 111 and the second energy-storage battery 111.Pass through battery Circuit panel 140 controls first energy-storage battery the 111, second energy-storage battery 111, wind power conversion device 120 And the connection between photoelectric conversion device 130.Meanwhile, photoelectric conversion device 130 and wind power conversion device 120 In parallel form, the electric energy that wind power conversion device 120 and/or photoelectric conversion device 130 produce is directly output to Battery line panel 140, battery line panel 140 give the first energy-storage battery 111 or the second after processing Energy-storage battery 111 is charged.

Wherein, the first energy-storage battery 111 and the second energy-storage battery 111 are controlled by battery line panel 140 System, to realize the function of charge independence and electric discharge.Concrete: when the first energy-storage battery 111 is moving to hands Electronic equipment, such as: when mobile phone is powered, wind power conversion device 120 and/or photoelectric conversion device 130 are produced Electric energy by battery line panel 140 change-over circuit change after fill directly to the second energy-storage battery 111 Electricity；When the second energy storage is pointed out to mobile electronic device, such as: when mobile phone is powered, photoelectric conversion device 130 and/ Or after electric energy produced by wind power conversion device 120 is changed by the change-over circuit in battery line panel 140 Charge directly to the first energy-storage battery 111.That is, the first energy-storage battery 111 or the second energy-storage battery 111 When voltage requires less than output, battery line panel 140 control to switch another block battery and supply to its mobile phone Electricity, the energy-storage battery stopping powering to mobile phone is then by photoelectric conversion device 130 and/or wind power conversion device 120 Charge to it.

Embodiment described above only have expressed several embodiments of the present utility model, its describe more concrete and In detail, but therefore can not be interpreted as the restriction to this utility model the scope of the claims.It should be pointed out that, For the person of ordinary skill of the art, without departing from the concept of the premise utility, it is also possible to Making some deformation and improvement, these broadly fall into protection domain of the present utility model.Therefore, this utility model The protection domain of patent should be as the criterion with claims.

Claims (10)

1. a mobile electronic device electric power system, it is characterised in that include that energy storage device, opto-electronic conversion fill Put, wind power conversion device and battery line panel；

Described battery line panel is connected electrically in the outfan of described photoelectric conversion device and described energy storage device Input/output terminal between, and the outfan of described wind power conversion device and the input of described energy storage device/defeated Go out between end；

Described battery line panel, for the current electric quantity according to described energy storage device, controls described photoelectricity Conducting state between conversion equipment and described battery line panel and described wind power conversion device are with described Conducting state between battery line panel, and controlling described photoelectric conversion device and described battery line When panel conducting and/or described wind power conversion device turn on described battery line panel, by described photoelectricity After the electric energy of conversion equipment output and/or the electric energy of described wind power conversion device output are changed, input is the most described Energy storage device.

Mobile electronic device electric power system the most according to claim 1, it is characterised in that described battery Circuit panel includes change-over circuit；

First input/output terminal of described change-over circuit is by the output of the first switch with described photoelectric conversion device End electrical connection, and electrically connected with the outfan of described wind power conversion device by second switch；

Second input/output terminal of described change-over circuit electrically connects with the input/output terminal of described energy storage device, uses In described battery line panel according to the current electric quantity of described energy storage device, control described first switch and/or During described second switch Guan Bi, the electric energy that described photoelectric conversion device is exported and/or described wind power conversion device The electric energy of output is changed.

Mobile electronic device electric power system the most according to claim 1, it is characterised in that described battery Circuit panel includes electric quantity detecting circuit and control circuit；

The input of described electric quantity detecting circuit electrically connects with the input/output terminal of described energy storage device, described electricity The outfan of amount testing circuit electrically connects with the input of described control circuit；

Described electric quantity detecting circuit, for detecting the described current electric quantity of described energy storage device, and will detect Described current electric quantity carry out after analog digital conversion output to described control circuit；

The outfan of described control circuit is changed with the outfan of described photoelectric conversion device and described wind-powered electricity generation respectively The outfan electrical connection of device, for according to the described current electric quantity signal received, controlling described photoelectricity and turn Conducting state between outfan and the described battery line panel of changing device and described wind power conversion device Outfan and described battery line panel between conducting state.

4. according to the mobile electronic device electric power system described in any one of claims 1 to 3, it is characterised in that Described energy storage device includes energy-storage battery.

Mobile electronic device electric power system the most according to claim 4, it is characterised in that described energy storage Battery includes the first energy-storage battery and the second energy-storage battery；

The input/output terminal of described first energy-storage battery and the input/output terminal of described second energy-storage battery are respectively Electrically connect with described battery line panel；And

Described battery line panel, it is adaptable to according to the current electric quantity and described of described first energy-storage battery The current electric quantity of two energy-storage batteries, controls the input/output terminal of described first energy-storage battery and described battery line Conducting state between panel, and the input/output terminal of described second energy-storage battery and described battery line Conducting state between panel.

6. a mobile electronic device, it is characterised in that include housing, mainboard and claim 1 to 5 times One described mobile electronic device electric power system；

Photoelectric conversion device and wind power conversion device in described mobile electronic device electric power system are arranged at institute State the outside of housing；

Energy storage device and battery line panel in described mainboard, described mobile electronic device electric power system are equal It is arranged on the inside of described housing；And

The outfan of described battery line panel electrically connects with the power input of described mainboard, for by institute State the electric energy input of energy storage device output to described mainboard.

Mobile electronic device the most according to claim 6, it is characterised in that described wind power conversion device It is fixedly mounted on the lateral wall of described housing；Or

Described wind power conversion device is plugged on the lateral wall of described housing by interface.

Mobile electronic device the most according to claim 6, it is characterised in that described photoelectric conversion device For photovoltaic cell；And

Described photovoltaic cell is attached to the described housing side away from the display screen of described mobile electronic device.

Mobile electronic device the most according to claim 6, it is characterised in that described energy storage device is super Level Graphene lithium titanate lithium ion battery.

10. according to the mobile electronic device described in any one of claim 6 to 9, it is characterised in that described Mobile electronic device is mobile phone, panel computer or digital camera.