CN103208832B - Solar wireless charging power supply - Google Patents

Abstract

The invention discloses a solar wireless charging power supply. The solar wireless charging power supply comprises a body, wherein a solar cell panel is arranged on the outer wall of the body, a lithium battery pack and at least one wireless charging module are arranged in an inner cavity of the body, at least one plane is arranged on the upper surface of the body, charging areas are arranged on planes for charging external terminals in charging areas, the area of charging areas is within a range of 15-150,000 cm<2>, the thickness of the body is within a range of 0.3-6 cm, the lithium battery pack comprises at least one lithium battery, the solar cell panel is connected with the lithium battery pack to charge the lithium battery pack, the lithium battery pack is connected with wireless charging modules to charge wireless charging modules, at least one sensing unit is arranged on wireless charging modules, sensing units are arranged nearby charging areas, and all sensing units are connected with the lithium battery pack respectively to sense that external terminals enter charging areas of corresponding wireless charging modules and to control an input module to charge terminals through wireless charging modules.

Description

A kind of solar energy radio charge power supply

Technical field

The present invention relates to wireless charging field, in particular, a kind of solar energy radio charge power supply.

Background technology

Existing solar energy radio charge power supply, often separately and criterion settings, lacks change, is not suitable for application.Therefore, prior art existing defects, needs to improve.

Summary of the invention

Technical problem to be solved by this invention is to provide a kind of novel solar energy radio charge power supply, can carry out wireless charging to the mobile terminal meeting wireless charging standard.

Technical scheme of the present invention is as follows: a kind of solar energy radio charge power supply, and it comprises a body, and the outer wall of described body arranges solar panel, and the inner chamber of described body arranges lithium battery group and at least one wireless charging module; The upper surface of described body has at least one plane; Described plane arranges charging zone, charges for the terminal in described charging zone to outside; The area of described charging zone is between 15 square centimeters to 150,000 square centimeters; The thickness of described body is between 0.3 centimetre to 6 centimetres; Described lithium battery group comprises at least one lithium battery; Described solar panel is connected with described lithium battery group, for being described lithium battery group charging; Described lithium battery group is connected with described wireless charging module, for powering for described wireless charging module; Described wireless charging module arranges at least one sensing unit, and the contiguous described charging zone of described sensing unit is arranged; Each described sensing unit enters the charged area of wireless charging module corresponding to it for responding to outside terminal, charged to described terminal by described wireless charging module.

Preferably, each described sensing unit is connected with described lithium battery group respectively, entering the charged area of wireless charging module corresponding to it, controlling described lithium battery group and being charged to described terminal by described wireless charging module for responding to outside terminal.

Preferably, described lithium battery group arranges diverter switch, accepts or stop solar panel to the charged state of lithium battery group for arranging.

Preferably, in described solar energy radio charge power supply, described solar panel is arranged at described upper surface.

Preferably, described solar panel is arranged at described plane.

Preferably, in described solar energy radio charge power supply, each described sensing unit is evenly arranged or array distribution.

Preferably, in described solar energy radio charge power supply, described sensing unit is induction coil, magnetic sensing unit, gravity sensing unit or its combination.

Preferably, described solar energy radio charge power supply also arranges at least one driver element, and driver element described in corresponds to wireless charging module described in; Described driver element arranges the first X-axis guide rail, Y-axis guide rail and drive motors thereof and wireless charging module drive motors; Described first X-axis guide rail is fixedly installed on the inner chamber of described body; Described Y-axis guide rail is perpendicular to described first X-axis guide rail, and described Y-axis slide is arranged at described first X-axis guide rail, and described Y-axis guide rail drive motors drives described Y-axis guide rail at described first X-axis slide on rails; Described wireless charging module corresponding to described driver element slides and is arranged at described Y-axis guide rail, and described wireless charging module drive motors drives described wireless charging module at described Y-axis slide on rails; Described sensing unit enters the charged area of wireless charging module corresponding to it for responding to described terminal, control the corresponding charge position that described wireless charging module is moved to described terminal by described driver element, and control described lithium battery group and by described wireless charging module, described terminal is charged.

Preferably, in described solar energy radio charge power supply, described sensing unit also arranges the second X-axis guide rail with the first X-axis guide rail parallel; Slide and be arranged at described first X-axis guide rail in described Y-axis guide rail one end, the other end slides and is arranged at described second X-axis guide rail, makes described Y-axis guide rail vertical sliding motion between two X-axis guide rails.

Preferably, in described solar energy radio charge power supply, described body is arranged side by side some folding parts, and adjacent folds portion is folded with relatively, and described lithium battery group, described wireless charging module, described sensing unit are arranged in identical or different folding part respectively.

Preferably, in described solar energy radio charge power supply, described body arranges some stitching sections, and the described body of composition is spliced in contiguous concatenation portion mutually, and described lithium battery group, described wireless charging module, described sensing unit are arranged at least one stitching section respectively.

Preferably, in described solar energy radio charge power supply, described intrinsic single has a unified thickness.

Preferably, in described solar energy radio charge power supply, described thickness is between 0.5 centimetre to 3 centimetres.

Preferably, in described solar energy radio charge power supply, described body also comprises a plane layer, and described plane layer is arranged at the upper surface of described body.

Preferably, in described solar energy radio charge power supply, described body has flat appearance, for covering outside device.

Preferably, in described solar energy radio charge power supply, described body arranges at least one installation portion, for described body being fixedly installed to outside by described installation portion.

Preferably, in described solar energy radio charge power supply, the area of described charging zone is between 50 square centimeters to 20,000 square centimeters.

Preferably, in described solar energy radio charge power supply, the area of described charging zone is between 100 square centimeters to 1000 square centimeters.

Preferably, in described solar energy radio charge power supply, according to the quantity of described wireless charging module, one_to_one corresponding arranges described driver element.

Preferably, in described solar energy radio charge power supply, each described driver element is evenly arranged or array distribution.

Preferably, in described solar energy radio charge power supply, the length of described X-axis guide rail, described Y-axis guide rail is between 5 centimetres to 25 centimetres.

Preferably, in described solar energy radio charge power supply, described X-axis guide rail is identical with the length of described Y-axis guide rail.

Preferably, described solar energy radio charge power supply also comprises boosting unit; Described lithium battery group is connected to described wireless charging module by described boosting unit, for carrying out boosting process to the output voltage of described lithium battery group; Described sensing unit enters the charged area of wireless charging module corresponding to it for responding to outside terminal, control described lithium battery group and export, charged after boosting by described wireless charging module to described terminal.

Preferably, described solar energy radio charge power supply also arranges Charge Management unit, microprocessor and voltage regulation unit; Described Charge Management unit is arranged between described solar panel, described lithium battery group, it is also connected with described microprocessor, for according to described microprocessor-based control instruction, accepting the power supply coming from described solar panel, is described lithium battery group charging; Described lithium battery group is connected with described microprocessor by described voltage regulation unit, for power supply; And, each described sensing unit is connected with described lithium battery group respectively by described microprocessor, when terminal for responding to outside enters the charged area of wireless charging module corresponding to it, notify described microprocessor, by lithium battery group described in described Microprocessor S3C44B0X, powered by described boosting unit wireless charging module corresponding to it, and when responding to outside terminal and leaving the charged area of wireless charging module corresponding to it, stopped power supply by lithium battery group described in described Microprocessor S3C44B0X.

Preferably, described solar energy radio charge power supply also comprises the detecting unit be arranged between described microprocessor, described lithium battery group; Described microprocessor is connected with described lithium battery group by described detecting unit, detect the job information of described lithium battery group for controlling described detecting unit, described job information at least comprise the position of X-axis residing for charged state, battery capacity, dump energy, charging voltage, discharge voltage, charging current, discharging current, radio transmit power, motor and Y-axis, solar illuminance one of them.

Preferably, described solar energy radio charge power supply also comprises power distributing unit; Described power distributing unit is connected with described boosting unit, described microprocessor, at least one described wireless charging module respectively, for automatically distributing power output by power distributing unit described in described Microprocessor S3C44B0X, externally export respectively by each wireless charging module; And, each described sensing unit is connected with described microprocessor respectively, when terminal for responding to outside enters the charged area of wireless charging module corresponding to it, notify described microprocessor, by lithium battery group described in described Microprocessor S3C44B0X, powered by described boosting unit, described power distributing unit wireless charging module corresponding to it, and when responding to outside terminal and leaving the charged area of wireless charging module corresponding to it, stopped power supply by power distributing unit described in described Microprocessor S3C44B0X.

Preferably, described solar energy radio charge power supply also comprises the USB power supply unit and port thereof that are connected with described power distributing unit, for powering for outside USB device.

Preferably, described solar energy radio charge power supply also comprises a charge switch, and described solar panel is connected with described Charge Management unit by described charge switch.

Preferably, described solar energy radio charge power supply also comprises a power switch, described lithium battery group is also connected with described boosting unit by described power switch, and, described microprocessor is also connected with described power switch, for controlling described lithium battery group to the power supply state of described wireless charging module.

Preferably, described solar energy radio charge power supply also comprises a control switch, and described lithium battery group is also connected with described detecting unit, described voltage regulation unit respectively by described control switch.

Preferably, in described solar energy radio charge power supply, described solar panel is connected to described lithium battery group by described Charge Management unit.

Preferably, in described solar energy radio charge power supply, described lithium battery group is poly-lithium battery group.

Preferably, in described solar energy radio charge power supply, described wireless charging module comprises at least one electromagnetic induction coil, at least one electromagentic resonance coil, at least one field coupled assembly or its combination.

Preferably, described solar energy radio charge power supply also comprises a display unit be connected with described microprocessor, for showing described job information.

Adopt such scheme, the present invention can as desktop or the form adopting tablecloth, be arranged on furniture, aircraft, high ferro, train, subway etc. to need to carry on the object of mobile terminal or wireless charging terminal, greatly strengthen the market using value of wireless charging product, adapt to the development of mobile terminal technology, there are fabulous market prospects.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of first embodiment of the present invention;

Fig. 2 is the schematic diagram of second embodiment of the present invention;

Fig. 3 is the schematic diagram of the 3rd embodiment of the present invention;

Fig. 4 is the structural representation of the 4th embodiment of the present invention;

Fig. 5 is the structural representation of the 5th embodiment of the present invention;

Fig. 6 is the structural representation of the 6th embodiment of the present invention.

Embodiment

For the ease of understanding the present invention, below in conjunction with the drawings and specific embodiments, the present invention will be described in more detail.Preferred embodiment of the present invention is given in accompanying drawing.But the present invention can realize in many different forms, is not limited to the embodiment described by this specification.On the contrary, provide the object of these embodiments be make the understanding of disclosure of the present invention more comprehensively thorough.

It should be noted that, when element is called as " being fixed on " another element, directly can there is element placed in the middle in it on another element or also.When an element is considered to " connection " another element, it can be directly connected to another element or may there is centering elements simultaneously.The term " vertical " that this specification uses, " level ", "left", "right" and similar statement are just for illustrative purposes.

Unless otherwise defined, all technology of using of this specification and scientific terminology are identical with belonging to the implication that those skilled in the art of the present invention understand usually.The object of term used in the description of the invention in this specification just in order to describe specific embodiment is not for limiting the present invention.This specification and associated documents thereof or related text, such as, in claims, the term "and/or" used comprises arbitrary and all combinations of one or more relevant Listed Items.Lithium battery involved by this specification or poly-lithium battery, refer to the storage battery containing lithium ion, includes but not limited to that positive pole or negative pole have employed the storage battery of lithium ion.

As shown in Figure 1, one embodiment of the present of invention are, a kind of solar energy radio charge power supply, and it comprises a body, and the outer wall of described body arranges solar panel, and the inner chamber of described body is provided with lithium battery group and at least one wireless charging module; Such as, the wireless charging module of, two, three or more is set.

The upper surface of described body has at least one plane, for placing outside object, such as, being placed on by wireless terminal to be charged in this plane and charging; Such as, described body also comprises a plane layer, and described plane layer is arranged at the upper surface of described body; Such as paste one deck wood skin, make desktop.Preferably, described upper surface only has a plane, and it arranges decorative layer, and such as, described upper surface pastes a rete, such as, and frosted film etc.Preferably, described plane arranges decorative layer, such as, one decorative panel or one deck decorating film, such as, described plane is arranged one deck thick china, paper pasting board, wooden lagging, bond paper, steel plate, glass plate, plastic plate or natural veneer etc., thick china, is also called Decorative Veneered Plywood, is called for short decorative panel, market is commonly called as " thick china ", such as, thick china is teak thick china, be commonly called as " shaddock pasting board ", and for example, thick china is maple thick china, is commonly called as " maple pasting board ".And for example, described plane is arranged one deck micro veneer thick china, Decorative veneered woodbased panel, woodgrained paper pasting board, solid wood veneer.And for example, the lower surface of described body arranges some recesses, some protuberances or its combination, for strengthening frictional force, keeps the position of described body; And for example, the upper surface of described body and lower surface adopt flexible material preparation; Such as, the upper surface of described body and lower surface adopt rubber preparation; Or the upper surface of described body covers one deck rubber.

And for example, the outer wall laminating of described body arranges a monoblock solar panel, forms one piece of supporting bracket on the whole; And for example, the outer wall using described solar panel as described body.And for example, described solar panel is arranged at described upper surface; Preferably, described solar panel is arranged at described plane.Solar panel can take existing any technology to be arranged at described plane, and various embodiments of the present invention all do not impose any restrictions this.

Described plane arranges charging zone, charges for the terminal in described charging zone to outside; Such as, as shown in Figure 1, described plane arranges charging zone S and marks, or described plane arranges charging zone S and does not make marks, or, described charging zone occupies the overwhelming majority of whole described plane or described plane, or described charging zone occupies major part or the half of described plane.Such as, described charging zone occupies 30% to 90% of the described area of plane, and such as, charging zone occupies 40% to 80% of the described area of plane.Further, the area of described charging zone is between 15 square centimeters to 150,000 square centimeters, and namely the area of charging zone is more than or equal to 15 square centimeters, and is less than or equal to 150,000 square centimeters; Such as, the area of described charging zone is between 20 square centimeters to 120,000 square centimeters, and and for example, the area of charging zone is between 36 square centimeters to 100,000 square centimeters, and and for example, the area of described charging zone is between 50 square centimeters to 20,000 square centimeters; And for example, the area of charging zone is between 60 square centimeters to 60,000 square centimeters, and for example, the area of charging zone is between 100 square centimeters to 50,000 square centimeters, and and for example, the area of charging zone is between 200 square centimeters to 20,000 square centimeters, and for example, the area of charging zone is between 400 square centimeters to 10,000 square centimeters, and and for example, the area of charging zone is between 600 square centimeters to 3000 square centimeters; And for example, the area of described charging zone is between 100 square centimeters to 1000 square centimeters.Such as, the area of charging zone is 20,000 square centimeters, and now, this solar energy radio charge power supply can be set to one flat plate or a tablecloth, is layed in ground or desktop, such as lawn, floor, windowsill, glass desk-top or wooden desktop etc.; And for example, the area of charging zone is 100 square centimeters, now, the plane of this solar energy radio charge power supply can be between 100 square centimeters to 150,000 square centimeters, same, this solar energy radio charge power supply can be set to one flat plate or a tablecloth, is layed in ground or desktop, such as, the desktop that matches of the seat of train, high ferro or aircraft.

The thickness of described body is between 0.3 centimetre to 6 centimetres; As shown in Figure 1, its thickness h is more than or equal to 0.3cm and is less than or equal to 6cm.Such as, this solar energy radio charge power supply has a bluff body, such as, can be set to one flat plate or a tablecloth, be layed in ground or desktop, and its thickness is 0.3 centimetre, 0.4 centimetre, 0.45 centimetre, 0.5 centimetre or 0.6 centimetre etc.; And, described body also arranges a battery compartment, and for accommodating described lithium battery group, the thickness of this battery compartment is identical with bluff body or different, such as, the thickness of battery compartment is 0.3 centimetre, 0.4 centimetre, 0.45 centimetre, 1.5 centimetres, 2.5 centimetres, 3.5 centimetres, 4 centimetres, 5 centimetres or 6 centimetres etc.And for example, described body can be rough, and the thickness in its thickness is not more than 6 centimetres, and the thickness of thinnest part is not less than 0.3 centimetre; Preferably, its thickness is between 0.35 centimetre to 5 centimetres; Preferably, its thickness is between 0.36 centimetre to 4 centimetres; Preferably, its thickness is between 0.38 centimetre to 3.5 centimetres; Preferably, its thickness is between 0.4 centimetre to 3 centimetres; Preferably, its thickness is between 0.5 centimetre to 3 centimetres; Preferably, described intrinsic single has a unified thickness, and such as, the thickness of described body is 0.3 centimetre to 6 centimetres; Such as, the thickness of described body is 0.3 centimetre, 0.35 centimetre, 0.4 centimetre, 0.45 centimetre, 0.5 centimetre, 0.53 centimetre, 0.55 centimetre, 0.56 centimetre, 0.6 centimetre, 0.65 centimetre, 0.68 centimetre, 0.73 centimetre, 0.8 centimetre, 0.9 centimetre, 1.0 centimetres, 1.2 centimetres, 1.5 centimetres, 1.8 centimetres, 2.0 centimetres, 2.2 centimetres, 2.5 centimetres, 2.8 centimetres or 2.9 centimetres etc.; Such as, the thickness of described body is 0.6 centimetre to 3 centimetres, and such as, the thickness of described body is 0.7 centimetre.And for example, described body also comprises a flat board, and flat board is arranged at the upper surface of described body, the thickness of described body, includes dull and stereotyped thickness.Preferably, described flat board is quadrangle, circle, ellipse, fan-shaped, arc or its combination.

Described lithium battery group comprises at least one lithium battery; Such as, described lithium battery group comprises at least two lithium batteries, and the connected mode of each lithium battery is series, parallel or its combination.And for example, described lithium battery group comprises the lithium battery of at least two serial or parallel connections.Such as, described lithium battery group comprises the lithium battery of two series connection, and and for example, described lithium battery group comprises three lithium batteries in parallel; And for example, described lithium battery group comprises the lithium battery string of several parallel connections, and each lithium battery string comprises the lithium battery of several series connection, and such as, described lithium battery group comprises two lithium battery strings in parallel, and each lithium battery string comprises the lithium battery of four series connection.Preferably, described lithium battery is poly-lithium battery, and described lithium battery group is poly-lithium battery group.Preferably, the shape of described poly-lithium battery group is set according to the cavity shape of described body.Such as, the cavity shape of body is cuboid, and in other words, the inner chamber of body is cuboid for placing the shape of poly-lithium battery group, then the shape arranging described poly-lithium battery group is cuboid; Preferably, the shape of described poly-lithium battery group is set according to the cavity shape adaptation of described body, the inner chamber of such as body is have cylindrical body irregularly shaped for placing the shape of poly-lithium battery group, and the shape that adaptation arranges described poly-lithium battery group is similarly has the irregularly shaped of cylindrical body.

Described solar panel is connected with described lithium battery group, electric energy is become for obtaining outside transform light energy, luminous energy includes but not limited to solar energy, the transform light energy of fluorescent lamp even can be become electric energy by existing solar panel, be transferred to described lithium battery group, thus be the charging of described lithium battery group; Although its title is solar panel, be actually opto-electronic conversion cell panel, transform light energy can be become electric energy.Preferably, described solar panel is single-crystalline-silicon solar-cell panel, polysilicon solar cell plate or non-crystal silicon solar cell plate.Such as, solar panel is 5V solar charging panel, and the outside sun or light charge to 5V solar charging panel.And for example, solar panel is the combination of some solar cells; Like this, adopt solar recharging mode, low-carbon environment-friendly, can charge to portable power source at any time in indoor, field.And for example, preferably, also comprise a Charge Management unit, described solar panel is connected to described lithium battery group by described Charge Management unit.Described solar panel is connected with described Charge Management unit, for obtaining outside solar energy, convert electric energy to, be transferred to described Charge Management unit, be that described lithium battery group is charged by described Charge Management unit, if described lithium battery group only has a lithium battery, then solar panel is that described lithium battery charges by described Charge Management unit.Further, can Charge Management unit be passed through, control and manage the charging of solar panel to lithium battery group, avoiding overcharging.And for example, described lithium battery group arranges diverter switch, accepts or stop solar panel to the charged state of lithium battery group for arranging; Such as, manually arrange or be automatically located in described lithium battery group when externally exporting, when namely charging to exterior terminal, stop solar panel to the charging of lithium battery group; Or manually arrange or be automatically located in described lithium battery group when externally exporting, accept the charging of solar panel to lithium battery group simultaneously.

Described lithium battery group is connected with described wireless charging module, for powering for described wireless charging module.Preferably, described lithium battery group is poly-lithium battery group.

Described wireless charging module arranges at least one sensing unit, and such as, described wireless charging module arranges one or more sensing unit; The contiguous described charging zone of described sensing unit is arranged; Each described sensing unit enters the charged area of wireless charging module corresponding to it for responding to outside terminal, charged to described terminal by described wireless charging module.Such as, sensing unit presses close to the inner chamber upper wall of described body, is positioned at the below of charging zone; Such as, below a charging zone wireless charging module is set and correspondence arranges one or more sensing unit; And for example, below a charging zone, two or more wireless charging module is set.Preferably, each described sensing unit array distribution, is arranged into dot matrix; Such as, described sensing unit is induction coil, magnetic sensing unit, gravity sensing unit or its combination.Such as, each described sensing unit is evenly distributed or evenly arrange, and such as, each described sensing unit is arranged relative to described uniform plane; And for example, each described sensing unit is evenly arranged relative to each described charging zone respectively.And for example, the geometric center below each charging zone arranges a sensing unit, arranges a sensing unit and for example below each charging zone by certain circular radius scope; Various embodiments of the present invention do not do extra restriction to this, only need can realize sensing terminal to be charged quickly and easily; And for example, sensing unit can adopt various induction mode, and such as, sensing unit is magnet.Preferably, each sensing unit arranges a CPU, when responding to outside terminal and entering the charged area of wireless charging module corresponding to it, controls described input module, charged by described wireless charging module to described terminal by this CPU.Or, arrange a CPU, each sensing unit is connected with this CPU respectively, when responding to outside terminal and entering the charged area of wireless charging module corresponding to it, control described input module by this CPU, by described wireless charging module, described terminal is charged.

And for example, described wireless charging module comprises at least one electromagnetic induction coil, at least one electromagentic resonance coil, at least one field coupled assembly or its combination, preferably, described wireless charging module is electromagnetic induction coil unit, adopts way of electromagnetic induction to be that mobile terminal charges; Or described wireless charging module is electromagnetic resonance coil unit, electromagnetic resonance mode is adopted to be that mobile terminal charges.Such as, described wireless charging module comprises an electromagnetic induction coil; And for example, described wireless charging module comprises two electromagnetic induction coils, and such as it is in parallel or series connection; And for example, described wireless charging module comprises an electromagentic resonance coil, and and for example, described wireless charging module comprises a field coupled assembly, and and for example, described wireless charging module comprises two electromagentic resonance coils and an electromagnetic induction coil, by that analogy, repeats no more.

Described sensing unit is arranged on described wireless charging module, entering the charged area of wireless charging module corresponding to it, being charged by described wireless charging module to described terminal for responding to outside terminal; Such as, it is directly connected with described wireless charging module; And for example, it is connected with described wireless charging module by other components and parts or device.Such as, each described sensing unit is connected with described lithium battery group respectively, or, arbitrary sensing unit is connected with the described wireless charging module at described lithium battery group and place thereof respectively, or, arbitrary sensing unit is connected with described lithium battery group respectively, the described wireless charging module at its place is connected again by lithium battery group, entering the charged area of wireless charging module corresponding to it for responding to outside terminal, controlling described lithium battery group and by described wireless charging module, described terminal being charged.Such as, sense that mobile phone is put, then connect charging circuit, be that wireless charging module is powered by lithium battery group, make it charge to mobile phone.Preferably, solar energy radio charge power supply also arranges microprocessor, each described sensing unit is respectively by described microprocessor and described lithium battery group, described wireless charging module connects, namely, each described sensing unit is connected respectively to described microprocessor, described microprocessor respectively with described lithium battery group, described wireless charging module connects, the terminal of each described sensing units sense outside enters the charged area of wireless charging module corresponding to it, notify described microprocessor, described terminal is charged by described wireless charging module by lithium battery group described in described Microprocessor S3C44B0X.That is, each described sensing unit is by microprocessor, and a such as CPU control centre connection controls wireless charging module; Such as, also comprise described driver element, each described sensing unit connects to come the wireless charging module above control XY spindle motor by CPU control centre.

With above-mentioned each routine connected applications, preferably, described solar energy radio charge power supply also comprises boosting unit, and it is arranged between described lithium battery group, described wireless charging module; Described lithium battery group is connected to described wireless charging module by described boosting unit, for carrying out boosting process to the output voltage of described lithium battery group; Because the voltage of conventional lithium battery is between 2.7-4.2V, its electricity declines along with the decline of voltage.And the voltage of 2.7-4.2V can not charge directly to other digital product, because the lithium battery voltage of digital product is also 2.7-4.2V, can not charge between idiostatic voltage, so solar energy radio charge power supply outwards exports electric energy arrange this boosting unit.Preferably, solar energy radio charge power supply also comprises a power switch, and described lithium battery group is also connected with described boosting unit by described power switch.Preferably, described sensing unit enters the charged area of wireless charging module corresponding to it for responding to outside terminal, controls described lithium battery group and exports, charged after boosting by described wireless charging module to described terminal.

Preferably, solar energy radio charge power supply also arranges Charge Management unit, microprocessor and voltage regulation unit; Described Charge Management unit is arranged between described solar panel, described lithium battery group, it is also connected with described microprocessor, for according to described microprocessor-based control instruction, accepting the power supply coming from described solar panel, is described lithium battery group charging; Such as, be included in certain pre-conditioned under charge, in certain pre-conditioned lower stopping charging, charge in certain pre-conditioned other mode of lower employing, charge etc. at certain pre-conditioned lower employing various ways simultaneously.Such as, detecting unit detects and charges to this lithium battery group, and when lithium battery group has been full of or has been full of soon, Microprocessor S3C44B0X Charge Management unit stops continuing charging to lithium battery group.And for example, when the lithium battery group of solar energy radio charge power supply is charged to the mobile terminal of outside, now, microprocessor is according to the charging modes pre-seted, select whether to pass through Charge Management unit, by the externally fed of described solar panel, be transferred to described Charge Management unit, thus charge for lithium battery group.Preferably, solar energy radio charge power supply also comprises a charge switch, and described solar panel is connected with described Charge Management unit by described charge switch.

Described lithium battery group is connected with described microprocessor by described voltage regulation unit, for power supply; Such as, described voltage regulation unit is low pressure difference linear voltage regulator (LDO, low dropout regulator), and described lithium battery group is powered to described microprocessor by LDO.Preferably, solar energy radio charge power supply also comprises a power switch, and described microprocessor is also connected with described power switch, for controlling described lithium battery group to the power supply state of described wireless charging module; Preferably, when there is boosting unit and microprocessor, solar energy radio charge power supply also comprises a power switch, described lithium battery group is also connected with described boosting unit by described power switch, and, described microprocessor is also connected with described power switch, for controlling described lithium battery group to the power supply state of described wireless charging module.

And, each described sensing unit is connected with described lithium battery group respectively by described microprocessor, when terminal for responding to outside enters the charged area of wireless charging module corresponding to it, notify described microprocessor, by lithium battery group described in described Microprocessor S3C44B0X, powered by described boosting unit wireless charging module corresponding to it, and when responding to outside terminal and leaving the charged area of wireless charging module corresponding to it, stopped powering to this wireless charging module by lithium battery group described in described Microprocessor S3C44B0X.

Preferably, solar energy radio charge power supply also comprises the detecting unit be arranged between described microprocessor, described lithium battery group; Described microprocessor is connected with described lithium battery group by described detecting unit, the job information of described lithium battery group is detected for controlling described detecting unit, described job information at least comprise charged state, battery capacity, dump energy, charging voltage, discharge voltage, charging current, discharging current one of them, i.e. wherein one or more; Such as, described job information comprises dump energy, charging voltage and discharge voltage, and and for example, described job information comprises charged state, battery capacity; And for example, described job information comprises the available power percent information etc. that dump energy obtains divided by battery capacity.Preferably, solar energy radio charge power supply also comprises a control switch, and described lithium battery group is also connected with described detecting unit, described voltage regulation unit respectively by described control switch.

Preferably, solar energy radio charge power supply also comprises power distributing unit; Described power distributing unit is connected with described boosting unit, described microprocessor, at least one described wireless charging module respectively, for automatically distributing power output by power distributing unit described in described Microprocessor S3C44B0X, externally export respectively by each wireless charging module; And, each described sensing unit is connected with described microprocessor respectively, when terminal for responding to outside enters the charged area of wireless charging module corresponding to it, notify described microprocessor, by lithium battery group described in described Microprocessor S3C44B0X, powered by described boosting unit, described power distributing unit wireless charging module corresponding to it, and when responding to outside terminal and leaving the charged area of wireless charging module corresponding to it, stopped power supply by power distributing unit described in described Microprocessor S3C44B0X; Preferably, solar energy radio charge power supply also comprises the USB power supply unit and port thereof that are connected with described power distributing unit, for powering for outside USB device.

Another example is, as shown in Figure 6, solar energy radio charge power supply comprises a charge switch, a power switch and a control switch simultaneously.

With the various embodiments described above connected applications, preferably, described solar energy radio charge power supply also comprises a display unit be connected with described microprocessor, for showing described job information.Described display unit is connected with voltage regulation unit, boosting unit or lithium battery group, to obtain power supply.Such as, described display unit comprises LCDs, show described job information by LCDs, such as show one in the position of X-axis residing for charged state, battery capacity, dump energy, charging voltage, discharge voltage, charging current, discharging current, radio transmit power, motor and Y-axis, solar illuminance, multinomial or whole.And for example, display unit adopts LED light to indicate related work information.Like this, user can grasp related work information easily, contributes to very much user and obtains better experience effect.Such as, described display module arranges LCDs, for showing described information about power and described charge information.And for example, described display module arranges some LED light, respectively corresponding some job informations pre-seted of corresponding or combination alone.Wherein, X-axis residing for motor and the position of Y-axis, such as, when showing, each drive motors lays respectively at the position of a total X-axis and Y-axis, or, when showing, each drive motors is positioned at the position of X-axis residing for himself and Y-axis, and the present invention and each embodiment thereof are not restricted this, only need technology to realize.That is, whole installation plane right-angle coordinate, by X-axis position and the Y-axis position of this plane right-angle coordinate at LCDs display driver motor; Or, for each drive motors, show it by LCDs and be positioned at the position of the first X-axis and the position of Y-axis.

With the various embodiments described above connected applications, preferably, described solar energy radio charge power supply also arranges at least one driver element, and driver element described in corresponds to wireless charging module described in, such as, arranges one, two, the driver element of three or more; Such as, have 5 wireless charging modules, wherein 3 respectively correspondence be provided with 1 driver element, namely have 3 driver elements; And for example, have two wireless charging modules, described solar energy radio charge power supply arranges a driver element, to drive one of them wireless charging module.Preferably, according to the quantity of described wireless charging module, one_to_one corresponding arranges described driver element, namely has N number of wireless charging module, just arranges N number of driver element, and each driver element correspondence drives a wireless charging module.Preferably, each described driver element is evenly arranged or array distribution, such as, according to shape and the size of described solar energy radio charge power supply, evenly distributed or evenly arrange each described driver element, or each described driver element of lattice arrangement; And for example, each described driver element is arranged relative to described uniform plane; And for example, each described driver element is evenly arranged relative to each described charging zone respectively.And for example, the geometric center below each charging zone arranges a driver element, arranges a driver element and for example below each charging zone by certain circular radius scope; Various embodiments of the present invention do not do extra restriction to this, when only needing can realize sensing terminal to be charged quickly and easily, fast wireless charging module can be moved to the optimal charge position of described terminal, thus obtain best charge efficiency and charging effect.

Wherein, described driver element arranges the first X-axis guide rail, Y-axis guide rail and drive motors thereof and wireless charging module drive motors; That is, adopt plane right-angle coordinate move mode, wherein, described first X-axis guide rail is fixedly installed on the inner chamber of described body; Described Y-axis guide rail is perpendicular to described first X-axis guide rail, and described Y-axis slide is arranged at described first X-axis guide rail, and described Y-axis guide rail drive motors drives described Y-axis guide rail at described first X-axis slide on rails; Described wireless charging module slides and is arranged at described Y-axis guide rail, and described wireless charging module drive motors drives described wireless charging module at described Y-axis slide on rails; Described sensing unit enters the charged area of wireless charging module corresponding to it for responding to described terminal, control the corresponding charge position that described wireless charging module is moved to described terminal by described driver element, and control described lithium battery group and by described wireless charging module, described terminal is charged; Preferably, described sensing unit enters the charged area of wireless charging module corresponding to it for responding to described terminal, control the optimal charge position that described wireless charging module is moved to described terminal by described driver element, to obtain best charge efficiency and charging effect.

Preferably, described sensing unit also arranges the second X-axis guide rail with the first X-axis guide rail parallel; Preferably, the first X-axis guide rail is identical with the second X-axis rail length, such as, forms an I-shaped guide rail; Slide and be arranged at described first X-axis guide rail in described Y-axis guide rail one end, the other end slides and is arranged at described second X-axis guide rail, makes described Y-axis guide rail vertical sliding motion between two X-axis guide rails.Like this, contribute to accuracy and the flatness of movement, simultaneously due to two X-axis guide rail force balances, also helpful for the failure rate reducing product.

Preferably, the length of described X-axis guide rail, described Y-axis guide rail is between 5 centimetres to 25 centimetres, and such as, the length of described X-axis guide rail, described Y-axis guide rail is between 6 centimetres to 20 centimetres, and for example, the length of described X-axis guide rail, described Y-axis guide rail is between 10 centimetres to 15 centimetres; Such as, described solar energy radio charge power supply has rectangle charging zone or square charging zone, and this charging zone array arranges some charged area, and each charged area arranges a wireless charging module and a driver element.Preferably, described X-axis guide rail is identical with the length of described Y-axis guide rail, and such as the length of described X-axis guide rail and described Y-axis guide rail is 8 centimetres, 10 centimetres or 12 centimetres etc.Such as, the length of described X-axis guide rail and described Y-axis guide rail is 9 centimetres, described solar energy radio charge power supply is set to a rectangle desktop or rectangle tablecloth, it has rectangle charging zone or square charging zone, every 81 square centimeters is a charged area, and each charged area arranges a wireless charging module and a driver element.

And for example, described body is arranged side by side some folding parts, and adjacent folds portion is folded with relatively, and described lithium battery group, described wireless charging module, described sensing unit are arranged in identical or different folding part respectively; Such as, described lithium battery group, described wireless charging module, described sensing unit, be arranged in a folding part; Or described lithium battery group, described wireless charging module are arranged in a folding part, and described sensing unit is arranged in another folding part; Or described lithium battery group, described wireless charging module, described sensing unit, be separately positioned in different folding parts; Or, in each folding part, one or more sensing unit is set, and a wireless charging module is set.Preferably, described wireless charging module and at least one sensing unit thereof are positioned at same folding part.And for example, solar panel is arranged on one or more folding part.Such as, arrange flexible material therebetween, it is general that adjacent folds category is similar to newspaper, can close and put, also can spread out; And for example hinged etc. between adjacent folds portion.Folding mode, with reference to the folded form protective sleeve of existing IPAD class panel computer, like this, can make folding desktop or folding tablecloth, enhance the convenience of use.

Or as shown in Figure 2,3, described body arranges some stitching sections, the described body of composition is spliced in contiguous concatenation portion mutually, and described lithium battery group, described wireless charging module, described sensing unit are arranged at least one stitching section respectively; Such as, described lithium battery group, described wireless charging module, described sensing unit, be arranged in a stitching section; Or described lithium battery group, described wireless charging module are arranged in a stitching section, and described sensing unit is arranged in another stitching section; Or described lithium battery group, described wireless charging module, described sensing unit, be separately positioned in different stitching sections; Or, in each stitching section, one or more sensing unit is set, and a wireless charging module is set.And for example, solar panel is arranged on one or more stitching section.Preferably, described wireless charging module and at least one sensing unit thereof are positioned at same stitching section.The shape of stitching section is similar to picture mosaic or spliced Crawl mat.Preferably, the circuit that each stitching section is also electrically connected each other or at least formation one is complete; Preferably, some stitching sections arrange a lithium battery respectively, form described lithium battery group; Preferably, each stitching section arranges a lithium battery respectively, forms described lithium battery group; Preferably, in a stitching section, described lithium battery group, described boosting unit, described wireless charging module and sensing unit thereof are set, in other stitching sections, a lithium battery is set respectively; Preferably, each stitching section arranges a lithium battery and a wireless charging module and sensing unit thereof respectively; Preferably, arbitrary described stitching section at least both sides as splicing edge, each splicing edge arranges at least two protuberances for splicing and at least two recess respectively, the form fit of protuberance and recess is arranged, for a splicing edge of a stitching section and a splicing edge of another stitching section are closely spliced, form a body on the whole, thus the upper surface of described body has several planes, is a plane on the whole or can be considered or be understood to a plane; Such as, there are three splicing edges described stitching section, and each splicing edge arranges three protuberances and three recess respectively.Like this, sliceable desktop or sliceable tablecloth can be made, enhance the convenience of use.

With the various embodiments described above connected applications, preferably, described intrinsic single has a unified thickness; As mentioned above, described thickness is between 0.5 centimetre to 3 centimetres; Like this, a plane product can be made; Intrinsic single thickness not for the moment, can make a special-shaped desktop, such as, arranges the charge position of the various abnormal shapes such as hilly endemic area, book-type or chafing dish type.

With the various embodiments described above connected applications, preferably, described body has flat appearance, for covering outside device.Such as, described body is a flat rubber pad, and it is provided with described inner chamber; And for example, described body is a flat, plastic pad, and it is provided with described inner chamber; And for example, described body is the rectangular box body of a flat fillet; And for example, described body is set to the tablecloth of a slightly thickness, thus can make the product being similar to tablecloth.

With the various embodiments described above connected applications, preferably, described body arranges at least one installation portion, for described body being fixedly installed to outside by described installation portion.Such as, described body arranges some magnetic installation portions, and magnetic absorption is in outside; And for example, described body is fixedly installed to outside by buckle or screw connection manner by described installation portion, such as, is fixedly installed on outside desktop.And for example, the lower surface of described body arranges some rubber recesses, some rubber protuberances or its combination, for strengthening frictional force, keeps the position of described body.

As shown in Figure 4, one embodiment of the present of invention are, a kind of solar energy radio charge power supply, it comprises solar panel, Charge Management unit, detecting unit, lithium battery group, microprocessor, voltage regulation unit, boosting unit, power distributing unit, at least one wireless charging module and sensing unit.

Described solar panel is connected with described Charge Management unit, for receiving luminous energy, transforming power supply, being transferred to described Charge Management unit; Preferably, described solar energy radio charge power supply also comprises a charge switch, and described solar panel is connected with described Charge Management unit by described charge switch.

Described Charge Management unit is also connected with described microprocessor, described lithium battery group respectively, for according to described microprocessor-based control instruction, is described lithium battery group charging; Described Charge Management unit is connected with described lithium battery group, to charge and manage by Microprocessor S3C44B0X to described lithium battery.Described microprocessor is connected with described lithium battery group by described detecting unit, detects the job information of described lithium battery group for controlling described detecting unit.

Preferably, described microprocessor arranges sleep block, for not being the charging of described lithium battery group at described Charge Management unit, and when described lithium battery group is not also externally charged, arranging described solar energy radio charge power supply and entering resting state.Such as, pre-set a threshold value, when detecting unit detection charging current is less than described threshold value, such as, time charging current is less than 80 milliamperes, such as 45mA, 50mA or 60mA, and for example 79mA, the charging of described microprocessor judges to exterior terminal completes, then arrange lithium battery group and/or Charge Management unit enters holding state; And for example, when detecting unit detection discharging current is less than described threshold value, such as, time discharging current is less than 90 milliamperes, such as 43mA, 51mA or 67mA, and for example 82mA, the charging of solar energy radio charge power supply to exterior terminal described in described microprocessor judges completes, then close boosting unit, power distributing unit and/or each wireless charging module and sensing unit thereof or arrange boosting unit, power distributing unit and each wireless charging module and sensing unit enters holding state.Or, detect in charging current and discharging current be and be less than this threshold value at detecting unit, described solar energy radio charge power supply entirety is set and enters resting state, preferably, described microprocessor arranges shutdown module, for after entering resting state, through one pre-set the time operate without any discharge and recharge time, then automatically close described solar energy radio charge power supply.Described lithium battery group is connected with described microprocessor by described voltage regulation unit.

Preferably, as shown in Figure 6, described solar energy radio charge power supply also comprises a control switch, and described lithium battery group is also connected with described detecting unit, described voltage regulation unit respectively by described control switch.Control switch closes, and lithium battery group is to power supplies such as detecting unit, voltage regulation unit, microprocessors, and control switch is opened, and lithium battery group stops as power supplies such as detecting unit, voltage regulation unit, microprocessors; Like this, user just can control voluntarily, enhances Consumer's Experience, is especially applicable to the work such as test, maintenance maintenance.Preferably, microprocessor is adopted automatically to control opening of described control switch, that is, auto-breaking.Preferably, a master switch can also be set, close described solar energy radio charge power supply for a key entirety, comprise the power supply etc. that the charging of solar energy radio charge power supply self, solar energy radio charge power supply are external.

Described boosting unit is connected with described lithium battery group, for carrying out boosting process to the output voltage of described lithium battery group; Preferably, as shown in Figure 6, described solar energy radio charge power supply also comprises a power switch, described lithium battery group is also connected with described boosting unit by described power switch, and, described microprocessor is also connected with described power switch, for controlling described lithium battery group to the power supply state of described wireless charging module.

Described power distributing unit is connected with described boosting unit, described microprocessor, at least one described wireless charging module respectively, for automatically distributing power output by power distributing unit described in described Microprocessor S3C44B0X, externally export respectively by each wireless charging module.Preferably, as shown in Figure 5, described solar energy radio charge power supply also comprises the USB power supply unit be connected with described power distributing unit, for powering for outside USB device.Like this, just can other mobile terminal, mobile device etc. of the not wireless rechargeable standard popular on present market of compliant applications.Preferably, described solar energy radio charge power supply also arranges multiple adapter to adapt to different charging equipments, thus product compatibility is promoted higher level, the various mobile phone of self adaptation and digital product.

As shown in Figure 4, described sensing unit is connected with described microprocessor, or, as Fig. 5, shown in 6, each sensing unit of described sensing unit is connected with described microprocessor respectively, when terminal for responding to outside enters the charged area of wireless charging module corresponding to it, notify described microprocessor, by lithium battery group described in described Microprocessor S3C44B0X, by described boosting unit, described power distributing unit wireless charging module corresponding to it is powered, and when responding to outside terminal and leaving the charged area of wireless charging module corresponding to it, stopped power supply by power distributing unit described in described Microprocessor S3C44B0X.That is, user is by terminal to be charged, when moving to the charged area of the corresponding wireless charging module of sensing unit, sensing unit notifies described microprocessor, by lithium battery group described in described Microprocessor S3C44B0X, powered by described boosting unit, described power distributing unit wireless charging module corresponding to it; User is by terminal to be charged, when taking away from the charged area of the corresponding wireless charging module of sensing unit, sensing unit notifies described microprocessor, described microprocessor judges also has other terminal in charging, then stopped powering to wireless charging module corresponding to this sensing unit by power distributing unit described in described Microprocessor S3C44B0X, if now do not had other terminal to be charged, then lithium battery group described in described Microprocessor S3C44B0X has stopped powering to described boosting unit.

Such as, described sensing unit is gravity sensing unit, like this, works as mobile terminal, and such as, when mobile phone is placed in solar energy radio charge power supply, gravity sensing unit senses that it exists, and starts solar energy radio charge power supply and charges to this mobile phone; And for example, described sensing unit is induction coil, when its induction mobile terminal enters the charged area of wireless charging module corresponding to it, notifies described microprocessor, controls charging.Preferably, described sensing unit and described wireless charging module are wholely set.Preferably, described voltage regulation unit is also connected with described sensing unit, for powering for described sensing unit; Or described boosting unit is also connected with described sensing unit, for powering for described sensing unit.Like this, when sensing unit needs electric energy, power supply is obtained from voltage regulation unit or boosting unit.

Preferably, described solar energy radio charge power supply also arranges scan module, and it is connected with described sensing unit, enters or leave the charged area of described solar energy radio charge power supply for controlling described sensing unit by the terminal pre-seting time sweep outside.Such as, described in the Microprocessor S3C44B0X being provided with scan module, sensing unit enters by the terminal pre-seting time sweep outside or leaves the charged area of described solar energy radio charge power supply, and wherein, scan module is not shown in the accompanying drawings.Like this, can by certain time interval, automatic search, automatic scan, when the terminal of outside enters the charged area of described solar energy radio charge power supply, namely when sensing units sense enters the charged area of wireless charging module corresponding to it to outside terminal, notify described microprocessor, control lithium battery group and charge; When sensing that outside terminal leaves the charged area of wireless charging module corresponding to it, notifying described microprocessor, controlling lithium battery group or power distributing unit stopping charging.

Further, embodiments of the invention can also be, each technical characteristic of the various embodiments described above, the solar energy radio charge power supply be mutually combined to form.

It should be noted that, above-mentioned each technical characteristic continues combination mutually, is formed not in above-named various embodiment, is all considered as the scope that specification of the present invention is recorded; Further, for those of ordinary skills, can be improved according to the above description or convert, and all these improve and convert the protection range that all should belong to claims of the present invention.

Claims (28)

1. a solar energy radio charge power supply, is characterized in that, comprises a body, and the outer wall of described body arranges solar panel, and the inner chamber of described body arranges lithium battery group and at least one wireless charging module;

The upper surface of described body has at least one plane;

Described plane arranges charging zone, charges for the terminal in described charging zone to outside;

The area of described charging zone is between 15 square centimeters to 150,000 square centimeters;

The thickness of described body is between 0.3 centimetre to 6 centimetres;

Described lithium battery group comprises at least one lithium battery;

Described solar panel is connected with described lithium battery group, for being described lithium battery group charging;

Described lithium battery group is connected with described wireless charging module, for powering for described wireless charging module;

Described wireless charging module arranges at least one sensing unit, and the contiguous described charging zone of described sensing unit is arranged;

Each described sensing unit enters the charged area of wireless charging module corresponding to it for responding to outside terminal, charged to described terminal by described wireless charging module;

Also comprise boosting unit;

Described lithium battery group is connected to described wireless charging module by described boosting unit, for carrying out boosting process to the output voltage of described lithium battery group;

Described sensing unit enters the charged area of wireless charging module corresponding to it for responding to outside terminal, control described lithium battery group and export, charged after boosting by described wireless charging module to described terminal;

Charge Management unit, microprocessor and voltage regulation unit are also set;

Described Charge Management unit is arranged between described solar panel, described lithium battery group, it is also connected with described microprocessor, for according to described microprocessor-based control instruction, accepting the power supply coming from described solar panel, is described lithium battery group charging;

Described lithium battery group is connected with described microprocessor by described voltage regulation unit, for power supply;

And, each described sensing unit is connected with described lithium battery group respectively by described microprocessor, when terminal for responding to outside enters the charged area of wireless charging module corresponding to it, notify described microprocessor, by lithium battery group described in described Microprocessor S3C44B0X, powered by described boosting unit wireless charging module corresponding to it, and when responding to outside terminal and leaving the charged area of wireless charging module corresponding to it, stopped power supply by lithium battery group described in described Microprocessor S3C44B0X;

Also comprise the detecting unit be arranged between described microprocessor, described lithium battery group;

Described microprocessor is connected with described lithium battery group by described detecting unit, detect the job information of described lithium battery group for controlling described detecting unit, described job information at least comprise the position of X-axis residing for charged state, battery capacity, dump energy, charging voltage, discharge voltage, charging current, discharging current, radio transmit power, motor and Y-axis, solar illuminance one of them;

Also comprise power distributing unit;

Described power distributing unit is connected with described boosting unit, described microprocessor, at least one described wireless charging module respectively, for automatically distributing power output by power distributing unit described in described Microprocessor S3C44B0X, externally export respectively by each wireless charging module;

And, each described sensing unit is connected with described microprocessor respectively, when terminal for responding to outside enters the charged area of wireless charging module corresponding to it, notify described microprocessor, by lithium battery group described in described Microprocessor S3C44B0X, powered by described boosting unit, described power distributing unit wireless charging module corresponding to it, and when responding to outside terminal and leaving the charged area of wireless charging module corresponding to it, stopped power supply by power distributing unit described in described Microprocessor S3C44B0X;

Also comprise the USB power supply unit and port thereof that are connected with described power distributing unit, for powering for outside USB device.

2. solar energy radio charge power supply according to claim 1, it is characterized in that, described solar panel is arranged at described upper surface.

3. solar energy radio charge power supply according to claim 2, it is characterized in that, described solar panel is arranged at described plane.

4. solar energy radio charge power supply according to claim 2, it is characterized in that, each described sensing unit is connected with described lithium battery group respectively, entering the charged area of wireless charging module corresponding to it for responding to outside terminal, controlling described lithium battery group and by described wireless charging module, described terminal being charged.

5. solar energy radio charge power supply according to claim 2, it is characterized in that, described lithium battery group arranges diverter switch, accepts or stop solar panel to the charged state of lithium battery group for arranging.

6. solar energy radio charge power supply according to claim 1, it is characterized in that, each described sensing unit is evenly arranged or array distribution.

7. solar energy radio charge power supply according to claim 6, is characterized in that, described sensing unit is induction coil, magnetic sensing unit, gravity sensing unit or its combination.

8. solar energy radio charge power supply according to claim 1, is characterized in that, also arrange at least one driver element, and driver element described in corresponds to wireless charging module described in;

Described driver element arranges the first X-axis guide rail, Y-axis guide rail and drive motors thereof and wireless charging module drive motors;

Described first X-axis guide rail is fixedly installed on the inner chamber of described body;

Described Y-axis guide rail is perpendicular to described first X-axis guide rail, and described Y-axis slide is arranged at described first X-axis guide rail, and described Y-axis guide rail drive motors drives described Y-axis guide rail at described first X-axis slide on rails;

Described wireless charging module corresponding to described driver element slides and is arranged at described Y-axis guide rail, and described wireless charging module drive motors drives described wireless charging module at described Y-axis slide on rails;

Described sensing unit enters the charged area of wireless charging module corresponding to it for responding to described terminal, control the corresponding charge position that described wireless charging module is moved to described terminal by described driver element, and control described lithium battery group and by described wireless charging module, described terminal is charged.

9. solar energy radio charge power supply according to claim 8, it is characterized in that, described sensing unit also arranges the second X-axis guide rail with the first X-axis guide rail parallel;

Slide and be arranged at described first X-axis guide rail in described Y-axis guide rail one end, the other end slides and is arranged at described second X-axis guide rail, makes described Y-axis guide rail vertical sliding motion between two X-axis guide rails.

10. solar energy radio charge power supply according to claim 8, it is characterized in that, described body is arranged side by side some folding parts, and adjacent folds portion is folded with relatively, and described lithium battery group, described wireless charging module, described sensing unit are arranged in identical or different folding part respectively.

11. solar energy radio charge power supplies according to claim 8, it is characterized in that, described body arranges some stitching sections, and the described body of composition is spliced in contiguous concatenation portion mutually, and described lithium battery group, described wireless charging module, described sensing unit are arranged at least one stitching section respectively.

12. solar energy radio charge power supplies according to claim 8, it is characterized in that, described intrinsic single has a unified thickness, and described thickness is between 0.5 centimetre to 3 centimetres.

13. solar energy radio charge power supplies according to claim 8, it is characterized in that, described body also comprises a plane layer, and described plane layer is arranged at the upper surface of described body.

14. solar energy radio charge power supplies according to claim 8, it is characterized in that, described body has flat appearance, for covering outside device.

15. solar energy radio charge power supplies according to claim 8, it is characterized in that, described body arranges at least one installation portion, for described body being fixedly installed to outside by described installation portion.

16. solar energy radio charge power supplies according to claim 8, it is characterized in that, the area of described charging zone is between 50 square centimeters to 20,000 square centimeters.

17., according to solar energy radio charge power supply described in claim 16, is characterized in that, the area of described charging zone is between 100 square centimeters to 1000 square centimeters.

18. solar energy radio charge power supplies according to claim 8, it is characterized in that, according to the quantity of described wireless charging module, one_to_one corresponding arranges described driver element.

19. solar energy radio charge power supplies according to claim 8, it is characterized in that, each described driver element is evenly arranged or array distribution.

20. solar energy radio charge power supplies according to claim 8, it is characterized in that, the length of described X-axis guide rail, described Y-axis guide rail is between 5 centimetres to 25 centimetres.

21., according to solar energy radio charge power supply described in claim 20, is characterized in that, described X-axis guide rail is identical with the length of described Y-axis guide rail.

22., according to the arbitrary described solar energy radio charge power supply of claim 1 to 21, is characterized in that,

Also comprise a charge switch, described solar panel is connected with described Charge Management unit by described charge switch.

23., according to solar energy radio charge power supply described in claim 22, is characterized in that,

Also comprise a power switch, described lithium battery group is also connected with described boosting unit by described power switch, and described microprocessor is also connected with described power switch, for controlling described lithium battery group to the power supply state of described wireless charging module.

24., according to solar energy radio charge power supply described in claim 23, is characterized in that,

Also comprise a control switch, described lithium battery group is also connected with described detecting unit, described voltage regulation unit respectively by described control switch.

25., according to solar energy radio charge power supply described in claim 22, is characterized in that, described solar panel is connected to described lithium battery group by described Charge Management unit.

26., according to solar energy radio charge power supply described in claim 22, is characterized in that, described lithium battery group is poly-lithium battery group.

27., according to solar energy radio charge power supply described in claim 22, is characterized in that, described wireless charging module comprises at least one electromagnetic induction coil, at least one electromagentic resonance coil, at least one field coupled assembly or its combination.

28., according to solar energy radio charge power supply described in claim 27, is characterized in that, also comprise a display unit be connected with described microprocessor, for showing described job information.