CN103944236A - Wireless charging platform based on natural energy electric power storage - Google Patents

Abstract

The invention discloses a wireless charging platform based on natural energy electric power storage. The wireless charging platform comprises a solar power supply module, a wind power supply module, a wireless charging docking platform module and a protecting module. The solar power supply module converts light energy into electric energy through the photoelectric effect and stores the electric energy in a storage battery; the wind power supply module converts kinetic energy into mechanical energy, then converts the mechanical energy into electric energy, and stores the electric energy in the storage battery; the wireless charging docking platform module uses a wireless charging technology to charge a docking air vehicle which is provided with a wireless rechargeable battery; the protecting module is installed on the periphery of a wireless charging platform to protect the wireless charging platform in a sealing mode. According to the wireless charging platform based on natural energy electric power storage, natural energy is converted into the electric energy which serves as a charging electricity source, the air vehicle is charged wirelessly on the basis of the wireless charging technology, the problems that the charging process of the air vehicle is complex and the electric power is insufficient for the continuous flight are solved, and by means of the wireless charging platform, the air vehicle can be applied to the fields of forest patrolling, danger zone investigation, husbandry monitoring, military and the like.

Description

Wireless charging platform based on natural energy electric power storage

Technical field

The present invention relates to solar recharging, wind energy charging, Multi-axis aircraft field, particularly a kind of charging platform that uses wireless charging technology.

Background technology

Solar energy is a kind of clean reproducible energy of occurring in nature, solar energy power generating is to convert solar energy into electrical energy by photoelectric effect, in recent years, photovoltaic power generation technology obtains development at full speed, no matter be the Beijing Olympic Games part electricity consumption of 2008 or common Sun Day electronic product, solar energy power generating has all produced huge economic benefits.

Wind energy is as the clean regenerative resource of tellurian another kind, and it can develop total amount can be also large 10 times than water, and wind power generation is more and more subject to the attention in the world.The prospect of wind power generation industry is very wide, and along with the progressively maturation of technology, profitability also progressively promotes thereupon.

Multi-axis aircraft, as a class of minute vehicle, more and more receives people's concern in recent years, and in colleges and universities, some are the aircraft at DIY oneself to the interested student of Multi-axis aircraft, and in aircraft, adds the algorithm of oneself.But the charging of Multi-axis aircraft comparatively bothers, it continues navigation scarce capacity is to research and develop now the insoluble problem that Multi-axis aircraft runs into always.

Wireless charging technology is called noncontact induction charging, and it utilizes physical " resonance " principle to realize the non-contact charge between electronics, electric equipment products.Wireless charging technology, as emerging technology, has huge potentiality, has started to be applied among electronic product field, and some mobile phones have been charged as the inconvenience that solves wired charging at present, have released already wireless charger and wireless charging battery.

Summary of the invention

Under this background, the invention provides a kind of wireless charging platform based on natural energy electric power storage, it utilizes natural solar power generation and wind power generation for the Multi-axis aircraft resting on charging platform provides power source, uses wireless charging technology to solve the problem of Multi-axis aircraft charging trouble, lasting navigation power shortage.

A kind of wireless charging platform based on natural energy electric power storage provided by the invention comprises solar powered module 1, powered by wind energy module 2, wireless charging stopping platform module 3 and protection module 5, wherein:

Described solar powered module 1 is arranged on the top of described wireless charging platform, for gathering luminous energy and being translated into electric energy, flows to described wireless charging stopping platform module 3;

Described powered by wind energy module 2 is arranged on the side of described wireless charging platform, for collecting wind energy and being translated into alternating current, flows to described wireless charging stopping platform module 3;

Described wireless charging stopping platform module 3 is installed on the inside of described wireless charging platform, for offering that aircraft is stopped and being its charging;

Described protection module 5 is installed on the periphery of described wireless charging platform, so that it is sealed, protects described wireless charging stopping platform module 3 and aircraft.

The present invention utilizes the clean reproducible solar energy of nature and wind energy as power source, use solar panel and wind-driven generator to generate electricity, after having solved the windproof and rain proof problem of wireless charging platform, wireless charging platform just can be arranged on open air, for Multi-axis aircraft provides charging source, and go on patrol out of doors, take or the task such as investigation provides outwork windproof, rainproof charging stopping platform for Multi-axis aircraft; On Multi-axis aircraft, install after video system, can replace people's local patrol such as in forest, street, farmland, or replace people to carry out investigations to danger zone.The problem that the present invention uses wireless charging technology to solve Multi-axis aircraft charging trouble and continued navigation power shortage.Like this, utilize wireless charging platform of the present invention, Multi-axis aircraft just can be applied to the fields such as forest patrol, danger zone investigation, farming and animal husbandry monitoring and military affairs.

Accompanying drawing explanation

Fig. 1 is the structural representation of the wireless charging platform based on natural energy electric power storage according to an embodiment of the invention;

Fig. 2 is the structural representation of wireless charging stopping platform module according to an embodiment of the invention;

Fig. 3 is generating, the charging workflow diagram of wireless charging stopping platform module according to an embodiment of the invention;

Fig. 4 is the schematic diagram that open on wireless charging platform roof according to an embodiment of the invention.

Embodiment

For making the object, technical solutions and advantages of the present invention clearer, below in conjunction with specific embodiment, and with reference to accompanying drawing, the present invention is described in more detail.

Fig. 1 is the plan view of the wireless charging platform based on natural energy electric power storage according to an embodiment of the invention, as shown in Figure 1, the described wireless charging platform based on natural energy electric power storage comprises solar powered module 1, powered by wind energy module 2, wireless charging stopping platform module 3 and protection module 5, wherein:

Described solar powered module 1 is arranged on the top of described wireless charging platform, for gathering luminous energy and being electric energy by photoelectric effect by light energy conversion, flows to described wireless charging stopping platform module 3;

Wherein, described solar powered module 1 is towards the good direction of daylighting, and it is solar energy alternative electric generation or solar DC generating.

The main part of described solar powered module 1 is solar panel, described solar panel is crystal silicon cell plate (monocrystalline silicon or polycrystal silicon cell plate) or non-crystalline silicon cell panel, described solar panel is tiltedly layered on the top of described wireless charging platform, has formed the roof of described wireless charging platform; Described solar panel mainly comprises the parts such as toughened glass, generating main body, backboard, aluminium alloy and terminal box, and wherein, the light transmission of described toughened glass is more than 91%, for the protection of described generating main body; Described generating main body is crystalline silicon solar cell piece or thin film solar cell sheet; Described terminal box is for the protection of whole electricity generation system, and anti-locking system burns out.

Described powered by wind energy module 2 is arranged on the side of described wireless charging platform, for collecting wind energy and being translated into alternating current, flows to described wireless charging stopping platform module 3;

Wherein, described powered by wind energy module 2, towards the larger direction of wind-force, is exported the alternating current of 13V～25V.

The main part of described powered by wind energy module 2 is wind turbine generator, described wind turbine generator comprises wind wheel (comprising tail vane), wind-driven generator and bracing frame, such as steel tower, wherein, described wind wheel is Da Lie formula wind wheel, Magnus effect wind wheel or runoff two-wheel effect wind wheel; Described wind-driven generator is double-fed induction generator.

Described wind turbine generator utilizes wind-force to drive wind wheel rotation, kinetic energy is transformed into mechanical energy, then mechanical energy is converted into electric energy.

Described wireless charging stopping platform module 3 is installed on the inside of described wireless charging platform, the stop while not working at ordinary times for offering aircraft for its charging;

Fig. 2 is the structural representation of wireless charging stopping platform module according to an embodiment of the invention, described wireless charging stopping platform module 3 comprises charging-discharging controller module 6, electric power storage battery module 7, power management module 8, wireless charger 9, wireless charging inductance coil 10 and stube cable 4, wherein:

Described charging-discharging controller module 6, electric power storage battery module 7, power management module 8 are installed on the bottom of described wireless charging stopping platform module 3;

The main part of described charging-discharging controller module 6 is charging-discharging controller; its by stube cable 4 with the solar panel of described solar powered module 1, the wind turbine generator of described powered by wind energy module 2; and connect as the electric power storage battery of described electric power storage battery module 7 main parts; the electric energy of carrying to receive described solar panel and wind turbine generator; and deposit electric power storage battery in after processing, protect described electric power storage battery to overcharge phenomenon to prevent simultaneously.

One end of described electric power storage battery is connected with described charging-discharging controller by stube cable 4, the other end is connected with described power management module 8 by stube cable 4, for storing solar energy, transform the electric energy that the electric energy obtain and wind energy transformation obtain, and provide power source for the aircraft of needs charging;

One end of described power management module 8 is connected with described electric power storage battery by stube cable 4, the other end is connected with described wireless charger 9, described power management module 8 comprises transformer and rectifier, for the electric weight of described electric power storage battery is managed, according to the current/voltage of wireless charger 9 adaptations, when aircraft electrical quantity not sufficient need to be charged, be described wireless charger 9 power supplies;

One end of described wireless charger 9 is connected with described power management module 8 by stube cable 4, its inside is provided with wireless charging inductance coil 10, being used for is magnetic field energy by described wireless charging inductance coil 10 by electric energy conversion, utilize physical " resonance " principle, energy conduction, to the wireless charging battery in aircraft, is finally reached to the object realizing to aircraft wireless charging;

Described wireless charging inductance coil 10 is laid under the top surface of described wireless charging stopping platform module 3, with when bottom rests on described wireless charging inductance coil 10 with the aircraft of wireless charging battery, described wireless charger 9 carries out wireless charging for carry-on wireless charging battery.

Fig. 3 is generating, the charging workflow diagram of wireless charging stopping platform module according to an embodiment of the invention, known in conjunction with Fig. 1 and Fig. 2, solar panel is converted into sunlight after electric energy, by stube cable 4 to charging-discharging controller module 6 transmission of electric energy; Same, after wind turbine generator is electric energy by wind energy transformation, also pass through stube cable 4 to charging-discharging controller transmission of electric energy.Described charging-discharging controller is controlled the alternating current that electric energy that solar panel produces and wind turbine generator produce, and to electric power carry out rectification, constant current, pressure limiting, in limited time, the processing such as overshoot protection, the electrical power storage after processing is the most at last in electric power storage battery.The electric weight of power management module 8 management electric power storage batteries, and be that described wireless charger 9 is carried the electric power that carries out wireless charging.Wireless charger 9 is magnetic field energy by electric energy conversion on wireless charging inductance coil 10, utilizes physical " resonance " principle, by energy conduction, gives the wireless charging battery at Multi-axis aircraft, finally reaches the object that realizes wireless charging.

Described protection module 5 is installed on the periphery of described wireless charging platform, so that it is sealed, protects inner wireless charging stopping platform module 3 and rests in the aircraft in described wireless charging stopping platform module 3.

In an embodiment of the present invention, described wireless charging platform is room formula structure, and this structure can reach the open air placement object of windproof and rain proof, in this embodiment, described wireless charging platform also comprises roof control module, for controlling the folding on described wireless charging platform roof.

The agent structure of described roof control module is roof control system 11, and Fig. 4 is the schematic diagram that open on wireless charging platform roof according to an embodiment of the invention, and as shown in Figure 4, described roof control system 11 is installed on the below of described solar panel;

Described roof control system 11 comprises master controller, wireless communication module, the connecting gear such as stepping motor and driving-belt or transmission gear, wherein, described stepping motor is controlled by master controller, and use transmission mechanism to be connected with the solar panel on roof, when aircraft 12 (Figure 4 shows that four-axle aircraft, but it is only for explanation, in the present invention, be not defined as four axles, can also be five axles, six axles, while seven axles etc.) entering or leaving described wireless charging platform, described master controller is obtained and is communicated by letter by wireless communication technology with aircraft, by main controller controls stepping motor, rotated, by the transmission of described transfer structure, control the rotation of described solar panel, to facilitate the turnover of aircraft 12.

Above-described specific embodiment; object of the present invention, technical scheme and beneficial effect are further described; institute is understood that; the foregoing is only specific embodiments of the invention; be not limited to the present invention; within the spirit and principles in the present invention all, any modification of making, be equal to replacement, improvement etc., within all should being included in protection scope of the present invention.

Claims (10)

1. the wireless charging platform based on natural energy electric power storage, it is characterized in that, this wireless charging platform comprises solar powered module (1), powered by wind energy module (2), wireless charging stopping platform module (3) and protection module (5), wherein:

Described solar powered module (1) is arranged on the top of described wireless charging platform, for gathering luminous energy and being translated into electric energy, flows to described wireless charging stopping platform module (3);

Described powered by wind energy module (2) is arranged on the side of described wireless charging platform, for collecting wind energy and being translated into alternating current, flows to described wireless charging stopping platform module (3);

Described wireless charging stopping platform module (3) is installed on the inside of described wireless charging platform, for offering with the aircraft of wireless charging battery, stops and is its charging;

Described protection module (5) is installed on the periphery of described wireless charging platform, so that it is sealed, protects described wireless charging stopping platform module (3) and aircraft.

2. wireless charging platform according to claim 1, is characterized in that, the main body of described solar powered module (1) is solar panel, and described solar panel is crystal silicon cell plate or non-crystalline silicon cell panel.

3. wireless charging platform according to claim 2, is characterized in that, described solar panel comprises toughened glass, generating main body, backboard, aluminium alloy and terminal box, and wherein, described toughened glass is for the protection of described generating main body; Described generating main body is crystalline silicon solar cell piece or thin film solar cell sheet.

4. wireless charging platform according to claim 1, is characterized in that, described powered by wind energy module (2) comprises wind turbine generator.

5. wireless charging platform according to claim 4, is characterized in that, described wind turbine generator comprises wind wheel, wind-driven generator and bracing frame.

6. wireless charging platform according to claim 1, it is characterized in that, described wireless charging stopping platform module (3) comprises charging-discharging controller module (6), electric power storage battery module (7), power management module (8), wireless charger (9), wireless charging inductance coil (10) and stube cable (4), wherein:

Described charging-discharging controller module (6), electric power storage battery module (7), power management module (8) are installed on the bottom of described wireless charging stopping platform module (3);

Described charging-discharging controller module (6) comprises charging-discharging controller, its by stube cable (4) and the solar panel of described solar powered module (1), the wind turbine generator of described powered by wind energy module (2), and the electric power storage battery in described electric power storage battery module (7) connects, the electric energy of carrying to receive described solar panel and wind turbine generator, and deposit electric power storage battery in after processing, protect described electric power storage battery to overcharge phenomenon to prevent simultaneously;

One end of described electric power storage battery is connected with described charging-discharging controller by stube cable (4), the other end is connected with described power management module (8) by stube cable (4), for storing solar energy, transform the electric energy that the electric energy obtain and wind energy transformation obtain, and provide power source for the aircraft of needs charging;

One end of described power management module (8) is connected with described electric power storage battery by stube cable (4), the other end is connected with described wireless charger (9), for the electric weight of described electric power storage battery is managed, the current/voltage adaptive according to described wireless charger (9) is described wireless charger (9) power supply;

One end of described wireless charger (9) is connected with described power management module (8) by stube cable (4), its inside is provided with wireless charging inductance coil (10), for being magnetic field energy by described wireless charging inductance coil (10) by electric energy conversion, and by energy conduction to the wireless charging battery in aircraft;

Described wireless charging inductance coil (10) is laid under the top surface of described wireless charging stopping platform module (3), and when stopping thereon when aircraft, described wireless charger (9) carries out wireless charging for aircraft.

7. wireless charging platform according to claim 6, is characterized in that, described power management module (8) comprises transformer and rectifier.

8. wireless charging platform according to claim 1, is characterized in that, described wireless charging platform is room formula structure.

9. wireless charging platform according to claim 8, is characterized in that, described wireless charging platform also comprises roof control module, for controlling the folding on described wireless charging platform roof.

10. wireless charging platform according to claim 9, it is characterized in that, the main body of described roof control module is roof control system (11), described roof control system (11) is installed on the below of solar powered module (1), described roof control system (11) comprises master controller, wireless communication module, stepping motor and the transmission mechanism being connected with solar powered module (1), wherein, described master controller carries out radio communication by wireless communication module and aircraft, described stepping motor is according to the order control step electric machine rotation of master controller, with the transmission by transfer structure, described solar powered module (1) is rotated.