CN203984070U - A kind of wind power charging device and system - Google Patents

Abstract

The utility model provides a kind of wind power charging device and system, relates to wind power generation field, in order to the problem of contaminated solution environment.Described wind power charging device comprises: control module, and the wind energy module, battery module and the charging module that are connected respectively with described control module, and wherein said wind energy module is also connected with battery module and charging module respectively; Described wind energy module, for receiving wind energy; Described battery module, under the control of control module, stores the wind energy that described wind energy module receives; Described charging module, under the control of control module, the electric energy of storing in the wind energy that wind energy module receives described in choice for use or described battery module is electrical equipment charging.Described wind energy charging system comprises server, and at least 2 above-mentioned wind power charging devices that are connected respectively with described server.Wind power charging device of the present utility model and system, make full use of and optimized wind energy charging technique, reached the effect of energy-saving and emission-reduction.

Description

A kind of wind power charging device and system

[technical field]

The utility model relates to wind power generation field, especially a kind of wind power charging device and system.

[background technology]

The fuel oil of automobile consumption derives from oil at present.Fuel-engined vehicle not only consumes a large amount of petroleum-based energies, also be an important pollution source in city simultaneously, the waste gas of motor vehicle emission comprises that sulfur dioxide and nitrogen oxide all can cause air pollution, affect our healthy, motor vehicle emission carbon dioxide out also becomes a key factor that causes global warming.Due to energy shortage and problem of environmental pollution that fuel-engined vehicle brings, electric automobile is this, and directly consumption of fossil fuels, the automobile that do not produce pollution become various countries scientist's study hotspot.Although electric automobile does not directly consume fossil energy, its power of electric automobile generally adopts storage battery power supply mode, it is little more a lot of than traditional motor vehicle emission amount, impact on environment is smaller, but mostly the generation of electricity is now by burning fossil energy, so electric automobile has also indirectly consumed fossil energy, has polluted environment.Just because of above-mentioned reason, wind energy is because its energy source obtains numerous personages' support in free of contamination wind energy.

[summary of the invention]

The utility model provides a kind of wind power charging device and system, in order to the problem of contaminated solution environment.

A kind of wind power charging device of the present utility model, be applied to as electrical equipment charging, comprise: control module, and the wind energy module, battery module and the charging module that are connected respectively with described control module, wherein said wind energy module is also connected with battery module and charging module respectively; Described wind energy module, for receiving wind energy; Described battery module, under the control of control module, stores the wind energy that described wind energy module receives; Described charging module, under the control of control module, the electric energy of storing in the wind energy that wind energy module receives described in choice for use or described battery module is electrical equipment charging.

Wherein, also comprise: the mechanical motor module being connected with described control module, under the control of control module, regulates the height of described wind power charging device.

Wherein, also comprise: the wired electric power access module being connected respectively with charging module with described control module, for external power is accessed to described wind power charging device, and is converted into the required operating voltage of electrical equipment, and under the control of control module, for charging module provides electric energy.

Wherein, also comprise: the electricity quantity display module being connected with described control module, for showing charge information.

Wherein, described wind energy module comprises: wind turbine, wind-driven generator, excitation electromotor control submodule, current transformer control submodule and unit control submodule that closed loop connects, and the AC/DC being connected with described wind-driven generator conversion submodule; Described unit control submodule is also connected with wind-driven generator; Described wind turbine, for being mechanical kinetic energy by the wind energy transformation of reception and passing to described wind-driven generator; Described wind-driven generator, for being converted into electric energy by the mechanical kinetic energy of described wind turbine output; Described AC/DC conversion submodule is the AC/DC current transformer being made up of diode, is converted to direct current for the alternating current of variable-frequency variable-voltage that described wind-driven generator is sent; Described excitation electromotor control submodule, for detection of the voltage signal of intermediate dc, and according to the requirement of power control, regulates the exciting current of described wind-driven generator; Unit control submodule, for according to the parameter of the described wind turbine detecting and wind-driven generator output, produces inverter control signal, and carries out the pitch control of described wind turbine; Current transformer control submodule, for the inverter control signal of sending according to described unit control submodule, detects electric current and the mains voltage signal of output, calculates power output, and produces the break-make of control signal control circuit.

Wherein, described charging module comprises: wireless charging submodule and wired charging submodule; Wherein, described wireless charging submodule comprises: wireless charging circuit and Wireless charging coil, for electrical equipment is carried out to wireless charging; Described wired charging submodule comprises: charge cable and wired charging inlet, and for electrical equipment is carried out to wired charging.

A kind of wind energy charging system of the present utility model, comprising: server, and at least 2 wind power charging devices that are connected respectively with described server; Wherein, described wind power charging device is above-mentioned wind power charging device; Server, for allocating connected each wind power charging device, make the wind power charging device described at least 2 is electrical equipment charging simultaneously.

Wind power charging device of the present utility model and system, make full use of and optimized wind energy charging technique, reached the effect of energy-saving and emission-reduction.

[brief description of the drawings]

Fig. 1 is the apparatus structure schematic diagram of the utility model embodiment 1;

Fig. 2 is the apparatus structure schematic diagram of the utility model embodiment 2;

Fig. 3 is the system configuration schematic diagram of the utility model embodiment 3.

[embodiment]

In order better to utilize wind energy, the utility model that a kind of wind power charging device and system are provided, illustrate by the following examples.

A kind of wind power charging device of embodiment 1, the present embodiment, can be arranged on special charging station, parking lot, realizes the charging to electrical equipment.Shown in Figure 1, comprising: control module 11, and the wind energy module 12, battery module 13 and the charging module 14 that are connected respectively with control module 11, wherein wind energy module 12 is also connected with battery module 13 and charging module 14 respectively.

Wind energy module 12, for receiving wind energy.

Battery module 13, is mainly used under the control of control module 11, the wind energy that storage wind energy module 12 receives.

Charging module 14, under the control in control module 11, in the wind energy that choice for use wind energy module 12 receives or battery module 13, the electric energy of storage is electrical equipment charging.Concrete, when the energy that needs than electrical equipment when the output of wind energy is large, directly adopt wind energy module 12 to charge to electrical equipment, unnecessary stored energy is in battery module 13; In the time of energy that the output energy of wind energy needs lower than electrical equipment, just with battery module 13, electrical equipment is charged.

Control module 11 adopts programmable single chip computer chip, and coordinates as available circuit realizations such as gating circuits.

A kind of wind power charging device of embodiment 2, the present embodiment is further to optimize on the basis of embodiment 1, shown in Figure 2, comprise: control module 21, and the wind energy module 22, battery module 23, charging module 24, mechanical motor module 25 and the electricity quantity display module 26 that are connected respectively with control module 21, wherein wind energy module 22 is also connected with battery module 23 and charging module 24 respectively, and the wired electric power access module 27 being connected respectively with charging module 24 with control module 21.Wind energy module 22 comprises: wind turbine 221, wind-driven generator 222, excitation electromotor control submodule 223, current transformer control submodule 224 and unit control submodule 225 that closed loop connects, and the AC/DC being connected with wind-driven generator 222 conversion submodule 226; Unit control submodule 225 is also connected with wind-driven generator 222.Charging module 24 specifically comprises: wireless charging submodule 241 and wired charging submodule 242, line charging submodule 241 comprises: wireless charging circuit 2411 and Wireless charging coil 2412, wired charging submodule 242 comprises: charge cable 2421 and wired charging inlet 2422.

Control module 21, for controlling connected modules, specifically adopts programmable single chip computer chip, and coordinates as available circuit realizations such as gating circuits.And control module 21 also can be connected with the background control system of wind power charging device, charging station staff can operate each wind power charging device by the control of daemon software system, also can locate to operate at the electricity quantity display module of wind power charging device 26 (touch-screen).

Wind energy module 22, for receiving wind energy.Concrete, wind energy module 22 is mainly made up of wind turbine 221, wind-driven generator 222, excitation electromotor control submodule 223, current transformer control submodule 224, unit control submodule 225 and AC/DC conversion submodule 226.The wind energy transformation that wind turbine 221 just receives is mechanical kinetic energy and passes to described wind-driven generator 222.The mechanical kinetic energy that wind-driven generator 222 is exported wind turbine 221 changes electric energy into.AC/DC conversion submodule 226 is the AC/DC current transformers that are made up of diode, and the interchange of the variable-frequency variable-voltage that wind-driven generator 222 is sent is converted to direct current.Excitation electromotor control submodule 223 detects the voltage signal of intermediate dc, according to the requirement of power control, regulates the exciting current of wind-driven generator 222, thereby changes generator output voltage.Current transformer control submodule 224 receives the inverter control signal that unit control submodule 225 is sent, and detects electric current and the mains voltage signal of output, calculates power output, produces the break-make of control signal control circuit.Unit control submodule 225 is cores of whole compound rectifier excitation wind power generation, according to wind turbine 221 output parameters, the wind energy parameter that detect, wind-driven generator 222 output parameters, produce inverter control signal, the pitch control of the sector-style of going forward side by side turbine 221, ensures that wind turbine 221 and wind-driven generator 222 can coordinate the output voltage of exporting constant frequency.

Battery module 23, is mainly used under the control of control module 21, the wind energy that storage wind energy module 22 receives.

Charging module 24, under the control in control module 21, the electric energy that in wind energy that choice for use wind energy module 22 receives, battery module 23, the electric energy of storage or wired electric power access module 27 provide is electrical equipment charging.Concrete, when the energy that needs than electrical equipment when the output of wind energy is large, directly adopt wind energy module 22 to charge to electrical equipment, unnecessary stored energy is in battery module 23; In the time of energy that the output energy of wind energy needs lower than electrical equipment, just with battery module 23, electrical equipment is charged.When the energy of battery module 23 is also not time, by wired electric power access module 27, electrical equipment is charged.Concrete charging modes comprises wireless charging and wired charging, can be suitable for individually or simultaneously.Concrete, wireless charging submodule 241 comprises: wireless charging circuit 2411 and Wireless charging coil 2412, for electrical equipment is carried out to wireless charging; Wired charging submodule 242 comprises: charge cable 2421 and wired charging inlet 2422, and for electrical equipment is carried out to wired charging.

Mechanical motor module 25, specifically can adopt the device such as electric-controlled hydraulic, steam-operating, under the control in control module 21, regulates the height of wind power charging device of the present embodiment, and then meets dissimilar electrical equipment and charge.

Electricity quantity display module 26, for showing charge information, being specially user provides the supervision data of charging, and records the energy reserve of internal battery and the real-time output effect of wind energy.

Wired electric power access module 27, for by the wind power charging device of external power (normally civil power) access the present embodiment, and is converted into the required operating voltage of electrical equipment, and under the control of control module 21 for charging module 24 provides electric energy.

In specific implementation, wind turbine 221 can be arranged on the good position of ambient wind force rate of charging station, specifically can be arranged on roof or ground.Wireless charging coil 2412 can be arranged on top, the side of wind power charging device, or/and the wireless charging of electrical equipment at diverse location is convenient in the positions such as bottom.When the Area comparison that takies when Wireless charging coil 2412 is large, the efficiency of Wireless charging coil 2412 is higher, and charge efficiency is high.Wind power charging device, towards the one side of electrical equipment, adopts plastic material to make, and is convenient to electromagnetic projection, facilitates wireless charging.Within control module 21 is placed on housing, protective circuit is not subject to external damage, and waterproof anti-corrosion.Between control module 21 and modules, adopt cable to be connected.Wireless charging coil 2412 adopts built-in antenna, and antenna, to extraradial employing electromagnetic wave transparent material, is convenient to electric power signal radiation.Wireless charging coil 2412 adopts the mode of copper pipe, and copper pipe surface scribbles three anti-paints, surrounds the mode of 3 dimension coils, can be used for long-term exterior components.

The wind power charging device of the present embodiment can make full use of wind energy, and in conjunction with original supply of electric power, is electrical equipment, is especially charging electric vehicle, has so just saved a lot of energy.The mode that the wind power charging device of the present embodiment has adopted wired charging and wireless charging to combine is charged, and is suitable for various electric automobiles, is beneficial to the penetration and promotion of electric automobile.

A kind of wind energy charging system of embodiment 3, the present embodiment, shown in Figure 3, comprising: server 31, and at least 2 wind power charging devices 32 that are connected respectively with server 31;

Wherein, wind power charging device 32 can adopt the wind power charging device of above-described embodiment 1 or 2.

Server 31, for allocating connected each wind power charging device 32, make at least 2 wind power charging devices 32 is electrical equipment charging simultaneously.Can adopt the wind power charging device of embodiment 1 or 2 independently electric automobile to be charged, also can adopt the system of the present embodiment, coordinate other wind power charging devices 32 to charge to same car, can also descend charging device to charge ordinatedly, concrete deployment scenario is relevant with the size cases of vehicle.Wind power charging device 32 is by the unified configuration of server 31 of charging station, be better electric vehicle charging, wind power charging device 32 is subject to the unified plan configuration of Utilities Electric Co., electric weight to charging is monitored, user can see the electric weight of charging on charging kiosk, and supports corresponding swiping the card to pay and pay by mails.

In sum, the utility model has adopted the wind power charging device that can change height, can adapt to the size of different car bodies, and reduce as much as possible the distance of wind power charging device and automobile top reception antenna, has effectively improved the efficiency of wireless charging.

Wind-driven generator of the present utility model adopts the intelligent processing method of variable-frequency motor, can lower in different wind conditions output frequency and the voltage of joint motor, obtain the output voltage of constant frequency, by intelligent energy statistics algorithm, can adjust the impeller of wind turbine, ensure the output of maximal wind-energy, raise the efficiency.

Wind power charging device of the present utility model also possesses storage battery, and the wind energy that non-charged state apparatus for lower wind generator is obtained can reasonably store, and provides energy in the time of charging.

Wind power charging device of the present utility model also possesses wireless charging and wired charging various ways, coordinates multiple electric automobile to use.

Wind power charging device of the present utility model on top, side and bottom all contain wireless charging submodule, be convenient to different electric automobiles and carry out wireless charging, and various modes can also be used in conjunction with, multiple wind power charging devices also can be used in conjunction with.

Wind power charging device of the present utility model can be by the mode of Background control, and other charging devices or unified cooperation of underground charging device electric automobile is charged, and has reached like this object of parallel charging, has improved the efficiency of charging.

Wind power charging device of the present utility model adopts daemon software control and surface directly to control the mode combining, and is convenient to charging station workman charging device is operated.

Here description of the present utility model and application are all illustrative and schematic, are not to want scope of the present utility model to limit in the above-described embodiments.Here the distortion of disclosed embodiment and change is completely possible, and for those those of ordinary skill in the art, the various parts of the replacement of embodiment and equivalence are all known.Those skilled in the art are also noted that, in the situation that not departing from spirit of the present utility model or substantive characteristics, the utility model can be with other form, structure, layout, ratio, and realize with other assembly, material and parts, and in the situation that not departing from the utility model scope and spirit, can carry out other distortion and change to disclosed embodiment here.

Claims (7)

1. a wind power charging device, be applied to as electrical equipment charging, it is characterized in that, comprising: control module, and the wind energy module, battery module and the charging module that are connected respectively with described control module, wherein said wind energy module is also connected with battery module and charging module respectively;

Described wind energy module, for receiving wind energy;

Described battery module, under the control of control module, stores the wind energy that described wind energy module receives;

Described charging module, under the control of control module, the electric energy of storing in the wind energy that wind energy module receives described in choice for use or described battery module is electrical equipment charging.

2. wind power charging device as claimed in claim 1, is characterized in that, also comprises: the mechanical motor module being connected with described control module, under the control of control module, regulates the height of described wind power charging device.

3. wind power charging device as claimed in claim 1, it is characterized in that, also comprise: the wired electric power access module being connected respectively with charging module with described control module, for external power is accessed to described wind power charging device, and be converted into the required operating voltage of electrical equipment, and under the control of control module, for charging module provides electric energy.

4. wind power charging device as claimed in claim 1, is characterized in that, also comprises: the electricity quantity display module being connected with described control module, and for showing charge information.

5. wind power charging device as claimed in claim 1, it is characterized in that, described wind energy module comprises: wind turbine, wind-driven generator, excitation electromotor control submodule, current transformer control submodule and unit control submodule that closed loop connects, and the AC/DC being connected with described wind-driven generator conversion submodule; Described unit control submodule is also connected with wind-driven generator;

Described wind turbine, for being mechanical kinetic energy by the wind energy transformation of reception and passing to described wind-driven generator;

Described wind-driven generator, for being converted into electric energy by the mechanical kinetic energy of described wind turbine output;

Described AC/DC conversion submodule is the AC/DC current transformer being made up of diode, is converted to direct current for the alternating current of variable-frequency variable-voltage that described wind-driven generator is sent;

Described excitation electromotor control submodule, for detection of the voltage signal of intermediate dc, and according to the requirement of power control, regulates the exciting current of described wind-driven generator;

Unit control submodule, for according to the parameter of the described wind turbine detecting and wind-driven generator output, produces inverter control signal, and carries out the pitch control of described wind turbine;

Current transformer control submodule, for the inverter control signal of sending according to described unit control submodule, detects electric current and the mains voltage signal of output, calculates power output, and produces the break-make of control signal control circuit.

6. wind power charging device as claimed in claim 1, is characterized in that, described charging module comprises: wireless charging submodule and wired charging submodule;

Wherein, described wireless charging submodule comprises: wireless charging circuit and Wireless charging coil, for electrical equipment is carried out to wireless charging;

Described wired charging submodule comprises: charge cable and wired charging inlet, and for electrical equipment is carried out to wired charging.

7. a wind energy charging system, is characterized in that, comprising: server, and at least 2 wind power charging devices that are connected respectively with described server;

Wherein, described wind power charging device is the wind power charging device described in claim 1 to 6 any one;

Server, for allocating connected each wind power charging device, make the wind power charging device described at least 2 is electrical equipment charging simultaneously.