CN103280859A

CN103280859A - Solar wireless charging device

Info

Publication number: CN103280859A
Application number: CN2013102104227A
Authority: CN
Inventors: 王洪军
Original assignee: Individual
Current assignee: Individual
Priority date: 2013-05-31
Filing date: 2013-05-31
Publication date: 2013-09-04
Anticipated expiration: 2033-05-31
Also published as: CN103280859B

Abstract

The invention discloses a solar wireless charging device. The solar wireless charging device comprises a solar charger and a chargeable storage battery, wherein solar cells are arranged on a fixed box and a movable box which are arranged in the solar charger, a circuit connecting board and the storage battery are sequentially installed below the solar cells of the fixed box, and the output end of each solar cell is connected with the input end of the storage battery through the circuit connecting board; a battery locating device, a battery charging device, a circuit board of the movable box and an upper cover are arranged in the movable box, wherein an electric connection wire is arranged between the circuit board of the movable box and the storage battery of the fixed box, a motor of the battery locating device is respectively connected to the output ends of control circuits arranged on the circuit board, and the battery charging device is connected to the output end of a charging circuit arranged on the circuit board of the movable box. The solar wireless charging device has the advantages of being small in size and easy to operate, a digital electronic product needing to be charged is directly placed on the charger without needing any connecting wire, and the problem of charging can be solved.

Description

The solar energy radio charging device

Technical field

The present invention relates to charging device, relate in particular to a kind of solar energy radio charging device.

Background technology

Along with the high speed development of modern science and technology, digital electronic goods miscellaneous have appearred on the society, and these digital electronic goods all need to be equipped with special-purpose separately charger.China was from 2007, and electronic digital product or charger for mobile phone begin to carry out the unified interface standard, and the mobile phone of the new application network-entry license that all are produced within Chinese territory and supporting charger are all wanted unified interface.This means that the charger for mobile phone standard that industry is paid close attention to has had further development again.New standard does not but really realize that the interface of charger is unified, the interface in the unified just charger between " power supply adaptor " and " cable ".So different manufacturers still can design the interface of charger cable voluntarily, the user changes digital electronic goods or mobile phone still needs to change different chargers and cable.Like this, no charger and cable have caused a large amount of rubbish, and existing charger and cable then exist the shortcoming that keeping is carried inconvenience, used trouble again.

Summary of the invention

The objective of the invention is to overcome the deficiencies in the prior art, and provide a kind of volume little, easy to carry, simple to operate, common civil power and solar energy are used mutually, need not any connecting line, as long as the digital electronic goods of required charging directly are placed on the energy saving and environment friendly solar energy radio charging device that can solve the charging problem on the charger.

The object of the present invention is achieved like this:

It comprises solar charger and chargeable storage, described solar charger is made of fixed bin and active box that movable axis is provided with, described fixed bin top and active box bottom respectively are provided with solar cell, the solar cell bottom of fixed bin is equipped with plugboard and storage battery successively, and the output of each solar cell connects the input of storage battery by plugboard; Be provided with battery locating device, battery charger, active box circuit board and loam cake in the active box, be provided with electric connection line between active box circuit board and the fixed bin storage battery, the motor of battery locating device is the output of the control circuit that is provided with of connecting circuit plate respectively, and battery charger is connected the output that the active box circuit board is provided with charging circuit.

Described battery locating device comprises cross motor and the vertical motor that is provided with in the active box, cross motor is provided with the horizontal thread output shaft, be provided with horizontal thread output shaft supporting seat between horizontal thread output shaft and the active box, horizontal thread output shaft supporting seat is provided with two and laterally sits axle, each is laterally sat axle and is equipped with horizontal lower gear and gear transversely, two horizontal lower gears all are located on the horizontal thread output shaft, two transversely are provided with a horizontal tooth bar on the gear jointly, the sideslip bar two ends that horizontal tooth bar is provided with are located at respectively on the active box, also are provided with horizontal concrete chute on the described horizontal tooth bar; Vertically motor is provided with the longitudinal screw output shaft, be provided with longitudinal screw output shaft supporting seat between longitudinal screw output shaft and the active box, longitudinal screw output shaft supporting seat is provided with two and vertically sits axle, each vertical seat axle is equipped with vertical lower gear and vertically cogs, two vertical lower gears all are located on the longitudinal screw output shaft, two are provided with a longitudinal rack on vertically cogging jointly, the vertical slide bar two ends that longitudinal rack is provided with are located on the active box respectively, also be provided with vertical chute on the described longitudinal rack, be provided with the trough of belt slide block jointly on described horizontal concrete chute and the vertical chute, take and be provided with transmitting coil at the end that the trough of belt slide block is provided with, trough of belt slide block and the end, are provided with stator between sitting, described transmitting coil is located on the input of active box circuit connecting plate, and cross motor and vertical motor are located at respectively on the output of active box circuit connecting plate.

Described battery charger comprises the storage battery that is equipped with in the fixed bin, the active box circuit connecting plate that is connected with storage battery, and the transmitting coil that is connected with on the active box circuit connecting plate, with the corresponding receiving coil of transmitting coil, receiving coil is located in the chargeable storage.

Described fixed bin is provided with external power supply socket, the power circuit input that external power supply socket track link road connecting plate is provided with.

Described chargeable storage is made of with the DC converting circuit plate and the mobile storage battery that are connected with the receiving coil circuit receiving coil.

Owing to adopt technique scheme, the present invention has following advantage: volume is little, easy to carry, simple to operate, common civil power and solar energy are used mutually, need not any connecting line, as long as the digital electronic goods of required charging directly are placed on the charger can solve the charging problem, be conducive to energy-conserving and environment-protective.

Description of drawings

Fig. 1 is structural representation of the present invention;

Fig. 2 is the solar charger structural representation among the present invention;

Fig. 3 is the battery locating device structural representation among the present invention;

Fig. 4 is transmitting coil among the present invention and the structural representation between the trough of belt slide block;

Fig. 5 is the power circuit diagram among the present invention;

Fig. 6 is the CPU governor circuit figure among the present invention;

Fig. 7 is the charging circuit figure during the chargeable storage wireless charging among the present invention;

Fig. 8 is the motor servo circuit figure among the present invention;

Fig. 9 is the tracking circuit figure among the present invention.

In the drawings, 1, movable axis, 2, fixed bin, 3, active box, 4, solar cell, 5, plugboard, 6, storage battery, 7, circuit board, 8, loam cake, 9, cross motor, 10, vertical motor, 11, the horizontal thread output shaft, 12, horizontal thread output shaft supporting seat, 13, laterally sit axle, 14, horizontal lower gear, 15, gear transversely, 16, horizontal tooth bar, 17, the sideslip bar, 18, horizontal concrete chute, 19, external power supply socket, 20, the longitudinal screw output shaft, 21, longitudinal screw output shaft supporting seat, 22, vertically sit axle, 23, vertical lower gear, 24, vertically cog 25, longitudinal rack, 26, vertical slide bar, 27, vertical chute, 28, the trough of belt slide block, 29, the end, sat, 30, transmitting coil, 31, stator, 32, receiving coil, 33, mobile storage battery, 34, the DC converting circuit plate.

Embodiment

Extremely shown in Figure 9 as Fig. 1, solar energy radio charging device provided by the invention comprises solar charger and chargeable storage, described solar charger is made of fixed bin 2 and active box 3 that movable axis 1 is provided with, described fixed bin 2 tops and active box 3 bottoms respectively are provided with solar cell 4, the solar cell bottom of fixed bin 2 is equipped with plugboard 5 and storage battery 6 successively, and the output of each solar cell connects the input of storage battery 6 by plugboard 5; Be provided with battery locating device, battery charger, active box circuit board 7 and loam cake 8 in the active box 3, be provided with electric connection line between active box 3 circuit boards 7 and fixed bin 2 storage batterys 6, the motor of battery locating device is the output of the control circuit that is provided with of connecting circuit plate 7 respectively, and battery charger is connected the charging circuit output that active box 3 circuit boards 7 are provided with.Described battery locating device comprises cross motor 9 and the vertical motor 10 that is provided with in the active box 3, cross motor 9 is provided with horizontal thread output shaft 11, be provided with horizontal thread output shaft supporting seat 12 between horizontal thread output shaft 11 and the active box 3, horizontal thread output shaft supporting seat 12 is provided with two and laterally sits axle 13, each is laterally sat axle and is equipped with horizontal lower gear 14 and gear 15 transversely, two horizontal lower gears 14 all are located on the horizontal thread output shaft 11, two transversely are provided with a horizontal tooth bar 16 on the gear 15 jointly, sideslip bar 17 two ends that horizontal tooth bar 16 is provided with are located at respectively on the

active box

3, and 16 also are provided with horizontal concrete chute 18 on the described horizontal tooth bar; Vertically motor 10 is provided with longitudinal screw output shaft 20, be provided with longitudinal screw output shaft supporting seat 21 between longitudinal screw output shaft 20 and the active box 3, longitudinal screw output shaft supporting seat 21 is provided with two and vertically sits axle 22, each is vertically sat axle and is equipped with vertical lower gear 23 and vertically cogs 24, two vertical lower gears all are located on the longitudinal screw output shaft 20, two vertically cog and are provided with a longitudinal rack 25 jointly on 24, vertical slide bar 26 two ends that longitudinal rack 25 is provided with are located at respectively on the active box 3, also be provided with vertical chute 27 on the described longitudinal rack 25, be provided with trough of belt slide block 28 jointly on described horizontal concrete chute 18 and the vertical chute 27, sit 29 and be provided with transmitting coil 30 at the end that trough of belt slide block 28 is provided with, trough of belt slide block 28 and the end, are provided with stator 31 between sitting 29, described transmitting coil 30 is located on the input of active box 3 circuit boards 7, and cross motor 9 and vertical motor 10 are located at respectively on the output of active box 3 circuit boards 7.Described battery charger comprises the storage battery 6 that is equipped with in the fixed bin 2, the active box circuit board 7 that is connected with storage battery 6, and the transmitting coil 30 that is connected with on the active box circuit board, with transmitting coil 30 corresponding receiving coils 32, receiving coil 32 is located in the chargeable storage.Described fixed bin 2 is provided with external power supply socket 19, the power circuit input that external power supply socket 19 track link road connecting plates 5 are provided with.Described chargeable storage is made of DC converting circuit plate 34 and the mobile storage battery 33 that receiving coil 32 is connected with circuit.

During concrete the use, as shown in Figure 2, fixed bin 2 among the present invention and active box 3 are opened, make solar cell that fixed bin 2 tops and active box 3 bottoms respectively are provided with towards phototropic face, utilize solar cell 4 to charge, solar cell 4 absorbs and becomes electric energy behind the light again through becoming 5V after the diode rectification filtering on the plugboard 5 or the 12V power supply holds in storage battery 6, provides power supply for the present invention produces high-frequency electrical pulses.If there is not suitable light source, then can charge by the external power supply socket 19 that fixed bin 2 is provided with, extrinsic current becomes 5V after through the diode rectification filtering on the plugboard 5 or the 12V power supply holds in storage battery 6, provides power supply for the present invention produces high-frequency electrical pulses.Power supply is the 5V power supply through the output of 7805 voltage-stabiliser tubes on the plugboard 5 back, the power supply support is provided for main control unit and motor servo power supply, forms electric power main circuit as shown in Figure 5.

During charging, as shown in Figure 1, active box 3 is translated on the fixed bin 2 along movable axis 1, the digital electronic goods of needs charging are placed on the active box 3 again, the mobile storage battery 33 before the charging in the digital electronic goods of needs charging arranges receiving coil 32.When digital electronic goods are placed on the active box 3, because mobile storage battery 33 is provided with receiving coil 32, as shown in Figure 6, control unit adopts the CPU of XMEGA16D4 model to handle to the module LA8044 of horizontal motor 9 and vertical motor 10 servo units through data and sends signal and work order.As Fig. 3, Fig. 8 and shown in Figure 9, amplify and go-on-go through module LA8044, two module C4051A that a part of signal and instruction are passed to tracking cell among Fig. 8 drive micromachines and move about and follow the tracks of the position of mobile storage battery 33 simultaneously, back information after the latched position.The high-frequency pulse voltage signal of the cpu data processing of energy converter process and electromagnetic induction coil generation 100Khz passes to the charhing unit among Fig. 6, and the charhing unit circuit produces electromagnetic induction magnetic field.Mobile storage battery 33 in the outside charging device there is not external line charging.Utilize electromagnetic induction principle sending and receiving terminal sends with corresponding coil and the electric current responded to of accepting to be burdened with charges.Emission has a transmitting coil 30, and accepting has a receiving coil 32, and shunt capacitance on the coil is that the resonance frequency of two coils is identical, and transmitting terminal has pulse-switching circuit.The Pulse Electric of high frequency is added on the transmitting coil 30, can carries out wireless charging.The battery of changing electronic equipment and digital product can realize that a lot of portable terminal devices easily support wireless charging.Close when receiving coil 32, will induce electric current, deliver to mobile storage battery 33 by filter circuit then and charge.

Fig. 5 is power circuit diagram, and the output circuit of power circuit connects the power input of each branch road, and Fig. 6 is CPU governor circuit figure, the feedback signal of main issuing command and each circuit of reception.The A1 of CPU master control among Fig. 6, A2, A3, A4, A5, A6, A7, each output of U2-4-3608 and each node input of Fig. 9 motor servo circuit join, the output U10-6 of Fig. 6 CPU governor circuit, U9-9, U9-10, U9-11, IV, U9-6 is connected with the input of Fig. 8 tracking circuit, Fig. 6 CPU governor circuit receives the signal that Fig. 8 follows the tracks of electricity, Fig. 6 CPU governor circuit is to Fig. 9 motor servo circuit issuing command. and the LA8044 module analysis of Fig. 9 motor servo circuit is handled and is carried out the electrical micro-machine action, reach the tracking purpose, according to the instruction of Fig. 6 CPU governor circuit to charge 30 high-frequency pulse signals of transmitting coil on road of Fig. 7, the output Q301 of Fig. 6 CPU governor circuit, C1, C2, U7-1, C303, IV, U4-8, U2-Q701, U2-4-3608 is connected with the input of Fig. 7 charging circuit, and Fig. 6 CPU governor circuit is according to the power of Fig. 7 charging circuit feedback signal, and control chart 7 charging circuits to charging finishes.

Fig. 7 charging circuit receiving coil 32 is finished the charging to battery through resonance, rectification, filtering.

Claims

1. solar energy radio charging device, comprise solar charger and chargeable storage, it is characterized in that, described solar charger is made of fixed bin and active box that movable axis is provided with, described fixed bin top and active box bottom respectively are provided with solar cell, the solar cell bottom of fixed bin is equipped with plugboard and storage battery successively, and the output of each solar cell connects the input of storage battery by plugboard; Be provided with battery locating device, battery charger, active box circuit board and loam cake in the active box, be provided with electric connection line between active box circuit board and the fixed bin storage battery, the motor of battery locating device connects the output of the control circuit that the active box circuit board is provided with respectively, and battery charger is connected the output that the active box circuit board is provided with charging circuit.

2. solar energy radio charging device according to claim 1, it is characterized in that, described battery locating device comprises cross motor and the vertical motor that is provided with in the active box, cross motor is provided with the horizontal thread output shaft, be provided with horizontal thread output shaft supporting seat between horizontal thread output shaft and the active box, horizontal thread output shaft supporting seat is provided with two and laterally sits axle, each is laterally sat axle and is equipped with horizontal lower gear and gear transversely, two horizontal lower gears all are located on the horizontal thread output shaft, two transversely are provided with a horizontal tooth bar on the gear jointly, the sideslip bar two ends that horizontal tooth bar is provided with are located at respectively on the active box, also are provided with horizontal concrete chute on the described horizontal tooth bar; Vertically motor is provided with the longitudinal screw output shaft, be provided with longitudinal screw output shaft supporting seat between longitudinal screw output shaft and the active box, longitudinal screw output shaft supporting seat is provided with two and vertically sits axle, each vertical seat axle is equipped with vertical lower gear and vertically cogs, two vertical lower gears all are located on the longitudinal screw output shaft, two are provided with a longitudinal rack on vertically cogging jointly, the vertical slide bar two ends that longitudinal rack is provided with are located on the active box respectively, also be provided with vertical chute on the described longitudinal rack, be provided with the trough of belt slide block jointly on described horizontal concrete chute and the vertical chute, take and be provided with transmitting coil at the end that the trough of belt slide block is provided with, trough of belt slide block and the end, are provided with stator between sitting, described transmitting coil is located on the input of active box circuit connecting plate, and cross motor and vertical motor are located at respectively on the output of active box circuit connecting plate.

3. solar energy radio charging device according to claim 1, it is characterized in that, described battery charger comprises the storage battery that is equipped with in the fixed bin, the active box circuit connecting plate that is connected with storage battery, and the transmitting coil that is connected with on the active box circuit connecting plate, with the corresponding receiving coil of transmitting coil, receiving coil is located in the chargeable storage.

4. solar energy radio charging device according to claim 1 is characterized in that, described fixed bin is provided with external power supply socket, the power circuit input that external power supply socket track link road connecting plate is provided with.

5. solar energy radio charging device according to claim 1 is characterized in that, described chargeable storage is made of with the DC converting circuit plate and the mobile storage battery that are connected with the receiving coil circuit receiving coil.