CN104659851B - Wind-light power generation wireless charger - Google Patents

Abstract

The invention discloses a wind-light power generation wireless charger which comprises a wind driven generator, a rectification voltage stabilization circuit, a solar battery panel, a storage battery charging circuit, a storage battery, a control switch, an oscillating circuit, a transmitting coil, a wireless charging box, an induction receiving coil, a rectification circuit, a 5v voltage stabilization circuit, a 12v voltage stabilization circuit, a 3.3v voltage stabilization circuit, a 6v voltage stabilization circuit, a charging control switch, a charging indication lamp, a USB charging interface, a 5v voltage output interface, a 12v voltage output interface, a 3.3v voltage output interface and a 6v voltage output interface. The wind-light power generation wireless charger realizes a wireless USB charging function of wind-light power generation and can further provide 5v, 12v, 3.3v and 6v voltage output interfaces.

Description

A kind of wind light generation wireless charger

Technical field

The present invention relates to a kind of wind light generation wireless charger.

Background technology

Though having wind light generation at present, public illumination is commonly used in, is seldom used on household electricity.

The content of the invention

It is an object of the invention to provide a kind of wind light generation wireless charger, it is possible to resolve the problems referred to above.

The purpose of the present invention is to be achieved through the following technical solutions：

A kind of wind light generation wireless charger, including wind-driven generator, regulator rectifier circuit, solar panel, electric power storage Pond charging circuit, accumulator, controlling switch, oscillating circuit, transmitting coil, wireless charging box, sensing receiving coil, rectified current Road, 5v mu balanced circuits, 12v mu balanced circuits, 3.3v mu balanced circuits, 6v mu balanced circuits, charging control switch, charging indicator light, USB Charging inlet, 5v voltage output interfaces, 12v voltage output interfaces, 3.3v voltage output interfaces, 6v voltage output interfaces, wind-force Electromotor is fixed on outdoor, and solar panel has been placed at sunlight, and regulator rectifier circuit and battery charging circuit are arranged on Battery outer, accumulator is fixed indoors, and controlling switch, oscillating circuit, transmitting coil are fixed on a circuit board, and sensing connects Take-up circle, rectification circuit, 5v mu balanced circuits, 12v mu balanced circuits, 3.3v mu balanced circuits, 6v mu balanced circuits, charging control switch, Successively in fixed wireless charging box, USB charging inlets are mounted in wireless charging box side, the output of wind-driven generator to charging indicator light Hold and realize electrically connecting with the input of regulator rectifier circuit, the both positive and negative polarity of the outfan of regulator rectifier circuit fills respectively with accumulator The both positive and negative polarity of the input of circuit is accordingly electrically connected, and the both positive and negative polarity of the outfan of solar panel charges respectively with accumulator The both positive and negative polarity electrical connection of the input of circuit, the both positive and negative polarity of the outfan of battery charging circuit is corresponding to the both positive and negative polarity of accumulator Electrical connection, the positive pole of accumulator is electrically connected with controlling switch one end, and the other end of controlling switch is rectified with the power supply of oscillating circuit End is electrically connected, and the negative terminal that oscillating circuit is powered is electrically connected with the negative pole of accumulator, the positive and negative terminal difference of the outfan of oscillating circuit Formed with the positive and negative terminal of the input of transmitting coil and be electrically connected, sense the outfan of receiving coil and the input electricity phase of rectification circuit Even, the outfan positive and negative terminal of rectification circuit respectively with above-mentioned 5v mu balanced circuits, 12v mu balanced circuits, 3.3v mu balanced circuits, 6v voltage stabilizings The positive and negative terminal of the input of circuit is electrically connected, and the positive output end of 5v mu balanced circuits is electrically connected with one end of charging control switch, is filled The other end of electric control switch is electrically connected with one end of charging indicator light, and the positive pole of USB charging inlets is another with charging indicator light One end is electrically connected, and negative pole and the negative output terminal of 5v mu balanced circuits of USB charging inlets are electrically connected, the outfan of 5v mu balanced circuits Positive and negative terminal is realized being electrically connected with the positive and negative terminal of the input of 5v voltage output interfaces respectively, and the outfan of 12v mu balanced circuits is just Negative terminal is realized being electrically connected with the positive and negative terminal of the input of 12v voltage output interfaces respectively, and the outfan of 3.3v mu balanced circuits is just Negative terminal is realized being electrically connected respectively with the positive and negative terminal of the input of 3.3v voltage output interfaces, the outfan of 6v mu balanced circuits it is positive and negative Realize being electrically connected with the positive and negative terminal of the input of 6v voltage output interfaces respectively in end.

As a kind of technical scheme it should be noted that oscillating circuit is inductance of three-point oscillating circuit, oscillating circuit shakes It is 10MHz to swing frequency, and battery charging circuit is the charging circuit in electronic circuit, and transmitting coil, sensing receiving coil are 5H Spiral enamel wire coil, 5v mu balanced circuits, 12v mu balanced circuits, 3.3v mu balanced circuits, 6v mu balanced circuits are three-terminal voltage-stabilizing collection Into circuit, regulator rectifier circuit is the regulator rectifier circuit in electronic circuit, and rectification circuit is the rectification circuit in electronic circuit.

The Wireless USB charge function of the achievable wind light generation of the present invention, moreover it is possible to which 5v, 12v, 3.3v, 6v voltage output is provided Interface, realizes that multiple voltage is exported.

Description of the drawings

The present invention is described in further detail below according to accompanying drawing.

Fig. 1 is a kind of electrical block diagram of the wind light generation wireless charger described in the embodiment of the present invention：

1st, wind-driven generator, 2, regulator rectifier circuit, 3, solar panel, 4, battery charging circuit, 5, accumulator, 6th, controlling switch, 7, oscillating circuit, 8, transmitting coil, 9, wireless charging box, 10, sensing receiving coil, 11, rectification circuit, 12, 5v mu balanced circuits, 13,12v mu balanced circuits, 14,3.3v mu balanced circuits, 15,6v mu balanced circuits, 16, charging control switch, 17, fill Electric display lamp, 18, USB charging inlets, 19,5v voltage output interfaces, 20,12v voltage output interfaces, 21,3.3v voltage outputs Interface, 22,6v voltage output interfaces

Specific embodiment

The present invention is specifically introduced below in conjunction with drawings and Examples as follows：

A kind of wind light generation wireless charger, including wind-driven generator 1, regulator rectifier circuit 2, solar panel 3, storage Battery charger 4, accumulator 5, controlling switch 6, oscillating circuit 7, transmitting coil 8, wireless charging box 9, sensing receiving coil 10th, rectification circuit 11,5v mu balanced circuits 12,12v mu balanced circuits 13,3.3v mu balanced circuits 14,6v mu balanced circuits 15, charge control Switch 16, charging indicator light 17, USB charging inlets 18,5v voltage outputs interface 19,12v voltage outputs interface 20,3.3v voltages Output interface 21,6v voltage outputs interface 22, wind-driven generator 1 is fixed on outdoor, and solar panel 3 has been placed at sunlight, Regulator rectifier circuit 2 and the charging circuit 4 of accumulator 5 are arranged on outside accumulator 5, and accumulator 5 is fixed indoors, controlling switch 6, Oscillating circuit 7, transmitting coil 8 are fixed on a circuit board, sensing receiving coil 10, rectification circuit 11,5v mu balanced circuits 12, 12v mu balanced circuits 13,3.3v mu balanced circuits 14,6v mu balanced circuits 15, charging control switch 16, charging indicator light 17 are fixed successively In wireless charging box 9, USB charging inlets 18 are mounted in the side of wireless charging box 9, the outfan and rectifying and voltage-stabilizing of wind-driven generator 1 The input of circuit 2 realizes electrical connection, the both positive and negative polarity of the outfan of regulator rectifier circuit 2 respectively with the charging circuit 4 of accumulator 5 The both positive and negative polarity of input is accordingly electrically connected, the both positive and negative polarity of the outfan of solar panel 3 respectively with the charging circuit 4 of accumulator 5 Input both positive and negative polarity electrical connection, the both positive and negative polarity of the outfan of the charging circuit 4 of accumulator 5 is corresponding to the both positive and negative polarity of accumulator 5 Electrical connection, the positive pole of accumulator 5 electrically connects with the one end of controlling switch 6, the other end of controlling switch 6 and the power supply of oscillating circuit 7 Proper end is electrically connected, oscillating circuit 7 power supply negative terminal be electrically connected with the negative pole of accumulator 5, the outfan of oscillating circuit 7 it is positive and negative End forms with the positive and negative terminal of the input of transmitting coil 8 be electrically connected respectively, senses the outfan and rectification circuit 11 of receiving coil 10 Input be electrically connected, the outfan positive and negative terminal of rectification circuit 11 respectively with above-mentioned 5v mu balanced circuits 12,12v mu balanced circuits 13, 3.3v mu balanced circuits 14, the positive and negative terminal of the input of 6v mu balanced circuits 15 are electrically connected, the positive output end of 5v mu balanced circuits 12 with fill One end electrical connection of electric control switch 16, the other end and one end of charging indicator light 17 of charging control switch 16 are electrically connected, USB The positive pole of charging inlet 18 is electrically connected with the other end of charging indicator light 17, negative pole and the 5v mu balanced circuits of USB charging inlets 18 Negative output terminal be electrically connected, the positive and negative terminal of the outfan of 5v mu balanced circuits 12 respectively with the input of 5v voltage outputs interface 19 Positive and negative terminal is realized being electrically connected, the positive and negative terminal of the outfan of 12v mu balanced circuits 13 respectively with the input of 12v voltage outputs interface 20 Positive and negative terminal realize be electrically connected, the positive and negative terminal of the outfan of 3.3v mu balanced circuits 14 is defeated with 3.3v voltage outputs interface 21 respectively The positive and negative terminal for entering end is realized being electrically connected, and the positive and negative terminal of the outfan of 6v mu balanced circuits 15 is defeated with 6v voltage outputs interface 22 respectively The positive and negative terminal for entering end is realized being electrically connected.

It is inductance of three-point oscillating circuit as a kind of preferred version oscillating circuit 7, the frequency of oscillation of oscillating circuit is 10MHz, the charging circuit 4 of accumulator 5 is the charging circuit in electronic circuit, transmitting coil 8, sensing receiving coil 10 for 5H spiral shell Rotation enamel wire coil, 5v mu balanced circuits 12,12v mu balanced circuits 13,3.3v mu balanced circuits 14, that 6v mu balanced circuits 15 are three ends is steady Pressure integrated circuit, regulator rectifier circuit 2 is the regulator rectifier circuit in electronic circuit, and rectification circuit 11 is whole in electronic circuit Current circuit.

Controlling switch 6 is opened when the electricity of accumulator 5 is sufficient and is capable of achieving Wireless USB charge function, moreover it is possible to provide 5v, 12v, 3.3v, 6v voltage output interface, realizes that multiple voltage is exported.

Claims (2)

1. a kind of wind light generation wireless charger, it is characterised in that including wind-driven generator, regulator rectifier circuit, solar-electricity Pond plate, battery charging circuit, accumulator, controlling switch, oscillating circuit, transmitting coil, wireless charging box, sensing receive line Circle, rectification circuit, 5v mu balanced circuits, 12v mu balanced circuits, 3.3v mu balanced circuits, 6v mu balanced circuits, charging control switch, charging Display lamp, USB charging inlets, 5v voltage output interfaces, 12v voltage output interfaces, 3.3v voltage output interfaces, 6v voltage outputs Interface, the wind-driven generator is fixed on outdoor, and the solar panel has been placed at sunlight, the regulator rectifier circuit and Battery charging circuit is arranged on battery outer, and the accumulator is fixed indoors, the controlling switch, oscillating circuit, sends out Ray circle is fixed on a circuit board, the sensing receiving coil, rectification circuit, 5v mu balanced circuits, 12v mu balanced circuits, 3.3v Mu balanced circuit, 6v mu balanced circuits, charging control switch, charging indicator light be successively in fixed wireless charging box, the USB chargings Mouth is mounted in wireless charging box side, and the outfan of the wind-driven generator is realized electrically connecting with the input of regulator rectifier circuit, The both positive and negative polarity of the outfan of the regulator rectifier circuit is corresponding to the both positive and negative polarity of the input of battery charging circuit respectively to be electrically connected Connect, the both positive and negative polarity of the outfan of the solar panel is electrically connected respectively with the both positive and negative polarity of the input of battery charging circuit Connect, the both positive and negative polarity of the outfan of the battery charging circuit is corresponding to the both positive and negative polarity of accumulator to be electrically connected, the accumulator Positive pole is electrically connected with controlling switch one end, and the other end of the controlling switch is electrically connected with the feeder ear anode of oscillating circuit, institute State the negative terminal that oscillating circuit powers to be electrically connected with the negative pole of accumulator, the positive and negative terminal of the outfan of the oscillating circuit respectively with send out The positive and negative terminal of the input of ray circle is formed and is electrically connected, the electric phase of the input of outfan and rectification circuit of the sensing receiving coil Even, the outfan positive and negative terminal of the rectification circuit respectively with above-mentioned 5v mu balanced circuits, 12v mu balanced circuits, 3.3v mu balanced circuits, 6v The positive and negative terminal of the input of mu balanced circuit is electrically connected, and the positive output end of the 5v mu balanced circuits is electric with one end of charging control switch Connection, the other end of the charging control switch is electrically connected with one end of charging indicator light, the positive pole of the USB charging inlets and The other end of charging indicator light is electrically connected, and negative pole and the negative output terminal of 5v mu balanced circuits of the USB charging inlets are electrically connected, institute The positive and negative terminal for stating the outfan of 5v mu balanced circuits is realized being electrically connected with the positive and negative terminal of the input of 5v voltage output interfaces respectively, institute The positive and negative terminal for stating the outfan of 12v mu balanced circuits is realized being electrically connected with the positive and negative terminal of the input of 12v voltage output interfaces respectively, The positive and negative terminal of the outfan of the 3.3v mu balanced circuits realizes electricity with the positive and negative terminal of the input of 3.3v voltage output interfaces respectively It is connected, the positive and negative terminal of the outfan of the 6v mu balanced circuits realizes electricity with the positive and negative terminal of the input of 6v voltage output interfaces respectively It is connected.

2. a kind of wind light generation wireless charger as claimed in claim 1, it is characterised in that the oscillating circuit is inductance three Point type oscillating circuit, the frequency of oscillation of the oscillating circuit is 10MHz, and the battery charging circuit is filling in electronic circuit Circuit, the transmitting coil, the spiral enamel wire coil that sensing receiving coil is 5H, the 5v mu balanced circuits, 12v voltage stabilizings electricity Road, 3.3v mu balanced circuits, 6v mu balanced circuits are circuit of three-terminal voltage-stabilizing integrated, and the regulator rectifier circuit is in electronic circuit Regulator rectifier circuit, the rectification circuit is the rectification circuit in electronic circuit.