CN203589793U - Wind-light power generating wireless charger - Google Patents
Wind-light power generating wireless charger Download PDFInfo
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- CN203589793U CN203589793U CN201320743543.3U CN201320743543U CN203589793U CN 203589793 U CN203589793 U CN 203589793U CN 201320743543 U CN201320743543 U CN 201320743543U CN 203589793 U CN203589793 U CN 203589793U
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Abstract
The utility model discloses a wind-light power generating wireless charger. The charger comprises a wind power generator, a rectification voltage stabilizing circuit, a solar cell panel, a storage battery charging circuit, a storage battery, a control switch, an oscillation circuit, a transmitting coil, a wireless charging box, a sensing receiving coil, a rectification circuit, a 5v voltage stabilizing circuit, a 12v voltage stabilizing circuit, a 3.3v voltage stabilizing circuit, a 6v voltage stabilizing circuit, a charging control switch, a charging indicating 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 charger achieves a wireless USB charging function in wind-light power generation, and further provides the 5v voltage output interface, the 12v voltage output interface, the 3.3v voltage output interface, and the 6v voltage output interface.
Description
Technical field
The utility model relates to a kind of wind light generation wireless charger.
Background technology
Though have wind light generation at present, be generally used in public illumination, be seldom used on household electricity.
Utility model content
The purpose of this utility model is to provide a kind of wind light generation wireless charger, can address the above problem.
The purpose of this utility model is to be achieved through the following technical solutions:
A kind of wind light generation wireless charger, comprises wind-driven generator, regulator rectifier circuit, solar panel, battery charging circuit, storage battery, control switch, oscillating circuit, transmitting coil, wireless charging box, induction receiving coil, rectification circuit, 5v voltage stabilizing circuit, 12v voltage stabilizing circuit, 3.3v voltage stabilizing circuit, 6v voltage stabilizing circuit, charging control switch, charging indicator light, USB charging inlet, 5v Voltage-output interface, 12v Voltage-output interface, 3.3v Voltage-output interface, 6v Voltage-output interface, described wind-driven generator is fixed on the ventilation of outdoor wind-force abundance, and described solar panel is placed on sunny place, and described regulator rectifier circuit and battery charging circuit are arranged on storage battery outside, described storage battery is fixed on indoor safe place, described control switch, oscillating circuit, transmitting coil is fixed on a circuit board, described induction receiving coil, rectification circuit, 5v voltage stabilizing circuit, 12v voltage stabilizing circuit, 3.3v voltage stabilizing circuit, 6v voltage stabilizing circuit, charging control switch, charging indicator light is successively in fixed wireless charging box, and described USB charging inlet is contained in wireless charging box side.
A nearly step illustrates that two lead-out terminals of described wind-driven generator are electrically connected with two input terminals realizations of regulator rectifier circuit, the both positive and negative polarity of two lead-out terminals of described regulator rectifier circuit is connected with the both positive and negative polarity respective electrical of two input terminals of battery charging circuit respectively, the both positive and negative polarity of two lead-out terminals of described solar panel is electrically connected with the both positive and negative polarity of two input terminals of battery charging circuit respectively, the both positive and negative polarity of two lead-out terminals of described battery charging circuit is connected with the both positive and negative polarity respective electrical of storage battery, the positive pole of described storage battery is electrically connected with control switch one end, the other end of described control switch is connected with the feeder ear anode electricity of oscillating circuit, the other end of the power supply of described oscillating circuit is connected with the negative terminals electricity of storage battery, the positive and negative terminal of the output of described oscillating circuit forms electricity with the positive and negative terminal of the input of transmitting coil respectively and is connected.
The both positive and negative polarity that it should be noted that two lead-out terminals of 5v voltage stabilizing circuit is realized electricity with the both positive and negative polarity of two input terminals of 5v Voltage-output interface respectively and is connected, the both positive and negative polarity of two lead-out terminals of described 12v voltage stabilizing circuit is realized electricity with the both positive and negative polarity of two input terminals of 12v Voltage-output interface respectively and is connected, the both positive and negative polarity of two lead-out terminals of described 3.3v voltage stabilizing circuit is realized electricity with the both positive and negative polarity of two input terminals of 3.3v Voltage-output interface respectively and is connected, the both positive and negative polarity of two lead-out terminals of described 6v voltage stabilizing circuit is realized electricity with the both positive and negative polarity of two input terminals of 6v Voltage-output interface respectively and is connected.
Also it should be noted that oscillating circuit is general inductance of three-point oscillating circuit, frequency of oscillation is 10MH, described battery charging circuit is common electronics charging circuit, the spiral enamel wire coil that described transmitting coil, induction receiving coil are 5H, described 5v voltage stabilizing circuit, 12v voltage stabilizing circuit, 3.3v voltage stabilizing circuit, 6v voltage stabilizing circuit are circuit of three-terminal voltage-stabilizing integrated, described regulator rectifier circuit is common regulator rectifier circuit in electronic circuit, and described rectification circuit is common rectification circuit in electronic circuit.
Two lead-out terminals of described induction receiving coil are connected with two input terminal electricity of rectification circuit, two lead-out terminal positive and negative terminals of described rectification circuit respectively with above-mentioned 5v voltage stabilizing circuit, 12v voltage stabilizing circuit, 3.3v voltage stabilizing circuit, the positive and negative terminal electricity of two inputs of 6v voltage stabilizing circuit is connected, the positive output end of described 5v voltage stabilizing circuit is electrically connected with one end of charging control switch, the other end of described charging control switch is connected with one end of charging indicator light electricity, the positive pole of described USB charging inlet is connected with the other end of charging indicator light electricity electricity, the negative pole of described USB charging inlet is connected with the negative output terminal electricity of 5v voltage stabilizing circuit.
The utility model can be realized the Wireless USB charge function of wind light generation, and 5v, 12v, 3.3v, 6v Voltage-output interface can also be provided, and realizes multiple voltage output.
Accompanying drawing explanation
With reference to the accompanying drawings the utility model is described in further detail below.
Fig. 1 is the electrical block diagram of a kind of wind light generation wireless charger described in the utility model embodiment:
1, wind-driven generator, 2, regulator rectifier circuit, 3, solar panel, 4, battery charging circuit, 5, storage battery, 6, control switch, 7, oscillating circuit, 8, transmitting coil, 9, wireless charging box, 10, induction receiving coil, 11, rectification circuit, 12, 5v voltage stabilizing circuit, 13, 12v voltage stabilizing circuit, 14, 3.3v voltage stabilizing circuit, 15, 6v voltage stabilizing circuit, 16, charging control switch, 17, charging indicator light, 18, USB charging inlet, 19, 5v Voltage-output interface, 20, 12v Voltage-output interface, 21, 3.3v Voltage-output interface, 22, 6v Voltage-output interface
Embodiment
Below in conjunction with drawings and Examples, the utility model is specifically introduced as follows:
A kind of wind light generation wireless charger, comprises wind-driven generator 1, regulator rectifier circuit 2, solar panel 3, battery charging circuit 4, storage battery 5, control switch 6, oscillating circuit 7, transmitting coil 8, wireless charging box 9, induction receiving coil 10, rectification circuit 11, 5v voltage stabilizing circuit 12, 12v voltage stabilizing circuit 13, 3.3v voltage stabilizing circuit 14, 6v voltage stabilizing circuit 15, charging control switch 16, charging indicator light 17, USB charging inlet 18, 5v Voltage-output interface 19, 12v Voltage-output interface 20, 3.3v Voltage-output interface 21, 6v Voltage-output interface 22, wind-driven generator 1 is fixed on the ventilation of outdoor wind-force abundance, and solar panel 3 is placed on sunny place, and regulator rectifier circuit 2 and battery charging circuit 4 are arranged on storage battery 5 outsides, storage battery 5 is fixed on indoor safe place, control switch 5, oscillating circuit 7, transmitting coil 8 is fixed on a circuit board, induction receiving coil 10, rectification circuit 11, 5v voltage stabilizing circuit 12, 12v voltage stabilizing circuit 13, 3.3v voltage stabilizing circuit 14, 6v voltage stabilizing circuit 15, charging control switch 16, charging indicator light 17 is successively in fixed wireless charging box 9, and USB charging inlet 18 is contained in wireless charging box 9 sides.
Two lead-out terminals as a kind of preferred version wind-driven generator 1 are realized and being electrically connected with two input terminals of regulator rectifier circuit 2, the both positive and negative polarity of two lead-out terminals of regulator rectifier circuit 2 is connected with the both positive and negative polarity respective electrical of two input terminals of battery charging circuit 4 respectively, the both positive and negative polarity of two lead-out terminals of solar panel 3 is electrically connected with the both positive and negative polarity of two input terminals of battery charging circuit 4 respectively, the both positive and negative polarity of two lead-out terminals of battery charging circuit 4 is connected with the both positive and negative polarity respective electrical of storage battery 5, the positive pole of storage battery 5 is electrically connected with control switch 6 one end, the other end of control switch 6 is connected with the feeder ear anode electricity of oscillating circuit 7, the other end of the power supply of oscillating circuit 7 is connected with the negative terminals electricity of storage battery 5, the positive and negative terminal of the output of oscillating circuit 7 forms electricity with the positive and negative terminal of the input of transmitting coil 8 respectively and is connected.
As a kind of both positive and negative polarity of two lead-out terminals of preferred version 5v voltage stabilizing circuit 12, realizing electricity respectively with the both positive and negative polarity of two input terminals of 5v Voltage-output interface 19 is connected, the both positive and negative polarity of two lead-out terminals of 12v voltage stabilizing circuit 14 is realized electricity with the both positive and negative polarity of two input terminals of 12v Voltage-output interface 20 respectively and is connected, the both positive and negative polarity of two lead-out terminals of 3.3v voltage stabilizing circuit 14 is realized electricity with the both positive and negative polarity of two input terminals of 3.3v Voltage-output interface 21 respectively and is connected, the both positive and negative polarity of 15 two lead-out terminals of 6v voltage stabilizing circuit is realized electricity with the both positive and negative polarity of two input terminals of 6v Voltage-output interface 22 respectively and is connected.
As a kind of preferred version oscillating circuit 7, it is general inductance of three-point oscillating circuit, frequency of oscillation is 10MH, battery charging circuit 4 is common electronics charging circuit, the spiral enamel wire coil that transmitting coil 8, induction receiving coil 10 are 5H, 5v voltage stabilizing circuit 12,12v voltage stabilizing circuit 13,3.3v voltage stabilizing circuit 14,6v voltage stabilizing circuit 15 are circuit of three-terminal voltage-stabilizing integrated, regulator rectifier circuit 2 is common regulator rectifier circuit in electronic circuit, and rectification circuit 11 is common rectification circuit in electronic circuit.
Two lead-out terminals as a kind of preferred version induction receiving coil 10 are connected with two input terminal electricity of rectification circuit 11, two lead-out terminal positive and negative terminals of rectification circuit 11 respectively with above-mentioned 5v voltage stabilizing circuit 12, 12v voltage stabilizing circuit 13, 3.3v voltage stabilizing circuit 14, the positive and negative terminal electricity of two inputs of 6v voltage stabilizing circuit 15 is connected, the positive output end of 5v voltage stabilizing circuit 12 is electrically connected with one end of charging control switch 16, the other end of charging control switch 16 is connected with one end electricity of charging indicator light 17, the positive pole of USB charging inlet 18 is connected with the other end electricity electricity of charging indicator light 17, the negative pole of USB charging inlet is connected with the negative output terminal electricity of 5v voltage stabilizing circuit 12.
When storage battery 5 electric weight are sufficient, open control switch 6 and can realize Wireless USB charge function, 5v, 12v, 3.3v, 6v Voltage-output interface can also be provided, realize multiple voltage output
Claims (5)
1. a wind light generation wireless charger, is characterized in that, comprising: wind-driven generator, regulator rectifier circuit, solar panel, battery charging circuit, storage battery, control switch, oscillating circuit, transmitting coil, wireless charging box, induction receiving coil, rectification circuit, 5v voltage stabilizing circuit, 12v voltage stabilizing circuit, 3.3v voltage stabilizing circuit, 6v voltage stabilizing circuit, charging control switch, charging indicator light, USB charging inlet, 5v Voltage-output interface, 12v Voltage-output interface, 3.3v Voltage-output interface, 6v Voltage-output interface, described wind-driven generator is fixed on the ventilation of outdoor wind-force abundance, and described solar panel is placed on sunny place, and described regulator rectifier circuit and battery charging circuit are arranged on storage battery outside, described storage battery is fixed on indoor safe place, described control switch, oscillating circuit, transmitting coil is fixed on a circuit board, described induction receiving coil, rectification circuit, 5v voltage stabilizing circuit, 12v voltage stabilizing circuit, 3.3v voltage stabilizing circuit, 6v voltage stabilizing circuit, charging control switch, charging indicator light is successively in fixed wireless charging box, and described USB charging inlet is contained in wireless charging box side.
2. a kind of wind light generation wireless charger as claimed in claim 1, it is characterized in that, two lead-out terminals of described wind-driven generator are realized and being electrically connected with two input terminals of regulator rectifier circuit, the both positive and negative polarity of two lead-out terminals of described regulator rectifier circuit is connected with the both positive and negative polarity respective electrical of two input terminals of battery charging circuit respectively, the both positive and negative polarity of two lead-out terminals of described solar panel is electrically connected with the both positive and negative polarity of two input terminals of battery charging circuit respectively, the both positive and negative polarity of two lead-out terminals of described battery charging circuit is connected with the both positive and negative polarity respective electrical of storage battery, the positive pole of described storage battery is electrically connected with control switch one end, the other end of described control switch is connected with the feeder ear anode electricity of oscillating circuit, the other end of the power supply of described oscillating circuit is connected with the negative terminals electricity of storage battery, the positive and negative terminal of the output of described oscillating circuit forms electricity with the positive and negative terminal of the input of transmitting coil respectively and is connected.
3. a kind of wind light generation wireless charger as claimed in claim 1, it is characterized in that, described oscillating circuit is general inductance of three-point oscillating circuit, frequency of oscillation is 10MH, described battery charging circuit is common electronics charging circuit, described transmitting coil, the spiral enamel wire coil that induction receiving coil is 5H, described 5v voltage stabilizing circuit, 12v voltage stabilizing circuit, 3.3v voltage stabilizing circuit, 6v voltage stabilizing circuit is circuit of three-terminal voltage-stabilizing integrated, described regulator rectifier circuit is common regulator rectifier circuit in electronic circuit, described rectification circuit is common rectification circuit in electronic circuit.
4. a kind of wind light generation wireless charger as claimed in claim 1, it is characterized in that, the both positive and negative polarity of two lead-out terminals of described 5v voltage stabilizing circuit is realized electricity with the both positive and negative polarity of two input terminals of 5v Voltage-output interface respectively and is connected, the both positive and negative polarity of two lead-out terminals of described 12v voltage stabilizing circuit is realized electricity with the both positive and negative polarity of two input terminals of 12v Voltage-output interface respectively and is connected, the both positive and negative polarity of two lead-out terminals of described 3.3v voltage stabilizing circuit is realized electricity with the both positive and negative polarity of two input terminals of 3.3v Voltage-output interface respectively and is connected, the both positive and negative polarity of two lead-out terminals of described 6v voltage stabilizing circuit is realized electricity with the both positive and negative polarity of two input terminals of 6v Voltage-output interface respectively and is connected.
5. a kind of wind light generation wireless charger as claimed in claim 1, it is characterized in that, two lead-out terminals of described induction receiving coil are connected with two input terminal electricity of rectification circuit, two lead-out terminal positive and negative terminals of described rectification circuit respectively with above-mentioned 5v voltage stabilizing circuit, 12v voltage stabilizing circuit, 3.3v voltage stabilizing circuit, the positive and negative terminal electricity of two inputs of 6v voltage stabilizing circuit is connected, the positive output end of described 5v voltage stabilizing circuit is electrically connected with one end of charging control switch, the other end of described charging control switch is connected with one end of charging indicator light electricity, the positive pole of described USB charging inlet is connected with the other end of charging indicator light electricity electricity, the negative pole of described USB charging inlet is connected with the negative output terminal electricity of 5v voltage stabilizing circuit.
Priority Applications (1)
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CN201320743543.3U CN203589793U (en) | 2013-11-20 | 2013-11-20 | Wind-light power generating wireless charger |
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CN201320743543.3U CN203589793U (en) | 2013-11-20 | 2013-11-20 | Wind-light power generating wireless charger |
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CN203589793U true CN203589793U (en) | 2014-05-07 |
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CN201320743543.3U Expired - Fee Related CN203589793U (en) | 2013-11-20 | 2013-11-20 | Wind-light power generating wireless charger |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104659851A (en) * | 2013-11-20 | 2015-05-27 | 南京化工职业技术学院 | Wind-light power generation wireless charger |
CN104682494A (en) * | 2015-02-09 | 2015-06-03 | 成都杰联祺业电子有限责任公司 | Quick wireless solar charging method and device |
CN104753149A (en) * | 2015-03-06 | 2015-07-01 | 苏州工业职业技术学院 | Wind-solar power generation based wireless charging device |
CN107071977A (en) * | 2017-04-21 | 2017-08-18 | 上海电机学院 | A kind of wind and light complementary road lamp of wireless charging |
-
2013
- 2013-11-20 CN CN201320743543.3U patent/CN203589793U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104659851A (en) * | 2013-11-20 | 2015-05-27 | 南京化工职业技术学院 | Wind-light power generation wireless charger |
CN104682494A (en) * | 2015-02-09 | 2015-06-03 | 成都杰联祺业电子有限责任公司 | Quick wireless solar charging method and device |
CN104753149A (en) * | 2015-03-06 | 2015-07-01 | 苏州工业职业技术学院 | Wind-solar power generation based wireless charging device |
CN107071977A (en) * | 2017-04-21 | 2017-08-18 | 上海电机学院 | A kind of wind and light complementary road lamp of wireless charging |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140507 Termination date: 20151120 |
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EXPY | Termination of patent right or utility model |