CN205292999U - LED lighting device's of complementary power supply of area scene unmanned aerial vehicle on water shuts down platform - Google Patents
LED lighting device's of complementary power supply of area scene unmanned aerial vehicle on water shuts down platform Download PDFInfo
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- CN205292999U CN205292999U CN201520930265.1U CN201520930265U CN205292999U CN 205292999 U CN205292999 U CN 205292999U CN 201520930265 U CN201520930265 U CN 201520930265U CN 205292999 U CN205292999 U CN 205292999U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/70—Wind energy
- Y02E10/72—Wind turbines with rotation axis in wind direction
Abstract
The utility model relates to a LED lighting device's of complementary power supply of area scene unmanned aerial vehicle on water shuts down platform belongs to the unmanned aerial vehicle application technique field. Partly city will utilize the surface of water to build unmanned aerial vehicle on water and shut down the platform. At night or cloudy day, unmanned aerial vehicle takes off, descends on unmanned aerial vehicle on water shuts down the platform or when shutting down, needs the LED light to provide the illumination. Install aerogenerator and photovoltaic power generation device on unmanned aerial vehicle on water shuts down the platform simultaneously, current conveyance conductor wire, wind -powered electricity generation controller input that aerogenerator produced converge flow box, and current conveyance conductor wire, photovoltaic controller input that solar cell produced converge flow box, input the aerogenerator 0 storage from converging the current conveyance conductor wire that flow box exported. From current conveyance conductor wire, photosensitive auto -control switch and the power supply of light orientation LED light of energy storage battery output, the LED light illuminates unmanned aerial vehicle on water shuts down platform and airspace on every side.
Description
Technical field
The utility model relates to the aquatic unmanned aerial vehicle of the LED lighting device with wind light mutual complementing power supply and shuts down platform, belongs to unmanned plane applied technical field.
Background technology
Human society has entered in more than 200 year since industrialization, in a large number with coal and oil, generate electricity by fossil energy, in air, give off a large amount of carbon dioxide, sulfur dioxide isothermal chamber gas, cause multiple countries and regions that haze occurs, have a strong impact on the healthy of the mankind, more cause tellurian climate change, cause whole world floods and drought to take place frequently, disaster area grain drop in production, ocean plane rises, and World Meteorological Organization has announced that 2015 for the hottest year in history.
Nearly ten years, the mankind are for not providing clean energy resource electric power to replace fossil energy electric power to have carried out many effort to discharging the wind generating technology of carbon dioxide, sulfur dioxide isothermal chamber gas and photovoltaic power generation technology in air, but the application scale of wind-powered electricity generation and photovoltaic generation is still less than normal so far, improves tellurian ecological environment and air quality and shoulder heavy responsibilities.
In order to develop the economy, the quantity of civilian unmanned plane can increase, and the aircraft gate of unmanned plane also needs to increase. At present, the vehicle parking space of urban has occupied most of public land, and the stop position of unmanned plane need to newly be warded off place.
Utility model content
The purpose of this utility model is to overcome deficiency of the prior art, provides the aquatic unmanned aerial vehicle of the LED lighting device with wind light mutual complementing power supply to shut down platform.
Part city has area number mu or tens of mu or the even water surface of thousands of mu of hundreds of mus, can utilize water surface buoyant material to build aquatic unmanned aerial vehicle and shut down platform. EPS buoyant foam is filled in inside at PE plastics buoyancy tank, on PE plastics buoyancy tank, PIN core is installed, Wood-plastic foam plate is installed on PIN core, buoyant material PE plastics buoyancy tank, the density of PIN core and Wood-plastic foam plate is all less than 1, the buoyancy producing in water body can carry aquatic unmanned aerial vehicle shuts down platform, lighting device on platform, wind-driven generator, wind-powered electricity generation controller, photovoltaic power generation apparatus, photovoltaic controller, wind light mutual complementing electric supply installation, header box, conductor wire, energy-storage battery, remote control navigation controller, the total weight of electricpropulsion installation and unmanned plane. outside the side of buoyant material PE plastics buoyancy tank, PIN core and Wood-plastic foam plate and outside bottom surface, protective layer is installed, protective layer is glass fibre protective layer or stainless sheet steel protective layer or galvanized iron sheet protective layer or waterproof rope braiding mesh bag protective layer, the existing protective effect of protective layer, has again fixation.
On PE plastics buoyancy tank, PIN core is installed, the object that Wood-plastic foam plate is installed on PIN core is the ultraviolet direct irradiation PE plastics buoyancy tank of keeping off the sunshine in light by PIN core and Wood-plastic foam plate resistance, and ultraviolet ray can affect the service life of PE plastics buoyancy tank. PIN core and Wood-plastic foam plate are installed on PE plastics buoyancy tank, service life that can significant prolongation PE plastics buoyancy tank. PIN core has that density is little, buoyancy is large, and anti-ultraviolet property is better, and electrical insulating property is good, and matter is firmly shock-resistant, acid and alkali-resistance, resistance to oxidation, cold-hot, and odorless, nontoxic, can not pollute water body, is applicable to processing, and exceed 25 years the service life in water body. Jiangsu wuxi is applied to PIN core in the manufacture of benthoscope ' flood dragon number ', shows good performance. Wood-plastic foam plate is a kind of environment-friendly materials; there are strong, firm, steady three large advantages; there is Anti-moth-eating, termite-proof, waterproof, protection against the tide, every thermal property; have and can saw, dig, follow closely the good mechanical performance of processing; product is not containing harmful substances such as methyl alcohol, ammonia, benzene; can circular regeneration, anti-ultraviolet property is better, is suitably used as aquatic unmanned aerial vehicle and shuts down the superficial layer of platform.
On the water unmanned plane shut down platform middle part illuminating lamp holder and wind light mutual complementing electric supply installation be installed above; LED illuminating lamp is installed on illuminating lamp holder; wind light mutual complementing power supply platform is installed on the right side of illuminating lamp holder; header box and energy-storage battery are installed in bottom at wind light mutual complementing power supply platform; header box is positioned at the top of energy-storage battery, on the top of wind light mutual complementing power supply platform, wind-driven generator, wind-powered electricity generation pillar, wind-powered electricity generation controller, solar cell, photovoltaic pillar and photovoltaic controller is installed. Wind blows blade rotary, drive wind-driven generator generation current, the electric current that wind-driven generator produces is by conductor wire and wind-powered electricity generation controller input header box, the electric current that solar light irradiation solar cell produces is by conductor wire and photovoltaic controller input header box, after wind-powered electricity generation electric current and photovoltaic electric current converge in header box, by conductor wire input energy-storage battery store
From one electric current of energy-storage battery output, by the LED illuminating lamp conductor wire, photosensitive autocontrol switch input illuminating lamp holder, in LED illuminating lamp, electric energy converts luminous energy to, and LED illuminating lamp illuminates aquatic unmanned aerial vehicle shuts down the surface of platform and spatial domain around. Input remote control navigation controller and electricpropulsion installation from another strand of electric current of energy-storage battery output by conductor wire, thrust power is provided, the telecommand that wireless antenna reception UAV Communication device on remote control navigation controller top or the communicator of water management organization are on the bank sent by radio wave, controls electricpropulsion installation. What unmanned plane was shut down platform front portion on the water has parked above unmanned plane, in the front portion of unmanned plane, UAV Communication device is installed.
In order to solve the problems of the technologies described above, the utility model is achieved through the following technical solutions:
By EPS buoyant foam 2, PE plastics buoyancy tank 3, PIN core 4, Wood-plastic foam plate 5, protective layer 6, unmanned plane 7, UAV Communication device 8, illuminating lamp holder 9, LED illuminating lamp 10, photosensitive autocontrol switch 11, wind light mutual complementing electric supply installation 12, photovoltaic controller 13, wind-powered electricity generation controller 14, header box 15, solar cell 16, wind-driven generator 17, conductor wire 18, energy-storage battery 19, remote control navigation controller 20, the aquatic unmanned aerial vehicle of the LED lighting device of electricpropulsion installation 21 compositions with wind light mutual complementing power supply is shut down platform,
Floating on the water surface 22 have aquatic unmanned aerial vehicle to shut down platform 1, the bottom that aquatic unmanned aerial vehicle is shut down platform 1 is floatage body, floatage body comprises: EPS buoyant foam 2, PE plastics buoyancy tank 3, PIN core 4, Wood-plastic foam plate 5, protective layer 6, EPS buoyant foam 2 is filled in inside at PE plastics buoyancy tank 3, on PE plastics buoyancy tank 3, PIN core 4 is installed, Wood-plastic foam plate 5 is installed on PIN core 4, at PE plastics buoyancy tank 3, outside outside the side of PIN core 4 and Wood-plastic foam plate 5 and bottom surface, protective layer 6 is installed and is formed floatage body, above the middle part of unmanned plane shutdown platform 1, illuminating lamp holder 9 and wind light mutual complementing electric supply installation 12 are installed on the water, LED illuminating lamp 10 is installed on illuminating lamp holder 9, wind light mutual complementing electric supply installation 12 is installed on right side at illuminating lamp holder 9, header box 15 and energy-storage battery 19 are installed in the bottom of wind light mutual complementing electric supply installation 12, header box 15 is arranged on the top of energy-storage battery 19, top at wind light mutual complementing electric supply installation 12 is provided with: photovoltaic controller 13, photovoltaic pillar, solar cell 16, wind-powered electricity generation controller 14, wind-powered electricity generation pillar, wind-driven generator 17, wherein, wind-driven generator 17 is installed at top at the wind-powered electricity generation pillar of left side, wind-powered electricity generation controller 14 is installed on the side of wind-powered electricity generation pillar, solar cell 16 is installed at top at the photovoltaic pillar of right-hand part, photovoltaic controller 13 is installed on the side of photovoltaic pillar, on the water unmanned plane shut down platform 1 rear portion remote control navigation controller 20 and electricpropulsion installation 21 be installed above, unmanned plane 7 is parked in the front portion of unmanned plane shutdown platform 1 on the water, UAV Communication device 8 is installed in front portion at unmanned plane 7,
Wind-driven generator 17 is connected with wind-powered electricity generation controller 14 by conductor wire 18, wind-powered electricity generation controller 14 is connected with header box 15 by conductor wire 18, solar cell 16 is connected with photovoltaic controller 13 by conductor wire 18, photovoltaic controller 13 is connected with header box 15 by conductor wire 18, header box 15 is connected with energy-storage battery 19 by conductor wire 18, energy-storage battery 19 is connected with photosensitive autocontrol switch 11 by conductor wire 18, photosensitive autocontrol switch 11 is connected with the LED illuminating lamp 10 on illuminating lamp holder 9 by conductor wire 18, energy-storage battery 19 is connected with remote control navigation controller 20 by conductor wire 18, remote control navigation controller 20 is connected with electricpropulsion installation 21 by conductor wire 18, the wireless antenna at remote control navigation controller 20 tops is interconnected by the communicator of the UAV Communication device 8 on radio wave and unmanned plane 7 and water management organization on the bank.
Wind-driven generator 17 is horizontal axial type wind-driven generator or perpendicular axis type wind-driven generator.
Solar cell 16 is polysilicon solar cell or monocrystaline silicon solar cell or amorphous silicon thin-film solar cell or compound solar cell.
Compared with prior art, the beneficial effects of the utility model are: the clean energy resource electric power 1. providing with wind-power electricity generation and solar energy power generating comes, to the power supply of LED illuminating lamp, to be conducive to preserve the ecological environment, for mitigation of climate change gives a favor. 2. LED illuminating lamp is power-saving, brightness is high, than incandescent lamp power saving 70%, saves the energy. 3. the circuit to LED illuminating lamp power supply with photosensitive autocontrol switch control, daytime shut-off circuit, store electrical energy, night or cloudy photosensitive autocontrol switch just start to power after automatically opening circuit, can save electricity consumption.
Brief description of the drawings
Fig. 1 is structural representation of the present utility model.
Detailed description of the invention
Part city will utilize the water surface to build aquatic unmanned aerial vehicle and shut down platform. At night or cloudy day, unmanned plane on the water unmanned plane is shut down when taking off, land or shut down on platform, needs LED illuminating lamp that illumination is provided. Unmanned plane is shut down on platform wind-driven generator and photovoltaic power generation apparatus is installed simultaneously on the water; the electric current that wind-driven generator produces is by conductor wire, wind-powered electricity generation controller input header box; the electric current that solar cell produces, by conductor wire, photovoltaic controller input header box, is inputted energy-storage battery from the electric current of header box output by conductor wire and is stored. Power to LED illuminating lamp by conductor wire, photosensitive autocontrol switch and illuminating lamp holder from the electric current of energy-storage battery output, LED illuminating lamp illuminates aquatic unmanned aerial vehicle shuts down platform and spatial domain around.
The utility model is further described in connection with the embodiment in accompanying drawing below:
By EPS buoyant foam 2, PE plastics buoyancy tank 3, PIN core 4, Wood-plastic foam plate 5, protective layer 6, unmanned plane 7, UAV Communication device 8, illuminating lamp holder 9, LED illuminating lamp 10, photosensitive autocontrol switch 11, wind light mutual complementing electric supply installation 12, photovoltaic controller 13, wind-powered electricity generation controller 14, header box 15, solar cell 16, wind-driven generator 17, conductor wire 18, energy-storage battery 19, remote control navigation controller 20, the aquatic unmanned aerial vehicle of the LED lighting device of electricpropulsion installation 21 compositions with wind light mutual complementing power supply is shut down platform,
Floating on the water surface 22 have aquatic unmanned aerial vehicle to shut down platform 1, the bottom that aquatic unmanned aerial vehicle is shut down platform 1 is floatage body, floatage body comprises: EPS buoyant foam 2, PE plastics buoyancy tank 3, PIN core 4, Wood-plastic foam plate 5, protective layer 6, EPS buoyant foam 2 is filled in inside at PE plastics buoyancy tank 3, on PE plastics buoyancy tank 3, PIN core 4 is installed, Wood-plastic foam plate 5 is installed on PIN core 4, at PE plastics buoyancy tank 3, outside outside the side of PIN core 4 and Wood-plastic foam plate 5 and bottom surface, protective layer 6 is installed and is formed floatage body, above the middle part of unmanned plane shutdown platform 1, illuminating lamp holder 9 and wind light mutual complementing electric supply installation 12 are installed on the water, LED illuminating lamp 10 is installed on illuminating lamp holder 9, wind light mutual complementing electric supply installation 12 is installed on right side at illuminating lamp holder 9, header box 15 and energy-storage battery 19 are installed in the bottom of wind light mutual complementing electric supply installation 12, header box 15 is arranged on the top of energy-storage battery 19, top at wind light mutual complementing electric supply installation 12 is provided with: photovoltaic controller 13, photovoltaic pillar, solar cell 16, wind-powered electricity generation controller 14, wind-powered electricity generation pillar, wind-driven generator 17, wherein, wind-driven generator 17 is installed at top at the wind-powered electricity generation pillar of left side, wind-powered electricity generation controller 14 is installed on the side of wind-powered electricity generation pillar, solar cell 16 is installed at top at the photovoltaic pillar of right-hand part, photovoltaic controller 13 is installed on the side of photovoltaic pillar, on the water unmanned plane shut down platform 1 rear portion remote control navigation controller 20 and electricpropulsion installation 21 be installed above, unmanned plane 7 is parked in the front portion of unmanned plane shutdown platform 1 on the water, UAV Communication device 8 is installed in front portion at unmanned plane 7,
Wind-driven generator 17 is connected with wind-powered electricity generation controller 14 by conductor wire 18, wind-powered electricity generation controller 14 is connected with header box 15 by conductor wire 18, solar cell 16 is connected with photovoltaic controller 13 by conductor wire 18, photovoltaic controller 13 is connected with header box 15 by conductor wire 18, header box 15 is connected with energy-storage battery 19 by conductor wire 18, energy-storage battery 19 is connected with photosensitive autocontrol switch 11 by conductor wire 18, photosensitive autocontrol switch 11 is connected with the LED illuminating lamp 10 on illuminating lamp holder 9 by conductor wire 18, energy-storage battery 19 is connected with remote control navigation controller 20 by conductor wire 18, remote control navigation controller 20 is connected with electricpropulsion installation 21 by conductor wire 18, the wireless antenna at remote control navigation controller 20 tops is interconnected by the communicator of the UAV Communication device 8 on radio wave and unmanned plane 7 and water management organization on the bank.
Wind-driven generator 17 is horizontal axial type wind-driven generator or perpendicular axis type wind-driven generator.
Solar cell 16 is polysilicon solar cell or monocrystaline silicon solar cell or amorphous silicon thin-film solar cell or compound solar cell.
Unmanned plane is shut down in the bottom of platform and is built floatage body with buoyant material on the water, outside the side of PE plastics buoyancy tank, PIN core and Wood-plastic foam plate in floatage body and outside bottom surface, protective layer is installed. buoyancy that floatage body produces in water body carrying aquatic unmanned aerial vehicle is shut down the total weight of illuminating lamp holder on platform and platform, wind light mutual complementing electric supply installation, photovoltaic controller, wind-powered electricity generation controller, header box, solar cell, wind-driven generator, conductor wire, energy-storage battery, remote control navigation controller, electricpropulsion installation and unmanned plane. wind blows blade rotary, the electric current that drives wind-driven generator to produce passes through conductor wire, wind-powered electricity generation controller input header box, the electric current that solar light irradiation solar cell produces passes through conductor wire, photovoltaic controller input header box, after the electric current that the electric current that wind-power electricity generation produces and photovoltaic generation produce converges in header box, inputting energy-storage battery by conductor wire stores, pass through conductor wire from one electric current of energy-storage battery output, LED illuminating lamp on photosensitive autocontrol switch input illuminating lamp holder, in LED illuminating lamp, electric energy converts luminous energy to, LED illuminating lamp illuminates aquatic unmanned aerial vehicle shuts down platform and spatial domain around, photosensitive autocontrol switch shut-off circuit on daytime, open circuit night, both saved the energy, guarantee again power supply. input remote control navigation controller and electricpropulsion installation from another strand of electric current of energy-storage battery output by conductor wire, be provided for advancing aquatic unmanned aerial vehicle to shut down the power of platform navigation, the wireless antenna at remote control navigation controller top is interconnected by the communicator of radio wave and UAV Communication device and water management organization on the bank, the telecommand that reception is sent, navigates by water controller by remote control and controls the propelling of electricpropulsion installation. the energy that need use when the green energy resource supply LED illuminating lamp providing with wind-power electricity generation and solar energy power generating is realized illumination, make LED illuminating lamp night or cloudy day illuminate aquatic unmanned aerial vehicle shut down platform and around spatial domain, ensure the unmanned plane safety of taking off, landing and shutting down.
Now enumerate embodiment as follows:
Embodiment mono-:
Part city will utilize the water surface to build aquatic unmanned aerial vehicle and shut down platform. At night or cloudy day, unmanned plane on the water unmanned plane is shut down when taking off, land or shut down on platform, and the energy-conservation LED illuminating lamp of needs provide illumination. Unmanned plane is shut down on platform horizontal axial type wind-driven generator and photovoltaic power generation apparatus is installed simultaneously on the water; the electric current that wind blows blade rotary, drive horizontal axial type wind-driven generator produce is by conductor wire, wind-powered electricity generation controller input header box; the electric current that solar light irradiation monocrystaline silicon solar cell produces, by conductor wire, photovoltaic controller input header box, is inputted energy-storage battery from the electric current of header box output by conductor wire and is stored. Power to LED illuminating lamp by conductor wire, photosensitive autocontrol switch and illuminating lamp holder from the electric current of energy-storage battery output, in LED illuminating lamp, electric energy converts luminous energy to, illuminates aquatic unmanned aerial vehicle and shuts down platform and spatial domain around.
Embodiment bis-:
Part city will utilize the water surface to build aquatic unmanned aerial vehicle and shut down platform. At night or cloudy day, unmanned plane on the water unmanned plane is shut down when taking off, land or shut down on platform, and the energy-conservation LED illuminating lamp of needs provide illumination. Unmanned plane is shut down on platform perpendicular axis type wind-driven generator and photovoltaic power generation apparatus is installed simultaneously on the water; the electric current that wind blows blade rotary, drive perpendicular axis type wind-driven generator produce is by conductor wire, wind-powered electricity generation controller input header box; the electric current that solar light irradiation polysilicon solar cell produces, by conductor wire, photovoltaic controller input header box, is inputted energy-storage battery from the electric current of header box output by conductor wire and is stored. Power to LED illuminating lamp by conductor wire, photosensitive autocontrol switch and illuminating lamp holder from the electric current of energy-storage battery output, in LED illuminating lamp, electric energy converts luminous energy to, illuminates aquatic unmanned aerial vehicle and shuts down platform and spatial domain around.
Claims (3)
1. the aquatic unmanned aerial vehicle of the LED lighting device with wind light mutual complementing power supply is shut down platform, it is characterized in that, by EPS buoyant foam (2), PE plastics buoyancy tank (3), PIN core (4), Wood-plastic foam plate (5), protective layer (6), unmanned plane (7), UAV Communication device (8), illuminating lamp holder (9), LED illuminating lamp (10), photosensitive autocontrol switch (11), wind light mutual complementing electric supply installation (12), photovoltaic controller (13), wind-powered electricity generation controller (14), header box (15), solar cell (16), wind-driven generator (17), conductor wire (18), energy-storage battery (19), remote control navigation controller (20), the aquatic unmanned aerial vehicle of the LED lighting device of electricpropulsion installation (21) composition with wind light mutual complementing power supply is shut down platform,
At the upper floating aquatic unmanned aerial vehicle shutdown platform (1) that has of the water surface (22), the bottom that aquatic unmanned aerial vehicle is shut down platform (1) is floatage body, floatage body comprises: EPS buoyant foam (2), PE plastics buoyancy tank (3), PIN core (4), Wood-plastic foam plate (5), protective layer (6), EPS buoyant foam (2) is filled in inside at PE plastics buoyancy tank (3), PIN core (4) is installed on PE plastics buoyancy tank (3), Wood-plastic foam plate (5) is installed on PIN core (4), at PE plastics buoyancy tank (3), protective layer (6) composition floatage body is installed outside outside the side of PIN core (4) and Wood-plastic foam plate (5) and bottom surface, above the middle part of unmanned plane shutdown platform (1), illuminating lamp holder (9) and wind light mutual complementing electric supply installation (12) are installed on the water, at the upper LED illuminating lamp (10) of installing of illuminating lamp holder (9), wind light mutual complementing electric supply installation (12) is installed on right side at illuminating lamp holder (9), header box (15) and energy-storage battery (19) are installed in the bottom of wind light mutual complementing electric supply installation (12), header box (15) is arranged on the top of energy-storage battery (19), top at wind light mutual complementing electric supply installation (12) is provided with: photovoltaic controller (13), photovoltaic pillar, solar cell (16), wind-powered electricity generation controller (14), wind-powered electricity generation pillar, wind-driven generator (17), wherein, wind-driven generator (17) is installed at top at the wind-powered electricity generation pillar of left side, wind-powered electricity generation controller (14) is installed on the side of wind-powered electricity generation pillar, solar cell (16) is installed at top at the photovoltaic pillar of right-hand part, photovoltaic controller (13) is installed on the side of photovoltaic pillar, on the water unmanned plane shut down platform (1) rear portion remote control navigation controller (20) and electricpropulsion installation (21) be installed above, unmanned plane (7) is parked in the front portion of unmanned plane shutdown platform (1) on the water, UAV Communication device (8) is installed in front portion at unmanned plane (7),
Wind-driven generator (17) is connected with wind-powered electricity generation controller (14) by conductor wire (18), wind-powered electricity generation controller (14) is connected with header box (15) by conductor wire (18), solar cell (16) is connected with photovoltaic controller (13) by conductor wire (18), photovoltaic controller (13) is connected with header box (15) by conductor wire (18), header box (15) is connected with energy-storage battery (19) by conductor wire (18), energy-storage battery (19) is connected with photosensitive autocontrol switch (11) by conductor wire (18), photosensitive autocontrol switch (11) is connected with the LED illuminating lamp (10) on illuminating lamp holder (9) by conductor wire (18), energy-storage battery (19) is connected with remote control navigation controller (20) by conductor wire (18), remote control navigation controller (20) is connected with electricpropulsion installation (21) by conductor wire (18), the wireless antenna at remote control navigation controller (20) top is interconnected by the communicator of the UAV Communication device (8) on radio wave and unmanned plane (7) and water management organization on the bank.
2. the aquatic unmanned aerial vehicle of the LED lighting device with wind light mutual complementing power supply according to claim 1 is shut down platform, it is characterized in that, described wind-driven generator (17) is horizontal axial type wind-driven generator or perpendicular axis type wind-driven generator.
3. the aquatic unmanned aerial vehicle of the LED lighting device with wind light mutual complementing power supply according to claim 1 is shut down platform; it is characterized in that, described solar cell (16) is polysilicon solar cell or monocrystaline silicon solar cell or amorphous silicon thin-film solar cell or compound solar cell.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105292393A (en) * | 2015-11-22 | 2016-02-03 | 无锡同春新能源科技有限公司 | Above-water unmanned aerial vehicle parking platform with wind-solar complementary powered LED illuminating device |
CN106314702A (en) * | 2016-09-08 | 2017-01-11 | 无锡同春新能源科技有限公司 | Water charging pile supplying power to electric unmanned aerial vehicle on water parking platform |
CN107499528A (en) * | 2017-08-18 | 2017-12-22 | 陈建福 | A kind of unmanned plane water surface parking device |
-
2015
- 2015-11-22 CN CN201520930265.1U patent/CN205292999U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105292393A (en) * | 2015-11-22 | 2016-02-03 | 无锡同春新能源科技有限公司 | Above-water unmanned aerial vehicle parking platform with wind-solar complementary powered LED illuminating device |
CN106314702A (en) * | 2016-09-08 | 2017-01-11 | 无锡同春新能源科技有限公司 | Water charging pile supplying power to electric unmanned aerial vehicle on water parking platform |
CN107499528A (en) * | 2017-08-18 | 2017-12-22 | 陈建福 | A kind of unmanned plane water surface parking device |
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