CN105186988A - Beidou positioning photovoltaic power station formed by connecting water surface floating photovoltaic modules through waterproof ropes - Google Patents
Beidou positioning photovoltaic power station formed by connecting water surface floating photovoltaic modules through waterproof ropes Download PDFInfo
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- CN105186988A CN105186988A CN201510491998.4A CN201510491998A CN105186988A CN 105186988 A CN105186988 A CN 105186988A CN 201510491998 A CN201510491998 A CN 201510491998A CN 105186988 A CN105186988 A CN 105186988A
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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
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
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- Y02A30/14—Extreme weather resilient electric power supply systems, e.g. strengthening power lines or underground power cables
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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
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- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
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Abstract
The invention relates to a Beidou positioning photovoltaic power station formed by connecting water surface floating photovoltaic modules through waterproof ropes, and belongs to the technical field of new energy application. A floating photovoltaic module A and a floating photovoltaic module B inside a floating material framework of a water surface floating photovoltaic power station are connected with each other by a waterproof rope, and the floating photovoltaic module A and the floating photovoltaic module B are connected and fixed to the floating material framework by a waterproof rope. Current generated when the sunlight is irradiated on a solar cell A on the floating photovoltaic module A is input into an electricity cabin of a powered ship through a conductive line and a controller A. Current generated when the sunlight is irradiated on a solar cell B on the floating photovoltaic module B is input into the electricity cabin of the powered ship through a conductive line and a controller B. A temperature sensor inputs temperature change information into an information cabin of the powered ship through an information transmission line. A light intensity sensor inputs light intensity change information into the information cabin of the powered ship through an information transmission line. The information cabin of the powered ship communicates with a Beidou satellite navigation system to make the power station located towards the sun.
Description
Technical field
The present invention relates to the Big Dipper location photovoltaic plant connecting floating on water photovoltaic module formation with waterproof rope, belong to technical field of new energy application.
Background technology
2014, Wuxi Tongchun New Energy Technology Co., Ltd. goes out patent, provides funds to go out technology with state internal buoyancy new material expert, cooperate to trial-produce first piece of floating on water solar photovoltaic electrification component successfully together with material, first floating on the water surface of Grand Canal, Wuxi, generate electricity successfully, this good news obtains the concern of Zhejiang, Jiangsu, Shandong, Shanghai, Guangdong multidigit photovoltaic generation enterpriser.
In June, 2015, Wuxi, Suzhou regarding businesses man and technical specialist hold a conference or consultation in floating on water photovoltaic plant process of construction can run into for which technical barrier, someone proposes the connection between two pieces or polylith solar photovoltaic electrification component will use multiple technologies to provide more solution, someone to leave the water in process floating on floating photovoltaic electric forefront surface rotation direction sometimes, affect solar cell and receive more solar light irradiation towards the sun, impact produces the large magnitude of current.
The inventor of autumn in 2013 and 2014 Nian Qiu Wuxi Tongchun New Energy Technology Co., Ltd. participates in international marine technology and engineering equipment exhibition to Shanghai, exhibition is seen the waterproof rope product of all size that domestic and international waterproof rope manufacturing enterprise produces and the parts for connecting in water body.
Within 2015, China will launch 3 to 4 Beidou navigation satellites of new generation again, to the year two thousand twenty, will build up the global Beidou navigation satellite system by 5 stationary orbits and 30 non-geo satellite networkings.Communication equipment in the Power Vessel information cabin on the Power Vessel of traction floating on water photovoltaic plant and electronic computer can be told in the position of floating on water photovoltaic plant by Beidou navigation satellite system.
Above information shows, the interconnection technique of floating on water photovoltaic module and location technology all can get a promotion.
Summary of the invention
The object of the invention is to overcome deficiency of the prior art, the Big Dipper location photovoltaic plant connecting floating on water photovoltaic module formation with waterproof rope is provided.
In the bottom of the buoyant material framework of floating on water photovoltaic plant, buoyant material first is installed, buoyant material first produces certain for buoyancy in water body, floating photovoltaic module first and floating photovoltaic module second are installed in buoyant material framework, buoyancy material bed of material second are installed in the bottom of floating photovoltaic module first and buoyancy material bed of material second is installed in the bottom of floating photovoltaic module second and can produce certain for buoyancy equally.Plastics or the new material frame of high strength are installed at all around periphery of floating photovoltaic module first and floating photovoltaic module second, plastics or new material frame arrange perforation or stainless steel annulus according to equal suitable distance, for waterproof rope through perforation or stainless steel annulus, tighten up the waterproof rope connected between floating photovoltaic module first and floating photovoltaic module second, in buoyant material framework, the top on edge arranges perforation or stainless steel annulus according to equal suitable distance simultaneously, for waterproof rope through perforation or stainless steel annulus, tighten up the waterproof rope be connected between the interior edge of floating photovoltaic module first and floating photovoltaic module second and buoyant material framework, tighten floating photovoltaic module first, waterproof netting network between floating photovoltaic module second and buoyant material framework three, make floating photovoltaic module first, it is overall that floating photovoltaic module second and buoyant material framework three connect into a buoyancy by waterproof rope, three swims in together on the water surface and moves.
Dynamic ship on the water surface near floating on water photovoltaic plant, Power Vessel is connected with floating on water photovoltaic plant by pull rope, and Power Vessel is provided with Power Vessel electric power storage cabin, is provided with Power Vessel information cabin on Power Vessel electric power storage cabin.The electric current of the solar cell first generation that solar light irradiation is arranged on floating photovoltaic module first surface passes through conductor wire, controller first input power ship electric power storage cabin, the electric current of the solar cell second generation that solar light irradiation is arranged on floating photovoltaic module second surface passes through conductor wire, controller second input power ship electric power storage cabin, temperature information on the floating photovoltaic module first surface of temperature sensor perception is by transmission line of information input power ship information cabin, intensity of illumination change information on the floating photovoltaic module second surface of intensity of illumination sensor senses is by transmission line of information input power ship information cabin, storing information in electronic computer in Power Vessel information cabin, simultaneously by communication equipment interconnective with electronic computer, by the positional information of Power Vessel and floating on water photovoltaic plant, the island positional information that power ship's staff observes, temperature information and intensity of illumination change information all give aerial Beidou satellite navigation system by on-air radio network-reporting.The information of the charge capacity change in Power Vessel electric power storage cabin is at any time by internal information transmission line input power ship information cabin.Position residing on floating on water photovoltaic electric forefront surface is accurately reported to Power Vessel information cabin by Beidou satellite navigation system, Power Vessel information cabin accurately guides the driver Power Vessel in Power Vessel driver's cabin to draw floating on water photovoltaic electric forefront surface moves to solar cell first and solar cell second to accept best angle and the position of solar light irradiation according to the locating information that Beidou satellite navigation system sends, the Temperature numerical of simultaneous temperature sensor senses and the intensity of illumination numerical value of intensity of illumination sensor senses are conducive to producing more substantial electric current after solar cell carries out adjusting, prevent floating on water photovoltaic plant to drift about in the water, moving direction is uncontrollable, have a strong impact on the rough sledding of energy output.
In order to solve the problems of the technologies described above, the present invention is achieved by the following technical solutions:
By floating on water photovoltaic plant 1, buoyant material framework 2, buoyancy material bed of material first 3, floating photovoltaic module first 4, floating photovoltaic module second 5, solar cell first 6, conductor wire 7, controller first 8, temperature sensor 9, transmission line of information 10, solar cell second 11, controller second 12, intensity of illumination transducer 13, buoyancy material bed of material second 14, waterproof rope 15, Power Vessel electric power storage cabin 16, Power Vessel information cabin 17, Power Vessel driver's cabin 18, Beidou satellite navigation system 20, pull rope 21 forms jointly,
The all around periphery of floating on water photovoltaic plant 1 is buoyant material framework 2, buoyancy material bed of material first 3 is installed in the bottom of buoyant material framework 2, floating photovoltaic module first 4 and floating photovoltaic module second 5 is had in the internal arrangement of buoyant material framework 2, solar cell first 6 is installed on the surface on the top of floating photovoltaic module first 4, at front mount controller first 8 and the temperature sensor 9 of solar cell first 6, buoyancy material bed of material second 14 is installed in the bottom of floating photovoltaic module first 4, solar cell second 11 is installed on the surface on the top of floating photovoltaic module second 5, at front mount controller second 12 and the intensity of illumination transducer 13 of solar cell second 11, buoyancy material bed of material second 14 is installed in the bottom of floating photovoltaic module second 5, dynamic ship on the water surface in floating on water photovoltaic plant 1 front, Power Vessel electric power storage cabin 16 is installed at middle part on Power Vessel, Power Vessel information cabin 17 is installed above Power Vessel electric power storage cabin 16, at power forward quarter, Power Vessel driver's cabin 18 is installed, the water surface 22 near floating on water photovoltaic plant 1 there is island 19, Beidou satellite navigation system 20 is had in the air above floating on water photovoltaic plant 1,
The front portion of floating photovoltaic module first 4 is connected with buoyant material framework 2 by waterproof rope 15, the right part of floating photovoltaic module first 4 is connected with buoyant material framework 2 by waterproof rope 15, the rear portion of floating photovoltaic module first 4 is connected with buoyant material framework 2 by waterproof rope 15, the left part of floating photovoltaic module first 4 is connected by the right part of waterproof rope 15 with floating photovoltaic module second 5, the front portion of floating photovoltaic module second 5 is connected with buoyant material framework 2 by waterproof rope 15, the right part of floating photovoltaic module second 5 is connected by the left part of waterproof rope 15 with floating photovoltaic module first 4, the rear portion of floating photovoltaic module second 5 is connected with buoyant material framework 2 by waterproof rope 15, the left part of floating photovoltaic module second 5 is connected with buoyant material framework 2 by waterproof rope 15, solar cell first 6 is connected with controller first 8 by conductor wire 7, controller first 8 is connected with Power Vessel electric power storage cabin 16 by conductor wire 7, temperature sensor 9 is connected with Power Vessel information cabin 17 by transmission line of information 10, solar cell second 11 is connected with controller second 12 by conductor wire 7, controller second 12 is connected with Power Vessel electric power storage cabin 16 by conductor wire 7, intensity of illumination transducer 13 is connected with Power Vessel information cabin 17 by transmission line of information 10, Power Vessel information cabin 17 is connected with Beidou satellite navigation system 20 by on-air radio communication network.
Waterproof rope 15 is fresh water engineering waterproof rope or seawater engineering waterproof rope.
Solar cell first 6 and solar cell second 11 are monocrystaline silicon solar cell or polysilicon solar cell or non-crystal silicon solar cell or copper indium gallium selenium solar cell or gallium arsenide solar cell or cadmium telluride solar cell.
Buoyancy material bed of material first 3 and buoyancy material bed of material second 14 are light sandwich compound material or polyester material or high density polyethylene (HDPE) floating block or plastic hollow floating drum or stainless steel hollow pontoon or cork wood new material buoyancy aid or bamboo matter new material buoyancy aid.
Compared with prior art, the invention has the beneficial effects as follows: 1. use through special processing, the waterproof rope that is adapted at water body or the water surface connect floating body, both solid firm, Portable durable again.2. waterproof rope is durable in use, and service time is long, applied widely.3. Beidou satellite navigation system advanced technology, relies on Beidou satellite navigation system to locate, and can make the multiple electricity of floating on water photovoltaic plant and export the larger magnitude of current, producing better economic benefit and social benefit.
Accompanying drawing explanation
Fig. 1 is structural representation of the present invention.
Embodiment
Be interconnected with waterproof rope between floating photovoltaic module first in the buoyant material framework of floating on water photovoltaic plant and floating photovoltaic module second, and with waterproof rope floating photovoltaic module first and floating photovoltaic module second be connected on buoyant material framework and be fixed.The electric current that in the floating photovoltaic module first of solar light irradiation, solar cell first produces is by conductor wire and controller first input power ship electric power storage cabin, the electric current that in the floating photovoltaic module second of solar light irradiation, solar cell second produces is by conductor wire and controller second input power ship electric power storage cabin, temperature sensor by transmission line of information by temperature information input power ship information cabin, intensity of illumination transducer by transmission line of information by intensity of illumination change information input power ship information cabin, Power Vessel information cabin communicates with Beidou satellite navigation system, control power station to locate towards sunlight.
Embodiment in is by reference to the accompanying drawings further described by the present invention below:
By floating on water photovoltaic plant 1, buoyant material framework 2, buoyancy material bed of material first 3, floating photovoltaic module first 4, floating photovoltaic module second 5, solar cell first 6, conductor wire 7, controller first 8, temperature sensor 9, transmission line of information 10, solar cell second 11, controller second 12, intensity of illumination transducer 13, buoyancy material bed of material second 14, waterproof rope 15, Power Vessel electric power storage cabin 16, Power Vessel information cabin 17, Power Vessel driver's cabin 18, Beidou satellite navigation system 20, pull rope 21 forms jointly,
The all around periphery of floating on water photovoltaic plant 1 is buoyant material framework 2, buoyancy material bed of material first 3 is installed in the bottom of buoyant material framework 2, floating photovoltaic module first 4 and floating photovoltaic module second 5 is had in the internal arrangement of buoyant material framework 2, solar cell first 6 is installed on the surface on the top of floating photovoltaic module first 4, at front mount controller first 8 and the temperature sensor 9 of solar cell first 6, buoyancy material bed of material second 14 is installed in the bottom of floating photovoltaic module first 4, solar cell second 11 is installed on the surface on the top of floating photovoltaic module second 5, at front mount controller second 12 and the intensity of illumination transducer 13 of solar cell second 11, buoyancy material bed of material second 14 is installed in the bottom of floating photovoltaic module second 5, dynamic ship on the water surface in floating on water photovoltaic plant 1 front, Power Vessel electric power storage cabin 16 is installed at middle part on Power Vessel, Power Vessel information cabin 17 is installed above Power Vessel electric power storage cabin 16, at power forward quarter, Power Vessel driver's cabin 18 is installed, the water surface 22 near floating on water photovoltaic plant 1 there is island 19, Beidou satellite navigation system 20 is had in the air above floating on water photovoltaic plant 1,
The front portion of floating photovoltaic module first 4 is connected with buoyant material framework 2 by waterproof rope 15, the right part of floating photovoltaic module first 4 is connected with buoyant material framework 2 by waterproof rope 15, the rear portion of floating photovoltaic module first 4 is connected with buoyant material framework 2 by waterproof rope 15, the left part of floating photovoltaic module first 4 is connected by the right part of waterproof rope 15 with floating photovoltaic module second 5, the front portion of floating photovoltaic module second 5 is connected with buoyant material framework 2 by waterproof rope 15, the right part of floating photovoltaic module second 5 is connected by the left part of waterproof rope 15 with floating photovoltaic module first 4, the rear portion of floating photovoltaic module second 5 is connected with buoyant material framework 2 by waterproof rope 15, the left part of floating photovoltaic module second 5 is connected with buoyant material framework 2 by waterproof rope 15, solar cell first 6 is connected with controller first 8 by conductor wire 7, controller first 8 is connected with Power Vessel electric power storage cabin 16 by conductor wire 7, temperature sensor 9 is connected with Power Vessel information cabin 17 by transmission line of information 10, solar cell second 11 is connected with controller second 12 by conductor wire 7, controller second 12 is connected with Power Vessel electric power storage cabin 16 by conductor wire 7, intensity of illumination transducer 13 is connected with Power Vessel information cabin 17 by transmission line of information 10, Power Vessel information cabin 17 is connected with Beidou satellite navigation system 20 by on-air radio communication network.
Waterproof rope 15 is fresh water engineering waterproof rope or seawater engineering waterproof rope.
Solar cell first 6 and solar cell second 11 are monocrystaline silicon solar cell or polysilicon solar cell or non-crystal silicon solar cell or copper indium gallium selenium solar cell or gallium arsenide solar cell or cadmium telluride solar cell.
Buoyancy material bed of material first 3 and buoyancy material bed of material second 14 are light sandwich compound material or polyester material or high density polyethylene (HDPE) floating block or plastic hollow floating drum or stainless steel hollow pontoon or cork wood new material buoyancy aid or bamboo matter new material buoyancy aid.
In the process of building floating on water photovoltaic plant, first respectively buoyant material framework is manufactured, floating photovoltaic module first and floating photovoltaic module second, and plastics or the new material frame of high strength are installed at all around periphery of floating photovoltaic module first and floating photovoltaic module second, plastics or new material frame arrange perforation or stainless steel annulus according to equal suitable distance, in buoyant material framework, the top on edge arranges perforation or stainless steel annulus according to equal suitable distance simultaneously, buoyant material framework is put in water body, the bottom of buoyant material framework is provided with buoyancy material bed of material first, so buoyant material framework can swim on the water surface, then floating photovoltaic module first is put on the water surface of right part in buoyant material framework, because the bottom of floating photovoltaic module first is provided with buoyancy material bed of material second, so floating photovoltaic module first can swim on the water surface, finally floating photovoltaic module second is put on the water surface of left part in buoyant material framework, because the bottom of floating photovoltaic module second is provided with buoyancy material bed of material second, so floating photovoltaic module second can swim on the water surface.Seawater or fresh water according to the water quality in waters, select seawater engineering waterproof rope or fresh water engineering waterproof rope, technical staff takes work canoe or dresses diving dress and bored a hole or stainless steel annulus through each successively by waterproof rope according to drawing of engineering design, and tighten up waterproof rope, fixed buoyancy material frame and the relative position between floating photovoltaic module first and floating photovoltaic module second.
Dynamic ship on the water surface in floating on water photovoltaic plant front, Power Vessel is provided with Power Vessel electric power storage cabin, Power Vessel information cabin and Power Vessel driver's cabin, Power Vessel is connected with floating on water photovoltaic plant by pull rope, Power Vessel electric power storage cabin is connected with solar cell first and solar cell second respectively by conductor wire, Power Vessel information cabin is connected with temperature sensor and intensity of illumination transducer respectively by transmission line of information, and Power Vessel information cabin is exchanged information by on-air radio communication and Beidou satellite navigation system.
Now enumerate embodiment as follows:
Embodiment one:
Be interconnected with waterproof rope between floating photovoltaic module first in the buoyant material framework of floating on water photovoltaic plant and floating photovoltaic module second, and with waterproof rope floating photovoltaic module first and floating photovoltaic module second be connected on buoyant material framework and be fixed.The electric current that monocrystaline silicon solar cell first in the floating photovoltaic module first of solar light irradiation produces is by conductor wire and controller first input power ship electric power storage cabin, the electric current that monocrystaline silicon solar cell second in the floating photovoltaic module second of solar light irradiation produces is by conductor wire and controller second input power ship electric power storage cabin, temperature sensor by transmission line of information by temperature information input power ship information cabin, intensity of illumination transducer by transmission line of information by intensity of illumination change information input power ship information cabin, Power Vessel information cabin communicates with Beidou satellite navigation system, control power station and locate multiple electricity towards sunlight.
Embodiment two:
Be interconnected with waterproof rope between floating photovoltaic module first in the buoyant material framework of floating on water photovoltaic plant and floating photovoltaic module second, and with waterproof rope floating photovoltaic module first and floating photovoltaic module second be connected on buoyant material framework and be fixed.The electric current that polysilicon solar cell first in the floating photovoltaic module first of solar light irradiation produces is by conductor wire and controller first input power ship electric power storage cabin, the electric current that polysilicon solar cell second in the floating photovoltaic module second of solar light irradiation produces is by conductor wire and controller second input power ship electric power storage cabin, temperature sensor by transmission line of information by temperature information input power ship information cabin, intensity of illumination transducer by transmission line of information by intensity of illumination change information input power ship information cabin, Power Vessel information cabin communicates with Beidou satellite navigation system, control power station and locate multiple electricity towards sunlight.
Claims (4)
1. the Big Dipper location photovoltaic plant of floating on water photovoltaic module formation is connected with waterproof rope, it is characterized in that, by floating on water photovoltaic plant (1), buoyant material framework (2), buoyancy material bed of material first (3), floating photovoltaic module first (4), floating photovoltaic module second (5), solar cell first (6), conductor wire (7), controller first (8), temperature sensor (9), transmission line of information (10), solar cell second (11), controller second (12), intensity of illumination transducer (13), buoyancy material bed of material second (14), waterproof rope (15), Power Vessel electric power storage cabin (16), Power Vessel information cabin (17), Power Vessel driver's cabin (18), Beidou satellite navigation system (20), pull rope (21) forms jointly,
The all around periphery of floating on water photovoltaic plant (1) is buoyant material framework (2), in the bottom of buoyant material framework (2), buoyancy material bed of material first (3) is installed, floating photovoltaic module first (4) and floating photovoltaic module second (5) is had in the internal arrangement of buoyant material framework (2), solar cell first (6) is installed on the surface on the top of floating photovoltaic module first (4), at front mount controller first (8) and the temperature sensor (9) of solar cell first (6), in the bottom of floating photovoltaic module first (4), buoyancy material bed of material second (14) is installed, solar cell second (11) is installed on the surface on the top of floating photovoltaic module second (5), at front mount controller second (12) and the intensity of illumination transducer (13) of solar cell second (11), in the bottom of floating photovoltaic module second (5), buoyancy material bed of material second (14) is installed, dynamic ship on the water surface in floating on water photovoltaic plant (1) front, Power Vessel electric power storage cabin (16) is installed at middle part on Power Vessel, in the top in Power Vessel electric power storage cabin (16), Power Vessel information cabin (17) is installed, at power forward quarter, Power Vessel driver's cabin (18) is installed, the water surface (22) near floating on water photovoltaic plant (1) there is island (19), floating on water photovoltaic plant (1) top have Beidou satellite navigation system (20) in the air,
The front portion of floating photovoltaic module first (4) is connected with buoyant material framework (2) by waterproof rope (15), the right part of floating photovoltaic module first (4) is connected with buoyant material framework (2) by waterproof rope (15), the rear portion of floating photovoltaic module first (4) is connected with buoyant material framework (2) by waterproof rope (15), the left part of floating photovoltaic module first (4) is connected by the right part of waterproof rope (15) with floating photovoltaic module second (5), the front portion of floating photovoltaic module second (5) is connected with buoyant material framework (2) by waterproof rope (15), the right part of floating photovoltaic module second (5) is connected by the left part of waterproof rope (15) with floating photovoltaic module first (4), the rear portion of floating photovoltaic module second (5) is connected with buoyant material framework (2) by waterproof rope (15), the left part of floating photovoltaic module second (5) is connected with buoyant material framework (2) by waterproof rope (15), solar cell first (6) is connected with controller first (8) by conductor wire (7), controller first (8) is connected with Power Vessel electric power storage cabin (16) by conductor wire (7), temperature sensor (9) is connected with Power Vessel information cabin (17) by transmission line of information (10), solar cell second (11) is connected with controller second (12) by conductor wire (7), controller second (12) is connected with Power Vessel electric power storage cabin (16) by conductor wire (7), intensity of illumination transducer (13) is connected with Power Vessel information cabin (17) by transmission line of information (10), Power Vessel information cabin (17) is connected with Beidou satellite navigation system (20) by on-air radio communication network.
2. the Big Dipper location photovoltaic plant connecting floating on water photovoltaic module formation with waterproof rope according to claim 1, it is characterized in that, described waterproof rope (15) is fresh water engineering waterproof rope or seawater engineering waterproof rope.
3. the Big Dipper location photovoltaic plant connecting floating on water photovoltaic module formation with waterproof rope according to claim 1, it is characterized in that, described solar cell first (6) and solar cell second (11) are monocrystaline silicon solar cell or polysilicon solar cell or non-crystal silicon solar cell or copper indium gallium selenium solar cell or gallium arsenide solar cell or cadmium telluride solar cell.
4. the Big Dipper location photovoltaic plant connecting floating on water photovoltaic module formation with waterproof rope according to claim 1, it is characterized in that, described buoyancy material bed of material first (3) and buoyancy material bed of material second (14) are light sandwich compound material or polyester material or high density polyethylene (HDPE) floating block or plastic hollow floating drum or stainless steel hollow pontoon or cork wood new material buoyancy aid or bamboo matter new material buoyancy aid.
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| CN107565894A (en) * | 2016-07-01 | 2018-01-09 | 北京国信优控系统技术有限公司 | The adjustable water surface photovoltaic generating system in azimuth |
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