CN109911133A - Waterborne float can store film photovoltaic power station - Google Patents
Waterborne float can store film photovoltaic power station Download PDFInfo
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- CN109911133A CN109911133A CN201910161260.XA CN201910161260A CN109911133A CN 109911133 A CN109911133 A CN 109911133A CN 201910161260 A CN201910161260 A CN 201910161260A CN 109911133 A CN109911133 A CN 109911133A
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- film photovoltaic
- power station
- electrification component
- floating blanket
- photovoltaic power
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Abstract
The invention discloses a kind of waterborne float can store film photovoltaic power station, including several floating blanket film photovoltaic power generation module groups, power generation module group includes several floating blanket film photovoltaic electrification components, electrification component includes film photovoltaic electrification component ontology and the floating blanket that foams, it foams and floats depressed area low in the middle part of the upper surface formation surrounding height of blanket, film photovoltaic electrification component ontology is fixed in depressed area.The power station further includes storage device, and storage device is installed on the quarter, and is connect with overall structure, for pulling and storing each floating blanket film photovoltaic electrification component.Floating blanket film photovoltaic electrification component can be received on ship when needed by storage device, to avoiding being subjected to impact destruction due to that can not store when encountering bad weather condition, or when by navigation channel restricted area it is impassable due to that can not store.Simultaneously as can store, will not lead to the problem of because power station is excessive can not be by navigation channel restricted area, therefore power station can also be extended with large area.
Description
Technical field
The present invention relates to photovoltaic power generation technologies, more particularly to a kind of waterborne float can store film photovoltaic power station.
Background technique
In field of photovoltaic power generation, crystal silicon component is widely used, either land power station or it is waterborne float
Formula power station.Water floating toy floating photovoltaic plant is that photovoltaic module is swum in the water surface using base station waterborne to generate electricity.Feature exists
In being not take up land resource, water body has cooling effect to photovoltaic module, and assembly surface temperature can be inhibited to rise, to obtain more
High generated energy.Mainly using pond sugar, lake and reservoir, sewage treatment plant pond, the sea in coastal waters etc., to be incited somebody to action by submerged cable
Power Transmission is converted into the direct current of land exchanging, boost, control and protection, the power system devices such as grid-connected to land
Connection is established, therefore is substantially fixed power station.
70% surface area is ocean on the earth, and a large amount of ship navigates by water on ocean, and floatation type photovoltaic is sent out on ocean
Electricity can such as go with ship, become mobile power station, and electric power can be not only provided for ship, and extra electric power can be also the electric power storage on ship
The charging of pond group, after ship pulls in shore, battery group, which can be transferred to land, becomes the energy of electric car.
There is navigation channel restricted area (such as busy thoroughfare of harbour, harbour, maritime traffic), is drifting afloat light with ship
It should give storage in volt power station.In addition, heaving sea wave is big, and under severe meteorological condition, floatation type photovoltaic power generation apparatus
Also it should give storage.However, existing floatation type photovoltaic power generation apparatus can not be stored, there is navigation channel restricted area to be difficult to pass through,
Therefore, it is difficult to enlargements.In addition, when at sea meteorological condition is severe, stormy waves is larger, existing floatation type photovoltaic power generation apparatus by
Impact failure is vulnerable in that can not store.
Summary of the invention
Present invention is primarily aimed at film photovoltaic power station can be stored by providing waterborne float of one kind, to solve existing drift
The problem of floating photovoltaic power generation apparatus can not be stored.
The present invention is achieved through the following technical solutions:
Waterborne float of one kind can store film photovoltaic power station, including several floating blanket film photovoltaic power generation module groups, described
Floating blanket film photovoltaic power generation module group includes several floating blanket film photovoltaic electrification components, the floating blanket film photovoltaic generating set
Part includes film photovoltaic electrification component ontology and the floating blanket that foams, and the upper surface for foaming floating blanket forms low recessed in the high middle part of surrounding
Area is fallen into, the film photovoltaic electrification component ontology is fixed in the depressed area;
Each floating blanket film photovoltaic power generation module group is connected with each other, and each floating blanket film photovoltaic electrification component passes through connecting cable
It is electrically connected to each other, and is connected on tail pipe by connecting rope and forms overall structure;
It is described it is waterborne float that can to store film photovoltaic power station further include storage device, the storage device is mounted on ship
Tail, and connect with the overall structure, for pulling and storing each floating blanket film photovoltaic electrification component.
Further, the storage device includes cantilever crane I-steel sliding rail, electric block, grapple suspender and connecting tube;
Each floating blanket film photovoltaic power generation module group is connected with each other by the connecting tube, the cantilever crane I-steel sliding rail peace
Mounted in stern, the electric block is connect by flexible steel wire with the grapple suspender, and the grapple suspender is described for grabbing
Connecting tube;
The electric block can be slided on the cantilever crane I-steel sliding rail with drive the grapple suspender promoted or
It falls, the connecting tube is sling or fallen, to sling or fall the floating blanket film photovoltaic electrification component.
Further, the power station further includes suspention beam, at the top of the suspention beam installation on the quarter, in the suspention beam
It is welded with positioning angle steel every set distance, after the connecting tube is sling by grapple suspender, is placed in the suspention beam, it is each
The floating blanket film photovoltaic electrification component that piece is sling is placed between two adjacent angle steel.
Further, the power station further includes camera, and the camera is mounted on the shell of the electric block.
Further, the grapple suspender is 316L stainless steel material.
Further, the connecting tube is hollow ABS plastic pipe, and both ends are blocked with plastic plate.
Further, the diameter of the tail pipe is greater than the diameter of the connecting tube.
Further, the electrical equipment on connecting cable connection boat deck.
Further, the electrical equipment is electric circuit connection container, inverter, step-up transformer, control and protection cabinets or storage
Battery pack.
Further, the storage device includes turntable, sliding bearing, becket, spring brush, motorized roller, bearing
Bracket;
The turntable is arranged on the quarter, by the support of the sliding bearing, the support of bearing and motorized roller and bi-directional drive, institute
The least radius for stating the inner cylinder of turntable is greater than the minimum bendable bilge radius of the film photovoltaic electrification component ontology, the floating blanket
Film photovoltaic electrification component connects the becket by cable pigtail, and the two side ends of the turntable are arranged in the becket
Face, and be in electrical contact with the spring brush, the spring brush is connected to electrically setting on boat deck by the connecting cable
It is standby, thus by the electrical energy transportation of the floating blanket film photovoltaic electrification component to the electrical equipment.
Compared with prior art, waterborne float provided by the invention can store film photovoltaic power station, including several floating blankets
Formula film photovoltaic power generation module group, power generation module group include several floating blanket film photovoltaic electrification components, and electrification component includes film light
Lie prostrate electrification component ontology and the floating blanket that foams, the upper surface for the floating blanket that foams forms the low depressed area in the high middle part of surrounding, film photovoltaic hair
Electrical component ontology is fixed in depressed area.The power station further includes storage device, and storage device is installed on the quarter, and with whole knot
Structure connection, for pulling and storing each floating blanket film photovoltaic electrification component.It will can be floated when needed by storage device
Blanket film photovoltaic electrification component is received on ship, thus avoid when encountering bad weather condition due to can not store and by
Impact failure, or when by navigation channel restricted area it is impassable due to that can not store.Simultaneously as can store, it will not
Lead to the problem of because power station is excessive can not be by navigation channel restricted area, therefore power station can also be extended with large area.
Detailed description of the invention
Fig. 1 is the schematic diagram of the section structure that the embodiment of the present invention floats blanket film photovoltaic electrification component;
Fig. 2 is the overlooking structure diagram that the embodiment of the present invention floats blanket film photovoltaic electrification component;
Fig. 3 is that waterborne float of embodiment one can store the structural schematic diagram in film photovoltaic power station;
Fig. 4 is the structural schematic diagram of grapple suspender in embodiment one;
Fig. 5 is that waterborne float of embodiment two can store the structural schematic diagram in film photovoltaic power station.
Specific embodiment
To make the objectives, technical solutions, and advantages of the present invention clearer, below with reference to embodiment and attached drawing, to this
Invention is described in further detail.
The embodiment of the invention provides a kind of waterborne float can store film photovoltaic power station, including several floating blanket films
Photovoltaic power generation mould group, floating blanket film photovoltaic power generation module group includes several floating blanket film photovoltaic electrification components 6, floats blanket film
Photovoltaic electrification component 6 includes film photovoltaic electrification component ontology and the floating blanket 26 that foams, and the upper surface for the floating blanket 26 that foams forms surrounding
The low depressed area in high middle part, film photovoltaic electrification component ontology are fixed in depressed area.
Each floating blanket film photovoltaic power generation module group is connected with each other, meanwhile, each floating blanket film photovoltaic electrification component 6 passes through company
It connects cable 7 to be electrically connected to each other, and is connected on tail pipe 8 by connecting rope 9 and forms overall structure.
The showy film photovoltaic power station that can store waterborne further includes storage device, and storage device is installed on the quarter, and with
Overall structure connection, for pulling and storing each floating blanket film photovoltaic electrification component 6.
Waterborne float that Fig. 3 show embodiment one can store the structural schematic diagram in film photovoltaic power station, in embodiment
In one, storage device includes cantilever crane I-steel sliding rail 2, electric block 3, grapple suspender 4 and connecting tube 5.
Each floating blanket film photovoltaic power generation module group is connected with each other by connecting tube 5, and cantilever crane I-steel sliding rail 2 is mounted on ship
Tail 1, electric block 3 are connect by flexible steel wire with grapple suspender 4, and grapple suspender 4 is for grabbing connecting tube 5.
Electric block 3 can be slided on cantilever crane I-steel sliding rail 2 to drive grapple suspender 4 to be promoted or fallen, will
Connecting tube 5 is sling or is fallen, to sling or fall floating blanket film photovoltaic electrification component 6.
Fig. 4 is the structural schematic diagram of grapple suspender 4, and grapple suspender 4 includes hanging ring 41, connecting rod 42, guide rod 43, grapple
44, pin shaft 45.Hanging ring 41 is used for across flexible steel wire, and connecting rod 42 is for controlling guide rod 43, when flexible steel wire is promoted two
The angle of connecting rod 42 will reduce under lifting force effect, and the inside Slideslip of pin shaft 45 under guide rod 43 drives grapple 44 to embrace
Firmly hanging object, hanging object is promoted by flexible steel wire as a result,.After hanging object is placed to designated position, flexible steel wire
Loosen, the angle of two connecting rods 42 will become larger under the effect of gravity, the outside Slideslip of pin shaft 45 under guide rod 43, until leading
Rib on bar 43 stops, and grapple 44 automatically opens, and is detached from hanging object.Grapple suspender 4 is 316L stainless steel material, with anti-
Corrosion.Camera 13 can be installed on the shell of electric block 3, operator adjusts electronic calabash with the help of camera 13
The position of reed 3 and grapple suspender 4.
In the present solution, hanging object is connecting tube 5, connecting tube 5 is hollow ABS plastic pipe, and both ends are blocked with plastic plate,
Floatability is in water.Floating blanket film photovoltaic electrification component 6 is connected by connecting rope 9 with connecting tube 5, thus several standard specifications
Floating blanket film photovoltaic electrification component 6 is grouped into the big component of actual needs width, and it is enough to guarantee that big component has
Flexibility can be fluctuated with wave.
Power station further includes suspention beam 11, and the installation of suspention beam 11 on the quarter at the top of 1, is welded in suspention beam 11 every set distance
It is connected to positioning angle steel 12, after connecting tube 5 is sling by grapple suspender 4, is placed in suspention beam 11, it is thin per a piece of floating blanket sling
Film photovoltaic electrification component 6 is placed between two adjacent angle steel 12.Under normal circumstances, night when larger stormy waves or
When the area navigation for having navigation channel to limit etc., floating blanket film photovoltaic electrification component 6 is lifted storage.On daytime, with electric block 3
Floating blanket film photovoltaic electrification component 6 is hung into the water surface again, the film photovoltaic electrification component ontology the piece number hung can be according to reality
Border electricity consumption needs to select.
The floating blanket film photovoltaic electrification component 6 of standard specification realizes string electrically by connection box and connecting cable 7
Connection in parallel.Tail pipe 8 is also hollow ABS plastic pipe, and both ends are blocked with plastic plate, and floatability is in water.Several floating blanket
Film photovoltaic electrification component 6 is connected on tail pipe 8 by connecting rope 9, becomes the planar structure of an entirety, while being had again enough
Flexibility.In storage, tail pipe 8 does not need to sling, therefore the diameter of tail pipe 8 can be greater than the diameter of connecting tube 5.
Connecting cable 7 connects the electrical equipment on boat deck.Electrical equipment can be electric circuit connection container, inversion as needed
Device, step-up transformer, control and protection cabinets, battery group etc..These are the conventional equipments of photovoltaic power generation, are repeated no more.
Waterborne float that Fig. 5 show embodiment two can store the structural schematic diagram in film photovoltaic power station, embodiment two
With the structure that the difference is that only storage device of embodiment one.In example 2, storage device includes turntable 14, sliding
Bearing 15, becket 16, spring brush 17, motorized roller 18, the support of bearing 19;
The setting of turntable 14 on the quarter 1, turntable 14 can be restructured by cable disk.Turntable 14 is by sliding bearing 15, bearing
Bracket 19 and the support of motorized roller 18 and bi-directional drive.Motorized roller 18 can also be combined with applicable speed reducer and motor come generation
It replaces.The least radius of the inner cylinder of turntable 14 is greater than the minimum bendable bilge radius of film photovoltaic electrification component ontology, according to film light
Lie prostrate the minimum bending radius of electrification component ontology, the least radius of the inner cylinder of turntable 14 is more preferably greater than 500mm.Floating blanket film light
Lie prostrate electrification component 6 and becket 16 connected by cable pigtail 20, becket 16 is arranged in the both sides of the face of turntable 14, and with bullet
Spring brush 17 is in electrical contact, and spring brush 17 is connected to the electrical equipment on boat deck by connecting cable 7, so that floating blanket is thin
The electrical energy transportation of film photovoltaic electrification component 6 is to electrical equipment.Electrical equipment can be as needed electric circuit connection container, inverter,
Step-up transformer, control and protection cabinets, battery group etc..These are the conventional equipments of photovoltaic power generation, are repeated no more.
The floating blanket film photovoltaic electrification component 6 of standard specification realizes string electrically by connection box and connecting cable 7
Connection in parallel.Tail pipe 8 is also hollow ABS plastic pipe, and both ends are blocked with plastic plate, and floatability is in water.Several floating blanket
Film photovoltaic electrification component 6 is connected on tail pipe 8 by connecting rope 9, becomes the planar structure of an entirety, while being had again enough
Flexibility.
The cruising ability of electric ship can be improved in the present invention, such as fishing boat can be made to go operation to deep-sea.If this sent out
The reverse osmosis desalination device of bright companion module formula, then waterborne float of the invention can store the sending of film photovoltaic power station
Electric power can be used for producing fresh water, can solve the supply problem of the domestic water of crewman, and fresh water can also be sold to land if there is saving
Ground.
As shown in Figure 1, Figure 2, floating blanket film photovoltaic electrification component 6 provided in an embodiment of the present invention, including film light
Lie prostrate electrification component ontology and the floating blanket 26 that foams, the upper surface for the floating blanket 26 that foams forms the low depressed area in the high middle part of surrounding, film light
Volt electrification component ontology is fixed in depressed area, and using foaming, the buoyancy of floating blanket 26 in water holds up film photovoltaic electrification component sheet
Body.The floating blanket film photovoltaic electrification component 6 given full play to film photovoltaic electrification component ontology light weight, it is ultra-thin, flexible can
The advantages that conversion performance is good, anti-adverse environment ability is strong under bending, low light condition, overall structure light weight float and eat in water
Water is shallow, and resistance greatly reduces when moving in water, realizes floating on water surface photovoltaic power generation lower resistance and goes with ship, reduces the energy
Consumption, improves the economic benefit of floating on water surface movable type photovoltaic power generation.
Film photovoltaic electrification component ontology from top to bottom includes terminal box 10, preceding package board 21, packaging adhesive film 22, thin-film electro
Pond group 23, insulating layer 24 and circuit layer 25, circuit layer 25 include diode string, connection sheet and busbar;
Terminal box 10 is connect by busbar with diode string and connection sheet, and electric energy is used for transmission;
Insulating layer 24 is for isolated film battery pack 23 and circuit layer 25;
It is sealed between terminal box 10 and preceding package board 21 by sealant, sealant can use butyl rubber, can also be it
He is water-fast weather proofing sealant.
Preceding package board 21 is made of ethylene-tetrafluoroethylene copolymer membrane material, can also using other light transmissions, weather-proof, hydrophobic,
The material of antiultraviolet aging.The light-receiving surface of hull cell group 23 is towards preceding package board 21.
Packaging adhesive film 22 can be POE film, be also possible to the glue film of other materials.
Hull cell group 23 is copper indium gallium selenide film battery group 23 or gallium arsenide film battery pack 23 or other kinds of thin
The light-receiving surface of film battery group 23, hull cell group 23 should be towards preceding package board 21.
EVA material can be used in the floating blanket 26 that foams.There is closed foamed porous structure inside EVA material, it is countless closed
Bubble makes its light weight, and float shallow draft in water, is effectively reduced with foot resistance.Certainly the floating blanket 26 of foaming foaming can also be adopted
With color density is low, foamed material of light weight.Since the floating blanket 26 that foams has good elasticity, hull cell group 23 are also risen
The effect of protection is arrived.
It foams and floats the settable chamfering of front bottom end of blanket 26, the front end for the floating blanket 26 that foams is upstream face, is arranged in its bottom
Chamfering can further decrease resistance when moving on the water.
Floating 26 surrounding of blanket that foams offers several cable holes 27, is facilitated by cable hole 27 real between multiple electrification components 6
It is now electrically connected, realizes electrical series-parallel between electrification component 6 and bigger floating blanket is formed by the connection of single electrification component 6
Film photovoltaic power generation module group.
Cable hole 27 may be configured as linear type, to be passed through flat cable or rope.Connected between electrification component with rope
Fixation is connect, is electrically connected by cable, is assembled simple and convenient.
Above-described embodiment is only preferred embodiment, the protection scope being not intended to limit the invention, in spirit of the invention
With any modifications, equivalent replacements, and improvements made within principle etc., should all be included in the protection scope of the present invention.
Claims (10)
1. a kind of waterborne float can store film photovoltaic power station, which is characterized in that generate electricity including several floating blanket film photovoltaics
Mould group, the floating blanket film photovoltaic power generation module group include several floating blanket film photovoltaic electrification components, the floating blanket film
Photovoltaic electrification component includes film photovoltaic electrification component ontology and the floating blanket that foams, and it is high that the upper surface for foaming floating blanket forms surrounding
The low depressed area in middle part, the film photovoltaic electrification component ontology are fixed in the depressed area;
Each floating blanket film photovoltaic power generation module group is connected with each other, and each floating blanket film photovoltaic electrification component is mutual by connecting cable
Electrical connection, and be connected on tail pipe by connecting rope and form overall structure;
It is described it is waterborne float that can to store film photovoltaic power station further include storage device, the storage device installation on the quarter, and
It is connect with the overall structure, for pulling and storing each floating blanket film photovoltaic electrification component.
2. waterborne float as described in claim 1 can store film photovoltaic power station, which is characterized in that the storage device packet
Include cantilever crane I-steel sliding rail, electric block, grapple suspender and connecting tube;
Each floating blanket film photovoltaic power generation module group is connected with each other by the connecting tube, and the cantilever crane I-steel sliding rail is mounted on
Stern, the electric block are connect by flexible steel wire with the grapple suspender, and the grapple suspender is for grabbing the connection
Pipe;
The electric block can be slided on the cantilever crane I-steel sliding rail to drive the grapple suspender to be promoted or fallen,
To sling or fall the connecting tube, to sling or fall the floating blanket film photovoltaic electrification component.
3. waterborne float as claimed in claim 2 can store film photovoltaic power station, which is characterized in that it further include suspention beam,
At the top of the suspention beam installation on the quarter, positioning angle steel, the connecting tube quilt are welded with every set distance in the suspention beam
It after grapple suspender is sling, is placed in the suspention beam, is placed on per a piece of floating blanket film photovoltaic electrification component sling
Between two adjacent angle steel.
4. waterborne float as claimed in claim 2 can store film photovoltaic power station, which is characterized in that it further include camera,
The camera is mounted on the shell of the electric block.
5. as claimed in claim 2 waterborne float can store film photovoltaic power station, which is characterized in that the grapple suspender is
316L stainless steel material.
6. as claimed in claim 2 waterborne float can store film photovoltaic power station, which is characterized in that during the connecting tube is
Empty ABS plastic pipe, both ends are blocked with plastic plate.
7. waterborne float as claimed in claim 2 can store film photovoltaic power station, which is characterized in that the diameter of the tail pipe
Greater than the diameter of the connecting tube.
8. waterborne float as claimed in claim 2 can store film photovoltaic power station, which is characterized in that the connecting cable connects
Connect the electrical equipment on boat deck.
9. as claimed in claim 8 waterborne float can store film photovoltaic power station, which is characterized in that the electrical equipment is
Electric circuit connection container, inverter, step-up transformer, control and protection cabinets or battery group.
10. waterborne float as described in claim 1 can store film photovoltaic power station, which is characterized in that the storage device
Including turntable, sliding bearing, becket, spring brush, motorized roller, the support of bearing;
Turntable setting on the quarter, by the support of the sliding bearing, the support of bearing and motorized roller and bi-directional drive, described turn
The least radius of the inner cylinder of disk is greater than the minimum bendable bilge radius of the film photovoltaic electrification component ontology, the floating blanket film
Photovoltaic electrification component connects the becket by cable pigtail, and the both sides of the face of the turntable are arranged in the becket,
And be in electrical contact with the spring brush, the spring brush is connected to the electrical equipment on boat deck by the connecting cable,
Thus by the electrical energy transportation of the floating blanket film photovoltaic electrification component to the electrical equipment.
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CN201910161260.XA CN109911133B (en) | 2019-03-04 | 2019-03-04 | Floating film-containing photovoltaic power station |
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CN201910161260.XA CN109911133B (en) | 2019-03-04 | 2019-03-04 | Floating film-containing photovoltaic power station |
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JPH1098973A (en) * | 1996-09-30 | 1998-04-21 | Teruo Kinoshita | Marine plankton culture unit |
KR20100104520A (en) * | 2009-03-18 | 2010-09-29 | (주)지티씨코퍼레이션 | A angle control device controlling at a time for a solar generator |
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