CN105227069A - Photovoltaic power generation apparatus waterborne - Google Patents

Photovoltaic power generation apparatus waterborne Download PDF

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Publication number
CN105227069A
CN105227069A CN201510717651.7A CN201510717651A CN105227069A CN 105227069 A CN105227069 A CN 105227069A CN 201510717651 A CN201510717651 A CN 201510717651A CN 105227069 A CN105227069 A CN 105227069A
Authority
CN
China
Prior art keywords
support unit
photovoltaic bracket
photovoltaic
waterborne
basis
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN201510717651.7A
Other languages
Chinese (zh)
Inventor
戴仔财
张亚川
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
SUZHOU AKCOME METAL TECHNOLOGY Co Ltd
Original Assignee
SUZHOU AKCOME METAL TECHNOLOGY Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by SUZHOU AKCOME METAL TECHNOLOGY Co Ltd filed Critical SUZHOU AKCOME METAL TECHNOLOGY Co Ltd
Priority to CN201510717651.7A priority Critical patent/CN105227069A/en
Publication of CN105227069A publication Critical patent/CN105227069A/en
Pending legal-status Critical Current

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Classifications

    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02SGENERATION OF ELECTRIC POWER BY CONVERSION OF INFRA-RED RADIATION, VISIBLE LIGHT OR ULTRAVIOLET LIGHT, e.g. USING PHOTOVOLTAIC [PV] MODULES
    • H02S20/00Supporting structures for PV modules
    • YGENERAL 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
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/50Photovoltaic [PV] energy

Abstract

The present invention relates to a kind of photovoltaic power generation apparatus waterborne, it is characterized in that it comprises the photovoltaic bracket be arranged on basis waterborne and basis, described basis comprises photovoltaic bracket support unit, the fixed installation of the support column of the photovoltaic bracket of photovoltaic bracket support unit on basis, the support column of photovoltaic bracket is arranged on photovoltaic bracket support unit.The present invention, by being arranged at the cooperation of the photovoltaic bracket on basis waterborne and basis, makes this photovoltaic power generation apparatus waterborne have rational in infrastructure, easy for installation, the advantage that reliability is high.

Description

Photovoltaic power generation apparatus waterborne
Technical field
The present invention relates to a kind of photovoltaic power generation apparatus waterborne.
Background technology
Along with traditional energy is day by day exhausted, utilization of new energy resources makes rapid progress.Particularly the distribution of photovoltaic plant and use also exist obvious irrationality.The land resource that Developing west China builds photovoltaic plant is enriched, but photovoltaic generation can not be dissolved completely in locality, defeatedly also to have difficulties outward; And in the eastern developed area, electric power resource is in short supply, need to build a large amount of photovoltaic plants, but land resource is deficient.Therefore so inharmonious situation can be paid the utmost attention to and take distributed power plant construction reasonably to adjust, and promotes that eastern and western regions electricity consumption reaches reasonable equilibrium.
Except except surface construction photovoltaic plant, water surface power plant construction is also a feasible road.And the construction situation in current water surface power station is, most of water surface resources idle, the existing technology of building a station is that stake top mark is tall and big in abundance of water peak level in season, and one is because the stake apex distance water surface is higher, brings inconvenience to installation in water surface piling; Two is that pile foundation can only use without during impervious barrier under water, makes the water surface build power station and becomes more difficult.Therefore seek a kind of rational in infrastructure, easy for installation, the photovoltaic power generation apparatus waterborne that reliability is high is particularly important.
Summary of the invention
The object of the invention is to overcome above-mentioned deficiency, provide a kind of rational in infrastructure, easy for installation, the photovoltaic power generation apparatus waterborne that reliability is high.
The object of the present invention is achieved like this:
A kind of photovoltaic power generation apparatus waterborne, it comprises the photovoltaic bracket be arranged on basis waterborne and basis, described basis comprises photovoltaic bracket support unit, the fixed installation of the support column of the photovoltaic bracket of photovoltaic bracket support unit on basis, the support column of photovoltaic bracket is arranged on photovoltaic bracket support unit;
Described photovoltaic bracket support unit comprises four floating drums, be arranged at the support unit seat upwards arranged between four floating drums and the mount pad be arranged on support unit seat, four floating drums are 2 × 2 arranged in arrays, described floating drum comprises buoy main body, described buoy main body is to being outside equipped with four engaging lugs, adjacent two floating drums are fixedly connected with a vertical connecting pin by the engaging lugs of two dislocation, the corner, top of described floating drum is provided with arc notch, the top center of described support unit seat forms a circular limit chamber by four arc notch of four floating drums, described support unit seat comprises supporting disk, connecting screw rod and locking nut, described connecting screw rod extends through four engaging lugs downwards by the bottom centre of supporting disk, locking nut is spun on the connecting screw rod below four engaging lugs.
Mount pad comprises mounting base, mounting base is provided with straight up two pieces and riser is installed, install between riser for two pieces and leave spacing, install on the mounting base outside riser for two pieces and be provided with mounting base oval hole, two pieces riser is installed and offers multiple installation riser installing hole in corresponding position.
Be provided with connector between described photovoltaic bracket support unit, described connector comprises and is connected between adjacent two photovoltaic bracket support units, and described connector is formed by a floating drum as required or multiple floating drum is connected to form.
Compared with prior art, the invention has the beneficial effects as follows:
The present invention, by being arranged at the cooperation of the photovoltaic bracket on basis waterborne and basis, makes this photovoltaic power generation apparatus waterborne have rational in infrastructure, easy for installation, the advantage that reliability is high.
Accompanying drawing explanation
Fig. 1 is the stereogram of the present invention's photovoltaic power generation apparatus waterborne.
Fig. 2 is the end view of the present invention's photovoltaic power generation apparatus waterborne.
Fig. 3 is the stereogram of photovoltaic bracket support unit.
Fig. 4 is the explosive view after photovoltaic bracket support unit removes mount pad.
Fig. 5 is the explosive view of support unit seat.
Fig. 6 is the stereogram of mount pad.
Fig. 7 is the A place partial enlarged drawing in Fig. 1.
Fig. 8 is the B place partial enlarged drawing in Fig. 2.
Fig. 9 is the C place partial enlarged drawing in Fig. 2.
Figure 10 is the D place partial enlarged drawing in Fig. 2.
Figure 11 is the E place partial enlarged drawing in Fig. 2.
Figure 12 is the sectional view of cant beam.
Figure 13 is the sectional view of the first adapter sleeve.
Figure 14 is the end view of the first adapter sleeve.
Figure 15 be cant beam with the first adapter sleeve coordinate figure.
Figure 16 is the sectional view of the second adapter sleeve.
Figure 17 is the end view of the second adapter sleeve.
Figure 18 be cant beam with the second adapter sleeve coordinate figure.
Figure 19 is the sectional view of crossbeam.
Figure 20 is the sectional view of crossbeam holder.
Figure 21 is crossbeam, crossbeam holder coordinates schematic diagram with cant beam.
Figure 22 is the sectional view of anti-skidding Connection Block.
Figure 23 is briquetting, photovoltaic module, anti-skidding Connection Block coordinate schematic diagram with crossbeam.
Figure 24 is briquetting, photovoltaic module, anti-skidding Connection Block, crossbeam, crossbeam holder coordinate schematic diagram with cant beam.
Wherein:
Floating drum 1, buoy main body 1.1, engaging lug 1.2, arc notch 1.3
Support unit seat 2, supporting disk 2.1, connecting screw rod 2.2, locking nut 2.3, supporting disk oval hole 2.4
Mount pad 3, mounting base 3.1, installation riser 3.2, mounting base oval hole 3.3, installation riser installing hole 3.4
Support column 4, first support column 4.1, second support column 4.2
Cant beam 5, cant beam cavity 5.1, cant beam top install draw-in groove 5.2, draw-in groove 5.3 is installed in cant beam side
Crossbeam 6, crossbeam cavity 6.1, crossbeam top install draw-in groove 6.2, first snap fit groove 6.3, second snap fit groove 6.4, crossbeam reinforcement 6.5
Photovoltaic module 7
First adapter sleeve 8, first body 8.1, first sawtooth 8.2, first boss 8.3, first oval hole 8.4, first installing hole 8.5
Crossbeam holder 9, pressing plate 9.1, pressure snap fit plate 9.2, feet 9.3, first snap fit 9.4, second snap fit 9.5, supporting lug 9.6
Briquetting 10
Anti-skidding Connection Block 11, connecting base plate 11.1, card article 11.2, deck 11.3, anti-skidding sawtooth 11.4
Rear diagonal brace 12
Second adapter sleeve 13, second body 13.1, second sawtooth 13.2, second boss 13.3, second oval hole 13.4, second installing hole 13.5
First diagonal brace 14
Second diagonal brace 15.
Embodiment
See Fig. 1 ~ Figure 24, the one that the present invention relates to photovoltaic power generation apparatus waterborne, it comprises the photovoltaic bracket be arranged on basis waterborne and basis, the connector that described basis comprises photovoltaic bracket support unit and is connected between photovoltaic bracket support unit, the fixed installation of the support column of the photovoltaic bracket of photovoltaic bracket support unit on basis.Shown in figure, this photovoltaic power generation apparatus waterborne includes six groups of photovoltaic bracket support units, and six support columns of photovoltaic bracket are arranged on six groups of photovoltaic bracket support units respectively.
Described photovoltaic bracket support unit comprises four floating drums 1, be arranged at the support unit seat 2 upwards arranged between four floating drums 1 and the mount pad 3 be arranged on support unit seat 2, four floating drums 1 are in 2 × 2 arranged in arrays, described floating drum 1 comprises the buoy main body 1.1 of rectangular cubic, the vertical seamed edge of four of described buoy main body 1.1 is to being outside equipped with four engaging lugs 1.2, the height of four engaging lugs 1.2 is all not identical, adjacent two floating drums 1 can be fixedly connected with a vertical connecting pin (connecting pin is not shown) by the engaging lugs 1.2 of two dislocation, the corner, top of described floating drum 1 is provided with arc notch 1.3, the top center of described support unit seat 2 forms a circular limit chamber by four arc notch 1.3 of four floating drums 1.Described support unit seat 2 comprises supporting disk 2.1, connecting screw rod 2.2 and locking nut 2.3, described supporting disk 2.1 entirety is the I-beam wheel of a horizontal, card above supporting disk is provided with multiple supporting disk oval hole 2.4, layout is dispersed with the card center annular array above supporting disk in multiple supporting disk oval hole 2.4, described connecting screw rod 2.2 extends through four engaging lugs 1.2 downwards by the bottom centre of supporting disk 2.1, and locking nut 2.3 is spun on the connecting screw rod 2.2 below four engaging lugs 1.2.Mount pad 3 comprises mounting base 3.1, mounting base 3.1 is provided with straight up two pieces and riser 3.2 is installed, install between riser 3.2 for two pieces and leave spacing, mounting base 3.1 outside two pieces of installation risers 3.2 is provided with 3.3, two pieces, mounting base oval hole installation riser 3.2 and offers multiple installation riser installing hole 3.4 in corresponding position.When mount pad 3 is installed on bearing unit seat 2, adjustable by the position of connecting bolt on base plate oval hole 3.3 with supporting disk oval hole 2.4, thus make mount pad 3 adjustable in bearing unit seat 2 installation site.During assembling photovoltaic stent support unit, the connecting screw rod 2.2 of support unit seat 2 is passed down through four engaging lugs 1.2 of four floating drums 1, supporting disk 2.1 is arranged in the limit chamber of four floating drum 1 top center, locking nut 2.3 is spun on from bottom to top on connecting screw rod 2.2, until locking nut 2.3 is threaded to bottom an engaging lug 1.2 above it, thus support unit seat 2 and four floating drums 1 are installed, then at supporting disk 2.1 top connection seat 3, photovoltaic bracket support unit is formed.
Described connector comprises and is connected between adjacent two photovoltaic bracket support units, and described connector is formed by a floating drum 1 as required or multiple floating drum 1 is connected to form.
Described photovoltaic bracket comprises support column 4, cant beam 5, crossbeam 6 and photovoltaic module 7, described support column 4 comprises second support column 4.2 of the first front-seat support column 4.1 and rear row, the top of the first support column 4.1 and the second support column 4.2 is connected by the first adapter sleeve 8 with cant beam 5, the top of described cant beam 5 is provided with many crossbeams 6, the top of described cant beam 5 is connected by crossbeam holder 9 with crossbeam 6, the top of crossbeam 6 is fixed by briquetting 10 and photovoltaic module 7, is wherein also provided with anti-skidding Connection Block 11 between briquetting 10 and crossbeam 6.Support column 4 shown in figure has the six roots of sensation, comprise three and short be positioned at the first front-seat support column 4.1 and three long the second support columns 4.2 being positioned at rear row, rear diagonal brace 12 arranged in a crossed manner is connected with between the second adjacent support column 4.2, described support column 4 is arranged on mount pad 3, the middle part of described cant beam 5 is also provided with between the mount pad 3 of the second adapter sleeve 13, second adapter sleeve 13 respectively and bottom first support column 4.1 at front row and the mount pad 3 bottom rear the second support column 4.2 arranged and is connected with the first diagonal brace 14 and the second diagonal brace 15.
Described cant beam 5 comprises cant beam cavity 5.1, and the top of cant beam cavity 5.1 is provided with cant beam top and installs draw-in groove 5.2, and the both sides of cant beam cavity 5.1 are provided with cant beam side and install draw-in groove 5.3.
Described crossbeam 6 comprises crossbeam cavity 6.1, and the top of crossbeam cavity 6.1 is provided with crossbeam top and installs draw-in groove 6.2, and the both sides of crossbeam cavity 6.1 are provided with the first snap fit groove 6.3 and the second snap fit groove 6.4 arranged up and down.Crossbeam reinforcement 6.5 is also provided with in its middle cross beam cavity 6.1.
Described first adapter sleeve 8 comprises the first body 8.1 of lower openings, the both sides inwall of described first body 8.1 is provided with the first sawtooth 8.2, the both sides inwall of the first adapter sleeve 8 is also provided with the first boss 8.3 installed draw-in groove 5.3 with cant beam side and coordinate, the two side hypomere of two the first oval hole 8.4, first adapter sleeves 8 that the first boss 8.3 is provided with also is provided with the first installing hole 8.5.
Described crossbeam holder 9 comprises the pressure snap fit plate 9.2 that pressing plate 9.1 and pressing plate 9.1 side protrude upward, the bottom of described pressing plate 9.1 is provided with multiple feet 9.3, the middle part of described pressing plate 9.1 is provided with pressing plate installing hole, the arranged outside of described snap fit plate 9.2 has the first snap fit 9.4 and the second snap fit 9.5 arranged up and down, first snap fit 9.4 and the second snap fit 9.5 coordinate with the first snap fit groove 6.3 and the second snap fit groove 6.4 respectively, and the outside of the snap fit plate 9.2 between the first snap fit 9.4 and the second snap fit 9.5 is also provided with supporting lug 9.6.
Described anti-skidding Connection Block 11 comprises connecting base plate 11.1, the bottom of described connecting base plate 11.1 is provided with two card articles 11.2 arranged left and right, deck 11.3 is formed between two card articles 11.2 and the bottom of connecting base plate 11.1, the shape of deck 11.3 coordinates with the top of crossbeam 6, the top left section of described connecting base plate 11.1 and right section are provided with anti-skidding sawtooth 11.4, and the middle part of described connecting base plate 11.1 is provided with installing hole.
Described second adapter sleeve 13 comprises the second body 13.1 of lower openings, the both sides inwall of described second body 13.1 is provided with the second sawtooth 13.2, the both sides inwall of the second adapter sleeve 13 is also provided with the second boss 13.3 installed draw-in groove 5.3 with cant beam side and coordinate, the two side hypomere of three the second oval hole 13.4, second adapter sleeves 13 that the second boss 13.3 is provided with also is provided with two the second installing holes 13.5.
The installation process of photovoltaic bracket:
The support column 4 of photovoltaic bracket is connected with the mount pad 3 of photovoltaic bracket support unit, the installing riser installing hole 3.4 be bolted with two of same vertical direction of being positioned at of mount pad 3 of the bottom of support column 4, thus the bottom of support column 4 is fixedly connected with mount pad 3.
Support column 4 is connected with cant beam 5, the rear and front end of cant beam 5 is fixedly connected with by the first adapter sleeve 8 with support column 4 top, the middle part of cant beam 5 is connected with the first diagonal brace 14 and the second diagonal brace 15 respectively by the second adapter sleeve 13, and the first diagonal brace 14 and the bottom of the second diagonal brace 15 are connected the mount pad 3 bottom the first support column 4.1 and the mount pad 3 bottom rear the second support column 4.2 arranged respectively.Wherein the rear and front end of cant beam 5 is held on the top of support column 4, first adapter sleeve 8 is sheathed on outside the two side of cant beam 5 and the two side, upper end of support column 4, two the first boss 8.3 of the first adapter sleeve 8 are installed draw-in groove 5.3 with the cant beam side of cant beam 5 and are coordinated, in two the first oval holes 8.4, screw in two bolts, to cant beam side, draw-in groove 5.3 is installed, in the first installing hole 8.5, screw in bolt in support column 4, improve coupling mechanism force by the first sawtooth 8.2 of the first adapter sleeve 8.Wherein the second adapter sleeve 13 be sheathed on cant beam 5 two side, middle part outside and outside the first diagonal brace 14 and the second two side, diagonal brace 15 upper end, two the second boss 13.3 of the second adapter sleeve 13 are installed draw-in groove 5.3 with the cant beam side of cant beam 5 and are coordinated, in three the second oval holes 13.4, screw in three bolts, to cant beam side, draw-in groove 5.3 is installed, screw in bolt to the first diagonal brace 14 and the second diagonal brace 15 upper end in two the second installing holes 13.5 respectively, coupling mechanism force is improved by the second sawtooth 13.2 of the second adapter sleeve 13, respectively by one of bolt connection seat 3, riser installing hole 3.4 is installed in first diagonal brace 14 and the second diagonal brace 15 lower end.
Crossbeam 6 is fixed on cant beam 5 by crossbeam holder 9, crossbeam 6 both sides are connected with the top of cant beam 5 respectively by a crossbeam holder 9, first card groove 6.3 of crossbeam 6 both sides coordinates with the second snap fit 9.5 with the first snap fit 9.4 of crossbeam holder 9 respectively with the second card groove 6.4, the pressing plate 9.1 of crossbeam holder 9 is held on cant beam 5, pressing plate 9.1 screws in bolt in the cant beam top installation draw-in groove 5.2 of cant beam 5, thus crossbeam 6, crossbeam holder 9 are linked into an integrated entity with cant beam 5.
Photovoltaic module 7 is fixed on the top of crossbeam 6, at the top of crossbeam 6, anti-skidding Connection Block 11 is set, the deck 11.3 of anti-skidding Connection Block 11 coordinates with crossbeam 6 top, the frame of photovoltaic module 7 is held on the anti-skidding sawtooth 11.4 of connecting base plate 11.1 end face of anti-skidding Connection Block 11, then briquetting 10(is used can be middle briquetting or limit briquetting) be pressed on the upper edge of the frame of photovoltaic module 7, by the installing hole of a screw bolt passes briquetting 10, the installing hole of anti-skidding Connection Block 11 is in the crossbeam top installation draw-in groove 6.2 of crossbeam 6, thus photovoltaic module 7 is fixed on the top of crossbeam 6.

Claims (3)

1. a photovoltaic power generation apparatus waterborne, it is characterized in that it comprises the photovoltaic bracket be arranged on basis waterborne and basis, described basis comprises photovoltaic bracket support unit, the fixed installation of the support column of the photovoltaic bracket of photovoltaic bracket support unit on basis, the support column of photovoltaic bracket is arranged on photovoltaic bracket support unit;
Described photovoltaic bracket support unit comprises four floating drums (1), be arranged at the support unit seat (2) upwards arranged between four floating drums (1) and the mount pad (3) be arranged on support unit seat (2), four floating drums (1) are in 2 × 2 arranged in arrays, described floating drum (1) comprises buoy main body (1.1), described buoy main body (1.1) is to being outside equipped with four engaging lugs (1.2), adjacent two floating drums (1) are fixedly connected with a vertical connecting pin by the engaging lugs (1.2) of two dislocation, the corner, top of described floating drum (1) is provided with arc notch (1.3), the top center of described support unit seat (2) forms a circular limit chamber by four arc notch (1.3) of four floating drums (1), described support unit seat (2) comprises supporting disk (2.1), connecting screw rod (2.2) and locking nut (2.3), described connecting screw rod (2.2) extends through four engaging lugs (1.2) downwards by the bottom centre of supporting disk (2.1), locking nut (2.3) is spun on the connecting screw rod (2.2) of four engaging lug (1.2) belows.
2. one according to claim 1 photovoltaic power generation apparatus waterborne, it is characterized in that mount pad (3) comprises mounting base (3.1), mounting base (3.1) is provided with straight up two pieces and riser (3.2) is installed, install between riser (3.2) for two pieces and leave spacing, install on the mounting base (3.1) outside riser (3.2) for two pieces and be provided with mounting base oval hole (3.3), two pieces riser (3.2) is installed and offers multiple installation riser installing hole (3.4) in corresponding position.
3. one according to claim 1 photovoltaic power generation apparatus waterborne, it is characterized in that being provided with connector between described photovoltaic bracket support unit, described connector comprises and is connected between adjacent two photovoltaic bracket support units, and described connector is formed by a floating drum as required or multiple floating drum is connected to form.
CN201510717651.7A 2015-10-29 2015-10-29 Photovoltaic power generation apparatus waterborne Pending CN105227069A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201510717651.7A CN105227069A (en) 2015-10-29 2015-10-29 Photovoltaic power generation apparatus waterborne

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201510717651.7A CN105227069A (en) 2015-10-29 2015-10-29 Photovoltaic power generation apparatus waterborne

Publications (1)

Publication Number Publication Date
CN105227069A true CN105227069A (en) 2016-01-06

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Application Number Title Priority Date Filing Date
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105897139A (en) * 2016-06-13 2016-08-24 南京工业大学 Water composite material floating body stand system for solar power generation and manufacturing process thereof

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2806298Y (en) * 2005-06-28 2006-08-16 何智伟 Combined floating drum capable of improving stabilizing force
CN202481270U (en) * 2011-10-10 2012-10-10 林桄圣 Water platform and fixing seat applied to water platform
CN102800722A (en) * 2012-08-28 2012-11-28 苏州爱康光伏安装系统有限公司 All-aluminium solar stand
CN204168209U (en) * 2014-09-02 2015-02-18 江阴苏铝铝业有限公司 Solar bracket
CN104539225A (en) * 2014-12-31 2015-04-22 西安建筑科技大学 Overwater solar power supply system
CN104953934A (en) * 2015-07-13 2015-09-30 山东鲍尔浦实业有限公司 Overwater floating type photovoltaic power station and application thereof
CN205081730U (en) * 2015-10-29 2016-03-09 苏州爱康金属科技有限公司 Photovoltaic power generation device on water

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN2806298Y (en) * 2005-06-28 2006-08-16 何智伟 Combined floating drum capable of improving stabilizing force
CN202481270U (en) * 2011-10-10 2012-10-10 林桄圣 Water platform and fixing seat applied to water platform
CN102800722A (en) * 2012-08-28 2012-11-28 苏州爱康光伏安装系统有限公司 All-aluminium solar stand
CN204168209U (en) * 2014-09-02 2015-02-18 江阴苏铝铝业有限公司 Solar bracket
CN104539225A (en) * 2014-12-31 2015-04-22 西安建筑科技大学 Overwater solar power supply system
CN104953934A (en) * 2015-07-13 2015-09-30 山东鲍尔浦实业有限公司 Overwater floating type photovoltaic power station and application thereof
CN205081730U (en) * 2015-10-29 2016-03-09 苏州爱康金属科技有限公司 Photovoltaic power generation device on water

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105897139A (en) * 2016-06-13 2016-08-24 南京工业大学 Water composite material floating body stand system for solar power generation and manufacturing process thereof
CN105897139B (en) * 2016-06-13 2018-07-10 南京工业大学 Solar power generation waterborne composite material floating body pallet system and its production process

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Application publication date: 20160106

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