CN207251545U - A kind of photovoltaic power station component stent system for increasing wind loading rating and generated energy - Google Patents
A kind of photovoltaic power station component stent system for increasing wind loading rating and generated energy Download PDFInfo
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- CN207251545U CN207251545U CN201721297218.3U CN201721297218U CN207251545U CN 207251545 U CN207251545 U CN 207251545U CN 201721297218 U CN201721297218 U CN 201721297218U CN 207251545 U CN207251545 U CN 207251545U
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- wind
- photovoltaic
- power station
- generated energy
- photovoltaic power
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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
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/10—Photovoltaic [PV]
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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
- Y02E10/52—PV systems with concentrators
Abstract
It the utility model is related to photovoltaic generation and photovoltaic plant construction technique field, photovoltaic power station component stent system wind-guiding and reflection function are realized in particular by a kind of novel photovoltaic power station assembly support system, even if component is from strong wind disaster, also so that component receives more illumination and improves generated energy.A kind of wind loading rating and the photovoltaic power station component stent system of generated energy of increasing of the utility model mainly includes front column, rear column, cant beam, crossbeam, drag link, wind-guiding reflector, photovoltaic module, ground or roofing.The utility model wind-guiding reflector designs certain radian to install so that wind is walked, so as to reduce destructive power of the wind to photovoltaic bracket to after wind-guiding reflector along the wind-guiding reflector water conservancy diversion with radian;It is also possible that the solar energy for being irradiated to wind-guiding reflector is converged and reflexed on heel row photovoltaic module, heel row photovoltaic module have received more illumination, so that increment generated energy, improves power generation efficiency.
Description
Technical field
Photovoltaic generation and photovoltaic plant construction technique field are the utility model is related to, in particular by a kind of novel photovoltaic electricity
Assembly support system of standing realizes photovoltaic power station component stent system wind-guiding and reflection function, even if component increases from strong wind disaster
Add wind loading rating, also so that component receives more illumination and improves generated energy.
Background technology
Photovoltaic plant obtains Large scale construction in the world, strengthens the safety and increase generated energy of photovoltaic plant
The problem of being two important.
For the safety problem of photovoltaic plant.No matter large-scale ground photovoltaic plant or roof photovoltaic power station, greatly
Wind is one of important natural calamity for destroying photovoltaic plant photovoltaic array and solar components.First, violent strong wind directly blows down
Stent, dispel component, second, wind causes component to shake, long term, cause it is hidden split, largely effect on generated energy.When wind is from photovoltaic
The left and right two sides of stent system is blown, and due to not big stress surface, photovoltaic bracket system is destroyed smaller.When wind is from photovoltaic branch
The front of frame system is blown, and since most photovoltaic power station component is tilted a certain angle fixed installation, wind can be blown along assembly surface
Walk, it is little to the pressure of component, photovoltaic bracket system is destroyed also smaller.However, when wind is blown behind photovoltaic bracket system
Come, installed since photovoltaic power station component tilts, in an angle, air-flow is blocked for component and ground shape, and all wind-force is whole
Focus on component backboard, formed greater pressure;Simultaneously because photovoltaic array is formed by connecting by many components, area is larger,
Wind pressure is with regard to very important, under high wind conditions, be easy to cause photovoltaic power station component and stent is damaged.
The problem of for increase built photovoltaic power station power generation amount.Most photovoltaic power station component is tilted a certain angle installation, in order that
Direct sunlight to greatest extent can effectively be received, if solar components can be made, which to receive more solar energies, to be increased
Add its generated energy.Reduce a big reason of built photovoltaic power station power generation amount.For this problem, tracing type photovoltaic stent is also used at present
System solves, i.e., photovoltaic bracket system can rotate automatically according to the position of the sun, stent, and adjustment own components are towards the sun
Can, to increase built photovoltaic power station power generation amount;But this stent system adds mechanical rotation part, easily in dust and sand weather situation
Lower damage, stent system cost is very high, and maintenance cost is also very big, it is difficult to promote and apply.
These problems are all the caused of photovoltaic power station component stent system feature itself, with reference to photovoltaic power generation technology and light
The technical characterstics such as overhead utility construction, in order to effectively solve the problems, such as these, we integrate two kinds of problematic factors, and exploitation is a kind of
Increase the photovoltaic power station component stent system of wind loading rating and generated energy, increase the wind loading rating of component and array, can also make
Component receives more illumination and improves generated energy.
The content of the invention
In order to improve above-mentioned photovoltaic power station component stent system there are the problem of, it is anti-that the utility model develops a kind of increase
The photovoltaic power station component stent system of wind energy power and generated energy, by being installed additional to current fixed type photovoltaic power station assembly support system
Wind-guiding reflector, so as to fulfill photovoltaic power station component stent system wind-guiding and reflection function, even if component from strong wind disaster, both
The wind loading rating of photovoltaic array and component can be increased, can also cause component to receive more illumination and improve generated energy.
The photovoltaic power station component stent system of a kind of increase wind loading rating of the utility model and generated energy passes through following technologies
Scheme is achieved:The system include front column, rear column, cant beam, crossbeam, drag link, wind-guiding reflector, photovoltaic module,
Face or roofing.
Fixation is taken root on ground or roofing respectively for the front column, rear column;The cant beam respectively with front column,
Rear column installation connection;The crossbeam is connected with the installation of multiple cant beams;The drag link connects with front column, rear column installation respectively
Connect;The wind-guiding reflector is connected with cant beam, rear column, ground or roofing installation;The photovoltaic module is installed on crossbeam.
A kind of photovoltaic power station component stent system and prior art phase for increasing wind loading rating and generated energy of the utility model
Compare and have the advantages that:The utility model carries out on the basis of existing photovoltaic generation and photovoltaic plant construction technique
Regarded as output controlling, mainly:
Front column, rear column respectively fixation takes root on ground or roofing so that photovoltaic bracket system foundation firmly,
Stablize;
Drag link respectively with front column, rear column installation connect so that front column, rear column formed in the plane one it is whole
Body, photovoltaic bracket system is firm, stablizes;
Cant beam is connected with front column, rear column installation respectively so that photovoltaic module is installed below, is formed with ground or roofing
Certain inclination angle, can make most of illumination vertical irradiation photovoltaic module, increase generated energy;
Crossbeam is connected with the installation of multiple cant beams so that several groups of front columns, rear column, cant beam, drag link plane are in solid
An entirety is formed, photovoltaic bracket system is firm, stablizes, and gives photovoltaic module to install and provide a plane;
Wind-guiding reflector and cant beam, rear column, ground or roofing installation connect so that wind-guiding reflector and stent system,
Ground or roofing form an entirety;Wind-guiding reflector designs certain radian to install so that wind to after wind-guiding reflector,
Walked along the wind-guiding reflector water conservancy diversion with radian, so as to reduce destructive power of the wind to photovoltaic bracket;The design of wind-guiding reflector is certain
Radian install, enable to the solar energy for being irradiated to wind-guiding reflector to converge and reflex on heel row photovoltaic module, after
Row's photovoltaic module have received more illumination, so that increment generated energy, improves power generation efficiency.
In order to reduce stent system cost, wind-guiding reflector may exit off ground certain distance, without with ground or room
Face installation connection because the wind-force close to ground either roofing is smaller and component also leaves ground or roofing have it is certain
Distance, so close to the wind of ground or roofing to component influences very little.
Brief description of the drawings
A kind of wind loading rating and the photovoltaic power station component stent system of generated energy of increasing of the utility model has drawings described below:
Fig. 1 is that a kind of left view for the photovoltaic power station component stent system for increasing wind loading rating and generated energy of the utility model is shown
It is intended to;
Fig. 2 is shown on rear side of a kind of photovoltaic power station component stent system for increasing wind loading rating and generated energy of the utility model
It is intended to;
Wherein:10th, front column;11st, rear column;12nd, cant beam;13rd, crossbeam;14th, drag link;15th, wind-guiding reflector;20、
Photovoltaic module;30th, ground or roofing;40th, solar energy path;50th, wind path footpath.
Embodiment
Below in conjunction with the accompanying drawings with case study on implementation to technical solutions of the utility model further instruction:
As shown in Figure 1 and Figure 2, a kind of photovoltaic power station component carriage support for increasing wind loading rating and generated energy of the utility model
System mainly include front column 10, rear column 11, cant beam 12, crossbeam 13, drag link 14, wind-guiding reflector 15, photovoltaic module 20,
Face or roofing 30.
Fixation is taken root on ground or roofing 30 respectively for the front column 10, rear column 11;The cant beam 12 is distinguished
Connected with front column 10, the installation of rear column 11;The crossbeam 13 is connected with the installation of multiple cant beams 12;The drag link 14 respectively with
Front column 10, the installation connection of rear column 11;The wind-guiding reflector 15 is installed with cant beam 12, rear column 11, ground or roofing 30
Connection;The photovoltaic module 20 is installed on crossbeam 13.
Embodiment 1.
A kind of wind loading rating and the photovoltaic power station component stent system of generated energy of increasing of the utility model mainly includes preceding stand
Column 10, rear column 11, cant beam 12, crossbeam 13, drag link 14, wind-guiding reflector 15, photovoltaic module 20, ground or roofing 30.
Fixation is taken root on ground or roofing 30 respectively for the front column 10, rear column 11;The cant beam 12 is distinguished
Connected with front column 10, the installation of rear column 11;The crossbeam 13 is connected with the installation of multiple cant beams 12;The drag link 14 respectively with
Front column 10, the installation connection of rear column 11;The wind-guiding reflector 15 is installed with cant beam 12, rear column 11, ground or roofing 30
Connection;The photovoltaic module 20 is installed on crossbeam 13.
A kind of photovoltaic power station component stent system and prior art phase for increasing wind loading rating and generated energy of the utility model
Compare and have the advantages that:The utility model carries out on the basis of existing photovoltaic generation and photovoltaic plant construction technique
Regarded as output controlling, mainly:
Fixation is taken root on ground or roofing 30 respectively for front column 10, rear column 11 so that photovoltaic bracket system root
Base is firm, stablizes;
Drag link 14 is connected with front column 10, the installation of rear column 11 respectively so that front column 10, rear column 11 are in the plane
An entirety is formed, photovoltaic bracket system is firm, stablizes;
Cant beam 12 respectively with front column 10, rear column 11 installation connect so that photovoltaic module 20 is installed below, with ground or
Roofing 30 forms certain inclination angle, can make most of illumination vertical irradiation photovoltaic module, increases generated energy;
Crossbeam 13 is connected with the installation of multiple cant beams 12 so that several groups of front columns 10, rear column 11, cant beam 12, drag link 14
Plane forms an entirety in solid, and photovoltaic bracket system is firm, stablizes, and provides one to the installation of photovoltaic module 20 and put down
Face;
Wind-guiding reflector 15 and cant beam 12, rear column 11, ground or the installation of roofing 30 connect so that wind-guiding reflector 15 with
Stent system, ground or roofing 30 form an entirety;Wind-guiding reflector 15 designs certain radian to install so that wind to
After wind-guiding reflector 15, walked along 15 water conservancy diversion of wind-guiding reflector with radian, so as to reduce destructive power of the wind to photovoltaic bracket, such as
Shown in figure wind path footpath 50;Wind-guiding reflector 15 designs certain radian to install, and enables to be irradiated to wind-guiding reflector 15
Solar energy is converged and reflexed on heel row photovoltaic module 20, and heel row photovoltaic module 20 have received more illumination, so that increment
Generated energy, improves power generation efficiency, as shown in figure solar energy path 40.
Front column 10, rear column 11, cant beam 12, crossbeam 13, drag link 14 can be using the U-shaped of model such as 52*52*2.5mm
Steel processing and fabricating;
Wind-guiding reflector 15 can use 2.5mm thick, the stainless steel substrates of surface polishing, aluminium flake or aluminum alloy sheet processing system
Make;
The foregoing is merely the specific embodiment that the utility model is optimal, any those skilled in the art is new in this practicality
In the field of type, the change or modification made all are covered among the scope of the claims of the utility model.
Claims (6)
- A kind of 1. photovoltaic power station component stent system for increasing wind loading rating and generated energy, it is characterised in that including:Front column (10), rear column (11), cant beam (12), crossbeam (13), drag link (14), wind-guiding reflector (15), photovoltaic module (20), ground Or roofing (30);The wind-guiding reflector (15) connects with cant beam (12), rear column (11), ground or roofing (30) installation, makes Obtain wind-guiding reflector (15) and form an entirety with stent system, ground or roofing (30);Wind-guiding reflector (15) design is certain Radian install, can wind-guiding but also reflective.
- 2. a kind of photovoltaic power station component stent system for increasing wind loading rating and generated energy as claimed in claim 1, its feature It is:Fixation is taken root on ground or roofing (30) respectively for the front column (10), rear column (11).
- 3. a kind of photovoltaic power station component stent system for increasing wind loading rating and generated energy as claimed in claim 1, its feature It is:The cant beam (12) connects with front column (10), rear column (11) installation respectively.
- 4. a kind of photovoltaic power station component stent system for increasing wind loading rating and generated energy as claimed in claim 1, its feature It is:The crossbeam (13) connects with multiple cant beams (12) installation.
- 5. a kind of photovoltaic power station component stent system for increasing wind loading rating and generated energy as claimed in claim 1, its feature It is:The drag link (14) connects with front column (10), rear column (11) installation respectively.
- 6. a kind of photovoltaic power station component stent system for increasing wind loading rating and generated energy as claimed in claim 1, its feature It is:The photovoltaic module (20) is installed on crossbeam (13).
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CN201721297218.3U CN207251545U (en) | 2017-10-09 | 2017-10-09 | A kind of photovoltaic power station component stent system for increasing wind loading rating and generated energy |
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CN201721297218.3U CN207251545U (en) | 2017-10-09 | 2017-10-09 | A kind of photovoltaic power station component stent system for increasing wind loading rating and generated energy |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108986649A (en) * | 2018-09-18 | 2018-12-11 | 深圳华人众志文化传媒有限公司 | A kind of IP promotional plate and preparation method thereof |
CN109245708A (en) * | 2018-09-27 | 2019-01-18 | 南昌大学 | A kind of simple reflective enhancing device of fixed Flat type photovoltaic assembly array electricity generation system |
CN113242010A (en) * | 2021-05-17 | 2021-08-10 | 中国电建集团海南电力设计研究院有限公司 | Be applied to photovoltaic support of solar photovoltaic power generation system |
-
2017
- 2017-10-09 CN CN201721297218.3U patent/CN207251545U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108986649A (en) * | 2018-09-18 | 2018-12-11 | 深圳华人众志文化传媒有限公司 | A kind of IP promotional plate and preparation method thereof |
CN109245708A (en) * | 2018-09-27 | 2019-01-18 | 南昌大学 | A kind of simple reflective enhancing device of fixed Flat type photovoltaic assembly array electricity generation system |
CN113242010A (en) * | 2021-05-17 | 2021-08-10 | 中国电建集团海南电力设计研究院有限公司 | Be applied to photovoltaic support of solar photovoltaic power generation system |
CN113242010B (en) * | 2021-05-17 | 2022-05-27 | 中国电建集团海南电力设计研究院有限公司 | Be applied to photovoltaic support of solar photovoltaic power generation system |
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