CN207425869U - A kind of anti-oxidant solar energy photovoltaic panel - Google Patents
A kind of anti-oxidant solar energy photovoltaic panel Download PDFInfo
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- CN207425869U CN207425869U CN201721290836.5U CN201721290836U CN207425869U CN 207425869 U CN207425869 U CN 207425869U CN 201721290836 U CN201721290836 U CN 201721290836U CN 207425869 U CN207425869 U CN 207425869U
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- solar energy
- photovoltaic panel
- energy photovoltaic
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Abstract
The utility model discloses a kind of anti-oxidant solar energy photovoltaic panels; including solar energy photovoltaic panel, stent; load protection layer above the solar energy photovoltaic panel, the protective layer include pet layer, nano-cellulose function film, and the nano-cellulose function film loads to the upper surface of pet layer.The utility model solar energy photovoltaic panel protects solar energy photovoltaic panel using PET combination biomass nano cellulose film material with function technologies; pass through PET inoxidizability, the Unidirectional transparent of wear-resistant, corrosion-resistant combination nano-cellulose function film; so as to complete the service efficiency for the oxidation resistant protection of solar energy photovoltaic panel, further improving solar energy photovoltaic panel.
Description
Technical field
The utility model is related to a kind of solar energy photovoltaic panel, especially a kind of anti-oxidant solar energy photovoltaic panel.
Background technology
With advances in technology with development, the consumption of traditional non-renewable fossil energy can not only bring such as complete
The serious problem of environmental pollutions such as ball warms, acid rain, and since its is non-renewable, amount of storage is reduced and changed rapidly
The price of the stone energy is increasingly surging;The shortage of the energy will seriously restrict Chinese society and economic development at that time.According to United States Geological office
Estimation, only according to current year yield, global petroleum reserves can be exhausted about in 60 years, and natural gas will in 80 years
Exhaustion, coal also can only at most be exploited about 200 years.Relying on traditional fossil energy has apparent unsustainable property.
With the shortage of the existing energy in the world and the deterioration of ecological environment, wind energy, water energy and solar energy etc. is clean can
The renewable sources of energy develop the extensive concern for being subjected to countries in the world, and more and more scholars have been added to renewable energy technologies
In correlative study.Solar energy is as a kind of regenerative resource of cleanliness without any pollution, and reserves are very abundant, China's national territorial area about 2/
3 with last year irradiation level be more than 7000MJ/m2。
At present, the solar energy of cleanliness without any pollution is increasingly widely used, and photovoltaic is applied by solar energy
The development that industry is also advanced by leaps and bounds.But with the extension of solar energy photovoltaic panel usage time, solar energy photovoltaic panel middle part
The most important functional component of part can be influenced be subject to external environment, such as mist, haze, wind, rain, hail, snow and the various dirts of dust storm
Stain so that not only easy deterioration by oxidation is also easy to be corroded solar energy photovoltaic panel.Therefore, this is just needed in solar energy photovoltaic panel
The surface of component increases protective layer, this protective layer not only needs high light transmittance, it is also necessary to have low reflection and radiation to inhale to light
It receives.
In the prior art, sheet glass is to use a kind of more protective device, but glass is for extremely cold and very hot etc.
The variation of extreme climate or hot and cold alternation is more sensitive.In addition, minimal amount of metallic element, meeting are included in glass protection device
So that utilizable radiation loss in sunlight, if removed using technology, the element cost is high to be difficult to obtain suitable original
Material.More importantly glass product possesses larger refractive index, and surface easily causes light because reflection and refraction occurs
The loss of energy.It is that technology today should solve thus to find a kind of protective film of the oxidation-resistant corrosion-resistant of suitable solar energy photovoltaic panel
Problem.
Utility model content
In order to overcome in the prior art solar energy photovoltaic panel be exposed to the sun in use it is serious easily aoxidize further aging,
The defects of being vulnerable to the erosion oxidation corrosion of external environment mist, haze, rain, snow and dust storm, the utility model provide a kind of use
A kind of anti-oxidant solar energy photovoltaic panel of PET combination biomass nano material technologies, PET is added in photovoltaic plate surface
Layer, supporting nanofibres element Unidirectional transparent film on pet layer passes through PET inoxidizability, wear-resistant, corrosion-resistant and Nanowire
The Unidirectional transparent of the plain function film of dimension, so as to complete to the oxidation resistant protection of solar energy photovoltaic panel.
Technical solution is used by the utility model solves its technical problem:A kind of anti-oxidant solar energy photovoltaic panel, bag
Include solar energy photovoltaic panel, stent, load protection layer above the solar energy photovoltaic panel, the protective layer includes pet layer, Nanowire
The plain function film of dimension, the nano-cellulose function film load to the upper surface of pet layer.
A kind of above-mentioned anti-oxidant solar energy photovoltaic panel, pet layer can load 1~5 in the photovoltaic plate surface
Layer.
A kind of above-mentioned anti-oxidant solar energy photovoltaic panel, the pet layer addition lithia, one kind or two of zinc fluoride
Kind.
A kind of above-mentioned anti-oxidant solar energy photovoltaic panel, the pet layer surface nanofibre element function film layer load 2~
10 layers, the nano-cellulose function film thickness in monolayer is 200~1000nm, nanometer in the nano-cellulose function film
Cellulose diameter is distributed in 50~200nm.
A kind of above-mentioned anti-oxidant solar energy photovoltaic panel, the rack surface is equipped with corrosion-inhibiting coating and super-hydrophobic layer, described
Corrosion-inhibiting coating and super-hydrophobic layer can set 1~3 layer.
The utility model has the following advantages and high-lighting effect compared with prior art:
The beneficial effects of the utility model are that the utility model solar energy photovoltaic panel uses PET combination biomass nano materials
Material technology protects solar energy photovoltaic panel, and it is sudden and violent during long-time use to effectively eliminate traditional solar energy photovoltaic panel
Shining the serious erosion oxidation corrosion for easily aoxidizing further aging, being vulnerable to external environment mist, haze, rain, snow and dust storm cannot
The defects of being continuing with.Pet layer is loaded into photovoltaic plate surface, then supporting nanofibres element is unidirectional on pet layer
Light transmission film, by PET inoxidizability, the Unidirectional transparent of wear-resistant, corrosion-resistant combination nano-cellulose function film, thus
Complete the service efficiency protected and further improve solar energy photovoltaic panel oxidation resistant to solar energy photovoltaic panel.
Description of the drawings
The utility model is further illustrated with reference to the accompanying drawings and examples.
Fig. 1 is utility model diagram;
Fig. 2 is the structure diagram of the utility model solar energy photovoltaic panel sealer.
1. stent in figure, 2. solar energy photovoltaic panels, 3. nano-cellulose function films, 4.PET layers.
Specific embodiment
【Embodiment 1】
A kind of anti-oxidant solar energy photovoltaic panel, including solar energy photovoltaic panel 2, stent 1, above the solar energy photovoltaic panel 2
Load protection layer, the protective layer include pet layer 4, nano-cellulose function film 3, and the nano-cellulose function film 3 is negative
It is downloaded to the upper surface of pet layer 4.
Pet layer 4 can load 1 layer on 2 surface of solar energy photovoltaic panel.
The pet layer 4 adds lithia, zinc fluoride.
The 4 surface nanofibre element function film 3 of pet layer loads 2 layers, 3 individual layer of nano-cellulose function film
Thickness is 200nm, and nano-cellulose diameter is distributed in 50nm in the nano-cellulose function film.
1 surface of stent is equipped with corrosion-inhibiting coating and super-hydrophobic layer, and the corrosion-inhibiting coating and super-hydrophobic layer can set 1
Layer.
【Embodiment 2】
A kind of anti-oxidant solar energy photovoltaic panel, including solar energy photovoltaic panel 2, stent 1, above the solar energy photovoltaic panel 2
Load protection layer, the protective layer include pet layer 4, nano-cellulose function film 3, and the nano-cellulose function film 3 is negative
It is downloaded to the upper surface of pet layer 4.
Pet layer 4 can load 5 layers on 2 surface of solar energy photovoltaic panel.
The pet layer 4 adds lithia, zinc fluoride.
The 4 surface nanofibre element function film 3 of pet layer loads 10 layers, the nano-cellulose function film individual layer
Thickness is 1000nm, and nano-cellulose diameter is distributed in 200nm in the nano-cellulose function film 3.
1 surface of stent is equipped with corrosion-inhibiting coating and super-hydrophobic layer, and the corrosion-inhibiting coating and super-hydrophobic layer can set 3
Layer.
【Embodiment 3】
A kind of anti-oxidant solar energy photovoltaic panel, including solar energy photovoltaic panel 2, stent 1, above the solar energy photovoltaic panel 2
Load protection layer, the protective layer include pet layer 4, nano-cellulose function film 3, and the nano-cellulose function film 3 is negative
It is downloaded to the upper surface of pet layer 4.
Pet layer 4 can load 2 layers on 2 surface of solar energy photovoltaic panel.
The pet layer 4 add lithia, zinc fluoride it is one or two kinds of.
The 4 surface nanofibre element function film 3 of pet layer loads 5 layers, 3 individual layer of nano-cellulose function film
Thickness is 500nm, and nano-cellulose diameter is distributed in 60nm in the nano-cellulose function film.
1 surface of stent is equipped with corrosion-inhibiting coating and super-hydrophobic layer, and the corrosion-inhibiting coating and super-hydrophobic layer each set 2
Layer.
【Embodiment 4】
A kind of anti-oxidant solar energy photovoltaic panel, including solar energy photovoltaic panel 2, stent 1, above the solar energy photovoltaic panel 2
Load protection layer, the protective layer include pet layer 4, nano-cellulose function film 3, and the nano-cellulose function film 3 is negative
It is downloaded to the upper surface of pet layer 4.
Pet layer 4 can load 3 layers on 2 surface of solar energy photovoltaic panel.
The pet layer 4 adds lithia.
The 4 surface nanofibre element function film 3 of pet layer loads 7 layers, 3 individual layer of nano-cellulose function film
Thickness is 800nm, and nano-cellulose diameter is distributed in 55nm in the nano-cellulose function film 3.
1 surface of stent is equipped with corrosion-inhibiting coating and super-hydrophobic layer, and the corrosion-inhibiting coating and super-hydrophobic layer can set 1
Layer.
Above example is only the exemplary embodiment of the utility model, is not used in limitation the utility model, this practicality is new
The protection domain of type is defined by the claims.Those skilled in the art can be in the essence and protection domain of the utility model
It is interior, various modifications or equivalent substitution are made to the utility model, this modification or equivalent substitution also should be regarded as new in this practicality
In the protection domain of type.
Claims (5)
1. a kind of anti-oxidant solar energy photovoltaic panel, including solar energy photovoltaic panel (2), stent (1), it is characterised in that:The sun
Can photovoltaic panel (2) load protection layer above, the protective layer includes pet layer (4), nano-cellulose function film (3), described to receive
Rice cellulose function film (3) loads to the upper surface of pet layer (4).
A kind of 2. anti-oxidant solar energy photovoltaic panel according to claim 1, which is characterized in that the solar energy photovoltaic panel
(2) pet layer (4) can load 1~5 layer on surface.
3. a kind of anti-oxidant solar energy photovoltaic panel according to claim 1 or 2, which is characterized in that the pet layer (4) adds
Add lithia, zinc fluoride it is one or two kinds of.
4. a kind of anti-oxidant solar energy photovoltaic panel according to claim 1, which is characterized in that on pet layer (4) surface
Nano-cellulose function film (3) load 2~10 layers, the thickness of nano-cellulose function film (3) individual layer for 200~
1000nm, nano-cellulose diameter is distributed in 50~200nm in the nano-cellulose function film (3).
5. a kind of anti-oxidant solar energy photovoltaic panel according to claim 1, which is characterized in that stent (1) surface is set
There are corrosion-inhibiting coating and super-hydrophobic layer, the corrosion-inhibiting coating and super-hydrophobic layer can set 1~3 layer.
Priority Applications (1)
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CN201721290836.5U CN207425869U (en) | 2017-10-09 | 2017-10-09 | A kind of anti-oxidant solar energy photovoltaic panel |
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CN201721290836.5U CN207425869U (en) | 2017-10-09 | 2017-10-09 | A kind of anti-oxidant solar energy photovoltaic panel |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110660875A (en) * | 2019-10-09 | 2020-01-07 | 湖南工学院 | Method for cooling photovoltaic module by using transparent intermediate infrared radiation cellulose film |
-
2017
- 2017-10-09 CN CN201721290836.5U patent/CN207425869U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110660875A (en) * | 2019-10-09 | 2020-01-07 | 湖南工学院 | Method for cooling photovoltaic module by using transparent intermediate infrared radiation cellulose film |
CN110660875B (en) * | 2019-10-09 | 2021-04-02 | 湖南工学院 | Method for cooling photovoltaic module by using transparent intermediate infrared radiation cellulose film |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180529 Termination date: 20201009 |