Summary of the invention
Main purpose of the present invention is the preparation method and the solar module that provide a kind of composite membrane, composite membrane, substitutes glass in solar module to adopt composite membrane.
To achieve these goals, according to an aspect of the present invention, provide a kind of composite membrane, this composite membrane comprises: aqueous vapor separation layer; Tack coat, is covered on two apparent surfaces of aqueous vapor separation layer; Weather-proof functional layer, is covered in tack coat away from the surface of aqueous vapor separation layer.
Further, aqueous vapor separation layer comprises transparent organic film and is arranged at the transparent inorganic oxide layer on two apparent surfaces of organic transparent film layer.
Further, transparent organic film is PET film or PEN film.
Further, the material of transparent inorganic oxide layer is silicon dioxide, titanium oxide, zinc oxide or aluminium oxide.
Further, the thickness of transparent organic film is 20 ~ 188 μm; The thickness being positioned at the transparent inorganic oxide layer of organic transparent film layer either side is 10 ~ 200nm.
Further, tack coat is pressure sensitive adhesive tape.
Further, the composition of pressure sensitive adhesive tape is polyacrylic binding agent, polyurethanes binding agent, epoxies binding agent or polyesters binding agent.
Further, the thickness of pressure sensitive adhesive tape is between 30 ~ 80 μm.
Further, weather-proof functional layer is fluoro-containing copolymer film, and the thickness of weather-proof functional layer is between 50 ~ 100 μm.
Further, tack coat and weather-proof functional layer are all symmetrical arranged along aqueous vapor separation layer.
According to a further aspect in the invention, provide a kind of preparation method of above-mentioned composite membrane, this preparation method comprises the following steps: prepare aqueous vapor separation layer and weather-proof function individual layer respectively; A surface of weather-proof function individual layer is formed bonding individual layer, and weather-proof function individual layer and bonding individual layer form functional unit layer; Overlaying function elementary layer on two apparent surfaces of aqueous vapor separation layer respectively, and bonding individual layer fits on the surface of aqueous vapor separation layer, the bonding individual layer being positioned at the both sides of aqueous vapor separation layer forms tack coat, and the weather-proof function individual layer being positioned at the both sides of aqueous vapor separation layer forms weather-proof functional layer.
Further, the step preparing aqueous vapor separation layer comprises: carry out corona treatment to two apparent surfaces of transparent organic film; On two apparent surfaces of the transparent organic film after corona treatment, deposition forms transparent inorganic oxide layer, and transparent organic film and transparent inorganic oxide layer form aqueous vapor separation layer.
Further, the step that a surface of weather-proof function individual layer is formed bonding individual layer comprises: carry out corona treatment to a surface of weather-proof function individual layer, forms corona surface; Corona surface is formed bonding individual layer.
Present invention also offers a kind of solar module, this solar module comprises composite membrane provided by the invention, backboard and the cell piece between this composite membrane and backboard.
Apply technical scheme of the present invention, the present invention adopts composite membrane to substitute glass conventional at present using the front end encapsulating material as solar module, and comprise aqueous vapor separation layer, tack coat and weather-proof functional layer due to this composite membrane, thus make this composite membrane while taking into account high light transmission rate, ensure that its weather resistance, resistance to UV aging and block-water performance out of doors, and greatly reduce the Unit Weight of solar module, make solar module weight lighter, transport and easier for installation.
Embodiment
It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the application in detail in conjunction with the embodiments.
It should be noted that used term is only to describe embodiment here, and be not intended to the illustrative embodiments of restricted root according to the application.As used herein, unless the context clearly indicates otherwise, otherwise singulative is also intended to comprise plural form, in addition, it is to be further understood that, " comprise " when using term in this manual and/or " comprising " time, it indicates existing characteristics, step, operation, device, assembly and/or their combination.
For convenience of description, here can usage space relative terms, as " ... on ", " in ... top ", " at ... upper surface ", " above " etc., be used for the spatial relation described as a device shown in the figure or feature and other devices or feature.Should be understood that, space relative terms is intended to comprise the different azimuth in use or operation except the described in the drawings orientation of device.Such as, " in other devices or structure below " or " under other devices or structure " will be positioned as after if the device in accompanying drawing is squeezed, being then described as the device of " above other devices or structure " or " on other devices or structure ".Thus, exemplary term " in ... top " can comprise " in ... top " and " in ... below " two kinds of orientation.This device also can other different modes location (90-degree rotation or be in other orientation), and relatively describe space used here and make respective explanations.
From background technology, existing solar module adopts glass as front end encapsulating material, but the weight of glass is comparatively large, does not meet market to the light-weighted requirement of photovoltaic products, and more crisp, the as easy as rolling off a log fragmentation of glass, for the transport of later product, installation and safeguard all there is inconvenience; In addition, some are had to the assembly of special shape requirement, the hard feature of its quality of glass is not easy to meet flexible requirement.
The present inventor studies for the problems referred to above, proposes to adopt composite membrane to substitute glass as front end encapsulating material.As described in Figure 1, this composite membrane comprises: aqueous vapor separation layer 10; Tack coat 20, is covered on two apparent surfaces of aqueous vapor separation layer 10; Weather-proof functional layer 30, is covered on the surface of tack coat 20 away from aqueous vapor separation layer 10.
The present invention adopts composite membrane to substitute glass conventional at present using the front end encapsulating material as solar module, and comprise aqueous vapor separation layer 10, tack coat 20 and weather-proof functional layer 30 due to this composite membrane, thus make this composite membrane while taking into account high light transmission rate, ensure that its weather resistance, resistance to UV aging and block-water performance out of doors, and greatly reduce the Unit Weight of solar module, make solar module weight lighter, transport and easier for installation.
In above-mentioned composite membrane, weather-proof functional layer 30 plays the function of protection each functional layer and solar module below, and this weather-proof functional layer 30 has higher weather resistance and resistance to UV aging, has certain mechanical strength, can withstand dust storm and hail.Tack coat 20 plays the effect of the weather-proof functional layer 30 of bonding and aqueous vapor separation layer 10.Aqueous vapor separation layer 10 mainly plays and intercepts steam and invade effect in assembly, and has higher electrical insulation capability, and has certain mechanical strength.
Preferably, tack coat 20 and weather-proof functional layer 30 are all symmetrical arranged along aqueous vapor separation layer 10.That is, the structure of composite membrane all has the symmetry of height in size and material, can resist physical impact and the thermal shock of some strength, and can anti-deformation.Functional layer material different in its structure can play weather resistance, water vapor rejection performance and resistance to UV aging preferably, while guarantee light transmission rate, well serves the function replacing glass.
In a preferred embodiment, aqueous vapor separation layer 10 comprises transparent organic film and is arranged at the transparent inorganic oxide layer on two apparent surfaces of organic transparent film layer.Wherein, transparent organic film can be PET film or PEN film etc.; The material of transparent inorganic oxide layer can be silicon dioxide, titanium oxide, zinc oxide or aluminium oxide etc.
The thickness of above-mentioned transparent organic film and transparent inorganic oxide layer can set according to the actual requirements.Preferably, the thickness of transparent organic film is 20 ~ 188 μm; The thickness being positioned at the transparent inorganic oxide layer of organic transparent film layer either side is 10 ~ 200nm.
Above-mentioned tack coat 20 can be pressure sensitive adhesive tape.Wherein, the composition of pressure sensitive adhesive tape can be polyacrylic binding agent, polyurethanes binding agent, epoxies binding agent or polyesters binding agent.The thickness of pressure sensitive adhesive tape is preferably between 30 ~ 80 μm.Above-mentioned weather-proof functional layer 30 can be fluoro-containing copolymer film, and the thickness of weather-proof functional layer 30 is preferably between 50 ~ 100 μm.
According to a further aspect in the invention, provide a kind of preparation method of above-mentioned composite membrane, this preparation method comprises the following steps: prepare aqueous vapor separation layer 10 and weather-proof function individual layer respectively; A surface of weather-proof function individual layer is formed bonding individual layer, and weather-proof function individual layer and bonding individual layer form functional unit layer; Overlaying function elementary layer on two apparent surfaces of aqueous vapor separation layer 10 respectively, and bonding individual layer fits on the surface of aqueous vapor separation layer 10, the bonding individual layer being positioned at the both sides of aqueous vapor separation layer 10 forms tack coat 20, and the weather-proof function individual layer being positioned at the both sides of aqueous vapor separation layer 10 forms weather-proof functional layer 30.
Wherein, the step preparing aqueous vapor separation layer 10 can comprise: carry out corona treatment to two apparent surfaces of transparent organic film; On two apparent surfaces of the transparent organic film after corona treatment, deposition forms transparent inorganic oxide layer, and transparent organic film and transparent inorganic oxide layer form aqueous vapor separation layer 10.
Particularly, the step that a surface of weather-proof function individual layer is formed bonding individual layer comprises: carry out corona treatment to a surface of weather-proof function individual layer, forms corona surface; Corona surface is formed bonding individual layer.
Present invention also offers a kind of solar module, this solar module comprises composite membrane provided by the invention, backboard and the cell piece between this composite membrane and backboard.
Composite membrane provided by the invention and solar module is further illustrated below in conjunction with embodiment.
Composite membrane provided by the invention is prepared by following steps:
(1) preparation of aqueous vapor separation layer: choose PET or PEN film, its transmitance is 90.0% ~ 91.0%, and thickness is at 20 ~ 188 μm; Two-sided corona treatment is carried out to improve the adhesive force on its surface to this PET film or PEN film; PET film corona treatment crossed or PEN film are placed in sputtering or PECVD chamber, lower surface deposits the transparent inorganic oxide layer of a layer thickness between 10-200nm thereon, and this transparent inorganic oxide comprises silicon dioxide, titanium oxide, zinc oxide or aluminium oxide; PET film after having deposited or PEN film utilize Mocon method to test the moisture-vapor transmission obtained to be less than 1.0 × 10-1g/m2day, and test condition is: temperature 40 DEG C, and humidity is 90%RH.
(2) preparation of weather-proof functional layer: choose certain thickness fluoro-containing copolymer film (comprising ETFE, ECTFE, PVDF, PTFE, FEP or PVF), THICKNESS CONTROL is between 50 ~ 100 μm, one side corona treatment is carried out to it, to improve the adhesive force in this face.
(3) fluoro-containing copolymer film corona treatment crossed is fitted one deck pressure sensitive adhesive tape on its corona surface, and the composition of this pressure sensitive adhesive tape is polyacrylic binding agent, polyurethanes binding agent, epoxies binding agent or polyesters binding agent, the adhesive layer thickness that this adhesive tape is formed is between 30 ~ 80 μm.
(4) the fluoro-containing copolymer film Double-face adhesive of laminating pressure sensitive adhesive tape is combined in two surfaces up and down of barriers function layer, the final composite membrane formed as shown in Figure 1.
This composite membrane is carried out the environmental testing of being correlated with, the instructions for use of photovoltaic module can be met with the optical property and mechanical property of testing this composite membrane.
(1) cold shock testing: carry out 200 circulations from-40 DEG C to 85 DEG C, single circulation timei is 30 minutes, test rear composite membrane outward appearance without significant change, non-wrinkled, stain, demoulding, layering, obviously scuffing and salient point, color indifference; The optical transmittance of 400nm-1100nm wave band drops to 90.66% from 90.87%; Interlaminar strength reaches 5.11N/cm.
(2) humid heat test: place 1000h be the environment of 85 at humidity and temperature under, has tested rear composite membrane outward appearance without significant change, non-wrinkled, stain, demoulding, layering, obviously to scratch and salient point, color indifference; The optical transmittance of 400nm-1100nm wave band drops to 90.10% from 90.87%; Interlaminar strength reaches 4.89N/cm.
(3) anti-ultraviolet ageing test: be 185W/m2 at irradiance, temperature is place 82 hours under the condition of 60 DEG C, total accumulation irradiation reaches 15KW, test rear composite membrane outward appearance without significant change, non-wrinkled, stain, demoulding, layering, obviously to scratch and salient point, color indifference; The optical transmittance of 400nm-1100nm wave band drops to 89.59% from 90.87%; Interlaminar strength reaches 4.77N/cm.
(4) heat resistance ageing test: 85 DEG C, 85%RH, to-40 DEG C, circulates 10 times, has tested rear composite membrane outward appearance without significant change, non-wrinkled, stain, demoulding, layering, obviously to scratch and salient point, color indifference; The optical transmittance of 400nm-1100nm wave band drops to 90% from 90.87%; Interlaminar strength reaches 5.01N/cm.
As can be seen from above test result, this composite membrane can replace glass as the front end encapsulating material of crystal silicon solar batteries well.
As can be seen from the above embodiments, the above-mentioned example of the present invention achieves following technique effect: the present invention adopts composite membrane to substitute glass conventional at present using the front end encapsulating material as solar module, and comprise aqueous vapor separation layer due to this composite membrane, tack coat and weather-proof functional layer, thus make this composite membrane while taking into account high light transmission rate, ensure that its weather resistance out of doors, resistance to UV aging and block-water performance, and greatly reduce the Unit Weight of solar module, make solar module weight lighter, transport and easier for installation.
These are only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.