CN201950887U - Hydrolysis-resistant coated backboard - Google Patents

Abstract

The utility model relates to a hydrolysis-resistant coated backboard, belonging to the technical field of solar panel backboards. The hydrolysis-resistant coated backboard comprises a polyethylene terephthalate (PET) substrate with thickness being ranged from 245mum to 255mum, and protection layers with thickness being ranged from 2mum to 3mum, adhesive layers with thickness of being ranged from 2mum to 3mum and fluoride-containing coating layers with thickness being ranged from 20mum to 25mum which are connected through adhesive from the inside to the outside and are symmetrically arranged on the two sides of the PET substrate. By coating the hydrolysis-resistant and anti-oxidation protection layers containing polyester-type polyurethane resin materials on the two sides of the PET substrate, the hydrolysis resistance and the adhesive force of the entire backboard are greatly improved, the PET protection layers have hydrolysis-resistant and anti-oxidation functions when the backboard is used in a photovoltaic module, the service life is prolonged, and the economic cost is saved.

Description

A kind of hydrolysis coating backboard

Technical field

The utility model belongs to solar panel backplane technology field, is specifically related to the coating backboard of the good and oxidative resistance of a kind of strong adhesion hydrolytic resistance.

Background technology

At present, the coating backboard is widely used in the solar cell board industry.Most coating backboard anti-hydrolytic performance is poor, long meeting service time, and easily oxidized, poor water resistance influence service life.

The utility model content

At the above-mentioned problems in the prior art, the purpose of this utility model is to provide the coating backboard of the good and oxidative resistance of a kind of strong adhesion hydrolytic resistance.

Described a kind of hydrolysis coating backboard is characterized in that comprising PET basic unit, is symmetricly set in protective layer, adhesive layer and fluoro-containing coating layer on the PET basic unit two sides by gluing connection from the inside to surface successively.

Described a kind of hydrolysis coating backboard is characterized in that described PET groundwork thickness is 245-255 μ m.

Described a kind of hydrolysis coating backboard is characterized in that described protective layer is anti-hydrolysis, the anti-oxidation protection layer that contains polyester-type polyurethane resin material, and its thickness is 2-3 μ m.

Described a kind of hydrolysis coating backboard is characterized in that described adhesive layer (3) thickness is 3-5 μ m.

Described a kind of hydrolysis coating backboard is characterized in that described fluoro-containing coating layer thickness is 20-25 μ m.

Above-mentioned a kind of hydrolysis coating backboard; comprise that thickness is the PET basic unit of 245-255 μ m, the thickness that is symmetricly set in PET basic unit two sides by gluing connection from the inside to surface is that 2-3 μ m protective layer, thickness are that adhesive layer and the thickness of 2-3 μ m is the fluoro-containing coating layer of 20-25 μ m successively.The utility model is by scribbling the anti-hydrolysis that contains polyester-type polyurethane resin material, oxidation resistant protective layer on PET base material two sides; whole backboard hydrolytic resistance and adhesive force are improved greatly; make backboard should be in photovoltaic module the time; the PET protective layer has anti-hydrolysis, anti-oxidation function; prolong service life, save financial cost.

Description of drawings

Fig. 1 is the utility model structural representation.

Among the figure: 1-PET basic unit, 2-protective layer, 3-adhesive layer, 4-fluoro-containing coating layer.

The specific embodiment

The utility model will be further described below in conjunction with Figure of description:

A kind of hydrolysis coating backboard as shown in Figure 1 comprises that thickness is the PET basic unit 1 of 245-255 μ m, is symmetricly set in protective layer 2, adhesive layer 3 and fluoro-containing coating layer 4 on the PET basic unit two sides by gluing connection from the inside to surface successively.

Described protective layer 2 is for containing anti-hydrolysis, the anti-oxidation protection layer of polyester-type polyurethane resin material; its thickness is 2-3 μ m; the hydrolytic resistance and described adhesive layer 3 thickness of ladder that effectively improve backboard of the present utility model are 3-5 μ m, and described fluoro-containing coating layer 4 thickness are 20-25 μ m.

The utility model is by scribbling the anti-hydrolysis that contains polyester-type polyurethane resin material, oxidation resistant protective layer on PET base material two sides; whole backboard hydrolytic resistance and adhesive force are improved greatly; scribble fluoro-containing coating at outermost layer; has uvioresistant function; thereby make backboard should be in photovoltaic module the time; the PET protective layer has anti-hydrolysis, anti-oxidation function, prolongs service life, saves financial cost.

Claims (5)

1. hydrolysis coating backboard is characterized in that comprising PET basic unit (1), is symmetricly set in protective layer (2), adhesive layer (3) and fluoro-containing coating layer (4) on the PET basic unit two sides by gluing connection from the inside to surface successively.

2. a kind of hydrolysis coating backboard according to claim 1 is characterized in that described PET basic unit (1) thickness is 245-255 μ m.

3. a kind of hydrolysis coating backboard according to claim 1 is characterized in that described protective layer (2) for containing anti-hydrolysis, the anti-oxidation protection layer of polyester-type polyurethane resin material, and its thickness is 2-3 μ m.

4. a kind of hydrolysis coating backboard according to claim 1 is characterized in that described adhesive layer (3) thickness is 3-5 μ m.

5. a kind of hydrolysis coating backboard according to claim 1 is characterized in that described fluoro-containing coating layer (4) thickness is 20-25 μ m.

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