CN107863407A - A kind of two-sided double glass photovoltaic component glass backboards and two-sided double glass photovoltaic modulies - Google Patents

Abstract

The invention discloses a kind of two-sided double glass photovoltaic component glass backboards and two-sided double glass photovoltaic modulies, the glass back plate, including glass plate body, the glass plate body includes the battery one layout region for typesetting photovoltaic cell, it is characterized in that, the material of the glass plate body is ultra-clear glasses, the battery one layout region includes multiple battery panel regions corresponding with each cell piece in photovoltaic cell respectively and the cell piece gap area between cell piece, the battery panel region internal pressure has pattern structure, and the cell piece gap area is without pattern structure.Two-sided double glass photovoltaic modulies load in itself and mechanical performance will not change in the present invention, the smooth no decorative pattern of cell piece gap area of glass back plate so that be improved after the region screen print coating with encapsulating material adhesive property.And the silk-screen printing reflectance coating in glass back plate cell piece gap area, the light through cell piece gap area can be made full use of, improve component power.

Description

A kind of two-sided double glass photovoltaic component glass backboards and two-sided double glass photovoltaic modulies

Technical field

The invention belongs to technical field of solar, and in particular to a kind of two-sided double glass photovoltaic component glass backboards and two-sided pair Glass photovoltaic module.

Background technology

Solar energy industry just worldwide flourishes as a kind of low-carbon regenerative resource, various countries' installation by Year increases.The case for installing photovoltaic system on ground and all kinds roof at present is very more.For all types of buildings, peace The photovoltaic products that harness has generating function can reduce building electricity consumption energy consumption, reach the effect of energy-saving and emission-reduction, while also be building Owner and system install and use people and bring economic benefit, therefore have very much promotional value.

Photovoltaic module is made up of foreboard, EVA, solar battery sheet, EVA and the Rotating fields of backboard 5 successively from top to bottom.Mesh The back-panel glass of preceding existing photovoltaic module, mostly using common float glass process safety glass.Such as the A of Publication No. CN 106601842 Patent document disclose a kind of solar double-glass assemblies of low work(damage, the solar double-glass assemblies are sequentially provided with super white patterned tempering from top to bottom Glass, the first EVA adhesive film layer, cell piece, the second EVA adhesive film layer, float glass；The float glass back side be coated with one layer it is milky white The high-temperature glaze of color, the high-temperature glaze thickness are 300~500 microns.It is growing with double-side cell technology, two-sided double glass by Gradually approved by market, because two-sided double glass two sides can generate electricity, back-panel glass need to use ultra-clear glasses, but due to two-sided double glass Due to that can not use white EVA, the light in cell piece gap can not make full use of, and easily cause double glass photovoltaic module power losses, Thus there is silk-screen printing white glass, but silk-screen printing is carried out on energy ultrawhite figured glass, reflecting coating can not be sufficient filling with Decorative pattern, therefore hidden danger is brought to the reliability of solar double-glass assemblies.

The content of the invention

In order to solve the above problems, the invention provides a kind of two-sided double glass photovoltaic component glass backboards, light is made full use of Energy, reduce the loss late of photovoltaic module power.

The technical scheme is that：A kind of two-sided double glass photovoltaic component glass backboards, including glass plate body, the glass Plate body includes the battery one layout region for typesetting photovoltaic cell, and the material of the glass plate body is ultra-clear glasses, the battery One layout region includes multiple battery panel regions corresponding with each cell piece in photovoltaic cell respectively and between cell piece Cell piece gap area, the battery panel region internal pressure has a pattern structure, without pattern structure in the cell piece gap area.

It can facilitate follow-up silk-screen printing without pattern structure in cell piece gap area in the present invention.

There is a variety of pattern structure, in the present invention preferably, the pattern structure is shaped as Pyramid, honeycombed Shape or diamond shape.

Preferably, the thickness of the glass plate body is 0.5~3.2mm.

Preferably, also include silk-screen printing in the reflectance coating on glass plate body.In cell piece gap area screen printing Brush reflectance coating, the light through cell piece gap area can be made full use of, improve component power.

The raw material of reflectance coating can select a variety of in the present invention, preferably, the raw material of the reflectance coating is low temperature Glaze or modified TiO₂。

Present invention also offers a kind of two-sided double glass photovoltaic modulies, including be from top to bottom sequentially arranged foreboard, the first envelope Package material layer, double-side cell, the second encapsulating material layer and backboard, the backboard are above-mentioned two-sided double glass photovoltaic component glass Backboard.

Preferably, the material of first encapsulating material layer and the second encapsulating material layer is POE, EVA, PVB or had Machine silica gel.

Preferably, the double-side cell is N-type photovoltaic cell, p-type photovoltaic cell, IBC photovoltaic cells or HJT photovoltaic electrics Pond.

Preferably, the material of the foreboard is super white patterned coated glass or ultra-white float glass.

Compared with prior art, beneficial effects of the present invention are embodied in：

Two-sided double glass photovoltaic modulies load in itself and mechanical performance will not change in the present invention, glass back plate The smooth no decorative pattern of cell piece gap area so that improved after the region screen print coating with encapsulating material adhesive property.And The silk-screen printing reflectance coating in glass back plate cell piece gap area, can make full use of the light through cell piece gap area, Improve component power.

Brief description of the drawings

Fig. 1 is the structural representation of two-sided double glass photovoltaic modulies of the present invention.

Fig. 2 is the structural representation of dorsulum of the present invention.

Embodiment

Embodiment 1

As shown in figure 1, the present invention includes foreboard 1, the first encapsulating material layer 2, the double-side cell being from top to bottom sequentially arranged 3rd, the second encapsulating material layer 4 and backboard 5.Wherein the material of the first encapsulating material layer 2 and the second encapsulating material layer 4 be POE, EVA, PVB or organic silica gel, double-side cell 3 are N-type photovoltaic cell, p-type photovoltaic cell, IBC photovoltaic cells or HJT photovoltaic electrics Pond.

Wherein, as shown in Fig. 2 dorsulum of the present invention 5 includes glass plate body, generally, the thickness of glass plate body is 0.5~3.2mm.Glass plate body includes the battery one layout region for typesetting photovoltaic cell, and the material of glass plate body is ultrawhite glass Glass, preferably energy ultrawhite figured glass.Battery one layout region includes multiple electricity corresponding with each cell piece in photovoltaic cell respectively Pond panel region 51 and the cell piece gap area 52 between cell piece, pattern structure is pressed with battery panel region 51, electricity Pond piece gap area 52 is without pattern structure.

Cell piece gap area 52 can facilitate follow-up silk-screen printing without pattern structure in the present invention.And the present invention Middle pattern structure has a variety of, such as the shape of pattern structure can be Pyramid, honeycomb shape or diamond shape.

Reflectance coating is also brushed with by screen printing on glass plate body.Reflect and apply in the silk-screen printing of cell piece gap area 52 Layer, the light through cell piece gap area 52 can be made full use of, improve component power.The raw material of reflectance coating can be with the present invention Select a variety of, such as the raw material of reflectance coating can be low temperature glaze or modified TiO2.

Cell piece uses the double-side cell 3 that Trina Solar produces, the first encapsulating material layer 2 and the second encapsulation in the present embodiment The encapsulating material of layer uses POE, and foreboard 1 is 2.5mm super white patterned coated glass, and backboard 5 is 2.5mm energy ultrawhite figured glass, Pattern structure is cellular.Battery component spacing：Spacing between cell piece and cell piece is 2.5mm, battery strings and battery strings Between spacing be 3.5mm.When silk-screen printing white low temperature glaze on the glass plate body of backboard 5 carries out tempering processing, reflectivity> 85%, and after the silk-screen printing tempering of cell piece gap area 52 be 215N/cm with POE pulling-out force, battery panel region 51 With POE pulling-out force it is 203N/cm after wire mark brush tempering.Cell piece gap area 52 and the silk-screen printing phase of battery panel region 51 Than higher with encapsulating material adhesive property after the screen print coating of cell piece gap area 52.

Embodiment 2

This comparative example dorsulum use unreflected 2.5mm after energy ultrawhite figured glass, using identical series system with Laminating technology, remaining structure is same as Example 1,

, it can be seen that embodiment 1 is sent out than the front power ascension 4.85W of embodiment 2 with the back side from the power data of table 1 Electricity gain calculates by 20%, back side power reduction 2.64W, positive power gain 4.85W in embodiment 1, and back side power gain- 2.64W, entire gain 2.21W.(power test normative testing under the STC environment that IEC61215 is required)

Table 1

	Front power/W	Back side power/W
			Embodiment 1	296.95	216.46
Embodiment 2	292.10	219.10

Embodiment 3

Foreboard in embodiment 1 is replaced with to thickness 2.0mm ultra-white float glass, backboard replaces with the super of thickness 2.0mm White pattern glass, the patterned structure in backboard are pyramid decorative pattern, silk screen of the cell piece gap area without decorative pattern flattened region The reflectance coating of printing is modified TiO₂, tempering back reflection rate>80%, other structures are the same as embodiment 1.

After tested, under the same conditions, the component that backboard is obtained using silk-screen printing reflectance coating is than transparent double face group Part entire gain 2.05W.

Claims (9)

1. a kind of two-sided double glass photovoltaic component glass backboards, including glass plate body, the glass plate body includes being used for typesetting photovoltaic The battery one layout region of battery, it is characterised in that the material of the glass plate body is ultra-clear glasses, the battery one layout region bag Include between multiple battery panel regions corresponding with each cell piece in photovoltaic cell respectively and cell piece between cell piece Gap region, the battery panel region internal pressure have pattern structure, and the cell piece gap area is without pattern structure.

2. two-sided double glass photovoltaic component glass backboards as claimed in claim 1, it is characterised in that the shape of the pattern structure For Pyramid, honeycomb shape or diamond shape.

3. two-sided double glass photovoltaic component glass backboards as claimed in claim 1, it is characterised in that the thickness of the glass plate body For 0.5~3.2mm.

4. two-sided double glass photovoltaic component glass backboards as described in claims 1 to 3 is any, it is characterised in that also including silk screen The reflectance coating being printed on glass plate body.

5. two-sided double glass photovoltaic component glass backboards as claimed in claim 4, it is characterised in that the raw material of the reflectance coating For low temperature glaze or modified TiO₂。

6. a kind of two-sided double glass photovoltaic modulies, including foreboard, the first encapsulating material layer, the two-sided electricity being from top to bottom sequentially arranged Pond, the second encapsulating material layer and backboard, it is characterised in that the backboard is any described two-sided double glass of Claims 1 to 5 Photovoltaic component glass backboard.

7. two-sided double glass photovoltaic modulies as claimed in claim 6, it is characterised in that first encapsulating material layer and the second envelope The material of package material layer is POE, EVA, PVB or organic silica gel.

8. two-sided double glass photovoltaic modulies as claimed in claims 6 or 7, it is characterised in that the double-side cell is N-type photovoltaic electric Pond, p-type photovoltaic cell, IBC photovoltaic cells or HJT photovoltaic cells.

9. two-sided double glass photovoltaic modulies as claimed in claim 6, it is characterised in that the material of the foreboard is super white patterned plating Film glass or ultra-white float glass.