CN205863181U - A kind of efficiently solar double-glass assemblies - Google Patents

Abstract

The utility model discloses a kind of efficiently solar double-glass assemblies, described solar double-glass assemblies includes front safety glass, first transparent EVA film, reflective membrane, second transparent EVA film and rear safety glass, first transparent EVA film be laid in before on safety glass, second transparent EVA film be laid in after under safety glass, it is provided with battery component between first transparent EVA film and the second transparent EVA film, battery component is rectangular sheet structure, gap is there is on battery component, the gap location of battery component and the edge of battery component are provided with reflective membrane, the gap of battery component is completely covered and constitutes rectangular outer frame in battery component periphery by reflective membrane, reflective membrane is laid between battery component and the second transparent EVA film.By lay reflex film, the light that will transmit through gap location and edge again reflexes to front safety glass or rear safety glass, is re-reflected in cell piece again absorbing, adds illumination utilization rate, improve the generated energy of battery component.

Description

A kind of efficiently solar double-glass assemblies

Technical field

This utility model relates to a kind of solar double-glass assemblies, especially relates to a kind of raising illumination for solar module The efficient solar double-glass assemblies of utilization rate.

Background technology

World today's energy shortage, environmental pollution are day by day serious, and solar energy, as the regenerative resource of cleaning, is increasingly subject to To everybody attention, but due to the generation technology that cost for solar power generation is high, efficiency is low, relatively conventional, competitiveness is not enough, because of This, development is efficient, the photovoltaic power generation technology of low cost, is the key realizing the online of photovoltaic par.

Solar module, as the core component of photovoltaic generation, is also most important portion in solar power system Point.Its effect is to convert solar energy into electrical energy, or is sent in accumulator store, or promotes loaded work piece.Solar-electricity The quality of pond assembly and cost will directly determine quality and the cost of photovoltaic generating system, it is therefore desirable to exploitation is a kind of the most too Sun can assembly.

Solar double-glass assemblies be by two sheet glass, between middle cell string and glass by answering that hot melt adhesive is bonded Close layer, between cell piece, collected the integrated member of lead end by wire series and parallel.Its feature is conventional solar cell Backboard in assembly has changed glass into.Use double glass structure, PID phenomenon can be avoided, reduce permeability rate, greatly increase The life-span of solar module.But solar double-glass assemblies there is part illumination empty through space between set of cells string and assembly surrounding White place and lose, if carrying out optical optimization design, solar double-glass assemblies still has the space promoting illumination utilization rate.

Summary of the invention

Technical problem to be solved in the utility model is to provide a kind of efficiently solar double-glass assemblies, effectively reduces light loss, carries High illumination utilization rate.

The technical scheme that the above-mentioned technical problem of this utility model solution is used is: a kind of efficiently solar double-glass assemblies, described Solar double-glass assemblies includes front safety glass, the first transparent EVA film, reflective membrane, the second transparent EVA film and rear safety glass, and first is saturating Bright EVA film be laid in before on safety glass, the second transparent EVA film be laid in after under safety glass, the first transparent EVA film and Being provided with battery component between two transparent EVA films, described battery component is rectangular sheet structure, between battery component exists Gap, the gap location of described battery component and the edge of battery component are provided with reflective membrane, and reflective membrane is by set of cells The gap of part is completely covered and constitutes rectangular outer frame in battery component periphery, and described reflective membrane is laid on battery component and second Between transparent EVA film.

Improving further as this utility model, described battery component includes multiple cell piece, by multiple cell piece strings The some convergent belts being linked togather, and convergent belt connect some rosettees, multiple cell pieces be positioned at the first transparent EVA film with Between second transparent EVA film, the gap between multiple cell pieces has reflective membrane to cover, and described rear safety glass is provided with perforate, Convergent belt is connected with rosette after passing in described perforate.

Improving further as this utility model, described battery component includes being arranged in the cell piece of six groups, three remittances Stream band and three rosettees, adjacent two Battery pack sheets are connected by three described convergent belts, three convergent belts respectively with three Rosette connects.

Improve further as this utility model, the thickness of described front safety glass and rear safety glass be 1.5mm～ 2.5mm。

Improving further as this utility model, the width of described reflective membrane is 3mm～25mm.Described front tempering glass Glass is 1.8mm with the thickness of rear safety glass.

Improving further as this utility model, described rosette is pasted and fixed on rear safety glass.

Improve further as this utility model, described front safety glass is coated with antireflective film.Antireflective film improves printing opacity Rate, front safety glass light transmittance is more than or equal to 93%.

Compared with prior art, the utility model has the advantage of by the gap between cell piece and cell piece and The edge lay reflex film of battery component, the light that will transmit through gap location and edge reflexes to front tempering again Glass or rear safety glass, be re-reflected in cell piece again absorbing, add illumination utilization rate, improve battery component Generated energy.

Accompanying drawing explanation

Fig. 1 is the generalized section of the efficient solar double-glass assemblies of this utility model；

Fig. 2 is the axonometric chart of the battery component of the efficient solar double-glass assemblies of this utility model；

Fig. 3 is the constitutional diagram of the efficient solar double-glass assemblies of this utility model.

Detailed description of the invention

Below in conjunction with accompanying drawing embodiment, this utility model is described in further detail.

As shown in Figure 1 to Figure 3: a kind of efficiently solar double-glass assemblies, solar double-glass assemblies includes front safety glass the 1, first transparent EVA film 2, reflective membrane the 4, second transparent EVA film 5 and rear safety glass 6, the first transparent EVA film 2 be laid in before on safety glass 1, second Transparent EVA film 5 be laid in after under safety glass 6, be provided with battery between the first transparent EVA film 2 and the second transparent EVA film 5 Assembly 3, battery component 3 is rectangular sheet structure, and battery component 3 exists gap, the gap location of battery component 3 and battery component The edge of 3 is provided with reflective membrane 4, and the gap of battery component 3 is completely covered and outside battery component 3 by reflective membrane 4 Week constitutes rectangular outer frame, and reflective membrane 4 is laid between battery component 3 and the second transparent EVA film 5.

Battery component 3 includes multiple cell piece 30, the some convergent belts 31 being cascaded by multiple cell pieces 30, and Some rosettees 32 that convergent belt 31 connects, multiple cell pieces 30 be positioned at the first transparent EVA film 2 and the second transparent EVA film 5 it Between, the gap between multiple cell pieces 30 has reflective membrane 4 to cover, and rear safety glass 6 is provided with perforate 61, and convergent belt 31 is from perforate 61 It is connected with rosette 32 after inside passing.

30, three convergent belts 31 of cell piece that battery component 3 includes being arranged in six groups and three rosettees 32, three conflux Being connected by two adjacent Battery pack sheets 30 with 31, three convergent belts 31 are connected with three rosettees 32 respectively.

Front safety glass 1 is 1.5mm～2.5mm with the thickness of rear safety glass 6.The width of reflective membrane 4 be 3mm～ 25mm。

Front safety glass 1 is 1.8mm with the thickness of rear safety glass 6.Rosette 32 is pasted and fixed on rear safety glass 6 On.It is coated with antireflective film on front safety glass 1.

It should be pointed out that, and the foregoing is only preferred forms of the present utility model, be not all, of embodiment, ability Any equivalence that technical solutions of the utility model are taked by territory those of ordinary skill by reading this utility model description Change, is claim of the present utility model and is contained.

Claims (8)

1. an efficient solar double-glass assemblies, it is characterised in that described solar double-glass assemblies include front safety glass, the first transparent EVA film, Reflective membrane, the second transparent EVA film and rear safety glass, the first transparent EVA film be laid in before on safety glass, the second transparent EVA Film be laid in after under safety glass, be provided with battery component between the first transparent EVA film and the second transparent EVA film, described Battery component is rectangular sheet structure, and battery component exists gap, the gap location of described battery component and battery component Edge is provided with reflective membrane, and the gap of battery component is completely covered and constitutes square in battery component periphery by reflective membrane Shape housing, described reflective membrane is laid between battery component and the second transparent EVA film.

The efficient solar double-glass assemblies of one the most according to claim 1, it is characterised in that described battery component includes multiple electricity Pond sheet, some convergent belts that multiple cell pieces are cascaded, and some rosettees that convergent belt connects, multiple cell pieces Between the first transparent EVA film and the second transparent EVA film, the gap between multiple cell pieces has reflective membrane to cover, described Rear safety glass is provided with perforate, and convergent belt is connected with rosette after passing in described perforate.

The efficient solar double-glass assemblies of one the most according to claim 2, it is characterised in that described battery component includes being arranged in The cell piece of six groups, three convergent belts and three rosettees, two adjacent Battery pack sheets are connected by three described convergent belts, and three Individual convergent belt is connected with three rosettees respectively.

The efficient solar double-glass assemblies of one the most according to claim 1, it is characterised in that described front safety glass and rear tempering The thickness of glass is 1.5mm～2.5mm.

The efficient solar double-glass assemblies of one the most according to claim 1, it is characterised in that the width of described reflective membrane be 3mm～ 25mm。

The efficient solar double-glass assemblies of one the most according to claim 1, it is characterised in that described front safety glass and rear tempering The thickness of glass is 1.8mm.

The efficient solar double-glass assemblies of one the most according to claim 2, it is characterised in that after described rosette is pasted and fixed on On safety glass.

The efficient solar double-glass assemblies of one the most according to claim 1, it is characterised in that be coated with on described front safety glass and subtract Anti-film.