CN206357771U - The auxiliary element of double glass photovoltaic module laminations - Google Patents

Abstract

The utility model provides the auxiliary element of a kind of pair of glass photovoltaic module lamination, described pair of glass photovoltaic module includes solar battery sheet, it is covered in the first cover-plate glass of the solar battery sheet upper and lower surface, second cover-plate glass, and the first adhesive film between solar battery sheet and the first cover-plate glass, the second adhesive film between solar battery sheet and the second cover-plate glass, second cover-plate glass is provided with through hole, also include passing through the through hole, the lead-out wire drawn from the solar panel, the auxiliary element includes auxiliary element body and auxiliary element movable end, the auxiliary element body pad is placed between the lead-out wire and the second cover-plate glass, the auxiliary element movable end is fitted on second adhesive film by the through hole.Filler strip of the present utility model causes double glass photovoltaic modulies not allow to be also easy to produce bubble byproduct in lamination process, effectively prevents through hole adhesive film pollution silica gel plate.

Description

The auxiliary element of double glass photovoltaic module laminations

Technical field

The utility model is related to solar-photovoltaic technology field, more particularly to a kind of pair of glass photovoltaic module lamination auxiliary Element.

Background technology

Largely double glass photovoltaic modulies are used in solar energy industry.Of the prior art pair of glass photovoltaic module is in lamination process In, it is that the double glass photovoltaic modulies that will be laid are put into laminating machine, the through hole of lead-out wire from back-cover glass sheet is worn out, first will Glued membrane melting layer, then flattens lead-out wire again.Because the silica gel plate in lamination process, covered on laminating machine directly connects with lead-out wire Touch, silica gel plate has hardness, and pliability is inadequate, it is impossible to preferably contacted with through hole adhesive film, transmission pressure is to through hole Adhesive film, such lamination stages through hole do not receive the adhesive film of pressure transmission fusing, flatten when easily produce bubble and ask Topic, so through hole lead-out wire position air bubble problem easily occurs and through hole adhesive film is Nian Jie with laminating machine upper cover silica gel plate thereof Pollute silica gel plate problem.

Utility model content

The technical problem that the utility model is solved is the auxiliary element for providing a kind of pair of glass photovoltaic module lamination, its Traditional double glass photovoltaic modulies can be solved in lamination, bubble, through hole EVA layer and layer easily occurs in through hole lead-out wire position The problem of press upper cover silica gel plate thereof bonding pollution silica gel plate.

In order to solve the above technical problems, the utility model provides the auxiliary element of a kind of pair of glass photovoltaic module lamination, Described pair of glass photovoltaic module includes solar battery sheet, is covered in the first cover plate glass of the solar battery sheet upper and lower surface Glass, the second cover-plate glass, and the first adhesive film between solar battery sheet and the first cover-plate glass, positioned at solar-electricity The second adhesive film between pond piece and the second cover-plate glass, second cover-plate glass is provided with through hole, in addition to by described Through hole, the lead-out wire drawn from the solar panel, the auxiliary element include auxiliary element body and lived with auxiliary element Moved end, the auxiliary element body pad is placed between the lead-out wire and the second cover-plate glass, and the auxiliary element movable end leads to The through hole is crossed to fit on second adhesive film.

Further, the auxiliary element is flexible filler strip, and the auxiliary element body is filler strip body, described auxiliary It is filler strip movable end to help element movable end.

Further, the filler strip is rectangle fastening type structure, and the filler strip movable end is parallel on the filler strip Two opening formed.

Further, the filler strip movable end is rectangle, and the area of the filler strip movable end is not less than the through hole Area.

Further, the filler strip thickness is 0.15mm-0.25mm.

Further, first adhesive film, the second adhesive film are EVA layer.

Compared with prior art, using the filler strip of described in the utility model pair of glass photovoltaic module lamination, it had been laminated Cheng Zhong, filler strip pad is placed between lead-out wire and the second cover-plate glass, and filler strip movable end fits in the second glued membrane by the through hole On layer, the varnished cloth filler strip of use because material is soft and feature of shape, can adhesive film more fully at contact through hole, make Adhesive film is not directly contacted with the silica gel plate of laminating machine in fusing, extruding, and adhesive film receives the certain pressure of varnished cloth filler strip, no Easily produce bubble byproduct；And filler strip uses varnished cloth material, with resistant to elevated temperatures feature, will not be stained with adhesive film, so have Effect prevents through hole adhesive film pollution silica gel plate.

Brief description of the drawings

Fig. 1 is structural representation of the utility model using double glass photovoltaic modulies of the auxiliary element described in an embodiment；

Fig. 2 is diagrammatic cross-section of the utility model using double glass photovoltaic modulies of the auxiliary element described in an embodiment；

Fig. 3 is enlarged diagrams of the Fig. 1 at A；

Fig. 4 is the schematic diagram of the auxiliary element of double glass photovoltaic module laminations described in the embodiment of the utility model one.

Embodiment

Embodiment of the present utility model is described below in detail, the example of the embodiment is shown in the drawings, wherein Same or similar label represents same or similar element or the element with same or like function from beginning to end.Lead to below It is exemplary to cross the embodiment being described with reference to the drawings, it is intended to for explaining the utility model, and it is not intended that to this practicality New limitation.

As shown in Figure 1, 2, this embodiment offers a kind of pair of lamination of glass photovoltaic module 100 filler strip 200, the i.e. filler strip 200 are applied in the laminating technology of double glass photovoltaic modulies 100.Filler strip 200 is a kind of auxiliary element.

Double glass photovoltaic modulies 100 include the first cover-plate glass 101, the first adhesive film 107, the sun successively from front to the back side Can cell piece 103, the second adhesive film 106, the second cover-plate glass 104.Specifically, double glass photovoltaic modulies 100 include solar-electricity Pond piece 103, the first cover-plate glass 101 for being covered in the upper and lower surface of solar battery sheet 103 and the second cover-plate glass 104 and position The first adhesive film 107 between the cover-plate glass 101 of solar battery sheet 103 and first, positioned at solar battery sheet 103 and The second adhesive film 106 between two cover-plate glass 104.

It is preferred that, the first adhesive film 107 and the second adhesive film 106 are EVA layer.First cover-plate glass 101 can be positive lid Glass sheet, the second cover-plate glass 104 is back-cover glass sheet.

The principle of the laminating technology of double glass photovoltaic modulies is：The double glass photovoltaic modulies 100 laid are put into laminating machine (not Diagram) in, the air in double glass photovoltaic modulies 100 is extracted out by vacuumizing, then heating makes the first adhesive film 107, second Adhesive film 106 melts, and pressurizeing makes the first adhesive film of thawing 107 it is full of the first cover-plate glass 101 and solar battery sheet Gap between 103, the second adhesive film 106 is full of the gap between the second cover-plate glass 104 and solar battery sheet 103, together When by extrude exclude gap in the middle of bubble, by solar battery sheet 103, the first cover-plate glass 101, the second cover-plate glass 104 are bonded together, finally cooling solidification.

Wherein, at Fig. 1 A, i.e. visible in Fig. 3, the second cover-plate glass 104 is provided with through hole 102, and lead-out wire 105 is Draw, then passed at the through hole 102 of the second cover-plate glass 104 from solar battery sheet 103.

As shown in figure 4, filler strip 200 includes filler strip body 201 and filler strip movable end 202.

The pad of filler strip body 201 is placed between the cover-plate glass 104 of lead-out wire 105 and second, and filler strip movable end 202 is covered on the On through hole 102 on one cover-plate glass 101.Filler strip movable end 202 is fitted in by the through hole 102 on the second cover-plate glass 104 On second adhesive film 106.

Preferably, filler strip 200 is rectangle fastening type structure, parallel on filler strip 200 two of filler strip movable end 202 Opening is formed, and is the first opening 203 respectively, the second opening 204, in fact, the first opening 203, the second opening 204 is filler strip Two on 200 seams cut off, form filler strip body 201 and filler strip movable end 202.Filler strip body 201 and filler strip movable end Just through hole 102 and lead-out wire 105 are withheld between 202, the buckle structure workmanship of filler strip 200 is fairly simple, and simple shape is real With.

Filler strip movable end 202 can also be rectangle, and size is determined with the size of through hole 102 and lead-out wire 105, pad The area of bar movable end 202 is not less than area at the through hole 102 on the second cover-plate glass 104, and the shape of filler strip movable end 202 can With corresponding with through hole 102, through hole 102 is covered just or fully so that in lamination process, the silica gel plate extruding paint on laminating machine Cloth filler strip 200, and the second adhesive film of non-direct contact 106.

The material of filler strip 200 is preferably Teflon high temperature resistant varnished cloth.The thickness of filler strip 200 is preferably 0.15mm-0.25mm, is being protected Compare saving material while card thickness.Varnished cloth filler strip 200 can more fill because material is soft and shape, the feature of thickness Second adhesive film 106 at the contact through hole 102 divided, makes the second adhesive film 106 receive varnished cloth filler strip 200 in fusing, extruding Certain pressure, it is not easy to produce bubble byproduct.

As shown in figure 4, be schematic diagram when filler strip 200 is used, filler strip movable end 202 departs from filler strip body 201 and can be with Any angle free bend, forms buckle, and such filler strip 200 can be compared close, docile with double contact positions of glass photovoltaic module 100. After using buckle-type varnished cloth filler strip 200 at each through hole 102 of double glass photovoltaic modulies 100, in lamination process, on laminating machine Silica gel plate extruding varnished cloth filler strip 200, varnished cloth filler strip 200 can be contacted more fully due to material softness and the feature of shape The second adhesive film 106 at through hole 102.And due to the resistant to elevated temperatures feature of varnished cloth, effectively prevent the second adhesive film at through hole 102 106 pollution silica gel plates.

It is described above, only it is most preferred embodiment of the present utility model, not makees any formal to the utility model Limitation, any those skilled in the art, in the case where not departing from technical solutions of the utility model ambit, using above-mentioned The method content of announcement makes many possible variations and modification to technical solutions of the utility model, belongs to claim protection Scope.

Claims (6)

1. the auxiliary element of a kind of pair of glass photovoltaic module lamination, described pair of glass photovoltaic module includes solar battery sheet, covering The first cover-plate glass, the second cover-plate glass in the solar battery sheet upper and lower surface, and positioned at solar battery sheet and The first adhesive film between one cover-plate glass, the second adhesive film between solar battery sheet and the second cover-plate glass, institute The second cover-plate glass is stated provided with through hole, in addition to the lead-out wire drawn by the through hole, from the solar panel, its It is characterised by, the auxiliary element includes auxiliary element body and auxiliary element movable end, the auxiliary element body pad is placed in Between the lead-out wire and the second cover-plate glass, the auxiliary element movable end fits in second glued membrane by the through hole On layer.

2. the auxiliary element of double glass photovoltaic module laminations as claimed in claim 1, it is characterised in that：The auxiliary element is Flexible filler strip, the auxiliary element body is filler strip body, and the auxiliary element movable end is filler strip movable end.

3. the auxiliary element of double glass photovoltaic module laminations as claimed in claim 2, it is characterised in that：The filler strip is in rectangular Shape fastening type structure, the filler strip movable end two openings parallel on the filler strip are formed.

4. the auxiliary element of double glass photovoltaic module laminations as claimed in claim 2, it is characterised in that：The filler strip movable end It is rectangle, the area of the filler strip movable end is not less than the via area.

5. the auxiliary element of double glass photovoltaic module laminations as claimed in claim 2, it is characterised in that：The filler strip thickness is 0.15mm-0.25mm。

6. the auxiliary element of double glass photovoltaic module laminations as claimed in claim 1, it is characterised in that：First glued membrane Layer, the second adhesive film are EVA layer.