CN110073502A - Encapsulating film for lapping formula photovoltaic module - Google Patents

Abstract

The present invention relates to the purposes for the structuring encapsulating film and the encapsulating film of lapping formula photovoltaic module in photovoltaic module being made of thermoplastic material.The invention further relates to the method for photovoltaic module of the manufacture at least two lapping formula solar batteries and photovoltaic modules at least two lapping formula solar batteries.

Description

Encapsulating film for lapping formula photovoltaic module

The present invention relates to for lapping formula photovoltaic module structuring encapsulating film, including the photovoltaic mould of the structuring encapsulating film The purposes of block, the method for manufacturing these modules and structuring encapsulating film in photovoltaic module.

In general, solar battery is electrically connected in series, because resulting battery strings provide higher module voltage, and These strings are laminated between two encapsulating films and two top layers to form photovoltaic module.If solar battery is connected by lapping formula Contact can then be produced with forming battery strings with especially small Modular surface and therefore with efficient photovoltaic module. For this connection, usual pasty compound, especially electroconductive binder, it is necessary to two partly overlapping solar batteries it Between accurate dimension gap in harden.Alternatively, welded connecting must be generated in the gap, it is based particularly on soldering paste or solder The welded connecting of reservoir.In addition, the protrusion part of adjacent cell must keep as small as possible to cover baby battery surface.

In order to further realize the invalid intermediate space of adjacent string as small as possible or realize offset lapping, it is necessary to accurately Coordinate the position of the battery transverse to string direction.It is some to exist with the solar cell module for taking lap connection and its manufacturing method It is known in the prior art.

4030713 A1 of DE is related to a kind of photovoltaic solar generator, and solar battery has at longitudinal edge to be connect Touching connector and the lapping string for being combined to form reduplicative forms, plurality of lapping string are embedding preferably between carrier and lid Enter into hot melt adhesive film.

3942205 A1 of DE describes the method for manufacture photovoltaic solar generator, the solar energy of the solar generator Battery is had the contact element extended in cell widths and is combined in the form of lapping to form lapping string, wherein the lapping string It is embedded into hot melt adhesive film between carrier and lid.The method is characterized in that comprising the following methods: a) by paste Contact agent is applied on the contact element of the solar battery, and wherein the paste contact agent realizes two in cryogenic vacuum technique The conductive connection of two mutually to recline the contact element of adjacent solar battery；B) by the solar battery in the form of lapping cloth It sets on the hot melt adhesive film being located on the carrier, so that the contact element of two adjacent solar batteries is connect by the paste Touching agent loosely connects；C) the lapping string is conductively connected to each other in its fringe region, and is furnished with electric connector；D) by the second heat Fusibleness bonding film and lid cover the lapping string；And e) contact element of adjacent solar battery Temperature Vacuum processing in each other Be conductively connected, and and then, the carrier, the hot melt adhesive film, the solar battery and the lid directly mechanically fixedly that This connection, to form solar cell power generation machine.

US 2015/0349174A1 is related to the high-efficient disposition for solar cell module, the solar cell module packet Solar battery is included, which is arranged in the form of lapping to form superbattery.The latter may be disposed so that the sun The surface of energy module is utilized effectively, and series resistance reduces, and module efficiency increases.

DE 3708548 is related to a kind of solar cell module, including the line of solar cells of multiple solar batteries Arranged superposed so that the banjo fixing butt jointing of adjacent solar battery row is offset relative to each other, and makes solar cell module Interior is connected to become possibility in parallel and serial.

However, the lapping formula solar cell module of the prior art has the shortcomings that.In order to definitely define connecting material Clearance height or fixed battery position, it is necessary in a template by battery arrangement, be fixedly connected, be then placed on as long string On encapsulating film.The repositioning completely gone here and there is complicated and may cause fracture, especially when these strings are also mutually aligned Or it is especially true when purpose is transverse to the offset of the battery in string direction.

The object of the present invention is to provide a kind of encapsulating films as a result, allow to definitely define the clearance height of connecting material, and And also allow accurately to fix the overlapping widths of adjacent cells.Pass through the very small overlapping between adjacent cell, it is ensured that more High module efficiency.Another object of the present invention includes providing a kind of simpler solar battery of the manufacture with lapping formula Photovoltaic module method, this method allow directly in module film over-assemble, without using additional battery strings.This Outside, string/laminating technology should be able to also completely carry out (in common technique).In addition, the purpose of part of the invention, includes Can accurate measurement connecting material, and therefore realize minimize covering battery surface.The purpose of the present invention further includes providing light Module is lied prostrate, only there is lesser intermediate space between adjacent string or without invalid intermediate space.In order to avoid this Kind intermediate space, especially for offset lapping, it is necessary to also make the solar battery of adjacent cell string transverse to string direction essence Really alignment.

The purpose according to independent claims 1 for the encapsulating film of lapping formula photovoltaic module by realizing, the envelope Dress film is made of thermoplastic material, and wherein the encapsulating film has structure on the surface, which, which allows to position to have, limits overlapping Solar battery.

Dependent claims 2 to 6 elaborate the preferred embodiment of encapsulating film according to the present invention.

Independent claims 7 further relate to the method that manufacture has the photovoltaic module of at least two lapping formula solar batteries, Wherein,

A) front side encapsulating film is equipped with structure, and the structure is for receiving lapping formula solar battery；

B) unstructured surface of the front side encapsulating film is placed on the cover board of front side；

C) solar battery is locally provided with connecting material；

D) solar battery is located in the structure of the front side encapsulating film；

E) rear side encapsulating film and lid are applied on the surface of the solar battery far from the front side encapsulating film；

And

F) answering by heat treatment preparation front side cover board, front side encapsulating film, solar battery, rear side encapsulating film and rear side cover Condensation material.

Dependent claims 8 to 11 elaborate preferred embodiment according to the method for the present invention.

In addition, independent claims 12 are related to a kind of lapping formula photovoltaic module, there is front side structure encapsulating film, be located at and be somebody's turn to do At least two lapping formula solar batteries fixed in the structure of front side encapsulating film and by connecting material, rear side encapsulating film and preceding Side transparent cover plate, wherein the lapping formula solar battery has 10 μm to 500 μm of overlapping.

Independent claims 13 further relate to can be according to the photovoltaic module of any one of claim 7 to 11 manufacture.

Independent claims 14 are related to encapsulating film according to any one of claim 1 to 6 in lapping formula photovoltaic mould Purposes in block.

Structuring encapsulating film

The side of cover board side of the encapsulating film according to the present invention preferably in the photovoltaic module for being arranged far from finished product It is upper that there is structure, and define the position of the battery to lapping.

Preferred embodiment in accordance with the present invention, the encapsulating film have structure, which is formed by structural detail, the structural elements The cross section of part is selected from by zigzag, rectangle, the trapezoidal and semicircle group formed, is raised and reduced in film surface；And And the element is designed along extrusion axis with dotted or linear forms and combinations thereof.

It is preferred here that the element designed along extrusion axis it is linear.Adhesive is frequently used for connection solar-electricity Pond is to form photovoltaic module.It can be by selecting linear structural detail to prevent liquid viscosity adhesive from hardening along extrusion axis It is escaped from the gap between two solar batteries before.

According to another preferred embodiment of the invention, which is configured so that the overlapping widths of the solar battery exist In the range of 10 μm to 500 μm, preferably in the range of 30 μm to 350 μm, and particularly preferably in 50 μm to 200 μm of range It is interior.

Further embodiment of the invention is related to encapsulating film, which is configured the overlapping so that the solar battery Height is in the range of 0.01mm to 0.1mm, preferably in the range of 0.02mm to 0.08mm, and particularly preferably in 0.03mm To in the range of 0.06mm.

According to another preferred embodiment of the invention, the encapsulating film be selected from by ethane-acetic acid ethyenyl ester, polyolefin, silicone, The material of the group of polyvinyl butyral, ionomer and its mixture composition.

It is crosslinkable that another preferred embodiment of the invention, which is provided for the material of the encapsulating film,；The thermoplastic material It is preferably crosslinked, to form elastomer.

Further embodiment according to the present invention, the film surface of the encapsulating film have 10 μm to 100 μm of roughness.It is logical Promotion exhaust is crossed, which is worked in laminating technology with supporting way.

The surface texture of encapsulating film can be manufactured by known thermoplastic plastics shaping method, such as the mould for passing through heating Tool/roller punching press passes through extruding.

Structuring encapsulating film according to the present invention is preferred for lapping formula photovoltaic module.

The method for manufacturing photovoltaic module

It includes following that manufacture according to the present invention, which has the method for the photovoltaic module of at least two lapping formula solar batteries, Step:

A) construction front side encapsulating film, wherein this is configured to receive lapping formula solar battery；

B) unstructured surface of the front side encapsulating film is placed on the cover board of front side；

C) connecting material is provided for the solar battery；

D) solar battery is located in the structure of the front side encapsulating film；

E) rear side encapsulating film and lid are applied on the surface of the solar battery far from the front side encapsulating film；And

F) answering by heat treatment preparation front side cover board, front side encapsulating film, solar battery, rear side encapsulating film and rear side cover Condensation material.

Preferred embodiment according to the method for the present invention, include the steps that according to the method for the present invention it is other g).The step Provide the preparation that the pre-composite material between the connecting material and the solar battery is carried out by heating.Step g) is in step D) it is carried out between step e).

If further preferably step a) is to f) with the progress of shown sequence without step g).

The structure of preferred embodiment according to the method for the present invention, the front side encapsulating film passes through rushing by means of temperature control mold It presses or by being cast in former and being carried out with after-hardening.

According to another preferred embodiment, which is constructed such that

The encapsulating film has structure, which is formed by structural detail, and the cross section of the structural detail is selected from by sawtooth The group of shape, rectangle, trapezoidal and semicircle composition, raises and reduces in film surface；Also, the element along extrusion axis with Dotted or linear forms and combinations thereof design；And/or

The overlapping widths of used solar battery are in the range of 10 μm to 500 μm, preferably at 30 μm to 350 μm In the range of, particularly preferably in the range of 50 μm to 200 μm；And/or

The stack height of the solar battery ready for use is in the range of 0.01mm to 0.1mm, preferably in 0.02mm To 0.08mm, and particularly preferably in the range of 0.03mm to 0.06mm.

It is soldering paste or conducting polymer that another preferred embodiment of method of the invention, which provides the connecting material, especially Adhesive.The application of the connecting material preferably passes through distributor, screen process press or stenciler and carries out.

Adjoining of the battery at structure, such as at the manomelia of broached-tooth design, hinder the stream of liquid viscosity connecting material Out.The connection for establishing solar battery can also be realized according to the method for the present invention and is realized in modular construction typically adds Heat, using as lamination a part (referring to Wirth H., Weiss KA, Wiesmeier C., " photovoltaic module --- technology and Trustworthiness " (Photovoltaic Modules-Technology And Reliability), Walter de Gruyter, Berlin, page 2016,88), i.e., composite material is produced between each layer of photovoltaic module.The structure of encapsulating film is during fusing Support material distribution, and place reduction solar battery matrix on pressure.

Lapping formula photovoltaic module

A kind of lapping formula photovoltaic module according to the present invention has front side structure encapsulating film, is located at the front side encapsulating film Structure in and at least two lapping formula solar batteries, the rear side encapsulating film, front side transparency cover that are electrically connected with connecting material Plate and rear side cover, wherein the solar battery has 10 μm to 500 μm of overlapping.

The photovoltaic module can be particularly easy to produce according to the above method.

Fig. 1 to Fig. 7 should not be construed as restrictive for the present invention to be better described.

List of reference characters:

(1) structuring encapsulating film

(2) the long limb of structure

(3) manomelia of structure

(4) solar battery

(5) local raised portion

(6) local dent

(7) cover board

(8) connecting material

(9) metal tape

(10) photovoltaic module

Fig. 1 is shown sets structured encapsulating film 1, wherein the position of the pre-qualified solar battery to lapping of the structure It sets.According to Fig. 1, broached-tooth design is formed, wherein long limb 2 limits overlapping widths, manomelia 3 limits stack height.Manomelia 3 also defines The height (referring to Fig. 5) in the gap where conductive connecting material 8.

Fig. 2 and Fig. 3 show construct 1 structure of encapsulating film by local raised portion 5 or local raised portion 5 and groove 6 Further selection.The position of solar battery can be supported by partial groove.

According to Fig. 4, which can be extended linearly on entire module width along extrusion axis, however, it is also possible to interrupt Or only at form (not shown).

Fig. 5 shows photovoltaic module 10, and the encapsulating film 1 of wherein structuring is placed on cover board 7, and solar battery 4 Equipped with (such as passing through distribution, silk-screen printing, mould printing) connecting material (8) (for example, electroconductive binder, soldering paste), and put It sets in the structured side of encapsulating film 1.Heating (such as irradiation) structure is to form or prepare the company between solar battery 4 Connect material (pre-composite material).Rear side encapsulating film and lid is not shown.

According to the cross-sectional view in Fig. 6, solar battery band 4 has at the long edge and different lateral positions being oppositely arranged to be taken Typical metal tape 9 and 9 ' in folded technology.Then connecting material 8 can be applied to metal tape 9 or 9 ' on.

The width that structure 5 is shown on the left of Fig. 7 can extend on the overall width of photovoltaic module 10, so that adjacent The alignment of the solar battery 4 of battery strings on string is realized over the entire structure.In this embodiment, the interval of battery strings is special Closely.The lapping structure of offset is shown on the right side of Fig. 7, that is, the battery 4 of string is displaced relative to each other.

Claims (14)

1. a kind of encapsulating film (1) for lapping formula photovoltaic module (10) being made of thermoplastic material, wherein the encapsulating film (1) there is structure on the surface, the structure, which allows to position, has the solar battery (4) for limiting overlapping.

2. encapsulating film according to claim 1, which is characterized in that the structure is formed by structural detail, the structural elements It includes zigzag, rectangle, trapezoidal and semicircular group that the cross section of part, which is selected from, is raised and reduced in film surface；Also, The element is along extrusion axis with dotted or linear forms and combinations thereof design, it is preferred that the element is set along extrusion axis It is calculated as linear.

3. encapsulating film (1) according to claim 1 or 2, which is characterized in that the overlapping widths of the solar battery (4) In the range of 10 μm to 500 μm, preferably in the range of 30 μm to 350 μm, and particularly preferably in 50 μm to 200 μm of model In enclosing.

4. encapsulating film (1) according to any one of the preceding claims, which is characterized in that the solar battery (4) Stack height is in the range of 0.01mm to 0.1mm, preferably in the range of 0.02mm to 0.08mm, and particularly preferably exists In the range of 0.03mm to 0.06mm.

5. encapsulating film (1) according to any one of the preceding claims, which is characterized in that for the encapsulating film (1) It includes ethane-acetic acid ethyenyl ester, polyolefin, silicone, polyvinyl butyral, ionomer and its mixture that thermoplastic material, which is selected from, Group；And/or

The thermoplastic material is crosslinkable.

6. encapsulating film (1) according to any one of the preceding claims, which is characterized in that the film surface also has 10 μm To 100 μm of roughness.

7. a kind of method that manufacture has the photovoltaic module (10) of at least two lapping formula solar batteries (4), wherein

A) front side encapsulating film is equipped with structure, and the structure is for receiving lapping formula solar battery (4)；

B) unstructured surface of the front side encapsulating film (1) is placed on front side cover board (7)；

C) solar battery (4) is at least partially equipped with connecting material；

D) solar battery (4) is located in the structure of the front side encapsulating film (1)；

E) rear side encapsulating film and lid are applied on the surface of the solar battery (4) far from the front side encapsulating film (1)；And

F) pass through heat treatment preparation front side cover board (7), front side encapsulating film (1), solar battery (4), rear side encapsulating film and rear side The composite material of lid.

8. the method according to the description of claim 7 is characterized in that the method also includes step g):

G) pre-composite material is prepared between the connecting material (8) and the solar battery (4) by heating, wherein step G) it is carried out between step d) and step e).

9. method according to claim 7 or 8, which is characterized in that the structure of the front side encapsulating film (1) by by means of The punching press of temperature control mold or by being cast in former and being carried out with after-hardening.

10. method according to any one of claims 7 to 9, which is characterized in that the connecting material (8) be soldering paste or The application of conducting polymer, especially adhesive, the connecting material (8) preferably passes through distributor, screen process press or mould Plate printer carries out.

11. method according to any one of claims 7 to 10, which is characterized in that the encapsulating film (1) is by thermoplasticity material Material composition, be preferably also it is crosslinkable, be especially selected from by ethane-acetic acid ethyenyl ester, polyolefin, silicone, polyvinyl alcohol contracting fourth The group of aldehyde, ionomer or combinations thereof.

12. a kind of lapping formula photovoltaic module (10), with front side structure encapsulating film, positioned at the knot of the front side encapsulating film (1) At least two lapping formula solar batteries (4), rear side encapsulating film and the front side transparency cover fixed in structure and by connecting material (8) Plate (7), wherein the lapping formula solar battery has 10 μm to 500 μm of overlapping.

13. the photovoltaic module (10) that one kind can be manufactured in method according to any one of claims 7 to 11.

14. purposes of the encapsulating film (1) according to any one of claim 1 to 5 in lapping formula photovoltaic module (10).