CN110055007A

CN110055007A - Application and application method of the Multi-layer composite pressure-sensitive conductive adhesive film in photovoltaic imbrication battery component

Info

Publication number: CN110055007A
Application number: CN201910216779.3A
Authority: CN
Inventors: 张立伟; 赵立萍
Original assignee: Suzhou Weibang Material Technology Co Ltd
Current assignee: Suzhou Weibang Material Technology Co Ltd
Priority date: 2019-03-21
Filing date: 2019-03-21
Publication date: 2019-07-26

Abstract

The application and application method that the present invention relates to imbrication cell module encapsulation application fields more particularly to Multi-layer composite pressure-sensitive conductive adhesive film in photovoltaic imbrication battery component.The present invention presss from both sides one layer of conductive base among pressure-sensitive conductive adhesive film, then compound pressure-sensitive conductive adhesive film is pasted on to the cell piece marginal portion of photovoltaic imbrication battery component, is set using manual or automatic makeup and is sequentially connected in series stickup cell piece with imbricated way.The present invention applies Multi-layer composite pressure-sensitive conductive adhesive film in photovoltaic imbrication battery component, it can make stacked photovoltaic watt battery component that can keep stability with when using in the extreme environments such as high/low temperature in a series of expand with heat and contract with cold, since glue film also has conductive base layer, further improve electric conductivity, and improve the mechanical property of glue film, it can be easy to remove from release paper or release film, be unlikely to deform, facilitate processing and be pasted.

Description

Multi-layer composite pressure-sensitive conductive adhesive film in photovoltaic imbrication battery component application and Application method

Technical field

The present invention relates to imbrication cell module encapsulation application fields more particularly to Multi-layer composite pressure-sensitive conductive adhesive film to exist Application and application method in photovoltaic imbrication battery component.

Background technique

Solar energy is a kind of energy of non-polluting renewable, and development and utilization are the hot spot of countries in the world concern, solar energy Battery is a kind of energy conversion device for converting optical energy into electric energy, and solar battery sheet component is as main carriers to solar energy Development and utilization play the role of vital, the connection of cell piece is the most key ring of processing link.By traditional light Volt cell piece is processed into several small pieces cell pieces, then cell piece is connected into highdensity photovoltaic imbrication component in the form of imbrication, The uniformity of current density can be improved, improve generated energy, the connection between current photovoltaic imbrication component cell piece is substantially Connection is realized by welding or conductive glue, all there is a problem of that technology and application are upper；Welding is aligned due to not having tack It is difficult to be bonded constructing operation, and needs to be heated at high temperature, is easy to influence to use because situations such as rosin joint is not connected to caused by heating unevenly. It is uneven that dispensing is easy to appear using conductive glue, has excessive glue after pressing, and need to be heated at high temperature, easily causes virtual connections conductive Unevenly, cell piece being connected using conductive glue, brittleness is larger after conductive glue solidification, and easily cause crack etc. to destroy component, Disadvantage mentioned above is all a large amount of debugging efforts also to have been used in industry caused by the performance of material itself, but be difficult to reach always To perfect condition.

Summary of the invention

The purpose of the present invention is to solve mentioning in existing in the prior art and background technique, multilayer is provided Application and application method of the compound pressure-sensitive conductive adhesive film in photovoltaic imbrication battery component.

Application of the Multi-layer composite pressure-sensitive conductive adhesive film in photovoltaic imbrication battery component.

Preferably, Multi-layer composite pressure-sensitive conductive adhesive film answering during photovoltaic imbrication battery component cell piece is bonded With.

Preferably, application method of the Multi-layer composite pressure-sensitive conductive adhesive film in photovoltaic imbrication battery component is to utilize The cell piece marginal portion that compound pressure-sensitive conductive adhesive film is pasted on to photovoltaic imbrication battery component is set in manual or automatic makeup, Stickup cell piece is sequentially connected in series with imbricated way.

Preferably, the Multi-layer composite pressure-sensitive conductive adhesive film includes at least two layers of pressure-sensitive conductive adhesive film.

Preferably, the Multi-layer composite pressure-sensitive conductive adhesive film preparation method the following steps are included:

Step 1: the conductive particle that 10wt%-60wt% is added in pressure-sensitive glue is uniformly mixed, the material mixed is coated on Solidify in release film or release paper, it is spare that pressure-sensitive conductive adhesive film is made；

Step 2: taking the pressure-sensitive conductive adhesive film prepared, one layer of conductive base is pressed from both sides among every two panels pressure-sensitive conductive adhesive film, Cross cutting stamp processing is carried out after pressing is fixed again, strip cutting part is made, and regular being placed in release film or release paper is received It rolls up up to Multi-layer composite pressure-sensitive conductive adhesive film.

Preferably, the Multi-layer composite pressure-sensitive conductive adhesive film with a thickness of 10-200 μm.

Preferably, the conductive base includes any in metal foil, conductive fibre fabric, conductive non-woven fabrics and conductive grenadine Kind.

Preferably, overlapping widths when adjacent two panels cell piece is bonded are 0.2-1.3mm.

Preferably, the photovoltaic imbrication battery component includes at least 340 cell pieces.

Detailed description of the invention:

Fig. 1 is the structural schematic diagram of Multi-layer composite pressure-sensitive conductive adhesive film of the present invention；

Fig. 2 is Multi-layer composite pressure-sensitive conductive adhesive film barbola work schematic diagram of the present invention；

Fig. 3 is the cell piece component diagram after Multi-layer composite pressure-sensitive conductive adhesive film of the present invention is pasted；

The appended drawing reference of each section is as follows in figure:

1 is pressure sensitive conductive glue film, and 2 be conductive base, and 3 be release paper/film, and 4 be Multi-layer composite pressure-sensitive conductive adhesive film, and 5 are Cell piece.

Specific embodiment

To better understand the objects, features and advantages of the present invention, right combined with specific embodiments below The present invention is described further.

In embodiment 1-7, conductive particle is silver powder, copper powder and bronze weight ratio 5:7:1, and photovoltaic imbrication battery component is shared 340 cell pieces.

Embodiment 1

(1) it prepares Multi-layer composite pressure-sensitive conductive adhesive film: 5 μm of conductive particles mixing of 60wt% being added in acrylic acid glue Uniformly, the material mixed is coated on release film or release paper and is solidified, it is spare that pressure-sensitive conductive adhesive film is made；Then system is taken The pressure-sensitive conductive adhesive film got ready presss from both sides one layer of copper foil among every two panels pressure-sensitive conductive adhesive film, carries out mould again after pressing is fixed Stamp processing is cut, it is 150mm, width 1.3mm that length, which is made, with a thickness of 10 μm of strip cutting part, and regular is placed in It is wound in release film or release paper；

(2) it the fitting of photovoltaic imbrication battery component cell piece: is set using manual or automatic makeup by compound pressure-sensitive conducting resinl Film is pasted on the positive silver in adjacent cell piece edge of photovoltaic imbrication battery component and carries on the back silver-colored part, is sequentially connected in series stickup with imbricated way Cell piece, when stickup, need to apply 10PSI pressure to promote to fix.

Embodiment 2

(1) it prepares Multi-layer composite pressure-sensitive conductive adhesive film: 80 μm of conductive particles mixing of 10wt% being added in acrylic acid glue Uniformly, the material mixed is coated on release film or release paper and is solidified, it is spare that pressure-sensitive conductive adhesive film is made；Then system is taken The pressure-sensitive conductive adhesive film got ready presss from both sides one layer of copper foil among every two panels pressure-sensitive conductive adhesive film, carries out mould again after pressing is fixed Stamp processing is cut, it is 150mm, width 0.4mm that length, which is made, with a thickness of 200 μm of strip cutting part, and regular is placed in It is wound in release film or release paper；

Embodiment 3

(1) it prepares Multi-layer composite pressure-sensitive conductive adhesive film: 10 μm of conductive particles mixing of 50wt% being added in acrylic acid glue Uniformly, the material mixed is coated on release film or release paper and is solidified, it is spare that pressure-sensitive conductive adhesive film is made；Then system is taken The pressure-sensitive conductive adhesive film got ready, the conduction that one layer of nickel plating and copper metal particle are pressed from both sides among every two panels pressure-sensitive conductive adhesive film are fine Wei Bu carries out cross cutting stamp processing again after pressing is fixed, it is 150mm, width 1.2mm that length, which is made, with a thickness of 40 μm of item Shape cutting part, and regular being placed in release film or release paper is wound；

Embodiment 4

(1) prepare Multi-layer composite pressure-sensitive conductive adhesive film: 100 μm of conductive particles that 20wt% is added in acrylic acid glue are mixed It closes uniformly, the material mixed is coated on release film or release paper and is solidified, it is spare that pressure-sensitive conductive adhesive film is made；Then it takes The pressure-sensitive conductive adhesive film prepared, presss from both sides one layer of nickel plating conductive fibre fabric among every two panels pressure-sensitive conductive adhesive film, and pressing is solid Cross cutting stamp processing is carried out after fixed again, it is 150mm, width 0.5mm that length, which is made, with a thickness of 160 μm of strip cutting part, and Regular being placed in release film or release paper is wound；

Embodiment 5

(1) it prepares Multi-layer composite pressure-sensitive conductive adhesive film: 20 μm of conductive particles mixing of 40wt% being added in acrylic acid glue Uniformly, the material mixed is coated on release film or release paper and is solidified, it is spare that pressure-sensitive conductive adhesive film is made；Then system is taken The pressure-sensitive conductive adhesive film got ready presss from both sides one layer of conductive nonwoven fabric, after pressing is fixed again among every two panels pressure-sensitive conductive adhesive film Cross cutting stamp processing is carried out, it is 150mm, width 1mm that length, which is made, with a thickness of 70 μm of strip cutting part, and regular is put It is placed in release film or release paper and winds；

Embodiment 6

(1) it prepares Multi-layer composite pressure-sensitive conductive adhesive film: 60 μm of conductive particles mixing of 30wt% being added in acrylic acid glue Uniformly, the material mixed is coated on release film or release paper and is solidified, it is spare that pressure-sensitive conductive adhesive film is made；Then system is taken The pressure-sensitive conductive adhesive film got ready presss from both sides one layer of conductive nonwoven fabric, after pressing is fixed again among every two panels pressure-sensitive conductive adhesive film Cross cutting stamp processing is carried out, it is 150mm, width 0.7mm that length, which is made, with a thickness of 130 μm of strip cutting part, and it is regular It is placed in release film or release paper and winds；

Embodiment 7

(1) it prepares Multi-layer composite pressure-sensitive conductive adhesive film: 40 μm of conductive particles mixing of 35wt% being added in acrylic acid glue Uniformly, the material mixed is coated on release film or release paper and is solidified, it is spare that pressure-sensitive conductive adhesive film is made；Then system is taken The pressure-sensitive conductive adhesive film got ready presss from both sides one layer of conductive grenadine among every two panels pressure-sensitive conductive adhesive film, after pressing is fixed again into Row cross cutting stamp processing, it is 150mm, width 0.8mm that length, which is made, with a thickness of 100 μm of strip cutting part, and regular is put It is placed in release film or release paper and winds；

Photovoltaic imbrication battery component includes the cell piece of 340 156mm*31.2mm altogether in embodiment 1-7, entire component Output power is unchanged after 330W or more, TC-200 test, and no deformation and crack, power do not lose.

Claims

1. application of the Multi-layer composite pressure-sensitive conductive adhesive film in photovoltaic imbrication battery component.

2. application of the Multi-layer composite pressure-sensitive conductive adhesive film according to claim 1 in photovoltaic imbrication battery component, It is characterized in that, application of Multi-layer composite pressure-sensitive conductive adhesive film during photovoltaic imbrication battery component cell piece is bonded.

3. application of the Multi-layer composite pressure-sensitive conductive adhesive film according to claim 1 in photovoltaic imbrication battery component, It is characterized in that, application method is, is set using manual or automatic makeup and compound pressure-sensitive conductive adhesive film is pasted on stacked photovoltaic The cell piece marginal portion of watt battery component, is sequentially connected in series stickup cell piece with imbricated way.

4. application of the Multi-layer composite pressure-sensitive conductive adhesive film according to claim 1 in photovoltaic imbrication battery component, It is characterized in that, the Multi-layer composite pressure-sensitive conductive adhesive film includes at least two layers of pressure-sensitive conductive adhesive film.

5. application of the Multi-layer composite pressure-sensitive conductive adhesive film according to claim 1 in photovoltaic imbrication battery component, It is characterized in that, the preparation method of the Multi-layer composite pressure-sensitive conductive adhesive film the following steps are included:

6. application of the Multi-layer composite pressure-sensitive conductive adhesive film according to claim 5 in photovoltaic imbrication battery component, It is characterized in that, the Multi-layer composite pressure-sensitive conductive adhesive film with a thickness of 10-200 μm.

7. application of the Multi-layer composite pressure-sensitive conductive adhesive film according to claim 5 in photovoltaic imbrication battery component, It is characterized in that, the conductive base includes any one of metal foil, conductive fibre fabric, conductive non-woven fabrics and conductive grenadine.

8. application of the Multi-layer composite pressure-sensitive conductive adhesive film according to claim 3 in photovoltaic imbrication battery component, It is characterized in that, overlapping widths when adjacent two panels cell piece is bonded are 0.2-1.3mm.

9. Multi-layer composite pressure-sensitive conductive adhesive film according to claim 2 is bonded in photovoltaic imbrication battery component cell piece Application in the process, which is characterized in that the photovoltaic imbrication battery component includes at least 340 cell pieces.