Waterproof IP68 Fireproof Photovoltaic Bent BIPV Roof Tiles

Product Details
Customization: Available
After-sales Service: Assist in Installation
Warranty: 10years
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Number of Employees
66
Year of Establishment
2007-04-10
  • Waterproof IP68 Fireproof Photovoltaic Bent BIPV Roof Tiles
  • Waterproof IP68 Fireproof Photovoltaic Bent BIPV Roof Tiles
  • Waterproof IP68 Fireproof Photovoltaic Bent BIPV Roof Tiles
  • Waterproof IP68 Fireproof Photovoltaic Bent BIPV Roof Tiles
  • Waterproof IP68 Fireproof Photovoltaic Bent BIPV Roof Tiles
  • Waterproof IP68 Fireproof Photovoltaic Bent BIPV Roof Tiles
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Basic Info.

Model NO.
JS385~410M10
Condition
New
Certification
ISO, CE
Application
Home
Specification
Normal, 1260*480
Transport Package
Wooden Box
Trademark
GAINSOLAR
Origin
Hebei China
HS Code
85414300

Product Description

 

Waterproof IP68 Fireproof Photovoltaic Bent BIPV Roof TilesWaterproof IP68 Fireproof Photovoltaic Bent BIPV Roof TilesWaterproof IP68 Fireproof Photovoltaic Bent BIPV Roof TilesWaterproof IP68 Fireproof Photovoltaic Bent BIPV Roof Tiles

Electrical Characteristics
Module Type LFP 5kWh/LV LFP 10kWh/LV
Total Energy* 5kWh 10kWh
Usable Energy(DC)* 4.6kWh 9.2kWh
Nominal Dis-/Charge Power 3kW 4.6kW
Peak Power(Only Discharge) 7kWh for 3 seconds 10kWh for 3 seconds
Constant Current(Only Discharge) 100A 100A
Voltage 48~56Vd.c 48~56Vd.c
Nominal Voltage 51.2Vd.c 51.2Vd.c
Nominal Current 60A 100A
Max. Charge Voltage 59.2V±0.5V d.c 59.2V±0.5V d.c
Weight 65kg 125kg
Dimension(mm) 490(550)*650(700)*196(216)mm 585(645)*940(995)*205(225)mm
Safety CE UN38.3 CE UN38.3

Waterproof IP68 Fireproof Photovoltaic Bent BIPV Roof Tiles
Waterproof IP68 Fireproof Photovoltaic Bent BIPV Roof TilesWaterproof IP68 Fireproof Photovoltaic Bent BIPV Roof TilesWaterproof IP68 Fireproof Photovoltaic Bent BIPV Roof TilesWaterproof IP68 Fireproof Photovoltaic Bent BIPV Roof TilesWaterproof IP68 Fireproof Photovoltaic Bent BIPV Roof TilesWaterproof IP68 Fireproof Photovoltaic Bent BIPV Roof TilesWaterproof IP68 Fireproof Photovoltaic Bent BIPV Roof Tileswhat does BIPV used for?
BIPV (Building-Integrated Photovoltaics) systems are used to generate electricity on-site in buildings while also serving as part of the building envelope. These systems can be integrated into roofs, facades, windows, skylights, canopies, or shading devices to provide both electrical power and other benefits such as thermal insulation, daylighting, and weather protection.
How to install BIPV ?
BIPV (Building Integrated Photovoltaics) is a type of solar technology that is designed to be integrated into building materials such as windows, roofs, and facades. Installing BIPV can be a complex process and should be done by a qualified professional. However, here are some general steps that may be involved in the installation of BIPV:
Consult with a BIPV professional: Before beginning any installation, it is important to consult with a BIPV professional who can assess your building's energy needs, design a BIPV system that is appropriate for your building, and provide guidance on installation.
Evaluate your building structure: BIPV requires a strong and stable building structure to support the added weight of the solar panels. A structural engineer may need to be consulted to ensure that the building can support the added weight of the BIPV system.
Install the BIPV panels: BIPV panels can be installed in a variety of ways, depending on the type of building material and the design of the system. For example, BIPV panels can be integrated into roofing materials, installed as a façade, or incorporated into windows.
Connect the BIPV system to your electrical system: The BIPV system must be connected to your building's electrical system to convert the solar energy into usable electricity. This may require the installation of an inverter and other electrical components.
Obtain any necessary permits: Depending on where you live, you may need to obtain permits for the installation of a BIPV system. Check with your local building department for any necessary permits or inspections.
Monitor and maintain the BIPV system: Once installed, it is important to monitor and maintain the BIPV system to ensure that it is functioning properly and efficiently. This may include regular inspections, cleaning, and repairs.
Overall, installing BIPV requires specialized knowledge and expertise. It is important to work with a qualified professional who can design and install a BIPV system that is appropriate for you.
How is the roof panel of the BIPV system connected to the PV layer? How to ensure bonding quality and durability?

What is the connection between the BIPV system roof panel and the photovoltaic power generation layer? How to ensure bonding quality and durability?
The roof panel and the photovoltaic power generation layer are connected by silicone structural glue. Silicone structural adhesive is a kind of high modulus adhesive, which is easy to use, can bear structural capacity, has excellent UV aging resistance and high temperature and high humidity resistance. Its excellent mechanical properties have good stability in the working environment of -50°C to 180°C, and it still maintains elasticity without embrittlement, cracking or tearing, so it is widely used in some structural engineering assemblies use. At present, the most used in construction engineering is the structural assembly of building curtain walls, high-rise building curtain walls, large-size glass panel curtain walls, structural assembly of complex structural building curtain walls, and insulating glass.

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