Thin Film PV Clamp are mainly designed for flexible thin-film solar panels, which are usually thin and flexible.
Traditional clamps are usually used for hard crystalline silicon modules, while solar film clamps can better protect thin-film modules from stress damage and ensure efficient fixing through optimized design.
Thin Film PV Clamp are a device specifically used to fix solar film modules and are widely used in various installation environments.
The conventional range includes flat roofs, pitched roofs, ground-mounted systems, and building-integrated photovoltaic (BIPV) systems.
In some special cases, it can also be applied to scenes such as metal roofs, glass curtain walls, and floating photovoltaic power stations, fully demonstrating its diverse applicability.
—-Flat roof and pitched roof installation: especially suitable for lightweight building structures, without excessive load on the roof.
—-Ground mounting system: used in large-scale ground photovoltaic power stations to effectively improve the installation efficiency of thin-film modules.
—-Building-integrated photovoltaic system (BIPV): perfectly combines thin-film modules with building structures, such as curtain walls, sun rooms, etc.
In some special cases, Thin Film PV Clamp can also meet the following needs:
—-Metal roof: Through the non-perforated design, the integrity of the roof is protected, which is suitable for industrial plants or warehouse roofs.
—-Glass curtain wall: Through invisible fixing methods, it ensures the combination of architectural aesthetics and photovoltaic functions.
—-Floating photovoltaic system: The clamp design is both waterproof and wind-resistant, suitable for water installation environments.
As an important component in the installation of photovoltaic systems, Thin Film PV Clamps not only improve installation efficiency, but also effectively protect solar film components and extend their service life.
In today’s rapid development of renewable energy, solar film clamps have become an indispensable part of the photovoltaic field with their excellent applicability and flexibility.
