The Yeti®280 is a modular supporting system for light rooftop installations, offering a flexible and cost-effective solution for various applications.
| Part No. | Model | L (mm) | B (mm) | H (mm) | h (mm) | Fa,z (N) | Pack 1 |
|---|---|---|---|---|---|---|---|
| 67685280 | BIS Yeti® 280 including mat | 284 | 284 | 58 | 8 | 12,500 | 12 |
| 67685303 | H-set (without Strut Rail) | 284 | 284 | 58 | 8 | 12,500 | 1 |
The Yeti®280 is a modular supporting system designed for light rooftop installations, providing a stable, non-penetrative base for pipes, cable runs, and air duct channels.
The complete set includes 2 x BIS Yeti® 280 bases with anti-vibration mats, 4 x 90° Strut Connectors, and 8 x hexagon head bolts with slide nuts for a full structural assembly.
Each unit is equipped with a non-slip anti-vibration mat made of rubber, which prevents the support from shifting while distributing the load safely without piercing the roof.
The mouldings are manufactured from WPC (Wood Plastic Composite), a high-performance material made from recycled plastic and wood fiber, supporting sustainable construction goals.
Yes, the system provides documented noise reduction according to DIN EN ISO 10140-1 and 10140-3, effectively decoupling mechanical vibrations from the building structure.
It features a unique click-mechanism that allows for the quick and safe attachment of strut rails, significantly reducing labor time compared to traditional concrete plinths.
Absolutely. Its versatile design is suitable for both horizontal and vertical applications, allowing for flexible routing of pipes and cable trays across complex roof layouts.
Yes, the Yeti®280 is UV-resistant according to EN ISO 16474-3:2014-02 (certified by ITB), ensuring long-term structural integrity under intense solar exposure.
It is an ideal, cost-effective solution for supporting pipes, cable runs, and air duct channels, specifically tailored for light-to-medium rooftop climate installations.
Yes, Hira Walraven provides BIM objects for the Yeti®280, enabling engineers to accurately model support locations and calculate load distributions in a digital twin.
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