Rabel 3810 Slim Super Thermal
Minimal / Super Slim Bi-Fold System for High Wind Loads
Rabel 3810 Slim Super Thermal has been designed for the fabrication of large fold and slide doors up to 3,0 meters height and 1,2 meters wide per leaf. Its main application is for commercial and residential buildings, where high thermal insulation is required, slim mullions along with high wind load rating. The system is based on a basic leaf width of 30mm and a moving mullion of 28mm.READ MORE...
Seven different threshold designs are available in three different heights (35, 49, 71mm) making it possible to have a fully flat threshold as well as a high level of water tightness, fulfilling the needs of most projects. Since the system is also available with gaskets along the whole perimeter as well as a drainage gutter, its performance in water tightness and air permeability is remarkable. It supports most typologies and corner fabrications.
The Rabel 3810 Slim Super Thermal is characterized by its bottom sliding mechanism which offers by design the best performance in terms of smooth slide and reliable operation over time. Optionally the sliding system is protected from dirt and unwanted objects by two hard brushes which run along the track ensuring unobstructed sliding motion. It also comes with stainless steel rollers and double mechanism for enhanced durability. The availability of low bottom threshold, 35mm, makes it unnecessary to switch to top hang systems so as to accommodate specific project requirements.
In the standard equipment a two point lock is included which can be upgraded into a multiple point burglary resistance system.
|Frame Height||35 / 49 / 71 / 90 mm|
|Frame Visible Width||60 mm|
|Sash Height||60 mm|
|Sash Depth||60 mm|
|Sash Visible Width||60 mm|
|Type||Fold & Slide|
|Max. Sash Width||1.2 m|
|Max. Sash Height||3 m|
|Max. Weight per Sash||200 Kg|
|Glazing Width Possibilities||32 mm|
|Maximum Locking Points||3|
|Thermal Break Width||16-24 mm|
|Sealing Type||4 Gaskets|
|Fabrication Thermal Transmittance EN ISO 10077-2 (Uw)||≥1.6 W/(m2K)|