UseSliding door / window
CharacteristicsThe perfect choice for minimalistic buildings
SizesMaximum 5 meter
RABEL 62 Slim Super thermal sliding door from Rabel Systems is a slim system designed for minimalistic buildings with large openings and various typologies. The visible size of the middle post is only 26mm but maintains a high level of weather performance and super thermal performance at the middle post.
Through the use of internal and external fins it has been made possible to reach heights up to 4 meters. The system comes with a series of rollers made out of stainless steel capable of withstanding up to a leaf weight of 1200 Kg. The locking system is comprised of 6 different options. In these options a multiple locking system as well as an access control from the exterior via a key is provided so as to cater for all possible needs.
Five different threshold designs are available in two different heights (40, 57mm) making it possible to have an exposed or fully submerged threshold. Optionally the threshold comes with an integrated drainage channel which allows the track to be fully recessed into the floor while increasing the water permeability. The water extraction can also be facilitated through pipes directly installed on the track so that a drainage gutter is no longer required.
This state-of-the-art product is well suited for special projects and is customizable eg; sliding + fixed frameless, sliding + hinged, Sliding + Spider/Curtainwall etc. while always keeping the dimensions slim. It is also able to achieve corners without post and combo configurations like sliding integrated with railing and shading devises both internal and external.
|Frame Height:||40 / 57 mm|
|Sash Width:||59 mm|
|Sash Height:||26 / 39 mm|
Center Mullion Width:
|Max. Weight per Sash:||1200 Kg|
|Max. Sash Height:||4.0 m|
|Max. Sash Width:||4.0 m|
|Glazing Width Possibilities:||32 mm|
|Maximum Locking Points:||6|
|Thermal Break Width:||30 / 53 mm|
|Sealing Type:||Brush with Cloth + Q-Lon|
|Fabrication Thermal Transmittance EN ISO 10077-2 (Uw)||≥1.3 W/(m2K)|