PROJECT W58 SKYLIGHT IN ALUMINIM WITH THERMAL BREAK
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PROJECT W58 SKYLIGHT IN ALUMINIM WITH THERMAL BREAK DIMENSIONAL LIMITS: They have to be calculated according to the projects’ constraints (a wide range that permits to respond to most of the needs). MAXIMUM INERTIA: 1878 cm⁴ without reinforcements and 3794 cm⁴ with reinforcements MAXIMUM INFILL: 43 mm ARCHITECTURAL SKYLIGHT PROJECT W58 SKYLIGHT IN ALUMINIM WITH THERMAL BREAK ARCHITECTURAL SKYLIGHT

PROJECT W58 SKYLIGHT IN ALUMINIM WITH THERMAL BREAK ARCHITECTURAL SKYLIGHT The selected system must permit to: - Guarantee the waterproofness of the construction through the adoption of a principle of seepage evacuation by “cascade drainage” - Avoid water retention on the edges of the cowlings. - Realize specific forms, for example a form with angle rafters, fabricated with adapted profiles. Infill are maintained by clamps profiles on mullions and by clamps-cowlings on cross rails, which are themselves fixed to primary framework through self-boring stainless steel screws (the necessary...

PROJECT W58 SKYLIGHT IN ALUMINIM WITH THERMAL BREAK ARCHITECTURAL SKYLIGHT EXTERIOR FRAMEWORK ROOFING TRAVERSES VERTICAL CROSSSECTION CHEVRON ROOFING HORIZONTAL CROSSSECTION

PROJECT W58 SKYLIGHT IN ALUMINIM WITH THERMAL BREAK ARCHITECTURAL SKYLIGHT CONNECTION PRINCIPLE ON THE BOTTOM Cross-section scale: 1/2 EXTERIOR FRAMEWORK

SKYLIGHT IN ALUMINIM WITH THERMAL BREAK (Fxl ■ I V|VVl ARCHITECTURAL SKYLIGHT KNIFE EDGES CONCEPTION DETAILS

PROJECT W58 SKYLIGHT IN ALUMINIM WITH THERMAL BREAK ARCHITECTURAL SKYLIGHT ROOFING CONNECTION PRINCIPLE Cross-section scale: 1/2 EXTERIOR FRAMEWORK Pump waterproofing Free-running bending semi-rigid insulator

SKYLIGHT IN ALUMINIM WITH THERMAL BREAK (Fxl ■ I V|VVl ARCHITECTURAL SKYLIGHT SABLIERE" DETAILS WITH GUTTER metal sheet