PresentationENHANCING THE ESSENTIAL
The ALOIA recessed design luminaire is perfect for creating ascending lighting scenarios that indirectly enhance architectural structures, street furniture and trees.
ORIGIN & EVOLUTION
It integrates multi-configurable COLOUR COMPACT® LED optoelectronic technology with 4-channel DMX control system, APS® – Argon Pressurised System optical module pressurized with argon gas in an inert atmosphere with IP68 sealing, and an advanced heat dissipation system in AL5754 anodized aluminum. The outer material is 316 stainless steel and tempered optical glass, whose vitrified stripes can be adapted to any color of the RAL chart.
STRUCTURE & MATERIALS
The body of the ALOIA luminaire consists of a machined and anodized AL-5754 aluminum chassis that acts as a direct heat dissipation mechanism and structural element, while standing out for its high resistance to corrosion. The lower surface of the luminaire is characterized by the application of a tempered glass enclosure capable of being vitrified with the coat of arms of any city. Both upper and lower elements are enclosed by an anodized aluminum frame.
Finally, the development of an optical system with HTS® technology has made it possible to increase the final efficiency of the floodlight by 8%, reducing reflection losses by 55% compared to market standards that use a secondary lens system with a tempered glass enclosure.
The design strategy inherent in the ALOIA series is characterized by the combination of highly sustainable materials. Compared to die-cast aluminum, the high purity of Al-5754 aluminum facilitates its reuse by other industries in the future. The 100% natural origin of glass makes this material fully recyclable and minimizes the environmental impact of its transformation process. With Europe’s first solar-powered glass processing line, the carbon footprint of this series has been substantially reduced. Finally, following the latest revision of ISO 14001, and the implementation of the sustainability master plan, SETGA has promoted the design of a long-term recycling system for each component of the ALOIA series.