Palma is based on elementary shapes, enriched by high quality adjustable lighting. Two semi-spheres of translucent blown glass, joined by a ring and an aluminum structure with finishes in graphite or white tones, filter the light.
Vibia - Palma 3714 wall lamp
Palma is based on elementary shapes, enriched by high quality adjustable lighting. Two semi-spheres of translucent blown glass, joined by a ring and an aluminum structure with finishes in graphite or white tones, filter the light.
Antoni Arola
His projects touch the most diverse fields: lighting projects, furniture, interior design projects and exhibitions. With the Flamingo pendant lamp, it combines the artistic experimentation of its design with the luminous research through the use of LED materials and technology.
Vibia
Vibia aims to create evocative atmospheres, using lighting design to generate meaningful responses that have a positive impact on the human experience. We put people at the center of everything we do: their feelings, their desires and, essentially and ultimatelt their welfare. Elegant, sensual and universal, Vibia speaks a language of emotion that connects us with the world. Interior design is fundamental to the culture of well-being; a quality design generates a sense of beauty and harmony that helps us feel good and live better. They provide the tools for design professionals to create beautiful spaces that people can enjoy in any context or timeframe. We seek universal, essential design that has a positive impact on humanity and enduring value. We aspire to redefine contemporary lighting, breaking the rules of lighting design by introducing a new, holistic and expansive view that goes beyond light to incorporate materiality, composition and use of space. We believe that it is only when these four pillars of interior design come together in harmony that we can truly generate a sense of wellbeing.
- Brand
- Vibia
- Designer
- Antoni Arola
- Material
- PMMA
aluminum
blown glass - Colour
- graphite
- Light source available
- 4 x LED 4,6 W 500 mA