Recessed inground uplight luminaire ,made of stainless steel housing, installation bush made of polyamide and white safety glass. Drive-over luminaire from vehicles with pneumatic tyres. Dust-tight and water pressure tight. Maximum submersion depth 10m. IP68,IK10.
Double emission wall lights for outdoor application. The warm white LED light source with a medium wide flood light distribution is composed of 2 arrayled LEDs. The device body is made of die-cast aluminium en ab - 46100 and features a embossed white ral 9003 finish, processed by means of open pore anodizing + powder coating; the diffuser is made of extra clear glass - tempered with a silk-screening treatment. The ingress protection degree is IP65; the total weight is of 0.83 kg. The device features protection class I and can be wall lights-mounted. Compliant with the EN 60598-1 standard and its specific provisions.
Round recessed mounted downlight made of die-cast aluminium with white powder-coating finish (RAL 9016) and white reflector; ON-OFF Driver; measurement Ø110mm; narrow mounting trim with a cutout of Ø100mm; luminaire's weight is approximately 420g; CCT 3000K with an LED Output of 1100lm; high color rendering at an index of CRI90; after a lifetime of 50000h min. 80% of the luminous flux with energy efficient CITIZEN LED Chips; 5 years warranty; degree of housing protection according to DIN EN 60529 (IP54)
Light fixture with 1 light beam using monochromatic LED light source caracterized by warm colour temperature (3000K) together with a light-diffusing lens which optimize the optical performance of the beam and establish its width. Designed to create geometric lights of scenic effect, it has 1 narrow beam of 15°. Wall installation. Composed by lighting cap unit and terminal board fixed together by means of locking dowels. Cap in die-cast EN AB-47100 aluminium. Terminal board in reinforced polymer. Watertight gasket in silicone rubber. Locking dowels used outside the fixture in AISI 316 stainless steel. PMMA lens siliconed flush with the cap to obtain the beam angle opening.