A set of louvers adapted for use with a linear luminaire has a first wall, a second wall spaced from the first wall, and a plurality of louvers extending between the first wall and the second wall. Each of the plurality of louvers is fixed to the first wall and the second wall, and may be integrally formed with the walls, and each of the plurality of louvers is spaced from the others. First and second side portions depend from the first wall and the second wall. An internal cavity of the set of louvers is defined by bottoms of the plurality of louvers and the first and second side portions. Engaging structure is defined on inwardly-facing surfaces of the first and second side portions. Combinations including the set of louvers and a linear luminaire in which the set of louvers snaps on externally to the linear luminaire are disclosed.

A set of louvers adapted for use with a linear luminaire has a first wall, a second wall spaced from the first wall, and a plurality of louvers extending between the first wall and the second wall. Each of the plurality of louvers is fixed to the first wall and the second wall, and may be integrally formed with the walls, and each of the plurality of louvers is spaced from the others. First and second side portions depend from the first wall and the second wall. An internal cavity of the set of louvers is defined by bottoms of the plurality of louvers and the first and second side portions. Engaging structure is defined on inwardly-facing surfaces of the first and second side portions. Combinations including the set of louvers and a linear luminaire in which the set of louvers snaps on externally to the linear luminaire are disclosed.

A lighting module has an LED (44), a lens (45) over the LED to produce a beam-shaped output from the LED and a collimator (50) arranged to partially collimate the beam-shaped out-put. Blue light is provided at large angles to the normal, for example using a filter arrangement (54, 56) over the collimator which is adapted to filter light from the collimator at relatively large angles to the normal. The filter arrangement does not filter light from the collimator at relatively small angles to the normal. Thus, the module provides white task light in a normal direction and blue ambient light at steep angles. The overall system can be compact and light efficient.

A lighting module has an LED (44), a lens (45) over the LED to produce a beam-shaped output from the LED and a collimator (50) arranged to partially collimate the beam-shaped out-put. Blue light is provided at large angles to the normal, for example using a filter arrangement (54, 56) over the collimator which is adapted to filter light from the collimator at relatively large angles to the normal. The filter arrangement does not filter light from the collimator at relatively small angles to the normal. Thus, the module provides white task light in a normal direction and blue ambient light at steep angles. The overall system can be compact and light efficient.

A luminaire includes a plurality of light modules that have a light source at one end, an exit aperture at the other end, and a light source cover. A first baffle forms sides of first shielding compartments that correspond to the light modules. A light shield that includes a plurality of shield apertures that correspond to the plurality of light modules. Each shield aperture fits around a corresponding light module. The light shield is mounted on a proximal end of the first baffle and the exit aperture of each light module is located in a corresponding first shielding compartment. The light shield is configured to reduce light spill from the first shielding compartments toward the proximal ends of the light modules. The luminaire also includes a plurality of output lenses that correspond to the plurality of first shielding compartments. The output lenses are coupled to a distal end of the first baffle and the edges of each lens are coated with a light absorbing coating. The luminaire further includes a second baffle that forms sides of a plurality of second shielding compartments that correspond to the plurality of output lenses. A proximal end of the second baffle couples to the output lenses.

A luminaire includes a plurality of light modules that have a light source at one end, an exit aperture at the other end, and a light source cover. A first baffle forms sides of first shielding compartments that correspond to the light modules. A light shield that includes a plurality of shield apertures that correspond to the plurality of light modules. Each shield aperture fits around a corresponding light module. The light shield is mounted on a proximal end of the first baffle and the exit aperture of each light module is located in a corresponding first shielding compartment. The light shield is configured to reduce light spill from the first shielding compartments toward the proximal ends of the light modules. The luminaire also includes a plurality of output lenses that correspond to the plurality of first shielding compartments. The output lenses are coupled to a distal end of the first baffle and the edges of each lens are coated with a light absorbing coating. The luminaire further includes a second baffle that forms sides of a plurality of second shielding compartments that correspond to the plurality of output lenses. A proximal end of the second baffle couples to the output lenses.

Described is a light engine comprised of an array of light engine modules which are compartmentalized to minimize light spill from one light engine module to other light engine modules.

Described is a light engine comprised of an array of light engine modules which are compartmentalized to minimize light spill from one light engine module to other light engine modules.

A resiliently flexible, rubberized light housing for sealingly enclosing and protecting a light bulb or fixture against moisture and other intrusion. The housing has an elongated, generally tubular body with an open first end and a closed second end. The open first end may receive and retain a bulb or fixture that has an exposed bulb or element or is environmentally sealed. If the bulb or fixture is sealed, then the same may hermetically seal the open first end. If the bulb or fixture is not sealed, then a lens may be included to hermetically seal the open first end with the bulb or fixture in the interior. Electrical wires for connection to the bulb or fixture may be passed through a sealing port on the closed send end. The plurality of ribs are configured for friction contact with the inside of a lighting can.

The present invention relates to a light emitting device (1) comprising a substrate (2) comprising a plurality of individually controllable light sources (3) adapted for, in operation, emitting light, and at least one insert (4) comprising at least partially light-blocking material and having a longitudinal extension being parallel to the substrate (2). The insert (4) comprises a plurality of transverse elements (5) having a proximal end (5) arranged in proximity of the substrate (2) and a distal end (5) arranged at a distance from the proximal end (5). The transverse elements (5) are substantially perpendicular to the substrate (2), the plurality of transverse elements (5) dividing the substrate into at least a first segment (6) comprising a first group of the light sources (3), a second segment (6) comprising a second group of the light sources (3), and a third segment (6) comprising a third group of light sources (3).