An indirect multiple bulb fluorescent light fixture has an elongated rectangular housing with inverted V-shaped reflector members located beneath each of the bulbs and with an additional inverted V-shaped reflector member located between each pair of bulbs in the fixture. All of the interior surfaces of the fixture, including the side walls of the rectangular housing for the fixture, have specular surfaces. The angles of the V-shaped reflector members are selected to cause substantially all of the light emanating from the bulbs to be reflected out of the fixture and to minimize light reflected back into the bulbs for dispersing the light emanating from the fixture uniformly on the ceiling above the fixture without requiring translucent covers or other diffusers. This results in a significantly improved efficiency of the fixture over conventional fixtures which rely upon translucent covers to effect the desired light dispersion.

An adjustable reflector device is disclosed. The device consists of an adjustable double parabolic reflective skin (1,2) with an adjustable lamp mount (12), incorporating a V-shaped perforated heat shield (17), attached. The two part reflective skin (1,2) forms a double parabolic shape when flexed back against a reinforced spine (3). This flexible shape is secured by lengthwise adjustable chain retainers (4) attached at both ends of the skin (1,2). The lamp mount (12) slides onto a pair of threaded bolts (6,7) secured to the skin and adjustment is achieved by tightening or loosening the appropriate nuts (15,16). The heat shield (17) slides onto the lamp fitting (18) and is positioned appropriately to deflect incident heat and light. This device can be used to provide variable conditions of artificial illumination.

A reflector whose reflecting surface is formed as a portion of a solid of revolution, the generatrix of the solid of revolution having a plurality of staggered parabolic segments, the transition portions located between the segments changing smoothly into the segments and being of such a shape that in use in the reflector, of a light source, the reflected light beam has a comparatively large width and that the object to be illuminated is illuminated uniformly.

A light fixture having a reflector for directing light beams generally in a first direction, such as an indirect lighting reflector, which has a tab that is partially punched out and bent to reflect a restricted spot of light in an opposite direction. This permits the highlighting or illumination of an area on the back side of the reflector without extra bulbs and without ugly add-on reflectors.

An optical system is disclosed for generating multiple light beams from a single light source. The system includes reflectors disposed adjacent to the optical axis of the light source to capture and reflect all the light in a space efficient manner. One of the beams may be collimated for spot lighting while the others may be wide-angled. Alternatively all the beams may be collimated.