A generic reflector comprises a light inlet end, a light outlet end with at least one substantially rectangular light outlet opening, an optical axis, and a reflector surface which extends between the light inlet end and the light outlet end, where the reflector surface in a plane perpendicular to the optical axis defines a polygon. The reflector surface is formed such that the polygon between the light inlet end and the light outlet end at least in sections rotates about an axis of rotation which is oriented parallel to the optical axis. The invention also relates to an arrangement comprising at least two reflectors and a luminaire with a reflector and a light source, comprising an LED.

The invention provides a lighting system having a light source, a first reflective element, a second reflective element, and a lens, wherein the first reflective element tapers from a first end to a second end, the first reflective element includes a first reflective surface bridging the distance between the first end and the second end, wherein the first reflective surface is diffuse reflective, and wherein the light source is at least partially circumferentially surrounded by the first reflective surface, the light source is configured closer to the second end than to the first end to direct at least part of the light source light in the direction of the first end, the lens is configured to beam shape at least part of the light source light emanating from the reflective element and the light source, and the second reflective element is configured to redirect part of the light source light to the lens, wherein the second reflective element is configured to specularly reflect at least part of the light source light that reaches the second reflective element.

An optical device includes: a plurality of walls disposed to meet along a first axis and having reflecting surfaces facing a space interposed between the walls; and a plurality of partitions, each having a funnel-like shape and each having an outer surface that includes a curved reflecting surface, the partitions disposed in the space interposed between the walls coaxially with the first axis at multiple levels along the first axis; wherein the outer surface of a first of the partitions located at an upper level is configured to receive at least some light through an opening of a second of the partitions located at lower level.

A lamp has a carrier device and at least one lighting device mounted on the carrier device. The at least one lighting device has a carrier part, a plurality of lighting units which are arranged on a lateral wall of the carrier part, and a reflector device fastened to the carrier part. The reflector device has at least two reflector portions at a distance from one another in a longitudinal direction, which are each formed by reflector surfaces which are concavely curved in at least two curvature directions, wherein the at least two reflector portions are oriented facing the lateral wall of the carrier part, and wherein in each case one lighting unit is assigned in each case to one of the at least two reflector portions.

An optical device includes: a plurality of walls disposed to meet along a first axis and having reflecting surfaces facing a space interposed between the walls; and a plurality of partitions, each having a funnel-like shape and each having an outer surface that includes a curved reflecting surface, the partitions disposed in the space interposed between the walls coaxially with the first axis at multiple levels along the first axis; wherein the outer surface of a first of the partitions located at an upper level is configured to receive at least some light through an opening of a second of the partitions located at lower level.

The invention provides a lighting system (1000) comprising a light source (10), configured to provide light source light (11), a first reflective element (210), a second reflective element (220), and a lens (240), wherein:the first reflective element (210) tapers from a first end (211) to a second end (212), wherein the first reflective element (210) comprises a first reflective surface (213) bridging the distance between the first end (211) and the second end (212), wherein the first reflective surface (213) is diffuse reflective, and wherein the light source (10) is at least partially circumferentially surrounded by the first reflective surface (213);the light source (10) is configured closer to the second end (212) than to the first end (211), and wherein the light source (10) is configured to direct at least part of the light source light (11) in the direction of the first end (211);the lens (240) is configured to beam shape at least part of the light source light (11) emanating from the reflective element (210) and the light source (10); andthe second reflective element (220) is configured to redirect part of the light source light (11) to the lens (240), wherein the second reflective element is configured to specularly reflect at least part of the light source light (11) that reaches the second reflective element (220).

A light belt apparatus has a base belt, a flexible circuit board, LED modules and an input terminal. The base belt is made of plastic material and has an elongated flexible body. The elongated flexible body has an elongated groove with a first side and a second side. The first side and the second side is opposite to each other. The flexible circuit board is attached to the first side of the base belt. The LED modules emits an emitted light to the second side of the base belt, the second side of the base belt having a reflective curve surface reflecting the emitted light to exit the groove. The input terminal supplies electricity to the flexible circuit board.

A lamp has a carrier device and at least one lighting device mounted on the carrier device. The at least one lighting device has a carrier part, a plurality of lighting units which are arranged on a lateral wall of the carrier part, and a reflector device fastened to the carrier part. The reflector device has at least two reflector portions at a distance from one another in a longitudinal direction, which are each formed by reflector surfaces which are concavely curved in at least two curvature directions, wherein the at least two reflector portions are oriented facing the lateral wall of the carrier part, and wherein in each case one lighting unit is assigned in each case to one of the at least two reflector portions.