A sleek ceiling speaker having an annular magnetic assembly and annular dust cap through which extends an elongated actuator, which may also be a light pipe. The elongated actuator supports a variable transformer tap which is manually operated by rotating a bottom end of the elongated actuator which is expanded into a sound disperser plug. Changing the transformer tap changes the volume produced by the speaker. The elongated actuator may also support an LED board that provides light to the light pipe and to the transparent or translucent sound disperser plug. Rotating the elongated actuator may also be used to change the lighting. The housing is secured to a ceiling tile by attaching a releasably attachable outwardly extending circumferential flange to a sound funnel that supports the sound disperser.

A display apparatus including an image unit, a light source module and a transparent plate is provided. The image unit has an image display surface which includes a first side and a second side opposite to the first side. The light source module is disposed at the first side of the image display surface, and adapted to serve as a front light source of the image unit to provide a light beam to the image display surface. The transparent plate is disposed above the image display surface.

The present disclosure describes light delivery and distribution components of a ducted lighting system having a cross-section that includes at least one curved portion and a light source. The delivery and distribution system (that is, light duct and light duct extractor) can function effectively with any light source that is capable of delivering light which is substantially collimated about the longitudinal axis of the light duct, and which is also preferably substantially uniform over the inlet of the light duct.

A guiding light platform includes a frame having a side plate, a top light-transmitting plate covering top of the frame, a bottom plate covering bottom of the frame, a LED strip mounted on the frame, and a separation plate mounted between the LED strip and the bottom plate. A top inner portion of the side plate is formed with a slanted surface disposed underneath and at an angle with respect to a bottom surface of the top light-transmitting plate to thereby define a space for receiving therein a waterproof adhesive.

A light concentrator (11) is disclosed which comprises at least one lighting element (1) configured to emit light (32), an optical filter (3) arranged so as to receive light having a wavelength within a selected wavelength emission band via a light in-coupling surface (4) and configured to selectively transmit light incident on the light in-coupling surface through the optical filter and output the light via a light out-coupling surface (5), on a condition that the light incident on the light in-coupling surface has a wavelength within a selected wavelength transmission band, a light-redirection element (6) having a light-redirection surface (7) arranged substantially parallel in relation to the light out-coupling surface (5) of the optical filter so as to receive at least some of the light out-coupled via the light out-coupling surface (5), and configured to redirect light impinging on the light-redirection surface, and a light-guiding region (8), which is delimited at least by the light-redirection surface and the light out-coupling surface (5) of the optical filter, for guiding light out-coupled via the light out-coupling surface towards at least one light-exiting region (9) arranged substantially perpendicular to the light out-coupling surface (5) via which light may leave the light concentrator. The optical filter (3) is configured such that characteristics of the wavelength transmission band depend at least in part on the angle of incidence of light incident on the light in-coupling surface (4), and wherein the optical filter (3) is configured

A diffusive ultraviolet illuminator is provided. The illuminator can include a reflective mirror and a set of ultraviolet radiation sources located within a proximity of the focus point of the reflective mirror. The ultraviolet radiation from the set of ultraviolet radiation sources is directed towards a reflective surface located adjacent to the illuminator. The reflective surface can diffusively reflect at least 30% the ultraviolet radiation and the diffusive ultraviolet radiation can be within at least 40% of Lambertian distribution. A set of optical elements can be located between the illuminator and the reflective surface in order to direct the ultraviolet radiation towards at least 50% of the reflective surface.

The invention relates to a light injector element (20) comprising a body (21) extending according to a longitudinal axis (22), and a light source (23) placed facing an end (25) of the body (21), the light source (23) comprising a plurality of vertical-cavity surface-emitting laser (VCSEL) diodes, said plurality of diodes being arranged so as to form an emission surface (26) substantially perpendicular to the longitudinal axis (22) of the body (21).

The invention also relates to a photobioreactor (10) comprising such a light injector element (20).

The invention relates to a light injector element (20) comprising a hollow body (21) extending according to a longitudinal axis (22), and a light source (23) placed facing an end (25) of the body (21), the light source (23) being configured to emit a light beam substantially parallel to the longitudinal axis (22) of said body (21), the injector element (20) further comprising at least one optical element (35i) arranged inside the body (21) and configured to let through a fraction of the light beam propagating in a central part (36i) of the body (21), and deflect towards the outside of said body (21) a fraction of the light beam propagating in a peripheral part (37i) of the body so as to locally distribute energy emitted by the light source (23).

The invention also relates to a photobioreactor (10) and a domestic lighting element comprising such a light injector element (20).

The present principles are an illumination system for the front of an electronic device such as a set top box. The device includes a casing having a front wall; apertures on the front wall; a backlight assembly in back of the front wall within the casing; and a light pipe structure to receive light from backlight assembly. The light pipe structure includes plurality of light pipes in which the light pipes have a lower vertical body portion, an upper horizontal body portion, and a central body portion between the lower vertical body portion and the upper horizontal body portion; and a bracket that connects and supports the light pipes in which the bracket is generally planar. The bracket has broad support regions that connect to a back portion of each of the light pipes and a narrow bridging region between broad support regions in which the support regions are broader than the narrow bridging region in the vertical dimension.

A display box is capable of supporting an electronic device. The electronic device is capable of emitting an image beam. A display box includes a box, a light-transmitting plate and a pivoting carrier. The box has a top-side opening and a viewing opening. The light-transmitting plate is obliquely arranged in the box and is capable of reflecting the image beam passing through the viewing opening to a target. The pivoting carrier has an accommodating recess and a first pivot axis. The pivoting carrier is disposed on the box. The pivoting carrier is pivoted beside the top-side opening by the first pivot axis. The electronic device is disposed in the accommodating recess, wherein the pivoting carrier rotates by the first pivot axis to make the electronic device face different positions.