A charging port cover and/or a fuel cap module for a motor vehicle for receiving or attaching at least one interface, which is used for charging and/or refueling a motor vehicle-side energy accumulator. The charging port cover and/or the fuel cap module also serves to fasten and mount at least one device having light sources. The at least one device illuminates both the charging port cover and/or the fuel cap module and a current charge level and/or a current fuel level of the motor vehicle-side energy accumulator. The charging port cover and/or the fuel cap module has a first opening and a second opening adjacent thereto. The first opening and the second opening are oriented such that emitted or deliverable light of the mounted at least one device can emerge from the first opening in a direction of an operator of the motor vehicle and from the second opening in a direction of the at least one interface for charging and/or refueling the motor vehicle-side energy accumulator.

A light guide element is adapted to be used in an electronic device including a light emitting unit that has at least one light emitting element. The light guide element includes a base portion and a plurality of light guide bodies. The base portion includes a light entry surface for incidence of light emitted by the light emitting unit and at least one side surface connected to the light entry surface. The light guide bodies are disposed on the at least one side surface. Each of the light guide bodies is formed with at least three light exit surfaces. Each of the light exit surfaces has an extension direction. The extension direction and the at least one side surface of the base portion form therebetween an angle being between 10° and 85°.

A light guide is disclosed. The light guide may comprise a wedge shape. The light guide includes a light receiving surface, a light transmission region, a transition region, and a light emission region. Light emission region includes a first major surface and an opposing second major surface. The light emission region may include a plurality of steps disposed along a length of one or both of the major surfaces. The light emission region may also include a plurality of vertically-extending flutes along one or both of the major surfaces. A luminaire assembly incorporating the light guide is also disclosed.

A light guide module is provided. The light guide module includes a first light guide unit, a second light guide unit and an elastic unit. The elastic unit is disposed between the first light guide unit and the second light guide unit. One side of the elastic unit is connected to the first light guide unit, and the other side of the elastic unit is connected to the second light guide unit. In an initial state, a first distance is formed between the first light guide unit and the second light guide unit. In an extended state, the elastic unit is elastically deformed, and a second distance is formed between the first light guide unit and the second light guide unit.

Some embodiments of the present light fixtures include a body, a waveguide, and one or more independently-controllable light sources. The waveguide is configured to be coupled to the body and may include a first end configured to receive light emitted from at least one of the light source(s) and to direct the received light to (and in some embodiments, emit the received light from) a second end of the waveguide. In some embodiments of the present fixtures, the waveguide defines an opening through which light emitted from at least one of the light source(s) can pass, the light source(s) being coupled to the body such that a first one of the light source(s) emits light into the first end of the waveguide and a second one of the light source emits light through the opening.

A light guide module is provided. The light guide module includes a first light guide unit, a second light guide unit and an elastic unit. The elastic unit is disposed between the first light guide unit and the second light guide unit. One side of the elastic unit is connected to the first light guide unit, and the other side of the elastic unit is connected to the second light guide unit. In an initial state, a first distance is formed between the first light guide unit and the second light guide unit. In an extended state, the elastic unit is elastically deformed, and a second distance is formed between the first light guide unit and the second light guide unit.

A luminaire assembly comprises a first luminaire structure and a second luminaire structure, each configured for positioning in an illuminatable position on an enclosure surface. Each of the first and second luminaire structures comprises a housing structure and an illumination structure extending outwardly from the housing structure. The illumination structure has at least one outer surface region which terminates at a longitudinal distal end region and at least one lateral edge region, wherein the respective lateral edge regions of the first and second luminaire structures are alignable to form an aligning interface therebetween. A clamp assembly is configured for clamping the adjacent lateral end regions in the aligning interface to join the first and second luminaire structures together, the clamp assembly providing at least one outer clamp surface region which is configured to be complementary with the corresponding at least one outer surface region of each of the joined first and second luminaire structures.

A scanner module and an image scanning apparatus employing the same. The scanner module comprises an illuminator for illuminating light on an object to be scanned. The illuminator includes a light emitting diode, a light guide extending in a main scanning direction to change a direction of the light received from the light emitting diode, and at least one elastic member to elastically support at least one longitudinal end of the light guide. As the light guide is elastically supported by the elastic member, convex deformation or bowing of an emission face of the light guide due to thermal expansion can be reduced.

A light-emitting device includes a board, a light-emitting element mounted on a surface of the board, a support member on which the board is placed, and a cover having a plate shaped main cover body covering the light-emitting element and a tubular portion which receives a light guide body that guides light emitted from the light-emitting element. The main cover body includes a base, a protrusion protruding from the base toward the board, and a ridge disposed on a protruded end of the protrusion. A step is formed by the protrusion and the ridge, and the protrusion and the ridge extend in a same direction along the base.

A lightguide defines an optical axis and has an optical absorption coefficient of at least 0.02 cm.sup.−1 at a wavelength of 500 nm. The light guide includes a plurality of discrete light extracting structures, each with a first surface configured to extract light propagating in a first direction along the light guide, a second surface configured to extract light propagating in a second direction along the light guide, and a light extraction efficiency of less than 2%. The first surface and the second surface in each of the light extracting structures making an angle with each other larger than 90 degrees; the angle between the first and second surfaces of at least one of the light extracting structures being different from the angle between the first and second surfaces of at least another one of the light extracting structures.