A vehicle lamp (10) with a progressive direction indicator function comprises a direction indicator zone divided into a series of illuminable portions. The direction indicator zone is generally C-shaped, comprising a head 68) and a pair of tails (64, 66), joined by the head (68), that extend in an inboard direction from the head. The tails (64, 66) extend beside each other in the inboard direction and are spaced apart along their length. The head (68) extends between the tails (64, 66) in a direction transverse to the inboard direction, the height of the head (68) in that transverse direction being greater than combined thicknesses of the tails (64, 66) in that transverse direction. To draw an observer's eye in an outboard direction, the illuminable portions are controllable in use to illuminate the direction indicator zone progressively in an outboard direction along the tails (64, 66) to the head (68), and then to illuminate the head convergently in a direction transverse to the outboard direction.

A vehicle lamp provided with: an elongated light guide member provided in a lamp chamber, an incident end part being positioned below said member; and a light source provided in the lamp chamber so as to face the incident end part. The light guide member has: a light guide main part having an elongated shape in which one end is the incident end part, a prism part being provided along the longitudinal direction, the prism part causing a portion of the light incident from the incident end part to be emitted in the irradiation direction; and a flange part projecting from the light guide main part in the direction intersecting the irradiation direction. The flange part is provided with a reflecting surface that forms a depression angle with a projecting end face when viewed from the incident end part side within a prescribed range viewed in the longitudinal direction.

An information presentation device for an autonomous vehicle that automatically moves to a predetermined position where a user can get into an own vehicle in response to a request from the user includes an identification unit and an information presentation unit. The identification unit searches for a person present around the own vehicle based on external environment information including a target present around the own vehicle, and identifies whether a person extracted by the search coincides with the user of the own vehicle. When the identification indicating, as an identification result of the identification unit, that the person extracted by the search coincides with the user of the own vehicle is performed, the information presentation unit performs presentation of information to be presented to the user, and changes a presentation mode of information to be presented to the user according to a distance from the own vehicle to the user.

A meter structure in which reduction in dimension of a display part can be attained and displays of indicators can be easily seen. The meter structure includes: a meter device provided with a display part; and a light source for indicators on an outer-peripheral side surface of the meter device.

An illumination device for vehicles, having a housing, a cover lens, which closes an opening in the housing, an elongate light guide, a light source for coupling light into the elongate light guide, a groove-like receptacle for receiving the elongate light guide, an outcoupler for coupling out the light coupled into the elongate light guide. The outcoupler is arranged along part of a lateral surface of the elongate light guide. The groove-like receptacle runs along an edge of the cover lens so that a position light is produced.

Fresnel lenses are arranged between a board and an outer lens in such a manner as to face at least one of LED chips. The Fresnel lenses are arranged close to a center of the outer lens in front view. Convex and dome-shaped lenses are arranged between the board and the outer lens in such a manner as to face other light sources of the LED chips. The dome-shaped lenses are arranged more radially outward than the Fresnel lenses in front view. Rear surface 89a of the dome-shaped lenses are arranged to be offset toward the LED chips relative to rear surfaces of the Fresnel lenses.

An auxiliary spare tire brake light is provided for a vehicle having a spare tire with a rim that has spokes and openings and that is secured on lugs at the back of the vehicle. The auxiliary spare tire brake light includes a support disc having a central portion and a peripheral portion. An array of openings is formed in the central portion of the support disc and the openings are positioned to fit over the lugs at the back of the vehicle for positioning the support on the lugs behind the rim of the spare tire. An annular race extends around the peripheral portion of the support and a plurality of lights in the form of LEDs is disposed in the race. The LEDs are arrayed in a closely spaced substantially continuous array around the support to form a ring of LEDs. A wire and electrical connector electrically connect the plurality of LEDs to the brake circuitry of the vehicle so that the LEDs are illuminated when the vehicle's brake pedal is depressed. A first portion of the ring of LEDs align with and project light directly through the openings in the rim of the spare tire to be seen from behind as an indication that the vehicle is braking. A second portion of the ring of LEDs aligns behind the spokes and reflects off of the backs of the spokes to silhouette the rim against the glow of the reflected light.

A light assembly (2) such as for a headlight comprises a housing (9), the housing (9) having a rear and a front, whereby in use light is emitted from the front of the housing (9). A transparent or translucent light guide (10, 110) extends from the rear to the front and at least partially surrounded by the housing (9). The light guide (10, 110) lit at its rear and emits light along at least part of its length. It is provided with formations (17, 117) so as to take the appearance of cut glass or crystal and is used as a park light and as part of a welcome sequence.

A light ring assembly that is designed to provide bright, uniform and homogenized illumination and that can be used with any number of vehicle and non-vehicle lighting applications. According to one embodiment, the light ring assembly includes a housing, a circuit board with a number of individual light sources, a light ring and a lens. Light emitted by the light sources enters an optical input surface on a bottom side of the light ring, is reflected within the body of the light ring so as to mix and become more distributed, and then exits an optical output surface on a top side of the light ring.

A vehicular lamp including: a surface emitting light source including a front surface that includes a light-emitting surface, and a rear surface on the side opposite thereto; a transparent member including a light incident surface, a light exit surface from which light entering from the light incident surface exits, a light guide portion for guiding the light entering from the light incident surface to the light exit surface, and a holding portion for holding the surface emitting light source; and a light source that emits light which enters from the light incident surface, is guided to the light exit surface by the light guide portion, and exits from the light exit surface.