A lighting device (10) for a motor vehicle headlight, comprising: a first light module (100) for generating a low beam distribution, a second light module (200) for generating a high beam distribution having a light-guiding body (220), in which light-guiding body (220) light can be irradiated via a coupling surface (221) and can be decoupled via a decoupling surface (222),
the light-guiding body (220) having a first reflective surface (223a) on a roof side (223), and a projection lens (500) that is configured to image the light that can be generated by the first and second light modules (100, 200) in front of the lighting device (10),
the light-guiding body (220) being designed in such a way that an aperture for part of the light that can be generated by the first light module (100) is arranged between the first light module (100) and the projection lens (500), the lighting device (10) comprising a third light module (300) for generating an additional light distribution, and the light-guiding body (220) having a bottom surface (224) that has a second reflective surface (224a),
the third light module (300) being arranged in such a way that part of the light can be reflected from the second reflective surface (224a).

Disclosed is a Light Detection and Ranging (LiDAR)-integrated lamp device configured for a vehicle. In the included LiDAR-integrated lamp device, the position at which a head lamp is applied and the position at which a LiDAR is applied are identical and then, a reduction in layout is achieved. Furthermore, through sharing of constituent elements, the number of constituent elements is reduced and then, manufacturing costs are reduced.

In an illumination device, an incidence angle of a laser beam, which is scanned by a laser beam scanning mechanism, with respect to a wavelength conversion member is set to an angle where the laser beam does not directly enter a projection lens when the wavelength conversion member is damaged, chipped or fallen off, and a laser light source and the laser beam scanning mechanism are located at a position corresponding to at least one of an upper side and a lower side of a light distribution pattern with respect to the wavelength conversion member, and are disposed to be deviated to either one of one side corresponding to a left side of the light distribution pattern and other side corresponding to a right side of the light distribution pattern.

In an illumination device, an incidence angle of a laser beam, which is scanned by a laser beam scanning mechanism, with respect to a wavelength conversion member is set to an angle where the laser beam does not directly enter a projection lens when the wavelength conversion member is damaged, chipped or fallen off, and a laser light source and the laser beam scanning mechanism are located at a position corresponding to at least one of an upper side and a lower side of a light distribution pattern with respect to the wavelength conversion member, and are disposed to be deviated to either one of one side corresponding to a left side of the light distribution pattern and other side corresponding to a right side of the light distribution pattern.

An example headlight includes: a multi-segment illumination source comprising: a first illumination source segment; and a second illumination source segment; driver circuitry coupled to the multi-segment illumination source, the driver circuitry comprising: a first driver coupled to the first illumination source segment, the first driver configured to generate a first drive signal to cause the first illumination source segment to produce a first light having a first brightness; and a second driver coupled to the second illumination source segment, the second driver configured to generate a second drive signal to cause the second illumination source segment to produce a second light having a second brightness; and a spatial light modulator (SLM) optically coupled to the multi-segment illumination source, the SLM configured to: receive the first light; modulate the first light to produce first modulated light; receive the second light; and modulate the second light to produce second modulated light.

The present disclosure relates to a vehicle lamp module, and the vehicle lamp module includes a light source device including a substrate and a plurality of light sources mounted on the substrate, a rod device that provides a path through which light generated by the light source device moves and forms a predetermined beam pattern, and a lens device provided so that the light emitted from the rod device is transmitted and discharged to an outside, wherein some of the plurality of light sources are arranged on the substrate in two rows in a longitudinal direction.

The present disclosure relates to a vehicle lamp module, and the vehicle lamp module includes a light source device including a substrate and a plurality of light sources mounted on the substrate, a rod device that provides a path through which light generated by the light source device moves and forms a predetermined beam pattern, and a lens device provided so that the light emitted from the rod device is transmitted and discharged to an outside, wherein some of the plurality of light sources are arranged on the substrate in two rows in a longitudinal direction.

A vehicle lamp includes a metal plate having a light source mounted thereon, a lens that light emitted from the light source enters and passes through to exit forward, and a holder that holds the lens. The metal plate and the lens are positioned to the holder.

A vehicle lamp includes a metal plate having a light source mounted thereon, a lens that light emitted from the light source enters and passes through to exit forward, and a holder that holds the lens. The metal plate and the lens are positioned to the holder.

The present disclosure provides a projection lamp module and a headlamp device for a vehicle using the same, in which two headlamps implement the same brightness, images of the headlamps are maintained, and visibility of an image projected onto a road surface is improved even though even though a lamp having a lighting function of forming an image on a road surface is applied to any one of the headlamps for a vehicle.