A vehicle lamp includes a mirror, a plurality of light-emitting elements, and a lens. The mirror is capable of rotating a mirror surface around a rotary axis in a vertical direction. The mirror surface extends along the rotary axis. The light-emitting elements are arranged on a lateral side more than the mirror in a vehicle width direction. The lens irradiates a range wider than the mirror with light from the light-emitting elements. The light-emitting elements are disposed apart from each other such that light distribution images of the light reflected by the mirror surface are aligned along the vehicle width direction. The mirror rotates to combine the adjacent. light distribution images and form a main light distribution pattern.

A vehicle lamp includes a mirror, a plurality of light-emitting elements, and a lens. The mirror is capable of rotating a mirror surface around a rotary axis in a vertical direction. The mirror surface extends along the rotary axis. The light-emitting elements are arranged on a lateral side more than the mirror in a vehicle width direction. The lens irradiates a range wider than the mirror with light from the light-emitting elements. The light-emitting elements are disposed apart from each other such that light distribution images of the light reflected by the mirror surface are aligned along the vehicle width direction. The mirror rotates to combine the adjacent. light distribution images and form a main light distribution pattern.

Method and electromechanical device (1) for stabilizing the front lighting of a motorcycle provided with a front lighting device (2). The electromechanical device (1) comprises a sensor set (3) for detecting the lateral tilting angle experienced by the motorcycle on taking a curve and a motor (4) to drive the gear system (8). The gear system (8) forces the lighting device (2) to turn a rotation angle that compensates the lateral tilting experienced by the motorcycle. In this way, by means of the electromechanical device (1) of the invention, an appropriate distribution of the front lighting of the motorcycle is maintained throughout the entire straight-line or curvilinear path, without the need to add additional lighting devices and in accordance with the prevailing regulation regarding front lighting devices.

Method and electromechanical device (1) for stabilizing the front lighting of a motorcycle provided with a front lighting device (2). The electromechanical device (1) comprises a sensor set (3) for detecting the lateral tilting angle experienced by the motorcycle on taking a curve and a motor (4) to drive the gear system (8). The gear system (8) forces the lighting device (2) to turn a rotation angle that compensates the lateral tilting experienced by the motorcycle. In this way, by means of the electromechanical device (1) of the invention, an appropriate distribution of the front lighting of the motorcycle is maintained throughout the entire straight-line or curvilinear path, without the need to add additional lighting devices and in accordance with the prevailing regulation regarding front lighting devices.

Provided is a vehicle lamp including an operation unit configured to operate an optical axis adjustment bevel gear provided in a lamp to be axially rotated. An axial rotation force transfer body of the operation unit includes an operation rod operated to be axially rotated, a driving rod engaged with the gear, and a wire interconnecting the operation rod and the driving rod in an axial rotation direction, and the driving rod is formed of a metal which is hard to rust. The driving rod is formed by a metal/injection/molding (MIM) technique. A support member extends between the driving rod and the lamp.

A headlight (10) and a lighting system (54) with the headlight (10) and a control unit. A motor vehicle (52) has the headlight (10), which combines a full beam matrix (20) and a dipped light in a common pivotable lighting module (18).

A headlight (10) and a lighting system (54) with the headlight (10) and a control unit. A motor vehicle (52) has the headlight (10), which combines a full beam matrix (20) and a dipped light in a common pivotable lighting module (18).

A first camera unit (111) acquires an image including at least an area ahead of a vehicle based on a first optical axis (X1). A second camera unit (112) acquires an image including at least an area on the left of the vehicle based on a second optical axis (X2). When viewed from an up-down direction of the vehicle, the first optical axis (X1) and the second optical axis (X2) intersect with each other.

A first camera unit (111) acquires an image including at least an area ahead of a vehicle based on a first optical axis (X1). A second camera unit (112) acquires an image including at least an area on the left of the vehicle based on a second optical axis (X2). When viewed from an up-down direction of the vehicle, the first optical axis (X1) and the second optical axis (X2) intersect with each other.

A device for adjusting a supporting frame of a headlight of a motor vehicle, comprising a first coupling element, a second coupling element, and a guide element, wherein the second coupling element is pivotable relative to the first coupling element, wherein the first coupling element has a receiving region for a spherical segment-shaped region of the second coupling element, wherein the region is secured in a positive manner in the receiving region, wherein the region is secured to the supporting frame, wherein the first coupling element is guided in the guide element so as to be displaceable in at least one first direction.