A lens of vehicular light has an entrance surface comprising: an upper part entrance surface for allowing light from the light source to enter, said light source being irradiated in an upper direction at a greater angle than a predetermined upper irradiation angle; a lower part entrance surface for allowing light from the light source to enter, the light source being irradiated in a lower direction at a greater angle than a predetermined lower irradiation angle; and a central entrance surface between the upper part entrance surface and the lower part entrance surface. The lower part entrance surface has a first lower part entrance surface on the light source optical axis side, and a second lower part entrance surface below the first lower part entrance surface. The lens performs the light distribution control whereby the light entering in the second lower part entrance surface is irradiated in a lower direction.

A headlight for a motor vehicle having at least one light source which emits light during operation of the headlight. A primary optical system has at least one light entry surface for the light emitted by the at least one light source and at least one light exit surface. A secondary optical system, which, during operation of the headlight, projects the light emitted from the at least one light exit surface of the primary optical system into the space outside the motor vehicle where it produces a light distribution which has a horizontal cut-off line and light portions located above the cut-off line in order to implement an OS function (overhead sign function). The headlight being designed such that a portion of the light emitted by the primary optical system is reflected back to the primary optical system by the secondary optical system.

A present invention is provided with a semiconductor-type light source, a bracket, a rotating shaft, a movable shade, a solenoid, and a connecting member. The movable shade is configured from a steel plate. The movable shade is provided with mounting pieces. The mounting pieces are provided with through holes. A crushed surface is formed on an edge section at the side opposite to an edge section of the side of a burr of each of the through holes. Consequently, the present invention provides a vehicle lighting fixture by which smooth switching of light distribution can be achieved by preventing damage to the surface of the rotating shaft over a long time.

A tractor headlight device according to the present invention is configured from a pair of high-beam units and a pair of low-beam units, wherein the high-beam units and the low-beam units are respectively disposed at top and bottom. High-beam lamp lenses configuring the high-beam units are formed extending from the front to the sides of a hood. Low-beam lamp lenses configuring the low-beam units are formed along a front grill under the high-beam units.

A vehicular lighting device includes a scanning light source. The scanning light source includes a semiconductor light source, and scans the output light of the semiconductor light source in a forward region ahead of the lighting device. A lighting circuit changes the light amount of the semiconductor light source in multiple levels in synchronization with the scanning of the scanning light source.

An increase in the size of a body section of a straddled vehicle forward of a steering shaft in a left-right direction and a front-rear direction of a body frame is limited while a space is secured forward of the steering shaft. In left optical lens body 45L, top end TE is disposed below bottom edge B3 of handlebar 23, bottom end BE is disposed above a bottom end (virtual line Lc) of lower bracket 15, left end LE is disposed on the right of a right end (virtual line L6) of left grip 24L, and right end RE is disposed on the left of right edge B1 of left front-wheel support unit 12L. In right optical lens body 45R, top end TE is disposed below bottom edge B3 of handlebar 23, bottom end BE is disposed above the bottom end of lower bracket 15, right end RE is disposed on the left of a left end of right grip 24R, and left end LE is disposed on the right of left edge B2 of right front-wheel support unit 12R.

An illumination module includes a light source, a reflective light valve, a lens, and a diffuser. The light source is configured to emit an illumination beam. The reflective light valve is disposed on a path of the illumination beam, and includes multiple pixels. A pixel in a first state among the pixels is configured to reflect the illumination beam into an effective beam. A pixel in a second state among the pixels is configured to reflect the illumination beam into an auxiliary beam. The lens is disposed on a path of the effective beam, and configured to project the effective beam to an area to be illuminated. The diffuser is configured to diffuse the auxiliary beam from the reflective light valve into a diffused light. The lens is configured to project the diffused light to the area to be illuminated.

A power-supply device including: a casing having a space therein and formed by metal stamping or having a thickness ranging from 0.3 to 3.0 mm; and a circuit board disposed inside the casing, wherein the casing includes a casing portion having an opening, and a cover portion disposed to cover the opening of the casing portion, the casing portion has a through hole formed at a position corresponding to a connector terminal connected to the circuit board, and the cover portion includes a storage portion bulging outward from the casing, the storage portion storing either one of an electronic component provided to a face of the circuit board which faces the cover portion and an electronic component provided across the circuit board.

An illumination apparatus includes a light-emitting element, a first lens, and a second lens. A first incident surface of the first lens faces the light-emitting element, and guides a light beam from the light-emitting element to a radiation port. A second incident surface of the first lens guides a light beam not passing through the first incident surface to a direction toward the outer periphery of the first lens. A first reflection surface of the first lens reflects a light beam from the second incident surface to guide the light beam to the radiation port.

A tractor headlight device according to the present invention is configured from a pair of high-beam units and a pair of low-beam units, wherein the high-beam units and the low-beam units are respectively disposed at top and bottom. High-beam lamp lenses configuring the high-beam units are formed extending from the front to the sides of a hood. Low-beam lamp lenses configuring the low-beam units are formed along a front grill under the high-beam units.