This lamp unit is configured to radiate light, frontward of the unit via a projection lens (72), that comes from a light source (52) and that has been reflected by a spatial light modulator (30). In this case, of three lenses, a first lens (72A) to a third lens (72C), constituting the projection lens (72), the third lens (72C) located on a rearmost side of the unit is configured by a glass lens, and the other lenses are configured by resin lenses.

The present disclosure relates to a lamp for a vehicle, the lamp including: a board; a light source disposed on one surface of the board; and a reflector configured to transfer heat to the board and receive heat from the board and having a reflective surface for reflecting light emitted from the light source, thereby simplifying a structure and improving spatial utilization and a degree of design freedom.

A control device for a vehicle lamp controls an adjustment of an optical axis angle of a vehicle lamp provided with a vibration generating source that vibrates at a first frequency, and the control device includes an acceleration sensor provided in the vehicle lamp and configured to sample an acceleration at a second frequency that is a non-integral multiple of the first frequency, a receiving unit that receives a signal indicating an output value from the acceleration sensor, and a controlling unit that executes control of adjusting the optical axis angle of the vehicle lamp on the basis of the output value from the acceleration sensor.

The present invention concerns a lighting and/or signaling device (10) for a motor vehicle, said lighting and/or signaling device (10) comprising: a housing (1); an outer lens (3) designed to close the housing (1); at least one light module (5) housed inside said housing (1) comprising: at least one optical surface (9, 9′, 9″); at least one light source (7, 7′) interacting with said optical surface (9, 9′) to form a light beam; a heat sink (11) comprising a plurality of fins (13); an air flow generator (15) designed to generate an air flow (17) towards the heat sink (11), said air flow (17) passing through the fins (13) of the heat sink (11); and a light module holder (19) comprising a front part (20a) oriented toward the outer lens (3) with a plurality of gaps (21) designed to direct the air flow (17) coming from the heat sink (11) towards the outer lens (3).

There is provided a vehicle lamp including a projection lens, a first light source arranged at a rear of the projection lens and configured to emit light for forming a predetermined light distribution pattern, a reflector configured to reflect the light emitted from the first light source towards the projection lens, a first array light source arranged at the rear of the projection lens and including a plurality of semiconductor light emitting elements aligned in at least one row, and a second array light source arranged at the rear of the projection lens and including a plurality of semiconductor light emitting elements aligned in at least one row. The first array light source and the second array light source are arranged in an upper-lower direction.

A light source unit includes a card type light source including a card substrate on which a light source is mounted, and a power supply connector configured to supply power to the light source. A card edge connector is formed on a part of the card substrate. The power supply connector is configured to be fitted to the card type light source via the card edge connector. The card type light source is provided with an alignment groove for confirming an alignment state with respect to the power supply connector.

A display apparatus includes a display panel, a panel guide supporting a lower edge of the display panel, and a backlight unit supplying light to the display panel. The backlight unit includes at least one first substrate, a plurality of light emitting elements, and a plurality of light guide structures disposed on the at least first one substrate and arranged relative to one or more of the plurality of light emitting elements.

A light-emitting diode and a manufacturing method therefor are disclosed. The light-emitting diode comprises: a first conductive semiconductor layer; at least two light-emitting units arranged by being spaced from each other on the first conductive semiconductor layer, respectively including an active layer and a second conductive semiconductor layer, and including one or more contact holes through which the first conductive semiconductor layer is partially exposed; an additional contact area located between the light-emitting units; a second electrode making ohmic contact with the second conductive semiconductor layer; a lower insulation layer; and a first electrode making ohmic contact with the first conductive semiconductor layer through the contact holes of each of the light-emitting units and the additional contact area.

A high beam and low beam switching device, a vehicle lamp comprising the high beam and low beam switching device, and a vehicle, the device comprising a light shielding plate, an impeller, and a driving device that is used for driving the light shielding plate and the impeller to rotate forwards and backwards; and a limiting mechanism used for limiting the rotation angle of the light shielding plate is provided between the light shielding plate and the driving device. The high-beam and low-beam switching device can achieve the successful switching of a high beam and a low beam, and the use of a vehicle lamp will not be affected; mist or moisture in the interior of the vehicle lamp can be removed, and meanwhile, the heat dissipation effect of the vehicle lamp can be improved, and the space that is occupied by the vehicle lamp will not be increased.

An apparatus for adjusting high and low beams of an automobile headlamp comprising: a lens and a cooling support frame; wherein a parabolic reflector and a LED light assembly are set in the cooling support frame; wherein an opening is set on one side of the lens and an adjusting mechanism for adjusting high and low beams wherein the adjusting mechanism is set in the opening; wherein the adjusting is further comprising a fixed plate wherein the fixed plate is set on the cooling support frame near adjacent to the opening; wherein a solenoid valve is installed on the fixed plate; wherein a plurality of connecting pieces are set on both sides of the fixed plate; wherein an adjusting plate is movably connected between the connecting pieces through a clamp spring; wherein a cross rod is set on the adjusting plate; wherein a valve rod of the solenoid valve is connected to the cross rod such that the adjusting plate moves from position A to position B when the valve rod moves wherein the adjusting plate in position a interferes with light transmission between the LED light assembly and the lens; wherein the adjusting plate in position B does not interfere with light transmission between the LED light assembly and the lens.