The present disclosure relates to the technical field of lamp bulbs, and discloses a glue sealed type waterproof lamp bulb, including a lamp holder and a lamp bulb shell fixedly connected to the lamp holder, and further including an insulation fixed seat and a lamp panel type light source assembly for vertical mounting; the insulation fixed seat is arranged at an opening portion of the lamp bulb shell; a glue filling position is formed between the insulation fixed seat and the opening portion of the lamp bulb shell; a waterproof glue layer configured to seal and waterproof the lamp bulb shell is arranged at the glue filling position; the insulation fixed seat at least includes an assembling portion and a plugging portion configured to mount the lamp panel type light source assembly; the plugging portion is provided with a plugging slot.

A device includes a processor or integrated circuit package and at least one MEMS device coupled to the processor or integrated circuit package. The at least one MEMS device includes a first arm, a second arm, at least one permanent magnet, a fan structure, and a coil. The second arm is coupled to, and is spaced apart from, the first arm. The at least one permanent magnet is coupled to the first arm. The fan structure is coupled to, and extends in cantilever manner from, the second arm. The coil is disposed on or within the fan. Thus, when the coil is electrically energized, a Lorentz force is generated that causes the fan structure to vibrate relative to the at least one permanent magnet and relative to the processor, to thereby cool the processor or integrated circuit package.

The present invention relates to a disinfecting lighting device (1) arranged to emit device light. The disinfecting lighting device comprises at least one disinfecting light module (2, 2) comprising at least one first light source (3, 3) providing a first light in the UV wavelength range and a second light in the visible wavelength range, the second light having a first color point x.sub.1,y.sub.1. The disinfecting lighting device further comprises at least one second light source (4) configured to provide a third light in the visible wavelength range, the third light having a second color point x.sub.2,y.sub.2. An optical element (5) is arranged in a light-receiving relationship with the at least one disinfecting light module (2, 2) and the second light source (4). The first color point xi,yi and the second color point x.sub.2,y.sub.2 are substantially equivalent.

A glazing device for a vehicle has an illuminated glazing unit and has a flat outer glass element at least partly forming or continuing the outer body skin and a flat inner glass element. A one-piece or multipart elongated carrier profile component is arranged on an edge section of the inner glass element and holds a lighting device such that the lighting device couples light laterally into the inner glass element. The carrier profile component is attached to the inner glass element and/or the outer glass element, and/or the outer glass element covers the inner glass element or projects laterally beyond the inner glass element in such a way that an edge section of the outer glass element can be attached to a vehicle roof frame and is spaced apart from the edge section of the inner glass element.

A portable light up mirror includes a mirror element, a case element for installing the mirror element, a cover element which is coupled with the case element for covering the mirror element, and a light source which is arranged behind the mirror element within the case element for providing even and glare-free illumination, so that the adequate lighting minimizes shadows on a user's face and give the user a more accurate view when grooming or applying cosmetics.

The disclosure relates to a light source system. The light source system comprises: a light source adjustment device, comprising a light source mechanism, a collimating lens mechanism for collimating light beams emitted by the light source mechanism, and a position adjustment mechanism connected to the collimating lens mechanism and configured for adjusting a relative position between the collimating lens mechanism and the light source mechanism; and a focusing lens, which is arranged in a light emergent direction of the collimating lens mechanism and is configured for converging the light beams collimated by the collimating lens mechanism; wherein the light source mechanism is provided with at least one illuminant group, and the at least one illuminant group comprises at least two different illuminants. In the disclosure, at least two different illuminants are provided on a light source.

A lighting system for emitting light, the system comprising a first and a second lighting module as well as a plug for connecting the two lighting modules to each other, each lighting module comprises a housing, the housing having a first side and a second side, opposite to the first side, such that the second side of the first lighting module is connected to the first side of the second lighting module when the two lighting modules are connected via the plug, each housing comprises at least one Light Emitting Diode, LED, for emitting the light, a controller arranged for wirelessly communicating with the other one of the two lighting modules via a magnetic field antenna, the magnetic field antennawherein the first lighting module has the magnetic field antenna positioned in the housing close to, or adjacent, its second side and wherein the second lighting module has the magnetic field antenna positioned in the housing close to, or adjacent, its first side such that when the two lighting modules are connected using the plug, the magnetic field antennas of the first and second module are aligned.

The invention relates to a shaped part comprising a translucent decorative layer with a front side designed as a visible side and a back side opposite the front side, a functional layer arranged on the back side of the decorative layer, and a carrier arranged on a back side of the shaped part. The invention is characterized in that a functional structure is arranged on or in the functional layer and/or on the back side of the decorative layer, wherein the functional structure is, on the one hand, electrically conductive and, on the other, light-conducting for realizing an illumination function of the shaped part.

A cable management system may comprise a longitudinal trough with a plurality of lights disposed on an underside of the trough. A power connector may be disposed at an end of the trough communicatively coupled to the plurality of lights. The cable management system may also comprise a second trough or one of a plurality of cable management components, each with a plurality of lights disposed on an underside and a power connector communicatively coupled to the pluralities of lights. The first trough, the second trough, and/or the plurality of cable management components may mate together to form a continuous circuit.

A lighting apparatus includes: a white light source; a blue light source; a reflector layer which reflects light; a light diffuser layer which is light transmissive and disposed on an anterior surface side of the reflector layer; and a scatter panel which is light transmissive and disposed on an anterior surface side of the light diffuser layer to face the light diffuser layer. At least a portion of a gap between the scatter panel and the reflector layer and at least a portion of a gap between the scatter panel and the light diffuser layer change from a first end side to a second end side of the lighting apparatus. The white light source and the blue light source are disposed on the first end side of the lighting apparatus to emit light toward the light diffuser layer and the scatter panel.