The present disclosure relates to a lamp. The lamp comprising a light source module and a shell module. The light source module comprising a circuit board provided with a plurality of light-emitting elements and a fixing ring. The fixing ring comprising an annular substrate, a sidewall connected to an outer edge of the annular substrate, and at least two flanges disposed on an outer surface of the sidewall. The circuit board is disposed on the annular substrate and surrounded by the sidewall. The shell module comprising a base. The base comprising a first surface, a second surface on an opposite side of the first surface, a receiving cavity formed on the first surface, and at least two sliding slots defined on an inner wall of the receiving cavity. The at least two flanges are received in the at least two sliding slots.

An apparatus, a lighting apparatus, and a vehicle with an interlocking joint are described. The interlocking joint includes a first part made of a first material including a plurality of grooves, and a second part molded over the plurality of the grooves of the first part creating a mechanical bond and a chemical bond between the first part and the second part.

An electronic device according to an embodiment includes an electronic component and equipment. The equipment includes a mounting surface on which the electronic component is mounted via a coating agent and on which a recessed portion is provided along a part of a circumferential end portion of the electronic component.

An lighting unit including a mounting board and first and second LEDs coupled to the mounting board. First and second optic components are coupled to the mounting board and enclose the LEDs. First and second shield members are respectively associated with the first and second LEDs.

The present techniques are related to an apparatus for an MEMS LED zoom. The apparatus for includes an LED light source and a collimation lens. The collimation lens to collimate light from the LED light source. The apparatus is also to include an active lens. The active lens to adjust the collimated light from the collimation lens.

A passive optical unit for emphasizes light effects generated on the screen or on the LED of a portable processing device. The optical unit includes a base and an optical guide. The base can be provided with a gripper connecting the optical unit to the portable processing device. The optical guide can have two differentiated branches for the screen and the LED, which by converging on the upper part of the optical guide create an optical mixing effect between the screen and the LED. On the base of the optical guide, material inserts can be inserted that can be detected by the touch sensor of the screen of the portable device. By using such points of contact combined with the information known beforehand, the device can be configured to determine the exact position of the screen where to represent the image to be optically coupled with the optical guide.

A passive optical unit for emphasizes light effects generated on the screen or on the LED of a portable processing device. The optical unit includes a base and an optical guide. The base can be provided with a gripper connecting the optical unit to the portable processing device. The optical guide can have two differentiated branches for the screen and the LED, which by converging on the upper part of the optical guide create an optical mixing effect between the screen and the LED. On the base of the optical guide, material inserts can be inserted that can be detected by the touch sensor of the screen of the portable device. By using such points of contact combined with the information known beforehand, the device can be configured to determine the exact position of the screen where to represent the image to be optically coupled with the optical guide.

The modular enclosure with water management mating interfaces most fundamentally includes a mechanical connection which directs and obstructs water via various strategically positioned structures and gaps. One basic configuration includes a base having at least one end face and a periphery extending from the end face. The periphery includes an outward projecting lip. A plurality of retainers is secured to the base below the lip. The retainers and the lip define a channel extending along at least part of each side of the base. A dome having longitudinal sides that terminate in a bottom edge and an inward projecting flange that is spaced from the bottom edge is received by the flange in the channel to retain the dome to the base.

The modular enclosure with water management mating interfaces most fundamentally includes a mechanical connection which directs and obstructs water via various strategically positioned structures and gaps. One basic configuration includes a base having at least one end face and a periphery extending from the end face. The periphery includes an outward projecting lip. A plurality of retainers is secured to the base below the lip. The retainers and the lip define a channel extending along at least part of each side of the base. A dome having longitudinal sides that terminate in a bottom edge and an inward projecting flange that is spaced from the bottom edge is received by the flange in the channel to retain the dome to the base.

The present disclosure discloses a lighting module including a light source module, a driving module, and an optical element and a lighting lamp. The light source module includes a light source plate and a plurality of Light-Emitting Diode (LED) light sources. Emergent light of the LED light source is emitted after passing through the optical element, and the optical element has a light incident portion and a light emergent portion. The driving module and the LED light source are respectively adhered to the light source plate and are integrated on the light source plate, the light incident portion of the optical element covers above the light source plate, receives the emergent light of the LED light source and carries out optical configuration on the emergent light of the LED light source, and the driving module is arranged in a periphery of the light incident portion of the optical element.