A lighting fixture is provided. The lighting fixture may include one or more circuit boards having a plurality of LED light sources. The lighting fixture may further include one or more lens assemblies coupleable to the one or more circuit boards. The one or more lens assemblies may include a frame defining a plurality of openings. The one or more lens assemblies may further include a plurality of lenses molded to the frame. The plurality of lenses may be molded to the frame such that each of the plurality of lenses is at least partially positioned within a corresponding opening of the plurality of openings defined by the frame.

The present invention discloses an LED lamp comprising a base, a lamp body coupled to the base, a light emitting assembly arranged inside the lamp body, a positioning component fixed on the lamp body and defining a groove, a flexible component having a fixed end fixed to the lamp body and a free end, and a driver board defining a slot and electrically connected with the light emitting assembly, wherein the driver board is disposed in the groove and the free end of the flexible component is locked into the slot. A method for assembling the LED lamp is also described.

A lighting assembly includes a heat sink including a pad surface, and an LED mounted on the pad surface. An optical device is optically coupled to the LED, and a support structure is provided for connecting the optical device to the heat sink. The support structure includes fixation spacers to connect the supporting structure to the heat sink, and both the LED and the fixation spacers contact the pad surface on a common plane.

A vehicle lamp assembly includes a lamp lens having a smooth surface and a contoured surface. The contoured has a first portion, a second portion and a central section that together define a linear Fresnel lens. The first portion has a plurality of first parallel grooves and projections shaped to direct light passing therethrough in predetermined directions. The second portion has a plurality of second parallel grooves and projections shaped to direct light passing therethrough in directions approximately parallel to the predetermined directions of the first portion. The central section is disposed between the first portion and the second portion and has a first section with a vertex located a first distance from the smooth surface and a second section with a vertex located a second distance away from the smooth surface. The first section and the second section are adjacent to one another.

A vehicle lamp assembly includes a lamp lens having a smooth surface and a contoured surface. The contoured has a first portion, a second portion and a central section that together define a linear Fresnel lens. The first portion has a plurality of first parallel grooves and projections shaped to direct light passing therethrough in predetermined directions. The second portion has a plurality of second parallel grooves and projections shaped to direct light passing therethrough in directions approximately parallel to the predetermined directions of the first portion. The central section is disposed between the first portion and the second portion and has a first section with a vertex located a first distance from the smooth surface and a second section with a vertex located a second distance away from the smooth surface. The first section and the second section are adjacent to one another.

A signal light assembly is provided that comprises a multi-position Fresnel lens having a circumference, a first side and a second side. The signal light assembly further comprises a main housing configured to attach to the multi-position Fresnel lens. The multi-position Fresnel lens includes a first plurality of pads and a second plurality of pads on the first side of the multi-position Fresnel lens such that the first plurality of pads and the second plurality of pads are different and alternatively disposed. The first plurality of pads corresponds to a first range operation related to a first focal length. The second plurality of pads corresponds to a second range operation related to a second focal length. The multi-position Fresnel lens is disposed in a first position corresponding to the first range operation or in a second position corresponding to the second range operation based on the use of either the first plurality of pads or the second plurality of pads for assembly between the main housing and the multi-position Fresnel lens.

A monobloc optical element including a first end including a plurality of light inlets distinct from one another via which rays of light enter the optical element, the optical element including a second end via which the rays of light exit together, the second end being configured to shape a beam of light external to the optical element, the optical element being defined by an axis passing at least through the first end and through the second end, characterized in that the optical element includes at least a first contact zone dedicated to referencing it mechanically along the axis and at least a second contact zone dedicated to referencing it mechanically in a direction transverse to the axis, the second contact zone being closer to the second end than to the first end.

The present disclosure provides a lamp holder rotating assembly, comprising a foundation support, an inserted rod, and a rotating head. The foundation support defines a locating slot. The inserted rod comprises a head end and a tail end coupled to the head end. The rotating head defines a groove. The inserted rod is rotatably mounted on the foundation support. The tail end passes through the locating slot. The head end passes through the groove of the rotating head. The head end rotates in the groove along a first direction which causes the tail end rotating in the locating slot along a second direction opposite to the first direction. The present disclosure further provides an illuminating apparatus.

A lighting engine, system and method of fabrication are described. The system contains a flexible printed circuit (FPC) shaped as a loop. LEDs are mounted on the FPC to emit light toward a center of the loop. A light guide positioned in an interior of the loop receives light emitted by the LEDs through an edge of the light guide. The light guide has slots formed therein that receive locator pins to limit thermal displacement of the light guide towards the LEDs. Other apparatuses, systems, and methods are also disclosed.

An airfield light, components thereof, and associated methods. The airfield light can include a baffle including a baffle body and one or more baffle members secured to the baffle body. The baffle members are configured to cover portions of a baffle window. At least one light source is mounted in association with the baffle and emits light out of the baffle window. The baffle members cover portions of the baffle window for blocking light transmission therethrough. A method of assembling an airfield light includes arranging a baffle to shroud a light assembly and removing a baffle member to permit light from the light assembly to emit through a portion of a baffle window opened by removing the baffle member. A baffle for an airfield light is also disclosed.