A lighting device includes a housing, a plurality of clips, a ferromagnetic strip, a light source, and a lens. The housing includes a base, a first side wall, a second side wall defining an interior cavity. Each of the plurality of clips is coupled to the housing and includes a magnet. The ferromagnetic strip is coupled to the housing via the magnets of the plurality of clips. The light source is disposed within the interior cavity of the housing and coupled to the ferromagnetic strip. The lens is disposed within the interior cavity of the housing.

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.

An optical element (1) for influencing light emitted by light sources (7) has at least one pair of optical system elements (10) which are arranged next to one another and integrally formed with one another. A light entrance region (4) and a deflecting surface portion (5) are formed on the back side (2) of each optical system element (10). Each optical system element (10) is designed so that first light rays (L1) from an assigned light source (7) are directly incident on the deflecting surface portion (5) and undergo total-internal reflection at the deflecting surface portion (5), and subsequently leave the optical element (1) via the front-side surface portion (6). Each optical system element (10) is also designed so that second light rays (L2) of the light from the assigned light source (7 are directly incident on the front-side surface portion (6), undergo total-internal reflection at the front-side surface portion (6), subsequently are incident on the deflecting surface portion (5), undergo total-internal reflection at the deflecting surface portion (5), and subsequently leave the optical element (1) via the front-side surface portion (6).

A handrail that includes a cover, a first endcap, a second endcap, a support member, and a lighting element is provided. The support member includes a longitudinal axis, first and second ends along the longitudinal axis, first and second lateral sides, and first and second longitudinal sides. The first lateral side of the support member is configured to be secured against a mounting surface. The first endcap is configured to mate with the first end of the support member and the second endcap is configured to mate with the second end of the support member. The cover is placed over the second lateral side of the support member and engages the first longitudinal side and the second longitudinal side of the support member. The lighting element is configured to couple to the support member in a lighting channel and emit light toward the mounting surface.

A lighting device for use by a person comprising an inner bracket and an outer bracket. The device further comprises a first light rotatably engaged the inner bracket and the outer bracket. The device further comprises a second light rotatably engaged with the inner bracket and the outer bracket. The second light is disposed below the first light. The device further comprises a third light engaged with the inner bracket and the outer bracket. The third light is disposed below the second light.

The invention provides a light generating system (1000) comprising: (i) a first set (1100) comprising n1 first light generating devices (110), (ii) a first optical element (410), and (iii) a luminescent body (200), wherein: the n1 first light generating devices (110) are configured to generate first device light (111); wherein the n1 first light generating devices (110) may be selected from the group of lasers and superluminescent diodes; the first set (1100) comprises k1 first subsets (1115) of each at least one first light generating device (110) of the n1 first light generating devices (110), wherein n13, especially n15, and 2k1n1; the luminescent body (200) is configured to: (i) convert part of the first device light (111) into luminescent material light (211), and (ii) transmit part of the first device light (111); the n1 first light generating devices (110) and the first optical element (410) are configured to provide first beams (115) of first device light (111) to the luminescent body (200), wherein two or more first beams (115) of two or more first light generating devices (110) of the k1 first subsets (1115) have different first angles of incidence (1) relative to a normal to the luminescent body (200); andin an operational mode of the light generating system (1000) a first intensity of the first device light (111) of the k1 first subsets (1115) is dependent upon the first angles of incidence (1).

An LED-embedded light-emitting wire light string is provided, including a plug, a tail socket, a main wire, tees, injection-molded lamp bases, light bulbs, and a rectifier drive board. Two ends of the main wire are respectively connected to the plug and the tail socket; branches are provided on the main wire, each branch is connected to one of the injection-molded lamp bases by way of the corresponding tee unit, the light bulbs are respectively installed on the injection-molded lamp bases, and the main wire also connects a plurality of light bulbs in series to form a high-voltage wire lamp; a plurality of LED beads are connected in series on the main wire so as to form a low-voltage wire lamp; the low-voltage wire lamp is connected to the plug or the tail socket; and the high-voltage wire lamp and the low-voltage wire lamp share a power supply.

An LED lighting strip, method of manufacturing an LED lighting strip and an automotive lighting system are described. The LED lighting strip (100) includes at least two outer wires (12, 14), at least one central wire (15) between the two outer wires, LEDs (22) arranged along the LED lighting strip and electrically coupled at least to the at least two outer wires (12, 14), and an enclosing member (52) enclosing the at least two outer wires, the at one central wire and the LEDs. The at least two outer wires (12, 14) and the least one central wire (15) have a bend (51) in sections between at least some adjacent LEDs (22).

A light emitting device provided in a vehicle includes a caliper body, an installation bracket located on an accommodation surface inside the caliper body, a light emitting module installed on the installation bracket and configured to emit light into a gap of the caliper body, a cable connected to the light emitting module, and an electronic control unit (ECU) connected to the cable, wherein the ECU controls at least one of a color, brightness, or cycle of the light emitted from the light emitting module. The light emitting device includes a light emitting module that emits light into a gap of a caliper body, and controls the light emitting module through an electronic control unit to beautify the caliper body.

An environmental-friendly luminous flowerpot comprises a pot body which is semitransparent and is made of an herb-plastic composite environmental-friendly material. One or more light-emitting elements which are electrically connected to a solar device are disposed inside the pot body. The pot body can be made to have various shapes in various textures. When light is transmitted to the outside through an inner peripheral wall of the pot body, the light rays bring out different visual effects according to the various shapes in various textures, ensuring the effects of beautifying and decorating. Solar energy is used to supply power, and the light control device disposed on the solar module is capable of automatically turning off light during the day and automatically turning on light at night, saving energy and protecting the environment.