The present invention relates to a power track (10) for mounting and powering an electronic product (12), the power track comprising: a mounting surface (14) comprising means (16) for surface-mounting the power track on an installation surface (18); a linear opening (20; 20) extending along at least a portion of the length (L) of the power track, the linear opening being adapted to receive a connector (22) of the electronic product to be mounted to the power track, wherein the linear opening is facing in a direction (24; 24) parallel to the mounting surface; and a linear light source (30; 30; 46; 52).

Disclosed are a trim unit for a lamp and the lamp. The trim unit for the lamp includes: one or more installation parts, through enabling the installation parts to be abutted with a corresponding fixture of a lamp main body of the lamp, the trim unit may be fixed to the lamp main body at a light-emitting end of the lamp main body in a removable manner, and the trim unit includes an adjusting part, the adjusting part adjusts light emitted by an illuminating unit installed in the lamp main body. Therefore, a problem in the related art that an appearance decoration effect of the lamp is monotonous is solved.

A children's toy, and electronic device, plays audio files and projects differently-colored light patterns onto a surface in a room in which the device is placed. The light patterns are projected in synchronization with the playback of such audio files. The device allows users to select from different nature sounds, different melodies, or multiple pre-recorded children's stories. The device also enables users to record their own stories for each of several environments, and playback their custom stories together with projections of light in each environment.

A lighting unit for use in low lighting environments such as underground mines is provided. The lighting unit includes a main housing having a front opening and a cavity, a first visual lighting assembly positioned within the cavity of the main housing that emits light in the visible spectrum, and a second ultraviolet lighting assembly positioned a fixed distance from the first visual lighting assembly within the cavity of the main housing that emits light in the ultraviolet spectrum. The lighting unit is part of a system for detecting patterns on objects having reflective or high visibility colored material thereon. In addition to the lighting unit, the system includes a camera having a field of view within which the system is configured to detect patterns of reflective or high visibility colored material on one or more objects, a warning device to alert the operator when a marked object enters the camera's field of view. A controller/processor is programmed to detect when a pattern of reflective or high visibility colored material enters the camera's field of view. A variety of patterns can be used, and the controller can be programmed to associated each pattern with a specific object.

A lighting assembly comprises a linearly extending luminaire having an electronic circuit board, an inner lens assembly attached to the forward facing surface of the electronic circuit board, the inner lens including an array of focused light sources, an outer lens disposed over the inner lens assembly, and a heatsink extending along the length of the linearly extending luminaire. A bracket is pivotally attached to the linearly extending luminaire, the bracket having an axis of rotation around a horizontal axis, whereby the linearly extending luminaire is separately rotatable along a horizontal axis relative to the elevated structure. The bracket also has an axis of rotation around a vertical axis, whereby the linearly extending luminaire is separately rotatable along a vertical axis relative to the elevated structure.

Disclosed embodiments relate to a combination axial fan and LED lighting system configured to fit into the footprint of a standard ceiling tile. Disclosed embodiments further include ceiling tiles with a built-in fan and/or LED lighting. The disclosed systems may include a housing container and an axial fan. The fan has a fan cavity including air diversion mechanism to direct air from the fan cavity toward the lighting and fan components. The inventions include an airflow surface to direct air existing the fan cavity along an LED light fixture. Moreover, disclosed embodiments include one or more UV light sources which irradiate contaminants as air flows through the ceiling tile.

A luminaire includes a light source having a light-emitting element, and a communication device configured to transmit and/or receive a communication signal by wireless communication. The luminaire further includes a power supply configured to supply electric power to the light source and the communication device, and a housing configured to contain the communication device and the power supply. The light source is configured to be held by the housing. The housing is provided with an opening. The housing has a rectangular parallelepiped shape with electrically conductive walls to form a rectangular waveguide having a cutoff frequency. The housing is set to have a dimension in a width direction thereof such that a radio frequency of the communication signal is equal to or more than the cutoff frequency.

A lighting apparatus is provided. The lighting apparatus includes a first light distributor which illuminates a predetermined region, and a second light distributor which illuminates a periphery of the predetermined region. The first light distributor includes a first light emitting element having a spectral emission characteristic defined by a correlated color temperature of light being at least 5400 K and at most 7000 K, Duv being in a range of 6 to 5 inclusive, a chroma value calculated using a calculation method specified by the CIE 1997 Interim Color Appearance Model (Simple Version) being 2.7 or less, and a general color rendering index Ra being 80 or more. The second light distributor includes a second light emitting element having a spectral emission characteristic defined by a correlated color temperature of light being lower than the correlated color temperature of the light emitted by the first light emitting element.

A outdoor lighting fixture includes an enclosure, a heatsink, and an end-cap. The enclosure includes a cabinet and a cover that enclose control and power circuitry to provide power to illuminate a light source. The cabinet further includes an attachment face, and the extruded heatsink can be coupled to the attachment face. The extruded heatsink includes sides, a discontinuous plane of material formed with sides of the heatsink to provide a recessed mounting tray, and heat-conducting fins extending from the plane of material. The light source, which can include an LED light source, is coupled to the heatsink. The extruded heatsink can be coupled at one end to the attachment face of the cabinet at a position such that a space remains between the plane of material and a bottom edge of the attachment face, to permit water to drain from between the heat-conducting fins of the extruded heatsink.

An LED light device and a circuit preparation method thereof are provided. The LED light device includes a base, an LED light unit, and a lamp shade. The LED light-emitting unit and the lamp shade are arranged on the base. The lamp shade covers the LED light-emitting unit inside. The circuit preparation method includes following steps of: providing a base which is a physical entity having a three-dimensional structure on the surface thereof; coating a circuit layer on the base surface through a programmable coating equipment, manual coating or the combined mode, wherein the circuit layer is a liquid or powder coating containing metal materials, and the thickness of the circuit layer is 20 m or more; baking the base coated with the circuit layer at the high temperature of 100-1,000 C. until the circuit layer is dried; and obtaining a base having a three-dimensional circuit after cooling.