An LED light bulb with integrated power supply, and which may incorporate integrated communications and processing functions. The LED light bulb is designed to be efficiently manufactured in mass quantities using automated assembly techniques, and is constructed to exhibit the spatial light pattern of a regular incandescent bulb as closely as possible. Where communications and processing functions are integrated, the LED light bulb is able to communicate via wireless communications to a mobile phone, notebook, tablet, or other computing device.

A lighting device (1) is provided comprising a support structure (13) extending from a heat sink (10) and comprising a mounting section (14) with a central mounting face (14.2), first and second lateral mounting faces (14.1, 14.3), and at least one heat dissipation member (18a, 18b) extending from an outer face (11a.1, 11a.3) of the support structure (13) comprising a respective one of the first and the second lateral mounting faces (14.1, 14.2), the at least one first heat dissipation member (18a, 18b) comprising an inclined surface (19a, 19b) which is inclined with respect to the respective one of the first and the second lateral mounting faces (14.1, 14.3) such that a thickness of the at least one first heat dissipation member (18a, 18b) increases along a direction (40) away from the mounting section (14).

Proposed in the present disclosure is a dust scanner allowing various foreign substances existing on a floor to be clearly identified in a field of view of a cleaner user, the dust scanner including: a plurality of LED lighting components; a transmissive body including a parabolic surface having a vertical cross-section convex toward an outside, formed to be transparent, and configured to transmit light beams emitted from the LED lighting components located at an inside thereof to an outside; and blocking plates each closing and sealing a top end and a bottom end between the LED lighting components and the transmissive body, wherein each of the LED lighting components is disposed at a focal point of the parabolic surface, whereby the light beams transmitted to the parabolic surface are projected in parallel to a floor without spreading up and down.

A light emitting structure includes a plurality of structural members forming a framework, wherein the framework has a plurality of spaces between the plurality of structural members; a lighting circuit integrally connected to one or more of the plurality of structural members; and a plurality of light emitting diodes electrically connected to the lighting circuit, wherein the plurality of light emitting diodes are integrally connected to the plurality of structural members via the lighting circuit; wherein the plurality of structural members are constructed to support one or more plants.

A luminaire mounted above ground illuminating a plurality of fields of illuminations employing pre-configured dedicated optical lenses over plurality of light sources to produce a single uniformly lit contiguous field of illumination absent of direct glare.

An underwater dock light having an adjustable anchoring system having a capturing assembly with an upper capturing housing located opposite a lower capturing housing. The upper capturing housing can have at least one cord opening configured to receive a cord. The upper capturing housing can have a cord capturing structure. The cord is configured to contact a portion of the cord capturing structure. A fastener is configured to connect the upper capturing housing to the lower capturing housing. The cord is captured between the cord capturing structure of the upper capturing housing and a surface of the lower capturing housing. An anchoring weight is configured to connect to the capturing assembly. The anchoring weight has an opening. The upper capturing housing and lower capturing housing are configured to retain the anchoring weight.

A lighting assembly includes a lighting tower. The lighting tower includes a plurality of layers of lighting elements, where each layer of lighting elements is configured to provide a different angle of emitted light onto a parabolic reflector with respect to light emitted from another layer of lighting elements onto the parabolic reflector when activated.

An underwater directional light is provided. The directional light includes a lamp assembly, a tube assembly, and a printed circuit board assembly. The lamp assembly includes a housing and a lamp having a plurality of lighting elements. The tube assembly is coupled to the lamp and has a hollow interior. The printed circuit board assembly is mechanically coupled to the tube assembly and electrically coupled to the lamp.

An underwater light having light emitting units positioned around the central axis of a cylindrical structure. The light emitting units project light in multiple directions around the central axis of the cylindrical structure. A transparent cover is located over the light emittign units and a power cord is attached to the underwater light. The power cord adapted to be connected to a power source out of the water to provide power to the underwater light when the underwater light is in the water.

A light-emitting device, including a shell assembly and a heat dissipation assembly. The heat dissipation assembly includes a first heat dissipation portion and a second heat dissipation portion. The first heat dissipation portion is connected with the second heat dissipation portion. The first heat dissipation portion is used to load a light source assembly, and a cavity space is formed when the second heat dissipation portion is covered by and communicated with the shell assembly. The second heat dissipation portion is provided with a first through-hole portion, and the shell assembly is provided with a second through-hole portion, the first through-hole portion and the second through-hole portion circulate a cooling medium to remove heat from the cavity space. Whether the light-emitting device is installed vertically, horizontally or at a certain inclination, a good heat dissipation effect can be achieved and the applicable scope can be greatly expanded.