A smart flexible operating room lighting system with a control system utilizing artificial intelligence (AI) modules may be coupled to a wall, ceiling, or fixture of and mobile in a facility. The lighting system can modularly accommodate multiple illumination arms and incorporate microphones thereon, permitting the vocal control using the control system for hands free operations. The control system controls the movements of the illumination arms to desired positions and orientations via motor-driven actuators and position sensors thereon. The lighting system may include a speaker and a camera to facilitate two-way communications with a user via the control system to facilitate demonstrations for individuals undergoing tutelage in the facility. Further, a cover with a transparent front end may be provided to be slipped over the lighting system and securing through a cover fastener. Thus, the present invention provides reliable sanitary measures while facilitating efficient operations via the smart flexible illumination arms.

A light assembly configured to be removably coupled to a ferromagnetic support surface includes a base with a magnetic coupling member, a battery coupled to the base, an arm pivotally coupled to the base, and a light head pivotally coupled to the arm such that a position of the light head relative to the base is adjustable. The light head includes a light-emitting element powered by the battery. The magnetic coupling member is configured to support the light assembly by magnetic attraction to the support surface.

Storage light assemblies are provided for modular storage systems having a plurality of commonly shaped mounting interfaces. A storage light assembly includes a light source, and a base connected to the light source, wherein the base comprises an engagement structure complementary to the commonly shaped mounting interface such that the storage light assembly can be releasably coupled to any of the plurality of commonly shaped mounting interfaces on the modular storage system.

Storage light assemblies are provided for modular storage systems having a plurality of commonly shaped mounting interfaces. A storage light assembly includes a light source, and a base connected to the light source, wherein the base comprises an engagement structure complementary to the commonly shaped mounting interface such that the storage light assembly can be releasably coupled to any of the plurality of commonly shaped mounting interfaces on the modular storage system.

A telescopic pivotable support structure includes a telescopic connecting pipe assembly, wherein the telescopic connecting pipe assembly comprises a first pipe, a second pipe and a first pivotable connection assembly, wherein the first pivotable connection assembly comprises a first pivot part and a second pivot part, the first pivot part comprises a first pivot portion and a first connection portion connected with the first pivot portion, the first connection portion is accommodated in one end of the first pipe to be connected with the first pipe; the second pivot part comprises a second pivot portion and a second connection portion, the second connection portion is configured to be connected with the second pipe, the second pivot portion is configured to be pivotably connected with the first pivot portion.

A telescopic pivotable support structure includes a telescopic connecting pipe assembly, wherein the telescopic connecting pipe assembly comprises a first pipe, a second pipe and a first pivotable connection assembly, wherein the first pivotable connection assembly comprises a first pivot part and a second pivot part, the first pivot part comprises a first pivot portion and a first connection portion connected with the first pivot portion, the first connection portion is accommodated in one end of the first pipe to be connected with the first pipe; the second pivot part comprises a second pivot portion and a second connection portion, the second connection portion is configured to be connected with the second pipe, the second pivot portion is configured to be pivotably connected with the first pivot portion.

Lighting devices are described and may include a housing containing a rechargeable battery, a microprocessor, and a plurality of light sources in electronic communication with the rechargeable battery and the microprocessor. At least a portion of the housing may be transparent or translucent, wherein the plurality of light sources face the portion of the housing that is transparent or translucent. The lighting devices may be solar-powered, e.g., including a solar panel coupled to an outer surface of the housing, wherein the solar panel is in electronic communication with the rechargeable battery. The lighting devices herein also include a handle of a malleable material configured to adopt and maintain a variety of positions.

A device between connect device for connecting between multiple modular LED structures includes a node, which connects to a modular LED wall, at one end and has the other end which receives power and/or video. In between the first and second ends have a spherical surface. A node linking structure has suction cups that connected the spherical surface and allow changing angles between the different node so that the LED modular devices can have different angles in between them.

An illumination system is provided that includes a laser light source, a light guide, a connector, and an emission element. The laser light source has a numerical aperture. The light guide has a proximal end and a distal end. The connector has a connector housing and connects and/or assigns the laser light source at the proximal end. The emission element is at the distal end. The connector housing has a device that reduce an influence of a range of variation of the numerical aperture so that an emission behaviour of the emission element is independent of a range of variation of the numerical aperture.