Electronic light emitting flares and related methods. Flares of the present invention include various features such as self-synchronization, remote control, motion-actuated or percussion-actuated features, dynamic shifting between side-emitting and top-emitting light emitters in response to changes in positional orientation (e.g., vertical vs. horizontal) of the flare; overrides to cause continued emission from side-emitting or top-emitting light emitters irrespective of changes in the flare's positional orientation; use of the flare(s) for illumination of traffic cones and other hazard marking or traffic safety objects or devices, group on/off features, frequency specificity to facilitate use of separate groups of flares in proximity to one another, selection and changing of flashing patterns and others.

Electronic light emitting flares and related methods. Flares of the present invention include various features such as self-synchronization, remote control, motion-actuated or percussion-actuated features, dynamic shifting between side-emitting and top-emitting light emitters in response to changes in positional orientation (e.g., vertical vs. horizontal) of the flare; overrides to cause continued emission from side-emitting or top-emitting light emitters irrespective of changes in the flare's positional orientation; use of the flare(s) for illumination of traffic cones and other hazard marking or traffic safety objects or devices, group on/off features, frequency specificity to facilitate use of separate groups of flares in proximity to one another, selection and changing of flashing patterns and others.

A portable worklight has a main body having a lower end, a left side, a right side, a front surface and a rear surface, with a first illumination device provided on the front surface. The worklight also has a left side body hingedly coupled to the left side and having a second illumination device, and a right side body hingedly coupled to the right side and having a third illumination device. A base is pivotably mounted to the lower end of the main body. The worklight can be configured in a deployed position and a storage position.

A portable worklight has a main body having a lower end, a left side, a right side, a front surface and a rear surface, with a first illumination device provided on the front surface. The worklight also has a left side body hingedly coupled to the left side and having a second illumination device, and a right side body hingedly coupled to the right side and having a third illumination device. A base is pivotably mounted to the lower end of the main body. The worklight can be configured in a deployed position and a storage position.

A light apparatus is provided including a housing, a light module, a wireless communication unit configured to communicate wirelessly with a communication device, and a controller disposed in the housing and in communication with the wireless communication unit. The controller receives a control signal associated with at least one of a luminance intensity or lighting direction of the light module from the communication device via the wireless communication unit and controls the luminance intensity or lighting direction of the lighting module according to the control signal.

A light apparatus is provided including a housing, a light module, a wireless communication unit configured to communicate wirelessly with a communication device, and a controller disposed in the housing and in communication with the wireless communication unit. The controller receives a control signal associated with at least one of a luminance intensity or lighting direction of the light module from the communication device via the wireless communication unit and controls the luminance intensity or lighting direction of the lighting module according to the control signal.

Carrying cases for electronic flares or other electronic signal emitting devices and related systems and methods.

Carrying cases for electronic flares or other electronic signal emitting devices and related systems and methods.

The present disclosure relates to a method and a device for mobile illumination, and a storage medium, which pertains to the technical field of intelligent hardware. The method includes: performing a lighting process through a device for mobile illumination; during the lighting process, acquiring environmental information of a target area to be traveled, the environmental information including at least one of the followings: a number of reflected test signals of a designated number of test signals emitted to the target area, image data of the target area, and map data of the target area, and the target area being any area in front of the device for mobile illumination; and determining whether the target area is unsafe to travel according to the environmental information.

The present disclosure relates to a method and a device for mobile illumination, and a storage medium, which pertains to the technical field of intelligent hardware. The method includes: performing a lighting process through a device for mobile illumination; during the lighting process, acquiring environmental information of a target area to be traveled, the environmental information including at least one of the followings: a number of reflected test signals of a designated number of test signals emitted to the target area, image data of the target area, and map data of the target area, and the target area being any area in front of the device for mobile illumination; and determining whether the target area is unsafe to travel according to the environmental information.