The invention relates to a portable, skid mounted, wheeled and/or collapsible hybrid-power lighting and energy management system for harsh, remote and/or high latitude locations. The system combines an internal combustion engine (ICE) power source with a control system for providing power to light system. The system may also include a battery storage system, an ICE heating system and/or renewable solar and/or wind power systems in a manner that improves efficiency and reliability of operation in such locations, while preserving and improving functionality of operation and significantly reducing operator interaction during set-up and operation.

The invention relates to a portable, skid mounted, wheeled and/or collapsible hybrid-power lighting and energy management system for harsh, remote and/or high latitude locations. The system combines an internal combustion engine (ICE) power source with a control system for providing power to light system. The system may also include a battery storage system, an ICE heating system and/or renewable solar and/or wind power systems in a manner that improves efficiency and reliability of operation in such locations, while preserving and improving functionality of operation and significantly reducing operator interaction during set-up and operation.

A sub battery for easily charging includes: a battery body including a first surface facing toward a first direction and a second surface facing toward a second direction opposite the first direction, and an opening formed on at least a portion between the first and second surfaces; a holder having a charging connector cable attachably and detachably fixed thereto, and movably disposed in the opening; and a locking device mounted between the holder and the battery body to fix the holder to the battery body in a closed state, and to unlock the holder according to a movement of the holder by a first distance.

An illuminated glove assembly includes a glove and an illumination data controller. The glove has a body portion, a longitudinal glove axis, a pointer extension, a pinky extension, a wrist strap and a pocket portion. The wrist strap is positioned at a proximal end of the body portion. A securing mechanism is connected to the wrist strap and the pointer extension and pinky extension extend from a distal end of the body portion. The pointer extension is positioned on a first side of the longitudinal axis and the pinky extension is positioned on a second side of the longitudinal axis. The pocket portion is secured to and defines a pocket with the body portion. An opening of the pocket is defined proximate the distal end of the body. The illumination data controller is configured for selective mounting in the pocket and includes a housing with a front face.

Provided is a portable, thermoelectrically powered device, such as a flashlight or headlamp. The device comprises at least one thermoelectric generator for extracting body heat from a user, the Thermoelectric generator located on and extending through an elongated open ended outer shell, a heat sink in contact with an inner surface of the thermoelectric generator and configured to provide an elongated first cooling channel therethrough, circuitry in electrical communication with the thermoelectric generator, the circuitry comprising a transistor oscillator, a step-up transformer and a decoupling capacitor, the circuitry in electrical communication with a power sink, such that in use, a temperature gradient across the thermoelectric generator is sufficient to result in generation of at least about 25 W of power.

Provided is a portable, thermoelectrically powered device, such as a flashlight or headlamp. The device comprises at least one thermoelectric generator for extracting body heat from a user, the Thermoelectric generator located on and extending through an elongated open ended outer shell, a heat sink in contact with an inner surface of the thermoelectric generator and configured to provide an elongated first cooling channel therethrough, circuitry in electrical communication with the thermoelectric generator, the circuitry comprising a transistor oscillator, a step-up transformer and a decoupling capacitor, the circuitry in electrical communication with a power sink, such that in use, a temperature gradient across the thermoelectric generator is sufficient to result in generation of at least about 25 W of power.

A tool storage system includes a tool storage container configured to receive therein a battery for a power tool with an inductive receiving unit. An inductive transmitting unit is coupled to the tool storage container and configured to receive a source of electrical power. The inductive transmitting unit is configured to induce generation of electrical power in the inductive receiving unit to charge the battery. A controller is configured to control generation of electrical power by the inductive receiving unit based on a position or alignment of the inductive receiving unit relative to the inductive transmitting unit.

A multifunction solid-state light bulb comprising a dome-shape lamp with a solid-state semiconductor light source and an extendable bulb neck that may transform bulb into a flashlight, and having multiple modes on direct current and alternating current.

A lighting device which includes a light emitting unit, a thermoelectric power generation module for powering the light emitting unit, a top panel supporting the light emitting unit, and an adjustment rod connecting the thermoelectric power generation module with the top panel. The thermoelectric power generation module features hot and a cold sides, includes a heat dissipation unit proximal to the cold side, a thermoelectric power generation chip set, a heat supply box proximal to the hot side and a combustion chamber connected to the heat supply box.

A lighting device which includes a light emitting unit, a thermoelectric power generation module for powering the light emitting unit, a top panel supporting the light emitting unit, and an adjustment rod connecting the thermoelectric power generation module with the top panel. The thermoelectric power generation module features hot and a cold sides, includes a heat dissipation unit proximal to the cold side, a thermoelectric power generation chip set, a heat supply box proximal to the hot side and a combustion chamber connected to the heat supply box.