An externally-hung lamp assembly includes a circuit board, a battery pack, an upper cover, a lampshade, a rubber ring, a lower cover, and a hook. The circuit board has a first hole and a plurality of light-emitting components. The battery pack is electrically connected to the circuit board and is configured to provide power needed for turning on the light-emitting components. The upper cover is disposed on the circuit board. The lampshade is disposed in a second hole of the upper cover. The rubber ring is disposed beneath the circuit board. The lower cover is combined with the upper cover, wherein the lower cover has a back surface. The hook is pivotally disposed on the back surface of the lower cover. By means of the foregoing configurations, the externally-hung lamp assembly can meet configuration requirements of multiple different application scenarios.

A work light assembly comprising a housing, and an outer shield. The housing has a handle portion and an illuminating portion, separated by a neck portion. The handle portion has an outer surface and an inner bore extending between an upper and a lower end thereof. The inner bore opening is at the lower end, and has a bore cover threadedly engaged so as to cover the inner bore. The illuminating portion has a proximal end at the neck portion and a distal end extending therefrom. An outward face that is generally perpendicular to an axis of the handle portion is provided, with a plurality of LED elements positioned thereon. A battery is positioned within the inner bore and coupled to a switch mounted on the handle portion. The battery is also coupled to the plurality of LED elements in electrical communication, so as to be cordless. The outer shield is coupled to the neck portion of the handle portion. The outer shield extends around at least a portion of the illuminating portion.

A work light assembly comprising a housing, and an outer shield. The housing has a handle portion and an illuminating portion, separated by a neck portion. The handle portion has an outer surface and an inner bore extending between an upper and a lower end thereof. The inner bore opening is at the lower end, and has a bore cover threadedly engaged so as to cover the inner bore. The illuminating portion has a proximal end at the neck portion and a distal end extending therefrom. An outward face that is generally perpendicular to an axis of the handle portion is provided, with a plurality of LED elements positioned thereon. A battery is positioned within the inner bore and coupled to a switch mounted on the handle portion. The battery is also coupled to the plurality of LED elements in electrical communication, so as to be cordless. The outer shield is coupled to the neck portion of the handle portion. The outer shield extends around at least a portion of the illuminating portion.

In one aspect, a user-wearable illumination assembly includes eyeglass frames and a headlamp removably coupled to the eyeglass frames. Electrical circuitry may be integrated with the eyeglass frames. The headlamp and the eyeglass frames have mounting structure that cooperate to removably support the headlamp thereon. A light source is disposed within the headlamp and electrical communication between the light source and the electrical circuitry of the eyeglass frames is provided by electrical contacts associated with the mounting structures of the headlamp and eyeglass frames. In another aspect, a user-wearable illumination assembly for use with eyeglass frames includes a clip assembly that is selectively removably couplable to a bridge portion of the eyeglass frames, and a headlamp coupled to the clip assembly. The illumination assembly further includes a battery that is selectively removably couplable to the eyeglass frames and at least one electrical conductor coupling the battery to the headlamp.

In one aspect, a user-wearable illumination assembly includes eyeglass frames and a headlamp removably coupled to the eyeglass frames. Electrical circuitry may be integrated with the eyeglass frames. The headlamp and the eyeglass frames have mounting structure that cooperate to removably support the headlamp thereon. A light source is disposed within the headlamp and electrical communication between the light source and the electrical circuitry of the eyeglass frames is provided by electrical contacts associated with the mounting structures of the headlamp and eyeglass frames. In another aspect, a user-wearable illumination assembly for use with eyeglass frames includes a clip assembly that is selectively removably couplable to a bridge portion of the eyeglass frames, and a headlamp coupled to the clip assembly. The illumination assembly further includes a battery that is selectively removably couplable to the eyeglass frames and at least one electrical conductor coupling the battery to the headlamp.

A lamp (10) constructed as a hand lamp and for static use. The lamp includes a lamp housing (12), a light source in the lamp housing, a lamp mounting (14) for mounting the lamp in a desired position on a surface and a universal joint (24, 26) coupling the lamp housing and the mounting together, whereby the lamp housing is universally adjustable in attitude relative to the mounting.

A portable lighting device control module configured to intuitively adjust lighting operations of a portable lighting device by interpreting real-time user gestures and external conditions of the portable lighting device to modify lighting operations in response thereto. The control module installed within a portable lighting device may be configured to permit automatic dimming of front-end LEDs, enable a low power standby mode in absence of motion being detected, automatic mode adjustments in response to low battery determination, adjustment to lantern mode when a bump gesture is detected, continuous alternation between modes within lantern mode by detecting subsequent bump gestures, exiting lantern mode by detecting orientation, locking the lighting operation to a specific mode by determining orienting as either upwards or downwards, switching between modes by performing twist and return gestures, switching between modes by performing whip gestures, instantaneously dimming the light intensity by twisting the portable lighting device.

A cordless light attachment for a tool includes a housing that has a proximal end and a distal end, and an interior cavity that extends from the proximal end to the distal end, forming an opening extending through the housing from the proximal end to the distal end. The device receives therein a tool and removably attaches to the tool. The device has at least one light source powered by a cordless power source arranged on or within the housing.

A cordless light attachment for a tool includes a housing that has a proximal end and a distal end, and an interior cavity that extends from the proximal end to the distal end, forming an opening extending through the housing from the proximal end to the distal end. The device receives therein a tool and removably attaches to the tool. The device has at least one light source powered by a cordless power source arranged on or within the housing.

There is provided lighted headgear having various configurations, components thereof, and other accessories combined therewith. Also provided are accessories including light modules for use with headgear, clothing, or the like.