Various embodiments for a headlamp having a detachable flashlight are disclosed. The headlamp can include a head guard ergonomically contoured to be worn on a head of an operator, for instance, using one or more straps. The head guard can include a cavity, where the cavity includes a first electrical contact and a first magnet positioned therein. The detachable flashlight is adapted to be positioned in the cavity of the head guard. The detachable flashlight can include a second electrical contact and a second magnet. The first magnet is sized and positioned to orient a rear face of the detachable flashlight to align the second electrical contact of the detachable flashlight with the second electrical contact positioned in the cavity.

A head wearable device includes a headpiece, a housing attached to the headpiece, a luminaire attached to the headpiece, the luminaire including a luminaire housing and at least one light source located within the luminaire housing, a duct system connecting the luminaire to the housing, a ball joint rotatably connecting the duct system to the luminaire, and an air moving device configured to induce a cooling air flow through an inlet in the luminaire housing, through the heatsink, through the ball joint, through the duct system, and out of an exhaust in the housing attached to of the headpiece.

There is provided lighted headgear having various configurations, components thereof, and other accessories combined therewith.

A headlamp witha headband; a light source located at the front of the headband is presented. The headlamp has a load balancing device with two strands. The first strand has a first end (A) and a second end (B) respectively attached on one left front fixing point and one left rear fixing point of said headband. The second strand has a first end (A) and a second end (B) respectively attached on one right front fixing point and one right rear fixing point of said headband. There is an element wherein the first and second strands are thread up so as to bring closer the two strands at one common point C.

A hat with illumination system including a hat having a logo with an integrated light assembly including a lens, a battery, at least one light, and a control-unit. The hat includes the logo with the integrated light assembly on a front outer surface of the hat. The light assembly is made up of the lens, the battery, the at least one light and the control unit in functional combination providing an illumination system to functionally display the logo in low light conditions. The device may be used to show fan support at night games or during low light conditions.

An apparatus is presented for improving the noticeability of a hat. The apparatus includes a light source configured to produce light upon receiving electrical energy. The apparatus also includes a mount coupled to the light source and configured to selectively attach to and detach from the hat. The mount, when attached to the hat, orients the light source to project light away from an exterior surface of the hat into an ambient environment of the hat. The exterior surface includes at least one of a left-side exterior surface and a right-side exterior surface. The apparatus additionally includes a battery receptacle electrically-coupled to the light source and having electrical contacts for coupling to one or more batteries. Hats having improved noticeability and methods for improving the noticeability of a hat are also presented.

A method and apparatus to attach an Electroluminescent wire and power inverter to a helmet is disclosed. Dabs of hot glue are injected at various locations to form a pattern on a helmet top surface. Segments of heat shrink tubing are inserted into the injected hot glue on the surface to permit the heat shrink tubing segments to shrink and adhere to the helmet. Electroluminescent wire is inserted into the partially shrunk segments of heat shrink tubing. A power inverter is attached to the helmet and connected to the electroluminescent wire to create a light pattern.

A head wearable device includes a headpiece, a housing attached to the headpiece, a luminaire attached to the headpiece, the luminaire including a luminaire housing and at least one light source located within the luminaire housing, a duct system connecting the luminaire to the housing, a ball joint rotatably connecting the duct system to the luminaire, and an air moving device configured to induce a cooling air flow through an inlet in the luminaire housing, through the heatsink, through the ball joint, through the duct system, and out of an exhaust in the housing attached to of the headpiece.

A head wearable device includes a headpiece, a housing attached to the headpiece, a luminaire attached to the headpiece, the luminaire including a luminaire housing and at least one light source located within the luminaire housing, a duct system connecting the luminaire to the housing, a ball joint rotatably connecting the duct system to the luminaire, and an air moving device configured to induce a cooling air flow through an inlet in the luminaire housing, through the heatsink, through the ball joint, through the duct system, and out of an exhaust in the housing attached to of the headpiece.

A head wearable device includes a headpiece, a housing attached to the headpiece, a luminaire attached to the headpiece, the luminaire including a luminaire housing and at least one light source located within the luminaire housing, a duct system connecting the luminaire to the housing, a ball joint rotatably connecting the duct system to the luminaire, and an air moving device configured to induce a cooling air flow through an inlet in the luminaire housing, through the heatsink, through the ball joint, through the duct system, and out of an exhaust in the housing attached to of the headpiece.