The present invention relates to the field of working lamp technologies, which provides a neck-hung working lamp is provided, comprising a head band for being hung around a neck and lamp bodies connected at both ends of the head band. A mounting groove is disposed at both ends of the head band respectively, a cover plate is disposed at an outer side of the mounting groove, a telescopic gap is formed between the mounting groove and the cover plate, a telescoping mechanism is disposed at the telescopic gap, one end of the telescoping mechanism is connected with the lamp body, and the telescoping mechanism is used to adjust a distance between the head band and the lamp body. One of the advantages is to bring inconvenience to use in a neck-hung lamp in the prior art, the present invention provides a neck-hung working lamp.

The present invention relates to the field of working lamp technologies, which provides a neck-hung working lamp is provided, comprising a head band for being hung around a neck and lamp bodies connected at both ends of the head band. A mounting groove is disposed at both ends of the head band respectively, a cover plate is disposed at an outer side of the mounting groove, a telescopic gap is formed between the mounting groove and the cover plate, a telescoping mechanism is disposed at the telescopic gap, one end of the telescoping mechanism is connected with the lamp body, and the telescoping mechanism is used to adjust a distance between the head band and the lamp body. One of the advantages is to bring inconvenience to use in a neck-hung lamp in the prior art, the present invention provides a neck-hung working lamp.

A modular system may include a plurality of magnets that may be provided to self-align a casing with an accessory. Self-alignment of the casing and the accessory may provide a secure connection of the casing with the accessory. At least one detent and at least one locking arm may mate and lock the casing against the accessory in a mounted position. The at least one detent and the at least one locking arm may unlock in an insertion position. Self-alignment may occur when a first set of magnets attracts a second set of magnets in which opposite polarities attract and automatically initiate movement of the casing towards the accessory.

A light-emitting system is provided which is removably attachable to headgear for personal illumination to enhance visibility of the user to others. The light-emitting system includes a housing that defines a receiving aperture and is configured to surround a portion of the headgear when the light-emitting system is removably attached to the headgear for use. The light-emitting system further includes at least one lens and a plurality of lighting elements coupled to the annular housing which are configured to selectively generate a halo or at least a partial halo of light that radiates outwardly away from the annular housing through the at least one lens to provide enhanced personal illumination.

A light-emitting system is provided which is removably attachable to headgear for personal illumination to enhance visibility of the user to others. The light-emitting system includes a housing that defines a receiving aperture and is configured to surround a portion of the headgear when the light-emitting system is removably attached to the headgear for use. The light-emitting system further includes at least one lens and a plurality of lighting elements coupled to the annular housing which are configured to selectively generate a halo or at least a partial halo of light that radiates outwardly away from the annular housing through the at least one lens to provide enhanced personal illumination.

A mount system comprising a mount receiver, a light, and a mount attachment. The light includes a body, a head pivotably coupled relative to the body by a hinge, and a light emitting element mounted on the head. The mount attachment is configured to engage both the mount receiver and the light to secure the light to the mount receiver.

A mount system comprising a mount receiver, a light, and a mount attachment. The light includes a body, a head pivotably coupled relative to the body by a hinge, and a light emitting element mounted on the head. The mount attachment is configured to engage both the mount receiver and the light to secure the light to the mount receiver.

A high-efficiency lamp, emitting light from a front surface, and having a high-efficiency light source, producing a first light beam. An iris assembly has an annular body that defines a first annulus and has iris blades which can be extended into the annulus to form a second, smaller, annulus. This iris assembly is positioned relative to the light source so that the iris blades are in front of the high-efficiency light source. The annular body and therefore the first annulus have finite depth from back to front. A light guide is placed immediately behind the iris blades and defines a channel that is open at its back and its front and has a reflective interior surface, with the open back being transversely coincident to the light source so that light from the light source can travel through the channel to and out from the open front.

A high-efficiency lamp, emitting light from a front surface, and having a high-efficiency light source, producing a first light beam. An iris assembly has an annular body that defines a first annulus and has iris blades which can be extended into the annulus to form a second, smaller, annulus. This iris assembly is positioned relative to the light source so that the iris blades are in front of the high-efficiency light source. The annular body and therefore the first annulus have finite depth from back to front. A light guide is placed immediately behind the iris blades and defines a channel that is open at its back and its front and has a reflective interior surface, with the open back being transversely coincident to the light source so that light from the light source can travel through the channel to and out from the open front.

Headgear includes a body having an interior fabric panel defining an inwardly facing interior surface and an exterior fabric panel defining an outwardly facing exterior surface. Opposite ends of the exterior fabric panel are located in a rear region of the headgear and opposite ends of the interior fabric panel overlapping to an extent are located in a front region of the headgear. The interior and exterior panels are secured together such that the body surrounds a head-receiving area and is configured for donning on a person's head. A grommet is attached to the body and defines an opening extending through the exterior fabric panel into a space located between the exterior fabric panel and the interior fabric panel. The overlapping ends of the interior fabric panel define a passage accommodating the passing of a light apparatus therethrough for frictional fit in the grommet. Preferably, the body defines a headband.