A protective headgear can include a core and two or more impact absorbing layers coupled to the core. At least one impact absorbing layer can include a number of impact absorbing components that are configured to absorb and reduce the force of impact incident on the protective headgear. The impact absorbing materials can employ cylindrical segments of viscoelastic foam with a sealed central void to absorb high energy impacts. The protective helmet can reduce the occurrence of concussions and subconcussive impacts to the brain.

A protective headgear can include a core and two or more impact absorbing layers coupled to the core. At least one impact absorbing layer can include a number of impact absorbing components that are configured to absorb and reduce the force of impact incident on the protective headgear. The impact absorbing materials can employ cylindrical segments of viscoelastic foam with a sealed central void to absorb high energy impacts. The protective helmet can reduce the occurrence of concussions and subconcussive impacts to the brain.

A helmet includes a helmet body having a front opening, a closing member attached to the outer side of the helmet body so as to close the opening, and an exterior member attached. The helmet body includes a first outer surface, a first attachment surface to which the closing member is attached, and a second attachment surface which is located between the first outer surface and the first attachment surface and to which the exterior member is attached. The exterior member includes a second outer surface continued to the curved surface shape of the first outer surface, and a side surface. The second outer surface and the side surface form a first angle toward inside of the helmet body. The first outer surface and the second attachment surface form a second angle toward inside of the helmet body. The second angle is larger than the first angle.

A protective sport helmet includes an outer shell, and an inner padding mounted within the outer shell for at least partially covering the wearer's head, the inner padding defining a base face oriented toward the wearer's head and at least one pedestal extending from the base face away from the outer shell, the pedestal defining a pedestal face facing the wearer's head. At least one tangential shock absorber has a first face at least partially covering the pedestal face and a second face opposed the first face and configured for contacting the wearer's head. The tangential shock absorber includes a shearable member that is deformable such that the first face is movable relative to the second face in a direction having a radial component relative to an axis normal to the pedestal face.

A helmet includes a shell, a chin guard, a runner on the chin guard and a connector. The connector pivotally secures the chin guard to the shell and includes: (i) a track that: is sized to permit the chin guard runner to travel there along; and is rotatably connected to the shell about an axis of rotation, such that the track is able to rotate relative to the shell through at least 120 degrees between an operative position and a stowed position; (ii) a retainer at or near a first axial end of the track, which retainer is movable between: an inactive condition, in which the retainer permits a runner that is located at the first axial end of the track to move towards the second axial end of the track; and an active condition, in which the retainer prevents a runner that is located at the first axial end of the track from moving towards the second axial end of the track; and (iii) a formation that configures the retainer from: the inactive condition to the active condition when the track is rotated from either the operative position or the stowed position; and the active condition to the inactive condition when the track is in the operative position or the stowed position.

A headgear mount system includes a mechanical assembly comprising at least one mount assembly, at least one tilt/flip assembly, and at least one interpupillary distance (IPD) adjustment assembly. The mount assembly connects the mechanical assembly to the headgear, while the tilt/flip assembly rotatably connects the IPD adjustment assembly to the mount assembly. The tilt/flip assembly includes at least one tilt/flip pin rotatably interconnecting the mount assembly and the IPD adjustment assembly. The tilt/flip pin allows rotation of the IPD adjustment assembly relative to the mount assembly to permit the electro-optical assembly mounted to the IPD adjustment assembly to be stowed out of the way when not in use.

The present disclosure relates to a chin guard pivoting mechanism. The chin guard pivoting mechanism according to the present disclosure is provided in a helmet including a helmet body (10) and a chin guard (20) pivotally coupled to the helmet body (10), wherein while two connectors (100, 200) provided in the chin guard (20) move along two guide parts (300, 400), the chin guard (20) is pivoted, and at least one (400) of the two guide parts (300, 400) extends from the front to the rear.

A helmet for protecting a head of a user, in which the helmet is adjustable to adjust how it fits on the user's head, including by adjusting dimensions of the helmet independently from one another (e.g., adjusting the helmet longitudinally and laterally in independent ways) and/or having a self-adjusting padded interface with the user's head to better fit on the user's head (e.g., depending on a shape and/or a size of the user's head).

A helmet mount apparatus includes a reclining mount assembly having transversely spaced apart pivot arms. An upper end of each pivot arm is attached to a mount base member and configured for pivoting movement about a first transverse pivot axis. A lower end of each pivot arm is attached to a viewing device and configured for pivoting movement about a second transverse pivot axis. The pivot arms are pivotable about the first transverse pivot axis between a viewing position in front of an eye of a user and a stowed position above the helmet. The pivot arms are pivotable about the second transverse pivot axis to adjust a viewing angle of the viewing device or reduce a profile of the viewing device when the pivot arms are in the viewing position or stowed position, respectively.

A safety helmet (100) with a helmet shell (7), with a bearing element (5), with at least one holding element (2, 9.l, 9.r, 28) and with a tubular shape textile sheathing. Each holding element (2, 9.l, 9.r, 28) is permanently connected to the helmet shell (7). A distance is present between a holding element (2, 9.l, 9.r, 28) and the head of a user of the safety helmet (100). The bearing element (5) is adjacent to the head. The textile sheathing encloses the bearing element (5) and is located in some areas between the bearing element (5) and the head. The bearing element (5) is detachably connectable to a respective holding element through at least one connection opening in the textile sheathing. A process for removing the textile sheathing from the safety helmet (100), as well as to a process for manufacturing a safety helmet (100) are provided.