A helmet includes an outer shell having an interior and an exterior and an impact absorbing layer positioned on the interior of the outer shell. The impact absorbing layer includes a first impact absorbing structure having a first interface and a second impact absorbing structure having a second interface in lateral compression against the first interface.

A helmet includes an outer shell and an impact absorbing layer adjacent to the outer shell. The helmet also includes a fit system mounted to the impact absorbing layer. The fit system includes a rear portion that includes a rotational mount having a ball and an extension mounted to the ball. The fit system also includes a rear mount that includes a plurality of grooves. Each groove in the plurality of grooves is configured to receive the rotational mount of the rear portion of the fit system.

A helmet fit system includes a harness, a first anchor and a second anchor secured to a helmet, a tensioning mechanism, and a cable passing from the mechanism, around the first anchor, through the harness, and around the second anchor. The tensioning mechanism is not secured to any portion of the harness. The harness may define a channel, the cable passing through the channel. The tensioning mechanism is mounted to the outer surface of a helmet on the first side of a plane of symmetry of the helmet such that the cable passes through the helmet.

A fit system for a helmet can include an adjuster including a width adjustment track, and first and second pods moveably coupled to the width adjustment track with a first and second support arm, the second pod comprising a lateral offset from the first pod. The fit system can further include a dial moveably coupled to the adjustor, such that movement of the dial changes a size of the lateral offset between the first pod and the second pod. The fit system can further include a hanger flexibly coupled to both the first pod and the second pod and adapted to allow for adjustment of the lateral offset between the first pod and the second pod. The hanger can further be adapted to allow for movement of the first pod and the second pod in a direction substantially perpendicular to the lateral offset without movement of the dial.

A helmet sizing assembly for adjusting the size of a helmet includes a plurality of helmet liners that each has a dome shape to conform to an inside of a helmet. The plurality of helmet liners has a sequentially increasing size ranging between a minimum size and a maximum size. In this way a selected number of the plurality of helmet liners can be stacked inside each other to accommodate a variety of head sizes. Each of the helmet liners is comprised of a resiliently compressible material to facilitate the user's head to be protected from impact energy when the user wears the helmet.

A tactical helmet assembly has a helmet retention harness includes left and right straps that form a snapback adjustment assembly. The first strap has a first end with a helmet mounting feature mountable to a first lateral, interior side of a helmet. The first strap includes a second end having a first strap slot. The first strap presents snap stud(s) on a first surface. The snapback adjustment assembly includes a second strap having a first end inserted through the first strap slot of the first strap. the second strap includes a helmet mounting feature mountable to a second lateral, interior side of the helmet. The second strap includes a second end having a second strap slot through which the first end of the first strap is inserted. The second strap presents more than one eyelets longitudinally aligned to receive the snap stud(s) of the first strap.

A head-mounted display system includes a head-mounted display unit and a positioning and stabilising structure structured and arranged to hold the head-mounted display unit in an operational position over a user's face in use. The positioning and stabilising structure includes a rear support structure adapted to contact posterior regions of a user's head and at least one connector structured and arranged to interconnect the rear support structure to the head-mounted display unit. The rear support structure is in the form of a hoop comprising an occipital portion configured and arranged engage the user's head along a portion of the occipital bone adjacent a junction where the neck muscles attach to the occipital bone in use.

A headband for a protection helmet comprises a strip forming at least a part of a ring around a user's head. An adjustment device adjusts a circumference of the ring. The end of the strip is fixed to an attachment point that is movable with respect to the body of the adjustment device. A rotary actuator is connected to the adjustment device by means of a transmission so that rotation of the rotary actuator results in the attachment point being moved with respect to the body. The transmission comprises a flexible transmission shaft configured to transfer a rotary torque applied on the rotary actuator into a rotary torque applied on the adjustment device to move the attachment point and modify the circumference of the ring. A protection helmet comprises such headband.

A protective helmet includes an upper section and a lower section; each having inner and outer facing surfaces; a gap formed between the upper and lower sections; at least one connection member connecting the upper section to the lower section and maintaining the gap; the upper section being movable with respect to the lower section when an impact force is applied to the outside surface of the upper section; an inner shell securable to the inner facing surface of the lower section; the inner shell being adapted to receive a portion of the helmet user's head, whereby the head of the user will be spaced from the inner facing surface of the upper section when the portion of the user's head is received in the inner shell; and the inner shell substantially preventing the user's head from making contact with the inner facing surface of the upper section.

A helmet can include an energy absorbing shell including an outer surface and an inner surface opposite the outer surface. A fit system member can be coupled to a rear of the energy absorbing shell to adjust a fit of the helmet for a user. A sliding layer can include an outer sliding layer surface oriented towards the inner surface of the energy absorbing shell and an inner sliding layer surface opposite the outer surface. The sliding layer can include at least one attachment member and at least one integrated fit system arm. The at least one integrated fit system arm can be coupled to the fit system member. An elastomeric member can include a first end coupled to the energy absorbing shell and a second end coupled to the attachment member of the sliding layer. Comfort padding can be coupled to the inner surface of the Sliding layer.