A seat impact energy absorbing system having an energy absorbing module that limits forces transmitted through the seat to its occupant. Such forces may emanate from, for example, a land mine detonation. The module has frustoconical structures joined by hollow interconnecting ribs that create support pillars there between. At least some of the support pillars have tops.

The following invention relates to occupant recovery from an armoured land vehicle, and to a system for occupant recovery. There is provided a quick release seat system suitable for a vehicle, comprising a base element operably attached to a floor pan, said floor pan being rigidly affixed to the vehicle, a back element for supporting an occupant, wherein said base element and back element are rigidly affixed by at least one quick release mechanical clamp, such as to allow removal of said back element from the base element during an evacuation of the vehicle

A damping member (1) which has at least two engagement points (2), wherein the damping member (1) has an absorption means, wherein fastening elements (3) are arranged on the damping member (1), and wherein an additional absorption means (4) is provided which brings about shock absorption together with the absorption means.

There is disclosed an energy absorption device comprising a plurality of pillars mountable to a ceiling of a hull, each pillar having a fixed portion and a movable portion, the movable portion slidable relative to the fixed portion; a deformable material disposed between the fixed portion and movable portion such that the deformable material resist the sliding movement of the movable portion in one direction; the deformable material further adapted to permanently deform when a blast energy is directed towards the ceiling; and a seat assembly attached to the movable portion, the seat assembly adapted for an occupant.

A protected firing platform protection system protects personnel from contact with the protected firing platform. In an embodiment, the protected firing platform protection system is adapted for use with a protected firing platform of a military vehicle. The protected firing platform protection system includes a blanket. The blanket has a carrier and a protective insert. The carrier has an interior. The protective insert is disposed in the interior. The blanket is attached to the protected firing platform.

A seat impact energy absorbing system having an energy absorbing module that limits forces transmitted through the seat to its occupant. Such forces may emanate from, for example, a land mine detonation. The module has frustoconical structures joined by hollow interconnecting ribs that create support pillars there between. At least some of the support pillars have tops.

A de-coupling mechanism includes a link slidably received in a link aperture of a bracket. A pin is slidably received in a pin bore of the link and a receiving bore of the bracket. A first block is connected to the bracket and includes an initiator receiving passage in communication with the pin bore. An initiator is positioned in the initiator receiving passage and retained against a connecting passage edge and oppositely contacts an end face of a cap connected to the first block. A second block connected to the bracket includes a longitudinal channel having a channel diameter larger than a pin diameter so the pin is freely displaceable into the longitudinal channel. An end face of a retaining cap is connected to a second block end wall. The retaining cap includes a stepped portion having a step diameter smaller than the channel diameter and the pin diameter.

A seat impact energy absorbing system having an energy absorbing module that manages forces emanating from, for example, a land mine detonation. The module has frustoconical structures joined by hollow interconnecting ribs that create support pillars there between. At least some of the support pillars have tops that underlie an occupant-supporting surface. To receive forces associated with detonation, an impact-receiving surface underlies the energy absorbing module.

The disclosure relates to a seat arrangement comprising a seat. The seat is arranged to be suspended on a support structure by a first resilient member and a second resilient member attached to opposite longitudinal and/or lateral sides of the seat. The first and second resilient members are attached to the seat at a seat end of the first and second resilient members and to the support structure at a support structure end of the first and second resilient members respectively. When a load causes translational and/or rotational movement of the seat in a y-z plane of the seat, elastic shear deformation in the first and second resilient members controls the translational and/or rotational movement of the seat.

A seat impact energy absorbing system having an energy absorbing module that manages forces emanating from, for example, a land mine detonation. The module has frustoconical structures joined by hollow interconnecting ribs that create support pillars there between. At least some of the support pillars have tops that underlie an occupant-supporting surface. To receive forces associated with detonation, an impact-receiving surface underlies the energy absorbing module.