A survivability capsule for the driver compartment of an armored vehicle resists explosive loads and improves the survivability of the driver. The survivability capsule has a seamless unibody structure made from molded composite armor and is installed within the driver compartment of an armored vehicle. The unibody is shaped complementary to the interior shape of the driver compartment for a contour fit therein and is rigidly attached to the frame of the vehicle.

Provided herein are a suspension apparatus and a specialized vehicle including the same. The suspension apparatus includes a crankshaft fixed to a vehicle body, a housing rotatably connected to the crankshaft, a first damping portion arranged in the housing and having a damping fluid accommodated in the first damping portion, an amount of the damping fluid in the first damping portion being adjusted according to an external force applied to the vehicle body, a second damping portion arranged in the housing, connected to the first damping portion such that the damping fluid moves between the first damping portion and the second damping portion, and including: a first space accommodating a compressed gas; and a second space accommodating the damping fluid, the first space facing the second space; and a rotational force applier arranged in the housing and configured to apply a rotational force to the housing by adjusting an amount of a working fluid in the rotational force applier.

The present disclosure describes articles that may be used in protective gear, including but not limited to body armor, helmets, shields, or barriers. These articles may include a polymeric material coated with nanoparticles, in a single layer or in multiple layers, which are treated to form a composite. The articles may further include a ceramic layer and/or a back-face layer. Such articles may be useful for protecting an object or wearer against projectiles.

The present disclosure describes articles that may be used in protective gear, including but not limited to body armor, helmets, shields, or barriers. These articles may include a polymeric material coated with nanoparticles, in a single layer or in multiple layers, which are treated to form a composite. The articles may further include a ceramic layer and/or a back-face layer. Such articles may be useful for protecting an object or wearer against projectiles.

The invention relates to a counter-unmanned aerial system (C-UAS) protection device, for use in both civilian and military vehicles and ships, which is positioned at the top of the vehicle, ship or entity to be protected, and comprises one or several panels, attached to the vehicle or turret, making it possible to modify or conceal the system signature or signatures (radar, LIDAR, sonar, electro-optical, visual or multispectral signature, visible and infrared spectral signature, thermal signature, acoustic signature, magnetic signature or others).

The invention relates to a counter-unmanned aerial system (C-UAS) protection device, for use in both civilian and military vehicles and ships, which is positioned at the top of the vehicle, ship or entity to be protected, and comprises one or several panels, attached to the vehicle or turret, making it possible to modify or conceal the system signature or signatures (radar, LIDAR, sonar, electro-optical, visual or multispectral signature, visible and infrared spectral signature, thermal signature, acoustic signature, magnetic signature or others).

A two wheeled throwable robot comprises an elongate chassis with two ends, a motor at each end, drive wheels connected to the motors, and a tail extending from the elongate chassis. The throwable robot includes an enable/disable arrangement comprising a pair of magnets generating a magnetic field and a magnetic field sensor positioned in proximity to the pair of magnets. The sensor is activated upon the occurrence of a specific modification of the magnetic field. The throwable robot may include a key member formed of a material to modify the magnetic field to enable the robot.

A ballistic breacher shield has a combined shield/battering ram functionality. The breacher shield's design permits an officer assigned to breach a barrier (such as a door) to have shield protection as he approaches the barrier, a battering ram to break open the barrier, and then the shield protection again once the barrier has been breached. The officer's follow-through for breaching a door positions the breacher shield to provide cover for the entire team lined up in a stack for entering the barricaded dwelling. The breacher shield has a flattened top to provide a greater area of impact for battering and a shape/size to act as a shield. The sizes of the shields may vary to accommodate individual preference and/or the size of operator. Shields are suitable for right-handed or left-handed operators, and may have an agency identifier and/or lights used for illumination or red and blue flashing lights for use as identifiers and attention attractors.

An explosive device detection and expulsion system broadly comprising a detection subsystem for sensing an IED attached to a vehicle and an expulsion subsystem for expelling the IED from the vehicle. The detection subsystem includes a sensor for detecting an IED via an electromagnetic field change or capacitance change, vibrations, and/or heat, and a controller for activating the expulsion subsystem upon receiving a detection signal from the sensor. The expulsion subsystem includes a deployable panel configured to be attached to the vehicle and a deployable mechanism for shifting the deployable panel from an undeployed state to a deployed state so as to expel the IED from the vehicle.

A mounting adapter for a mounting and fastening system includes: a radially inward portion including a throughbore having a throughbore axis; an inboard end including an adapter inboard surface extending transversely with respect to the axis, and an inboard counterbore in the adapter inboard surface in communication with the throughbore; an outboard end including an adapter outboard surface extending transversely with respect to the axis; and a radially outward portion having a tapered outward surface that tapers in an axially inboard and radially inward direction.