Abstract: A portable checkpoint system is disclosed that incorporates a configurable freight container to intercept and inspect an approaching vehicle. The container includes a quadrilateral set of walls connectable to form a rectangular box, first and second ends of the walls, a blast plate disposed within the box, and a receptacle for mounting a device. At least one of the ends includes a door. The blast plate is disposed between two interior surfaces of the quadrilateral set of walls for absorbing shock and shrapnel, such as at an oblique angle. The mounted device is an instrument for measuring a characteristic of the vehicle. Another such device is a lamp for illuminating the vehicle. The checkpoint includes an obstacle to direct the vehicle in traffic flow, and a pair of configurable freight containers as described. The obstacle directs the vehicle towards the zone. The containers are disposed substantially parallel to each other and separated apart to form a zone that enables the vehicle to pass there-between.
Type:
Grant
Filed:
July 16, 2007
Date of Patent:
December 28, 2010
Assignee:
The United States of America as represented by the Secretary of the Navy
Abstract: A shield for shielding a structural member from an explosive blast or accidental or malicious destruction is provided. The shield includes a plurality of shield members which include cast ultra high strength concrete, wherein the shield members are capable of being assembled to enclose at least a portion of the structural member to provide protection to the enclosed portion from, for example, an explosive blast. In one embodiment, the shield members include a chassis, at least one ballistic liner disposed on the energy absorbing layer, and a concrete-integrating structure.
Abstract: There is described a barrage unit comprising a porous bag or sack containing an absorbent core said absorbent core comprising an absorbent crystalline material and an absorbent fibrous material.
Abstract: An externally mounted window system, a bracket therefore and a method for its assembly is disclosed. The system includes a reinforced window pane fixed in a frame. The frame has at least two brackets, each having an L-shaped section. A first arm of the L-shaped section is armored against an incoming projectile and a second arm is fitted with at least one stud projecting through and secured within an opening formed in an external wall surface.
Abstract: A device and a method for protecting objects against rocket-propelled grenades having a hollow nose cone includes a netting of knotted and coated superstrong fibers disposed in front of the object, in such a manner that the nose cone of a rocket caught in the netting will penetrate one of the meshes of the netting and be deformed through strangulation, thereby disabling the detonator.
Type:
Application
Filed:
December 21, 2007
Publication date:
November 25, 2010
Applicant:
Nederlandse Organisatie Voor Toegepast Natuurwetenschappelijk Onderzoek Trio
Abstract: A building block for constructing a projectile absorbing armor. The building block has at least one interlocking male connector and at least one female connector. The interlocking male connector and said female connector are sized for interlocking engagement. The invention is also generally directed to a structure having projectile absorbing armor having at least two building blocks in interlocking engagement. The building blocks are constructed from projectile resistant material and may have various features to prevent the passage of a projectile through the block.
Abstract: The invention accomplishes the protection of vehicles, helicopters and other structures from attacks with rocket propelled grenades of the RPG 7 type, except of grenades of the NADER or other similar to that type. Compromising of several grids of electrodes (1, 2, 3) that are placed one behind the other, of one mounting frame (4) where each grid of electrodes (1, 2, 3) is fixed only from one of its sides, while the cross side from its fixed side is tied on the mounting frame (4) with special elastic canals (7), leaving all the other sides unfixed. The next grid (1, 2, 3) is fixed on the frame (4) from the side that the previous was tied with the special elastic canals (7) while it is tied with the special elastic canals (7) from the side that the previous was fixed on the frame (4). It is lightweight. During impact of the grenades on the shield, an electronic device (8) directs instantaneously modulated electronic pulses resulting in the instantaneous destruction of the grenades.
Abstract: Fixed weapon emplacements include ballistic weapon stands having heights sufficient to protect standing gunners in combination with tripods, which are fixed thereto with welded connections. In a first embodiment, the tripod has two legs fixed to a weapon platform and to the base of the ballistic weapons stand and a third leg fixed to the weapon platform and to a weld plate on a front armor plate of the stand. In a second embodiment, the third leg of the tripod is provided by a strut that extends through a slot in the front armor plate and is welded to both a weld plate behind the front armor plate and to the weapon platform. In a third embodiment, the tripod has one leg fixed to the base of the weapon stand and two legs welded to a weld plate behind the front armor panel to support the weapon platform. In a fourth embodiment, a hood projects from the front armor plate with a front leg of the tripod fixed to the base at a location within the hood and rear legs of the tripod fixed to the base.
Abstract: The invention relates to a ballistic resistant laminated structure comprising at least three glass sheets (1, 3, 5) a polycarbonate sheet (11) which are bound by adhesive layers (2, 4, 10) and a shielding insert (20), wherein a space delimited by said insert (20), the end face of the sheet (5) and the edge of the sheet (11) are provided with a material (30, 31) for absorbing the energy of a projectile. Said materials (30, 31) are embodied in the form of an yielding material (30) for degassing during assembling said stricture and an encapsulating material (31). A highly ballistic resistant glazing for a building or a transport vehicle comprising the inventive structure is also disclosed.
Type:
Application
Filed:
June 23, 2006
Publication date:
June 3, 2010
Applicant:
SAINT-GOBAIN GLASS FRANCE
Inventors:
Matthias Mandelartz, Stephane Leray, Pierre Chaussade
Abstract: The present invention is a protective structure and panel system to protect a user against projectiles, blast pressures and fragments from small arms and explosions that is attached to a floor and a ceiling or just a floor. The system has a plurality of structural columns attached to the ceiling and/or the floor, a frame attached to the structural columns, a plurality of protective panels that are set within the frame and a means for attaching the protective structure and panel system to the ceiling and/or the floor. The invention also includes a vertical retrofit support system used in combination with a load bearing structure such as a wall to support a floor and a ceiling of the load bearing structure.
Abstract: A portable protection system including a selectively collapsible truss for supporting a protection member. The truss is movable between a collapsed position and an expanded position. The protection member includes at least one layer of ballistic armor material for disrupting a projectile. The truss includes suitable connectors for releasably connecting the protection member to the truss, and also suitable connectors for releasably connecting the truss to an adjoining truss so as to form a protection wall.
Type:
Application
Filed:
October 24, 2008
Publication date:
February 25, 2010
Inventors:
John CARBERRY, George D. Forsythe, Harvey Kliman, Katherine Leighton, John Garnier, Ray Ballario, Wiktor Serafin, Jason Ickes
Abstract: A barrier comprising a base unit composed of a bullet resistant material and a transparent upper wall removably interconnected to the base unit and composed of a bullet resistant material. The base unit includes a front wall and two side walls extending from the front wall to provide protection to the front and sides of a person standing behind the barrier. A series of casters, preferably locking casters, are attached to the bottom edges of the side walls, and a pair of handles connected to each of the side walls permitting the barrier to be conveniently transported from one site to another.