Abstract: An armor system or plate designed to reduce the extent of back face deformation by re-directing the pressure wave created by a projectile impact. More specifically, armor systems according to embodiments of the invention are provided with redirection channels whereby the pressure or shock waves generated by projectile impact are guided or spread laterally along the channels and out of the plate so as to reduce back face deformation and consequent impact to the wearer.
Abstract: The invention relates to a method for optimizing a shearing bench for shearing a film having a thickness less than or equal to 10 microns, the shearing bench comprising a plurality of elements, each element being characterized by a plurality of parameters, the collection of parameters forming the parameters of the shearing bench, the plurality of elements comprising at least one blade assembly comprising a blade and a counter-blade collaborating with the blade, a system for progressing the film, and a system for urging the blade and the counter-blade against one another in order to shear the film.
Type:
Grant
Filed:
May 31, 2019
Date of Patent:
June 14, 2022
Assignee:
ARMOR
Inventors:
Gildas Hubert, Paul Calvez, Frédéric Thepaut, Christophe Derennes
Abstract: A modular armor system is provided. The modular armor system includes an encasement for holding one or more interior plate, thereby providing a variety of protection options. The encasement is moveable from an open configuration to a closed configuration. In the open configuration, a user can inspect plate conditions and configurations prior to using such system, thereby allowing the user to replace damaged plates and/or to change plate configurations. The system is configured to allow bullets to penetrate the encasement, thereby reducing impact to users while reducing shrapnel associated with bullet spalling. By including one or more penetrable, buffer, retaining, or other plate within the encasement, users can further decrease impact and/or other risks associated with the same.
Abstract: A modular cover panel including two or more cover panels that cover a parapet or barrier along a roadway. Multiple cover segments may overlap one another to form the modular cover panel and each cover panel is individually hung or suspended by brackets affixed to the parapet. Each cover segment has one more surfaces intersecting with other to cover the parapet and a top surface that overhangs a top surface of the parapet. A cable may be disposed through a slot of a hanging bracket and a pin may secure the cable thereby providing a mechanical attachment to the assembly.
Abstract: Provided are embodiments of a hitch lift system including an elongated receiver member configured to engage a complementary opening of a receiver hitch of a vehicle, and a lift system that includes a lifting shaft adapted that extends and retracts vertically, and a lifting system to regulate the vertical extension and retraction of the lifting shaft.
Abstract: A status monitoring system and the devices used for the status monitoring system is disclosed. The status monitoring system includes a controller device, a plurality of rod monitoring devices, and a motor monitoring device which works together to provide a layered approach to securing the boat. The controller device is configured to communicate with a smart device via cellular network. The controller device triggers an alert once it detects unexpected events on the boat or receives intrusion notifications from other devices in the status monitoring system. Unexpected events can include the boat moving out of the geofence, boat vibration, and unexpected starting of the vehicle. A method for monitoring the status of the boat is also disclosed. The method can include receiving an activation signal, receiving a GPS signal, receiving vibration signals, energizing the siren and transmitting notification and boat location to the cloud when detecting at least one trigger.
Abstract: A Confidence Broker System is disclosed. One embodiment of the present invention includes a confidence broker (10) which communicates with a plurality of confidence producers (12A, 12B, 12C) and a plurality of confidence consumers (14A, 14B, 14C). Communications between these elements is conducted via a communications infrastructure (16). The confidence broker (10) also includes a communications interface (42) which is connected to a protocol converter (44). The protocol converter (44) is connected to a confidence normalizer (46). The confidence normalizer (46) is connected to a confidence mediator (48). The confidence mediator (48) is connected to a confidence mapper (50). The confidence mapper (50) is connected to the protocol converter (44). Each of the protocol converter (44), the confidence normalizer (46), the confidence mediator (48) and the confidence mapper (50) is connected to a storage device (52).
Abstract: Unidirectional transparent projectile penetration resistant panels and bidirectional opaque projectile penetration resistant assemblies and systems and methods of forming and mounting the same relative to underlying support structures.
Abstract: In well bores with included tubulars, it is often desirable to segregate a portion of the wellbore's pressure-driven fluid flowpath in the conduit portion formed by included tubulars to permit work to be completed in a pressure-controlled portion of that flowpath. The subassembly and included frangible device provided here does so with minimal exposure of seals to well fluid environments, and provides a field-adjustable variability to the pressure differentials required to open the conduit by removal of the frangible sealing device from the flowpath into which the subassembly is installed or included.
Abstract: The present invention enables the selection of network routes based on a combination of traditional route table entries, identity policy information, and trust level information determined dynamically for each network session. This enables a network operator to apply different policies to network entities presenting differing identity credentials. It also allows network operators to block access to networks and network resources when identity credentials are not provided or are unauthorized.
Abstract: A security panel system that is adapted to protect innocent bystanders from gunfire in the event of a shooting. The security panel system includes a main body having a first rail, a second rail, a panel, and a locking mechanism. The first rail and the second rail may each be mounted adjacent to a window and movably secure a panel therebetween. The panel is movable between an opened position and a closed position. The locking mechanism is configured to secure the panel in the closed position. It should be appreciated that, while the panel is in the closed position, the shooter may not be able to see or fire through the window due to use of the security panel system.
Abstract: The present invention relates to composite material comprising a matrix and a metallic layer located at at least one surface of said composite material, said matrix comprising at least one polymer and a first population of particles of at least one electronically conducting metal, said layer comprising a second population of particles of at least one electronically conducting metal, a method for preparing such composite material and applications thereof.
Type:
Grant
Filed:
May 30, 2017
Date of Patent:
January 4, 2022
Assignees:
ARMOR, Centre national de la recherche scientifique, UNIVERSITE DE NANTES
Inventors:
Christophe Maria Busson, Bernard Lestriez, Pierre Guichard, Marie-Anne Blin
Abstract: Processes for making lightweight armor, hardened casts, hardened parts, nonstructural reinforced hardened casts, structural shrapnel-resistant blocks, attachable hardened surfaces, and for hardening surfaces utilize rare earth material nanoparticles including metal anhydride nanoparticles that are refined under supercritical conditions.
Abstract: A case for a computing device includes a rear support surface that is operatively coupled to a perimetral edge that securely engages with a perimetral edge of the computing device. A support stand may be in communication with the rear support surface, wherein the stand is operable to move between one or more elevations. The rear support surface and the perimetral edge may substantially or entirely shield a rear surface of the computing device. The support stand may include a stand mechanism with support and pivot portions, the support portion operable to communicate with a corresponding mounting surface and the pivot portion operable to pivot the support stand between a closed state and one or more elevations.