An insensitive munitions (IM) primer for use with major caliber gun systems, including an elongate housing, a tube, an ignition assembly, and a booster assembly. The elongate housing has a proximal end and a distal end. The tube has a first end coupled within the distal end of the elongate housing. The ignition assembly is located within the proximal end of the housing. The booster assembly is located within the elongate housing adjacent the ignition assembly and including a booster holder providing a cylindrical structure defining an internal bore in which a first burst disk resides and is mechanically restrained by a booster disk lock.
A projectile that includes strakes mounted about the perimeter of the midsection of the projectile and a pusher plate assembly mounted about the aft of the projectile so that a sub- caliber projectile may be fired from a larger caliber gun. The pusher plate assembly forms a seal with the bore at the aft end of the projectile. The strakes maintain the center line position of the projectile within the bore. The pusher plate assembly further designed to fragment upon exiting the bore while the strakes remain with the projectile to enhance aerodynamic qualities of the projectile in flight.
F42B 10/00 - Moyens pour influencer, p.ex. pour améliorer, les propriétés aérodynamiques de projectiles; Dispositions sur les projectiles pour la stabilisation, le pilotage, le freinage de la chute, la réduction ou l'augmentation de la portée
F42B 14/00 - Projectiles caractérisés par des dispositions pour les guider à l'intérieur du canon, pour rendre étanche la surface de contact entre le projectile et le canon, pour lubrifier ou nettoyer le canon
B64C 39/02 - Aéronefs non prévus ailleurs caractérisés par un emploi spécial
A projectile having a fin deployment system disposed about its circumference. The fins are initially contained by a fin cover that is removed by aerodynamic force. The fins are then rotated around a rotational axis parallel to and offset from the central axial axis of the projectile body by the centrifugal forces created by the rotation of the projectile as the projectile passes through a barrel of a gun system or tube launcher. The fin deployment system can also have locking systems that lock the fins in the deployed position and prevent the fins from rotating back into the retracted position after deployment.
The invention is a gradient ballistic material and honeycomb grille that includes a louver system and a honeycomb structure. The louver system contains a gradient of ballistic materials to improve air handling and protection. The louver system may be constructed of one or more pieces of ballistic material so that at least one section is harder than a second section. The honeycomb structure acts a "catcher" or backstop to collect the fragments created by a projectiles contact with the harder section of the louver system.
F41H 7/03 - Compartiments en surpression pour l'équipage; Moyens pour prévenir l'entrée de produits asphyxiants, p.ex. de gaz de combustion sortant des tubes d'arme, dans les compartiments de l'équipage; Dispositions pour l'étanchéité
B60R 19/52 - Protections du radiateur ou de la calandre
The present invention is a driver's hatch for an armored vehicle. The hatch includes a dome hatch for normal operations and a pop-up section. The pop-up section, when in the lowered position allows the cab to freely rotate above it. When in the raised position, the pop-up section allows the driver to look out of the vehicle through transparent armor windows and thus remain under armor protection.
An optimized grille design that narrows the louver pitch and narrows the louver construction so as to maintain the air flow through the grille. An aerodynamic shape is applied to the leading edge of the louver thus lowering drag and reducing the pressure drop at the inlet.
An armor applique system for supplementing the integrated armor of an amphibious vehicle without increasing the effective weight of the vehicle in water. A plurality of armored modules individually are affixed to the hull of an amphibious vehicle, each module having an armor element and a buoyant element sized to offset at least the weight of the armor element when the module is submerged in water. The modules can be arranged to align with the armor elements of neighboring modules and create a nearly continuous armor layer over a layer of buoyant elements and the hull. The modules can be provided in a plurality of different shapes and sizes such that the armor layer can be customized approximate to shape and size of the portion of the hull to prove protected.
B60F 3/00 - Véhicules amphibies, c. à d. véhicules capables de se déplacer sur la terre et sur l'eau; Véhicules terrestres capables de se déplacer sous l'eau
A solid state ignition safety device for rocket assisted projectiles having a piezoelectric generator that charges a capacitor during the initial acceleration of the projectile by the launching propellant charge. The capacitor is then discharged after a delay to ignite an initiator, which ignites the rocket motor of the projectile. A time delay circuit can be integrated into the ignition safety device to further delay the ignition of the initiator until the projectile has reached the ideal point in its trajectory to ignite the rocket motor.
F02K 9/08 - Moteurs-fusées, c. à d. ensembles fonctionnels portant à la fois le combustible et son oxydant; Leur commande utilisant des propergols solides
F02K 9/38 - Dispositifs de sécurité, p.ex. pour prévenir un allumage accidentel
A gunner protection system for positioning armored panels around a hatch opening and a mounted weapon or equipment system. The armored panels are arranged to create an armored envelope surrounding the vehicle hatch and defining an opening through which the weapon or equipment system can be operated. The armored panels can be individually raised to define a portion of the armored envelope or lowered to change the geometry of the armored envelope or opening according to the particular weapon or equipment system. Similarly, all of the armored panels can be lowered to collapse the armorer envelope to allow for efficient transport of the vehicle with the gunner protection system attached to the vehicle.
A floating floor assembly for an armored vehicle mounted to the sides of the vehicle to suspend the floor above the belly armor of the vehicle rather than being directly supported by the belly armor. The floating floor reduces the amount of energy that is transferred by the floating floor from the belly plate and further reduces the risk that any deformation of the belly armor from the explosion will cascade to the floating floor causing the floor to buckle or fragment into secondary shrapnel.
Apparatus and related methods of utilizing a common mounting provision within an armored vehicle. The common mounting provision includes a plurality of common mounting bosses that are arranged in a grid type pattern formed by attaching a plurality of mounting bars to an interior wall of an armored hull with each mounting bar including at least one of the common mounting bosses. The grid type pattern provides for a common spatial distance between adjacent apertures in rows and columns. When engineering changes are needed, the grid type pattern provides the engineer with known mounting bosses having a known spacing allowing the engineer to readily design the component to attach to the common mounting provision. By knowing the size and location of each mounting boss, the engineer will spend less time designing and fitting new components and will avoid having to continually update drawings to illustrate new mounting provisions.
A latch mechanism for removably coupling at least one transparent armor assembly being in a vehicle window sill, the at least one transparent armor assembly including a frame that supports at least one transparent armor pane, the latch mechanism includes a latch mechanism assembly, the latch mechanism assembly being selectively operable by a vehicle occupant for effecting release of the at least one transparent armor assembly, such release permitting shifting of the at least one transparent armor assembly from the vehicle window frame to define an egress portal and the latch mechanism having an engaging member for selectively engaging the vehicle window frame, latch mechanism assembly being shiftable relative to the transparent armor assembly frame for accommodating a plurality of varying transparent armor assembly to vehicle window frame relationships. A method for removably coupling at least one transparent armor assembly to a vehicle window sill is further included.
A bottom plate assembly for securing a bottom plate to an armored vehicle for adding to the existing armor or replacing the existing armor on the underside of the vehicle. The bottom plate assembly secures bottom plate to the vehicle hull by securing the bottom plate to the sidewalls of the vehicle.
A vehicle system allowing for interchangeably attaching different shells to the hull of a vehicle chassis. The shells can be configured for different tasks allowing the vehicle to be easily configured for specific missions and then swapped for new shells based on changing mission requirements. The vehicle system attaches the shell to the support walls of the hull such that the hull can support the shell and withstand use of the equipment integrated into the shell.
A shorting plug for a pulsed power system is provided, having a rotator assembly at least partially nested within a cam housing and at least partially rotatable within the cam housing with respect to a cam rail that operably engages the rotator assembly to transition between a shorted mode of operation and an open mode of operation. During the shorted mode of operation, a pair of electrical contacts extend from the cam housing to operably engage the electrical contacts electrically connected to a energy storage device such as a capacitor, while the electrical contacts are retracted and rotated within the cam housing during the open mode of operation. The rotator assembly is connected to a housing cap, which allows the operator to transition the shorting plug between the two modes of operation. The shorting plug also contains a first latch mechanism that operably engages the housing cap during the shorted mode of operation, and a second latch mechanism that operably engages the housing during the open mode of operation. During transition between the shorted and open modes of operation, a vertical load, a horizontal load and a rotational load are applied by the operator to overcome the horizontal load and rotational locking mechanism provided by the first and second latch mechanisms, a downward vertical load applied to the rotator assembly that operably engages the cam rail, and the cam rail that provides a rotational limit of the rotator assembly without an upward vertical load being applied.
H01R 31/08 - Pièces de court-circuitage pour contacts pontés dans une pièce complémentaire
H01R 13/703 - Association structurelle avec des composants électriques incorporés avec interrupteur incorporé actionné par l'engagement ou le retrait des pièces de couplage
A break-away wiper arm assembly which allows a vehicle escape window to be opened rapidly without any delays or undue forces to impede the escape of the vehicle crew. The invention uses a two piece coupling held together using a retaining ring. As the window is pushed open, the window frame pushes against the wiper arm which overcomes the retaining ring retention force allowing the wiper arm to break away, clearing the area in front of the window for free motion of the window and the unimpeded exit of vehicle occupants.
A cartridge assembly for large bore gun systems having an integrated retention assembly for maintaining propellant charges within the cartridge case. The cartridge case having an interior space for receiving propellant charges and an open proximate end through which the propellant charges can be fed. An insulating sleeve defining an interior channel is affixed to the cartridge case and extends out of the proximate end of the cartridge case. The interior channel serves as a chute through which propellant charges can be fed. After the propellant charges are loaded, the insulating sleeve is crimped closed to retain the propellant charges within the cartridge case. A closure plug can be inserted into the proximate end of the cartridge case after the insulating sleeve is crimped closed.
A guidance and control unit assembly for use with a munitions projectile includes a guidance and control unit being roll isolated with respect to the munitions projectile such that roll of the munitions projectile about a projectile longitudinal axis, such roll being imparted to the munitions projectile during the act of launching the munitions projectile, may not be imparted to the guidance and control unit as desired. A munitions projectile is further included.
A GNC device for use with a projectile, includes a rotating GNC portion and a non- rotating GNC portion, the rotating GNC portion being fixedly coupled to a projectile body, at least one bearing being interposed between the rotating GNC portion and a non-rotating GNC portion, the at least one bearing permitting the rotating GNC portion to rotate with respect to the non-rotating GNC portion. In a GNC device for use with a projectile, a method is further included.
F42B 10/26 - Dispositions pour la stabilisation par rotation
F42B 10/14 - Dispositions pour la stabilisation utilisant des ailettes qui sont déployées après le lancement, p.ex. après la sortie du tube de l'arme
F42B 10/10 - Ailettes placées à l'arrière du projectile les ailettes étant formées par la déformation de l'enveloppe du projectile dans le tube de l'arme
F42B 10/06 - Ailettes placées à l'arrière du projectile
The chain gun simulator provides a high-fidelity simulation of the electrical control system signals for any weapon platform using a variety of chain gun types. The simulator device is stand-alone, requiring no external equipment, and replicates the electrical states, levels, and timing of the real guns such that the weapon platform's fire control interface can function normally without the need for a real gun and live ammunition. In addition, the simulator provides user control for selecting gun type and mode, and provides visual indication of modes, feed selection, and simulated weapon bolt position. There may also be an audible indication every time the simulator has advanced through the normal shutdown portion of the gun cycle.
The present invention is an Adaptable Beam Lifter Element (ABLE) system for use in lifting and moving an assortment of military vehicles and containers in transit and storage. An ABLE device is generally a structure having a low-profile frame that contains hydraulic lift, maneuvering, and drive features that may readily be placed beneath or around vehicles or containers for desired movement in a confined space. By using ABLE devices, transported vehicles placed on ships or in other confined locations can be stowed very close together, while allowing vehicles to be retrieved easily and efficiently, without dedicating a vast amount of space for maneuvering. In some embodiments, multiple ABLEs may be ganged and slaved logically together to form a system to cooperatively lift and transport a variety of vehicles and containers including many types of military equipment.
B66F 7/28 - Châssis de levage, p.ex. pour lever des véhicules; Ascenseurs à tablier - Détails de structure, p.ex. butées d'arrêt, organes de support pivotants, curseurs coulissants réglables aux dimensions de la charge
B60D 1/07 - Dispositifs d'attelage multiples, c. à d. comportant plusieurs attelages du même type ou de types différents; Adaptateurs d'attelage, c. à d. pour convertir un attelage d'un type à un autre
B66F 9/06 - Dispositifs pour lever ou descendre des marchandises volumineuses ou lourdes aux fins de chargement ou de déchargement se déplaçant, avec leurs charges, sur des roues ou sur un dispositif analogue, p.ex. chariots élévateurs à fourche
B66F 3/28 - Adaptations ou aménagements des pistons télescopiques
B66C 13/12 - Aménagements des moyens pour transmettre une puissance pneumatique, hydraulique ou électrique à des parties ou dispositifs mobiles
An improved transparent armor piercing protection system that acts as a vision window in an armor system. The transparent armor piercing protection system comprises ballistic plastic prisms with mirrored external surfaces disposed between armor plates so that the reflection of the image occurs entirely within the prism. The armor sheets are also redesigned with perforations to reduce weight while defeating incoming threats.
A direct vision periscope is disclosed having a second set of mirrors strategically positioned within a wide angle trapezoidal periscope. The main optical path has a vertical field of view of 24° above and below horizontal while the secondary optical path provides a field of view of 12 to 59° above horizontal to allow the occupants to see elevated areas. When used on military vehicles, multiple periscopes may be disposed about the operator's compartment to create a near panoramic view.
A container includes a container assembly being shiftable between a unitized collapsed, transport disposition and a unitized erect, cargo bearing disposition, the container assembly having a plurality of independent assembly members, including a bottom member, four side members and a top member, a plurality of manually operable latches operably coupled to selected container assembly members, the plurality of latches being effective for maintaining the container assembly in the erect, cargo bearing disposition and at least a portion of the plurality of latches being effective for maintaining the container assembly in the unitized collapsed, transport disposition, assembly of the container assembly in the unitized collapsed, transport disposition and in the unitized erect, cargo bearing disposition being effected without the use of tools or loose components. A method of forming a container is further included.
A vehicle emergency egress system includes a transparent armor assembly disposable in a vehicle window frame, the transparent armor assembly including at least one transparent armor pane, and interiorly accessible release means, the release means being selectively operable by a vehicle occupant for effecting release of at least the one of the transparent armor panes, such release permitting shifting a respective one of the at least one transparent armor panes from the transparent armor assembly to define an egress portal. A method of forming a vehicle emergency egress system is further included.
A very high density storage system comprising a storage grid having a number of storage cells and individual cargo carriers where a cargo carrier is stored in a storage cell. The storage system uses a unique set of individually actuatable gear drives on both the top and bottom of each storage cell, but installed at 90 degrees to each other, to move the cargo carrier to a specific storage cell. Software controls and manages the location of each cargo carrier such that when a specific cargo carrier is desired, software instructions cause the cargo carriers to be shuffled within the storage grid until the desired cargo carrier is located at the desired position, such as an unloading position.
A gun for firing a round of caseless ammunition, a round of such ammunition having a projectile and a modular propellant, the projectile and a modular propellant being disposable for firing in a gun tube, includes an actuatable valve being selectively openable to the gun tube, the valve for drawing a negative pressure in the gun tube, the negative pressure acting to pull the round into contact with a breech face such that when a firing pin is forceably released, the firing pin reliably strikes a primer of the modular propellant, the primer igniting the modular propellant, the ignited propellant forcefully discharging the projectile from the gun tube. A firing pin and valve assembly and a method of operating a gun are further included.
An interface includes a blast plate having plate structure, the plate structure being formed to substantially conform to a certain portion of an exterior margin of a hull of a certain vehicle and being semi-permanently mounted to the hull by mounting to certain mounting devices present on the exterior margin of the hull and having mounting means for supportively mounting a standardized add-on device, the mounting means being designed to facilitate the add-on device being readily mountable on and demountable from the plate structure, the plate structure having structural characteristics for acting to protect the hull from effects of a blast directed at the hull. A modular assembly and a blast plate are further included.
A modular current sensing system for a servo control system that includes a magnetic core with an open center portion and a connection plate that includes at least three wire connectors, wherein the wire connectors are capable of connecting at least two wires electrically in series. The system also includes a plurality of wires, including a first wire with a first end and a second end, wherein the first end of the first wire is electrically connected to a first power source, and the second end of the first wire is connected to the connection plate at the first wire connector and wherein the first wire passes through the open portion defined by the magnetic core at least once. A first motor current flowing through the first wire induces a core current to flow in the magnetic core, causing the magnetic core to emit a magnetic field. A Hall effect sensor detects the magnetic field, produces an output current, and delivers the output current to a control device within a servo control system.
The present invention relates to an apparatus and method for generating digital electrical signals which are representative of the angular position and rotational velocity of a rotatable shaft or similar movable mechanical component in a servomechanism. In particular, the present invention utilizes oversampling techniques to create an accurate, flexible and responsive method for determining shaft position on a high speed motor. The present invention also includes methods for overcoming deadtime losses and velocity lag.
G05B 19/31 - Commande numérique (CN), c.à d. machines fonctionnant automatiquement, en particulier machines-outils, p.ex. dans un milieu de fabrication industriel, afin d'effectuer un positionnement, un mouvement ou des actions coordonnées au moyen de données d'u caractérisée par systèmes de commande de positionnement ou de commande de contournage, p.ex. pour commander la position à partir d'un point programmé vers un autre point ou pour commander un mouvement le long d'un parcours continu programmé utilisant un dispositif de mesure numérique absolue pour commande continue de parcours
The combination of complex physical simulations and realistic real- time interactive virtual environments provides engineers with a means to test the design in various environments before finishing the final products, and program management with a means for better communication and measurement of progress. The present invention provides a system that combines complicated physical simulations with a real-time visualization software tool, and displays the results in realistic 3D environments. The Generic Visualization System (GVS) displays the combined results of many different simulation programs, including several Semi-Automated Forces (SAF) variations (e.g., OneSAF, JSAF, and others), simultaneously.
The present invention provides a torque loop control method for servomotors utilizing discontinuous pulse width, modulation that incorporates measuring the power factor in real time. Also included is a sine wave generator for software-based spectrum analysis.
A mortar, having a mortar tube assembly, a base plate assembly operably couplable to the mortar tube assembly, and a mortar mount bipod assembly operably couplable to the mortar tube assembly includes a mortar carrier assembly, the mortar carrier assembly being operably coupled to a mortar assembly, the mortar assembly comprising the mortar tube assembly, the base plate assembly, and the mortar mount bipod assembly in a unitized cooperative assembly for the ready transportation thereof. A mortar carrier assembly is further included and additionally a method of assembling a mortar into a readily transportable state is included.
A method and apparatus for launching and recovering an object by a host vessel while the host vessel is in motion. The recovery system utilizes a tethered capture system for connecting with the object and then directing the object to the host vessel where it is secured. The tethered capture system includes one or more side planers that direct a capture cable away from the host vessel. The capture cable is preferably disposed below the waterline through the use of a diving rig or extended cable struts so that the cable does not foul the propeller of the object to be recovered. The side planer itself may include a ramped surface for loading the object prior to securing to the host vessel. After the capture, the object may be secured by way of a boom attached to the host vessel or by a lifting cradle that selectively extends aft of the host vessel.
B63B 35/40 - Embarcations ou structures flottantes similaires spécialement adaptées à des finalités spécifiques et non prévues ailleurs pour transport d'embarcations
35.
SOFTWARE TEST ENVIRONMENT FOR REGRESSION TESTING GROUND COMBAT VEHICLE SOFTWARE
A STE for automated testing of ground combat vehicle software application to validate vehicle software logic provides a system and method to conduct interactive (manual) testing of the vehicle software while under development, record information related to the interactive testing activities, including but not limited to tester inputs and expected outcomes, and perform automated testing of the combat vehicle software application using the recorded information. Preferably, reconfiguration of the STE to support changes that arise due to the evolution of the combat vehicle software application system and the subsystems under control of the evolving software system is provided.