| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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| 101 | Structure de maintien de conteneurs de missiles d'un dispositif de lancement vertical de missiles | EP08104391.1 | 2008-06-12 | EP2003417A1 | 2008-12-17 | Monteil, Dominique; Bruneau, Hervé |
L'invention concerne une structure de maintien de conteneurs de missile (1a) d'un dispositif de lancement de missiles du type comprenant une pluralité d'alvéoles de réception d'un conteneur de missile (2) d'au moins une cheminée (3). La structure est constituée de plaques métalliques (101, 104) prédécoupées de façon à comporter des éléments complémentaires encastrables, les plaques étant assemblées de telle sorte que les éléments complémentaires de deux plaques adjacentes sont encastrés les uns dans les autres.
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| 102 | Schiff mit Fundamenten für Ausstattungselemente | EP05020851.1 | 2005-09-24 | EP1671882A3 | 2008-03-05 | Grudda, Andreas |
Ein Schiff (3) ist mit Fundamenten (1) für Ausstattungselemente (5) versehen. Derartige Fundamente (1) dienen beispielsweise zur Halterung und Lagerung von Effektoren (5), wie Geschützen, oder Sensoren (13). Mindestens ein Fundament (1) weist eine Schwenkeinrichtung (10) auf und ist in mindestens zwei unterschiedlichen Positionierungen fixierbar. Die Schwenkeinrichtung (10) ist zur Durchführung einer Verschwenkung des Fundamentes (1) in einer vertikalen Ebene ausgebildet.
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| 103 | Articulated platform for a turret | EP07105646.9 | 2007-04-04 | EP1842770A2 | 2007-10-10 | Sbrighi, Roberto |
An auxiliary aiming device for installation on a mobile or fixed platform, e.g. for a naval emplacement, comprises an articulated platform (20) carrying a turret (11). The articulated platform (20) is able to be commanded to recline by a predetermined angle.
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| 104 | INTEGRATION EINES GROSSKALIBRIGEN GESCHÜTZES AUF EINEM SCHIFF | EP03811736.2 | 2003-09-30 | EP1563242A1 | 2005-08-17 | GRAF, Alexander; VON SEIDLITZ, Henning; KRUSE, Heinz-Josef; FOLGMANN, Uwe; LIEBEL, Peter |
| Fire support of amphibic operations is important in order to meet existing military requirements for the use of military ships in coastal areas. Hitherto, guns used on ships had an amunition calibre of 127 mm (maximum) and a range of 15-18 kms. The aim of the invention is to integrate the tower (3) and the weaponry (15) of a large-calibre land gun (1), preferably the gun (1) of a tank howitzer i.e.155mm, on a ship (2). The gun (1) can be integrated in the form of a module into an existing deck structure of the ship (1). Shock-absorbing bearing elements (5) are used inbetween the deck (7) and the slewing rim (12) of the tower to enable the existing steel structure of the ship (2) to resist increased recoil forces. The large-calibre ship gun can transport different types of ammunition and carrier projectiles over a distance of more than 40 kms into the target area. By using land gun technology, e.g. the weaponry (15) of 155 mm tank howitzers, said guns (1) are no longer affected by ship-based disruptions. | ||||||
| 105 | Schiff mit modularer Struktur | EP04020936.3 | 2004-09-03 | EP1512618A2 | 2005-03-09 | Bolayer, Wolfgang; Ehrenberg, Hans-Dieter, Dr.; Franz, Joachim; Herschel, Peter; Kahl, Christiane; Marschall, Georg, Dr.; Pfeffer, Eckart; Sobik, Bernd |
Das Schiff (1) besitzt eine modulare Struktur und weist einen Schiffsrumpf (2) sowie Aufbauten auf. In mindestens einem Bereich des Schiffes ist eine strukturierte Modulbaugruppe angeordnet. Der Schiffsrumpf ist als eine Montagebasis für die Modulbaugruppe (4) ausgebildet. Die Montagebasis ist zur wahlweisen Ausrüstung mit mindestens zwei unterschiedlichen Modulbaugruppen (4) ausgebildet, wobei jede der Modulbaugruppen einem voneinander unterschiedlichen Anforderungsprofil zugeordnet ist. |
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| 106 | SHIP PROVIDED WITH A DISTORTION SENSOR AND DISTORTION SENSOR ARRANGEMENT FOR MEASURING THE DISTORTION OF A SHIP | EP98946386.4 | 1998-08-12 | EP1009654B1 | 2003-03-12 | BROUWER, Jan, Klaas |
| The invention relates to an improved ship, incorporating a distortion sensor arrangement (8). The measurement data supplied by the distortion sensor arrangement (8) are preferably used to correct measurement data supplied by and/or control signals for onboard directional apparatus (15, 17). The distortion sensor arrangement (8) preferably comprises a hull-mounted laser beam/light sensor (7) combination, the light sensor (7) continuously measuring a deflection of the laser beam in response to the ship distortion. | ||||||
| 107 | Boot-Wasserspritze | EP97111556.3 | 1997-07-08 | EP0818664A3 | 1999-10-27 | Stadlbauer, Andreas |
Eine Wasserspritze mit einer Spritzdüse sowie einer Pumpe zur Unterdrucksetzung des Wassers und dessen Förderung aus der Spritzdüse heraus zeichnet sich dadurch aus, daß die Spritze (10) mit einer Halterung (11) für eine lösbare Verbindung an einem schwimmfähigen Körper, wie einem Boot (12), versehen ist, wobei an die Spritze (10) ein Wasseransaugschlauch (28) angeschlossen ist, dessen freies Ende unter die Wasseroberfläche führbar ist. Die Halterung (11) gestattet sowohl ein horizontales als auch ein vertikales Verschwenken der Spritze (10). Damit läßt sich der Wasserstrahl in beliebige Richtungen lenken, und die Pumpe läßt sich dauerhaft ohne die Beschränkung auf einen vorbestimmten Wasservorrat betätigen. |
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| 108 | Boot-Wasserspritze | EP97111556.3 | 1997-07-08 | EP0818664A2 | 1998-01-14 | Stadlbauer, Andreas |
Eine Wasserspritze mit einer Spritzdüse sowie einer Pumpe zur Unterdrucksetzung des Wassers und dessen Förderung aus der Spritzdüse heraus zeichnet sich dadurch aus, daß die Spritze (10) mit einer Halterung (11) für eine lösbare Verbindung an einem schwimmfähigen Körper, wie einem Boot (12), versehen ist, wobei an die Spritze (10) ein Wasseransaugschlauch (28) angeschlossen ist, dessen freies Ende unter die Wasseroberfläche führbar ist. Die Halterung (11) gestattet sowohl ein horizontales als auch ein vertikales Verschwenken der Spritze (10). Damit läßt sich der Wasserstrahl in beliebige Richtungen lenken, und die Pumpe läßt sich dauerhaft ohne die Beschränkung auf einen vorbestimmten Wasservorrat betätigen. |
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| 109 | Dispositif d'évacuation des gaz de combustion de missiles sur un navire | EP94402355.5 | 1994-10-20 | EP0652153A1 | 1995-05-10 | Laine, Christian; Bigot, Thierry; Pensec, Georges |
L'invention concerne un dispositif d'évacuation des gaz de combustion d'au moins un missile d'un système d'armes installé notamment sur un navire. Ce dispositif est constitué par un cadre (1) intégré à la coque (3) du navire et épousant sa forme extérieure, ce cadre (1) délimitant au moins un orifice obstrué par un opercule (2), l'opercule (2) étant éjectable sous la pression des gaz de combustion lorsqu'au moins un missile du système d'armes est mis à feu. |
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| 110 | Marksman launcher system architecture | US15264992 | 2016-09-14 | US10139196B2 | 2018-11-27 | Emile M. Szlemko; Huy Le; Brian A. Gin; Ryan P. Wahl; Mary L. Kulbacki; Chad V. Anderson; David P. Ueberschar |
| An effector launching system includes an environment that has external components located within the environment. The effector launching system may include a modular controller located in the environment of an effector launching system and the external components may be located in the environment externally to the modular controller for executing an effector launching sequence. The modular controller may include a core processor module that is configured to execute a plurality of different effector launching sequences using the external components and a plurality of converting modules that each have an electro-mechanical interface and is connectable between the core processor module and one of the external components. The plurality of converting modules are configured to send and receive data with the core processor module and the plurality of external components. | ||||||
| 111 | Robot arm launching system | US15264934 | 2016-09-14 | US10054400B2 | 2018-08-21 | Emile M. Szlemko; Huy Le; Brian A. Gin; Ryan P. Wahl; Mary L. Kulbacki |
| An effector launching system and method may be used on a moving ship deck. The launching system includes a plurality of effectors and a robot that is arranged on the moving platform. The robot includes a moveable robot arm having an end portion that is engageable with the effectors for firing the effectors during engagement. The system includes a sensor for detecting movement of the moving platform and a motion stabilization controller that is in communication with a processor and the robot arm for controlling movement of the robot arm. The motion stabilization controller adjusts the robot arm in response to the detected movement of the moving platform to maintain the end portion in a static position when the effector is fired. | ||||||
| 112 | ROBOT ARM LAUNCHING SYSTEM | US15264934 | 2016-09-14 | US20180073838A1 | 2018-03-15 | Emile M. Szlemko; Huy Le; Brian A. Gin; Ryan P. Wahl; Mary L. Kulbacki |
| An effector launching system and method may be used on a moving ship deck. The launching system includes a plurality of effectors and a robot that is arranged on the moving platform. The robot includes a moveable robot arm having an end portion that is engageable with the effectors for firing the effectors during engagement. The system includes a sensor for detecting movement of the moving platform and a motion stabilization controller that is in communication with a processor and the robot arm for controlling movement of the robot arm. The motion stabilization controller adjusts the robot arm in response to the detected movement of the moving platform to maintain the end portion in a static position when the effector is fired. | ||||||
| 113 | HIGH SPEED SURFACE CRAFT AND SUBMERSIBLE CRAFT | US15145542 | 2016-05-03 | US20170081003A1 | 2017-03-23 | Gregory E. Sancoff; Joseph Curcio; David Norman |
| A marine vessel comprising: at least one buoyant tubular foil; and at least one baffle plate positioned about the perimeter of the at least one buoyant tubular foil so as to protrude into the flow of water passing by the perimeter of the at least one buoyant tubular foil, whereby to create a high-pressure zone fore of the at least one baffle plate and a low-pressure zone immediately aft of the at least one baffle plate, whereby to create a dense stream of supercavitated water immediately aft of the at least one baffle plate. | ||||||
| 114 | Assembly of turret and low radar reflection weapon | US14119777 | 2012-05-08 | US09080828B2 | 2015-07-14 | Andrea Chiappini |
| An assembly of a turret and low radar reflection weapon includes a turret (100) and a weapon (200) associated with the turret (100). The weapon (200) includes a first rest configuration, in which the weapon (200) is totally hidden inside the turret (100), and a second operating configuration, in which at least part of a barrel of said weapon projects from said turret (100). The turret (100) includes shielding, hatches and a false deck (110, 120, 111, 112; 121, 122) for hiding said weapon (200) with a low radar reflection shape. | ||||||
| 115 | Light-Weight Frame for Gun Module Remote Control System | US13535470 | 2012-06-28 | US20140001931A1 | 2014-01-02 | Justin R. Helton; Andrew C. Smith |
| A modular frame is provided for containing electronic components within a replaceable mission module for installation aboard ship. The frame includes a plurality of metal tubes having rectangular cross-section, a plurality of sheet-metal panels, and a plurality of fasteners for connecting together the tubes and panels. The frame assembles as a rectangular base platform, a lower portion, a mezzanine level, and an interface level. The base platform includes horizontally arranged tubes. The lower portion has vertical tubes attaching to the horizontal tubes on the base platform. The mezzanine level has a horizontal panel and horizontal tubes connecting together atop the lower portion. The upper portion has vertical tubes attaching to the horizontal tubes of the mezzanine level. The interface level has horizontal tubes connecting together atop the vertical tubes of the upper portion. | ||||||
| 116 | Foldable ramp for missile launchers | US11979485 | 2007-11-05 | US08297166B2 | 2012-10-30 | Ekber I. N. Onuk |
| The foldable ramp is intended to store, carry and launch relatively large size tube-launched missiles typically on board of relatively small sized naval surface ships. Accordingly, the foldable ramp comprises a frame suitable for carrying one or more canisters for launching rockets or missiles and support elements, which are pivotably attached to the frame and which are adapted to pivotably connect to the launching platform so as to allow rotary movement of the frame with respect to the launching platform. A lifting device lifts the front end of the frame whereby the rear end of the canisters displace a horizontal distance towards the rear of the ramp as said lifting device lifts the frame. Adverse effects of the aft flame of the launched rocket or missile is securely displaced to the outside of the vehicle while foldability of the ramp enables to prevent or reduce radar and eye visibility of the launcher, particularly when mounted on a naval surface ship. | ||||||
| 117 | Principle for the integration of missile-based weapon systems on a fixed ramp for stealth surface vessels in order to counter asymmetric threats | US13001884 | 2009-07-01 | US08181562B2 | 2012-05-22 | Stéphane Goasduff; Jean-Jacques Milin; Bruno Le Gall; Georges Pensec; Serge Philippe; Xavier Le Gourlay; Yvan Paulmery |
| Device for launching missiles from a ship, includes at least one missile launch ramp, includes a ditch delimited by side walls of which at least two constitute bulwarks which extend around the periphery of the ship, the ditch being open above the exterior deck of the ship, in that the launch ramp is positioned in the ditch so it can be used to launch a missile over a lateral bulwark of the ditch extending around the periphery of the ship. It includes an element for discharging the missile propulsion gases including a duct opening onto an orifice in a lateral bulwark of the ditch extending around the periphery of the ship, and the lateral bulwarks of the ditch are of a height tailored to conceal the missiles in place on the ramp, for angles of incidence of between 0 and −5° with respect to the deck of the ship. | ||||||
| 118 | Method and Apparatus for Partially Submerged User Operation | US13038291 | 2011-03-01 | US20110217891A1 | 2011-09-08 | Don L. Cray |
| An “in the water” user experience is provided. A device holds a user partially submerged in the water, and propels the user and device with the user partially submerged. The user and device together have a center of buoyancy, which can be adjusted to accommodate users of different size and weight. Thus, a user can be propelled through the water. | ||||||
| 119 | Marine vessel module | US10856919 | 2004-05-28 | US07997220B1 | 2011-08-16 | Robert Wayne Beal; Ronald William Bosch; Roy Joseph Firestone |
| One embodiment of a module for a marine vessel includes a base that has a cavity for securing a variety of cargos therein, and a top plate that defines a perimeter and a top surface, the perimeter adapted to define a water-tight seal with a hull of a marine vessel and the top surface defining a smooth plane having a substantial absence of steps and gaps therein. | ||||||
| 120 | Modular missile launching assembly | US12214303 | 2008-06-13 | US07854189B1 | 2010-12-21 | David L. Fox |
| The invention is related to a modular missile launching assembly, more particularly, a compact modular missile launching assembly that is easily attachable to smaller sized watercrafts, allowing for quick installation. The missile launching assembly is encased in a substantially rectangular container with a launching lid to which one or more missiles are attached. A hydraulic lifting device within the substantially rectangular container is used to lift the launching lid from a closed or stowage position to an open or operational position. | ||||||
