| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | SYSTEMS AND METHODS FOR ARRANGING FIREARMS TRAINING SCENARIOS | EP13751094.7 | 2013-01-23 | EP2802839A1 | 2014-11-19 | BROOKS, Alex; KAUPP, Tobias; MAKARENKO, Alexei |
| Systems and methods of arranging a firearms training scenario utilising at least one robotic mobile target in a training area are disclosed, the method including the steps of: sending commands to at least one robotic target in a training area to cause the target to operate in the training area; recording operations data representative of the operations carried out by the at least one robotic target; and subsequently conducting a training scenario in the training area wherein the at least one robotic target bases its actions at least partially on the previously recorded operations data. | ||||||
| 102 | CONTROLLER FOR ELECTRICAL IMPULSE STRESS EXPOSURE TRAINING | EP11847570.6 | 2011-12-08 | EP2649401A1 | 2013-10-16 | Quail, Jeffrey James |
| A control module used in combination with an activation device for generating an activation signal in response to a stress exposure training event and an electrical impulse device for delivering an electrica! shock to the user. The control module has a housing for being carried on the user. The module includes a controller function which sends a shock signal to the impulse device to shock the user according to prescribed shock criteria in response to an activation signal. The control module can be used with various activation devices including light-based force-on-force training or video shoot-back simulations. An operator input of the controller enables the prescribed shock criteria stored on the controller which is carried on the user to be adjusted by an operator directly at the module or remotely. | ||||||
| 103 | WIRELESS DATA COMMUNICATION LINK EMBEDDED IN SIMULATED WEAPON SYSTEMS | EP03784819.9 | 2003-07-24 | EP1546633B2 | 2013-10-09 | CHUNG, Bobby, Hsiang-Hsu; KLUSENDORF, Kelvin, William |
| 104 | GUN SIGHT | EP11722267.9 | 2011-05-18 | EP2577213A1 | 2013-04-10 | MATTHEWS, John W.; BUCZEK, Mark; SQUIRE, Mark |
| Various gun sights (300) for firearms and related methods of use are provided. In one embodiment, the sight includes an apparatus adapted to be mounted at a rear end of a firearm (10) and arranged to occlude one eye of a user of the firearm and to generate an illuminated dot (192) that is disposed such that it is generally centered on the longitudinal axis (A) of the barrel of the firearm (10). The gun sight produces a collimated beam of light that creates an image of an illuminated dot by either a refractive method or a reflective method. In use, a dominant eye of the user is occluded by the sight (300) and the other eye of the user is focused on the target. The user then adjusts the position of the gun (10) relative to the target such that the user perceives the illuminated dot (192) of the sight (300) to be positioned on the target. | ||||||
| 105 | METHOD FOR READING AND WRITING DATA WIRELESSLY FROM SIMULATED MUNITIONS | EP08833048 | 2008-07-03 | EP2165146A4 | 2013-04-10 | FALKENHAYN ROBERT AUGUST; WILSON HENRY MARTIN |
| 106 | INSTRUCTOR-LEAD TRAINING ENVIRONMENT AND INTERFACES THEREWITH | EP05858497.0 | 2005-11-23 | EP1825209B1 | 2013-03-06 | SLAYTON, DAVID, A; NEWCOMB, DALE, E., Jr; PREISZ, ERIC, A; WALKER, CARL, DOUGLAS; LUTZ, CHARLES, W., Jr.; KOBES, ROBERT, J.; LEDWITH, CHRISTOPHER, M; COPE, DELBERT; YOUNG, ROBERT, E.; MESDAGHI, SYRUS |
| 107 | Akustischer und/oder optischer Schuss-Simulator | EP10000131.2 | 2010-01-08 | EP2207002A3 | 2012-06-20 | Sonnenberg, Chris |
Um eine Vorrichtung (1) zur Simulation der akustischen und/oder optischen Darstellung des Abfeuerns einer an einem Objekt anordbaren Waffe zu erhalten, bei welcher keine pyrotechnischen Geschoßsimulationsmittel verschossen werden müssen, schlägt die Erfindung vor, ein außen an dem Objekt adaptierbares, durch das Stromnetz des entsprechenden Fahrzeuges versorgtes elektronisches System zu verwenden, welches den Abschuss einer entsprechenden Waffe durch Lichtsignale und Abschussgeräusche simuliert. Hierzu umfasst die Vorrichtung (1) eine elektronische Steuereinrichtung (2), welche eingangsseitig mit einer Abfeuereinrichtung (5) und ausgangsseitig mit einem Lautsprechersystem (3) zur Darstellung eines der jeweiligen Waffe entsprechenden Mündungsknalles und/oder einer Lichtblitze erzeugenden Einrichtung (4) zur Darstellung des Mündungsfeuers verbunden ist.
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| 108 | BLANK FIRING ADAPTER FOR FIREARM | EP10724221.6 | 2010-06-09 | EP2440875A1 | 2012-04-18 | DUECK, Barry, W.; HONIGMANN, Karl |
| Various techniques are provided for firing blanks from firearms. In one example, a blank firing adapter includes a mount assembly operatively configured to be attached to a muzzle of a firearm. The blank firing adapter also includes a main body having an interior chamber. The blank firing adapter also includes an escape port positioned longitudinally forward of the interior chamber and not in communication therewith. The blank firing adapter also includes a barrier interposed between the escape port and the interior chamber. The blank firing adapter also includes a projectile receiving area positioned longitudinally forward of the escape port and configured to slow down a projectile from the muzzle therethrough. | ||||||
| 109 | METHOD AND APPARATUS FOR DETERMINING AND RETRIEVING POSITIONAL INFORMATION | EP06758307 | 2006-04-11 | EP1875151A4 | 2011-11-09 | HODGE BRUCE |
| 110 | INSTRUCTOR-LEAD TRAINING ENVIRONMENT AND INTERFACES THEREWITH | EP05858497 | 2005-11-23 | EP1825209A4 | 2011-11-09 | SLAYTON DAVID A; NEWCOMB DALE E JR; PREISZ ERIC A; WALKER CARL DOUGLAS; LUTZ CHARLES W JR; KOBES ROBERT J; LEDWITH CHRISTOPHER M; COPE DELBERT; YOUNG ROBERT E; MESDAGHI SYRUS |
| 111 | Akustischer und/oder optischer Schuss-Simulator | EP10000131.2 | 2010-01-08 | EP2207002A2 | 2010-07-14 | Sonnenberg, Chris |
Um eine Vorrichtung (1) zur Simulation der akustischen und/oder optischen Darstellung des Abfeuerns einer an einem Objekt anordbaren Waffe zu erhalten, bei welcher keine pyrotechnischen Geschoßsimulationsmittel verschossen werden müssen, schlägt die Erfindung vor, ein außen an dem Objekt adaptierbares, durch das Stromnetz des entsprechenden Fahrzeuges versorgtes elektronisches System zu verwenden, welches den Abschuss einer entsprechenden Waffe durch Lichtsignale und Abschussgeräusche simuliert. Hierzu umfasst die Vorrichtung (1) eine elektronische Steuereinrichtung (2), welche eingangsseitig mit einer Abfeuereinrichtung (5) und ausgangsseitig mit einem Lautsprechersystem (3) zur Darstellung eines der jeweiligen Waffe entsprechenden Mündungsknalles und/oder einer Lichtblitze erzeugenden Einrichtung (4) zur Darstellung des Mündungsfeuers verbunden ist.
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| 112 | METHOD FOR READING AND WRITING DATA WIRELESSLY FROM SIMULATED MUNITIONS | EP08833048.5 | 2008-07-03 | EP2165146A1 | 2010-03-24 | FALKENHAYN, Robert, August; WILSON, Henry, Martin |
| A weapon simulation system includes a simulated weapon and simulated munition, with the simulated weapon being in electrical communication with a primary simulation computer and an instructor computing station. The simulated munition includes an RPID tag installed therein, with the RFID tag having information about the particular simulated munition. When the simulated munition is placed in an insert in the simulated weapon, an RFID transceiver in the simulated weapon will read the information from the RFID tag using an antenna, and further transmit the identification information of the simulated munition to a weapon controller. The weapon controller is further in electrical communication with a primary simulation computer generating a simulation, which is in electrical communication with an instructor computer. | ||||||
| 113 | Switching structure used in a toy gun for realistic shooting training | EP08012247.6 | 2008-07-07 | EP2144031A1 | 2010-01-13 | Liao, Yin-Hsi |
A switching structure (1) used in a toy gun for realistic shooting training is provided in a frame (2) containing a first conductor (21) and a second conductor (22) for connecting to a power source. The switching structure (1) includes a rod (3), a conductor (4) and a pressing piece (3). A top end of the rod (3) is a locking part (31), the conductor (4) can be electrically connected with the first conductor (21) and the second conductor (22), and the pressing piece (5) displaces in the frame (2). By the aforementioned structures, when a new magazine is loaded and a last round of bullet is fired, a bolt handle should be pulled again, allowing the first conductor (21) to electrically conduct with the second conductor (22), such that a problem of a constant supply of power source in a conventional toy gun can be improved, thereby achieving the practicability and progressiveness of simulating a shooting training by emulating operations of a real gun.
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| 114 | EXERZIERGERÄT FÜR SELBSTLADEGRANATWERFER | EP07724587.6 | 2007-04-25 | EP2010855B1 | 2009-08-26 | WÖSSNER, Ernst; BECKMANN, Rudi |
| 115 | DISPOSITIF D'ENTRAINEMENT AU TIR A PARTIR D'UNE ARME | EP06794318.3 | 2006-08-09 | EP1913326A1 | 2008-04-23 | LEFEVRE, Valentin; CHABIN, Laurent; MARIN, Emmanuel |
| The invention relates to a gunnery training device using a weapon (1), said device being characterised in that it comprises video capturing means (5) for capturing the field of vision, angular capturing means for detecting angles defining the position of insertion of the synthesis images, processing means (21, 22) for inserting, in real-time, synthesis images into the captured field of vision, and means for visualising (6) the captured field of vision containing said at least one inserted synthesis image. | ||||||
| 116 | INSTRUCTOR-LEAD TRAINING ENVIRONMENT AND INTERFACES THEREWITH | EP05858497.0 | 2005-11-23 | EP1825209A2 | 2007-08-29 | SLAYTON, DAVID, A; NEWCOMB, DALE, E., Jr; PREISZ, ERIC, A; WALKER, CARL, DOUGLAS; LUTZ, CHARLES, W., Jr.; KOBES, ROBERT, J.; LEDWITH, CHRISTOPHER, M; COPE, DELBERT; YOUNG, ROBERT, E.; MESDAGHI, SYRUS |
| An infantry training simulation system comprising at least one firing lane, with at least one display arranged substantially near the end of the firing lane. A trainee experiencing the simulation can carry at least one physical or virtual weapon, which is typically similar to a traditional infantry weapon. To facilitate navigation and other interaction with the simulation, the weapon is preferably outfitted with at least one controller. At least one computer is communicatively coupled to the display and the weapon. The computer can monitor input from the at least one controller, and modifies the training simulation displayed on the display based on the input. | ||||||
| 117 | WIRELESS DATA COMMUNICATION LINK EMBEDDED IN SIMULATED WEAPON SYSTEMS | EP03784819 | 2003-07-24 | EP1546633A4 | 2006-10-11 | CHUNG BOBBY HSIANG-HSU; KLUSENDORF KELVIN WILLIAM |
| A weapon simulator assembly (10) having a wireless module (16) provided in a simulated weapon (12) to maximize the freedom of movement for the user and to provide complete diagnostics from electronic sensors (18) for users of the firearms training simulator (12). The wireless module (16) is embedded in the simulated weapon (12) used in the simulator assembly (10) and connected to various sensors to obtain operational information. The wireless data communication link is a wireless module (16) using a frequency hopping spread spectrum technology such that the wireless module (16) can fit in a small firearm simulator (12), such as a handgun or chemical spray simulator. | ||||||
| 118 | GUN-SHAPED CONTROLLER | EP99921158.4 | 1999-05-13 | EP1002559B1 | 2005-12-07 | OZAKI, Naoji; SAKURAI, Tomoyuki; OKUMURA, Yutaka; MATSUURA, Junichiro; KIDA, Makio; SUMI, Masayuki; HIROYOSHI, Akihito; YOKOYAMA, Yutaka |
| A gun-shaped controller having a gun-shaped controller body (1), a trigger lever (7) provided to the body (1), and a cross direction key (9) operated by the finger of the player and provided to the upper part of a grip part (4). Therefore, in addition to the conventional actions, such as hitting of a target in the image, the character in the image and the field of view of the character can be moved by operating the cross direction key (9), thereby being adapted to role-playing and adventure games. | ||||||
| 119 | TWO-PIECE BARREL FOR LOW-ENERGY TRAINING AMMUNITION | EP00918639.6 | 2000-04-19 | EP1090262B1 | 2003-07-23 | DIONNE, Sylvain |
| A conversion kit for a recoil-operating automatic pistol to convert it to direct blow-back operation utilizes a two piece barrel having chamber and muzzle portions that may be threaded together. The chamber portion is first installed on the receiver by insertion through the ejection port, and the muzzle-piece is then threaded to the chamber-piece to complete the assembly of the barrel. | ||||||
| 120 | FIREARM CONVERSION KIT | EP01966910.0 | 2001-08-30 | EP1313995A2 | 2003-05-28 | DIONNE, Sylvain |
| A cartridge feed tray (1) for belt ammunition is modified to receive shorter ammunition and exclude ammunition of standard length by inclusion of an insert (18) positioned along the forward conta inment wall of the tray. The insert (18) carries a feed lip (18A) that fits through a loading port orifice (4) in the feed tray to direct shorter ammunition downwardly as it is being advanced towards the weapon breach for loading. | ||||||
