| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | DISCHARGING DEVICE | EP99946197.3 | 1999-09-17 | EP1114292A1 | 2001-07-11 | Kurvinen, Ilmo Aulis |
| A firing device for a gun which is used in a target practice and competitive shooting system, said firing device being such, that it activates computer processing of the shot, and said firing device comprising a trigger frame (1), to which a trigger (2) is attached, and a firing mechanism (3, 4, 5, 6, 7) connected to the trigger which is used for firing the gun when the trigger is pressed. A firing mechanism formed in accordance with the invention consists of a magnet (3), a safety lock (4), which is moved by the trigger, is located in the proximity of the magnet and which has been designed such that it can be adjusted by the counterforce device (5, 20), a microswitch (6) or a corresponding device to send an impulse to the computer. | ||||||
| 82 | Cartridge ejection mechanism for converted automatic pistol | EP00310265.4 | 2000-11-17 | EP1102025A2 | 2001-05-23 | Dionne, Sylvain |
An automatic pistol converted to fire low energy ammunition in a blow-back mode has a replacement barrel that carries a cam on its upper surface. The weapon slide, as it retires during firing, contacts the cam and rotates the chamber end of the replacement barrel downwardly. This aligns the spent casing for ejection by the ejector, once extracted from the chamber. The slide may carry a removable deflector plate for contacting the cam. |
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| 83 | PROCEDE ET APPAREIL POUR EDUQUER LA PERCEPTION TACTILE D'UN TIREUR, NOTAMMENT D'UN TIREUR SPORTIF | EP97943032.9 | 1997-10-01 | EP0929785B1 | 2000-05-24 | Trabut, Pierre |
| A piezoelectric (or other) sensor transfers the pressure exerted on a trigger varying with the amplitude of an electric current. This variation represents the variation of the pressure vector exerted. Receiving circuits transform in real time the electric signals into visual and/or audio signals of intensity proportional to the pressure exerted on the trigger. The method creates conditions suitable for a better assessment of the tactile perception of pressure. By the simultaneity of the main pressure stimulus with the accompanying induced secondary stimuli, visual and/or audio, improving the tactile sensitivity, it offers excellent pedagogical possibilities (pressure curve and indication of stability). A system of shooting simulation advantageously complements the real shooting apparatus. | ||||||
| 84 | PROCEDE ET APPAREIL POUR EDUQUER LA PERCEPTION TACTILE D'UN TIREUR, NOTAMMENT D'UN TIREUR SPORTIF | EP97943032.0 | 1997-10-01 | EP0929785A1 | 1999-07-21 | Trabut, Pierre |
| A piezoelectric (or other) sensor transfers the pressure exerted on a trigger varying with the amplitude of an electric current. This variation represents the variation of the pressure vector exerted. Receiving circuits transform in real time the electric signals into visual and/or audio signals of intensity proportional to the pressure exerted on the trigger. The method creates conditions suitable for a better assessment of the tactile perception of pressure. By the simultaneity of the main pressure stimulus with the accompanying induced secondary stimuli, visual and/or audio, improving the tactile sensitivity, it offers excellent pedagogical possibilities (pressure curve and indication of stability). A system of shooting simulation advantageously complements the real shooting apparatus. | ||||||
| 85 | VERFAHREN UND VORRICHTUNG ZUR GEFECHTSSIMULATION MIT MINDESTENS EINEM REAL IN EINER UMGEBUNG BZW. GELÄNDE OPERIERENDEN BEWEGLICHEN WAFFENSYSTEM UND EINEM QUASI ORTSFESTEN SIMULATOR | EP97902221.0 | 1997-01-24 | EP0876577A1 | 1998-11-11 | HINTERTHÜR, Dieter; RAUER, Erich; REIMER, Jochen; VOLZE, Jürgen; WECKER, Dietmar; SPORMANN, Otto |
| The invention concerns a method of simulating fights which comprises a movable weapons system, which can actually operate in an environment or on a terrain, and a quasi stationary simulator. After preparation of data transmitted by the simulator and received by the weapons system via an on-board computer, a simulated target-object image can be generated and inserted into a lens system inside the weapons system or into an optronic sight arrangement in front of the real background by means of: highly accurate continuous determination of the position and direction of the freely operating weapons system; determination of the weapon angle or a line of sight of an aiming and sighting apparatus in space; continuous telemetric transmission and up-dating of positions, firing events and failure data from the simulator to the operating weapons system; and transmission to the simulator of the position and direction of the operating weapons system including of the weapon angle determined or the line of sight of an aiming and sighting apparatus and of a firing event and a failure signal. As a result, a fight can be simulated in which, unlike with known simulators, the weapons system actually operating receives the simulated friend or foe as a visual display in front of the real background. The invention enables troops actually on exercise on the terrain to be associated with simulated troops, the simulated troops being rendered visible for the crew of the real weapons system. Owing to the insertion of simulated troops into the lens systems of real weapons systems, the troops actually on exercise can not only detect the action of friendly or enemy troops but also see the latter so that they can support or fight them. | ||||||
| 86 | A force generation system for simulating a rocket launcher | EP96307383.8 | 1996-10-10 | EP0768506A2 | 1997-04-16 | Hall, Bart; Grodski, Julius J. |
A system for exerting a force, for instance a vertical upward lifting force of a predetermined tension vs. time waveform on a suspended object is useful in training the operators of shoulder-supported rocket launchers. The system includes an actuator for generating a required tensile force, a non-stretchable line or cable for connecting the object to the actuator and an overhead guide supported on an overhead support structure. The cable passes over the guide means defining a portion of the cable directly supporting the object. The position of the guide is controlled, in a response to a deviation from verticality of the portion of the cable with suspended object, before the activation of the actuator so that the verticality of the object lifting force is maintained. In operation, a predetermined force is exerted on the object regardless of whether the object moves as a result of the force. |
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| 87 | PRACTICE WEAPON FOR A CARRIED RECOILLESS ANTI-TANK WEAPON | EP95906573.0 | 1994-12-27 | EP0739473A1 | 1996-10-30 | ASBRINK, Mats |
| The present invention relates to a practice weapon for a hand-held recoilless anti-armour weapon. Hitherto practice weapons with sub-calibre barrels (2) mounted in full calibre barrels (1) have been used. To enable the marksman to repeatedly train to be subejected to the powerful noise and pressure effects of a full calibe weapon, the practice weapon according to the invention includes a marker charge (3), which is arranged to be ignited at the firing of a sub-calibre round. In order to transfer the ignition sequence in a simple fashion with few moving parts, the marker charge (3) is arranged to be ignited by the jet of flame of the charge of the practice projectile. | ||||||
| 88 | Simulateur d'impulsion électromagnétique | EP95402588.8 | 1995-11-17 | EP0714030A1 | 1996-05-29 | Piro, Frédéric; Blanchet, Marcel |
Ce simulateur d'impulsion électromagnétique comporte un générateur de l'impulsion simulée (1) et une structure de guidage d'ondes (2), formée par une nappe filaire (3) et un réseau de fils (4) à la terre et définissant un cornet d'entrée (15), un guide rectiligne (16) et un cornet de sortie (17). Il est caractérisé en ce qu'il comporte en outre une lentille électromagnétique (20) interposée entre le cornet d'entrée (15) et le guide rectiligne (16). |
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| 89 | Übungsmunitionssystem | EP85107901.2 | 1985-06-26 | EP0173022A3 | 1990-01-31 | Fischer, Nikolaus H.J.; Schöffl, Rainer; Mathey, Christoph |
Um aus dem Rohr (15) eines Raketenwerfers eine Übungsrakete (17) abschießen zu können, wird der Anzünder der Übungsrakete (17) über ein Simulationsgerät (27) mit dem Feuerkontrollgerät (29) des Raketenwerfers verbunden. Da die Übungsrakete (17) einen einfacheren Zünder aufweist als die Original-Rakete, werden diejenigen Funktionen, die der Zünder der Übungsrakete nicht ausführen kann, von einem Simulationsgerät (27) simuliert, das am Raketenwerfer oder am Abschußcontainer (14) angeordnet ist und das zwischen das Feuerkontrollgerät (29) des Raketenwerfers und die Übungsrakete (17) geschaltet ist. |
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| 90 | Schusswaffe mit mehreren Sensoren zum Erfassen eines Betriebszustands der Schusswaffe | EP14193964.5 | 2014-11-20 | EP2894430B1 | 2018-06-13 | Wallburg, Ralf; Günster, Markus |
| 91 | THREAT SIMULATING SYSTEM | EP13879478.9 | 2013-08-05 | EP2883014B1 | 2018-01-03 | TAMIR, Gabriel; PERKAL, Hagai |
| A system for evaluating aircraft/watercraft/battle-vehicle survivability equipment comprising: (1) a Static Pyrotechnic Unit (SPTU) and a support stand; (2) a system of Short Range Simulating Rocket (SRSR) and a rocket launching apparatus; and (3) a control system that activates said Static Pyrotechnic Unit in (1) and said system SRSR in (2). When the Static pyrotechnic Unit is ignited, the resulting flash has an IR wavelength and multi spectral emission, intensity and time duration that simulate the initial flash created by a shoulder missile. When the Short Range Simulating Rocket is fired, the resulting radiation has an IR wavelength and multi spectral emission, intensity and time duration that simulates the radiation trail emitted from a fired shoulder missile. The flash created by the Static pyrotechnic Unit, and the trail emission of the Short Range Simulating Rocket are detected by the target survivability detection equipment, enabling the target to take protective measures. | ||||||
| 92 | ÜBUNGSWAFFE | EP16150133.3 | 2016-01-05 | EP3190373A1 | 2017-07-12 | Kroyer, Josef |
Die Erfindung betrifft eine Übungswaffe mit einem herkömmlichen Griffstück (1) mit einer Verriegelung (8) für einen Kipplauf, mit einem Abzugsmechanismus (2), der gegebenenfalls ein Drehlager (13) für ein verdrehbares Züngel aufweist, mit einem Federboden (11), an dem sich die Rückholfeder abstützt; und mit einem Übungsverschluss (19) mit einem festen Übungslauf (20). Um einen Umbau ohne die Verwendung eines Werkzeuges zu ermöglichen ist vorgesehen, dass in das Griffstück (1) ein Adapter (3) eingesetzt ist, der sich einerseits oberhalb des Abzugsmechanismus (2), gegebenenfalls oberhalb des Drehlagers (13), an einer Versteifung (10) und andererseits im oberen Bereich des Federbodens (11) des Griffstücks (1) abstützt. Weiters weist der Adapter (3) in seinem oberen Bereich Führungen (4) für den Übungslauf (20) auf, und die Verriegelung (8) wirkt mit einem Verriegelungsschieber (7), der in einem Verriegelungsschlitz (6) des Adapters (3) ausgebildet ist, so zusammen, dass der Verriegelungsschieber (7) den Übungslauf (20) fixiert.
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| 93 | SYSTEMS AND METHODS FOR ARRANGING FIREARMS TRAINING SCENARIOS | EP13751094.7 | 2013-01-23 | EP2802839B1 | 2017-07-12 | BROOKS, Alex; KAUPP, Tobias; MAKARENKO, Alexei |
| 94 | WIRELESS TARGET SYSTEM | EP11801251 | 2011-06-29 | EP2588831A4 | 2017-03-22 | CEDERWALL PER |
| A wireless target system unit for a weapon effect simulation system. A radio transmitter and receiver communicates with a control system. A laser receiver is arranged for receiving laser light from an attacking system. The wireless target system unit includes two retro-reflecting prisms arranged to retro-reflect an incident laser light from an attacking system. Each reflecting center of the retro-reflecting prisms and a sensor center of the laser receiver are mounted such that they form an isosceles triangle. The distance between the reflecting center of each retro-reflecting prism and the sensor center of the laser receiver are equal. | ||||||
| 95 | A NETWORKED BATTLE SYSTEM OR FIREARM | EP14889015.5 | 2014-10-17 | EP3129740A1 | 2017-02-15 | DOWNING, Warren; COMPTON, David Walter |
| A firearm includes one or more rails to which accessories may be mounted. The rails provide a communication path over which data may be transferred between the accessories and a processor located in the rails or in the firearm. The processor may cause the data to be sent to another location and may receive other data from other locations to provide a network of intercommunicating firearms that may deployed in a battlefield environment. | ||||||
| 96 | Verfahren zum Testen einer Wirkeinheit | EP13001461.6 | 2013-03-21 | EP2645045B1 | 2016-12-07 | Geidek, Franz |
| 97 | DETECTION SYSTEM OF A METHOD OF PERFORMING A SHOOTING EXERCISE | EP13821972.0 | 2013-10-24 | EP2932184A1 | 2015-10-21 | RIGHI, Eugenio |
| Detection system (1) of a method of performing a shooting exercise with a weapon (10) comprising said weapon and at least one out of the weapon detection means (100) and an item of clothing (30) comprising physical state and/or motor detection means (300). Lastly the system (1) comprises a collection and storage unit (50) suitable for receiving and storing the information detected by the weapon detection means (100) and/or by the physical state and/or motor detection means (300). Detection system (1) of a method of performing a shooting exercise with a weapon (10) comprising said weapon and at least one out of the weapon detection means (100) and the item of clothing (30) comprising physical state and/or motor detection means (300). Lastly the system (1) comprises a collection and storage unit (50) suitable for receiving and storing the information detected by the weapon detection means (100) and/or by the physical state and/or motor detection means (300). | ||||||
| 98 | GUN SIGHT | EP11722267.9 | 2011-05-18 | EP2577213B1 | 2015-10-14 | MATTHEWS, John W.; BUCZEK, Mark; SQUIRE, Mark |
| 99 | THREAT SIMULATING SYSTEM | EP13879478.9 | 2013-08-05 | EP2883014A1 | 2015-06-17 | TAMIR, Gabriel; PERKAL, Hagai |
| A system for evaluating aircraft/watercraft/battle-vehicle survivability equipment comprising: (1) a Static Pyrotechnic Unit (SPTU) and a support stand; (2) a system of Short Range Simulating Rocket (SRSR) and a rocket launching apparatus; and (3) a control system that activates said Static Pyrotechnic Unit in (1) and said system SRSR in (2). When the Static pyrotechnic Unit is ignited, the resulting flash has an IR wavelength and multi spectral emission, intensity and time duration that simulate the initial flash created by a shoulder missile. When the Short Range Simulating Rocket is fired, the resulting radiation has an IR wavelength and multi spectral emission, intensity and time duration that simulates the radiation trail emitted from a fired shoulder missile. The flash created by the Static pyrotechnic Unit, and the trail emission of the Short Range Simulating Rocket are detected by the target survivability detection equipment, enabling the target to take protective measures. | ||||||
| 100 | Waffensimulator zur Simulation von sicherheitskritischen Situationen und Simulationswaffe in Form eines Wurfgeschosses zur Verwendung in einem solchen Waffensimulator | EP14191873.0 | 2014-11-05 | EP2881695A1 | 2015-06-10 | Zender, Marco |
Die Erfindung betrifft einen Waffensimulator (1) zur Simulation von sicherheitskritischen Situationen. Der Simulator (1) umfasst mindestens eine Bildwiedergabeeinheit (2), auf der die simulierten Situationen optisch darstellbar sind, mindestens eine Simulationswaffe (4), die ein Nutzer (3) in dem Waffensimulator (1) benutzt, Sensoren (12; 18, 19, 20) zum Erfassen eines Betriebszustands und einer Nutzung der Simulationswaffe (4) und zur Ausgabe entsprechender Sensorsignale, und eine Recheneinheit (5), die anhand der Sensorsignale die aktuelle sicherheitskritische Situation simuliert und entsprechende Bildsignale ermittelt und an die Bildwiedergabeeinheit (2) weiterleitet. Es wird vorgeschlagen, dass die Simulationswaffe ein simuliertes Wurfgeschoss (4) ist, dass mindestens einer der Sensoren (12; 18, 19, 20) ausgebildet ist, eine Position des Wurfgeschosses (4) zu ermitteln und/oder zumindest einen Teil (8) einer Flugbahn (10) des Wurfgeschosses (4) vor oder während eines Wurfs (8) durch den Nutzer (3) zu erfassen und entsprechende Sensorsignale zu generieren, und dass die Recheneinheit (5) ausgebildet ist, anhand der Sensorsignale die gesamte Flugbahn (10) des Wurfgeschosses (4) zu simulieren und entsprechende Bildsignale zu ermitteln und an die Bildwiedergabeeinheit (2) weiterzuleiten.
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