| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | A free piston machine | EP95302344.7 | 1995-04-07 | EP0676610B1 | 1999-07-07 | Denchfield, Clifford |
| 22 | WEAPON SIMULATOR | EP96929402.0 | 1996-09-02 | EP0847517A1 | 1998-06-17 | DENCHFIELD, Clifford |
| A weapon simulator comprising a combustion chamber (1), means (2) for admitting fuel gas to the combustion chamber, an inlet valve (9) for admitting air to the combustion chamber, the inlet valve being biased open at ambient pressure and arranged to close in response to both pressure rise and drop in the combustion chamber, means (7) to introduce ambient air into the combustion chamber through the valve (9), ignition means (3) for igniting fuel gas in the combustion chamber to cause an explosion, and an exhaust port (20) in the combustion chamber through which exhaust gases can exit rapidly and with audible results in response to explosive pressure rise within the combustion chamber. | ||||||
| 23 | WEAPON SIMULATOR | EP96913619.0 | 1996-05-08 | EP0832414A1 | 1998-04-01 | DENCHFIELD, Clifford; GLEDHILL, Paul |
| A weapon simulator of the kind comprising a combustion chamber (28), means (21, 31) for admitting fuel gas to the combustion chamber, ignition means (23) for igniting fuel gas in the combustion chamber to cause an explosion, an exhaust port (29) in the combustion chamber and outlet valve means (14) for closing the exhaust port and arranged to open rapidly and with audible results in response to explosive pressure rise within the combustion chamber, characterised in that the outlet valve means (14) comprises a collapsible diaphragm (14) and by a breechblock (8, 11) for releasably gripping the collapsible diaphragm whereby the gripped portion of the diaphragm is released on its collapse due to the explosive pressure rise in the combustion chamber. | ||||||
| 24 | Geschossimulationsmittel und Verfahren zur Herstellung desselben | EP96104011.0 | 1996-03-14 | EP0733874A2 | 1996-09-25 | Zahn, Arthur D.; Kothe, Thorsten |
Bekannte Geschoßsimulationsmittel weisen einen Effektsatz auf, der von einer mehrteiligen Umhüllung umgeben ist. Hierbei hat sich die Verbindung der Teile als problematisch erwiesen. Die Erfindung zeigt ein Geschoßsimulationsmittel (10), das eine einfache Umhüllung (11) für einen Effektsatz (19) aus Deckel (13) und Außenhülse (12) aufweist. Durch eine hochfeste Verbindung mittels Reibschweißung an einer Nahtstelle (28) zwischen Deckel (13) und Außenhülse (12) wird eine ausreichend gedämmte und feuchtigkeitsdichtende Umhüllung (11) erzeugt. Geschoßsimulationsmittel dienen vornehmlich zur Simulation einer akustischen und/oder optischen Darstellung des Abschusses von Kanonen oder dergleichen, insbesondere Panzerkanonen. |
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| 25 | 무기를 위한 전자적 시뮬레이션 장치 | KR1020167033359 | 2015-05-13 | KR1020170012875A | 2017-02-03 | 에리크스로드올레자코브 |
| 전자적및 기계적해결책을이용하여실제무기의기계적인기능을시뮬레이션하기위한장치가설명된다. 시뮬레이션장치는실제무기상에장착될수 있다. | ||||||
| 26 | 공포탄 대용 전자식 모의 탄창 및 그 제어방법 | KR1020030055468 | 2003-08-11 | KR100498085B1 | 2005-07-01 | 박승운; 박항규 |
| 본 발명은 군사훈련시에 사용되는 공포탄을 대용하여 충격·폭음·섬광, 사격모드 및 사용탄수 통제가 가능하도록 하는 공포탄 대용 전자식 모의 탄창 및 그 제어방법에 관한 것으로, 소총의 방아쇠의 당김을 감지하는 발사스위치와; 상기 방아쇠의 당김에 따라 제어신호를 받아 충격을 발생시키는 충격발생부와; 상기 방아쇠의 당김에 따라 제어신호를 받아 폭음을 발생시키는 폭음발생부와; 상기 방아쇠의 당김에 따라 제어신호를 받아 섬광을 발생시키는 섬광발생부와; 단발·점사 또는 연발을 설정할 수 있는 사격모드 설정스위치와; 장입통제/전원충전기에 의해 가상탄의 장입발수를 입력할 수 있는 가상탄 장입부와; 가상탄의 장입발수를 표시하는 잔탄표시부와; 상기 발사스위치로부터 방아쇠의 당김을 감지하는 신호를 입력받아 상기 충격·폭음·섬광 발생부를 제어하고 상기 가상탄 장입부에서 입력된 장입발수에서 사용된 가상탄의 발수를 감산하여 나머지 잔탄발수를 상기 잔탄표시부에 표시하도록 제어하는 제어부와; 전원부를 구비함으로써 공포탄과 동일한 효과를 얻을 수 있어 훈련효과를 극대화시키며, 또한 훈련비용을 절감시킬 수 있음과 아울러, 안전사고도 방지할 수 있다. | ||||||
| 27 | 공포탄 대용 전자식 모의 탄창 및 그 제어방법 | KR1020030055468 | 2003-08-11 | KR1020050017916A | 2005-02-23 | 박승운; 박항규 |
| PURPOSE: A blank shot substitution-electronic sham magazine and a control method thereof are provided to maximize a drill effect, to reduce the drill cost, and to prevent an accident. CONSTITUTION: A blank shot substitution-electronic sham magazine comprises a firing switch sensing the pull of a trigger of a rifle; a shock-producing part(12) receiving a control signal according to the pull of the trigger and producing shock; an explosion-producing part(13) receiving the control signal according to the pull of the trigger and producing explosion; a flash-producing part receiving the control signal according to the pull of the trigger and producing a flash; a shooting mode-setting switch(15) setting up a shot, point shooting, or shooting in succession; an imaginary shot-charging part(16) inputting the charged number of imaginary shots firing by a charging barrel/power charger; a remaining shot display part(17) displaying the charged number of the imaginary shots; a control part receiving the signal sensing the pull of the trigger from the firing switch, controlling the shock-producing part, the explosion-producing part, and the flash-producing part, subtracting the number of the consumed imaginary shots from the charged number of the imaginary shots input from the imaginary shot-charging part, and displaying the number of the remaining shots to the remaining shot display part. | ||||||
| 28 | Weapon firing simulator | EP13186830.9 | 2013-10-01 | EP2746713B1 | 2015-09-16 | Mizrachi, Yaron |
| 29 | ELECTRONIC BLANK AMMUNITION | EP10822290 | 2010-10-08 | EP2486363A4 | 2015-04-29 | BOTTEN STEFFEN |
| A system for electronic simulation of live ammunition when firing a small arms, comprising: a magazine to be inserted in a magazine funnel of the arms simulating a live ammunition magazine; a trigger module to be mounted on the arms, the trigger module comprising a trigger actuator for mounting on a trigger of the arms and a safety catch actuator for mounting on a safety catch on the arms; and a sound producing device for simulation of shots. The invention replaces ordinary blank ammunition in the magazine with an electronic solution. | ||||||
| 30 | ELECTRONIC BLANK AMMUNITION | EP10822290.2 | 2010-10-08 | EP2486363A1 | 2012-08-15 | BOTTEN, Steffen |
| A system for electronic simulation of live ammunition when firing a small arms, comprising: a magazine to be inserted in a magazine funnel of the arms simulating a live ammunition magazine; a trigger module to be mounted on the arms, the trigger module comprising a trigger actuator for mounting on a trigger of the arms and a safety catch actuator for mounting on a safety catch on the arms; and a sound producing device for simulation of shots. The invention replaces ordinary blank ammunition in the magazine with an electronic solution. | ||||||
| 31 | Vorrichtung zur Erzeugung pyrotechnischer Effekte | EP05024893.9 | 2005-11-15 | EP1677067A1 | 2006-07-05 | Garms, Thomas; Schultz, Oliver; Zahn, Arthur Detlef |
Zur Ausbildung auf dem militärischen zivilen Verteidigungssektor finden Vorrichtungen Verwendung, die pyrotechnische Effekte erzeugen und damit beispielsweise die Explosion einer Handgranate simulieren. Bekannte Vorrichtungen dieser Art verfügen über einen hülsenartigen Hüllkörper, der mit der pyrotechnischen Ladung (10) und Anzündmitteln (12) versehen wird. Besonders aufwendig ist es, in einen solchen rohrförmigen Hüllkörper (11) mehrere pyrotechnische Ladungen (10) und Anzündmittel (12) unterzubringen. Bei der Erfindung geht es um die Schaffung einer einfachen Vorrichtung zur Erzeugung pyrotechnischer Effekte, bei der der Hüllkörper (11) aus mehreren miteinander verbundenen plattenartigen Schichten gebildet ist, zwischen denen die pyrotechnischen Ladungen (10) und auch die Anzündmittel (12) eingebettet sind. Außerdem ist vorgesehen, die Anzündmittel (12) aus Heizwiderständen zu bilden, und zwar insbesondere Heizwiderstände, bei denen die Heizdrähte ein mäanderförmigen Verlauf aufweisen. Solche Anzündmittel (12) eignen sich besonders für die Bildung eines aus mehreren Schichten zusammengesetzten plattenartigen Hüllkörpers. Infolge dieses Hüllkörpers verfügt die Vorrichtung über eine Gestalt, die mit einer Kredit- oder Scheckkarte vergleichbar ist.
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| 32 | Geschossimulationsmittel und Verfahren zur Herstellung desselben | EP96104011.0 | 1996-03-14 | EP0733874B1 | 2000-09-13 | Zahn, Arthur D.; Kothe, Thorsten |
| 33 | WEAPON SIMULATOR | EP96913619.1 | 1996-05-08 | EP0832414B1 | 2000-03-22 | DENCHFIELD, Clifford; GLEDHILL, Paul |
| A weapon simulator of the kind comprising a combustion chamber (28), means (21, 31) for admitting fuel gas to the combustion chamber, ignition means (23) for igniting fuel gas in the combustion chamber to cause an explosion, an exhaust port (29) in the combustion chamber and outlet valve means (14) for closing the exhaust port and arranged to open rapidly and with audible results in response to explosive pressure rise within the combustion chamber, characterised in that the outlet valve means (14) comprises a collapsible diaphragm (14) and by a breechblock (8, 11) for releasably gripping the collapsible diaphragm whereby the gripped portion of the diaphragm is released on its collapse due to the explosive pressure rise in the combustion chamber. | ||||||
| 34 | WEAPON SIMULATOR | EP96929402.4 | 1996-09-02 | EP0847517B1 | 1999-12-08 | DENCHFIELD, Clifford |
| A weapon simulator comprising a combustion chamber (1), means (2) for admitting fuel gas to the combustion chamber, an inlet valve (9) for admitting air to the combustion chamber, the inlet valve being biased open at ambient pressure and arranged to close in response to both pressure rise and drop in the combustion chamber, means (7) to introduce ambient air into the combustion chamber through the valve (9), ignition means (3) for igniting fuel gas in the combustion chamber to cause an explosion, and an exhaust port (20) in the combustion chamber through which exhaust gases can exit rapidly and with audible results in response to explosive pressure rise within the combustion chamber. | ||||||
| 35 | WEAPON SIMULATOR | EP96913621.0 | 1996-05-08 | EP0832416A1 | 1998-04-01 | DENCHFIELD, Clifford |
| A simulated ammunition round (1) is characterised by a gunfire simulator (4) having a combustion chamber (28), means (21) for admitting fuel gas to the combustion chamber, ignition means (23) for igniting fuel gas in the combustion chamber to cause an explosion and an exhaust port (51) in the combustion chamber. The simulated ammunition round may comprise outlet valve means (14), e.g. a collapsible or frangible diaphragm, for closing the exhaust port and arranged to open rapidly and with audible results in response to explosive pressure rise within the combustion chamber. The simulated ammunition round may comprise means (38, 41) to enable firing of the round, the enabling means being responsive to loading of the round into the receiving chamber of a weapon. | ||||||
| 36 | WEAPON SIMULATOR | EP96913620.0 | 1996-05-08 | EP0832415A1 | 1998-04-01 | DENCHFIELD, Clifford; GLEDHILL, Paul |
| A collapsible diaphragm (14) to form an outlet valve means (14) in a weapon simulator of the king comprising a combustion chamber (28), means (21, 31) for admitting fuel gas to the combustion chamber, ignition means (23) for igniting fuel gas in the combustion chamber to cause an explosion, an exhaust port (29) in the combustion chamber, outlet valve means (14) for closing the exhaust port and arranged to open rapidly and with audible results in response to explosive pressure rise within the combustion chamber and breechblock means (8, 11) for holding the outlet valve means (14) in position to close the exhaust port (29), characterised in that the diaphragm (14) comprises a disc (16, 22, 30, 34) of dimensionally-stable sheet material having a peripheral portion adapted to be held by the breechblock means. | ||||||
| 37 | A free piston machine | EP95302344.7 | 1995-04-07 | EP0676610A1 | 1995-10-11 | Denchfield, Clifford |
A free piston machine having a piston (8) freely slidable in a cylinder (3) between opposite closed ends (4,5) characterised by a conduit (6) communicating between a source (1) of gas under pressure and the closed end (4) of the cylinder (3), a conduit (12) communicating between the closed end (4) of the cylinder and atmosphere, valve means (13) controlling flow through the conduit (12), and a piston-controlled port (11) in the cylinder and communicating between the cylinder and the source of gas under pressure, the arrangement being such that the piston (8) closes the port (11) when disposed at the closed end (4) of the cylinder. |
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| 38 | VORRICHTUNG ZUM SIMULIEREN DES KNALLS EINER PLATZPATRONE BEIM SCHIESSEN MIT HANDFEUERWAFFEN | EP83901431.0 | 1983-05-02 | EP0108102A1 | 1984-05-16 | MOBERG, Kurt Erik Lennart |
| Dispositif permettant d'obtenir des détonations semblables à celles se produisant lorsqu'on tire des munitions chargées en utilisant des armes de petite taille. Le dispositif est réalisé sous forme d'un magasin qui peut être adapté à une arme à la place de son magasin ordinaire. Le dispositif contient un récipient de gaz sous pression (11), par exemple de l'air comprimé, le gaz étant utilisé pour remplir une chambre de dosage (13) à l'aide d'un organe de soupape (16, 14) pouvant être actionné par la détente et la chambre de dosage peut être ouverte momentanément de manière à permettre à l'air comprimé renfermé à l'intérieur de s'échapper et de se dilater en produisant une détonation. | ||||||
| 39 | Trigger emulation mechanism of electric gun | EP14200375.5 | 2014-12-29 | EP3040674A1 | 2016-07-06 | Liao, Yin-Hsi |
A trigger emulation mechanism of an electric gun is disclosed. When actuated, a trigger assembly (2) causes a retainer assembly (3) to drive the toothed rack element (4) to allow the toothed rack element (4) to operate in combination with a gear shaft assembly (5) to amplify a rotational angle, making the gear shaft assembly (5) drive a striker hammer plate (61) to rotate and allowing the striker hammer plate (61) to drive the striker hammer elastic element (62) to accumulate energy therein. Afterward, the retainer assembly (3) may release the toothed rack element (4), causing the striker hammer elastic element (62) to force the striker hammer plate (61) to rotate in an opposite direction to strike thus generate sound and vibration, thereby achieving advantages of enhancing the degree of simulation by generating sound and vibration and an idle stroke before firing is initiated and also reducing the size thereof for applications to various models of electric guns.
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| 40 | Weapon firing simulator | EP13186830.9 | 2013-10-01 | EP2746713A1 | 2014-06-25 | Mizrachi, Yaron |
A bullet-free training magazine (100) designed to simulate real firing sounds and sights. The magazine is part of a magazine assembly which includes a magazine adaptor, a push to fire (PTF) trigger (304) shaped to fit over a regular weapon trigger and to a fire flashlight (308). The PTF trigger and the fire flashlight are connected physically to the adaptor through two separate electrical cables. The magazine and the adaptor are coupled electrically through matching electrical interfaces and are designed for combined insertion into the magazine housing of a weapon. The magazine adaptor includes a first section (502) adapted to attach to a magazine insertion member and including an adaptor electrical interface (508), a second section (504) with two electrical sockets connected to the electrical cables, and a mounting adaptor member for mounting the magazine adaptor to fit into the magazine housing and into a firing chamber of the weapon.
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