序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
---|---|---|---|---|---|---|
221 | KAMPFFAHRZEUG MIT FLUGABWEHRSYSTEM | EP05849522.7 | 2005-12-12 | EP1825211A1 | 2007-08-29 | DIELING, Frank; POLLERT, Andreas; KEMPIN, Manfred |
The invention relates to a combat vehicle with an anti-aircraft system. A device carrier configured as an azimuth-pivotable turret (4) is arranged on the top side of the combat vehicle (1), and carries as the first effective element for the purpose of air defense an automatic weapon (4) which can be pivoted into an elevation position. The second effective element for the purpose of air defense is at least one launching device (8', 8) for vertically taking off guided missiles mounted at the rear of the combat vehicle (1). The launching device (8', 8) can be displaced from a horizontal transport position into a vertically oriented launching position. The launching device (8') can be integrated into the vehicle contour in the transport position and can be arranged at a defined distance to the combat vehicle in the launching position. | ||||||
222 | Mobile carrier for a projectile launcher | EP06013537.3 | 2006-06-30 | EP1739382A1 | 2007-01-03 | Dekel, Ehud |
A mobile projectile launcher (5) is disclosed having a tiltable launching platform for supporting a plurality of canisters (12) in each of which projectiles (9) to be launched are stored and fired, a support plate (20) pivotally connected to a horizontal cargo bed, and at least one linear actuator by which the support plate is swingable from a closed position substantially perpendicular to the cargo bed to an open position substantially parallel to the cargo bed. The support plate is made of a material that is resistant to the projectile plume following launching and is sufficiently sturdy to support a technician during the loading of projectiles when set in an open position, yet is adapted to protect and hide the loaded canisters when set in a closed position.
|
||||||
223 | STEILFEUERGESCHÜTZ, INSBESONDERE GRANATWERFER | EP97926906.5 | 1997-06-16 | EP0906553B1 | 2003-07-16 | WINTER, Udo; MARTIN, Werner; SCHABELREITER, Johann |
A high angle fire gun (1) has at least one adjustable, swivelling tube (3), a tube adjusting mechanism and an adjusting mechanism pointing device (7) for pointing the tubes (3). In order to ensure a wide pointing range with a device which is easy to handle, the pointing device (7) has an independent pointer (8), preferably arranged apart from the adjusting mechanism, for actuating the adjusting mechanism so as to laterally and vertically point the tubes (3) by rotating each tube axis (A) along a conical surface around a vertical axis (H) and/or by swivelling each tube axis (A) along an axial plane through said vertical axis (H). | ||||||
224 | Gepanzertes Fahrzeug | EP02010800.7 | 2002-05-15 | EP1273869A2 | 2003-01-08 | Hass, Frank; Desgranges, Hans-Ulrich, Dr.; Becker, Wilfried; Witzel, Götz |
Vorgeschlagen wird die Ausrüstung eines Fahrzeuges (1) GTK mit einer doppelten Mörserbewaffnung (3), wobei an beiden Seiten und neben einem Heckausstieg (5) je eine Mörserwaffe (3) angeordnet ist und die beiden Waffen mittels einer Rechnerausrüstung gesteuert und koordiniert werden. |
||||||
225 | Militärisches Systemmodul, insbesondere Flugabwehrsystemmodul | EP00127418.2 | 2000-12-14 | EP1111324A1 | 2001-06-27 | Ewig, Andre; Grünewald, Jens |
Ein militärisches Systemmodul, insbesondere Flugabwehrsystemmodul mit einem Gehäuse (1), auf dessen Oberseite eine Waffenanlage (3) angeordnet ist und in dem über schwenkbare Klappen (2.1 - 2.4, 4.1) von außen zugängliche Stauräume sowie Räume für weitere Systemkomponenten (4) einschließlich Elektronikkomponenten (6) angeordnet sind. Die Waffenanlage (3) und die weiteren Systemkomponenten (4,6) sind an außerhalb des Systemmoduls angeordnete Bedienungsgeräte (8) anschließbar. Das Systemmodul ist stationär im Gelände aufstellbar, kann aber auch im mobilen Einsatz verwendet werden, indem es auf ein Kraftfahrzeug (9) montiert wird. |
||||||
226 | Militärisches Fahrzeug | EP94114005.5 | 1994-09-07 | EP0651223B1 | 1997-07-30 | Otto, Ulrich |
227 | Mörser mit einer in eine Rohrwiege integrierten Rücklauf-Vorholeinrichtung | EP82104380.9 | 1982-05-19 | EP0066192B1 | 1985-09-18 | Becker, Wilfried, Dipl.-Ing.; Winkler, Gert, Ing. (grad.); Zielinski, Erich, Ing.; Lipp, Herbert, Ing. (grad.) |
228 | Fahrbares Geschütz, insbesondere fabrzeuggebundener Granatwerfer | EP84890169.0 | 1984-09-12 | EP0145697A1 | 1985-06-19 | Schabelreiter, Johann, Dr. |
Die Erfindung betrifft ein fahrbares Geschütz, insbesondere fahrzeuggebundener Granatwerfer, mit Richteinrichtung (30, 40) und an mittels Absetzeinrichtung im Bereich, vorzugsweise der Rückseite, eines Fahrwerkes (1), insbesondere Fahrzeuges auf dem Boden absetzbarer Bodenplatte (50) angelenktem Waffenrohr (10, 10', 10", 10"'), wobei an einer, nach Verbringung in Feuerstellung, vorzugsweise vom Fahrwerk (1) mechanisch abkoppelbaren, Bodenplatte (50) eine Mehrzahl von Waffenrohren (10, 10', 10", 10''') über, vorzugsweise im wesentlichen gleiche Abstände voneinander aufweisende, vorzugsweise entlang einer im wesentlichen normal zur Fahrrichtung des Fahrwerkes (1) ausgerichteten Geraden angeordnete, ihnen individuell zugeordnete Anlenkpunkte (55, 55', 55", 55"') angelenkt sind. |
||||||
229 | Système d'arme porté à grande mobilité d'orientation | EP80400609.6 | 1980-05-06 | EP0018920B1 | 1983-06-22 | Billottet, Henri; Augy, Henri; Quoy, André |
230 | Arme, telle que mortier montée sur un véhicule | EP81401436.1 | 1981-09-16 | EP0075634A1 | 1983-04-06 | Ibarra, Inigo Arana |
n mortier (1, 13) est monté sur un véhicule étant disposé sur une plate-forme giratoire (2) dont le mouvement est dirigé par un support circulaire (3) solidaire du véhicule. Le support circulaire (3) est muni d'une couronne dentée (7) et des moyens (5, 6) assurant la fixation de la plate-forme giratoire au moment où a lieu le tir. Le support circulaire (3) et la plate-forme (2) comprennent des cales ou clavettes (8, 9) périphériques afin de permettre leur accouplement. Des organes (11, 12, 14-18) sont prévus pour régler l'angle d'élévation de tir et pour replier le mortier (1, 13) en position de transport. |
||||||
231 | Waffensystem mit einem fahrzeuggebundenen Mörser | EP82104271.0 | 1982-05-15 | EP0066161A2 | 1982-12-08 | Becker, Wilfried, Dipl.-Ing.; Winkler, Gert, Ing. grad.; Zielinski, Erich |
Bei dem Waffensystem ist im Heckbereich eines Fahrzeugs 10 ein Überhang 12 mit einer Öffnung 16 vorgesehen. Entlang einer geraden Richtung eines Pfeils 60 (58) ist ein Mörser 19 mittels einer Einrichtung 46 aus der Fahrstellung "T" (Feuerstellung "F") in die Feuerstellung "F" (Farhstellung "T") absenkbar (hebbar) angeordnet. Das Rohr des Mörsers 19 ist geteilt, wobei ein oberer Teil 26 mit einem (über 50 höhenrichtbaren) Gehäuse 24 verbunden ist, während ein unterer Teil 28 (mit einer Gelenkkugel 30 am rückseitigen Ende 29) mittels einer Kippeinrichtung 52 zum ladeweisen Fluchten mit der Öffnung 16 (Pfeil 66) oder zum abfeuerungsweisen Fluchten mit dem Rohrteil 26 (Pfeil 68) verschwenkt werden kann und dieserart die Funktion eines Kippverschlusses übernimmt. Beim Schwenken zum Laden wird eine Schlagbolzenfeder gespannt, welche nach dem Schwenken in Richtung des Pfeils 68 zum Abfeuern entspannt werden kann. Das Laden erfolgt aus dem Innenraum 14 durch die Öffnung 16 in dem mit dieser fluchtenden Rohrteil 28. |
||||||
232 | NOVEL SHOOTING-STABILITY PLATFORM FOR FIREARMS | US15611942 | 2017-06-02 | US20180058795A1 | 2018-03-01 | Timothy Neal Scott |
A shooting-stability platform with three rotational degrees of freedom is disclosed. The platform improves shooting accuracy and safety by lessening recoil effects. And because of the rotational degrees of freedom, the operator still has substantial freedom to position the firearm as desired. | ||||||
233 | Spherical tractor operating mobile platform | US14841246 | 2015-08-31 | US09481414B1 | 2016-11-01 | Gerhard W. Thielman; Benjamin-Fausto S. Thielman |
A spherical tractor operating mobile platform (STOMP) is provided for internally propelling and steering along an external surface. The STOMP includes a spherical shell having interior and exterior surfaces, an internal chassis containing an electrical power supply and a propulsion controller; a tractor drive system and an overhead wheel assembly. The tractor drive system provides propulsion and steering of the shell along the surface. The drive system includes a frame that connects to the chassis from below and contains a motor unit. The frame includes port and starboard sides that support respective wheel sets surrounded by corresponding continuous tracks. These tracks engage the shell's interior surface. Each wheel set includes a drive wheel, an idler wheel and a tension wheel for engaging a corresponding track. The overhead wheel assembly connects to the chassis from above to maintain the chassis and the drive system in compression with the shell. To propel the shell, the propulsion controller commands the motor unit to provide torque to both the port and starboard drive wheels. For steering the shell towards starboard, the motor provides torque to the port drive wheel. For steering the shell towards port, the motor provides torque to the starboard drive wheel. | ||||||
234 | Cannon and military vehicle | US14119182 | 2012-05-15 | US09360266B2 | 2016-06-07 | Matthias Raczek; Jens Koester; Matthias Czok |
A cannon and a military vehicle having such a cannon, which includes a support, a turret that is rotatable relative to the support and is provided with an opening, and a closure element disposed on the support and configured for the closing off of the opening of the turret. | ||||||
235 | Projectile sighting and launching control system | US13925620 | 2013-06-24 | US09310165B2 | 2016-04-12 | John Curtis Bell; Curtis King Bell |
A remote controlled projectile sighting and launching system (RCPSLS) is disclosed. In some embodiments, such a system can be compliant with the Americans with Disabilities Act (ADA) and can automatically facilitate moving targets, unmanned operation of a projectile launching device and automatic friendly-fire over-ride. In some embodiments, such a system can include network-linked components such as a plurality of auto-adjusting aiming units (AAAU), gimbaled robotic apparatuses (GRA), trigger activation devices (TAD), and transport vehicles (TRV). In some implementations, a plurality of shooters and/or command centers that are able to view and operate a plurality of AAAUs, TADs, GRAs, and TRVs from a remote location(s). The system can be configured to be capable of discerning friendly confirmed target coordinates (CTC) from enemy CTC and is able to launch a plurality of preselected projectiles (PP) from a plurality of preselected projectile launching devices (PPLD). | ||||||
236 | WEAPON POSTURING SYSTEM AND METHODS OF USE | US13561415 | 2012-07-30 | US20160010940A1 | 2016-01-14 | Charles L. Horvath; Preston Powell |
An assembly for changing the posture of a weapon coupled to a sensor system comprises a weapon mount configured to support a weapon. The assembly further comprises a movement mechanism coupled between the weapon mount and the sensor system. The movement mechanism is movable between a first configuration in which a boresight or barrel of the weapon is aligned with a first axis of a line of sight of the sensor system and a second configuration in which the barrel of the weapon is disposed along a second axis rotated with respect to the first axis such that the weapon is no longer pointed in the same direction as the sensor. | ||||||
237 | WEAPONS PLATFORM, MILITARY VEHICLE COMPRISING A WEAPONS PLATFORM AND METHOD FOR OPERATING A WEAPONS PLATFORM | US14415749 | 2013-07-15 | US20150174979A1 | 2015-06-25 | Matthias Raczek; Matthias Czok; Roman Wiche; Volker Crede |
A weapons platform including an undercarriage (11, 111) and a weapon (13, 113) that is positioned in a directable manner on the undercarriage (11, 111). The undercarriage (11, 111) may be supported in relation to the ground beneath by a supporting device (16, 116) that is damped in order to absorb firing recoil forces, the damping characteristics of the supporting device (16, 116) being adjustable in accordance with the firing recoil forces that are to be expected from the weapon (13, 113). The weapons platform (10, 110) may be mounted on a military vehicle (1). A method for operating such a weapons platform (10, 110) is also disclosed. | ||||||
238 | Positioning structure for a firearm on a vehicle | US14005785 | 2012-03-13 | US08967666B2 | 2015-03-03 | Carlo Alberto Iardella; Paolo Arrighi |
Positioning structure for an armament on a vehicle equipped with an armored cockpit (A) and wherein the armament is constrained to the top of the vehicle. The positioning structure engages directly to the frame of the vehicle and in particular to the reinforcement bars (B) typically called roll-bars, which delimit the armored cockpit. | ||||||
239 | PORTABLE GUN REST | US14346158 | 2012-09-20 | US20140215889A1 | 2014-08-07 | Michael Abdennour; Steven Abdennour |
A portable gun rest made substantially from a block of polymer foam material, featuring magnets attached to at least one surface opposite said groove to enable the gun rest to be removably attached to a metal surface. | ||||||
240 | POSITIONING STRUCTURE FOR A FIREARM ON A VEHICLE | US14005785 | 2012-03-13 | US20140084573A1 | 2014-03-27 | Carlo Alberto Iardella; Paolo Arrighi |
Positioning structure for an armament on a vehicle equipped with an armored cockpit (A) and wherein the armament is constrained to the top of the vehicle. The positioning structure engages directly to the frame of the vehicle and in particular to the reinforcement bars (B) typically called roll-bars, which delimit the armored cockpit. |