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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61 | Flugkörper mit einem pyrotechnischen Satz | EP10009315.2 | 2010-09-08 | EP2295927A3 | 2014-04-02 | Hahma, Arno |
Die Erfindung betrifft einen Flugkörper mit einem pyrotechnischen Satz (2), wobei der Flugkörper so ausgestaltet ist, dass der pyrotechnische Satz (2) bei bestimmungsgemäßer Verwendung des Flugkörpers deflagrativ zum Abbrand gebracht wird, wobei der pyrotechnische Satz (2) ein Gemisch umfasst, welches mindestens ein Metall oder eine Metalllegierung als Brennstoff und mindestens ein Metalloxid als Oxidationsmittel enthält, wobei der Brennstoff und das Oxidationsmittel so gewählt sind, dass sie durch Abbrand miteinander reagieren können, wobei das Gemisch auf eine Dichte von mindestens 85 % der theoretischen Dichte des Gemischs verdichtet ist, wobei der Brennstoff, das Oxidationsmittel und das Mengenverhältnis zwischen dem Brennstoff und dem Oxidationsmittel so gewählt sind, dass die Dichte des Gemischs mindestens 6 g/cm3 beträgt. |
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62 | DECOY MATERIAL PACKAGE, A DISPENSER AND A METHOD FOR DISPENSING DECOY MATERIAL | EP09840122 | 2009-02-11 | EP2396221A4 | 2014-03-12 | STENFELT GLORIA; NILSSON MARIE-LOUISE; BYSTROEM GUNNAR |
63 | COMBINED THERMAL AND CHEMILUMINESCENT REACTION SYSTEM | EP11779050.1 | 2011-10-24 | EP2630215A1 | 2013-08-28 | CRANOR, Earl; JACOB, Linda |
A multiple-part marking system that comprises at least one first part comprising at least one oxalate ester, at least one fluoresces and at least one inorganic salt chosen from sodium thiosulphate, potassium thiosulphate, cobalt acetate, copper acetate, lead acetate, cupric chloride, ferric chloride, calcium iodide, potassium iodide, and silver nitrate; and at least one second part comprising at least one peroxide and at least one catalyst chosen from sodium salicylate, lithium salicylate, 5-chlorolithium salicylate, triazoles (e.g., 1,2,3-triazole and 1,2,4-triazole), substituted triazoles (e.g., substituted 1,2,3-triazole and substituted 1,2,4-triazole), imidazoles, and substituted imidazoles. Light and heat are emitted when the two parts interact. | ||||||
64 | WIRKKÖRPER | EP10724322.2 | 2010-06-15 | EP2446220A1 | 2012-05-02 | PRELIC, Nenad; EGLAUER, Heribert |
Provided is an active body (1) with flares (2, 6, 7) arranged adjacent, above, or behind each other, it is proposed to integrate at least one hydrophobic separating layer (3, 5) between the flares, or flare disks (2, 6, 7), thereby preventing the flares (2, 6, 7) from attaching or sticking. In one variant, the hydrophobic separating layer (3) is applied to at least one side of the flares (2) preferably as a powder preferably consisting of microspheres, or the like. In a further variant, a separating disk is disposed between the flares (6, 7) as the separating layer (5), which in addition is anti-cohesive and anti-adhesive. | ||||||
65 | WIRKKÖRPER | EP10723951.9 | 2010-06-15 | EP2446219A1 | 2012-05-02 | PRELIC, Nenad; KADAVANICH, Vikorn Martin; GAISBAUER, Rainer |
Proposed is an active body (1) having, as active mass (5), multiple flares (2, 3) arranged behind each other or stacked, in particular for the generation of decoys, the flares (2, 3) being NC (nitrocellulose) and RP (red phosphorus) single flares. The single flares (2, 3) are evenly or unevenly stacked in succession such that one RP single flare (3) lies on an NC single flare (2), or multiple NC single flares (2) or multiple RP single flares (3) follow each other, it being possible to vary the percentage of NC and RP in the active body (1) from 0% to 100%. A container (4) houses the active mass (5), and can in turn have predetermined breaking points (7). | ||||||
66 | AKTIVIERUNGSEINHEIT FÜR MUNITIONSFREIE SCHEINZIELE | EP09776700.8 | 2009-06-08 | EP2300772A1 | 2011-03-30 | GUTH, Sven; EGLAUER, Heribert; OLIVER, Frank; HUBER, Florian; PRELIC, Nenad |
An activation unit (1, 10) for munition-free decoys, active masses or active bodies (3) is characterised by an ejector tube (2) and a high-powered heater element (4) arranged around the ejector tube (2, 12) made up of at least one heating wire (6), provided with electrical current by a regulator unit. Each heating wire (6) is enclosed in a sleeve (7) and embedded in at least one heat-loss minimising material. On the active body (3) passing through the activation unit (1,10) the active body (3) directly or indirectly contacts with the outer surface thereof with the individual elements (4) of the activation unit (1, 10).The thermal energy is transmitted to the active body (3) by the heating wires (6) which ignites at the touching or contact point. | ||||||
67 | SCHEINZIEL MIT EINFACHER SICHERHEITSVORRICHTUNG | EP09730520.5 | 2009-03-18 | EP2263057A1 | 2010-12-22 | GAISBAUER, Rainer |
The invention relates to safety device (1) for a block of explosive material forming a decoy, that is introduced into an explosive material container (2) with a sabot (4) and an ignition transmission charge (5). Said safety device (1) is characterised by a prestressed tube sensor /slide (6) that is connected between the sabot (4), the ignition transmission charge (5) and the explosive material container (2) such that it can release or re-close an ignition channel (13) between the ignition transmission charge (5) and the explosive material. | ||||||
68 | Hybridscheinziel | EP09010027.2 | 2009-08-04 | EP2151664A2 | 2010-02-10 | Koch, Ernst-Christian |
Die Erfindung betrifft ein Scheinziel, wobei in einer Patrone (1) zumindest zwei Wirkmassen (2, 3) aufgenommen sind, wobei eine erste Wirkmasse (2) beim Abbrand ein einem Schwarzkörper ähnliches Spektrum erzeugt und wobei eine zweite Wirkmasse (3) beim Abbrand ein von der ersten Wirkmasse (2) verschiedenes, im Wesentlichen H2O und CO2 ähnliches Spektrum erzeugt, und wobei eine Ausstoßeinrichtung (5) zum zeitlich versetzten Ausstoß der ersten (2) und der zweiten Wirkmasse (3) aus der Patrone (1) vorgesehen ist, wobei die Ausstoßeinrichtung (5) derart ausgestaltet ist, dass beim Zünden zuerst die erste Wirkmasse (2) und nachfolgend die zweite Wirkmasse (3) aus der Patrone (1) ausgestoßen wird, und wobei die zweite Wirkmasse (3) mit einem Bremsmittel (4) zum Abbremsen der Fallgeschwindigkeit versehen ist. |
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69 | A thermic lance | EP07251551.3 | 2007-04-11 | EP1845231B1 | 2009-02-18 | Downie, Neil Alexander |
70 | A thermic lance | EP06252055.6 | 2006-04-13 | EP1847678A1 | 2007-10-24 | The designation of the inventor has not yet been filed |
A thermic lance (102) is ignitable using a combustible plastic fuse (120, 122) ignited using electrical means (126). The thermic lance may be used as a firework. Electrical ignition of a thermic lance is more convenient and safer than conventional methods. In addition, when used as a firework, the lance is safer and provides less pollution than conventional fireworks. |
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71 | Nozzles for pyrophoric IR decoy flares | EP98306250.6 | 1998-08-05 | EP0905472A3 | 2000-03-22 | Brière, Paul; St-Onge, Michel; Roy, André |
A decoy flare for infrared (IR) seeking missiles comprises a tubular shell (1) with a cover member (3) hermetically sealed to an outer front edge of the tubular shell (1) to form a container for a pyrophoric liquid (10). The cover member (3) has a central rupturing disc (4) that ruptures at a predetermined pressure, a nozzle cap (5) with a nozzle opening (6) being attached to the cover member (3) adjacent to an exterior surface of the rupturing disc (4). Pressure applied by a mechanism to the pyrophoric liquid (10) can rupture the rupturing disc (4) and eject the pyrophoric liquid (10) through the nozzle (6). A pre-heating chamber (20,30) formed by an enclosure (22,32) surrounds the nozzle opening (6) in order to provide for more reliable ignition of the pyrophoric liquid (10) at high altitudes and low flow rates, that enclosure (22,32) having an outer surface containing a number of perforations (28,38) through which air can enter the pre-heating chamber (20,30) and through which pyrophoric liquid (10) can be ejected from the chamber (20,30) into the atmosphere. |
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72 | Nozzles for pyrophoric IR decoy flares | EP98306250.6 | 1998-08-05 | EP0905472A2 | 1999-03-31 | Brière, Paul; St-Onge, Michel; Roy, André |
A decoy flare for infrared (IR) seeking missiles comprises a tubular shell (1) with a cover member (3) hermetically sealed to an outer front edge of the tubular shell (1) to form a container for a pyrophoric liquid (10). The cover member (3) has a central rupturing disc (4) that ruptures at a predetermined pressure, a nozzle cap (5) with a nozzle opening (6) being attached to the cover member (3) adjacent to an exterior surface of the rupturing disc (4). Pressure applied by a mechanism to the pyrophoric liquid (10) can rupture the rupturing disc (4) and eject the pyrophoric liquid (10) through the nozzle (6). A pre-heating chamber (20,30) formed by an enclosure (22,32) surrounds the nozzle opening (6) in order to provide for more reliable ignition of the pyrophoric liquid (10) at high altitudes and low flow rates, that enclosure (22,32) having an outer surface containing a number of perforations (28,38) through which air can enter the pre-heating chamber (20,30) and through which pyrophoric liquid (10) can be ejected from the chamber (20,30) into the atmosphere. |
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73 | Dispositif d'éjection simultanée de deux fluides, notamment pyrotechniques | EP94401273.1 | 1994-06-08 | EP0653603B1 | 1997-11-19 | Leichter, Geneviève; Tustes, Hervé; Ruiz, Marie-Jeanne; Rosada, Jean-Pierre |
74 | Flare pellet and process for making same | EP95300617.8 | 1995-01-31 | EP0665415A2 | 1995-08-02 | Dillehay, David R.; Turner, David W. |
A process for forming decoy flare pellets which satisfy predetermined burn requirements without milling additional grooves into the pellet flare material after that material is consolidated, involves providing sufficient surface area to the flare material during consolidation to eliminate the need for milling. Consolidated flare pellets are then coated with an ignition composition and installed in a decoy flare housing. |
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75 | SPEKTRALE SCHEINZIELANPASSUNG UND DAZU VERWENDBARE FLAREMASSE | EP94920388.0 | 1994-07-04 | EP0664876A1 | 1995-08-02 | BANNASCH, Heinz; WEGSCHEIDER, Martin; FEGG, Martin; BÜSEL, Horst |
The invention concerns a flare composition, containing an incendiary component and an inert component, for the generation of decoy targets. The composition is characterized in that the ratio by weight of the incendiary component to the inert component is selected such that the peak spectral radiation intensity of the flare composition is displaced towards longer wavelengths to make it more similar to the spectral intensity distribution of the target signature to be simulated than the spectral intensity distribution of the radiation from the incendiary component alone. | ||||||
76 | Signalstern | EP87113942.4 | 1987-09-24 | EP0284651B1 | 1994-03-02 | Grosse-Wördermann, Josef, Dr. |
77 | Leurre stabilisé et propulsé émettant dans l'infra-rouge | EP93401683.3 | 1993-06-30 | EP0583176A1 | 1994-02-16 | Meili, Gérard; Pinchot, Jean-Luc |
La présente invention se situe dans le domaine des leurres infrarouges pour protéger des aéronefs. Elle concerne plus particulièrement un leurre (4,21) stabilisé, propulsé sur une trajectoire et à émission infrarouge dirigée, comprenant un corps (22) ouvert sur sa partie arrière (24) contenant un bloc émissif (28,40) en substance pyrotechique et un ensemble d'allumage dudit bloc caractérisé en ce que ledit corps comporte une ogive (23) à sa partie avant et a une ouverture de section constante à sa partie arrière (24), que l'ensemble d'allumage comprend un dispositif pyromécanique éjectable (6,26) situé à l'arrière dudit corps et une charge d'allumage (29) située à l'avant dudit corps et que ledit bloc émissif (28,40) a au moins un canal et est placé entre la charge d'allumage (29) et le dispositif pyromécanique éjectable (6,26). |
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78 | Fackel | EP91105120.9 | 1991-03-30 | EP0509106B1 | 1992-10-28 | |
79 | Fackel | EP91105120.9 | 1991-03-30 | EP0509106A1 | 1992-10-21 | |
Die vorliegende Erfindung betrifft eine Fackel mit einem Brennkörper aus Paraffin und einem als Docht dienenden Mantel (12) aus Papier. Mit derartigen Fackeln hat es im Stand der Technik immer Probleme durch das starke Abtropfen und Abfließen des durch die Flamme verflüssigten Paraffins, sowie durch eine relativ kurze Brennzeit gegeben. Hier schafft die Erfindung Abhilfe durch eine feuerhemmende Wendel (14), die schraubenförmig derart um den ummantelten Brennkörper gelegt ist, daß ein schraubenförmiger Zwischenraum (16) entsteht |
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80 | Infrared illuminant | EP91304243.8 | 1991-05-10 | EP0457518A2 | 1991-11-21 | Nielson, Daniel B.; Jones, Leon L. |
An infrared illuminant composition and flares produced therefrom having increased burn rate and increased infrared intensity while maintaining low visible light intensity. The composition comprises potassium nitrate, cesium nitrate, hexamine, boron, silicon, ferric oxide and a binder. A process to produce infrared illuminant flares prevents or substantially eliminates chunking out of burning pieces of the illuminant at pressing increments in the flares. A multi-stepped pressing foot (10) is used for pressing the composition in the case. |