| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | Firearm and alloy for making same | US34508119 | 1919-12-15 | US1346190A | 1920-07-13 | FAHRENWALD FRANK A |
| 122 | Apparatus for the application of hydraulic pressure to the interior of a tube being shaped by the self-hooping process | US28649419 | 1919-03-31 | US1338871A | 1920-05-04 | EUGENE SCHNEIDER |
| 123 | Noh-ereezietg water-closet | US1194947D | US1194947A | 1916-08-15 | ||
| 124 | Manufacture of rifled gun-barrels. | US1901074900 | 1901-09-10 | US689502A | 1901-12-24 | MARKHAM WILLIAM F |
| 125 | Gun-barrel. | US1901055520 | 1901-04-12 | US689501A | 1901-12-24 | MARKHAM WILLIAM F |
| 126 | Compressed-pulp gun | US514407D | US514407A | 1894-02-06 | ||
| 127 | Improvement in constructing gun-barrels | US48249D | US48249A | 1865-06-20 | ||
| 128 | Improved process for making twisted gun-barrels | US9999D | US9999A | 1853-09-06 | ||
| 129 | BARREL OF A GUN | EP15792913 | 2015-05-12 | EP3143360A4 | 2018-02-28 | HIIPAKKA MARKO |
| A gun barrel that consists of a frame tube (1) that encloses a barrel tube (2) that is used to induce rotation to a projectile. The gun barrel as a whole constitutes an electric motor such that the barrel tube (2) is a permanent magnet and acts as the rotor of said motor. The stator coils (3) of said motor are located outside the barrel tube (2) and are used to induce rotation to the rotor, i.e., the barrel tube (2). | ||||||
| 130 | Lauf für Feuerwaffen | EP11450040.8 | 2011-03-17 | EP2375212B8 | 2018-01-17 | Caliskanoglu, Devrim; Schweiger, Herbert; Siller, Ingo |
| 131 | STOWABLE EFFECTOR LAUNCH SYSTEM | EP15722322.3 | 2015-04-24 | EP3161405A1 | 2017-05-03 | SZLEMKO, Emile M.; GIN, Brian A.; ANDERSON, Chad V.; MORGAN JR., Charles E.; KURTIS, James M. |
| An effector launch system includes a stowable effector launcher housing having a housing panel configured for coupling with a vehicle, and one or more receptacle brackets movably coupled with the housing panel. The one or more receptacle brackets include one or more effector launcher sockets. The launch system further includes one or more effector launchers. Each effector launcher includes an effector received within an adapter housing. The stowable effector launcher housing is movable between deployed and stowed configurations. In the deployed configuration the one or more receptacle brackets extend from the housing panel and the one or more effector launchers are received within the one or more effector launcher sockets. In the stowed configuration the one or more effector launchers are removed from the one or more effector launcher sockets and the one or more receptacle brackets are stowed along the housing panel. | ||||||
| 132 | BARREL OF A GUN | EP15792913.4 | 2015-05-12 | EP3143360A1 | 2017-03-22 | Hiipakka, Marko |
| A gun barrel that consists of a frame tube (1) that encloses a barrel tube (2) that is used to induce rotation to a projectile. The gun barrel as a whole constitutes an electric motor such that the barrel tube (2) is a permanent magnet and acts as the rotor of said motor. The stator coils (3) of said motor are located outside the barrel tube (2) and are used to induce rotation to the rotor, i.e., the barrel tube (2). | ||||||
| 133 | FIBER WINDING SYSTEM FOR COMPOSITE PROJECTILE BARREL STRUCTURE | EP14883548.1 | 2014-12-09 | EP3080543A2 | 2016-10-19 | LINCOLN, Jason E.; CURLISS, David B. |
| A composite projectile barrel is disclosed comprising a continuous fiber composite outer shell whose average effective coefficient of thermal expansion in the longitudinal direction approximately matches that of an inner liner. In one embodiment, the composite barrel comprises PAN precursor carbon fiber and a thermoset epoxy resin, with the carbon fiber wound at varying winding angles to form a plurality of regions within the outer shell. The finished barrel exhibits light weight, superior axial stiffness and strength, durability, and is reliably accurate. | ||||||
| 134 | HIGH TEMPERATURE COMPOSITE PROJECTILE BARREL | EP14840129.2 | 2014-08-28 | EP3039374A1 | 2016-07-06 | CURLISS, David, B.; LINCOLN, Jason, E.; DEGERNESS, Michael, K. |
| A composite projectile barrel is disclosed comprising a polymer matrix composite outer shell that accommodates higher temperature loading. In one embodiment, the invention comprises an outer shell fabricated from carbon fibers and polyimide resin having a glass transition temperature greater than 500° F. In another embodiment, the resin mixture includes a plurality of sizes of aluminum particles, between about 0.1 microns and 10.0 microns in diameter and of approximately spherical shape, as a thermal conductive additive. | ||||||
| 135 | PRE-STRESSED BORE BARREL AND RELATED MANUFACTURING METHOD | EP09818839 | 2009-10-07 | EP2341309A4 | 2013-08-07 | ALONSO TRICIO JUAN RAMON |
| 136 | VERFAHREN ZUR HERSTELLUNG VON SCHMIEDESTAHL FÜR HOCH BEANSPRUCHTE WAFFEN, ROHR-ROHLINGE SOWIE EINE DAMIT AUSGERÜSTETE WAFFE | EP07725351.6 | 2007-05-18 | EP2027298B1 | 2013-01-30 | ARRENBRECHT, Wolfgang; GRIMM, Walter |
| 137 | METHOD FOR PRODUCING A GUN BARREL, DEVICE FOR PRODUCING A GUN BARREL AND A GUN BARREL | EP10803955.3 | 2010-07-15 | EP2454553A1 | 2012-05-23 | PELIN, Torolf |
| The invention relates to a device for producing a gun barrel, in which the barrel is formed from a pipe blank (1) in which barrel rifles (2) are formed against a mandrel (3) having grooves (2b) shaped as the rifles. | ||||||
| 138 | GUN BARREL AND METHOD OF FORMING | EP05740334.7 | 2005-04-27 | EP1740899A2 | 2007-01-10 | WITHERS, J. C.; c/o Materials & Elec. Res. CO.; BRACAMONTE, L. A.; c/o Materials & Elec. Res. Co.; STORM, R. S.; c/o Materials & Elec. Res. Co.; PICKARD, S. M.; c/o Materials & Elec. Res. Co.; LOUTFY, R. O.; c/o Materials & Elec. Res. Co. |
| A fabrication technique is described for producing lighter weight and improved wear and erosion resistant gun barrels (10). The barrels (10) are produced in an unconventional manner from the inside bore to the outside diameter of the barrel (10) and combine a refractory metal, metal alloy, or ceramic composite inner liner (12) with a metal matrix composite (MMC) or titanium or other suitable high strength, lightweight metal or metal alloy outer shell. A unique aspect of the invention is that there is a compositional gradation from the liner (12) at the inside bore to the overwrap which extends to the outside diameter of the barrel (10). A process is also described to produce barrels (10) with a refractory metal liner with improved wear and erosion resistance by depositing the refractory metal on the ID of a pre-fabricated barrel (10). | ||||||
| 139 | ROCKET LAUNCHER SYSTEM AND METHOD FOR CONTROLLING A ROCKET LAUNCHER SYSTEM | EP01999781.6 | 2001-12-07 | EP1346186A1 | 2003-09-24 | FOWLER, Dean |
| The present invention relates to a rocket launcher system and a method for controlling a rocket launcher system. The rocket launcher system (1) is placed below deck (100) on a ship to improve the ship's stealth capability and comprises a launcher (11, 15), a charger (12, 15) and a magazine (13) containing one or more different types of rocket missiles (3). The method for controlling the rocket launcher system (1) comprises transferring of an operating signal (6), comprising preparation data, to the rocket launcher system from one or more operators (2; 21, 22, 23, 24, 25). The preparation data is transferred to a rocket missile (3) and charge (12) is caused to fetch the rocket missile form a magazine (13) and charge a launcher (11). A hatch (101) in the ship's deck (100) is opened, and the launcher is caused to sight the rocket missile (3) at a target area (4). | ||||||
| 140 | Verfahren zur Herstellung von Rohren für schwere Geschütze | EP02002665.4 | 2002-02-06 | EP1239257A1 | 2002-09-11 | Grimm, Walter; Arrenbrecht, Wolfgang |
Der Verfahren zur Herstellung von Rohren für schwere Geschütze benutzt einen Vergütungsstahl, bestehend aus 0,20 - 0,50 Gew.% Kohlenstoff, max. 1,0 Gew.% Silizium, max. 1,0 Gew.% Mangan, max. 0,03 % Phosphor, max. 0,03 % Schwefel, max. 0,1 % Aluminium, max. 2 % Chrom, max. 4 % Nickel, max. 1 % Molybdän, max. 0,5 % Vanadin und zum Rest aus Eisen und üblichen Verunreinigungen. Es werden Schmiedestücke aus offen erschmolzenem Blockguss außen vorgedreht. Die dadurch erhaltenen Rohlinge werden zunächst gehärtet und angelassen, anschließend gebohrt und dann fertig bearbeitet. |
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