子分类:
| 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 | Explosive charge with assembled segments and method of manufacturing same | US521930 | 1995-08-31 | US5959237A | 1999-09-28 | Roger B. Clement |
| An improved cast explosive charge and a method of manufacturing said cast explosive charges utilizing an automated assembly system. The explosive charges are produced by combining two elongate cast segments, thereby abutting an exterior surface of one segment, formed by explosive material into an exterior surface of a second segment formed by explosive material, and attaching the cast segments together with wrapping material. The cast explosive charge produced by this method of manufacturing exhibits a markedly improved detonation velocity. | ||||||
| 22 | Shell structure | US46389042 | 1942-10-30 | US2373883A | 1945-04-17 | FERREL CLYDE B |
| 23 | Detonator and process of making | US27496428 | 1928-05-03 | US1783372A | 1930-12-02 | WOODBURY CLIFFORD A |
| 24 | VERFAHREN ZUR HERSTELLUNG EINES GROSSKALIBRIGEN GEFECHTSKOPFES UND GEFECHTSKOPF, HERGESTELLT NACH DIESEM VERFAHREN | EP15707987.2 | 2015-03-06 | EP3114426B1 | 2018-05-02 | DAU, Ole |
| 25 | SPRENGGESCHOSS UND VERFAHREN ZU SEINER HERSTELLUNG | EP09713362.3 | 2009-02-03 | EP2245419B1 | 2014-01-22 | MÜNZNER, Sebastian |
| 26 | BLASTING METHOD AND BLASTING DEVICE | EP10758214.0 | 2010-03-24 | EP2410285A1 | 2012-01-25 | ASAHINA, Kiyoshi; KOIDE, Kenji; GOTOU, Takashi; SHIMODA, Hideaki; KITAMURA, Ryusuke; TSUTSUI, Nakaba |
Provided are a blast treatment method and an apparatus, which can perform the blast treatment of a treatment subject by using and securely initiating a blasting explosive having fluidity. The blast treatment method of the invention includes: a blasting preparation step of housing a blasting explosive 30 having fluidity in a container 20 and placing the blasting explosive 30 around a treatment subject 10 as well as attaching a initiation device 50 to the container 10; a housing step of housing the container 20, the blasting explosive 30, and the treatment subject 10 in a chamber 60; a decompression step of decompressing the inside of the chamber 60; and a blasting step of initiating the blasting explosive 30 and blasting the treatment subject 10 with the blasting explosive 30. In the decompression step, the inside of the chamber 60 is decompressed while a gas vent portion 26 regulates the escape of the blasting explosive 30 to the outside of the container 20 and permits the escape of gases in the container 20 to the outside. |
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| 27 | Ordnance with explosives liner and method of manufacture of the ordnance | EP03744412.2 | 2003-03-06 | EP1485669B1 | 2011-06-15 | White, Christopher; Bennett, Geoffrey; Thomas, Daniel Wayne; Crimmings, Gavin Michael; Johnson, David Conway |
| Described herein is a method of filling ordnance with explosive materials. An ordnance shell (2) comprises a cavity (32) filled with explosive material (10), the explosive material (10) being contained in a bag (36) located within the cavity (32). | ||||||
| 28 | Système de chargement de munitions en explosif fondu | EP87402861.6 | 1987-12-15 | EP0275753A1 | 1988-07-27 | Couturier, Guy; Duclos, Abel |
L'invention permet le chargement par siphonnage en explosif fondu de munitions relativement longues. Une canalisation souple (5) est utilisée pour amener l'explosif de la cuve (1) où il est fondu, à l'intérieur de la munition 3. Pour que l'explosif fondu arrive avec une température déterminée, la canalisation souple a une structure à double paroi, pour permettre la circulation d'un fluide caloporteur. L'invention est adaptée aussi bien aux systèmes de chargement par gravité que par dépression, et également à l'élaboration des chargements dits "en nougat". |
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| 29 | BLASTING METHOD AND BLASTING DEVICE | EP10758214.0 | 2010-03-24 | EP2410285B1 | 2018-07-25 | ASAHINA, Kiyoshi; KOIDE, Kenji; GOTOU, Takashi; SHIMODA, Hideaki; KITAMURA, Ryusuke; TSUTSUI, Nakaba |
| Provided are a blast treatment method and an apparatus, which can perform the blast treatment of a treatment subject by using and securely initiating a blasting explosive having fluidity. The blast treatment method of the invention includes: a blasting preparation step of housing a blasting explosive 30 having fluidity in a container 20 and placing the blasting explosive 30 around a treatment subject 10 as well as attaching a initiation device 50 to the container 10; a housing step of housing the container 20, the blasting explosive 30, and the treatment subject 10 in a chamber 60; a decompression step of decompressing the inside of the chamber 60; and a blasting step of initiating the blasting explosive 30 and blasting the treatment subject 10 with the blasting explosive 30. In the decompression step, the inside of the chamber 60 is decompressed while a gas vent portion 26 regulates the escape of the blasting explosive 30 to the outside of the container 20 and permits the escape of gases in the container 20 to the outside. | ||||||
| 30 | METHOD FOR MIXING EXPLOSIVE MATERIALS AND FOR FILLING OF ORDNANCE | EP03709956.1 | 2003-03-06 | EP1483223B1 | 2017-08-23 | PRESSLEY, Malcolm Bae Systems RO Defence; BASTOW, Colin, Henry Bae Systems RO Defence; HICKS, Graham Bae Systems RO Defence |
| 31 | VERFAHREN ZUR HERSTELLUNG EINES GROSSKALIBRIGEN SPRENGGESCHOSSES UND SPRENGGESCHOSS, HERGESTELLT NACH DIESEM VERFAHREN | EP10720128.7 | 2010-05-06 | EP2435780B1 | 2013-07-10 | DAU, Ole; NADERHOFF, Uwe |
| 32 | VERFAHREN ZUR HERSTELLUNG EINES GROSSKALIBRIGEN SPRENGGESCHOSSES UND SPRENGGESCHOSS, HERGESTELLT NACH DIESEM VERFAHREN | EP10720128.7 | 2010-05-06 | EP2435780A1 | 2012-04-04 | DAU, Ole; NADERHOFF, Uwe |
| The invention relates to a method for producing a large-calibre explosive projectile (1) having a projectile casing (2) with an ogival front part (2), which surrounds an internal area (6) filled with a plastic-bonded explosive charge (9) and, at the nose end, has a mouth (5) which can be closed by a nose fuze (4), wherein an elastic liner (8) is arranged between the explosive charge (9) and the inner wall (7) of the projectile casing (2). In order to ensure that both the liner (8) and the explosive charge (9) can be introduced quickly and accurately, in a simple manner, into the projectile casing (2) of the explosive projectile (1), the invention proposes that the projectile casing (2) be produced in two parts, such that, in the direction of the longitudinal axis (11) of the projectile casing (2), a rear-end projectile casing section (20) and a front projectile casing section (21), which contains the mouth (5) and is annular in shape, are the result, wherein the two projectile casing sections (20, 21) can be connected to one another in the area of the ogival front part (2), preferably via a screw connection (22). The liner (8) is introduced into the rear-end projectile casing section (20) and the explosive charge (9) is introduced into the liner (8), in this case before the two projectile casing sections (20, 21) are connected to one another. | ||||||
| 33 | SPRENGGESCHOSS UND VERFAHREN ZU SEINER HERSTELLUNG | EP09713362.3 | 2009-02-03 | EP2245419A1 | 2010-11-03 | MÜNZNER, Sebastian |
| The invention relates to an explosive projectile (1, 1') and to a method for producing the latter, said projectile comprising a projectile shell (2). The aim of the invention is to reduce the risk of an unintentional detonation of the explosive (6) upon launching. To achieve this, the invention proposes a liquid explosive as the explosive (6), said liquid explosive not hardening and remaining in liquid form after being introduced into the interior (5) of the projectile shell (2). The explosive (6) is sealed in an airtight manner in an elastic casing (7) in the interior (5) of the projectile shell (2). | ||||||
| 34 | Verfahren zur Herstellung einer fest haftenden Sprengstoff-Gussladung an einem Ladungsträger | EP85105905.5 | 1985-05-14 | EP0166928B1 | 1988-08-03 | Müller, Otmar; Berg, Günter; Scherer, Werner |
| 35 | Verfahren zur Herstellung einer fest haftenden Sprengstoff-Gussladung an einem Ladungsträger | EP85105905.5 | 1985-05-14 | EP0166928A1 | 1986-01-08 | Müller, Otmar; Berg, Günter; Scherer, Werner |
Für die Füllung von Geschoßhüllen von Rohrwaffenmunition wird ein Verfahren vorgeschlagen, bei dem Bodenspalte zwischen Sprengstoff und dem Boden der Geschoßhülle vermieden werden. Insgesamt ist die Wandhaftung des Sprengstoffes an dem Geschoßkörper so groß, daß beim mechanischen Herauslösen des Sprengstoffes aus der Geschoßhülle der Sprengstoff innerhalb seines Gefüges reißt. Dies wird dadurch erreicht, daß ein Adhäsionsmittel mit einem Anteil eines in Sauerstoff nicht-härtenden Bindeharzes an der vorbehandelten oder nicht behandelten Geschoßhüllenwand aufgetragen wird und erst nach dem vollständigen Abtrocknen des Adhäsionsmittels mit einem flüssigen Sprengstoff in Berührung kommt. Der flüssige Sprengstoff solvatiert das Adhäsionsmittel, wodurch eine innige Verzahnung der wieder erstarrten Phasen erzielt wird. |
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| 36 | INTERNAL REINFORCEMENT AND CONFINEMENT STRUCTURE FOR WARHEADS | US14324581 | 2014-07-07 | US20160231094A1 | 2016-08-11 | Michael A. Minnicino, II |
| A warhead which is adapted to be launched in a predetermined axial direction includes a support structure having a plurality of walls which extend in a direction parallel to the predetermined axial direction. The support structure forms a plurality of closed chambers which are laterally spaced apart from each other and are elongated in the axial direction. A high explosive is contained within the structure cavities. | ||||||
| 37 | Methods for making and using high explosive fills for MEMS devices | US12647707 | 2009-12-28 | US07967929B1 | 2011-06-28 | Daniel Stec, III; Amy Wilson; Brian E. Fuchs; Neha Mehta; Paula Cook |
| Secondary crystalline high explosives are disclosed which are suitable for filling very small volume loading holes in micro-electric initiators for micro-electro-mechanical mechanisms (MEMS), used as safe and arm (S&A) devices. The explosives are prepared by adding the such a high explosive to an aqueous first volatile mobile phase, adding such a high explosive to a non-aqueous second volatile mobile phase, mixing the first and second volatile mobile phases and then loading the combined phases into the MEMS device and allowing the aqueous and non-aqueous solvents to evaporate depositing the high explosive. Enhanced adhesion between the deposited high explosive and enhanced rheological properties can be obtained by adding a polymeric binder to both mobile phases. | ||||||
| 38 | METHODS FOR MAKING AND USING HIGH EXPLOSIVE FILLS FOR VERY SMALL VOLUME APPLICATIONS | US11307626 | 2006-02-15 | US20100024933A1 | 2010-02-04 | Daniel Stec, III; Gartung Cheng; Brian E. Fuchs; Gerard Gillen; Neha Mehta |
| High explosives suitable for filling very small volume loading holes in micro-electric initiators for micro-electro-mechanical mechanisms, used as safe and arm devices, are prepared from slurries of crystalline energetic materials including organic liquid and applied using various methods. These methods include swipe loading, pressure loading and syringe loading. The organic liquid serves as a volatile mobile phase in the slurry so as to partially dissolve the energetic material so that, upon evaporation of the mobile phase, the energetic material precipitates and adheres to the loading hole. | ||||||
| 39 | Explosives liner | US10507174 | 2003-03-06 | US07370585B2 | 2008-05-13 | Christopher White; Geoffrey Bennett; Daniel Wayne Thomas; Gavin Michael Crimmings; David Conway Johnson |
| Described herein is a method of filling ordnance with explosive materials. An ordnance shell (2) comprises a cavity (32) filled with explosive material (10), the explosive material (10) being contained in a bag (36) located within the cavity (32). | ||||||
| 40 | Method for producing a large-caliber, high-explosive projectile, and high-explosive projectile produced in accordance with the method | US10953190 | 2004-09-30 | US07114449B2 | 2006-10-03 | Ernst-Wilhelm Altenau |
| A method for producing a large-caliber, high-explosive projectile (1, 1′), and a projectile formed according the method, having a projectile casing (2, 2′) that surrounds a chamber (6, 6′) filled with an explosive charge (9, 9′), and that has a mouth (5, 5′) at its tip that can be sealed, and through which the explosive charge (9, 9′) is inserted into the chamber (6, 6′) of the high-explosive projectile (1, 1′). The explosive charge (9, 9′) is disposed in a plastic casing (8), comprised of an elastic material, inside the chamber of the high-explosive projectile (1, 1′). Additional tensioning means (11, 11′, 17, 17′) are provided to compensate for the varying volume of the explosive charge (9, 9′) relative to the projectile casing (2, 2′) if the temperature fluctuates dramatically and maintain the explosive charge (9, 9′) under a pre-stress, particularly when using a plastic bound explosive charge (9, 9′). | ||||||
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