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 |
|---|---|---|---|---|---|---|
| 1 | 加圧スラリー供給を用いる付加製造 | JP2017533708 | 2015-09-10 | JP2017533131A | 2017-11-09 | ハズバンド,クラレンス; ウェンドルバーガー,ジュリー; ブラッシュウッド,ショーン; ドール,ダニエル; オコナー,ロバート |
| 付加製造プロセスは、スラリーを加圧し、加熱し、加圧、加熱されたスラリーをノズルを通して流し、スラリーを所定のパターンで堆積させる、ことを含む。 | ||||||
| 2 | Explosive liner | JP2003576886 | 2003-03-06 | JP4064926B2 | 2008-03-19 | クリミングス、ガビン・マイケル; ジョンソン、デイビッド・コンウェイ; トーマス、ダニエル・ウェイン; ベネット、ジョフレイ; ホワイト、クリストファー |
| 3 | For mixing the explosive substance, also a device for the filling of the weapon | JP2003576366 | 2003-03-06 | JP2005520117A | 2005-07-07 | バストウ、コリン・ヘンリー; ヒックス、グラハム; プレスリー、マルコム |
| 何らかの武器(38)内に混合された混合物を導入するに先立って予備混合爆薬物質と硬化剤とを混合するための静止ミキサー(26)を利用する、爆薬物質の混合のための装置がここに説明される。 | ||||||
| 4 | Blasting treatment method and blasting treatment device | JP2009084664 | 2009-03-31 | JP2010236777A | 2010-10-21 | ASAHINA KIYOSHI; KOIDE KENJI; GOTO TAKASHI; SHIMODA HIDEAKI; KITAMURA RYUSUKE; TSUTSUI O |
| PROBLEM TO BE SOLVED: To provide a blasting treatment method and its device for blasting an object to be treated by using a blasting explosive having fluidity and surely detonating the explosive. SOLUTION: In this blasting treatment method includes a blast preparation step of accommodating the blasting explosive 30 having fluidity in a container 20, arranging the blasting explosive 30 around an object to be treated 10, and mounting a detonator 50 to the container 20, a step of housing the container 20, the blasting explosive 30 and the object to be treated 10 in a chamber 60, a pressure reduction step of reducing a pressure in the chamber 60, and a blasting step of blasting the object to be treated 10 with the blasting explosive 30 by detonating the blasting explosive 30. In the pressure reduction step, the pressure in the chamber 60 is reduced while regulating outflow of the blasting explosive 30 to the outside of the container 20 and allowing outflow of a gas in the container 20 to the outside by means of degassing units 26. COPYRIGHT: (C)2011,JPO&INPIT | ||||||
| 5 | Explosive liner | JP2003576886 | 2003-03-06 | JP2005527765A | 2005-09-15 | クリミングス、ガビン・マイケル; ジョンソン、デイビッド・コンウェイ; トーマス、ダニエル・ウェイン; ベネット、ジョフレイ; ホワイト、クリストファー |
| 爆薬物質を武器に充填する方法が、ここに記述されている。 砲弾(2)は、爆薬物質(10)を充填された空洞(32)を含んでおり、爆薬物質(10)はこの空洞(32)内に配置された袋(36)に入れられる。 | ||||||
| 6 | JPS6358797B2 - | JP80381 | 1981-01-08 | JPS6358797B2 | 1988-11-16 | |
| 7 | Blast processing method and blasting processing equipment | JP2009084664 | 2009-03-31 | JP5095661B2 | 2012-12-12 | 潔 朝比奈; 憲司 小出; 孝 後藤; 秀明 下田; 竜介 北村; 央 筒井 |
| 8 | For mixing the explosive substance, also a device for the filling of the weapon | JP2003576366 | 2003-03-06 | JP4122298B2 | 2008-07-23 | バストウ、コリン・ヘンリー; ヒックス、グラハム; プレスリー、マルコム |
| 9 | Method and equipment for putting gunpowder into pipe | JP25054487 | 1987-10-03 | JPS63139089A | 1988-06-10 | KUIERU GUNNAA HANTO; DAGUFUIN NAISETSUTAA; YORUGEN SUKUYORUDARU; YAN HANSU BESUTORE |
| 10 | Semiautomatic semicontinuous method and mold assembly for manufacturing casted highly explosive booster | JP80381 | 1981-01-08 | JPS56109891A | 1981-08-31 | BONIIKIYATSUSURU JIYOSEFU RICH; MITSUKUHAUDO ARUFURETSUDO GIRU; ROOREE EDOWAADO KENNESU; SHIYAARINGU DEEBITSUDO JIEEMUS; SHINPUSON JIYON DADOREE |
| 11 | 40MM DOOR-BREACHING GRENADE | US14173443 | 2014-02-05 | US20140331884A1 | 2014-11-13 | Robert Willhelm; John Johnson; Wayne Mayville; Glade Hansen |
| The invention provides a short-range, self-propelled, non-fragmenting breaching device to breach a wide variety of doors and barricades with high efficiency, high gunner safety and low collateral damage. The invention also provides a method of preparing the breaching device and a method of breaching a target using the breaching device. | ||||||
| 12 | METHOD FOR PRODUCING A LARGE-CALIBER EXPLOSIVE PROJECTILE, AND AN EXPLOSIVE PROJECTILE PRODUCED USING THIS METHOD | US14068783 | 2013-10-31 | US20140076129A1 | 2014-03-20 | Ole Dau; Uwe Naderhoff |
| A method is provided for producing a large-calibre explosive projectile having a projectile casing with an ogival front part, which surrounds an internal area filled with a plastic-bonded explosive charge and, at a nose end, has a mouth closed by a nose fuze, wherein an elastic liner is arranged between the explosive charge and the inner wall of the projectile casing. The projectile casing is produced in two parts, such that, in the direction of the longitudinal axis of the projectile casing, a tail-end projectile casing section and an annular front projectile casing section, which contains the mouth, can be connected to one another in the area of the ogival front part, via a screw connection. The liner is introduced into the tail-end projectile casing section and the explosive charge is introduced into the liner before the two projectile casing sections are connected to one another. | ||||||
| 13 | High explosive fills for MEMS devices | US12980571 | 2010-12-29 | US08636861B1 | 2014-01-28 | 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. | ||||||
| 14 | Blast treatment method and blast treatment device | US13262448 | 2010-03-24 | US08464624B2 | 2013-06-18 | Kiyoshi Asahina; Kenji Koide; Takashi Gotou; Hideaki Shimoda; Ryusuke Kitamura; Nakaba Tsutsui |
| 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 includes: a blasting preparation operation of housing a blasting explosive having fluidity in a container and placing the blasting explosive around a treatment subject as well as attaching an initiation device to the container; a housing operation of housing the container, the blasting explosive, and the treatment subject in a chamber; a decompression operation of decompressing the inside of the chamber; and a blasting operation of initiating the blasting explosive and blasting the treatment subject with the blasting explosive. In the decompression operation, the inside of the chamber is decompressed while a gas vent portion regulates the escape of the blasting explosive to the outside of the container and permits the escape of gases in the container to the outside. | ||||||
| 15 | METHOD FOR PRODUCING A LARGE-CALIBER EXPLOSIVE PROJECTILE, AND AN EXPLOSIVE PROJECTILE PRODUCED USING THIS METHOD | US13322510 | 2010-05-06 | US20120137918A1 | 2012-06-07 | Ole Dau; Uwe Naderhoff |
| A method is provided for producing a large-calibre explosive projectile having a projectile casing with an ogival front part, which surrounds an internal area filled with a plastic-bonded explosive charge and, at a nose end, has a mouth closed by a nose fuze, wherein an elastic liner is arranged between the explosive charge and the inner wall of the projectile casing. The projectile casing is produced in two parts, such that, in the direction of the longitudinal axis of the projectile casing, a tail-end projectile casing section and an annular front projectile casing section, which contains the mouth, can be connected to one another in the area of the ogival front part, via a screw connection. The liner is introduced into the tail-end projectile casing section and the explosive charge is introduced into the liner before the two projectile casing sections are connected to one another. | ||||||
| 16 | BLAST TREATMENT METHOD AND BLAST TREATMENT DEVICE | US13262448 | 2010-03-24 | US20120017753A1 | 2012-01-26 | Kiyoshi Asahina; Kenji Koide; Takashi Gotou; Hideaki Shimoda; Ryusuke Kitamura; Nakaba Tsutsui |
| 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 includes: a blasting preparation operation of housing a blasting explosive having fluidity in a container and placing the blasting explosive around a treatment subject as well as attaching an initiation device to the container; a housing operation of housing the container, the blasting explosive, and the treatment subject in a chamber; a decompression operation of decompressing the inside of the chamber; and a blasting operation of initiating the blasting explosive and blasting the treatment subject with the blasting explosive. In the decompression operation, the inside of the chamber is decompressed while a gas vent portion regulates the escape of the blasting explosive to the outside of the container and permits the escape of gases in the container to the outside. | ||||||
| 17 | Apparatus for mixing explosive materials and for filling of ordnance | US10507171 | 2003-03-06 | US07370565B2 | 2008-05-13 | Malcolm Pressley; Colin H. Bastow; Graham Hicks |
| Described herein is apparatus for the mixing of explosive materials utilising a static mixer (26) for combining pre-mix explosive material and hardener prior to introducing the combined mixture into any ordnance (38). | ||||||
| 18 | Method for producing a large-caliber, high-explosive projectile, and high-explosive projectile produced in accordance with the method | US10369774 | 2003-02-21 | US06860185B2 | 2005-03-01 | 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′). | ||||||
| 19 | Explosive device with assembled segments and related methods | US09407616 | 1999-09-28 | US06739265B1 | 2004-05-25 | Farrell G. Badger; Lyman G. Bahr; Roger B. Clement |
| A segmented explosive device capable of producing a shock wave front upon being exploded by a detonation impulse generated by a selectively operable control device and communicated to the explosive device by a transmission line coupled between the control device and the explosive device. The explosive device has a first charge segment and a second charge segment disposed in an assembled relationship. The first charge segment has a first abutment surface formed on a portion of the exterior thereof and a cavity recessed in the first abutment surface. An output end of the transmission line is received by the cavity and contacts the first charge segment. The cavity of the first charge segment can be configured to dispose explosive material in the path of a plasma zone propagating through voids internal of the explosive device to facilitate advance detonation of the explosive material before a shock wave front trailing the plasma zone reaches the explosive material. The second charge segment has a second abutment surface formed on a portion of the exterior thereof. In the assembled relationship of the first and second charge segments, the first and second abutment surfaces are disposed in contact with each other. The first and second charge segments may have complimentarily located nodules and receptacles or other complementary features on the abutment surfaces thereof for facilitating and stabilizing the disposition of the first and second explosive charge segments in the assembled relationship thereof. Methods for fabricating the segmented explosive device are also disclosed. | ||||||
| 20 | Method for producing a large-caliber, high-explosive projectile, and high-explosive projectile produced in accordance with the method | US10369774 | 2003-02-21 | US20040031380A1 | 2004-02-19 | Ernst-Wilhelm Altenau |
| A method for producing a large-caliber, high-explosive projectile (1, 1null), and a projectile formed according the method, having a projectile casing (2, 2null) that surrounds a chamber (6, 6null) filled with an explosive charge (9, 9null), and that has a mouth (5, 5null) at its tip that can be sealed, and through which the explosive charge (9, 9null) is inserted into the chamber (6, 6null) of the high-explosive projectile (1, 1null). The explosive charge (9, 9null) is disposed in a plastic casing (8), comprised of an elastic material, inside the chamber of the high-explosive projectile (1, 1null). Additional tensioning means (11, 11null, 17, 17null) are provided to compensate for the varying volume of the explosive charge (9, 9null) relative to the projectile casing (2, 2null) if the temperature fluctuates dramatically and maintain the explosive charge (9, 9null) under a pre-stress, particularly when using a plastic bound explosive charge (9, 9null). | ||||||
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