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 | 延迟元件、包含该延迟元件的雷管及其制造方法 | CN200780013239.0 | 2007-02-13 | CN101427098A | 2009-05-06 | T·J·普利特; J·W·小特瓦罗格; J·蔡尔兹; J·C·小坎贝尔 |
| 响应于起爆信号对输出装药(152,图4)的起动可通过将该起爆信号输送到延迟引信(40)来延迟,该延迟引信由反应性多层叠片制成,从而起动该叠片中的放热自维持合金化反应。所述反应沿行进路径而行,该行进路径可以是Z字形、盘绕状或用其它方法来延长,从而提供期望的延迟时间。输出装药(152)可以是安装在发出起爆信号的信号传输线(111)上的起爆器。延迟元件(84,图9)可包含衬底(86)和设置在该衬底上的反应性多层叠片(88),并且成形为限定从输入信号(I)的位置到输出信号(O)的位置的蛇形行进路径。延迟元件可设置在包括实体件(62a、62b,图6)的塞中或设置在管状体(76,图7)中。 | ||||||
| 2 | エネルギー伝達装置 | JP2015508970 | 2013-03-15 | JP2015518133A | 2015-06-25 | ウィリアム グリーリー; ラヴィオ カル; エド. スーフー |
| もう一方の装置の燃焼を開始するために、片方の点火装置(52)から出力されたエネルギーをもう一方の装置(78)へ伝達することができるエネルギー伝達装置(10)を提供する。装置(10)は、変形可能な装置挿入物(14)が収納された装置筐体(12)を備える。装置挿入物(14)は、エネルギー、ガス、及び/または固体を含む、点火装置(52)からの出力を伝達する中央通路(34)を備える。通路(34)は、点火装置出力を、燃焼が最も効率よく開始される、第2の点火装置(78)の正確な位置に案内する。エネルギー伝達装置(10)は、井戸設置作業に使われるツール(44)の一部として用いられる。 | ||||||
| 3 | Fuse of grenade | JP2012545122 | 2010-12-01 | JP5507707B2 | 2014-05-28 | クラウス、シブム |
| 4 | Small-sized firearm and shot thereof | JP4647686 | 1986-03-05 | JPS61252499A | 1986-11-10 | SCHLEGEL KURT; BETZ FRIEDEMANN C |
| 5 | エネルギー伝達装置 | JP2015508970 | 2013-03-15 | JP6145159B2 | 2017-06-07 | グリーリー ウィリアム; カル ラヴィオ; スーフー エド. |
| 6 | Fuse of grenade | JP2012545122 | 2010-12-01 | JP2013515230A | 2013-05-02 | クラウス、シブム |
| 本発明は手榴弾の信管に関する。 手榴弾の信管は、点火キャップ(16)と、延時薬ホルダ(12)内に設けられ、点火キャップ(16)によって点火され得る延時薬(13)と、揺動自在な起爆薬ホルダ(11)内に設けられ、延時薬(13)によって点火され得る起爆薬(10)と、手榴弾装薬を点火するために、起爆薬(10)によって点火され得る伝爆薬(9)と、を備えている。 | ||||||
| 7 | JPH0532680B2 - | JP4647686 | 1986-03-05 | JPH0532680B2 | 1993-05-17 | KURUTO SHUREEGERU; TSUEE FURIIDEMAN BETSUTSU |
| 8 | JPS5022840B1 - | JP4278570 | 1970-05-19 | JPS5022840B1 | 1975-08-02 | |
| 9 | PYROTECHNISCHER VERZÖGERUNGSSATZ MILITÄRISCHER VERZÖGERUNGSELEMENTE | EP14818989.7 | 2014-12-19 | EP3090232B1 | 2018-03-07 | ZÖLLNER, Helmut; FUNKE, Dirk |
| 10 | PYROTECHNISCHER VERZÖGERUNGSSATZ MILITÄRISCHER VERZÖGERUNGSELEMENTE | EP14818989.7 | 2014-12-19 | EP3090232A1 | 2016-11-09 | ZÖLLNER, Helmut; FUNKE, Dirk |
| The invention relates to a pyrotechnical delay charge for military delay elements, in which at least 5 parts by weight of potassium perchlorate or manganese dioxide, at least 10 parts by weight of barium sulphate and at least 20 parts by weight of silicon are contained in the mixture of the delay charge. | ||||||
| 11 | MECHANISCH VERSTELLBARES VERZÖGERUNGSELEMENT | EP13734780.3 | 2013-07-09 | EP2875309A1 | 2015-05-27 | KLASEN, André; KOPP, Lothar-Georg; RAUPP, Karl |
| Disclosed is a simple variable mechanical way to adjust a delay. The aim of the invention is to find an easy way to adjust the delay time, for example by slightly twisting two subassembly parts (7, 8) into which the adjustable delay element (10) is integrated. The essential feature that helps achieve said aim is the delay element (10) that consists of a small tube (1) which has a thread (a) or the like along a portion of its length and is smooth along the remaining portion (b) of its length. A small slot (c) is located in the smooth, cylindrical portion of the tube (1). The tube (1) is provided with a through-bore into which a chemical mixture is pressed as a delay composition (3). A sleeve (2) which accurately fits over the cylindrical portion (b) of the tube (1) at one end and has a mating thread for the tube (1) at the other end is mounted over the tube (1). The slot (c) along with the delay composition (3) is increased or decreased (shortened) by twisting the two subassembly parts (7, 8). The glow time changes accordingly once the delay composition (3) has been ignited, the delay time being infinitely variable. | ||||||
| 12 | HANDGRANATENZÜNDER | EP10787307.7 | 2010-12-01 | EP2516958B1 | 2014-03-12 | SIBUM, Klaus |
| 13 | DELAY UNITS AND METHODS OF MAKING THE SAME | EP06720309.1 | 2006-02-06 | EP1900187A2 | 2008-03-19 | CHILDS, John; SHANK, Lawrence, J. III |
| A delay unit (10) comprises a timing strip (14) and, optionally, a calibration strip (20) deposited on a substrate (12). The timing and calibration strips comprise energetic materials which optionally may comprise particles of nanosize materials, e.g., a fuel and an oxidizer, optionally applied as separate layers. A method of making the delay units comprises deposit¬ ing onto a substrate (12) a timing strip (14) having a starting point (14d) and a discharge point (14e) and depositing onto the same or another substrate a calibration strip (20). Timing strip (14) and calibration strip (20) are of identical composition and are otherwise configured, e.g., thickness of the strips, to have identical burn rates. The calibration strip (20) is ignited and its burn rate is ascertained. The timing strip (14) is adjusted by an adjustment structure to attain a desired delay period, preferably on the basis that the burn rate of the timing strip (14) is substantially identical to that of the calibration strip (20) and ascertaining the burn rate of the calibration strip. The adjustment may be attained by one or more of providing the timing strip with jump gaps (164), an accelerant or retardant (166a, 166b), completing the timing strip with a bridging strip (14c), or establishing a selected effective length of the timing strip by positioning one or both of a pick-up charge (16) and relay charge (18) over a portion of the timing strip. | ||||||
| 14 | Zünder für einer Granate | EP95100276.5 | 1995-01-11 | EP0666464A1 | 1995-08-09 | Koger, Gottfried |
Bei einem Zünder für eine Granate, der mit einer Aufschlagzündvorrichtung und mit einer einen Verzögerungssatz (13) aufweisenden Selbstzerlegevorrichtung versehen ist, ist dem Aufnahmekanal (4) für den Verzögerungssatz (13) eine nach außen führende Entlastungsöffnung (9) zugeordnet. Die Entlastungsöffnung führt vom anbrennseitigen Ende (5) des Aufnahmekanals (4) nach außen und leitet Verbrennungsgase des Verzögerungssatzes (13) ab, die dessen Abbrenndauer verkürzen könnten. |
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| 15 | Projectile à charge pyrotechnique | EP86402936.8 | 1986-12-24 | EP0230196B1 | 1989-03-29 | Evrard, Daniel Roger Jacques; Calmettes, Hubert Claude Gilles; Robert, Noel |
| 16 | 수류탄 신관 | KR1020127015265 | 2010-12-01 | KR101721459B1 | 2017-03-30 | 시붐클라우스 |
| 본발명은뇌관(16), 뇌관(16)에의해점화될수 있는지연장약(13), 지연장약(13)에의해점화될수 있는기폭장치(10), 및기폭장치(10)에의해점화될수 있는부스터장약(9)을포함하며, 지연장약(13)이지연장약홀더(12) 내에수용되고, 기폭장치(10)가기폭장치홀더(11) 내에수용되며, 부스터장약(9)이수류탄폭발장약을점화하는수류탄신관을제공한다. | ||||||
| 17 | 에너지 전달 장치 | KR1020147031820 | 2013-03-15 | KR1020150010733A | 2015-01-28 | 그렐리,윌리엄; 쿨,라이보; 수후,에드 |
| 본 발명은 발사를 개시하기 위하여 파이로테크닉 장치(52)로부터의 에너지 출력을 또 다른 장치(78)에 전달할 수 있는 에너지 전달 장치(10)에 관한 것이다. 상기 장치(10)는 변형될 수 있는 장치 인서트(14)가 내부에 수용되는 장치 하우징(12)을 포함한다. 장치 인서트(14)는 출력, 가령, 에너지, 가스 및/또는 고체를 파이로테크닉 장치(52)로부터 또 다른 파이로테크닉 장치(78)에 전달하기 위해 중앙 통로(34)를 포함한다. 통로(34)는 파이로테크닉 장치 출력을 제2 파이로테크닉 장치(78) 상의 정확한 위치에 전달하는데, 상기 정확한 위치에서 발사 공정이 가장 효율적으로 개시된다. 에너지 전달 장치(10)는 웰 완결 공정에 사용되는 공구(44)의 일부분으로서 사용될 수도 있다.
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| 18 | 수류탄 신관 | KR1020127015265 | 2010-12-01 | KR1020120106750A | 2012-09-26 | 시붐클라우스 |
| 본 발명은 뇌관(16), 뇌관(16)에 의해 점화될 수 있는 지연 장약(13), 지연 장약(13)에 의해 점화될 수 있는 기폭 장치(10), 및 기폭 장치(10)에 의해 점화될 수 있는 부스터 장약(9)을 포함하며, 지연 장약(13)이 지연 장약 홀더(12) 내에 수용되고, 기폭 장치(10)가 기폭 장치 홀더(11) 내에 수용되며, 부스터 장약(9)이 수류탄 폭발 장약을 점화하는 수류탄 신관을 제공한다.
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| 19 | 충격소이신관이 결합된 사거리연장 예광자폭탄 | KR1019990015117 | 1999-04-27 | KR1020000067371A | 2000-11-15 | 강인영; 윤원환; 김남진 |
| PURPOSE: A range-extended tracer shell integral with an incendiary fuse is provided to apply a large impact to a target by exploding a bomb in a specific time required for the bomb to penetrate the target after hitting the target. CONSTITUTION: In occurrence of impact by contact between a bomb and a target, an ignition agent(11) in a fuse is exploded and an incendiary agent(12) is ignited. An incendiary agent(21) of a bomb body(20) is burnt by combustion heat from the incendiary agent(12). The bomb is exploded in a specific time after applying impact to the target. During delay time, a warhead penetrates into the target to be exploded therein. Thus, a large impact is applied to the target. | ||||||
| 20 | PYROTECHNISCHE VERZÖGERUNGSEINRICHTUNG FÜR EINEN MUNITIONSZÜNDER UND MÖRSERGRANATE MIT EINER DERARTIGEN VERZÖGERUNGSEINRICHTUNG | EP14744313.9 | 2014-07-24 | EP3036501B1 | 2018-03-14 | PAESCH, Alexander |
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