子分类:
- F42B3/103: ..起爆器中装起爆头的;密封塞
- F42B3/11: ..以使用的材料为特征的,例如用于起爆器壳或电导线的(F42B3/107优先)
- F42B3/113: ..用光学,例如激光、闪光手段激发的
- F42B3/117: ..用摩擦激发的
- F42B3/12: ..桥式起爆器{(F42B3/103, F42B3/11, F42B3/195 优先;推进物装药的电点火入 F42C19/12)}
- F42B3/14: ..火花起爆器{F42B3/195 优先}
- F42B3/16: ..{烟火的}延时起爆器(F42B3/195 优先;可编程电子延时起爆器入 F42C11/065)
- F42B3/18: ..能防止因静电或干扰电流而过早点火的安全起爆装置
- F42B3/192: ..为与水接触时平衡而设计的
- F42B3/195: ..制造
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | Igniter | JP19036083 | 1983-10-12 | JPS6082798A | 1985-05-10 | KOBARI KOUICHI; SUGI YOSHIKAZU |
| 82 | JPS5817157B2 - | JP10749775 | 1975-09-04 | JPS5817157B2 | 1983-04-05 | DEEBITSUDO TOOMASU ZEBURII |
| 83 | Apparatus within industrial detonator for low energy signal tube | JP4154479 | 1979-04-05 | JPS54138112A | 1979-10-26 | HANSU HANDOBORUGU; REIFU KURISUTENSEN; SUTEIGU NIKUBUISUTO |
| 84 | 電気回路遮断装置 | JP2016129098 | 2016-06-29 | JP2018006081A | 2018-01-11 | 酒井 俊行; 藤原 友秀 |
| 【課題】強度を維持したまま小型化できる電気回路遮断装置の提供。 【解決手段】樹脂ハウジング10内に点火器20、棒状発射体40、導体片50、絶縁空間61を有しており、棒状発射体40とハウジング10の内壁面の間に金属シリンダー30が配置され、さらに外側のハウジング10内部に補強用フレーム70が配置されている。絶縁空間61とハウジングの第2端部電気回路遮断装置1の間に点火器20の作動により生じた燃焼生成物の排出経路を有している。 【選択図】図1 |
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| 85 | 改良型点火管制御回路 | JP2014530679 | 2012-08-27 | JP6069326B2 | 2017-02-01 | クック、ブルース、エム |
| 86 | 膨張式のエアバッグシステムと共に使用するための小型の点火器組立体 | JP2015506992 | 2013-03-11 | JP2015519245A | 2015-07-09 | ライアン マーク ハバード,; ジェフ キダ, |
| 小型のインフレータ及び従来の寸法のインフレータと共に用いるよう適合された小型の点火器組立体を開示する。このような点火器組立体は、アダプタ、点火部、及びこの点火部に連結された、点火部からアダプタの開口へと第1の方向に延在する複数の導体を備えることができる。コネクタは、点火部からアダプタの開口への導体の延在に対応した第1の方向を横断する第2の方向に開口内へと摺動するよう適合される。点火器組立体は、膨張式のエアバッグシステムインフレータの本体に連結でき、このインフレータ本体は、多量のガス発生剤を閉じ込めてよい。膨張式のエアバッグクッションシステムと共に用いるために適合されたインフレータを作製する方法も含まれる。 | ||||||
| 87 | 改良型点火管制御回路 | JP2014530679 | 2012-08-27 | JP2014533447A | 2014-12-11 | クック、ブルース、エム |
| 点火管等の別のデバイスを付勢するように構成されている改良型制御回路。回路の第1の部分は、第1のトランジスタを含み、コンデンサに蓄積された電荷の第1の部分を第1の速度で放電するように構成されている。回路の別の部分は第2のトランジスタを含み、電荷の第1の部分の放電後に、電荷の第2部分を第1の速度より大きい第2の速度で放電するように構成されている。【選択図】図3 | ||||||
| 88 | Cover member for igniter | JP2012157619 | 2012-07-13 | JP2014020617A | 2014-02-03 | YAMAMOTO KOJI |
| PROBLEM TO BE SOLVED: To provide a cover member for covering a metallic cup of an igniter with high strength.SOLUTION: A cover member 10 covers a metallic header 24 with an electro-conductive pin 22, and a metallic cup 26 covering the header 24 so as to form an ignition agent charging space. The cover member 10 has a bottom surface part 12 and a peripheral wall part 16, and has a plurality of reinforcing ribs 18 on an inner circumferential surface of the peripheral wall 16. | ||||||
| 89 | Header assembly | JP2011511682 | 2009-04-30 | JP5400142B2 | 2014-01-29 | ダリオ, ジー. ブリジゲッラ,; マイケル, ペリー ジョーダン,; デイヴィッド, オーラル バラム,; グレード, アラン メレル,; ジェフリー, グレッグ ボー, |
| 90 | Electric detonators of the small explosives, and, micro systems using this equipment | JP2006505789 | 2004-04-09 | JP2006523816A | 2006-10-19 | ブリュノ コラン,; パトリック ブロワイエ,; ドニ ロレ, |
| 【課題】微小火薬の電気式起爆装置、及び、この装置を使用したマイクロシステムの提供。
【解決手段】本発明は、 少なくとも一つの微小火薬(3)の電気式起爆装置であって、 中央制御装置(8)の第一の端子に連結された少なくとも一つの導電性指状突起(6)を有する土台部分を含み、上記中央制御装置(8)の第二の端子は微小火薬(3)のための導電性土台に電気的に連結されることを意図したものであることを特徴とする装置に関する。 また、本発明は、上記起爆装置を使用したマイクロアクチュエーター(1、1a〜1h)及びマイクロシステム(1')にも関する。 |
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| 91 | Sealed electrical feed-through device that includes an insulating pin of the elliptical cross-section in a circular glass seal | JP2003346504 | 2003-10-06 | JP3787702B2 | 2006-06-21 | ヒーケ ニール |
| 92 | Thermal cutting, the igniter for the spear oxygen for drilling, etc. | JP2002551263 | 2001-12-17 | JP2004516445A | 2004-06-03 | ベールジェ エリクソン,; レナルト エリクソン, |
| この発明による方法と装置によれば、酸素やり(13)の点火器の点火装薬(6a,6b)の点火を開始する従来の純火工材料プライマーが少量の粉末ジルコニウム(7)により置き換えられる。 ジルコニウムは通常の空気中では普通の木材ほど易燃性ではないが、純酸素の十分な量の存在下に、それが十分大きな表面積を持つとすれば発火性であり、従って発火する。
【選択図】図1 |
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| 93 | Sealed electrical feed-through device provided with isolated pin having oval cross section in circular glass seal | JP2003346504 | 2003-10-06 | JP2004144465A | 2004-05-20 | HEEKE NEIL |
| PROBLEM TO BE SOLVED: To provide a sealed electrical feed-through device in which a conductive isolated pin is sealed with a glass seal, and in which distortion is dispersed uniformly along the whole glass seal. SOLUTION: A conductive main body 11, having a front surface and a back surface, is provided with a circular through hole O. A conductive isolated pin 13 is sealed with the glass seal 17 at a center of the circular through hole O to be extended from the back surface of the conductive main body 11 outward, with one end accessible from the front surface of the conductive main body. A conductive grounding pin 15 is connected to the back surface of the conductive main body in parallel to the pin 13 to be extended from the back surface of the conductive main body 11 outward. The isolated pin 13 is provided with an oval or elliptical cross section 13a extended through the glass seal 17 from the back surface of the conductive main body to one end of the pin. Bridge wire of different lengths can thus be connected between the front surface of the conductive main body and one end of the isolated pin that is accessible from the front surface of the conductive main body 11. COPYRIGHT: (C)2004,JPO | ||||||
| 94 | Quick expansive metal mixture capsule structure | JP2002308694 | 2002-10-23 | JP2003214800A | 2003-07-30 | KIM CHANG SUN |
| PROBLEM TO BE SOLVED: To provide the quick expansive metal mixture capsule structure for easily providing a trigger temperature for generating the oxidation reaction in the quick expansive metal mixture. SOLUTION: This capsule structure contains an insulating outer casing 14, the quick expansive metal mixture 12 filled in the outer casing 14, a pair of arc discharging trigger needles 24 and 24 embedded in the quick expansive metal mixture 12, and a pair of power source supply rods 22 and 23 connected to the pair of arc discharging trigger needles 24 and 24 to transmit a high voltage from an external high voltage generating device to the pair of arc discharging trigger needles 24 and 24. A line of the trigger needle rods 20 formed by arranging a plurality of trigger needle rods 20 connected to one outward-directed arc discharging trigger needle rods 24 and 24 at one end thereof between the pair of arc discharging trigger needles 24 and 24 connected to the pair of power source supply rods 22 and 23 so that the arc discharging trigger needles 24 and 24 opposite to each other are arranged with a space. COPYRIGHT: (C)2003,JPO | ||||||
| 95 | Rolling laser detonator detonator | JP16625691 | 1991-06-12 | JP2945173B2 | 1999-09-06 | NAKANO MASASHI; IKEGAMI TAKASHI; EBITANI YASUHARU; TAKANO MIKIO; MYAJIMA TOSHIKAZU; SATO TOSHIBUMI |
| 96 | Electrical delay detonator | JP25086 | 1986-01-07 | JPH0820198B2 | 1996-03-04 | 研一 愛甲; 洋一 栗原 |
| 97 | Signal delay assembly body | JP3514291 | 1991-02-06 | JPH0534100A | 1993-02-09 | RONARUDO EMU DEYUFUREIN; AANESUTO ERU GURATSUDEN; ROBAATO JII PARANKU |
| PURPOSE: To retain a delay fuse wire fireworks composition that reacts securely by controlling the speed of pressure that operates on a signal delay assembly body that is used with a detonation device or a signal transmission pipe delay device, giving function time for accurate prediction, and improving reliability. CONSTITUTION: A delay fuse wire ignition buffer member 45 is located between a percussion device housing 15 or a transmission pipe 11 in a signal transmission pipe housing and a delay fuse wire 25. A buffer member controls speed where a transmission pipe temperature/pressure pulse operates on the surface of a delay fuse wire fireworks composition, attenuates pulse effect, and makes accurate delay timing. The buffer member attenuates the rapid pressure reduction effect in a percussion device caused by the explosion of the transmission pipe or the discharge of a pipe from the housing, thus preventing the reacting fireworks composition from being separated. When the fireworks composition is separated by mistake, the reaction stops at the point of separation and hence the delay fuse wire that should continue the combustion of the fireworks composition for its length fails. | ||||||
| 98 | Multi-directional initiator for explosive | JP2412489 | 1989-02-03 | JPH028697A | 1990-01-12 | DEI ERU KENEDEI; DEI JII TORUU; DEI EMU UERUSHIYU |
| PURPOSE: To achieve omni-directional full order blasting of a column of explosives confined in a blasting hole by blasting the column of explosives with a fuse assembly or a similar initiator and supplying an explosion wave simultaneously in the opposite directions along the column of explosives. CONSTITUTION: At the time of blasting, a blasting hole is inserted with a case of emulsion explosives cartridge until substantially one half of the hole is filled with explosives. A fuse carrier containing fuses 1, 8 is then inserted into the blasting hole to produce a single case of explosives. Remaining part of the blasting hole is then charged hermetically with another case of explosives. The fuses 1, 8 are blasted substantially simultaneously. Energy from the fuse 1 is directed downward toward the base of the muzzle while energy from the fuse 8 is directed upward toward the muzzle. More specifically, explosives in the blasting hole is blasted simultaneously in all directions at high speed thus attaining a maximum explosion energy while minimizing unexploded residue in the blasting hole. COPYRIGHT: (C)1990,JPO | ||||||
| 99 | JPS6224400B2 - | JP4154479 | 1979-04-05 | JPS6224400B2 | 1987-05-28 | HANSU HANDOBORUGU; REIFU KURISUTENSEN; SUTEIGU NIKUISUTO |
| 100 | Identification of primer | JP20555584 | 1984-10-02 | JPS6184676A | 1986-04-30 | KURIHARA YOICHI |
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