| 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 | 半导体电桥装置以及具备半导体电桥装置的点火器 | CN200580033640.1 | 2005-10-04 | CN101036034B | 2012-11-28 | 前田繁; 椋木大刚 |
| 本发明提供一种至产生火花为止的反应时间较短、且火花产生量也较大的半导体电桥装置。本发明的半导体电桥装置,是在基板上具有一对焊盘部分及电性连接这一对焊盘部分的电桥部,并通过配置在这一对焊盘部分上面的电极极板而通电,以此使该电桥部中产生火花,此半导体电桥装置的特征在于,这一对焊盘部分及该电桥部是由将多组金属层与金属氧化物层交替重叠而成的叠置层所构成,并将该叠置层的最上层设为金属层,并且使用分解温度超过1500℃的金属氧化物作为该金属氧化物层。 | ||||||
| 2 | 与安全气囊充气装置和启动装置一起使用的保护系统 | CN201010198258.9 | 2010-06-04 | CN101920688B | 2013-03-27 | 戴维·汉森 |
| 本发明与安全气囊充气装置和启动装置一起使用的保护系统公开了一种充气装置组件,所述充气装置组件可包括充气装置壳体以及附接于所述充气装置壳体的启动装置。变阻器与启动装置相关联并且可与充气装置壳体的表面相间隔,以在变阻器与充气装置壳体的表面之间限定出第一火花隙。 | ||||||
| 3 | 与安全气囊充气装置和启动装置一起使用的保护系统 | CN201010198258.9 | 2010-06-04 | CN101920688A | 2010-12-22 | 戴维·汉森 |
| 本发明与安全气囊充气装置和启动装置一起使用的保护系统公开了一种充气装置组件,所述充气装置组件可包括充气装置壳体以及附接于所述充气装置壳体的启动装置。变阻器与启动装置相关联并且可与充气装置壳体的表面相间隔,以在变阻器与充气装置壳体的表面之间限定出第一火花隙。 | ||||||
| 4 | 半导体电桥装置以及具备半导体电桥装置的点火器 | CN200580033640.1 | 2005-10-04 | CN101036034A | 2007-09-12 | 前田繁; 椋木大刚 |
| 本发明提供一种至产生火花为止的反应时间较短、且火花产生量也较大的半导体电桥装置。本发明的半导体电桥装置,是在基板上具有一对焊盘部分及电性连接这一对焊盘部分的电桥部,并通过配置在这一对焊盘部分上面的电极极板而通电,以此使该电桥部中产生火花,此半导体电桥装置的特征在于,这一对焊盘部分及该电桥部是由将多组金属层与金属氧化物层交替重叠而成的叠置层所构成,并将该叠置层的最上层设为金属层,并且使用分解温度超过1500℃的金属氧化物作为该金属氧化物层。 | ||||||
| 5 | Protection system for use with an air bag inflator and initiator | JP2010129625 | 2010-06-07 | JP5220061B2 | 2013-06-26 | ディーン ハンセン デビッド |
| 6 | Ignition device comprising a semiconductor bridge device and a semiconductor bridge device | JP2006539351 | 2005-10-04 | JP4746554B2 | 2011-08-10 | 繁 前田; 大剛 椋木 |
| 7 | JPS50101738A - | JP503075 | 1975-01-10 | JPS50101738A | 1975-08-12 | |
| 8 | Remote starting destruction system | JP2012529705 | 2009-12-02 | JP2013505420A | 2013-02-14 | ニール バランタイン,ロジャー; ハンフリーズ,トニー; グロブラー,デオン; ラヴレンチク,ドラゴ; ハミルトン,デイヴィッド |
| A remote initiator breaching system for initiating breaching charges over a short range requiring no physical link between the breacher and the demolition charge. The remote initiator breaching system has at least one transmitter, at least one receiver, at least one shock tube connectable to a breaching charge and a power source for each of the transmitter and receiver. The transmitter is able to generate and transmit a coded signal. The transmitter has an input for inputting operational commands into the transmitter for generating the coded signal, The transmitter has a plurality of channels representing different frequency bands, and multiple addresses for each channel such that transmission of the coded signal from the transmitter to the receiver is possible per individual addresses or all addresses simultaneously. | ||||||
| 9 | Protection system for use with airbag inflator and initiator | JP2010129625 | 2010-06-07 | JP2011016515A | 2011-01-27 | HANSEN DAVID DEAN |
| PROBLEM TO BE SOLVED: To operate an initiator as designed by minimizing exposure of the initiator to electrostatic energy.SOLUTION: An inflator assembly includes an inflator housing and the initiator 12 attached to the inflator housing. A varistor 58 is associated with the initiator 12, and the varistor 58 is spaced apart from the surface of the inflator housing to form a first spark gap between the varistor and the surface of the inflator housing. | ||||||
| 10 | 半導体電橋装置および半導体電橋装置を備える点火具 | JP2006539351 | 2005-10-04 | JPWO2006038703A1 | 2008-05-15 | 繁 前田; 大剛 椋木 |
| 火花発生までの反応時間が短く、かつ火花発生量も大きい半導体電橋装置を提供する。基板上に、一対のランド部分と該一対のランド部分を電気的に接続する電橋部を有し、該一対のランド部分の上面に配設した電極パッドを介して通電することにより、該電橋部において火花を発生させる半導体電橋装置であって、該一対のランド部分および該電橋部が、金属層と金属酸化物層を交互に複数組重ね合わせたラミネート層からなり、該ラミネート層の最上層を金属層にすると共に、該金属酸化物層として分解温度が1500℃超の金属酸化物を用いる。 | ||||||
| 11 | 電気的にコントロールされた可変力によるエアバッグの展開および膨張 | JP2016568681 | 2015-05-15 | JP6312863B2 | 2018-04-18 | ヴィラレアル,ジェームズ,ケイ.; デッペルト,トーマス,エム.; ランゲンリー,マーク,ティー.; サマーズ,マット,エイチ |
| 12 | 電気的にコントロールされた可変力によるエアバッグの展開および膨張 | JP2016568681 | 2015-05-15 | JP2017517434A | 2017-06-29 | ヴィラレアル,ジェームズ,ケイ.; デッペルト,トーマス,エム.; ランゲンリー,マーク,ティー.; サマーズ,マット,エイチ |
| 少なくとも1000psiの自立した閾値を有する電気的に操作される発射火薬の燃焼割合がコントロールされ、自立した閾値を決して超えることなく、ヒューマンファクタと衝突条件の範囲を受け入れるように、エアバッグの中の所望の圧力プロフィールを生成するのに十分なチャンバ圧力を生成する。発射火薬の燃焼は、エアバッグに対して配送される全体圧力インパルスをコントロールするために消火される。イオン過塩素酸塩ベースの酸化剤を用いて形成された発射火薬は、1500psiを超えて、より高い閾値を実証した。 | ||||||
| 13 | Stable initiator composition and ignition device | JP2007527160 | 2004-05-20 | JP2007537967A | 2007-12-27 | デニス, ダブリュー. ソラス,; スーンホー ソン,; カーティス トム,; ロン, エル. ヘイル,; ヒラリー, エヌ. ペティット,; ミンツー レイ, |
| 電力量が抑制されたハイスパーク開始剤組成物(718)が開示される。 開始剤組成物は、金属含有酸化剤と、少なくとも1種の金属還元剤と、非爆発性バインダとを含む。 点火時に両方向の噴出を生じる低電圧点火装置も開示される。 これらの点火装置は、噴出の向きを定めるサポート(712)内の孔(713)を横切るように位置付けられた電気抵抗素子(716)を有する。 これらの点火装置及び組成物は、固体燃料加熱ユニット、特に、密封加熱ユニットのアクチュエーションに有用である。
【選択図】 図1 |
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| 14 | 격벽착화기 | KR1019980032583 | 1998-08-11 | KR1020000013618A | 2000-03-06 | 이효남; 장석태; 길현용 |
| PURPOSE: A partition detonator is provided to be able to detonate a gun powder which is mutually divided into a metal partition by using a characteristic that the gunpowder detonates or blasts even by a shock. CONSTITUTION: The partition detonator is composed of:a body(1) formed with a spiral on an outer face and a space unit on both sides of a gap between the partitions; a donor source detonated by the electric stimulus of the outside, sealed in the space unit on one side of the body; an acceptor gunpowder and a main detonation powder(5) detonated by receiving a shock wave caused by the detonation of the donor source through the partition, sealed in a space on other side of the body; a separating disk(6) for blocking a mutual chemical reaction, inserted between the acceptor gunpowder and the main detonation powder. | ||||||
| 15 | 스퀴브 착화 시스템 | KR1020150133361 | 2015-09-21 | KR1020170034709A | 2017-03-29 | 전원보; 이민석 |
| 유도무기에탑재되는스퀴브소자의안정적인착화를위한스퀴브착화시스템이개시된다. 본발명의실시예는, 외부로부터전압조정명령및 착화명령을수신하는제어로직(FPGA)과, 수신된전압조정명령에근거하여전압을조정하는전압조정부와, 전압조정부가기설정된동작조건을만족하는경우, 외부로부터수신된착화명령에근거하여착화신호를발생시키는스퀴브착화회로부를포함한다. 또, 상기시스템은, 착화신호에대응되는착화전류가과전류에해당하는지여부를지속적으로감시하여, 발생된착화신호를차단할수 있다. | ||||||
| 16 | REPEATABLE PLASMA GENERATOR AND METHOD FOR THE SAME | EP12862246.1 | 2012-12-17 | EP2798302B1 | 2018-07-18 | ÅBERG, Denny |
| The invention relates to a method for the repeatable initiation of propellent charges in a weapon system, for example in the firing of projectiles from a barrel weapon, through electrical discharge between a rear electrode (22) and a front electrode (21) in a combustion chamber channel (3) filled with filler gas and comprising a combustion chamber combustion element (30), in which the filler gas in the combustion chamber channel (3) is ionized via a high-voltage potential from at least one ionizing electrode (100, 101, 102, 103), which ionization increases the electrical conductivity in the combustion chamber channel (3) so that an electrical flashover, through electrical discharge via a high-voltage generator (5) between the rear electrode (22) and the front electrode (21), is generated from the rear electrode (22) via at least one ionizing electrode (100, 101, 102, 103) onward to the front electrode (21), which results in hot ignition gas with plasma-like state being expelled from the combustion chamber channel (3). The invention also relates to a plasma generator for the said method, and to an ammunition unit comprising the said plasma generator. | ||||||
| 17 | ELECTRICALLY CONTROLLED VARIABLE FORCE DEPLOYMENT AIRBAG AND INFLATION | EP15724924.4 | 2015-05-15 | EP3148847A2 | 2017-04-05 | VILLARREAL, James K.; DEPPERT, Thomas M.; LANGHENRY, Mark T.; SUMMERS, Matt H. |
| The rate of combustion of an electrically operated propellant having self-sustaining threshold of at least 1,000 psi is controlled to produce chamber pressures that are sufficient to produce a desired pressure profile in the airbag to accommodate a range of human factors and crash conditions yet never exceeding the self-sustaining threshold. The combustion of the propellant is extinguished to control the total pressure impulse delivered to the airbag. Propellants formed with an ionic perchlorate-based oxidizer have demonstrated thresholds in excess of 1,500 psi and higher. | ||||||
| 18 | REPEATABLE PLASMA GENERATOR AND METHOD FOR THE SAME | EP12862246.1 | 2012-12-17 | EP2798302A1 | 2014-11-05 | ÅBERG, Denny |
| The invention relates to a method for the repeatable initiation of propellent charges in a weapon system, for example in the firing of projectiles from a barrel weapon, through electrical discharge between a rear electrode (22) and a front electrode (21) in a combustion chamber channel (3) filled with filler gas and comprising a combustion chamber combustion element (30), in which the filler gas in the combustion chamber channel (3) is ionized via a high-voltage potential from at least one ionizing electrode (100, 101, 102, 103), which ionization increases the electrical conductivity in the combustion chamber channel (3) so that an electrical flashover, through electrical discharge via a high-voltage generator (5) between the rear electrode (22) and the front electrode (21), is generated from the rear electrode (22) via at least one ionizing electrode (100, 101, 102, 103) onward to the front electrode (21), which results in hot ignition gas with plasma-like state being expelled from the combustion chamber channel (3). The invention also relates to a plasma generator for the said method, and to an ammunition unit comprising the said plasma generator. | ||||||
| 19 | STABLE INITIATIVECOMPOSITIONS AND IGNITERS | EP04809412.2 | 2004-05-20 | EP1748971A1 | 2007-02-07 | HALE, Ron, L.; LEI, Mingzu; PETTIT, Hilary, N.; SOLAS, Dennis, W.; SONG, Soonho; TOM, Curtis |
| High sparking initiator compositions (718) with a controlled amount of power are disclosed. The initiator compositions comprise a metal containing oxidizing agent, at least one metal reducing agent, and a non-explosive binder. Low voltage igniters that provide bidirectional plumes upon ignition are also disclosed. These igniters have a electrically resistive element (716) positioned across a hole (713) in a support (712) which directs the plume. These igniters and compositions are useful in the actuation of solid fuel heating unit, in particular, sealed heating units. | ||||||
| 20 | WELDING APPARATUS AND METHOD | EP03735028.7 | 2003-01-27 | EP1472037A2 | 2004-11-03 | MOORE, Dean, T.; FLAHERTY, David; ING, Melissa, A. |
| A self-contained crucible assembly (50) for forming a weld between a pair of metal articles (190, 192), includes a container (52) with side walls (54) and a fusible bottom (56), a refractory material (60) lining the side walls (54), an exothermic weld material (64) within the container (52), an ignitor (66) partially within or close to the weld material (64) and partially external to the container (52), and a cover (74) sealing the weld material (64). The ignitor (66) may be stiffened to maintain its shape, and keep it in a desired position relative to the exothermic weld material (64). The crucible assembly (50) is configured to be placed on mold (178) having a chamber (176) therein. Upon ignition of the weld material (64) via actuation of the ignitor (66), the weld mateiral (64) reacts exothermically to produce molten weld metal and slag. The fusible bottom (56) of the container (52) is melted by the liquified molten metal, and the weld material (64) flows into a weld chamber (186) of the mold (178) to produce the weld. | ||||||
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