会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Low-energy shock tube connector system
    • 低能量冲击管连接器系统
    • US06305287B1
    • 2001-10-23
    • US09260818
    • 1999-03-02
    • John CapersGoran Jidestig
    • John CapersGoran Jidestig
    • C06C504
    • F42D1/043C06C5/06C06C7/00
    • A shock tube connector system comprises a substantially cylindrical detonator having a longitudinal axis a block body receiving the detonator therein, and an end cap. The detonator includes an axisymmetric exterior shell including a cylindrical main section, a cylindrical explosive end portion having a diameter less than the diameter of the main section, and a transition portion connecting the main section and the explosive end portion of the shell. An explosive charge is contained within the explosive end portion of the shell and is distributed along the longitudinal length of the explosive end portion. The explosive charge preferable comprises two portions of lead azide or a first charge portion of lead azide and PETN and a second charge portion of PETN. An initiating shock tube is operatively connected to the explosive charge via a delay element. The block body includes a housing within which the main section of the detonator is received. A tube holder connected to one end of the housing includes a base member having a bore within which the explosive end portion of the detonator is received. The tube holder is T-shaped and includes a pair of engaging flanges spaced from the base member on laterally opposite sides of the base member to define therebetween pair of engaging slots extending parallel to the longitudinal axis of the detonator and alongside the explosive end of the detonator received in the bore. Each engaging slot is adapted to frictionally grip at least four shock tubes alongside the explosive end of the detonator with the longitudinal axes of the shock tubes substantially orthogonal to the longitudinal axis of the detonator. The end cap is connected to the other end of the housing and secures the detonator within the block body.
    • 冲击管连接器系统包括基本上圆柱形的雷管,其具有纵向轴线,其中容纳雷管的块体和端盖。 雷管包括:轴对称外壳,包括圆筒形主体部分,直径小于主部分直径的圆柱形爆炸端部;以及连接主体部分和壳体的爆炸端部的过渡部分。 爆炸装置容纳在壳体的爆炸端部内,沿爆炸端部的纵向长度分布。 炸药优选包括叠氮化铅或叠氮化铅和PETN的第一电荷部分和PETN的第二电荷部分的两部分。 启动的冲击管通过延迟元件可操作地连接到炸药。 块体包括壳体,其中雷管的主要部分被容纳在该壳体内。 连接到壳体的一端的管保持器包括具有孔的基部构件,其中雷管的爆炸端部被容纳在孔中。 管支架是T形的,并且包括一对接合凸缘,其在底部构件的横向相对的侧面上与基部构件间隔开,以在其间限定一对平行于雷管的纵向轴线延伸的接合槽, 雷管收到钻孔。 每个接合槽适于与雷管的爆炸端一起摩擦地夹持至少四个冲击管,其中冲击管的纵向轴线基本上垂直于雷管的纵向轴线。 端盖连接到壳体的另一端并将雷管固定在块体内。
    • 2. 发明授权
    • Detonator for shock tube connector system
    • 雷管用于冲击管连接器系统
    • US06349648B1
    • 2002-02-26
    • US09693110
    • 2000-10-20
    • John CapersGoran Jidestig
    • John CapersGoran Jidestig
    • C06C504
    • F42D1/043C06C5/06C06C7/00
    • A shock tube connector system comprises a substantially cylindrical detonator having a longitudinal axis a block body receiving the detonator therein, and an end cap. The detonator includes an axisymmetric exterior shell including a cylindrical main section, a cylindrical explosive end portion having a diameter less than the diameter of the main section, and a transition portion connecting the main section and the explosive end portion of the shell. An explosive charge is contained within the explosive end portion of the shell and is distributed along the longitudinal length of the explosive end portion. The explosive charge preferable comprises two portions of lead azide or a first charge portion of lead azide and PETN and a second charge portion of PETN. An initiating shock tube is operatively connected to the explosive charge via a delay element. The block body includes a housing within which the main section of the detonator is received. A tube holder connected to one end of the housing includes a base member having a bore within which the explosive end portion of the detonator is received. The tube holder is T-shaped and includes a pair of engaging flanges spaced from the base member on laterally opposite sides of the base member to define therebetween pair of engaging slots extending parallel to the longitudinal axis of the detonator and alongside the explosive end of the detonator received in the bore. Each engaging slot is adapted to frictionally grip at least four shock tubes alongside the explosive end of the detonator with the longitudinal axes of the shock tubes substantially orthogonal to the longitudinal axis of the detonator. The end cap is connected to the other end of the housing and secures the detonator within the block body.
    • 冲击管连接器系统包括基本上圆柱形的雷管,其具有纵向轴线,其中容纳雷管的块体和端盖。 雷管包括:轴对称外壳,包括圆筒形主体部分,直径小于主部分直径的圆柱形爆炸端部;以及连接主体部分和壳体的爆炸端部的过渡部分。 爆炸装置容纳在壳体的爆炸端部内,沿爆炸端部的纵向长度分布。 炸药优选包括叠氮化铅或叠氮化铅和PETN的第一电荷部分和PETN的第二电荷部分的两部分。 启动的冲击管通过延迟元件可操作地连接到炸药。 块体包括壳体,其中雷管的主要部分被容纳在该壳体内。 连接到壳体的一端的管保持器包括具有孔的基部构件,其中雷管的爆炸端部被容纳在孔中。 管支架是T形的,并且包括一对接合凸缘,其在底部构件的横向相对的侧面上与基部构件间隔开,以在其间限定一对平行于雷管的纵向轴线延伸的接合槽, 雷管收到钻孔。 每个接合槽适于与雷管的爆炸端一起摩擦地夹持至少四个冲击管,其中冲击管的纵向轴线基本上垂直于雷管的纵向轴线。 端盖连接到壳体的另一端并将雷管固定在块体内。
    • 3. 发明授权
    • Signal transmission fuse
    • 信号传输保险丝
    • US06170398B2
    • 2001-01-09
    • US08920516
    • 1997-08-29
    • Nickolay Iliych RabotinskyVladimir Vasilievitch FurneUriy Gennadievitch PechenevIgor Vasilievitch NikitinIrina Genadievna BeljankinaErnest L. Gladden
    • Nickolay Iliych RabotinskyVladimir Vasilievitch FurneUriy Gennadievitch PechenevIgor Vasilievitch NikitinIrina Genadievna BeljankinaErnest L. Gladden
    • C06C504
    • C06C5/00C06C5/04C06C5/08
    • A signal transmission fuse is made of a tube (36) which encases a support tape (14) having a reactive coating (18′) which is adhered to one side of the tape by a binder. A method of making the signal transmission fuse includes depositing on the support tape (14) a reactive paint (18) including a binder, which paint dries to form a reactive coating (18′). The coated support tape (14′) is then folded, i.e., formed into a channel configuration, to provide an inner concave side of the tape on which the reactive coating (18′) has been disposed. The coated support tape is then enclosed, e.g., within an extruded plastic tube (36). One side of the support tape may be made of a first material (14a) to which the reactive coating adheres, and a second side may be made of a second material (14b) which bonds or adheres to the inner surface (36a) of the plastic tube (36) enclosing the coated support tape (14′). The binder causes even high loadings of the reactive coating (18′) to adhere to the coated support tape (14′) to prevent reactive material migration. The support tape also shields the reactive material from the hot, freshly extruded surrounding plastic tube (36) during manufacture.
    • 信号传输保险丝由管(36)制成,该管(36)包围具有反应性涂层(18')的支撑带(14),所述反应性涂层(18')通过粘合剂粘附在带的一侧。 制造信号传输保险丝的方法包括在支撑带(14)上沉积包括粘合剂的反应性涂料(18),该涂料干燥以形成反应性涂层(18')。 然后,涂覆的支撑带(14')被折叠,即形成为通道构造,以提供其上布置有反应性涂层(18')的带的内凹面。 然后涂覆的支撑带被封闭,例如在挤出的塑料管(36)内。 支撑带的一侧可以由第一材料(14a)制成,反应性涂层粘附到第一材料(14a)上,第二侧可由第二材料(14b)制成,第二材料(14b)与第二材料(14b)的内表面(36a)粘合或粘合 包围涂覆的支撑带(14')的塑料管(36)。 粘合剂导致反应性涂层(18')的甚至高负载粘附到涂覆的支撑带(14')以防止反应性材料迁移。 在制造期间,支撑带还可以将热反应性材料与新鲜挤压的周围塑料管(36)进行屏蔽。
    • 4. 发明授权
    • Method and apparatus for coupling explosive devices
    • 用于联接爆炸装置的方法和装置
    • US06397752B1
    • 2002-06-04
    • US09481913
    • 2000-01-12
    • Wenbo YangRobert A. Parrott
    • Wenbo YangRobert A. Parrott
    • C06C504
    • E21B43/1185
    • A gun system in one arrangement includes a first carrier including a detonating cord and a second carrier including a detonating cord. An adapter couples the first and second carriers, with the adapter including an explosive coupled to the detonating cord of one of the first and second carriers. The explosive is positioned in a reduced housing portion of the adapter. The reduced housing portion of the adapter has a first outer diameter less than an inner diameter of the first carrier to provide a predetermined annular space between the reduced adapter portion and the inner diameter of the first carrier. At least one of the detonating cords in the first and second carriers is attached to a retainer element, and the retainer element is placed in close proximity to the explosive to maintain an axial position of the detonating cord to reduce separation between the detonating cord and the explosive. In addition, the explosive is placed some axial distance away from sensitive elements in the adapter, such as sealing elements and connector elements, to protect the sensitive elements from detonation of the explosive.
    • 一种装置中的枪系统包括包括引爆绳的第一载体和包括引爆绳的第二载体。 适配器将第一和第二载体连接,适配器包括联接到第一和第二载体之一的引爆绳的爆炸物。 炸药定位在适配器的减小的壳体部分中。 适配器的减小的壳体部分具有小于第一载体的内径的第一外径,以在减小的适配器部分和第一载体的内径之间提供预定的环形空间。 第一和第二托架中的至少一个引爆绳附接到保持器元件,并且保持器元件被放置在紧邻炸药的位置,以保持引爆绳的轴向位置,以减少引爆绳和 爆炸性 此外,炸药被放置在适配器中的敏感元件(例如密封元件和连接器元件)的一些轴向距离处,以保护敏感元件免于爆炸物的爆炸。
    • 5. 发明授权
    • Method of making a signal transmission fuse
    • 制作信号传输保险丝的方法
    • US06347566B1
    • 2002-02-19
    • US09627830
    • 2000-07-31
    • Nickolay Iliych RabotinskyVladimir Vasilievitch FurneUriy Gennadievitch PechenevIgor Vasilievitch NikitinIrina Genadievna BeljankinaErnest L. Gladden
    • Nickolay Iliych RabotinskyVladimir Vasilievitch FurneUriy Gennadievitch PechenevIgor Vasilievitch NikitinIrina Genadievna BeljankinaErnest L. Gladden
    • C06C504
    • C06C5/00C06C5/04C06C5/08
    • A signal transmission fuse is made of a tube (36) which encases a support tape (14) having a reactive coating (18′) which is adhered to one side of the tape by a binder. A method of making the signal transmission fuse includes depositing on the support tape (14) a reactive paint (18) including a binder, which paint dries to form a reactive coating (18′). The coated support tape (14′) is then folded, i.e., formed into a channel configuration, to provide an inner concave side of the tape on which the reactive coating (18′) has been disposed. The coated support tape is then enclosed, e.g., within an extruded plastic tube (36). One side of the support tape may be made of a first material (14a) to which the reactive coating adheres, and a second side may be made of a second material (14b) which bonds or adheres to the inner surface (36a) of the plastic tube (36) enclosing the coated support tape (14′). The binder causes even high loadings of the reactive coating (18′) to adhere to the coated support tape (14′) to prevent reactive material migration. The support tape also shields the reactive material from the hot, freshly extruded surrounding plastic tube (36) during manufacture.
    • 信号传输保险丝由管(36)制成,该管(36)包围具有反应性涂层(18')的支撑带(14),所述反应性涂层(18')通过粘合剂粘附在带的一侧。 制造信号传输保险丝的方法包括在支撑带(14)上沉积包括粘合剂的反应性涂料(18),该涂料干燥以形成反应性涂层(18')。 然后,涂覆的支撑带(14')被折叠,即形成为通道构造,以提供其上布置有反应性涂层(18')的带的内凹面。 然后涂覆的支撑带被封闭,例如在挤出的塑料管(36)内。 支撑带的一侧可以由第一材料(14a)制成,反应性涂层粘附到第一材料(14a)上,第二侧可由第二材料(14b)制成,第二材料(14b)与第二材料(14b)的内表面(36a)粘合或粘合 包围涂覆的支撑带(14')的塑料管(36)。 粘合剂导致反应性涂层(18')的甚至高负载粘附到涂覆的支撑带(14')以防止反应性材料迁移。 在制造期间,支撑带还可以将热反应性材料与新鲜挤压的周围塑料管(36)进行屏蔽。
    • 6. 发明授权
    • Heat transfer delay
    • 热传递延迟
    • US06298784B1
    • 2001-10-09
    • US09428329
    • 1999-10-27
    • Gregory D. KnowltonBruce B. AndersonTheodore B. Gortemoller
    • Gregory D. KnowltonBruce B. AndersonTheodore B. Gortemoller
    • C06C504
    • F42B3/103C06B45/00C06C5/06C06C9/00F42B3/11
    • A heat transfer delay for providing a delay time in propellant, pyrotechnic, and explosive devices, and a method of delaying production of a non-detonating thermal output with the heat transfer delay. A representative delay is in the form of a housing having a first heat source cavity, a second heat source cavity, and a heat transfer cavity connecting the first and second heat source cavities. A pyrotechnic heat source is placed in thermal contact with the first heat source cavity, and a non-detonating autoignition material is placed in thermal contact with the second heat source cavity. Upon ignition and combustion or reaction, the pyrotechnic heat source generates an amount of heat sufficient to heat the first heat source cavity to a temperature sufficiently high to cause a transfer of a sufficient amount of heat through the heat transfer cavity to the second heat source cavity to heat it to a temperature sufficiently high to ignite the non-detonating autoignition material, and produce a non-detonating thermal output therefrom, where the heat transfer bridge conducts heat at a rate such that a delay time of at least about 0.5 second elapses between ignition of the heat source and ignition of the non-detonating autoignition material.
    • 用于在推进剂,烟火和爆炸装置中提供延迟时间的热传递延迟以及延迟具有传热延迟的非引爆热输出的产生的方法。 代表性的延迟是具有第一热源腔,第二热源腔和连接第一和第二热源腔的传热腔的壳体的形式。 烟火热源被放置成与第一热源腔体热接触,并且非引爆自燃物质被放置成与第二热源腔体热接触。 在点燃和燃烧或反应时,烟火热源产生足以将第一热源腔加热到足够高的温度的热量,以使足够量的热量通过传热腔传递到第二热源腔 将其加热到足够高的温度以点燃非引爆自燃物质,并从其中产生非引爆的热输出,其中传热桥以使得至少约0.5秒之间的延迟时间经过至少约0.5秒的延迟时间 点火的热源和点火的非引爆自燃材料。
    • 10. 发明授权
    • High-output insensitive munition detonating cord
    • 高输出不灵敏弹药引爆绳
    • US06247410B1
    • 2001-06-19
    • US09215923
    • 1998-12-10
    • Felipe Garcia
    • Felipe Garcia
    • C06C504
    • C06B25/34C06C5/04
    • A detonating cord has a core of highly brisant PBXN-8 explosive surrounded by an inner braided layer of polyamide yarn, a flexible sealing sleeve of silicone rubber coated with glue, and an outer braided layer of polyamide yarn adhered to the sealing sleeve. Booster cups may be crimped to opposite ends of detonating cord to place booster charges adjacent the core to assure more reliable detonation of associated ordnance. The method of manufacture of detonating cord calls for providing a core of explosive PBXN-8 slurry, weaving an inner braided layer of polyamide yarn on the core, squeezing moisture out of the core of explosive PBXN-8 slurry during the weaving of the inner braided layer, applying a flexible sleeve of silicone rubber on the inner braided layer, coating glue on the flexible sleeve, and weaving an outer braided layer of polyamide yarn on the glue. Optionally, squeezing the core of explosive PBXN-8 slurry between rollers may be desirable to further remove excess moisture. The detonating cord of this invention provides safe, reliable, and non-electric detonation of boostered or boosterless insensitive warheads or shaped charges distributed along a line. The detonating cord of this invention: (a) withstands severe dynamic loading, (b) survives extreme environmental and logistics conditions, survives landing over razor sharp wire obstacles like triple standard concertina, and (c) meets all US DOD IM requirements of MIL-STD-2105 and NAVSYSCOMINST 8010.5.
    • 引爆线具有由聚酰胺纱线的内部编织层围绕的高度兴奋的PBXN-8炸药的核心,涂有胶的硅橡胶的柔性密封套和粘附到密封套上的聚酰胺纱线的外部编织层。 增压杯可以卷曲到引爆线的相对端,以将增压器充电到核心附近,以确保更可靠地引爆相关的弹药。 引爆线的制造方法要求提供爆炸性PBXN-8浆料的核心,在内芯上编织聚酰胺纱线的内编织层,在编织内编织时将水分从爆炸性PBXN-8浆料的核心挤出 在内编织层上涂布硅橡胶柔性套筒,在柔性套管上涂胶,并在胶上编织聚酰胺纱线的外编织层。 可选地,挤压辊子之间的爆炸PBXN-8浆料的核心可能是期望的,以进一步去除多余的水分。 本发明的引爆线提供安全,可靠和非电气引爆的沿着一条线分布的增压或无增压不敏感弹头或成形电荷。 本发明的引爆线:(a)经受严重的动态载荷,(b)在极端的环境和物流条件下生存下来,通过剃刀尖锐的线障碍(如三重标准的三角琴)着陆,(c)满足美国DOD IM对MIL- STD-2105和NAVSYSCOMINST 8010.5。