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    • 13. 发明授权
    • Inflator device with fuel-rich monolithic grain and oxidant-enhanced combustion
    • 具有燃料丰富的整体式颗粒和氧化剂增强燃烧的充气装置
    • US08657333B2
    • 2014-02-25
    • US13192050
    • 2011-07-27
    • Anthony M. YoungGary K. LundKenneth J. ClarkBrett Hussey
    • Anthony M. YoungGary K. LundKenneth J. ClarkBrett Hussey
    • B60R21/272B60R21/274B60R21/26B60R21/268
    • F42B3/045F42B5/16
    • The disclosure provides an inflator device for a passive restraint device, like an airbag. In certain aspects, a fuel-rich gas generant grain is located in actuating proximity to an initiator device. The grain has at least one flow channel through which a shock wave generated by the initiator device passes. The shock wave opens a burst disc between the inflator housing and downstream airbag to permit gases to flow into the airbag. A chamber storing pressurized gas (having at least one oxidant, e.g., O2) is also disposed within the inflator. Upon initiator actuation, the oxidant can react with combustion products of the initiator and the fuel-rich gas generant and flow into the airbag for rapid inflation. Methods of inflating airbags and improving airbag deployment reliability are provided. Such inflators are particularly suitable for large volume (greater than 60 liter) airbags.
    • 本公开提供了一种用于被动约束装置的充气装置,如气囊。 在某些方面,富含燃料的气体发生剂颗粒位于致动装置附近的致动器中。 颗粒具有至少一个流动通道,起动器装置产生的冲击波通过该流动通道。 冲击波在充气器壳体和下游气囊之间打开爆破盘,以允许气体流入气囊。 存储加压气体(具有至少一种氧化剂,例如O 2)的室也设置在充气机内。 在启动器启动时,氧化剂可与引发剂和富燃料气体发生剂的燃烧产物反应并流入气囊以进行快速膨胀。 提供充气安全气囊和提高安全气囊部署可靠性的方法。 这种充气机特别适用于大容积(大于60升)的安全气囊。
    • 15. 发明授权
    • Methods of forming a multi-composition pyrotechnic grain
    • 形成多组分烟火颗粒的方法
    • US08057612B2
    • 2011-11-15
    • US11837842
    • 2007-08-13
    • Dario BrisighellaBrett Hussey
    • Dario BrisighellaBrett Hussey
    • C06B45/00C06B45/12D03D23/00D03D43/00
    • C06D5/06C06B45/00C06C9/00
    • A multi-composition pyrotechnic material is provided for an inflatable restraint device (for example, an airbag system or pretensioner for a vehicle). The multi-composition pyrotechnic material can be a gas generant, a micro gas generant, or an igniter, for example. The multi-composition pyrotechnic material comprises a first pyrotechnic material that defines one or more void regions. A second pyrotechnic material, compositionally distinct from the first pyrotechnic material, is introduced into at least one of the void regions and forms a second region of the pyrotechnic materials. The second composition can be introduced to the void regions in the form of a slurry. Methods of forming such multi-composition pyrotechnic materials are also provided.
    • 为可充气约束装置(例如,用于车辆的气囊系统或预紧器)提供多组合烟火材料。 多组合烟火材料可以是例如气体发生剂,微气体发生剂或点火器。 多组合烟火材料包括限定一个或多个空隙区域的第一烟火材料。 与第一烟火材料成分不同的第二烟火材料被引入至少一个空隙区域并形成烟火材料的第二区域。 可以将第二组合物以浆料的形式引入空隙区域。 还提供了形成这种多组合烟火材料的方法。
    • 16. 发明授权
    • Monolithic gas generant grains
    • 单体气体发生粒
    • US07758709B2
    • 2010-07-20
    • US11472260
    • 2006-06-21
    • Brett HusseyIvan MendenhallRoger Bradford
    • Brett HusseyIvan MendenhallRoger Bradford
    • C06B45/00C06B41/00C06B31/00D03D23/00D03D43/00
    • C06D5/06B60R21/2644C06B45/00
    • A gas generant for an inflatable restraint device (for example, an airbag system for a vehicle) is a monolithic compressed solid that has a linear burn rate of greater than or equal to about 1.6 inches per second at a pressure of about 3,000 pounds per square inch. The gas generant can be in the form of an annular disk having a plurality of apertures. The gas generant may be substantially free of binder and may have a low initial surface area which progressively increases during burning. The gas generant provides a gas generation profile that improves restraint of vehicle occupants, including those occupants that are out-of-position. Additionally, the shaped gas generant decreases occupant exposure to toxic effluent combustion products and solid respirable particulates.
    • 用于充气约束装置(例如,用于车辆的气囊系统)的气体发生器是整体式压缩固体,其在约3,000磅/平方英寸的压力下具有大于或等于约1.6英寸每秒的线性燃烧速率 英寸。 气体发生剂可以是具有多个孔的环形盘的形式。 气体发生剂可以基本上不含粘合剂,并且可能具有在燃烧期间逐渐增加的低初始表面积。 气体发生器提供气体生成轮廓,其改善了车辆乘员的限制,包括那些不在位的乘员。 此外,成形气体发生剂减少了对有毒流出物燃烧产物和固体可呼吸颗粒的乘客暴露。
    • 17. 发明申请
    • METHODS OF MANUFACTURING MONOLITHIC GENERANT GRAINS
    • 制造单晶生长颗粒的方法
    • US20080236711A1
    • 2008-10-02
    • US11691753
    • 2007-03-27
    • Roger BradfordThomas CroninIvan MendenhallBrett Hussey
    • Roger BradfordThomas CroninIvan MendenhallBrett Hussey
    • B60R21/20
    • C06B45/00B01J2/22C06B21/0041C06D5/06
    • Methods for making a pressed monolithic gas generant for an inflatable restraint device (for example, an airbag system for a vehicle) are provided. The methods include admixing a gas generant material with a ballistic performance modifier to form a mixture. The mixture is granulated. Then, a pressed monolithic gas generant grain is formed by applying pressure to the granulated mixture, where the grain has an actual density of at least about 95% of the maximum theoretical density. The pressure may be applied in a controlled manner to both side of the gas generant material in a die cavity, and removing formed grain from die cavity while maintaining some pressure to both sides of the grain, thereby further improving various pyrotechnic properties. The methods of the disclosure provide pyrotechnic compositions that are economical to manufacture, have improved burn rate, combustion profile, effluent quality, strength, durability, and integrity of the grain, while having a consistent shape between different production lots.
    • 提供了制造用于充气式约束装置(例如,用于车辆的气囊系统)的压制的单体气体发生剂的方法。 所述方法包括将气体发生剂材料与弹道性能改性剂混合以形成混合物。 混合物成粒。 然后,通过对造粒混合物施加压力来形成压制的整体式气体发生剂颗粒,其中颗粒的实际密度为最大理论密度的至少约95%。 压力可以以受控的方式施加到模腔中的气体发生剂材料的两侧,并且从模腔中除去成形颗粒,同时保持对颗粒两侧的一些压力,从而进一步改进各种烟火性能。 本公开的方法提供烟火组合物,其制造经济,具有改善的燃烧速率,燃烧曲线,流出物质量,强度,耐久性和颗粒的完整性,同时在不同生产批次之间具有一致的形状。
    • 20. 发明授权
    • Methods of manufacturing monolithic generant grains
    • 制造单片发电粒子的方法
    • US09193639B2
    • 2015-11-24
    • US11691753
    • 2007-03-27
    • Roger BradfordThomas CroninIvan MendenhallBrett Hussey
    • Roger BradfordThomas CroninIvan MendenhallBrett Hussey
    • D03D23/00D03D43/00C06B45/00B01J2/22C06B21/00C06D5/06
    • C06B45/00B01J2/22C06B21/0041C06D5/06
    • Methods for making a pressed monolithic gas generant for an inflatable restraint device (for example, an airbag system for a vehicle) are provided. The methods include admixing a gas generant material with a ballistic performance modifier to form a mixture. The mixture is granulated. Then, a pressed monolithic gas generant grain is formed by applying pressure to the granulated mixture, where the grain has an actual density of at least about 95% of the maximum theoretical density. The pressure may be applied in a controlled manner to both side of the gas generant material in a die cavity, and removing formed grain from die cavity while maintaining some pressure to both sides of the grain, thereby further improving various pyrotechnic properties. The methods of the disclosure provide pyrotechnic compositions that are economical to manufacture, have improved burn rate, combustion profile, effluent quality, strength, durability, and integrity of the grain, while having a consistent shape between different production lots.
    • 提供了制造用于充气式约束装置(例如,用于车辆的气囊系统)的压制的单体气体发生剂的方法。 所述方法包括将气体发生剂材料与弹道性能改性剂混合以形成混合物。 混合物成粒。 然后,通过对造粒混合物施加压力来形成压制的整体式气体发生剂颗粒,其中颗粒的实际密度为最大理论密度的至少约95%。 压力可以以受控的方式施加到模腔中的气体发生剂材料的两侧,并且从模腔中移除成形颗粒,同时保持对颗粒两侧的一些压力,从而进一步改善各种烟火性能。 本公开的方法提供烟火组合物,其制造经济,具有改善的燃烧速率,燃烧曲线,流出物质量,强度,耐久性和颗粒的完整性,同时在不同生产批次之间具有一致的形状。