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    • 1. 发明授权
    • Modular boot sole system
    • 模块化靴底系统
    • US08074380B2
    • 2011-12-13
    • US12263479
    • 2008-11-02
    • David NarajowskiJacob HallChad WhittakerDavid MellonDerek GustafsonJeremy SaxtonMark Vincent SanturbaneThomas Laakso
    • David NarajowskiJacob HallChad WhittakerDavid MellonDerek GustafsonJeremy SaxtonMark Vincent SanturbaneThomas Laakso
    • A43B5/04
    • A43B5/0466A43B5/0452A43B5/0496
    • One embodiment of the present invention relates to a ski boot system with a modular binding interface. The system includes a shell encasing a user's foot and lower leg. A first and second block are interchangeably coupled to the shell below the base to effectuate alternative binding interfaces. The first and second blocks include a binding interface surface and a sole surface. The positioning and shape of the blocks with respect to the shell results in the binding interface surface extending distally from the toe region of the shell and the sole surface being the lowest surface on the boot system. The binding interface surfaces for each block are positioned at different sagittal heights with respect to the shell to facilitate the interconnection with alternative binding coupling systems. The sole surfaces for each block are positioned at substantially identical sagittal heights with respect to the shell to maintain optimum and consistent performance characteristics among different bindings.
    • 本发明的一个实施例涉及一种具有模块化绑定界面的滑雪靴系统。 该系统包括一个包围用户脚和小腿的外壳。 第一和第二块可互换地耦合到底座下面的壳体以实现替代的结合界面。 第一和第二块包括结合界面和鞋底表面。 相对于壳体的块体的定位和形状导致从壳体的脚趾区域向远侧延伸的结合界面表面,并且鞋底表面是靴子系统上的最低表面。 每个块的装订接口表面相对于壳体位于不同的矢状高度处,以便于与替代的结合耦合系统的互连。 每个块的唯一表面相对于壳体位于基本相同的矢状高度,以在不同的绑定之间保持最佳和一致的性能特征。
    • 2. 发明授权
    • Safety carabiner
    • 安全腕带
    • US08001663B2
    • 2011-08-23
    • US11944286
    • 2007-11-21
    • William R BelcourtBen WalkerDavid MellonJeremy SaxtonBrendan Perkins
    • William R BelcourtBen WalkerDavid MellonJeremy SaxtonBrendan Perkins
    • F16B45/02
    • F16B45/02Y10T24/4534Y10T24/45366
    • One embodiment of the present invention relates to an automatically locking carabiner system including a frame, a gate, a gate biasing system, and a gate locking system. The frame and gate form a continuously enclosed inner region in a closed configuration with respect to the frame. When in an engaged state, the gate locking system is configured to automatically lock the gate in the closed configuration with respect to the frame. The gate locking system may include a trigger coupled to the frame such that the position of the trigger corresponds to the state of the gate locking system. The trigger may be positioned on an opposite side of the frame from the gate with respect to the inner region. The force required to disengage the gate locking system may be substantially opposite that which is required to transition the gate to the open configuration with respect to the frame.
    • 本发明的一个实施例涉及一种包括框架,门,门偏置系统和门锁系统的自动锁定锁扣系统。 框架和门形成相对于框架处于闭合构型的连续封闭的内部区域。 当处于接合状态时,门锁系统被配置为相对于框架自动地将门锁定在关闭构造中。 门锁系统可以包括联接到框架的触发器,使得触发器的位置对应于门锁系统的状态。 触发器可以相对于内部区域定位在与门相反的框架的相对侧上。 解除门锁系统所需的力可能与将门相对于框架转换到打开构型所需的力大致相反。
    • 3. 发明申请
    • MODULAR BOOT SOLE SYSTEM
    • 模块化引导系统
    • US20090113763A1
    • 2009-05-07
    • US12263479
    • 2008-11-02
    • David NarajowskiJacob HallChad WhittakerDavid MellonDerek GustafsonJeremy SaxtonMark Vincent SanturbaneThomas Laakso
    • David NarajowskiJacob HallChad WhittakerDavid MellonDerek GustafsonJeremy SaxtonMark Vincent SanturbaneThomas Laakso
    • A43B5/04A63C9/00
    • A43B5/0466A43B5/0452A43B5/0496
    • One embodiment of the present invention relates to a ski boot system with a modular binding interface. The system includes a shell encasing a user's foot and lower leg. A first and second block are interchangeably coupled to the shell below the base to effectuate alternative binding interfaces. The first and second blocks include a binding interface surface and a sole surface. The positioning and shape of the blocks with respect to the shell results in the binding interface surface extending distally from the toe region of the shell and the sole surface being the lowest surface on the boot system. The binding interface surfaces for each block are positioned at different sagittal heights with respect to the shell to facilitate the interconnection with alternative binding coupling systems. The sole surfaces for each block are positioned at substantially identical sagittal heights with respect to the shell to maintain optimum and consistent performance characteristics among different bindings.
    • 本发明的一个实施例涉及一种具有模块化绑定界面的滑雪靴系统。 该系统包括一个包围用户脚和小腿的外壳。 第一和第二块可互换地耦合到底座下面的壳体以实现替代的结合界面。 第一和第二块包括结合界面和鞋底表面。 相对于壳体的块体的定位和形状导致从壳体的脚趾区域向远侧延伸的结合界面表面,并且鞋底表面是靴子系统上的最低表面。 每个块的装订接口表面相对于壳体位于不同的矢状高度处,以便于与替代的结合耦合系统的互连。 每个块的唯一表面相对于壳体位于基本相同的矢状高度,以在不同的绑定之间保持最佳和一致的性能特征。
    • 4. 发明授权
    • Boot articulation support system
    • 启动关节支持系统
    • US07810258B2
    • 2010-10-12
    • US11744302
    • 2007-05-04
    • David NarajowskiJacob HallPaul TerryThomas LaaskoChad WhittakerJeremy SaxtonDavid Mellon
    • David NarajowskiJacob HallPaul TerryThomas LaaskoChad WhittakerJeremy SaxtonDavid Mellon
    • A43B5/04
    • A43B5/0492A43B5/0496A63C2201/06
    • The present invention relates to a support system for use in relation to an articulation region of a boot. Embodiments of the present invention relate to a boot with a dorsal metatarsal articulation region that allows for articulation in the sagittal plane such as a telemark ski boot. One embodiment of the present invention relates to a telemark ski boot, including a shell, an articulation region, and an articulation support system. The articulation support system includes at least one tensile rigid region extending transversely between the proximal and distal sides of the articulation region. The tensile rigid region impedes rotation of the rear portion of the shell about the toe portion in a frontal plane. This form of rotation is often referred to as torsional rotation. The articulation support system may include one or more of a cable, an integrated shell portion, a material mesh, and/or other tensile rigid components which maintain bending flexibility. A second embodiment of the present invention relates to a method for increasing the torsional support characteristic of a telemark ski boot while maintaining the desired flexibility.
    • 本发明涉及一种用于与靴子的关节区域相关的支撑系统。 本发明的实施例涉及具有背侧跖骨关节运动区域的靴子,其允许在矢状平面中的铰接,例如远程标记滑雪靴。 本发明的一个实施例涉及一种远程标识滑雪靴,包括外壳,铰接区域和关节支撑系统。 关节支撑系统包括至少一个拉伸刚性区域,其横向延伸在关节区域的近侧和远侧之间。 拉伸刚性区域阻止壳体的后部在前平面中围绕趾部的旋转。 这种旋转形式通常被称为扭转旋转。 铰接支撑系统可以包括保持弯曲柔性的电缆,整体外壳部分,材料网和/或其它拉伸刚性部件中的一个或多个。 本发明的第二实施例涉及一种在保持所希望的灵活性的同时提高远征标志滑雪靴的扭转支撑特性的方法。
    • 5. 发明申请
    • DOCKING APPARATUS AND SYSTEMS FOR MOBILE COMPUTING DEVICES
    • 用于移动计算设备的锁定装置和系统
    • US20160091926A1
    • 2016-03-31
    • US14503036
    • 2014-09-30
    • Jeremy Saxton
    • Jeremy Saxton
    • G06F1/16G06F13/40
    • G06F1/1632G06F1/1626G06F13/4081
    • Disclosures are presented for systems and apparatus for docking a mobile computing device for display and for coupling it with a cable for purposes of charging and/or syncing. Such teachings may allow a user to reel the cable around a spool, couple the mobile computing device with the cable, decouple the mobile computing device, and/or swivel the mobile computer in its stand with relative ease, such as with a single hand, through the use of micro-suction cups. Disclosures are made about how the cable may be threaded through and secured by such systems and apparatus. Additional disclosures teach approaches for standing the mobile computer in its dock and for making accommodating adjustments to such a stand to provide adaptability across a range of mobile computer configurations, among other disclosures.
    • 为了进行充电和/或同步的目的,提供了用于对接用于显示的移动计算设备并将其与电缆耦合的系统和设备的公开。 这样的教导可以允许用户绕线轴卷绕电缆,将移动计算设备与电缆耦合,使移动计算设备解耦,和/或相对容易地使移动计算机在其支架中旋转,例如用单手, 通过使用微型吸盘。 公开了关于电缆如何通过这种系统和装置穿过并固定的公开。 另外的公开内容教导了将移动计算机站在其码头中并用于对这种支架进行适应调整的方法,以提供跨越一系列移动计算机配置的适应性以及其他公开内容。
    • 6. 发明申请
    • BOOT ARTICULATION SUPPORT SYSTEM
    • 引导文献支持系统
    • US20080271345A1
    • 2008-11-06
    • US11744302
    • 2007-05-04
    • David NarajowskiJacob HallPaul TerryThomas LaaksoChad WhittakerJeremy SaxtonDavid Mellon
    • David NarajowskiJacob HallPaul TerryThomas LaaksoChad WhittakerJeremy SaxtonDavid Mellon
    • A43B5/04
    • A43B5/0492A43B5/0496A63C2201/06
    • The present invention relates to a support system for use in relation to an articulation region of a boot. Embodiments of the present invention relate to a boot with a dorsal metatarsal articulation region that allows for articulation in the sagittal plane such as a telemark ski boot. One embodiment of the present invention relates to a telemark ski boot, including a shell, an articulation region, and an articulation support system. The articulation support system includes at least one tensile rigid region extending transversely between the proximal and distal sides of the articulation region. The tensile rigid region impedes rotation of the rear portion of the shell about the toe portion in a frontal plane. This form of rotation is often referred to as torsional rotation. The articulation support system may include one or more of a cable, an integrated shell portion, a material mesh, and/or other tensile rigid components which maintain bending flexibility. A second embodiment of the present invention relates to a method for increasing the torsional support characteristic of a telemark ski boot while maintaining the desired flexibility.
    • 本发明涉及一种用于与靴子的关节区域相关的支撑系统。 本发明的实施例涉及具有背侧跖骨关节运动区域的靴子,其允许在矢状平面中的铰接,例如远程标记滑雪靴。 本发明的一个实施例涉及一种远程标识滑雪靴,包括外壳,铰接区域和关节支撑系统。 关节支撑系统包括至少一个拉伸刚性区域,其横向延伸在关节区域的近侧和远侧之间。 拉伸刚性区域阻止壳体的后部在前平面中围绕趾部的旋转。 这种旋转形式通常被称为扭转旋转。 铰接支撑系统可以包括保持弯曲柔性的电缆,整体外壳部分,材料网和/或其它拉伸刚性部件中的一个或多个。 本发明的第二实施例涉及一种在保持所希望的灵活性的同时提高远征标志滑雪靴的扭转支撑特性的方法。
    • 7. 发明申请
    • Safety carabiner
    • 安全腕带
    • US20080120818A1
    • 2008-05-29
    • US11944286
    • 2007-11-21
    • William R. BelcourtBen WalkerDavid MellonJeremy SaxtonBrendan Perkins
    • William R. BelcourtBen WalkerDavid MellonJeremy SaxtonBrendan Perkins
    • F16G11/14
    • F16B45/02Y10T24/4534Y10T24/45366
    • One embodiment of the present invention relates to an automatically locking carabiner system including a frame, a gate, a gate biasing system, and a gate locking system. The frame and gate form a continuously enclosed inner region in a closed configuration with respect to the frame. When in an engaged state, the gate locking system is configured to automatically lock the gate in the closed configuration with respect to the frame. The gate locking system may include a trigger coupled to the frame such that the position of the trigger corresponds to the state of the gate locking system. The trigger may be positioned on an opposite side of the frame from the gate with respect to the inner region. The force required to disengage the gate locking system may be substantially opposite that which is required to transition the gate to the open configuration with respect to the frame.
    • 本发明的一个实施例涉及一种包括框架,门,门偏置系统和门锁系统的自动锁定锁扣系统。 框架和门形成相对于框架处于闭合构型的连续封闭的内部区域。 当处于接合状态时,门锁系统被配置为相对于框架自动地将门锁定在关闭构造中。 门锁系统可以包括联接到框架的触发器,使得触发器的位置对应于门锁系统的状态。 触发器可以相对于内部区域定位在与门相反的框架的相对侧上。 解除门锁系统所需的力可能与将门相对于框架转换到打开构型所需的力大致相反。