公开(公告)号：EP2348910A1

公开(公告)日：2011-08-03

申请号：EP09822811.7

申请日：2009-10-23

申请人： McDonnell, Kevin

发明人： McDonnell, Kevin

IPC分类号： A43B13/18

CPC分类号： A43B13/181 ,  A43B1/0054 ,  A43B3/0015 ,  A43B13/12 ,  A43B13/189 ,  A43B13/20 ,  A43B13/206 ,  A43B17/026 ,  A43B17/03

摘要： A shoe structure for foot strike energy dissipation employs compressible members having an internal void containing a first working fluid A set of mating compressible members connected to a related one of the first compressible members through a fluid conduit such that the first working fluid is transferred from the related compressible member to the mating compressible member responsive to compression induced by foot strike A sole pad and foot bed intermediately constrain the compressible members Cooling tubes are provided for energy dissipation of the second working fluid which bathes the compressible members, conduits and resilient elements A buoyant magnet carried within the void of at least one compressible member is displaced within the compressible member responsive to foot strike An induction coil encircling the compressible member is operatively connected to a resistive element for energy dissipation responsive to electromagnetically generated current resulting from relative motion of the buoyant magnet

摘要翻译： 用于脚踏能量耗散的鞋结构采用可压缩构件，每个都具有包含第一工作流体的内部空隙。 一组配合的可压缩构件各自通过流体导管连接到第一可压缩构件中的相关一个，使得第一工作流体响应于由脚蹬引起的压缩而从相关的可压缩构件传递到配合的可压缩构件。 弹性结构构件放置在可压缩构件的中间，以响应于由脚蹬引起的脚床的压缩而变形，提供压缩气缸的能量耗散和弹性回复到其未压缩状态。 空腔包含第二工作流体，该第二工作流体可响应于脚床的压缩而在可压缩构件之间传播。 提供冷却管用于第二工作流体的能量耗散，该第二工作流体洗涤可压缩构件，导管和弹性元件。

公开(公告)号：EP2348910B1

公开(公告)日：2018-08-29

申请号：EP09822811.7

申请日：2009-10-23

申请人： McDonnell, Kevin

发明人： McDonnell, Kevin

IPC分类号： A43B13/18

CPC分类号： A43B13/181 ,  A43B1/0054 ,  A43B3/0015 ,  A43B13/12 ,  A43B13/189 ,  A43B13/20 ,  A43B13/206 ,  A43B17/026 ,  A43B17/03

摘要： A shoe structure for foot strike energy dissipation employs compressible members each having an internal void containing a first working fluid. A set of mating compressible members are each connected to a related one of the first compressible members through a fluid conduit such that the first working fluid is transferred from the related compressible member to the mating compressible member responsive to compression induced by foot strike. Resilient structural members are placed intermediate the compressible members to deform responsive to compression of the foot bed induced by foot strike provide both energy dissipation and resilient recovery of the compression cylinders to their uncompressed state. A cavity contains a second working fluid that is transmissible between the compressible members responsive to compression of the foot bed. Cooling tubes are provided for energy dissipation of the second working fluid which bathes the compressible members, conduits and resilient elements.