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公开(公告)号:US20160187094A1
公开(公告)日:2016-06-30
申请号:US14682541
申请日:2015-04-09
CPC分类号: F41G1/00 , F41A27/30 , F41G1/38 , F41G3/00 , F41G3/005 , F41G3/06 , F41G3/08 , F41G3/12 , F41G3/165
摘要: An electromechanical system translates an “aiming error” signal from a target tracking system into dynamic “pointing corrections” for handheld devices to drastically reduce pointing errors due to man-machine wobble without specific direction by the user. The active stabilization targeting correction system works by separating the “support” features of the handheld device from the “projectile launching” features, and controlling their respective motion by electromechanical mechanisms. When a target is visually acquired, the angular deflection (both horizontal windage and vertical elevation) and aiming errors due to man-machine wobble (both vertical and horizontal) from the target's location to the current point-of-aim can be quickly measured by the ballistic computer located internal to a target tracking device. These values are transmitted to calibrated encoded electromechanical actuators that position the isolated components to rapidly correct angular deflection to match the previous aiming error.
摘要翻译: 机电系统将来自目标跟踪系统的“瞄准误差”信号转换为手持设备的动态“指向校正”,从而大大减少由于人机摆动导致的指示误差,而无需用户的特定方向。 主动稳定瞄准校正系统通过将手持装置的“支撑”特征与“射弹发射”特征分离,并通过机电机构控制它们各自的运动来起作用。 当目标被视觉获取时,由于目标位置到目标瞄准点之间的人机摆动(垂直和水平)的角度偏转(水平向风和垂直仰角)和瞄准误差都可以通过 位于目标跟踪装置内部的弹道计算机。 这些值被传送到校准的编码的机电致动器,其将隔离的部件定位以快速校正角度偏转以匹配先前的瞄准误差。
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公开(公告)号:US09395155B1
公开(公告)日:2016-07-19
申请号:US14682541
申请日:2015-04-09
CPC分类号: F41G1/00 , F41A27/30 , F41G1/38 , F41G3/00 , F41G3/005 , F41G3/06 , F41G3/08 , F41G3/12 , F41G3/165
摘要: An electromechanical system translates an “aiming error” signal from a target tracking system into dynamic “pointing corrections” for handheld devices to drastically reduce pointing errors due to man-machine wobble without specific direction by the user. The active stabilization targeting correction system works by separating the “support” features of the handheld device from the “projectile launching” features, and controlling their respective motion by electromechanical mechanisms. When a target is visually acquired, the angular deflection (both horizontal windage and vertical elevation) and aiming errors due to man-machine wobble (both vertical and horizontal) from the target's location to the current point-of-aim can be quickly measured by the ballistic computer located internal to a target tracking device. These values are transmitted to calibrated encoded electromechanical actuators that position the isolated components to rapidly correct angular deflection to match the previous aiming error.
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