Design and Kinematic Analysis of a 2-DoF Spatial Parallel Mechanism with Flexible Orientation Capability

机译：具有柔性定向能力的二维自由度空间并联机构的设计与运动学分析

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Mechanisms with flexible orientation capability and compact structure have great application prospects in manufacturing equipment, flight simulator, airborne radar, and similar fields. In this paper, a two-degree-of-freedom (2-DoF) spatial parallel kinematic mechanism with three identical kinematic chains is presented. Due to the strong coupling property, its kinematic mechanism issues in terms of forward and inverse kinematics are fundamental to its practical application and thus have been investigated. Based on the kinematic analysis results, the orientation capability of the presented mechanism can reach 40° for an arbitrary azimuth angle. Benefitting from the parallel kinematic structure and coupling kinematics, the presented mechanism also has potential advantages of high stiffness and quick response.

机译：具有灵活定向能力和结构紧凑的机构在制造设备，飞行模拟器，机载雷达等领域具有广阔的应用前景。本文提出了具有三个相同运动学链的两自由度（2-DoF）空间并行运动学机制。由于其强大的耦合特性，其正向运动学和逆向运动学的运动学机制问题对其实际应用至关重要，因此已进行了研究。根据运动学分析结果，对于任意方位角，所提出的机构的定向能力可以达到40°。得益于并联运动结构和耦合运动学，所提出的机构还具有高刚度和快速响应的潜在优点。

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《IEEE Annual International Conference on CYBER Technology in Automation, Control, and Intelligent Systems》|2019年|770-774|共5页
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Jiakai Chen; Fugui Xie; Xin-Jun Liu;
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Gears; Kinematics; Mathematical model; Solid modeling; Airborne radar; Couplings; Satellite broadcasting;

机译：齿轮;运动学;数学模型;实体模型;机载雷达;联轴器;卫星广播;

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机译：一类2-DOF肌腱驱动平行运动机理的设计与僵硬分析

Design and Kinematic Analysis of a 2-DoF Spatial Parallel Mechanism with Flexible Orientation Capability

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