本文研究了理想情形下一类机器人适从运动的混合控制。对于一个机械臂手端与刚性环境发生光滑接触的类型,本文给出了一种约束描述,并进行分析。在此基础上,通过将控制变量分成两个分属于相互垂直的子空间的控制:力控制和运动控制,将机械臂动力学方程分裂成两个。一个用于力控制,另一个用于运动控制。从而对混合控制的思想有了更好的理解,使力控制和运动控制的设计能单独分别进行,为寻找混合控制提供了简便途径。 In this paper, we study the hybrid control of a class of adaptive robot in an ideal situation. For a type of manipulator with smooth contact with the rigid environment, a constraint description is given and analyzed. Based on this, the robot dynamics equations are split into two by dividing the control variables into two sub-space controls which belong to mutually perpendicular: force control and motion control. One for force control and the other for motion control. Thus, the idea of ​​hybrid control can be better understood, and the design of force control and motion control can be carried out separately, which provides a convenient way to find hybrid control.