机械

介绍了一款三角全向轮自主定位机器人底盘的搭建,包括全向轮型号的选择、动力系统的介绍以及机器人定位系统的选用,并完成了机器人底盘结构的设计与强度分析。此外还分析了机器人三角底盘的运动特性,给出在平移和旋转的工作情况下各全向轮的速度计算公式。完成了机器人运动的控制分析,给出控制流程。最后搭建了实物模型,实物模型运行平稳,能够实现运动过程中的底盘自转,运动位置精度在±20 mm以内,达到了预期目标,从而验证了设计的准确性。

This paper mainly introduces the construction of a triangle omnidirectional wheel autonomous positioning robot chassis. It includes the selection of omni-directional wheel, the introduction of power system and the selection of robot positioning system, and complete the design and strength analysis of the robot chassis structure. The motion characteristics of the triangle chassis are analyzed, and the speed calculation method of each omni-directional wheel in the case of translation and rotation is given. The control analysis of robot motion is completed, and the control flow is given. Finally, a physical model is built, it runs smoothly and can realize the chassis rotation in the process of movement. The accuracy of motion position is within ±20 mm, The expected goal is achieved, which verifies the accuracy of the design.