VIRTUAL GEOMETRIC MODEL WITH DYNAMIC PARAMETERS FOR 6 DOF ARTICULATED ARM ROBOT

Q4 Engineering
C. Cristoiu, Stan Laurentiu, Ivan Mario
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引用次数: 0

Abstract

To calculate joints angles of an articulated arm robot, when the coordinates of the point to be reached are known, different calculation methods or iterative algorithms for inverse kinematics (IK) can be used. IK requires that the dimensions of the robot segments and the initial positions of the joints to be known, described, and implemented mathematically, so it is based on the geometric model of the robot. In practice, the geometric modeling of the robots is done considering that all their structural elements are rigid, and their dimensions and positions are considered constant (while in reality the robots suffer certain deformations that can have different causes). This article considers the thermal deformations that a robot suffers during operation which are leading to positioning errors. The deformations are variable during the warm-up period of the robot and become constant after reaching the thermal stabilization level. From this point of view, if it is desired to consider and possibly compensate these thermal induced errors, the elaboration of the geometric model of the robot in the classical way is no longer possible and the geometric parameters must be somehow described as variables. Thermal deformations produce displacements and torsions of the robot elements. Linear and angular deviations may occur from the initial (theoretical) position in all 3 directions of the cartesian axis systems used in robot modeling. This paper presents a technique for creating a virtual model of the ABB IRB140 robot in CoppeliaSim, programming and modeling environment, with the positioning of the axis systems attached to the joints identical to the real position (unlike simplified versions of Denavit-Hartenberg geometric models) and the logic of a custom written software algorithm for automatic deformation of the model.
六自由度关节臂机器人的动态参数虚拟几何模型
为了计算关节臂机器人的关节角,当到达点的坐标已知时,可以使用不同的计算方法或迭代逆运动学算法。IK要求机器人节段的尺寸和关节的初始位置以数学方式已知、描述和实现,因此它是基于机器人的几何模型。在实践中,机器人的几何建模是考虑到它们的所有结构元素都是刚性的,它们的尺寸和位置被认为是恒定的(而在现实中,机器人会遭受某些可能有不同原因的变形)。本文考虑了机器人在操作过程中所遭受的热变形导致的定位误差。在机器人的预热阶段,变形是可变的,在达到热稳定水平后,变形是恒定的。从这个角度来看,如果要考虑并可能补偿这些热致误差,那么用经典的方法来阐述机器人的几何模型是不可能的,几何参数必须以某种方式描述为变量。热变形产生机器人元件的位移和扭转。在机器人建模中使用的笛卡尔轴系统的所有3个方向上,从初始(理论)位置可能出现线性和角偏差。本文介绍了一种在CoppeliaSim、编程和建模环境中创建ABB IRB140机器人虚拟模型的技术,其中连接到关节的轴系统的定位与实际位置相同(不像Denavit-Hartenberg几何模型的简化版本),以及用于模型自动变形的自定义编写软件算法的逻辑。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
International Journal of Modern Manufacturing Technologies
International Journal of Modern Manufacturing Technologies Engineering-Industrial and Manufacturing Engineering
CiteScore
0.70
自引率
0.00%
发文量
15
期刊介绍: The main topics of the journal are: Micro & Nano Technologies; Rapid Prototyping Technologies; High Speed Manufacturing Processes; Ecological Technologies in Machine Manufacturing; Manufacturing and Automation; Flexible Manufacturing; New Manufacturing Processes; Design, Control and Exploitation; Assembly and Disassembly; Cold Forming Technologies; Optimization of Experimental Research and Manufacturing Processes; Maintenance, Reliability, Life Cycle Time and Cost; CAD/CAM/CAE/CAX Integrated Systems; Composite Materials Technologies; Non-conventional Technologies; Concurrent Engineering; Virtual Manufacturing; Innovation, Creativity and Industrial Development.
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