基本信息
项目批准号:51505470
申请代码:E0503
项目名称:重载灵巧高刚度搅拌摩擦焊机器人动态特性分(fēn)析及优化设计
项目负责人:
骆海涛
依托单位:
中國(guó)科(kē)學(xué)院沈阳自动化研究所
研究期限:2016-01-01 至 2018-12-31
资助经费:20.0(万元)
项目摘要
中文(wén)摘要:
本项目针对于现有(yǒu)的搅拌摩擦焊设备功能(néng)单一、缺少工艺柔性,难以实现复杂三维焊缝焊接这一现实问题,受制于超重载和强扰动的焊接机理(lǐ),以一种机器人化的搅拌摩擦焊设备(搅拌摩擦焊机器人)為(wèi)研究对象,研究在给定焊接任務(wù)下机构的运动學(xué)和动力學(xué),分(fēn)析工作空间的可(kě)达性和灵巧性以及关节空间力和力矩特征;建立搅拌头-工件的热-流-固耦合模型,模拟搅拌头上的载荷变化规律,揭示焊接过程中的多(duō)元耦合机制;建立轴承、丝杠和导轨三种结合部的刚度模型,获取结合部在不同预紧力和外载作用(yòng)下的六维刚度;提出结构框架和结构单元的概念,创建了一种基于结构分(fēn)解的复杂大件结构多(duō)目标优化设计方法。在此基础上,把基于特定焊接工况下的轨迹规划、结合部的刚度、结构的柔度以及搅拌头所受的载荷用(yòng)于机器人的整机动特性分(fēn)析和焊接过程仿真,并提出综合的优化设计准则,為(wèi)重载灵巧高刚度搅拌摩擦焊机器人的创新(xīn)设计及焊接性能(néng)研究提供重要的理(lǐ)论依据和设计指导。
英文(wén)摘要:
This project focuses on the existing Friction Stir Welding (FSW) equipment with single function and lacking of flexible process, it is difficult to achieve the welding aiming to complex three-dimensional welding seam. Subjecting to the welding mechanism of heavy-load and strong-disturbance, a kind of roboticized FSW equipment (FSW Robot) was taken as research object. Study kinematics and dynamics of mechanism under giving welding task, analyze the accessibility and dexterity of workspace as well as the force and moment characteristics of joint space; Establish the hot -fluid-solid coupling model of welding head acting on workpiece, simulate the load change curve of welding head, reveal the multivariate coupling mechanism in the welding process; Establish three joints’ stiffness models including bearing, screw and guideway, obtain the six dimensions of stiffness under the different preload force and external load. Propose the concept of structure framework and structure unit, built a set of multi-objective optimization design method based on the large-scale and complex structure decomposition. And on this basis, put the trajectory planning, joint stiffness, structure flexibility, and load acting on welding head into the FSW robot's whole dynamic characteristics analysis and welding process simulation. At last, we put forward the comprehensive optimization design criteria. It provides important theoretical basis and design guidance for innovative design and welding performance study of FSW robot with heavy-load, dexterity and high-stiffness.
——来自https://kd.nsfc.gov.cn/