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標題: | 多軸微操作機械手臂之研製 Development of a Micromanipulator with Multiple Degrees of Freedom |
作者: | Sio-Fong Ip 葉兆豐 |
指導教授: | 黃漢邦(Han-Pang Huang) |
關鍵字: | 微操作,混合式機械手臂,機構設計,運動學,動力學,軌跡規劃,定位控制, micromanipulation,hybrid manipulator,mechanical design,kinematics,dynamics,trajectory planning,position control, |
出版年 : | 2006 |
學位: | 碩士 |
摘要: | 本文之主要目的,是設計與控制一具有四個自由度之微操作機械手臂,以適用於微米等級應用如微組裝及微注射。為達到高解析度、工作空間大、體積小的目的,本文提出一兼具傳統串聯及並聯式機構優點之並聯混合式機構。相對於傳統機械手臂,此微操作機械手臂的所佔空間較少,適合操作於微型工廠。
在設計方面,主要分為運動設計及機構設計。運動設計的目的在於求得符合需求的桿件長度,機構設計則主要考量機構之干涉、變形及組裝困難以設計出一實體機構。此外並利用電腦輔助工程設計軟體來模擬致動器所需的轉速及扭力,以作為選擇驅動元件的準則。本文亦推導及驗證微操作機械手臂之順向、逆向的運動學及動力學,並應用於機械手臂的運動規劃及控制上。 透過個人電腦、數位訊號處理器及可程式邏輯閘的整合,以實現微操作機械手臂之多軸控制。此外並完成馬達驅動器電路的設計與製作。實驗結果顯示此微操作機械手臂適用於微米等級操作之應用。 This thesis presents the development of a micromanipulator for micro-scale manipulation tasks such as microassembly and cell injection. The design of the micromanipulator is based on task requirements. The micromanipulator provides four degrees of freedom (DOFs) for dexterous motion. To achieve high resolution, large workspace and compact structure, a hybrid configuration which is a combination of a parallel selectively compliant assembly robot arm (SCARA) configuration and a serial mechanism was proposed. Due to its compact size, the micromanipulator can operate in a microfactory. In kinematic design, a novel method was proposed to select kinematic parameters so that the prescribed workspace can be achieved. To determine a unique set of kinematic parameters, kinematic performance indices were also introduced. Analyses of required angular velocity and torque of each actuated joint for a typical task were performed and used as a criterion for selection of actuating components. Based on the mechanical design, kinematics and dynamics in both forward and inverse cases were derived and verified. Trajectory planning based on modified tension spline (MTS) was performed for tracking of a desired Cartesian path. Digital signal processor (DSP) and field programmable gate array (FPGA) were employed to implement the multi-joint control of the micromanipulator. Driver modules were also developed. Finally, a prototype of the micromanipulator was fabricated. Experimental results demonstrate the feasibility of the proposed system in micromanipulation. |
URI: | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/25803 |
全文授權: | 未授權 |
顯示於系所單位: | 機械工程學系 |
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ntu-95-1.pdf 目前未授權公開取用 | 2.79 MB | Adobe PDF |
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