机械手的PLC控制
机械手的PLC控制
机械手是工业机器人系统中传统的任务执行机构,是机器人的关键部件之一。机械手的机械结构采用滚珠丝杆、滑杆、等机械器件组成;电气方面有交流电机、变频器、传感器、等电子器件组成。该装置涵盖了可编程控制技术,位置控制技术、检测技术等,是机电一体化的典型代表仪器之一。本文介绍的机械手是由PLC输出三路脉冲,分别驱动横轴、竖轴变频器,控制机械手横轴和竖轴的精确定位,微动开关将位置信号传给PLC主机;位置信号由接近开关反馈给PLC主机,通过交流电机的正反转来控制机械手手爪的张合,从而实现机械手精确运动的功能。本课题拟开发的物料搬运机械手可在空间抓放物体,动作灵活多样,可代替人工在高温和危险的作业区进行作业,并可根据工件的变化及运动流程的要求随时更改相关参数。
关键词:机械手
Abstract
Manipulator industrial robot systems traditional mandate, Robot is one of the key components. Manipulator using the mechanical structure of screw-ball, slider, and other mechanical devices composition; Electric have AC motor, inverter, sensor, and other electronic device components. The device covers a programmable control technology, position control technology, detection technology, Mechatronics is a typical representative of one of the machines. This paper presents a manipulator by three PLC output pulse, driving horizontal, the vertical axis transducer, control manipulator axis horizontal and vertical positioning precision, micro-switches position signal transmission will host PLC; location close to the switching signal from the feedback from the mainframe to the PLC, through the exchange of Motor reversion to control the manipulator gripper Zhang, thus achieving accurate manipulator movement functions. The topics to be developed by the Manipulator grasping be up in space objects, movements flexible, diverse, can replace the artificial heat and dangerous operation conducted operations, According to the workpiece can change the campaign process and the requirements of any changes to the relevant parameters.
Key Words: Manipulator
目
摘
ABSTRACT
引
第一章
1.1
1.2机械手夹持器和机座的结构
第二章可编程控制PLC
2.1 PLC简介
2.2
A. 系统程序存储区
B. 系统RAM存储区
C.用户程序存储区
2.3
2.4
2.6
第三章
3.1 三相异步电动机的结构
3.2 三相交流电机工作原理
3.3 三相电动机的转动原理
3.3
第四章 变频器
4.1变频器的构成
4.2 变频器的分类和控制方式
4.3 FR-A540变频器
第五章 机械手PLC控制系统设计
5.1 机械手的工艺过程
5.2
致答谢词
参考文献
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