摘要
基于西门子可编程控制器设计了一种可搭载式垂直稳定作业平台。该平台同时运用了传感器技术、变频技术,以PLC为控制系统核心,实现了平台在垂直作业面上可平稳智能连续工作。平台主要由垂直升降系统、稳定搭载平台两部分组成,垂直升降系统根据设定升降速度调控变频,实现平台运行速度可调,稳定搭载平台通过传感器检测、系统数据处理反馈、调整风机转速产生不同推力来保持平台始终处于平衡稳定状态。对比传统的垂直搭载平台,该平台在安全稳定、智能可控、灵活适用等多方面具有突出优点,该设计可较好地满足使用者在不同环境下为实现不同功能的运动控制要求。
This article designs a mountable vertical stable operating platform based on Siemens programmable controller.The platform also uses sensor technology and frequency conversion technology,and uses PLC as the core of the control system to realize the fact that the platform can work smoothly,intelligently and constantly on the vertical working surface.The platform is mainly composed of two parts,including a vertical lifting system and a stable carrying platform.The vertical lifting system adjusts the operating speed of the platform by setting up lifting speed and controlling frequency converters.To keep the platform always in balance and stability,the stable mounted platform generates different thrusts through sensor detection,system data processing feedback,and adjustment of fan speed.Compared with the traditional vertical platform,the platform has outstanding advantages in many aspects,such as safety,stability,intelligent control,flexibility and application.The design can better meet the user’s motion control requirements for different functions in different environments.
作者
付家源
徐明娜
Fu Jiayuan;Xu Mingna(College of Mechanical Engineering,Inner Mongolia Technology University,Huhhot 010051,China;Engineering Training Center,Inner Mongolia Technology University,Huhhot 010051,China)
出处
《国外电子测量技术》
2020年第11期113-116,共4页
Foreign Electronic Measurement Technology
基金
内蒙古工业大学大学生创新实验计划项目(20190130007)资助。
关键词
PLC
搭载平台
传感器
变频技术
系统设计
programmable logic controller
carrying platform
transducer
frequency conversion technique
system design
