利用欧姆龙CPMIA 40CDR的HMI和PLC设计工厂维修设备

Imam Asbabil Khoer
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引用次数: 0

摘要

一般来说,工厂维护可以通过两种方式完成:手动(使用人工和临时工具)和机械(使用机器技术或机器人)。人工进行的植物维护是浇水和根除病虫害,这些不一定能做到,而且会伤害人类自己。机械地做同样的工作有好处,即更快,常规,减少工作场所的事故。在此时的设备维修过程中,仍有必要的方面进行研究,特别是工具的设计。人工维护过程的弱点是执行大容量的感官任务需要很长时间。为了克服这些限制,采用自动化技术的机械方法使其更有效和高效。因此,浇水装置的设计或植物维护有望克服这些问题。使用人工(手工)是无害的,但有缺点,包括时间不一致和非常耗时的工作。在现有的维修机设计研究中,有多种类型。在本研究中,所要进行的工具设计是尝试将工厂维修与单片机自动控制系统相结合,该系统由一个伺服电机运动系统和其他几个电机组成,预计将具有有效的工作系统和优良的维修效果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design of Plant Maintenance Equipment Using HMI and PLC Omron CPMIA 40CDR
Generally, plant maintenance can be done in two ways: manual (using humans with makeshift tools) and mechanical (using machine technology or robots). Plant maintenance done manually is watering and eradicating pests and diseases that do not necessarily do it and can harm humans themselves. Mechanically doing the same job has advantages, namely being faster, routine, and reducing workplace accidents. In the plant maintenance process at this time, there are still essential aspects for research, especially for the design of tools. The manual maintenance process's weakness is that performing sensory tasks in a large capacity takes a very long time. To overcome these limitations, a mechanical approach with automation technology is used to make it more effective and efficient. Therefore, the design of a watering device or plant maintenance is expected to overcome these problems. The use of human labor (manual) is not harmful but has drawbacks, including inconsistency with time and very time-consuming work. In the existing maintenance machine design research, there are various types. In this research, the design of the tool that will be carried out is to try to combine plant maintenance with a microcontroller automatic control system which is arranged using a servo motor motion system and several other motors which are expected to have an effective working system and excellent quality of maintenance results, for the cottage industry industrial enterprise. 
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