用于工具機(jī)的可重構(gòu)預(yù)診平臺的設(shè)計
摘要
近年來,研究人員與從業(yè)人員一直試圖開發(fā)并使用在特定情況(ad hoc)下通過試錯法(trial-and-error)實(shí)現(xiàn)的預(yù)診技術(shù)。然而這些嘗試由于缺少系統(tǒng)性方法和平臺來指導(dǎo)如何針對應(yīng)用開發(fā)相適應(yīng)的工具,獲得了有限的成功。本文介紹了一種設(shè)計可重構(gòu)預(yù)診平臺(RPP)的方法論,這種方法論可以有效地用于機(jī)床的性能評估與預(yù)測。RPP可安裝在設(shè)備上,將數(shù)據(jù)轉(zhuǎn)換為與設(shè)備性能有關(guān)的信息。然后,設(shè)備性能的相關(guān)信息可通過互聯(lián)網(wǎng)與企業(yè)資產(chǎn)管理系統(tǒng)相整合,用于維護(hù)決策的制定。本文使用了兩個工業(yè)實(shí)例來驗(yàn)證RPP及其可重構(gòu)能力在不同預(yù)診應(yīng)用下的有效性。
Design of a reconfigurable prognostics platform for machine tools
Abstract
For decades, researchers and practitioners have been trying to develop and deploy prognostics technologies with ad hoc and trial-and-error approaches. These efforts have resulted in limited success, due to the fact that it lacks a systematic approach and platform in deploying the right prognostics tools for the right applications. This paper introduces a methodology for designing a reconfigurable prognostics platform (RPP) which can be easily and effectively used to assess and predict the performance of machine tools. RPP can be installed on the equipment and it has the prognostic capabilities to convert the data into performance-related information. The equipment performance information can then be integrated into the enterprise asset management system for maintenance decision making through the Internet. Two industrial cases are used to validate the effectiveness of applying the RPP for different prognostic applications as well as the reconfigurable capabilities of the proposed RPP.
提交
美國智能維護(hù)中心- 豐田汽車制造公司(TMMK,肯塔基州)機(jī)器人診斷及預(yù)測案例
美國智能維護(hù)中心 -寶潔公司案例
美國智能維護(hù)中心 -歐姆龍項目
美國智能維護(hù)中心 - TECHSOLVE公司智能機(jī)床健康維護(hù)項目
智能維護(hù)技術(shù)