Automatic Continuity Test Machine (CT) Using Proximity Sensors, Photoelectric Sensors and Programmable Logic Controllers (PLC) Systems: The case at PT. “V” Batam Indonesia

JURNAL INTEGRASI PROSES Pub Date : 2023-04-30 DOI:10.30871/ji.v15i1.5075

Jhon Hericson Purba, Irwanto Zarman Putra, Ridwan Ridwan, Hari Salam

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Abstract

Continuity test Machine (CT) is a tool for detecting damage to the current connection on the AC plug cable. The problem with PT “V” is that it still uses a manual system. So that it is updated to an automatic continuity test machine by manual measurement using a "caliper" and another using an automatic continuity test machine (CT). The results obtained (CT) using a proximity sensor, photoelectric as a detector for the length of the pin connector and a Programmable Logic Control (PLC) system as a controller. Testing the accuracy of the tool using 12 plug and connector samples were the same, namely 10 plug and connector samples that were standard (19.05 +_0.2 mm) and 2 samples that were not standard. Tool performance testing is carried out operating for 184 hours or 23 working days. The results of data analysis found a significant increase, namely an average of 25.94% of the total test results used by the manual Continuity test machine (CT). Totally capable of increasing an average of 970 product units per month, with details reducing by -20.03% good products, increasing by 26.74% good products (standard)

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采用接近传感器、光电传感器和可编程逻辑控制器(PLC)系统的自动连续性测试仪(CT):以印尼巴淡岛PT.“V”为例

连续性试验机(CT)是一种检测交流插头电缆上电流连接是否损坏的工具。PT“V”的问题是它仍然使用手动系统。因此，通过使用“卡尺”手动测量和使用自动连续性试验机(CT)手动测量，将其更新为自动连续性试验机。得到的结果(CT)采用接近传感器，光电作为检测器的引脚长度连接器和可编程逻辑控制(PLC)系统作为控制器。使用12个插头和连接器样品测试工具的精度相同，即10个插头和连接器样品为标准(19.05 +_0.2 mm)， 2个样品为非标准。工具性能测试工作184小时或23个工作日。数据分析的结果发现了显著的增加，即平均为手动连续性试验机(CT)使用的总测试结果的25.94%。总体平均每月增加970件产品，细节优良产品减少-20.03%，优良产品增加26.74%(标准)

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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