Incorporating grain detection and speed control mechanisms in hammer mill operations

Nigerian Journal of Technology Pub Date : 2023-08-11 DOI:10.4314/njt.v42i2.9

A. Oyelami, A. Oluwole

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Abstract

The traditional way of achieving different grain particle sizes in hammer mills is by manually changing the screen to the desired size. This manual process is a production procedure that is time-consuming, demanding, and resource-draining. This study incorporated a grain identification and speed control mechanism into a hammer mill machine. The grain detection mechanism is a system that recognizes a grain type through an RGB (Red, Green, Blue) colour sensor. The system has been programmed and trained to vary the speed of a 2hp electric motor with a maximum speed of 2800rpm based on the colour-matching result obtained when the grain is scanned on the colour sensor. The machine was evaluated using performance parameters such as power consumption and grain sieve analysis of milled grains using three crops (yellow corn, white corn, and cowpea). The Three crops were programmed for milling at three motor speeds (2800rpm, 2200rpm, and 1800rpm), and the result is presented. This paper showed that fine, medium and coarse aggregates were obtained for all three-grain types by varying motor speeds, eliminating the need to manually change the screen. The system was responsive to grain identification and speed selection as programmed.

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在锤式磨机操作中结合颗粒检测和速度控制机制

在锤式磨机中实现不同粒度的传统方法是通过手动改变筛网到所需的粒度。这个手工过程是一个耗时、要求高、消耗资源的生产过程。本研究在锤式磨机中加入了颗粒识别和速度控制机构。颗粒检测机制是一个通过RGB(红、绿、蓝)颜色传感器识别颗粒类型的系统。该系统经过编程和训练，可以根据颜色传感器扫描谷物时获得的颜色匹配结果，以最大转速2800转的速度改变2马力电动机的速度。利用功耗等性能参数和三种作物(黄玉米、白玉米和豇豆)碾磨谷物的谷物筛分析对机器进行了评估。三种作物在三种电机转速(2800rpm, 2200rpm和1800rpm)下进行铣削编程，并给出了结果。本文表明，通过改变电机转速，可以获得所有三种粒度类型的细、中、粗骨料，而无需手动更换筛网。该系统对颗粒识别和转速选择具有较好的响应。

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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