基于精度和速度的水泵电机绕线机性能流程

Novita Asma Ilahi, A. Musyafiq, Purwiyanto, Saepul Rahmat, Riyani Prima Dewi, Hendi Purnata
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引用次数: 0

摘要

使用监控系统的水泵线圈绕线机是对传统绕线工具的发展。在常规的线圈绕线工具中,线圈绕线过程是通过手动旋转手柄来完成的,旋转次数与所需圈数相同。传统绕线工具存在工作速度不一致和绕线连续性受操作员影响等问题。传统绕线工具可能会产生不良绕线,而且绕线过程需要严密监控。因此,我们开发了自动绕线机来优化绕线过程。该机器利用直流电机旋转线圈辊,取代了传统的辊柄功能。这种加工方法使用光耦合器传感器。该传感器用于识别和评估辊子的旋转情况。此外,还采用了 ATmega8 微控制器来开发可自动工作的系统。数据收集包括改变导线圈数和导线直径尺寸。这种变化是必要的,因为绕组数和线径会影响泵的效率和性能。数据测试显示,机器的准确率为 98%,结果最多相差 1 个线圈绕组。这些数据证实绕线机符合工具的精度标准。
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Performance Process of Coil Winding Machine Based on Accuracy and Speed for Water Pump Motor
A coil winding machine for water pumps using a monitoring system is a development of conventional winding tools. In regular coil winding tools, the coil winding process is done manually by rotating the handle as many times as the desired number of turns. The conventional winding tools have problems consisting of inconsistent working speed and operator-dependent winding continuity. Undesirable windings can occur with conventional winding tools, and the winding process requires close supervision. Therefore, the automatic coil winding machine was developed to optimize the coil winding process. The machine utilizes a DC motor to rotate the coil rolls, replacing the conventional roller handle function. This machining method uses an optocoupler sensor. The sensor serves to identify and evaluate the rotation of the roller. In addition, the ATmega8 microcontroller was applied to develop a system that can work automatically. Data collection involves varying the number of wire turns and the wire diameter dimension. The variation is necessary because the number of windings and wire diameter affect pump efficiency and performance. The data testing showed a machine accuracy rate of 98%, with a maximum difference of 1 coil winding in the results. This data confirms that the coil winding machine meets the tool's accuracy standards.
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