Studi numerik kekuatan material transmisi roda gigi pico hydro

Jurnal Teknik Mesin Indonesia Pub Date : 2019-04-23 DOI:10.36289/JTMI.V14I1.101

Akhmad Nurdin, D. A. Himawanto

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引用次数: 5

Abstract

The generator generate optimum electrical energy if drive system sends the power from turbine to generator with the direction of rotation and speed as needed. The object of this research, how to design spur gear transmission apply for pico hydropower. There are several point to design spur gear transmission, i.e. the bending stress and contact stress on the teeth, and shear stress on the shaft. The strength of the tooth and shaft, simulation using by Ansys Workbench 14.5. Materials used to manufacture gears is polyamide 6 and the shaft material is teflon. Furthermore if design allowable the process of manufacture can be begin, and if manufacture finished, carried testing transmission on the pico hydropower prototype. The result of this research are the design spur gear transmission have total gear ratio 1: 2.65 with two pairs of gears each 1:1.73 and 1 : 1.52. Simulate using by Anys Workbench 14.5 shows the value maximum bending stress 6,1453 MPa on the gear driven first mate, the contact stress 15,415 MPa on the gears driving first mate, and shear stress 1,7688 MPa on the output shaft. Experimental test show the gear transmission produce electric power higher than the electric power produced by direct transmission.

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水力齿轮传动材料的数量研究

如果驱动系统根据需要的旋转方向和速度将电力从涡轮输送到发电机，则发电机产生最佳的电能。本文的研究对象是如何设计适用于微型水电的正齿轮传动系统。正齿轮传动的设计有几个要点，即齿上的弯曲应力和接触应力以及轴上的剪切应力。齿和轴的强度，采用Ansys Workbench 14.5进行仿真。用于制造齿轮的材料是聚酰胺6，轴材料是聚四氟乙烯。此外，如果设计允许，就可以开始制造过程，如果制造完成，就可以在微型水电样机上进行试验传动。研究结果表明:设计的正齿轮传动总传动比为1:2.65，两对齿轮分别为1:1.73和1:1. 52。通过Anys Workbench 14.5进行仿真，得到齿轮驱动副最大弯曲应力为6,1453 MPa，齿轮驱动副最大接触应力为15,415 MPa，输出轴最大剪切应力为1,7688 MPa。实验测试表明，齿轮传动产生的电能高于直接传动产生的电能。

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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Jurnal Teknik Mesin Indonesia

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