一种基于提高传动效率的摆线轮分段修形优化设计新方法

IF 0.8 4区工程技术 Q4 ENGINEERING, MANUFACTURING

Journal of Advanced Mechanical Design Systems and Manufacturing Pub Date : 2023-01-01 DOI:10.1299/jamdsm.2023jamdsm0069

Ji QIU, Linhuan GONG, Li LIU, Limin LUO, Junqiang LOU

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引用次数: 0

摘要

为了提高传动效率，提出了一种新的摆线齿轮齿形分段修形优化设计方法。首先，对分段修形下摆线齿廓进行了分析。其次，建立了传动效率最高的摆线轮工作齿段啮合相位角的数学模型，利用粒子群算法实现了摆线轮工作齿段啮合相位角的优化，并对其重要指标进行了计算，并与基本分段修法进行了比较。最后，通过数值求解得到了新设计方法下摆线齿轮的齿形。为验证该方法的有效性，设计了摆线齿轮加工工艺，并在装配RV减速器样机上进行了新方法与常规基本分段修法的性能测试对比分析。结果表明:与基本分段修正方法相比，优化后的RV减速器在额定载荷下的温升降低了1.2℃，扭转刚度和传动效率分别提高了0.03N·m/"和1.8%，有效克服了基本分段修正方法传动效率低的缺点。

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An novel optimal design method for segmented modification of cycloid gear based on improved transmission efficiency

In this article, a novel optimal design method for segmented modification of cycloid gear tooth profile was proposed to improve transmission efficiency. Firstly, the cycloid tooth profile under segmented modification was analyzed. Secondly, the mathematical model of the meshing phase angle of the working segment of the cycloid gear with the highest transmission efficiency was established, and such optimization was achieved by the particle swarm algorithm，and the important indexes were calculated and compared with the basic segmented modification method. Finally, the tooth profile of the cycloid gear under the new design method was obtained by numerical solution. To verify the method, the processing technology of cycloid gear is designed, and the comparison of performance testing between the new proposed method and conventional basic segmented modification was conducted and analyzed by the assembled RV reducer prototype in accordingly. The results show the temperature rise of the RV reducer under the optimized method was reduced by 1.2℃ under the rated load, and the torsional stiffness and transmission efficiency were increased by 0.03N·m/" and 1.8%, respectively, compared with the basic segmented modification method, which shows that this method can effectively overcome the disadvantage of low transmission efficiency under the basic segmented modification method.

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来源期刊

Journal of Advanced Mechanical Design Systems and Manufacturing 工程技术-工程：机械

CiteScore

2.00

自引率

0.00%

发文量

审稿时长

4.6 months

期刊介绍： The Journal of Advanced Mechanical Design, Systems, and Manufacturing (referred to below as "JAMDSM") is an electronic journal edited and managed jointly by the JSME five divisions (Machine Design & Tribology Division, Design & Systems Division, Manufacturing and Machine Tools Division, Manufacturing Systems Division, and Information, Intelligence and Precision Division) , and issued by the JSME for the global dissemination of academic and technological information on mechanical engineering and industries.