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深海带电插拔连接器力学特性分析
引用本文:韩家桢,王勇,谢玉东,王启先,张新标,高文彬,李荣兰,张传军. 深海带电插拔连接器力学特性分析[J]. 山东大学学报(工学版), 2021, 50(6): 30-39. DOI: 10.6040/j.issn.1672-3961.0.2020.127
作者姓名:韩家桢  王勇  谢玉东  王启先  张新标  高文彬  李荣兰  张传军
作者单位:1. 山东大学机械工程学院, 山东 济南 250061;2. 高效洁净机械制造教育部重点实验室(山东大学), 山东 济南 250061;3. 浙江大学海洋学院, 浙江 杭州 310058;4. 山东龙立电子有限公司, 山东 临沂 276017
基金项目:国家自然科学基金资助项目(51875316,51775310);山东省自然科学基金资助项目(ZR2019MEE025);山东省重点研发计划资助项目(2019GHY112052)
摘    要:以水下7 000 m工况的深海带电插拔连接器为研究对象,旨在获得湿插拔连接器在深海双重高压下的受力特性和插拔过程中的动密封性能。介绍连接器的插头结构与压力补偿技术;推导压力补偿器工作容积的计算公式;运用Ansys Workbench建立插头内壳体组件与插孔组件的动密封有限元模型,对内壳体、压力平衡膜及内胆进行强度计算;分析由连接器插拔引起的平衡膜内外瞬时压差对膜的应力分布及变形情况;讨论密封件径向压缩量、密封接触面摩擦因数、插拔速度对插拔过程中动密封性能的影响。结果表明:插头插合时,平衡膜外表面应力基本不变,其变形减小;拔出时,平衡膜外表面的应力及变形都逐渐增大。密封件之间的接触压力受密封接触面过盈配合量的影响明显,增大过盈配合量可显著提高动密封区域的接触压力及密封性能,同时也会加剧密封件失效的可能性,密封接触面的摩擦因数、插拔速度对接触压力的影响则较小。

关 键 词:深海带电插拔连接器  力学特性  压力补偿技术  有限元分析  动密封  接触压力  

Mechanical characteristics for deep sea wet-mate electrical connectors
HAN Jiazhen,WANG Yong,XIE Yudong,WANG Qixian,ZHANG Xinbiao,GAO Wenbin,LI Ronglan,ZHANG Chuanjun. Mechanical characteristics for deep sea wet-mate electrical connectors[J]. Journal of Shandong University of Technology, 2021, 50(6): 30-39. DOI: 10.6040/j.issn.1672-3961.0.2020.127
Authors:HAN Jiazhen  WANG Yong  XIE Yudong  WANG Qixian  ZHANG Xinbiao  GAO Wenbin  LI Ronglan  ZHANG Chuanjun
Affiliation:1. School of Mechanical Engineering, Shandong University, Jinan 250061, Shandong, China;2. Key laboratory of High-Efficiency and Clean Mechanical Manufacture Ministry of Education(Shandong University), Jinan 250061, Shandong, China;3. Oceam College, Zhejiang University, Hangzhou 310058, Zhejiang, China;4. Shandong Longli Electronic Co., Ltd, Linyi 276017, Shandong, China
Abstract:A deep-sea and wet-mate electrical connector at 7 000 meters underwater was chosen as the research subject, aiming at obtaining the mechanical characteristics and dynamic sealing performance of the wet-mate connector under the condition of deep-sea double high pressure. The plug structure and pressure compensation technology of the connector were introduced and a calculation formula of the working volume of the pressure compensator was derived. Finite element models of plug's inner shell component and jack component's dynamic sealing were established by using the software Ansys Workbench, and the strength of the inner shell, pressure balance membrane and inner tank was calculated. The stress distribution and deformation of the membrane under the action of instantaneous pressure difference caused by the connector's wet-mate operation between the inside and outside of the balance membrane were analyzed. The effects of the seal component's radial compression, sealing contact surface's friction coefficient and wet-mate speed on dynamic sealing performance during the wet-mate operation were discussed. The results showed that when the plug was inserted, the stress on the outer surface of the balance membrane was almost unchanged, and its deformation was decreased; when the plug was pulled out, the stress and deformation on the outer surface of the balance membrane were gradually increased. The contact pressure between seal components was obviously affected by the interference fit of the sealing contact surface. Increasing the interference fit could significantly improve the contact pressure and sealing performance of the dynamic sealing area, but also exacerbate the possibility of seal component's failure. The sealing contact surface's friction coefficient and wet-mate speed had little influence on the contact pressure.
Keywords:deep sea wet-mate electrical connector  mechanical characteristic  pressure compensation technology  finite element analysis  dynamic seal  contact pressure  
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