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深海电连接器结构设计及其实验验证
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Abstract:
针对水下1500 m的高压环境,需要对水下电连接器的密封性、插拔力及其电接触性能做出严格要求。本文针对以上性能提出一种深海电连接器的结构设计,并模拟水下1500 m水深环境对电连接器进行实验验证,以确保其在高压环境工况下正常工作。
In view of the high-pressure environment of 1500 m underwater, strict requirements should be made on the sealing, plugging force and electrical contact performance of underwater electrical connectors. In view of the above performance, this paper proposes a structural design of a deep-sea electrical connector, and simulates the underwater 1500 m water depth environment to test and verify the electrical connector to ensure that it works normally under high-voltage environmental conditions.
| [1] | 朱家远, 叶杨高. 国外水下插拔连接器密封设计及分析[J]. 中国电子科学研究院学报, 2017, 12(5): 518-522. |
| [2] | Wang, C.M., He, S.X. and Wu, H.Y. (2018) An Implementable SAA Nonlinear Lagrange Algorithm for Constrained Minimax Stochastic Optimization Problems. Mathematical Problems in Engineering, No. 4, Article 5498760. |
| [3] | 何宏文, 甘屹, 张鹏举. 基于动密封过程的深海电连接器插合力研究[J]. 船舶工程, 2021, 43(9): 81-88. |
| [4] | 陈海洋, 杨文聪, 韩权, 邵丽影, 张艳. 水下电连接器的囊式压力平衡装置特性研究[J]. 机械制造与自动化, 2020, 49(2): 45-47+53. |
| [5] | 周权, 雷永涛, 叶宇, 王旭, 蓝菲. 电连接器冠簧接触件结构分析及其接触可靠性[J]. 机电元件, 2015, 35(1): 44-47. |
