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工程设计学报
工程设计学报  2016, Vol. 23 Issue (3): 295-300    DOI: 10.3785/j.issn. 1006-754X.2016.03.016
通用零部件设计     
高压密封连接器的设计及研究
黎伟1, 雷鸿翔1, 黎宗琪2, 李斌2, 袁圣桐1
1. 西南石油大学 机电工程学院, 四川 成都 610500;
2. 中国石油川庆钻探工程有限公司 井下作业公司, 四川 成都 610051
Design and research of high pressure sealing connector
LI Wei1, LEI Hong-xiang1, LI Zong-qi2, LI Bin2, YUAN Sheng-tong1
1. College of Mechanical and Electrical Engineering, Southwest Petroleum University, Chengdu 610500, China;
2. Downhole Operation Company, Chuanqing Drilling Engineering Company Limited, Chengdu 610051, China
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摘要:

为了提高耐压腔室内引出导线在高压环境下密封的可靠性,保证井下工具内使用的电子设备能够在常压下工作,设计了一种注塑类高压密封连接器.使用有限元软件对内部填充材料为橡胶、环氧树脂时的连接器密封性能作了分析,并进行了实验验证.分析和实验结果显示:当填充材料为橡胶时,其密封性能较好,外壳体的半锥角取88°较为合适,但在高压作用下橡胶易被挤出;当填充材料为环氧树脂时,可避免材料挤出现象发生,但在一定密封压力范围内会出现液体泄漏;当2种材料组合使用时,随着环氧树脂比例的增加,填充材料的外凸距离减小,环氧树脂体积比为40%较为合理.高压密封连接器主要靠前5扣螺纹承载,最大应力出现在外壳体的第1扣螺纹与第2扣螺纹之间的小径处;插针的最大应力出现在橡胶与环氧树脂交界处偏上位置.研究成果对高压密封连接器的设计以及内部填充材料的选择具有一定的参考意义.
关键词: 高压密封连接器橡胶环氧树脂    
Abstract:

In order to improve the sealing reliability of the lead wire from the pressure chamber in the high pressure environment and ensure that the electronic equipment used in the downhole tool can work under atmospheric pressure, a kind of injection class high pressure sealing connector was designed. The sealing connector which filled with rubber and epoxy resin was analyzed based on the finite element software, and the experimental verification was carried out. Analysis and experiment results showed that when the filling material was rubber, the sealing property was good, but the material was easy to be squeezed out, and 88°was a better choice for the semi-cone angle of shell body. When the filling material was epoxy resin, material protrusion could be avoided, but there would be liquid leaking in a certain pressure range. When the filling material was rubber and epoxy resin, evagination distance decreased with increasing of epoxy resin and the use ratio of epoxy resin 40% was a good choice. High pressure sealing connector mainly relied on first five threads to bear load. The maximum stresses appeared at the minor diameter between first thread and second thread of shell body. The maximum stresses of contact pin appeared at the upper border between rubber and epoxy resin. The researching achievement has certain significance for design of high pressure sealing connector and selection of filling material.
Key words: high pressure sealing connector    rubber    epoxy resin
收稿日期: 2016-03-16 出版日期: 2016-06-28
CLC:  TH122  
基金资助:

国家自然科学基金面上项目(51274171);教育部重点实验室项目(OGE201403-03);四川省科技计划项目(2015JY0078,2015SZ0010-06);四川省教育厅科研项目(14ZA0042).
作者简介: 黎伟(1983-),男,四川成都人,讲师,硕士生导师,博士,从事井下工具设计及仿真分析等研究,E-mail:liwei867@aliyun.com.http://orcid.org//0000-0001-8849-409X
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引用本文:

黎伟, 雷鸿翔, 黎宗琪, 李斌, 袁圣桐. 高压密封连接器的设计及研究[J]. 工程设计学报, 2016, 23(3): 295-300.

LI Wei, LEI Hong-xiang, LI Zong-qi, LI Bin, YUAN Sheng-tong. Design and research of high pressure sealing connector. Chinese Journal of Engineering Design, 2016, 23(3): 295-300.

链接本文:

https://www.zjujournals.com/gcsjxb/CN/10.3785/j.issn. 1006-754X.2016.03.016        https://www.zjujournals.com/gcsjxb/CN/Y2016/V23/I3/295

[1] 余贵龙,王丽文.浅谈高温高压环境下的密封连接器开发策略[J].机电元件,2015,35(1):55-59. YU GUI-long,WANG Li-wen.Discussion on the development strategy of sealing connector in high temperature and high pressure environment[J].Electromechanical Components,2015,35(1):55-59.

[2] 刘仲明,杨灿军,陈鹰.深海装置中软细线密封的设计[J].润滑与密封,2005,40(2):136-138. LIU Zhong-ming,YANG Can-jun,CHEN Ying.Designs of soft sealant used in deep sea equipments[J].Lubrication Engineering,2005,40(2):136-138.

[3] 王世华.海上含硫化氢井测试工艺及防护措施[J].油气井测试,1999,8(2):71-74. WANG Shi-hua.Testing technology and protective measures for oil well of containing H2S at sea[J].Well Testing,1999,8(2):71-74.

[4] 韩继先,李文阳,于慧敏.烧结密封电连接器插针断裂原因分析[J].新技术 新工艺,2014,36(10):132-135. HAN Ji-xian,LI Wen-yang,YU Hui-min.Analysis of causes of the sintering sealed electrical connector pins fracture[J].New Technology & New Process,2014,36(10):132-135.

[5] 余贵龙,文咏,李东强,等.一种高温高压密封电连接器:201310435388.3[P].2013-12-25. YU GUI-long,WEN Yong,LI Dong-qiang,et al.A kind of high temperature and pressure sealing electric connector:201310435388.3[P].2013-12-25.

[6] 张树松.玻璃-金属密封连接器[J].机电元件,1997,17(Z1):7-13. ZHANG Shu-song.Glass-metal sealing connector[J].Electromagnetic Components,1997,17(Z1):7-13.

[7] 龙建华.爆轰超压载荷下密封连接器的设计与研究[J].机械工程师,2007,39(9):43-44. LONG Jian-hua.Design and research of hermetical connector under detoation overpressure loading[J].Mechanical Engineer,2007,39(9):43-44.

[8] 田锋伟.高压矩形密封连接器的研制[J].电子世界,2013,35(14):57-58. TIAN Feng-wei.Research and development for high voltage rectangular airproof connectors[J].Electronics World,2013,35(14):57-58.

[9] CHRISTOPHER S.Electrical connectors and sensors for use in high temperature,high pressure oil and gas wells:20100317228[P].2010-12-16.

[10] 孙永国,韩文彬,姚其胜.天然橡胶与金属热硫化黏接工艺研究[J].世界橡胶工业,2015,42(3):40-43. SUN Yong-guo,HAN Wen-bin,YAO Qi-sheng.Study on the technics of nature rubber to metal heat vulcanizing bonding[J].World Rubber Industry,2015,42(3):40-43.

[11] 高超锋,扈广法.天然橡胶/纳米氧化锌复合材料研究进展[J].应用化工,2010,39(9):1394-1396. GAO Chao-feng,HU Guang-fa.The research of natural rubber/nano-ZnO nanocomposite[J].Applied Chemical Industry,2010,39(9):1394-1396.

[12] 姚兴芳,范时军,张世锋.丁腈橡胶增韧环氧树脂研究进展[J].热固性树脂,2009,24(3):52-55. YAO Xing-fang,FAN Shi-jun,ZHANG Shi-feng.Advances in butylnitrile rubber modified epoxy resin[J].Thermosetting Resin,2009,24(3):52-55.

[13] 马桂勇,姜大志.Mooney-Rivlin模型在硅橡胶应力锥受力分析中的应用[J].胶体与聚合物,2013,31(4):177-179. MA Gui-yong,JIANG Da-zhi.Application of Mooney-Rivlin model in stress analysis of silicone rubber stress cone[J].Chinese Journal of Colloid & Polymer,2013,31(4):177-179.

[14] 黄建龙,解广娟,刘正伟.基于Mooney-Rivlin模型和Yeoh模型的超弹性橡胶材料有限元分析[J].橡胶工业,2008,55(8):467-471. HUANG Jian-long,XIE Guang-juan,LIU Zheng-wei.Finite element analysis of rubber materials based on Mooney-Rivlin and Yeoh model[J].China Rubber Industry,2008,55(8):467-471.

[15] 陈国定,HAISER H,HAAS W,等.O形密封圈的有限元力学分析[J].机械科学与技术,2000,19(5):740-741. CHEN Guo-ding,HAISER H,HAAS W,et al.Analysis of elastomeric O-ring seals using the finite element method[J].Mechanical Science and Technology,2000,19(5):740-741.

[16] 郑星,黄海莹,陈颖,等.灌封用环氧树脂的制备与力学性能研究[J].电子元件与材料,2014,33(11):44-46. ZHENG Xing,HUANG Hai-ying,CHEN Ying,et al.Fabrication and mechanical properties investigation of encapsulation epoxy resin[J].Electronic Components and Materials,2014,33(11):44-46.
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