摘要拖线阵声呐的湿端主要是拖缆和声呐,广泛应用于水下目标探测,海洋学研究,海底资源开发,气象监测与研究和军事工业等各个领域。这种“娇贵”的拖线阵在恶劣的海洋环境下收放是极易被损坏的。随着拖线阵朝着越来越长的方向发展,拖线阵在收放过程中被损坏的危险也越来越大,同时拖缆、线阵、尾绳直径不同,所以必须采取变节距排缆。本课题主要从拖曳绞车的选取,排缆机构的选取,排缆机构排缆方式的确定,拖曳绞车主要零部件的设计及校核,包括储缆筒、液压马达、轴、传动机构、制动器、轴承和键等方面来设计出满足设计要求的拖曳绞车机械结构。50893
最后再通过Solidworks三维建模,完成所设计的零部件的建模,建模完成后再通过Solidworks的装配功能,把它们装配起来,使所设计的拖曳绞车能够更加直观,真实的展现在我们眼前。
毕业论文关键字:拖线阵;拖曳绞车;机械结构
Abstract
Towed line array sonar wet end mainly streamers and sonar , is widely used in underwater target detection , oceanography , seabed resource development, climate monitoring and research , and military industry and other fields. This " delicate " drag line array in the harsh marine environment is retractable easily be damaged . With the towed line array direction towards increasingly long , retractable tow line array in the process of being damaged is also growing, while streamers , line array , tail rope diameter is different, so you must take a flexible schedule cable . The main subject of the selection from the towing winch , cable institutions selected row , row row cable cable institutions determine the way , towing winch major parts of the design and verification, including cable storage cylinder , hydraulic motors , shafts , transmission, brakes, bearings and other key aspects of the design to meet the design requirements of the towing winch mechanism.
Finally, three-dimensional modeling via Solidworks to complete the design of parts modeling , modeling after the completion of the assembly functions through Solidworks , assemble them together , so that the towing winch designed to be more intuitive, real show in front of us .
Keywords: towed line array ;towing winch ;mechanical structure
目 录
第一章 绪论 1
1.1 拖线阵的介绍 1
1.2 绞车的发展历史及拖曳绞车的应用现状 2
1.2.1 绞车的发展历史 2
1.2.2 拖曳绞车的应用现状 3
第二章 总体设计 4
2.1 绞车的分类及拖曳绞车的选取 5
2.1.1 绞车的分类 5
2.1.2 拖曳绞车的选取 5
2.2 绞车排缆机构的分类及拖曳绞车排缆机构的选取 6
2.2.1 绞车排缆机构的分类 6
2.2.1.1 凸轮排缆机构 6
2.2.1.2 丝杠排缆机构 7
2.2.1.3 液压缸排缆机构 7
2.2.2 拖曳绞车排缆机构的选取 8
第三章 变节距自动排缆系统 8
3.1 变节距自动排缆系统 8
第四章 拖曳绞车主要零件的设计和校核 9
4.1设计要求