小型船舶机械轴系安装定位孔装置设计
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摘要
由于小型船舶机械轴系定位孔对安装位置精度要求较高,原有的机械轴系安装工序复杂,操作繁琐,严重影响船舶运行效果,甚至威胁船舶航行安全。针对以上问题,改进了小型船舶机械轴安装定位孔的设计方法,基于对非磁性定位原理和气压传动技术的研究,提出结合机械轴系叠层结构进行埋孔对接技术的现代小型船舶机械轴系叠层结构的高效精密定位孔进行装置进行优化设计,以便提高机械轴系安装定位孔的精准度,从而保障小型船舶的运行安全和工作质量。为检测该方法的实用价值,进行了仿真实验。研究结果表明,所设计的系统能够有效满足小型船舶机械轴系叠层安装定位孔可有效减少工作程序,大幅度提高定位孔精准程度,满足了小型船舶机械轴系安装定位孔装置的精准定位要求。
Due to the high precision requirement of the eccentric bearing positioning hole for the installation position of small ships, the original mechanical shafting installation process is complex, complicated operation, seriously affect the ship operation effect, and even threaten the safety of ship navigation. Aiming at the above problems, the design method of positioning hole for mechanical shaft installation of small ship was improved. based on the research of non-magnetic positioning principle and pneumatic transmission technology, the optimization design method of high-efficiency precision positioning hole for modern small ship mechanical laminated structure combined with mechanical shafting laminated structure embedded hole docking technology was proposed, so as to improve the precision of mechanical shafting installation positioning hole, so as to ensure the operation safety and working quality of small ship. In order to detect the practical value of the method, a simulation experiment is carried out. The results show that the designed system can effectively meet the small ship mechanical shafting installation positioning hole can effectively reduce the working procedure, greatly improve the precision of positioning hole, and meet the precision positioning requirements of small ship mechanical shafting installation positioning hole device.
Due to the high precision requirement of the eccentric bearing positioning hole for the installation position of small ships, the original mechanical shafting installation process is complex, complicated operation, seriously affect the ship operation effect, and even threaten the safety of ship navigation. Aiming at the above problems, the design method of positioning hole for mechanical shaft installation of small ship was improved. based on the research of non-magnetic positioning principle and pneumatic transmission technology, the optimization design method of high-efficiency precision positioning hole for modern small ship mechanical laminated structure combined with mechanical shafting laminated structure embedded hole docking technology was proposed, so as to improve the precision of mechanical shafting installation positioning hole, so as to ensure the operation safety and working quality of small ship. In order to detect the practical value of the method, a simulation experiment is carried out. The results show that the designed system can effectively meet the small ship mechanical shafting installation positioning hole can effectively reduce the working procedure, greatly improve the precision of positioning hole, and meet the precision positioning requirements of small ship mechanical shafting installation positioning hole device.
引文
[1]李琳.船舶轴系定位中心线测定工艺及其工装设计[J].机电工程技术,2016,45(11):51-53.
[2]李碧桃.船舶轴系安装技能大赛的轴系定位工装设计及中心线测定工艺[J].时代报告:学术版,2015,13(9):200-200.
[3]刘子杨.大型舰船主机与轴系定位安装控制要点[J].工程技术:文摘版,2016,35(11):00271.
[4]周立彬.轴系镗孔设备的设计与加工研究[J].机床与液压,2015,43(22):19-20.
[2]李碧桃.船舶轴系安装技能大赛的轴系定位工装设计及中心线测定工艺[J].时代报告:学术版,2015,13(9):200-200.
[3]刘子杨.大型舰船主机与轴系定位安装控制要点[J].工程技术:文摘版,2016,35(11):00271.
[4]周立彬.轴系镗孔设备的设计与加工研究[J].机床与液压,2015,43(22):19-20.