本文围绕高射速中口径舰炮的发展需要,综合分析其供弹动力技术发展现状。针对某高射速中口径舰炮使用需求,对多种高速供弹动力实现途径进行总体建模、动力学分析和数值仿真分析,剖析现有技术的制约因素、工程风险,强调了高速供弹动力技术创新的重要性,提出了内外能耦合供弹动力技术的发展建议。
This paper focuses on the development needs of high-speed medium-calibre naval guns, the development status of its feeding power technology is analyzed comprehensively; for the use of an high-speed medium-calibre naval gun, a variety of high-speed feeding power realization paths are modeled, dynamic simulation and numerical simulation are carried out, the constraints and engineering risks of the existing feeding power thechnology are analyzed, the importance of high-speed projectile power technology innocarion si emphasized, some suggestions are put forward for the development of feeding powered technology that can be coupled internally and externally.
2021,43(4): 183-185 收稿日期:2021-01-26
DOI:10.3404/j.issn.1672-7649.2021.04.037
分类号:TJ301
作者简介:彭松江(1978-),男,研究员,从事大中口径舰炮研制工作
参考文献:
[1] 石晨光. 舰炮武器原理[M]. 北京: 国防工业出版社, 2014: 61−85, 115−167.
[2] 李渊明. 大口径舰炮供弹系统摆弹机构动力学特性研究[D]. 哈尔滨: 哈尔滨工程大学, 2017.
[3] 张凌海, 张轶群, 刘志伟. 我国中大口径舰炮自动装填技术现状与趋势[J]. 电脑知识与技术, 2016, (27): 256-258
[4] 薛抱. 浅谈我国大口径舰炮的发展[J]. 舰载武器, 2007, (5): 34-37
[5] 陈文仁. 大、中口径舰炮的发展及其关键技术[J]. 舰载武器, 1998, (2): 34-37
[6] 黄毅. 现代反舰导弹防御技术探讨[J]. 电子世界, 2014, (6): 81-82
[7] 王勇, 徐国亮, 王全胜. 近程舰炮武器系统拦截高速目标发展研究[J]. 现代防御技术, 2013, (3): 12-17
[8] 贺奇龙, 陈彦伟, 陈永奎. 高射频内能源转管炮动态响应优化[J]. 兵工自动化, 2017, (10): 66-70
