[1]练永庆,王昕晔,宋保维.潜伏式武器水下减速着陆运动仿真[J].弹道学报,2019,(03):79-85.[doi:10.12115/j.issn.1004-499X(2019)03-015]
 LIAN Yongqing,WANG Xinye,SONG Baowei.Simulation on Underwater Landing Motion of Latent Weapon[J].Journal Of Ballistics,2019,(03):79-85.[doi:10.12115/j.issn.1004-499X(2019)03-015]
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潜伏式武器水下减速着陆运动仿真()
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《弹道学报》[ISSN:1004-499X/CN:32-1343/TJ]

卷:
期数:
2019年03期
页码:
79-85
栏目:
出版日期:
2019-09-30

文章信息/Info

Title:
Simulation on Underwater Landing Motion of Latent Weapon
文章编号:
1004-499X(2019)03-0079-07
作者:
练永庆12王昕晔3宋保维1
1.西北工业大学 航海学院,陕西 西安 710072; 2.海军工程大学 兵器工程学院,湖北 武汉 430033; 3.海军工程大学 核科学技术学院,湖北 武汉 430033
Author(s):
LIAN Yongqing12WANG Xinye2SONG Baowei1
1.School of Marine Science and Technology,Northwestern Polytechnical University,Xi’an 710072,China; 2.Instiute of Weaponry Engineering,Naval University of Engineering,Wuhan 430033,China; 3.Institute of Nuclear Science and Technology,Naval University of Engineering,Wuhan 430033,China
关键词:
潜伏式武器 减速伞 水下着陆 运动仿真
Keywords:
latent weapon parachute underwater landing motion simulation
分类号:
TJ012.3; E925.2
DOI:
10.12115/j.issn.1004-499X(2019)03-015
摘要:
为了研究潜伏式武器采用减速伞结合舱段分离的方法实现水下安全着陆的可行性,建立了该武器使用减速伞减速及舱段分离着陆时的相关运动过程的数学模型,采用数值计算方法对该运动过程进行了仿真分析,得到了武器减速直至着陆过程中武器及其舱段运动的仿真结果,并对减速伞不同的开启角度对整个着陆运动过程的影响进行了分析。仿真结果表明:通过选择合适的减速伞开启角度、开启深度、舱段分离深度以及钢缆长度参数组合,基本可以实现武器的安全着陆。
Abstract:
In order to study the feasibility of latent weapon safely landing underwater by using parachute and separating into parts,the mathematic models were established on the basis of the analysis of the whole motion process including the deceleration and the weapon landing. The characteristics of the deceleration motion were numerically simulated. The simulation results of the motion of weapon and bay section in the process of weapon decelerating until landing were obtained. The effect of the parachute opening angle on the whole landing process was analyzed. The simulation result shows that this scheme is feasible for the weapon safely landing by choosing the appropriate parameters such as opening angle of parachute,the opening depth,the separation depth of bay section and the length of steel cable.

参考文献/References:

[1] 宋保维,朱信尧,梁庆卫,等. 潜伏式无人水下航行器概念设计[J]. 火力指挥与控制,2010,35(8):107-110.
SONG Baowei,ZHU Xinyao,LIANG Qingwei,et al. Conceptual design of latent unmanned underwater vehicle[J]. Fire Control and Command Control,2010,35(8):107-110.(in Chinese)
[2]宋保维,陈良军,丁浩,等. UUV扑翼驱动机构设计及其运动仿真[J]. 机械设计,2011,28(4):36-39.
SONG Baowei,CHEN Liangjun,DING Hao,et al. Design and kinematics simulation of UUV’s flapping wing[J]. Journal of Machine Design,2011,28(4):36-39.(in Chinese)
[3]潘瑛,徐德民. 自主式水下航行器空间运动矢量建模与仿真[J]. 系统仿真学报,2003,15(4):538-540.
PAN Ying,XU Demin. Vector modeling and simulation of the autonomous underwater vehicle in spatial motions[J]. Journal of System Simulation,2003,15(4):538-540.(in Chinese)
[4]钱东. 美国未来的大型UUV-MANTA[J]. 鱼雷技术,2003(1):41-50.
QIAN Dong. The large-scale unmanned undersea vehicles by the US in the future[J]. Torpedl Tochnology,2003(1):41-50.(in Chinese)
[5]刘正元. 潜水器大攻角范围内运动的仿真[J]. 船舶力学,2005,9(2):54-59.
LIU Zhengyuan. Simulation of submersible motion in large attack angle[J]. Journal of Ship Mechanics,2005,9(2):54-59.(in Chinese)
[6]潘彬彬,崔维成,叶聪,等. 蛟龙号载人潜水器无动力潜浮运动分析系统开发[J]. 船舶力学 2012,16(2):58-71.
PAN Binbin,CUI Weicheng,YE Cong,et al. Development of the unpowered diving and floating prediction system for deep manned submersible“JIAOLONG”[J]. Journal of Ship Mechanics,2012,16(2):58-71.(in Chinese)
[7]MARTLON G,GRANT P H. Standard equations of motion for submarine simulation:NSRDC-2510[R]. [S.l.]:Naval Ship Research and Development Center,1967.

备注/Memo

备注/Memo:
收稿日期:2019-03-12
作者简介:练永庆(1973- ),男,副研究员,研究方向为水中兵器总体及发射技术。E-mail:lianperson@126.com。
更新日期/Last Update: 2019-09-30