无杆式压缩空气弹射气缸结构设计
毕业论文关键词 压缩空气 冷发射 倾斜发射 垂直发射 无杆气缸
Title The design of Rodless cylinder compressed air
Abstract Conventional rockets (missiles) weapons using gunpowder as the transmission source of power,but in the process will produce thrust eccentric and high pressure gas stream will redirectorburns. So the design task by compressed air as power source, through the opening of thecompressed air cylinder and piston internal energy into mechanical energy, thereby launchingrockets (missiles). Using compressed air as power source does not produce high pressure gasstream, inexhaustible energy and air, it can be said is rich in resources. Since the opening of alarge cylinder, so the bar structural design, in order to achieve high-speed launch, the structure ofthe piston and the seal tape is particularly important, and finally the use of force by the cylinderdeformation simulation performed to determine the size opening. In determining the barstructure, the need to assess the opening cylinder, fusiform, and the quality of the end cap of thepiston bar. Finally, each transmission scheme, and comparison of the pros and cons. Finalize theopening of the cylinder and other parts of the three-dimensional and two-dimensional drawing.
Keywords Compressed air Cold launch Tilt launch vertical launch Rodless cylinder
目次
1绪论1
2发射方案9
2.1火箭武器战术性9
2.2工艺性与生产性10
2.3发射方式11
3无杆气缸结构设计14
3.1结构组成14
3.2发射原理15
3.3内弹道计算16
3.4气缸变形仿真18
3.5气密性的保证23
3.6质量评估24
总结25
致谢26
参考文献27
图2.3.2垂直式发射装置示意图12
图3.1.1无杆式气缸结构图13
图3.1.2简易通用垂直发射架内部构造14
图3.1.3活塞与密封带结构图15
表2零件质量评估24
表3各发射方案优缺点比较25
1 绪论1.1 研究背景火箭武器或导弹的发射大致可以分为热发射和冷发射。热发射在当今世界各国军队装备较完整,并且热发射技术相对而言更加成熟,但是热发射技术还是有一些短板与弊端。在以火药为发射源的火箭武器发射过程中,火箭导弹在点火以后,在定向器内滑行时会产生高温高压燃气流,燃气流会对定向器灼烧有时候会损坏定向器,列如几吨甚至十几吨的火箭导弹发射时还会对发射装置产生灼烧,更为严重者,烧坏发射装置。在我国空气污染比较严重的情况下,产生的燃气流与废气还会加重雾霾影响空气质量。虽然暂时不需要在战场上使用火箭武器作战,但是一次次的战前实验会产生大量有污染的气体。其次在发射火箭导弹时,燃气流还会对定向器产生扰动,对弹体产生推力偏心,这些因素都会影响火箭武器的打击准确度。而冷发射技术应用于火箭武器使热发射产生的一些缺点可以有效的避免,例如冷发射技术不会产生高温高压的燃气流,而且也不会对空气产生有害气体。使用也更为安全环保。冷发射技术囊括多种工质弹射,如燃气-蒸汽弹射发射和压缩空气式弹射发射等,本课题所研究的压缩空气式弹射就是冷发射中的一种。1所示为燃气—蒸汽弹射装置布局图[4]。