航天飞机和未来的空间站,如能得到充分的利用,那么各种身材,各种身体条件,在逃逸和返回方面有一些经验,甚至没有经验,或正在受训的重要人员(VIP),将能乘坐航天飞机往返于空间站之间,并在空间站上作有限期的停留。欲使航天飞机和空间站的逃逸系统能够绝对安全地返回,该系统在逃逸中应操作简单。由人驾驶的和(或)运送乘客的航天飞机,都存在着应急逃逸问题。驾驶员和乘客在安全而成功的逃逸中,时间是决定的因素。也就是说,航天飞机的应急逃逸是否成功,时间是决定性因素。应急事件可以发生在整个飞行过程的任何时间内,如在发射台上,发射前、起飞、弹道飞行、轨道飞行或回收期间。在整个飞行过程的任何时间内逃逸系统应该提供安全逃逸,任意环境下的掩蔽,返回地球,着陆以及回收的能力。本文所论证的应急逃逸系统主要满足从航天飞机一类飞行器上进行应急逃逸的要求。 Space Shuttle and Future Space Station, if they can be fully utilized, then a variety of body, physical conditions, some experience in the escape and return experience, or even without experience, or the VIP is training will be able to take Shuttle shuttle between the space station, and the space station for a limited period of stay. To make the shuttle and space station escape systems absolutely safe to return, the system should be easy to operate in flight. The manned and / or passenger space shuttle has an emergency escape problem. Drivers and passengers in the safe and successful escape, the time is the deciding factor. In other words, the shuttle’s emergency escape success, time is the decisive factor. Emergency incidents can occur at any time throughout the flight, such as on launch pad, before launch, during takeoff, on ballistic flight, orbital flight or during recovery. Escape systems should provide safe escape, masking in any environment, ability to return to Earth, landings and recovery at any time throughout the flight. The emergency escape system demonstrated in this paper mainly satisfies the requirements of emergency escape from a spacecraft type spacecraft.