Androgynous Peripheral Attach System
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The Androgynous Peripheral Attach System, or Androgynous Peripheral Assembly System, is a spacecraft docking mechanism used on the International Space Station.[1] It is used to dock the Space Shuttle orbiter and to connect the Functional Cargo Block (Zarya) to Pressurized Mating Adapter-1.[2] A system compatible with APAS is used by the Chinese Shenzhou spacecraft making it possible for that spacecraft to dock with the ISS.[3]
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[edit] Design
APAS was designed by Vladimir Syromyatnikov of the Moscow-based RSC Energia and has roots in the Apollo-Soyuz program.[4] The idea behind the design is that unlike with the probe-and-drogue docking system, any APAS docking ring can mate with any other APAS docking ring, both sides are androgynous. In each docking there is however an active and a passive side, but both sides can fulfill either role. There are 3 basic variations of the APAS system.
[edit] APAS-75
APAS-75 was developed for the Apollo-Soyuz Test Project (ASTP). Unlike previous docking systems, both units could assume the active or passive roles as required. For docking, the spade-shaped guides of the extended active unit (right) and the retracted passive unit (left) interacted for gross alignment. The ring holding the guides shifted to align the active unit latches with the passive unit catches. After these caught, shock absorbers dissipated residual impact energy in the American unit; mechanical attenuators served the same function on the the Soviet side. The active unit then retracted to bring the docking collars together. Guides and sockets in the docking collars completed alignment. Four spring push rods drove the spacecraft apart at undocking.[5] Russia built 5 Soyuz spacecraft that used APAS-75. The first 3 flew as test systems (Cosmos 638, Cosmos 672 and Soyuz 16). One was used for the Apollo-Soyuz Test Project, Soyuz 19 the only Soyuz to actually use the docking system, and the last one flew as Soyuz 22. On the American side the ASTP Docking Module carried one APAS-75 docking collar and one Apollo docking collar.
[edit] APAS-89
When Russia started working on Mir they were also working on the Buran shuttle program. APAS-89 was envisioned to be the docking system for Buran with the Mir space station. The original design was heavily modified. The outer diameter was reduced from 2030 mm to 1550 mm and the alignment pedals were pointed inward instead of outward. This limited the internal diameter of the docking port to about 800 mm. The Buran shuttle was finally cancelled in 1994 and never flew to the Mir space station, but Mir's Kristall module was outfitted with two APAS docking collars. When the Shuttle-Mir Program began APAS was selected as the docking system. The visiting US Space Shuttles used a Androgynous Peripheral Attach System docking collar originally designed for Buran, mounted on a bracket originally designed for use with the American Space Station Freedom. The Mir Docking Module, basically a spacer module between Kristall and the Shuttle also used APAS-89 on both sides. This design is sometimes called Androgynous Peripheral Docking System.
[edit] APAS-95
Its current design is based on that of the Androgynous Peripheral Docking System used in the Shuttle-Mir Program. The system has an active and a passive side. The active capture ring that extends outward from the orbiter will capture the passive mating ring on the space station's Pressurized Mating Adapters. The capture ring aligns them, pulls them together and deploys 12 structural hooks, latching the two systems with an airtight seal.
[edit] Other docking systems
Other docking ports on the Russian station modules use the Russian Probe and Cone Mechanism, which works in a similar way for the docking of Russian spacecraft. The NASA-designed Low Impact Docking System, which is to serve as the main docking system for Project Constellation, is a smaller, lighter, simpler version of APAS, but is not compatible with it.
[edit] Images
APAS in a Shuttle-Mir docking. |
[edit] References
- ^ What is an Androgynous Peripheral Attach System?. NASA. Retrieved on 2008-04-07.
- ^ Androgynous Peripheral Attach System. Boeing. Retrieved on 2008-04-07.
- ^ Testimony of James Oberg: Senate Science, Technology, and Space Hearing: International Space Exploration Program. spaceref.com. Retrieved on 2008-04-07.
- ^ Patricia Sullivan (October 1, 2006). Vladimir Syromyatnikov; Designed Docking System for Space Capsules. The Washington Post. Retrieved on 2008-04-05.
- ^ David S. F. Portree. Mir Hardware Heritage. Lyndon B. Johnson Space Center. Retrieved on 2008-04-05.