The manned maneuvering unit flight controller arm
Abstract
The Manned Maneuvering Unit (MMU) and its support equipment provide an extravehicular astronaut mobility, and the ability to work outside the confines of the Shuttle Orbiter payload bay. The MMU design requirements are based on the highly successful Skylab M-509 maneuvering unit. Design of the MMU was started as an R&D effort in April 1975 and Flight Hardware design was started in August 1979 to support a possible requirement for in-space inspection and repair of Orbiter thermal protection tiles. Subsequently, the qualification test and production activities were slowed, and the current projected earliest first flight is now STS-11 in January, 1984. The MMU propulsion subsystem provides complete redundancy with two identical "system". Each system contains a high pressure gaseous nitrogen tank, an isolation valve, a regulator, and twelve 1.7 lbf (7.5 N) thrusters. The thrusters are packaged to provide the crew member six-degree-of-freedom control in response to commands from translational and rotational hand controllers. This paper discusses the MMU control arm requirements, design, and developmental history.
- Publication:
-
The 17th Aerospace Mechanics Symposium
- Pub Date:
- May 1983
- Bibcode:
- 1983aeme.symp..245F
- Keywords:
-
- Design Analysis;
- Extravehicular Activity;
- Extravehicular Mobility Units;
- Maneuverability;
- Manned Maneuvering Units;
- Space Shuttle Orbiters;
- Anomalies;
- Manned Maneuvering Units;
- Payloads;
- Performance Tests;
- Propulsion System Performance;
- Redundancy;
- Safety;
- Thermal Protection;
- Launch Vehicles and Space Vehicles