Personal Rescue Enclosure
The personal rescue enclosure (PRE) or "rescue ball" was developed as a solution for transporting astronauts from one Space Shuttle to another in case of an emergency. The device was produced as a prototype but never flew on any missions.
The ball was 36 inches (86 cm) in diameter and had a volume of 0.33 cubic meters. The structure comprised three fabric layers and incorporated a window and a zipper to allow the astronaut to enter and exit the ball. The ball enabled one crew member to curl up inside and don an oxygen mask and hold a carbon dioxide scrubber/oxygen supply device with one hour worth of oxygen. The ball would have been connected by an umbilical to the shuttle to supply air until the airlock depressurized. The rescue ball containing the crew member would have been carried to the rescue shuttle by a space suited astronaut.
The PRE was designed to protect humans in space in the event of an emergency where not enough full space suits were avaialble.[1] It was developed in the 1970s and 1980s to support the Space Shuttle program.[1] The PRE was designed to be used in conjunction with a fully suited astronaut that would provide mobility to the person in the ball.[2][1] The balls life-support systems consisting of oxygen and a CO2 scrubber could support a person for about an hour.[1]
The life support system that supplied oxygen was called the Personal Oxygen Supply, or alternatively it could be supplied with oxygen from an external source after being sealed.[3] The ball was made of fabric, and was sealed by way of zippers, with a small circular window to allow the occupant to see out.[3]
NASA evaluated three methods of transporting the balls:[4]
- By hand, a suited astronaut would haul the balls
- By robotic arm, a robotic manipulator arm would move the balls through space (see Shuttle Remote Manipulator System)
- The balls would be attached to line between to spaceships and pulled along that way
Dimensions:[1]
- 86 cm (2.82 feet or 34 inches) diameter sphere[4]
- As a flexible not rigid item this figure would be subject to some variation, especially if not pressurized.[4]
- Materials/oconstruction methods[4]
- Window constructed of Lexan