Method for protecting and unprotecting the fluid path in a controlled environment enclosure

What is claimed is: 1. A fluid handling assembly for automatically carrying out a fluid handling process in an aseptic environment, the fluid handling assembly disposed in a controlled environment enclosure configured to aseptically isolate the process and hold the fluid handling assembly, further disposed with a robot arm disposed within the enclosure to manipulate the fluid handling assembly, the fluid handling assembly comprising: an implement portion for conveying fluid in the fluid handling process; a first sheath portion, the implement portion disposed within the first sheath portion, the first sheath portion including: a first locking mechanism portion, and a first sealing portion, a second sheath portion including: a second locking mechanism portion configured to mate with the first locking mechanism portion, and a second sealing portion disposed to aseptically seal with the first sealing portion when the first and second locking mechanism portions are mutually mated, and wherein the first and second sheath portions define a sealed cavity that aseptically encapsulates the implement portion when the first and second locking mechanism portions are mutually mated. 2. The assembly of claim 1 wherein the assembly is a fill assembly and the implement portion comprises a proximal dispensing portion of a fill needle, the fill needle including a fluid conduit that extends through the first sheath portion to a distal fluid supply end so that, when the first and second locking mechanism portions are mutually mated, the proximal dispensing portion of the fill needle is located inside the cavity and the distal fluid supply end of the fluid conduit is located outside the cavity. 3. The assembly of claim 2 wherein the fluid conduit includes a flexible tube in fluid communication with the proximal dispensing portion of the fill needle. 4. The assembly of claim 1 wherein the assembly is a swab assembly and the implement portion comprises a swab disposed inside the cavity when the first and second locking mechanism portions are mutually mated. 5. The assembly of claim 1 further comprising: an articulated arm associated with the robot arm disposed within the enclosure to manipulate the fluid handling assembly. 6. The assembly of claim 5 wherein the first and second sheath portions respectively comprise first and second engagement portions. 7. The assembly of claim 6 further comprising: a robotic arm endpiece for the robotic arm, the endpiece configured to bear the first sheath portion by engagement with positive detent with the first engagement portion; and a holding station comprising a first holding fixture to hold the second sheath portion, the fixture configured for engaging with the second engagement portion. 8. The assembly of claim 7 wherein the holding fixture comprises angled fingers disposed to engage with the second engagement portion of the second sheath portion to release the first sheath portion from the second sheath portion. 9. The assembly of claim 8 wherein the holding station comprises a second holding fixture configured to suspend the mutually engaged first and second sheath portions. 10. The assembly of claim 1 wherein the first and second sheath portions are separate injection molded parts and wherein the locking mechanism portions include at least one integrally molded spring member. 11. The assembly of claim 10 further including a tamper indicator that is mechanically linked to one of the locking mechanism portions and includes a portion that is constructed to irreversibly tear in response to the mechanical separation of the first and second sealing surfaces. 12. The assembly of claim 1 wherein: the first and second locking mechanism portions are configured to mutually mate when the first and second locking mechanism portions are moved towards each other along a locking axis, the first sheath portion further includes a first bearing surface positioned at least generally normal to the locking axis, and the second sheath portion further includes a second bearing surface positioned at least generally normal to the locking axis and facing the first bearing surface.