Vibration damping connector systems

The invention claimed is: 1. A vibration damping connector system to connect between a vacuum chamber and a vacuum pump such that the vacuum pump is supported by the vibration damping connector system, said connector system comprising: a first cylindrical member having a through-passage to connect with said vacuum chamber; a second cylindrical member having a through-passage to connect said through-passage of said first cylindrical member with said vacuum pump; at least one sealing member disposed intermediate said first and second cylindrical members to provide a gas seal; a securing system to provide a releasable secured connection of said first cylindrical member with said second cylindrical member; and at least one resilient member disposed intermediate said securing system and a said cylindrical member such that when said at least one sealing member is compressed by a pressure reduction caused in use by operation of said vacuum pump, said at least one resilient member can expand to enable said securing system to maintain said secured connection; wherein said at least one resilient member and said at least one sealing member are configured such that in non-vacuum conditions for a predetermined vacuum pump weight the percentage squeeze on said at least one resilient member is greater than or equal to the percentage squeeze on said at least one sealing member when under vacuum. 2. The vibration damping connector system as claimed in claim 1 , wherein said at least one sealing member has a spring constant k S and said at least one resilient member has a spring constant k R that is less than said spring constant k S . 3. The vibration damping connector system as claimed in claim 1 , further comprising an isolator mass connected in series with and disposed at least partially between said first and second cylindrical members, wherein respective said sealing members are disposed between said isolator mass and said first and second cylindrical members to provide respective said gas seals. 4. The vibration damping connector system as claimed in claim 3 , wherein said isolator mass comprises a plurality of discrete bodies disposed in series and a said sealing member is disposed between adjacent said discrete bodies to provide said gas seal between said adjacent discrete bodies. 5. The vibration damping connector system as claimed in claim 3 , wherein said securing system comprises a plurality of elongate threaded members operable to draw said first and second cylindrical members together. 6. The vibration damping connector system as claimed in claim 5 , wherein said sealing members define respective sealing planes and said elongate threaded members each extend through at least one said sealing plane. 7. The vibration damping connector system as claimed in claim 3 , wherein said securing system comprises a plurality of first elongate threaded members operable to clamp said first cylindrical member to said isolator mass and a plurality of second elongate threaded members operable to clamp said second cylindrical member to said isolator mass. 8. The vibration damping connector system as claimed in claim 7 , wherein said isolator mass defines respective holes to receive said first and second elongate threaded members, a length of each hole being threaded and the threaded holes being configured to define an end position for said first and second elongate threaded members to define a desired clamping pressure to be applied to said first and second cylindrical members by said first and second elongate threaded members to preload said at least one resilient member and said sealing members. 9. The vibration damping connector system as claimed in claim 3 , wherein said securing system comprises first and second clamps extending about said first and second cylindrical members respectively to clamp said first and second cylindrical members to said isolator mass and a first said resilient member is disposed between said first clamp and said first cylindrical member to separate said first clamp from said first cylindrical member and said isolator mass and a second said resilient member is disposed between said second clamp and said second cylindrical member to separate said second clamp from said second cylindrical member and said isolator mass. 10. The vibration damping connector system as claimed in claim 3 , further comprising a tuned damper mass tuned to damp a predetermined vibration frequency, wherein said tuned damper mass is securable to said isolator mass in a position in which it is disposed at least partially radially outwardly of said isolator mass. 11. The vibration damping connector system as claimed in claim 10 , wherein said tuned damper mass has a length L 1 , said first and second cylindrical members and said isolator mass have respective lengths and the sum of said respective lengths L 2 is greater than said length L 1 . 12. The vibration damping connector system as claimed in claim 1 , further comprising an isolator mass that is integral with one of said first and second cylindrical members. 13. The vibration damping connector system as claimed in claim 1 , further comprising a tuned damper mass secured to said first and second cylindrical members, said tuned damper mass being tuned to damp a predetermined vibration frequency of said vacuum pump and disposed radially outwardly of said first and second cylindrical members. 14. The vibration damping connector system as claimed in claim 1 , wherein said securing system comprises a clamp that has a mass tuned to damp a predetermined vibration frequency of said vacuum pump. 15. A vibration damping connector system to be connect between a vacuum chamber and a vacuum pump, said connector system comprising: a first cylindrical member having a through-passage to connect with said vacuum chamber; a second cylindrical member having a through-passage said through-passage of said first cylindrical member with said vacuum pump; an isolator mass connected between and in series with and at least partially between said first and second cylindrical members; respective sealing members disposed between said first and second cylindrical members and said isolator mass to provide respective gas seals; and a tuned damper mass tuned to damp a predetermined vibration frequency, said tuned damper mass being connected with and disposed radially outwardly of said isolator mass; and an elastomer isolator disposed between and in engagement with said first mass and tuned damper mass. 16. The vibration damping connector system as claimed in claim 15 , further comprising respective elastomeric isolators disposed between and in engagement with said first isolator mass and said first and second cylindrical members. 17. The vibration damping connector system as claimed in claim 16 , further comprising an isolator mass connected in series with and at least partially between said first and second cylindrical members, wherein: said at least one elastomeric isolator comprises a first elastomeric isolator and a second elastomeric isolator; a first flange is provided on said first cylindrical member, a second flange is provided on said second cylindrical member, a third flange is provided on said isolator mass, and a fourth flange is provided on said isolator mass; and said securing system comprises a first clamp and a second clamp wherein said first clamp secures said first flange to said third flange and said first elastomeric isolator separates said first clamp from said first and third flanges and wherein said second clamp secures said second flange to said fou