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Mechanical design of the Roman pots

Mechanical design of the Roman pots. Status report M.Oriunno Common project with EST Division (L.Favre, G.Laurent and R.Perret). Conceptual Design of the Roman Pot is made of on three main steps: Design of the pot Design of the Roman Pot Station Integration in the Tunnel

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Mechanical design of the Roman pots

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  1. Mechanical design of the Roman pots Status report M.Oriunno Common project with EST Division (L.Favre, G.Laurent and R.Perret)

  2. Conceptual Design of the Roman Pot is made of on three main steps: • Design of the pot • Design of the Roman Pot Station • Integration in the Tunnel • What has been done for the pot: • Secondary Vacuum Pot • Mechanical Simulation and Optimization of the thin window (Inconel 0.1mm) • Integration of detectors inside the pot with the hypothesis of capillary cooling • Design of flange to routing the detector’s services outside the pot

  3. SSTEEL 316 Inconel 600 Welding on a flat foil and folding Inconel 718

  4. What has been done for the Roman pot system: • Two solutions have been designed: Symmetric distribution of the loads but less favorable access for maintenance Not symmetric loads but optimized access For Both solutions • A compensation system linked to the primary vacuum allows for a fine regulation but an independent vacuum system can be still implemented • A capacitive system accounting the relative position of the top-bottom pots, • Integration of two Roman Pot stations between the TAN and D2

  5. Compensation bellow Lever Arm Pot Capacitive sensor

  6. Collimator QLR BPM TAN Racks

  7. What must be done on the pot design: • Production of 5 pot prototypes to test under vacuum the welding technology of the thin window (June 2003) • Pot Prototype for RF Pick up test on electronics • Production of a mock-up of the pot with dummy detectors to have a full integration exercise with the services (June 2003) Open issues: • Cryogenic Cooling System: Capillary local cooling, Cold fingers. Very unlikely we can spill cryogens from the machine or CMS. LHC/ECR group is working on that. • Electronic RF pickup shielding: are there special constraints on the window ? • Do we have to bake out the pot at 200oC ? • Yes -> a thin window can not stand the thermal stress • No -> a locally increased dynamic pressure of residual gases must be accepted

  8. Constraints from the LHC-Vacuum group : • The compensation of the forces must not be relied on a pick up of the primary vacuum • Since all the vacuum chamber in the LSS are NEG coated, the pot must be designed to stand a baked out up to 300oC • A risk analysis of the operation of the detector operation should be performed • A design pressure of at least 1.5 bar shall be considered in the design of the window. A rupture disk breaking at a differential pressure of <0.5 bars should be installed

  9. Roman Pots’ Chapter in the TDR • Pot Design : Integration study, Simulation and Prototype test results • Cooling System: Capillaries or Cold finger • Roman Pots Station design: precision, stability, vacuum and accessibility • Integration in the Tunnel: Space allocation, services and radiation environment We are ready to write an exhaustive chapter !!

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