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Station and Module Support Frames

U.Uwer. EDR, June 11, 2003. Station and Module Support Frames. Disclaimer: Detailed station and support frame design has started only recently. Therefore don’t expect final drawings.

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Station and Module Support Frames

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  1. U.Uwer EDR, June 11, 2003 Station and Module Support Frames Disclaimer: Detailed station and support frame design has started only recently. Therefore don’t expect final drawings. Dowel pins through the precise holes at the module ends are used to support and to position the modules.

  2. Station and Frames in TDR • 4 stations with 4 layers each • layers mounted on alu frame • dowel pins together with precision holes in frame define module position • independent supports for +x and –x side no independent movement of stations / layers Maintenance only from top/bottom

  3. 4 cm 25 cm Module Module Module Module Electronics maintenance from top ? difficult if not impossible x u v x Independent movement of xu and vx layers

  4. Revised Station Support Design: • Idea: independent quarter stations movable on I-beams • Constraints: • → from module assembly • modules are assembled vertically outside hall • → from module positioning • module positioning with dowel pins • relative position of modules stable in time and reproducible over movements. Time changes: in x<100 microns, in y<1mm, in z<500 microns • initial relative x position within quarter station better than 500 microns with respect to nominal • z position of module over full length better than1 mm • → from IT (support) • → from services and maintenance Concept

  5. Detailed Proposal I beams: 1 per OT station 1 per IT station (by Cracow Group)

  6. Translated into 3D CAD Drawings (NIKHEF)

  7. y z x Problems: - half modules cannot be easily positioned in x and z: align and glue them on a template - possible movement / bending of modules in z

  8. Alignment • Alignment procedure based on data with following requirements: • internal module precision (wires within ±0.1 mm with respect to each other) → only few free parameter to describe the absolute module position • absolute module position within mounted frames after assembly better than 0.5 mm (relative position of dowel pins much better than 0.5mm) → exact position of module determined from data • within moving unit constrain independent variations of z position of individual modules as well as “bending effects” to ±0.5 mm • limit short-term (weeks) variations of module positions to required accuracy • RASNIK system to monitor position of “moving units” across movements

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