spl intercavity support
DESCRIPTION
SPL Intercavity support. Conceptual design review. Summary. Introduction Requirements Concept scheme Conceptual design Proposed design Conclusion. Introduction. Helium tank/double walled tube not stiff enough for cantilever Support on tuner side Easiest way : connect on next cavity - PowerPoint PPT PresentationTRANSCRIPT
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A. Vande Craen TE/MSC-CMI
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SPL Intercavity supportConceptual design review
04/11/2011
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A. Vande Craen TE/MSC-CMI
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Summary
•Introduction•Requirements•Concept scheme•Conceptual design•Proposed design•Conclusion
04/11/2011
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Introduction•Helium tank/double walled tube not stiff
enough for cantilever Support on tuner side
•Easiest way : connect on next cavity
•Require special design:▫Cryogenic temperature▫Vacuum▫Thermal contraction
04/11/2011
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Summary
•Introduction•Requirements •Concept scheme•Conceptual design•Proposed design•Conclusion
04/11/2011
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Requirements• Mechanical aspect
▫ Sustain any load case (static, transport, thermal transient…)▫ Allow alignment▫ Keep alignment in steady state (warm cold)▫ Minimum stress in helium tank
• Cryogenic temperature▫ Designed to work at 2K (transient)▫ Allow contraction of helium tank
• Installation and access▫ Installation out of clean room▫ Accessibility to tune alignment▫ No accessibility required after alignment
04/11/2011
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Summary
•Introduction•Requirements•Concept scheme•Conceptual design•Proposed design•Conclusion
04/11/2011
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Concept scheme•Ideal
▫Low degree of hyperstaticity▫Can be used in both plane (vertical and
horizontal)
• Extremity of cavities▫2 supports needed
04/11/2011
Double walled tubeInter-cavity support
Next cavity
Free space for supports
Helium tank
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Concept scheme•Support in vertical plane
▫Free longitudinal contraction▫No displacement in vertical direction▫Free rotation
04/11/2011
Beam Axis
Beam Axis
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Concept scheme•Support in horizontal plane
▫Free transversal contraction (transient)▫Blocked transversal displacement of cavity▫Free rotation
04/11/2011
Beam Axis
Beam Axis
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Concept scheme•Space available
04/11/2011
34 mm
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Vertical support Horizontal support
Concept scheme04/11/2011
Beam Axis
Beam Axis Beam Axis
Beam Axis
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Summary
•Introduction•Requirements•Concept scheme•Conceptual design•Proposed design•Conclusion
04/11/2011
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Conceptual design•Contacts
▫Sphere-cylinder 1 free sliding, 2 blocked Free rotation
▫Sphere-plane 2 free sliding, 1 blocked Free rotation
▫Redundancy ▫Limit maximum displacement
04/11/2011
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• Thermal contraction▫Longitudinal
4.5 mm
▫Transversal 1.15 mm Max displacement of beam axis = 0.6 mm (transient)
deformation of helium tank
▫Vertical 1.2 mm Blocked
deformation of helium tank
Conceptual design04/11/2011
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Conceptual design•Deformation
▫Alignment process not yet defined Possible procedure
Alignment on a structure (supports not loaded) Load transfer to vacuum vessel (supports
loaded) Alignment directly depends on supports
Limit deformations when loaded
04/11/2011
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Conceptual design•Deformation
▫Steady state Displacement allowed : 0.02 mm
10% of alignment tolerance Load : 500 N
1/4 of total weight (200 kg) Length : 250 mm
▫Transport Displacement allowed : 0.1 mm Load : 1540 N (0.5 g)
04/11/2011
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Conceptual design•Cylinder
Minimum diameter = 67 mm
•Rectangle
•Triangle
04/11/2011
Width[mm]
Height [mm]
10 10615 9220 8425 78
Width[mm]
Height[mm]
10 15215 13220 12125 112
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Summary
•Introduction•Requirements•Concept scheme•Conceptual design•Proposed design•Conclusion
04/11/2011
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Proposed design•Contacts
▫Sphere-cylinder and sphere plane Non standard components High stresses at contact point
Sphere-cylinder : 430 Mpa Sphere-plane : 1300 MPa
Plastic deformation
▫Solutions Decrease stresses Increase elastic limit
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Proposed design• Proposed solution
▫Spherical plain bearing Rotation freedom (= sphere-sphere contact) Standard components Support very high load Bad thermal contact
▫Sliding cylinder in spherical plain bearing Cylinder-cylinder contact low stresses Easy to machine with standard tooling Bad thermal contact
Has to be tested at low temperature under vacuum
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•Proposed solution▫Sphere-cylinder
Cylinder sliding in a spherical plain bearing Spherical plain bearing sliding in a cylinder
Proposed design04/11/2011
Spherical plain bearing
Cylinder
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•Proposed solution▫Sphere-plane
Spherical plain bearing sliding (on longitudinal and lateral axis) on a support
Cylinder sliding in a spherical plain bearing; spherical plain bearing sliding laterally on a support
Proposed design04/11/2011
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•Proposed solution
Proposed design04/11/2011
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Summary
•Introduction•Requirements•Concept scheme•Conceptual design•Proposed design•Conclusion
04/11/2011
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•Concept scheme and design▫Acceptable stresses▫Limited displacement
•Next step▫Test spherical plain bearing solution
Displacement Friction
▫Define interface to helium tank▫Design final solution
Conclusion04/11/2011
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Thank you for your attention
04/11/2011
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• Reaction forces▫Weight of the cavity
200 kg▫Acceleration during transport (0.5 g)
Max lateral force = 525 N Max vertical force = 1540 N
▫Helium tank deformation (transient) Vertical Horizontal
• Redundancy▫Helium tank never in cantilever▫Each support All forces
Conceptual design04/11/2011