Presentation is loading. Please wait.

Presentation is loading. Please wait.

H. Felice - P. Ferracin – D. Cheng 09/11/2013 Update on structure CAD model.

Similar presentations


Presentation on theme: "H. Felice - P. Ferracin – D. Cheng 09/11/2013 Update on structure CAD model."— Presentation transcript:

1 H. Felice - P. Ferracin – D. Cheng 09/11/2013 Update on structure CAD model

2 COLLAR (I) IR of the collar has been fixed to 115 mm which accounts for Nominal coil OR after impregnation is 113.376 mm (baseline) Wide coil (18.636 mm) OR after impregnation is 113.886 mm Trace + insulation 0.1 + 0.15 mm Decision on the length of the structure to 1.550 m (CAD) Coil length (endshoe to extension): 1.51 m + 0.02 m of coil length variability (not in CAD) + 0.02 m of G10 pushers (0.01 per side in CAD) + 0.02 m of SS pusher (0.01 m per side in CAD) will be inside structure in CAD model (no variability accounted for) Might be flush with structure or sticking out depending on coil length variability. Lamination thickness: 50 mm => 31 collar laminations Alignment feature at the midplane will be female on the collar side H. Felice2

3 COLLAR (II) Bolting of the collar: M6 bolts Slotted hole will be open to avoid thin wall thickness Through hole with shorter length thread => to be re-discussed Tie rod holes will be moved (same center radius, few degrees down) to ensure enough wall thickness between tie rod hole and the bolt hole (at least 3 mm) M6 tie rods 9 mm holes with bushings 1 mm wall thickness A profile tolerance will be given for the collars laminations (tolerance de forme) as all the surfaces are important surfaces H. Felice3

4 Pole key Pole groove is 14 mm Collar distance 15 mm 0.5 mm per side to include ground plane insulation and key shimming Key nominal width is 14-2x0.625 = 12.75 mm

5 PAD and MASTERS (I) Pad and pad master might be merged in a unique component Done in CERN CAD model To be discussed Yoke master will remain a separate component from the yoke Making it part of the yoke would prevent loading by quadrant and prevent aligning coil pack to yoke during loading The alignment key will be a separate component Making it part of the pad could make the assembly more difficult the alignment key will be made wider Will be brass Load keys will be stainless steel Slot and spacing to be defined H. Felice5

6 PAD and MASTERS (II) Tie rod M10 15 mm holes and bushings wall thickness 2 mm Pad bolts M8 Length of the thread to be discussed

7 Alignment key and yoke master Master to master distance: 3 mm Bladder slot: 3 mm deep Yoke master thickness : 10 mm (junction block) + 2 mm (wall thickness) Need to confirm junction block dimension LBNL is using 9.5 mm Alignment key slot 5 mm deep on each side (yoke master and pad) Key is 10 mm (pad to master dimension) Width to be defined

8 YOKE (I) Note about the laminations: Moving outward radially in the structure, collars, pads and yoke are laminated Longitudinally the stack of laminations should be offset-ed moving outward from the collar to the pad: The 1 st collar and yoke lamination will be 50 mm laminations The 1 st pad lamination will be a 25 mm lamination Yoke keys: a= 6 mm b = 3 mm Radial slot = 9.5 mm Azimuthal slot = 12 mm Yoke key 11 (height) by 8 mm (wide) a b H. Felice8 radial azimuthal

9 YOKE (II) Yoke alignment/integration features When present, should be present in all 4 quadrants Need only to be present in extremities laminations In between could be plain laminations Geometry of the features to be discussed with Herve Prin  Magnetic and mechanical impact on the design has to be checked Lamination assembly: M20 tie rods and 24 mm holes with 2 mm wall thickness bushings H. Felice9

10 SHELL Shell of SQXF is made of 2 segments Shell alignment/integration features When present, should be present in all 4 quadrants Geometry of the features to be discussed with Herve Prin  Mechanical impact on the design has to be checked: 3D

11 END PLATE and RODS Baseline plate is 75 mm thick Scaled up from HQ (60 % more axial forces in QXF) Aperture is 150 mm in diameter M16 “real” bullets (spherical end) will be used instead of set screws (HQ) Distance between endplate and face of the yoke is set to 25 mm LARP experience is 35 mm Rods M36 axial rods Spherical washer interfering with cooling holes => can be chopped Need to confirm pipe parameters for cooling (wall thickness…) have to be elongated in present CERN CAD model to allow for spherical washer and 2 nuts Thread on rods will be asymmetric for lead and return ends (to allow for axial load rig (endplate, piston…) mounting) Axial load rig will be assembled on return end (non connection) side => Should be added to the CAD model H. Felice11

12 Analysis to be performed/performed ANSYS 2D model Incorporate pad master in pad => no change in the optimization Change alignment feature between pad and collar (female) Modify yoke master thickness to accommodate junction blocks Master=15 mm wide 3 mm deep bladder slot 12 mm bladder wall Accommodates 9.5 mm junction block allowing 2 mm wall thickness Set pad to ymaster minimum distance = 3mm Impact of yoke features on magnetic and mechanical analysis Opera 2D / Roxie to be defined H. Felice12


Download ppt "H. Felice - P. Ferracin – D. Cheng 09/11/2013 Update on structure CAD model."

Similar presentations


Ads by Google