Basic lid
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@ -1,6 +1,6 @@
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import cadquery as cq
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import math
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import copy, math
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from shapely.geometry import LineString
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from shapely.geometry import Point
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@ -12,10 +12,14 @@ loop_thickness=1.5
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stepper_motor_size=42
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lid_thicknesss = 5
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offset=9
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part_thinkness=20
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gap = stepper_motor_size * math.sin(math.radians(slant_degree)) / math.sin(math.radians(90-slant_degree))
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width = math.sqrt(gap**2 + stepper_motor_size**2 - 2*gap*stepper_motor_size*math.cos(math.radians(90)))
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base = cq.Workplane('XY').lineTo(0,offset).polarLine(stepper_motor_size, 90-slant_degree)
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d=20
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t=7
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end_x=gap+stepper_motor_size-5
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end_y=-4.5
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angle=40
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@ -37,28 +41,33 @@ def findRodInter(n_x, n_y):
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y = i.geoms[0].coords[0][1]
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return x, y
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def createOutline(ex_amount):
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base = cq.Workplane('XY').lineTo(0,offset).polarLine(stepper_motor_size, 90-slant_degree)
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base = base.hLine(width).polarLine(stepper_motor_size-5,270-slant_degree).tangentArcPoint((end_x, end_y), relative=False)
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base = base.hLine(width).polarLine(stepper_motor_size-5,270-slant_degree).tangentArcPoint((end_x, end_y), relative=False)
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d=20
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t=7
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outer_x=center_x+math.cos(math.radians(270-slant_degree))*outer_ring_diameter/2
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outer_y=center_y+math.sin(math.radians(270-slant_degree))*outer_ring_diameter/2
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base = base.threePointArc((center_x+outer_ring_diameter/2 ,center_y), (outer_x, outer_y)).polarLine(d, 180-slant_degree).vLine(t)
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outer_x=center_x+math.cos(math.radians(270-slant_degree))*outer_ring_diameter/2
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outer_y=center_y+math.sin(math.radians(270-slant_degree))*outer_ring_diameter/2
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base = base.threePointArc((center_x+outer_ring_diameter/2 ,center_y), (outer_x, outer_y)).polarLine(d, 180-slant_degree).vLine(t)
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n_x=base.val().endPoint().toTuple()[0]
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n_y=base.val().endPoint().toTuple()[1]
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coor_x, coor_y = findRodInter(n_x, n_y)
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last_x, last_y = findRodInter(n_x, n_y+2)
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n_x=base.val().endPoint().toTuple()[0]
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n_y=base.val().endPoint().toTuple()[1]
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coor_x, coor_y = findRodInter(n_x, n_y)
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last_x, last_y = findRodInter(n_x, n_y+2)
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base = base.lineTo(coor_x, coor_y)
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base = base.threePointArc((center_x+rod_thickness/2, center_y), (last_x, last_y))
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base = base.polarLine(d, 180-slant_degree).close().extrude(20)
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base = base.lineTo(coor_x, coor_y)
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base = base.threePointArc((center_x+rod_thickness/2, center_y), (last_x, last_y))
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base = base.polarLine(d, 180-slant_degree).close().extrude(ex_amount)
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# Fillets
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outer_fillets=2.5
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base = base.edges('|Z and >Y').fillet(outer_fillets)
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base = base.edges('|Z and <X').fillet(outer_fillets)
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base = base.edges('|Z').edges('<<Y[-2]').fillet(5)
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# Fillets
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outer_fillets=2.5
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base = base.edges('|Z and >Y').fillet(outer_fillets)
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base = base.edges('|Z and <X').fillet(outer_fillets)
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base = base.edges('|Z').edges('<<Y[-2]').fillet(5)
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return base
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lid = createOutline(-lid_thicknesss).translate((0,0,part_thinkness))
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base = createOutline(part_thinkness)
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# Shell
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copy = base.faces('>>Z[0]').workplane().center(0, -offset-loop_thickness).polarLine(stepper_motor_size, slant_degree).polarLine(-2*stepper_motor_size, 90+slant_degree).hLine(-2*stepper_motor_size).close().cutThruAll()
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@ -73,7 +82,10 @@ stepper_hole_radius=stepper_hole_width/2*math.sqrt(2)
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stepper_center = cq.Workplane('XY').center(0, -offset-loop_thickness).lineTo(0, offset).polarLine(stepper_motor_size/2, 90-slant_degree).polarLine(stepper_motor_size/2, -slant_degree).val().endPoint().toTuple()
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base = base.faces('>>Z[0]').workplane().center(stepper_center[0], -stepper_center[1]).circle(22.5/2).pushPoints([(stepper_hole_radius*math.cos(math.radians(45+slant_degree)),stepper_hole_radius*math.sin(math.radians(45+slant_degree))), (stepper_hole_radius*math.cos(math.radians(135+slant_degree)),stepper_hole_radius*math.sin(math.radians(135+slant_degree))),(stepper_hole_radius*math.cos(math.radians(225+slant_degree)),stepper_hole_radius*math.sin(math.radians(225+slant_degree))),(stepper_hole_radius*math.cos(math.radians(315+slant_degree)),stepper_hole_radius*math.sin(math.radians(315+slant_degree)))]).circle(3/2).cutBlind(-1.6)
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lid = lid.cut(base)
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# Render
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show_object(base, name='Follow Focus Base')
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show_object(lid, name='Follow Focus Lid')
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