31 lines
1.4 KiB
Python
31 lines
1.4 KiB
Python
import cadquery as cq
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import math
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slant_degree=15.0
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thickness=20
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rod_thickness=15.2
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loop_thickness=1.5
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stepper_motor_size=42
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offset=8.83
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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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end_x=gap+stepper_motor_size-5
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end_y=0
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angle=45
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outer_ring_diameter=rod_thickness+2*loop_thickness
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center_x=end_x-math.cos(math.radians(angle))*outer_ring_diameter/2
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center_y=end_y-math.sin(math.radians(angle))*outer_ring_diameter/2
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log('{} {}'.format(center_x, center_y))
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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.threePointArc((center_x+outer_ring_diameter/2 ,center_y), (center_x+math.cos(math.radians(270-slant_degree))*outer_ring_diameter/2, center_y+math.sin(math.radians(270-slant_degree))*outer_ring_diameter/2)).polarLine(20, 180-slant_degree).vLine(4).polarLine(15.5, -slant_degree)
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base = base.threePointArc((center_x+rod_thickness/2 ,center_y), (center_x+math.cos(math.radians(200))*rod_thickness/2, center_y+math.sin(math.radians(200))*rod_thickness/2)).polarLine(15, 180-slant_degree)
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base = base.close().extrude(20)
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# Render
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show_object(base)
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