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cadquery/notebook_nueva/modelo.py

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import cadquery as cq
from cadquery import exporters
import audio_plug
import battery_holder
import usb_hub
import zero_holder as cpu_holder
from utils import extrude_shape, punch_hole, punch_hole2
# Base for the notebook. Basically a kbd base that extends back
# as much as possible
# Thickness of the outer material
shell_t = 3
# Size of the kbd board
kbd_height = 95.5
kbd_width = 305
kbd_angle = 5
# Size of the whole object
width = kbd_width + 2 * shell_t
height = 159
thickness = 27 + shell_t # 27 inside
# Insert Positions
ti_radius = 2.35
ti_depth = 6.25
# Positions are determined by measuring the keyboard
kbd_pillar_positions = [
(18.25, -16),
(142.5, -25.5),
(kbd_width - 20, -16),
(23.5, -79.5),
(145.5, -82.5),
(kbd_width - 19, -79.5),
]
# 2-level mounting pillars for the kbd
# Width of these need to be tweaked for
# each specific keyboard
kbd_pillars = (
cq.Sketch()
.push(kbd_pillar_positions)
.circle(2.2, mode="a")
# Holes for self-tapping screws
.circle(1.1, mode="s")
)
kbd_lower_pillars = (
cq.Sketch()
.push(kbd_pillar_positions)
.circle(4, mode="a")
# Holes for self-tapping screws
.circle(1.1, mode="s")
)
# These are placed where convenient, and are used to join the top and bottom
# parts of the case.
# Measured from top-left corner OUTSIDE
mounting_pillar_positions = [
(6, -6),
(6, -40),
(120, -6),
(170, -6),
(width - 6, -6),
(width - 6, -30),
]
mounting_pillars = (
cq.Sketch()
.push(mounting_pillar_positions)
.trapezoid(12, 12, 90, mode="a")
.circle(1.8, mode="s")
)
screw_holes = cq.Sketch().push(mounting_pillar_positions).circle(3, mode="a")
# Thing to "grab" the hub so it stays in place
# Distance from edge to center of USB plug
usb_offset = 48
# CPU holder position from back-left corner of the case
cpu_offset_x = 160
cpu_offset_y = 25
# Battery holder position from back-left corner of the case
battery_offset_x = 19
battery_offset_y = 5
# Offset for the USB port from back-right corner of the case
usb_offset = 48
def model():
# Create the basic shape of the case bottom.
# Currently also adds keyboard stuff and things to connect
# to the screen case, but that should be refactored
# out (FIXME)
model = (
cq.Workplane("XY")
.workplane(offset=thickness / 2)
.tag("mid_height")
# Hollow box
.box(width, height, thickness)
.edges("|Z")
.fillet(2)
.faces(">Z")
.shell(-shell_t)
# Slanted mounting pillars on the kbd top
.faces(">Z")
.workplane(centerOption="CenterOfBoundBox")
# Top-left kbd corner inside the box
.center(-width / 2 + shell_t, kbd_height - height / 2 + shell_t)
.transformed(rotate=cq.Vector(kbd_angle, 0, 0))
# These two offsets push the keyboard "down" into the case
# and need to be adjusted per-keyboard
.tag("sloped")
.workplane(offset=-2.5)
.placeSketch(kbd_pillars)
.extrude(-1000)
.workplaneFromTagged("sloped")
.workplane(offset=-5.5)
.placeSketch(kbd_lower_pillars)
.extrude(-1000)
# Remove the excess extrusion
.workplaneFromTagged("mid_height")
.transformed(offset=cq.Vector(0, 0, -thickness / 2))
.split(keepTop=True)
# Slope for the beyboard
.workplaneFromTagged("sloped")
.split(keepBottom=True)
# Pillars to join with top half
.workplaneFromTagged("mid_height")
.workplane(offset=-thickness / 2, centerOption="CenterOfBoundBox")
.center(-width / 2, height / 2)
.placeSketch(mounting_pillars)
.extrude(thickness)
# Holes to insert screws from the bottom
.workplaneFromTagged("mid_height")
.workplane(offset=-thickness / 2, centerOption="CenterOfBoundBox")
.center(-width / 2, height / 2)
.placeSketch(screw_holes)
# 13 is 20-7 (screw thread length - threaded insert depth)
.cutBlind(thickness - 13)
)
# Now the basic box shape is in place, start adding things
# and cutting holes.
model = usb_hub.add(
model=model,
width=width,
height=height,
thickness=thickness,
bottom_face="<Z",
back_face=">Y",
offset_x=width - usb_offset,
offset_y=0,
shell_t=shell_t,
)
# Hole for audio in right side
model = audio_plug.add(
model=model,
width=width,
height=height,
thickness=thickness,
offset_x=111, # Offset from the front-left corner
offset_y=0, # Offset from the bottom
bottom_face=None,
back_face=">X",
shell_t=shell_t,
)
model = cpu_holder.add(
model=model,
width=width,
height=height,
thickness=thickness,
offset_x=cpu_offset_x,
offset_y=cpu_offset_y,
bottom_face="<Z",
back_face=None, # Not exposing the holes
shell_t=shell_t,
)
# This adds all the holes and extrusions for the battery system
model = battery_holder.add(
model=model,
width=width,
height=height,
thickness=thickness,
offset_x=battery_offset_x,
offset_y=battery_offset_y,
bottom_face="<Z",
back_face=">Y",
shell_t=shell_t,
)
return model
if __name__ == "__main__":
# left_cutout = cq.Sketch().polygon(
# [(0, 0), (width / 2, 0), (width / 2, -height), (0, -height), (0, 0)],
# mode="a",
# )
# right_side = (
# model()
# .faces("<Z")
# .workplaneFromTagged("mid_height")
# .transformed(offset=cq.Vector(0, 0, -thickness / 2))
# .center(-width / 2, height / 2)
# .placeSketch(left_cutout)
# .cutBlind(100)
# )
# exporters.export(right_side, "right_side.stl")
# right_cutout = cq.Sketch().polygon(
# [
# (width / 2, 0),
# (width, 0),
# (width, -height),
# (width / 2, -height),
# (width / 2, 0),
# ],
# mode="a",
# )
# left_side = (
# model()
# .faces("<Z")
# .workplaneFromTagged("mid_height")
# .transformed(offset=cq.Vector(0, 0, -thickness / 2))
# .center(-width / 2, height / 2)
# .placeSketch(right_cutout)
# .cutBlind(100)
# )
# exporters.export(left_side, "left_side.stl")
exporters.export(model(), "model.stl")
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