fix: Resolve winch collision
This commit is contained in:
parent
8efea1d038
commit
7212a2b0e8
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@ -21,7 +21,7 @@ class ArduinoUnoR3(Item):
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# This is labeled in mirrored coordinates from top down (i.e. unmirrored from bottom up)
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# This is labeled in mirrored coordinates from top down (i.e. unmirrored from bottom up)
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holes: list[Tuple[float, float]] = field(default_factory=lambda: [
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holes: list[Tuple[float, float]] = field(default_factory=lambda: [
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(15.24, 2.54),
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(15.24, 2.54),
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(13.74, 50.80), # x coordinate not labeled on schematic
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(15.24 - 1.270, 50.80), # x coordinate not labeled on schematic
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(66.04, 17.78),
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(66.04, 17.78),
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(66.04, 45.72),
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(66.04, 45.72),
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])
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])
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@ -70,3 +70,66 @@ class ArduinoUnoR3(Item):
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for i, (x, y) in enumerate(self.holes):
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for i, (x, y) in enumerate(self.holes):
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plane.moveTo(x, self.width - y).tagPlane(f"conn{i}", direction='-Z')
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plane.moveTo(x, self.width - y).tagPlane(f"conn{i}", direction='-Z')
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return result
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return result
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@dataclass(frozen=True)
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class BatteryBox18650(Item):
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"""
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A number of 18650 batteries in series
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"""
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mass: float = 17.4 + 68.80 * 3
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length: float = 75.70
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width_base: float = 61.46 - 18.48 - 20.18 * 2
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battery_dist: float = 20.18
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height: float = 19.66
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# space from bottom to battery begin
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thickness: float = 1.66
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battery_diam: float = 18.48
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battery_height: float = 68.80
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n_batteries: int = 3
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def __post_init__(self):
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assert 2 * self.thickness < min(self.length, self.height)
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@property
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def name(self) -> str:
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return f"BatteryBox 18650*{self.n_batteries}"
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@property
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def role(self) -> Role:
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return Role.ELECTRONIC
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def generate(self) -> Cq.Workplane:
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width = self.width_base + self.battery_dist * (self.n_batteries - 1) + self.battery_diam
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return (
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Cq.Workplane('XY')
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.box(
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length=self.length,
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width=width,
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height=self.height,
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centered=(True, True, False),
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)
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.copyWorkplane(Cq.Workplane('XY', origin=(0, 0, self.thickness)))
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.box(
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length=self.length - self.thickness*2,
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width=width - self.thickness*2,
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height=self.height - self.thickness,
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centered=(True, True, False),
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combine='cut',
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)
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.copyWorkplane(Cq.Workplane('XY', origin=(-self.battery_height/2, 0, self.thickness + self.battery_diam/2)))
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.rarray(
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xSpacing=1,
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ySpacing=self.battery_dist,
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xCount=1,
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yCount=self.n_batteries,
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center=True,
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)
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.cylinder(
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radius=self.battery_diam/2,
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height=self.battery_height,
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direct=(1, 0, 0),
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centered=(True, True, False),
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combine=True,
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)
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)
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@ -11,7 +11,7 @@ from nhf.parts.box import MountingBox, Hole
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from nhf.parts.fibre import tension_fibre
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from nhf.parts.fibre import tension_fibre
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from nhf.parts.item import Item
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from nhf.parts.item import Item
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from nhf.parts.fasteners import FlatHeadBolt, HexNut
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from nhf.parts.fasteners import FlatHeadBolt, HexNut
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from nhf.parts.electronics import ArduinoUnoR3
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from nhf.parts.electronics import ArduinoUnoR3, BatteryBox18650
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from nhf.touhou.houjuu_nue.common import NUT_COMMON, BOLT_COMMON
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from nhf.touhou.houjuu_nue.common import NUT_COMMON, BOLT_COMMON
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import nhf.utils
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import nhf.utils
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@ -210,68 +210,6 @@ class MountingBracket(Item):
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result.copyWorkplane(Cq.Workplane('XY')).tagPlane("conn_mid")
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result.copyWorkplane(Cq.Workplane('XY')).tagPlane("conn_mid")
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return result
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return result
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@dataclass(frozen=True)
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class BatteryBox18650(Item):
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"""
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A number of 18650 batteries in series
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"""
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mass: float = 17.4 + 68.80 * 3
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length: float = 75.70
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width_base: float = 61.46 - 18.48 - 20.18 * 2
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battery_dist: float = 20.18
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height: float = 19.66
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# space from bottom to battery begin
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thickness: float = 1.66
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battery_diam: float = 18.48
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battery_height: float = 68.80
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n_batteries: int = 3
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def __post_init__(self):
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assert 2 * self.thickness < min(self.length, self.height)
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@property
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def name(self) -> str:
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return f"BatteryBox 18650*{self.n_batteries}"
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@property
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def role(self) -> Role:
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return Role.ELECTRONIC
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def generate(self) -> Cq.Workplane:
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width = self.width_base + self.battery_dist * (self.n_batteries - 1) + self.battery_diam
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return (
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Cq.Workplane('XY')
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.box(
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length=self.length,
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width=width,
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height=self.height,
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centered=(True, True, False),
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)
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.copyWorkplane(Cq.Workplane('XY', origin=(0, 0, self.thickness)))
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.box(
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length=self.length - self.thickness*2,
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width=width - self.thickness*2,
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height=self.height - self.thickness,
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centered=(True, True, False),
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combine='cut',
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)
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.copyWorkplane(Cq.Workplane('XY', origin=(-self.battery_height/2, 0, self.thickness + self.battery_diam/2)))
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.rarray(
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xSpacing=1,
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ySpacing=self.battery_dist,
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xCount=1,
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yCount=self.n_batteries,
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center=True,
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)
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.cylinder(
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radius=self.battery_diam/2,
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height=self.battery_height,
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direct=(1, 0, 0),
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centered=(True, True, False),
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combine=True,
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)
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)
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LINEAR_ACTUATOR_50 = LinearActuator(
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LINEAR_ACTUATOR_50 = LinearActuator(
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mass=40.8,
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mass=40.8,
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@ -345,6 +283,15 @@ ELECTRONIC_MOUNT_HEXNUT = HexNut(
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width=6.81,
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width=6.81,
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)
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)
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@dataclass(kw_only=True, frozen=True)
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class Winch:
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linear_motion_span: float
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actuator: LinearActuator = LINEAR_ACTUATOR_21
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nut: HexNut = LINEAR_ACTUATOR_HEX_NUT
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bolt: FlatHeadBolt = LINEAR_ACTUATOR_BOLT
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bracket: MountingBracket = LINEAR_ACTUATOR_BRACKET
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@dataclass(kw_only=True)
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@dataclass(kw_only=True)
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class Flexor:
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class Flexor:
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"""
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"""
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@ -529,17 +476,10 @@ class ElectronicBoard(Model):
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role=Role.ELECTRONIC | Role.STRUCTURE, material=self.material)
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role=Role.ELECTRONIC | Role.STRUCTURE, material=self.material)
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)
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)
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for hole in self.mount_holes:
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for hole in self.mount_holes:
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spacer_name = f"{hole.tag}_spacer"
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bolt_name = f"{hole.tag}_bolt"
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bolt_name = f"{hole.tag}_bolt"
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(
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(
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result
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result
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.add(self.nut.assembly(), name=spacer_name)
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.add(self.bolt.assembly(), name=bolt_name)
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.add(self.bolt.assembly(), name=bolt_name)
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.constrain(
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f"{spacer_name}?top",
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f"panel?{hole.rev_tag}",
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"Plane"
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)
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.constrain(
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.constrain(
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f"{bolt_name}?root",
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f"{bolt_name}?root",
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f"panel?{hole.tag}",
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f"panel?{hole.tag}",
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@ -551,6 +491,7 @@ class ElectronicBoard(Model):
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@dataclass
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@dataclass
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class ElectronicBoardBattery(ElectronicBoard):
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class ElectronicBoardBattery(ElectronicBoard):
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name: str = "electronic-board-battery"
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name: str = "electronic-board-battery"
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battery_box: BatteryBox18650 = BATTERY_BOX
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@submodel(name="panel")
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@submodel(name="panel")
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def panel_out(self) -> MountingBox:
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def panel_out(self) -> MountingBox:
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@ -10,7 +10,7 @@ from nhf.parts.fasteners import FlatHeadBolt, HexNut, ThreaddedKnob, Washer
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from nhf.parts.joints import TorsionJoint, HirthJoint
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from nhf.parts.joints import TorsionJoint, HirthJoint
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from nhf.parts.box import Hole, MountingBox, box_with_centre_holes
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from nhf.parts.box import Hole, MountingBox, box_with_centre_holes
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from nhf.touhou.houjuu_nue.electronics import (
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from nhf.touhou.houjuu_nue.electronics import (
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Flexor, LinearActuator, LINEAR_ACTUATOR_21,
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Winch, Flexor, LinearActuator, LINEAR_ACTUATOR_21,
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)
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)
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import nhf.geometry
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import nhf.geometry
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import nhf.utils
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import nhf.utils
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@ -390,7 +390,7 @@ class ShoulderJoint(Model):
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parent_arm_width: float = 25.0
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parent_arm_width: float = 25.0
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parent_arm_height: float = 12.0
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parent_arm_height: float = 12.0
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# remove a bit of material from the base so it does not interfere with gluing
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# remove a bit of material from the base so it does not interfere with gluing
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parent_arm_base_shift: float = 2.0
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parent_arm_base_shift: float = 1.0
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# Generates a child guard which covers up the internals. The lip length is
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# Generates a child guard which covers up the internals. The lip length is
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# relative to the +X surface of the guard.
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# relative to the +X surface of the guard.
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@ -423,6 +423,7 @@ class ShoulderJoint(Model):
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spool_groove_radius: float = 10.0
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spool_groove_radius: float = 10.0
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flip: bool = False
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flip: bool = False
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winch: Optional[Winch] = None # Initialized later
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actuator: LinearActuator = LINEAR_ACTUATOR_21
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actuator: LinearActuator = LINEAR_ACTUATOR_21
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def __post_init__(self):
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def __post_init__(self):
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@ -431,6 +432,10 @@ class ShoulderJoint(Model):
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assert self.spool_groove_radius < self.spool_inner_radius < self.spool_outer_radius
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assert self.spool_groove_radius < self.spool_inner_radius < self.spool_outer_radius
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assert self.child_lip_height < self.height
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assert self.child_lip_height < self.height
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assert self.draft_length <= self.actuator.stroke_length
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assert self.draft_length <= self.actuator.stroke_length
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self.winch = Winch(
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actuator=self.actuator,
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linear_motion_span=self.draft_length,
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)
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@property
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@property
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def spool_outer_radius(self):
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def spool_outer_radius(self):
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@ -457,6 +462,10 @@ class ShoulderJoint(Model):
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"""
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"""
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return 0
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return 0
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@property
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def parent_lip_gap(self):
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return self.height - self.parent_lip_length * 2
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def parent_lip_loc(self, left: bool=True) -> Cq.Location:
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def parent_lip_loc(self, left: bool=True) -> Cq.Location:
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"""
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"""
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2d location of the arm surface on the parent side, relative to axle
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2d location of the arm surface on the parent side, relative to axle
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@ -21,6 +21,7 @@ from nhf.touhou.houjuu_nue.electronics import (
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ElectronicBoard,
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ElectronicBoard,
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ElectronicBoardBattery,
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ElectronicBoardBattery,
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LightStrip,
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LightStrip,
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ElectronicBoard,
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ELECTRONIC_MOUNT_HEXNUT,
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ELECTRONIC_MOUNT_HEXNUT,
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)
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)
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import nhf.utils
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import nhf.utils
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@ -287,7 +288,7 @@ class WingProfile(Model):
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plane.moveTo(t, self.root_height + t*2).tagPlane("top")
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plane.moveTo(t, self.root_height + t*2).tagPlane("top")
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return result
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return result
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@submodel(name="spacer-s0-shoulder")
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@submodel(name="spacer-s0-shoulder-inner")
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def spacer_s0_shoulder(self, left: bool=True) -> MountingBox:
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def spacer_s0_shoulder(self, left: bool=True) -> MountingBox:
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"""
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"""
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Shoulder side serves double purpose for mounting shoulder joint and
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Shoulder side serves double purpose for mounting shoulder joint and
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@ -302,6 +303,21 @@ class WingProfile(Model):
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Hole(x=-x, y=sign * y, tag=f"conn_bot{i}"),
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Hole(x=-x, y=sign * y, tag=f"conn_bot{i}"),
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]
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]
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]
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]
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def post(sketch: Cq.Sketch) -> Cq.Sketch:
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"""
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Carve out the middle if this is closer to the front
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"""
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if left:
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return sketch
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return (
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sketch
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.push([(0,0)])
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.rect(
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w=self.shoulder_joint.parent_lip_gap,
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h=self.shoulder_joint.parent_lip_width,
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mode='s'
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)
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)
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return MountingBox(
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return MountingBox(
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length=self.shoulder_joint.height,
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length=self.shoulder_joint.height,
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width=self.shoulder_joint.parent_lip_width,
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width=self.shoulder_joint.parent_lip_width,
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@ -311,7 +327,12 @@ class WingProfile(Model):
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centred=(True, True),
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centred=(True, True),
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flip_y=self.flip,
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flip_y=self.flip,
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centre_bot_top_tags=True,
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centre_bot_top_tags=True,
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profile_callback=post,
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)
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)
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@submodel(name="spacer-s0-shoulder-outer")
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def spacer_s0_shoulder_outer(self) -> MountingBox:
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return self.spacer_s0_shoulder_inner(left=False)
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@submodel(name="spacer-s0-base")
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@submodel(name="spacer-s0-base")
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def spacer_s0_base(self) -> MountingBox:
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def spacer_s0_base(self) -> MountingBox:
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"""
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"""
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@ -341,11 +362,15 @@ class WingProfile(Model):
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@submodel(name="spacer-s0-electronic")
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@submodel(name="spacer-s0-electronic")
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def spacer_s0_electronic_mount(self) -> MountingBox:
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def spacer_s0_electronic_mount(self) -> MountingBox:
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"""
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"""
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This one has circular holes for the screws
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This one has hexagonal holes
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"""
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"""
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face = ELECTRONIC_MOUNT_HEXNUT.cutting_face()
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holes = [
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Hole(x=h.x, y=h.y, face=face, tag=h.tag)
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for h in self.electronic_board.mount_holes
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]
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return MountingBox(
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return MountingBox(
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holes=self.electronic_board.mount_holes,
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holes=holes,
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hole_diam=self.electronic_board.mount_hole_diam,
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length=self.root_height,
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length=self.root_height,
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width=self.electronic_board.width,
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width=self.electronic_board.width,
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centred=(True, True),
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centred=(True, True),
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@ -356,13 +381,8 @@ class WingProfile(Model):
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@submodel(name="spacer-s0-electronic2")
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@submodel(name="spacer-s0-electronic2")
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def spacer_s0_electronic_mount2(self) -> MountingBox:
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def spacer_s0_electronic_mount2(self) -> MountingBox:
|
||||||
"""
|
"""
|
||||||
This one has hexagonal holes
|
This one has circular holes
|
||||||
"""
|
"""
|
||||||
face = ELECTRONIC_MOUNT_HEXNUT.cutting_face()
|
|
||||||
holes = [
|
|
||||||
Hole(x=h.x, y=h.y, face=face, tag=h.tag)
|
|
||||||
for h in self.electronic_board.mount_holes
|
|
||||||
]
|
|
||||||
def post(sketch: Cq.Sketch) -> Cq.Sketch:
|
def post(sketch: Cq.Sketch) -> Cq.Sketch:
|
||||||
return (
|
return (
|
||||||
sketch
|
sketch
|
||||||
|
@ -370,7 +390,7 @@ class WingProfile(Model):
|
||||||
.rect(70, 130, mode='s')
|
.rect(70, 130, mode='s')
|
||||||
)
|
)
|
||||||
return MountingBox(
|
return MountingBox(
|
||||||
holes=holes,
|
holes=self.electronic_board.mount_holes,
|
||||||
hole_diam=self.electronic_board.mount_hole_diam,
|
hole_diam=self.electronic_board.mount_hole_diam,
|
||||||
length=self.root_height,
|
length=self.root_height,
|
||||||
width=self.electronic_board.width,
|
width=self.electronic_board.width,
|
||||||
|
@ -408,7 +428,7 @@ class WingProfile(Model):
|
||||||
("shoulder_right",
|
("shoulder_right",
|
||||||
self.shoulder_axle_loc * axle_rotate * self.shoulder_joint.parent_lip_loc(left=False)),
|
self.shoulder_axle_loc * axle_rotate * self.shoulder_joint.parent_lip_loc(left=False)),
|
||||||
("shoulder_act",
|
("shoulder_act",
|
||||||
self.shoulder_axle_loc * axle_rotate * Cq.Location.from2d(100, -20)),
|
self.shoulder_axle_loc * axle_rotate * Cq.Location.from2d(120, -40)),
|
||||||
("base", Cq.Location.from2d(base_dx, base_dy, 90)),
|
("base", Cq.Location.from2d(base_dx, base_dy, 90)),
|
||||||
("electronic_mount", Cq.Location.from2d(-35, 65, 60)),
|
("electronic_mount", Cq.Location.from2d(-35, 65, 60)),
|
||||||
]
|
]
|
||||||
|
@ -474,17 +494,26 @@ class WingProfile(Model):
|
||||||
for hole in self.electronic_board.mount_holes:
|
for hole in self.electronic_board.mount_holes:
|
||||||
result.constrain(
|
result.constrain(
|
||||||
f"electronic_mount?{hole.tag}",
|
f"electronic_mount?{hole.tag}",
|
||||||
f"electronic_mount2?{hole.tag}_rev",
|
f"electronic_mount2?{hole.rev_tag}",
|
||||||
"Plane")
|
"Plane")
|
||||||
if not ignore_electronics:
|
if not ignore_electronics:
|
||||||
result.add(self.electronic_board.assembly(), name="electronic_board")
|
result.add(self.electronic_board.assembly(), name="electronic_board")
|
||||||
for hole in self.electronic_board.mount_holes:
|
for hole in self.electronic_board.mount_holes:
|
||||||
assert hole.tag
|
assert hole.tag
|
||||||
|
nut_name = f"{hole.tag}_nut"
|
||||||
|
(
|
||||||
|
result
|
||||||
|
.add(self.electronic_board.nut.assembly(), name=nut_name)
|
||||||
|
.constrain(
|
||||||
|
f"{nut_name}?top",
|
||||||
|
f"electronic_mount?{hole.tag}",
|
||||||
|
"Plane", param=0
|
||||||
|
)
|
||||||
|
)
|
||||||
result.constrain(
|
result.constrain(
|
||||||
f"electronic_mount2?{hole.tag}",
|
f"electronic_mount2?{hole.tag}",
|
||||||
f'electronic_board/{hole.tag}_spacer?top',
|
f'electronic_board/panel?{hole.rev_tag}',
|
||||||
"Plane",
|
"Plane",
|
||||||
param=0
|
|
||||||
)
|
)
|
||||||
return result.solve()
|
return result.solve()
|
||||||
|
|
||||||
|
@ -1073,6 +1102,27 @@ class WingProfile(Model):
|
||||||
result.add(self.assembly_s0(
|
result.add(self.assembly_s0(
|
||||||
ignore_electronics=ignore_electronics
|
ignore_electronics=ignore_electronics
|
||||||
), name="s0")
|
), name="s0")
|
||||||
|
if not ignore_electronics:
|
||||||
|
tag_act = "shoulder_act"
|
||||||
|
tag_bolt = "shoulder_act_bolt"
|
||||||
|
tag_nut = "shoulder_act_nut"
|
||||||
|
tag_bracket = "shoulder_act_bracket"
|
||||||
|
winch = self.shoulder_joint.winch
|
||||||
|
(
|
||||||
|
result
|
||||||
|
.add(winch.actuator.assembly(pos=0), name=tag_act)
|
||||||
|
.add(winch.bracket.assembly(), name=tag_bracket)
|
||||||
|
.add(winch.bolt.assembly(), name=tag_bolt)
|
||||||
|
.add(winch.nut.assembly(), name=tag_nut)
|
||||||
|
.constrain(f"{tag_bolt}?root", f"{tag_bracket}?conn_top",
|
||||||
|
"Plane", param=0)
|
||||||
|
.constrain(f"{tag_nut}?bot", f"{tag_bracket}?conn_bot",
|
||||||
|
"Plane")
|
||||||
|
.constrain(f"{tag_act}/back?conn", f"{tag_bracket}?conn_mid",
|
||||||
|
"Plane", param=0)
|
||||||
|
.constrain("s0/shoulder_act?conn0", f"{tag_bracket}?conn_side",
|
||||||
|
"Plane")
|
||||||
|
)
|
||||||
if "root" in parts:
|
if "root" in parts:
|
||||||
result.addS(self.root_joint.assembly(
|
result.addS(self.root_joint.assembly(
|
||||||
offset=root_offset,
|
offset=root_offset,
|
||||||
|
|
Loading…
Reference in New Issue