feat: Linear actuator in joint (preliminary)
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@ -50,6 +50,8 @@ class MountingBox(Model):
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centred: Tuple[bool, bool] = (False, True)
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generate_side_tags: bool = True
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# Generate tags on the opposite side
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generate_reverse_tags: bool = False
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# Determines the position of side tags
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flip_y: bool = False
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@ -81,9 +83,13 @@ class MountingBox(Model):
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.extrude(self.thickness)
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)
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plane = result.copyWorkplane(Cq.Workplane('XY')).workplane(offset=self.thickness)
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reverse_plane = result.copyWorkplane(Cq.Workplane('XY'))
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for i, hole in enumerate(self.holes):
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tag = hole.tag if hole.tag else f"conn{i}"
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plane.moveTo(hole.x, hole.y).tagPlane(tag)
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if self.generate_reverse_tags:
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rev_tag = hole.tag + "_rev" if hole.tag else f"conn{i}_rev"
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reverse_plane.moveTo(hole.x, hole.y).tagPlane(rev_tag, '-Z')
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if self.generate_side_tags:
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result.faces("<Y").workplane(origin=result.vertices("<X and <Y and >Z").val().Center()).tagPlane("left")
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@ -102,6 +108,8 @@ class MountingBox(Model):
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)
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for i in range(len(self.holes)):
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result.markPlane(f"box?conn{i}")
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if self.generate_reverse_tags:
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result.markPlane(f"box?conn{i}_rev")
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if self.generate_side_tags:
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(
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result
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@ -2,12 +2,14 @@
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Electronic components
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"""
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from dataclasses import dataclass
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from typing import Optional
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from typing import Optional, Tuple
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import math
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import cadquery as Cq
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from nhf.materials import Role
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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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import nhf.utils
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import scipy.optimize as SO
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@dataclass(frozen=True)
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class LinearActuator(Item):
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@ -47,6 +49,7 @@ class LinearActuator(Item):
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return self.segment1_length + self.segment2_length + self.front_hole_ext + self.back_hole_ext
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def generate(self, pos: float=0) -> Cq.Assembly:
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assert -1e-6 <= pos <= 1 + 1e-6
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stroke_x = pos * self.stroke_length
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front = (
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Cq.Workplane('XZ')
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@ -204,10 +207,37 @@ class MountingBracket(Item):
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return result
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LINEAR_ACTUATOR_SHOULDER = LinearActuator(
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LINEAR_ACTUATOR_50 = LinearActuator(
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mass=34.0,
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stroke_length=50,
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# FIXME: Measure
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front_hole_ext=6,
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back_hole_ext=6,
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segment1_length=50,
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segment2_length=50,
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)
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LINEAR_ACTUATOR_30 = LinearActuator(
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mass=34.0,
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stroke_length=30,
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)
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LINEAR_ACTUATOR_21 = LinearActuator(
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# FIXME: Measure
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mass=0.0,
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stroke_length=21,
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front_hole_ext=4,
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back_hole_ext=4,
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segment1_length=75/2,
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segment2_length=75/2,
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)
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LINEAR_ACTUATOR_10 = LinearActuator(
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# FIXME: Measure
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mass=0.0,
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stroke_length=10,
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front_hole_ext=4.5/2,
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back_hole_ext=4.5/2,
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segment1_length=30.0,
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segment2_length=30.0,
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)
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LINEAR_ACTUATOR_HEX_NUT = HexNut(
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mass=0.8,
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diam_thread=4,
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@ -224,18 +254,61 @@ LINEAR_ACTUATOR_BOLT = FlatHeadBolt(
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)
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LINEAR_ACTUATOR_BRACKET = MountingBracket()
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@dataclass(frozen=True)
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class LinearActuatorAssembly:
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@dataclass
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class Flexor:
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"""
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Actuator assembly which flexes, similar to biceps
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"""
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motion_span: float
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# FIXME: Measure
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actuator: LinearActuator = LINEAR_ACTUATOR_SHOULDER
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actuator: LinearActuator = LINEAR_ACTUATOR_30
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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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# FIXME: Add a compression spring so the serviceable distances are not as fixed
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mount_loc_r: float = float('nan')
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mount_loc_angle: float = float('nan')
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def __post_init__(self):
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d_open = self.actuator.conn_length + self.actuator.stroke_length
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d_closed = self.actuator.conn_length
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theta = math.radians(self.motion_span)
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def target(args):
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r, phi = args
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e1 = d_open * d_open - 2 * r * r * (1 - math.cos(theta + phi))
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e2 = d_closed * d_closed - 2 * r * r * (1 - math.cos(phi))
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return [e1, e2]
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self.mount_loc_r, phi = SO.fsolve(target, [self.actuator.conn_length, theta])
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self.mount_loc_angle = math.degrees(theta + phi)
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@property
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def mount_height(self):
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return self.bracket.hole_to_side_ext
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@property
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def min_serviceable_distance(self):
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return self.bracket.hole_to_side_ext * 2 + self.actuator.conn_length
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@property
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def max_serviceable_distance(self):
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return self.min_serviceable_distance + self.actuator.stroke_length
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def target_length_at_angle(
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self,
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angle: float = 0.0
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) -> float:
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# law of cosines
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r = self.mount_loc_r
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th = math.radians(self.mount_loc_angle - angle)
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d2 = 2 * r * r * (1 - math.cos(th))
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return math.sqrt(d2)
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def add_to(
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self,
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a: Cq.Assembly,
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target_length: float,
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tag_prefix: Optional[str] = None,
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tag_hole_front: Optional[str] = None,
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tag_hole_back: Optional[str] = None,
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@ -244,6 +317,7 @@ class LinearActuatorAssembly:
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Adds the necessary mechanical components to this assembly. Does not
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invoke `a.solve()`.
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"""
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pos = (target_length - self.actuator.conn_length) / self.actuator.stroke_length
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if tag_prefix:
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tag_prefix = tag_prefix + "_"
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name_actuator = f"{tag_prefix}actuator"
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@ -255,7 +329,7 @@ class LinearActuatorAssembly:
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name_nut_back = f"{tag_prefix}back_nut"
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(
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a
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.add(self.actuator.assembly(), name=name_actuator)
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.add(self.actuator.assembly(pos=pos), name=name_actuator)
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.add(self.bracket.assembly(), name=name_bracket_front)
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.add(self.bolt.assembly(), name=name_bolt_front)
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.add(self.nut.assembly(), name=name_nut_front)
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@ -8,6 +8,7 @@ from nhf.parts.springs import TorsionSpring
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from nhf.parts.fasteners import FlatHeadBolt, HexNut, ThreaddedKnob
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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.touhou.houjuu_nue.electronics import Flexor
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import nhf.utils
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TOL = 1e-6
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@ -878,10 +879,15 @@ class ElbowJoint(Model):
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angle_neutral: float = 30.0
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flexor: Flexor = None
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flexor_offset_angle: float = 30.0
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flexor_mount_rot: float = 95.0
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def __post_init__(self):
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assert self.child_arm_radius > self.disk_joint.radius_housing
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assert self.parent_arm_radius > self.disk_joint.radius_housing
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self.disk_joint.tongue_length = self.child_arm_radius - self.disk_joint.radius_disk - self.lip_thickness / 2
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self.flexor = Flexor(motion_span=self.motion_span)
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@property
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def total_thickness(self):
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@ -897,15 +903,40 @@ class ElbowJoint(Model):
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axle is at position 0, and parent direction is -X
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"""
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return Cq.Location.from2d(-self.parent_arm_radius, 0, 0)
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def child_arm_loc(self, flip: bool = False) -> Cq.Location:
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def child_arm_loc(self, flip: bool = False, angle: float = 0.0) -> Cq.Location:
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"""
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2d Location of the centre of the arm surface on the child side, assuming
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axle is at position 0, and parent direction is -X
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Set `flip=True` to indicate that the joint is supposed to be installed upside down
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"""
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result = Cq.Location.rot2d(self.angle_neutral) * Cq.Location.from2d(self.child_arm_radius, 0, 180)
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result = Cq.Location.rot2d(self.angle_neutral + angle) * Cq.Location.from2d(self.child_arm_radius, 0, 180)
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return result.flip_y() if flip else result
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def actuator_mount(self) -> Cq.Workplane:
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holes = [
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Hole(x=0, y=0, tag="mount"),
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]
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mbox = MountingBox(
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length=self.disk_joint.total_thickness,
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width=self.disk_joint.total_thickness,
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thickness=self.lip_thickness,
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holes=holes,
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hole_diam=self.hole_diam,
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centred=(True, True),
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generate_side_tags=False,
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)
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return mbox.generate()
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def actuator_mount_loc(self, child: bool) -> Cq.Location:
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# Orientes the hole surface so it faces +X
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loc_thickness = Cq.Location((-self.lip_thickness, 0, 0), (0, 1, 0), 90)
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# Moves the hole so the axle of the mount is perpendicular to it
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loc_mount = Cq.Location.from2d(self.flexor.mount_height, 0) * Cq.Location.rot2d(180)
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loc_mount_orient = Cq.Location.rot2d(self.flexor_mount_rot * (-1 if child else 1))
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# Moves the hole to be some distance apart from 0
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loc_span = Cq.Location.from2d(self.flexor.mount_loc_r, 0)
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r = 0 if child else self.flexor.mount_loc_angle
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loc_rot = Cq.Location.rot2d(r + self.flexor_offset_angle)
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return loc_rot * loc_span * loc_mount_orient * loc_mount * loc_thickness
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def lip(self) -> Cq.Workplane:
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holes = [
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@ -924,6 +955,7 @@ class ElbowJoint(Model):
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hole_diam=self.hole_diam,
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centred=(True, True),
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generate_side_tags=False,
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generate_reverse_tags=True,
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)
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return mbox.generate()
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@ -946,8 +978,9 @@ class ElbowJoint(Model):
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loc_lip.inverse * loc_cut_rel * loc_disk)
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result = (
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Cq.Assembly()
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.add(self.lip().cut(disk_cut), name="lip", loc=loc_lip)
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.add(self.disk_joint.disk(), name="disk", loc=loc_disk)
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.add(self.disk_joint.disk(), name="disk")
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.add(self.lip().cut(disk_cut), name="lip", loc=loc_disk.inverse * loc_lip)
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.add(self.actuator_mount(), name="act", loc=self.actuator_mount_loc(child=True))
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)
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return result
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@ -986,16 +1019,19 @@ class ElbowJoint(Model):
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-self.disk_joint.tongue_span / 2 + self.angle_neutral
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)
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lip_dz = self.lip_thickness
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loc_net_housing = axial_offset * housing_loc
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result = (
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Cq.Assembly()
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.add(housing, name="housing")
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.add(self.lip(), name="lip", loc=
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loc_net_housing.inverse *
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Cq.Location((0, 0, 0), (0, 1, 0), 180) *
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Cq.Location((-lip_dz, 0, 0), (1, 0, 0), 90) *
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Cq.Location((0, 0, 0), (0, 1, 0), 90))
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.add(housing, name="housing",
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loc=axial_offset * housing_loc)
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.add(connector, name="connector",
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loc=axial_offset)
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loc=loc_net_housing.inverse * axial_offset)
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.add(self.actuator_mount(),
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name="act", loc=self.actuator_mount_loc(child=False))
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#.constrain("housing", "Fixed")
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#.constrain("connector", "Fixed")
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#.solve()
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@ -1021,6 +1057,17 @@ class ElbowJoint(Model):
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disk="child/disk",
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angle=angle,
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)
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if self.flexor:
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target_length = self.flexor.target_length_at_angle(
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angle=angle,
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)
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self.flexor.add_to(
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result,
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target_length=target_length,
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tag_hole_back="parent_upper/act?mount",
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tag_hole_front="child/act?mount",
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tag_dir="parent_lower?mate",
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)
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return result.solve()
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if __name__ == '__main__':
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@ -795,7 +795,16 @@ class WingProfile(Model):
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fastener_pos: float = 0.0,
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) -> Cq.Assembly():
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if parts is None:
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parts = ["root", "s0", "shoulder", "s1", "elbow", "s2", "wrist", "s3"]
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parts = [
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"root",
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"s0",
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"shoulder",
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"s1",
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"elbow",
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"s2",
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"wrist",
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"s3",
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]
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result = (
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Cq.Assembly()
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)
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@ -842,4 +842,4 @@ files = [
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[metadata]
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lock-version = "2.0"
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python-versions = "^3.10"
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content-hash = "3403086281e26faefd12217e6dec4c0696e3468c5a9d8c952f8d988857aafba0"
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content-hash = "6fc2644e7778ba22f8f5f2bcb2ca54f03b325f62c8a3fcd1c265a17561d874b8"
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@ -14,6 +14,7 @@ colorama = "^0.4.6"
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# cadquery dependency
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multimethod = "^1.12"
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scipy = "^1.14.0"
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[build-system]
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requires = ["poetry-core"]
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