// J3 Robot Arm // Set Units @settings(defaultLengthUnit = in, kclVersion = 1.0) import plane002, axisJ2, axisJ3C, axisJ4, axisJ2ArmLength, axisJ3CArmLength, axisJ3CArmWidth, axisJ3CArmThickness from "globals.kcl" // Create Body of J3 Robot Arm sketch017 = startSketchOn(plane002) |> startProfile(at = [ 1.75 + axisJ2ArmLength * cos(axisJ2) - (axisJ3CArmWidth / 2 * sin(axisJ3C)), 8 + axisJ2ArmLength * sin(axisJ2) + axisJ3CArmWidth / 2 * cos(axisJ3C) ]) |> arc(angleStart = 90 + axisJ3C, angleEnd = 270 + axisJ3C, radius = axisJ3CArmWidth / 2) |> angledLine(angle = axisJ3C, length = axisJ3CArmLength) |> arc(angleStart = 270 + axisJ3C, angleEnd = 90 + axisJ3C, radius = axisJ3CArmWidth / 2) |> line(endAbsolute = [profileStartX(%), profileStartY(%)], tag = $seg01) |> close() extrude017 = extrude(sketch017, length = axisJ3CArmThickness) sketch018 = startSketchOn(extrude017, face = END) |> circle( center = [ 1.75 + axisJ2ArmLength * cos(axisJ2), 8 + axisJ2ArmLength * sin(axisJ2) ], radius = 3.7 / 2, tag = $referenceEdge6, ) extrude018 = extrude(sketch018, length = 0.15) |> fillet(radius = 0.1, tags = [getOppositeEdge(referenceEdge6)]) // Draw Bolt Pattern on J3 Robot Arm sketch019 = startSketchOn(extrude018, face = END) |> circle( center = [ 1.75 + (axisJ2ArmLength - 1) * cos(axisJ2), 8 + (axisJ2ArmLength - 1.5) * sin(axisJ2) ], radius = 0.2, ) |> patternCircular2d( center = [ 1.75 + axisJ2ArmLength * cos(axisJ2), 8 + axisJ2ArmLength * sin(axisJ2) ], instances = 8, arcDegrees = 360, rotateDuplicates = true, ) extrude019 = extrude(sketch019, length = 0.15) // On the J3 Robot Arm Body, Create Mounting Clevis for Grabber Claw sketch020 = startSketchOn(extrude017, face = START) |> circle( center = [ -1.75 - (axisJ2ArmLength * cos(axisJ2)) - (axisJ3CArmLength * cos(axisJ3C)), 8 + axisJ2ArmLength * sin(axisJ2) + axisJ3CArmLength * sin(axisJ3C) ], radius = axisJ3CArmWidth / 2, ) extrude020 = extrude(sketch020, length = -0.5) sketch021 = startSketchOn(extrude017, face = END) |> circle( center = [ 1.75 + axisJ2ArmLength * cos(axisJ2) + axisJ3CArmLength * cos(axisJ3C), 8 + axisJ2ArmLength * sin(axisJ2) + axisJ3CArmLength * sin(axisJ3C) ], radius = axisJ3CArmWidth / 2.01, ) extrude021 = extrude(sketch021, length = -0.5) // Define Grabber Claw Constants grabberLength = 7 sketch022 = startSketchOn(extrude021, face = START) |> circle(center = [0, 0], radius = 0.10) extrude022 = extrude(sketch022, length = -0.01) // Build Upper Claw Finger sketch023 = startSketchOn(extrude022, face = START) |> startProfile(at = [ 1.75 + axisJ2ArmLength * cos(axisJ2) + axisJ3CArmLength * cos(axisJ3C), 8 + axisJ2ArmLength * sin(axisJ2) + axisJ3CArmLength * sin(axisJ3C) ]) |> angledLine(angle = axisJ3C + axisJ4 / 2, length = grabberLength / 4) |> arc(angleStart = 150 + axisJ3C + axisJ4 / 2, angleEnd = 30 + axisJ3C + axisJ4 / 2, radius = grabberLength / 3) |> angledLine(angle = axisJ3C + axisJ4 / 2, length = grabberLength / 6) |> angledLine(angle = axisJ3C + axisJ4 / 2 + 132, length = grabberLength / 3.5) |> angledLine(angle = axisJ3C + axisJ4 / 2 + 160, length = grabberLength / 3.5) |> angledLine(angle = axisJ3C + axisJ4 / 2 + 200, length = grabberLength / 3) |> line(endAbsolute = [profileStartX(%), profileStartY(%)]) |> close() extrude023 = extrude(sketch023, length = -1.5) // Build Lower Claw Finger sketch024 = startSketchOn(extrude022, face = START) |> startProfile(at = [ 1.75 + axisJ2ArmLength * cos(axisJ2) + axisJ3CArmLength * cos(axisJ3C), 8 + axisJ2ArmLength * sin(axisJ2) + axisJ3CArmLength * sin(axisJ3C) ]) |> angledLine(angle = axisJ3C - (axisJ4 / 2), length = grabberLength / 4) |> arc(angleStart = 210 + axisJ3C - (axisJ4 / 2), angleEnd = 330 + axisJ3C - (axisJ4 / 2), radius = grabberLength / 3) |> angledLine(angle = axisJ3C - (axisJ4 / 2), length = grabberLength / 6) |> angledLine(angle = axisJ3C - (axisJ4 / 2) - 132, length = grabberLength / 3.5) |> angledLine(angle = axisJ3C - (axisJ4 / 2) - 160, length = grabberLength / 3.5) |> angledLine(angle = axisJ3C - (axisJ4 / 2) - 200, length = grabberLength / 3) |> line(endAbsolute = [profileStartX(%), profileStartY(%)]) |> close() extrude(sketch024, length = -1.5) |> appearance(color = "#6572b3", metalness = 90, roughness = 90)