def generateCode(self):
feed_rate, safe_Z, max_cut_per_pass, bit_diameter, stock_thickness = self.setup.getAllData(
)
self.g_code = G.startProgram(feed_rate)
self.g_code += G.bore_circle_ID(safe_Z, stock_thickness,
max_cut_per_pass,
self.tab_thickness_var.get(),
bit_diameter,
self.doughnut_ID_var.get())
self.g_code += G.bore_tabbed_ID(safe_Z, stock_thickness,
max_cut_per_pass,
self.tab_thickness_var.get(),
bit_diameter,
self.doughnut_ID_var.get(),
float(self.tab_width_var.get()))
self.g_code += G.bore_circle_OD(safe_Z, stock_thickness,
max_cut_per_pass,
self.tab_thickness_var.get(),
bit_diameter,
self.doughnut_OD_var.get())
self.g_code += G.bore_tabbed_OD(safe_Z, self.tab_thickness_var.get(),
max_cut_per_pass,
self.tab_thickness_var.get(),
bit_diameter,
self.doughnut_OD_var.get(),
float(self.tab_width_var.get()))
self.g_code += G.endProgram()
return self.g_code
def generateCode(self):
feed_rate, safe_Z, max_cut_per_pass, bit_diameter, stock_thickness = self.setup.getAllData()
self.g_code = G.startProgram(feed_rate)
self.g_code += G.bore_circle_ID(safe_Z,
stock_thickness,
max_cut_per_pass,
self.tab_thickness_var.get(),
bit_diameter,
self.doughnut_ID_var.get())
self.g_code += G.bore_tabbed_ID(safe_Z,
stock_thickness,
max_cut_per_pass,
self.tab_thickness_var.get(),
bit_diameter,
self.doughnut_ID_var.get(),
float(self.tab_width_var.get()))
self.g_code += G.bore_circle_OD(safe_Z,
stock_thickness,
max_cut_per_pass,
self.tab_thickness_var.get(),
bit_diameter,
self.doughnut_OD_var.get())
self.g_code += G.bore_tabbed_OD(safe_Z,
self.tab_thickness_var.get(),
max_cut_per_pass,
self.tab_thickness_var.get(),
bit_diameter,
self.doughnut_OD_var.get(),
float(self.tab_width_var.get()))
self.g_code += G.endProgram()
return self.g_code
def full_doughnut(self):
g_code = sg.startProgram(1000)
g_code += sg.bore_circle_ID(40, 4.5, 3, 1.5, 4.763, 118)
g_code += sg.bore_tabbed_ID(40, 1.5, 3, 1.5, 4.763, 118, 6.35)
g_code += sg.bore_circle_OD(40, 4.5, 3, 1.5, 4.763, 150)
g_code += sg.bore_tabbed_OD(40, 1.5, 3, 1.5, 4.763, 150, 6.35)
g_code += sg.endProgram()
match = self.proven_doughnut()
self.assertEqual(g_code, match, "not a match")
def full_doughnut(self):
g_code = sg.startProgram(1000)
g_code += sg.bore_circle_ID(40, 4.5, 3, 1.5, 4.763, 118)
g_code += sg.bore_tabbed_ID(40, 1.5, 3, 1.5, 4.763, 118, 6.35)
g_code += sg.bore_circle_OD(40, 4.5, 3, 1.5, 4.763, 150)
g_code += sg.bore_tabbed_OD(40, 1.5, 3, 1.5, 4.763, 150, 6.35)
g_code += sg.endProgram()
match = self.proven_doughnut()
self.assertEqual(g_code, match, "not a match")
def generateCode(self):
feed_rate, safe_Z, max_cut_per_pass, bit_diameter, stock_thickness = self.setup.getAllData(
)
self.g_code = G.startProgram(feed_rate)
self.g_code += G.bore_circle_ID(safe_Z, stock_thickness,
max_cut_per_pass,
self.target_depth_var.get(),
bit_diameter,
self.hole_diameter_var.get())
self.g_code += G.endProgram()
return self.g_code
def generateCode(self):
feed_rate, safe_Z, max_cut_per_pass, bit_diameter, stock_thickness = self.setup.getAllData()
self.g_code = G.startProgram(feed_rate)
self.g_code += G.bore_circle_ID(safe_Z,
stock_thickness,
max_cut_per_pass,
self.target_depth_var.get(),
bit_diameter,
self.hole_diameter_var.get())
self.g_code += G.endProgram()
return self.g_code
def generateCode(self):
feed_rate, safe_Z, max_cut_per_pass, bit_diameter, stock_thickness = self.setup.getAllData(
)
self.g_code = G.startProgram(feed_rate)
self.g_code += G.polar_holes(safe_Z, stock_thickness, max_cut_per_pass,
0, bit_diameter,
self.hole_diameter_var.get(),
self.num_holes_var.get(),
self.HCD_var.get())
self.g_code += G.endProgram()
return self.g_code
def generateCode(self):
feed_rate, safe_Z, max_cut_per_pass, bit_diameter, stock_thickness = self.setup.getAllData()
self.g_code = G.startProgram(feed_rate)
self.g_code += G.polar_holes(safe_Z,
stock_thickness,
max_cut_per_pass,
0,
bit_diameter,
self.hole_diameter_var.get(),
self.num_holes_var.get(),
self.HCD_var.get())
self.g_code += G.endProgram()
return self.g_code
def generateGcode(self):
self.assertValid()
feed_rate = self.machine_params["Feed rate"].getValue()
safe_Z = self.machine_params["Safe Z travel height"].getValue()
max_cut_per_pass = self.machine_params["Maximum cut per pass"].getValue()
bit_diameter = self.machine_params["Cutter diameter"].getValue()
stock_length = self.stock_length_param.getValue()
stock_thickness = self.stock_height_param.getValue()
mid_width = self.stock_width_param.getValue() / 2.0
bottom_radius = self.bottom_radius_param.getValue()
bit_radius = bit_diameter / 2.0
# STOCK POSITIONING ASSUMPTIONS:
# - corner of stock is at (bit_diameter,0)
self.g_code = G.startProgram(feed_rate)
# Putting the tip of the bit on the top surface of the stock.
self.g_code += G.G.G0_Z(safe_Z)
self.g_code += G.G.G0_XY((0, mid_width))
self.g_code += G.G.G0_Z(stock_thickness)
length = stock_length + (2 * bit_diameter)
# Cool! Making another closure for the callback!
def makeRectAreaCut(bit_center_from_middle, bit_center_Y):
self.g_code += G.G.set_ABS_mode()
self.g_code += G.G.G0_Y(mid_width - bit_center_from_middle)
self.g_code += G.G.G1_Z(bit_center_Y - bit_radius)
width = (bit_center_from_middle * 2) + bit_diameter
self.g_code += G.rectAreaByOutline((length, width), bit_diameter)
self._passDistributionAlgorithm(makeRectAreaCut)
self.g_code += G.G.G0_Y(mid_width)
self.g_code += G.G.G1_Z(stock_thickness - bottom_radius)
self.g_code += G.G.set_INCR_mode()
self.g_code += G.G.G1_X(length - bit_diameter)
self.g_code += G.G.set_ABS_mode()
self.g_code += G.G.G0_Z(safe_Z)
self.g_code += G.endProgram()
return self.g_code
def generateGcode(self):
"""
Four cutting operations to program:
- 2 mortises (uses the rectangular pocket)
. rectangularPocket(area, target_depth, stock_thickness, safe_Z, cut_per_pass, bit_diameter, debug=False)
- 2 tenons (requires new machining pattern)
Variable reference points, hold in MC_defaults.py:
- machine's Y-axis coordinate of centers of location holes
- width of holding jig
- offset of machine location holes (centers) and centerline of holding jig
- offset from machine's X-axis reference point and mortise reference faces
- offset from machine's X-axis reference point and tenon reference faces
Expanded bit definitions:
- depth of cut, use in assertValid()
"""
self.assertValid()
feed_rate = self.machine_params["Feed rate"].getValue()
safe_Z = self.machine_params["Safe Z travel height"].getValue()
max_cut_per_pass = self.machine_params["Maximum cut per pass"].getValue()
bit_diameter = self.machine_params["Cutter diameter"].getValue()
bit_radius = bit_diameter / 2.0
mortise_w = self.mortise_width_param.getValue()
mortise_l = self.mortise_length_param.getValue()
mortise_d = self.mortise_depth_param.getValue()
mortise_offest_from_face = self.mortise_offest_from_face_param.getValue()
mortise_offest_from_end = self.mortise_offest_from_end_param.getValue()
stile_face_width = self.stile_face_width_param.getValue()
stile_edge_width = self.stile_edge_width_param.getValue()
if self.rail_face_width_param != 0:
rail_face_width = self.rail_face_width_param.getValue()
else:
rail_face_width = stile_face_width
# BIT POSITIONING ASSUMPTIONS:
# - bit position is assumed to be calibrated to the machine's jig locating holes
# - no other assumptions required
self.g_code = G.startProgram(feed_rate)
# Find the first corner pocket
originABX = mortisingJig['stileEndReference'] - mortise_offest_from_end - mortise_l + bit_radius
stileReferenceFaceA = mortisingJig['locationHoleYcoord'] - (mortisingJig['jigWidth'] / 2.0) + mortisingJig['jigCenterlineOffset']
stileReferenceFaceB = mortisingJig['locationHoleYcoord'] + (mortisingJig['jigWidth'] / 2.0) + mortisingJig['jigCenterlineOffset']
originAY = stileReferenceFaceA - mortise_offest_from_face - mortise_w + bit_radius
originBY = stileReferenceFaceB + mortise_offest_from_face + bit_radius
self.g_code += G.G.set_ABS_mode()
self.g_code += G.G.G0_Z(safe_Z)
self.g_code += G.G.G0_XY((originABX, originAY))
self.g_code += G.rectangularPocket((mortise_l, mortise_w), stile_face_width - mortise_d, stile_face_width, safe_Z, max_cut_per_pass, bit_diameter, True)
self.g_code += G.G.G0_XY((originABX, originBY))
self.g_code += G.rectangularPocket((mortise_l, mortise_w), stile_face_width - mortise_d, stile_face_width, safe_Z, max_cut_per_pass, bit_diameter, True)
# Pause now to mount the rails in the holding jig for the first set of tenon cuts
self.g_code += G.G.pause()
originABX = mortisingJig['railEndReference'] + mortise_offest_from_end
originAY = stileReferenceFaceA - mortisingJig['railFaceReferenceOffset'] - stile_edge_width
originBY = stileReferenceFaceB + mortisingJig['railFaceReferenceOffset']
self.g_code += G.G.G0_XY((originABX, originAY))
self.g_code += G.tenon((rail_face_width, stile_edge_width), (stile_face_width, stile_edge_width), \
(mortise_offest_from_face, mortise_offest_from_end), (mortise_l, mortise_w, mortise_d), \
bit_diameter, bit_diameter, safe_Z, max_cut_per_pass)
alt_face_offset = stile_edge_width - mortise_offest_from_face - mortise_w
self.g_code += G.G.G0_XY((originABX, originBY))
self.g_code += G.tenon((rail_face_width, stile_edge_width), (stile_face_width, stile_edge_width), \
(alt_face_offset, mortise_offest_from_end), (mortise_l, mortise_w, mortise_d), \
bit_diameter, bit_diameter, safe_Z, max_cut_per_pass)
self.g_code += G.endProgram()
return self.g_code
