import os import datetime as dt print(str(dt.datetime.now())) import importlib as ir from cadquery import exporters as et try: root_dir = r'C:\\Users\\TheBears\\Seafile\\Designs\\Projects\\kickdrawers\\cadfree\\code\\' os.chdir(root_dir) except: root_dir = r'/home/thebears/Seafile/Designs/Projects/kickdrawers/cadfree/code' os.chdir(root_dir) import items as it import util as u import cadquery as cq ir.reload(it) ir.reload(u) TEST=True objs = list() # Base parameters add_the_fingers = False force_tab_width = False r_hole = 4.6/2 full_width = 1012 slider_thickness = 12.7 t_small = 3.175 t_large = t_small*2 back_padding = 14 box_depth = 540 + 25.4/2 box_height = 3.15*25.4 front_offset_face = 12 prefix = 'orig' if True : #Under the sink: box_depth = 465 + 25.4/2 full_width = 790 trans_1 = 165-slider_thickness - 2*t_small - 2*t_large trans_2 = 230-slider_thickness - 2*t_small + t_large bdepth = box_depth - 270 - back_padding # Computed parameters box_depth_w_pad = box_depth + back_padding box_width = (full_width - 4*slider_thickness - 2*t_large - 2*t_small)/2 z_drop = t_large + t_small settings = {'w':box_width, 'd':box_depth, 'h':box_height, 't_large':t_large, 'add_holes':True, 'r_hole':r_hole, 'add_fingers':add_the_fingers} xy_wp = lambda: cq.Workplane('XY') t_pan_1 = u.add_rect(xy_wp(), t_large, bdepth).extrude(box_height - 2).translate((trans_1,0,2)) t_pan_2 = u.add_rect(xy_wp(), t_large, bdepth).extrude(box_height - 2).translate((trans_2,0,2)) t_pan_3 = u.add_rect(xy_wp(), trans_2-trans_1+t_large, t_large).extrude(box_height - 2).translate((trans_1,bdepth - t_large,2)) t_slate = u.add_rect(xy_wp(), trans_2 - trans_1 - t_large, bdepth).extrude(100).translate((trans_1+t_large,-t_large,0)) t_slate_2 = u.add_rect(xy_wp(), trans_2 - trans_1 - t_large, bdepth+40).extrude(-200).translate((trans_1+t_large,-t_large - 40,100)) # Make drawers drawer_1 = it.create_drawer(**settings, tab_override=False ).add_tag('drawer_1'); bottom, b_side, l_side, f_side, r_side = drawer_1 if add_the_fingers: t_pan_2, t_pan_3 , _ = u.do_fingers(t_pan_2, t_pan_3) t_pan_1, t_pan_3 , _ = u.do_fingers(t_pan_1, t_pan_3) bottom, t_pan_1 , _= u.do_fingers(bottom, t_pan_1) bottom, t_pan_2 , _ = u.do_fingers(bottom, t_pan_2) bottom, t_pan_3 , _ = u.do_fingers(bottom, t_pan_3, num_tabs=3) b_side, t_pan_1, _ = u.do_fingers(b_side, t_pan_1) b_side, t_pan_2, _ = u.do_fingers(b_side, t_pan_2) bx = it.item_list([]) for b in [bottom, b_side, l_side, f_side, r_side]: bx.append( b.cut(t_slate) ) objs.append(bx.add_tag('drawer_3')) objs.append(it.item_list([t_pan_1, t_pan_2, t_pan_3])) if True: drawer_2 = it.create_drawer( **settings).translate(box_width+2*slider_thickness+2*t_small,0,0).add_tag('drawer_2'); objs.append(drawer_2) #Add back panels xzback = lambda: cq.Workplane(cq.Plane(origin = (-slider_thickness-t_large,-back_padding-t_small,-z_drop), xDir=(1,0,0), normal=(0,-1,0))) back_1 = u.add_rect(xzback(), full_width/2, box_height + z_drop).extrude(-t_small) back_2 = u.add_rect(xzback().center(full_width/2,0), full_width/2, box_height + z_drop).extrude(-t_small) # Add bottom panels xy_bottom = lambda: cq.Workplane(cq.Plane(origin = (-slider_thickness-t_large,-back_padding-t_small,-z_drop), xDir=(1,0,0), normal=(0,0,1))) xyb1 = xy_bottom() bottom_1 = u.add_rect(xyb1, full_width/2, box_depth_w_pad - front_offset_face).extrude(t_small) bottom_1 = bottom_1.cut( xyb1.pushPoints(u.bottom_points(full_width/2, box_depth_w_pad, grid=[5,5])).circle(r_hole).extrude(10)) bottom_1 = bottom_1.cut(t_slate_2) back_1 = back_1.cut(t_slate_2) xyb2 = xy_bottom().center(full_width/2,0) bottom_2 = u.add_rect(xyb2, full_width/2, box_depth_w_pad - front_offset_face).extrude(t_small) bottom_2 = bottom_2.cut( xyb2.pushPoints(u.bottom_points(full_width/2, box_depth_w_pad, grid=(5,5))).circle(r_hole).extrude(10)) # Add panels that will hold the drawer slides yzback = lambda: cq.Workplane('YZ').center(-back_padding-t_small,-z_drop) panel_a = it.add_panel(yzback(), box_depth_w_pad - front_offset_face, box_height, z_drop, r_hole, -t_small, t_small).translate((-slider_thickness, 0, 0)) panel_b = it.add_panel(yzback(), box_depth_w_pad - front_offset_face, box_height, z_drop, r_hole, t_small, t_small).translate((box_width+slider_thickness, 0, 0)) panel_c = it.add_panel(yzback(), box_depth_w_pad - front_offset_face, box_height, z_drop, r_hole, t_small, t_small).translate((box_width+slider_thickness + t_small, 0, 0)) panel_d = it.add_panel(yzback(), box_depth_w_pad - front_offset_face, box_height, z_drop, r_hole, t_small, t_small).translate((3*slider_thickness + 2*box_width + 2*t_small, 0, 0)) if add_the_fingers: panel_a, bottom_1, _ = u.do_fingers(panel_a, bottom_1, num_tabs = 13) panel_b, bottom_1, _ = u.do_fingers(panel_b, bottom_1, num_tabs = 13) back_1, bottom_1, _ = u.do_fingers(back_1, bottom_1, num_tabs = 13) panel_a, back_1, _ = u.do_fingers(panel_a, back_1) panel_b, back_1, _ = u.do_fingers(panel_b, back_1) panel_c, bottom_2, _ = u.do_fingers(panel_c, bottom_2, num_tabs = 13) panel_d, bottom_2, _ = u.do_fingers(panel_d, bottom_2, num_tabs = 13) back_2, bottom_2, _ = u.do_fingers(back_2, bottom_2, num_tabs = 13) panel_c, back_2, _ = u.do_fingers(panel_c, back_2) panel_d, back_2, _ = u.do_fingers(panel_d, back_2) support_1 = it.item_list([back_1, bottom_1, panel_a, panel_b]).add_tag('support_1') support_2 = it.item_list([back_2, bottom_2, panel_c, panel_d]).add_tag('support_2') objs.append(support_1) objs.append(support_2) for x in objs: for o in x: show_object(o) u.save_stls(objs, os.path.join(root_dir,'under_sink'), prefix) # fitem = globals().items() # for name, var in list(globals().items()): # if var in objs: # fpath = os.path.join(root_dir, 'base_stls', prefix +'_shell_'+ name+'.stl') # et.exportShape(var, et.ExportTypes.STL, open(fpath, 'w'))