#!/usr/bin/python from boxes import * class Printer(Boxes): """Work in progress""" def __init__(self, r=250, h=400, d_c=100): Boxes.__init__(self, 1200, 600, thickness=5.0, burn=0.05) self.edges["f"].settings.setValues(self.thickness, surroundingspaces=0) self.r = r self.h = h self.d_c = d_c # idlers self.D_i = 17.0 self.d_i = 5.0 self.w_i = 7.0 # includes washers def mainPlate(self, nr): r = self.r t2 = 0.5 * self.thickness if nr: return self.moveTo(r-5, r, -90) self.hole(0, 0, r-80) D_i2 = self.D_i / 2 w_i2 = self.w_i / 2 d_c2 = self.d_c/2 for i in range(6): self.ctx.save() self.moveTo(0, 0, i*60) # winches if i % 2: self.fingerHolesAt(r-80, (d_c2+20), 70, angle=0) self.fingerHolesAt(r-80, -(d_c2+20), 70, angle=0) if i==5: self.fingerHolesAt(r-70+t2, -(d_c2+20+t2), 40, angle=-90) else: self.fingerHolesAt(r-70+t2, (d_c2+20+t2), 40, angle=90) # idler buck else: d = 0.5*(self.thickness)+w_i2 for y in (-d-d_c2, d-d_c2, -d+d_c2, d+d_c2): self.fingerHolesAt(r-30, y, 30, angle=0) self.hole(r-15+D_i2, -self.d_c/2, 0.4) self.hole(r-15+D_i2, self.d_c/2, 0.4) self.ctx.restore() def head(self): d_c = self.d_c self.moveTo(self.spacing+10, self.spacing) for i in range(3): self.hole(0, 5, 0.3) self.fingerHolesAt(25, 0, 20) self.fingerHolesAt(75, 0, 20) self.edge(d_c) self.hole(0, 5, 0.3) self.corner(120, 10) def support(self, x, y, edges="ff", pair=False, callback=None, move=None): if len(edges) != 2: raise ValueError("Two edges required") edges = [self.edges.get(e, e,) for e in edges] overallwidth = x + edges[0].spacing() + self.edges["e"].spacing() overallheight = y + edges[1].spacing() + self.edges["e"].spacing() r = 2*self.thickness if pair: overallwidth+= edges[0].spacing() + r - self.edges["e"].spacing() overallheight+= edges[1].spacing() + r - self.edges["e"].spacing() if self.move(overallwidth, overallheight, move, before=True): return self.ctx.save() self.moveTo(edges[0].margin(), edges[1].margin()) angle = math.degrees(math.atan((y-r)/float(x-r))) self.cc(callback, 0) edges[1](x) self.corner(90) #self.edge(self.thickness) self.corner(90-angle, r) self.edge(((x-r)**2+(y-r)**2)**0.5) self.corner(angle, r) #self.edge(self.thickness) self.corner(90) self.cc(callback, 0) edges[0](y) self.corner(90) self.ctx.restore() if pair: self.ctx.save() self.moveTo(overallwidth, overallheight, 180) self.support(x, y, edges, False, callback) self.ctx.restore() self.move(overallwidth, overallheight, move) def render(self): self.ctx.save() for i in range(3): # motor mounts self.rectangularWall(70, 70, edges="feee", callback=[ lambda: self.NEMA(23, 35, 35),], move="right") # winch bucks self.rectangularWall(50, 70, edges="efee", callback=[ None, lambda: self.hole(35, 35, 8.5), None, lambda: self.fingerHolesAt(10, 0, 50)], move="right") self.support(40, 50, move="right", pair=True) self.support(40, 50, move="right") self.ctx.restore() self.moveTo(0, 80) self.ctx.save() # idler bucks for i in range(12): self.rectangularWall(30, 30, edges="feee", callback=[ lambda: self.hole(15, 15, 3),], move="right") # Cable adjustment blocks self.ctx.save() for i in range(6): def holes(): self.hole(5, 4, 1.5) self.hole(15, 4, 1.5) self.rectangularWall(20, 8, edges="feee", callback=[holes,], move="right") self.ctx.restore() self.moveTo(0, 20) # Cable adjustment glyders for i in range(6): self.rectangularWall(8, 10, move="right", callback=[ lambda: self.hole(4, 4, 1.5), None, lambda: self.hole(4, 1.5, 0.4)]) self.rectangularWall(8, 10, move="right", callback=[ lambda: self.nutHole("M3", 4, 4), None, lambda: self.hole(4, 1.5, 0.4)]) self.ctx.restore() self.moveTo(0, 40) # mainPlate self.rectangularWall(2*self.r-10, 2*self.r-10, edges="ffff", callback=self.mainPlate, move="right") self.head() self.ctx.stroke() self.surface.finish() p = Printer() p.render()