2 // Parametric single-piece y ends for Reprap Wilson
4 // by Martin Rice <mrice411@gmail.com>
6 include <configuration.scad>
8 washer_recess = 2; // recesses the washer into the end.
13 idler_w = 10; // the gap provided for the bearing holder
15 idler_bearing_inside_d = 3;
24 // thin base under the end (optional)
32 translate([end_w,0,0]) scale([-1,1,1]) endpost();
35 translate([end_w/2,0,0]) idler_post();
38 // bevels on outer corners
39 translate([-1,-23/2,-1]) rotate([0,0,45]) cube([10,10,50]);
40 translate([end_w+1,-23/2,-1]) rotate([0,0,45]) cube([10,10,50]);
43 #translate([end_w/2,0,0]) translate([-idler_wall_t,10,belt_h]) rotate([0,90,0]) cylinder(r=10+4,h=idler_w);
45 // slots for attaching end to table surface if desired
46 #translate([end_w/2-end_w/4,20,0]) cube(size=[4,10,10],center=true);
47 #translate([end_w/2+end_w/4,20,0]) cube(size=[4,10,10],center=true);
56 translate([idler_w/2,0,0]) {
57 cube(size=[idler_wall_t,20,belt_h]);
58 translate([0,10,belt_h]) rotate([0,90,0]) cylinder(r=10,h=idler_wall_t);
60 translate([-idler_w/2-idler_wall_t,0,0]) {
61 cube(size=[idler_wall_t,20,belt_h]);
62 translate([0,10,belt_h]) rotate([0,90,0]) cylinder(r=10,h=idler_wall_t);
64 translate([-idler_w,0,0]) cube(size=[idler_wall_t * 2 + idler_w,20,belt_h/2]);
66 // holes for idler bolt
67 #translate([-12,10,belt_h]) rotate([0,90,0]) cylinder(r=idler_bearing_inside_d/2+.5,h=25);
77 cube([23,16,height_of_post]);
78 #translate([23/2,7,height_of_post]) rotate([-90,0,0]) cylinder(r=smooth_rod_d/2+2+tie_wrap_t+tie_wrap_extra,h=tie_wrap_w);
82 translate([23/2,7,height_of_post]) rotate([-90,0,0]) cylinder(r=smooth_rod_d/2+2+tie_wrap_extra,h=tie_wrap_w);
83 translate([0,0,height_of_post]) cube([23,16,10]);
87 translate([23/2,-10,height_of_threaded ]) rotate([-90,0,0]) cylinder(r=threaded_rod_d/2+.4,h=380);
88 translate([23/2,-.1,height_of_threaded ]) rotate([-90,0,0]) cylinder(r=washer_d/2+.4,h=washer_recess);
89 translate([23/2,2.5,height_of_smooth]) rotate([-90,0,0]) cylinder(r=smooth_rod_d/2+.1,h=380);
98 cube([193.5,55,base_thickness]);
99 translate([193.5/2,-182,-1]) cylinder(r=220,h=base_thickness+2,$fn=150);
101 //#translate([193.5/2,0,0]) cylinder(r=10,h=10);
106 translate([193.5,17,0]) rotate([0,0,180]) difference() { translate([193.5/2,-290,0]) cylinder(r=310,h=32.6,$fn=200);
107 translate([193.5/2,-211.9+5,-2]) cylinder(r=223,h=50,$fn=200);
108 translate([-320,3,-2]) rotate([0,0,270]) cube([900,900,50]);
109 translate([-20,-1,-1]) cube([43,16,47]);
110 translate([193.5-22.9,-1,-1]) scale([1,1,1]) cube([43,16,47]);
111 //translate([192.5/2-23/2+5.9,0,14.5]) cube([11.96,40,20]);