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My self designed awesome 3D printer
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xyRepRap/lib/linear_bearing.scad

linear_bearing.scad 30KB
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  1. 

  2. include <bearing_idler.scad>

  3. include <e3d_v6_all_metall_hotend.scad>

  4. 

  5. // #######################################################

  6. // ################### Linear Bearings ###################

  7. // #######################################################

  8. 

  9. lm8uu_outer = 15;

  10. lm8uu_inner = 8;

  11. lm8uu_height = 24;

  12. 

  13. x_rail_dist = 70;

  14. 

  15. lm8uu_dia_add = 0.5;

  16. lm8uu_len_add = 1.0;

  17. rail_dia_add = 3.0;

  18. y_carriage_wall = 10; // z-axis

  19. y_carriage_len_add = 15; // y-axis

  20. y_carriage_width = 25; // x-axis

  21. y_carriage_block_width = 10; // x-axis

  22. y_carriage_block_height = 10; // z-axis

  23. y_carriage_rail_support = 2; // dist between rail and edge

  24. 

  25. y_carriage_length = x_rail_dist + (2 * y_carriage_len_add);

  26. 

  27. rail_mount_dia_add = 0.4;

  28. x_rail_mount_width = 10;

  29. x_rail_cutout_z = 0.5; // in x-axis

  30. x_rail_cutout_x = 0.5; // in z-axis

  31. x_rail_cutout_y = x_rail_dist - (2 * y_carriage_len_add);

  32. x_rail_hole_off = 5;

  33. x_rail_block_len = (y_carriage_length - x_rail_cutout_y) / 2;

  34. 

  35. x_carriage_width = 80;

  36. x_carriage_len_add = 12;

  37. x_carriage_wall = 10;

  38. x_carriage_bearing_off = 3;

  39. 

  40. x_carriage_belt_off = 19;

  41. x_carriage_belt_block_width = 8;

  42. x_carriage_belt_block_length = 8;

  43. x_carriage_belt_block_height = 25;

  44. x_carriage_belt_block_height_b = x_carriage_belt_block_height - 7;

  45. x_carriage_block_hole_off = 6.0;

  46. x_carriage_block_length = 4;

  47. x_carriage_block_off = 2.5;

  48. x_carriage_block_add = 4.4;

  49. 

  50. x_carriage_length = x_rail_dist + (2 * x_carriage_len_add);

  51. 

  52. x_carriage_block_height = 2 * (x_carriage_block_hole_off + x_carriage_block_add);

  53. 

  54. x_cutout_width = x_carriage_width - (2 * x_carriage_belt_block_width) - 5;

  55. x_cutout_length = x_rail_dist - 25;

  56. 

  57. // y-carriage belt idlers

  58. idler_a_blue = [  19,               15,  5.5];

  59. idler_a_red  = [  19, x_rail_dist + 15, 12.5];

  60. idler_b_blue = [30.3, x_rail_dist + 15, 12.5];

  61. idler_b_red  = [30.3,               15,  5.5];

  62. 

  63. e3d_v6_dist_x = 23 + 5;

  64. e3d_v6_dist_y = 18 + 1;

  65. e3d_v6_z_off = 13;

  66. 

  67. e3d_clamp_width = x_cutout_width;

  68. e3d_clamp_width_add = 10;

  69. e3d_clamp_length = e3d_v6_dist_y;

  70. e3d_clamp_b_length = ((x_cutout_length - e3d_clamp_length) / 2) + 7;

  71. e3d_clamp_height = e3d_upper_small_height;

  72. e3d_clamp_dia_add = 0.2;

  73. e3d_clamp_cut = 0.2; // x2

  74. e3d_clamp_hole_off = 4;

  75. e3d_hole_dia = 3.2;

  76. 

  77. fan_mount_wall = 5;

  78. fan_mount_inset = 6;

  79. fan_mount_hole_inset = 8;

  80. fan_width = 40;

  81. fan_height = 20;

  82. fan_hole_off = 3.9;

  83. 

  84. universal_mount_hole_off = 6;

  85. 

  86. nut_cut_width = 5.7;

  87. nut_cut_depth = 2.6;

  88. nut_cut_off = 3.2;

  89. nut_cut_height = 20;

  90. 

  91. sensor_mount_width_add = 8;

  92. sensor_mount_wall = 4;

  93. sensor_mount_y_offset = -1;

  94. sensor_mount_height = 8;

  95. sensor_dia = 19;

  96. sensor_dia_add = 6;

  97. 

  98. sensor_mount_width = (2 * universal_mount_hole_off) + sensor_mount_width_add;

  99. 

  100. cable_tie_width = 3.5;

  101. cable_tie_height = 2.0;

  102. cable_tie_dia_add = 1.0;

  103. 

  104. draw_x_carriage = false;

  105. draw_e3d_fan_duct = true;

  106. draw_radial_fan = true;

  107. draw_bed_sensor = true;

  108. draw_e3d_hotends = true;

  109. 

  110. draw_y_carriage = false;

  111. draw_y_carriage_idlers = true;

  112. draw_rail_len = 200;

  113. 

  114. // TODO get ready to actually print these

  115. 

  116. module nut_cut() {

  117.     translate([-nut_cut_width / 2, 2, nut_cut_off - nut_cut_height]) {

  118.         cube([nut_cut_width, nut_cut_depth, nut_cut_height]);

  119.         translate([nut_cut_width / 2, -5, nut_cut_height - nut_cut_off])

  120.             rotate([-90, 0, 0])

  121.             cylinder(d = 3.2, h = nut_cut_depth + 5);

  122.     }

  123. }

  124. 

  125. module lm8uu() {

  126.     $fn = 15;

  127.     difference() {

  128.         cylinder(d = lm8uu_outer, h = lm8uu_height);

  129.         translate([0, 0, -1])

  130.             cylinder(d = lm8uu_inner, h = lm8uu_height + 2);

  131.     }

  132. }

  133. 

  134. module lm8uu_cable_tie() {

  135.     difference() {

  136.         union() {

  137.             cylinder(d = lm8uu_outer + (2 * (cable_tie_height + cable_tie_dia_add)), h = cable_tie_width);

  138.             

  139.             translate([-8.5, 6, 0])

  140.                 cube([17, 10, cable_tie_width]);

  141.         }

  142.         

  143.         translate([0, 0, -1])

  144.             cylinder(d = lm8uu_outer + (2 * cable_tie_dia_add), h = cable_tie_width + 2);

  145.     }

  146. }

  147. 

  148. module generate_spacer(pos) {

  149.     color("green")

  150.     translate([pos[0], pos[1], -0.5])

  151.         bearing_spacer(pos[2] + 0.5 + ((idler_outer_height - bearing_height) / 2), 2, 1, true, 3);

  152. }

  153. 

  154. module y_carriage(idler_a = [0, 0, 0], idler_b = [0, 0, 0]) {

  155.     $fn = 20;

  156.     

  157.     // attaching to x-rails

  158.     color("green")

  159.     translate([y_carriage_width, 0, -y_carriage_block_height])

  160.     difference() {

  161.         cube([x_rail_mount_width, y_carriage_length, y_carriage_block_height + y_carriage_wall]);

  162.         

  163.         translate([0, -1, y_carriage_block_height])

  164.             cube([x_rail_cutout_z, y_carriage_length + 2, y_carriage_wall + 1]);

  165.         

  166.         translate([0, -1, y_carriage_block_height - (x_rail_cutout_x / 2)])

  167.             cube([y_carriage_block_width + 1, y_carriage_length + 2, x_rail_cutout_x]);

  168.         

  169.         translate([0, (y_carriage_length - x_rail_cutout_y) / 2, y_carriage_block_height])

  170.             cube([y_carriage_block_width + 1, x_rail_cutout_y, y_carriage_wall + 1]);

  171.         

  172.         for (i = [y_carriage_len_add : x_rail_dist : x_rail_dist + y_carriage_len_add]) {

  173.             translate([0, i, y_carriage_block_height])

  174.                 rotate([0, 90, 0])

  175.                 cylinder(d = lm8uu_inner + rail_mount_dia_add, h = y_carriage_block_width + 1);

  176.         }

  177.         

  178.         for (i = [0 : x_rail_block_len + x_rail_cutout_y : x_rail_block_len + x_rail_cutout_y]) {

  179.             translate([y_carriage_block_width / 2, x_rail_hole_off + i, -1]) {

  180.                 cylinder(d = 3.2, h = y_carriage_wall + 2 + y_carriage_block_height);

  181.                 cylinder(d = 6.1, h = 3.8, $fn = 6);

  182.                 translate([0, 0, y_carriage_wall + y_carriage_block_height - 2.5])

  183.                     cylinder(d = 6.1, h = 3.8);

  184.             }

  185.             

  186.             translate([y_carriage_block_width / 2, x_rail_block_len - x_rail_hole_off + i, -1]) {

  187.                 cylinder(d = 3.2, h = y_carriage_wall + 2 + y_carriage_block_height);

  188.                 cylinder(d = 6.1, h = 3.8, $fn = 6);

  189.                 translate([0, 0, y_carriage_wall + y_carriage_block_height - 2.5])

  190.                     cylinder(d = 6.1, h = 3.8);

  191.             }

  192.         }

  193.     }

  194.     

  195.     // attaching to y-rail

  196.     color("green")

  197.     difference() {

  198.         union() {

  199.             cube([y_carriage_width, y_carriage_length, y_carriage_wall]);

  200.             

  201.             translate([y_carriage_width - y_carriage_block_width, 0, -y_carriage_block_height])

  202.                 cube([y_carriage_block_width, y_carriage_length, y_carriage_block_height]);

  203.         }

  204.         

  205.         translate([(lm8uu_outer + lm8uu_dia_add) / 2 + y_carriage_rail_support, 0, 0])

  206.         rotate([-90, 0, 0]) {

  207.             translate([0, 0, -1])

  208.                 cylinder(d = lm8uu_inner + rail_dia_add, h = y_carriage_length + 2);

  209.             

  210.             translate([0, 0, y_carriage_rail_support - lm8uu_len_add / 2])

  211.                 cylinder(d = lm8uu_outer + lm8uu_dia_add, h = lm8uu_height + lm8uu_len_add);

  212.         

  213.             translate([0, 0, y_carriage_length - lm8uu_height - y_carriage_rail_support - lm8uu_len_add / 2])

  214.                 cylinder(d = lm8uu_outer + lm8uu_dia_add, h = lm8uu_height + lm8uu_len_add);

  215.         }

  216.         

  217.         translate([(lm8uu_outer + lm8uu_dia_add) / 2 + y_carriage_rail_support, 0, 0])

  218.         rotate([90, 0, 0]) {

  219.             translate([0, 0, -11])

  220.                 lm8uu_cable_tie();

  221.             

  222.             translate([0, 0, -20])

  223.                 lm8uu_cable_tie();

  224.             

  225.             translate([0, 0, -83])

  226.                 lm8uu_cable_tie();

  227.             

  228.             translate([0, 0, -92])

  229.                 lm8uu_cable_tie();

  230.         }

  231.     }

  232.     

  233.     color("magenta")

  234.     translate([(lm8uu_outer + lm8uu_dia_add) / 2 + y_carriage_rail_support, 0, 0])

  235.     rotate([-90, 0, 0]) {

  236.         // y-bearings

  237.         %translate([0, 0, y_carriage_rail_support])

  238.             lm8uu();

  239.         %translate([0, 0, y_carriage_length - lm8uu_height - y_carriage_rail_support])

  240.             lm8uu();

  241.     }

  242.     

  243.     // idlers for the corexy belts

  244.     translate([0, 0, y_carriage_wall]) {

  245.         if (draw_y_carriage_idlers) {

  246.             translate(idler_a)

  247.                 bearing_idler();

  248.             

  249.             translate(idler_b)

  250.                 bearing_idler();

  251.         }

  252.         

  253.         generate_spacer(idler_a);

  254.         generate_spacer(idler_b);

  255.     }

  256. }

  257. 

  258. module belt_fix() {

  259.     difference() {

  260.         color("green")

  261.         cube([x_carriage_belt_block_width, x_carriage_block_length, x_carriage_block_height]);

  262.         

  263.         translate([x_carriage_belt_block_width / 2, -1, x_carriage_block_hole_off - 0.2])

  264.         rotate([-90, 0, 0]) {

  265.             cylinder(d = 3.2, h = x_carriage_belt_block_length + 2);

  266.             cylinder(d = 6.1, h = 3.8, $fn = 6);

  267.         }

  268.             

  269.         translate([x_carriage_belt_block_width / 2, -1, x_carriage_block_height - -x_carriage_block_hole_off - 9])

  270.         rotate([-90, 0, 0]) {

  271.             cylinder(d = 3.2, h = x_carriage_belt_block_length + 2);

  272.             cylinder(d = 6.1, h = 3.8, $fn = 6);

  273.         }

  274.     }

  275. }

  276. 

  277. module belt_mount(top, up) {

  278.     $fn = 15;

  279.     

  280.     difference() {

  281.         color("green")

  282.         if (top) {

  283.             cube([x_carriage_belt_block_width, x_carriage_belt_block_length, x_carriage_belt_block_height]);

  284.         } else {

  285.             cube([x_carriage_belt_block_width, x_carriage_belt_block_length, x_carriage_belt_block_height_b]);

  286.         }

  287.         

  288.         if (top) {

  289.             translate([-1, x_carriage_belt_block_length / 2, 16])

  290.                 rotate([0, 90, 0])

  291.                 cylinder(d = 2.6, h = x_carriage_belt_block_width + 2);

  292.             

  293.             translate([x_carriage_belt_block_width / 2, -1, 16 + x_carriage_block_hole_off])

  294.                 rotate([-90, 0, 0])

  295.                 cylinder(d = 3.2, h = x_carriage_belt_block_length + 2);

  296.             translate([x_carriage_belt_block_width / 2, -1, 16 - x_carriage_block_hole_off])

  297.                 rotate([-90, 0, 0])

  298.                 cylinder(d = 3.2, h = x_carriage_belt_block_length + 2);

  299.         } else {

  300.             translate([-1, x_carriage_belt_block_length / 2, 9])

  301.                 rotate([0, 90, 0])

  302.                 cylinder(d = 2.7, h = x_carriage_belt_block_width + 2);

  303.             translate([x_carriage_belt_block_width / 2, -1, 9 + x_carriage_block_hole_off])

  304.                 rotate([-90, 0, 0])

  305.                 cylinder(d = 3.2, h = x_carriage_belt_block_length + 2);

  306.             translate([x_carriage_belt_block_width / 2, -1, 9 - x_carriage_block_hole_off])

  307.                 rotate([-90, 0, 0])

  308.                 cylinder(d = 3.2, h = x_carriage_belt_block_length + 2);

  309.         }

  310.     }

  311.     

  312.     if (up) {

  313.         if (top) {

  314.             translate([0, x_carriage_belt_block_length + x_carriage_block_off, x_carriage_belt_block_height - x_carriage_block_height])

  315.                 belt_fix();

  316.         } else {

  317.             translate([0, x_carriage_belt_block_length + x_carriage_block_off, x_carriage_belt_block_height_b - x_carriage_block_height])

  318.                 belt_fix();

  319.         }

  320.     } else {

  321.         if (top) {

  322.             translate([0, -x_carriage_block_length - x_carriage_block_off, x_carriage_belt_block_height - x_carriage_block_height])

  323.                 belt_fix();

  324.         } else {

  325.             translate([0, -x_carriage_block_length - x_carriage_block_off, x_carriage_belt_block_height_b - x_carriage_block_height])

  326.                 belt_fix();

  327.         }

  328.     }

  329. }

  330. 

  331. module belt_mounts() {

  332.     translate([0, x_carriage_belt_off, 0])

  333.         belt_mount(false, true);

  334.     

  335.     translate([0, x_carriage_length - x_carriage_belt_off - x_carriage_belt_block_length, 0])

  336.         belt_mount(true, false);

  337.     

  338.     translate([x_carriage_width - x_carriage_belt_block_width, x_carriage_belt_off, 0])

  339.         belt_mount(true, true);

  340.     

  341.     translate([x_carriage_width - x_carriage_belt_block_width, x_carriage_length - x_carriage_belt_off - x_carriage_belt_block_length, 0])

  342.         belt_mount(false, false);

  343. }

  344. 

  345. module x_carriage() {

  346.     $fn = 20;

  347.     

  348.     //color("green")

  349.     difference() {

  350.         union() {

  351.             color("green")

  352.             cube([x_carriage_width, x_rail_dist + (2 * x_carriage_len_add), x_carriage_wall]);

  353.             

  354.             translate([0, 0, x_carriage_wall])

  355.                 belt_mounts();

  356.         }

  357.         

  358.         // big center cutout

  359.         translate([x_carriage_width / 2, x_carriage_length / 2, x_carriage_wall / 2])

  360.             cube([x_cutout_width, x_cutout_length, x_carriage_wall + 2], center=true);

  361.         

  362.         for (i = [0 : 1 : 1]) {

  363.             translate([lm8uu_height + x_carriage_bearing_off + (i * (x_carriage_width - (2 * x_carriage_bearing_off) - lm8uu_height)), 0, ])

  364.             rotate([0, -90, 0]) {

  365.                 // x-bearings

  366.                 color("magenta")

  367.                 %translate([0, x_carriage_len_add, 0])

  368.                     lm8uu();

  369.                 

  370.                 color("magenta")

  371.                 %translate([0, x_rail_dist + x_carriage_len_add, 0])

  372.                     lm8uu();

  373.                 

  374.                 color("green")

  375.                 translate([0, x_carriage_len_add, 0])

  376.                     cylinder(d = lm8uu_outer + lm8uu_dia_add, h = lm8uu_height + lm8uu_len_add);

  377.                 

  378.                 color("green")

  379.                 translate([0, x_rail_dist + x_carriage_len_add, 0])

  380.                     cylinder(d = lm8uu_outer + lm8uu_dia_add, h = lm8uu_height + lm8uu_len_add);

  381.                 

  382.                 color("green")

  383.                 translate([0, x_carriage_len_add, -x_carriage_width])

  384.                     cylinder(d = lm8uu_inner + rail_dia_add, h = x_carriage_width * 2);

  385.                 

  386.                 color("green")

  387.                 translate([0, x_rail_dist + x_carriage_len_add, -x_carriage_width])

  388.                     cylinder(d = lm8uu_inner + rail_dia_add, h = x_carriage_width * 2);

  389.             }

  390.         }

  391.         

  392.         // bearing cable tie mount front

  393.         translate([8, x_carriage_len_add, 0])

  394.             rotate([90, 0, 90])

  395.             lm8uu_cable_tie();

  396.         translate([18, x_carriage_len_add, 0])

  397.             rotate([90, 0, 90])

  398.             lm8uu_cable_tie();

  399.         translate([58, x_carriage_len_add, 0])

  400.             rotate([90, 0, 90])

  401.             lm8uu_cable_tie();

  402.         translate([68, x_carriage_len_add, 0])

  403.             rotate([90, 0, 90])

  404.             lm8uu_cable_tie();

  405.         

  406.         // bearing cable tie mount back

  407.         translate([8, x_carriage_len_add + x_rail_dist, 0])

  408.             rotate([90, 0, 90])

  409.             lm8uu_cable_tie();

  410.         translate([18, x_carriage_len_add + x_rail_dist, 0])

  411.             rotate([90, 0, 90])

  412.             lm8uu_cable_tie();

  413.         translate([58, x_carriage_len_add + x_rail_dist, 0])

  414.             rotate([90, 0, 90])

  415.             lm8uu_cable_tie();

  416.         translate([68, x_carriage_len_add + x_rail_dist, 0])

  417.             rotate([90, 0, 90])

  418.             lm8uu_cable_tie();

  419.         

  420.         /* mounting for hotend / tool */

  421.         

  422.         // left mounting screw

  423.         translate([5.5, x_carriage_length / 2, -1])

  424.             cylinder(d = e3d_hole_dia, h = x_carriage_wall + 12);

  425.         // right mounting screw

  426.         translate([x_carriage_width - 5.5, x_carriage_length / 2, -1])

  427.             cylinder(d = e3d_hole_dia, h = x_carriage_wall + 12);

  428.         

  429.         // bottom mounting screw

  430.         translate([x_carriage_width / 2, x_carriage_len_add + 9, -1])

  431.             cylinder(d = e3d_hole_dia, h = x_carriage_wall + 12);

  432.         // top mounting screw

  433.         translate([x_carriage_width / 2, x_carriage_length - x_carriage_len_add - 9, -1])

  434.             cylinder(d = e3d_hole_dia, h = x_carriage_wall + 12);

  435.         

  436.         // fan mount attachment holes on left side

  437.         translate([-fan_mount_wall - 1, ((x_carriage_length - fan_width) / 2) + fan_mount_hole_inset, x_carriage_wall / 2])

  438.             rotate([0, 90, 0])

  439.             cylinder(d = 3.2, h = ((x_carriage_width - x_cutout_width) / 2) + fan_mount_wall + 2);

  440.         translate([-fan_mount_wall - 1, ((x_carriage_length + fan_width) / 2) - fan_mount_hole_inset, x_carriage_wall / 2])

  441.             rotate([0, 90, 0])

  442.             cylinder(d = 3.2, h = ((x_carriage_width - x_cutout_width) / 2) + fan_mount_wall + 2);

  443.             

  444.         // fan mount attachment holes on right side

  445.         translate([((x_carriage_width + x_cutout_width) / 2) - 1, ((x_carriage_length - fan_width) / 2) + fan_mount_hole_inset, x_carriage_wall / 2])

  446.             rotate([0, 90, 0])

  447.             cylinder(d = 3.2, h = ((x_carriage_width - x_cutout_width) / 2) + fan_mount_wall + 2);

  448.         translate([((x_carriage_width + x_cutout_width) / 2) - 1, ((x_carriage_length + fan_width) / 2) - fan_mount_hole_inset, x_carriage_wall / 2])

  449.             rotate([0, 90, 0])

  450.             cylinder(d = 3.2, h = ((x_carriage_width - x_cutout_width) / 2) + fan_mount_wall + 2);

  451.             

  452.         // universal add-on mounting on front

  453.         translate([(x_carriage_width / 2) + universal_mount_hole_off, 0, x_carriage_wall / 2])

  454.             rotate([0, 180, 0])

  455.             nut_cut();

  456.         translate([(x_carriage_width / 2) - universal_mount_hole_off, 0, x_carriage_wall / 2])

  457.             rotate([0, 180, 0])

  458.             nut_cut();

  459.             

  460.         // universal add-on mounting on back

  461.         translate([(x_carriage_width / 2) + universal_mount_hole_off, x_carriage_length, x_carriage_wall / 2])

  462.             rotate([0, 180, 180])

  463.             nut_cut();

  464.         translate([(x_carriage_width / 2) - universal_mount_hole_off, x_carriage_length, x_carriage_wall / 2])

  465.             rotate([0, 180, 180])

  466.             nut_cut();

  467.     }

  468.     

  469.     translate([(x_carriage_width - sensor_mount_width) / 2, -sensor_mount_wall, 0])

  470.         sensor_mount();

  471.     

  472.     translate([(x_carriage_width - sensor_mount_width) / 2, x_carriage_length, 0]) {

  473.         radial_fan_mount(true);

  474.         

  475.         translate([0, 15 + sensor_mount_wall, 0])

  476.             radial_fan_mount(false);

  477.     }

  478.     

  479.     e3d_v6_triple_mount();

  480. }

  481. 

  482. module radial_fan_mount(with_fan = true) {

  483.     color("yellow")

  484.     universal_mount_plate();

  485.     

  486.     for (i = [0 : 52 + sensor_mount_width : 52 + sensor_mount_width])

  487.     translate([i, 0, 0]) {

  488.         color("yellow")

  489.         translate([-52, 0, 0])

  490.             cube([52, sensor_mount_wall, x_carriage_wall]);

  491.         

  492.         color("yellow")

  493.         translate([-9, 0, x_carriage_wall])

  494.         

  495.         difference() {

  496.             cube([9, sensor_mount_wall, 13]);

  497.             translate([4.5, -1, 9])

  498.                 rotate([-90, 0, 0])

  499.                 cylinder(d = 4.2, h = sensor_mount_wall + 2);

  500.         }

  501.         

  502.         color("yellow")

  503.         translate([-52, 0, -23])

  504.         difference() {

  505.             cube([9, sensor_mount_wall, 23]);

  506.             translate([4.5, -1, 4])

  507.                 rotate([-90, 0, 0])

  508.                 cylinder(d = 4.2, h = sensor_mount_wall + 2);

  509.         }

  510.         

  511.         if (draw_radial_fan && with_fan) {

  512.             // 5015 fan mockup

  513.             %color("gray")

  514.             translate([-(x_carriage_width - sensor_mount_width) / 2 + 4, sensor_mount_wall, 0])

  515.                 rotate([90, 0, 180])

  516.                 fan_5015();

  517.         }

  518.     }

  519. }

  520. 

  521. module fan_5015() {

  522.     // adapted from https://www.thingiverse.com/thing:1383913

  523.     $fn=30;

  524.     difference() {

  525.         union() {

  526.             hull() {

  527.                 translate([0.5, 0, 0]) cylinder(d=50, h=15);

  528.                 translate([-1, 0, 0]) cylinder(d=50, h=15);

  529.             }

  530.             hull() {

  531.                 translate([-43/2, 38/2, 0]) cylinder(d=7, h=15);

  532.                 translate([43/2, -38/2, 0]) cylinder(d=7, h=15);

  533.             }

  534.             translate([-26, -26, 0]) cube([20,26,15]);

  535.         }

  536.         difference() {

  537.             union() {

  538.                 translate([-26+16+11,-2,1]) cylinder(d=32, h=15);

  539.                 translate([0,0,1]) hull(){

  540.                     translate([0.5, 0]) cylinder(d=48, h=13);

  541.                     translate([-1, 0]) cylinder(d=48, h=13);

  542.                 }

  543.                 translate([-25,-27,1]) cube([18,25,13]);

  544.             }

  545.             translate([-26+16+11,-2,1]) cylinder(d=24, h=15);

  546.         }

  547.         translate([-43/2, 38/2, -1]) cylinder(d=4.4, h=17);

  548.         translate([43/2, -38/2, -1]) cylinder(d=4.4, h=17);

  549.     }

  550. }

  551. 

  552. module universal_mount_plate() {

  553.     difference() {

  554.         cube([sensor_mount_width, sensor_mount_wall, x_carriage_wall]);

  555.         

  556.         translate([sensor_mount_width_add / 2, -1, x_carriage_wall / 2])

  557.             rotate([-90, 0, 0])

  558.             cylinder(d = 3.2, h = sensor_mount_wall + 2);

  559.         

  560.         translate([(universal_mount_hole_off * 2) + (sensor_mount_width_add / 2), -1, x_carriage_wall / 2])

  561.             rotate([-90, 0, 0])

  562.             cylinder(d = 3.2, h = sensor_mount_wall + 2);

  563.     }

  564. }

  565. 

  566. module sensor_mount() {

  567.     $fn = 30;

  568.     

  569.     color("yellow")

  570.     universal_mount_plate();

  571.     

  572.     color("yellow")

  573.     translate([sensor_mount_width / 2, -(sensor_dia + sensor_dia_add) / 2, -sensor_mount_height])

  574.     difference() {

  575.         hull() {

  576.             translate([-sensor_mount_width / 2, (sensor_dia + sensor_dia_add) / 2, 0])

  577.                 cube([sensor_mount_width, sensor_mount_wall, sensor_mount_height]);

  578.             

  579.             translate([0, sensor_mount_y_offset, 0])

  580.                 cylinder(d = sensor_dia + sensor_dia_add, h = sensor_mount_height);

  581.         }

  582.         

  583.         translate([0, sensor_mount_y_offset, -1])

  584.             cylinder(d = sensor_dia, h = sensor_mount_height + 2);

  585.     }

  586.     

  587.     if (draw_bed_sensor) {

  588.         // sensor mockup

  589.         %translate([sensor_mount_width / 2, -(sensor_dia + sensor_dia_add) / 2 + sensor_mount_y_offset, -22]) {

  590.             color("gray")

  591.             cylinder(d = 18.2, h = 55);

  592.             

  593.             color("orange")

  594.             translate([0, 0, -10])

  595.                 cylinder(d = 18.2, h = 10);

  596.         }

  597.     }

  598. }

  599. 

  600. module e3d_v6_triple_mount() {

  601.     if (draw_e3d_hotends)

  602.     translate([x_carriage_width / 2, x_carriage_length / 2, -e3d_v6_height + x_carriage_wall + e3d_v6_z_off]) {

  603.         

  604.         color("red")

  605.         %translate([-e3d_v6_dist_x / 2, e3d_v6_dist_y / 2, 0])

  606.             e3d_v6();

  607.         

  608.         color("yellow")

  609.         %translate([e3d_v6_dist_x / 2, e3d_v6_dist_y / 2, 0])

  610.             e3d_v6();

  611.         

  612.         color("blue")

  613.         %translate([0, (e3d_v6_dist_y / 2) - e3d_v6_dist_y, 0])

  614.             rotate([0, 0, 180])

  615.             e3d_v6();

  616.     }

  617.     

  618.     echo(m3_screw_len=e3d_clamp_length + (2 * e3d_clamp_b_length));

  619.     

  620.     // hotend clamp center piece

  621.     translate([(x_carriage_width - e3d_clamp_width) / 2, (x_carriage_length - e3d_clamp_length) / 2, x_carriage_wall])

  622.     difference() {

  623.         union() {

  624.             // center clamp part

  625.             color("magenta")

  626.             translate([-e3d_clamp_width_add, e3d_clamp_cut, 0])

  627.                 cube([e3d_clamp_width + (2 * e3d_clamp_width_add), e3d_clamp_length - (2 * e3d_clamp_cut), e3d_clamp_height]);

  628.             

  629.             // blue clamp

  630.             color("cyan")

  631.             translate([0, -e3d_clamp_b_length, 0])

  632.                 cube([e3d_clamp_width, e3d_clamp_b_length - e3d_clamp_cut, e3d_clamp_height]);

  633.             

  634.             // red & yellow clamp

  635.             color("cyan")

  636.             translate([0, e3d_clamp_length + e3d_clamp_cut, 0])

  637.                 cube([e3d_clamp_width, e3d_clamp_b_length - e3d_clamp_cut, e3d_clamp_height]);

  638.         }

  639.         

  640.         // cable holes

  641.         translate([9.5, 6, -1])

  642.             cylinder(d = 7, h = e3d_clamp_height + 2);

  643.         translate([e3d_clamp_width - 9.5, 6, -1])

  644.             cylinder(d = 7, h = e3d_clamp_height + 2);

  645.         

  646.         // left clamping screw

  647.         translate([e3d_clamp_hole_off, -e3d_clamp_b_length - 1, e3d_clamp_height / 2])

  648.             rotate([-90, 0, 0])

  649.             cylinder(d = e3d_hole_dia, h = x_cutout_width + 2);

  650.         // right clamping screw

  651.         translate([x_cutout_width - e3d_clamp_hole_off, -e3d_clamp_b_length - 1, e3d_clamp_height / 2])

  652.             rotate([-90, 0, 0])

  653.             cylinder(d = e3d_hole_dia, h = x_cutout_width + 2);

  654.         

  655.         // left mounting screw

  656.         translate([-5, e3d_clamp_length / 2, -1])

  657.             cylinder(d = e3d_hole_dia, h = e3d_clamp_height + 2);

  658.         // right mounting screw

  659.         translate([e3d_clamp_width + e3d_clamp_width_add - 5, e3d_clamp_length / 2, -1])

  660.             cylinder(d = e3d_hole_dia, h = e3d_clamp_height + 2);

  661.         

  662.         // bottom mounting screw

  663.         translate([e3d_clamp_width / 2, -e3d_clamp_b_length + 3.5, -1])

  664.             cylinder(d = e3d_hole_dia, h = e3d_clamp_height + 2);

  665.         // top mounting screw

  666.         translate([e3d_clamp_width / 2, e3d_clamp_length + e3d_clamp_b_length - 3.5, -1])

  667.             cylinder(d = e3d_hole_dia, h = e3d_clamp_height + 2);

  668.         

  669.         // red e3d clamp cutout

  670.         translate([(e3d_clamp_width - e3d_v6_dist_x) / 2, e3d_clamp_length, -1])

  671.             cylinder(d = e3d_upper_small_dia + e3d_clamp_dia_add, h = e3d_clamp_height + 2);

  672.         

  673.         // yellow e3d clamp cutout

  674.         translate([(e3d_clamp_width + e3d_v6_dist_x) / 2, e3d_clamp_length, -1])

  675.             cylinder(d = e3d_upper_small_dia + e3d_clamp_dia_add, h = e3d_clamp_height + 2);

  676.         

  677.         // blue e3d clamp cutout

  678.         translate([e3d_clamp_width / 2, 0, -1])

  679.             cylinder(d = e3d_upper_small_dia + e3d_clamp_dia_add, h = e3d_clamp_height + 2);

  680.     }

  681.     

  682.     e3d_v6_triple_fan();

  683. }

  684. 

  685. module simple_fan() {

  686.     difference() {

  687.         cube([fan_height, fan_width, fan_width]);

  688.         translate([-1, fan_width / 2, fan_width / 2])

  689.             rotate([0, 90, 0])

  690.             cylinder(d = fan_width - 5, h = fan_height + 2);

  691.     }

  692. }

  693. 

  694. module fan_mount() {

  695.     difference() {

  696.         cube([fan_mount_wall, fan_width, fan_width + x_carriage_wall]);

  697.         

  698.         translate([-1, fan_mount_inset, fan_mount_inset])

  699.             cube([fan_mount_wall + 2, fan_width - (fan_mount_inset * 2), fan_width - (fan_mount_inset * 2)]);

  700.     }

  701. }

  702. 

  703. module e3d_v6_triple_fan() {

  704.     difference() {

  705.         union() {

  706.             translate([x_carriage_width, (x_carriage_length - fan_width) / 2, -fan_width]) {

  707.                 // hotend cooling fan on right side

  708.                 %translate([fan_mount_wall, 0, 0])

  709.                     simple_fan();

  710.                 

  711.                 // hotend cooling fan on left side

  712.                 %translate([-x_carriage_width - fan_height - fan_mount_wall, 0, 0])

  713.                     simple_fan();

  714.                 

  715.                 // fan mount on right side

  716.                 color("orange")

  717.                 fan_mount();

  718.                 

  719.                 // fan mount on left side

  720.                 color("orange")

  721.                 translate([-x_carriage_width - fan_mount_wall, 0, 0])

  722.                     fan_mount();

  723.             }

  724.             

  725.             // fan duct

  726.             if (draw_e3d_fan_duct) {

  727.                 color("orange")

  728.                 translate([x_carriage_width, (x_carriage_length - fan_width) / 2, 0])

  729.                 difference() {

  730.                     fan_duct(fan_width, 0);

  731.                     fan_duct(fan_width, 3);

  732.                 }

  733.             }

  734.         }

  735.         

  736.         // mounting holes on carriage

  737.         translate([-fan_mount_wall - fan_height - 1, x_carriage_length / 2, x_carriage_wall / 2])

  738.         for (i = [-1 : 2 : 1]) {

  739.             translate([0, i * ((fan_width / 2) - fan_mount_hole_inset), 0])

  740.                 rotate([0, 90, 0])

  741.                 cylinder(d = 3.2, h = x_carriage_width + (2 * (fan_height + fan_mount_wall + 1)));

  742.         }

  743.         

  744.         // fan holes (self-tapping)

  745.         translate([-fan_mount_wall - fan_height - 1, x_carriage_length / 2, -fan_width / 2])

  746.         for (i = [-1 : 2 : 1]) {

  747.             for (j = [-1 : 2 : 1]) {

  748.                 translate([0, i * ((fan_width / 2) - fan_hole_off), j * ((fan_width / 2) - fan_hole_off)])

  749.                     rotate([0, 90, 0])

  750.                     cylinder(d = 2.7, h = fan_height + fan_mount_wall + 5);

  751.                 translate([fan_height + fan_mount_wall + x_carriage_width - 3, i * ((fan_width / 2) - fan_hole_off), j * ((fan_width / 2) - fan_hole_off)])

  752.                     rotate([0, 90, 0])

  753.                     cylinder(d = 2.7, h = fan_height + fan_mount_wall + 5);

  754.             }

  755.         }

  756.     }

  757. }

  758. 

  759. module fan_duct(fan_width, diff) {

  760.     size = fan_width - diff;

  761.     off = (fan_width - size) / 2;

  762.     difference() {

  763.         translate([0, off, -size - off]) {

  764.             hull() {

  765.                 cube([1 + (diff / 10), size, size]);

  766.                 translate([-10, 0, 10])

  767.                     cube([1, size, size - 11]);

  768.             }

  769.             hull() {

  770.                 translate([-10, 0, 10])

  771.                     cube([1, size, size - 11]);

  772.                 translate([-15, -6, 17])

  773.                     cube([1, size + 12, size - 18]);

  774.             }

  775.             hull() {

  776.                 translate([-15, -6, 17])

  777.                     cube([1, size + 12, size - 18]);

  778.                 translate([-25, -6, 17])

  779.                     cube([1, size + 12, size - 20]);

  780.             }

  781.             hull() {

  782.                 translate([-25, -6, 17])

  783.                     cube([1, size + 12, size - 20]);

  784.                 translate([-55, -6, 17])

  785.                     cube([1, size + 12, size - 20]);

  786.             }

  787.             hull() {

  788.                 translate([-55, -6, 17])

  789.                     cube([1, size + 12, size - 20]);

  790.                 translate([-70, 15 - 10, 17])

  791.                         cube([1, size - 12 + 10, size - 20]);

  792.             }

  793.             hull() {

  794.                 translate([-70, 15 - 10, 17])

  795.                         cube([1, size - 12 + 10, size - 20]);

  796.                 

  797.                 translate([-80 - (off / 10), 0, 0])

  798.                     cube([1 + (off / 10), size, size]);

  799.             }

  800.         }

  801.         

  802.         translate([-26, 29.5, -size - 20])

  803.             cylinder(d = e3d_max_dia + 3 - diff, h = 100);

  804.         translate([-26 - e3d_v6_dist_x, 29.5, -size - 20])

  805.             cylinder(d = e3d_max_dia + 3 - diff, h = 100);

  806.         translate([-26 - e3d_v6_dist_x / 2, 29.5 - e3d_v6_dist_y, -size - 20])

  807.             cylinder(d = e3d_max_dia + 3 - diff, h = 100);

  808.     }

  809. }

  810. 

  811. if (draw_y_carriage) {

  812.     translate([(lm8uu_outer + lm8uu_dia_add) / 2 + y_carriage_rail_support, 0, 0])

  813.     rotate([-90, 0, 0]) {

  814.         // y-bearings

  815.         %translate([0, 0, y_carriage_rail_support])

  816.             lm8uu();

  817.         %translate([0, 0, y_carriage_length - lm8uu_height - y_carriage_rail_support])

  818.             lm8uu();

  819.     }

  820. 

  821.     // x-rails

  822.     for (i = [y_carriage_len_add : x_rail_dist : x_rail_dist + y_carriage_len_add]) {

  823.         %translate([y_carriage_width + 1, i, 0])

  824.             rotate([0, 90, 0])

  825.             cylinder(d = lm8uu_inner, h = draw_rail_len);

  826.     }

  827. 

  828.     y_carriage(idler_a_blue, idler_b_blue);

  829. 

  830.     translate([(2 * y_carriage_width + y_carriage_block_width) + draw_rail_len -5, y_carriage_length, 0])

  831.         rotate([0, 0, 180])

  832.         y_carriage(idler_a_red, idler_b_red);

  833.     

  834.     if (draw_x_carriage) {

  835.         translate([y_carriage_width + y_carriage_block_width + ((draw_rail_len - x_carriage_width) / 2), y_carriage_len_add - x_carriage_len_add, 0])

  836.             x_carriage();

  837.     }

  838. } else if (draw_x_carriage) {

  839.     x_carriage();

  840. }