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3d-print-designs
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My self-made 3D-printable designs, mainly in OpenSCAD
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3d-print-designs/Solder Holder/Solder Holder.scad

Solder Holder.scad 4.4KB
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  1. /*

  2.  * Created by:

  3.  * Thomas Buck <xythobuz@xythobuz.de> in April 2016

  4.  *

  5.  * Licensed under the Creative Commons - Attribution license.

  6.  */

  7. 

  8. // -----------------------------------------------------------

  9. 

  10. spoolWidth = 65; // [20:70]

  11. spoolDiameter = 65; // [20:70]

  12. spoolHoleDiameter = 10; // [10:30]

  13. 

  14. part = "base"; // [base, holder]

  15. cutout = "true"; // [true, false]

  16. 

  17. // -----------------------------------------------------------

  18. 

  19. /* [Hidden] */

  20. 

  21. armWidth = 10;

  22. wallSize = 4;

  23. baseHeight = 2;

  24. bottomGapDivisor = 10; // spoolDiameter / bottomGapDivisor

  25. holderHeightDivisor = 2; // spoolHoleDiameter / holderHeightDivisor

  26. holderWidth = 2.5;

  27. holderExtraLength = 2;

  28. extraGap = 0.2;

  29. feedWidth = 14;

  30. feedHeight = 8;

  31. feedDiameter = 2;

  32. 

  33. $fn = 15;

  34. 

  35. // -----------------------------------------------------------

  36. 

  37. module spool() {

  38.     translate([0, spoolDiameter / 2, spoolDiameter / 2])

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

  40.     difference() {

  41.         cylinder(d = spoolDiameter, h = spoolWidth);

  42.         

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

  44.             cylinder(d = spoolHoleDiameter, h = spoolWidth + 2);

  45.     }

  46. }

  47. 

  48. module arm() {

  49.     difference() {

  50.         cube([wallSize, armWidth, (spoolDiameter / bottomGapDivisor) + ((spoolDiameter + spoolHoleDiameter) / 2)]);

  51.         translate([-1, (armWidth - holderWidth) / 2, (spoolDiameter / bottomGapDivisor) + ((spoolDiameter + spoolHoleDiameter) / 2) - (spoolHoleDiameter / holderHeightDivisor)])

  52.             cube([wallSize + 2, holderWidth + extraGap, (spoolHoleDiameter / holderHeightDivisor) + 1]);

  53.     }

  54. }

  55. 

  56. module feed() {

  57.     difference() {

  58.         cube([feedWidth, wallSize, feedHeight]);

  59.         translate([feedWidth / 2, wallSize + 1, feedHeight / 2])

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

  61.             cylinder(d = feedDiameter, h = wallSize + 2);

  62.     }

  63. }

  64. 

  65. module base() {

  66.     difference() {

  67.         union() {

  68.             cube([spoolWidth + (2 * wallSize), spoolDiameter + wallSize, baseHeight]);

  69.             translate([0, wallSize + ((spoolDiameter - armWidth) / 2), baseHeight])

  70.                 arm();

  71.             translate([spoolWidth + wallSize, wallSize + ((spoolDiameter - armWidth) / 2), baseHeight])

  72.                 arm();

  73.             translate([wallSize + (spoolWidth - feedWidth) / 2, 0, baseHeight])

  74.                 feed();

  75.         }

  76.         

  77.         if (cutout == "true") {

  78.             translate([wallSize * 2, wallSize * 2, -1])

  79.                 cube([spoolWidth - (wallSize * 2), spoolDiameter - (wallSize * 3), baseHeight + 2]);

  80.         }

  81.     }

  82.     

  83.     if (cutout == "true") {

  84.         translate([wallSize * 2, wallSize * 2, 0])

  85.             rotate([0, 0, atan((spoolDiameter - (wallSize * 3)) / (spoolWidth - (wallSize * 2)))])

  86.             translate([0, -wallSize, 0])

  87.             cube([sqrt(((spoolWidth - (wallSize * 2)) * (spoolWidth - (wallSize * 2))) + ((spoolDiameter - (wallSize * 3)) * (spoolDiameter - (wallSize * 3)))), wallSize * 2, baseHeight]);

  88.         

  89.         translate([wallSize * 2 + (spoolWidth - (wallSize * 2)), wallSize * 2, 0])

  90.             rotate([0, 0, 180 - atan((spoolDiameter - (wallSize * 3)) / (spoolWidth - (wallSize * 2)))])

  91.             translate([0, -wallSize, 0])

  92.             cube([sqrt(((spoolWidth - (wallSize * 2)) * (spoolWidth - (wallSize * 2))) + ((spoolDiameter - (wallSize * 3)) * (spoolDiameter - (wallSize * 3)))), wallSize * 2, baseHeight]);

  93.     }

  94. }

  95. 

  96. module holder() {

  97.     translate([0, wallSize + ((spoolDiameter - armWidth) / 2) + (armWidth - holderWidth) / 2 + (extraGap / 2), baseHeight + (spoolDiameter / bottomGapDivisor) + ((spoolDiameter + spoolHoleDiameter) / 2) - (spoolHoleDiameter / holderHeightDivisor)])

  98.     union() {

  99.         translate([wallSize + (holderExtraLength / 2), holderWidth / 2, (spoolHoleDiameter / holderHeightDivisor) / 2])

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

  101.             cylinder(d = spoolHoleDiameter / holderHeightDivisor, h = spoolWidth - holderExtraLength);

  102.     

  103.         cube([wallSize + (holderExtraLength / 2), holderWidth, spoolHoleDiameter / holderHeightDivisor]);

  104.     

  105.         translate([wallSize + (holderExtraLength / 2) + spoolWidth - holderExtraLength, 0, 0])

  106.             cube([wallSize + (holderExtraLength / 2), holderWidth, spoolHoleDiameter / holderHeightDivisor]);

  107.     }

  108. }

  109. 

  110. // -----------------------------------------------------------

  111. 

  112. %translate([wallSize, wallSize, baseHeight + (spoolDiameter / bottomGapDivisor)])

  113.     spool();

  114. 

  115. if (part == "base") {

  116.     base();

  117. } else {

  118.     %base();

  119. }

  120. 

  121. if (part == "holder") {

  122.     holder();

  123. } else {

  124.     %holder();

  125. }