parametrize screw/hex nut types

cases/rack2/mainRail.scad

@@ -1,121 +1,121 @@
 include <./config.scad>
 include <./screws.scad>
 
-// Distance between the middle of a screw mount and the rail's vertical edges
-railScrewHoleToInnerEdge = 5;
-railScrewHoleToOuterEdge = 5;
-
-// Distance between the midpoint of the rail screw holes.
-rackMountScrewWidth = maxUnitWidth + 2*railScrewHoleToInnerEdge;
-
-railFrontThickness = 6; // Make sure that the nuts for the chosen screw type can slot within the front face
-railSideMountThickness = 2.5;
-railOtherThickness = 2.5;
-
-
-// Extra spacing for the rack unit screws.
-frontScrewSpacing = 8;
-
 /* Small horizontal planes at the top and bottom of the main rails. Used so we can fasten the rail to the frame
    Note that this value is also used for a depression at the bottom/top of the frame for aligning the rail */
 railFootThickness = 3;
 
-railTotalHeight = screwDiff * (numRailScrews+1) + 2*railFootThickness;
-
-
-sideSupportExtraSpace = 2;
-sideSupportScrewHoleToFrontEdge = 5;
-sideSupportScrewHoleToBackEdge = 4.5;
-sideSupportDepth = sideSupportScrewHoleToBackEdge + sideSupportScrewHoleToFrontEdge;
-
-frontFaceWidth = railScrewHoleToInnerEdge + railScrewHoleToOuterEdge;
-
-
-module _frontRailSegment() {
-    difference() {
-        cube(size=[frontFaceWidth, railFrontThickness, railTotalHeight]);
-
-        for (i=[1:numRailScrews]) {
-            translate(v=[railScrewHoleToOuterEdge, railFrontThickness/2, i*screwDiff + railFootThickness])
-                rotate(a=[90,0,0])
-                    m4HexNutPocketNegative();
-        }
-    }
-}
-
-module _connectingLBracketRailSegment() {
-
-    difference() {
-        cube(size = [railOtherThickness, frontScrewSpacing + railOtherThickness, railTotalHeight]);
-
-        union () {
-            translate(v=[0,4,railFootThickness + screwDiff / 2])
-                rotate(a=[0,90,0])
-                    cylinder(r=m3RadiusSlacked, h = 10, $fn=32, center=true);
-
-            translate(v=[0,4,railTotalHeight-(railFootThickness + screwDiff / 2)])
-                rotate(a=[0,90,0])
-                    cylinder(r=m3RadiusSlacked, h = 10, $fn=32, center=true);
-        }
-    }
-
-    translate(v=[0, frontScrewSpacing + railOtherThickness, 0])
-    rotate(a=[0,0,270])
-        cube(size=[railOtherThickness, frontFaceWidth - sideSupportExtraSpace, railTotalHeight]);
-}
-
-
-module _sideSupportSegment() {
-
-    difference() {
-        cube(size=[sideSupportDepth, railSideMountThickness, railTotalHeight]);
-
-        for (i=[1:numRailScrews]) {
-            translate(v=[sideSupportScrewHoleToFrontEdge, railFrontThickness/2, i*screwDiff + railFootThickness])
-            rotate(a=[90,0,0])
-                    cylinder(r=m4RadiusSlacked, h=10, $fn=32);
-        }
-    }
-
-}
-
-module _railFeet() {
-
-    difference() {
-        cube(size = [frontFaceWidth - sideSupportExtraSpace, sideSupportDepth, railFootThickness]);
-
-        hull() {
-            translate(v = [1.5, 5, 0])
-                cylinder(r = m3RadiusSlacked, h = 10, $fn = 32);
-
-            translate(v = [0, 5, 0])
-            cube(size=[0.1, m3RadiusSlacked*2, 10], center=true);
-        }
-    }
-}
-
-module mainRail() {
-    union() {
-
-        _frontRailSegment();
-
-        translate(v = [0, railFrontThickness, 0])
-            _connectingLBracketRailSegment();
-
-        translate(v = [frontFaceWidth-sideSupportExtraSpace, railFrontThickness + railOtherThickness + frontScrewSpacing, 0])
-            rotate(a = [0, 0, 90])
-                _sideSupportSegment();
-
-
-        translate(v = [0, railFrontThickness + railOtherThickness + frontScrewSpacing, 0]) {
-            _railFeet();
-
-            translate(v = [0, 0, railTotalHeight-railFootThickness])
-                _railFeet();
-        }
-    }
-}
+railTotalHeight = screwDiff * (numRailScrews + 1) + 2 * railFootThickness;
 
 mainRail();
-
 echo("Total Rail Height = ", railTotalHeight);
+
+module mainRail() {
+
+  // Distance between the middle of a screw mount and the rail's vertical edges
+
+  railScrewHoleToInnerEdge = 5;
+  railScrewHoleToOuterEdge = 5;
+
+  // Distance between the midpoint of the rail screw holes.
+  rackMountScrewWidth = maxUnitWidth + 2 * railScrewHoleToInnerEdge;
+
+  railFrontThickness = 6; // Make sure that the nuts for the chosen screw type can slot within the front face
+  railSideMountThickness = 2.5;
+  railOtherThickness = 2.5;
+
+
+  // Extra spacing for the rack unit screws.
+  frontScrewSpacing = 8;
+
+  sideSupportExtraSpace = 2;
+  sideSupportScrewHoleToFrontEdge = 5;
+  sideSupportScrewHoleToBackEdge = 4.5;
+  sideSupportDepth = sideSupportScrewHoleToBackEdge + sideSupportScrewHoleToFrontEdge;
+
+  frontFaceWidth = railScrewHoleToInnerEdge + railScrewHoleToOuterEdge;
+
+  union() {
+    _frontRailSegment();
+
+    translate(v = [0, railFrontThickness, 0])
+    _connectingLBracketRailSegment();
+
+    translate(v = [frontFaceWidth - sideSupportExtraSpace, railFrontThickness + railOtherThickness + frontScrewSpacing,
+      0])
+    rotate(a = [0, 0, 90])
+    _sideSupportSegment();
+
+
+    translate(v = [0, railFrontThickness + railOtherThickness + frontScrewSpacing, 0]) {
+      _railFeet();
+
+      translate(v = [0, 0, railTotalHeight - railFootThickness])
+      _railFeet();
+    }
+  }
+
+  module _frontRailSegment() {
+    difference() {
+      cube(size = [frontFaceWidth, railFrontThickness, railTotalHeight]);
+
+      for (i = [1:numRailScrews]) {
+        translate(v = [railScrewHoleToOuterEdge, railFrontThickness / 2, i * screwDiff + railFootThickness])
+        rotate(a = [90, 0, 0])
+        hexNutPocket_N(mainRailScrewType);
+      }
+    }
+  }
+
+  module _connectingLBracketRailSegment() {
+
+    difference() {
+      cube(size = [railOtherThickness, frontScrewSpacing + railOtherThickness, railTotalHeight]);
+
+      union() {
+        translate(v = [0, 4, railFootThickness + screwDiff / 2])
+        rotate(a = [0, 90, 0])
+        cylinder(r = screwRadiusSlacked(rackFrameScrewType), h = 10, $fn = 32, center = true);
+
+        translate(v = [0, 4, railTotalHeight - (railFootThickness + screwDiff / 2)])
+        rotate(a = [0, 90, 0])
+        cylinder(r = screwRadiusSlacked(rackFrameScrewType), h = 10, $fn = 32, center = true);
+      }
+    }
+
+    translate(v = [0, frontScrewSpacing + railOtherThickness, 0])
+    rotate(a = [0, 0, 270])
+    cube(size = [railOtherThickness, frontFaceWidth - sideSupportExtraSpace, railTotalHeight]);
+  }
+
+
+  module _sideSupportSegment() {
+
+    difference() {
+      cube(size = [sideSupportDepth, railSideMountThickness, railTotalHeight]);
+
+      for (i = [1:numRailScrews]) {
+        translate(v = [sideSupportScrewHoleToFrontEdge, railFrontThickness / 2, i * screwDiff + railFootThickness])
+        rotate(a = [90, 0, 0])
+        cylinder(r = screwRadiusSlacked(mainRailSideMountScrewType), h = 10, $fn = 32);
+      }
+    }
+
+  }
+
+  module _railFeet() {
+
+    difference() {
+      cube(size = [frontFaceWidth - sideSupportExtraSpace, sideSupportDepth, railFootThickness]);
+
+      hull() {
+        translate(v = [1.5, 5, 0])
+        cylinder(r = screwRadiusSlacked(rackFrameScrewType), h = 10, $fn = 32);
+
+        translate(v = [0, 5, 0])
+        cube(size = [0.1, screwRadiusSlacked(rackFrameScrewType) * 2, 10], center = true);
+      }
+    }
+  }
+
+}