commit Giles' regular shapes and metric fasteners

metric_fastners.scad

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+/*
+ *  OpenSCAD Metric Fastners Library (www.openscad.org)
+ *  Copyright (C) 2010-2011  Giles Bathgate
+ *
+ *  This program is free software; you can redistribute it and/or modify
+ *  it under the terms of the GNU General Public License as published by
+ *  the Free Software Foundation; either version 3 of the License,
+ *  LGPL version 2.1, or (at your option) any later version of the GPL.
+ *
+ *  This program is distributed in the hope that it will be useful,
+ *  but WITHOUT ANY WARRANTY; without even the implied warranty of
+ *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ *  GNU General Public License for more details.
+ *
+ *  You should have received a copy of the GNU General Public License
+ *  along with this program; if not, write to the Free Software
+ *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+ *
+*/
+
+$fn=50;
+apply_chamfer=true;
+
+module cap_bolt(dia,len)
+{
+	e=1.5*dia;
+	h1=1.25*dia;
+	cylinder(r=dia/2,h=len);
+	translate([0,0,-h1]) cylinder(r=e/2,h=h1);
+}
+
+module csk_bolt(dia,len)
+{
+	h1=0.6*dia;
+	h2=len-h1;
+	cylinder(r=dia/2,h=h2);
+	cylinder(r1=dia,r2=dia/2,h=h1);
+}
+
+module washer(dia)
+{
+	t=0.1*dia;
+	difference()
+	{
+		cylinder(r=dia,h=t);
+		translate([0,0,-t/2])cylinder(r=dia/2,h=t*2);
+	}
+}
+
+module flat_nut(dia)
+{
+	m=0.8*dia;
+	e=1.8*dia;
+	c=0.2*dia;
+	difference()
+	{
+		cylinder(r=e/2,h=m,$fn=6);
+		translate([0,0,-m/2])cylinder(r=dia/2,h=m*2);
+		if(apply_chamfer)
+		    translate([0,0,c])cylinder_chamfer(e/2,c);
+	}
+}
+
+module bolt(dia,len)
+{
+	e=1.8*dia;
+	k=0.7*dia;
+	c=0.2*dia;
+	difference()
+	{
+		cylinder(r=e/2,h=k,$fn=6);
+		if(apply_chamfer)
+		    translate([0,0,c])cylinder_chamfer(e/2,c);
+	}
+
+	cylinder(r=dia/2,h=len);
+
+}
+
+module cylinder_chamfer(r1,r2)
+{
+	t=r1-r2;
+	p=r2*2;
+	rotate_extrude()
+	difference()
+	{
+		translate([t,-p])square([p,p]);
+		translate([t,0])circle(r2);
+	}
+}
+
+module chamfer(len,r)
+{
+	p=r*2;
+	linear_extrude(height=len)
+	difference()
+	{
+		square([p,p]);
+		circle(r);
+	}
+}
+
+union()
+{
+//csk_bolt(3,14);
+//washer(3);
+//flat_nut(3);
+//bolt(4,14);
+//cylinder_chamfer(8,1);
+//chamfer(5,1);
+}

regular_shapes.scad

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+/*
+ *  OpenSCAD Shapes Library (www.openscad.org)
+ *  Copyright (C) 2010-2011  Giles Bathgate
+ *
+ *  This program is free software; you can redistribute it and/or modify
+ *  it under the terms of the GNU General Public License as published by
+ *  the Free Software Foundation; either version 3 of the License,
+ *  LGPL version 2.1, or (at your option) any later version of the GPL.
+ *
+ *  This program is distributed in the hope that it will be useful,
+ *  but WITHOUT ANY WARRANTY; without even the implied warranty of
+ *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
+ *  GNU General Public License for more details.
+ *
+ *  You should have received a copy of the GNU General Public License
+ *  along with this program; if not, write to the Free Software
+ *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+ *
+*/
+
+// 2D regular shapes
+
+module triangle(radius)
+{
+  o=radius/2;		//equivalent to radius*sin(30)
+  a=radius*sqrt(3)/2;	//equivalent to radius*cos(30)
+  polygon(points=[[-a,-o],[0,radius],[a,-o]],paths=[[0,1,2]]);
+}
+
+module reg_polygon(sides,radius)
+{
+  function dia(r) = sqrt(pow(r*2,2)/2);  //sqrt(r*2^2/2) if only we had an exponention op
+  if(sides<2) square([radius,0]);
+  if(sides==3) triangle(radius);
+  if(sides==4) square([dia(radius),dia(radius)],center=true);
+  if(sides>4) circle(r=radius,$fn=sides);
+}
+
+module pentagon(radius)
+{
+  reg_polygon(5,radius);
+}
+
+module hexagon(radius)
+{
+  reg_polygon(6,radius);
+}
+
+module heptagon(radius)
+{
+  reg_polygon(7,radius);
+}
+
+module octagon(radius)
+{
+  reg_polygon(8,radius);
+}
+
+module nonagon(radius)
+{
+  reg_polygon(9,radius);
+}
+
+module decagon(radius)
+{
+  reg_polygon(10,radius);
+}
+
+module hendecagon(radius)
+{
+  reg_polygon(11,radius);
+}
+
+module dodecagon(radius)
+{
+  reg_polygon(12,radius);
+}
+
+//3D regular shapes
+
+module cone(height, radius, center = false) 
+{
+  cylinder(height, radius, 0, center);
+}
+
+module oval_prism(height, rx, ry, center = false) 
+{
+  scale([1, rx/ry, 1]) cylinder(h=height, r=ry, center=center);
+}
+
+module oval_tube(height, rx, ry, wall, center = false) 
+{
+  difference() {
+    scale([1, ry/rx, 1]) cylinder(h=height, r=rx, center=center);
+    translate([0,0,-height/2]) scale([(rx-wall)/rx, (ry-wall)/rx, 2]) cylinder(h=height, r=rx, center=center);
+  }
+}
+
+module cylinder_tube(height, radius, wall, center = false) 
+{
+    tubify(radius,wall)
+    cylinder(h=height, r=radius, center=center);
+}
+
+//Tubifies any regular prism
+module tubify(radius,wall)
+{
+  difference()
+  {
+    child(0);
+    translate([0, 0, -0.1]) scale([(radius-wall)/radius, (radius-wall)/radius, 2]) child(0);
+  }
+}
+
+module triangle_prism(height,radius)
+{
+  linear_extrude(height=height) triangle(radius);
+}
+
+module triangle_tube(height,radius,wall)
+{
+   tubify(radius,wall) triangle_prism(height,radius);
+}
+
+module pentagon_prism(height,radius)
+{
+  linear_extrude(height=height) pentagon(radius);
+}
+
+module pentagon_tube(height,radius,wall)
+{
+ tubify(radius,wall) pentagon_prism(height,radius);	
+}
+
+module hexagon_prism(height,radius) 
+{
+  linear_extrude(height=height) hexagon(radius);
+}
+
+module heptagon_prism(height,radius) 
+{
+  linear_extrude(height=height) heptagon(radius);
+}
+
+module octagon_prism(height,radius) 
+{
+  linear_extrude(height=height) octagon(radius);  
+}
+
+module nonagon_prism(height,radius)
+{
+  linear_extrude(height=height) nonagon(radius); 
+}
+
+module decagon_prism(height,radius)
+{
+  linear_extrude(height=height) decagon(radius); 
+}
+
+module hendecagon_prism(height,radius)
+{
+  linear_extrude(height=height) hendecagon(radius); 
+}
+
+module dodecagon_prism(height,radius)
+{
+  linear_extrude(height=height) dodecagon(radius); 
+}
+
+module torus(outerRadius, innerRadius)
+{
+  r=(outerRadius-innerRadius)/2;
+  rotate_extrude() translate([innerRadius+r,0,0]) circle(r);	
+}
+
+module triangle_pyramid(radius)
+{
+  o=radius/2;		//equivalent to radius*sin(30)
+  a=radius*sqrt(3)/2;	//equivalent to radius*cos(30)
+  polyhedron(points=[[-a,-o,-o],[a,-o,-o],[0,radius,-o],[0,0,radius]],triangles=[[0,1,2],[1,2,3],[0,1,3],[0,2,3]]);
+}
+
+module square_pyramid(width,height,depth)
+{
+  w=width/2;
+  h=height/2;
+  polyhedron(points=[[-w,-h,0],[-w,h,0],[w,h,0],[w,-h,0],[0,0,depth]],triangles=[[0,1,2],[0,1,4],[0,1,3],[0,2,3]]);
+}