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m8.scad
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m8.scad
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// ISO Metric Thread Implementation
// Trevor Moseley
// 20/04/2014
// For thread dimensions see
// http://en.wikipedia.org/wiki/File:ISO_and_UTS_Thread_Dimensions.svg
$fn=30;
WrenchSizes=0; // =0= Rolson sizes, =1=Fairbury sizes
//--demo functions--------------------------------------------------------------
hex_bolt(8,15); // make an M10 x 16 ISO bolt
//hex_nut(10); // make an M10 ISO nut
//hex_bolt(8,16); // make an M8 x 16 ISO bolt
//hex_nut(8); // make an M8 ISO nut
//hex_bolt(6,12); // make an M6 x 12 ISO bolt
//hex_nut(6); // make an M6 ISO nut
//thread_out(8,16); // make an M8 x 16 ISO thread
//thread_out_centre(8,16); // make a centre for an M8 x 16 ISO thread
//thread_out_pitch(8,16,1.0); // make an M8 x 16 thread with 1 mm pitch
//thread_out_centre_pitch(8,16,0.5); // make the centre for an M8 x 16 thread with 1 mm pitch
//thread_in(8,10); // make an M8 x 10 ISO thread
//thread_in_ring(8,10,2); // make a ring to enclose an M8 x 10 ISO thread with thickness 2 mm
//thread_in_pitch(8,10,1.0); // make an M8 x 10 thread with 1mm pitch
//--pitch-----------------------------------------------------------------------
// function for ISO coarse thread pitch (these are specified by ISO)
function get_coarse_pitch(dia) = lookup(dia, [
[1,0.25],[1.2,0.25],[1.4,0.3],[1.6,0.35],[1.8,0.35],[2,0.4],[2.5,0.45],[3,0.5],[3.5,0.6],[4,0.7],[5,0.8],[6,1],[7,1],[8,1.25],[10,1.5],[12,1.75],[14,2],[16,2],[18,2.5],[20,2.5],[22,2.5],[24,3],[27,3],[30,3.5],[33,3.5],[36,4],[39,4],[42,4.5],[45,4.5],[48,5],[52,5],[56,5.5],[60,5.5],[64,6],[78,5]]);
//--nut dims--------------------------------------------------------------------
// these are NOT specified by ISO
// support is provided for Rolson or Fairbury sizes, see WrenchSizes above
// function for Rolson hex nut diameter from thread size
function rolson_hex_nut_dia(dia) = lookup(dia, [
[3,6.4],[4,8.1],[5,9.2],[6,11.5],[8,16.0],[10,19.6],[12,22.1],[16,27.7],[20,34.6],[24,41.6],[30,53.1],[36,63.5]]);
// function for Rolson hex nut height from thread size
function rolson_hex_nut_hi(dia) = lookup(dia, [
[3,2.4],[4,3.2],[5,4],[6,3],[8,5],[10,5],[12,10],[16,13],[20,16],[24,19],[30,24],[36,29]]);
// function for Fairbury hex nut diameter from thread size
function fairbury_hex_nut_dia(dia) = lookup(dia, [
[3,6.0],[4,7.7],[5,8.8],[6,11.0],[8,14.4],[10,17.8],[12,20.0],[16,26.8],[20,33.0],[24,40.0],[30,50.9],[36,60.8]]);
// function for Fairbury hex nut height from thread size
function fairbury_hex_nut_hi(dia) = lookup(dia, [
[3,2.2],[4,3.0],[5,4.5],[6,5.0],[8,6.5],[10,8.1],[12,10.4],[16,14.2],[20,17],[24,20.3],[30,24.4],[36,29.5]]);
//--bolt dims-------------------------------------------------------------------
// these are NOT specified by ISO
// support is provided for Rolson or Fairbury sizes, see WrenchSizes above
// function for Rolson hex bolt head diameter from thread size
function rolson_hex_bolt_dia(dia) = lookup(dia, [
[3,6.4],[4,8.1],[5,9.2],[6,11.5],[8,14.0],[10,16],[12,22.1],[16,27.7],[20,34.6],[24,41.6],[30,53.1],[36,63.5]]);
// function for Rolson hex bolt head height from thread size
function rolson_hex_bolt_hi(dia) = lookup(dia, [
[3,2.4],[4,3.2],[5,4],[6,3.5],[8,4.5],[10,5],[12,10],[16,13],[20,16],[24,19],[30,24],[36,29]]);
// function for Fairbury hex bolt head diameter from thread size
function fairbury_hex_bolt_dia(dia) = lookup(dia, [
[3,6.4],[4,8.1],[5,8.8],[6,11.1],[8,14.4],[10,17.8],[12,20.1],[16,26.8],[20,33.0],[24,39.6],[30,50.9],[36,60.8]]);
// function for Fairbury hex bolt head height from thread size
function fairbury_hex_bolt_hi(dia) = lookup(dia, [
[3,2.4],[4,3.2],[5,3.4],[6,3.9],[8,5.1],[10,6.2],[12,7.3],[16,9.7],[20,12.2],[24,14.6],[30,17.9],[36,21.7]]);
//--top level modules-----------------------------------------------------------
module hex_bolt(dia,hi)
// make an ISO bolt
// dia=diameter, 6=M6 etc.
// hi=length of threaded part of bolt
{
if (WrenchSizes==0) rolson_hex_bolt(dia,hi);
else fairbury_hex_bolt(dia,hi);
}
module hex_nut(dia,hi)
// make an ISO nut
// dia=diameter, 6=M6 etc.
{
if (WrenchSizes==0) rolson_hex_nut(dia);
else fairbury_hex_nut(dia);
}
module thread_out(dia,hi,thr=$fn)
// make an outside ISO thread (as used on a bolt)
// dia=diameter, 6=M6 etc
// hi=height, 10=make a 10mm long thread
// thr=thread quality, 10=make a thread with 10 segments per turn
{
p = get_coarse_pitch(dia);
thread_out_pitch(dia,hi,p,thr);
}
module thread_in(dia,hi,thr=$fn)
// make an inside thread (as used on a nut)
// dia = diameter, 6=M6 etc
// hi = height, 10=make a 10mm long thread
// thr = thread quality, 10=make a thread with 10 segments per turn
{
p = get_coarse_pitch(dia);
thread_in_pitch(dia,hi,p,thr);
}
module thread_out_pitch(dia,hi,p,thr=$fn)
// make an outside thread (as used on a bolt) with supplied pitch
// dia=diameter, 6=M6 etc
// hi=height, 10=make a 10mm long thread
// p=pitch
// thr=thread quality, 10=make a thread with 10 segments per turn
{
h=(cos(30)*p)/8;
Rmin=(dia/2)-(5*h); // as wiki Dmin
s=360/thr; // length of segment in degrees
t1=(hi-p)/p; // number of full turns
r=t1%1.0; // length remaining (not full turn)
t=t1-r; // integer number of full turns
n=r/(p/thr); // number of segments for remainder
// do full turns
for(tn=[0:t-1])
translate([0,0,tn*p]) th_out_turn(dia,p,thr);
// do remainder
for(sg=[0:n])
th_out_pt(Rmin+0.1,p,s,sg+(t*thr),thr,h,p/thr);
}
module thread_in_pitch(dia,hi,p,thr=$fn)
// make an inside thread (as used on a nut)
// dia = diameter, 6=M6 etc
// hi = height, 10=make a 10mm long thread
// p=pitch
// thr = thread quality, 10=make a thread with 10 segments per turn
{
h=(cos(30)*p)/8;
Rmin=(dia/2)-(5*h); // as wiki Dmin
s=360/thr; // length of segment in degrees
t1=(hi-p)/p; // number of full turns
r=t1%1.0; // length remaining (not full turn)
t=t1-r; // integer number of turns
n=r/(p/thr); // number of segments for remainder
for(tn=[0:t-1])
translate([0,0,tn*p]) th_in_turn(dia,p,thr);
for(sg=[0:n])
th_in_pt(Rmin+0.1,p,s,sg+(t*thr),thr,h,p/thr);
}
module thread_out_centre(dia,hi)
{
p = get_coarse_pitch(dia);
thread_out_centre_pitch(dia,hi,p);
}
module thread_out_centre_pitch(dia,hi,p)
{
h = (cos(30)*p)/8;
Rmin = (dia/2) - (5*h); // as wiki Dmin
cylinder(r = Rmin, h = hi);
}
module thread_in_ring(dia,hi,thk)
{
difference()
{
cylinder(r = (dia/2)+0.5,h = hi);
translate([0,0,-1]) cylinder(r = (dia/2)+0.1, h = hi+thk);
}
}
//--low level modules-----------------------------------------------------------
module rolson_hex_bolt(dia,hi)
// make an ISO bolt with Rolson wrench sizes
// dia=diameter, 6=M6 etc.
// hi=length of threaded part of bolt
{
hhi = rolson_hex_bolt_hi(dia);
cylinder(r = rolson_hex_bolt_dia(dia)/2,h = hhi, $fn=6);
translate([0,0,hhi-0.1]) thread_out(dia,hi+0.1);
translate([0,0,hhi-0.1]) thread_out_centre(dia,hi+0.1);
}
module fairbury_hex_bolt(dia,hi)
// make an ISO bolt with Fairbury wrench sizes
// dia=diameter, 6=M6 etc.
// hi=length of threaded part of bolt
{
hhi = fairbury_hex_bolt_hi(dia);
cylinder(r = fairbury_hex_bolt_dia(dia)/2,h = hhi, $fn=6);
translate([0,0,hhi-0.1]) thread_out(dia,hi+0.1);
translate([0,0,hhi-0.1]) thread_out_centre(dia,hi+0.1);
}
module rolson_hex_nut(dia)
// make an ISO nut with Rolson wrench sizes
// dia=diameter, 6=M6 etc.
{
hi = rolson_hex_nut_hi(dia);
difference()
{
cylinder(r = rolson_hex_nut_dia(dia)/2,h = hi, $fn=6);
translate([0,0,-0.1]) cylinder(r = dia/2, h =hi + 0.2);
}
translate([0,0,0.1]) thread_in(dia,hi-0.2);
}
module fairbury_hex_nut(dia)
// make an ISO nut with Fairbury wrench sizes
// dia=diameter, 6=M6 etc.
{
hi = fairbury_hex_nut_hi(dia);
difference()
{
cylinder(r = fairbury_hex_nut_dia(dia)/2,h = hi, $fn=6);
translate([0,0,-0.1]) cylinder(r = dia/2, h =hi + 0.2);
}
translate([0,0,0.1]) thread_in(dia,hi-0.2);
}
module th_out_turn(dia,p,thr=$fn)
// make a single turn of an outside thread
// dia=diameter, 6=M6 etc
// p=pitch
// thr=thread quality, 10=make a thread with 10 segments per turn
{
h = (cos(30)*p)/8;
Rmin = (dia/2) - (5*h); // as wiki Dmin
s = 360/thr;
for(sg=[0:thr-1])
th_out_pt(Rmin+0.1,p,s,sg,thr,h,p/thr);
}
module th_out_pt(rt,p,s,sg,thr,h,sh)
// make a part of an outside thread (single segment)
// rt = radius of thread (nearest centre)
// p = pitch
// s = segment length (degrees)
// sg = segment number
// thr = segments in circumference
// h = ISO h of thread / 8
// sh = segment height (z)
{
as = (sg % thr) * s; // angle to start of seg
ae = as + s - (s/100); // angle to end of seg (with overlap)
z = sh*sg;
//pp = p/2;
// 1,4
// |\
// | \ 2,5
// | /
// |/
// 0,3
// view from front (x & z) extruded in y by sg
//
//echo(str("as=",as,", ae=",ae," z=",z));
polyhedron(
points = [
[cos(as)*rt,sin(as)*rt,z], // 0
[cos(as)*rt,sin(as)*rt,z+(3/4*p)], // 1
[cos(as)*(rt+(5*h)),sin(as)*(rt+(5*h)),z+(3/8*p)], // 2
[cos(ae)*rt,sin(ae)*rt,z+sh], // 3
[cos(ae)*rt,sin(ae)*rt,z+(3/4*p)+sh], // 4
[cos(ae)*(rt+(5*h)),sin(ae)*(rt+(5*h)),z+sh+(3/8*p)]], // 5
faces = [
[0,1,2], // near face
[3,5,4], // far face
[0,3,4],[0,4,1], // left face
[0,5,3],[0,2,5], // bottom face
[1,4,5],[1,5,2]]); // top face
}
module th_in_turn(dia,p,thr=$fn)
// make an single turn of an inside thread
// dia = diameter, 6=M6 etc
// p=pitch
// thr = thread quality, 10=make a thread with 10 segments per turn
{
h = (cos(30)*p)/8;
Rmin = (dia/2) - (5*h); // as wiki Dmin
s = 360/thr;
for(sg=[0:thr-1])
th_in_pt(Rmin+0.1,p,s,sg,thr,h,p/thr);
}
module th_in_pt(rt,p,s,sg,thr,h,sh)
// make a part of an inside thread (single segment)
// rt = radius of thread (nearest centre)
// p = pitch
// s = segment length (degrees)
// sg = segment number
// thr = segments in circumference
// h = ISO h of thread / 8
// sh = segment height (z)
{
as = ((sg % thr) * s - 180); // angle to start of seg
ae = as + s -(s/100); // angle to end of seg (with overlap)
z = sh*sg;
pp = p/2;
// 2,5
// /|
// 1,4 / |
// \ |
// \|
// 0,3
// view from front (x & z) extruded in y by sg
//
polyhedron(
points = [
[cos(as)*(rt+(5*h)),sin(as)*(rt+(5*h)),z], //0
[cos(as)*rt,sin(as)*rt,z+(3/8*p)], //1
[cos(as)*(rt+(5*h)),sin(as)*(rt+(5*h)),z+(3/4*p)], //2
[cos(ae)*(rt+(5*h)),sin(ae)*(rt+(5*h)),z+sh], //3
[cos(ae)*rt,sin(ae)*rt,z+(3/8*p)+sh], //4
[cos(ae)*(rt+(5*h)),sin(ae)*(rt+(5*h)),z+(3/4*p)+sh]], //5
faces = [
[0,1,2], // near face
[3,5,4], // far face
[0,3,4],[0,4,1], // left face
[0,5,3],[0,2,5], // bottom face
[1,4,5],[1,5,2]]); // top face
}