Merge branch 'master' of github.com:rookiepeng/hexapod
Zhengyu Peng
3 years ago
commit
744d7f1523
@ -1,3 +1,4 @@
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.DS_Store
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*.pyc
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.vscode/
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*.blend1
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@ -0,0 +1,244 @@
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/*
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* Variables for Thingiverse Customizer
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* ==================================================================
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*
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*/
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// The number of cells in your battery holder
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Cell_Count = 2;
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// AA:50.5;18650:65
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Cell_Long = 65;
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// AA:14.5;18650:18
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Cell_Wide = 18;
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// 1:series connection; 2:parallel connection
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Connection = 1;
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// 1:yes; 2:no
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mounting_flanges = 1;
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/*
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* Library function: edge
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* ==================================================================
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*
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* Used to make roundes edges on objects
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*
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*/
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module edge(radius, height)
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{
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difference()
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{
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translate([radius/2-0.5, radius/2-0.5, 0])
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cube([radius+1, radius+1, height], center = true);
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translate([radius, radius, 0])
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cylinder(h = height+1, r1 = radius, r2 = radius, center = true, $fn = 100);
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}
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}
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module battery_box(cells)
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{
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difference()
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{
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union()
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{
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translate([0, 0, Cell_Wide*(4/3)/4])
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cube(size=[Cell_Long+7+7, Cell_Wide*cells, Cell_Wide*(4/3)/2], center=true);
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translate([Cell_Long/2+5.5, 0, Cell_Wide*(4/3)/2])
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cube(size=[3, Cell_Wide*cells, Cell_Wide*(4/3)], center=true);
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translate([-(Cell_Long/2+5.5), 0, Cell_Wide*(4/3)/2])
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cube(size=[3, Cell_Wide*cells, Cell_Wide*(4/3)], center=true);
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translate([-(Cell_Long/2+5-2), 0, Cell_Wide*0.8/2+Cell_Wide*(4/3)/4])
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cube(size=[2, Cell_Wide*cells, Cell_Wide*0.7], center=true);
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translate([(Cell_Long/2+5-2), 0, Cell_Wide*0.8/2+Cell_Wide*(4/3)/4])
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cube(size=[2, Cell_Wide*cells, Cell_Wide*0.7], center=true);
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// mounting flanges
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if (mounting_flanges == 1)
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{
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translate([20, cells*Cell_Wide/2+4/2, 3/2])
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cube(size=[7, 4, 3], center=true);
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translate([20, cells*Cell_Wide/2+4, 3/2])
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cylinder(r=7/2, h=3, center=true, $fn = 60);
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translate([-20, cells*Cell_Wide/2+4/2, 3/2])
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cube(size=[7, 4, 3], center=true);
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translate([-20, cells*Cell_Wide/2+4, 3/2])
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cylinder(r=7/2, h=3, center=true, $fn = 60);
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translate([20, -(cells*Cell_Wide/2+4/2), 3/2])
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cube(size=[7, 4, 3], center=true);
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translate([20, -(cells*Cell_Wide/2+4), 3/2])
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cylinder(r=7/2, h=3, center=true, $fn = 60);
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translate([-20, -(cells*Cell_Wide/2+4/2), 3/2])
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cube(size=[7, 4, 3], center=true);
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translate([-20, -(cells*Cell_Wide/2+4), 3/2])
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cylinder(r=7/2, h=3, center=true, $fn = 60);
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}
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}
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if (mounting_flanges == 2)
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{
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}
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for (i=[0:cells-1])
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{
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// battery cradle
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translate([0, -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*i, Cell_Wide/2+10/2])
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rotate(90, [0, 1, 0])
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cylinder(r=Cell_Wide/2, h=Cell_Long+2+2, center=true, $fn = 100);
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// spring cut-out
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translate([Cell_Long/2+3.5, -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*i, Cell_Wide/2+10/2])
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cube(size=[1, 12, 12], center=true);
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translate([Cell_Long/2+3.5, -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*i, Cell_Wide/2+10/2])
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cube(size=[1, 4, 30], center=true);
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translate([Cell_Long/2+3-1/2, -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*i, Cell_Wide/2+10/2])
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cube(size=[1, 8, 12], center=true);
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translate([-(Cell_Long/2+3.5), -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*i, Cell_Wide/2+10/2])
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cube(size=[1, 12, 12], center=true);
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translate([-(Cell_Long/2+3.5), -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*i, Cell_Wide/2+10/2])
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cube(size=[1, 4, 30], center=true);
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translate([-(Cell_Long/2+3-1/2), -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*i, Cell_Wide/2+10/2])
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cube(size=[1, 8, 12], center=true);
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// solder flange cut-out
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translate([(Cell_Long/2+5-6/2), -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*i, 3/2])
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cube(size=[6, 6, 3.1], center=true);
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translate([(Cell_Long/2)-1/2, -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*i, 3/2])
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cylinder(r=6/2, h=3.1, center=true, $fn = Cell_Long);
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translate([-(Cell_Long/2+5-6/2), -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*i, 3/2])
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cube(size=[6, 6, 3.1], center=true);
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translate([-(Cell_Long/2)+1/2, -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*i, 3/2])
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cylinder(r=6/2, h=3.1, center=true, $fn = Cell_Long);
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// polarity marking (+)
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translate([20, -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*i, 4/2+4.5])
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cube(size=[6, 2, 4], center=true);
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translate([20, -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*i, 4/2+4.5])
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cube(size=[2, 6, 4], center=true);
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// polarity marking (-)
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translate([-20, -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*i, 4/2+4.5])
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cube(size=[6, 2, 4], center=true);
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}
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if (cells>=2)
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{
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for (i=[0:cells-2])
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{
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// bottom cut-out for cell connections
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if (Connection == 1)
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{
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translate([0, -cells*Cell_Wide/2+Cell_Wide+Cell_Wide*i, 2.5/2])
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rotate(17, [0, 0, 1])
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cube(size=[Cell_Long, 2, 2.6], center=true);
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}
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if (Connection == 2)
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{
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translate([Cell_Long/2+3, -cells*Cell_Wide/2+Cell_Wide+Cell_Wide*i, 2.5/2])
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rotate(90, [0, 0, 1])
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cube(size=[Cell_Wide, 2, 2.6], center=true);
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translate([-Cell_Long/2-3, -cells*Cell_Wide/2+Cell_Wide+Cell_Wide*i, 2.5/2])
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rotate(90, [0, 0, 1])
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cube(size=[Cell_Wide, 2, 2.6], center=true);
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}
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}
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}
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// bottom cut-out for output wires
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translate([Cell_Long/4, -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*0, 2.5/2])
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cube(size=[Cell_Long/2, 2, 2.6], center=true);
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translate([3/2, -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*0+1, 2.5/2])
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edge(4, 2.6);
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translate([3/2, -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*0-1, 2.5/2])
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rotate(-90, [0, 0, 1])
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edge(4, 2.6);
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translate([-Cell_Long/4, -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*(cells-1), 2.5/2])
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cube(size=[Cell_Long/2, 2, 2.6], center=true);
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translate([-3/2, -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*(cells-1)+1, 2.5/2])
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rotate(90, [0, 0, 1])
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edge(4, 2.6);
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translate([-3/2, -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*(cells-1)-1, 2.5/2])
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rotate(180, [0, 0, 1])
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edge(4, 2.6);
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// bottom polarity marking (+)
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translate([7, -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*0-4.5, 1.5/2])
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cube(size=[4, 1.5, 1.6], center=true);
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translate([7, -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*0-4.5, 1.5/2])
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cube(size=[1.5, 4, 1.6], center=true);
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// bottom polarity marking (-)
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translate([-7, -cells*Cell_Wide/2+Cell_Wide/2+Cell_Wide*(cells-1)+4.5, 1.5/2])
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cube(size=[4, 1.5, 1.6], center=true);
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// mounting holes
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translate([20, cells*Cell_Wide/2+4, 3/2])
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cylinder(r=3.3/2, h=4, center=true, $fn = 30);
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translate([-20, cells*Cell_Wide/2+4, 3/2])
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cylinder(r=3.3/2, h=4, center=true, $fn = 30);
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translate([20, -(cells*Cell_Wide/2+4), 3/2])
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cylinder(r=3.3/2, h=4, center=true, $fn = 30);
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translate([-20, -(cells*Cell_Wide/2+4), 3/2])
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cylinder(r=3.3/2, h=4, center=true, $fn = 30);
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// bottom cut-out for output wire
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translate([0, 0, 2.5/2])
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cube(size=[3, cells*Cell_Wide+5, 2.6], center=true);
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// cutout to ease battery removal
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translate([0, 0, 20/2+10/2])
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rotate(90, [1, 0, 0])
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cylinder(r=20/2, h=cells*Cell_Wide+5, center=true, $fn = 100);
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// rounded corners on end plates
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translate([0, -cells*Cell_Wide/2, Cell_Wide*(4/3)])
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rotate(90, [0, 1, 0])
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edge(4, Cell_Long+8+8+5);
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translate([0, cells*Cell_Wide/2, Cell_Wide*(4/3)])
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rotate(90, [0, 1, 0])
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rotate(-90, [0, 0, 1])
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edge(4, Cell_Long+8+8+5);
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translate([0, -cells*Cell_Wide/2, Cell_Wide*(4/3)*0.95-3])
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rotate(90, [0, 1, 0])
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edge(3, Cell_Long+4+4);
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translate([0, cells*Cell_Wide/2, Cell_Wide*(4/3)*0.95-3])
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rotate(90, [0, 1, 0])
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rotate(-90, [0, 0, 1])
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edge(3, Cell_Long+4+4);
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}
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}
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battery_box(Cell_Count);
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