include <doveclip.scad>
// Dimensions of the main GPS body
-outerw = 120 + 2.5;
-outerh = 75 - 0.2;
-outert = 15 - 1.0;
+outerw = 120;
+outerh = 75;
+outert = 15;
outerbackbevel = 3;
+// Dimensions for the model
+model_outerw = outerw + 2.5;
+model_outerh = outerh - 0.2;
+model_outert = outert - 1.0;
+
// Dimensions of the bezel area round the edges
bezelw = 11 - 0.5;
bezelboth = 11 - 0.5;
// Dimensions for strength only
screent = 1.0;
plugstrutw = 4;
-plugstrutt = min(outert, 5);
+plugstrutt = min(model_outert, 5);
nestledoveclipw = 20;
module GpsPlugPlug(slop){
effplugw = plugw + slop*2;
effplugh = plugh + effhslop*2;
translate([plug2lhs-slop, plug2bot-effhslop, -1])
- cube([effplugw, effplugh, outert+2]);
+ cube([effplugw, effplugh, model_outert+2]);
}
module GpsBodyOuterBevel(len){
difference(){
union(){
difference(){
- cube([outerw, outerh, outert]);
+ cube([model_outerw, model_outerh, model_outert]);
translate([bezelw, bezelboth, screent])
- cube([outerw-bezelw*2, outerh-bezelboth-bezeltoph, outert]);
- translate([outerw-spkr2rhs, spkr2bot, -1])
- cylinder(r=spkrdia/2, h=outert+2);
+ cube([model_outerw-bezelw*2,
+ model_outerh-bezelboth-bezeltoph,
+ model_outert]);
+ translate([model_outerw-spkr2rhs, spkr2bot, -1])
+ cylinder(r=spkrdia/2, h=model_outert+2);
}
translate([plug2lhs+plugw/2, plug2bot+plugh/2, 0])
- cylinder(r=(plugw+plugh)/2, h=outert);
+ cylinder(r=(plugw+plugh)/2, h=model_outert);
for (x=[plug2lhs-plugstrutw, plug2lhs+plugw])
translate([x, 0.1, 0])
- cube([plugstrutw, outerh-0.2, plugstrutt-0.10]);
+ cube([plugstrutw, model_outerh-0.2, plugstrutt-0.10]);
}
GpsPlugPlug(0);
- for (x=[0,outerw]) translate([x,0,0]) GpsBodyOuterBevel(outerh);
- for (y=[0,outerh]) translate([0,y,0])
- rotate([0,0,-90]) GpsBodyOuterBevel(outerw);
+ for (x=[0,model_outerw]) translate([x,0,0]) GpsBodyOuterBevel(model_outerh);
+ for (y=[0,model_outerh]) translate([0,y,0])
+ rotate([0,0,-90]) GpsBodyOuterBevel(model_outerw);
}
}
~ianmdlvl / reprap-play.git / blobdiff