nestleddbl = 3.3;
nestleddbr = 3.6;
-nestlewallmin = 4;
-nestleceilmin = 4;
-
// Adjustment for the GPS attitude and position
gpsazimuth = 45;
gpselevation = 40;
holderdoveclipl = 15;
chassish = 13;
chassist = 13;
+nestlefloorh = 2.0;
+nestleceilh = 2.0;
+nestlewallmin = 3.0;
// Consequential values
holderdcw = DoveClipPairSane_width(holderdccount);
module NestleCubeCutout(ca,cb,d){
dist = cb - ca;
+ cuth = -nestleh + nestlefloorh;
mirror([0,1,0]){
+ translate([0,1,0])
rotate([90,0,0]){
- linear_extrude(height=d){
- polygon([[ca, -nestleh-1],
- [ca, -dist/2],
- [(ca+cb)/2, 0],
- [cb, -dist/2],
- [cb, -nestleh-1]]);
+ linear_extrude(height=d+2){
+ polygon([[ca+nestlebevel, cuth],
+ [ca, cuth+nestlebevel*2],
+ [ca, -dist/2-nestleceilh],
+ [(ca+cb)/2, -nestleceilh],
+ [cb, -dist/2-nestleceilh],
+ [cb, cuth+nestlebevel*2],
+ [cb-nestlebevel, cuth]]);
}
}
}
[7,8,9],[5,6,7],[7,9,5]],
convexity=3);
intersection(){
- NestleCubeCutout(cutw1, cutw0, max(nestledl,nestledr));
- rotate([0,0,90]) NestleCubeCutout(cutd0, cutd1, nestlew);
+ #NestleCubeCutout(cutw1, cutw0, max(nestledl,nestledr));
+ #rotate([0,0,90]) NestleCubeCutout(cutd0, cutd1, nestlew);
}
translate([0,0,-nestleh]) {
translate([-nestledwr, 0, 0]) NestleCubeBevel();