Deckel2 part1

This commit is contained in:
Arndt Heuvel 2024-08-10 23:09:15 +02:00
parent 8a6148c4f2
commit 395d2de0d8
2 changed files with 48 additions and 104 deletions

View file

@ -9,15 +9,30 @@ b=10; // Fugenhöhe
$fn=res; $fn=res;
R=d/2; R=d/2;
rad=da/2+6;
difference() { difference() {
union() { union() {
// Außenring // Außenring
difference() { difference() {
union() {
translate([0,0,0]) cylinder(h=a+b, d=da+a); translate([0,0,0]) cylinder(h=a+b, d=da+a);
//Flansche außen
linear_extrude(height = b+a, center = false, convexity = 10, twist = 0) {
hull() {
for (i=[0:120:359]) {
translate([rad*cos(i),rad*sin(i),0])circle(d=12);
}
}
}
}
// Dickere Decke im Spalt // Dickere Decke im Spalt
translate([0,0,-0.1]) cylinder(h=b+0.1-1, d=da); translate([0,0,-0.1]) cylinder(h=b+0.1-1, d=da);
translate([0,0,-0.1]) cylinder(h=b+0.1, d=di); translate([0,0,-0.1]) cylinder(h=b+0.1, d=di);
// Flanschloch
for (i=[0:120:359]) {
translate([rad*cos(i),rad*sin(i),-0.1])cylinder(h=b+a+5+0.2, d=6, center=false);
}
} }
// Innenring // Innenring
difference() { difference() {
@ -41,42 +56,3 @@ difference() {
// Loch für Laser // Loch für Laser
translate([-2.5,50,-0.3]) cube([5,4,a+b+0.6]); translate([-2.5,50,-0.3]) cube([5,4,a+b+0.6]);
} }
// kann weg?
//difference() {
// rotate_extrude(angle=3) translate([R+9,0,0]) square([a,b],center=true);
// rotate([0,0,1]) rotate([90,0,0]) translate([R+9,0,0]) cylinder(h=8,d=5,center=true);
//}
//difference() {
// rotate([0,0,347]) rotate_extrude(angle=3) translate([R+9,0,0]) square([a,b],center=true);
// rotate([0,0,348]) rotate([90,0,0]) translate([R+9,0,0]) cylinder(h=8,d=5,center=true);
//}
/*
difference() {
rotate([0,0,5]) rotate_extrude(angle=3) translate([R+12,2,0]) square([a, b+5],center=true);
rotate([0,0,6]) rotate([90,0,0]) translate([R+12,0,0]) cylinder(h=8,d=5,center=true);
union() {
difference() {
rotate([0,0,6]) rotate([90,0,0]) translate([R+12,0,0]) cylinder(h=9,d=15,center=true);
rotate([0,0,6]) rotate([90,0,0]) translate([R+12,0,0]) cylinder(h=8,d=10,center=true);
rotate([0,0,5]) rotate_extrude(angle=3) translate([R+12,5.5,0]) square([a+1, b+1],center=true);
}
}
}
difference() {
rotate([0,0,342]) rotate_extrude(angle=3) translate([R+12,2,0]) square([a,b+5],center=true);
rotate([0,0,343]) rotate([90,0,0]) translate([R+12,0,0]) cylinder(h=8,d=5,center=true);
union() {
difference() {
rotate([0,0,343]) rotate([90,0,0]) translate([R+12,0,0]) cylinder(h=9,d=15,center=true);
rotate([0,0,343]) rotate([90,0,0]) translate([R+12,0,0]) cylinder(h=8,d=10,center=true);
rotate([0,0,342]) rotate_extrude(angle=3) translate([R+12,5.5,0]) square([a+1, b+1],center=true);
}
}
}
*/

View file

@ -9,74 +9,42 @@ b=10; // Fugenhöhe
$fn=res; $fn=res;
R=d/2; R=d/2;
rad=da/2+6;
difference() { difference() {
union() { union() {
// Außenring // Außenring
difference() { difference() {
translate([0,0,0]) cylinder(h=a+b, d=da+a); union() {
// Dickere Decke im Spalt translate([0,0,0]) cylinder(h=a+b+2, d=di+(da-di)/2+a/2);
translate([0,0,-0.1]) cylinder(h=b+0.1-1, d=da); //Flansche außen
translate([0,0,-0.1]) cylinder(h=b+0.1, d=di); translate([0,0,2])linear_extrude(height = b+a, center = false, convexity = 10, twist = 0) {
} hull() {
// Innenring for (i=[0:120:359]) {
difference() { translate([rad*cos(i),rad*sin(i),0])circle(d=12);
translate([0,0,-0.1]) cylinder(h=b+0.2, d=di);
translate([0,0,-0.2]) cylinder(h=b+0.1, d=di-a);
} }
} }
// Spalt für Oberen Deckel }
translate([0,0,b+a-1])difference() { }
translate([0,0,0]) cylinder(h=1.1, d=di+(da-di)/2+a/2); // Hohlraum
translate([0,0,-0.1]) cylinder(h=1+0.2, d=di+(da-di)/2-a/2); translate([0,0,-0.1]) cylinder(h=b+2+0.1, d=di+(da-di)/2-a/2);
// Flanschloch
for (i=[0:120:359]) {
translate([rad*cos(i),rad*sin(i),-0.1])cylinder(h=b+a+5+0.2, d=6);
}
// Kabelloch
translate([(rad-1)*cos(180),(rad-1)*sin(180),7])rotate([0,90,0])cylinder(h=b+a+5+0.2, d=6);
} }
// Einkerbung Laserplatine // Einkerbung Laserplatine
translate([-15,45,a+b-0.9]) difference() { translate([-15,45,0.1]) difference() {
cube([30,11,1]); cube([30,11,-0.9]);
translate([0,0,0])cube([4.1,2.2,1.1]); translate([0,0,-0.1])cube([4.1,2.2,-1.2]);
translate([26,0,0])cube([4.1,2.2,1.1]); translate([26,0,-0.1])cube([4.1,2.2,-1.2]);
translate([26,8.8,0])cube([4.1,2.2,1.1]); translate([26,8.8,-0.1])cube([4.1,2.2,-1.2]);
translate([0,8.8,0])cube([4.1,2.2,1.1]); translate([0,8.8,-0.1])cube([4.1,2.2,-1.2]);
} }
// Loch für Laser // Loch für Laser
translate([-2.5,50,-0.3]) cube([5,4,a+b+0.6]); translate([-2.5,50,-0.3]) cube([5,4,a+b+0.6]);
}
// kann weg?
//difference() {
// rotate_extrude(angle=3) translate([R+9,0,0]) square([a,b],center=true);
// rotate([0,0,1]) rotate([90,0,0]) translate([R+9,0,0]) cylinder(h=8,d=5,center=true);
//}
//difference() {
// rotate([0,0,347]) rotate_extrude(angle=3) translate([R+9,0,0]) square([a,b],center=true);
// rotate([0,0,348]) rotate([90,0,0]) translate([R+9,0,0]) cylinder(h=8,d=5,center=true);
//}
/*
difference() {
rotate([0,0,5]) rotate_extrude(angle=3) translate([R+12,2,0]) square([a, b+5],center=true);
rotate([0,0,6]) rotate([90,0,0]) translate([R+12,0,0]) cylinder(h=8,d=5,center=true);
union() {
difference() {
rotate([0,0,6]) rotate([90,0,0]) translate([R+12,0,0]) cylinder(h=9,d=15,center=true);
rotate([0,0,6]) rotate([90,0,0]) translate([R+12,0,0]) cylinder(h=8,d=10,center=true);
rotate([0,0,5]) rotate_extrude(angle=3) translate([R+12,5.5,0]) square([a+1, b+1],center=true);
}
} }
} }
difference() {
rotate([0,0,342]) rotate_extrude(angle=3) translate([R+12,2,0]) square([a,b+5],center=true);
rotate([0,0,343]) rotate([90,0,0]) translate([R+12,0,0]) cylinder(h=8,d=5,center=true);
union() {
difference() {
rotate([0,0,343]) rotate([90,0,0]) translate([R+12,0,0]) cylinder(h=9,d=15,center=true);
rotate([0,0,343]) rotate([90,0,0]) translate([R+12,0,0]) cylinder(h=8,d=10,center=true);
rotate([0,0,342]) rotate_extrude(angle=3) translate([R+12,5.5,0]) square([a+1, b+1],center=true);
}
}
}
*/