Simplify AMT Box design

This commit is contained in:
Lauri Võsandi 2021-09-13 11:04:27 +03:00
parent db568eb30a
commit bb2db1dec3

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@ -3,15 +3,17 @@
* Dynavox AMT-1 and Wavecor WF145WA05 * Dynavox AMT-1 and Wavecor WF145WA05
*/ */
B = 12.7; // Bushing outer diameter B1 = 19.05; // Bushing outer diameter
B2 = 12.7;
M = 6.35; // Mill diameter M = 6.35; // Mill diameter
J = 100; // Mill pad J = 100; // Mill pad
T = 21; // Material thickness T = 21; // Material thickness
I = 320; // Internal dimension I = 320; // Internal dimension
A = 5; // Alignment pad size A = 5; // Alignment pad size
P = 17; // Alignment pad placement P = 16; // Alignment pad placement
O = I + 2 * T; // Outer dimensions O = I + 2 * T; // Outer dimensions
BD = B - M; // Bushing offset BD = B1 - M; // Bushing offset
BD2 = B2 - M;
W = 200 - 40; // Internal width W = 200 - 40; // Internal width
H = 350 - 40; // Internal height/depth H = 350 - 40; // Internal height/depth
@ -23,57 +25,64 @@ module sam300d_flush_mount() {
} }
// Side panels // Side panels
translate([I+J/2, 0]) { translate([250, 0]) {
difference() { difference() {
square([H - BD, H + 100], center=true); square([H - BD, H + 100], center=true);
translate([-H/2 + 100 , -H/2 + 60]) circle(d=100, $fn=100); // !!!
offset(r=BD/2) square([80+M,M], center=true); // Bass reflex tube
translate([-H/2 + 100 , -350/2 + 80]) circle(d=69-0.4+BD, $fn=100);
translate([H/2 - 100 , -350/2 + 80]) circle(d=69-0.4+BD, $fn=100);
// Bracing tenon
translate([0, 350/2-200+6]) offset(r=BD/2) square([80+M,M], center=true);
// Alignment squares // Alignment squares
translate([O/2,0]) rotate(45) square(A, center=true); translate([H/2-P,0]) rotate(45) square(A, center=true);
translate([-O/2,0]) rotate(45) square(A, center=true); translate([-H/2+P,0]) rotate(45) square(A, center=true);
translate([0,I/2-P]) rotate(45) square(A, center=true); translate([0,H/2-P]) rotate(45) square(A, center=true);
translate([0,-I/2+P]) rotate(45) square(A, center=true); translate([0,-H/2+P]) rotate(45) square(A, center=true);
translate([I/2,I/2-P]) rotate(45) square(A, center=true);
translate([I/2,-I/2+P]) rotate(45) square(A, center=true);
translate([-I/2,I/2-P]) rotate(45) square(A, center=true);
translate([-I/2,-I/2+P]) rotate(45) square(A, center=true);
} }
} }
// Back face + bottom/top cutout // Back face + bottom/top cutout
translate([-I-J/2, 0]) translate([-170, 0])
difference() { difference() {
square([W - BD, H + 100], center=true); square([W - BD, H + 100], center=true);
offset(r=BD/2) square([93 - BD, 80 - BD], center=true); difference() {
offset(r=BD/2) square([93, 80], center=true);
offset(r=BD/2) square([76, 56], center=true);
}
translate([0,H/2]) rotate(45) square(A, center=true); translate([0,H/2]) rotate(45) square(A, center=true);
translate([0,-H/2]) rotate(45) square(A, center=true); translate([0,-H/2]) rotate(45) square(A, center=true);
translate([-W/2+P,0]) rotate(45) square(A, center=true); translate([-W/2+P,0]) rotate(45) square(A, center=true);
translate([W/2-P,0]) rotate(45) square(A, center=true); translate([W/2-P,0]) rotate(45) square(A, center=true);
} }
// Mounting holes // Front mounting holes
difference() { difference() {
square([W, H], center=true); square([W-BD2, H-BD2], center=true);
// Alignment squares
translate([0,H/2-P]) rotate(45) square(A, center=true);
translate([0,-H/2+P]) rotate(45) square(A, center=true);
translate([-W/2+P,0]) rotate(45) square(A, center=true);
translate([W/2-P,0]) rotate(45) square(A, center=true);
// Tweeter // Tweeter
translate([0, H/2-80]) { translate([0, 350/2-80]) {
circle(d=65 + BD, $fn=100); circle(d=65 + BD2, $fn=100);
translate([-56/2,-56/2]) circle(d=4, $fn=30); translate([-56/2,-56/2]) circle(d=4, $fn=30);
translate([56/2,-56/2]) circle(d=4, $fn=30); translate([56/2,-56/2]) circle(d=4, $fn=30);
translate([-56/2,56/2]) circle(d=4, $fn=30); translate([-56/2,56/2]) circle(d=4, $fn=30);
translate([56/2,56/2]) circle(d=4, $fn=30); translate([56/2,56/2]) circle(d=4, $fn=30);
} }
// Woofer // Woofer
translate([0, H/2-200]) { translate([0, 350/2-200]) {
circle(d=118 + BD, $fn=100); circle(d=118 + BD2, $fn=100);
for ( i = [45 : 90 : 360] ){ for ( i = [45 : 90 : 360] ){
rotate(i) translate([138/2,0]) circle(d=4, $fn=30); rotate(i) translate([138/2,0]) circle(d=4, $fn=30);
} }
} }
} }