strain_t = 1.0 + 0.5;
strain_pitch_across = 5;
strain_pitch_along = 10;
+strain_groove_d = 2;
+strain_groove_w = 3;
+
+fit_gap_z = 0.5;
// calculated
+top_top_z = usb_wall_h;
+top_base_z = -board_th;
+
strain_0_y_c = main_y_min - strain_w/2;
strain_1_y_c = strain_0_y_c - strain_pitch_along;
total_y_min = strain_1_y_c - strain_w/2 - side_wall_th;
+bottom_wall_top_z = (top_top_z + top_base_z) * 0.5 - fit_gap_z/2;
+cover_wall_top_z = (top_top_z + top_base_z) * 0.5 + fit_gap_z/2;
+
+bop_side_wall_x = +board_w/2 + side_wall_th;
+
module BothSides(){
for (m=[0,1]) {
mirror([m,0]) {
}
module Top(){ ////toplevel
- linextr(0, usb_wall_h)
- TopSmallWallsPlan();
- linextr(usb_wall_h - usb_ceil_th, usb_wall_h)
- TopCeilPlan();
- linextr(-board_th, usb_wall_h)
- TopMainWallsPlan();
+ difference(){
+ union(){
+ linextr(0, usb_wall_h)
+ TopSmallWallsPlan();
+ linextr(usb_wall_h - usb_ceil_th, usb_wall_h)
+ TopCeilPlan();
+ linextr(-board_th, usb_wall_h)
+ TopMainWallsPlan();
+ }
+
+ for (y_c = [strain_0_y_c, strain_1_y_c]) {
+ for (x_c = [-1,+1] * strain_pitch_across/2) {
+ translate([x_c, y_c, 0])
+ linextr(-20, 20)
+ square([ strain_t, strain_w ], center=true);
+ }
+ }
+ linextr_y_xz(total_y_min-1, main_y_min)
+ translate([0, top_base_z])
+ scale([1, strain_groove_d/strain_groove_w])
+ circle(strain_groove_w/2, $fn = 8);
+ }
}
+module BottomMainElevation(){ ////toplevel
+ difference(){
+// rectfromto([
+ }
+}
module Bottom(){ ////toplevel
}