+// ---------- cleat ----------
+
+function cleat_frame_theta(s) = s * cleat_horn_tl / cleat_curve_r * 360/TAU;
+function cleat_frame_z(s) = cleat_curve_r * (1 - cos(cleat_frame_theta(s)));
+function cleat_frame_x(s) = cleat_curve_r * sin(cleat_frame_theta(s));
+function cleat_frame_r(s) = ( cleat_horn_d_min * s +
+ cleat_horn_d_max * (1-s) ) * 0.5;
+
+module CleatFrameSphere(r) {
+ scale([1, r[1]/r[0], 1])
+ sphere(r= r[0]);
+}
+
+module CleatFrame(s) {
+ r = cleat_frame_r(s);
+ translate([cleat_frame_x(s), 0, cleat_frame_z(s)])
+ rotate([0, 90, 0])
+ CleatFrameSphere(r);
+}
+
+
+module CleatHorn(){
+ for (si=[0 : cleat_frames-2]) {
+ s0 = si / (cleat_frames-1);
+ s1 = (si+1) / (cleat_frames-1);
+ hull(){
+ CleatFrame(s0);
+ CleatFrame(s1);
+ }
+ }
+}
+
+module CleatBase(){
+ frames = cleat_frames/2;
+ se = cleat_stem_l/2 / cleat_horn_tl;
+ r = cleat_frame_r(se);
+
+ hull(){
+ for (s = [-se, se]) {
+ for (z= [-(cleat_height + tube_dia/2),
+ cleat_frame_z(s)]) {
+ translate([cleat_frame_x(s), 0, z])
+ linear_extrude(height=0.1)
+ scale([1, r[1]/r[0]])
+ circle(r=r[0]);
+ }
+ }
+ }
+}
+
+module VCleat(){
+ translate([0,0, vcleat_dz]){
+ difference(){
+ translate([0, -(main_r + cleat_height), 0]) {
+ rotate([0, -90, 90]) {
+ CleatBase();
+ for (m=[0,1]) {
+ mirror([m,0,0]) {
+ CleatHorn();
+ }
+ }
+ }
+ }
+ linextr(-cleat_stem_l, +cleat_stem_l)
+ circle(r = tube_dia/2 + 0.1);
+ }
+ }
+}
+
+module VCleatA(){ ////toplevel
+ DummyA();
+ VCleat();
+}
+