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poster-tube-lid: Provide CoverPrint
[reprap-play.git] / poster-tube-lid.scad
1 // -*- C -*-
2
3 include <funcs.scad>
4
5 coarse = false;
6 enable_head_cups = false;
7
8 main_dia = 71.2 + 0.50 - 2.26;
9 top_thick_middle = 4;
10 top_thick_by_oring = 3.0;
11 top_middle_dr = 11;
12
13 main_cnr = 6.0;
14
15 min_wall = 3;
16
17 rivet_posn = 6.0 + 0.30;
18 rivet_thick = 1.67;
19 rivet_width = 4.15 + 1.0;
20 rivet_tall = 5.51 + 1.49;
21
22 over_rivet_wall = 1.0;
23 side_rivet_gap = 1.5;
24 inside_rivet_gap = 1.5;
25
26 bayo_interf = 0.30;
27 bayo_behind = 8.5;
28 bayo_interf_width = 2.0;
29 bayo_interf_slope = 0.5;
30
31 oring_thick = 5.0;
32 oring_bore = 62.0;
33
34 oring_upper_embed_angle = 80;
35 oring_compress = 0.1; // proportion
36 oring_compress_more = 0.2;
37
38 oring_rm_beside = 8;
39 oring_rm_scale = 2.0;
40 oring_rm_angle = 20;
41
42 side_taper = 1.0;
43
44 bayo_gap = 6.0;
45
46 bayo_entry = 1.167;
47 bayo_inramp = 0.9;
48
49 bayo_slice_size = coarse ? 5 : 1;
50
51 brace_hole_width = 1.0;
52 brace_above_below = 1.2;
53 brace_end_shorter = 0.3;
54
55 jig_thick = 1.4;
56 jig_hole_dia = 3.0;
57 jig_rim = 5;
58 jig_mark = 5;
59
60 strap_hoop_thick = 6;
61 strap_hoop_inside = 10;
62 strap_hoop_strlen = 10;
63 strap_hoop_elevation = 45;
64
65 sm_inner_circum = 218 - 1.90 - 1.00 - 0.50;
66 sm_main_thick = 2.0;
67 sm_main_width = 20;
68
69 sm_bolt_dia = 3.5 + 0.1;
70 sm_bolt_shaft = 21.0;
71 sm_bolt_head_dia = 6.94 + 1.0;
72 sm_bolt_head_thick = 2.14;
73 sm_bolt_nut_width = 5.89 + 0.25;
74 sm_bolt_nut_thick = 3.68;
75 sm_bolt_tighten_allow = 2.0;
76
77 sm_bolt_y_clear = 0.75;
78 sm_bolt_y_over = 0.5;
79
80 sm_closure_cnr = 3.0;
81
82 catch_stalk_h = 4.5;
83 catch_stalk_len = 50;
84 catch_tip_th = 4;
85 catch_head_th = 3;
86
87 catch_pin_slop = 0.25; // each side, and above
88 catch_pin_slop_x_extra = 0.0; // only on one side
89 catch_stalk_above_gap = 1.5;
90 catch_stalk_eff_bend_rad = catch_stalk_len * 0.75;
91
92 catch_strap_width = 12;
93 catch_stalk_base_width = 15;
94
95 catch_knob_dia = 6;
96 catch_knob_above_gap = 5;
97 catch_knob_height = 3.0;
98
99 catch_stalk_below_gap = 1.0;
100 catch_stalk_beside_gap = 2.0;
101
102 // calculated
103
104 TAU = PI*2;
105
106 bayo_entry_x = bayo_entry;
107 bayo_entry_z = bayo_entry;
108 bayo_inramp_x = bayo_inramp;
109 bayo_inramp_z = bayo_inramp;
110
111 oring_mid_dia = oring_bore + oring_thick;
112 oring_outer_dia = oring_mid_dia + oring_thick;
113
114 oring_oblate = (1 - oring_compress);
115
116 oring_y_rad = oring_thick/2 * oring_oblate;
117 oring_x_rad = oring_thick/2 / oring_oblate;
118
119 by_oring_z = oring_y_rad * (1 + cos(oring_upper_embed_angle));
120
121 side_height = rivet_posn + bayo_behind + rivet_thick/2;
122 side_thick = rivet_tall + over_rivet_wall;
123
124 top_z = top_thick_by_oring + oring_y_rad + by_oring_z;
125
126 middle_bot_z = top_z - top_thick_middle;
127
128 bayo_top_z = bayo_behind + bayo_gap;
129
130 bayo_nom_rad = main_dia/2 + side_thick;
131 bayo_real_rad = main_dia/2 + rivet_tall;
132
133 rivet_entry_width = rivet_width + side_rivet_gap;
134
135 jig_mark_rad = jig_mark + main_dia/2 + jig_thick;
136
137 handling_dia = oring_bore + oring_thick*2 + min_wall*2;
138 handling_angle = 45;
139
140 sm_inner_rad = (sm_inner_circum + sm_bolt_tighten_allow/2) / TAU;
141 sm_outer_rad = sm_inner_rad + sm_main_thick;
142
143 smc_pos = [ 0, sm_inner_rad, 0 ];
144
145 smc_bolt_nut_dia = sm_bolt_nut_width / cos(30);
146 smc_bolt_nut_eff_thick = sm_bolt_nut_thick + sm_bolt_tighten_allow;
147
148 smc_bolt_y = sm_bolt_dia/2 + sm_bolt_y_clear;
149 smc_max_y = smc_bolt_y + sm_bolt_y_over
150   + max(sm_bolt_head_dia/2, smc_bolt_nut_dia/2);
151 smc_cnr_c_x = sm_bolt_shaft/2 - sm_closure_cnr
152   + sm_bolt_head_thick/2 + smc_bolt_nut_eff_thick/2;
153
154 catch_cr = catch_knob_dia/2 + catch_stalk_beside_gap;
155 catch_strap_thick = sm_main_thick;
156
157 echo("R ", sm_inner_rad, bayo_real_rad, bayo_nom_rad);
158
159 $fs= coarse ? 2.5 : 0.5;
160 $fa= coarse ? 5 : 1;
161
162 include <poster-tube-lid-parametric.scad>
163
164 // bayonet definition
165
166 bayo_a = [ bayo_entry_x, 0 ];
167 bayo_p = [ 0, bayo_entry_z ];
168 bayo_n = [ 0, bayo_behind-bayo_inramp_z ];
169 bayo_m = [ bayo_inramp_x, bayo_behind ];
170 bayo_l = bayo_m + bayo_interf * [ 1/bayo_interf_slope,  1 ];
171 bayo_k = bayo_l + [ bayo_interf_width, 0 ];
172 bayo_j = bayo_k + bayo_interf * [ 1/bayo_interf_slope, -1 ];
173 bayo_i = bayo_j + [ rivet_width + inside_rivet_gap, 0 ];
174 bayo_h = [ bayo_i[0], bayo_behind + bayo_gap + bayo_interf ];
175 bayo_g = [ bayo_m[0] - rivet_width, bayo_h[1] ];
176
177 bayo_e = [-bayo_p[0], bayo_p[1]] - [rivet_entry_width,0];
178 bayo_d = [-bayo_a[0], bayo_a[1]] - [rivet_entry_width,0];
179 bayo_c = bayo_d + [0,-5];
180 bayo_b = bayo_a + [0,-5];
181
182 bayo_f = [ bayo_e[0], bayo_g[1] + (bayo_e[0] - bayo_g[0]) ];
183
184 bayo_polygon = [ bayo_a,
185                  bayo_b,
186                  bayo_c,
187                  bayo_d,
188                  bayo_e,
189                  bayo_f,
190                  bayo_g,
191                  bayo_h,
192                  bayo_i,
193                  bayo_j,
194                  bayo_k,
195                  bayo_l,
196                  bayo_m,
197                  bayo_n,
198                  bayo_p ];
199
200 echo(bayo_polygon);
201
202 // CATCH
203
204 cppxC = 0.41 * sm_inner_rad * TAU;
205
206 // catch pin
207
208 cpp_adj = (bayo_n[0] - bayo_f[0]) * (1 - sm_inner_rad / bayo_nom_rad);
209 // radius scaling due to nom and actual radius difference in
210 // bayo entry construction
211
212 cppa = bayo_f + [1,-1] * catch_pin_slop + [1,0] * cpp_adj;
213 cppb = bayo_g + [1,-1] * catch_pin_slop + [1,0] * cpp_adj;
214 cppd = [ bayo_n[0]
215          - catch_pin_slop - catch_pin_slop_x_extra,
216          -catch_stalk_above_gap ];
217 cppi = [ cppa[0], cppd[1] ];
218 cppc = [ cppd[0], cppb[1] ];
219 cpph = cppd + [0,-1] * catch_stalk_h;
220 cppe = cppd + [0,-1] * (catch_knob_above_gap + catch_knob_dia/2);
221 cppf = [ cppa[0], cppe[1] ];
222 cppg = [ cppa[0], cpph[1] ];
223 cppB = 0.5 * (cppf + cppe);
224
225 echo("RR", sm_inner_rad / bayo_nom_rad);
226
227 // catch assembly depression below pin
228
229 cppy6 = cppB[1] - (catch_knob_dia/2
230                    + (cppc[1] - cppd[1])
231                    + catch_stalk_below_gap);
232 cpp7 = [ cppB[0], cppy6 + catch_cr ];
233 cpp11 = cpp7 + [1,0] * catch_cr;
234 cppy9 = cppy6 + catch_strap_width * 1/3;
235 cpp9 = [ cpp7[0] + catch_cr * 2, cppy9 ];
236 cpp8 = cpp9 + [0,-1] * catch_cr;
237 cpp10 = cpp8 + [-1,0] * catch_cr;
238 cppC = [ cppxC, cpp9[1] ];
239 cppD = cppC + [0,-1] * catch_strap_width;
240
241 // catch assembly stalk and so on
242
243 catch_cr3 = catch_cr + catch_stalk_h;
244
245 cppF = [ cppg[0] - catch_stalk_eff_bend_rad, cppd[1] ];
246 cpp4 = [ cppg[0] - catch_stalk_len, cpph[1] ] + [1,-1] * catch_cr;
247 cpp5 = [ cpp4[0], cppC[1] + catch_cr ];
248 cpp2 = cpp5 + [-1,0] * (catch_cr * 2 + catch_stalk_base_width);
249 cpp2r = cpp2 + [1,0] * catch_cr;
250 cpp2d = cpp2 + [0,-1] * catch_cr;
251 cpp3 = [ cpp2[0] + catch_cr + catch_cr3, cppd[1] - catch_cr3 ];
252 cppA = [ -cppxC, cpp9[1] ];
253 cppE = [ cppA[0], cppD[1] ];
254
255 catch_assembly_dy = -cppy9 + catch_strap_width;
256
257
258 module MainProfile(){
259   main_cnr_pos = [ side_thick, top_z ] - [1,1]*main_cnr;
260   difference(){
261     union(){
262       translate(main_cnr_pos){
263         intersection(){
264           difference(){
265             circle(r = main_cnr);
266             circle(r = main_cnr * 0.5);
267           }
268           square([10,10]);
269         }
270       }
271       polygon([[ -top_middle_dr,        middle_bot_z      ],
272                [ -top_middle_dr,        top_z             ],
273                [ main_cnr_pos[0],       top_z             ],
274                [ side_thick,            main_cnr_pos[1]   ],
275                [ side_thick,            -side_height      ],
276                [ side_taper,            -side_height      ],
277                [ 0,                     -rivet_posn       ],
278                [ 0,                     by_oring_z        ],
279                [ -oring_x_rad,          by_oring_z        ],
280                ],
281               convexity=10);
282     }
283     translate([ oring_mid_dia/2 - main_dia/2, 0 ])
284       hull(){
285       translate([ 0, oring_y_rad ])
286         scale([ 1/oring_oblate * (oring_compress_more+1) , oring_oblate ])
287         circle(oring_thick/2);
288       translate([ 0, oring_y_rad*2 - oring_thick/2 ])
289         circle(oring_thick/2);
290     }
291   }
292 }
293
294 module StrapHoopProfile(){
295   circle(r = strap_hoop_thick/2);
296 }
297
298 module StrapHoop(){ ////toplevel
299   bigrad = strap_hoop_inside/2 + strap_hoop_thick/2;
300   extralen = strap_hoop_thick * 5;
301
302   intersection(){
303     rotate([strap_hoop_elevation, 0,0]){
304       for (x= [ -1, +1 ] * bigrad) {
305         translate([x, -extralen, 0])
306           rotate([-90,0,0])
307           linear_extrude(height= extralen + strap_hoop_strlen + 0.1,
308                          convexity=10)
309           StrapHoopProfile();
310       }
311       translate([0, strap_hoop_strlen, 0]){
312         intersection(){
313           rotate_extrude(convexity=10)
314             translate([bigrad, 0,0])
315             StrapHoopProfile();
316           translate([0,50,0])
317             cube([100,100,100], center=true);
318         }
319       }
320     }
321     translate([0, 50, 0])
322       cube(100, center=true);
323   }
324 }
325
326 module RotateProjectSlice(offset, slice_size, nom_rad, real_rad){
327   // nom_rad > real_rad
328   rotate([0,0, atan2(offset, nom_rad) ]){
329     intersection(){
330       translate([-offset, -10, 0])
331         rotate([90,0,0])
332         linear_extrude(height= nom_rad*2, convexity=50)
333         children(0);
334       translate([0,0, -25])
335         cylinder(h=50, r= real_rad);
336       translate([0,0, -25])
337         linear_extrude(height= 50, convexity=50)
338         polygon([ [ 0,0 ],
339                   [ -slice_size, -real_rad*2 ],
340                   [ +slice_size, -real_rad*2 ] ]);
341     }
342   }
343 }
344
345 module RotateProject(x_min, x_max, slice_size, nom_rad, real_rad){
346   offs = [ for (i=[ x_min :
347                     slice_size :
348                     x_max + slice_size ]) i ];
349   echo (offs);
350   for (off=offs)
351     RotateProjectSlice(off, slice_size, nom_rad, real_rad)
352     children(0);
353 }
354
355 module BayonetCutout(){
356   RotateProject(bayo_c[0], bayo_i[0], bayo_slice_size,
357                 bayo_nom_rad, 
358                 bayo_real_rad)
359     translate([-0.5 * (bayo_a[0] + bayo_d[0]), 0])
360     polygon(bayo_polygon, convexity=10);
361 }
362
363 module ProfilesDemo(){ ////toplevel
364   translate([-10,0]) MainProfile();
365   translate([+10, -side_height]) polygon(bayo_polygon, convexity=10);
366 }
367
368 module LimitForHandling(){ ////toplevel
369   hull() for (r=[0,180])
370     rotate([0,0,r]) {
371       for (rs=[-1,+1]) {
372         for (xd=[0,1]) {
373           rotate([0,0, rs * handling_angle/2]) {
374             translate([rs * xd * main_dia/2 * tan(handling_angle/2),
375                        main_dia/2 + side_thick - main_cnr,
376                        top_z - main_cnr]) {
377               mirror([0,0,1])
378                 cylinder(r= main_cnr, h=50);
379               sphere(main_cnr);
380             }
381           }
382         }
383       } 
384     }
385   hull() rotate_extrude(convexity=10){
386     translate([ handling_dia/2 - main_cnr, top_z - main_cnr ]) {
387       circle(r = main_cnr);
388       mirror([0,1]) square([ main_cnr, 50 ]);
389     }
390   }
391   //cylinder(r= handling_dia/2, h=20);
392 }
393
394 module Cover(){ ////toplevel
395   render() difference(){
396     intersection(){
397       union(){
398         rotate_extrude(convexity=10)
399           translate([main_dia/2, 0])
400           MainProfile();
401         translate([0,0, middle_bot_z])
402           cylinder(h= top_thick_middle, r = main_dia/2 - top_middle_dr + 1);
403       }
404       LimitForHandling();
405     }
406     for (r=[0,180]){
407       rotate([0,0, r])
408         translate([0,0, -side_height])
409         BayonetCutout();
410       rotate([0,0, r + asin((-oring_rm_beside) / (main_dia/2))])
411         translate([0,
412                    oring_mid_dia/2 + oring_thick/4 * oring_rm_scale,
413                    oring_y_rad * 1.5])
414         rotate([-oring_rm_angle, 0, 0])
415         mirror([0,0,1])
416         cylinder(r = oring_thick/4 * oring_rm_scale, h=20);
417     }
418     for (r=[0 : 60 : 179]) {
419       rotate([0,0, r]) {
420         height = top_thick_middle - brace_above_below*2;
421         translate([0,0, middle_bot_z + brace_above_below + height/2 ])
422         cube(center=true, [ oring_bore - brace_end_shorter,
423                             brace_hole_width, height ]);
424       }
425     }
426   }
427   if (enable_head_cups)
428     for (r=[0,180])
429       rotate([0,0,r])
430         translate([-implheadcup_large_dia * .5 - implheadcup_thick/2,
431                    -implheadcup_large_dia * .0,
432                    middle_bot_z + 0.1])
433         ImplHeadCup();
434
435 //  translate(strap_hoop_thick * [-0.5, 0, +1])
436 //    translate([handling_dia/2, 0, -side_height])
437 //    rotate([0,180,0]) rotate([0,0,90])
438 //    StrapHoop();
439 }
440
441 module SavingHole(){
442   translate([0,0, -10])
443     cylinder(r= main_dia/2 - jig_rim, h=20);
444 }
445
446 module Jig(){ ////toplevel
447   difference(){
448     union(){
449       translate([0,0, -side_height]){
450         cylinder(r= main_dia/2 + jig_thick, h= side_height + jig_thick);
451       }
452       translate([-jig_mark_rad, 0, jig_thick - jig_mark])
453         cube([jig_mark_rad*2, jig_mark, jig_mark]);
454     }
455     translate([0,0, -side_height-1])
456       cylinder(r= main_dia/2, h= side_height + 1);
457     SavingHole();
458     translate([0,0, -rivet_posn])
459       rotate([90, 0,0])
460       translate([0,0, -100])
461       cylinder(r= jig_hole_dia/2, h = 200);
462   }
463 }
464
465 module CoverPrint(){ ////toplevel
466   rotate([0,180,0]) Cover();
467 }
468
469 module CoverTest2(){ ////toplevel
470   difference(){
471     Cover();
472     SavingHole();
473   }
474 }
475
476 module CoverTest1(){ ////toplevel
477   difference(){
478     CoverTest2();
479     difference(){
480       for (r= [ 40, 147 ]){
481         rotate([0,0, r]){
482           translate([0,0, -10]) {
483             cube([ main_dia*3, main_dia * .53, 18], center=true);
484           }
485         }
486       }
487 //      translate([ 50, 0, 0 ])
488 //      cube([ 100,
489 //             strap_hoop_inside + strap_hoop_thick*2 + 1,
490 //             100 ],
491 //           center=true);
492     }
493   }
494 }
495
496 module ImplHeadCupTest(){ ////toplevel
497   for (r=[0,180])
498     rotate([0,0,r])
499       translate([-17,0,0])
500       ImplHeadCup();
501 }
502
503 module SomeStrap(width){
504   // children(0) is to add, (1) subtract
505   difference(){
506     union(){
507       cylinder(r=sm_outer_rad, h=width);
508       StrapMountProtrusion(smc_cnr_c_x + sm_closure_cnr,
509                            smc_max_y,
510                            sm_closure_cnr,
511                            width);
512       children(0);
513     }
514     translate([0,0,-1])
515       cylinder(r=sm_inner_rad, h=width+2);
516     translate(smc_pos)
517       StrapMountBolt(10, width);
518     translate(smc_pos)
519       cube([ sm_bolt_tighten_allow, 40,100 ], center=true);
520     children(1);
521   }
522 }
523
524 module StrapMountBolt(l_delta, strap_width){ ///toplevel
525   // positioned relative to smc_pos
526   translate([(smc_bolt_nut_eff_thick - sm_bolt_head_thick)/2,
527              smc_bolt_y,
528              strap_width/2]){
529     translate([ -sm_bolt_shaft/2-1, 0,0 ]){
530       rotate([0,90,0]) cylinder(r= sm_bolt_dia/2, h= sm_bolt_shaft+2);
531     }
532     translate([ -sm_bolt_shaft/2, 0,0 ])
533       rotate([0,-90,0])
534       cylinder($fn=6, r=smc_bolt_nut_dia/2,
535                h=smc_bolt_nut_eff_thick + l_delta);
536     translate([ sm_bolt_shaft/2, 0,0 ])
537       rotate([0,90,0])
538       cylinder(r=sm_bolt_head_dia/2, h=sm_bolt_head_thick + l_delta);
539   }
540 }
541
542 module StrapMountProtrusion(half_x, max_y, cnr, width){
543   translate(smc_pos){
544     linear_extrude(height=width, convexity=10){
545       hull(){
546         for (m = [0,1]) mirror([m,0,0]) {
547           translate([-(half_x - cnr), max_y - cnr])
548             circle(r=cnr);
549           translate([-half_x, -sm_inner_rad])
550             square([1,1]);
551         }
552       }
553     }
554   }
555 }
556
557 module StrapMount(){ ////toplevel
558   SomeStrap(sm_main_width){
559     rotate([0,0,180]){
560       StrapMountProtrusion(strap_hoop_inside/2 + strap_hoop_thick,
561                            strap_hoop_thick,
562                            sm_closure_cnr);
563       translate(smc_pos +
564                 [0,0, sm_main_width] +
565                 strap_hoop_thick * [ 0, 0.5, -1.0 ])
566         StrapHoop();
567     }
568     union(){ };
569   }
570 }
571
572 module CatchAssemblyCoreProfile(){
573   difference(){
574     union(){
575       hull(){
576         translate(cpp3) circle(r= catch_cr3);
577         polygon([ cpp3,
578                   cpp2r,
579                   cpp5,
580                   cpph,
581                   cppd
582                   ]);
583       }
584       polygon([cppD,
585                cppC,
586                cpp9,
587                cpp10,
588                cpp11,
589                cpp4,
590                cpp2r,
591                cpp2d,
592                cppA,
593                cppE
594                ]);
595       translate(cpp8) circle(r= catch_cr);
596     }
597     hull(){
598       translate(cpp4) circle(r= catch_cr);
599       translate(cpp5) circle(r= catch_cr);
600       translate(cpp7) circle(r= catch_cr);
601       polygon([cpp4,
602                cppg,
603                cpph,
604                cpp10,
605                cpp11,
606                ]);
607     }
608     translate(cpp2) circle(r= catch_cr);
609   }
610   // if cpp11 is above cpp10, the subtracted hull above
611   // can go down too far.  Ensure we do not cut off below cppy6.
612   polygon([ cppE,
613             cppD,
614             cpp9,
615             [ cpp9[0],            cppy6 ],
616             [ cpp7[0] - catch_cr, cppy6 ],
617             cpp2d
618             ]);
619 }
620
621 module CatchTipProfile(dy){
622   ddy = [0,dy];
623   intersection(){
624     translate(cppF){
625       difference(){
626 //      circle(r = dist2d(cppF, cppd));
627         //circle(r = dist2d(cppF, cppa));
628       }
629     }
630     polygon([ cppa,
631               cppi + ddy,
632               cppd + ddy,
633               cppc,
634               cppb ]);
635   }
636 }
637
638 module CatchHeadProfile(){
639   polygon([ cppd,
640             cppd,
641             cppi,
642             cppf,
643             cppe,
644             cpph ]);
645 }
646
647
648 module CatchCore(){ /////toplevel
649   linear_extrude(height=catch_strap_thick, convexity=10)
650     CatchAssemblyCoreProfile();
651
652   hull(){
653     linear_extrude(height=catch_head_th, convexity=10)
654       CatchTipProfile(0);
655     linear_extrude(height=catch_tip_th, convexity=10)
656       CatchTipProfile(catch_tip_th - catch_head_th);
657   }
658
659   linear_extrude(height=catch_head_th, convexity=10)
660     CatchHeadProfile();
661
662   translate(concat(cppB,[0])) hull(){
663     translate([0,0, catch_knob_height + catch_head_th - catch_knob_dia/2])
664       sphere(r = catch_knob_dia/2);
665     cylinder(r = catch_knob_dia/2, h = 0.1);
666   }
667 }
668
669 module CatchPreDistort(){ /////toplevel
670   scale(100 / sm_inner_rad)
671     rotate([90,0,0])
672     CatchCore();
673 }
674
675 module CatchAssembly(){ /////toplevel
676   rotate([0,0, -(cppe[0] + cppB[0] + catch_pin_slop) / sm_inner_rad * 360/TAU])
677     translate([0,0, catch_assembly_dy])
678     scale(sm_inner_rad / 100)
679     import(str("poster-tube-lid,CatchPostDistort-fa",
680                (coarse ? 20 : 3),
681                ".stl"),
682            convexity=20);
683
684   SomeStrap(catch_strap_width){
685     union(){ }
686     union(){
687       translate([-200, -200, -200])
688         cube([400, 200, 400]);
689     }
690   }
691 }
692
693 module CatchDemo(){ /////toplevel
694   color("blue") translate([0,0,
695                            -catch_assembly_dy
696              ])
697     CatchAssembly();
698   translate([0,0,+side_height
699              ])
700     Cover();
701 }
702
703 module CatchDemoS(){ /////toplevel
704   color("blue") translate([0,0,
705              -catch_assembly_dy
706              ])
707     CatchAssembly();
708   intersection(){
709     translate([0,0,+side_height
710                ])
711       Cover();
712     mirror([0,1,0]) translate([-250,33,0]) cube([500,500,500]);
713   }
714   color("black")
715     translate([0,-33,0])
716     cube([6.15, 2,2], center=true);
717 }
718
719 module CatchPinProfileDemo(){ /////toplevel
720   translate([0, 0 * -bayo_behind,0]) {
721     echo("G ",
722          bayo_n[0] - bayo_e[0]);
723     color("blue") translate([0,0,
724                              +1,
725                ]) {
726       CatchAssemblyCoreProfile();
727       CatchHeadProfile();
728     }
729     translate([0,0,10])
730       color("red")
731       CatchTipProfile(0);
732
733     polygon(bayo_polygon, convexity=10);
734
735     // adhoc show a position
736     color("purple")
737     translate(concat(
738                      cppa,
739                      10
740                      )) difference(){ circle(2.5); circle(2.0); }
741
742  }
743 }
744
745 //ProfilesDemo();
746 //BayonetCutout();
747 //MainProfile();
748 //Cover();
749 //Jig();
750 //CoverTest();
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