// Set
// fdia=2.85
// lightduty=false
-// (or look in filamentspool-sm.scad).
-//
// And print one of these, according to taste
// StorageArmLeft
// StorageArmRight
// NB that the `light duty' version of this is shorter and
// will only take two `light duty' spools.
//
-// For the above, I used the Cura `High detail' PLA profile because
+// A longer arm for three spools is also available:
+// Set
+// fdia=2.85
+// lightduty=false
+// storarm_spools=3
+// (or look in filamentspool-storarm3.scad).
+//
+// And print one of these, according to taste
+// StorageArmLeft
+// StorageArmRight
+//
+// For all of these, I used the Cura `High detail' PLA profile because
// I wanted it pretty, but the `Standard' profile should do fine.
//
// ===== Spools for 1.75mm filament =====
channelslop=selsz(slop,0.75,slop);
exteffrad = 70;
-hubeffrad = selsz(30, 82, 40);
+hubeffrad = selsz(30, 52, 40);
hubbigrad = selsz(20, 38, 38);
-hublwidth = selsz(3, 2.5, 4);
+hublwidth = selsz(3, 2.5, 3.0);
hubstemwidth = 2;
hublthick = 10;
hubaxlerad = selsz(5, 28/2, 28/2);
axleaxlefudgebend = 3;
axlepadlen = 1.0;
-armend_length = 120;
+armend_length = selsz(120, 150, 120);
prongthick=selsz(5,4,5);
prongwidth=selsz(5,4,5);
prongribwidth=3;
prongribheight=selsz(0,0,4);
-ratchetstep=15;
+ratchetstep=10;
ratchettooth=3;
ratchettoothheight=5;
ratchettoothsmoothr=1;
ratchettoothslope=0.75;
overlap=0.5;
cupwidth=selsz(40,25,50);
-cupheight=selsz(55,25,55);
+cupheight=selsz(75,35,75);
cupstrong_dx=selsz(0,0,-10);
hubaxlelen = selsz(25, 62.5, 77.5);
echo(hubaxlelen);
-overclipsmaller=-2.5;
-overclipbigger=0.0;
+overclipsmaller=0.5;
+overclipbigger=2.5;
wingspoke=2.5;
wingsize=6;
include <cliphook.scad>
include <filamentteeth.scad>
include <axlepin.scad>
+include <commitid.scad>
hub_clip_baseextend = (hubeffrad - DoveClip_depth()
- hubbigrad + hublwidth);
-armendwallthick + totalwidth/2,
-armendbasethick -1])
cylinder(r= nondove_armhole_hole/2, h=totalheight+2, $fn=10);
+ translate([-nondove_armbase, -armendwallthick, -armendbasethick])
+ rotate([90,0,0])
+ Commitid_BestCount([nondove_armbase, totalwidth]);
}
}
- for (otherside=[0,1]) {
- for (circum = [300:100:1500]) {
- assign(rad = circum / tau)
- assign(fn = str("filamentspool-number-n",circum,".dxf"))
- assign(rotateoffset = [0, totalwidth/2, 0])
- assign(xlen = rad - real_exteffrad) {
- if (xlen >= numbers_tick_width/2
- + (otherside ? numbers_height_allow : 0) &&
- xlen <= length - (otherside ? 0 : numbers_height_allow))
- translate([xlen, -armendwallthick,
- -armendbasethick + (totalheight - numbers_tick_len)/2])
- translate(rotateoffset)
- rotate([0,0, otherside*180])
- translate(-rotateoffset){
- translate([-numbers_tick_width/2, -1, 0])
- cube([numbers_tick_width, numbers_relief+1, numbers_tick_len]);
- translate([numbers_tick_width/2 + numbers_tick_linespc,
- 1,
- numbers_tick_len])
- rotate([90,0,0])
- rotate([0,0,-90])
- linear_extrude(height= numbers_relief+1)
- // scale(templatescale)
- import(file=fn, convexity=100);
- }
+ difference(){
+ union(){
+ difference(){
+ translate([0, -armendwallthick, -armendbasethick])
+ cube([length, totalwidth, totalheight]);
+ translate([-1, 0, 0])
+ cube([length+1 - ratchettooth, channelwidth, channeldepth+1]);
+ translate([-1, 0, ratchettoothheight])
+ cube([length+2, channelwidth, channeldepth+1]);
+ }
+ for (dx = [0 : ratchetstep : length - ratchetstep]) translate([dx,0,0]) {
+ translate([ratchettoothsmoothr+0.5, armendwallthick/2, 0]) minkowski(){
+ rotate([90,0,0])
+ cylinder($fn=20, r=ratchettoothsmoothr, h=armendwallthick);
+ multmatrix([ [ 1, 0, ratchettoothslope, 0 ],
+ [ 0, 1, 0, 0 ],
+ [ 0, 0, 1, 0 ],
+ [ 0, 0, 0, 1 ]])
+ cube([ratchettooth - ratchettoothsmoothr*2,
+ channelwidth, ratchettoothheight - ratchettoothsmoothr]);
+ }
}
}
- }
- difference(){
- translate([0, -armendwallthick, -armendbasethick])
- cube([length, totalwidth, totalheight]);
- translate([-1, 0, 0])
- cube([length+1 - ratchettooth, channelwidth, channeldepth+1]);
- translate([-1, 0, ratchettoothheight])
- cube([length+2, channelwidth, channeldepth+1]);
- }
- for (dx = [0 : ratchetstep : length - ratchetstep]) translate([dx,0,0]) {
- translate([ratchettoothsmoothr+0.5, armendwallthick/2, 0]) minkowski(){
- rotate([90,0,0])
- cylinder($fn=20, r=ratchettoothsmoothr, h=armendwallthick);
- multmatrix([ [ 1, 0, ratchettoothslope, 0 ],
- [ 0, 1, 0, 0 ],
- [ 0, 0, 1, 0 ],
- [ 0, 0, 0, 1 ]])
- cube([ratchettooth - ratchettoothsmoothr*2,
- channelwidth, ratchettoothheight - ratchettoothsmoothr]);
+ for (otherside=[0,1]) {
+ for (circum = [300:100:1500]) {
+ assign(rad = circum / tau)
+ assign(fn = str("filamentspool-number-n",circum,".dxf"))
+ assign(rotateoffset = [0, totalwidth/2, 0])
+ assign(xlen = rad - real_exteffrad) {
+ if (xlen >= numbers_tick_width/2
+ + (otherside ? numbers_height_allow : 0) &&
+ xlen <= length - (otherside ? 0 : numbers_height_allow))
+ translate([xlen, -armendwallthick,
+ -armendbasethick + (totalheight - numbers_tick_len)/2])
+ translate(rotateoffset)
+ rotate([0,0, otherside*180])
+ translate(-rotateoffset){
+ translate([-numbers_tick_width/2, -1, 0])
+ cube([numbers_tick_width, numbers_relief+1, numbers_tick_len]);
+ translate([numbers_tick_width/2 + numbers_tick_linespc,
+ 1,
+ numbers_tick_len])
+ rotate([90,0,0])
+ rotate([0,0,-90])
+ linear_extrude(height= numbers_relief+1)
+ // scale(templatescale)
+ import(file=fn, convexity=100);
+ }
+ }
+ }
+ }
+
+ if (usedove()){
+ translate([0, -armendwallthick, -armendbasethick])
+ Commitid_BestCount_M([length/3, totalwidth]);
}
}
}
}
}
-module FilamentCup() { ////toplevel
+module FilamentCupPositive() {
FilamentCupHandle();
gapy = prongwidth;
}
}
+module FilamentCup() { ////toplevel
+ difference(){
+ FilamentCupPositive();
+ translate([0, -stalkwidth, 0])
+ Commitid_BestCount_M([stalklength - stalkwidth, stalkwidth]);
+ }
+}
+
module CupSecuringClipSolid(w,d,h1,h2){
rotate([0,-90,0]) translate([0,-h1/2,-w/2]) linear_extrude(height=w) {
polygon(points=[[0,0], [d,0], [d,h2], [0,h1]]);
minkowski(){
CupSecuringClipSolid(w=totalwidth,
d=overclipdepth + xdepth,
- h1=hbase - overclipsmaller,
- h2=hbase + overclipbigger);
+ h1=hbase + overclipbigger,
+ h2=hbase - overclipsmaller);
cylinder($fn=20, h=0.01, r=overcliproundr+xrad);
}
}
}
}
translate([0,0,-1]) cylinder($fn=60, h=hubaxlelen+2, r=axlerad);
+
+ rotate([0,0, selsz(0,0,45)])
+ translate([axlerad+hublwidth,
+ -hublwidth/2,
+ 0])
+ rotate([90,0,0])
+ Commitid_BestCount([(hubbigrad-hublwidth) - (axlerad+hublwidth),
+ hublthick +
+ hublwidth/2 * hubaxlelen/(hubbigrad-axlerad),
+ ]);
}
}
// calculated
+storarm_spools = 2;
+
storarm_axlerad = hubaxlerad - storarm_axleslop;
-storarm_mainlen = hubaxlelen*2 + storarm_axleslop
+storarm_mainlen = hubaxlelen*storarm_spools
+ + storarm_axleslop*(storarm_spools-1)
+ (storarm_cope_hubaxle_mk1 ? 10 : 0);
storarm_totlen = storarm_mainlen + storarm_hooklen;
+storarm_taller = storarm_axleslop * (storarm_spools-2);
+
storarm_mid_off_y = storarm_axlerad;
storarm_base_off_y = storarm_mid_off_y + storarm_base_h/2;
}
}
-module StorageArmDiagPart(xmin, xmax, shear, adjbot){
+module StorageArmDiagPart(xmin, xmax, adjbot, shear){
hull(){
StorageArmDiagPartSide(xmin,xmax);
module StorageArmRight(){ ////toplevel
shear = storarm_hookheight / (storarm_mainlen/2);
+ shear2 = shear + storarm_taller / (storarm_mainlen/2);
+ base_xyz = [-storarm_base_d, -storarm_base_off_y, storarm_base_w];
- StorageArmDiagPart(-1, storarm_mainlen/2+1, shear, 0);
- StorageArmDiagPart(storarm_mainlen/2-1, storarm_mainlen+1, shear/2,
- storarm_hookheight/2);
+ StorageArmDiagPart(-1, storarm_mainlen/2+1,
+ -storarm_taller, shear2);
+ StorageArmDiagPart(storarm_mainlen/2-1, storarm_mainlen+1,
+ storarm_hookheight/2, shear/2);
translate([0, storarm_hookheight, 0])
StorageArmDiagPart(storarm_mainlen, storarm_totlen,
- shear/2, -storarm_hookheight/2);
+ -storarm_hookheight/2, shear/2);
difference(){
union(){
hull(){
- translate([-storarm_base_d, -storarm_base_off_y, storarm_base_w])
+ translate(base_xyz)
rotate([0,90,0])
linear_extrude(height=storarm_base_mind)
StorageArmBaseTemplate();
- StorageArmDiagPart(-1, 0, shear, 0);
+ StorageArmDiagPart(-1, 0, -storarm_taller, shear);
}
StorageArmAtMountingHoles(){
cylinder(r= storarm_screw_hole_head/2,
cylinder(r= (storarm_screw_hole_head + storarm_screw_hole_head_slop)/2,
h=20);
}
+ translate(base_xyz + [0, storarm_base_h/4, -storarm_base_w/4])
+ rotate([0,90,0])
+ Commitid_BestCount([storarm_base_w/2, storarm_base_h/2]);
}
}