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tape_puller.scad
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/* [Feeder Settings] */
//select the motor to drive the worm gear
Motor_Type = 2; //[0:SG90, 1:MG90, 2:N20]
//select N20 rpm
N20_RPM = 0; //[0:300 rpm, 1:200 rpm, 2:150 rpm]
//select SMD tape width
SMD_Tape_Width = 0; //[0:8mm tape, 1:12mm tape, 2:16mm tape, 3:24mm tape]
/* [Gear Settings] */
//worm gear mount type
Worm_Mount = 1; //[0:screw head, 1:bearing 683]
//fixed pinion mount type
Pinion_1_Mount = 3; //[1:screw head, 2:pin, 3:bearing 683]
//lever pinion mount type
Pinion_2_Mount = 4; //[2:pin, 4:post]
/* [3D Printing Settings] */
//assemble buildplate or show assembly
Prepare_For_3D_Printing = false;
//create a part to test your settings --- not jet implemented
3D_Printing_Test_Part = false;
//select parts to be created
Part = 0; //[0:worm, 1:pinnion 1, 2:pinnion 2, 3:case, 4:lever]
//layerheight you want to use, fractions of this setting can be used as well
3D_Printing_Layerheight = 0.25; //[0.25:0.25, 0.2:0.2]
//extrusionwith in µm, depends on your nozzle diameter and slicer settings
3D_Printing_Extrusionwidth = 450;
/* [Mechanical Settings] */
//screw type to use to mount to feeder case
Feeder_Mount_Screw = 1; //[0:countersunk, 1:flat head]
//M3 throughhole diameter in µm
3D_Printing_M3_through = 3400;
//M3 tap diameter in µm
3D_Printing_M3_tap = 2800;
//M3 head diameter in µm
3D_Printing_M3_head = 6000;
//GearMount:Screw head diameter, needs to be a tight fit in µm
3D_Printing_Mount_head = 5700;
//GearMount:Pin loose diameter in µm
3D_Printing_Pin_loose = 3400;
//GearMount:Pin pressfit diameter in µm
3D_Printing_Pin_pressfit = 2800;
//GearMount:Ballbearing 683 pressfit diameter in µm
3D_Printing_683_pressfit = 7000;
//GearMount:Post outer diameter, needs to freely turn on 9 mm Post, in µm
3D_Printing_Post_loose = 9300;
//thickness of used M3 shims, 0.5 mm is standard, in µm
Shim_Thickness = 500;
/* [Debug/View] */
//hide hardware/vitamins
Hide_Hardware = false;
//hide lid for more insight
Hide_Lid = false;
//hide motor (servo or N20)
Hide_Motor = false;
//enable cutting assembly
Cut = false;
//cut in x direction
CUT_X = 0; //[0:100]
//cut in y direction
CUT_Y = 0; //[0:100]
//cut height in z direction
CUT_Z = 0; //[0:100]
/* [Hidden] */
//shorten some param for userinterface
3dp_lh = 3D_Printing_Layerheight;
3dp_ew = 3D_Printing_Extrusionwidth/1000;
echo("TODO");
echo("reduce screw variaty");
echo("------Releas Version-------------");
echo("6 ballbearing gear 2");
echo("1 chamfer on self tap screws");
echo("3 Testteil einbauen");
echo("5 case_mounts add inside and outside chamfer to strengthen lid post");
echo("5 print BOM");
echo("7 screws for servo and N20 mounting");
echo("10 calc cost");
//use/include librarys
include <libs/hardware.scad>
use <libs/nutsnbolts/cyl_head_bolt.scad>
include <libs/N20.scad>
servo_type = Motor_Type;
include <libs/servo.scad>
include <libs/gears.scad>
include <param.scad>
difference(){
partgenerator();
if (!Prepare_For_3D_Printing){
if(Cut&&(CUT_X!=0))
translate ([100*CUT_X/100-100,-25,0])cube([100,50,100],center=false);
if(Cut&&(CUT_Y!=0))
translate ([-5,case_w/2-case_w*CUT_Y/100,-5])cube([100,50,100],center=false);
if(Cut&&(CUT_Z!=0))
translate ([0,-25,80-80*CUT_Z/100])cube([100,50,100],center=false);
}
}
module partgenerator(){
//pepare for 3dprinting?
if (Prepare_For_3D_Printing) {
//higher resolution for finer details
$fn = 96;
//all parts - removed caused scad to crash
// if (Part==0){
// // create gears
// translate([gears_worm_r,0,0])gear(5+Motor_Type,Worm_Mount);
// translate([-2*gears_pinion1_r,0,gears_pinion_with])rotate([180,0,0])gear(Pinion_2_Mount,Worm_Mount);
// translate([-(gears_pinion2_r+gears_worm_r)/2,-2.5*gears_pinion2_r,gears_pinion_with])rotate([180,0,0])gear(Pinion_1_Mount,Worm_Mount,true);
// //case + lever
// translate([gears_worm_r*3,0,case_w/2])rotate([90,0,0])case(1);
// translate([2*case_h,0,case_w/2])rotate([90,180,0])case(2);
// if (Motor_Type == 2)
// translate([gears_worm_r*8,-case_w,0])
// rotate([180,0,0])
// translate([-wormx,0,-wormz+0.5])case(3);
// translate([-(gears_pinion2_r+gears_worm_r)/2+40,-2.5*gears_pinion2_r+20,case_lever_w/2])rotate([90,0,-90])case_lever(1);
// translate([-(gears_pinion2_r+gears_worm_r)/2-10,-2.5*gears_pinion2_r+20,case_lever_w/2])rotate([-90,0,180])case_lever(2);
// }
//worm
if (Part==0){
translate([0,0,0])gear(5+Motor_Type,Worm_Mount);
}
//pinnion 1
if (Part==1){
translate([0,0,gears_pinion_with])rotate([180,0,0])gear(Pinion_1_Mount,Worm_Mount,true);
}
//pinnion 2
if (Part==2){
translate([0,0,gears_pinion_with])rotate([180,0,0])gear(Pinion_2_Mount,Worm_Mount);
}
//case
if (Part==3){
translate([-case_h+10,0,case_w/2])rotate([90,0,0])case(1);
translate([+case_h-10,0,case_w/2])rotate([90,180,0])case(2);
if (Motor_Type == 2)
translate([-case_h+10+gears_worm_r*4,-case_w,0])
rotate([180,0,0])
translate([-wormx,0,-wormz+0.5])case(3);
}
//lever
if (Part==4){
translate([70,40,case_lever_w/2])rotate([90,0,-90])case_lever(1);
translate([20,40,case_lever_w/2])rotate([-90,0,180])case_lever(2);
}
}
//show assembly
else {
// reduce resolution for faster rendering
$fn = 20;
//wormgear
translate([wormx,0,wormz])
rotate([0,0,90])
gear_dummy(5+Motor_Type,Worm_Mount);
//gear1
translate([gear1x,gears_pinion_with/2,gear1z])
rotate([90,0,0])
gear_dummy(Pinion_1_Mount,Worm_Mount,true);
//gear2
translate([gear2x,-gears_pinion_with/2,gear2z])
rotate([-90,0,0])
gear_dummy(Pinion_2_Mount,Worm_Mount,false);
//case
if(!Hide_Lid) color("GreenYellow")case(2);
color("DarkOliveGreen")translate([0,0.01,0])case(1);
if(Motor_Type == 2) color("Olive")case(3);
//case lever
color("Green")case_lever(1);
if(!Hide_Lid) color("Green")case_lever(2);
//servo + screws
if (((Motor_Type==0)||(Motor_Type==1))&&(!Hide_Motor)){
translate([wormx,0,wormz-servo_arm_dist])rotate([0,180,180])servo();
echo("add screws here");
//if(!Hide_Hardware))
}
//N20
if ((Motor_Type==2)&&(!Hide_Motor)){
translate([wormx,0,wormz-case_walls])rotate([0,0,0])N20();
echo("add screws here");
//if(!Hide_Hardware))
}
//mounted on screw -> create screws
if ((Pinion_1_Mount==1)&&(!Hide_Hardware)){
color("Silver")translate([gear1x,-gears_pinion_with/2+3,gear1z])rotate([-90,0,0])screw("M3x6");
translate([gear1x,-gears_pinion_with/2-0.5,gear1z])rotate([-90,0,0])hardware_shim(3.2,7,gears_pinion_mount_shim);
}
//gear 1 mounted on pin -> creat pin
if ((Pinion_1_Mount==2)&&(!Hide_Hardware)){
//add pins
translate([gear1x,6+0.45,gear1z])rotate([-90,0,0])hardware_pin_din7(3,12,0.45);
//add shims
translate([gear1x,-gears_pinion_with/2-gears_pinion_mount_shim,gear1z])rotate([-90,0,0])hardware_shim(3.2,7,gears_pinion_mount_shim);
translate([gear1x,+gears_pinion_with/2,gear1z])rotate([-90,0,0])hardware_shim(3.2,7,gears_pinion_mount_shim);
}
//gear 1 mounted bearing -> create bearing
if ((Pinion_1_Mount==3)&&(!Hide_Hardware)){
translate([gear1x,-gears_pinion_with/2+2,gear1z])rotate([-90,0,0])hardware_bearing_683();
//screws for bearing
hardware_screw_din7991(gear1x,-gears_pinion_with/2+2+4.5,gear1z,90,0,0,3,8,5);
// echo("Bearing 683");
// echo("Din 7991 M3x8 683");
}
//gear 2 mounted on pin -> creat pin
if ((Pinion_2_Mount==2)&&(!Hide_Hardware)){
//add pin
translate([gear2x,5+0.45,gear2z])
rotate([-90,0,0])
hardware_pin_din7(3,10,0.45);
//add shims on both sides
translate([gear2x,-gears_pinion_with/2-gears_pinion_mount_shim,gear2z])rotate([-90,0,0])hardware_shim(3.2,7,gears_pinion_mount_shim);
translate([gear2x,+gears_pinion_with/2,gear2z])rotate([-90,0,0])hardware_shim(3.2,7,gears_pinion_mount_shim);
}
//gear 2 mounted on post -> creat scew -> screw connects both lever halfs
if ((Pinion_2_Mount==4)&&(!Hide_Hardware)){
color("Silver")translate([gear2x,-case_lever_w/2+3.5,gear2z])rotate([90,0,0])screw("M3x6");
}
//screw and shim to hold worm gear
if (!Hide_Hardware){
worm_shimz = wormz+gears_worm_height;
worm_screw_z = wormz + gears_worm_height + gears_pinion_mount_shim + 2;
if (Worm_Mount==0){
color("Silver")translate([wormx,0,worm_screw_z])rotate([0,0,0])screw("M3x8");
translate([wormx,0,worm_shimz])rotate([0,0,0])hardware_shim(3.2,7,gears_pinion_mount_shim);
}
if (Worm_Mount==1){
translate([wormx,0,wormz+gears_worm_height])hardware_bearing_683();
//screws for bearing
hardware_screw_din7991(wormx,0,wormz+gears_worm_height+4,-180,0,0,3,8,5);
}
color("Silver")translate([rotate_x,-3.5,rotate_z])rotate([90,0,0])screw("M3x8");
color("Silver")translate([5,-3.5,57])rotate([90,0,0])screw("M3x8");
//removed screw cause i removed lower part for easy access
//color("Silver")translate([wormx+servo_shaft_dist,-3.5,4])rotate([90,0,0])screw("M3x8");
//lever screw + shim
translate([5,0,case_h+case_lever_t1+3])rotate([0,0,0])hardware_shim(3.2,7,gears_pinion_mount_shim);
color("Silver")translate([5,0,case_h+case_lever_t1+3+0.5])rotate([0,0,0])screw("M3x16");
//hardware_screw_din7991(7,0,case_h+case_lever_t1+3,180,0,0,3,16,6);
}
}
}
//part = create 1st half or 2nd half or both
module case_lever(part=0){
key_h =5;
key_size =8;
cutout_y = gears_pinion_with+2*gears_pinion_mount_shim+2*3dp_lh;
screw_post_h = case_lever_w-(case_lever_w - cutout_y)/2-2*3dp_lh;
d = case_post_bot_od+0.5;
screw_1_x =14;
screw_1_z =case_h+3+case_lever_t1/2+1.5;
screw_2_x =rotate_x+3.5;
screw_2_z =rotate_z+(case_post_bot_od+0.5)/2+head_912_loose_d/2+1.5;
union(){
if((part==1)||(part==0))
union(){
difference(){
//1st half of lever
case_lever_body();
cube([100,case_w,case_h*2],false);
//remove key, key was removed, we now screw these halfs together
//translate([rotate_x,0,rotate_z+d/2+key_size/2-0.5])rotate([90,-90,0])linear_extrude(height = key_h, center = true, convexity = 10, twist = 0)circle(d = key_size,$fn=3,false);
//remove screw in hole
if (Pinion_2_Mount==4)translate([0,-case_lever_w/2,0])case_screw_post(gear2x,gear2z,case_lever_w,false);
//screw hole to connect lever halfs
translate([0,-case_lever_w/2,0])case_screw_post(screw_1_x,screw_1_z,case_lever_w,false);
translate([0,-case_lever_w/2,0])case_screw_post(screw_2_x,screw_2_z,case_lever_w,false);
}
//add screw in post
if (Pinion_2_Mount==4)difference(){
translate([gear2x,-case_lever_w/2,gear2z])rotate([-90,0,0])cylinder(h=screw_post_h, d=gears_pinion_mount_post_id, center=false);
translate([0,-case_lever_w/2,0])case_screw_post(gear2x,gear2z,case_lever_w,false);
}
}
if((part==2)||(part==0))
union(){
difference(){
case_lever_body();
//remove half of body
translate([0,-case_w,0])cube([100,case_w,case_h*2],false);
//remove screw post
if (Pinion_2_Mount==4)translate([gear2x,-case_lever_w/2+3,gear2z])rotate([-90,0,0])cylinder(h=case_lever_w, d=case_post_top_od-0.1, center=false);
}
//add key, key was removed, we now screw these halfs together
//translate([rotate_x,0,rotate_z+d/2+key_size/2-0.5])rotate([90,-90,0])linear_extrude(height = key_h-1, center = true, convexity = 10, twist = 0)circle(d=key_size-0.5,$fn=3,false);
//add screw in post
if (Pinion_2_Mount==4)translate([0,0,0])case_screw_post(gear2x,gear2z,case_lever_w,true);
//screws to connect both lever halfs
// case_screw_post(screw_1_x,screw_1_z,case_lever_w,true);
}
}
}
module case_lever_body(){
offset = 7;
//calc main points for shape, we only need x and z, P0 is bottom left corner
//points
P0_x = rotate_x-case_lever_t2/2;
P0_z = rotate_z;
P1_x = rotate_x+case_lever_t2/2;
P1_z = rotate_z;
P2_x = P1_x;
P2_z = gear2z + gear2x - P2_x + 2*offset/sqrt(2);
P5_z = case_h + 3;
P3_z = P5_z + case_lever_t1;
P3_x = P2_x - P3_z + P2_z;
P4_x = 1;
P4_z = P3_z;
P5_x = P4_x;
P7_x = P0_x;
P7_z = gear1z + gear1x - P7_x + 2*(gears_pinion1_r + case_tape_channel/2)/sqrt(2);
P6_z = P5_z;
P6_x = P7_x - P6_z + P7_z;
//with of cutout for gear and tape
cutout_y = (Pinion_2_Mount == 2)? (gears_pinion_with+2*gears_pinion_mount_shim+2*3dp_lh): (gears_pinion_with+2*3dp_lh);
//cutout_y = gears_pinion_with+2*gears_pinion_mount_shim+2*3dp_lh;
cutout_z = P3_z-gear2z+4;
cutout_x = gear2x-gear1x+11;
//screw positions
screw_1_x =14;
screw_1_z =case_h+3+case_lever_t1/2+1.5;
screw_2_x =rotate_x+3.5;
screw_2_z =rotate_z+(case_post_bot_od+0.5)/2+head_912_loose_d/2+1.5;
//create actual shape
difference(){
union(){
//mainshape of lever
rotate([90,0,0])translate([0,0,-case_lever_w/2])linear_extrude(height = case_lever_w, center = false, convexity = 10, twist = 0)polygon(points=[[P0_x,P0_z],[P1_x,P1_z],[P2_x,P2_z],[P3_x,P3_z],[P4_x,P4_z],[P5_x,P5_z],[P6_x,P6_z],[P7_x,P7_z]]);
//rotate cylinder
translate([rotate_x,-case_lever_w/2,rotate_z])rotate([-90,0,0])cylinder(h=case_lever_w, d=case_lever_t2, center=false);
//screw cylinder
translate([screw_1_x,-case_lever_w/2,screw_1_z])rotate([-90,0,0])cylinder(h=case_lever_w, d=case_post_bot_od, center=false);
}
//cutout for gear
union(){
//cutout for gear 2
translate([gear2x,-cutout_y/2,gear2z])rotate([-90,0,0])cylinder(h=cutout_y, d=gears_pinion2_ad+2, center=false);
//cutout for tape
translate([gear2x-cutout_x,-cutout_y/2,gear2z-2])cube([cutout_x,cutout_y,cutout_z],false);
}
//screw hole
translate([screw_1_x,-case_lever_w/2-0.1,screw_1_z])rotate([-90,0,0])cylinder(h=case_lever_w+0.2, d=M3_drill_hole_d, center=false);
translate([screw_2_x,-case_lever_w/2-0.1,screw_2_z])rotate([-90,0,0])cylinder(h=case_lever_w+0.2, d=M3_drill_hole_d, center=false);
//hole for mount/to rotate
translate([rotate_x,-(case_lever_w+1)/2,rotate_z])rotate([-90,0,0])union(){
d = case_post_bot_od+0.5;
cylinder(h=case_lever_w+1, d=d, center=false);
//chamfer for hole
translate([0,0,-0.5])cylinder(2, d/2+2.5,d/2, false);
translate([0,0,case_lever_w-0.5])cylinder(2, d/2,d/2+2.5, false);
}
//hole for gear mount
if (Pinion_2_Mount==2)hole_pin(gear2x,-case_lever_w/2,gear2z,-90,0,0,case_lever_w,pin_d_fixed,true);
//hole for springloaded screw
hull() {
translate([5,0,P5_z + case_lever_t1/2])cylinder(h=case_lever_t1+1, d=M3_loose_hole_d, center=true);
translate([8,0,P5_z + case_lever_t1/2])cylinder(h=case_lever_t1+1, d=M3_loose_hole_d, center=true);
}
}
case_gear_mounts(gear2x,-case_lever_w/2,gear2z,-90,0,0,Pinion_2_Mount,case_lever_w);
}
//module case(gears_pinion1_r,gears_pinion2_r,gear1x,gear2x,wormx,gear1z,gear2z,wormz){
module case(part=0){
//lenght of case depends on feeder parameters
case_l = (Motor_Type == 2)? (wormx+case_offset_n20+case_tape_channel+case_lever_t2): (wormx+servo_mount_l/2+servo_shaft_dist+case_tape_channel+case_lever_t2);
d_gearspacer=8;
//cutout wormgear
h_cutount = (Motor_Type == 2)? (gears_worm_height+(1-Worm_Mount)*gears_pinion_mount_shim+0.5) : (gears_worm_height+servo_arm_dist+(1-Worm_Mount)*gears_pinion_mount_shim);
l_cutount = gears_worm_da+4;
w_cutount = case_w+1;
cutoutz = (Motor_Type == 2)? (wormz + h_cutount/2-0.5) : (wormz + h_cutount/2-servo_arm_dist);
//tape input slot
l_slot = gears_pinion1_r*4;
w_slot = gears_pinion_with+0.5;
h_slot = case_walls+0.2;
slotx=(gear2x-gear1x)/2+gear1x;
slotz=case_h-case_walls/2;
//caculate edge points of case in a clockwise direction
P0_x = 0;
P0_y = 0;
P1_x = (Motor_Type == 2)? (wormx+case_offset_n20) : (wormx+servo_mount_l/2+servo_shaft_dist);
P1_y = P0_y;
P2_x = P1_x;
P2_y = (Motor_Type == 2)? (wormz-case_walls-0.5) : (wormz-servo_arm_dist-servo_mount_dist);
P3_x = case_l;
P3_y = P2_y;
P4_x = P3_x;
P4_y = P3_y+30-15;
P5_x = P4_x-15-15;
P5_y = case_h;
P6_x = 0;
P6_y = P5_y;
P7_x = case_walls;
P7_y = 8;
P8_x = P1_x;
P8_y = P7_y;
P9_x = P1_x;
P9_y = -P9_x+gear1z+gear1x+2*(gears_pinion1_r-case_tape_channel/2)/sqrt(2);
P10_y = P5_y;
P10_x = P9_x-P10_y+P9_y;
P11_x = P7_x;
P11_y = P2_y;
//heights for case sections
height_wall = case_walls_z;
height_middle = case_w-height_wall;
//create mainbody of the case
if((part==1)||(part==0)){
translate([0,-case_w/2,0])
difference(){
//create base body
union(){
rotate([90,0,0]){
//build outer thin wall of case
translate([0,0,-height_wall])linear_extrude(height = height_wall, center = false, convexity = 10, twist = 0)polygon(points=[[P0_x,P0_y],[P1_x,P1_y],[P2_x,P2_y],[P3_x,P3_y],[P4_x,P4_y],[P5_x,P5_y],[P6_x,P6_y]]);
//build outer thin wall of case
translate([0,0,-height_middle])linear_extrude(height = height_middle, center = false, convexity = 10, twist = 0)polygon(points=[[P0_x,P0_y],[P1_x,P1_y],[P2_x,P2_y],[P8_x,P8_y],[P7_x,P7_y],[P11_x,P11_y],[P2_x,P2_y],[P9_x,P9_y],[P10_x,P10_y],[P6_x,P6_y]]);
}
//add post for lever to rotate on
union(){
translate([rotate_x,0,rotate_z])rotate([-90,0,0])cylinder(h=height_middle-3dp_lh, d=case_post_bot_od, center=false);
translate([rotate_x,0,rotate_z])rotate([-90,0,0])post_chamfer(case_post_bot_od-0.01,case_post_bot_od+2);
}
}
//union of stuff to remove from base body
union(){
//round corner of lever rotation post
difference(){
translate([rotate_x,-0.5,rotate_z-case_lever_t2])cube([case_lever_t2,case_w+1,case_lever_t2],false);
translate([rotate_x,-0.5,rotate_z])rotate([-90,0,0])cylinder(h=case_w+1, d=case_lever_t2, center=false);
}
//connection to feeder
union(){
//screw holes to connect to feeder
if (Feeder_Mount_Screw==0){
hole_screw_countersunk(wormx,feeder_mount_y,case_h-20.5,0,-90,0,3.5,wormx+0.1,6,wormx-case_walls+0.5);
hole_screw_countersunk(case_walls,feeder_mount_y,case_h-60.5,0,-90,0,3.5,case_walls+0.1,6,0.5);
}else{
//hole_screw_912_countersunk(x,y,z,rx,ry,rz,d,l,d_head,k);
hole_screw_912_countersunkxy(wormx,feeder_mount_y,case_h-20.5,0,-90,0,3.5,wormx+0.1,6,wormx-case_walls);
hole_screw_912_countersunkxy(case_walls,feeder_mount_y,case_h-60.5,0,-90,0,3.5,case_walls+0.1,6,0);
}
//hole for cable routing
translate([case_walls/2,feeder_mount_y,case_h-48.5])cube([case_walls+1,6,6],true);
}
//features for gears + worm
union(){
//cutout fot worm bearing if used
if (Worm_Mount==1){
translate([wormx,case_w/2,cutoutz+h_cutount/2-0.1])rotate([0,0,0])cylinder(h=3+0.1, d=gears_pinion_mount_683, center=false);
translate([wormx,case_w/2,cutoutz+h_cutount/2-0.1])cylinder(h=worm_screw_h, d=head_912_loose_d, center=false);
}
//cutout for gear
translate([gear1x,case_w/2-gears_pinion_with/2-1,gear1z])rotate([-90,0,0])cylinder(h=case_w, d=gears_pinion1_ad+1, center=false);
//cutout for wormgear
translate([wormx,case_w/2,cutoutz])cube([l_cutount,w_cutount,h_cutount],true);
//cutout for wormgear screw head
//worm_screw_h = 3.5+wormz-gears_worm_height;
worm_screw_z = wormz + gears_worm_height + 0.5 + 2;
worm_screw_h = case_h-worm_screw_z+0.1;
translate([wormx,case_w/2,worm_screw_z])cylinder(h=worm_screw_h, d=head_912_loose_d, center=false);
//hole worm screw
translate([wormx,case_w/2,case_h-case_walls-9.5])
rotate([0,0,0])
cylinder(h=case_walls+10, d=M3_loose_hole_d, center=false);
//remove material for gear mounts
translate([gear1x,case_w+0.5,gear1z])
rotate([90,0,0])
cylinder(h=case_w+1, d=M3_drill_hole_d, center=false);
}
//features for servo
if (Motor_Type != 2) union(){
//remove servo body in case case_walls_z in to high
translate([wormx,case_w/2,wormz-servo_arm_dist])
rotate([0,180,180])
servo_body(servo_w,servo_h,servo_l,servo_shaft_d,servo_shaft_h,servo_shaft_dist,servo_mount_l,servo_mount_dist);
translate([wormx,case_w/2+servo_w-0.1,wormz-servo_arm_dist])
rotate([0,180,180])
servo_body(servo_w,servo_h,servo_l,servo_shaft_d,servo_shaft_h,servo_shaft_dist,servo_mount_l,servo_mount_dist);
//holes to mount servo
translate([wormx,case_w/2,wormz-servo_arm_dist])
rotate([0,180,180])
servo_mount(servo_h,servo_shaft_dist,servo_hole_dist);
}
//remove cube for N20 adapter
if (Motor_Type == 2)union(){
rotate([90,0,0])translate([0,0,-(height_middle+height_wall)])linear_extrude(height = case_w+0.1, center = false, convexity = 10, twist = 0)polygon(points=[[P11_x,P11_y-0.01],[P2_x,P2_y-0.01],[P2_x,P2_y+case_walls],[P11_x,P11_y+case_walls]]);
//holes to connect to case
hole_screw_countersunk(case_walls+4,case_w/2,P2_y,0,0,0,M3_drill_hole_d,case_walls+5,6,1);
hole_screw_countersunk(wormx+l_cutount/2+4,case_w/2,P2_y,0,0,0,M3_drill_hole_d,case_walls+5,6,1);
}
//screw holes case
union(){
case_screw_post(rotate_x,rotate_z,case_w,false);
case_screw_post(5,57,case_w,false);
//case_screw_post(wormx+servo_shaft_dist,4,case_w,false); not used anymore
//screwin hole for lever
hole_screw_countersunk(5,case_w/2,case_h+1,180,0,0,M3_drill_hole_d,8,M3_drill_hole_d+2,1);
}
//remove lower part for easy access to servo
translate([P7_x,-0.1,-0.1])cube([P8_x-P7_x+0.1,case_w+0.2,P2_y+0.1],false);
}
}
//add pinion mount
translate([0,-case_w/2,0])case_gear_mounts(gear1x,0,gear1z,-90,0,0,Pinion_1_Mount,case_w);
}
//create lid for case
if((part==2)||(part==0)){
translate([0,-case_w/2,0])
difference(){
//create base body
union(){
rotate([90,0,0]){
//build outer thin wall of case
translate([0,0,-(height_middle+height_wall)])linear_extrude(height = height_wall, center = false, convexity = 10, twist = 0)polygon(points=[[P0_x,P0_y],[P1_x,P1_y],[P2_x,P2_y],[P3_x,P3_y],[P4_x,P4_y],[P5_x,P5_y],[P6_x,P6_y]]);
}
//screw holes case
translate([0,case_w/2,0])
union(){
case_screw_post(rotate_x,rotate_z,case_w,true);
case_screw_post(5,57,case_w,true);
//case_screw_post(wormx+servo_shaft_dist,4,case_w,true); not used anymore
}
}
//union of stuff to remove from base body
union(){
//round corner of lever rotation post
difference(){
translate([rotate_x,-0.5,rotate_z-case_lever_t2])cube([case_lever_t2,case_w+1,case_lever_t2],false);
translate([rotate_x,-0.5,rotate_z])rotate([-90,0,0])cylinder(h=case_w+1, d=case_lever_t2, center=false);
}
//features for gears + worm
union(){
//cutout for wormgear
translate([wormx,case_w/2,cutoutz])cube([l_cutount,w_cutount,h_cutount],true);
//remove material for gear mounts
// translate([gear1x,case_w+0.5,gear1z])
// rotate([90,0,0])
// cylinder(h=case_w+1, d=M3_drill_hole_d, center=false);
}
//remove servo body in case case_walls_z in to high
if (Motor_Type != 2)
translate([wormx,case_w/2,wormz-servo_arm_dist])
rotate([0,180,180])
servo_body(servo_w,servo_h,servo_l,servo_shaft_d,servo_shaft_h,servo_shaft_dist,servo_mount_l,servo_mount_dist);
//screw holes case
translate([rotate_x,+case_w/2,rotate_z])
rotate([90,0,0])
cylinder(h=case_w+1, d=M3_drill_hole_d, center=true);
translate([5,+case_w/2,57])
rotate([90,0,0])
cylinder(h=case_w+1, d=M3_drill_hole_d, center=true);
//was placed under servo -> not used anymore
// translate([wormx+servo_shaft_dist,+case_w/2,4])
// rotate([90,0,0])
// cylinder(h=case_w+1, d=M3_drill_hole_d, center=true);
//remove lower part for easy access to servo
translate([-0.1,-0.1,-0.1])cube([P8_x+0.2,case_w+0.2,P2_y+0.1],false);
//hole for pin if gear is mounted on pin
if(Pinion_1_Mount==2)
translate([gear1x,case_w/2,gear1z])
rotate([-90,0,0])
cylinder(h=case_w, d=pin_d_loose, center=false);
}
}
//add pinion mount if pin is used
if(Pinion_1_Mount==2)
translate([0,case_w/2,0])
difference(){
//calc offset from y, 0,5 mm is thickness of m3 shim
case_gear_mounts(gear1x,0,gear1z,90,0,0,Pinion_1_Mount,case_w);
translate([gear1x,gears_pinion_with/2+gears_pinion_mount_shim-0.1,gear1z])
rotate([90,0,0])
cylinder(h=case_w, d=pin_d_loose, center=true);
}
}
//create N20 adapter for case
if((part==3)||((part==0)&&(Motor_Type == 2))){
translate([0,-case_w/2,0])
difference(){
rotate([90,0,0])
//build cube
translate([0,0,-(height_middle)])linear_extrude(height = height_middle, center = false, convexity = 10, twist = 0)polygon(points=[[P11_x,P11_y],[P2_x,P2_y],[P2_x,P2_y+case_walls],[P11_x,P11_y+case_walls]]);
//holes to connect to case
hole_screw_countersunk(case_walls+4,case_w/2,P2_y,0,0,0,3.5,case_walls+1,6,1);
hole_screw_countersunk(wormx+l_cutount/2+4,case_w/2,P2_y,0,0,0,3.5,case_walls+1,6,1);
translate([wormx,case_w/2,P2_y])N20_mount(case_walls);
}
}
}
module case_screw_post(x,z,mount_with,post,screwtype=1)
{
//calc param
Din912_head_h = 3.5; //height of screw head
bot_post_coutout_dist = Din912_head_h + 4; //distance for bottom post cutout
post_h = mount_with - bot_post_coutout_dist; //height screw post screw in part
post_offset = mount_with/2 - post_h; //offset for part
translate([x,0,z])rotate([-90,0,0]){
if (post){
//top post to screw in
//cylinder to screw in
translate([0,0,post_offset])difference()
{
//post main body
cylinder(h=post_h, d=case_post_top_od, center=false);
//screw in hole
translate([0,0,-0.5])cylinder(h=post_h+1, d=M3_drill_hole_d, center=false);
//chamfer for 3d printing bed
translate([0,0,post_h-0.5])cylinder(1, M3_drill_hole_d/2,M3_drill_hole_d/2+1, false);
}
}else{
//bottom screw coutout
//negetive to cout out of mainbody
union(){
//screw head + shaft
hole_screw_912_countersunk(0,0,0,0,0,0,M3_loose_hole_d,case_w,case_post_bot_id,Din912_head_h);
//hole for scew post
translate([0,0,bot_post_coutout_dist])cylinder(h=case_w-bot_post_coutout_dist+0.1, d=case_post_bot_id2, center=false);
}
}
}
}
//creates mounts for gears
module case_gear_mounts(x,y,z,rx,ry,rz,type,case_w){
//screw head
if (type==1){
//calc offset from y, 0,5 mm is thickness of m3 shim
y_mount_offset=gears_pinion_with/2+gears_pinion_mount_shim;
//generate gearspacer with hole for M3
difference(){
translate([x,y,z])
rotate([rx,ry,rz])
cylinder(h=case_w/2-y_mount_offset, d=M3_drill_hole_d+10*3dp_ew, center=false);
//hole_screw_countersunk(x,y+y_mount_offset,z,rx,ry,rz-180,M3_drill_hole_d,case_w+1,6.5,1.7);
translate([x,y-0.5,z])
rotate([rx,ry,rz])
cylinder(h=case_w/2-y_mount_offset+1, d=M3_drill_hole_d, center=false);
}
}
//pin
if (type==2){
//calc offset from y, 0,5 mm is thickness of m3 shim
y_mount_offset=gears_pinion_with/2+gears_pinion_mount_shim;
//generate gearspacer with hole for M3
difference(){
translate([x,y,z])
rotate([rx,ry,rz])
cylinder(h=case_w/2-y_mount_offset, d=8, center=false);
//hole_screw_countersunk(x,y+y_mount_offset,z,rx,ry,rz-180,M3_drill_hole_d,case_w+1,6.5,1.7);
translate([x,y-0.5,z])
rotate([rx,ry,rz])
cylinder(h=case_w/2-y_mount_offset+1, d=pin_d_fixed, center=false);
}
//gears_pinion_mount_shim
/* //calc offset from y, 2 mm is bearingoffset inside gear
gear_play = 0.25;
y_mount_offset=gears_pinion_with/2+gear_play;
translate([x,y,z])
rotate([rx,ry,rz])
difference(){
cylinder(h=case_w/2-y_mount_offset, d=pin_d_fixed+4, center=false);
//cylinder(h=case_w/2-y_mount_offset, r1=2+case_w/5, r2=2, center=false);
translate([0,0,-1])cylinder(h=case_w/2+1, d=pin_d_fixed, center=false);
}*/
}
//bearing
if (type==3){
//calc offset from y, 2 mm is bearingoffset inside gear
y_mount_offset=gears_pinion_with/2-2;
difference(){
translate([x,y,z])
rotate([rx,ry,rz])
//cylinder(h=case_w/2-y_mount_offset, d=8, center=false);
cylinder(h=case_w/2-y_mount_offset, r1=2+case_w/5, r2=2, center=false);
//hole_screw_countersunk(x,y+y_mount_offset,z,rx,ry,rz-180,M3_drill_hole_d,case_w+1,6.5,1.7);
translate([x,y-0.5,z])
rotate([rx,ry,rz])
cylinder(h=case_w/2-y_mount_offset+1, d=M3_drill_hole_d, center=false);
}
}
}