BOSL2/nema_steppers.scad
2022-04-21 00:26:20 -04:00

639 lines
28 KiB
OpenSCAD

//////////////////////////////////////////////////////////////////////
// LibFile: nema_steppers.scad
// Mounting holes for NEMA motors, and simple motor models.
// Includes:
// include <BOSL2/std.scad>
// include <BOSL2/nema_steppers.scad>
// FileGroup: Parts
// FileSummary: Mounting holes for NEMA motors, and simple motor models.
//////////////////////////////////////////////////////////////////////
// Section: Functions
// Function: nema_motor_width()
// Description: Gets width of NEMA motor of given standard size.
// Arguments:
// size = The standard NEMA motor size.
function nema_motor_width(size) = lookup(size, [
[11.0, 28.2],
[14.0, 35.2],
[17.0, 42.3],
[23.0, 57.0],
[34.0, 86.0],
]);
// Function: nema_motor_plinth_height()
// Description: Gets plinth height of NEMA motor of given standard size.
// Arguments:
// size = The standard NEMA motor size.
function nema_motor_plinth_height(size) = lookup(size, [
[11.0, 1.5],
[14.0, 2.0],
[17.0, 2.0],
[23.0, 1.6],
[34.0, 2.03],
]);
// Function: nema_motor_plinth_diam()
// Description: Gets plinth diameter of NEMA motor of given standard size.
// Arguments:
// size = The standard NEMA motor size.
function nema_motor_plinth_diam(size) = lookup(size, [
[11.0, 22.0],
[14.0, 22.0],
[17.0, 22.0],
[23.0, 38.1],
[34.0, 73.0],
]);
// Function: nema_motor_screw_spacing()
// Description: Gets screw spacing of NEMA motor of given standard size.
// Arguments:
// size = The standard NEMA motor size.
function nema_motor_screw_spacing(size) = lookup(size, [
[11.0, 23.11],
[14.0, 26.0],
[17.0, 30.99],
[23.0, 47.14],
[34.0, 69.6],
]);
// Function: nema_motor_screw_size()
// Description: Gets mount screw size of NEMA motor of given standard size.
// Arguments:
// size = The standard NEMA motor size.
function nema_motor_screw_size(size) = lookup(size, [
[11.0, 2.6],
[14.0, 3.0],
[17.0, 3.0],
[23.0, 5.1],
[34.0, 5.5],
]);
// Function: nema_motor_screw_depth()
// Description: Gets mount screw-hole depth of NEMA motor of given standard size.
// Arguments:
// size = The standard NEMA motor size.
function nema_motor_screw_depth(size) = lookup(size, [
[11.0, 3.0],
[14.0, 4.5],
[17.0, 4.5],
[23.0, 4.8],
[34.0, 9.0],
]);
// Section: Motor Models
// Module: nema11_stepper()
// Description: Creates a model of a NEMA 11 stepper motor.
// Arguments:
// h = Length of motor body. Default: 24mm
// shaft = Shaft diameter. Default: 5mm
// shaft_len = Length of shaft protruding out the top of the stepper motor. Default: 20mm
// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `CENTER`
// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
// Extra Anchors:
// "shaft-top" = The top of the shaft.
// "shaft-middle" = The middle of the shaft.
// "shaft-bottom" = The bottom of the shaft, 0.1mm above the plinth.
// "plinth-top" = The top of the plinth.
// "screw1" = The screw-hole in the X+Y+ quadrant.
// "screw2" = The screw-hole in the X-Y+ quadrant.
// "screw3" = The screw-hole in the X-Y- quadrant.
// "screw4" = The screw-hole in the X+Y- quadrant.
// Example:
// nema11_stepper();
module nema11_stepper(h=24, shaft=5, shaft_len=20, anchor=TOP, spin=0, orient=UP)
{
size = 11;
motor_width = nema_motor_width(size);
plinth_height = nema_motor_plinth_height(size);
plinth_diam = nema_motor_plinth_diam(size);
screw_spacing = nema_motor_screw_spacing(size);
screw_size = nema_motor_screw_size(size);
screw_depth = nema_motor_screw_depth(size);
anchors = [
named_anchor("shaft-top", [0,0,h/2+shaft_len]),
named_anchor("shaft-middle", [0,0,h/2+plinth_height+(shaft_len-plinth_height)/2]),
named_anchor("shaft-bottom", [0,0,h/2+plinth_height+0.1]),
named_anchor("plinth-top", [0,0,h/2+plinth_height]),
named_anchor("screw1", [+screw_spacing/2, +screw_spacing/2, h/2]),
named_anchor("screw2", [-screw_spacing/2, +screw_spacing/2, h/2]),
named_anchor("screw3", [-screw_spacing/2, -screw_spacing/2, h/2]),
named_anchor("screw4", [+screw_spacing/2, -screw_spacing/2, h/2]),
];
attachable(anchor,spin,orient, size=[motor_width, motor_width, h], anchors=anchors) {
up(h/2)
union() {
difference() {
color([0.4, 0.4, 0.4])
cuboid(size=[motor_width, motor_width, h], chamfer=2, edges="Z", anchor=TOP);
color("silver")
xcopies(screw_spacing)
ycopies(screw_spacing)
cyl(r=screw_size/2, h=screw_depth*2, $fn=max(12,segs(screw_size/2)));
}
color([0.6, 0.6, 0.6]) {
difference() {
cylinder(h=plinth_height, d=plinth_diam);
cyl(h=plinth_height*3, d=shaft+0.75);
}
}
color("silver") cylinder(h=shaft_len, d=shaft, $fn=max(12,segs(shaft/2)));
}
children();
}
}
// Module: nema14_stepper()
// Description: Creates a model of a NEMA 14 stepper motor.
// Arguments:
// h = Length of motor body. Default: 24mm
// shaft = Shaft diameter. Default: 5mm
// shaft_len = Length of shaft protruding out the top of the stepper motor. Default: 24mm
// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `CENTER`
// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
// Extra Anchors:
// "shaft-top" = The top of the shaft.
// "shaft-middle" = The middle of the shaft.
// "shaft-bottom" = The bottom of the shaft, 0.1mm above the plinth.
// "plinth-top" = The top of the plinth.
// "screw1" = The screw-hole in the X+Y+ quadrant.
// "screw2" = The screw-hole in the X-Y+ quadrant.
// "screw3" = The screw-hole in the X-Y- quadrant.
// "screw4" = The screw-hole in the X+Y- quadrant.
// Example:
// nema14_stepper();
module nema14_stepper(h=24, shaft=5, shaft_len=24, anchor=TOP, spin=0, orient=UP)
{
size = 14;
motor_width = nema_motor_width(size);
plinth_height = nema_motor_plinth_height(size);
plinth_diam = nema_motor_plinth_diam(size);
screw_spacing = nema_motor_screw_spacing(size);
screw_size = nema_motor_screw_size(size);
screw_depth = nema_motor_screw_depth(size);
anchors = [
named_anchor("shaft-top", [0,0,h/2+shaft_len]),
named_anchor("shaft-middle", [0,0,h/2+plinth_height+(shaft_len-plinth_height)/2]),
named_anchor("shaft-bottom", [0,0,h/2+plinth_height+0.1]),
named_anchor("plinth-top", [0,0,h/2+plinth_height]),
named_anchor("screw1", [+screw_spacing/2, +screw_spacing/2, h/2]),
named_anchor("screw2", [-screw_spacing/2, +screw_spacing/2, h/2]),
named_anchor("screw3", [-screw_spacing/2, -screw_spacing/2, h/2]),
named_anchor("screw4", [+screw_spacing/2, -screw_spacing/2, h/2]),
];
attachable(anchor,spin,orient, size=[motor_width, motor_width, h], anchors=anchors) {
up(h/2)
union() {
difference() {
color([0.4, 0.4, 0.4])
cuboid(size=[motor_width, motor_width, h], chamfer=2, edges="Z", anchor=TOP);
color("silver")
xcopies(screw_spacing)
ycopies(screw_spacing)
cyl(d=screw_size, h=screw_depth*2, $fn=max(12,segs(screw_size/2)));
}
color([0.6, 0.6, 0.6]) {
difference() {
cylinder(h=plinth_height, d=plinth_diam);
cyl(h=plinth_height*3, d=shaft+0.75);
}
}
color("silver") cylinder(h=shaft_len, d=shaft, $fn=max(12,segs(shaft/2)));
}
children();
}
}
// Module: nema17_stepper()
// Description: Creates a model of a NEMA 17 stepper motor.
// Arguments:
// h = Length of motor body. Default: 34mm
// shaft = Shaft diameter. Default: 5mm
// shaft_len = Length of shaft protruding out the top of the stepper motor. Default: 20mm
// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `CENTER`
// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
// Extra Anchors:
// "shaft-top" = The top of the shaft.
// "shaft-middle" = The middle of the shaft.
// "shaft-bottom" = The bottom of the shaft, 0.1mm above the plinth.
// "plinth-top" = The top of the plinth.
// "screw1" = The screw-hole in the X+Y+ quadrant.
// "screw2" = The screw-hole in the X-Y+ quadrant.
// "screw3" = The screw-hole in the X-Y- quadrant.
// "screw4" = The screw-hole in the X+Y- quadrant.
// Example:
// nema17_stepper();
module nema17_stepper(h=34, shaft=5, shaft_len=20, anchor=TOP, spin=0, orient=UP)
{
size = 17;
motor_width = nema_motor_width(size);
plinth_height = nema_motor_plinth_height(size);
plinth_diam = nema_motor_plinth_diam(size);
screw_spacing = nema_motor_screw_spacing(size);
screw_size = nema_motor_screw_size(size);
screw_depth = nema_motor_screw_depth(size);
anchors = [
named_anchor("shaft-top", [0,0,h/2+shaft_len]),
named_anchor("shaft-middle", [0,0,h/2+plinth_height+(shaft_len-plinth_height)/2]),
named_anchor("shaft-bottom", [0,0,h/2+plinth_height+0.1]),
named_anchor("plinth-top", [0,0,h/2+plinth_height]),
named_anchor("screw1", [+screw_spacing/2, +screw_spacing/2, h/2]),
named_anchor("screw2", [-screw_spacing/2, +screw_spacing/2, h/2]),
named_anchor("screw3", [-screw_spacing/2, -screw_spacing/2, h/2]),
named_anchor("screw4", [+screw_spacing/2, -screw_spacing/2, h/2]),
];
attachable(anchor,spin,orient, size=[motor_width, motor_width, h], anchors=anchors) {
up(h/2)
union() {
difference() {
color([0.4, 0.4, 0.4])
cuboid([motor_width, motor_width, h], chamfer=2, edges="Z", anchor=TOP);
color("silver")
xcopies(screw_spacing)
ycopies(screw_spacing)
cyl(d=screw_size, h=screw_depth*2, $fn=max(12,segs(screw_size/2)));
}
color([0.6, 0.6, 0.6]) {
difference() {
cylinder(h=plinth_height, d=plinth_diam);
cyl(h=plinth_height*3, d=shaft+0.75);
}
}
color([0.9, 0.9, 0.9]) {
down(h-motor_width/12) {
fwd(motor_width/2+motor_width/24/2-0.1) {
difference() {
cube(size=[motor_width/8, motor_width/24, motor_width/8], center=true);
cyl(d=motor_width/8-2, h=motor_width/6, orient=BACK, $fn=12);
}
}
}
}
color("silver") {
difference() {
cylinder(h=shaft_len, d=shaft, $fn=max(12,segs(shaft/2)));
up(shaft_len/2+1) {
right(shaft-0.75) {
cube([shaft, shaft, shaft_len], center=true);
}
}
}
}
}
children();
}
}
// Module: nema23_stepper()
// Description: Creates a model of a NEMA 23 stepper motor.
// Arguments:
// h = Length of motor body. Default: 50mm
// shaft = Shaft diameter. Default: 6.35mm
// shaft_len = Length of shaft protruding out the top of the stepper motor. Default: 25mm
// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `CENTER`
// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
// Extra Anchors:
// "shaft-top" = The top of the shaft.
// "shaft-middle" = The middle of the shaft.
// "shaft-bottom" = The bottom of the shaft, 0.1mm above the plinth.
// "plinth-top" = The top of the plinth.
// "screw1" = The screw-hole in the X+Y+ quadrant.
// "screw2" = The screw-hole in the X-Y+ quadrant.
// "screw3" = The screw-hole in the X-Y- quadrant.
// "screw4" = The screw-hole in the X+Y- quadrant.
// Example:
// nema23_stepper();
module nema23_stepper(h=50, shaft=6.35, shaft_len=25, anchor=TOP, spin=0, orient=UP)
{
size = 23;
motor_width = nema_motor_width(size);
plinth_height = nema_motor_plinth_height(size);
plinth_diam = nema_motor_plinth_diam(size);
screw_spacing = nema_motor_screw_spacing(size);
screw_size = nema_motor_screw_size(size);
screw_depth = nema_motor_screw_depth(size);
screw_inset = motor_width - screw_spacing + 1;
anchors = [
named_anchor("shaft-top", [0,0,h/2+shaft_len]),
named_anchor("shaft-middle", [0,0,h/2+plinth_height+(shaft_len-plinth_height)/2]),
named_anchor("shaft-bottom", [0,0,h/2+plinth_height+0.1]),
named_anchor("plinth-top", [0,0,h/2+plinth_height]),
named_anchor("screw1", [+screw_spacing/2, +screw_spacing/2, h/2]),
named_anchor("screw2", [-screw_spacing/2, +screw_spacing/2, h/2]),
named_anchor("screw3", [-screw_spacing/2, -screw_spacing/2, h/2]),
named_anchor("screw4", [+screw_spacing/2, -screw_spacing/2, h/2]),
];
attachable(anchor,spin,orient, size=[motor_width, motor_width, h], anchors=anchors) {
up(h/2)
difference() {
union() {
color([0.4, 0.4, 0.4])
cuboid([motor_width, motor_width, h], chamfer=2, edges="Z", anchor=TOP);
color([0.4, 0.4, 0.4])
cylinder(h=plinth_height, d=plinth_diam);
color("silver")
cylinder(h=shaft_len, d=shaft, $fn=max(12,segs(shaft/2)));
}
color([0.4, 0.4, 0.4]) {
xcopies(screw_spacing) {
ycopies(screw_spacing) {
cyl(d=screw_size, h=screw_depth*3, $fn=max(12,segs(screw_size/2)));
down(screw_depth) cuboid([screw_inset, screw_inset, h], anchor=TOP);
}
}
}
}
children();
}
}
// Module: nema34_stepper()
// Description: Creates a model of a NEMA 34 stepper motor.
// Arguments:
// h = Length of motor body. Default: 75mm
// shaft = Shaft diameter. Default: 12.7mm
// shaft_len = Length of shaft protruding out the top of the stepper motor. Default: 32mm
// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `CENTER`
// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
// Extra Anchors:
// "shaft-top" = The top of the shaft.
// "shaft-middle" = The middle of the shaft.
// "shaft-bottom" = The bottom of the shaft, 0.1mm above the plinth.
// "plinth-top" = The top of the plinth.
// "screw1" = The screw-hole in the X+Y+ quadrant.
// "screw2" = The screw-hole in the X-Y+ quadrant.
// "screw3" = The screw-hole in the X-Y- quadrant.
// "screw4" = The screw-hole in the X+Y- quadrant.
// Example:
// nema34_stepper();
module nema34_stepper(h=75, shaft=12.7, shaft_len=32, anchor=TOP, spin=0, orient=UP)
{
size = 34;
motor_width = nema_motor_width(size);
plinth_height = nema_motor_plinth_height(size);
plinth_diam = nema_motor_plinth_diam(size);
screw_spacing = nema_motor_screw_spacing(size);
screw_size = nema_motor_screw_size(size);
screw_depth = nema_motor_screw_depth(size);
screw_inset = motor_width - screw_spacing + 1;
anchors = [
named_anchor("shaft-top", [0,0,h/2+shaft_len]),
named_anchor("shaft-middle", [0,0,h/2+plinth_height+(shaft_len-plinth_height)/2]),
named_anchor("shaft-bottom", [0,0,h/2+plinth_height+0.1]),
named_anchor("plinth-top", [0,0,h/2+plinth_height]),
named_anchor("screw1", [+screw_spacing/2, +screw_spacing/2, h/2]),
named_anchor("screw2", [-screw_spacing/2, +screw_spacing/2, h/2]),
named_anchor("screw3", [-screw_spacing/2, -screw_spacing/2, h/2]),
named_anchor("screw4", [+screw_spacing/2, -screw_spacing/2, h/2]),
];
attachable(anchor,spin,orient, size=[motor_width, motor_width, h], anchors=anchors) {
up(h/2)
difference() {
union() {
color([0.4, 0.4, 0.4])
cuboid(size=[motor_width, motor_width, h], chamfer=2, edges="Z", anchor=TOP);
color([0.4, 0.4, 0.4])
cylinder(h=plinth_height, d=plinth_diam);
color("silver")
cylinder(h=shaft_len, d=shaft, $fn=max(24,segs(shaft/2)));
}
color([0.4, 0.4, 0.4]) {
xcopies(screw_spacing) {
ycopies(screw_spacing) {
cylinder(d=screw_size, h=screw_depth*3, center=true, $fn=max(12,segs(screw_size/2)));
down(screw_depth) cube([screw_inset, screw_inset, h], anchor=TOP);
}
}
}
}
children();
}
}
// Section: Masking Modules
// Module: nema_mount_holes()
// Description: Creates a mask to use when making standard NEMA stepper motor mounts.
// Arguments:
// size = The standard NEMA motor size to make a mount for.
// depth = The thickness of the mounting hole mask. Default: 5
// l = The length of the slots, for making an adjustable motor mount. Default: 5
// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `CENTER`
// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
// $slop = The printer-specific slop value to make parts fit just right.
// Extra Anchors:
// "screw1" = The center top of the screw hole/slot in the X+Y+ quadrant.
// "screw2" = The center top of the screw hole/slot in the X-Y+ quadrant.
// "screw3" = The center top of the screw hole/slot in the X-Y- quadrant.
// "screw4" = The center top of the screw hole/slot in the X+Y- quadrant.
// Example:
// nema_mount_holes(size=14, depth=5, l=5);
// Example:
// nema_mount_holes(size=17, depth=5, l=5);
// Example:
// nema_mount_holes(size=17, depth=5, l=0);
module nema_mount_holes(size=17, depth=5, l=5, anchor=CENTER, spin=0, orient=UP)
{
motor_width = nema_motor_width(size);
plinth_diam = nema_motor_plinth_diam(size)+get_slop();
screw_spacing = nema_motor_screw_spacing(size);
screw_size = nema_motor_screw_size(size)+get_slop();
anchors = [
named_anchor("screw1", [+screw_spacing/2, +screw_spacing/2, depth/2]),
named_anchor("screw2", [-screw_spacing/2, +screw_spacing/2, depth/2]),
named_anchor("screw3", [-screw_spacing/2, -screw_spacing/2, depth/2]),
named_anchor("screw4", [+screw_spacing/2, -screw_spacing/2, depth/2]),
];
screwfn = quantup(max(8,segs(screw_size/2)),4);
plinthfn = quantup(max(8,segs(plinth_diam/2)),4);
s = [screw_spacing+screw_size, screw_spacing+screw_size+l, depth];
attachable(anchor,spin,orient, size=s, anchors=anchors) {
union() {
xcopies(screw_spacing) {
ycopies(screw_spacing) {
if (l>0) {
union() {
ycopies(l) cyl(h=depth, d=screw_size, $fn=screwfn);
cube([screw_size, l, depth], center=true);
}
} else {
cyl(h=depth, d=screw_size, $fn=screwfn);
}
}
}
if (l>0) {
union () {
ycopies(l) cyl(h=depth, d=plinth_diam, $fn=plinthfn);
cube([plinth_diam, l, depth], center=true);
}
} else {
cyl(h=depth, d=plinth_diam, $fn=plinthfn);
}
}
children();
}
}
// Module: nema11_mount_holes()
// Description: Creates a mask to use when making NEMA 11 stepper motor mounts.
// Arguments:
// depth = The thickness of the mounting hole mask. Default: 5
// l = The length of the slots, for making an adjustable motor mount. Default: 5
// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `CENTER`
// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
// $slop = The printer-specific slop value to make parts fit just right.
// Extra Anchors:
// "screw1" = The center top of the screw hole/slot in the X+Y+ quadrant.
// "screw2" = The center top of the screw hole/slot in the X-Y+ quadrant.
// "screw3" = The center top of the screw hole/slot in the X-Y- quadrant.
// "screw4" = The center top of the screw hole/slot in the X+Y- quadrant.
// Example:
// nema11_mount_holes(depth=5, l=5);
// Example:
// nema11_mount_holes(depth=5, l=0);
module nema11_mount_holes(depth=5, l=5, anchor=CENTER, spin=0, orient=UP)
{
nema_mount_holes(size=11, depth=depth, l=l, anchor=anchor, spin=spin, orient=orient) children();
}
// Module: nema14_mount_holes()
// Description: Creates a mask to use when making NEMA 14 stepper motor mounts.
// Arguments:
// depth = The thickness of the mounting hole mask. Default: 5
// l = The length of the slots, for making an adjustable motor mount. Default: 5
// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `CENTER`
// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
// $slop = The printer-specific slop value to make parts fit just right.
// Extra Anchors:
// "screw1" = The center top of the screw hole/slot in the X+Y+ quadrant.
// "screw2" = The center top of the screw hole/slot in the X-Y+ quadrant.
// "screw3" = The center top of the screw hole/slot in the X-Y- quadrant.
// "screw4" = The center top of the screw hole/slot in the X+Y- quadrant.
// Example:
// nema14_mount_holes(depth=5, l=5);
// Example:
// nema14_mount_holes(depth=5, l=0);
module nema14_mount_holes(depth=5, l=5, anchor=CENTER, spin=0, orient=UP)
{
nema_mount_holes(size=14, depth=depth, l=l, anchor=anchor, spin=spin, orient=orient) children();
}
// Module: nema17_mount_holes()
// Description: Creates a mask to use when making NEMA 17 stepper motor mounts.
// Arguments:
// depth = The thickness of the mounting hole mask. Default: 5
// l = The length of the slots, for making an adjustable motor mount. Default: 5
// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `CENTER`
// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
// $slop = The printer-specific slop value to make parts fit just right.
// Extra Anchors:
// "screw1" = The center top of the screw hole/slot in the X+Y+ quadrant.
// "screw2" = The center top of the screw hole/slot in the X-Y+ quadrant.
// "screw3" = The center top of the screw hole/slot in the X-Y- quadrant.
// "screw4" = The center top of the screw hole/slot in the X+Y- quadrant.
// Example:
// nema17_mount_holes(depth=5, l=5);
// Example:
// nema17_mount_holes(depth=5, l=0);
module nema17_mount_holes(depth=5, l=5, anchor=CENTER, spin=0, orient=UP)
{
nema_mount_holes(size=17, depth=depth, l=l, anchor=anchor, spin=spin, orient=orient) children();
}
// Module: nema23_mount_holes()
// Description: Creates a mask to use when making NEMA 23 stepper motor mounts.
// Arguments:
// depth = The thickness of the mounting hole mask. Default: 5
// l = The length of the slots, for making an adjustable motor mount. Default: 5
// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `CENTER`
// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
// $slop = The printer-specific slop value to make parts fit just right.
// Extra Anchors:
// "screw1" = The center top of the screw hole/slot in the X+Y+ quadrant.
// "screw2" = The center top of the screw hole/slot in the X-Y+ quadrant.
// "screw3" = The center top of the screw hole/slot in the X-Y- quadrant.
// "screw4" = The center top of the screw hole/slot in the X+Y- quadrant.
// Example:
// nema23_mount_holes(depth=5, l=5);
// Example:
// nema23_mount_holes(depth=5, l=0);
module nema23_mount_holes(depth=5, l=5, anchor=CENTER, spin=0, orient=UP)
{
nema_mount_holes(size=23, depth=depth, l=l, anchor=anchor, spin=spin, orient=orient) children();
}
// Module: nema34_mount_holes()
// Description: Creates a mask to use when making NEMA 34 stepper motor mounts.
// Arguments:
// depth = The thickness of the mounting hole mask. Default: 5
// l = The length of the slots, for making an adjustable motor mount. Default: 5
// anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `CENTER`
// spin = Rotate this many degrees around the Z axis after anchor. See [spin](attachments.scad#subsection-spin). Default: `0`
// orient = Vector to rotate top towards, after spin. See [orient](attachments.scad#subsection-orient). Default: `UP`
// $slop = The printer-specific slop value to make parts fit just right.
// Extra Anchors:
// "screw1" = The center top of the screw hole/slot in the X+Y+ quadrant.
// "screw2" = The center top of the screw hole/slot in the X-Y+ quadrant.
// "screw3" = The center top of the screw hole/slot in the X-Y- quadrant.
// "screw4" = The center top of the screw hole/slot in the X+Y- quadrant.
// Example:
// nema34_mount_holes(depth=5, l=5);
// Example:
// nema34_mount_holes(depth=5, l=0);
module nema34_mount_holes(depth=5, l=5, anchor=CENTER, spin=0, orient=UP)
{
nema_mount_holes(size=34, depth=depth, l=l, anchor=anchor, spin=spin, orient=orient) children();
}
// vim: expandtab tabstop=4 shiftwidth=4 softtabstop=4 nowrap