////////////////////////////////////////////////////////////////////// // LibFile: nema_steppers.scad // Mounting holes for NEMA motors, and simple motor models. // Includes: // include // include // FileGroup: Parts // FileSummary: NEMA motor mounts and stepper motor models. ////////////////////////////////////////////////////////////////////// // Section: Motor Models // Module: nema_stepper_motor() // Synopsis: Creates a NEMA standard stepper motor model. // SynTags: Geom // Topics: Parts, Motors // See Also: nema_stepper_motor(), nema_mount_mask() // Usage: // nema_stepper_motor(size, h, shaft_len, [$slop=], ...) [ATTACHMENTS]; // Description: // Creates a model of a NEMA standard stepper motor. // Arguments: // size = The NEMA standard size of the stepper motor. // h = Length of motor body. Default: 24mm // shaft_len = Length of shaft protruding out the top of the stepper motor. Default: 20mm // --- // details = If false, creates a very rough motor shape, suitable for using as a mask. Default: true // atype = The attachment set type to use when anchoring. Default: `"body"` // $slop = If details is false then increase size of the model by double this amount (for use as a mask) // anchor = Translate so anchor point is at origin (0,0,0). See [anchor](attachments.scad#subsection-anchor). Default: `TOP` // 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` // Anchor Types: // "shaft" = Anchor relative to the shaft. // "plinth" = Anchor relative to the plinth. // "body" = Anchor relative to the motor body. // "screws" = Anchor relative to the screw hole centers. ie: TOP+RIGHT+FRONT is the center-top of the front-right screwhole. // Examples: // nema_stepper_motor(size=8, h=24, shaft_len=15); // nema_stepper_motor(size=11, h=24, shaft_len=20); // nema_stepper_motor(size=17, h=40, shaft_len=30); // nema_stepper_motor(size=23, h=50, shaft_len=40); // nema_stepper_motor(size=23, h=50, shaft_len=40, details=false); module nema_stepper_motor(size=17, h=24, shaft_len=20, details=true, atype="body", anchor=TOP, spin=0, orient=UP) { info = nema_motor_info(size); motor_width = info[0]; plinth_height = info[1]; plinth_diam = info[2]; screw_spacing = info[3]; screw_size = info[4]; screw_depth = info[5]; shaft_diam = info[6]; geom = atype=="shaft"? attach_geom(r=shaft_diam/2, h=shaft_len-plinth_height, cp=[0,0,h/2+plinth_height/2+shaft_len/2]) : atype=="plinth"? attach_geom(r=plinth_diam/2, h=plinth_height, cp=[0,0,h/2+plinth_height/2]) : atype=="body"? attach_geom(size=[motor_width, motor_width, h]) : atype=="screws"? attach_geom(size=[screw_spacing, screw_spacing, screw_depth], cp=[0,0,h/2-screw_depth/2]) : assert(in_list(atype, ["shaft", "plinth", "body", "screws"])); attachable(anchor,spin,orient, geom=geom) { up(h/2) { if (details == false) { slop = get_slop(); color([0.4, 0.4, 0.4]) cuboid(size=[motor_width+2*slop, motor_width+2*slop, h+slop], anchor=TOP); color([0.6, 0.6, 0.6]) cylinder(h=plinth_height+slop, d=plinth_diam+2*slop); color("silver") cylinder(h=shaft_len+slop, d=shaft_diam+2*slop, $fn=max(12,segs(shaft_diam/2))); } else if (size < 23) { difference() { color([0.4, 0.4, 0.4]) cuboid(size=[motor_width, motor_width, h], chamfer=size>=8? 2 : 0.5, 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_diam+0.75); } } color("silver") cylinder(h=shaft_len, d=shaft_diam, $fn=max(12,segs(shaft_diam/2))); } else { difference() { union() { color([0.4, 0.4, 0.4]) cuboid([motor_width, motor_width, h], rounding=screw_size, edges="Z", anchor=TOP); color([0.6, 0.6, 0.6]) { difference() { cylinder(h=plinth_height, d=plinth_diam); cyl(h=plinth_height*3, d=shaft_diam+0.75); } } color("silver") cylinder(h=shaft_len, d=shaft_diam, $fn=max(12,segs(shaft_diam/2))); } color([0.4, 0.4, 0.4]) { xcopies(screw_spacing) { ycopies(screw_spacing) { cyl(d=screw_size, h=screw_depth*3, $fn=max(12,segs(screw_size/2))); down(screw_depth) cuboid([screw_size*2, screw_size*2, h], anchor=TOP); } } } } } } children(); } } // Section: Masking Modules // Module: nema_mount_mask() // Synopsis: Creates a standard NEMA mount holes mask. // SynTags: Geom // Topics: Parts, Motors // See Also: nema_stepper_motor(), nema_mount_mask() // Usage: // nema_mount_mask(size, depth, l, [$slop], ...); // 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. // Anchor Types: // "full" = Anchor relative the full mask. // "screws" = Anchor relative to the screw hole centers. ie: TOP+RIGHT+FRONT is the center-top of the front-right screwhole. // Examples: // nema_mount_mask(size=14, depth=5, l=5); // nema_mount_mask(size=17, depth=5, l=5); // nema_mount_mask(size=17, depth=5, l=0); module nema_mount_mask(size, depth=5, l=5, atype="full", anchor=CENTER, spin=0, orient=UP) { slop = get_slop(); info = nema_motor_info(size); motor_width = info[0]; plinth_height = info[1]; plinth_diam = info[2] + slop; screw_spacing = info[3]; screw_size = info[4] + slop; screw_depth = info[5]; shaft_diam = info[6]; screwfn = quantup(max(8,segs(screw_size/2)),4); plinthfn = quantup(max(8,segs(plinth_diam/2)),4); s = atype=="full"? [screw_spacing+screw_size, screw_spacing+screw_size+l, depth] : atype=="screws"? [screw_spacing, screw_spacing, depth] : assert(in_list(atype, ["full", "screws"])); attachable(anchor,spin,orient, size=s) { union() { xcopies(screw_spacing) { ycopies(screw_spacing) { if (l > 0) { 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) { 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(); } } // Section: Functions // Function: nema_motor_info() // Synopsis: Returns dimension info for a given NEMA motor size. // Topics: Parts, Motors // See Also: nema_stepper_motor(), nema_mount_mask() // Usage: // info = nema_motor_info(size); // Description: // Gets various dimension info for a NEMA stepper motor of a specific size. // Returns a list of scalar values, containing, in order: // - MOTOR_WIDTH: The full width and length of the motor. // - PLINTH_HEIGHT: The height of the circular plinth on the face of the motor. // - PLINTH_DIAM: The diameter of the circular plinth on the face of the motor. // - SCREW_SPACING: The spacing between screwhole centers in both X and Y axes. // - SCREW_SIZE: The diameter of the screws. // - SCREW_DEPTH: The depth of the screwholes. // - SHAFT_DIAM: The diameter of the motor shaft. // Arguments: // size = The standard NEMA motor size. function nema_motor_info(size) = let( info_arr = [ [ 6, [ 14.0, 1.50, 11.0, 11.50, 1.6, 2.5, 4.00]], [ 8, [ 20.3, 1.50, 16.0, 15.40, 2.0, 2.5, 4.00]], [11, [ 28.2, 1.50, 22.0, 23.11, 2.6, 3.0, 5.00]], [14, [ 35.2, 2.00, 22.0, 26.00, 3.0, 4.5, 5.00]], [17, [ 42.3, 2.00, 22.0, 31.00, 3.0, 4.5, 5.00]], [23, [ 57.0, 1.60, 38.1, 47.00, 5.1, 4.8, 6.35]], [34, [ 86.0, 2.00, 73.0, 69.60, 6.5, 10.0, 14.00]], [42, [110.0, 1.50, 55.5, 88.90, 8.5, 12.7, 19.00]], ], found = [for(info=info_arr) if(info[0]==size) info[1]] ) assert(found, "Unsupported NEMA size.") found[0]; // vim: expandtab tabstop=4 shiftwidth=4 softtabstop=4 nowrap