cyclone-pcb-factory/Hardware/CYCLONE_2/INHERITED/XYgears/XYmotor_gear.scad

130 lines
3.6 KiB
OpenSCAD

/* Derived by Carlosgs from:
* http://www.thingiverse.com/thing:12789
* An extruder gear set for the TechZone Huxley,
* featuring Herringbone teeth.
* You will have to recalibrate your E_STEPS_PER_MM in
* your firmware (ratio changing from original techzone
* lasercut gears).
* This use 2 modules from the MCAD library that you can
* get from https://github.com/elmom/MCAD.
*
* Part - the motor gear mount hub with set screw hole -
* derived from http://www.thingiverse.com/thing:3104
* (thanks GilesBathgate) which is under GPL CC license.
*
* Copyright (C) 2011 Guy 'DeuxVis' P.
*
* August 2013 added 2 extra setscrews to ensure centered usage.
* by Harry Binnema.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
* --
* DeuxVis - device@ymail.com */
include <MCAD/materials.scad>
include <MCAD/teardrop.scad>
include <MCAD/involute_gears.scad>
motor_shaft_diameter=5.6;
BigGear_N_Teeth = 21; // 24
nholes = 9; // 7
holes_diam = 6;
hole_distance_from_center = 13.5-4.5+holes_diam/2;
// Increase the resolution of default shapes
$fa = 5; // Minimum angle for fragments [degrees]
$fs = 0.5; // Minimum fragment size [mm]
/* Herringbone gear module, adapted from MCAD/involute_gears */
module herringbone_gear( teeth=12, circles=0, shaft=5 ) {
twist=0;//100;
height=10;
pressure_angle=30;
diam = teeth*2;
truncation_length = 2.8;
truncation_height = height/2.5;
module myGear() {
difference() {
gear(
number_of_teeth=teeth,
circular_pitch=320,
pressure_angle=pressure_angle,
clearance = 0.2,
gear_thickness = height/2,
rim_thickness = height/2,
rim_width = 1,
hub_thickness = height/2,
hub_diameter=1,
bore_diameter=shaft,
circles=circles,
twist=twist/teeth
);
mirror([0,0,1]) translate([0,0,-height/2-0.01]) {
difference() {
cylinder(r=diam/2, h=truncation_height);
translate([0,0,-0.01])
cylinder(r1=diam/2-truncation_length, r2=diam/2+1, h=truncation_height+0.02);
}
}
}
}
myGear();
mirror( [0,0,1] )
myGear();
}
module cyclone_motor_gear(with_extra_parts=false, exploded=false) {
// Motor gear
union() difference() {
union() {
//gear
herringbone_gear( teeth=BigGear_N_Teeth );
translate( [0, 0, 12] ) mirror( [0, 0, 1] ) difference() {
//shaft
cylinder( r=9, h=15);
//captive nut and grub holes
translate( [0, 19.5, 3.5] ) rotate( [90, 0, 0] ) union() {
//enterance
translate( [0, -3, 14.5] ) cube( [6, 6, 2.8], center=true );
//nut
translate( [0, 0, 14.5] ) rotate( [0, 0, 30] )
cylinder( r=6/2+0.5, h=2.8, $fn=6, center=true);
//grub hole
translate( [0, 0, 9] ) cylinder( r=3.3/2, h=10);
}
}
}
//holes to save plastic
//for(i=[0:nholes-1])
// rotate( [0, 0, i*360/(nholes)+45])
// translate( [hole_distance_from_center, 0] )
// cylinder( r=holes_diam/2, h=11, center=true);
//shaft hole
translate( [0, 0, -6] ) cylinder( r=motor_shaft_diameter/2, h=20);
}
}
cyclone_motor_gear();