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/*
* X carriage, lower section for Mendel
* by Vik Olliver. Copyright (C) 2010 vik@diamondage.co.nz
*
* 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 3 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
<mendel_misc.inc>
//rotate([0,0,90]) translate([-49,-54,0.5]) import_stl("x-carriage-lower_1off.stl");
x_car_bottom_height=16.5;
x_car_shelf_width=18;
x_car_lower_width=44;
x_centre_cavity_length=73;
x_centre_cavity_width=25;
x_centre_cavity_height=40;
wing_length=33;
wing_width=10;
wing_height=34.5;
module x_car_lower_block() {
union () {
difference () {
union (){
// Main block
difference () {
translate ([0,0,x_car_bottom_height/2]) box(x_car_length,x_car_lower_width,x_car_bottom_height);
translate ([0,x_car_lower_width/-2+9,x_car_bottom_height*1.2]) rotate ([-25,0,0])
box(x_car_length+2,x_car_shelf_width,x_car_bottom_height);
}
// Shelf
translate ([0,(x_car_lower_width+x_car_shelf_width)/-2,x_car_bottom_height/2]) difference () {
box(x_car_length,x_car_shelf_width,x_car_bottom_height);
translate ([0,0,x_car_bottom_height*0.8]) rotate ([25,0,0])
box(x_car_length+2,x_car_shelf_width*2,x_car_bottom_height);
}
}
translate ([0,x_car_lower_width/-2-3,x_car_bottom_height+2]) rotate ([0,90,0])
cylinder(h=x_car_length+2,r=7,center=true);
}
// WIng
translate ([5.5,(x_car_lower_width-wing_width)/-2-x_car_shelf_width-2,wing_height/2])
box(wing_length,wing_width,wing_height);
}
}
module cutouts() {
union () {
// Hole in da middle
translate([0,1,10])
box(x_centre_cavity_length,x_centre_cavity_width,x_centre_cavity_height);
// Hole to ease extruder fitting
translate ([x_car_wing_offset,1,10])
box(extruder_thick+2,x_centre_cavity_width+3,x_centre_cavity_height);
// Holes at distal X ends.
x_carriage_common_holes();
// Trimming of top edge
translate ([0,x_car_lower_width/2+1,x_car_bottom_height]) rotate ([0,90,0]) cylinder(h=x_car_length+2,r=3,center=true);
//space for the belt
translate ([0,x_car_lower_width/4-0.5,x_car_bottom_height/2+1]) rotate ([0,90,0]) cylinder(h=x_car_length+2,r=3,center=true);
translate ([0,x_car_lower_width/4-0.5,x_car_bottom_height/2+6]) rotate ([0,90,0]) cube([10,6,x_car_length+2],center=true);
// Horizontal holes in wing. Lower:
translate([x_car_wing_offset+7,x_centre_cavity_width/-2-8,x_car_bottom_height/2-1]) rotate([90,-90,0])
m4_hole_horiz_with_hex(50);
translate([x_car_wing_offset-11.2,x_centre_cavity_width/-2-8,x_car_bottom_height/2-1]) rotate([90,-90,0])
m4_hole_horiz_with_hex(50);
// Horizontal holes in wing. Upper
translate([x_car_wing_offset+7,x_centre_cavity_width/-2-x_car_shelf_width,
x_car_bottom_height/2-1+x_belt_spacing])
rotate([90,-90,0]) m4_hole_horiz_with_hex(50);
translate([x_car_wing_offset-11.2,x_centre_cavity_width/-2-x_car_shelf_width,
x_car_bottom_height/2-1+x_belt_spacing])
rotate([90,-90,0]) m4_hole_horiz_with_hex(50);
//space for bfb hotend
translate([x_car_wing_offset,0,0]) rotate([0,0,180]) triangle(42,31);
// Horizontal axles
translate ([x_car_bottom_axle_offset+9,x_centre_cavity_width/2+4,x_car_bottom_height/2-1.5])
rotate ([-90,-90,0]) m4_hole_horiz_with_hex(12);
translate ([-x_car_bottom_axle_offset-9,x_centre_cavity_width/2+4,x_car_bottom_height/2-1.5])
rotate ([-90,-90,0]) m4_hole_horiz_with_hex(12);
// Hole to access extruder nut.
translate ([x_car_wing_offset,extruder_mount_hole_spacing/-2,15]) scale(1.1) m4_hole_vert_with_hex(30);
// Angled axes
translate ([x_car_bottom_axle_offset,x_car_lower_width/-2-2,0]) rotate ([-30,0,0]) m4_hole_vert(40);
translate ([-x_car_bottom_axle_offset,x_car_lower_width/-2-2,0]) rotate ([-30,0,0]) m4_hole_vert(40);
translate ([x_car_length/-2+8,(x_car_lower_width+x_car_shelf_width*0.6)/-2+0.5,0]) rotate ([30,0,0])
m4_hole_vert(40);
translate ([x_car_length/2-8,(x_car_lower_width+x_car_shelf_width*0.6)/-2+0.5,0]) rotate ([30,0,0])
m4_hole_vert(40);
}
}
module triangle(width,height)
{
difference() {
cylinder(r=width/3*sqrt(3)-2,h=height);
for(i = [0:2])
{
rotate([0,0,i*360/3])
translate([width/2+(width/6)*sqrt(3),0,height/2]) cube([width,width,height],center=true);
}
}
}
module x_carriage_lower() {
difference () {
x_car_lower_block();
cutouts();
}
}
x_carriage_lower();
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