/*
* case.scad
*
* https://github.com/kauzerei/OpensCadaver/blob/main/models/pico_stuff.scad
*
* Copyright (c) 2023 Kauzerei (openautolab@kauzerei.de)
* Copyright (c) 2023 Thomas Buck (thomas@xythobuz.de)
*
* 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.
*
* See .
*/
// https://www.waveshare.com/wiki/Pico-LCD-1.3
lcd_w = 52.0;
lcd_h = 26.5;
lcd_d = 1.0; // todo
// https://www.printables.com/model/210898-raspberry-pi-pico-case
use
p_w = 21;
p_h = 51;
p_t = 1.0;
p_usb_h = 2.8;
pico_header_h = 2.5; // todo
lcd_header_h = 10.0; // todo
header_h = pico_header_h + lcd_header_h;
part="OPT_assembly"; //[bottom,top,button,print,OPT_assembly]
wall=1.5;
extra=4; //lip on the lid that presses top pcb down
thread=3;
air=0.5;
bissl=1/100;
button=4;
joystick=6;
height=16.8+air+extra;
width=52.4+1.5+2*air;
length=26.7+2*air;
$fa=1/1;
$fs=1/2;
total_width = width+2*wall;
total_len = length+4*wall+2*thread;
module lcd() {
color("blue")
translate([-lcd_h / 2, -lcd_w / 2, 0])
cube([lcd_h, lcd_w, lcd_d]);
}
module hw() {
translate([0, 0, header_h])
lcd();
translate([p_w / 2, -p_h / 2, 0])
rotate([0, 180, 0])
pico();
}
module bottom() {
difference() {
cube([total_width, total_len, height + wall]);
translate([wall,2*wall+thread,wall])cube([width,length,height+bissl]);
for (tr=[[wall+thread/2,wall+thread/2,height/2+wall],
[wall+thread/2,length+3*wall+1.5*thread,height/2+wall],
[width+wall-thread/2,wall+thread/2,height/2+wall],
[width+wall-thread/2,length+3*wall+1.5*thread,height/2+wall]])
translate(tr) cylinder(h=height/2+bissl,d=thread);
translate([wall/2,2*wall+thread+length/2,3-bissl])cube([wall+bissl,8,6],center=true);
translate([0,2*wall+thread+length/2,wall+7])rotate([0,90,0])cylinder(d=button,h=2*wall+bissl,center=true);
}
}
module top() {
difference() {
cube([total_width, total_len, wall]);
for (tr=[[wall+thread/2,wall+thread/2,-bissl],
[wall+thread/2,length+3*wall+1.5*thread,-bissl],
[width+wall-thread/2,wall+thread/2,-bissl],
[width+wall-thread/2,length+3*wall+1.5*thread,-bissl]])
translate(tr) cylinder(h=wall+2*bissl,d=thread);
translate([wall+1.5,2*wall+thread,-bissl])
for (tr=[[47.7+air,5.5+0],
[47.7+air,5.5+5.7],
[47.7+air,5.5+2*5.7],
[47.7+air,5.5+3*5.7],
[6.7+0.5,13.8+air]])
translate(tr) cylinder(h=wall+2*bissl,d=button);
translate([wall+1.5+6.7+air,2*wall+thread+13.8+air,-bissl]) cylinder(h=wall+2*bissl,d=joystick);
translate([wall+13.5+1.5,2*wall+thread,-bissl])cube([31,27,wall+2*bissl]);
}
translate([wall+13.5+1.5-2,2*wall+thread,-extra])cube([2,27,extra]);
translate([wall+13.5+1.5+31,2*wall+thread,-extra])cube([2,27,extra]);
}
module button() {
cylinder(h=1,d=5);
cylinder(h=5,d=3);
}
module bottom_assm() {
%translate([0, 0, wall + p_t + p_usb_h])
rotate([0, 0, 90])
hw();
translate([-total_width / 2, -total_len / 2, 0])
bottom();
}
if (part == "bottom") {
bottom_assm();
} else if (part == "top") {
rotate([180, 0, 0])
top();
} else if (part == "button") {
button();
} else if (part == "print"){
translate([0, 10, 0])
bottom();
translate([0, -10, wall])
rotate([180, 0, 0])
top();
for (i = [1 : 4])
translate([-10, -25 + i * 10, 0])
button();
} else {
difference() {
union() {
bottom_assm();
translate([-total_width / 2, -total_len / 2, height + wall])
top();
}
translate([-total_width / 2 - 1, 0, -2])
cube([total_width + 2, total_len / 2 + 2, height + wall + 4]);
}
}