3d-stuff/openscad/foreign/modular multi-hdd case/Electronics/HardDisk.scad

/**
 * Genera un contenedor para almacenar discos duros.
 *
 * @author  Joaquín Fernández
 * @url     https://gitlab.com/joaquinfq/openscad/blob/master/Electronics/HardDisk.scad
 * @license CC-BY-NC-4.0
 * @see     https://www.thingiverse.com/thing:3642857
 */
//---------------------------------------------------------------
// Variables personalizables
//---------------------------------------------------------------
count     = 4;    // Cantidad de discos duros a almacenar.
desktop   = false; // Indica si el disco duro es de PC (3.5") o portátil (2.5").
notch     = true; // Indica si se genera el espacio para sacar el disco con el dedo.
padding   = 20;   // Ancho de la pestaña a usar como separador entre discos.
screws    = true; // Indica si se dejan los espacios para los tornillos.
thickness = 2;  // Grosor de las paredes del contenedor.
tolerance = 0.9;  // Tolerancia a usar en las medidas del disco duro.
model     = 5;    // Tipo de disco duro (altura estándar):
                  // 2.5"
                  //    0: 19.05
                  //    1: 17.00
                  //    2: 15.00
                  //    3: 12.70
                  //    4: 10.50
                  //    5:  9.50
                  //    6:  8.47
                  //    7:  7.00
                  //    8:  5.00
                  // 3.5"
                  //    0: 42.00
                  //    1: 26.10
                  //    2: 17.80
//---------------------------------------------------------------
use <../Modules/Box/rounded.scad>
use <../Modules/Models/SFF/8200.scad>
use <../Modules/Models/SFF/8300.scad>
//---------------------------------------------------------------
// Valores calculados. No tocar sin estar seguro.
//---------------------------------------------------------------
size    = desktop
            ? sff8300(tolerance = tolerance, type = model)
            : sff8200(tolerance = tolerance, type = model);
width   = size[desktop ? 3 : 4];
height  = size[1];
length  = size[desktop ? 2 : 6];
dt      = 2 * thickness;
d       = (height - dt) * 0.7;
dy      = height + thickness;
ty      = thickness + count * dy;
epsilon = $preview ? 0.01 : 0;
$fn     = $preview ? 60   : 180;

/**
 * Dibuja el separador de los discos.
 *
 * @param {Float} thickness Grosor del separador.
 * @param {Float} radius    Radio a usar para redondear el borde.
 * @param {Float} width     Ancho del espacio a dejar en el separador.
 * @param {Float} length    Longitud del espacio a dejar en el separador.
 */
module separator(thickness = thickness, radius = 5, width = width - padding, length = length - padding)
{
    _r  = radius;
    _r2 = _r * _r;
    _w  = width / 2;
    _a1 = _w - _r;
    _a2 = _w + _r;
    _b  =  length - _r;
    linear_extrude(thickness)
    {
        polygon(
            points = [
                [   _a1, 0 ],
                for (_x = [ 0 : 0.1 : _r ]) [ _x + _a1, - sqrt(_r2 - pow(_x, 2)) + _r ],
                [    _w, _b ],
                for (_x = [ - _r : 0.1 : 0 ]) [ _a2 + _x, sqrt(_r2 - pow(_x, 2)) + _b ],
                [   _a2, _b +     _r ],
                [   _a2, _b + 2 * _r ],
                [ - _a2, _b + 2 * _r ],
                [ - _a2, _b +     _r ],
                for (_x = [ _r : -0.1 : 0 ]) [ - _a2 + _x, sqrt(_r2 - pow(_x, 2)) + _b ],
                [ -  _w, _b ],
                for (_x = [ _r : -0.1 : 0 ]) [ - (_x + _a1), - sqrt(_r2 - pow(_x, 2)) + _r ],
                [ - _a1, 0 ],
            ]
        );
    }
}

//---------------------------------------------------------------
// Inicio del script.
//---------------------------------------------------------------
difference()
{

    boxRounded(width + dt, ty, length + thickness, 1.2, thickness);
    for (n =  [ 0 : count - 1 ])
    {
        translate([ - width / 2, n * dy + thickness - ty / 2, - (length + thickness) / 2 + thickness ])
        {
            if (desktop)
            {
                sff8300Model(length + 5, screws ? dt : 0, slot = 5, tolerance = tolerance, type = model);
            }
            else
            {
                sff8200Model(length + 5, screws ? dt : 0, slot = 5, tolerance = tolerance, type = model);
            }
            if (notch)
            {
                hull()
                {
                    for (_x = [ d + thickness, width - (d + thickness) ])
                    {
                        translate([ _x, height / 2, - thickness / 2 ])
                        {
                            cylinder(h = 2 * dt, d = d, center = true);
                        }
                    }
                }
            }
            if (n)
            {
                if (padding)
                {
                    translate([ width / 2, dt / 4, padding - dt ])
                    {
                        rotate([ 90, 0, 0 ])
                        {
                            separator(dt);
                        }
                    }
                }
                else
                {
                    translate([ width / 2, - epsilon, length / 2 ])
                    {
                        cube([ width, dt + 2 * epsilon, length ], center = true);
                    }
                }
            }
        }
    }
    translate([ 0, 0, (length + thickness) / 2 - dt / 2 + 0.01 ])
    {
        cube([ width, count * height, dt ], center = true);
    }
    rotate([90,0,0]){
    translate([0,0,-25.8+thickness/2+0.1])cube([100,150,thickness+0.2],center=true);
    }
}


hole_dia=4.5;
rotate([90,0,0]){
    translate([7.5,0,-25.8+thickness/2+0.1]){
        difference(){
            cube([110,103.35,thickness+0.2],center=true);
            translate([-50,20,0]){
                #cylinder(d=hole_dia,h=10,center=true);
                translate([0,-64.45,0])#cylinder(d=hole_dia,h=10,center=true);
                translate([83.5,20,0])#cylinder(d=hole_dia,h=10,center=true);
            }
        }
    }
//}


    }
added awesome modular multi-hdd-case 2022-09-09 13:22:30 +02:00			`/**`
			`* Genera un contenedor para almacenar discos duros.`
			`*`
			`* @author Joaquín Fernández`
			`* @url https://gitlab.com/joaquinfq/openscad/blob/master/Electronics/HardDisk.scad`
			`* @license CC-BY-NC-4.0`
			`* @see https://www.thingiverse.com/thing:3642857`
			`*/`
			`//---------------------------------------------------------------`
			`// Variables personalizables`
			`//---------------------------------------------------------------`
			`count = 4; // Cantidad de discos duros a almacenar.`
			`desktop = false; // Indica si el disco duro es de PC (3.5") o portátil (2.5").`
			`notch = true; // Indica si se genera el espacio para sacar el disco con el dedo.`
			`padding = 20; // Ancho de la pestaña a usar como separador entre discos.`
			`screws = true; // Indica si se dejan los espacios para los tornillos.`
			`thickness = 2; // Grosor de las paredes del contenedor.`
			`tolerance = 0.9; // Tolerancia a usar en las medidas del disco duro.`
			`model = 5; // Tipo de disco duro (altura estándar):`
			`// 2.5"`
			`// 0: 19.05`
			`// 1: 17.00`
			`// 2: 15.00`
			`// 3: 12.70`
			`// 4: 10.50`
			`// 5: 9.50`
			`// 6: 8.47`
			`// 7: 7.00`
			`// 8: 5.00`
			`// 3.5"`
			`// 0: 42.00`
			`// 1: 26.10`
			`// 2: 17.80`
			`//---------------------------------------------------------------`
			`use <../Modules/Box/rounded.scad>`
			`use <../Modules/Models/SFF/8200.scad>`
			`use <../Modules/Models/SFF/8300.scad>`
			`//---------------------------------------------------------------`
			`// Valores calculados. No tocar sin estar seguro.`
			`//---------------------------------------------------------------`
			`size = desktop`
			`? sff8300(tolerance = tolerance, type = model)`
			`: sff8200(tolerance = tolerance, type = model);`
			`width = size[desktop ? 3 : 4];`
			`height = size[1];`
			`length = size[desktop ? 2 : 6];`
			`dt = 2 * thickness;`
			`d = (height - dt) * 0.7;`
			`dy = height + thickness;`
			`ty = thickness + count * dy;`
			`epsilon = $preview ? 0.01 : 0;`
			`$fn = $preview ? 60 : 180;`

			`/**`
			`* Dibuja el separador de los discos.`
			`*`
			`* @param {Float} thickness Grosor del separador.`
			`* @param {Float} radius Radio a usar para redondear el borde.`
			`* @param {Float} width Ancho del espacio a dejar en el separador.`
			`* @param {Float} length Longitud del espacio a dejar en el separador.`
			`*/`
			`module separator(thickness = thickness, radius = 5, width = width - padding, length = length - padding)`
			`{`
			`_r = radius;`
			`_r2 = _r * _r;`
			`_w = width / 2;`
			`_a1 = _w - _r;`
			`_a2 = _w + _r;`
			`_b = length - _r;`
			`linear_extrude(thickness)`
			`{`
			`polygon(`
			`points = [`
			`[ _a1, 0 ],`
			`for (_x = [ 0 : 0.1 : _r ]) [ _x + _a1, - sqrt(_r2 - pow(_x, 2)) + _r ],`
			`[ _w, _b ],`
			`for (_x = [ - _r : 0.1 : 0 ]) [ _a2 + _x, sqrt(_r2 - pow(_x, 2)) + _b ],`
			`[ _a2, _b + _r ],`
			`[ _a2, _b + 2 * _r ],`
			`[ - _a2, _b + 2 * _r ],`
			`[ - _a2, _b + _r ],`
			`for (_x = [ _r : -0.1 : 0 ]) [ - _a2 + _x, sqrt(_r2 - pow(_x, 2)) + _b ],`
			`[ - _w, _b ],`
			`for (_x = [ _r : -0.1 : 0 ]) [ - (_x + _a1), - sqrt(_r2 - pow(_x, 2)) + _r ],`
			`[ - _a1, 0 ],`
			`]`
			`);`
			`}`
			`}`

			`//---------------------------------------------------------------`
			`// Inicio del script.`
			`//---------------------------------------------------------------`
			`difference()`
			`{`
ssd-holder for backup server 2022-09-09 23:26:32 +02:00
added awesome modular multi-hdd-case 2022-09-09 13:22:30 +02:00			`boxRounded(width + dt, ty, length + thickness, 1.2, thickness);`
			`for (n = [ 0 : count - 1 ])`
			`{`
			`translate([ - width / 2, n * dy + thickness - ty / 2, - (length + thickness) / 2 + thickness ])`
			`{`
			`if (desktop)`
			`{`
			`sff8300Model(length + 5, screws ? dt : 0, slot = 5, tolerance = tolerance, type = model);`
			`}`
			`else`
			`{`
			`sff8200Model(length + 5, screws ? dt : 0, slot = 5, tolerance = tolerance, type = model);`
			`}`
			`if (notch)`
			`{`
			`hull()`
			`{`
			`for (_x = [ d + thickness, width - (d + thickness) ])`
			`{`
			`translate([ _x, height / 2, - thickness / 2 ])`
			`{`
			`cylinder(h = 2 * dt, d = d, center = true);`
			`}`
			`}`
			`}`
			`}`
			`if (n)`
			`{`
			`if (padding)`
			`{`
			`translate([ width / 2, dt / 4, padding - dt ])`
			`{`
			`rotate([ 90, 0, 0 ])`
			`{`
			`separator(dt);`
			`}`
			`}`
			`}`
			`else`
			`{`
			`translate([ width / 2, - epsilon, length / 2 ])`
			`{`
			`cube([ width, dt + 2 * epsilon, length ], center = true);`
			`}`
			`}`
			`}`
			`}`
			`}`
			`translate([ 0, 0, (length + thickness) / 2 - dt / 2 + 0.01 ])`
			`{`
			`cube([ width, count * height, dt ], center = true);`
			`}`
ssd-holder for backup server 2022-09-09 23:26:32 +02:00			`rotate([90,0,0]){`
			`translate([0,0,-25.8+thickness/2+0.1])cube([100,150,thickness+0.2],center=true);`
			`}`
added awesome modular multi-hdd-case 2022-09-09 13:22:30 +02:00			`}`
ssd-holder for backup server 2022-09-09 23:26:32 +02:00


			`hole_dia=4.5;`
			`rotate([90,0,0]){`
			`translate([7.5,0,-25.8+thickness/2+0.1]){`
			`difference(){`
			`cube([110,103.35,thickness+0.2],center=true);`
			`translate([-50,20,0]){`
			`#cylinder(d=hole_dia,h=10,center=true);`
			`translate([0,-64.45,0])#cylinder(d=hole_dia,h=10,center=true);`
			`translate([83.5,20,0])#cylinder(d=hole_dia,h=10,center=true);`
			`}`
			`}`
			`}`
			`//}`





















			`}`