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standesk.scad
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standesk.scad
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/**
* standesk - A customizable standing desk made out of just one plywood panel.
*
* WARNING: This model is a quick-and-dirty sketch! Although it is fully
* parametric, some settings might yield nonsense paths or break the
* model in unexpected ways! Feel free to contribute by opening PRs
* or issues on the official GitHub respository linked below.
*
* Version: 0.1.5
* Author: Joseph Paul <[email protected]>
* License: Public Domain
* URL: https://github.com/jsphpl/standesk
*/
/*
|-------------------------------------------------------------------------------
| Parameters (user-settable)
|-------------------------------------------------------------------------------
|
| The following variables should be set by the user in order
| to define the overall dimensions of the resulting desk.
|
| For instrucions on how to use this model, please refer to
| https://github.com/jsphpl/standesk
|
*/
DESK_HEIGHT = 1100; // mm // Height of the desk surface above the floor
DESK_WIDTH = 1120; // mm // Width of the desk surface between feet
DESK_DEPTH = 800; // mm // Depth of the desk surface between front and rear edge
TOOL_DIAMETER = 4; // mm // Diameter of the drill bit used to cut the material
CLEARANCE = 10; // mm // Extra space between individual Parts on the panel
CORNER_RADIUS = 10; // mm // Radius for rounding the outer corners
FILLET_RADIUS = TOOL_DIAMETER/1.9; // mm // Radius for dogbone fillets
STOCK_WIDTH = 1210; // mm // Width of one panel of the desired raw material
STOCK_LENGTH = 2480; // mm // Length of one panel of the desired raw material
STOCK_THICKNESS = 12; // mm // Thickness of the desired raw material
/**
* Global SCALE
*
* Increase/decrease to change the size of all joints and
* the width of all struts. This value basically lets
* you proportionally scale all other parameters
* than the ones defined above this comment.
*
* Please always check both the assembled and flat view
* of the model before producing the DXF outlines.
*/
SCALE = 1;
/*
|-------------------------------------------------------------------------------
| Output Options
|-------------------------------------------------------------------------------
|
| When FLAT is false, the assembled model will be rendered (3D).
|
| When FLAT is true, the parts will be shown the way they're
| arranged on the the stock panel. SHOW_STOCK can be used
| to check if everything fits on the panel.
|
| In order to produce the final DXF curves, both FLAT and
| PROJECTION must be set to `true`.
|
| If TEST_JOINT is true, a separate joint (male + female + pin)
| will be added to the FLAT view. These parts should be cut
| separately, prior to all other cuts, in order to ensure
| the parameters are correct for the material and thus
| the joints fit as desired, so you can assemble it.
|
*/
FLAT = false;
PROJECTION = false;
SHOW_STOCK = true;
TEST_JOINT = true;
$fn = 50;
/*
|-------------------------------------------------------------------------------
| Details
|-------------------------------------------------------------------------------
|
| The variables defined below should typically not need to be adjusted.
| Most of the time, only the primary dimensions (width, height, depth)
| as well as the stock and machine parameters should need adjustment.
|
*/
// Feet
BASE_HEIGHT = 200*SCALE;
STAND_DEPTH = 180*SCALE;
STAND_SPACE = 200*SCALE;
// Foot rest
REST_DEPTH = 130*SCALE;
REST_LEVEL = 240*SCALE;
REST_ANGLE = 15; // degrees
// Top Support (another strut right below the table top as a
// support when using thinner material, recommended < 15mm)
TOPSUPPORT_ON = true;
TOPSUPPORT_DEPTH = 110*SCALE;
// Crosses
CROSS_CUT = max(DESK_HEIGHT/7, 140)*SCALE; // 1/7th of DESK_HEIGHT if > 140mm
CROSS_CLEARANCE = 0;
CROSS_ANGLE = atan((DESK_HEIGHT - CROSS_CUT) / DESK_WIDTH);
CROSS_WIDTH = sin(90 - CROSS_ANGLE) * CROSS_CUT;
CROSS_SINGLE = true; // Use only one strut for the cross
// Joints
JOINT_WIDTH = 60*SCALE;
JOINT_LENGTH = 45*SCALE;
JOINT_TOLERANCE = 0;
JOINT_SLOT_WIDTH = STOCK_THICKNESS + JOINT_TOLERANCE;
JOINT_SLOT_LENGTH = STOCK_THICKNESS * 1.2;
JOINT_SLOT_OFFSET = STOCK_THICKNESS * 0.8;
JOINT_SLOT_TOLERANCE = .2;
JOINT_BUFFER = max(3.3*STOCK_THICKNESS, 6); // at least 6mm
// Keys
KEY_LENGTH = 50*SCALE;
KEY_THICKNESS = STOCK_THICKNESS * 1.2;
// Flat Offsets
CROSSES_FLAT_OFFSET_X = DESK_DEPTH + JOINT_LENGTH/2 + CLEARANCE;
CROSSES_FLAT_OFFSET_Y = DESK_DEPTH + CLEARANCE;
/*
|-------------------------------------------------------------------------------
| Includes
|-------------------------------------------------------------------------------
*/
include <library.scad>;
/*
|-------------------------------------------------------------------------------
| Model
|-------------------------------------------------------------------------------
|
| The actual model
|
*/
/**
* The table top surface.
*/
module top() {
trans = FLAT ? [DESK_DEPTH, JOINT_LENGTH+1, 0] : [0, 0, DESK_HEIGHT];
rot = FLAT ? [0, 0, 90] : [0, 0, 0];
translate(trans)
rotate(rot)
difference() {
union() {
cube(size = [DESK_WIDTH, DESK_DEPTH, STOCK_THICKNESS]);
// Joints
// left
translate([0, DESK_DEPTH - (STAND_DEPTH - JOINT_WIDTH) / 2, 0])
rotate([90, 0, -90])
joint();
translate([0, STAND_SPACE + STAND_DEPTH - (STAND_DEPTH - JOINT_WIDTH) / 2, 0])
rotate([90, 0, -90])
joint();
// right
translate([DESK_WIDTH, DESK_DEPTH - (STAND_DEPTH + JOINT_WIDTH) / 2, 0])
rotate([90, 0, 90])
joint();
translate([DESK_WIDTH, STAND_SPACE + (STAND_DEPTH - JOINT_WIDTH) / 2, 0])
rotate([90, 0, 90])
joint();
}
// Rounded corners
roundCorner(CORNER_RADIUS, STOCK_THICKNESS);
translate([DESK_WIDTH, 0, 0]) rotate([0, 0, 90]) roundCorner(CORNER_RADIUS, STOCK_THICKNESS);
translate([DESK_WIDTH, DESK_DEPTH, 0]) rotate([0, 0, 180]) roundCorner(CORNER_RADIUS, STOCK_THICKNESS);
translate([0, DESK_DEPTH, 0]) rotate([0, 0, 270]) roundCorner(CORNER_RADIUS, STOCK_THICKNESS);
// Fillets
// left
translate([0, DESK_DEPTH - (STAND_DEPTH - JOINT_WIDTH) / 2, 0]) rotate([0, 0, 90]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
translate([0, DESK_DEPTH - (STAND_DEPTH - JOINT_WIDTH) / 2 - JOINT_WIDTH, 0]) rotate([0, 0, 180]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
translate([0, STAND_SPACE + STAND_DEPTH - (STAND_DEPTH - JOINT_WIDTH) / 2, 0]) rotate([0, 0, 90]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
translate([0, STAND_SPACE + STAND_DEPTH - (STAND_DEPTH - JOINT_WIDTH) / 2 - JOINT_WIDTH, 0]) rotate([0, 0, 180]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
// right
translate([DESK_WIDTH, DESK_DEPTH - (STAND_DEPTH + JOINT_WIDTH) / 2, 0]) rotate([0, 0, 270]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
translate([DESK_WIDTH, DESK_DEPTH - (STAND_DEPTH + JOINT_WIDTH) / 2 + JOINT_WIDTH, 0]) rotate([0, 0, 0]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
translate([DESK_WIDTH, STAND_SPACE + (STAND_DEPTH - JOINT_WIDTH) / 2, 0]) rotate([0, 0, 270]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
translate([DESK_WIDTH, STAND_SPACE + (STAND_DEPTH - JOINT_WIDTH) / 2 + JOINT_WIDTH, 0]) rotate([0, 0, 0]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
}
}
/**
* Both complete feet.
*/
module feet() {
if (FLAT)
{
translate([DESK_DEPTH + CLEARANCE, -CLEARANCE, STOCK_THICKNESS])
{
rotate([0, 180, 0])
{
translate([0, CLEARANCE, 0])
rotate([0, -90, 0])
foot("left");
translate([-DESK_HEIGHT -JOINT_BUFFER -CLEARANCE -BASE_HEIGHT, DESK_DEPTH+CLEARANCE, 0])
rotate([0, -90, 180])
foot("right");
}
}
}
else
{
translate([-STOCK_THICKNESS, 0, 0])
{
foot("left");
translate([DESK_WIDTH + STOCK_THICKNESS, 0, 0])
foot("right");
}
}
}
/**
* A complete foot (left or right) with holes cut out.
*
* @param {String} side Which side foot (left|right)
*/
module foot(side) {
if (side == "left")
{
// left
difference() {
baseFoot();
// holes
union() {
// top
translate([0, STAND_SPACE + (STAND_DEPTH - JOINT_WIDTH)/2, DESK_HEIGHT])
rotate([90, 0, 90])
jointHole();
translate([0, DESK_DEPTH - (STAND_DEPTH + JOINT_WIDTH)/2, DESK_HEIGHT])
rotate([90, 0, 90])
jointHole();
// cross
translate([0, DESK_DEPTH + CROSS_CLEARANCE - STAND_DEPTH/2, (CROSS_CUT + JOINT_WIDTH)/2])
rotate([0, 90, 0])
jointHole();
translate([0, DESK_DEPTH - STAND_DEPTH/2 - (STOCK_THICKNESS + CROSS_CLEARANCE), DESK_HEIGHT - (CROSS_CUT - JOINT_WIDTH)/2])
rotate([0, 90, 0])
jointHole();
// rest
translate([STOCK_THICKNESS, STAND_SPACE + (STAND_DEPTH - REST_DEPTH)/2, REST_LEVEL])
rotate([REST_ANGLE, 0, 0])
translate([0, (REST_DEPTH + JOINT_WIDTH) / 2, 0])
rotate([90, 0, -90])
jointHole();
// support
translate([0, STAND_SPACE + (STAND_DEPTH+STOCK_THICKNESS)/2, DESK_HEIGHT-TOPSUPPORT_DEPTH])
rotate([90, 0, 0])
translate([STOCK_THICKNESS, (TOPSUPPORT_DEPTH + JOINT_WIDTH) / 2, 0])
rotate([90, 0, -90])
jointHole();
}
}
}
if (side == "right")
{
//right
difference() {
baseFoot();
// holes
union() {
// top
translate([0, STAND_SPACE + (STAND_DEPTH - JOINT_WIDTH)/2, DESK_HEIGHT])
rotate([90, 0, 90])
jointHole();
translate([0, DESK_DEPTH - (STAND_DEPTH + JOINT_WIDTH)/2, DESK_HEIGHT])
rotate([90, 0, 90])
jointHole();
// cross
translate([0, DESK_DEPTH - STAND_DEPTH/2 - (STOCK_THICKNESS + CROSS_CLEARANCE), (CROSS_CUT + JOINT_WIDTH)/2])
rotate([0, 90, 0])
jointHole();
translate([0, DESK_DEPTH - STAND_DEPTH/2 + CROSS_CLEARANCE, DESK_HEIGHT - (CROSS_CUT - JOINT_WIDTH)/2])
rotate([0, 90, 0])
jointHole();
// rest
translate([STOCK_THICKNESS, STAND_SPACE + (STAND_DEPTH - REST_DEPTH)/2, REST_LEVEL])
rotate([REST_ANGLE, 0, 0])
translate([0, (REST_DEPTH + JOINT_WIDTH) / 2, 0])
rotate([90, 0, -90])
jointHole();
// support
translate([STOCK_THICKNESS, STAND_SPACE + (STAND_DEPTH+STOCK_THICKNESS)/2, DESK_HEIGHT-TOPSUPPORT_DEPTH])
rotate([90, 0, 0])
translate([0, (TOPSUPPORT_DEPTH + JOINT_WIDTH) / 2, 0])
rotate([90, 0, -90])
jointHole();
}
}
}
}
/**
* A Single Table Foot without holes.
*/
module baseFoot() {
union() {
// base
difference() {
cube(size = [STOCK_THICKNESS, DESK_DEPTH, BASE_HEIGHT]);
// Rounded corners
rotate([90, 0, 90]) roundCorner(CORNER_RADIUS, STOCK_THICKNESS);
translate([0, 0, BASE_HEIGHT]) rotate([0, 90, 0]) roundCorner(CORNER_RADIUS, STOCK_THICKNESS);
translate([0, DESK_DEPTH, 0]) rotate([180, -90, 0]) roundCorner(CORNER_RADIUS, STOCK_THICKNESS);
}
// 2 stands
translate([0, DESK_DEPTH - STAND_DEPTH, 0])
footStand();
translate([0, STAND_SPACE, 0])
footStand();
// Rounded corners
translate([0, STAND_SPACE+ STAND_DEPTH, BASE_HEIGHT]) rotate([90, 0, 90]) roundCorner(CORNER_RADIUS, STOCK_THICKNESS);
translate([0, STAND_SPACE, BASE_HEIGHT]) rotate([90, 270, 90]) roundCorner(CORNER_RADIUS, STOCK_THICKNESS);
translate([0, DESK_DEPTH-STAND_DEPTH, BASE_HEIGHT]) rotate([90, 270, 90]) roundCorner(CORNER_RADIUS, STOCK_THICKNESS);
}
}
/**
* One vertical strut with holes cut out. Needed twice per foot.
*/
module footStand() {
totalHeight = DESK_HEIGHT + JOINT_BUFFER;
difference() {
cube(size = [STOCK_THICKNESS, STAND_DEPTH, totalHeight]);
// Rounded corners
translate([0, 0, totalHeight]) rotate([0, 90, 0]) roundCorner(CORNER_RADIUS, STOCK_THICKNESS);
translate([STOCK_THICKNESS, STAND_DEPTH, totalHeight]) rotate([0, 90, 180]) roundCorner(CORNER_RADIUS, STOCK_THICKNESS);
}
}
/**
* Both crosses.
*/
module crosses() {
if(FLAT)
{
translate([CROSSES_FLAT_OFFSET_X, CROSSES_FLAT_OFFSET_Y, 0])
{
cross();
if (! CROSS_SINGLE) {
translate([0, CROSS_WIDTH + CLEARANCE, 0])
cross();
}
}
}
else
{
translate([0, DESK_DEPTH - STAND_DEPTH/2, 0])
union() {
// cross 1
translate([0, STOCK_THICKNESS + CROSS_CLEARANCE, 0])
cross();
if (! CROSS_SINGLE) {
// cross 2
translate([DESK_WIDTH, -CROSS_CLEARANCE, 0])
mirror([1, 0, 0])
cross();
}
}
}
}
/**
* A single diagonal strut.
*/
module cross() {
rotX1 = FLAT ? 0 : 90;
rotX2 = FLAT ? -90 : 0;
rotZ = FLAT ? -CROSS_ANGLE : 0;
rotate([0, 0, rotZ])
difference() {
union() {
rotate([rotX1, 0, 0])
linear_extrude(height = STOCK_THICKNESS)
polygon(
points = [
[0, 0],
[DESK_WIDTH, DESK_HEIGHT - CROSS_CUT],
[DESK_WIDTH, DESK_HEIGHT],
[0, CROSS_CUT]
],
paths = [
[0, 1, 2, 3]
]
);
// Joints
rotate([rotX2, 0, 0]) {
translate([0, -STOCK_THICKNESS, (CROSS_CUT - JOINT_WIDTH)/2])
rotate([0, -90, 0])
joint();
translate([DESK_WIDTH, -STOCK_THICKNESS, DESK_HEIGHT- (CROSS_CUT - JOINT_WIDTH)/2])
rotate([0, 90, 0])
joint();
}
}
// Fillets
rotate([rotX2, 0, 0]) {
translate([2, -STOCK_THICKNESS, (CROSS_CUT - JOINT_WIDTH)/2]) rotate([90, 90, 180]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
translate([2, -STOCK_THICKNESS, (CROSS_CUT - JOINT_WIDTH)/2 + JOINT_WIDTH]) rotate([90, 0, 180]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
translate([DESK_WIDTH, -STOCK_THICKNESS, DESK_HEIGHT- (CROSS_CUT - JOINT_WIDTH)/2]) rotate([90, 270, 180]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
translate([DESK_WIDTH, -STOCK_THICKNESS, DESK_HEIGHT- (CROSS_CUT - JOINT_WIDTH)/2 - JOINT_WIDTH]) rotate([90, 180, 180]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
}
}
}
/**
* The lower horizontal bar intened as a foot rest.
*/
module rest() {
rot = FLAT ? [0, 0, 0] : [REST_ANGLE, 0, 0];
trans = FLAT ? [DESK_DEPTH + JOINT_LENGTH + CLEARANCE + 1, CROSSES_FLAT_OFFSET_Y + 2*CROSS_WIDTH +3*CLEARANCE, 0] : [0, STAND_SPACE + (STAND_DEPTH - REST_DEPTH)/2, REST_LEVEL];
translate(trans)
rotate(rot)
difference() {
union() {
cube([DESK_WIDTH, REST_DEPTH, STOCK_THICKNESS]);
// joints
translate([0, (REST_DEPTH + JOINT_WIDTH) / 2, 0])
rotate([90, 0, -90])
joint();
translate([DESK_WIDTH, (REST_DEPTH - JOINT_WIDTH) / 2, 0])
rotate([90, 0, 90])
joint();
}
// Fillets
translate([0, (REST_DEPTH + JOINT_WIDTH) / 2, 0]) rotate([0, 0, 90]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
translate([0, (REST_DEPTH + JOINT_WIDTH) / 2 - JOINT_WIDTH, 0]) rotate([0, 0, 180]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
translate([DESK_WIDTH, (REST_DEPTH - JOINT_WIDTH) / 2, 0]) rotate([0, 0, 270]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
translate([DESK_WIDTH, (REST_DEPTH - JOINT_WIDTH) / 2 + JOINT_WIDTH, 0]) rotate([0, 0, 0]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
}
}
/**
* The top support strut. Intended to reinforce the
* table top when using thin stock material.
*/
module topsupport() {
if (TOPSUPPORT_ON) {
rot = FLAT ? [0, 0, 0] : [90, 0, 0];
trans = FLAT ? [CROSSES_FLAT_OFFSET_X + 3*CLEARANCE, CROSSES_FLAT_OFFSET_Y + CROSS_WIDTH + CLEARANCE, 0] : [0, STAND_SPACE + (STAND_DEPTH+STOCK_THICKNESS)/2, DESK_HEIGHT-TOPSUPPORT_DEPTH];
translate(trans)
rotate(rot)
difference() {
union() {
cube([DESK_WIDTH, TOPSUPPORT_DEPTH, STOCK_THICKNESS]);
// joints
translate([0, (TOPSUPPORT_DEPTH + JOINT_WIDTH) / 2, 0])
rotate([90, 0, -90])
joint();
translate([DESK_WIDTH, (TOPSUPPORT_DEPTH - JOINT_WIDTH) / 2, 0])
rotate([90, 0, 90])
joint();
}
// Fillets
translate([0, (TOPSUPPORT_DEPTH + JOINT_WIDTH) / 2, 0]) rotate([0, 0, 90]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
translate([0, (TOPSUPPORT_DEPTH + JOINT_WIDTH) / 2 - JOINT_WIDTH, 0]) rotate([0, 0, 180]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
translate([DESK_WIDTH, (TOPSUPPORT_DEPTH - JOINT_WIDTH) / 2, 0]) rotate([0, 0, 270]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
translate([DESK_WIDTH, (TOPSUPPORT_DEPTH - JOINT_WIDTH) / 2 + JOINT_WIDTH, 0]) rotate([0, 0, 0]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
}
}
}
/**
* The male part of a joint, with a hole for the key.
*/
module joint() {
translate([0, 0, -0.5])
difference() {
cube([JOINT_WIDTH, STOCK_THICKNESS, JOINT_LENGTH + 1]);
// Rounded corners
translate([0, STOCK_THICKNESS, JOINT_LENGTH + 1]) rotate([90, 90, 0]) roundCorner(CORNER_RADIUS, STOCK_THICKNESS);
translate([JOINT_WIDTH, STOCK_THICKNESS, JOINT_LENGTH + 1]) rotate([90, 180, 0]) roundCorner(CORNER_RADIUS, STOCK_THICKNESS);
translate([
(JOINT_WIDTH - JOINT_SLOT_WIDTH) / 2,
0,
0
])
translate([0, STOCK_THICKNESS+1, JOINT_SLOT_OFFSET])
rotate([90, 0, 0])
dogboneCube([JOINT_SLOT_WIDTH, JOINT_SLOT_LENGTH, STOCK_THICKNESS + 2], FILLET_RADIUS);
}
}
/**
* The female part of a joint. This one is positive
* and intended to be subtractad from other objects.
*/
module jointHole() {
translate([-JOINT_SLOT_TOLERANCE/2, -JOINT_SLOT_TOLERANCE/2, -JOINT_SLOT_TOLERANCE/2])
dogboneCube([JOINT_WIDTH + JOINT_SLOT_TOLERANCE, STOCK_THICKNESS + JOINT_SLOT_TOLERANCE, STOCK_THICKNESS + JOINT_SLOT_TOLERANCE], FILLET_RADIUS);
}
/**
* All keys next to each other.
*/
module keys() {
if (FLAT) {
translate([DESK_DEPTH + DESK_HEIGHT + BASE_HEIGHT + 8*CLEARANCE, CLEARANCE, 0])
for(n = [0 : 9]) {
translate([0, (KEY_THICKNESS + CLEARANCE) * n, 0])
key();
}
}
}
/**
* A single key.
*/
module key() {
linear_extrude(height = STOCK_THICKNESS)
polygon([[0, 0], [KEY_LENGTH, 0], [0, KEY_THICKNESS]]);
}
/**
* Male and female part of a joint plus key for test cutting.
*/
module jointTest() {
if (FLAT) {
FEMALE_X = STOCK_THICKNESS*3;
FEMALE_Y = JOINT_WIDTH+2*STOCK_THICKNESS;
translate([STOCK_LENGTH - FEMALE_X - CLEARANCE, CLEARANCE, 0]) {
// Female
difference() {
cube([FEMALE_X, FEMALE_Y, STOCK_THICKNESS]);
translate([2*STOCK_THICKNESS, STOCK_THICKNESS, 0]) rotate([0, 0, 90]) jointHole();
}
// Male
translate([-(FEMALE_X + 2*CLEARANCE), CLEARANCE + STOCK_THICKNESS, 0])
rotate([0, 0, 90])
difference() {
union() {
translate([-STOCK_THICKNESS, 0, 0]) cube([JOINT_WIDTH+2*STOCK_THICKNESS, 2*STOCK_THICKNESS, STOCK_THICKNESS]);
rotate([90, 0, 0]) joint();
}
// Fillets
rotate([0, 0, 180]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
translate([JOINT_WIDTH, 0, 0]) rotate([0, 0, 270]) fillet(FILLET_RADIUS, STOCK_THICKNESS);
}
// Key
translate([0, FEMALE_Y + CLEARANCE, 0]) key();
}
}
}
/**
* The full desk.
*/
module desk() {
feet();
top();
crosses();
rest();
topsupport();
keys();
}
/**
* The stock panel as a reference.
*/
module stock(){
cube([STOCK_LENGTH, STOCK_WIDTH, STOCK_THICKNESS]);
}
/**
* Render either the desk or the joint tests.
*/
module show() {
desk();
if (TEST_JOINT) {
jointTest();
}
}
/*
|-------------------------------------------------------------------------------
| Rendering logic
|-------------------------------------------------------------------------------
*/
if (FLAT && PROJECTION) {
projection(cut = true)
translate([0, 0, -STOCK_THICKNESS/2])
show();
}
else {
show();
}
if (FLAT && SHOW_STOCK)
{
%stock();
}