afterburner/case/arduino.scad
ole00 aa53a480e7 added 3D printed case files
* use OpenScad to open the design .scad file
* the design file contains top part, bottom part and on/off switch
* .stl files are exported for your convenience
* .stl files can also be exported from OpenScad.
2023-01-15 22:04:20 +00:00

474 lines
19 KiB
OpenSCAD

// Arduino connectors library
//
// Copyright (c) 2013 Kelly Egan
//
// The MIT License (MIT)
//
// Permission is hereby granted, free of charge, to any person obtaining a copy of this software
// and associated documentation files (the "Software"), to deal in the Software without restriction,
// including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense,
// and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do
// so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in all copies or substantial
// portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT
// NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
// IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
// WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
// SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
//
// https://github.com/kellyegan/OpenSCAD-Arduino-Mounting-Library
//use <pin_connectors/pins.scad>
//Constructs a roughed out arduino board
//Current only USB, power and headers
module arduino(boardType = UNO, useColors = true) {
//The PCB with holes
if (useColors) difference() {
color("SteelBlue") boardShape( boardType );
translate([0,0,-pcbHeight * 0.5]) holePlacement(boardType = boardType)
color("SteelBlue") cylinder(r = mountingHoleRadius, h = pcbHeight * 2, $fn=32);
} else difference() {
boardShape( boardType );
translate([0,0,-pcbHeight * 0.5]) holePlacement(boardType = boardType)
cylinder(r = mountingHoleRadius, h = pcbHeight * 2, $fn=32);
}
//Add all components to board
components( boardType = boardType, component = ALL, useColors = useColors );
}
//Setting for enclosure mounting holes (Not Arduino mounting)
NOMOUNTINGHOLES = 0;
INTERIORMOUNTINGHOLES = 1;
EXTERIORMOUNTINGHOLES = 2;
//Offset from board. Negative values are insets
module boardShape( boardType = UNO, offset = 0, height = pcbHeight ) {
dimensions = boardDimensions(boardType);
xScale = (dimensions[0] + offset * 2) / dimensions[0];
yScale = (dimensions[1] + offset * 2) / dimensions[1];
translate([-offset, -offset, 0])
scale([xScale, yScale, 1.0])
linear_extrude(height = height)
polygon(points = boardShapes[boardType]);
}
//Create a bounding box around the board
//Offset - will increase the size of the box on each side,
//Height - overides the boardHeight and offset in the z direction
BOARD = 0; //Includes all components and PCB
PCB = 1; //Just the PCB
COMPONENTS = 2; //Just the components
module boundingBox(boardType = UNO, offset = 0, height = 0, cornerRadius = 0, include = BOARD) {
//What parts are included? Entire board, pcb or just components.
pos = ([boardPosition(boardType), pcbPosition(boardType), componentsPosition(boardType)])[include];
dim = ([boardDimensions(boardType), pcbDimensions(boardType), componentsDimensions(boardType)])[include];
//Depending on if height is set position and dimensions will change
position = [
pos[0] - offset,
pos[1] - offset,
(height == 0 ? pos[2] - offset : pos[2] )
];
dimensions = [
dim[0] + offset * 2,
dim[1] + offset * 2,
(height == 0 ? dim[2] + offset * 2 : height)
];
translate( position ) {
if( cornerRadius == 0 ) {
cube( dimensions );
} else {
roundedCube( dimensions, cornerRadius=cornerRadius );
}
}
}
//Creates standoffs for different boards
TAPHOLE = 0;
PIN = 1;
module standoffs(
boardType = UNO,
height = 10,
topRadius = mountingHoleRadius + 1,
bottomRadius = mountingHoleRadius + 2,
holeRadius = mountingHoleRadius,
mountType = TAPHOLE
) {
holePlacement(boardType = boardType)
union() {
difference() {
cylinder(r1 = bottomRadius, r2 = topRadius, h = height, $fn=32);
if( mountType == TAPHOLE ) {
cylinder(r = holeRadius, h = height * 4, center = true, $fn=32);
}
}
if( mountType == PIN ) {
translate([0, 0, height - 1])
pintack( h=pcbHeight + 3, r = holeRadius, lh=3, lt=1, bh=1, br=topRadius );
}
}
}
//This is used for placing the mounting holes and for making standoffs
//child elements will be centered on that chosen boards mounting hole centers
module holePlacement(boardType = UNO ) {
for(i = boardHoles[boardType] ) {
translate(i)
children(0);
}
}
//Places components on board
// compenent - the data set with a particular component (like boardHeaders)
// extend - the amount to extend the component in the direction of its socket
// offset - the amount to increase the components other two boundaries
//Component IDs
ALL = -1;
HEADER_F = 0;
HEADER_M = 1;
USB = 2;
POWER = 3;
RJ45 = 4;
module components( boardType = UNO, component = ALL, extension = 0, offset = 0, useColors = false ) {
translate([0, 0, pcbHeight]) {
for( i = [0:len(components[boardType]) - 1] ){
if( components[boardType][i][3] == component || component == ALL) {
//Calculates position + adjustment for offset and extention
position = components[boardType][i][0]
- (([1,1,1] - components[boardType][i][2]) * offset)
+ [ min(components[boardType][i][2][0],0), min(components[boardType][i][2][1],0), min(components[boardType][i][2][2],0) ]
* extension;
//Calculates the full box size including offset and extention
dimensions = components[boardType][i][1]
+ ((components[boardType][i][2] * [1,1,1])
* components[boardType][i][2]) * extension
+ ([1,1,1] - components[boardType][i][2]) * offset * 2;
translate( position ) {
if (useColors) color( components[boardType][i][4] ) cube( dimensions );
if (!useColors) cube( dimensions );
}
}
}
}
}
module roundedCube( dimensions = [10,10,10], cornerRadius = 1, faces=32 ) {
hull() cornerCylinders( dimensions = dimensions, cornerRadius = cornerRadius, faces=faces );
}
module cornerCylinders( dimensions = [10,10,10], cornerRadius = 1, faces=32 ) {
translate([ cornerRadius, cornerRadius, 0]) {
cylinder( r = cornerRadius, $fn = faces, h = dimensions[2] );
translate([dimensions[0] - cornerRadius * 2, 0, 0]) cylinder( r = cornerRadius, $fn = faces, h = dimensions[2] );
translate([0, dimensions[1] - cornerRadius * 2, 0]) {
cylinder( r = cornerRadius, $fn = faces, h = dimensions[2] );
translate([dimensions[0] - cornerRadius * 2, 0, 0]) cylinder( r = cornerRadius, $fn = faces, h = dimensions[2] );
}
}
}
//Create a clip that snapps into a clipHole
module clip(clipWidth = 5, clipDepth = 5, clipHeight = 5, lipDepth = 1.5, lipHeight = 3) {
translate([-clipWidth/2,-(clipDepth-lipDepth),0]) rotate([90, 0, 90])
linear_extrude(height = clipWidth, convexity = 10)
polygon( points=[ [0, 0],
[clipDepth - lipDepth, 0],
[clipDepth - lipDepth, clipHeight - lipHeight],
[clipDepth - 0.25, clipHeight - lipHeight],
[clipDepth, clipHeight - lipHeight + 0.25],
[clipDepth - lipDepth * 0.8, clipHeight],
[(clipDepth - lipDepth) * 0.3, clipHeight]
],
paths=[[0,1,2,3,4,5,6,7]]
);
}
//Hole for clip
module clipHole(clipWidth = 5, clipDepth = 5, clipHeight = 5, lipDepth = 1.5, lipHeight = 3, holeDepth = 5) {
offset = 0.1;
translate([-clipWidth/2,-(clipDepth-lipDepth),0])
translate([-offset, clipDepth - lipDepth-offset, clipHeight - lipHeight - offset])
cube( [clipWidth + offset * 2, holeDepth, lipHeight + offset * 2] );
}
module mountingHole(screwHeadRad = woodscrewHeadRad, screwThreadRad = woodscrewThreadRad, screwHeadHeight = woodscrewHeadHeight, holeDepth = 10) {
union() {
translate([0, 0, -0.01])
cylinder( r = screwThreadRad, h = 1.02, $fn = 32 );
translate([0, 0, 1])
cylinder( r1 = screwThreadRad, r2 = screwHeadRad, h = screwHeadHeight, $fn = 32 );
translate([0, 0, screwHeadHeight - 0.01 + 1])
cylinder( r = screwHeadRad, h = holeDepth - screwHeadHeight + 0.02, $fn = 32 );
}
}
/******************************** UTILITY FUNCTIONS *******************************/
//Return the length side of a square given its diagonal
function sides( diagonal ) = sqrt(diagonal * diagonal / 2);
//Return the minimum values between two vectors of either length 2 or 3. 2D Vectors are treated as 3D vectors who final value is 0.
function minVec( vector1, vector2 ) =
[min(vector1[0], vector2[0]), min(vector1[1], vector2[1]), min((vector1[2] == undef ? 0 : vector1[2]), (vector2[2] == undef ? 0 : vector2[2]) )];
//Return the maximum values between two vectors of either length 2 or 3. 2D Vectors are treated as 3D vectors who final value is 0.
function maxVec( vector1, vector2 ) =
[max(vector1[0], vector2[0]), max(vector1[1], vector2[1]), max((vector1[2] == undef ? 0 : vector1[2]), (vector2[2] == undef ? 0 : vector2[2]) )];
//Determine the minimum point on a component in a list of components
function minCompPoint( list, index = 0, minimum = [10000000, 10000000, 10000000] ) =
index >= len(list) ? minimum : minCompPoint( list, index + 1, minVec( minimum, list[index][0] ));
//Determine the maximum point on a component in a list of components
function maxCompPoint( list, index = 0, maximum = [-10000000, -10000000, -10000000] ) =
index >= len(list) ? maximum : maxCompPoint( list, index + 1, maxVec( maximum, list[index][0] + list[index][1]));
//Determine the minimum point in a list of points
function minPoint( list, index = 0, minimum = [10000000, 10000000, 10000000] ) =
index >= len(list) ? minimum : minPoint( list, index + 1, minVec( minimum, list[index] ));
//Determine the maximum point in a list of points
function maxPoint( list, index = 0, maximum = [-10000000, -10000000, -10000000] ) =
index >= len(list) ? maximum : maxPoint( list, index + 1, maxVec( maximum, list[index] ));
//Returns the pcb position and dimensions
function pcbPosition(boardType = UNO) = minPoint(boardShapes[boardType]);
function pcbDimensions(boardType = UNO) = maxPoint(boardShapes[boardType]) - minPoint(boardShapes[boardType]) + [0, 0, pcbHeight];
//Returns the position of the box containing all components and its dimensions
function componentsPosition(boardType = UNO) = minCompPoint(components[boardType]) + [0, 0, pcbHeight];
function componentsDimensions(boardType = UNO) = maxCompPoint(components[boardType]) - minCompPoint(components[boardType]);
//Returns the position and dimensions of the box containing the pcb board
function boardPosition(boardType = UNO) =
minCompPoint([[pcbPosition(boardType), pcbDimensions(boardType)], [componentsPosition(boardType), componentsDimensions(boardType)]]);
function boardDimensions(boardType = UNO) =
maxCompPoint([[pcbPosition(boardType), pcbDimensions(boardType)], [componentsPosition(boardType), componentsDimensions(boardType)]])
- minCompPoint([[pcbPosition(boardType), pcbDimensions(boardType)], [componentsPosition(boardType), componentsDimensions(boardType)]]);
/******************************* BOARD SPECIFIC DATA ******************************/
//Board IDs
NG = 0;
DIECIMILA = 1;
DUEMILANOVE = 2;
UNO = 3;
LEONARDO = 4;
MEGA = 5;
MEGA2560 = 6;
DUE = 7;
YUN = 8;
INTELGALILEO = 9;
TRE = 10;
ETHERNET = 11;
/********************************** MEASUREMENTS **********************************/
pcbHeight = 1.7;
headerWidth = 2.54;
headerHeight = 9;
mountingHoleRadius = 3.2 / 2;
ngWidth = 53.34;
leonardoDepth = 68.58 + 1.1; //PCB depth plus offset of USB jack (1.1)
ngDepth = 68.58 + 6.5;
megaDepth = 101.6 + 6.5; //Coding is my business and business is good!
dueDepth = 101.6 + 1.1;
arduinoHeight = 11 + pcbHeight + 0;
/********************************* MOUNTING HOLES *********************************/
//Duemilanove, Diecimila, NG and earlier
ngHoles = [
[ 2.54, 15.24 ],
[ 17.78, 66.04 ],
[ 45.72, 66.04 ]
];
//Uno, Leonardo holes
unoHoles = [
[ 2.54, 15.24 ],
[ 17.78, 66.04 ],
[ 45.72, 66.04 ],
[ 50.8, 13.97 ]
];
//Due and Mega 2560
dueHoles = [
[ 2.54, 15.24 ],
[ 17.78, 66.04 ],
[ 45.72, 66.04 ],
[ 50.8, 13.97 ],
[ 2.54, 90.17 ],
[ 50.8, 96.52 ]
];
// Original Mega holes
megaHoles = [
[ 2.54, 15.24 ],
[ 50.8, 13.97 ],
[ 2.54, 90.17 ],
[ 50.8, 96.52 ]
];
boardHoles = [
ngHoles, //NG
ngHoles, //Diecimila
ngHoles, //Duemilanove
unoHoles, //Uno
unoHoles, //Leonardo
megaHoles, //Mega
dueHoles, //Mega 2560
dueHoles, //Due
0, //Yun
0, //Intel Galileo
0, //Tre
unoHoles //Ethernet
];
/********************************** BOARD SHAPES **********************************/
ngBoardShape = [
[ 0.0, 0.0 ],
[ 53.34, 0.0 ],
[ 53.34, 66.04 ],
[ 50.8, 66.04 ],
[ 48.26, 68.58 ],
[ 15.24, 68.58 ],
[ 12.7, 66.04 ],
[ 1.27, 66.04 ],
[ 0.0, 64.77 ]
];
megaBoardShape = [
[ 0.0, 0.0 ],
[ 53.34, 0.0 ],
[ 53.34, 99.06 ],
[ 52.07, 99.06 ],
[ 49.53, 101.6 ],
[ 15.24, 101.6 ],
[ 12.7, 99.06 ],
[ 2.54, 99.06 ],
[ 0.0, 96.52 ]
];
boardShapes = [
ngBoardShape, //NG
ngBoardShape, //Diecimila
ngBoardShape, //Duemilanove
ngBoardShape, //Uno
ngBoardShape, //Leonardo
megaBoardShape, //Mega
megaBoardShape, //Mega 2560
megaBoardShape, //Due
0, //Yun
0, //Intel Galileo
0, //Tre
ngBoardShape //Ethernet
];
/*********************************** COMPONENTS ***********************************/
//Component data.
//[position, dimensions, direction(which way would a cable attach), type(header, usb, etc.), color]
ngComponents = [
[[1.27, 17.526, 0], [headerWidth, headerWidth * 10, headerHeight], [0, 0, 1], HEADER_F, "Black" ],
[[1.27, 44.45, 0], [headerWidth, headerWidth * 8, headerHeight ], [0, 0, 1], HEADER_F, "Black" ],
[[49.53, 26.67, 0], [headerWidth, headerWidth * 8, headerHeight ], [0, 0, 1], HEADER_F, "Black" ],
[[49.53, 49.53, 0], [headerWidth, headerWidth * 6, headerHeight ], [0, 0, 1], HEADER_F, "Black" ],
[[9.34, -6.5, 0],[12, 16, 11],[0, -1, 0], USB, "LightGray" ],
[[40.7, -1.8, 0], [9.0, 13.2, 10.9], [0, -1, 0], POWER, "Black" ]
];
etherComponents = [
[[1.27, 17.526, 0], [headerWidth, headerWidth * 10, headerHeight], [0, 0, 1], HEADER_F, "Black" ],
[[1.27, 44.45, 0], [headerWidth, headerWidth * 8, headerHeight ], [0, 0, 1], HEADER_F, "Black" ],
[[49.53, 26.67, 0], [headerWidth, headerWidth * 8, headerHeight ], [0, 0, 1], HEADER_F, "Black" ],
[[49.53, 49.53, 0], [headerWidth, headerWidth * 6, headerHeight ], [0, 0, 1], HEADER_F, "Black" ],
[[7.20, -4.4, 0],[16, 22, 13],[0, -1, 0], RJ45, "Green" ],
[[40.7, -1.8, 0], [9.0, 13.2, 10.9], [0, -1, 0], POWER, "Black" ]
];
leonardoComponents = [
[[1.27, 17.526, 0], [headerWidth, headerWidth * 10, headerHeight], [0, 0, 1], HEADER_F, "Black" ],
[[1.27, 44.45, 0], [headerWidth, headerWidth * 8, headerHeight ], [0, 0, 1], HEADER_F, "Black" ],
[[49.53, 26.67, 0], [headerWidth, headerWidth * 8, headerHeight ], [0, 0, 1], HEADER_F, "Black" ],
[[49.53, 49.53, 0], [headerWidth, headerWidth * 6, headerHeight ], [0, 0, 1], HEADER_F, "Black" ],
[[11.5, -1.1, 0],[7.5, 5.9, 3],[0, -1, 0], USB, "LightGray" ],
[[40.7, -1.8, 0], [9.0, 13.2, 10.9], [0, -1, 0], POWER, "Black" ]
];
megaComponents = [
[[1.27, 22.86, 0], [headerWidth, headerWidth * 8, headerHeight], [0, 0, 1], HEADER_F, "Black"],
[[1.27, 44.45, 0], [headerWidth, headerWidth * 8, headerHeight], [0, 0, 1], HEADER_F, "Black"],
[[1.27, 67.31, 0], [headerWidth, headerWidth * 8, headerHeight], [0, 0, 1], HEADER_F, "Black"],
[[49.53, 31.75, 0], [headerWidth, headerWidth * 6, headerHeight ], [0, 0, 1], HEADER_F, "Black"],
[[49.53, 49.53, 0], [headerWidth, headerWidth * 8, headerHeight], [0, 0, 1], HEADER_F, "Black"],
[[49.53, 72.39, 0], [headerWidth, headerWidth * 8, headerHeight], [0, 0, 1], HEADER_F, "Black"],
[[1.27, 92.71, 0], [headerWidth * 18, headerWidth * 2, headerHeight], [0, 0, 1], HEADER_F, "Black"],
[[9.34, -6.5, 0],[12, 16, 11],[0, -1, 0], USB, "LightGray"],
[[40.7, -1.8, 0], [9.0, 13.2, 10.9], [0, -1, 0], POWER, "Black" ]
];
mega2560Components = [
[[1.27, 17.526, 0], [headerWidth, headerWidth * 10, headerHeight], [0, 0, 1], HEADER_F, "Black" ],
[[1.27, 44.45, 0], [headerWidth, headerWidth * 8, headerHeight], [0, 0, 1], HEADER_F, "Black" ],
[[1.27, 67.31, 0], [headerWidth, headerWidth * 8, headerHeight], [0, 0, 1], HEADER_F, "Black" ],
[[49.53, 26.67, 0], [headerWidth, headerWidth * 8, headerHeight ], [0, 0, 1], HEADER_F, "Black" ],
[[49.53, 49.53, 0], [headerWidth, headerWidth * 8, headerHeight], [0, 0, 1], HEADER_F, "Black" ],
[[49.53, 72.39, 0], [headerWidth, headerWidth * 8, headerHeight], [0, 0, 1], HEADER_F, "Black" ],
[[1.27, 92.71, 0], [headerWidth * 18, headerWidth * 2, headerHeight], [0, 0, 1], HEADER_F, "Black" ],
[[9.34, -6.5, 0],[12, 16, 11],[0, -1, 0], USB, "LightGray" ],
[[40.7, -1.8, 0], [9.0, 13.2, 10.9], [0, -1, 0], POWER, "Black" ]
];
dueComponents = [
[[1.27, 17.526, 0], [headerWidth, headerWidth * 10, headerHeight], [0, 0, 1], HEADER_F, "Black"],
[[1.27, 44.45, 0], [headerWidth, headerWidth * 8, headerHeight], [0, 0, 1], HEADER_F, "Black"],
[[1.27, 67.31, 0], [headerWidth, headerWidth * 8, headerHeight], [0, 0, 1], HEADER_F, "Black"],
[[49.53, 26.67, 0], [headerWidth, headerWidth * 8, headerHeight ], [0, 0, 1], HEADER_F, "Black"],
[[49.53, 49.53, 0], [headerWidth, headerWidth * 8, headerHeight], [0, 0, 1], HEADER_F, "Black"],
[[49.53, 72.39, 0], [headerWidth, headerWidth * 8, headerHeight], [0, 0, 1], HEADER_F, "Black"],
[[1.27, 92.71, 0], [headerWidth * 18, headerWidth * 2, headerHeight], [0, 0, 1], HEADER_F, "Black"],
[[11.5, -1.1, 0], [7.5, 5.9, 3], [0, -1, 0], USB, "LightGray" ],
[[27.365, -1.1, 0], [7.5, 5.9, 3], [0, -1, 0], USB, "LightGray" ],
[[40.7, -1.8, 0], [9.0, 13.2, 10.9], [0, -1, 0], POWER, "Black" ]
];
components = [
ngComponents, //NG
ngComponents, //Diecimila
ngComponents, //Duemilanove
ngComponents, //Uno
leonardoComponents, //Leonardo
megaComponents, //Mega
mega2560Components, //Mega 2560
dueComponents, //Due
0, //Yun
0, //Intel Galileo
0, //Tre
etherComponents //Ethernet
];
/****************************** NON-BOARD PARAMETERS ******************************/
//Mounting holes
woodscrewHeadRad = 4.6228; //Number 8 wood screw head radius
woodscrewThreadRad = 2.1336; //Number 8 wood screw thread radius
woodscrewHeadHeight = 2.8448; //Number 8 wood screw head height