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2 Commits
2572c7af6e
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edefeee886
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zeus | edefeee886 | |
zeus | d4258527b8 |
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@ -36,10 +36,10 @@ module panel(){
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translate([0,0,-q])cylinder(d=magnet_dia,h=magnet_h);
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translate([0,0,-q])cylinder(d=magnet_dia,h=magnet_h);
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}
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}
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if (magnet_count>1){
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if (magnet_count>1){
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for (m=[1:360/magnet_count:359]){
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for (m=[0:360/magnet_count:360]){
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rotate([0,0,m]){
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rotate([0,0,m]){
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translate([panel_dia/4,0,-q]){
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translate([panel_dia/4,0,-q]){
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cylinder(d=magnet_dia,h=magnet_h);
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#cylinder(d=magnet_dia,h=magnet_h);
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}
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}
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}
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}
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}
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}
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@ -0,0 +1,106 @@
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/*
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Case for LED-Matrix of the KITT-Voice-Assistant
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by zeus - 2024-08-17 - CC-BY-SA-NC-4.0
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https://git.kostianix.de/zeus/3d-stuff/src/branch/main/openscad/own/kitt-matrix
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*/
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// ##########################################
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// VARS:
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$fn=25; // overall render quality
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q=0.01; // only used to get rid of visual glitches. can be set to 0 for productive exports.
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mt=9; // material thickness, NOT overall thickness in case of a rim!
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pt=3; // panel thickness
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mt_inner=2; // constrained wall thickness for inside-walls between LEDs
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panel_w=67; // overall width of led panel
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panel_h=66; // same for height
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panel_t_pcb=1.5; // height of PCB
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panel_t_led=1.5; // height of the soldered LED modules
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panel_t=(panel_t_pcb+panel_t_led); // overall thickness of the PCB+LEDs (~50:50)
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led_spacing_x=8.5; // center-to-center spacing from LED to next LED, in width/x-axis-direction
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led_spacing_y=8; // same for height/Y-axis
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led_w=4.5+1.5;
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led_h=5+1;
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led_num_x=8;
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led_num_y=8;
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offset_left=((panel_w-((led_num_x*led_w)+((led_num_x-1)*(led_spacing_x-led_w))))/2); // offset on one side (effectively "panel_w-e2e_x/2", but properly calculated)
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offset_top= ((panel_h-((led_num_y*led_h)+((led_num_y-1)*(led_spacing_y-led_h))))/2); // offset on one side (effectively "panel_h-e2e_y/2", but properly calculated)
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e2e_x=64; // width/x-axis edge-to-edge-distance from beginning of first to end of last LED (LED-Case, not soldering-points). for reference only
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e2e_y=61.75; // same for height/Y-axis
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conhole_d=4; // connection hole between frame parts
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conhole_taper_h=2; // is this needed?
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conhole_i_d=2.75; // should fit M3
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conhole_offset=3.5; //offset from outer perimeter
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cutout_w=10;
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//echo("offset left is ",offset_left);
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//echo("offset top is ",offset_top);
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// ##########################################
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// MODULES:
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module panel(){
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// PCB:
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cube([panel_w,panel_h,panel_t_pcb+q],center=true);
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// overcomplicated "for" to determine the exact positions of the LEDs on the board.
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// The LEDs themselves are not needed for rendering
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// LEDs:
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/*
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for (num_x=[0:led_spacing_x:led_spacing_x*(led_num_x-1)],num_y=[0:led_spacing_y:led_spacing_y*(led_num_y-1)])
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translate([-(panel_w/2-led_w/2)+offset_left+num_x,-(panel_h/2-led_h/2)+offset_top+num_y,panel_t_led])color( "#ff0000" )cube([led_w,led_h,panel_t_led],center=true);
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*/
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// "lightpipes":
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// left column (span 2 wide each)
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for (num_x=[0:led_spacing_x:led_spacing_x*(led_num_x-1)],num_y=[0:led_spacing_y])
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translate([-(panel_w/2-led_w/2)+offset_left+num_x,-(panel_h/2-led_h/2)+offset_top+num_y,panel_t_pcb+panel_t_led*1.5])color( "#00ff00" )cube([led_w,led_h,panel_t_led*4+q],center=true);
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// center column (span 2 wide each)
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for (num_x=[0:led_spacing_x:led_spacing_x*(led_num_x-1)],num_y=[led_spacing_y*3:led_spacing_y*4])
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translate([-(panel_w/2-led_w/2)+offset_left+num_x,-(panel_h/2-led_h/2)+offset_top+num_y,panel_t_pcb+panel_t_led*1.5])color( "#00ff00" )cube([led_w,led_h,panel_t_led*4+q],center=true);
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// right column (span 2 wide each)
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for (num_x=[0:led_spacing_x:led_spacing_x*(led_num_x-1)],num_y=[led_spacing_y*6:led_spacing_y*7])
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translate([-(panel_w/2-led_w/2)+offset_left+num_x,-(panel_h/2-led_h/2)+offset_top+num_y,panel_t_pcb+panel_t_led*1.5])color( "#00ff00" )cube([led_w,led_h,panel_t_led*4+q],center=true);
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// smaller inbetween columns (span 1 wide each)
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for (num_x=[0:led_spacing_x:led_spacing_x*(led_num_x-1)],num_y=[led_spacing_y*2,led_spacing_y*5])
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translate([-(panel_w/2-led_w/2)+offset_left+num_x,-(panel_h/2-led_h/2)+offset_top+num_y,panel_t_pcb+panel_t_led*1.5])color( "#00ff00" )cube([led_w,led_h,panel_t_led*4+q],center=true);
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}
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module panelholder(){
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translate([0,0,panel_t_pcb])difference(){
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cube([panel_w+mt,panel_h+mt,(panel_t+(panel_t_pcb+panel_t_led*2))],center=true);
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translate([0,0,-(panel_t_pcb+panel_t_led)])
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panel();
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//translate([0,0,-panel_t_led*3])cube([panel_w,panel_h,(panel_t+(panel_t_led*3))],center=true);
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// screwholes for M3
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for (
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pos_x=[-(panel_w+mt)/2+conhole_offset,
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(panel_w+mt)/2-conhole_offset],
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pos_y=[-(panel_h+mt)/2+conhole_offset,
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(panel_h+mt)/2-conhole_offset]
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)
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translate([pos_x,pos_y,-1])
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#cylinder(d=conhole_i_d,h=(panel_t+(panel_t_led*3)+q),center=true);
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}
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}
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module panelframe(){
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translate([0,0,panel_t_pcb])difference(){
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cube([panel_w+mt,panel_h+mt,(panel_t+(panel_t_led*8))],center=true);
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translate([cutout_w/2,0,pt])cube([panel_w-(offset_left*2)+cutout_w,panel_h-(offset_top*2),(panel_t+(panel_t_led*8))+q],center=true);
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for (
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pos_x=[-(panel_w+mt)/2+conhole_offset,
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(panel_w+mt)/2-conhole_offset],
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pos_y=[-(panel_h+mt)/2+conhole_offset,
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(panel_h+mt)/2-conhole_offset])
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{
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translate([pos_x,pos_y,0])cylinder(d=conhole_d,h=(panel_t+(panel_t_led*8))+q,center=true);
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translate([pos_x,pos_y,-(panel_t+(panel_t_led*8))/2+conhole_taper_h/2])cylinder(d2=conhole_d,d1=conhole_d*1.5,h=conhole_taper_h+q,center=true);
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}
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}
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}
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// ##########################################
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// DRAW MODEL:
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panelholder();
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translate([0,0,-(panel_t+(panel_t_led*3))-50])panelframe();
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