// supermicro SC808 (and others) I/O-Shields to be able to utilize mITX-boards with extenation-cords that allow for Surface-Mounting // by zeus - 2022-09-11 - CC-BY-NC-SA-4.0 - https://git.kostianix.de/zeus/3d-stuff/openscad/ // ##################################### // VARS: // ##################################### mt=2; q=0.01; //used as variable to remove manifold-glitches in preview. can be set to "0" in final version $fn=100; // shield: shield_w=177.5; // let's hope that fits onto my delta... shield_h=41; shield_d=10; //around 11.5 in the original, but that is not needed shield_tab_emboss_d=1; // that lowered lip, that the central and outer tabs mounts onto, 1mm (or one sheet-thickness) lower than the rest shield_tab_emboss_l=22; // length of the above described cutouts shield_holes=1; // draw holes if >0 shield_hole_d1=2.75; shield_hole_d2=shield_hole_d1+0.5; // conical holes // for separating the shield into two halves shield_center_slot=1; // draw slot if >0 shield_center_slot_w=0.5; shield_hole_center_dia=4; shield_hole_center_dist=shield_h/2; // model "gril": m_gril_h=shield_h-3*mt; m_gril_w=mt; m_gril_angle=15; m_gril_spacing=m_gril_w; // ##################################### // MODEL: // mounting holes around the shield perimeter module shield_hole(x,y,z,rotx,roty){ translate([x,y,shield_d/2-z])rotate([rotx,roty,0])cylinder(d1=shield_hole_d1,d2=shield_hole_d2,h=mt+q,center=true); } // basic shield module shield(){ difference(){ cube([shield_w,shield_h,shield_d],center=true); // basebox translate([0,0,mt/2+q])cube([shield_w-2*mt,shield_h-2*mt,shield_d-mt],center=true); // main hollowing for(x=[-shield_w/2+shield_tab_emboss_l/2,shield_w/2-shield_tab_emboss_l/2]){ // tab-cutout translate([x,shield_h/2-shield_tab_emboss_d/2,0])cube([shield_tab_emboss_l+q,shield_tab_emboss_d+q,shield_d+q],center=true);// supportblock for edge-cutout } if (shield_holes>0) { // some holes all around, (left, than clockwise, viewed from behind) // shield_hole(x,y,z,rotx,roty), "z" is the distance from lip-edge to the center of the hole, x is from center shield_hole(-shield_w/2+mt/2,-0.5,4,0,-90); //left side #shield_hole(-shield_w/2+mt/2+4.5,shield_h/2-shield_tab_emboss_d-mt/2-q*0.5,6.25,-90,0); //top side, 1st from left (recessed) shield_hole(-shield_w/2+mt/2+29.5,shield_h/2-mt/2,4.4,-90,0); //top side, 2nd from left shield_hole(-shield_w/2+mt/2+148.5,shield_h/2-mt/2,4.4,-90,0); //top side, 3rd from left shield_hole(-shield_w/2+mt/2+162,shield_h/2-shield_tab_emboss_d-mt/2-q*0.5,5.5,-90,0); //top side, 4th from left (recessed) shield_hole(-shield_w/2+mt/2+173,shield_h/2-shield_tab_emboss_d-mt/2-q*0.5,6.25,-90,0); //top side, 5th from left (recessed) shield_hole(shield_w/2-mt/2,-0.5,4,0,90); //right side ok shield_hole(-shield_w/2+mt/2+173,-shield_h/2+mt/2,4.25,90,0); // bottom side, 1st one from right shield_hole(-shield_w/2+mt/2+56.25,-shield_h/2+mt/2,4.25,90,0); //bottom side, 2nd one from right shield_hole(-shield_w/2+mt/2+4.5,-shield_h/2+mt/2,4.25,90,0); //bottom side, 3rd one from right } } for(x=[-shield_w/2+shield_tab_emboss_l/2+mt/2,shield_w/2-shield_tab_emboss_l/2-mt/2]){ // tab-cutout support-structure translate([x,shield_h/2-shield_tab_emboss_d/2-mt,0])cube([shield_tab_emboss_l+mt+q,shield_tab_emboss_d+q,shield_d+q],center=true);// supportblock for edge-cutout } cube([mt*4,shield_h,shield_d],center=true); // central support-block } // first iteration: optional slotting module shield_1(){ if (shield_center_slot>0) { // generate slot and matching connection-holes in the center difference(){ shield(); #cube([shield_center_slot_w,shield_h+q,shield_d+q],center=true); for(y=[-shield_hole_center_dist/2,shield_hole_center_dist/2]){ translate([0,y,mt/2])rotate([0,90,0])#cylinder(d=shield_hole_center_dia,h=mt*4+q,center=true); } } } else shield(); } // second iteration: add "modules" module shield_2(){ difference(){ shield_1(); } } // ##################################### // DRAWING: difference(){ shield_1(); translate([0,0,6])cube([200,100,5],center=true); translate([0,0,-5.45])cube([200,100,5],center=true); } // todo: // shield holes durchgängig // seitlicher tab hinzufügen, loch beachten!