heatsink_xsize = 50;heatsink_ysize = 50;heatsink_zsize = 50;TEG_xsize = 30;TEG_ysize = 30;TEG_zsize = 5;mount_hole = 3.5;clearance = 0.175;sealing_ring_width = 3;wall_thickness = 10;height = heatsink_zsize + wall_thickness;difference () {union (){cube([heatsink_xsize+2*wall_thickness,heatsink_ysize+2*wall_thickness,heatsink_zsize+wall_thickness]); // overal plastic brick// cube([heatsink_xsize+2*wall_thickness,heatsink_ysize+2*wall_thickness,heatsink_zsize+wall_thickness]); // overal plastic brick}translate ([wall_thickness-clearance, wall_thickness-clearance, wall_thickness-clearance])cube([heatsink_xsize+2*clearance, heatsink_ysize+2*clearance, heatsink_xsize+2*clearance]); // hollow for heat sink and heat storage liquid.translate ([((heatsink_xsize+2*wall_thickness)-TEG_xsize)/2 - clearance, ((heatsink_ysize+2*wall_thickness)-TEG_ysize)/2 - clearance, 0])cube([TEG_xsize+2*clearance, TEG_ysize+2*clearance, wall_thickness]); // hollow for the thermoelectric generatortranslate ([wall_thickness, wall_thickness, height-sealing_ring_width])union () {difference () {minkowski() {cube([heatsink_xsize-sealing_ring_width/2, heatsink_xsize-sealing_ring_width/2, 5]); // Rib for o-ring.cylinder(r=wall_thickness/2,h=0.1);}translate ([sealing_ring_width, sealing_ring_width, 0])minkowski() {cube([heatsink_xsize+sealing_ring_width/2, heatsink_xsize+sealing_ring_width/2, 5]); // Rib for o-ring.cylinder(r=wall_thickness/2,h=0.1);}}}/*rotate([0,0,-45]) // hole for top part mounting nuttranslate ([ 0, -y_size/3, thickness/3])cube([6, 3, thickness], center = true);rotate([90,0,-45]) // hole for top part mounting screw.translate ([ 0, 1.8, 0])cylinder (h = thickness + rim_height, r= mount_hole/2, $fn=20);*/}// Heat reservoir covertranslate ([0, 0, 2*height])cube([heatsink_xsize+2*wall_thickness,heatsink_ysize+2*wall_thickness,wall_thickness]);