Rev 4074 Rev 4079
Line 48... Line 48...
48   48  
49 translate ([ x_size/2, wall_thickness/2, (height - thickness)/3 + thickness - SMA_dia/2]) 49 translate ([ x_size/2, wall_thickness/2, (height - thickness)/3 + thickness - SMA_dia/2])
50 rotate([90,0,0]) { 50 rotate([90,0,0]) {
51 translate([ 0, -11, wall_thickness/2 + wall_thickness ]) 51 translate([ 0, -11, wall_thickness/2 + wall_thickness ])
52 rotate([0,0,180]) 52 rotate([0,0,180])
53 write("GPS",h=5,t=2,space= 1.1, font = "Letters.dxf", center=true); 53 write("GPS",h=5,t=2,space= 1.1, font = "orbitron.dxf", center=true);
54 difference () { 54 difference () {
55 cylinder (h = 2*wall_thickness, r= SMA_dia/2, $fn=50); 55 cylinder (h = 2*wall_thickness, r= SMA_dia/2, $fn=50);
56 translate([ 0, -SMA_dia/2 , wall_thickness/2 + wall_thickness ]) 56 translate([ 0, -SMA_dia/2 , wall_thickness/2 + wall_thickness ])
57 cube([SMA_dia, 1 , thickness ], center=true); 57 cube([SMA_dia, 1 , thickness ], center=true);
58 } 58 }
Line 60... Line 60...
60   60  
61 translate ([ x_size/2, wall_thickness/2, 2*(height - thickness)/3 + thickness + SMA_dia/2 ]) 61 translate ([ x_size/2, wall_thickness/2, 2*(height - thickness)/3 + thickness + SMA_dia/2 ])
62 rotate([90,0,0]){ 62 rotate([90,0,0]){
63 translate([ 0, -11, wall_thickness/2 + wall_thickness]) 63 translate([ 0, -11, wall_thickness/2 + wall_thickness])
64 rotate([0,0,180]) 64 rotate([0,0,180])
65 write("ANT",h=5,t=2, space= 1.1, font = "Letters.dxf",center=true); 65 write("ANT",h=5,t=2, space= 1.1, font = "orbitron.dxf",center=true);
66 difference () { 66 difference () {
67 cylinder (h = 2*wall_thickness, r= SMA_dia/2, $fn=50); 67 cylinder (h = 2*wall_thickness, r= SMA_dia/2, $fn=50);
68 translate([ 0, -SMA_dia/2 , wall_thickness/2 + wall_thickness ]) 68 translate([ 0, -SMA_dia/2 , wall_thickness/2 + wall_thickness ])
69 cube([SMA_dia, 1 , thickness ], center=true); 69 cube([SMA_dia, 1 , thickness ], center=true);
70 } 70 }