diff --git a/files/U_Box_V104_Test_Cleaned.scad b/files/U_Box_V104_Test_Cleaned.scad index 6220d29..ec16996 100644 --- a/files/U_Box_V104_Test_Cleaned.scad +++ b/files/U_Box_V104_Test_Cleaned.scad @@ -30,6 +30,8 @@ /* [Box options] */ // - Epaisseur - Wall thickness Thick = 2; //[2:5] +// - Panel thickness +PanelThick = 2; // - Diamètre Coin arrondi - Filet diameter Filet = 2; //[0.1:12] // - lissage de l'arrondi - Filet smoothness @@ -131,7 +133,7 @@ Dec_size = Vent ? Thick*2 : 0.8; // Calculate box dimensions from PCB. TopMargin = PCBThick + TopPCBMargin; -Length = PCBLength + FrontEdgeMargin + BackEdgeMargin + ((Thick*2 + m)*2); +Length = PCBLength + FrontEdgeMargin + BackEdgeMargin + ((Thick + PanelThick + m)*2); Width = PCBWidth + LeftEdgeMargin + RightEdgeMargin + Thick*2; Height = FootHeight + TopMargin + Thick*2; echo("Box: ", Length=Length, Width=Width, Height=Height); @@ -190,11 +192,11 @@ module Coque() { //Coque - Shell } } //Fin diff Coque difference() { //largeur Rails - translate([Thick*2 + m, Thick, Thick]) { // Rails - RoundBox($a=(Length - (Thick*4 + 2*m)), $b=(Width - Thick*2), $c=(Height - Thick*2)); + translate([Thick + PanelThick + m, Thick, Thick]) { // Rails + RoundBox($a=(Length - ((Thick + PanelThick + m)*2)), $b=(Width - Thick*2), $c=(Height - Thick*2)); } //fin Rails - translate([Thick*3 + m, Thick, Thick]) { - RoundBox($a=(Length - ((Thick*6) + 2*m)), $b=(Width - Thick*2), $c=(Height - Thick*2)); + translate([Thick*2 + PanelThick + m, Thick, Thick]) { + RoundBox($a=(Length - ((Thick*2 + PanelThick + m) * 2)), $b=(Width - Thick*2), $c=(Height - Thick*2)); } } //Fin largeur Rails } //Fin union @@ -209,12 +211,12 @@ module Coque() { //Coque - Shell difference() { // wall fixation box legs union() { - translate([Thick*6 + 5, Thick*2, Height/2]) { + translate([Thick*5 + PanelThick + 5, Thick*2, Height/2]) { rotate([90, 0, 0]) { cylinder(Thick, d=16, $fn=6); } } - translate([Length - (3*Thick*2 + 5), Thick*2, Height/2]) { + translate([Length - (Thick*5 + PanelThick + 5), Thick*2, Height/2]) { rotate([90, 0, 0]) { cylinder(Thick, d=16, $fn=6); } @@ -235,16 +237,16 @@ module Coque() { //Coque - Shell for (i=[0 : Thick*2 : Length/4]) { // Ventilation holes part code submitted by Ettie - Thanks ;) - translate([10 + i, -Dec_Thick + Dec_size, 1]) { + translate([(10 + PanelThick - Thick) + i, -Dec_Thick + Dec_size, 1]) { cube([Vent_width, Dec_Thick, Height/4]); } - translate([(Length - 10) - i, -Dec_Thick + Dec_size, 1]) { + translate([(Length - (10 + PanelThick - Thick)) - i, -Dec_Thick + Dec_size, 1]) { cube([Vent_width, Dec_Thick, Height/4]); } - translate([(Length - 10) - i, Width - Dec_size, 1]) { + translate([(Length - (10 + PanelThick - Thick)) - i, Width - Dec_size, 1]) { cube([Vent_width, Dec_Thick, Height/4]); } - translate([10 + i, Width - Dec_size, 1]) { + translate([(10 + PanelThick - Thick) + i, Width - Dec_size, 1]) { cube([Vent_width, Dec_Thick, Height/4]); } } // fin de for @@ -254,22 +256,22 @@ module Coque() { //Coque - Shell union() { //sides holes $fn = 50; - translate([Thick*6 + 5, 20, Height/2 + 4]) { + translate([Thick*5 + PanelThick + 5, 20, Height/2 + 4]) { rotate([90, 0, 0]) { cylinder(20, d=ScrewHole); } } - translate([Length - (Thick*6 + 5), 20, Height/2 + 4]) { + translate([Length - (Thick*5 + PanelThick + 5), 20, Height/2 + 4]) { rotate([90, 0, 0]) { cylinder(20, d=ScrewHole); } } - translate([Thick*6 + 5, Width + 5, Height/2 - 4]) { + translate([Thick*5 + PanelThick + 5, Width + 5, Height/2 - 4]) { rotate([90, 0, 0]) { cylinder(20, d=ScrewHole); } } - translate([Length - (Thick*6 + 5), Width + 5, Height/2 - 4]) { + translate([Length - (Thick*5 + PanelThick + 5), Width + 5, Height/2 - 4]) { rotate([90, 0, 0]) { cylinder(20, d=ScrewHole); } @@ -319,7 +321,7 @@ module foot(FootDia, FootHole, FootHeight) { No arguments are used, but parameters provide the PCB and foot dimensions. */ module Feet() { - translate([BackEdgeMargin + Thick*2 + m, LeftEdgeMargin + Thick, Thick]) { + translate([BackEdgeMargin + Thick + PanelThick + m, LeftEdgeMargin + Thick, Thick]) { //////////////////// - PCB only visible in the preview mode - ///////////////////// translate([0, 0, FootHeight]) { %cube([PCBLength, PCBWidth, PCBThick]); @@ -358,12 +360,12 @@ module Feet() { but uses the global parameters. */ module Panel() { - echo("Panel:", Thick=Thick, PanelWidth=PanelWidth, PanelHeight=PanelHeight); + echo("Panel:", Thick=PanelThick, PanelWidth=PanelWidth, PanelHeight=PanelHeight); minkowski() { - cube([Thick/2, PanelWidth - Filet*2, PanelHeight - Filet*2]); + cube([PanelThick/2, PanelWidth - Filet*2, PanelHeight - Filet*2]); translate([0, Filet, Filet]) { rotate([0, 90, 0]) { - cylinder(Thick/2, r=Filet, $fn=100); + cylinder(PanelThick/2, r=Filet, $fn=100); } } } @@ -431,7 +433,7 @@ module SquareHole(OnOff, Sx, Sy, Sl, Sw, Filet) { module LText(OnOff,Tx,Ty,Font,Size,Content, HAlign="center") { if (OnOff == 1) { echo("LText:", Tx=Tx, Ty=Ty, Font=Font, Size=Size, Content=Content, HAlign=HAlign); - translate([Tx, Ty, Thick + .5]) { + translate([Tx, Ty, PanelThick + .5]) { linear_extrude(height=0.5) { text(Content, size=Size, font=Font, halign=HAlign); } @@ -459,7 +461,7 @@ module CText(OnOff, Tx, Ty, Font, Size, TxtRadius, Angl, Turn, Content) { echo("CText:", Tx=Tx, Ty=Ty, Font=Font, Size=Size, TxtRadius=TxtRadius, Turn=Turn, Content=Content); Angle = -Angl / len(Content); - translate([Tx, Ty, Thick + .5]) { + translate([Tx, Ty, PanelThick + .5]) { for (i= [0 : len(Content) - 1] ) { rotate([0, 0, i*Angle + 90 + Turn]) { translate([0, TxtRadius, 0]) { @@ -528,7 +530,7 @@ module FPanL() { edited to produce holes and text for your box. */ module BPanL() { - translate([Thick, PanelWidth, 0]) { + translate([PanelThick, PanelWidth, 0]) { rotate([0, 0, 180]) { difference() { color(Couleur2) {