// Copyright 2022 Thorsten Brehm // brehmt (at) gmail dot com // front panel hole for a rectangular button module buttonCutout() { // add 1mm spacing, so the button moves freely (results in 0.5mm clearance on each side) buttonXWidth = ButtonXWidth+0.5; buttonYHeight = ButtonYHeight+0.5; translate([-buttonXWidth/2, -buttonYHeight/2, 0]) roundedCube(buttonXWidth, buttonYHeight, SKIN, ButtonCorners); } // test / unused module buttonFrame() { XWidth = ButtonXWidth+6; YHeight = ButtonYHeight+6; difference() { translate([-XWidth/2, -YHeight/2, 0]) roundedCube(XWidth, YHeight, SKIN, ButtonCorners); buttonCutout(); } } // various holes for the front panel module panelCutouts() { // LCD display translate([BoxX_Width-DisplayXDistance, BoxY_Height-DisplayYDistance, 0]) { translate([-DisplayWidth, -DisplayHeight, 0]) roundedCube(DisplayWidth, DisplayHeight, SKIN*2, DisplayCornerRadius); } // SD Slot translate([BoxX_Width-SDSlotXDistance, SDSlotYDistance, 0]) { translate([-SDSlotWidth, 0, 0]) roundedCube(SDSlotWidth, SDSlotHeight, SKIN, SDSlotCorners); } // LEDs translate([BoxX_Width-LedXOfs, LedYOfs, 0]) hole(LedDiameter, SKIN); if (LedCount>1) translate([BoxX_Width-LedXOfs, LedYOfs-LedYDistance, 0]) hole(LedDiameter, SKIN); // buttons for (x = [0 : 1: 0]) { for (y = [0 : 1: 0]) { translate([ButtonXOfs+ButtonXWidth/2+(ButtonXSpacing)*x, BoxY_Height-ButtonYHeight/2-ButtonYOfs-(ButtonYSpacing)*y, 0]) buttonCutout(); } } for (x = [1 : 1: 1]) { for (y = [0 : 1: 2]) { translate([ButtonXOfs+ButtonXWidth/2+(ButtonXSpacing)*x, BoxY_Height-ButtonYHeight/2-ButtonYOfs-(ButtonYSpacing)*y, 0]) buttonCutout(); } } } // pegs to hold the display module displayPegs() { translate([BoxX_Width-DisplayXDistance, BoxY_Height-DisplayYDistance-DisplayHeight/2+DisplayPegYDistance/2-DisplayPegYOffset, SKIN]) { translate([-DisplayWidth/2+DisplayPegXDistance/2, 0, 0]) screwPost(DisplayPegHeight, DisplayPegDiameter, 0, 0, 0); translate([-DisplayWidth/2+DisplayPegXDistance/2, -DisplayPegYDistance,0]) screwPost(DisplayPegHeight, DisplayPegDiameter, 0, 0, 0); translate([-DisplayWidth/2-DisplayPegXDistance/2, 0,0]) screwPost(DisplayPegHeight, DisplayPegDiameter, 0, 0, 0); translate([-DisplayWidth/2-DisplayPegXDistance/2, -DisplayPegYDistance,0]) screwPost(DisplayPegHeight, DisplayPegDiameter, 0, 0, 0); } } // screw posts and supports of the button panel module buttonPanelSupports() { XOfs = ButtonXOfs+ButtonXWidth/2+ButtonRaster*3/2; YOfs = BoxY_Height-ButtonYHeight/2-ButtonYOfs; for (x = [-1 : 1: -1]) for (y = [0 : 2: 2]) { echo("Button Panel mount (x/y):",ButtonXSpacing*x, ButtonYSpacing*y); translate([XOfs+ButtonXSpacing*x, YOfs-ButtonYSpacing*y, SKIN]) screwPost(ButtonScrewPostHeight, ScrewPostDiameter, ScrewDiameter, ButtonScrewPostHeight, 0.5); } for (x = [2 : 1: 2]) for (y = [0 : 2: 2]) { echo("Button Panel mount (x/y):",ButtonXSpacing*x, ButtonYSpacing*y); translate([XOfs+ButtonXSpacing*x, YOfs-ButtonYSpacing*y, SKIN]) screwPost(ButtonScrewPostHeight, ScrewPostDiameter, ScrewDiameter, ButtonScrewPostHeight, 0.5); } } module baseFrontPanel() { roundedCube(BoxX_Width-2*FrontPanelGap, BoxY_Height-FrontPanelGap, SKIN, Box_Corner_Radius); } module displayFrame() { // LCD display translate([BoxX_Width-DisplayXDistance, BoxY_Height-DisplayYDistance, 0]) { translate([-DisplayWidth-1, -DisplayHeight-1, SKIN]) roundedCube(DisplayWidth+2, DisplayHeight+2, DisplayFrameZHeight, DisplayCornerRadius); } } // front panel module makeFront() { translate([FrontPanelGap, 0, FrontPanelZOffset]) { displayPegs(); difference() { union() { baseFrontPanel(); displayFrame(); } panelCutouts(); } // screw posts for the button panel buttonPanelSupports(); difference() { translate([Box_Corner_Radius, 0, SKIN]) cube([BoxX_Width-Box_Corner_Radius*2, SKIN, FrontPanelZLedge]); // hole translate([FrontGapX/2, -SKIN , FrontPanelZLedge/2]) rotate([270, 0, 0]) hole(ScrewDiameter, 10); // hole translate([BoxX_Width-FrontGapX/2, -SKIN, FrontPanelZLedge/2]) rotate([270, 0, 0]) hole(ScrewDiameter, 10); } // LED sockets translate([BoxX_Width-LedXOfs, LedYOfs, SKIN]) screwPost(LedSocketHeight, LedDiameter+2, LedDiameter, LedSocketHeight, 0); if (LedCount>1) translate([BoxX_Width-LedXOfs, LedYOfs-LedYDistance, SKIN]) screwPost(LedSocketHeight, LedDiameter+2, LedDiameter, LedSocketHeight, 0); // support triangles SupportWidth = FrontPanelZLedge; // left translate([Box_Corner_Radius, SKIN, SupportWidth+SKIN]) rotate([270, 0, 0]) prism(SKIN, SupportWidth, SupportWidth); // right translate([BoxX_Width-Box_Corner_Radius-SKIN, SKIN, SupportWidth+SKIN]) rotate([270, 0, 0]) prism(SKIN, SupportWidth, SupportWidth); // screw posts translate([FrontGapX/2, SKIN , FrontPanelZLedge/2]) { rotate([270, 0, 0]) screwPost(ScrewPostHeight, ScrewPostDiameter, ScrewDiameter, ScrewPostHeight, 0); translate([-ScrewPostDiameter/2, 0, -FrontPanelZLedge/2+SKIN]) cube([ScrewPostHeight, ScrewPostDiameter, FrontPanelZLedge/3-SKIN]); } translate([BoxX_Width-FrontGapX/2, SKIN, FrontPanelZLedge/2]) { rotate([270, 0, 0]) screwPost(ScrewPostHeight, ScrewPostDiameter, ScrewDiameter, ScrewPostHeight, 0); translate([-ScrewPostDiameter/2, 0, -FrontPanelZLedge/2+SKIN]) cube([ScrewPostHeight, ScrewPostDiameter, FrontPanelZLedge/3-SKIN]); } } // front screw posts for FloppyEmu PCB PcbFrontMountHeight = PcbYOfs-SKIN; translate([BoxX_Width/2-PcbXWidth/2+PcbScrewDistance+PcbXOfs, SKIN , PcbZOfs+PcbScrewDistance]) { rotate([270, 0, 0]) screwPost(PcbFrontMountHeight, PcbScrewPostDiameter, PcbScrewDiameter, PcbFrontMountHeight, 0); translate([-PcbScrewPostDiameter/2,0,-PcbScrewPostDiameter/2]) cube([PcbScrewPostDiameter, PcbFrontMountHeight, PcbScrewPostDiameter/4]); } translate([BoxX_Width/2+PcbXWidth/2-PcbScrewDistance+PcbXOfs, SKIN, PcbZOfs+PcbScrewDistance]) { rotate([270, 0, 0]) screwPost(PcbFrontMountHeight, PcbScrewPostDiameter, PcbScrewDiameter, PcbFrontMountHeight, 0); translate([-PcbScrewPostDiameter/2,0,-PcbScrewPostDiameter/2]) cube([PcbScrewPostDiameter, PcbFrontMountHeight, PcbScrewPostDiameter/4]); } }