-rw-r--r-- | delta.jscad | 8 |
1 files changed, 8 insertions, 0 deletions
diff --git a/delta.jscad b/delta.jscad index 9941125..043f6f8 100644 --- a/delta.jscad +++ b/delta.jscad @@ -424,203 +424,211 @@ var EFFECTOR = { function columns() { var rv = [0,1,2].map(function(x) { return union(vector_char(0,0,String.fromCharCode('A'.charCodeAt(0)+x)).segments.map(function(x) { return rectangular_extrude(x,{w:2,h:1}); })).center().rotateX(90).translate([0,50,0]).rotateZ(x*120+120); }); return union(rv); } function microswitch() { var screw_connector = new CSG.Properties(); var rv = CSG.cube({ center:[0,0,2.5],radius: [19.8/2,6/2,10/2] }).union( CSG.cube({ center: [2.5,0.5,6], radius: [2/2,3.5/2,5/2] }) ).union( [-8,-1,8].map(function(x) { return CSG.cube({ center:[x,0,0], radius: [0.6/2,3.2/2,13/2] }) }) ).subtract( [-9.5/2,9.5/2].map(function(x,i) { screw_connector[i] = new CSG.Connector([x,6/2,0],[0,-1,0],[0,0,1]); return CSG.cylinder({ start: [x,-4,0], end: [x,4,0], radius: 2/2 }) }) ); rv.properties.switch_connector = new CSG.Connector([2.5,0.5,6+5/2],[0,0,1],[0,-1,0]); rv.properties.screw_connector = screw_connector; rv.properties.microswitch = new CSG.Properties(); rv.properties.microswitch.size = new CSG.Vector3D( 19.8,6,10 ); return rv; } var FOURWINDS = [0,90,180,270]; var E2020 = { outer: 20, thickness: 1.8, roundius: 1, centerhole: 5, slot_width: 6, T: { width: 10, thickness: 1.5, depth: 6.5 }, extrusion: function(o) { if(!o) o = {}; var e = o.extrusion || this; var l = o.l||5; var iy = e.outer/2-e.T.depth; var ix = e.T.width/2-(e.outer/2-iy-e.thickness-e.T.thickness); var rv = CAG.roundedRectangle({ corner1: [-e.outer/2,-e.outer/2], corner2: [e.outer/2,e.outer/2], roundradius: e.roundius }).subtract( FOURWINDS.map(function(w) { return CAG.fromPoints([ [ e.slot_width/2,e.outer/2+1], [ e.slot_width/2,e.outer/2-e.thickness], [ e.T.width/2,e.outer/2-e.thickness], [ e.T.width/2,e.outer/2-e.thickness-e.T.thickness], [ ix, iy ], [ -ix, iy ], [ -e.T.width/2,e.outer/2-e.thickness-e.T.thickness], [ -e.T.width/2,e.outer/2-e.thickness], [ -e.slot_width/2,e.outer/2-e.thickness], [ -e.slot_width/2,e.outer/2+1], ]).rotateZ(w); }) ).subtract(CAG.circle({ center: [0,0], radius: e.centerhole/2 })).extrude({offset:[0,0,l]}); rv.properties.c_top=rv.properties.c_left = new CSG.Connector([0,0,l],[0,0,-1],[1,0,0]); rv.properties.c_bottom=rv.properties.c_right = new CSG.Connector([0,0,0],[0,0,1],[1,0,0]); rv.properties.c_midway = new CSG.Connector([0,0,l/2],[0,0,1],[1,0,0]); rv.properties.P = new CSG.Connector([0,0,0],[0,0,1],[1,0,0]); rv.properties.vitamin = true; return rv; }, cap: function extrusion_cap(o) { if(!o) o = {}; var e = o.extrusion || this; var thickness = o.thickness||2, l = o.l||5; var rv = CSG.roundedCube({ corner1: [-e.outer/2,-e.outer/2,thickness], corner2: [e.outer/2,e.outer/2,0], roundradius: [e.roundius,e.roundius,0] }); var fw = [0,90,180,270]; // four winds var iy = e.outer/2-e.T.depth; var ix = e.T.width/2-(e.outer/2-iy-e.thickness-e.T.thickness); rv = rv.union(fw.map(function(w) { return CAG.fromPoints([ [ e.slot_width/2,e.outer/2], [ e.slot_width/2,e.outer/2-e.thickness], [ e.T.width/2,e.outer/2-e.thickness], [ e.T.width/2,e.outer/2-e.thickness-e.T.thickness], [ ix, iy ], [ -ix, iy ], [ -e.T.width/2,e.outer/2-e.thickness-e.T.thickness], [ -e.T.width/2,e.outer/2-e.thickness], [ -e.slot_width/2,e.outer/2-e.thickness], [ -e.slot_width/2,e.outer/2], ]).extrude({offset:[0,0,l+thickness]}).rotateZ(w); })); rv.properties.P = new CSG.Connector([0,0,0],[0,0,1],[1,0,0]); return rv; } }; var THREEWINDS = [0,120,240]; function base_extrusions() { var rv = union( THREEWINDS.map(function(w) { var e = E2020.extrusion({l:CONFIG.base.el}); e = e.connectTo(e.properties.c_midway, new CSG.Connector([0,-CD.base.mid_inscription_r,CONFIG.extrusion.w/2],[1,0,0],[0,0,1]), false, 0); return union( [0,CONFIG.extrusion.w+CONFIG.base.gap].map(function(z) { return e.translate([0,0,z]); }) ).rotateZ(w); }) ); rv.properties.P = new CSG.Connector([0,0,0],[0,0,1],[1,0,0]); return rv.setColor(CONFIG.color.extrusion); } +function column_extrusions() { + var rv = union( THREEWINDS.map(function(w) { + return E2020.extrusion({l:CONFIG.column.h}).translate([0,CD.base.column_r,0]).rotateZ(w); + }) ); + rv.properties.P = new CSG.Connector([0,0,0],[0,0,1],[1,0,0]); + return rv.setColor(CONFIG.color.extrusion); +} + function refaxes(o) { if(!o) o = {}; var l = o.l||20, g = o.g||0.7; return union([ CSG.cylinder({start:[0,0,0],end:[l,0,0]}).setColor([1,0,0,g]), CSG.cylinder({start:[0,0,0],end:[0,l,0]}).setColor([0,1,0,g]), CSG.cylinder({start:[0,0,0],end:[0,0,l]}).setColor([0,0,1,g]) ]); } function P(x) { return x.connectTo(x.properties.P,new CSG.Connector([0,0,0],[0,0,1],[1,0,0]), false, 0); } function main(params) { return refaxes().union(P(base_extrusions())); } function _main(params) { var e = EFFECTOR.effector(); var hs = E3DV6.heatsink(); hs = hs.connectTo(hs.properties.grove_connector,e.properties.grove_connector,false,0); var ms = microswitch(); var hd = EFFECTOR.hinged({ microswitch:ms,effector:e }); ms = ms.connectTo( ms.properties.screw_connector[0], hd.properties.microswitch_screw_connector[0], false, 0); var hdhd = EFFECTOR.split_hinged(hd); var fh = EFFECTOR.fanholder(); return union({ platform: e, hinged: hdhd[1], clamp: hdhd[0], fanholder: fh, alltogethernow: [e,hdhd[0],hdhd[1], columns(),hs,ms,fh] }[params.part||'alltogethernow']) var rv = union( e, hs, columns(), ///hd, hdhd[0], hdhd[1], ms); return rv; } function getParameterDefinitions() { return [{ name: 'part', type: 'choice', values: [ 'platform', 'hinged', 'clamp', 'fanholder', 'alltogethernow', 'wip' ], captions: [ 'Effector platform', 'Hinged part', 'Clamp', 'Fan holder', 'All together now!', 'Work in progress' ], caption: 'Part', initial: 'wip' }]; } /* vim:set ft=javascript ai: */ |