X-Git-Url: http://www.chiark.greenend.org.uk/ucgi/~ianmdlvl/git?p=reprap-play.git;a=blobdiff_plain;f=filamenttrestle.scad;h=d863f39c59511e957e59b1a674b3b81c7249cd65;hp=2ebccdcadca615b52ad17ed4135212dcf66f548f;hb=9061d14545116fcb05903dda4b7444c8d2b1c2c4;hpb=6805b4e32f51188f9541ed40d00c8f1e242dbc1d diff --git a/filamenttrestle.scad b/filamenttrestle.scad index 2ebccdc..d863f39 100644 --- a/filamenttrestle.scad +++ b/filamenttrestle.scad @@ -1,73 +1,127 @@ // -*- C -*- -spoolwidth = 80; // fixme needs to be measured -trestleheight = 80; // fixme needs to be checked -trestlebase = 80; // fixme needs to be checked +spoolwidth = 88.0; +spoolinnerrad = 39.8 / 2; +spoolouterrad = spoolinnerrad + 61.5; include +include -spoolwidthgap = 2; -barrady = 5; -barradz = 7; -guidewidth = 3; -guiderad = 20; +spoolradclear = 10; +spoolradslop = 2; -plugl = 12; +spoolinnerslop = 3; +axleslop = 0.5; + +axlerad = 7; +barwasherrad = 17; + +hubbasethick = 4; +hubmainthick = 15; +hubbaseweb = 1.2; +hubbasestalkwidth = 4; +hubwalls = 2.5; +hubpillarw = 4; +hubbaserad = spoolinnerrad + 10; +hubmainrad = spoolinnerrad - spoolradslop; + +legw = 12; +plugl = 20; plugwmin = 3; plugh = 10; plugslope = 0.5; plugwmax = plugwmin + plugh * plugslope * 2; +trestlefoot = 15; + trestlelegw = 10; trestlebaseh = 10; trestleplugd = 1; -topcylthick = 3; -topcylbasedepth = 4; +topblockthick = 3; +topblockbasedepth = 5; + +pinbasew = 4.0; +pinminh = 1.0; +pinmaxh = 3.5; +pindh = 1.75; +pindwidth = 1.75; + +pintaperlen = 20; +pinstraightlen = 30-pintaperlen; + +spoolouterpad = AxlePin_holerad()*2 * 1.5; +spoolbarlen = spoolwidth + + 2*(Washer_thick() + hubbasethick + AxlePin_holerad() + + spoolinnerslop + spoolouterpad); + barz = axlerad * 0.5; +axlepin_x = spoolwidth/2 + hubbasethick + + Washer_thick() + spoolinnerslop + AxlePin_holerad()*0.5; + +trestleheight = spoolouterrad + spoolradclear - barz; +trestlebase = trestleheight * 1.2; module Plug(d=0){ - a = -atan(plugslope); - tdx = d * cos(a); - tdy = d * sin(a); - bdx = d / cos(a); + dw = d; + dh = d; + dhb = d*2; + a = atan(plugslope); + bdy = -dhb; + bdx = dw / cos(a) + bdy * plugslope; + tdy = dh; + tdx = bdx + tdy * plugslope; translate([-d,0,0]) rotate([90,0,90]) linear_extrude(height=plugl+0.1+d*2){ - polygon([[-(plugwmin/2 + bdx), 0], + polygon([[-(plugwmin/2 + bdx), bdy], [-(plugwmax/2 + tdx), plugh + tdy], [+(plugwmax/2 + tdx), plugh + tdy], - [+(plugwmin/2 + bdx), 0]]); + [+(plugwmin/2 + bdx), bdy]]); } } -module Bar(){ - spoolw = spoolwidth + spoolwidthgap*2; - barz = barradz * 0.5; +module Bar(){ ////toplevel + spoolw = spoolbarlen; biggestw = spoolw + 50; intersection(){ for (mir=[0,1]) { mirror([mir,0,0]) { - translate([0,0,barz]) { - scale([1,barrady,barradz]) translate([-1,0,0]) - rotate([0,90,0]) cylinder(r=1, h=spoolw/2+2, $fn=30); - translate([spoolw/2,0,0]) - rotate([0,90,0]) cylinder(r=guiderad, h=guidewidth, $fn=60); - } - translate([spoolw/2 + guidewidth, 0, 0]) + translate([spoolw/2, 0, 0]) Plug(); + translate([-1, -50, -50]) + cube([spoolw/2+1.1, 100, 100]); } } - translate([-biggestw/2, -50, 0]) - cube([biggestw, 100, 100]); + difference(){ + translate([-biggestw/2, -50, 0]) + cube([biggestw, 100, 100]); + for (mir=[0,1]) { + mirror([mir,0,0]) + translate([axlepin_x, 0, -50]) + cylinder(r=AxlePin_holerad(), 100, $fn=15); + } + } + translate([0,0,barz]) { + translate([-100,0,0]) + rotate([0,90,0]) cylinder(r=axlerad, h=200, $fn=60); + } } } -module Trestle(){ +module FtAxlePin(){ ////toplevel + AxlePin(axlerad, (axlerad + barwasherrad*2)/3 * 2); +} + +module AxleWasher(){ ////toplevel + Washer(axlerad, barwasherrad); +} + +module Trestle(){ ////toplevel legang = atan2(trestlebase/2, trestleheight); eplen = sqrt(trestleheight*trestleheight + trestlebase*trestlebase*0.25); - topcylr = max(plugwmax/2, - trestlelegw/2, - sqrt(plugwmin*2/4 + plugh*plugh) - ) + topcylthick + trestleplugd; + topblockw = plugwmax + trestleplugd*2 + topblockthick*2; + + pinholebasew = pinbasew + pindwidth*2; + pinholeh = pinmaxh + pindh; difference(){ union(){ @@ -76,33 +130,154 @@ module Trestle(){ rotate([0,0, -90-legang]) ExtenderPillars(length=eplen+trestlelegw, width=trestlelegw, - height=plugl, + height=legw, baseweb=true); translate([-trestlebase/2, -trestleheight, 0]) - cylinder(r=trestlelegw/2*1.2, h=plugl); + cylinder(r=trestlelegw/2*1.2, h=trestlefoot); } } - intersection(){ - translate([0, 3, 0]) - cylinder(r=topcylr, h=plugl); - translate([-50, -topcylbasedepth, -1]) - cube([100, 50, plugl+2]); - } + translate([-topblockw/2, -topblockbasedepth, 0]) + cube([topblockw, + topblockbasedepth + plugh + topblockthick + + (pinmaxh - pinminh)*0.5, + plugl]); translate([-trestlebase/2, -trestleheight, 0]) - ExtenderPillars(length=trestlebase, width=trestlebaseh*2, height=plugl); + ExtenderPillars(length=trestlebase, width=trestlebaseh*2, height=legw); } translate([-300, -trestleheight-50, -1]) - cube([600, 50, plugl+2]); + cube([600, 50, 52]); rotate([-90,-90,0]) Plug(d=trestleplugd); + + for (rot=[0,180]) { + translate([0,0,plugl/2]) rotate([0,rot,0]) translate([0,0,-plugl/2]) { + translate([0, + plugh - (pinmaxh - pinminh)*1.00, + (plugl - pinholebasew*2)/3]) { + translate([-(topblockw*0.25+1), 0, pinholebasew/2]) + rotate([-90,0,0]) %Pin(); + translate([-(topblockw+1), 0, 0]) { + rotate([0,90,0]) { + linear_extrude(height = topblockw*2.0+2) { + polygon([[-1.0 * pinholebasew, -0.01], + [-0.5 * pinholebasew, pinholeh], + [ 0 , -0.01]]); + } + } + } + } + } + } + } +} + +module Pin(){ ////toplevel + rotate([90,0,90]) { + hull(){ + for (mir=[0,1]) { + mirror([mir,0,0]) { + linear_extrude(height=0.1) { + polygon([[-0.01, 0], + [-0.01, pinminh], + [pinbasew*0.5*(pinminh/pinmaxh), 0]]); + } + translate([0,0,pintaperlen]) + linear_extrude(height=pinstraightlen) { + polygon([[-0.01, 0], + [-0.01, pinmaxh], + [pinbasew*0.5, 0]]); + } + } + } + } + } +} + +module HubEnd(){ ////toplevel + thick = hubmainthick+hubbasethick; + difference(){ + union(){ + for (ang=[0 : 60 : 359]) { + rotate([0,0,ang]) { + translate([hubmainrad - hubwalls/2, -hubbasestalkwidth/2, 0]) + cube([hubbaserad - (hubmainrad - hubwalls/2), + hubbasestalkwidth, hubbasethick]); + ExtenderPillar(length = hubmainrad-hubwalls/2, + height = hubbasethick + hubmainthick, + pillarw = hubpillarw); + } + } + cylinder(r=axlerad+hubwalls, h=thick); + cylinder(r=hubmainrad-0.1, h=hubbaseweb); + difference(){ + cylinder(r=hubmainrad, h=thick, $fn=100); + translate([0,0,-1]) + cylinder(r=hubmainrad-hubwalls, h=thick+2); + } + difference(){ + cylinder(r=hubbaserad, h=hubbasethick, $fn=50); + translate([0,0,-1]) + cylinder(r=hubbaserad-hubwalls, h=hubbasethick+2); + } + } + translate([0,0,-1]) + cylinder(r=axlerad+axleslop, h=thick+2, $fn=50); } } -//Bar(); -Trestle(); +module TestKit(){ ////toplevel + translate([60,0,0]) mirror([1,0,0]) Pin(); + translate([60,15,0]) mirror([1,0,0]) Pin(); + translate([0,40,0]) intersection(){ + Trestle(); + translate([-50,-10,-1]) cube([100,100,100]); + } + intersection(){ + translate([-60,10,0]) Bar(); + cube(50,center=true); + } + %translate([50,40, AxlePin_zoffset()]) FtAxlePin(); + %translate([0,-20,0]) AxleWasher(); +} + +module DemoSpool(){ + rotate([0,90,0]) translate([0,0,-spoolwidth/2]) + difference(){ + cylinder(r=spoolouterrad, h=spoolwidth); + translate([0,0,-1]) cylinder(r=spoolinnerrad, h=spoolwidth+2); + } +} + +module Demo(){ ////toplevel + color("blue") Bar(); + for (mir=[0,1]) { + mirror([mir,0,0]) { + color("red") translate([spoolbarlen/2,0,0]) + rotate([90,0,90]) Trestle(); + color("orange") + translate([spoolwidth/2 + hubbasethick + spoolinnerslop*2/3, 0, barz]) + rotate([0,90,0]) AxleWasher(); + color("orange") translate([axlepin_x, 0, barz]) + rotate([90,0,90]) FtAxlePin(); + color("cyan") + translate([spoolwidth/2 + hubbasethick + spoolinnerslop*1/3, 0, barz]) + rotate([0,-90,0]) HubEnd(); + } + } + %translate([0,0,barz]) DemoSpool(); +} + +//Bar(); +//FtAxlePin(); +//AxleWasher(); +//Trestle(); +//Pin(); +//TestKit(); //Plug(d=1); //ExtenderPillars(80,12,8, baseweb=true); +//HubEnd(); +//Demo();