File:Internal Geneva Wheel 23.svg
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[edit]DescriptionInternal Geneva Wheel 23.svg |
Deutsch: Malteserkreuzgetriebe, Inneres Stiftgetriebe |
Date | |
Source | Own work |
Author | MichaelFrey |
Source Code
[edit]mechanism.scad
[edit]use <../../animation/arrow_quad.scad>; $fn = 50; n=4; pinRadius = 1; r=5; showInput = true; showOutput = true; showOutputHoles =true; showSupport = true; showUglySupport = false; volume =true; arrows = true; gap = 0.1; opacity = 1; //[0:0.1:1] inputShaftLength = 4; ang = $t*360; l2 = 1/tan(180/n)*r; l3 = pow(l2*l2+r*r,0.5); outputDiscRadius =l3+r+pinRadius*4; arrowRadius = l3+r; slotAngle = 360 / n; slotLength = r+r*2^0.5; module circleSeg(r1,r2,ang){ points1 = [for(i=[0:+ang/10:ang]) [r1*sin(i),r1*cos(i)]]; points2 = [for(i=[ang:-ang/10:0]) [r2*sin(i),r2*cos(i)]]; points = [each points1, each points2]; polygon(points); } module arrow_quad(){ ratio = 2; r0 = 3; r1 = r0-pinRadius/4; r2 = r0+pinRadius/4; r3 = r0; headArc =30; circleSeg(r1,r2,90-headArc); //Arrow Head i=90; point1 = [(r3+pinRadius/ratio)*sin(i-headArc),(r3+pinRadius/ratio)*cos(i-headArc)]; point2 = [(r3-pinRadius/ratio)*sin(i-headArc),(r3-pinRadius/ratio)*cos(i-headArc)]; point3 = [r3*sin(i),r3*cos(i)]; points = [ point1, point2, point3]; polygon(points); } module slot(ang){ hull(){ translate([l2,0,0]) circle(pinRadius); translate([l3+r,0,0]) circle(pinRadius); } translate([l2,r]) rotate([0,0,180]) circleSeg(r-pinRadius,r+pinRadius,180-ang); } module slots(n){ ang = 360/n; for(i=[1:1:n]){ rotate([0,0,ang*i]) linear_extrude(height=1) slot(ang); } } module input(){ a= 1/tan(360/n/2)*r; translate([r,a,0]) rotate([0,0,$t*360]) translate([0,0,-1.1]) { translate([0,0,-3])rotate([180,0,0]) if(arrows){ linear_extrude(height=1) { arrow_quad(); rotate([0,0,180]) arrow_quad(); } } color("red",opacity) translate([0,0,-inputShaftLength+gap*2]) cylinder(h=inputShaftLength, r=pinRadius, $fn=6); color([1,0.5,0.5],opacity) translate([0,0,gap/2]) hull(){ cylinder(h=1-gap, r=pinRadius-gap); translate([r,0,0]) cylinder(h=1-gap, r=pinRadius-gap); } translate([r,0,0]) color("red",opacity) cylinder(h=2, r=pinRadius); } } outfn = n*6; module outputArrow(turning){ headArc =slotAngle/8; angus = atan2(-a,-r) + slotAngle/4 ; angus2 = n%2==1 ? angus+slotAngle/2:angus; rotate([0,0,-angus2+slotAngle/4 ]) rotate([0,0,-slotAngle/4 ]) { r1 = arrowRadius-pinRadius/3; r2 = arrowRadius+pinRadius/3; r3 =arrowRadius; linear_extrude(height=1) circleSeg(r1,r2,-slotAngle/2+headArc); //Arrow Head i=-slotAngle/2; point1 = [(r3+pinRadius)*sin(i+headArc),(r3+pinRadius)*cos(i+headArc)]; point2 = [(r3-pinRadius)*sin(i+headArc),(r3-pinRadius)*cos(i+headArc)]; point3 = [r3*sin(i),r3*cos(i)]; points = [ point1, point2, point3]; linear_extrude(height=1) polygon(points); } } module output(turning){ color([0,0.5,0],1) render(convexity=5) difference(){ cylinder(h=1,r=outputDiscRadius,$fn=outfn); translate([0,0,-1]) scale([1,1,3]) slots(n); if(showOutputHoles){ for(i=[1:1:n]){ S1=[a,r]; rotate([0,0,slotAngle*i]) translate(S1) cylinder(h=1,pinRadius); } } }; if(volume){ translate([0,0,1]) color([0.5,1.0,0.5],0.5) cylinder(h=1,r=outputDiscRadius,$fn=outfn); } translate([0,0,2]) color([0.5,1,0.5],1) cylinder(h=10,r=pinRadius,$fn=outfn); color("yellow") if(turning && arrows){ translate([0,0,10]) rotate([180,0,0]) linear_extrude(height=1) if(arrows){ arrow_quad(); rotate([0,0,180]) arrow_quad(); } translate([0,0,-0.5]) outputArrow(turning); } } module support(){ S0=[0,0]; S1=[r,a]; S2=[r*3,a*3]; S3=[r+a*2.5,a-r*2.5]; color("blue",opacity) translate(S1) translate([0,0,-2-gap]) cylinder(h=1, r=pinRadius*2, $fn=60); color([0.5,0.5,1],opacity) translate([0,0,-2-gap+0.25]) hull(){ translate(S1) cylinder(h=1/2, r=pinRadius, $fn=60); //translate([outputDiscRadius,outputDiscRadius,0]) translate(S2) cylinder(h=1/2, r=pinRadius, $fn=60); } color([0.5,0.5,1],opacity) translate([0,0,-2-gap+0.25]) hull(){ translate(S1) cylinder(h=1/2, r=pinRadius, $fn=60); translate(S3) cylinder(h=1/2, r=pinRadius, $fn=60); } color([0.5,0.5,1],opacity) translate([0,0,-2-gap+0.25]) if(n>3)hull(){ translate(S0) cylinder(h=1/2, r=pinRadius, $fn=60); translate(S1) cylinder(h=1/2, r=pinRadius, $fn=60); } if(n>3){ translate([0,0,-3]) translate(S0) cylinder(h=8,r=pinRadius/2); } translate([0,0,-3]) translate(S2) cylinder(h=8,r=pinRadius/2); translate([0,0,-3]) translate(S3) cylinder(h=8,r=pinRadius/2); if(showUglySupport){ translate([-r,-r*2,+5]) cube([35,35,2]); } translate([0,0,+3]) hull(){ translate(S0) cylinder(h=1,r=pinRadius*2); translate(S2) cylinder(h=1,r=pinRadius*2); translate(S3) cylinder(h=1,r=pinRadius*2); } } a=l2; function pinAngle(ang)= let(point = [ r + cos(ang)*r, a + sin(ang)*r] ) atan2(point.y, point.x); pinAngle = pinAngle(ang); turning = ang<180 ? true : ang >270+(90-slotAngle) ? true : false; outputAngle = turning ? pinAngle : 90; if(volume){ if(showInput){ input(); } if(showOutput){ rotate([0,0,outputAngle]) output(turning); } if(showSupport){ support(); } }else{ if(showInput){ projection() input(); } projection(){ if(showOutput){ output(); } } }
build.py
[edit]#!/usr/bin/env python3 import subprocess import sys import os minSlots = 3 maxSlots = 9 #minSlots = 3 #maxSlots = 3 os.system("rm *.svg") os.system("rm *.gif") os.system("rm *.png") #top view for n in range(minSlots,maxSlots + 1,1): a = "" a = a + "'" + os.getcwd() +"/"+ "mechanism.scad" + "'" + " " a = a + "-o "+ "'" + os.getcwd()+"/Internal Geneva Wheel top view "+str(n)+".svg"+ "'" + " " a = a + "-D" + "n=" +str(n) + " " a = a + "-D" + "volume=false" + " " a = a + "-D" + "arrows=false" + " " a = a + "-D" + "showInput=false" + " " os.system("openscad " + a) os.system("sleep 1") #exit(); for n in range(minSlots,maxSlots + 1,1): a = "" a = a + "'" + os.getcwd() +"/"+ "mechanism.scad" + "'" + " " a = a + "-o "+ "'" + os.getcwd()+"/"+"a"+".png"+ "'" + " " a = a + "--animate "+ "36" + " " a = a + "-D" + "n=" +str(n) + " " a = a + "--imgsize=1024,1024 " a = a + "--camera=" a = a + "0.00,0.0,-0.0," #translation a = a + "180.00,0.00,0.00," #rotation #[ 180.00, 0.00, 0.00 ] a = a + "140" + " " #distance a = a + "--projection o" #a = a + "--viewall" print(a) os.system("openscad " + a) os.system("sleep 1") #os.system("convert -brightness-contrast 10x5 a*.png z.png") #os.system("./toGIFs.sh") os.system("convert -brightness-contrast 10x5 -delay 10 -loop 0 *.png"+" "+"'" + "Internal Geneva Wheel top view "+str(n)+".gif"+"'") os.system("sleep 1") os.system("rm *.png") os.system("sleep 5") #exit(); #side view for n in range(minSlots,maxSlots + 1,1): a = "" a = a + "'" + os.getcwd() +"/"+ "mechanism.scad" + "'" + " " a = a + "-o "+ "'" + os.getcwd()+"/"+"z"+".png"+ "'" + " " a = a + "--animate "+ "36" + " " a = a + "-D" + "n=" +str(n) + " " a = a + "--imgsize=1024,1024 " a = a + "--camera=0.02,0.28,-0.11,218.10,0.00,11.180,140" + " " # [ 2.02, 0.28, -0.11 ] #translation #[ 218.10, 0.00, 11.70 ] #rotation #8 2.67 #distance #a = a + "--viewall" print(a) os.system("openscad " + a) os.system("sleep 1") #os.system("./toGIFs.sh") os.system("convert -delay 10 -loop 0 *.png"+" "+"'" + "Internal Geneva Wheel "+str(n)+".gif"+"'" ) os.system("sleep 1") os.system("rm *.png") os.system("sleep 5")
Licensing
[edit]I, the copyright holder of this work, hereby publish it under the following license:
This file is licensed under the Creative Commons Attribution 4.0 International license.
- You are free:
- to share – to copy, distribute and transmit the work
- to remix – to adapt the work
- Under the following conditions:
- attribution – You must give appropriate credit, provide a link to the license, and indicate if changes were made. You may do so in any reasonable manner, but not in any way that suggests the licensor endorses you or your use.
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Date/Time | Thumbnail | Dimensions | User | Comment | |
---|---|---|---|---|---|
current | 19:54, 6 February 2024 | 170 × 170 (17 KB) | MichaelFrey (talk | contribs) | Uploaded own work with UploadWizard |
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Short title | OpenSCAD Model |
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Width | 48mm |
Height | 48mm |
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6 February 2024
17,459 byte
170 pixel
170 pixel
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d4fd5559f0d1f229c67fdab443985ff47bffeafe
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