Actions

User

James: Difference between revisions

From HacDC Wiki

(personal info added up top.)
(personal info added up top)
Line 1: Line 1:
I'm working on getting the [cheap Chinese laser] working again.
I'm working on getting the [[Cheap Chinese Laser]] working again.
I like designing utilitarian objects.  My motivation to fix the laser is so I can make a holder for my pens at work.
I like designing utilitarian objects.  My motivation to fix the laser is so I can make a holder for my pens at work.
Aside from hacking together useful things via CNC machines, I like hacking in the kitchen and am known for my award winning experimental pies.  Who needs raspberry when you could have custard instead?
Aside from hacking together useful things via CNC machines, I like hacking in the kitchen and am known for my award winning experimental pies.  Who needs raspberry when you could have custard instead?

Revision as of 05:24, 25 March 2017

I'm working on getting the Cheap Chinese Laser working again. I like designing utilitarian objects. My motivation to fix the laser is so I can make a holder for my pens at work. Aside from hacking together useful things via CNC machines, I like hacking in the kitchen and am known for my award winning experimental pies. Who needs raspberry when you could have custard instead? I'm a temporary resident of Hyattsville, so if you need a lift in that direction, hit me up. BTW, ladies, he's single.

//HacDC logo key fob //created by James Sullivan //2-10-17 //Openscad version 2015.03-1 //dimensions in millimeters phi = 1/2+sqrt(5/4); //x:y=y:x+y thick=2.5; //thickness of base and key ring loop hole=5; //inner diameter of key ring loop: outer diameter is twice this, wall thickness is half this high=1; //height of logo and text above base width=25; //width of tag, height is proportional $fn=60; color("blue"){ //base translate([0,width*(1-phi),-thick]) scale([1,phi,thick/width]) cube(width,center=false); //key ring loop difference(){ translate([width/2,width+hole/2,-thick]) cylinder(h=thick,d=2*hole); translate([width/2,width+hole/2,-thick*1.5]) cylinder(h=2*thick,d=hole); } } //HacDC logo translate([0,0,high]) scale([width/966,width/966,(high+thick)/100]) surface(file="C:\\Users\\p007383b\\Documents\\Personal\\OpenSCAD\\HacDC-logo2.png", convexivity=14,center=false, invert=true); //HAC letters //translate([width/2,-width/4/phi,high/2]) linear_extrude(height=high,center=true) text("HAC",font="helvetica",size=width/phi/2,halign="center",valign="center"); //DC letters //translate([width/2,-width*3/4/phi,high/2]) linear_extrude(height=high,center=true) scale([phi,1,1]) text("DC",font="helvetica",size=width/phi/2,halign="center",valign="center"); module D(r){ scale([1/r,1/r,1]) linear_extrude(height=1,center=true) union(){ polygon([[-r/2,-r/2],[0,-r/2],[0,1-r/2],[1-r/2,1-r/2],[1-r/2,r/2-1],[0,r/2-1],[0,r/2],[-r/2,r/2]]); difference(){ circle(d=r,center=true); circle(d=r-2,center=true);translate([-r,0,0])square(r*2,center=true); } } } module C(r){ scale([1/r,1/r,1]) linear_extrude(height=1,center=true) difference(){ circle(d=r,center=true); circle(d=r-2,center=true); translate([r/4,0,0])square(r/2,center=true); } } module H(r){ scale([1/r,1/r,1]) linear_extrude(height=1,center=true) polygon([[-r/2,-r/2],[1-r/2,-r/2],[1-r/2,-1/2],[r/2-1,-1/2],[r/2-1,-r/2],[r/2,-r/2],[r/2,r/2],[r/2-1,r/2],[r/2-1,1/2],[1-r/2,1/2],[1-r/2,r/2],[-r/2,r/2]]); } module A(r){ scale([1/r,1/r,1]) linear_extrude(height=1,center=true) polygon([[-r/2,-r/2],[1-r/2,-r/2],[1-r/2+(r-2)*(r-1)/4/r,-1],[1-r/2+(r-0)*(r-1)/4/r,0],[0,(r/2-1)/(r-1)*2*r-r/2],[-1+r/2-(r-0)*(r-1)/4/r,0],[1-r/2+(r-0)*(r-1)/4/r,0],[1-r/2+(r-2)*(r-1)/4/r,-1],[-1+r/2-(r-2)*(r-1)/4/r,-1],[r/2-1,-r/2],[r/2,-r/2],[1/2,r/2],[-1/2,r/2]]); } translate([width/6+.2,-width/phi/4,high/2-thick/2]) scale([width/3*0.9,width/2/phi*0.9,high+thick]) H(7); translate([width/2,-width/phi/4,high/2-thick/2]) scale([width/3*0.9,width/2/phi*0.9,high+thick]) A(7); translate([width*5/6-.2,-width/phi/4,high/2-thick/2]) scale([width/3*0.9,width/2/phi*0.9,high+thick]) C(7); translate([width/4,-width/phi*3/4,high/2-thick/2]) scale([width/2*0.9,width/2/phi*0.9,high+thick]) D(7); translate([width*3/4,-width/phi*3/4,high/2-thick/2]) scale([width/2*0.9,width/2/phi*0.9,high+thick]) C(7);

HacDC-logo2.png

STL file of key fob is available as a zip file here: File:HacDC-tag.zip. Dimensions in millimeters: 25 wide, 40 tall, 2.5 thick. The above code causes Openscad to hang, so the STL was created using the surface command and a single full length image. Image could use some tweeking at the pixel level. HacDC-logo-all.png