The astrolabe is a multi-function calculator of the Real Old school. It can help you find the time, day or night, quite accurately. It can do basic surveying, determining distance, depth and height. I have included a zip file containing plates for 30-70N latitude. This is more advanced version of the basic astrolabe posted here (https://www.thingiverse.com/thing:3657530).
- Laser cutter
- 3D printer
- laser printer
- 1/8 inch sheet clear cast acrylic
- 1/8 inch sheet opaque cast acrylic (I have had good luck with Blue and Black)
- #6-32 screws and locknuts, 1 1-inch, 2 3/4-inch
The laser files are colored as follows:
RED: Cut through the material
BLUE, GREEN : Cut/etch surface. Adjust speed/power to get the best result.
BLACK: Raster scan
Cut one front, one back, one rete, and one blank. The front and back are cut on clear acrylic, The rete and the blank cut with an opaque acrylic.
Print the two stl files, the alidade and your chosen rule.
Select one of the climate plates closest to your latitude and print it out. Cut it out, laminating it is not necessary, but will cut down wear.
When the bits are assembled:
There are two holes at the top of the astrolabe, you want to place the screw in the lower one. Place a screw through the front, blank, and back and tighten on a locknut. do the same for the hole at to bottom of the astrolabe.
Cut out the hole marked on the climate plate. place the climate plate in the center hollow of the front, being careful to align it properly. lift an edge an place a small piece of tape under it to keep it from turning in use.
Next, place a long screw through the center hole of the alidade arm, then through the center of the back of the astrolabe. Then place the rete over the screw and set it into the hollow over the climate plate. Then place the rule arm over the screw, and tighten down a locknut to hold everything together. The arms and rete should move freely, but not loosely.
Finally place a ring through the top-most hole.
My blog: http://www.astrolabeproject.com/
Class handout: http://astrolabeproject.com/downloads/Astrolabe_in_Theory_and_Practice.pdf