Antikythera Planetary Prediction Mechanism

The goal of the project is to reengineer and create a prototype of an ancient Greek device that was used to predict astronomical portions of know celestial entities based on the Jian-Liang Lin and Hong-Sen Yan design.

=Problem Definition=

Background
The Antikythera Device was the world’s earliest computer. This mechanism, found off the island of Antikythera in the late 1800’s, was dated around 100 BC. The goal of this device was to use gear ratios to predict the positions of the moon and planets at a given date.

A University of Idaho Graduate Student, Alex Olson, created a prototype of this device, but had several unexpected problems. One set of gears in the planetary part of the device interfere with the outer axles. One axle that should be stationary, rotates due to an unsuccessful press fit. The date spiral needs to be designed to show what date the planets are at what position. The goal of this project is to solve the problems in the prototype and bring the machine to working condition. This will go in the Dean’s office, and show some of the projects that the University of Idaho students are capable of making. And the whole device is novel, because this will be the first fully operational version of itself in the United States, and the third in the world.

This project will be a relatively cheap (under $400) for getting the device to work. It will be interesting in the Dean’s office, and will be informational for both what the ancient Greek’s were able to make, and also where the planets will be at a certain date.

Product Requirements

 * Schmit Offset couplings
 * Check if two discs works instead of three
 * Design in Solidworks
 * Prototype large size
 * Prototype actual size
 * Find new location for third axle
 * Secure axles on each side of couplings
 * Create out of brass (get Bill’s help)
 * Assemble couplings and device
 * Straighten offset axles
 * Check problem
 * Assembled wrong?
 * Material weakness?
 * Fix problem
 * Reassemble device
 * Find way to fix center axle
 * Glue?
 * Less permanent way?
 * Design spiral
 * Switch dates from Greek calendar to modern calendar
 * Design dial to turn gears
 * Design extending pointer
 * Find aesthetic design
 * Make overall width and height smaller
 * New material other than acrylic?
 * Have to do this after date spiral is designed
 * “form follows function”
 * Lunar phase gear
 * Can't use bevel because it wasn't invented yet

Action Items

 * Design Schmidt offset coupling in Solidworks – 6/18
 * Completed Team Contract– 6/18
 * Client Interview Questions/Strategy– 6/18
 * Draft Budget estimates for both Summer & Fall– 6/18
 * Prototype large size schmidt offset coupling– 6/18
 * Product Requirements Document – 6/25
 * Prototype actual size schmidt offset coupling – 6/25
 * Cut offset coupling out of brass – 6/25
 * disassemble device – 6/25
 * Order parts with Molly – 6/25
 * label/stamp gears – 6/25
 * Project Schedule – 7/2
 * find way to fix center axle – 7/2
 * assemble offset coupling– 7/2
 * reassemble device– 7/2
 * design dial to turn gears– 7/2
 * Polish/Clean up gears– 7/2
 * Portfolio, Initial Wikipage, Logbook – 7/9
 * remake offset shafts – 7/9
 * design extending pointer for dial – 7/9
 * Design Crown Gear – 7/16
 * Design Validation Plan – 7/16
 * lunar phase gear – 7/16
 * Concept Design Review – 7/16
 * Project Value Proposition – 7/23
 * switch dates on sprial to modern calendar – 7/23
 * Make overall width and height of device smaller – 7/30
 * find aesthetic desgin – 7/30
 * disassemble device – 7/30
 * reassemble device – 7/30
 * redesign Planet dial – 7/30
 * Snapshot Storyboard – 7/30
 * Portfolio, Wikipage, Team Member Citizenship, & Logbook – 8/6

=Design Considerations= Our deliverable that went through the most designing was the date spiral indicator. We had a total of 5 designs for it. This is the fourth design. The only difference between this and the final was the arm is cylindrical in the final. The date spiral also took a lot of designing. We had to convert the dates from lunar to solar, translate the three minor dials, and design it in Solidworks. This was an early sketch of the Metonic dial.

=Project Learning= Another large portion was attributed to parts manufacturing. Many of the designs being implemented were a proven concept and we reverse engineered them and downsized them to fit into the mechanism

Schmidt Offset Coupling
All of the offset couplings that can be purchased, use three discs to allow the axle to return to its original offset, but our project didn't require that, so our prototype was to determine if two discs would mess up the design. Our first prototype was made to test the functionality of the coupling when only two discs are used. We laser cut a 1 to 1 size to make sure it can be machined in house, also a 4 to 1 test the functionality. We ended up modifying the prototype make the discs OD bigger and the connecting arm thicker to support the coupling better. After modifying the dimensions of the first prototype, we asked our mentor, Sarah Willis, for her thoughts about the design and dimensions, and she suggested to adjust the dimensions to fit the assembly better and can be machined from the stocks left from Alex’s project. For the final design, We modified the dimensions to fit better with the assembly where the discs have a press fit center hole to allow it to rotate along with the shaft, and the connecting arms to have a slip fit to allow it to rotate freely to transfer the rotation to the other disc and shaft.



Date Spiral Indicator Design
Several designs were thrown around when the dial was being designed. The first was a tube with a spring in it to apply a constant pressure on the dial indicator, but Alex suggested that we should not use such a complex design like the spring underneath the cover plate shown in the first image. So we went back to the white board to come up with a new design. We received better feedback on the second design from Alex and Sarah, however, they pointed at that this design might cause binding with the spiral and it would get stuck while rotating and we needed to come up with another idea that might fix that. For the third design       we used the same concept from the last prototype, however, we changed the pin sliding in the spiral from a square pin to two cylindrical pins to avoid binding and still have enough support to move the slider with ease. but we finally changed the design completely to match it with the design shown in the calendar schematics but still had the same concept of having a cylindrical pin. The design is based on the idea of having a stationary slider and a moving arm, unlike the third prototype which had a moving slider and stationary arm.

Recreated Acrylic Plates
When Alex originally cut the acrylic plates, he used cutting fluid in the CNC which caused a chemical reaction with the acrylic and created small cracks radiating out from any of the holes. We re-cut them, this time without using the fluid and this kept them intact.

Aesthetic Plate Frame
To make the device look more aesthetic and less like a block of acrylic we pitched some new design ideas. One was to cut out more from the acrylic plates allowing more visibility. Another was to copy a skeleton clock idea using brass. But the main goal was that "form follows function". We would need to keep the holes for the support spacers and give them enough support to keep them from bending or breaking.

Fixed Shaft
Level two of the main shaft (down the center of the device) needed to be kept stationary. We tried to use epoxy, but that cracked. There wasn't enough surface area to keep it strong. So we designed a bearing (like many of the other ones on the gears) to keep in stationary.

Remanufacture Offset Shafts
The original offset shafts that Alex created were not machined totally square, meaning that the gears would spin at an angle and sometimes not even mesh at all. So we had to re-machine them to make sure the holes were drilled in exact parallel to the shaft.

Greek Calendar Recreation
The original greek calendar used on this device was a lunar calendar. This means that it goes by 12 lunar months instead of the 12 solar months we normally use. They are very close in length, but aren't completely the same. Over 19 years, the lunar calendar adds 7 months and this makes exactly 19 solar years. So 235 lunar months equal 228 solar months exactly. Our design was to have a slot in the spiral to force the dial to point to the correct date as the device rotates and turns the arm.

Input Crown Gear
Alex requested the input dial to be a crown gear to make it easier to rotate the pinion (driver) gear from the sides or the top of the assembly. The pitch of the crown gear had to be the same as everywhere in the assembly, 32 teeth/in, and we had a stock with a 1.5in OD. After some calculation, the number of teeth came out to be 48.

Lunar Phase Gear
The lunar phase contain three parts: Crown gear, Spur gear, Hub. The crown gear has an OD of 0.8125in and 26 teeth with a pitch of 32 teeth/in. The Spur gear has an OD of 0.817 and diameter pitch of 0.75 and 24 teeth with a pitch of 32 teeth/in. The crown gear is placed on the stationary shaft and tighten using a set-screw. The hub is placed on the moon shaft, which going to allow the shaft coming on the other side of the hub to rotate around indicating the location of the moon. The spur gear would also make the shaft rotate around itself by meshing with the crown gear. A model of the moon is placed on the shaft next to the spur gear that would show the state of the moon at a giving date.

=Final Design=

=Validation=



=Team Members=

=Additional Documentation=

Meeting 1 – 6/19
12:00 – Re-asked Alex questions so that the professors knew what was going on

Scale down and implement offset couplings into mechanism

Will compensate for meshing of different gear ratios, as well as allowing for clearance of rotating gears

Rebuild some offset shafts to better align gears for a cleaner mesh

Rebuild acrylic frames to hold new offset couplings, possibly implement aesthetic design into acrylic

Create a new modern interpretation of the Greek calendar with a pointer and slider implementation

12:30 – Review list of Project deliverables

Attendees:
Beyerlein Odom Sarah Alex Rakan Mshari Shane

Notes:
-	Levi was taking FE

Meeting 2 – 6/26
12:30 – Develop product requirements

Prototypes began

Move device to meteorology lab

Show validation of design/changes

Implement into 3-D model

Use or modify old frame plates to show fitment

Create simple quick prototypes

12:45 – talked with Odom about future form of plates in device

Attendees:
Mshari Rakan Shane Levi Sarah Alex Beyerlein

Notes:
-	Don’t completely loosen the lantern gears set screws

-	Third offset only needs to be supported on opposite end of shaft

-	Input gear will mesh with gear #32

-	Move/relocate shaft for gears #12 and #28

-	Build press fit hub for stationary shaft? Use glue?

Meeting 3 – 7/3
12:00 – got Swenson up to date on project and requirements and schedule

12:05 – discussed ideas for dial to indicated date for spiral

12:10 - disscuss work schedule

Verify if we are on track, and what tasks have been completed

12:30 – decided week’s work plan:

Monday 7/2: Rakan and Mshari began design work on calendar dial mechanism

Tuesday 7/3: Ordered Parts will arrive; assemble offset couplings

Thursday 7/5: remake acrylic plates; rebuild offset shafts

Friday 7/6: crass shaft arrives; reassemble mechanism or rebuild plates

Attendees:
Mshari Rakan Shane Levi Sarah Alex Swenson

Post meeting notes:
-	Find system for tracking revisions in files

-	Alex will be gone by 7/30

Meeting 4 – 7/10/2018
12:00 – run through schedule and where we are in the tasks

working on machining plates

working on spiral design

12:05 – how to cut the offset axle

do we need set screws?

12:07 - spiral date indicator

two slots?

Brass slider instead of acrylic

Keep it from jamming

12:09 – move concept design review to next week

12:10 – spiral design

sprials are the same size

marks show where eclipses are

12:15 – Machining plates

make sure they are in the right place

12:16 – design review is moved to next week

Attendees:
Mshari Rakan Shane Levi Sarah Alex Swenson

Notes:
-	Strikethrough for finished tasks on top of color

-	Move design review to Wednesday at noon

Meeting 5 – 7/17/2018
12:00 - Review before the Design review.

12:05 - Discuss ; remake of offset shafts – Possible outsource.

12:10 - Look into ordering second smallest shaft

12:13 - Asking Bill about cutting to size.

12:15 - Look over plate spaces decide on Length need/Lathe coding.

12:20 - Slides Review: (Suggestions) •	 Address: Crown Gear, offset shaft

•	Number of Slides

•	Prospective for offset, coupling placement.

•	Bring in Mechanism to presentation.

•	Slides > Show DVP

•	Consider slider having on open end.

•	The presentation will be in EP 209.

•	Epoxy in Pins to offset couplings.

•	Restrain shafts from separating coupling.

•	Change the team name.

•	Fix “Project Learning” >> “ Project Management”

•	Look into “Schmitt coupling” name.

•	Coupling animation > Clear front disk.

•	Back plate >> Extra holes.

•	Add table for equations on offset.

•	Include remade calendar from Alex’s thesis.

•	Point Dial Pins arc.

•	 Add slide for QUESTIONS.

•	Add animations to Questions slide.

Attendees:
Mshari Rakan Levi Alex Sarah Swenson

Notes:
-	Presentation at 12:00 pm. EP 209

-	Tell Bill about our presentation and the location.

-	Shane was at a wedding so was not able to attend

Meeting 6– 7/24/2018
11:30 – Project Value Proposition evaluation

•	First couple paragraphs are good

•	shorten 11:35 – Spiral Date reset after 19 years •	figure out design requirements

11:55 - final things

12:00 – need better meeting agenda

Attendees:
Mshari Rakan Levi Shane Sarah Swenson

Notes:
-	email alex about way to reset date indicator

-	have better meeting agenda

-	“always go back to the requirements” – Swenson

Meeting 7– 7/31/2018
12:00 – Review of Schedule

12:03 - Gear don't spin totally true

12:07 - redesign planet dials'

•	might not get to that this summer

12:09 - Portfolio should contain what parts weren't able to be completed

12:13 - update budget

12:15 - remove last paragraph of project value proposition

Attendees:
Mshari Rakan Levi Shane Dr Swenson

Notes:
-	remove last paragraph

-	team member citizenship form

-	zero out budget