Project:Giant Football Scoreboard

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Giant Football Scoreboard

Football scoreboard team alignment.JPG
Status: finished
Release Date: Oct 2016
Initiator: Mathis
Team: Lukas, Patrick
Materials Used: plywood, masonite, washers, magnets
Tools Used: laser cutter, jigsaw, pruning saw,
various marking & measuring tools
Software Used: Inkscape, Adobe Illustrator, VisiCut, GIMP
Approx. Cost: 240 €


In a day-and-night weekend project, Lukas and his brother Mathis made a giant football-shaped scoreboard for the U.S. national football league (NFL). We'll lay out the details on this page eventually...

Idea

The league organization is pretty weird and more complicated than a simple leaderboard table which makes it hard to visualize. There are 32 teams which are split up into two "conferences" which are each made up of four "divisions". Division champions are among the most important to track as they will automatically advance to the playoffs.

Football scoreboard schematic.png


The basic idea was putting all 4 teams in one division into an imaginary square as shown on the left.

For extra cool looks, the board everything was to be mounted on was to resemble a giant football (turned out to be 6.5x scale compared to a regulation ball) and could optionally be illuminated by LEDs or other lights.


Shaping the Board

using weights instead of clamps to secure the plywood sheet

We got a 2 × 1.3 m plywood ("Multiplex") sheet from a nearby hardware store as that was about the minimum size necessary to fit all the team logos with 10 × 10 cm footprints. We measured a regular-sized football to transfer the significantly scaled up width and height to the wood and played around with a pencil and some string as a makeshift giant compass until we found a suitable center for a circle that would go through all measured points.

The pencil line was quite easy to follow with a jigsaw and the edge only needed a bit of sanding until we were satisfied.

Preparing Logos for Laser Cutting

The logos were for the most part already in a vector format as the Wikipedia pages usually contain an SVG version. The rest were vectorized with the redraw function in Adobe Illustrator or Inkscape and scaled to fit into 10 × 10 cm squares. As the logos also had to be cut out in a laser cutter, an outline was needed – preferably with a 2 mm gap to give a nice unburnt frame.

In Adobe Illustrator this is achieved with the following steps:

  1. select the object with all its shapes
  2. go to Object > Path > Move Path
    1. select the desired distance and mode click OK
    2. there will now be several new shapes around your object
  3. combine them into one by using the pathfinder tool
    1. any left-over artifacts can be removed with the direct-select tool (A) to leave a single shape engulfing your object
  4. change the path properties to something you can identify later in VisiCut, (e.g. an unusual color)
  5. done!

3D Engraving with a Laser Cutter

The laser cutter we used supported 3D engraving, i.e. engraving at different intensities depending on the darkness of a greyscale image. We told VisiCut to 3D engrave everything with 100 % power and 10 % speed, using 4 mm poplar plywood. Since that material is prone to warping from moisture, we clamped the long side under one of the laser cutter's rulers which made it pretty level.

Afterwards we reset the laser to the position we started engraving at and started a second job which consisted of cuts (100 % power, 24 % speed) along all the bright green hairlines Patrick had added around each logo in Adobe Illustrator (see above).

The result looked awesome, but be warned - the 32 logos took about three hours to engrave and a little more to cut!

Designing the Seam

Based on photos of our real ball, we drew a vector image of the seam in Inkscape. Under the white lacing itself we drew the "patch" for contrast because the poplar plywood for the lacing and the Baltic birch plywood for the ball were of a similar pale color. The patch was cut from some scrap masonite with a rich brown color.

Magnetization

After what felt like hours of measuring and arranging to determine the best spots, we made pencil marks on the "ball" where the logos should sit. The easiest position for a magnet would have been the center of each thusly determined 10 × 10 cm area, but logos didn't allow that ("C", for example). In the groups with weird off-center logos we therefore had to find spots shared by all four.

Fender washers were glued to the "ball" in the places we marked and matching neodymium magnets went on the backs of the logos.

Wall Mounting

The whole piece was mounted on Mathis' wall with long cleats on the wall and the back of the "ball".

Gallery