How to make a multi-layered acrylic and LED sculpture with variable lighting levels using Arduino

Arduino multi layered acrylic and LED sculpture (1)

Here you can find out how to make you very own n as made for the exhibition curated by art/design group Lapland.

More images can be seen at flickr

This exhibition runs from Wednesday 26 November – Friday 12 December 2008 inclusive, and had a private view on Tuesday 25 November. Each participant has been asked to make a letter each of the ‘laplandscape’ portion of the web address. On the website each letter will link to related web contributions from each participant. This instructable is our web exhibit for this exhibition.

This n is an art work and experimental and these instructions should be treated as such!

The n takes the form of 5 layers of laser cut acrylic, 3 of which have LEDs in them. The front panel has the outline of a letter n etched in it. 3 knobs control the LEDs and fade them between the ones inside and outside the outline of the n being on, on each layer.

There are no doubt simpler ways if wiring up the LEDs to do the same thing but, as all the exposed components etc are a big part of the aesthetic, we decided to do it this way.


Arduino multi layered acrylic and LED sculpture (1)

Step 1: Gathering parts

150 x LED’s – Yellow
150 x carbon film resistors – 0.5W 68ohm 5%
6 x transistors
3 x 22k pots
3 x knobs
1 x arduino decimila
4 x stripboard
pin strip

5 x 3mm acrylic sheet 610mm x 610mm
small white cable ties
4 x 400mm M10 stud
38 x M10 nuts
4 x M10 dome nuts

1 x regulated power supplies 4.5volts 1400ma
1 x regulated power supplies 7.5 volts

super glue

Step 2: Gathering tools

soldering iron
damp sponge
solder sucker
tape measure or ruler
strip breaker
work surface
‘steady eddie’

cable stripper (though I prefer just to use the snips)

Step 3: Preparing artwork

In order to laser cut the acrylic sheets first you need to prepare the vector files. To do this we used Adobe Illustrator CS3, though any vector based software would suffice.

Files for each layer will be added below shortly, but the instructions explain how we made the files so that you could create your own.

The pdf file has the 5 layers saved and named as below

Sheet 1
Sheet 2
Sheet 3

The first step is to measure the components that will be used, to make sure we create shapes the correct size. To do this we used a set of digital callipers.
Our 3mm LEDs were 2.9mm dia. The pots were 7mm. Holes to enable LEDs and attached wires to be pushed through easily from one layer to the next needed to be 5mm. Holes to take stud 10mm. And screw fixing “key hole” 15mm were at biggest and 6mm at smallest

Make sure you save your file at regular intervals. We called our source file source layers.

Next layout the basic shape in Illustrator. We are using a 400mm x 400mm square with rounded corners, radius 18mm. Centered within that is a lowers case n; font myriad overall height 337mm. This should be converted to outlines in the file. We specified a line thickness of 1mm and no fill. We then expanded the stroke to make it a solid object.

The 4 x 10mm dia. circles should be placed with the centre 20mm from top and side edge closest, so that they sit squarely in each corner.

This layer is named sheet front, and then duplicated and the new layer is named sheet 1.

Next work on sheet 1, but have sheet front visible but locked.
Save the file regularly.

Delete the outline of the n on sheet 1. Then place 50 x 2.9mm dia. circles within the outline of the letter ,and 50 x 2.9mm dia. circles outside the letter. Distribute them fairly evenly across the layer, but concentrate the ones outside the letter near the perimeter of the letter.

Duplicate sheet 1 and name the new layer sheet 2′. Hide and lock sheet 1. ‘

sheet 2 will be the next layer back in the sculpture. The circles on sheet 2 should be resized to be 5mm dia. These will be used to thread the wires through to the LEDs on sheet 1.

Place another 50 x 2.9mm holes within the letter and 50 x 2.9mm outside the letter on sheet 2. Distribute them evenly across the layer similar to before. Make sure that the new holes are not overlapping, or too close to, the previous ones.

This layer should then be duplicated and the new layer named sheet 3. Hide and lock sheet 2. The 2.9mm circles on sheet 3 should be resized to be 5mm dia. Then place another 50 x 2.9mm holes within the letter and 50 x 2.9mm outside the letter on sheet 3. Again make sure the distribution is fairly even and no holes overlap with previous ones.

Duplicate sheet 3 and call the new layer sheet back. Hide and lock sheet 3.

Delete all the holes except the 10mm ones in the corners on sheet back.Arduino multi layered acrylic and LED

You now have the basic layout that will allow you to place a maximum of 300 LEDs over the 3 layers.

We then added some further details. We selected all the holes on sheet 3 and copied them and pasted them onto sheet front. We then replaced each one with a little concentric circle pattern to act as diffusers in front of each LED. We expanded these in the same way as the n to create thick lines. On sheet 1sheet 2, and sheet 3 we added a tab to each at the bottom for the pot and knob. We added a circle for the hole for the pot and a rectangle for the locating pin.

On sheet back we added keyholes to allow us to attach it to the wall with screws.

To save these drawings as separate files we saved the source file as sheet,sheet 1.aisheet 2.aisheet and sheet using the ‘save as’ command.

These files were then opened and the other layers in the file deleted so that the file sheet only has the layer sheet 1 in it and the file sheet only has the layer sheet back etc.

sheets for n.pdf(1191×1417) 376 KB
back.eps(1136×1136) 313 KB
sheet 1.eps(1334×1136) 339 KB
sheet 2.eps(1334×1136) 366 KB
sheet 3.eps(1334×1136) 393 KB

Step 4: Laser Cutting Preparation

To use the vector files created in the previous step with the laser cutter we had access to (laserpro 3000) we exported them as EPS files (version 8).

Our laser cutter is located in our local Art School and many educational institutions have ones that will do work for members of the public at a cost. Look for places near you with engineering or product design courses if you want to try using one.

These instructions refer to the laser cutter we used, but most of the steps will be similar across many brands of cutters.

The EPS files were transferred to the computer attached to the laser cutter and opened in Corel Draw 13. This is what is used to print to the laser cutter.

In Corel Draw the cut lines in each file were set as ‘hairline’.

Then colours are selected for the objects to define the cut order. In this case anything black was cut first, red next, then green, yellow after that.

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