3D Printed on Air Sign With Flashing LEDs and CNC Milled Circuit Board

by elproducts in Workshop > CNC

2607 Views, 17 Favorites, 0 Comments

3D Printed on Air Sign With Flashing LEDs and CNC Milled Circuit Board

Screen Shot 2016-08-05 at 3.02.19 PM.png

This On Air Sign with Flashing LED lights was 3D printed and also has a CNC milled circuit board I created on a X-Carve machine. No micro or Arduino required.

Video

3D Printing Filament Friday #77 - On Air Flashing Sign using 3D, CNC and Electronics

A full video of the steps are available at my YouTube Channel.

Circuit

Photo Aug 01, 7 25 29 PM.gif

No microcontroller or Arduino was needed because I used an Astable Multivibrator circuit that only needed two NPN transistors, two capacitors, four resistors and two LEDs. Also a switch and 9v battery were added.

Circuit Board Design

Screen Shot 2016-08-05 at 2.57.52 PM.png

I used ExpressPCB to make the circuit board. There are lots of other options.

Copper Connection

Screen Shot 2016-08-05 at 2.58.12 PM.png

I used Copper Connection board layout software to import the ExpressPCB file and output a set of Gerber Files for the board.

Bottom Layer

Screen Shot 2016-08-05 at 2.59.19 PM.png

I used Flatcam software to load the bottom layer of the board (which was single sided) to create the GCode for the X-Carve CNC.

Drill File

Screen Shot 2016-08-05 at 2.59.42 PM.png

I use Flatcam to also create the drill file GCode from the Gerber drill file.

Milling Traces

Screen Shot 2016-08-05 at 3.00.11 PM.png

Universal GCode Sender software was used to control the X-Carve CNC. The GCode for the Bottom Layer was loaded and then sent to the X-Carve controller.

Milling Traces Part 2

Screen Shot 2016-08-05 at 3.00.34 PM.png

I used a 20 degree engraving bit to cut the isolation channels that form the traces in the single sided copper board.

Drilling Holes

Screen Shot 2016-08-05 at 3.00.46 PM.png

Universal GCode sender was used to send the drill file to the X-Carve.

Drilling Holes Part 2

Screen Shot 2016-08-05 at 3.01.01 PM.png

I used a 0.035" drill bit for the holes.

Electrical Test

Screen Shot 2016-08-05 at 3.01.31 PM.png

I sanded the top of the board with sandpaper and then checked for shorts with an ohm meter. The traces were good.

Components Inserted

Screen Shot 2016-08-05 at 3.01.16 PM.png

The components were inserted and the leads bent to hold them in place.

Soldering

Screen Shot 2016-08-05 at 3.01.46 PM.png

The copper soldered easily with typical rosin core solder. All excess leads were clipped.

Testing

Screen Shot 2016-08-05 at 3.38.04 PM.png

The board was powered up and the circuit worked perfectly. The LEDs were soldered on the opposite side to fit in the 3D Printed case.

3D Printed Case

Screen Shot 2016-08-05 at 3.38.29 PM.png

A 3D printed case was designed in Tinkercad and shared on Thingiverse. The design has a 9v battery holder and holes for a switch and the two flashing LEDs.

http://www.thingiverse.com/thing:1705206

Assembly

Screen Shot 2016-08-05 at 3.38.49 PM.png

The board was wired to a switch and 9v Battery clip. The case was completed on my FlashForge 3D printer. Everything ready for assembly.

Final Assembly

Screen Shot 2016-08-05 at 3.02.09 PM.png

The battery fit in the designed bracket perfectly and the board was held in place with double sided foam sticky tape. The switch was held in place with a nut.

Finished

Photo Aug 04, 5 37 39 PM.png

The finished design is assembled and ready to use. Works great to warn family I'm filming my YouTube Video.