GoPro Clamp Mount
Tripods are limited in functionality and they get in the way in a crowded shop. Enter the GoPro Clamp Mount! I designed this mount to fit on a standard one-handed bar clamp with 4 axes of articulation, making it easy to mount a gopro just about anywhere.
3D Model
I modeled the mount in Fusion 360 because I wanted to learn the program. I found it to be a powerful modeling program, and it exported perfect .stl files that didn't need any repairs before printing.
I designed thumb screws for all the points of articulation to take a standard M5 bolt, which fits the plastic gopro enclosure. The mount slides up and down the clamp bar, and the 4 axes of rotation allow the user to position the camera.
Tools & Materials
TOOLS
- hand drill
- epoxy glue
- 3D printer. I used the Objet at the pier, but I'm sure a makerbot or other consumer grade plastic extruding printer would do the job.
- 4-40 tap & drill bit
MATERIALS
- M5 socket cap machine screws (at least 30mm long)
- hexagonal M5 nuts
- 4-40 bolts
- M4 hexagonal nuts & washers
3D Print
Printing all the parts for 3 mounts took about 6 hours on the high speed setting.
Parts on the Objet 3D printer have a translucent disposable support material that has to be cleaned off. The high pressure spray booth makes it go quickly. TIP: Soak the parts in water overnight to loosen up the support material and cut your cleanup time in half.
Assembly
The axes of rotation I mentioned before have thumb screws to loosen and tighten them. I designed the thumb screws to receive a 5mm socket cap machine screw.
Adding Hardware:
I mixed a little epoxy for the inside of the machine screw, then forced it in with an allen wrench. Each machine screw has a hex nut at its opposite side that fits snugly into a pocket modeled into the piece. This trick makes for a much more rigid connection than you would otherwise get by tapping into the plastic.
Tolerances:
All the parts were modeled with no extra space between them, including the spaces for the nuts and bolts.
Get Some Video
These things have gotten a lot of use around the shop! They can go just about anywhere; we even tried a Matrix-esque multi-camera 3D shot with them that you'll see at the end of the youtube video. I would love to see someone try this on a consumer-grade 3D printer.