Several people have sent us this story. I’ve seen it everywhere. A lot of people are upset, on several sides. A gun has been 3d printed that can actually fire a round.
First, we have people scared that this will bring undetectable guns to people who wouldn’t have had access before. Then we have the gun fans that are reacting to the others with shouts of freedom and liberty and stuff. The 3d printing community has had mixed reactions, but many are concerned that this will harm 3d printing in general.
These days it’s super-easy (not super-cheap) to go out and buy a 3D printer. But if you’ve got the mad skills like [Mario Lukas] maybe you can build a 3D print using a bunch of scavenged parts (translated). He’s published six posts on the build, and put together an overview video which you can watch after the break.
A pile of salvaged parts were found in a scanner and four different printers. He’s also powering the thing with an old PC PSU. The hot bed and extruder are brand new, which is a wise investment. We’re not sure about the threaded rod and bearings but we’d bet those are new as well. When it came time to work on the electronics he chose an Arduino board as the go-between for the printer and computer. It uses four stepper motor driver boards to drive the axes. Connections can be a bit complicated and he actually ‘smoked’ one of the boards during the development phase.
One of the mechanical build posts shows a belt routed in a T-shape. We wonder if it’s function is similar to what this H-bot style printer uses?
[Chris Nafis] crunched the numbers and found out he could get filament for his 3D printer in bulk for about one-fifth the cost of the cartridges the company sells. This led him to print a feeder for his Cube 3D printer.
We’re skeptical about the Cube 3D printer’s cartridges. They contain a spool of filament, but also include a chip which reports back the filament color and length remaining. We’re sure this provides some nice functionality for those looking to press a button and walk away. But we see it as an annoyance like the laser toner cartridges that stop working based on page count rather than remaining toner.
The solution [Chris] went with still uses the cartridges to ‘trick’ the machine into printing. Basically the interface will tell you that you don’t have enough filament left, but as long as there’s a cartridge in place you can tell it to print anyway. The green adapter he printed has a pass-through for the stock cartridge as well as the bulk spool you see to the left.
How lucky is [Transistor Man] that he found the materials for the tracks of this curved camera dolly just lying around the shop? The three rails making up the system are quarter-inch diameter and he was able to bend them by hand with the help of a 55 gallon drum. But to hold them in place so that the camera dolly would run smoothly he had to find a way to precisely space the tracks.
The robot arm you see in the picture above is a 3D printer which ended up being the easiest solution to the problem. With a bit of trial and error he found a design that holds the tracks in place without interfering with the camera sled’s progress. From there he devised a mounting system which uses three camera tripods to hold the track. You can see a test video shot from the dolly track embedded after the jump. It’s the opposite of the bullet time rigs [Caleb’s] been working on lately.
We figure the spacers would work for any track shape, but if you’re going for a complicated route you need some type of pipe bender to help out.
If you don’t mind ending up with oddly shaped 3D printed parts you can get your printer to sing to you. The exhibit shown above is doing just that. The Lulzbot is being driven specifically to produce a certain frequency of sound with its stepper motors. The results of a few different songs are what’s hanging on the wall to the right. You can hear it printing Bizet’s Carmen in the clip after the break.
[Rickard Dahlstrand] hacked together a Python script capable of parsing a MIDI file and outputting a G-code equivalent that will produce the frequencies and durations necessary to hear the audio on a stepper motor. As we mentioned, he uses a Lulzbot but the script appears to include setting for Cupcake, Thingomatic, Shapercube, and Ultimaker. The parser script as well as the example G-code files for a library of classical music can be downloaded from his repository.
Now if you’re looking for some other crazy CNC music ideas you can’t beat this wineglass music hack.
I may sound like I’m being over enthusiastic in this video. I’m not. Everyone who has seen this thinks it is simply amazing.
My father, an ex navy man, has told me stories of glowing water since I was little. Being a person who was obsessed with all things that light up, this always stuck with me. I saw a headline one day that someone was making an algae-light. Sadly when I clicked on it, the algae was just there to create oxygen. It was a cool idea, but not what I was hoping for.
That slight disappointment drove me to create a night light using glowing algae. The process could be extremely simple.
2. set up light for algae (it needs a 12 hour light cycle and putting it in a window sill would kill it due to heat). It needs bulbs labelled 6500k or higher.
3. shake algae at night (it only lights up when agitated, and when it is on its “night” cycle).
I really wanted to add more to this project though, so I decided to put the algae in a klein bottle and build a custom base for it that would allow me to move a BB around inside the bottle using magnets. This would in turn, hopefully, agitate the algae and make it light up.
While browsing an oculus rift thread on reddit, I saw someone mention how nice it would be to have some actual mounts for external sensors on their Rift. The idea is that adding additional sensors or cameras will allow us to expand the capabilities of the rift. With something like the Razor Hydra, you can add quick positional tracking (the rift only tracks rotation, not position). With some webcams, you could theoretically do some stereoscopic augmented reality. Unfortunately, attaching all these things to the rift is a bit of a pain at the moment.
I had all the things right here in front of me to make this happen, so I did! I’ve quickly tossed together two accessories for the Rift.
with hydra attached
nothing attached
1. a small bracket that feeds onto the velcro on the back. People will likely use this for “heavy” position sensors. They may be fairly light, but any additional weight on the front of the rift is unwanted.
clipped on
popped off
2. A snap-on face plate that has a modular design. This wold be for mounting cameras on the front of the rift.
Several people have sent us this story. I’ve seen it everywhere. A lot of people are upset, on several sides. A gun has been 3d printed that can actually fire a round.
