Tag Archives: 3d printing

A 3D-printed e-drum pad

via Arduino Blog

After making his first drum with a laser cutter, Ryo Kosaka redesigned it as a 3D-printed structure so more people could build it.

If you’d like to practice playing the drums, but would rather not disturb your family, roommate, neighbors, dog, etc., then an electronic version is probably a good idea. Since you’re reading our blog, making one would be even better!

Although details on how it was interfaced software-wise with the Arduino Uno aren’t included in his log, the drum itself looks quite good. It’s 3D-printed out of several individual pieces, which are glued together using thick paper to help hold everything intact. The sectioned design means that you only need a 120mm x 120mm print area to produce this 8-inch drum pad.

Kosaka also goes into how to set up the piezo sensor for drum use in his write-up, which should be quite useful for this design, or even something derived from it. You can check out the project page for more details as well as Thingiverse for the print files. Additionally, Kosaka recommends this Rockband controller to MIDI Instructable or this one featuring a homemade electronic drum kit.

Make your own 3D-printed sonic tractor beam with Arduino

via Arduino Blog

From magic to science, man has long dreamed about being able to manipulate objects from a distance. People have been able to push something using air or even sound waves for a while, but University of Bristol researcher Asier Marzo and colleagues have come up with a 3D-printable device that can not only repel small items, but can also attract them to the source.

It does this using an array of sound transducers arranged in a dome shape at the end of a wand. The acoustic tractor beam is also equipped with an Arduino Nano, a motor controller board, a DC-DC converter, and a LiPo battery, among some other easily accessible components.

Basically, an Arduino will generate 4 half-square signals at 5Vpp 40kHz with different phases. These signals get amplified to 25Vpp by the motor driver and fed into the transducers. A button pad can be used to change the phases so that the particle moves up and down. A battery (7.3V) powers the Arduino and the logic part of the motor driver. A DC-DC converter steps-up the 7.3V to 25V for the motor driver.

Aside from entertaining friends by levitating tiny pieces of plastic, the DIY tractor beams have many possible use cases, particularly in biological research. However, there are some limitations. Given the challenge of suspending objects more than half the wavelength of sound, the gadget can only trap things around a few millimeters in size.

Marzo and his team have published their project in the journal Applied Physics Lettersand shared step-by-step instructions so you could get started on building your own beam. You can read more on Phys.org as well.

This 3D-printed bionic hand can replace or support a limb

via Arduino Blog

3D-printed appendages are, as one might suspect, generally meant for those that are missing a limb. Moreover, there are many other people that might retain partial functionality of a hand, but could still use assistance.

Youbionic’s beautifully 3D-printed, myoelectric prosthesis is envisioned for either application, capable of being controlled by muscle contraction as if it were a real body part.

As seen in the video below, the Youbionic hand can manipulate many different items, including a small box, a water bottle, and a set of keys. Functionality aside, the movement is extremely fluid and the smooth black finish really makes it look great.

The device is currently equipped with an Arduino Micro, servos, various sensors, a battery pack, and a few switches. Even the breadboard appears to be very neat, though one would suspect the final version will use some sort of PCB.

You can learn more and order yours on Youbionic’s website.

RooBee One is an open-source SLA/DLP 3D printer

via Arduino Blog

Aldric Negrier, a Portuguese Maker and owner of RepRap Algarve, has created an SLA 3D printer named RooBee One.

Most desktop 3D printers that you’ll see in Makerspaces or advertised for home use drop material onto a bed using a hot extrusion head. The open-source RooBee One, however, employs a DLP projector along with an Arduino Mega to light up each layer in a vat of resin. This causes each layer to solidify, thus making a complete object. You can see this process at around 0:30 in the video below.

RooBee One features an aluminum frame with an adjustable print area of 80x60x200 mm, with up to a 150x105x200mm build volume. Aside from the Arduino, additional electronics consist of a RAMPS 1.4 shield, a NEMA 17 stepper motor, a microstepping driver, an endstop, and a 12V transformer. Negrier also installed a fan on top of the printer to help guide the toxic vapors outside and away from the machine’s operator.

This process may be unfamiliar to those used to “normal” 3D printers, as it “magically” pulls a complete part out of a bath. The project is fairly involved, but the resulting ruby-red machine looks quite impressive. You can find out how to build one on its Instructables page.

This phone-controlled robot can beat you in air hockey

via Arduino Blog

Air hockey is a classic arcade game consisting of two players, two paddles, a puck, and a low-friction table. But what happens if you don’t have an opponent? If you’re Jose Julio, you build a robotic one out of 3D printer parts.

An updated version of his earlier design from 2014, Julio upgraded the Air Hockey Robot’s original camera and vision system to a smartphone for its eyes and brain. Other components include an Arduino, an ESP8266-based shield, NEMA 17 stepper motors, stepper motor drivers, as well as some belts, bearings, rods, and a few more 3D-printed pieces.

As you can see in Julio’s video below, the robot moves along two different axes with a paddle to cover its half of the table. An Android phone running the Air Hockey Robot EVO app monitors the playing surface, and makes real-time decisions by tracking the puck’s location and predicting its trajectories. It even comes complete with sound effects!

The smartphone’s camera is looking at the playing court. The camera’s captured data is processed in real-time by the smartphone. Detecting the position of the puck and the “pusher robot” (and according to the current location of all the elements on the court), your smartphone makes decisions and commands the robot what to do via Wi-Fi.

Your smartphone will become an augmented reality device, showing predicted trajectories and position of all the objects involved in this game.

Want your own? Julio has made both the instructions and code available to everyone.

(Nice find, Hackaday!)

Alex’s Festive Baubles

via Raspberry Pi

I made a thing. And because I love you all, I’m going to share the thing with you. Thing? Things! I’m going to share the things. Here you go: baubles!

Raspberry Pi and Code Club Christmas Decorations

These 3D-printable Raspberry Pi and Code Club decorations are the perfect addition to any Christmas tree this year. And if you don’t have a tree, they’re the perfect non-festive addition to life in general. There’s really no reason to say no.

The .stl files you’ll need to make the baubles are available via MyMiniFactory (Raspberry Pi/Code Club) and Thingiverse (Raspberry Pi/Code Club). They’re published under a Creative Commons BY-NC-ND 3.0 license. This means that you can make a pile of decorations for your tree and for your friends, though we do have to ask you not to change the designs, as the logos they’re based on are our trademarks.

Here’s a video of the prototype printout being made. If you can help it, try not to use a brim on your print. Brims, though helpful, are a nightmare to remove from the fiddly Pi logo.

Enjoy.

3D Printed Raspberry Pi Logo

Print time: 20 mins. Printer: Ultimaker 2+ Material: ABS With thanks to Makespace for use of the 3D printer: http://makespace.org/ and Safakash for the music: https://soundcloud.com/safakash

 

 

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