Articles tagged with 3D Printing:

  • Eyepot: a creepy teapot

    What has four legs but only one eye? A teapot of course!

    My new robot is based on a Raspberry Pi Zero W with a camera. It is connected via a serial link to an Arduino Pro Mini board, which drives servos. Since each one of the four legs will have two articulations, each with one servo, we need eight servos in total.

    Here is a list of the material we will use:

    Let's start by designing and printing the parts. I use OpenSCAD, and print with white PLA, as usual.

    View of the 3D models set

    View of the 3D models set

    You can download the SCAD source files (licensed under GPLv3) and the corresponding STL files here or on my GitHub repository …


  • Plasteac - Enhancements

    You must remember my cute robotic dancing teapot. It works great, but it has a little drawback: you need to open it to physically connect and disconnect the battery. Therefore, let's fix that issue by integrating a switch directly in the teapot lid!

    I designed three new plastic parts for the second version of the lid. The new lid features a hole instead of the handle, and the actual handle is to be glued to an axis going through the lid, with an elliptic lever at the bottom. The lever shall push a micro switch attached on the inside of the lid, just like you would press a button.

    The three new parts

    The three new parts: the lid with a hole, the handle, and the button switch

    You can download the new SCAD source files (licensed under GPLv3) and the corresponding STL files on my GitHub repository. Apart from a micro switch, I'll also use prototype board, pins, and a Dupont wire.

    One the parts are printed, the handle is glued to the axis that goes through the lid. Then, the micro switch is soldered to a piece of prototype board. Two pins are then soldered to the board on the switch poles …


  • Plasteac: a dancing teapot

    The Bob robot, itself remixed from the Arduped robot, inspired an impressive number of clones with its really good design.

    The most famous ones might be Zowi, and more recently Otto. They are both simple, cheap, open-source and 3D-printed little robots which have refined Bob two-legged design.

    Yet, I am not a fan of their strange square heads. What I would like is a teapot. A dancing teapot.

    I chose to design 3D-printed parts from scratch, not only because I prefer to use OpenSCAD over FreeCAD, but also because the design of the top part will be entierly different anyway. Also, for once, it will be powered by a 9-volt alkaline battery rather than a lipo battery.

    3D models forming the robotic teapot

    3D models forming the robotic teapot

    You can download the SCAD source files (licensed under GPLv3) and the corresponding STL files here or on my GitHub repository. I printed them with white PLA, not the fanciest color but the perfect one for a teapot.

    The components ready to assemble

    The components are ready to assemble

    You might have recognized the shape of the famous Utah teapot! However, this is a subdivided and smoother model since the original is low-poly.

    I'll use the following components:


  • A telepresence robot - Building

    Telepresence robots are pretty cool, so let's build my own Telebot!

    Schema of a telepresence robot

    The telepresence robot allows visioconferencing while moving around

    The robot will be built as a base with 4 wheels, on top of which a vertical pole allows to stick a smartphone. The smartphone, connected to the base via Bluetooth, will permit visioconference via WebRTC and remote control at the same time, allowing to move around. Even if the center of gravity is quite high, a gyroscope will prevent the robot from falling over. The base will be powered by lithium-polymer batteries and rechargeable via a USB connector.

    Telebot moving around

    This article covers building the robot, while the next article focuses on programming it.

    We will use the following components:


  • A small 3D-printed NAS

    Network-Attached Storages (NAS) are very handy devices on a home network. They offer a simple way to share or synchronize files, and can host various useful services at the same time provided they are generic enough. A NAS being nothing more than a specialized file server, we will actually build a small home server than will be able to do anything.

    The functions can be the following:

    • File server (FTP, NFS, SMB/CIFS...)
    • Streaming server (audio or video on the local network)
    • Personal web server (to host a website, synchonize contacts or send files to people)
    • Local seedbox (to download torrent files)
    • Domotic hub (for instance by adding a Zigbee USB dongle)

    The server will be pretty simple in its technical design: a Raspberry Pi 2 model B with two hard disks connected with USB adapters.

    The finished NAS featuring a Raspberry Pi 2

    The finished NAS featuring a Raspberry Pi 2

    The Raspberry Pi is actually not able to power the two drives over USB, since we would need 500mA per drive, so 1000mA overall, and the Pi can only supply 600mA over USB. There is a possible boot setting in /boot/config.txt called max_usb_current, which when set to 1 raises the maximum current intensity over …


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