![]() ![]() As time goes on the gun community with gain a better understanding for this design. We are good with tools and I’d say this build is not any harder than making an 80% lower for an AR-15. The difficultly level of this build varies with the user. This Readme is broken into four sections: Now, this write-up will be thorough so bear with us. Even outside of gun making, this could be useful for a wide array of printed projects. The use of simple metal parts in combination with printed components holds a lot of potential for the future FreeMenDontAsk is already working on other handgun models. This results in longevity of use, reliability and safety, all while keeping the costs and complexity to manufacture low. The system relies on a DIY metal rail system which is added to a printed frame. Given the laws regulating the components of firearms, a Glock frame that is customizable is exactly what FOSSCAD needs. The key to this project is the DIY-friendliness. ![]() #3d clock plans freeYou’ll find plans for furniture, bookshelves, tables, gifts, outdoor, shop projects, tools, storage, and much more Our free woodworking plans come straight from the pages of Woodsmith, Shopnotes, and Workbench magazines. #3d clock plans downloadMuch of his original work was lost in a computer crash so we recreated his work. Download these free woodworking plans for your next project. 22lr and then I was contacted by FreeMenDontAsk via Twitter where he told me he had a method for making 9mm Glock pistols that worked well. This is the result of several months of experimentation in order to have a base Glock platform that the gun community can design around. Join us every Wednesday night at 8pm ET for Ask an Engineer!įollow Adafruit on Instagram for top secret new products, behinds the scenes and more ĬircuitPython – The easiest way to program microcontrollers – CircuitPython.The notes from his ReadMe state the following: Have an amazing project to share? The Electronics Show and Tell is every Wednesday at 7pm ET! To join, head over to YouTube and check out the show’s live chat – we’ll post the link there. Join 35,000+ makers on Adafruit’s Discord channels and be part of the community! A whole wide world of electronics and coding is waiting for you, and it fits in the palm of your hand. It has a powerful processor, 10 NeoPixels, mini speaker, InfraRed receive and transmit, two buttons, a switch, 14 alligator clip pads, and lots of sensors: capacitive touch, IR proximity, temperature, light, motion and sound. Circuit Playground Express is the newest and best Circuit Playground board, with support for CircuitPython, MakeCode, and Arduino. Build projects with Circuit Playground in a few minutes with the drag-and-drop MakeCode programming site, learn computer science using the CS Discoveries class on, jump into CircuitPython to learn Python and hardware together, TinyGO, or even use the Arduino IDE. Stop breadboarding and soldering – start making immediately! Adafruit’s Circuit Playground is jam-packed with LEDs, sensors, buttons, alligator clip pads and more. Modern 3D printing technology allows freedom of forms and colors.Īny two colors can be chosen for your clock, further colors in option. The hot noodles are printed layer-by-layer and fuse together building finished-quality-level parts. The Stratasys FDM works by laying down 'hot noddles' of ABS plastic and a sacrificial material that can be dissolved by water. ![]() ![]() – Carbon fiber pendulum rod with low thermal coefficient of expansion for best timekeeping These are the basic components of a clock 3D-printed by a Stratasys FDM 2000. – 9 precision ball axle bearings and 2 bronze anchor bearings to minimise friction – Printed with modern 3D printing technology From that solid base modern 3D printing technology allows a playful execution of the design resulting in a very modern clock based on historical principals. Important features such as the dial layout and the repartition of the gear train are taken directly from Grossmann’s explanations resulting in a reliable and accurate clock that is esthetically pleasing. Grossmann’s explanations from 1878 form the basis for the design of the Ingénieur du Temps 3D printed clock. In 1878 Moritz Grossmann, founder of the German Watchmaking School in Glashütte, wrote an article for the German Horological Journal describing design criteria and practical solutions for a precision regulator clock. Unfortunately the files are not available but the clock does appear to be based on documents circa 1878 that detail the clock’s inner workings – hint hint – otherwise the clock costs ~$2,800. ![]()
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