Raspberry Pi HQ C-Mount Camera

thingiverse

A compact housing that offers space for both the Raspberry Pi HQ camera and a Raspberry Pi Zero. Connected via a 3.8 cm long flex cable, you get your own C-mount camera that can be individually adapted to different projects by simply swapping the SD card. With the help of the adapter, the camera can be attached via an M6 screw or 1/4" tripod screw. For the assembly tutorial and webcam - visit our website [**PrintedLabs.Uni-Bayreuth.de**](https://printedlabs.uni-bayreuth.de/en/modelldatenbank/_optik/optomechanik/_1raspihqhousing/content?target=_blank) you need: - The 3D-printed components - Raspberry Pi HQ-camera module - Raspberry Pi Zero / Zero W - 3.8 cm flex-cable - four M2x18 screws (max. M2x20) for the Raspberry Pi - four M2x6 screws for the camera module - two M4x6 (max. M4x10) to combine all components ###<u>***PrintedLabs***</u> Are you looking for exciting projects and creative experimentation in the ***STEM*** field? Then visit our website [**PrintedLabs.Uni-Bayreuth.de**](https://printedlabs.uni-bayreuth.de/en?target=_blank) and take a look around. Whether you are a ***teacher***, ***student*** or ***hobbyist*** and curious about physics and other STEM subjects - we offer a platform with a constantly growing selection of ***project ideas, DIY lab equipment from the 3D printer and matching software***. Plus, of course, the necessary tutorials and assembly instructions. To get started yourself, download our 3D models, software and instructions **for free** and experience for yourself how easy and inexpensive it is to realise your own experiments. With PrintedLabs, we not only want to awaken the joy of science and STEM subjects, but also promote analytical thinking, problem-solving skills and structured working methods. Our claim to ourselves is: - To make science and STEM subjects fun through self-built "lab equipment" and its application. - Developing analytical and creative thinking, problem-solving skills and learning structured working methods for setting up and carrying out scientific experiments. - The teaching of basic knowledge of data processing and the evaluation and interpretation of measurement data. - Good performance for detailed experimental results. - Compatibility of all components and associated software. - Simple and cost-effective assembly using standard tools and additional components. - Robust 3D-models in printing, production and handling. - High modularity to enable "free experimentation".