PrintoScope

PrintoScope: A Tool for Precise Tuning and Analysis of 3D Printing ------------------------------------------------------------------ **PrintoScope**is designed not only to monitor the first layer but also to observe subsequent layers from above or through the printer's door. This device was created for profile tuning and print analysis, which is especially important when working with new materials from different manufacturers. The tuning process requires testing, and automation is often not enough—high-quality visual inspection is essential. For example, automation may not detect insufficient filament flow or adhesion issues in the first layer, which are easily noticeable during visual analysis. **PrintoScope** provides this functionality, offering magnification comparable to an electronic loupe. The device is particularly convenient for printers with a glass top panel, such as the Bambu Lab X1C. For example, in my setup, the AMS is placed on a shelf above the printer, leaving the glass fully accessible for monitoring and working with the printer. This setup makes it easier to achieve optimal settings and high-quality prints. Despite the advanced automation systems in modern printers like the Bambu Lab X1C, the success of a print often depends on precise profile adjustments. **PrintoScope** helps identify even the smallest issues in the first layer and fine-tune parameters, ensuring a reliable start for every project. ### Technical Features The device's body was printed using matte ABS plastic from eSUN with a layer thickness of 0.12 mm. The design includes: * Ventilation holes implemented through slicer settings. These are created by setting zero top and bottom layers and using 35% infill with a honeycomb pattern. This approach speeds up printing and makes the structure lighter. * A focus adjustment ring designed as a thrust ball-bearing mechanism, 3D-printed. Between the ring and the body are calibrated plastic balls lubricated with white grease, ensuring smooth movement. This is not a standard bearing but a printed imitation used to test technologies. In this project, it is an over-engineered solution, but it provides smooth and pleasant movement, far better than simple friction. The device will work even without the balls if you choose not to use them. * A camera module equipped with an OmniVision OV2710 sensor. Any USB module in this form factor will work, so the choice is limited only by the module's dimensions. This flexibility allows you to adapt the device to your needs. A separate lens with a 16mm focal length and M12 threading was purchased. Note that the module usually comes with a wide-angle lens, and the lens mount is relatively low. For a 16mm lens, a lens adapter is required. Such adapters can be purchased for a small cost (around $0.30) or 3D-printed. A model of this part is also available in the provided files. A filter is mandatory for the lens to avoid a completely purple image. However, some modules come with a built-in filter on the sensor. Be cautious when selecting components: the ones I specified include a module without a filter and a lens with one. I finished the body surfaces on a lathe and applied a matte acetone-based lacquer for a clean, professional appearance. This step is optional, but I wanted to make it look as good as possible. The final result looks as if it were factory-made—well, almost :). But if you're satisfied with the post-print look, you can skip these steps. I just wanted to do it well, and I think I succeeded. ### Why Is It Convenient? **PrintoScope** features a long-focus lens and a FullHD camera. The camera streams the image via USB to a computer, allowing a detailed view of the first layer on a large screen. This makes analysis much more precise compared to unaided visual inspection or using a built-in camera with a wide-angle lens, which can make it harder to detect small defects. This approach is useful not only for tuning profiles for new materials but also for a detailed visual analysis of the parameters being adjusted. The device makes it easy to fine-tune flow, temperature, or pressure (PA) settings, which is particularly important when working with different materials. ### Inspiration for Future Projects Beyond its main function, **PrintoScope** has become a platform for experimenting with new technologies. For instance, the use of ball bearings and printed ventilation holes has inspired their implementation in future projects I have planned. Links to the components used will be provided below the publication. The model in 3MF format can be [downloaded via this link](https://makerworld.com/en/models/1113404) . ##### See the [video](https://youtu.be/KG4nW2Hf50Y) for details: [](https://youtu.be/KG4nW2Hf50Y) **If you liked this thing - let me know by putting like!** ### Parts links below: * [Camera Module OV2710](https://go.like-it.link/zRvEBK) * [Camera Lens 16mm M12 IR Filter](https://go.like-it.link/zuDHcH) * [Spring Type-C Cable](https://go.like-it.link/vs9tHo) * [Type-C Connector Female Socket](https://go.like-it.link/J9E8Z) * [Head Flat Screw M2x4](https://go.like-it.link/qYsCW2) * [Inserts Nut M2](https://go.like-it.link/UrqWe) * [Solid Plastic Balls D3mm Polyoxymethylene (POM)](https://go.like-it.link/LXRmGc) * [Lubricant for Plastic Gear XY-2](https://go.like-it.link/rhGDL) * [AB-Glue Epoxy](https://go.like-it.link/N8lC1) * [Adhesive Round Sticker D10mm](https://go.like-it.link/Lam6qa) * [O-Ring id54 cs2.5](https://go.like-it.link/IYoT1F) ### Links to used tools: * [NOGA deburring tool and Blades](https://go.like-it.link/h5jhx) * [MINI MScraper](https://go.like-it.link/D0ENP) * [Mini Metal Lathe](https://go.like-it.link/qhcj3) * [Quick Change Tool Post Cutter Holder](https://go.like-it.link/aUamY) * [Set of lathe tool holders for cutting inserts](https://go.like-it.link/rKo9u) * [Universal Glue Quick-drying](https://go.like-it.link/cFhAn) * [Polishing Cordless Drill](https://go.like-it.link/v5Kula) ### My favorites: [](https://like-it.link/favorites) #### Thank you for every tip or donation, it means great recognition for me and helps a lot to keep going! 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