Link to Main Spreadsheets
Google Sheets
This project is a customized BioPrinter built on the Voron 2.4 3D printer platform. It is designed to perform bio-fabrication tasks such as printing biological materials or tissues. Leveraging the precision and reliability of the Voron design, this bio-printer offers a robust platform for a wide range of bio-printing applications.
- High Precision Printing: The Voron platform ensures accurate, repeatable results with tight tolerances.
- Sterilizable Build Plate: The build plate is modified to allow easy sterilization between prints to maintain a sterile environment.
- Climate Control: Added control system to maintain an optimal temperature and humidity level in the print chamber.
- Easy Material Loading: The system has been optimized for fast and sterile material loading, ensuring minimal contamination risks.
For a complete list of components required to build this BioPrinter, refer to the Bill of Materials available in this Google Spreadsheet.
The BOM includes:
- Customized Voron 2.4 Frame: Custom Voron Design Frame
- Voron 2.4 Z-Axis Assembly: Voron 2.4 Z-Axis Assembly
- Custom Bio-Compatible Nozzle: Designed to handle bio-materials
- Climate Control Components: Sensors, fans, and other components to maintain a controlled printing environment
- Electronics: Microcontroller, stepper motors, and wiring for controlling the printer
- Build Plate and Sterilization System: Removable build plate for easy sterilization
- UV Toolhead: UV light toolhead to cure prints
BOM Sheet
- Voron 2.4 Kit: Base frame and motion system of the BioPrinter.
- Custom Nozzle: A nozzle designed for bio-compatible printing.
- Sterile Environment: The printer should operate in a controlled and clean environment for bio-printing.
- Control Software: Adapted firmware to control the new functionalities (climate control, sterilization cycles).
- Design the Frame First: Design it first.
- Prepare the Material: Load your bio-material (e.g., hydrogels, cell-laden inks) into the extruder using sterile techniques.
- Calibrate the Printer: Run the calibration procedure to ensure accurate prints.
- Start Printing: Use the appropriate G-code for your bio-printing task, ensuring the proper climate control settings are enabled.
- Post-Print: Sterilize the build plate and nozzle after each print to maintain a clean printing environment.
Daksh Tool Changer V2
Daksh Toolchanger GitHub
Open Source Scientific Report
Open Source Bioprinter by Adam Engberg
Voron 2.4 Frame/Motors/Hardware/Linear Rails
- Proudly supported by LDO Motion and Ember Prototypes
-
-
