1. Motion System
The T1 Max continues the Delta architecture of the T1 series, driven by three stepper motors and parallel arms to enable high-speed and precise movement of the print head in three-dimensional space. Compared to traditional i3 and Core XY structures, this system eliminates the need to move the heated bed, resulting in lighter and more stable operation. Building on this, the T1 Max introduces several upgrades: the parallel arms are extended to significantly expand the print range, and the arm attachment structure has been improved for easier assembly and maintenance. These enhancements greatly increase the machine’s maintainability and long-term stability, ensuring exceptional consistency and reliability even during high-speed, prolonged operation.
2. Control System
The T1 Max features an upgraded mainboard and driver modules, greatly improving system stability and resistance to electromagnetic interference, effectively reducing the risk of malfunctions caused by driver failure. Integrated features such as power-loss recovery and temperature anomaly protection ensure safe and efficient production. The filament runout detection sensor on the effector has also been upgraded for higher accuracy, significantly reducing false triggers and enabling precise monitoring of material status—enhancing both reliability and intelligence during long-duration print jobs. The firmware system has been deeply optimized for greater stability and compatibility, providing robust software support for the entire machine.
3. Extrusion System
The T1 Max uses a direct drive extrusion structure for stable and precise filament feeding. It is compatible with a wide range of common materials and meets the demands of complex models and high-speed printing. The feeding and retraction logic has been optimized to improve response time and control precision, reducing the likelihood of clogs or stringing. This makes the system particularly well-suited for long, uninterrupted printing tasks. While maintaining high performance, the structure also emphasizes ease of maintenance, ensuring reliable performance during high-efficiency production and meeting the dual demands for speed and quality from professional makers and manufacturers.
4. Cooling System
The T1 Max is equipped with an efficient cooling system. Dual cooling fans are integrated inside the effector to regulate the hotend temperature and maintain thermal stability during high-speed printing. A built-in blower in the upper housing delivers directed airflow through ducts to precisely cool the printed model. The airflow path and acoustic performance have been optimized to reduce operating noise significantly while improving cooling effectiveness—ensuring both high print quality and a better continuous printing experience.
5. Build Platform
The T1 Max features an enlarged magnetic build platform that provides a larger print area, particularly suitable for models with wide bases or for small-batch production. The platform is coated with a new generation high-adhesion PEI surface, improving adhesion and ensuring stable model formation even during high-speed or large-format prints. The heated bed heats rapidly with even temperature distribution, effectively preventing warping and detachment. The upgraded bed mounting structure allows for easier platform removal and maintenance. After printing, the flexible steel plate can be bent to easily remove the model—greatly enhancing the user experience and making the machine well-suited for continuous, high-intensity operation.
6. Sensors and Calibration System
The T1 Max includes a calibration system composed of various intelligent sensors. A pressure sensor embedded in the heated bed works with the nozzle to detect contact points and perform high-precision auto-leveling and real-time compensation, completely replacing the traditional paper leveling method. The mechanical design of the bed mount has also been optimized to avoid interference with pressure detection, making leveling more sensitive and stable. Additionally, the system integrates a filament runout sensor for real-time monitoring of material status, effectively preventing print failures due to filament depletion, offering users a smarter and more efficient printing experience.
7. User Interface and Smart Connectivity
The T1 Max features an optimized touch operating system with an intuitive interface and responsive performance for a smoother user experience. It supports Wi-Fi 6 and LAN connections, enhancing wireless stability and transmission speed. Compatibility with both 2.4GHz and 5GHz networks makes it adaptable to various environments. Paired with Flsun Slicer, users can remotely upload models, monitor print status, and perform basic operations. The printer also supports the cluster version of Flsun Slicer, enabling parallel control of multiple machines and centralized task scheduling—greatly improving management efficiency in workshops and small-scale production scenarios. The system also integrates essential functions such as filament monitoring, power-loss recovery, and temperature anomaly protection, ensuring continuous printing while enhancing safety and ease of use.