The Basinglead Truth-600 3D Printer is an industrial-grade large-format FDM printer designed specifically for the production of spinal braces, orthotic shells, and large custom rehabilitation devices. With an extra-large build volume of 600 × 600 × 1000 mm, the Truth-600 allows full-size torso orthoses, scoliosis braces, TLSO, and other large orthotic components to be printed in a single build, making it ideal for modern digital orthotics workflows. The system features a fully enclosed chassis, dual Z-axis mechanical structure, and high-precision servo-driven motion control, ensuring stable printing even for tall or complex models. A closed air filtration system, power-loss recovery, and material-runout detection provide reliable long-duration printing, which is essential when producing large orthotic devices that may require many hours of continuous operation. With support for flexible and rigid materials including TPU, PETG, PLA, and ABS, the Truth-600 enables production of lightweight, ventilated, and patient-specific braces using CAD/CAM and 3D scanning workflows. This printer is ideal for prosthetic & orthotic laboratories, hospitals, scoliosis clinics, and digital orthotics manufacturing centres. Key Features Large-format 3D printer for spinal brace production Extra-large build volume for full torso orthoses High precision servo motion control system Fully enclosed industrial chassis Dual Z-axis synchronous screw structure Built-in air filtration system Power-loss resume printing function Filament run-out detection alarm High temperature extrusion for engineering materials Compatible with flexible and rigid filaments Built-in LED lighting for monitoring prints Large colour touchscreen control panel Technical Specifications Model: Truth-600 Printing Technology: FDM (Fused Deposition Modelling) Build Volume: 600 × 600 × 1000 mm Layer Resolution: 0.05 – 0.3 mm Positioning Accuracy: ≤ 0.0125 mm Number of Nozzles: 1 Printing Speed: 30 – 250 mm/s Nozzle Diameter Options: 0.3 mm 0.4 mm 0.5 mm 0.6 mm 0.8 mm Max Nozzle Temperature: 310°C Supported Materials: PLA, ABS, TPU, PETG Chassis Structure: Fully enclosed, front door + top opening Motion System: Dual Z-axis synchronous screw + linear guide + servo motor Filtration System: Included Power-loss Resume: Supported Material Run-out Alarm: Supported Control Screen: 10.1 inch colour display CPU: 32-bit ARM microcontroller File Formats: STL, OBJ External Storage: USB / SD card / U-disk Operating System Support: Windows / Linux / Mac Power Supply: AC100–240V, 50/60 Hz Machine Size: 1200 × 950 × 1850 mm Packing Size: 1350 × 1100 × 2000 mm Gross Weight: ≥ 330 kg Recommended Operating Temperature: 15–32°C Storage Temperature: 0–32°C Filament Storage: Suspended feeding system Typical Applications in Orthotics & Prosthetics Scoliosis braces (TLSO, LSO, Boston brace) Custom spinal orthoses Large AFO / KAFO shells Prosthetic check sockets Seating and positioning shells Rehabilitation supports Research and development devices Typical Users Orthotic & prosthetic laboratories Scoliosis clinics Rehabilitation hospitals Universities & research centres Digital orthotics manufacturers Humanitarian fabrication centres The Basinglead Truth-600 Spinal Brace 3D Printer provides a powerful large-format digital manufacturing solution, enabling orthotic professionals to produce full-size custom braces with high precision, improved ventilation design, and reduced fabrication time compared with traditional methods.

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Faster. More precise. Designed to revolutionize 3D printing in orthopedics. Unmatched Performance & Speed Prints orthopedic corsets up to 5× faster than traditional 3D printers—completing them in just 6–10 hours compared to the typical 30–40 hours elsewhere. Achieves blazing print speeds of up to 500 mm/s, dramatically boosting lab throughput. Cost Efficiency Offers significantly lower production costs than methods like plaster casting or milling—thanks to reduced material waste, streamlined workflows, and higher productivity. High-Quality Orthopedic Output Produces high-precision, durable, and comfortable orthopedic devices using advanced materials and refined printing technology. Comprehensive Ecosystem Not just a printer, but a full integrated solution—combining: Orthopedics-optimized materials Dedicated software for automated model generation and streamlined design workflows. Italian Engineering & Support 100% Made in Italy, embodying professional-grade design, reliability, and elegance. Backed by a dedicated technical support team—plus continuous software updates to keep your lab ahead of the curve. Technical Highlights Print Volume: XXL workspace—600 × 600 × 800 mm, ideal for full-size orthopedic devices. Precision: Delivers fine resolution at 50 µm. Temperature Management: Extruders reach up to 400 °C—suited for advanced technical filaments. Print bed heats up to 90 °C to ensure strong adhesion. Multi-Material Flexibility: Supports up to 4 extruders with automatic switching—ideal for multi-material or multi-color prints. Resilience: Automatic print resume after power interruptions ensures uninterrupted builds. Connectivity: Equipped with Ethernet and 2.4 GHz Wi-Fi for seamless integration into digital workflows. Build Volume & Weight: External footprint: approx. 1300 × 950 × 1500 mm Machine weight: ~250 kg. Versatile Applications Supported use-cases span a wide range of custom orthopedic solutions: Corsets, produced fast and tailored for optimal support. Braces & Orthoses—lightweight, resilient, and precise for joints like wrists, knees, and ankles. Custom Helmets, offering a perfect fit and consistent comfort—particularly beneficial for pediatric or therapeutic applications. Orthopedic Insoles, manufactured with millimeter-level accuracy to enhance weight distribution and foot support. Prosthetics, personalized for individual patients—combining functional design, comfort, and autonomy-enhancing detail. Summary The Helios HS Ortho redefines 3D printing standards in orthopedics by delivering industry-leading speed, precision, and adaptability. Its expansive build volume, advanced thermal control, automated extrusion management, and resilient design offer unmatched workflow efficiency. Supported by Italian engineering and round-the-clock assistance, it transforms orthopedic labs into high-performance, patient-focused production environments.

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