Customized 4-Head 3D Printer
IT3D 4 Heads
Customized 3D printers with up to 4 print heads
At IT3D, we develop customized 3D printers with up to 4 independent heads, designed to offer maximum versatility and efficiency in additive manufacturing processes. Thanks to the possibility of combining IT3D pellet and filament heads, each piece of equipment can be customized to suit specific production needs.
With a print volume of up to 500 × 500 × 500 mm, our customized IT3D printers allow parts to be manufactured with great precision and efficiency. The integration of multiple independent IT3D heads facilitates multi-material printing, the combination of different technologies, and the optimization of production times, providing flexibility in technical, research, engineering, design, or industrial manufacturing projects.
"Multiply efficiency and versatility in additive manufacturing"
Key features
- Up to 4 independent heads: simultaneous or multi-material 3D printing.
- Pellet + Filament combination in the same equipment.
- Modular system: possibility of changing the heads yourself.
- Self-leveling and automatic calibration for greater precision.
- Air circulation temperature control (max. 60 °C) for stable, distortion-free parts.
- Integrated webcam for remote printing control.
- 7-inch touchscreen for intuitive operation.
- Print recovery after power loss.
- Filament end sensor to prevent interruptions.
- High-speed direct extruder for maximum productivity.
- Flexible magnetic print bed for easy part removal.
Modular head combinations
The IT3D modular system allows the heads to be configured in multiple combinations, adapting to any process.
Pellet – Pellet
Filament – Filament
Filament – Filament
Pellets – Filament
Pellets – Filamento
Pellets – Filament
All combinations support 2-to-2 head configurations, offering unique versatility in 3D printing.
Featured applications
Thanks to its multi-material 3D printing capability and combination of pellets and filament, this 3D printer is ideal for…
High-precision industrial prototyping
creation of functional pieces and full-scale models.
Research and development (R&D)
Perfect for laboratories, universities, and innovation centers.
Multi-material and multi-technology printing
integration of different technical polymers or reinforced technical composites.
Production of molds and tools
Custom tools and molds for composites or thermoforming.
Manufacture of final parts
Components ready for automotive, aerospace, railway, and industrial machinery applications.
Short series and on-demand production
manufacture of customized batches without the need for expensive molds.
Sustainable production
Use of recycled pellets to reduce material costs and promote the circular economy.
Advanced product customization
manufacture of unique parts or parts adapted to specific requirements in various sectors.
Technical Specifications
| Feature | IT3D 4 Extruder 4 x Pellet | IT3D 4 Extruder 4 x Filament | IT3D 4 Extruder 2 x Pellet | 2 x Filament | IT3D 4 Extruder 3 x Pellet | 1 x Filament | IT3D 4 Extruder 1 x Pellet | 3 x Filament |
|---|---|---|---|---|---|
| Number of extruders | 4 x Pellet | 4 x Filament | 2 x Pellet | 2 x Filament | 3 x Pellet | 1 x Filament | 1 x Pellet | 3 x Filament |
| Printing technology | FGD | FDM | FGD + FDM | FGD + FDM | FGD + FDM |
| Build volume | 500 × 500 × 500 mm | ||||
| Extruders | 4 Independent IDEX MODULAR | ||||
| Layer height | 0.1 – 1 mm | 0.05 – 0.5 mm | P: 0.1 – 1 mm F: 0.05 – 0.5 mm | P: 0.1 – 1 mm F: 0.05 – 0.5 mm | P: 0.1 – 1 mm F: 0.05 – 0.5 mm |
| Nozzle temperature | Max 300 ºC | Max 500 ºC | P: Max 300 ºC F: Max 500 ºC | P: Max 300 ºC F: Max 500 ºC | P: Max 300 ºC F: Max 500 ºC |
| Nozzle diameter | 0.4 / 0.6 / 0.8 / 1 / 2 mm | 0.4 / 0.6 / 0.8 / 1 mm | P: 0.4 / 0.6 / 0.8 / 1 / 2 mm F: 0.4 / 0.6 / 0.8 / 1 mm | P: 0.4 / 0.6 / 0.8 / 1 / 2 mm F: 0.4 / 0.6 / 0.8 / 1 mm | P: 0.4 / 0.6 / 0.8 / 1 / 2 mm F: 0.4 / 0.6 / 0.8 / 1 mm |
| Filament runout sensor | – | Yes | Yes | Yes | Yes |
| Pellet temperature control | Two control points | – | Two control points | Two control points | Two control points |
| Hotbed temperature | Max. 120 ºC | ||||
| Filters | HEPA and carbon filters | ||||
| Resume printing | Yes | ||||
| Heated chamber | Yes (Max. 60 ºC) | ||||
| Connecting method | Ethernet cable, Wi-Fi, USB | ||||
| Slicing software | Cura | ||||
| Rated voltage | 100–120V / 200–240V 50–60Hz | ||||
| Compatible OS | Windows 7 or later | ||||
| LCD screen | Touchscreen, 7” | ||||
| Calibration | Automatic | ||||
| Printing base | Magnetic Flexible | ||||
| Camera view | Yes | ||||
| Machine frame | White | ||||
| Packaging | Wood Box | ||||
IT3D LEARNING
Course: Introduction to 3D Printing with Granza
Develop practical skills in direct pellet extrusion technology, with a focus on material preparation, screw flow control, and process optimization. This course is designed for professionals seeking to implement high-performance additive manufacturing using thermoplastic pellets in various industrial and research applications.
Basic Modules
- Module 1: Fundamentals of 3D Printing with Granza (FGD)
- Module 2: The Pellet Extruder – Components and Operation
- Module 3: Process Parameters and Application Cases
- Module 4: Materials for Pellet Extrusion
Specialization Modules
- Module 1: Circular Economy and Sustainable Manufacturing
- Module 2: 3D Printing with Ceramic Materials
- Module 3: 3D Printing with Metallic Materials
- Module 4: Biopolymers