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Precision Matched with Speed
*Tenjin - Premium Bust from Black Forge Games, Avian Princess from Great Grimoire.


Reliable and Accurate 3D Printing
Reliable C5 Grade Z-axis Module
High repeat positioning accuracy ensures layer positioning errors are no more than 2 μm *. Tested with a 50 kg load across ten thousand runs.
Z-axis Repositioning Variation at 50 µm Layer Thickness

Test Model Results

*Data sourced from HeyGears Lab, 96% of movement errors are within 1 μm, and 99.9% of the errors are no more than 2 μm.
Full-Field Precision Screen
Adaptive Z-axis Compensation

Combinations of Different Angles
Z-axis Compensation Comparison
The process package allows the RS printer to adjust the Z-axis compensation adaptively for each resin, to support up to 180 combinations of different angles, hole sizes, and edge types.
This approach minimizes deformation and resin buildup on support surfaces, and reduces post-processing time compared to using just a single z-axis compensation parameter.
Reliable C5 Grade Z-axis Module
High repeat positioning accuracy ensures layer positioning errors are no more than 2 μm *. Tested with a 50 kg load across ten thousand runs.

Test Model Results

*Data sourced from HeyGears Lab, 96% of movement errors are within 1 μm, and 99.9% of the errors are no more than 2 μm.
Full-Field Precision Screen
To achieve printing high accuracy and reliability, we partition the screen into 60 zones and calibrate it with a full-screen tool, ensuring light intensity variation remains within ±3% * for a printing tolerance of ≤0.05 mm.

The RS automatically calibrates the screen using NFC data, keeping light intensity differences within 5% * and reducing variations in light intensity to ensure printing precision after screen replacement.
Printed Results Assembly Comparison
*Data sourced from HeyGears Lab.
Adaptive Z-axis Compensation
The process package allows the RS printer to adjust the Z-axis compensation adaptively for each resin, to support up to 180 combinations of different angles, hole sizes, and edge types.
This approach minimizes deformation and resin buildup on support surfaces, and reduces post-processing time compared to using just a single z-axis compensation parameter.
Z-axis Compensation Comparison



Injection-molded Precision with 2 Hour Speed*
*Data from HeyGears Lab, using a layer thickness of 50 μm and model height under 7 cm; printing results may vary per model.
*Model created by Great Grimoir.
Built for High Speed
4.5 s/layer Average Printing Speed*
4.5 s/layer Average Printing Speed*

C5 Z-axis Module
High-rigidity Printer Frame**
Dedicated Screen Cooler***
*Data sourced from HeyGears Lab. With high-speed water-washable resin PAWW10, the average printing speed for lattice models reaches 4.5 s/layer.
**Printer frame flex within ±2 μm.
***Cools screen temperature by up to 10℃ during printing.
**Printer frame flex within ±2 μm.
***Cools screen temperature by up to 10℃ during printing.
Dynamic Motion Algorithm 3.0
33% Increase in Print Speed*
33% Increase in Print Speed*
*Data sourced from HeyGears Lab, utilizing PAWW10 water-washable resin, compared to conventional motion control 3D printing. The exact speed increase may vary based on model.
**Using printers with basic motion control at a single layer speed.
*Vortex, Harbinger of the Abyss created by Great Grimoire.
**Using printers with basic motion control at a single layer speed.
*Vortex, Harbinger of the Abyss created by Great Grimoire.
Printing Results Comparison

33
52
%
%
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Printed with RS:
71 mins
Printed with Other 3D Printers**
107 mins
Printed with RS:
95 mins
Printed with Other 3D Printers**
198 mins
561 Layers
1121 Layers

Built for High Speed
4.5 s/layer Average Printing Speed*
4.5 s/layer Average Printing Speed*

C5 Z-axis Module
High-rigidity Printer Frame**
Dedicated Screen Cooler***
*Data sourced from HeyGears Lab. With high-speed water-washable resin PAWW10, the average printing speed for lattice models reaches 4.5 s/layer.
**Printer frame flex within ±2 μm.
***Cools screen temperature by up to 10℃ during printing.
**Printer frame flex within ±2 μm.
***Cools screen temperature by up to 10℃ during printing.
Dynamic Motion Algorithm 3.0
33% Increase in Print Speed*
33% Increase in Print Speed*
Comprehensive Dynamic Motion Control
This algorithm assesses printing difficulty for each layer using factors like cross-sections, part spacing, and quantity, selecting from 18 optimized motion control parameters to ensure quality while enhancing speed.
Single-Layer Dynamic Motion Control
Utilizing a seven-segment motion control logic per layer, the RS reads real-time force sensor data at 80 times per second, allowing it to adjust motion parameters efficiently, reducing redundant time and preventing printing failures.
Printing Results Comparison

1121 Layers
Printed with RS:
95 mins
Printed with Other 3D Printers**
198 mins
52
%
.webp)

561 Layers
Printed with RS:
71 mins
Printed with Other 3D Printers**
107 mins
33
%
.webp)
*Data sourced from HeyGears Lab, utilizing PAWW10 water-washable resin, compared to conventional motion control 3D printing. The exact speed increase may vary based on model.
**Using printers with basic motion control at a single layer speed.
*Vortex, Harbinger of the Abyss created by Great Grimoire.
**Using printers with basic motion control at a single layer speed.
*Vortex, Harbinger of the Abyss created by Great Grimoire.


Get Printing in Minutes
*Elven Mask Created by Black Forge Games.
Automatic Pre-processing
Complete Pre-processing in Just One Minute
One-click slicing without manual adjustment.
Automatic Repair Prevents Failures
Automatically detects and repairs model defects such as inverse normals, holes, and intersecting shells.
Intelligent Auto-Supports
Intelligently configured scaffold supports result in reduced detachments and a higher printing success rate.
Force Value Monitoring System
Automated Printing Assistance
Automatic Pre-processing
Complete Pre-processing in Just One Minute
One-click slicing without manual adjustment.
Automatic Repair Prevents Failures
Automatically detects and repairs model defects such as inverse normals, holes, and intersecting shells.
Intelligent Auto-Supports
Intelligently configured scaffold supports result in reduced detachments and a higher printing success rate.
Force Value Monitoring System
Residue Detection
Force sensors with a sensitivity of 0.1 N can detect resin residue as small as 0.2 mm and can auto-stop upon detection or print failure.
Printing Analysis
A report is produced after each print to accurately identify issues.
Automated Printing Assistance
Floating Screen Auto Leveling
A floating screen system with a deviation of 0.15° eliminates gaps of up to 240 µm for automatic leveling.
Automatic Resin Heating
The optional RS heated resin tank* uses an integrated heater for higher efficiency. It can elevate resin temperature from 50 °F (10 °C) to an optimal 73 °F (22 °C) in 20 minutes , auto heating maintains this temperature throughout the printing process for optimal results.
*Requires a separate purchase of the RS Heated & Pulsing Release Resin Tank
Automatic Resin Refill
Automatic resin refill before and during printing.


A Complete Production System
Special Materials (PAWW10 Water-washable, PARP10 Rapid Prototyping)
RS Heated & Pulsing Release Resin Tank
UltraCraft Cure
Light Intensity Calibration Tool
UltraCraft Pulsing Release Module
UltraCraft Wash