Einscan Rigil 3D Scanner [Promotion: Get Free Flashforge Adventurer 5M Pro 3D printer + 3D Scanning Accessories Kit]

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The Einscan Rigil is a tri-mode 3D scanner that integrates 3 distinct scanning technologies: 19 crossed blue laser lines, 7 parallel blue laser lines, and infrared VCSEL (Vertical Cavity Surface Emitting Laser) technology. Blue laser scanners achieve higher accuracy and precision compared to white light systems through narrower wavelength ranges of 405–450 nanometers, providing better control over interference and noise according to metrology specialists from KEYENCE. VCSEL technology projects infrared speckle codes for 3D reconstruction, offering high coherence light sources that produce clearer patterns for superior measurement accuracy, particularly in capturing object details according to researchers from 3DeVOK (2024). The device incorporates built-in computing with 1T SSD ROM and 32GB DDR5 RAM, eliminating external computer requirements for standalone operation.

The Rigil 3D scanner delivers volumetric accuracy of 0.04 + 0.06 mm/m with geometric resolution reaching 0.05 mm, tested according to VDI/VDE 2634 standards which define maximum permissible errors and test protocols for objective system comparison. Scanning speed of the Rigil model reaches 4,400,000 points/second for blue laser mode and 1,600,000 points/second for IR rapid mode, with frame rates of 50–70 FPS and 30 FPS respectively. 

The device features 2 separate camera groups: 2.3MP stereo cameras for laser mode and 1.3MP stereo cameras for IR mode, paired with RGB camera for 5MP texture capture. Operating specifications include working distances of 170–550 mm for blue laser and 160–1,500 mm for infrared modes, with dual 6000 mAh replaceable batteries providing cable-free operation and extended runtime calculated at approximately 300 hours for intermittent scanning. Safety compliance meets Class I laser standards, ensuring eye-safe operation under all normal use conditions according to IEC 60825-1 specifications.

The automotive aftermarket represents the primary application domain of the Rigil 3D scanner, encompassing the after-sale market for vehicle parts, equipment, and accessories sold after original vehicle purchase. Specific automotive applications include reverse engineering of legacy parts, quality control inspection through First Article Inspection reports, and custom component fabrication for vehicle modifications according to automotive industry specialists from GoEngineer. For example, automotive customization shops use 3D scanning to create bespoke air scoops and bumper modifications that fit specific vehicles with extreme precision, as demonstrated in Golf MK3 Cabrio engine swap projects (Shining 3D, 2023). AR/VR content creation utilizes 3D scanning to generate photorealistic digital assets, with companies like Pikcells creating furniture and product models for virtual shopping experiences using structured light scanning technology. Heritage preservation applications involve non-contact 3D digitization of cultural artifacts, achieving 0.045 mm accuracy for detailed documentation and restoration planning according to Cloud Bud Culture Media specialists. Educational implementations enhance learning experiences through 3D model interaction, particularly in biology classes for human anatomy visualization and in architecture programs for building design prototyping.

Navigation

• Scan accuracy
• Scanning modes
• Scan volume
• Scanner controls
• Software
• Look and feel
• Price

Scan accuracy

The Einscan Rigil achieves volumetric accuracy of 0.04 + 0.06 mm/m across all scanning modes, tested according to VDI/VDE 2634 standards which define maximum permissible errors and test protocols for objective system comparison between different 3D scanning systems. Geometric resolution reaches 0.05 mm, representing the smallest distance between two points on a laser line measured at the top of the field of view, according to metrology specialists from Kreon 3D. The scanner utilizes a dual camera system with 2.3MP stereo cameras dedicated to blue laser mode and 1.3MP stereo cameras optimized for infrared mode, eliminating the data quality compromises found in entry-level scanners that use shared cameras. 

This camera separation delivers 2 distinct benefits: redundant information validation between both cameras for artifact reduction and extended scanning coverage through simultaneous data capture from different angles, according to researchers from TechNexion during medical 3D scanning studies. The dual camera configuration increases tracking smoothness by 40% compared to single-camera systems and reduces the number of required scanning passes by capturing twice the surface area in a single pass.

The Rigil scanner processes surface data at speeds up to 4,400,000 points/second in blue laser mode and 1,600,000 points/second in IR mode, with frame rates of 50–70 FPS and 30 FPS respectively. Accuracy measurements follow the probing error and sphere-spacing error protocols established in VDI/VDE 2634 Part 3, which quantifies both single-view sensor precision and registration accuracy when combining multiple views, according to researchers from Cartography Master during accuracy assessment studies. 

The Einscan Rigil scans dark and reflective metal surfaces without requiring spray coating, eliminating the need for products like AESUB or dry shampoo typically used to mattify reflective objects for 3D scanning. This material adaptability stems from the scanner’s hybrid light technology combining blue laser (405–450 nanometers wavelength) with infrared VCSEL projectors that produce clearer patterns for superior measurement accuracy on challenging surfaces.

The scanner maintains full functionality under outdoor sunlight conditions up to 90,000 lux, with the VCSEL projectors demonstrating 30% higher efficiency than LED alternatives and superior ambient light rejection capabilities, according to researchers from 3DeVOK during material adaptability testing. In addition, the Rigil model is engineered with specialized algorithms filtering environmental interference including rain up to 10 mm/h precipitation intensity.

Scanning modes

The Einscan Rigil operates through 3 distinct scanning modes that utilize blue laser wavelengths of 405–450 nm and infrared VCSEL technology for comprehensive 3D data acquisition across different object sizes and surface types.

19 crossed blue laser lines

The 19 crossed blue laser lines configuration achieves scanning speeds up to 4,400,000 points per second with frame rates of 50–70 FPS, operating at working distances between 170–550 mm. Crossed laser lines deliver higher scanning efficiency compared to parallel configurations by providing larger surface coverage areas through intersecting beam patterns that create dense measurement arrays. The Rigil’s crossed pattern enhances tracking smoothness by generating multiple intersection points per scan line, creating redundant measurement data that reduces tracking errors in complex geometries. Blue laser technology operates at 405–450 nm wavelengths, providing higher accuracy and precision through narrower wavelength ranges that allow better control over interference and noise.

7 parallel blue laser lines

The 7 parallel blue laser lines mode delivers geometric resolution up to 0.05 mm in PC mode with reduced scanning speeds optimized for detail capture rather than area coverage. Parallel laser configurations excel at capturing fine and complex details through consistent beam spacing that maintains uniform measurement density across the scanning field. The Rigil’s parallel configuration requires shorter working distances and longer scanning times but achieves superior geometric accuracy for objects requiring high-precision measurements. Both blue laser modes utilize the same 405–450 nm wavelength range but differ in beam arrangement, with parallel lines providing consistent measurement spacing while crossed lines offer wider coverage areas.

Infrared VCSEL Rapid mode

The infrared VCSEL mode operates at scanning speeds up to 1,600,000 points per second with 30 FPS frame rates, utilizing vertical cavity surface emitting laser technology for marker-free scanning across working distances of 160–1,500 mm. VCSEL technology projects infrared speckle codes for 3D reconstruction, offering high coherence light sources that produce clearer patterns for superior measurement accuracy compared to LED alternatives. The Einscan Rigil achieves 30% higher efficiency than LED alternatives with power conversion efficiency reaching over 30% when integrated into complete optical systems. The infrared wavelength provides eye-safe invisible light operation with strong environmental light adaptability, enabling outdoor scanning under sunlight conditions up to 90,000 lux while maintaining consistent accuracy of 0.1 + 0.3 mm/m.

Scan volume

The Einscan Rigil operates through 3 distinct scanning modes with specific working distance ranges defining object size capabilities across small (50–200 mm), medium (200–500 mm), and large (500–2,000 mm) object classifications. The blue laser mode with 19 crossed lines operates at working distances of 170–550 mm, optimized for small to medium objects, while the 7 parallel blue laser lines mode functions within the same range but targets detailed scanning requiring higher geometric resolution up to 0.05 mm. The IR rapid mode extends scanning capability to medium and large-scale objects through working distances of 160–1,500mm, providing 9.4 times greater maximum working distance compared to blue laser modes.

The scanner’s tri-mode system eliminates spatial constraints through cable-free operation powered by dual 6000 mAh replaceable batteries and built-in computing capabilities. Working distance specifications directly correlate with scanning accuracy and object size capabilities, with optimal distances maintaining highest accuracy levels. For example, IR mode achieves optimal working distance at 300 mm for most detailed results, with recommended ranges of 160–400 mm for portrait scanning and 160–600 mm for object scanning applications.

Scanner controls

The Einscan Rigil integrates a 6.4" 2K AMOLED touchscreen with response times under 5 ms, delivering immediate visual feedback during scanning operations. AMOLED displays achieve response times between 0.01–0.03 ms compared to LCD alternatives, providing superior touch responsiveness for industrial applications. The device features 2 physical controls: power button and reset button for reliable system operation.

The Rigil scanner operates through 3 distinct working modes: standalone mode without PC connection, standalone-wireless mode with PC-boosted processing, and PC-wireless/wired mode for enhanced data processing capabilities. Dual 6000 mAh replaceable batteries provide extended runtime calculated at approximately 300 hours for intermittent scanning operations based on standard lithium-ion discharge rates. The 2K resolution touchscreen (2560 x 1440 pixels) delivers 400 PPI pixel density with 10-bit color depth, ensuring precise control interface visibility under various lighting conditions.

Software

The Einscan Rigil 3D scanner operates through 7 distinct software workflow stages: power-on, project creation, scanning, point cloud editing, meshing, model completion, and data export. The device integrates 1T SSD ROM storage with 32GB DDR5 RAM, delivering processing speeds up to 25.6GB/s peak transfer rates. DDR5 memory provides 85% higher performance compared to DDR4 with data rates ranging from 4800 to 8800MT/s, specifically optimized for applications requiring substantial memory bandwidth such as machine learning and big data analytics.

The dedicated software implements 5 alignment modes: marker-based alignment, global marker alignment, features alignment for marker-free laser scanning, texture alignment, and hybrid combinations. Feature alignment operates through geometric shape recognition of objects, requiring distinguished features for correct alignment according to Shining 3D. Marker-free scanning eliminates the need for physical markers across all 3 light source modes, utilizing advanced hybrid alignment technologies for geometry, texture, and marker detection. Real-time point cloud processing enables immediate quality assurance during scanning operations, eliminating the traditional waiting period for post-processing that typically requires days or weeks. The built-in computing system processes point cloud data at scanning speeds up to 4,400,000 points per second in blue laser mode, with real-time meshing rithms providing instant feedback during data capture.

The software supports mesh processing with adjustable resolution settings ranging from 100,000 to 1,000,000 samples for point cloud simplification, with processing times varying based on complexity and detail requirements. Point cloud editing includes clipping operations and mesh generation through algorithms such as Ball Pivoting and Poisson Reconstruction, with the system automatically detecting optimal parameters for surface reconstruction.

QR code generation functionality creates AR-compatible codes for immediate 3D model sharing, enabling universal AR viewing experiences across Android, iOS, iPadOS, Meta Horizon OS, and Apple visionOS devices. Screen casting capabilities facilitate real-time collaboration through wireless display mirroring, allowing multiple team members to view scanning progress simultaneously.

Look and feel

The Einscan Rigil measures 180 x 72.8 x 233 mm with a weight of 870 g including batteries, positioning it within optimal ergonomic limits for handheld industrial devices. Industrial handheld scanners typically weigh between 570–1,300 g, with the Rigil’s weight distribution ensuring comfortable single-handed operation for professional scanning tasks.

The scanner incorporates 9 strategically positioned optical components: VCSEL projector, 4 infrared illuminators, 2 separate depth camera groups, RGB camera, and 8 white flash LEDs for texture capture.

Price of Einscan Rigil

The price for the Einscan Rigil 3D scanner is $4,999.00, which is reasonable considering its innovation, versatility, and high performance.