Reverse Engineering of Mechanical Parts

The Next Evolution in 3D Scanning – Accuracy Meets Versatility
Hybrid 3D scanners combine two or more scanning technologies — typically laser scanning and structured light (LED) — into one powerful system. This fusion allows professionals to switch scanning modes based on object type, surface material, or accuracy requirement. These scanners are designed to scan both dark and reflective surfaces, capture fine detail and deep cavities, and perform in indoor or outdoor conditions — all from one device.
Hybrid 3D scanning technology offers the perfect balance of speed, resolution, flexibility, and cost-effectiveness. Ideal for users who work with a wide range of applications, from reverse engineering to heritage preservation, quality inspection, and digital design.
Hybrid 3D scanners are also used in education, research, and engineering
design where multi-material scanning is required on a budget.
We offer a range of Shining 3D’s hybrid scanning solutions that merge blue laser scanning and LED projection systems into a single, compact and reliable platform.
A cutting-edge hybrid 3D scanner that combines blue laser scanning with infrared VCSEL technology, enabling you to scan both shiny industrial parts and human body surfaces using a single device.
Scan Mode 1: Blue Laser for High Precision Industrial Parts
Scan Mode 2: Infrared for Large Objects, Human Body, and Organic Shapes
Lightweight, portable, and compatible with major reverse engineering software
The EinScan HX is one of the most affordable yet powerful hybrid handheld 3D scanners in the market. It combines structured LED light for fast scans and blue laser technology for precision, offering versatility and consistent results.
Ideal for automotive, prototyping, product design
Hybrid mode switching in a single workflow
High compatibility with Geomagic Design X and SolidWorks
Designed for medical, art, and body scanning, the EinScan H2 fuses structured white light and infrared sensors. It ensures non-intrusive, safe, and accurate scans for human faces, skin, and even hair.
Popular in cosmetic surgery, orthotics, and medical research
High-detail texture capture
Gentle scanning for sensitive surfaces