In the era of smart manufacturing, the Hybrid Collaborative Robot emerges as a game-changer—blending 3D spatial intelligence, laser-guided autonomy, and VR teleoperation to redefine robotic collaboration.
- High-precision 3D cameras enable arbitrary 3D gripping in complex layouts
- Real-time spatial mapping eliminates need for pre-programmed paths
- 99.7% accuracy in object recognition for irregular shapes
- Laser sensors for 360° environment scanning & dynamic path planning
- Autonomous obstacle avoidance in dynamic workspaces
- No manual coding required—ideal for rapid deployment
- VR headset with haptic feedback for intuitive remote operation
- Tactile response during gripping reduces operator fatigue
- Enables remote management of hazardous or repetitive tasks
- 6+1 DOF per arm for surgical-grade precision
- 1.5kg payload capacity optimized for electronics & logistics
- Swappable grippers for assembly, sorting, and lab automation
| Feature |
Specification |
| Arm Span |
~620 mm |
| Degrees of Freedom |
6+1 DOF per arm |
| Payload Capacity |
1.5 kg (per arm) |
| Vision System |
Multi-depth 3D cameras |
| Navigation |
Laser-based autonomous |
| VR Operation |
Immersive headset & haptics |
- Manufacturing: 85% reduction in assembly errors for microelectronics
- Logistics: 200+ order picks/hour with autonomous sorting
- Healthcare: Sterile sample handling in PCR labs
- R&D: Flexible automation for prototype production
- Fast ROI: 35% lower cost than humanoid robots, payback in 6–9 months
- Scalability: Modular design adapts to evolving workflows
- Safety: Zero collisions in 5,000+ operational hours
The Reeman Hybrid Collaborative Robot isn’t just a tool—it’s a fusion of 3D intelligence, AI autonomy, and human-centered design. For industries seeking precision, flexibility, and smart collaboration, this is the future of industrial robotics.