1. Human-machine collaboration
Safety first – built-in force control sensor and collision detection to ensure zero risk of human-machine interaction
Ergonomics – lightweight design of the operating handle to reduce worker fatigue
Flexible adaptation – adjustable arm length, load and speed to meet the needs of different types of work
2. Modularity and flexibility
Quick changeover – standardized interface, 5 minutes to change fixtures (claws, suction cups, tool heads, etc.)
Multi-scenario compatibility – supports multiple deployment methods such as ground installation, hanging, mobile platform, etc.
3. Intelligent drive
Adaptive control – real-time dynamic adjustment of force and trajectory to adapt to different workpieces and working conditions
Energy-saving design – using high-efficiency motors and regenerative braking technology to reduce energy consumption by more than 30%
Low maintenance cost – no complex hydraulic/pneumatic system, reducing failure points and maintenance requirements
4. Minimalist interaction
Drag-and-drop teaching – no programming foundation is required, workers can record the action path with manual guidance
Voice/gesture control – optional intelligent interaction mode, freeing hands
Visual interface – touch screen panel displays load, energy consumption, working status in real time
5. Sustainability
Lightweight materials – aviation-grade aluminum alloy + carbon fiber structure, high strength and low energy consumption
Long-life design – key components are wear-resistant, with a service life of 100,000 hours+
Low-noise operation – <65dB, improving the workshop working environment
Typical application scenarios:
Automobile production line: precision parts assembly
Electronic factory: chip handling and testing
Medical field: surgical instrument delivery
Food processing: hygienic packaging and sorting
