Continuous labeling with dual-station material feeding
This vision-guided labeling platform is engineered for products that require
back-adhesive application with uninterrupted material supply,
supporting continuous operation across diverse manufacturing environments.
The dual-station feeding architecture allows material replenishment without
stopping production, improving overall line efficiency while maintaining
consistent placement accuracy.
The platform is suitable for a wide range of products requiring back-adhesive
or pressure-sensitive material application, particularly where flexibility
and production continuity are critical.
- 3C electronics and consumer electronic products
- Toys and recreational products
- Homeware and gift packaging
- General consumer and industrial products requiring adhesive application
The system adopts a dual-station automatic feeding mechanism to ensure
uninterrupted material supply during operation. Materials are automatically
lifted, fed, and staged for pickup.
A four-axis motion system performs automated pickup of adhesive materials.
A bottom-mounted vision camera detects real-time adhesive position, while
a top-mounted camera identifies product placement coordinates.
Proprietary positioning algorithms calculate offset data and apply
closed-loop correction prior to placement, enabling placement accuracy
of up to ±0.05 mm.
| Placement Yield | ≥ 99.5% |
| Process Scrap Rate | ≤ 1% |
| Operational Stability | ≥ 95% |
| Throughput Range | 1,500 – 2,000 units/hour |
| Mechanical Platform |
Precision ball screw and linear guide system (HIWIN / TBI), Y-axis upgradeable to linear motor configuration |
| Drive & Motion | Multi-axis servo and closed-loop stepper architecture |
| Vision Hardware | Dual industrial vision cameras (6–20 MP) |
| Control Software | Integrated motion and vision control software platform |
| Industrial Computing | Industrial PC, Intel® Core™ i5 class |
The platform is designed to support continuous production with minimal
operator intervention, combining stable motion control with intelligent
vision-based positioning.
Its architecture enables manufacturers to maintain high yield and
consistent quality while scaling output across diverse product categories.