Mainstream Industrial Servo Gravure
260 m/min Servo Gravure Printing Machine
The 260 m/min Servo Gravure Printing Machine is a high-performance servo-driven rotogravure printing system designed for flexible packaging manufacturers requiring both high productivity and high print quality.
It is positioned as a mainstream industrial production model within servo gravure technology, balancing speed, stability, and precision for continuous long-run printing applications. This model is widely adopted in medium-to-large packaging enterprises that require stable high-output production with advanced electronic registration control.
Printing Unit System
High-Precision Servo-Controlled Modules
Cylinder & Inking
- Independent servo-driven cylinder system
- Precision gravure cylinder assembly
- Closed-loop doctor blade ink metering system
Impression Control
- Adjustable impression roller system
- Electronic pressure regulation mechanism
- Consistent ink transfer across long production runs
High-Speed Drying
High-efficiency multi-zone drying to support 260 m/min production speed:
- Segmented hot air circulation zones
- Independent temperature control per printing unit
- Optimized air flow distribution system
- Rapid solvent evaporation capability
- Energy-efficient exhaust management system
Drying synchronized with production speed changes to maintain stable ink drying performance.
Registration & Tension
Electronic Control for High-Speed Multi-Color Printing
Registration and Control System
- Real-time color alignment correction
- High-speed registration tracking
- Automatic compensation for material tension variation
- Job memory storage for repeat orders
- Reduced setup time during job changeover
The system maintains stable registration performance even under continuous production conditions at high speed.
Tension Control System
Fully automated closed-loop tension control:
- Real-time tension adjustment
- Stable feeding under high-speed operation
- Reduced material deformation risk
- Improved registration consistency during acceleration and deceleration
Process Flow
Unwinding → automatic tension control → servo-controlled multi-color printing → high-efficiency drying → real-time registration correction → rewinding.
260 m/min Servo Gravure · 8-color · 1000 mm
- Drive system
- Independent servo per printing unit
- Max speed
- 260 m/min class
- Color configuration
- 8 colors
- Print width
- 1000 mm
- Registration
- Advanced electronic registration
- Drying
- Multi-zone hot air circulation
Production Fit
Applications, Advantages & Engineering Summary
Material Compatibility
- BOPP film
- PET film
- PE film
- PVC film
- Laminated films
- Paper-based packaging materials
Industrial Applications
- High-volume flexible packaging production
- Food packaging manufacturing
- Premium retail packaging production
- Cosmetic and personal care packaging
- Industrial film printing
- Multi-color packaging conversion plants
Key Advantages
- Independent servo drive for each printing unit
- High-speed stable production at 260 m/min class
- Improved registration accuracy over lower-speed models
- Reduced setup time and production waste
- Strong adaptability for multi-job production environments
- Suitable for continuous industrial-scale operation
Engineering Limitations
Compared with ultra-high-speed servo models: not designed for extreme high-speed production beyond standard industrial range; requires advanced electronic control maintenance; higher system complexity compared to mechanical shaft models; higher initial investment cost.
Optional Systems
- EPC web guiding system
- Closed doctor blade chamber system
- Corona surface treatment unit
- Video inspection system
- Ink viscosity control system
- Solvent recovery system integration
- Automatic job change memory system
Engineering Summary: The 260 m/min Servo Gravure Printing Machine represents a balanced high-speed servo solution for modern flexible packaging production—combining independent servo drive technology with advanced registration control and stable drying performance for manufacturers requiring both production efficiency and high print quality in continuous operation environments.