2 models: CZ-A, CZ-I
3 sizes: 950, 1050, 1250
Variety of options for customization
Feature Technologies
Stepless Inclination System
0°~25° continuously adjustable angle
Variable Jogging Frequency
Powerful variable frequency vibration system
Two Direction Inclination
Left or right inclination for your needs
Hydraulic Inclination System
Save up to 50% energy
One-click Jogging
Super easy one-click jogging operation
One-click Reset
Automatically reset to original position
Remote Service System
Internet based system service and update
Chromed Steel Working Table
16mm Ultra-slim design with great strength
Automatic Micro-pore Air Cushion
Air cushion is formed only under materials
Integral Casting Body and Frame
Great mechanical strength and stability
Air Removal System*
Remove inside air after jogging
Dual-linear Guide Air Removal System*
Great stability and maintenance free
* Configuration or function is different from models
Stepless Inclination System
Revolutionary 0°~25° continuously adjustable angle of inclination
Suitable for various type of paper, especially for ultra-thin paper jogging
Variable Frequency Vibration System
High quality variable frequency controlled vibration motor
Vibration frequency is adjustable according to the paper type
Greatly improve jogging performance and efficiency
Hydraulic Inclination System
No traditional wiring and gear rack inclination system
Save up to 50% energy compared to traditional stack jogger
Remote Service
Internet based service system
System diagnose and software update
Advanced P2P communication technology
Air Removal System*
Removing air inside the stack after jogging
Convenient for handling in next cutting process
*Only available on CZ-I Models
Chromed steel table
16mm slim chromed steel working table
Innovative embedded air chambers carved by CNC technology
Automatic Micro-pore Air Cushion
2mm diameter automatic micro-pore air injector
Air cushion is formed automatically under materials
Up to 25% energy saving and great performance
Integral Casting Body and Frame
Significantly improve mechanical strength
Eliminate system instability of traditional assembly structure