Application of Modules in Printing Equipment

Application of Modules in Printing Equipment

The application of modules in printing equipment mainly focuses on improving equipment precision, 

efficiency, and flexibility, playing a crucial role, especially in automated, high-speed printing scenarios. 

The following are core application scenarios and technical characteristics:

I. Core Application Scenarios

1. Transmission System Upgrade

Synchronous belt linear modules (such as the Dingge DGE series) have become the core transmission 

unit of printing equipment due to their high-speed motion (peak speed up to 5m/s) and long stroke 

adaptability (effective stroke 100-3000mm). For example, in label application and large-format printing, 

they can drive inkjet heads or cleaning brushes to complete rapid positioning and cross-area movement,

 improving efficiency by more than 5 times compared to traditional lead screw modules.

2. Cutting Module Selection

Cutter Module: Suitable for paper or plastic labels, it achieves precise cutting through vertical downward

 pressure from a robotic arm. Hanprint's "non-retractable cutter" technology improves continuous 

cutting efficiency.

Rotary Cutting Module: Employs a rotary cutting method, suitable for soft materials (such as fabric 

labels and care labels), reducing the risk of material deformation.

3. Die-cutting and Paper Feeding Control: Servo modules (such as the Delta A2 series) are used in the 

paper feeding section of the die-cutting machine. Through high synchronization control of the die

-feeding and die-cutting axes, phase lag is avoided, ensuring that the registration accuracy error for 

color printing is ≤ ±0.1mm.

4. Slotting Section Function Implementation: The slotting section of the carton printing machine uses 

modular blade sets (slotting blades, corner cutting blades) to complete the slotting and folding line 

processing. Its accuracy directly affects the carton forming quality and must be precisely matched with 

the printing speed.

 II. Technical Advantages Comparison

Dimension:         Synchronous Belt Module,               Ball Screw Module,                Rack and Pinion Module

Maximum Speed:                   5m/s,                                    ≤0.1m/s,                                         3m/s

Long Stroke Economy: 3000mm cost controllable,       >1000mm cost surges by 50%,            requires customization, long delivery cycle

Maintenance Complexity: Low (manual grease injection),     High (periodic calibration),        Medium (requires rack lubrication)

Environmental Adaptability: Dustproof and sealed,              resistant to ink corrosion,            susceptible to dust intrusion, requires additional protection

III. Typical Equipment Cases

Pick and Place Machine:    Modular design (e.g., NXT series) supports flexible splicing, each module is 

independently controlled, and production capacity can be quickly adjusted.

LED Printer Head: Modular array structure (e.g., single/dual-row LED) supports resolution switching, 

faulty modules can be replaced individually.

Modular design, through standardized interfaces and flexible configuration, significantly reduces the 

maintenance cost and upgrade difficulty of printing equipment, driving the industry towards intelligent 

and efficient development.