DeepSeek empowers the slitter through AI technology, effectively solving multiple problems in traditional cutting, which is reflected in the following aspects:
1. Precise cutting
• Visual recognition: AI combined with high-precision cameras can identify material characteristics in real time and automatically adjust cutting parameters to ensure the accuracy of each cut.
• Path optimization: AI algorithms optimize cutting paths, reduce waste, and improve material utilization.
2. Automate operations
• Intelligent control: AI automates the cutting process, reduces manual intervention, and reduces operation difficulty and error rate.
• Automatic calibration: The equipment is automatically calibrated to ensure the stability of long-term operation.
3. Efficiency improvement
• Real-time adjustment: AI adjusts cutting parameters in real-time according to material changes to maintain efficient production.
• Predictive Maintenance: Predict equipment failures through data analysis, advance maintenance, and reduce downtime.
4. Quality control
• Defect detection: AI detects material defects in real time and automatically adjusts the cutting plan to ensure the quality of the finished product.
• Data Recording: Record the data of each cut for easy quality traceability and improvement.
5. Cost reduction
• Waste Reduction: Optimize cutting paths and parameters to reduce material waste.
• Energy saving and consumption reduction: Intelligently adjust the power of the equipment to reduce energy consumption.
6. Flexible production
• Quick switching: AI supports quick switching between different cutting tasks to meet the production needs of small batches and multiple varieties.
• Customized solutions: Generate personalized cutting solutions according to customer needs to enhance market competitiveness.
summary
DeepSeek's AI technology comprehensively solves the problems in traditional cutting through precision cutting, automated operation, efficiency improvement, quality control, cost reduction and flexible production, and improves production efficiency and product quality.
The following is a detailed solution and explanation of the Internet of Things to improve the efficiency of digital hot stamping foil slitting machines:
02. September, 2025This innovation is not only a stack of technology, but also a reflection of a deep understanding of the production process and a data-centric manufacturing philosophy.
02. September, 2025The "burr" problem is essentially irregular, fuzzy, fine foil powder or drawing on the edges of the slitted foil strip. This can lead to foil stamping:
02. September, 2025Any scratches, indentations, stretches or static electricity will cause the hot stamping foil to be scrapped.
01. September, 2025In 2024, the film slitting machine market is shifting from traditional "functional" equipment to "value" solutions.
01. September, 2025