Dòng làm lót tủ đông của chúng tôi là một hệ thống sản xuất tự động hiện đại được thiết kế để sản xuất lót tủ đông và tủ lạnh chất lượng cao.Dòng tiên tiến này tích hợp các quy trình tiên tiến bao gồm cả việc cho ăn lá, sưởi ấm, tạo chân không, cắt và đâm để sản xuất lớp lót bền, chính xác về kích thước và không khí với bề mặt mịn màng, hoàn hảo cho các thiết bị làm lạnh.
Brief: Discover the Freezer Liner Forming Line, the ultimate automated production solution for refrigeration components. This advanced system integrates material feeding, precision heating, vacuum forming, and trimming into one seamless workflow, ensuring high-quality output with ±0.3mm accuracy. Perfect for 24/7 production, it exceeds industry hygiene standards with flawless airtight seals and smooth surfaces.
Related Product Features:
Advanced PLC-controlled automation ensures flawless coordination between all stations.
Proprietary vacuum forming technology with dynamic pressure regulation and multi-zone infrared heating.
Production speeds reaching 20 cycles per minute with consistent high-quality output.
Handles various thermoplastics including HIPS, ABS, PP, and PS composites (1.2mm to 5.0mm thickness).
Quick-change mold systems enable product transitions in under 15 minutes.
Automated vision inspection and laser measurement for quality assurance.
Advanced energy recovery system reduces power consumption by 35%.
IoT connectivity enables real-time monitoring and predictive maintenance.
Câu hỏi thường gặp:
What materials can the Freezer Liner Forming Line handle?
The line effortlessly handles various thermoplastics including HIPS, ABS, PP, and PS composites with thickness ranging from 1.2mm to 5.0mm.
How does the system ensure quality during production?
Quality assurance is embedded through automated vision inspection, laser measurement, and real-time thickness monitoring, ensuring dimensional accuracy and flawless surfaces.
What are the energy-saving features of the Freezer Liner Forming Line?
The system includes an advanced energy recovery system that reduces power consumption by 35% and optimized material nesting algorithms to minimize waste.