Heavy Duty Press Automation High Tonnage Robotic Stamping Line Tandem Line Press 600parts/hour
Heavy Duty Press Automation High Tonnage Robotic Stamping Line Tandem Line Press 600parts/hour
Heavy Duty Press Automation High Tonnage Robotic Stamping Line Tandem Line Press 600parts/hour
Brand Name
Qicheng
country of origin
China
MOQ
1
unit price
Negotiable
payment method
TT/LC
Product Summary
Heavy-Duty Press Automation Robotic Stacking for Stamping Automation In high-tonnage environments—such as truck longitudinal beam production or large-scale infrastructure component forming—the transition from the final press to the storage rack is a critical throughput bottleneck. Zhejiang Qicheng ...
Product Details
Highlight:
automation high tonnage robotic stamping line
,tandem line press 600parts/hour
,automation tandem line press
Powersupply:
380V, 50Hz, 3-phase
Maximumsheetsize:
2000mm X 1500mm
Coolingsystem:
Hydraulic Cooling System
Tonnagecapacity:
1000-3000 Tons
Productionrate:
Up To 600 Parts Per Hour
Precision:
±0.05 Mm
Safetyfeatures:
Light Curtains, Emergency Stop Buttons
Maintenanceinterval:
Every 1000 Hours
Automationlevel:
Fully Automated
Robottype:
6-axis Industrial Robot
Materialcompatibility:
Steel, Aluminum, Copper
Controlsystem:
PLC With HMI Interface
Productname:
High Tonnage Robotic Stamping Line
Cycletime:
5-10 Seconds Per Stroke
Installationspace:
15m X 8m
Product Description
Heavy-Duty Press Automation Robotic Stacking for Stamping Automation
In high-tonnage environments—such as truck longitudinal beam production or large-scale infrastructure component forming—the transition from the final press to the storage rack is a critical throughput bottleneck. Zhejiang Qicheng Intelligent Technology provides specialized Heavy-Duty Robotic Stacking Systems integrated with ABB's most powerful industrial robots (IRB 7600 and IRB 8700). Our systems are engineered to manage payloads up to 800kg, ensuring that large-format, heavy-gauge stamped parts are extracted, inspected, and palletized with absolute structural integrity.
Heavy-Duty Stacking Performance Matrix
Our heavy-duty automation is designed to withstand the extreme mechanical stress of 24/7 high-tonnage production.
| Metric | Standard Stamping Stacking | Qicheng Heavy-Duty Automated Stacking |
|---|---|---|
| Max Payload Capacity | 150kg - 300kg | 500kg - 800kg (Reinforced Wrists) |
| Part Dimensions | Up to 2.5 Meters | Up to 6.0 Meters (Extended Reach) |
| Stacking Precision | ± 1.0mm | ± 0.1mm (Servo-Compensated) |
| Material Gauge | 0.8mm - 3.0mm | 4.0mm - 12.0mm+ (Heavy Plate) |
| Cycle Stability | Standard Paths | Inertia-Tuned Path Smoothing |
Technical Pillars of Heavy-Duty Stacking Automation
- Advanced Inertia Management (TrueMove™): Moving a 600kg steel component at high speed creates massive kinetic energy. We utilize ABB's TrueMove™ technology to calculate real-time torque requirements for every robot joint. This prevents "Mechanical Backlash" and ensures the robot maintains a rigid trajectory, even during rapid deceleration at the stacking point.
- Heavy-Duty Magnetic & Vacuum Hybrid EOAT: For heavy-gauge steel, standard suction is often insufficient. Qicheng designs Hybrid End-of-Arm Tooling that combines high-power permanent electromagnets with multi-stage vacuum arrays. This dual-redundancy ensures the part is "locked" to the robot during high-G maneuvers, eliminating the risk of part-slippage.
- Intelligent Scrap & Part Sorting: At the exit of a heavy-duty press line, the robot must often distinguish between finished parts and scrap skeletons. Our systems integrate High-Speed Vision Sensors that identify part geometry in real-time, directing the robot to place the finished component in the rack while simultaneously managing automated scrap removal.
- Precision Palletizing Logic (PalletWare): Heavy parts require specific stacking patterns to maintain rack stability. Our SAS Intelligent Stacking Software allows operators to define complex "Interlocking" patterns. The robot automatically adjusts its drop-off height as the stack grows, utilizing laser distance sensors to verify the stack's center of gravity.
Key System Highlights
- Automatic Tooling Rack (ATR): For facilities running multiple heavy part numbers, the robot can autonomously swap its 150kg EOAT assembly in under 3 minutes to match the next production run.
- Servo-Driven Stacking Tables: We integrate secondary servo-axes for the stacking pallets, allowing the table to tilt or rotate in sync with the robot for optimal part nesting.
- Real-Time Load Monitoring: Integrated sensors in the robot's base monitor for anomalous vibration or thermal signatures, providing predictive maintenance alerts to the SAS Cloud before a component failure occurs.
Industry Q&A (Heavy-Duty Focus)
Q: How do you protect the robot gearboxes from the constant impact of 500kg+ loads?
A: We utilize Soft-Placement Algorithms. Instead of a "Hard-Drop," the robot uses force-feedback sensors to detect the moment of contact with the stack. It then executes a controlled "Release" sequence that minimizes the shock-load transferred back into the robot's Axis 5 and 6 gearboxes.
Q: Can the system handle oily or scaled surfaces typical of heavy-duty hot-rolled steel?
A: Yes. We employ Self-Cleaning Vacuum Filters and high-friction magnetic grippers specifically designed for oily environments. This ensures a consistent grip regardless of the surface condition of the blank or finished part.
Q: What is the ROI for automating the stacking process in a heavy-duty line?
A: Beyond the 40-50% increase in SPM, the primary ROI comes from Risk Mitigation. Manually handling 50kg+ parts is a high-liability task. Automating this process eliminates workplace injuries and significantly reduces the "Damage-to-Part" rate during the palletizing phase.
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