2.5m Ultra-High Bag Palletizing Solution with Robotic Riser Pedestal Palletizing Robot
Βασικές Ιδιότητες
Τόπος καταγωγής:
ΙΑΠΩΝΙΑ
Επωνυμία Μάρκας:
KAWASAKI
Πιστοποίηση:
CE
Αριθμός μοντέλου:
180-300
Εμπορικά Ακίνητα
Ελάχιστη ποσότητα παραγγελίας:
1
Τιμή:
USD70000-250000
Όροι πληρωμής:
T/T
Δυνατότητα Προμήθειας:
20 σύνολα το μήνα
Σύνοψη του προϊόντος
Ρομπότ παλετοποίησης τσάντας μήκους 2,5 μέτρων με μεγάλη εμβέλεια για αποτελεσματικό βιομηχανικό αυτοματισμό. Ανθεκτική και ακριβής λύση για εργασίες παλετοποίησης μεγάλου όγκου.
Λεπτομέρειες προϊόντος
Maximum Height:
2,5μ
Function:
Παλετοποίηση
Type:
Robotic Riser
Model:
Ύψος βάθρου-Επέκταση-Παλέτα-Γραμμή1
Περιγραφή προϊόντος
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2.5m Ultra-High Bag Palletizing Solution: Robotic Riser / Pedestal Height-Extend-Pallet-Line1Introduction: Breaking the Height Limits in Automated PalletizingIn modern warehousing and smart logistics, maximizing vertical storage capacity is the most effective way to cut operational costs. However, stacking heavy bags (25kg - 50kg of chemicals, grains, or construction materials) on a pallet up to an extreme height of 2.5 meters (98 inches) presents significant engineering challenges, such as robot workspace limitations, high-altitude vibrations, and the high risk of stack collapse.To address these pain points, the Robotic Riser / Pedestal Height-Extend-Pallet-Line1 introduces a heavy-duty, custom-engineered robotic pedestal integrated with advanced dynamic stabilization. This system ensures seamless, high-speed, and rock-solid palletizing at maximum heights.
1. System Overview: Core Configurations of Line1The Height-Extend-Pallet-Line1 is engineered for heavy-duty, ultra-high, and continuous back-end packaging. The system consists of four key modules:- Heavy-Duty Robotic Riser / Pedestal
The core component for ultra-high stacking. A custom-fabricated, heavy-duty steel riser elevates the robot’s base by 1.5m to 1.8m. This offsets the robot's cinematic center upward, moving its optimal working envelope to cover the 2.0m to 2.5m peak layers effortlessly. - High-Payload Palletizing Robot
Equipped with a high-payload (180kg - 300kg) and long-reach (2.8m - 3.2m) 4-axis or 6-axis industrial robot, maintaining a (pm0.05text{mm}) repeatability precision even at full-extension and maximum height. - Infeed Bag Conditioning System
Includes a bag flattener (dual-belt pressing conveyor) and an inline checkweigher to ensure every bag is perfectly shaped before pick-up. - End-of-Line Pallet Security System
Integrated with an automatic Pallet Dispenser, heavy-duty pallet conveyors, and a high-profile automatic stretch wrapper.
2. Key Optimization Strategies for 2.5m High-Altitude PalletizingTo conquer the gravity, inertia, and stability challenges of a 2.5m stack, Line1 features four proprietary engineering upgrades:Optimization 1: Kinematic Simulation & Anti-Torsion Pedestal Design- The Challenge: When a robot manipulates a 50kg bag at a 2.5m height and decelerates rapidly, it creates massive inertial shear forces. Insufficient pedestal rigidity leads to Torsional Vibration, causing robot joint errors and shortening gearbox lifespans.
- The Solution: The robotic riser utilizes internal gusset plates and diagonal cross-bracing with thick-walled structural square tubing. The foundation is upgraded to a 300mm C30 concrete base with heavy-duty chemical anchors. Riser height is calibrated via Kinematic Simulation software to ensure the robot operates within its peak torque angle (120°–150°) at the 2.5m top layer.
Optimization 2: Progressive "Inward-Incline" Stacking Algorithm (Zero-Collapse)- The Challenge: Aerated powders or shifting granules cause the pallet's center of gravity to drift when stacked over 2 meters, leading to dangerous product tilting or collapse.
- The Solution: Dual对压 (Opposing-pressure) bag flatteners expel residual air, converting bags into uniform "flat bricks." The control software applies a Progressive Inward-Incline Algorithm: while layers 1–4 follow standard dimensions, starting from layer 5, the coordinates shrink inward by 10–15mm per layer, forming a highly stable, pyramid-like matrix.
Optimization 3: Four-Side Clamping Heavy-Duty Gripper- The Solution: Standard fork grippers can cause bags to slide during high-altitude release. Line1 features a custom-engineered gripper with pneumatic side shrouds and top-down compression plates. The shrouds constrain the bag on all four sides at the exact millisecond of placement, eliminating lateral shifting at 2.5 meters.
Optimization 4: "Wrap-As-You-Build" Inline Stretch Wrapping- The Challenge: Transporting a loose, 2.5m high pallet on standard rollers to a remote wrapper introduces starting/stopping inertia that easily topples the stack.
- The Solution: A high-speed orbital stretch wrapper is directly integrated into the palletizing station. Once the robot builds up to layer 4 (approx. 1.2m), the wrapper triggers automatically to secure the base layers. The robot continues stacking high-altitude layers while the machine wraps simultaneously below, finalizing a tightly secured unit before it ever moves on the conveyor.
3. Strategic Business Benefits for Global Sourcing Managers- 25%+ Increase in Warehouse Volumetric Efficiency: Seamlessly pushes past the traditional 1.8m limit to 2.5m, drastically reducing the required warehouse floor footprint.
- 30% Reduction in Equipment Mechanical Stress: Anti-vibration riser design eliminates harmonic resonance, protecting expensive robot reducers and motors.
- Zero-Accident Workplace Compliance: High-altitude synchronization and pyramid stacking eliminate the hazards of tipping stacks and falling inventory
- Heavy-Duty Robotic Riser / Pedestal
- SHIPPING
Mrs. Candy
International Department Director
- E-mail: candycxy0614@163.com
- τηλ: +86 156 560 19 588
- whatsapp: +8615656019588
-
Wechat:
86 15656019588
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