To resolve the logistical bottlenecks at the Hefei facility, a dual-tier hydraulic upending system was engineered, utilizing reinforced structural steel and an advanced remote-locking mechanism.
1. Modular Fixture and Structural Engineering
For the 1-ton operation, the platform was equipped with a detachable modular fixture designed to secure 18 steel pipes simultaneously. This ensures that the 38mm diameter, 6800mm long pipes remain bundled during the 90-degree transition. The 3-ton platform utilizes a heavy-duty J2001006 structural steel frame, providing the necessary torsional rigidity to tilt the transport trolley (6000mm length) without structural deflection. The platform surface features a 6mm thick reinforced steel plate to withstand the high-torque movements of the hydraulic cycle.
2. Precision Hydraulic Actuation and Safety Valves
The lifting force is generated by industrial hydraulic upenders utilizing Φ100-80 heavy-duty cylinders for the 3-ton model and Φ80-60 cylinders for the 1-ton variant. To prevent uncontrolled descent, each cylinder is equipped with a built-in explosion-proof valve and an adjustable flow control system. This allows the 5.5kW pump station to maintain a consistent 120-150 second cycle time, ensuring that the transition from horizontal to vertical is smooth and repeatable. The hydraulic circuit is designed to meet the EXTERNAL LINK: GB/T 15706 safety of machinery – General principles for design, incorporating an overflow valve to prevent damage from accidental overloading.
3. Remote-Controlled Locking and Electrical Control
A critical feature of the 3-ton solution is the automated trolley locking system. Technicians utilize a wireless remote to engage mechanical clamps that secure the 600x600x850mm trolley to the INTERNAL LINK: tilting platform. This eliminates manual lashing and significantly reduces the setup time. The electrical architecture utilizes Schneider Electric industrial control components, including a 6-meter shielded cable and a centralized control box. The system features integrated phase-loss protection and an emergency stop function, ensuring that the upender halts immediately if power anomalies are detected.
4. Optimized Powder-Filling Workflow
The platform is engineered to hold the load in a vertical position indefinitely, allowing personnel to extract pipes individually for powder filling. Once the filling process is complete, the platform is tilted back to a horizontal state for unloading. The speed of the return stroke is fully adjustable via the hydraulic control manifold, allowing the facility to tune the workflow based on the specific weight of the steel pipes being processed.
