Equipment Introduction
Crafted from high-performance glass fiber reinforced plastic (GRP), the pump station cylinder combines alkali-free glass fibers for tensile strength and unsaturated resin for structural integrity. This composite offers a unique blend of benefits:
Lightweight yet rigid, it simplifies installation while ensuring stability in various environments. Its non-conductive property enhances safety in electrical zones. With mechanical strength comparable to metals, it withstands high hydraulic pressure without deformation.
Notably, its superior corrosion resistance makes it ideal for long-term water management applications, resisting damage from prolonged water immersion or corrosive substances. This durability reduces maintenance needs, ensuring reliable performance in water treatment and distribution systems.
Imported/Joint-Venture Brand:
Utilizes premium imported or joint-venture brand submersible pumps.
Casting Technology:
Precision investment casting with nodular cast iron (ductile iron) for superior structural integrity.
Anti-Corrosion Treatment:
Electrophoretic internal penetration process enhances corrosion resistance, ensuring high efficiency, low failure rates, and extended service life.
Self-Coupling Installation:
Features self-aligning coupling system for quick and tool-free maintenance.
Materials:
Coupling body: Nodular cast iron
Guide rods: 304 stainless steel
Lifting chains: 304 stainless steel
Working Principle
The overall design undergoes CFD (computational fluid dynamics) finite element analysis. Equipped with professional glass fiber winding equipment for continuous winding, it enhances the hardness of the glass fiber cylinder. The winding process is fully controlled by a computer. Through calculating the longitudinal stress of the cylinder fibers, the manufacturing is strictly regulated to ensure uniform thickness of the cylinder and even distribution of transverse and longitudinal glass fibers, guaranteeing stable and excellent quality.
Application Scope
Engineering and Construction:
Modular integrated structures applied in super high-rise office buildings reduce the construction period by 40% and the error rate by 60% compared to industry standards, reshaping city skylines.
Computer Field:
AI-based integrated architectures empower financial technology, accelerating risk prediction by 3 times and breaking through data retrieval bottlenecks.
Materials Manufacturing:
Nano-integrated structures in new energy vehicle batteries boost energy density by 50% and nearly eliminate thermal runaway risks.
Sustainable Development:
Demountable integrated structures for post-disaster reconstruction enable the establishment of self-sufficient communities within 72 hours, with recyclable components.
Internet of Things:
Software-hardware integration in smart factories cuts equipment failure rates by 85% and increases production ramp-up speed by 200%.
