PP Compression Female Threaded Tee
BSX PP Compression Female Threaded Tee
raw material:PP
Standard:CE ISO
Specification:20毫米-110毫米/customization
pressure: PN6、 PN8、PN10、PN16
- Overview
- Recommended Products
Product Overview
Baishunxing Pipe Industry The PP Compression Female Threaded Tee is a versatile fitting designed to provide a 90-degree threaded branch from a Polyethylene (PE) pipeline. It features two compression sockets for PE pipes and one central internal (female) threaded outlet. This fitting is ideal for integrating threaded valves, gauges, or sprinklers into a PE network without the need for thermal welding or adhesives.
Technical Features
Specialized T-Branching: Engineered to transition from standard PE pipes to any male threaded component at a perfect right angle.
Standardized Internal Threads: Precision-cut threads (BSP/NPT) ensure total compatibility with industrial and domestic threaded fixtures.
High-Performance Sealing: Equipped with premium NBR O-rings and high-tenacity clinching rings for a leak-proof seal under extreme conditions.
Core Advantages
Swift Tool-Free Installation: The "Insert and Tighten" design allows for rapid manual setup. No electricity or specialized equipment required.
Maximum Corrosion Resistance: UV-stabilized and chemically inert, it will not rust or scale even in harsh agricultural or chemical environments.
High Pressure Rating: Certified for working pressures up to PN16 (16 bar), providing excellent safety against hydraulic shock.
Reusable & Sustainable: Easily disassembled and relocated, offering a low-cost solution for modular piping systems.
Applications
Agricultural Irrigation: Connecting PE mainlines to irrigation valves, fertilizer injectors, and pressure gauges.
Municipal & Domestic Water: Branching service lines to taps, water meters, and household appliances.
Industrial Fluid Systems: Integrating sensors, chemical dosing lines, and cooling equipment into PE networks.
Landscaping: Branching underground pipes to risers, sprinklers, and outdoor garden manifolds.
