90mm to 75mm Grey PVC Reducer
Product Overview
As a retailer of hot tub spare parts, I’m offering this essential 90mm to 75mm grey PVC reducer. This fitting provides a professional solution for transitioning between different pipe sizes in your hot tub plumbing system, while maintaining optimal flow characteristics.
Key Features
- Concentric reduction design
- Gradual taper for smooth flow
- Heavy-duty PVC construction
- UV-stabilized grey color
- Double socket ends
- Precision-molded design
- Uniform wall thickness
Applications
- Pump connections
- Equipment adaptation
- Flow modification points
- System upgrades
- Retrofit installations
- Equipment room plumbing
Technical Specifications
Specification | Detail |
---|---|
Material | PVC (Polyvinyl Chloride) |
Color | Grey |
Large End Size | 90mm |
Small End Size | 75mm |
Connection Type | Pipe to Pipe |
Joint Type | Solvent Weld |
Working Temperature | 0°C to 60°C |
Pressure Rating | PN16 |
Reduction Ratio | 1.2:1 |
Surface Finish | Smooth |
Manufacturing Standard | BS EN 1452-3 |
Overall Length | Standard |
Installation Guide
- Ensure correct orientation
- Clean and prepare both pipe ends
- Apply primer to both sockets
- Use appropriate PVC cement
- Insert pipes fully into sockets
- Support pipes adequately
- Allow full cure time
Construction Features
- Hydraulically optimized reduction
- Full-depth sockets
- Reinforced shoulders
- Machined internal surface
- Stress-relieved design
Flow Characteristics
- Minimal pressure loss
- Smooth flow transition
- Reduced turbulence
- Optimized velocity control
- Even flow distribution
Best Practices
- Install in accessible location
- Maintain proper pipe alignment
- Support both pipe sizes
- Consider flow direction
- Allow for thermal movement
- Follow recommended cure times
Additional Benefits
This reducer provides a smooth transition between pipe sizes while maintaining system efficiency. The precision-molded design ensures consistent quality and reliable performance in hot tub applications. The gradual reduction helps minimize turbulence and maintain efficient flow characteristics