Hayward SuperDirector Enhanced Flow Inlet SP1420

Product Overview

As a retailer of hot tub and spa parts, I’m featuring this premium Hayward SuperDirector inlet fitting. This advanced model features a specialized 7/8″ rubber nozzle design, offering enhanced directional control and superior flow characteristics.

Technical Description

The Hayward SP1420 SuperDirector combines a generous 7/8″ orifice with a 2-3/8″ housing size and unique rubber nozzle construction. This innovative design provides exceptional flow control and durability compared to standard rigid fittings.

Key Features

• Flexible 7/8″ rubber nozzle opening
• 2-3/8″ housing size
• 1-1/2″ MPT connection
• Enhanced directional capabilities
• UV-resistant white housing
• Advanced rubber nozzle technology

Specifications Table

Specification	Detail
Model Number	SP1420
Brand	Hayward SuperDirector
Orifice Size	7/8″
Housing Size	2-3/8″
Thread Size	1-1/2″ MPT
Nozzle Material	Rubber
Housing Color	White
Housing Material	UV-resistant PVC

Installation Compatibility

Designed for standard 1-1/2″ threaded connections, this fitting integrates easily with existing systems. The 2-3/8″ housing size ensures compatibility with standard openings while the rubber nozzle provides superior adjustment flexibility.

Performance Features

• Flexible rubber construction for precise adjustment
• High-volume flow through 7/8″ opening
• Superior directional control
• Vibration dampening
• Enhanced durability

Applications

• High-performance pool returns
• Premium spa installations
• Custom water features
• Professional installations
• Systems requiring precise flow control

Technical Benefits

The rubber nozzle design offers unique advantages over traditional rigid eyeballs, including:

• Improved directional precision
• Reduced wear and noise
• Enhanced flow characteristics
• Greater adjustment range
• Superior longevity

This Hayward SuperDirector inlet represents a premium solution for applications requiring superior flow control and durability, engineered with advanced materials for optimal performance