Super-Pro | 23306-100-000 | Venturi Tee with 1/4" Nozzle | 1.5" Slip x 1.5" Slip x .75" Slip

Super-Pro | 23306-100-000 | Venturi Tee with 1/4" Nozzle | 1.5" Slip x 1.5" Slip x .75" Slip
The Super-Pro 23306-100-000 Venturi Tee is a spa plumbing fitting designed for compatible hydrotherapy and jet circulation systems. Featuring 1.5" slip x 1.5" slip x .75" slip connections and an integrated 1/4" nozzle, this venturi tee supports air and water mixing for enhanced spa jet performance.
โโโโโโโโโโโโโโโโโโ
Key Features
โข Venturi tee fitting designed for compatible spa, hot tub, and hydrotherapy plumbing systems
โข 1.5" slip x 1.5" slip x .75" slip connection configuration supports approved water and air line installations
โข Integrated 1/4" nozzle helps create venturi action for efficient air induction into the water stream
โข Designed to support hydrotherapy jet performance and water circulation in compatible spa systems
โข Suitable for gunite spas, therapy spas, hot tubs, and custom aquatic installations
โข Used during new construction, spa renovations, plumbing repairs, or replacement of existing venturi fittings
โข Supports compatibility with approved jet bodies, air controls, and manifold plumbing assemblies
โข Professional installation is recommended to verify plumbing layout, fitting orientation, solvent welding procedures, and system compatibility
โโโโโโโโโโโโโโโโโโ
Product Overview
The Super-Pro 23306-100-000 1.5" Slip x 1.5" Slip x .75" Slip Venturi Tee with 1/4" Nozzle is engineered for spa plumbing systems requiring controlled air and water mixing to achieve proper hydrotherapy jet operation. The integrated nozzle creates venturi action that draws air into the circulating water stream, enhancing jet performance and user comfort.
This fitting is commonly used in spas, hot tubs, and therapy systems where reliable hydrotherapy performance is required. Proper installation, pipe alignment, solvent cement application, pressure testing, and compatibility verification are essential to maintain dependable operation and long-term plumbing system reliability.
Original: $19.99
-65%$19.99
$7.00Product Information
Product Information
Shipping & Returns
Shipping & Returns
Description
The Super-Pro 23306-100-000 Venturi Tee is a spa plumbing fitting designed for compatible hydrotherapy and jet circulation systems. Featuring 1.5" slip x 1.5" slip x .75" slip connections and an integrated 1/4" nozzle, this venturi tee supports air and water mixing for enhanced spa jet performance.
โโโโโโโโโโโโโโโโโโ
Key Features
โข Venturi tee fitting designed for compatible spa, hot tub, and hydrotherapy plumbing systems
โข 1.5" slip x 1.5" slip x .75" slip connection configuration supports approved water and air line installations
โข Integrated 1/4" nozzle helps create venturi action for efficient air induction into the water stream
โข Designed to support hydrotherapy jet performance and water circulation in compatible spa systems
โข Suitable for gunite spas, therapy spas, hot tubs, and custom aquatic installations
โข Used during new construction, spa renovations, plumbing repairs, or replacement of existing venturi fittings
โข Supports compatibility with approved jet bodies, air controls, and manifold plumbing assemblies
โข Professional installation is recommended to verify plumbing layout, fitting orientation, solvent welding procedures, and system compatibility
โโโโโโโโโโโโโโโโโโ
Product Overview
The Super-Pro 23306-100-000 1.5" Slip x 1.5" Slip x .75" Slip Venturi Tee with 1/4" Nozzle is engineered for spa plumbing systems requiring controlled air and water mixing to achieve proper hydrotherapy jet operation. The integrated nozzle creates venturi action that draws air into the circulating water stream, enhancing jet performance and user comfort.
This fitting is commonly used in spas, hot tubs, and therapy systems where reliable hydrotherapy performance is required. Proper installation, pipe alignment, solvent cement application, pressure testing, and compatibility verification are essential to maintain dependable operation and long-term plumbing system reliability.



















